linux-sg2042/drivers/pinctrl/sirf/pinctrl-atlas7.c

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pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/*
* pinctrl pads, groups, functions for CSR SiRFatlasVII
*
* Copyright (c) 2011 - 2014 Cambridge Silicon Radio Limited, a CSR plc group
* company.
*
* Licensed under GPLv2 or later.
*/
#include <linux/init.h>
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
#include <linux/platform_device.h>
#include <linux/io.h>
#include <linux/bitops.h>
#include <linux/irq.h>
#include <linux/slab.h>
#include <linux/clk.h>
#include <linux/of.h>
#include <linux/of_address.h>
#include <linux/of_device.h>
#include <linux/of_platform.h>
#include <linux/of_irq.h>
#include <linux/of_gpio.h>
#include <linux/pinctrl/machine.h>
#include <linux/pinctrl/pinconf.h>
#include <linux/pinctrl/pinctrl.h>
#include <linux/pinctrl/pinmux.h>
#include <linux/pinctrl/consumer.h>
#include <linux/pinctrl/pinconf-generic.h>
#include <linux/gpio.h>
/* Definition of Pad&Mux Properties */
#define N 0
/* The Bank contains input-disable regisgers */
#define BANK_DS 0
/* Clear Register offset */
#define CLR_REG(r) ((r) + 0x04)
/* Definition of multiple function select register */
#define FUNC_CLEAR_MASK 0x7
#define FUNC_GPIO 0
#define FUNC_ANALOGUE 0x8
#define ANA_CLEAR_MASK 0x1
/* The Atlas7's Pad Type List */
enum altas7_pad_type {
PAD_T_4WE_PD = 0, /* ZIO_PAD3V_4WE_PD */
PAD_T_4WE_PU, /* ZIO_PAD3V_4WE_PD */
PAD_T_16ST, /* ZIO_PAD3V_SDCLK_PD */
PAD_T_M31_0204_PD, /* PRDW0204SDGZ_M311311_PD */
PAD_T_M31_0204_PU, /* PRDW0204SDGZ_M311311_PU */
PAD_T_M31_0610_PD, /* PRUW0610SDGZ_M311311_PD */
PAD_T_M31_0610_PU, /* PRUW0610SDGZ_M311311_PU */
PAD_T_AD, /* PRDWUWHW08SCDG_HZ */
};
/* Raw value of Driver-Strength Bits */
#define DS3 BIT(3)
#define DS2 BIT(2)
#define DS1 BIT(1)
#define DS0 BIT(0)
#define DSZ 0
/* Drive-Strength Intermediate Values */
#define DS_NULL -1
#define DS_1BIT_IM_VAL DS0
#define DS_1BIT_MASK 0x1
#define DS_2BIT_IM_VAL (DS1 | DS0)
#define DS_2BIT_MASK 0x3
#define DS_4BIT_IM_VAL (DS3 | DS2 | DS1 | DS0)
#define DS_4BIT_MASK 0xf
/* The Drive-Strength of 4WE Pad DS1 0 CO */
#define DS_4WE_3 (DS1 | DS0) /* 1 1 3 */
#define DS_4WE_2 (DS1) /* 1 0 2 */
#define DS_4WE_1 (DS0) /* 0 1 1 */
#define DS_4WE_0 (DSZ) /* 0 0 0 */
/* The Drive-Strength of 16st Pad DS3 2 1 0 CO */
#define DS_16ST_15 (DS3 | DS2 | DS1 | DS0) /* 1 1 1 1 15 */
#define DS_16ST_14 (DS3 | DS2 | DS0) /* 1 1 0 1 13 */
#define DS_16ST_13 (DS3 | DS2 | DS1) /* 1 1 1 0 14 */
#define DS_16ST_12 (DS2 | DS1 | DS0) /* 0 1 1 1 7 */
#define DS_16ST_11 (DS2 | DS0) /* 0 1 0 1 5 */
#define DS_16ST_10 (DS3 | DS1 | DS0) /* 1 0 1 1 11 */
#define DS_16ST_9 (DS3 | DS0) /* 1 0 0 1 9 */
#define DS_16ST_8 (DS1 | DS0) /* 0 0 1 1 3 */
#define DS_16ST_7 (DS2 | DS1) /* 0 1 1 0 6 */
#define DS_16ST_6 (DS3 | DS2) /* 1 1 0 0 12 */
#define DS_16ST_5 (DS2) /* 0 1 0 0 4 */
#define DS_16ST_4 (DS3 | DS1) /* 1 0 1 0 10 */
#define DS_16ST_3 (DS1) /* 0 0 1 0 2 */
#define DS_16ST_2 (DS0) /* 0 0 0 1 1 */
#define DS_16ST_1 (DSZ) /* 0 0 0 0 0 */
#define DS_16ST_0 (DS3) /* 1 0 0 0 8 */
/* The Drive-Strength of M31 Pad DS0 CO */
#define DS_M31_0 (DSZ) /* 0 0 */
#define DS_M31_1 (DS0) /* 1 1 */
/* Raw values of Pull Option Bits */
#define PUN BIT(1)
#define PD BIT(0)
#define PE BIT(0)
#define PZ 0
/* Definition of Pull Types */
#define PULL_UP 0
#define HIGH_HYSTERESIS 1
#define HIGH_Z 2
#define PULL_DOWN 3
#define PULL_DISABLE 4
#define PULL_ENABLE 5
#define PULL_UNKNOWN -1
/* Pull Options for 4WE Pad PUN PD CO */
#define P4WE_PULL_MASK 0x3
#define P4WE_PULL_DOWN (PUN | PD) /* 1 1 3 */
#define P4WE_HIGH_Z (PUN) /* 1 0 2 */
#define P4WE_HIGH_HYSTERESIS (PD) /* 0 1 1 */
#define P4WE_PULL_UP (PZ) /* 0 0 0 */
/* Pull Options for 16ST Pad PUN PD CO */
#define P16ST_PULL_MASK 0x3
#define P16ST_PULL_DOWN (PUN | PD) /* 1 1 3 */
#define P16ST_HIGH_Z (PUN) /* 1 0 2 */
#define P16ST_PULL_UP (PZ) /* 0 0 0 */
/* Pull Options for M31 Pad PE */
#define PM31_PULL_MASK 0x1
#define PM31_PULL_ENABLED (PE) /* 1 */
#define PM31_PULL_DISABLED (PZ) /* 0 */
/* Pull Options for A/D Pad PUN PD CO */
#define PANGD_PULL_MASK 0x3
#define PANGD_PULL_DOWN (PUN | PD) /* 1 1 3 */
#define PANGD_HIGH_Z (PUN) /* 1 0 2 */
#define PANGD_PULL_UP (PZ) /* 0 0 0 */
/* Definition of Input Disable */
#define DI_MASK 0x1
#define DI_DISABLE 0x1
#define DI_ENABLE 0x0
/* Definition of Input Disable Value */
#define DIV_MASK 0x1
#define DIV_DISABLE 0x1
#define DIV_ENABLE 0x0
/* Number of Function input disable registers */
#define NUM_OF_IN_DISABLE_REG 0x2
/* Offset of Function input disable registers */
#define IN_DISABLE_0_REG_SET 0x0A00
#define IN_DISABLE_0_REG_CLR 0x0A04
#define IN_DISABLE_1_REG_SET 0x0A08
#define IN_DISABLE_1_REG_CLR 0x0A0C
#define IN_DISABLE_VAL_0_REG_SET 0x0A80
#define IN_DISABLE_VAL_0_REG_CLR 0x0A84
#define IN_DISABLE_VAL_1_REG_SET 0x0A88
#define IN_DISABLE_VAL_1_REG_CLR 0x0A8C
/* Offset of the SDIO9SEL*/
#define SYS2PCI_SDIO9SEL 0x14
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct dt_params {
const char *property;
int value;
};
/**
* struct atlas7_pad_conf - Atlas7 Pad Configuration
* @id The ID of this Pad.
* @type: The type of this Pad.
* @mux_reg: The mux register offset.
* This register contains the mux.
* @pupd_reg: The pull-up/down register offset.
* @drvstr_reg: The drive-strength register offset.
* @ad_ctrl_reg: The Analogue/Digital Control register.
*
* @mux_bit: The start bit of mux register.
* @pupd_bit: The start bit of pull-up/down register.
* @drvstr_bit: The start bit of drive-strength register.
* @ad_ctrl_bit: The start bit of analogue/digital register.
*/
struct atlas7_pad_config {
const u32 id;
u32 type;
u32 mux_reg;
u32 pupd_reg;
u32 drvstr_reg;
u32 ad_ctrl_reg;
/* bits in register */
u8 mux_bit;
u8 pupd_bit;
u8 drvstr_bit;
u8 ad_ctrl_bit;
};
#define PADCONF(pad, t, mr, pr, dsr, adr, mb, pb, dsb, adb) \
{ \
.id = pad, \
.type = t, \
.mux_reg = mr, \
.pupd_reg = pr, \
.drvstr_reg = dsr, \
.ad_ctrl_reg = adr, \
.mux_bit = mb, \
.pupd_bit = pb, \
.drvstr_bit = dsb, \
.ad_ctrl_bit = adb, \
}
/**
* struct atlas7_pad_status - Atlas7 Pad status
*/
struct atlas7_pad_status {
u8 func;
u8 pull;
u8 dstr;
u8 reserved;
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/**
* struct atlas7_pad_mux - Atlas7 mux
* @bank: The bank of this pad's registers on.
* @pin : The ID of this Pad.
* @func: The mux func on this Pad.
* @dinput_reg: The Input-Disable register offset.
* @dinput_bit: The start bit of Input-Disable register.
* @dinput_val_reg: The Input-Disable-value register offset.
* This register is used to set the value of this pad
* if this pad was disabled.
* @dinput_val_bit: The start bit of Input-Disable Value register.
*/
struct atlas7_pad_mux {
u32 bank;
u32 pin;
u32 func;
u32 dinput_reg;
u32 dinput_bit;
u32 dinput_val_reg;
u32 dinput_val_bit;
};
#define MUX(b, pad, f, dr, db, dvr, dvb) \
{ \
.bank = b, \
.pin = pad, \
.func = f, \
.dinput_reg = dr, \
.dinput_bit = db, \
.dinput_val_reg = dvr, \
.dinput_val_bit = dvb, \
}
struct atlas7_grp_mux {
unsigned int group;
unsigned int pad_mux_count;
const struct atlas7_pad_mux *pad_mux_list;
};
/**
* struct sirfsoc_pin_group - describes a SiRFprimaII pin group
* @name: the name of this specific pin group
* @pins: an array of discrete physical pins used in this group, taken
* from the driver-local pin enumeration space
* @num_pins: the number of pins in this group array, i.e. the number of
* elements in .pins so we can iterate over that array
*/
struct atlas7_pin_group {
const char *name;
const unsigned int *pins;
const unsigned num_pins;
};
#define GROUP(n, p) \
{ \
.name = n, \
.pins = p, \
.num_pins = ARRAY_SIZE(p), \
}
struct atlas7_pmx_func {
const char *name;
const char * const *groups;
const unsigned num_groups;
const struct atlas7_grp_mux *grpmux;
};
#define FUNCTION(n, g, m) \
{ \
.name = n, \
.groups = g, \
.num_groups = ARRAY_SIZE(g), \
.grpmux = m, \
}
struct atlas7_pinctrl_data {
struct pinctrl_pin_desc *pads;
int pads_cnt;
struct atlas7_pin_group *grps;
int grps_cnt;
struct atlas7_pmx_func *funcs;
int funcs_cnt;
struct atlas7_pad_config *confs;
int confs_cnt;
};
/* Platform info of atlas7 pinctrl */
#define ATLAS7_PINCTRL_REG_BANKS 2
#define ATLAS7_PINCTRL_BANK_0_PINS 18
#define ATLAS7_PINCTRL_BANK_1_PINS 141
#define ATLAS7_PINCTRL_TOTAL_PINS \
(ATLAS7_PINCTRL_BANK_0_PINS + ATLAS7_PINCTRL_BANK_1_PINS)
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/**
* Atlas7 GPIO Chip
*/
#define NGPIO_OF_BANK 32
#define GPIO_TO_BANK(gpio) ((gpio) / NGPIO_OF_BANK)
/* Registers of GPIO Controllers */
#define ATLAS7_GPIO_BASE(g, b) ((g)->reg + 0x100 * (b))
#define ATLAS7_GPIO_CTRL(b, i) ((b)->base + 4 * (i))
#define ATLAS7_GPIO_INT_STATUS(b) ((b)->base + 0x8C)
/* Definition bits of GPIO Control Registers */
#define ATLAS7_GPIO_CTL_INTR_LOW_MASK BIT(0)
#define ATLAS7_GPIO_CTL_INTR_HIGH_MASK BIT(1)
#define ATLAS7_GPIO_CTL_INTR_TYPE_MASK BIT(2)
#define ATLAS7_GPIO_CTL_INTR_EN_MASK BIT(3)
#define ATLAS7_GPIO_CTL_INTR_STATUS_MASK BIT(4)
#define ATLAS7_GPIO_CTL_OUT_EN_MASK BIT(5)
#define ATLAS7_GPIO_CTL_DATAOUT_MASK BIT(6)
#define ATLAS7_GPIO_CTL_DATAIN_MASK BIT(7)
struct atlas7_gpio_bank {
int id;
int irq;
void __iomem *base;
unsigned int gpio_offset;
unsigned int ngpio;
const unsigned int *gpio_pins;
u32 sleep_data[NGPIO_OF_BANK];
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
struct atlas7_gpio_chip {
const char *name;
void __iomem *reg;
struct clk *clk;
int nbank;
raw_spinlock_t lock;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct gpio_chip chip;
struct atlas7_gpio_bank banks[0];
};
/**
* @dev: a pointer back to containing device
* @virtbase: the offset to the controller in virtual memory
*/
struct atlas7_pmx {
struct device *dev;
struct pinctrl_dev *pctl;
struct pinctrl_desc pctl_desc;
struct atlas7_pinctrl_data *pctl_data;
void __iomem *regs[ATLAS7_PINCTRL_REG_BANKS];
void __iomem *sys2pci_base;
u32 status_ds[NUM_OF_IN_DISABLE_REG];
u32 status_dsv[NUM_OF_IN_DISABLE_REG];
struct atlas7_pad_status sleep_data[ATLAS7_PINCTRL_TOTAL_PINS];
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
/*
* Pad list for the pinmux subsystem
* refer to A7DA IO Summary - CS-314158-DD-4E.xls
*/
/*Pads in IOC RTC & TOP */
static const struct pinctrl_pin_desc atlas7_ioc_pads[] = {
/* RTC PADs */
PINCTRL_PIN(0, "rtc_gpio_0"),
PINCTRL_PIN(1, "rtc_gpio_1"),
PINCTRL_PIN(2, "rtc_gpio_2"),
PINCTRL_PIN(3, "rtc_gpio_3"),
PINCTRL_PIN(4, "low_bat_ind_b"),
PINCTRL_PIN(5, "on_key_b"),
PINCTRL_PIN(6, "ext_on"),
PINCTRL_PIN(7, "mem_on"),
PINCTRL_PIN(8, "core_on"),
PINCTRL_PIN(9, "io_on"),
PINCTRL_PIN(10, "can0_tx"),
PINCTRL_PIN(11, "can0_rx"),
PINCTRL_PIN(12, "spi0_clk"),
PINCTRL_PIN(13, "spi0_cs_b"),
PINCTRL_PIN(14, "spi0_io_0"),
PINCTRL_PIN(15, "spi0_io_1"),
PINCTRL_PIN(16, "spi0_io_2"),
PINCTRL_PIN(17, "spi0_io_3"),
/* TOP PADs */
PINCTRL_PIN(18, "spi1_en"),
PINCTRL_PIN(19, "spi1_clk"),
PINCTRL_PIN(20, "spi1_din"),
PINCTRL_PIN(21, "spi1_dout"),
PINCTRL_PIN(22, "trg_spi_clk"),
PINCTRL_PIN(23, "trg_spi_di"),
PINCTRL_PIN(24, "trg_spi_do"),
PINCTRL_PIN(25, "trg_spi_cs_b"),
PINCTRL_PIN(26, "trg_acq_d1"),
PINCTRL_PIN(27, "trg_irq_b"),
PINCTRL_PIN(28, "trg_acq_d0"),
PINCTRL_PIN(29, "trg_acq_clk"),
PINCTRL_PIN(30, "trg_shutdown_b_out"),
PINCTRL_PIN(31, "sdio2_clk"),
PINCTRL_PIN(32, "sdio2_cmd"),
PINCTRL_PIN(33, "sdio2_dat_0"),
PINCTRL_PIN(34, "sdio2_dat_1"),
PINCTRL_PIN(35, "sdio2_dat_2"),
PINCTRL_PIN(36, "sdio2_dat_3"),
PINCTRL_PIN(37, "df_ad_7"),
PINCTRL_PIN(38, "df_ad_6"),
PINCTRL_PIN(39, "df_ad_5"),
PINCTRL_PIN(40, "df_ad_4"),
PINCTRL_PIN(41, "df_ad_3"),
PINCTRL_PIN(42, "df_ad_2"),
PINCTRL_PIN(43, "df_ad_1"),
PINCTRL_PIN(44, "df_ad_0"),
PINCTRL_PIN(45, "df_dqs"),
PINCTRL_PIN(46, "df_cle"),
PINCTRL_PIN(47, "df_ale"),
PINCTRL_PIN(48, "df_we_b"),
PINCTRL_PIN(49, "df_re_b"),
PINCTRL_PIN(50, "df_ry_by"),
PINCTRL_PIN(51, "df_cs_b_1"),
PINCTRL_PIN(52, "df_cs_b_0"),
PINCTRL_PIN(53, "l_pclk"),
PINCTRL_PIN(54, "l_lck"),
PINCTRL_PIN(55, "l_fck"),
PINCTRL_PIN(56, "l_de"),
PINCTRL_PIN(57, "ldd_0"),
PINCTRL_PIN(58, "ldd_1"),
PINCTRL_PIN(59, "ldd_2"),
PINCTRL_PIN(60, "ldd_3"),
PINCTRL_PIN(61, "ldd_4"),
PINCTRL_PIN(62, "ldd_5"),
PINCTRL_PIN(63, "ldd_6"),
PINCTRL_PIN(64, "ldd_7"),
PINCTRL_PIN(65, "ldd_8"),
PINCTRL_PIN(66, "ldd_9"),
PINCTRL_PIN(67, "ldd_10"),
PINCTRL_PIN(68, "ldd_11"),
PINCTRL_PIN(69, "ldd_12"),
PINCTRL_PIN(70, "ldd_13"),
PINCTRL_PIN(71, "ldd_14"),
PINCTRL_PIN(72, "ldd_15"),
PINCTRL_PIN(73, "lcd_gpio_20"),
PINCTRL_PIN(74, "vip_0"),
PINCTRL_PIN(75, "vip_1"),
PINCTRL_PIN(76, "vip_2"),
PINCTRL_PIN(77, "vip_3"),
PINCTRL_PIN(78, "vip_4"),
PINCTRL_PIN(79, "vip_5"),
PINCTRL_PIN(80, "vip_6"),
PINCTRL_PIN(81, "vip_7"),
PINCTRL_PIN(82, "vip_pxclk"),
PINCTRL_PIN(83, "vip_hsync"),
PINCTRL_PIN(84, "vip_vsync"),
PINCTRL_PIN(85, "sdio3_clk"),
PINCTRL_PIN(86, "sdio3_cmd"),
PINCTRL_PIN(87, "sdio3_dat_0"),
PINCTRL_PIN(88, "sdio3_dat_1"),
PINCTRL_PIN(89, "sdio3_dat_2"),
PINCTRL_PIN(90, "sdio3_dat_3"),
PINCTRL_PIN(91, "sdio5_clk"),
PINCTRL_PIN(92, "sdio5_cmd"),
PINCTRL_PIN(93, "sdio5_dat_0"),
PINCTRL_PIN(94, "sdio5_dat_1"),
PINCTRL_PIN(95, "sdio5_dat_2"),
PINCTRL_PIN(96, "sdio5_dat_3"),
PINCTRL_PIN(97, "rgmii_txd_0"),
PINCTRL_PIN(98, "rgmii_txd_1"),
PINCTRL_PIN(99, "rgmii_txd_2"),
PINCTRL_PIN(100, "rgmii_txd_3"),
PINCTRL_PIN(101, "rgmii_txclk"),
PINCTRL_PIN(102, "rgmii_tx_ctl"),
PINCTRL_PIN(103, "rgmii_rxd_0"),
PINCTRL_PIN(104, "rgmii_rxd_1"),
PINCTRL_PIN(105, "rgmii_rxd_2"),
PINCTRL_PIN(106, "rgmii_rxd_3"),
PINCTRL_PIN(107, "rgmii_rx_clk"),
PINCTRL_PIN(108, "rgmii_rxc_ctl"),
PINCTRL_PIN(109, "rgmii_mdio"),
PINCTRL_PIN(110, "rgmii_mdc"),
PINCTRL_PIN(111, "rgmii_intr_n"),
PINCTRL_PIN(112, "i2s_mclk"),
PINCTRL_PIN(113, "i2s_bclk"),
PINCTRL_PIN(114, "i2s_ws"),
PINCTRL_PIN(115, "i2s_dout0"),
PINCTRL_PIN(116, "i2s_dout1"),
PINCTRL_PIN(117, "i2s_dout2"),
PINCTRL_PIN(118, "i2s_din"),
PINCTRL_PIN(119, "gpio_0"),
PINCTRL_PIN(120, "gpio_1"),
PINCTRL_PIN(121, "gpio_2"),
PINCTRL_PIN(122, "gpio_3"),
PINCTRL_PIN(123, "gpio_4"),
PINCTRL_PIN(124, "gpio_5"),
PINCTRL_PIN(125, "gpio_6"),
PINCTRL_PIN(126, "gpio_7"),
PINCTRL_PIN(127, "sda_0"),
PINCTRL_PIN(128, "scl_0"),
PINCTRL_PIN(129, "coex_pio_0"),
PINCTRL_PIN(130, "coex_pio_1"),
PINCTRL_PIN(131, "coex_pio_2"),
PINCTRL_PIN(132, "coex_pio_3"),
PINCTRL_PIN(133, "uart0_tx"),
PINCTRL_PIN(134, "uart0_rx"),
PINCTRL_PIN(135, "uart1_tx"),
PINCTRL_PIN(136, "uart1_rx"),
PINCTRL_PIN(137, "uart3_tx"),
PINCTRL_PIN(138, "uart3_rx"),
PINCTRL_PIN(139, "uart4_tx"),
PINCTRL_PIN(140, "uart4_rx"),
PINCTRL_PIN(141, "usp0_clk"),
PINCTRL_PIN(142, "usp0_tx"),
PINCTRL_PIN(143, "usp0_rx"),
PINCTRL_PIN(144, "usp0_fs"),
PINCTRL_PIN(145, "usp1_clk"),
PINCTRL_PIN(146, "usp1_tx"),
PINCTRL_PIN(147, "usp1_rx"),
PINCTRL_PIN(148, "usp1_fs"),
PINCTRL_PIN(149, "lvds_tx0d4p"),
PINCTRL_PIN(150, "lvds_tx0d4n"),
PINCTRL_PIN(151, "lvds_tx0d3p"),
PINCTRL_PIN(152, "lvds_tx0d3n"),
PINCTRL_PIN(153, "lvds_tx0d2p"),
PINCTRL_PIN(154, "lvds_tx0d2n"),
PINCTRL_PIN(155, "lvds_tx0d1p"),
PINCTRL_PIN(156, "lvds_tx0d1n"),
PINCTRL_PIN(157, "lvds_tx0d0p"),
PINCTRL_PIN(158, "lvds_tx0d0n"),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
PINCTRL_PIN(159, "jtag_tdo"),
PINCTRL_PIN(160, "jtag_tms"),
PINCTRL_PIN(161, "jtag_tck"),
PINCTRL_PIN(162, "jtag_tdi"),
PINCTRL_PIN(163, "jtag_trstn"),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_config atlas7_ioc_pad_confs[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* The Configuration of IOC_RTC Pads */
PADCONF(0, 3, 0x0, 0x100, 0x200, -1, 0, 0, 0, 0),
PADCONF(1, 3, 0x0, 0x100, 0x200, -1, 4, 2, 2, 0),
PADCONF(2, 3, 0x0, 0x100, 0x200, -1, 8, 4, 4, 0),
PADCONF(3, 5, 0x0, 0x100, 0x200, -1, 12, 6, 6, 0),
PADCONF(4, 4, 0x0, 0x100, 0x200, -1, 16, 8, 8, 0),
PADCONF(5, 4, 0x0, 0x100, 0x200, -1, 20, 10, 10, 0),
PADCONF(6, 3, 0x0, 0x100, 0x200, -1, 24, 12, 12, 0),
PADCONF(7, 3, 0x0, 0x100, 0x200, -1, 28, 14, 14, 0),
PADCONF(8, 3, 0x8, 0x100, 0x200, -1, 0, 16, 16, 0),
PADCONF(9, 3, 0x8, 0x100, 0x200, -1, 4, 18, 18, 0),
PADCONF(10, 4, 0x8, 0x100, 0x200, -1, 8, 20, 20, 0),
PADCONF(11, 4, 0x8, 0x100, 0x200, -1, 12, 22, 22, 0),
PADCONF(12, 5, 0x8, 0x100, 0x200, -1, 16, 24, 24, 0),
PADCONF(13, 6, 0x8, 0x100, 0x200, -1, 20, 26, 26, 0),
PADCONF(14, 5, 0x8, 0x100, 0x200, -1, 24, 28, 28, 0),
PADCONF(15, 5, 0x8, 0x100, 0x200, -1, 28, 30, 30, 0),
PADCONF(16, 5, 0x10, 0x108, 0x208, -1, 0, 0, 0, 0),
PADCONF(17, 5, 0x10, 0x108, 0x208, -1, 4, 2, 2, 0),
/* The Configuration of IOC_TOP Pads */
PADCONF(18, 5, 0x80, 0x180, 0x300, -1, 0, 0, 0, 0),
PADCONF(19, 5, 0x80, 0x180, 0x300, -1, 4, 2, 2, 0),
PADCONF(20, 5, 0x80, 0x180, 0x300, -1, 8, 4, 4, 0),
PADCONF(21, 5, 0x80, 0x180, 0x300, -1, 12, 6, 6, 0),
PADCONF(22, 5, 0x88, 0x188, 0x308, -1, 0, 0, 0, 0),
PADCONF(23, 5, 0x88, 0x188, 0x308, -1, 4, 2, 2, 0),
PADCONF(24, 5, 0x88, 0x188, 0x308, -1, 8, 4, 4, 0),
PADCONF(25, 6, 0x88, 0x188, 0x308, -1, 12, 6, 6, 0),
PADCONF(26, 5, 0x88, 0x188, 0x308, -1, 16, 8, 8, 0),
PADCONF(27, 6, 0x88, 0x188, 0x308, -1, 20, 10, 10, 0),
PADCONF(28, 5, 0x88, 0x188, 0x308, -1, 24, 12, 12, 0),
PADCONF(29, 5, 0x88, 0x188, 0x308, -1, 28, 14, 14, 0),
PADCONF(30, 5, 0x90, 0x188, 0x308, -1, 0, 16, 16, 0),
PADCONF(31, 2, 0x98, 0x190, 0x310, -1, 0, 0, 0, 0),
PADCONF(32, 1, 0x98, 0x190, 0x310, -1, 4, 2, 4, 0),
PADCONF(33, 1, 0x98, 0x190, 0x310, -1, 8, 4, 6, 0),
PADCONF(34, 1, 0x98, 0x190, 0x310, -1, 12, 6, 8, 0),
PADCONF(35, 1, 0x98, 0x190, 0x310, -1, 16, 8, 10, 0),
PADCONF(36, 1, 0x98, 0x190, 0x310, -1, 20, 10, 12, 0),
PADCONF(37, 1, 0xa0, 0x198, 0x318, -1, 0, 0, 0, 0),
PADCONF(38, 1, 0xa0, 0x198, 0x318, -1, 4, 2, 2, 0),
PADCONF(39, 1, 0xa0, 0x198, 0x318, -1, 8, 4, 4, 0),
PADCONF(40, 1, 0xa0, 0x198, 0x318, -1, 12, 6, 6, 0),
PADCONF(41, 1, 0xa0, 0x198, 0x318, -1, 16, 8, 8, 0),
PADCONF(42, 1, 0xa0, 0x198, 0x318, -1, 20, 10, 10, 0),
PADCONF(43, 1, 0xa0, 0x198, 0x318, -1, 24, 12, 12, 0),
PADCONF(44, 1, 0xa0, 0x198, 0x318, -1, 28, 14, 14, 0),
PADCONF(45, 0, 0xa8, 0x198, 0x318, -1, 0, 16, 16, 0),
PADCONF(46, 0, 0xa8, 0x198, 0x318, -1, 4, 18, 18, 0),
PADCONF(47, 1, 0xa8, 0x198, 0x318, -1, 8, 20, 20, 0),
PADCONF(48, 1, 0xa8, 0x198, 0x318, -1, 12, 22, 22, 0),
PADCONF(49, 1, 0xa8, 0x198, 0x318, -1, 16, 24, 24, 0),
PADCONF(50, 1, 0xa8, 0x198, 0x318, -1, 20, 26, 26, 0),
PADCONF(51, 1, 0xa8, 0x198, 0x318, -1, 24, 28, 28, 0),
PADCONF(52, 1, 0xa8, 0x198, 0x318, -1, 28, 30, 30, 0),
PADCONF(53, 0, 0xb0, 0x1a0, 0x320, -1, 0, 0, 0, 0),
PADCONF(54, 0, 0xb0, 0x1a0, 0x320, -1, 4, 2, 2, 0),
PADCONF(55, 0, 0xb0, 0x1a0, 0x320, -1, 8, 4, 4, 0),
PADCONF(56, 0, 0xb0, 0x1a0, 0x320, -1, 12, 6, 6, 0),
PADCONF(57, 0, 0xb0, 0x1a0, 0x320, -1, 16, 8, 8, 0),
PADCONF(58, 0, 0xb0, 0x1a0, 0x320, -1, 20, 10, 10, 0),
PADCONF(59, 0, 0xb0, 0x1a0, 0x320, -1, 24, 12, 12, 0),
PADCONF(60, 0, 0xb0, 0x1a0, 0x320, -1, 28, 14, 14, 0),
PADCONF(61, 0, 0xb8, 0x1a0, 0x320, -1, 0, 16, 16, 0),
PADCONF(62, 0, 0xb8, 0x1a0, 0x320, -1, 4, 18, 18, 0),
PADCONF(63, 0, 0xb8, 0x1a0, 0x320, -1, 8, 20, 20, 0),
PADCONF(64, 0, 0xb8, 0x1a0, 0x320, -1, 12, 22, 22, 0),
PADCONF(65, 0, 0xb8, 0x1a0, 0x320, -1, 16, 24, 24, 0),
PADCONF(66, 0, 0xb8, 0x1a0, 0x320, -1, 20, 26, 26, 0),
PADCONF(67, 0, 0xb8, 0x1a0, 0x320, -1, 24, 28, 28, 0),
PADCONF(68, 0, 0xb8, 0x1a0, 0x320, -1, 28, 30, 30, 0),
PADCONF(69, 0, 0xc0, 0x1a8, 0x328, -1, 0, 0, 0, 0),
PADCONF(70, 0, 0xc0, 0x1a8, 0x328, -1, 4, 2, 2, 0),
PADCONF(71, 0, 0xc0, 0x1a8, 0x328, -1, 8, 4, 4, 0),
PADCONF(72, 0, 0xc0, 0x1a8, 0x328, -1, 12, 6, 6, 0),
PADCONF(73, 0, 0xc0, 0x1a8, 0x328, -1, 16, 8, 8, 0),
PADCONF(74, 0, 0xc8, 0x1b0, 0x330, -1, 0, 0, 0, 0),
PADCONF(75, 0, 0xc8, 0x1b0, 0x330, -1, 4, 2, 2, 0),
PADCONF(76, 0, 0xc8, 0x1b0, 0x330, -1, 8, 4, 4, 0),
PADCONF(77, 0, 0xc8, 0x1b0, 0x330, -1, 12, 6, 6, 0),
PADCONF(78, 0, 0xc8, 0x1b0, 0x330, -1, 16, 8, 8, 0),
PADCONF(79, 0, 0xc8, 0x1b0, 0x330, -1, 20, 10, 10, 0),
PADCONF(80, 0, 0xc8, 0x1b0, 0x330, -1, 24, 12, 12, 0),
PADCONF(81, 0, 0xc8, 0x1b0, 0x330, -1, 28, 14, 14, 0),
PADCONF(82, 0, 0xd0, 0x1b0, 0x330, -1, 0, 16, 16, 0),
PADCONF(83, 0, 0xd0, 0x1b0, 0x330, -1, 4, 18, 18, 0),
PADCONF(84, 0, 0xd0, 0x1b0, 0x330, -1, 8, 20, 20, 0),
PADCONF(85, 2, 0xd8, 0x1b8, 0x338, -1, 0, 0, 0, 0),
PADCONF(86, 1, 0xd8, 0x1b8, 0x338, -1, 4, 4, 4, 0),
PADCONF(87, 1, 0xd8, 0x1b8, 0x338, -1, 8, 6, 6, 0),
PADCONF(88, 1, 0xd8, 0x1b8, 0x338, -1, 12, 8, 8, 0),
PADCONF(89, 1, 0xd8, 0x1b8, 0x338, -1, 16, 10, 10, 0),
PADCONF(90, 1, 0xd8, 0x1b8, 0x338, -1, 20, 12, 12, 0),
PADCONF(91, 2, 0xe0, 0x1c0, 0x340, -1, 0, 0, 0, 0),
PADCONF(92, 1, 0xe0, 0x1c0, 0x340, -1, 4, 4, 4, 0),
PADCONF(93, 1, 0xe0, 0x1c0, 0x340, -1, 8, 6, 6, 0),
PADCONF(94, 1, 0xe0, 0x1c0, 0x340, -1, 12, 8, 8, 0),
PADCONF(95, 1, 0xe0, 0x1c0, 0x340, -1, 16, 10, 10, 0),
PADCONF(96, 1, 0xe0, 0x1c0, 0x340, -1, 20, 12, 12, 0),
PADCONF(97, 0, 0xe8, 0x1c8, 0x348, -1, 0, 0, 0, 0),
PADCONF(98, 0, 0xe8, 0x1c8, 0x348, -1, 4, 2, 2, 0),
PADCONF(99, 0, 0xe8, 0x1c8, 0x348, -1, 8, 4, 4, 0),
PADCONF(100, 0, 0xe8, 0x1c8, 0x348, -1, 12, 6, 6, 0),
PADCONF(101, 2, 0xe8, 0x1c8, 0x348, -1, 16, 8, 8, 0),
PADCONF(102, 0, 0xe8, 0x1c8, 0x348, -1, 20, 12, 12, 0),
PADCONF(103, 0, 0xe8, 0x1c8, 0x348, -1, 24, 14, 14, 0),
PADCONF(104, 0, 0xe8, 0x1c8, 0x348, -1, 28, 16, 16, 0),
PADCONF(105, 0, 0xf0, 0x1c8, 0x348, -1, 0, 18, 18, 0),
PADCONF(106, 0, 0xf0, 0x1c8, 0x348, -1, 4, 20, 20, 0),
PADCONF(107, 0, 0xf0, 0x1c8, 0x348, -1, 8, 22, 22, 0),
PADCONF(108, 0, 0xf0, 0x1c8, 0x348, -1, 12, 24, 24, 0),
PADCONF(109, 1, 0xf0, 0x1c8, 0x348, -1, 16, 26, 26, 0),
PADCONF(110, 0, 0xf0, 0x1c8, 0x348, -1, 20, 28, 28, 0),
PADCONF(111, 1, 0xf0, 0x1c8, 0x348, -1, 24, 30, 30, 0),
PADCONF(112, 5, 0xf8, 0x200, 0x350, -1, 0, 0, 0, 0),
PADCONF(113, 5, 0xf8, 0x200, 0x350, -1, 4, 2, 2, 0),
PADCONF(114, 5, 0xf8, 0x200, 0x350, -1, 8, 4, 4, 0),
PADCONF(115, 5, 0xf8, 0x200, 0x350, -1, 12, 6, 6, 0),
PADCONF(116, 5, 0xf8, 0x200, 0x350, -1, 16, 8, 8, 0),
PADCONF(117, 5, 0xf8, 0x200, 0x350, -1, 20, 10, 10, 0),
PADCONF(118, 5, 0xf8, 0x200, 0x350, -1, 24, 12, 12, 0),
PADCONF(119, 5, 0x100, 0x250, 0x358, -1, 0, 0, 0, 0),
PADCONF(120, 5, 0x100, 0x250, 0x358, -1, 4, 2, 2, 0),
PADCONF(121, 5, 0x100, 0x250, 0x358, -1, 8, 4, 4, 0),
PADCONF(122, 5, 0x100, 0x250, 0x358, -1, 12, 6, 6, 0),
PADCONF(123, 6, 0x100, 0x250, 0x358, -1, 16, 8, 8, 0),
PADCONF(124, 6, 0x100, 0x250, 0x358, -1, 20, 10, 10, 0),
PADCONF(125, 6, 0x100, 0x250, 0x358, -1, 24, 12, 12, 0),
PADCONF(126, 6, 0x100, 0x250, 0x358, -1, 28, 14, 14, 0),
PADCONF(127, 6, 0x108, 0x250, 0x358, -1, 16, 24, 24, 0),
PADCONF(128, 6, 0x108, 0x250, 0x358, -1, 20, 26, 26, 0),
PADCONF(129, 0, 0x110, 0x258, 0x360, -1, 0, 0, 0, 0),
PADCONF(130, 0, 0x110, 0x258, 0x360, -1, 4, 2, 2, 0),
PADCONF(131, 0, 0x110, 0x258, 0x360, -1, 8, 4, 4, 0),
PADCONF(132, 0, 0x110, 0x258, 0x360, -1, 12, 6, 6, 0),
PADCONF(133, 6, 0x118, 0x260, 0x368, -1, 0, 0, 0, 0),
PADCONF(134, 6, 0x118, 0x260, 0x368, -1, 4, 2, 2, 0),
PADCONF(135, 6, 0x118, 0x260, 0x368, -1, 16, 8, 8, 0),
PADCONF(136, 6, 0x118, 0x260, 0x368, -1, 20, 10, 10, 0),
PADCONF(137, 6, 0x118, 0x260, 0x368, -1, 24, 12, 12, 0),
PADCONF(138, 6, 0x118, 0x260, 0x368, -1, 28, 14, 14, 0),
PADCONF(139, 6, 0x120, 0x260, 0x368, -1, 0, 16, 16, 0),
PADCONF(140, 6, 0x120, 0x260, 0x368, -1, 4, 18, 18, 0),
PADCONF(141, 5, 0x128, 0x268, 0x378, -1, 0, 0, 0, 0),
PADCONF(142, 5, 0x128, 0x268, 0x378, -1, 4, 2, 2, 0),
PADCONF(143, 5, 0x128, 0x268, 0x378, -1, 8, 4, 4, 0),
PADCONF(144, 5, 0x128, 0x268, 0x378, -1, 12, 6, 6, 0),
PADCONF(145, 5, 0x128, 0x268, 0x378, -1, 16, 8, 8, 0),
PADCONF(146, 5, 0x128, 0x268, 0x378, -1, 20, 10, 10, 0),
PADCONF(147, 5, 0x128, 0x268, 0x378, -1, 24, 12, 12, 0),
PADCONF(148, 5, 0x128, 0x268, 0x378, -1, 28, 14, 14, 0),
PADCONF(149, 7, 0x130, 0x270, -1, 0x480, 0, 0, 0, 0),
PADCONF(150, 7, 0x130, 0x270, -1, 0x480, 4, 2, 0, 1),
PADCONF(151, 7, 0x130, 0x270, -1, 0x480, 8, 4, 0, 2),
PADCONF(152, 7, 0x130, 0x270, -1, 0x480, 12, 6, 0, 3),
PADCONF(153, 7, 0x130, 0x270, -1, 0x480, 16, 8, 0, 4),
PADCONF(154, 7, 0x130, 0x270, -1, 0x480, 20, 10, 0, 5),
PADCONF(155, 7, 0x130, 0x270, -1, 0x480, 24, 12, 0, 6),
PADCONF(156, 7, 0x130, 0x270, -1, 0x480, 28, 14, 0, 7),
PADCONF(157, 7, 0x138, 0x278, -1, 0x480, 0, 0, 0, 8),
PADCONF(158, 7, 0x138, 0x278, -1, 0x480, 4, 2, 0, 9),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
PADCONF(159, 5, 0x140, 0x280, 0x380, -1, 0, 0, 0, 0),
PADCONF(160, 6, 0x140, 0x280, 0x380, -1, 4, 2, 2, 0),
PADCONF(161, 5, 0x140, 0x280, 0x380, -1, 8, 4, 4, 0),
PADCONF(162, 6, 0x140, 0x280, 0x380, -1, 12, 6, 6, 0),
PADCONF(163, 6, 0x140, 0x280, 0x380, -1, 16, 8, 8, 0),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
/* pin list of each pin group */
static const unsigned int gnss_gpio_pins[] = { 119, 120, 121, 122, 123, 124,
125, 126, 127, 128, 22, 23, 24, 25, 26, 27, 28, 29, 30, };
static const unsigned int lcd_vip_gpio_pins[] = { 74, 75, 76, 77, 78, 79, 80,
81, 82, 83, 84, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63,
64, 65, 66, 67, 68, 69, 70, 71, 72, 73, };
static const unsigned int sdio_i2s_gpio_pins[] = { 31, 32, 33, 34, 35, 36,
85, 86, 87, 88, 89, 90, 129, 130, 131, 132, 91, 92, 93, 94,
95, 96, 112, 113, 114, 115, 116, 117, 118, };
static const unsigned int sp_rgmii_gpio_pins[] = { 97, 98, 99, 100, 101, 102,
103, 104, 105, 106, 107, 108, 109, 110, 111, 18, 19, 20, 21,
141, 142, 143, 144, 145, 146, 147, 148, };
static const unsigned int lvds_gpio_pins[] = { 157, 158, 155, 156, 153, 154,
151, 152, 149, 150, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int jtag_uart_nand_gpio_pins[] = { 44, 43, 42, 41, 40,
39, 38, 37, 46, 47, 48, 49, 50, 52, 51, 45, 133, 134, 135,
136, 137, 138, 139, 140, 159, 160, 161, 162, 163, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int rtc_gpio_pins[] = { 0, 1, 2, 3, 4, 10, 11, 12, 13,
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
14, 15, 16, 17, 9, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int audio_ac97_pins[] = { 113, 118, 115, 114, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int audio_digmic_pins0[] = { 51, };
static const unsigned int audio_digmic_pins1[] = { 122, };
static const unsigned int audio_digmic_pins2[] = { 161, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int audio_func_dbg_pins[] = { 141, 144, 44, 43, 42, 41,
40, 39, 38, 37, 74, 75, 76, 77, 78, 79, 81, 113, 114, 118,
115, 49, 50, 142, 143, 80, };
static const unsigned int audio_i2s_pins[] = { 118, 115, 116, 117, 112, 113,
114, };
static const unsigned int audio_i2s_2ch_pins[] = { 118, 115, 112, 113, 114, };
static const unsigned int audio_i2s_extclk_pins[] = { 112, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int audio_spdif_out_pins0[] = { 112, };
static const unsigned int audio_spdif_out_pins1[] = { 116, };
static const unsigned int audio_spdif_out_pins2[] = { 142, };
static const unsigned int audio_uart0_basic_pins[] = { 143, 142, 141, 144, };
static const unsigned int audio_uart0_urfs_pins0[] = { 117, };
static const unsigned int audio_uart0_urfs_pins1[] = { 139, };
static const unsigned int audio_uart0_urfs_pins2[] = { 163, };
static const unsigned int audio_uart0_urfs_pins3[] = { 162, };
static const unsigned int audio_uart1_basic_pins[] = { 147, 146, 145, 148, };
static const unsigned int audio_uart1_urfs_pins0[] = { 117, };
static const unsigned int audio_uart1_urfs_pins1[] = { 140, };
static const unsigned int audio_uart1_urfs_pins2[] = { 163, };
static const unsigned int audio_uart2_urfs_pins0[] = { 139, };
static const unsigned int audio_uart2_urfs_pins1[] = { 163, };
static const unsigned int audio_uart2_urfs_pins2[] = { 96, };
static const unsigned int audio_uart2_urxd_pins0[] = { 20, };
static const unsigned int audio_uart2_urxd_pins1[] = { 109, };
static const unsigned int audio_uart2_urxd_pins2[] = { 93, };
static const unsigned int audio_uart2_usclk_pins0[] = { 19, };
static const unsigned int audio_uart2_usclk_pins1[] = { 101, };
static const unsigned int audio_uart2_usclk_pins2[] = { 91, };
static const unsigned int audio_uart2_utfs_pins0[] = { 18, };
static const unsigned int audio_uart2_utfs_pins1[] = { 111, };
static const unsigned int audio_uart2_utfs_pins2[] = { 94, };
static const unsigned int audio_uart2_utxd_pins0[] = { 21, };
static const unsigned int audio_uart2_utxd_pins1[] = { 110, };
static const unsigned int audio_uart2_utxd_pins2[] = { 92, };
static const unsigned int c_can_trnsvr_en_pins0[] = { 2, };
static const unsigned int c_can_trnsvr_en_pins1[] = { 0, };
static const unsigned int c_can_trnsvr_intr_pins[] = { 1, };
static const unsigned int c_can_trnsvr_stb_n_pins[] = { 3, };
static const unsigned int c0_can_rxd_trnsv0_pins[] = { 11, };
static const unsigned int c0_can_rxd_trnsv1_pins[] = { 2, };
static const unsigned int c0_can_txd_trnsv0_pins[] = { 10, };
static const unsigned int c0_can_txd_trnsv1_pins[] = { 3, };
static const unsigned int c1_can_rxd_pins0[] = { 138, };
static const unsigned int c1_can_rxd_pins1[] = { 147, };
static const unsigned int c1_can_rxd_pins2[] = { 2, };
static const unsigned int c1_can_rxd_pins3[] = { 162, };
static const unsigned int c1_can_txd_pins0[] = { 137, };
static const unsigned int c1_can_txd_pins1[] = { 146, };
static const unsigned int c1_can_txd_pins2[] = { 3, };
static const unsigned int c1_can_txd_pins3[] = { 161, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int ca_audio_lpc_pins[] = { 62, 63, 64, 65, 66, 67, 68,
69, 70, 71, };
static const unsigned int ca_bt_lpc_pins[] = { 85, 86, 87, 88, 89, 90, };
static const unsigned int ca_coex_pins[] = { 129, 130, 131, 132, };
static const unsigned int ca_curator_lpc_pins[] = { 57, 58, 59, 60, };
static const unsigned int ca_pcm_debug_pins[] = { 91, 93, 94, 92, };
static const unsigned int ca_pio_pins[] = { 121, 122, 125, 126, 38, 37, 47,
49, 50, 54, 55, 56, };
static const unsigned int ca_sdio_debug_pins[] = { 40, 39, 44, 43, 42, 41, };
static const unsigned int ca_spi_pins[] = { 82, 79, 80, 81, };
static const unsigned int ca_trb_pins[] = { 91, 93, 94, 95, 96, 78, 74, 75,
76, 77, };
static const unsigned int ca_uart_debug_pins[] = { 136, 135, 134, 133, };
static const unsigned int clkc_pins0[] = { 30, 47, };
static const unsigned int clkc_pins1[] = { 78, 54, };
static const unsigned int gn_gnss_i2c_pins[] = { 128, 127, };
static const unsigned int gn_gnss_uart_nopause_pins[] = { 134, 133, };
static const unsigned int gn_gnss_uart_pins[] = { 134, 133, 136, 135, };
static const unsigned int gn_trg_spi_pins0[] = { 22, 25, 23, 24, };
static const unsigned int gn_trg_spi_pins1[] = { 82, 79, 80, 81, };
static const unsigned int cvbs_dbg_pins[] = { 54, 53, 82, 74, 75, 76, 77, 78,
79, 80, 81, 83, 84, 73, 55, 56, };
static const unsigned int cvbs_dbg_test_pins0[] = { 57, };
static const unsigned int cvbs_dbg_test_pins1[] = { 58, };
static const unsigned int cvbs_dbg_test_pins2[] = { 59, };
static const unsigned int cvbs_dbg_test_pins3[] = { 60, };
static const unsigned int cvbs_dbg_test_pins4[] = { 61, };
static const unsigned int cvbs_dbg_test_pins5[] = { 62, };
static const unsigned int cvbs_dbg_test_pins6[] = { 63, };
static const unsigned int cvbs_dbg_test_pins7[] = { 64, };
static const unsigned int cvbs_dbg_test_pins8[] = { 65, };
static const unsigned int cvbs_dbg_test_pins9[] = { 66, };
static const unsigned int cvbs_dbg_test_pins10[] = { 67, };
static const unsigned int cvbs_dbg_test_pins11[] = { 68, };
static const unsigned int cvbs_dbg_test_pins12[] = { 69, };
static const unsigned int cvbs_dbg_test_pins13[] = { 70, };
static const unsigned int cvbs_dbg_test_pins14[] = { 71, };
static const unsigned int cvbs_dbg_test_pins15[] = { 72, };
static const unsigned int gn_gnss_power_pins[] = { 123, 124, 121, 122, 125,
120, };
static const unsigned int gn_gnss_sw_status_pins[] = { 57, 58, 59, 60, 61,
62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 53, 55, 56, 54, };
static const unsigned int gn_gnss_eclk_pins[] = { 113, };
static const unsigned int gn_gnss_irq1_pins0[] = { 112, };
static const unsigned int gn_gnss_irq2_pins0[] = { 118, };
static const unsigned int gn_gnss_tm_pins[] = { 115, };
static const unsigned int gn_gnss_tsync_pins[] = { 114, };
static const unsigned int gn_io_gnsssys_sw_cfg_pins[] = { 44, 43, 42, 41, 40,
39, 38, 37, 49, 50, 91, 92, 93, 94, 95, 96, };
static const unsigned int gn_trg_pins0[] = { 29, 28, 26, 27, };
static const unsigned int gn_trg_pins1[] = { 77, 76, 74, 75, };
static const unsigned int gn_trg_shutdown_pins0[] = { 30, };
static const unsigned int gn_trg_shutdown_pins1[] = { 83, };
static const unsigned int gn_trg_shutdown_pins2[] = { 117, };
static const unsigned int gn_trg_shutdown_pins3[] = { 123, };
static const unsigned int i2c0_pins[] = { 128, 127, };
static const unsigned int i2c1_pins[] = { 126, 125, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int i2s0_pins[] = { 91, 93, 94, 92, };
static const unsigned int i2s1_basic_pins[] = { 95, 96, };
static const unsigned int i2s1_rxd0_pins0[] = { 61, };
static const unsigned int i2s1_rxd0_pins1[] = { 131, };
static const unsigned int i2s1_rxd0_pins2[] = { 129, };
static const unsigned int i2s1_rxd0_pins3[] = { 117, };
static const unsigned int i2s1_rxd0_pins4[] = { 83, };
static const unsigned int i2s1_rxd1_pins0[] = { 72, };
static const unsigned int i2s1_rxd1_pins1[] = { 132, };
static const unsigned int i2s1_rxd1_pins2[] = { 130, };
static const unsigned int i2s1_rxd1_pins3[] = { 118, };
static const unsigned int i2s1_rxd1_pins4[] = { 84, };
static const unsigned int jtag_jt_dbg_nsrst_pins[] = { 125, };
static const unsigned int jtag_ntrst_pins0[] = { 4, };
static const unsigned int jtag_ntrst_pins1[] = { 163, };
static const unsigned int jtag_swdiotms_pins0[] = { 2, };
static const unsigned int jtag_swdiotms_pins1[] = { 160, };
static const unsigned int jtag_tck_pins0[] = { 0, };
static const unsigned int jtag_tck_pins1[] = { 161, };
static const unsigned int jtag_tdi_pins0[] = { 1, };
static const unsigned int jtag_tdi_pins1[] = { 162, };
static const unsigned int jtag_tdo_pins0[] = { 3, };
static const unsigned int jtag_tdo_pins1[] = { 159, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int ks_kas_spi_pins0[] = { 141, 144, 143, 142, };
static const unsigned int ld_ldd_pins[] = { 57, 58, 59, 60, 61, 62, 63, 64,
65, 66, 67, 68, 69, 70, 71, 72, 74, 75, 76, 77, 78, 79, 80,
81, 56, 53, };
static const unsigned int ld_ldd_16bit_pins[] = { 57, 58, 59, 60, 61, 62, 63,
64, 65, 66, 67, 68, 69, 70, 71, 72, 56, 53, };
static const unsigned int ld_ldd_fck_pins[] = { 55, };
static const unsigned int ld_ldd_lck_pins[] = { 54, };
static const unsigned int lr_lcdrom_pins[] = { 73, 54, 57, 58, 59, 60, 61,
62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, 56, 53, 55, };
static const unsigned int lvds_analog_pins[] = { 149, 150, 151, 152, 153, 154,
155, 156, 157, 158, };
static const unsigned int nd_df_basic_pins[] = { 44, 43, 42, 41, 40, 39, 38,
37, 47, 46, 52, 45, 49, 50, 48, };
static const unsigned int nd_df_wp_pins[] = { 124, };
static const unsigned int nd_df_cs_pins[] = { 51, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int ps_pins[] = { 120, 119, 121, };
static const unsigned int ps_no_dir_pins[] = { 119, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pwc_core_on_pins[] = { 8, };
static const unsigned int pwc_ext_on_pins[] = { 6, };
static const unsigned int pwc_gpio3_clk_pins[] = { 3, };
static const unsigned int pwc_io_on_pins[] = { 9, };
static const unsigned int pwc_lowbatt_b_pins0[] = { 4, };
static const unsigned int pwc_mem_on_pins[] = { 7, };
static const unsigned int pwc_on_key_b_pins0[] = { 5, };
static const unsigned int pwc_wakeup_src0_pins[] = { 0, };
static const unsigned int pwc_wakeup_src1_pins[] = { 1, };
static const unsigned int pwc_wakeup_src2_pins[] = { 2, };
static const unsigned int pwc_wakeup_src3_pins[] = { 3, };
static const unsigned int pw_cko0_pins0[] = { 123, };
static const unsigned int pw_cko0_pins1[] = { 101, };
static const unsigned int pw_cko0_pins2[] = { 82, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int pw_cko0_pins3[] = { 162, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pw_cko1_pins0[] = { 124, };
static const unsigned int pw_cko1_pins1[] = { 110, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int pw_cko1_pins2[] = { 163, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pw_i2s01_clk_pins0[] = { 125, };
static const unsigned int pw_i2s01_clk_pins1[] = { 117, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int pw_i2s01_clk_pins2[] = { 132, };
static const unsigned int pw_pwm0_pins0[] = { 119, };
static const unsigned int pw_pwm0_pins1[] = { 159, };
static const unsigned int pw_pwm1_pins0[] = { 120, };
static const unsigned int pw_pwm1_pins1[] = { 160, };
static const unsigned int pw_pwm1_pins2[] = { 131, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pw_pwm2_pins0[] = { 121, };
static const unsigned int pw_pwm2_pins1[] = { 98, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int pw_pwm2_pins2[] = { 161, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pw_pwm3_pins0[] = { 122, };
static const unsigned int pw_pwm3_pins1[] = { 73, };
static const unsigned int pw_pwm_cpu_vol_pins0[] = { 121, };
static const unsigned int pw_pwm_cpu_vol_pins1[] = { 98, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int pw_pwm_cpu_vol_pins2[] = { 161, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int pw_backlight_pins0[] = { 122, };
static const unsigned int pw_backlight_pins1[] = { 73, };
static const unsigned int rg_eth_mac_pins[] = { 108, 103, 104, 105, 106, 107,
102, 97, 98, 99, 100, 101, };
static const unsigned int rg_gmac_phy_intr_n_pins[] = { 111, };
static const unsigned int rg_rgmii_mac_pins[] = { 109, 110, };
static const unsigned int rg_rgmii_phy_ref_clk_pins0[] = { 111, };
static const unsigned int rg_rgmii_phy_ref_clk_pins1[] = { 53, };
static const unsigned int sd0_pins[] = { 46, 47, 44, 43, 42, 41, 40, 39, 38,
37, };
static const unsigned int sd0_4bit_pins[] = { 46, 47, 44, 43, 42, 41, };
static const unsigned int sd1_pins[] = { 48, 49, 44, 43, 42, 41, 40, 39, 38,
37, };
static const unsigned int sd1_4bit_pins0[] = { 48, 49, 44, 43, 42, 41, };
static const unsigned int sd1_4bit_pins1[] = { 48, 49, 40, 39, 38, 37, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int sd2_basic_pins[] = { 31, 32, 33, 34, 35, 36, };
static const unsigned int sd2_cdb_pins0[] = { 124, };
static const unsigned int sd2_cdb_pins1[] = { 161, };
static const unsigned int sd2_wpb_pins0[] = { 123, };
static const unsigned int sd2_wpb_pins1[] = { 163, };
static const unsigned int sd3_9_pins[] = { 85, 86, 87, 88, 89, 90, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int sd5_pins[] = { 91, 92, 93, 94, 95, 96, };
static const unsigned int sd6_pins0[] = { 79, 78, 74, 75, 76, 77, };
static const unsigned int sd6_pins1[] = { 101, 99, 100, 110, 109, 111, };
static const unsigned int sp0_ext_ldo_on_pins[] = { 4, };
static const unsigned int sp0_qspi_pins[] = { 12, 13, 14, 15, 16, 17, };
static const unsigned int sp1_spi_pins[] = { 19, 20, 21, 18, };
static const unsigned int tpiu_trace_pins[] = { 53, 56, 57, 58, 59, 60, 61,
62, 63, 64, 65, 66, 67, 68, 69, 70, 71, 72, };
static const unsigned int uart0_pins[] = { 121, 120, 134, 133, };
static const unsigned int uart0_nopause_pins[] = { 134, 133, };
static const unsigned int uart1_pins[] = { 136, 135, };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const unsigned int uart2_cts_pins0[] = { 132, };
static const unsigned int uart2_cts_pins1[] = { 162, };
static const unsigned int uart2_rts_pins0[] = { 131, };
static const unsigned int uart2_rts_pins1[] = { 161, };
static const unsigned int uart2_rxd_pins0[] = { 11, };
static const unsigned int uart2_rxd_pins1[] = { 160, };
static const unsigned int uart2_rxd_pins2[] = { 130, };
static const unsigned int uart2_txd_pins0[] = { 10, };
static const unsigned int uart2_txd_pins1[] = { 159, };
static const unsigned int uart2_txd_pins2[] = { 129, };
static const unsigned int uart3_cts_pins0[] = { 125, };
static const unsigned int uart3_cts_pins1[] = { 111, };
static const unsigned int uart3_cts_pins2[] = { 140, };
static const unsigned int uart3_rts_pins0[] = { 126, };
static const unsigned int uart3_rts_pins1[] = { 109, };
static const unsigned int uart3_rts_pins2[] = { 139, };
static const unsigned int uart3_rxd_pins0[] = { 138, };
static const unsigned int uart3_rxd_pins1[] = { 84, };
static const unsigned int uart3_rxd_pins2[] = { 162, };
static const unsigned int uart3_txd_pins0[] = { 137, };
static const unsigned int uart3_txd_pins1[] = { 83, };
static const unsigned int uart3_txd_pins2[] = { 161, };
static const unsigned int uart4_basic_pins[] = { 140, 139, };
static const unsigned int uart4_cts_pins0[] = { 122, };
static const unsigned int uart4_cts_pins1[] = { 100, };
static const unsigned int uart4_cts_pins2[] = { 117, };
static const unsigned int uart4_rts_pins0[] = { 123, };
static const unsigned int uart4_rts_pins1[] = { 99, };
static const unsigned int uart4_rts_pins2[] = { 116, };
static const unsigned int usb0_drvvbus_pins0[] = { 51, };
static const unsigned int usb0_drvvbus_pins1[] = { 162, };
static const unsigned int usb1_drvvbus_pins0[] = { 134, };
static const unsigned int usb1_drvvbus_pins1[] = { 163, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const unsigned int visbus_dout_pins[] = { 57, 58, 59, 60, 61, 62, 63,
64, 65, 66, 67, 68, 69, 70, 71, 72, 53, 54, 55, 56, 85, 86,
87, 88, 89, 90, 91, 92, 93, 94, 95, 96, };
static const unsigned int vi_vip1_pins[] = { 74, 75, 76, 77, 78, 79, 80, 81,
82, 83, 84, 103, 104, 105, 106, 107, 102, 97, 98, };
static const unsigned int vi_vip1_ext_pins[] = { 74, 75, 76, 77, 78, 79, 80,
81, 82, 83, 84, 108, 103, 104, 105, 106, 107, 102, 97, 98,
99, 100, };
static const unsigned int vi_vip1_low8bit_pins[] = { 74, 75, 76, 77, 78, 79,
80, 81, 82, 83, 84, };
static const unsigned int vi_vip1_high8bit_pins[] = { 82, 83, 84, 103, 104,
105, 106, 107, 102, 97, 98, };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* definition of pin group table */
static struct atlas7_pin_group altas7_pin_groups[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("gnss_gpio_grp", gnss_gpio_pins),
GROUP("lcd_vip_gpio_grp", lcd_vip_gpio_pins),
GROUP("sdio_i2s_gpio_grp", sdio_i2s_gpio_pins),
GROUP("sp_rgmii_gpio_grp", sp_rgmii_gpio_pins),
GROUP("lvds_gpio_grp", lvds_gpio_pins),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("jtag_uart_nand_gpio_grp", jtag_uart_nand_gpio_pins),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("rtc_gpio_grp", rtc_gpio_pins),
GROUP("audio_ac97_grp", audio_ac97_pins),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("audio_digmic_grp0", audio_digmic_pins0),
GROUP("audio_digmic_grp1", audio_digmic_pins1),
GROUP("audio_digmic_grp2", audio_digmic_pins2),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("audio_func_dbg_grp", audio_func_dbg_pins),
GROUP("audio_i2s_grp", audio_i2s_pins),
GROUP("audio_i2s_2ch_grp", audio_i2s_2ch_pins),
GROUP("audio_i2s_extclk_grp", audio_i2s_extclk_pins),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("audio_spdif_out_grp0", audio_spdif_out_pins0),
GROUP("audio_spdif_out_grp1", audio_spdif_out_pins1),
GROUP("audio_spdif_out_grp2", audio_spdif_out_pins2),
GROUP("audio_uart0_basic_grp", audio_uart0_basic_pins),
GROUP("audio_uart0_urfs_grp0", audio_uart0_urfs_pins0),
GROUP("audio_uart0_urfs_grp1", audio_uart0_urfs_pins1),
GROUP("audio_uart0_urfs_grp2", audio_uart0_urfs_pins2),
GROUP("audio_uart0_urfs_grp3", audio_uart0_urfs_pins3),
GROUP("audio_uart1_basic_grp", audio_uart1_basic_pins),
GROUP("audio_uart1_urfs_grp0", audio_uart1_urfs_pins0),
GROUP("audio_uart1_urfs_grp1", audio_uart1_urfs_pins1),
GROUP("audio_uart1_urfs_grp2", audio_uart1_urfs_pins2),
GROUP("audio_uart2_urfs_grp0", audio_uart2_urfs_pins0),
GROUP("audio_uart2_urfs_grp1", audio_uart2_urfs_pins1),
GROUP("audio_uart2_urfs_grp2", audio_uart2_urfs_pins2),
GROUP("audio_uart2_urxd_grp0", audio_uart2_urxd_pins0),
GROUP("audio_uart2_urxd_grp1", audio_uart2_urxd_pins1),
GROUP("audio_uart2_urxd_grp2", audio_uart2_urxd_pins2),
GROUP("audio_uart2_usclk_grp0", audio_uart2_usclk_pins0),
GROUP("audio_uart2_usclk_grp1", audio_uart2_usclk_pins1),
GROUP("audio_uart2_usclk_grp2", audio_uart2_usclk_pins2),
GROUP("audio_uart2_utfs_grp0", audio_uart2_utfs_pins0),
GROUP("audio_uart2_utfs_grp1", audio_uart2_utfs_pins1),
GROUP("audio_uart2_utfs_grp2", audio_uart2_utfs_pins2),
GROUP("audio_uart2_utxd_grp0", audio_uart2_utxd_pins0),
GROUP("audio_uart2_utxd_grp1", audio_uart2_utxd_pins1),
GROUP("audio_uart2_utxd_grp2", audio_uart2_utxd_pins2),
GROUP("c_can_trnsvr_en_grp0", c_can_trnsvr_en_pins0),
GROUP("c_can_trnsvr_en_grp1", c_can_trnsvr_en_pins1),
GROUP("c_can_trnsvr_intr_grp", c_can_trnsvr_intr_pins),
GROUP("c_can_trnsvr_stb_n_grp", c_can_trnsvr_stb_n_pins),
GROUP("c0_can_rxd_trnsv0_grp", c0_can_rxd_trnsv0_pins),
GROUP("c0_can_rxd_trnsv1_grp", c0_can_rxd_trnsv1_pins),
GROUP("c0_can_txd_trnsv0_grp", c0_can_txd_trnsv0_pins),
GROUP("c0_can_txd_trnsv1_grp", c0_can_txd_trnsv1_pins),
GROUP("c1_can_rxd_grp0", c1_can_rxd_pins0),
GROUP("c1_can_rxd_grp1", c1_can_rxd_pins1),
GROUP("c1_can_rxd_grp2", c1_can_rxd_pins2),
GROUP("c1_can_rxd_grp3", c1_can_rxd_pins3),
GROUP("c1_can_txd_grp0", c1_can_txd_pins0),
GROUP("c1_can_txd_grp1", c1_can_txd_pins1),
GROUP("c1_can_txd_grp2", c1_can_txd_pins2),
GROUP("c1_can_txd_grp3", c1_can_txd_pins3),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("ca_audio_lpc_grp", ca_audio_lpc_pins),
GROUP("ca_bt_lpc_grp", ca_bt_lpc_pins),
GROUP("ca_coex_grp", ca_coex_pins),
GROUP("ca_curator_lpc_grp", ca_curator_lpc_pins),
GROUP("ca_pcm_debug_grp", ca_pcm_debug_pins),
GROUP("ca_pio_grp", ca_pio_pins),
GROUP("ca_sdio_debug_grp", ca_sdio_debug_pins),
GROUP("ca_spi_grp", ca_spi_pins),
GROUP("ca_trb_grp", ca_trb_pins),
GROUP("ca_uart_debug_grp", ca_uart_debug_pins),
GROUP("clkc_grp0", clkc_pins0),
GROUP("clkc_grp1", clkc_pins1),
GROUP("gn_gnss_i2c_grp", gn_gnss_i2c_pins),
GROUP("gn_gnss_uart_nopause_grp", gn_gnss_uart_nopause_pins),
GROUP("gn_gnss_uart_grp", gn_gnss_uart_pins),
GROUP("gn_trg_spi_grp0", gn_trg_spi_pins0),
GROUP("gn_trg_spi_grp1", gn_trg_spi_pins1),
GROUP("cvbs_dbg_grp", cvbs_dbg_pins),
GROUP("cvbs_dbg_test_grp0", cvbs_dbg_test_pins0),
GROUP("cvbs_dbg_test_grp1", cvbs_dbg_test_pins1),
GROUP("cvbs_dbg_test_grp2", cvbs_dbg_test_pins2),
GROUP("cvbs_dbg_test_grp3", cvbs_dbg_test_pins3),
GROUP("cvbs_dbg_test_grp4", cvbs_dbg_test_pins4),
GROUP("cvbs_dbg_test_grp5", cvbs_dbg_test_pins5),
GROUP("cvbs_dbg_test_grp6", cvbs_dbg_test_pins6),
GROUP("cvbs_dbg_test_grp7", cvbs_dbg_test_pins7),
GROUP("cvbs_dbg_test_grp8", cvbs_dbg_test_pins8),
GROUP("cvbs_dbg_test_grp9", cvbs_dbg_test_pins9),
GROUP("cvbs_dbg_test_grp10", cvbs_dbg_test_pins10),
GROUP("cvbs_dbg_test_grp11", cvbs_dbg_test_pins11),
GROUP("cvbs_dbg_test_grp12", cvbs_dbg_test_pins12),
GROUP("cvbs_dbg_test_grp13", cvbs_dbg_test_pins13),
GROUP("cvbs_dbg_test_grp14", cvbs_dbg_test_pins14),
GROUP("cvbs_dbg_test_grp15", cvbs_dbg_test_pins15),
GROUP("gn_gnss_power_grp", gn_gnss_power_pins),
GROUP("gn_gnss_sw_status_grp", gn_gnss_sw_status_pins),
GROUP("gn_gnss_eclk_grp", gn_gnss_eclk_pins),
GROUP("gn_gnss_irq1_grp0", gn_gnss_irq1_pins0),
GROUP("gn_gnss_irq2_grp0", gn_gnss_irq2_pins0),
GROUP("gn_gnss_tm_grp", gn_gnss_tm_pins),
GROUP("gn_gnss_tsync_grp", gn_gnss_tsync_pins),
GROUP("gn_io_gnsssys_sw_cfg_grp", gn_io_gnsssys_sw_cfg_pins),
GROUP("gn_trg_grp0", gn_trg_pins0),
GROUP("gn_trg_grp1", gn_trg_pins1),
GROUP("gn_trg_shutdown_grp0", gn_trg_shutdown_pins0),
GROUP("gn_trg_shutdown_grp1", gn_trg_shutdown_pins1),
GROUP("gn_trg_shutdown_grp2", gn_trg_shutdown_pins2),
GROUP("gn_trg_shutdown_grp3", gn_trg_shutdown_pins3),
GROUP("i2c0_grp", i2c0_pins),
GROUP("i2c1_grp", i2c1_pins),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("i2s0_grp", i2s0_pins),
GROUP("i2s1_basic_grp", i2s1_basic_pins),
GROUP("i2s1_rxd0_grp0", i2s1_rxd0_pins0),
GROUP("i2s1_rxd0_grp1", i2s1_rxd0_pins1),
GROUP("i2s1_rxd0_grp2", i2s1_rxd0_pins2),
GROUP("i2s1_rxd0_grp3", i2s1_rxd0_pins3),
GROUP("i2s1_rxd0_grp4", i2s1_rxd0_pins4),
GROUP("i2s1_rxd1_grp0", i2s1_rxd1_pins0),
GROUP("i2s1_rxd1_grp1", i2s1_rxd1_pins1),
GROUP("i2s1_rxd1_grp2", i2s1_rxd1_pins2),
GROUP("i2s1_rxd1_grp3", i2s1_rxd1_pins3),
GROUP("i2s1_rxd1_grp4", i2s1_rxd1_pins4),
GROUP("jtag_jt_dbg_nsrst_grp", jtag_jt_dbg_nsrst_pins),
GROUP("jtag_ntrst_grp0", jtag_ntrst_pins0),
GROUP("jtag_ntrst_grp1", jtag_ntrst_pins1),
GROUP("jtag_swdiotms_grp0", jtag_swdiotms_pins0),
GROUP("jtag_swdiotms_grp1", jtag_swdiotms_pins1),
GROUP("jtag_tck_grp0", jtag_tck_pins0),
GROUP("jtag_tck_grp1", jtag_tck_pins1),
GROUP("jtag_tdi_grp0", jtag_tdi_pins0),
GROUP("jtag_tdi_grp1", jtag_tdi_pins1),
GROUP("jtag_tdo_grp0", jtag_tdo_pins0),
GROUP("jtag_tdo_grp1", jtag_tdo_pins1),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("ks_kas_spi_grp0", ks_kas_spi_pins0),
GROUP("ld_ldd_grp", ld_ldd_pins),
GROUP("ld_ldd_16bit_grp", ld_ldd_16bit_pins),
GROUP("ld_ldd_fck_grp", ld_ldd_fck_pins),
GROUP("ld_ldd_lck_grp", ld_ldd_lck_pins),
GROUP("lr_lcdrom_grp", lr_lcdrom_pins),
GROUP("lvds_analog_grp", lvds_analog_pins),
GROUP("nd_df_basic_grp", nd_df_basic_pins),
GROUP("nd_df_wp_grp", nd_df_wp_pins),
GROUP("nd_df_cs_grp", nd_df_cs_pins),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("ps_grp", ps_pins),
GROUP("ps_no_dir_grp", ps_no_dir_pins),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pwc_core_on_grp", pwc_core_on_pins),
GROUP("pwc_ext_on_grp", pwc_ext_on_pins),
GROUP("pwc_gpio3_clk_grp", pwc_gpio3_clk_pins),
GROUP("pwc_io_on_grp", pwc_io_on_pins),
GROUP("pwc_lowbatt_b_grp0", pwc_lowbatt_b_pins0),
GROUP("pwc_mem_on_grp", pwc_mem_on_pins),
GROUP("pwc_on_key_b_grp0", pwc_on_key_b_pins0),
GROUP("pwc_wakeup_src0_grp", pwc_wakeup_src0_pins),
GROUP("pwc_wakeup_src1_grp", pwc_wakeup_src1_pins),
GROUP("pwc_wakeup_src2_grp", pwc_wakeup_src2_pins),
GROUP("pwc_wakeup_src3_grp", pwc_wakeup_src3_pins),
GROUP("pw_cko0_grp0", pw_cko0_pins0),
GROUP("pw_cko0_grp1", pw_cko0_pins1),
GROUP("pw_cko0_grp2", pw_cko0_pins2),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("pw_cko0_grp3", pw_cko0_pins3),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pw_cko1_grp0", pw_cko1_pins0),
GROUP("pw_cko1_grp1", pw_cko1_pins1),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("pw_cko1_grp2", pw_cko1_pins2),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pw_i2s01_clk_grp0", pw_i2s01_clk_pins0),
GROUP("pw_i2s01_clk_grp1", pw_i2s01_clk_pins1),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("pw_i2s01_clk_grp2", pw_i2s01_clk_pins2),
GROUP("pw_pwm0_grp0", pw_pwm0_pins0),
GROUP("pw_pwm0_grp1", pw_pwm0_pins1),
GROUP("pw_pwm1_grp0", pw_pwm1_pins0),
GROUP("pw_pwm1_grp1", pw_pwm1_pins1),
GROUP("pw_pwm1_grp2", pw_pwm1_pins2),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pw_pwm2_grp0", pw_pwm2_pins0),
GROUP("pw_pwm2_grp1", pw_pwm2_pins1),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("pw_pwm2_grp2", pw_pwm2_pins2),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pw_pwm3_grp0", pw_pwm3_pins0),
GROUP("pw_pwm3_grp1", pw_pwm3_pins1),
GROUP("pw_pwm_cpu_vol_grp0", pw_pwm_cpu_vol_pins0),
GROUP("pw_pwm_cpu_vol_grp1", pw_pwm_cpu_vol_pins1),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("pw_pwm_cpu_vol_grp2", pw_pwm_cpu_vol_pins2),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("pw_backlight_grp0", pw_backlight_pins0),
GROUP("pw_backlight_grp1", pw_backlight_pins1),
GROUP("rg_eth_mac_grp", rg_eth_mac_pins),
GROUP("rg_gmac_phy_intr_n_grp", rg_gmac_phy_intr_n_pins),
GROUP("rg_rgmii_mac_grp", rg_rgmii_mac_pins),
GROUP("rg_rgmii_phy_ref_clk_grp0", rg_rgmii_phy_ref_clk_pins0),
GROUP("rg_rgmii_phy_ref_clk_grp1", rg_rgmii_phy_ref_clk_pins1),
GROUP("sd0_grp", sd0_pins),
GROUP("sd0_4bit_grp", sd0_4bit_pins),
GROUP("sd1_grp", sd1_pins),
GROUP("sd1_4bit_grp0", sd1_4bit_pins0),
GROUP("sd1_4bit_grp1", sd1_4bit_pins1),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("sd2_basic_grp", sd2_basic_pins),
GROUP("sd2_cdb_grp0", sd2_cdb_pins0),
GROUP("sd2_cdb_grp1", sd2_cdb_pins1),
GROUP("sd2_wpb_grp0", sd2_wpb_pins0),
GROUP("sd2_wpb_grp1", sd2_wpb_pins1),
GROUP("sd3_9_grp", sd3_9_pins),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("sd5_grp", sd5_pins),
GROUP("sd6_grp0", sd6_pins0),
GROUP("sd6_grp1", sd6_pins1),
GROUP("sp0_ext_ldo_on_grp", sp0_ext_ldo_on_pins),
GROUP("sp0_qspi_grp", sp0_qspi_pins),
GROUP("sp1_spi_grp", sp1_spi_pins),
GROUP("tpiu_trace_grp", tpiu_trace_pins),
GROUP("uart0_grp", uart0_pins),
GROUP("uart0_nopause_grp", uart0_nopause_pins),
GROUP("uart1_grp", uart1_pins),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
GROUP("uart2_cts_grp0", uart2_cts_pins0),
GROUP("uart2_cts_grp1", uart2_cts_pins1),
GROUP("uart2_rts_grp0", uart2_rts_pins0),
GROUP("uart2_rts_grp1", uart2_rts_pins1),
GROUP("uart2_rxd_grp0", uart2_rxd_pins0),
GROUP("uart2_rxd_grp1", uart2_rxd_pins1),
GROUP("uart2_rxd_grp2", uart2_rxd_pins2),
GROUP("uart2_txd_grp0", uart2_txd_pins0),
GROUP("uart2_txd_grp1", uart2_txd_pins1),
GROUP("uart2_txd_grp2", uart2_txd_pins2),
GROUP("uart3_cts_grp0", uart3_cts_pins0),
GROUP("uart3_cts_grp1", uart3_cts_pins1),
GROUP("uart3_cts_grp2", uart3_cts_pins2),
GROUP("uart3_rts_grp0", uart3_rts_pins0),
GROUP("uart3_rts_grp1", uart3_rts_pins1),
GROUP("uart3_rts_grp2", uart3_rts_pins2),
GROUP("uart3_rxd_grp0", uart3_rxd_pins0),
GROUP("uart3_rxd_grp1", uart3_rxd_pins1),
GROUP("uart3_rxd_grp2", uart3_rxd_pins2),
GROUP("uart3_txd_grp0", uart3_txd_pins0),
GROUP("uart3_txd_grp1", uart3_txd_pins1),
GROUP("uart3_txd_grp2", uart3_txd_pins2),
GROUP("uart4_basic_grp", uart4_basic_pins),
GROUP("uart4_cts_grp0", uart4_cts_pins0),
GROUP("uart4_cts_grp1", uart4_cts_pins1),
GROUP("uart4_cts_grp2", uart4_cts_pins2),
GROUP("uart4_rts_grp0", uart4_rts_pins0),
GROUP("uart4_rts_grp1", uart4_rts_pins1),
GROUP("uart4_rts_grp2", uart4_rts_pins2),
GROUP("usb0_drvvbus_grp0", usb0_drvvbus_pins0),
GROUP("usb0_drvvbus_grp1", usb0_drvvbus_pins1),
GROUP("usb1_drvvbus_grp0", usb1_drvvbus_pins0),
GROUP("usb1_drvvbus_grp1", usb1_drvvbus_pins1),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
GROUP("visbus_dout_grp", visbus_dout_pins),
GROUP("vi_vip1_grp", vi_vip1_pins),
GROUP("vi_vip1_ext_grp", vi_vip1_ext_pins),
GROUP("vi_vip1_low8bit_grp", vi_vip1_low8bit_pins),
GROUP("vi_vip1_high8bit_grp", vi_vip1_high8bit_pins),
};
/* How many groups that a function can use */
static const char * const gnss_gpio_grp[] = { "gnss_gpio_grp", };
static const char * const lcd_vip_gpio_grp[] = { "lcd_vip_gpio_grp", };
static const char * const sdio_i2s_gpio_grp[] = { "sdio_i2s_gpio_grp", };
static const char * const sp_rgmii_gpio_grp[] = { "sp_rgmii_gpio_grp", };
static const char * const lvds_gpio_grp[] = { "lvds_gpio_grp", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const jtag_uart_nand_gpio_grp[] = {
"jtag_uart_nand_gpio_grp", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const rtc_gpio_grp[] = { "rtc_gpio_grp", };
static const char * const audio_ac97_grp[] = { "audio_ac97_grp", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const audio_digmic_grp0[] = { "audio_digmic_grp0", };
static const char * const audio_digmic_grp1[] = { "audio_digmic_grp1", };
static const char * const audio_digmic_grp2[] = { "audio_digmic_grp2", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const audio_func_dbg_grp[] = { "audio_func_dbg_grp", };
static const char * const audio_i2s_grp[] = { "audio_i2s_grp", };
static const char * const audio_i2s_2ch_grp[] = { "audio_i2s_2ch_grp", };
static const char * const audio_i2s_extclk_grp[] = { "audio_i2s_extclk_grp", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const audio_spdif_out_grp0[] = { "audio_spdif_out_grp0", };
static const char * const audio_spdif_out_grp1[] = { "audio_spdif_out_grp1", };
static const char * const audio_spdif_out_grp2[] = { "audio_spdif_out_grp2", };
static const char * const audio_uart0_basic_grp[] = {
"audio_uart0_basic_grp", };
static const char * const audio_uart0_urfs_grp0[] = {
"audio_uart0_urfs_grp0", };
static const char * const audio_uart0_urfs_grp1[] = {
"audio_uart0_urfs_grp1", };
static const char * const audio_uart0_urfs_grp2[] = {
"audio_uart0_urfs_grp2", };
static const char * const audio_uart0_urfs_grp3[] = {
"audio_uart0_urfs_grp3", };
static const char * const audio_uart1_basic_grp[] = {
"audio_uart1_basic_grp", };
static const char * const audio_uart1_urfs_grp0[] = {
"audio_uart1_urfs_grp0", };
static const char * const audio_uart1_urfs_grp1[] = {
"audio_uart1_urfs_grp1", };
static const char * const audio_uart1_urfs_grp2[] = {
"audio_uart1_urfs_grp2", };
static const char * const audio_uart2_urfs_grp0[] = {
"audio_uart2_urfs_grp0", };
static const char * const audio_uart2_urfs_grp1[] = {
"audio_uart2_urfs_grp1", };
static const char * const audio_uart2_urfs_grp2[] = {
"audio_uart2_urfs_grp2", };
static const char * const audio_uart2_urxd_grp0[] = {
"audio_uart2_urxd_grp0", };
static const char * const audio_uart2_urxd_grp1[] = {
"audio_uart2_urxd_grp1", };
static const char * const audio_uart2_urxd_grp2[] = {
"audio_uart2_urxd_grp2", };
static const char * const audio_uart2_usclk_grp0[] = {
"audio_uart2_usclk_grp0", };
static const char * const audio_uart2_usclk_grp1[] = {
"audio_uart2_usclk_grp1", };
static const char * const audio_uart2_usclk_grp2[] = {
"audio_uart2_usclk_grp2", };
static const char * const audio_uart2_utfs_grp0[] = {
"audio_uart2_utfs_grp0", };
static const char * const audio_uart2_utfs_grp1[] = {
"audio_uart2_utfs_grp1", };
static const char * const audio_uart2_utfs_grp2[] = {
"audio_uart2_utfs_grp2", };
static const char * const audio_uart2_utxd_grp0[] = {
"audio_uart2_utxd_grp0", };
static const char * const audio_uart2_utxd_grp1[] = {
"audio_uart2_utxd_grp1", };
static const char * const audio_uart2_utxd_grp2[] = {
"audio_uart2_utxd_grp2", };
static const char * const c_can_trnsvr_en_grp0[] = { "c_can_trnsvr_en_grp0", };
static const char * const c_can_trnsvr_en_grp1[] = { "c_can_trnsvr_en_grp1", };
static const char * const c_can_trnsvr_intr_grp[] = {
"c_can_trnsvr_intr_grp", };
static const char * const c_can_trnsvr_stb_n_grp[] = {
"c_can_trnsvr_stb_n_grp", };
static const char * const c0_can_rxd_trnsv0_grp[] = {
"c0_can_rxd_trnsv0_grp", };
static const char * const c0_can_rxd_trnsv1_grp[] = {
"c0_can_rxd_trnsv1_grp", };
static const char * const c0_can_txd_trnsv0_grp[] = {
"c0_can_txd_trnsv0_grp", };
static const char * const c0_can_txd_trnsv1_grp[] = {
"c0_can_txd_trnsv1_grp", };
static const char * const c1_can_rxd_grp0[] = { "c1_can_rxd_grp0", };
static const char * const c1_can_rxd_grp1[] = { "c1_can_rxd_grp1", };
static const char * const c1_can_rxd_grp2[] = { "c1_can_rxd_grp2", };
static const char * const c1_can_rxd_grp3[] = { "c1_can_rxd_grp3", };
static const char * const c1_can_txd_grp0[] = { "c1_can_txd_grp0", };
static const char * const c1_can_txd_grp1[] = { "c1_can_txd_grp1", };
static const char * const c1_can_txd_grp2[] = { "c1_can_txd_grp2", };
static const char * const c1_can_txd_grp3[] = { "c1_can_txd_grp3", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const ca_audio_lpc_grp[] = { "ca_audio_lpc_grp", };
static const char * const ca_bt_lpc_grp[] = { "ca_bt_lpc_grp", };
static const char * const ca_coex_grp[] = { "ca_coex_grp", };
static const char * const ca_curator_lpc_grp[] = { "ca_curator_lpc_grp", };
static const char * const ca_pcm_debug_grp[] = { "ca_pcm_debug_grp", };
static const char * const ca_pio_grp[] = { "ca_pio_grp", };
static const char * const ca_sdio_debug_grp[] = { "ca_sdio_debug_grp", };
static const char * const ca_spi_grp[] = { "ca_spi_grp", };
static const char * const ca_trb_grp[] = { "ca_trb_grp", };
static const char * const ca_uart_debug_grp[] = { "ca_uart_debug_grp", };
static const char * const clkc_grp0[] = { "clkc_grp0", };
static const char * const clkc_grp1[] = { "clkc_grp1", };
static const char * const gn_gnss_i2c_grp[] = { "gn_gnss_i2c_grp", };
static const char * const gn_gnss_uart_nopause_grp[] = {
"gn_gnss_uart_nopause_grp", };
static const char * const gn_gnss_uart_grp[] = { "gn_gnss_uart_grp", };
static const char * const gn_trg_spi_grp0[] = { "gn_trg_spi_grp0", };
static const char * const gn_trg_spi_grp1[] = { "gn_trg_spi_grp1", };
static const char * const cvbs_dbg_grp[] = { "cvbs_dbg_grp", };
static const char * const cvbs_dbg_test_grp0[] = { "cvbs_dbg_test_grp0", };
static const char * const cvbs_dbg_test_grp1[] = { "cvbs_dbg_test_grp1", };
static const char * const cvbs_dbg_test_grp2[] = { "cvbs_dbg_test_grp2", };
static const char * const cvbs_dbg_test_grp3[] = { "cvbs_dbg_test_grp3", };
static const char * const cvbs_dbg_test_grp4[] = { "cvbs_dbg_test_grp4", };
static const char * const cvbs_dbg_test_grp5[] = { "cvbs_dbg_test_grp5", };
static const char * const cvbs_dbg_test_grp6[] = { "cvbs_dbg_test_grp6", };
static const char * const cvbs_dbg_test_grp7[] = { "cvbs_dbg_test_grp7", };
static const char * const cvbs_dbg_test_grp8[] = { "cvbs_dbg_test_grp8", };
static const char * const cvbs_dbg_test_grp9[] = { "cvbs_dbg_test_grp9", };
static const char * const cvbs_dbg_test_grp10[] = { "cvbs_dbg_test_grp10", };
static const char * const cvbs_dbg_test_grp11[] = { "cvbs_dbg_test_grp11", };
static const char * const cvbs_dbg_test_grp12[] = { "cvbs_dbg_test_grp12", };
static const char * const cvbs_dbg_test_grp13[] = { "cvbs_dbg_test_grp13", };
static const char * const cvbs_dbg_test_grp14[] = { "cvbs_dbg_test_grp14", };
static const char * const cvbs_dbg_test_grp15[] = { "cvbs_dbg_test_grp15", };
static const char * const gn_gnss_power_grp[] = { "gn_gnss_power_grp", };
static const char * const gn_gnss_sw_status_grp[] = {
"gn_gnss_sw_status_grp", };
static const char * const gn_gnss_eclk_grp[] = { "gn_gnss_eclk_grp", };
static const char * const gn_gnss_irq1_grp0[] = { "gn_gnss_irq1_grp0", };
static const char * const gn_gnss_irq2_grp0[] = { "gn_gnss_irq2_grp0", };
static const char * const gn_gnss_tm_grp[] = { "gn_gnss_tm_grp", };
static const char * const gn_gnss_tsync_grp[] = { "gn_gnss_tsync_grp", };
static const char * const gn_io_gnsssys_sw_cfg_grp[] = {
"gn_io_gnsssys_sw_cfg_grp", };
static const char * const gn_trg_grp0[] = { "gn_trg_grp0", };
static const char * const gn_trg_grp1[] = { "gn_trg_grp1", };
static const char * const gn_trg_shutdown_grp0[] = { "gn_trg_shutdown_grp0", };
static const char * const gn_trg_shutdown_grp1[] = { "gn_trg_shutdown_grp1", };
static const char * const gn_trg_shutdown_grp2[] = { "gn_trg_shutdown_grp2", };
static const char * const gn_trg_shutdown_grp3[] = { "gn_trg_shutdown_grp3", };
static const char * const i2c0_grp[] = { "i2c0_grp", };
static const char * const i2c1_grp[] = { "i2c1_grp", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const i2s0_grp[] = { "i2s0_grp", };
static const char * const i2s1_basic_grp[] = { "i2s1_basic_grp", };
static const char * const i2s1_rxd0_grp0[] = { "i2s1_rxd0_grp0", };
static const char * const i2s1_rxd0_grp1[] = { "i2s1_rxd0_grp1", };
static const char * const i2s1_rxd0_grp2[] = { "i2s1_rxd0_grp2", };
static const char * const i2s1_rxd0_grp3[] = { "i2s1_rxd0_grp3", };
static const char * const i2s1_rxd0_grp4[] = { "i2s1_rxd0_grp4", };
static const char * const i2s1_rxd1_grp0[] = { "i2s1_rxd1_grp0", };
static const char * const i2s1_rxd1_grp1[] = { "i2s1_rxd1_grp1", };
static const char * const i2s1_rxd1_grp2[] = { "i2s1_rxd1_grp2", };
static const char * const i2s1_rxd1_grp3[] = { "i2s1_rxd1_grp3", };
static const char * const i2s1_rxd1_grp4[] = { "i2s1_rxd1_grp4", };
static const char * const jtag_jt_dbg_nsrst_grp[] = {
"jtag_jt_dbg_nsrst_grp", };
static const char * const jtag_ntrst_grp0[] = { "jtag_ntrst_grp0", };
static const char * const jtag_ntrst_grp1[] = { "jtag_ntrst_grp1", };
static const char * const jtag_swdiotms_grp0[] = { "jtag_swdiotms_grp0", };
static const char * const jtag_swdiotms_grp1[] = { "jtag_swdiotms_grp1", };
static const char * const jtag_tck_grp0[] = { "jtag_tck_grp0", };
static const char * const jtag_tck_grp1[] = { "jtag_tck_grp1", };
static const char * const jtag_tdi_grp0[] = { "jtag_tdi_grp0", };
static const char * const jtag_tdi_grp1[] = { "jtag_tdi_grp1", };
static const char * const jtag_tdo_grp0[] = { "jtag_tdo_grp0", };
static const char * const jtag_tdo_grp1[] = { "jtag_tdo_grp1", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const ks_kas_spi_grp0[] = { "ks_kas_spi_grp0", };
static const char * const ld_ldd_grp[] = { "ld_ldd_grp", };
static const char * const ld_ldd_16bit_grp[] = { "ld_ldd_16bit_grp", };
static const char * const ld_ldd_fck_grp[] = { "ld_ldd_fck_grp", };
static const char * const ld_ldd_lck_grp[] = { "ld_ldd_lck_grp", };
static const char * const lr_lcdrom_grp[] = { "lr_lcdrom_grp", };
static const char * const lvds_analog_grp[] = { "lvds_analog_grp", };
static const char * const nd_df_basic_grp[] = { "nd_df_basic_grp", };
static const char * const nd_df_wp_grp[] = { "nd_df_wp_grp", };
static const char * const nd_df_cs_grp[] = { "nd_df_cs_grp", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const ps_grp[] = { "ps_grp", };
static const char * const ps_no_dir_grp[] = { "ps_no_dir_grp", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pwc_core_on_grp[] = { "pwc_core_on_grp", };
static const char * const pwc_ext_on_grp[] = { "pwc_ext_on_grp", };
static const char * const pwc_gpio3_clk_grp[] = { "pwc_gpio3_clk_grp", };
static const char * const pwc_io_on_grp[] = { "pwc_io_on_grp", };
static const char * const pwc_lowbatt_b_grp0[] = { "pwc_lowbatt_b_grp0", };
static const char * const pwc_mem_on_grp[] = { "pwc_mem_on_grp", };
static const char * const pwc_on_key_b_grp0[] = { "pwc_on_key_b_grp0", };
static const char * const pwc_wakeup_src0_grp[] = { "pwc_wakeup_src0_grp", };
static const char * const pwc_wakeup_src1_grp[] = { "pwc_wakeup_src1_grp", };
static const char * const pwc_wakeup_src2_grp[] = { "pwc_wakeup_src2_grp", };
static const char * const pwc_wakeup_src3_grp[] = { "pwc_wakeup_src3_grp", };
static const char * const pw_cko0_grp0[] = { "pw_cko0_grp0", };
static const char * const pw_cko0_grp1[] = { "pw_cko0_grp1", };
static const char * const pw_cko0_grp2[] = { "pw_cko0_grp2", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const pw_cko0_grp3[] = { "pw_cko0_grp3", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pw_cko1_grp0[] = { "pw_cko1_grp0", };
static const char * const pw_cko1_grp1[] = { "pw_cko1_grp1", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const pw_cko1_grp2[] = { "pw_cko1_grp2", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pw_i2s01_clk_grp0[] = { "pw_i2s01_clk_grp0", };
static const char * const pw_i2s01_clk_grp1[] = { "pw_i2s01_clk_grp1", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const pw_i2s01_clk_grp2[] = { "pw_i2s01_clk_grp2", };
static const char * const pw_pwm0_grp0[] = { "pw_pwm0_grp0", };
static const char * const pw_pwm0_grp1[] = { "pw_pwm0_grp1", };
static const char * const pw_pwm1_grp0[] = { "pw_pwm1_grp0", };
static const char * const pw_pwm1_grp1[] = { "pw_pwm1_grp1", };
static const char * const pw_pwm1_grp2[] = { "pw_pwm1_grp2", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pw_pwm2_grp0[] = { "pw_pwm2_grp0", };
static const char * const pw_pwm2_grp1[] = { "pw_pwm2_grp1", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const pw_pwm2_grp2[] = { "pw_pwm2_grp2", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pw_pwm3_grp0[] = { "pw_pwm3_grp0", };
static const char * const pw_pwm3_grp1[] = { "pw_pwm3_grp1", };
static const char * const pw_pwm_cpu_vol_grp0[] = { "pw_pwm_cpu_vol_grp0", };
static const char * const pw_pwm_cpu_vol_grp1[] = { "pw_pwm_cpu_vol_grp1", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const pw_pwm_cpu_vol_grp2[] = { "pw_pwm_cpu_vol_grp2", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const pw_backlight_grp0[] = { "pw_backlight_grp0", };
static const char * const pw_backlight_grp1[] = { "pw_backlight_grp1", };
static const char * const rg_eth_mac_grp[] = { "rg_eth_mac_grp", };
static const char * const rg_gmac_phy_intr_n_grp[] = {
"rg_gmac_phy_intr_n_grp", };
static const char * const rg_rgmii_mac_grp[] = { "rg_rgmii_mac_grp", };
static const char * const rg_rgmii_phy_ref_clk_grp0[] = {
"rg_rgmii_phy_ref_clk_grp0", };
static const char * const rg_rgmii_phy_ref_clk_grp1[] = {
"rg_rgmii_phy_ref_clk_grp1", };
static const char * const sd0_grp[] = { "sd0_grp", };
static const char * const sd0_4bit_grp[] = { "sd0_4bit_grp", };
static const char * const sd1_grp[] = { "sd1_grp", };
static const char * const sd1_4bit_grp0[] = { "sd1_4bit_grp0", };
static const char * const sd1_4bit_grp1[] = { "sd1_4bit_grp1", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const sd2_basic_grp[] = { "sd2_basic_grp", };
static const char * const sd2_cdb_grp0[] = { "sd2_cdb_grp0", };
static const char * const sd2_cdb_grp1[] = { "sd2_cdb_grp1", };
static const char * const sd2_wpb_grp0[] = { "sd2_wpb_grp0", };
static const char * const sd2_wpb_grp1[] = { "sd2_wpb_grp1", };
static const char * const sd3_9_grp[] = { "sd3_9_grp", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const sd5_grp[] = { "sd5_grp", };
static const char * const sd6_grp0[] = { "sd6_grp0", };
static const char * const sd6_grp1[] = { "sd6_grp1", };
static const char * const sp0_ext_ldo_on_grp[] = { "sp0_ext_ldo_on_grp", };
static const char * const sp0_qspi_grp[] = { "sp0_qspi_grp", };
static const char * const sp1_spi_grp[] = { "sp1_spi_grp", };
static const char * const tpiu_trace_grp[] = { "tpiu_trace_grp", };
static const char * const uart0_grp[] = { "uart0_grp", };
static const char * const uart0_nopause_grp[] = { "uart0_nopause_grp", };
static const char * const uart1_grp[] = { "uart1_grp", };
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static const char * const uart2_cts_grp0[] = { "uart2_cts_grp0", };
static const char * const uart2_cts_grp1[] = { "uart2_cts_grp1", };
static const char * const uart2_rts_grp0[] = { "uart2_rts_grp0", };
static const char * const uart2_rts_grp1[] = { "uart2_rts_grp1", };
static const char * const uart2_rxd_grp0[] = { "uart2_rxd_grp0", };
static const char * const uart2_rxd_grp1[] = { "uart2_rxd_grp1", };
static const char * const uart2_rxd_grp2[] = { "uart2_rxd_grp2", };
static const char * const uart2_txd_grp0[] = { "uart2_txd_grp0", };
static const char * const uart2_txd_grp1[] = { "uart2_txd_grp1", };
static const char * const uart2_txd_grp2[] = { "uart2_txd_grp2", };
static const char * const uart3_cts_grp0[] = { "uart3_cts_grp0", };
static const char * const uart3_cts_grp1[] = { "uart3_cts_grp1", };
static const char * const uart3_cts_grp2[] = { "uart3_cts_grp2", };
static const char * const uart3_rts_grp0[] = { "uart3_rts_grp0", };
static const char * const uart3_rts_grp1[] = { "uart3_rts_grp1", };
static const char * const uart3_rts_grp2[] = { "uart3_rts_grp2", };
static const char * const uart3_rxd_grp0[] = { "uart3_rxd_grp0", };
static const char * const uart3_rxd_grp1[] = { "uart3_rxd_grp1", };
static const char * const uart3_rxd_grp2[] = { "uart3_rxd_grp2", };
static const char * const uart3_txd_grp0[] = { "uart3_txd_grp0", };
static const char * const uart3_txd_grp1[] = { "uart3_txd_grp1", };
static const char * const uart3_txd_grp2[] = { "uart3_txd_grp2", };
static const char * const uart4_basic_grp[] = { "uart4_basic_grp", };
static const char * const uart4_cts_grp0[] = { "uart4_cts_grp0", };
static const char * const uart4_cts_grp1[] = { "uart4_cts_grp1", };
static const char * const uart4_cts_grp2[] = { "uart4_cts_grp2", };
static const char * const uart4_rts_grp0[] = { "uart4_rts_grp0", };
static const char * const uart4_rts_grp1[] = { "uart4_rts_grp1", };
static const char * const uart4_rts_grp2[] = { "uart4_rts_grp2", };
static const char * const usb0_drvvbus_grp0[] = { "usb0_drvvbus_grp0", };
static const char * const usb0_drvvbus_grp1[] = { "usb0_drvvbus_grp1", };
static const char * const usb1_drvvbus_grp0[] = { "usb1_drvvbus_grp0", };
static const char * const usb1_drvvbus_grp1[] = { "usb1_drvvbus_grp1", };
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const char * const visbus_dout_grp[] = { "visbus_dout_grp", };
static const char * const vi_vip1_grp[] = { "vi_vip1_grp", };
static const char * const vi_vip1_ext_grp[] = { "vi_vip1_ext_grp", };
static const char * const vi_vip1_low8bit_grp[] = { "vi_vip1_low8bit_grp", };
static const char * const vi_vip1_high8bit_grp[] = { "vi_vip1_high8bit_grp", };
static struct atlas7_pad_mux gnss_gpio_grp_pad_mux[] = {
MUX(1, 119, 0, N, N, N, N),
MUX(1, 120, 0, N, N, N, N),
MUX(1, 121, 0, N, N, N, N),
MUX(1, 122, 0, N, N, N, N),
MUX(1, 123, 0, N, N, N, N),
MUX(1, 124, 0, N, N, N, N),
MUX(1, 125, 0, N, N, N, N),
MUX(1, 126, 0, N, N, N, N),
MUX(1, 127, 0, N, N, N, N),
MUX(1, 128, 0, N, N, N, N),
MUX(1, 22, 0, N, N, N, N),
MUX(1, 23, 0, N, N, N, N),
MUX(1, 24, 0, N, N, N, N),
MUX(1, 25, 0, N, N, N, N),
MUX(1, 26, 0, N, N, N, N),
MUX(1, 27, 0, N, N, N, N),
MUX(1, 28, 0, N, N, N, N),
MUX(1, 29, 0, N, N, N, N),
MUX(1, 30, 0, N, N, N, N),
};
static struct atlas7_grp_mux gnss_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gnss_gpio_grp_pad_mux),
.pad_mux_list = gnss_gpio_grp_pad_mux,
};
static struct atlas7_pad_mux lcd_vip_gpio_grp_pad_mux[] = {
MUX(1, 74, 0, N, N, N, N),
MUX(1, 75, 0, N, N, N, N),
MUX(1, 76, 0, N, N, N, N),
MUX(1, 77, 0, N, N, N, N),
MUX(1, 78, 0, N, N, N, N),
MUX(1, 79, 0, N, N, N, N),
MUX(1, 80, 0, N, N, N, N),
MUX(1, 81, 0, N, N, N, N),
MUX(1, 82, 0, N, N, N, N),
MUX(1, 83, 0, N, N, N, N),
MUX(1, 84, 0, N, N, N, N),
MUX(1, 53, 0, N, N, N, N),
MUX(1, 54, 0, N, N, N, N),
MUX(1, 55, 0, N, N, N, N),
MUX(1, 56, 0, N, N, N, N),
MUX(1, 57, 0, N, N, N, N),
MUX(1, 58, 0, N, N, N, N),
MUX(1, 59, 0, N, N, N, N),
MUX(1, 60, 0, N, N, N, N),
MUX(1, 61, 0, N, N, N, N),
MUX(1, 62, 0, N, N, N, N),
MUX(1, 63, 0, N, N, N, N),
MUX(1, 64, 0, N, N, N, N),
MUX(1, 65, 0, N, N, N, N),
MUX(1, 66, 0, N, N, N, N),
MUX(1, 67, 0, N, N, N, N),
MUX(1, 68, 0, N, N, N, N),
MUX(1, 69, 0, N, N, N, N),
MUX(1, 70, 0, N, N, N, N),
MUX(1, 71, 0, N, N, N, N),
MUX(1, 72, 0, N, N, N, N),
MUX(1, 73, 0, N, N, N, N),
};
static struct atlas7_grp_mux lcd_vip_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(lcd_vip_gpio_grp_pad_mux),
.pad_mux_list = lcd_vip_gpio_grp_pad_mux,
};
static struct atlas7_pad_mux sdio_i2s_gpio_grp_pad_mux[] = {
MUX(1, 31, 0, N, N, N, N),
MUX(1, 32, 0, N, N, N, N),
MUX(1, 33, 0, N, N, N, N),
MUX(1, 34, 0, N, N, N, N),
MUX(1, 35, 0, N, N, N, N),
MUX(1, 36, 0, N, N, N, N),
MUX(1, 85, 0, N, N, N, N),
MUX(1, 86, 0, N, N, N, N),
MUX(1, 87, 0, N, N, N, N),
MUX(1, 88, 0, N, N, N, N),
MUX(1, 89, 0, N, N, N, N),
MUX(1, 90, 0, N, N, N, N),
MUX(1, 129, 0, N, N, N, N),
MUX(1, 130, 0, N, N, N, N),
MUX(1, 131, 0, N, N, N, N),
MUX(1, 132, 0, N, N, N, N),
MUX(1, 91, 0, N, N, N, N),
MUX(1, 92, 0, N, N, N, N),
MUX(1, 93, 0, N, N, N, N),
MUX(1, 94, 0, N, N, N, N),
MUX(1, 95, 0, N, N, N, N),
MUX(1, 96, 0, N, N, N, N),
MUX(1, 112, 0, N, N, N, N),
MUX(1, 113, 0, N, N, N, N),
MUX(1, 114, 0, N, N, N, N),
MUX(1, 115, 0, N, N, N, N),
MUX(1, 116, 0, N, N, N, N),
MUX(1, 117, 0, N, N, N, N),
MUX(1, 118, 0, N, N, N, N),
};
static struct atlas7_grp_mux sdio_i2s_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sdio_i2s_gpio_grp_pad_mux),
.pad_mux_list = sdio_i2s_gpio_grp_pad_mux,
};
static struct atlas7_pad_mux sp_rgmii_gpio_grp_pad_mux[] = {
MUX(1, 97, 0, N, N, N, N),
MUX(1, 98, 0, N, N, N, N),
MUX(1, 99, 0, N, N, N, N),
MUX(1, 100, 0, N, N, N, N),
MUX(1, 101, 0, N, N, N, N),
MUX(1, 102, 0, N, N, N, N),
MUX(1, 103, 0, N, N, N, N),
MUX(1, 104, 0, N, N, N, N),
MUX(1, 105, 0, N, N, N, N),
MUX(1, 106, 0, N, N, N, N),
MUX(1, 107, 0, N, N, N, N),
MUX(1, 108, 0, N, N, N, N),
MUX(1, 109, 0, N, N, N, N),
MUX(1, 110, 0, N, N, N, N),
MUX(1, 111, 0, N, N, N, N),
MUX(1, 18, 0, N, N, N, N),
MUX(1, 19, 0, N, N, N, N),
MUX(1, 20, 0, N, N, N, N),
MUX(1, 21, 0, N, N, N, N),
MUX(1, 141, 0, N, N, N, N),
MUX(1, 142, 0, N, N, N, N),
MUX(1, 143, 0, N, N, N, N),
MUX(1, 144, 0, N, N, N, N),
MUX(1, 145, 0, N, N, N, N),
MUX(1, 146, 0, N, N, N, N),
MUX(1, 147, 0, N, N, N, N),
MUX(1, 148, 0, N, N, N, N),
};
static struct atlas7_grp_mux sp_rgmii_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sp_rgmii_gpio_grp_pad_mux),
.pad_mux_list = sp_rgmii_gpio_grp_pad_mux,
};
static struct atlas7_pad_mux lvds_gpio_grp_pad_mux[] = {
MUX(1, 157, 0, N, N, N, N),
MUX(1, 158, 0, N, N, N, N),
MUX(1, 155, 0, N, N, N, N),
MUX(1, 156, 0, N, N, N, N),
MUX(1, 153, 0, N, N, N, N),
MUX(1, 154, 0, N, N, N, N),
MUX(1, 151, 0, N, N, N, N),
MUX(1, 152, 0, N, N, N, N),
MUX(1, 149, 0, N, N, N, N),
MUX(1, 150, 0, N, N, N, N),
};
static struct atlas7_grp_mux lvds_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(lvds_gpio_grp_pad_mux),
.pad_mux_list = lvds_gpio_grp_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux jtag_uart_nand_gpio_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 44, 0, N, N, N, N),
MUX(1, 43, 0, N, N, N, N),
MUX(1, 42, 0, N, N, N, N),
MUX(1, 41, 0, N, N, N, N),
MUX(1, 40, 0, N, N, N, N),
MUX(1, 39, 0, N, N, N, N),
MUX(1, 38, 0, N, N, N, N),
MUX(1, 37, 0, N, N, N, N),
MUX(1, 46, 0, N, N, N, N),
MUX(1, 47, 0, N, N, N, N),
MUX(1, 48, 0, N, N, N, N),
MUX(1, 49, 0, N, N, N, N),
MUX(1, 50, 0, N, N, N, N),
MUX(1, 52, 0, N, N, N, N),
MUX(1, 51, 0, N, N, N, N),
MUX(1, 45, 0, N, N, N, N),
MUX(1, 133, 0, N, N, N, N),
MUX(1, 134, 0, N, N, N, N),
MUX(1, 135, 0, N, N, N, N),
MUX(1, 136, 0, N, N, N, N),
MUX(1, 137, 0, N, N, N, N),
MUX(1, 138, 0, N, N, N, N),
MUX(1, 139, 0, N, N, N, N),
MUX(1, 140, 0, N, N, N, N),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
MUX(1, 159, 0, N, N, N, N),
MUX(1, 160, 0, N, N, N, N),
MUX(1, 161, 0, N, N, N, N),
MUX(1, 162, 0, N, N, N, N),
MUX(1, 163, 0, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux jtag_uart_nand_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_uart_nand_gpio_grp_pad_mux),
.pad_mux_list = jtag_uart_nand_gpio_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux rtc_gpio_grp_pad_mux[] = {
MUX(0, 0, 0, N, N, N, N),
MUX(0, 1, 0, N, N, N, N),
MUX(0, 2, 0, N, N, N, N),
MUX(0, 3, 0, N, N, N, N),
MUX(0, 4, 0, N, N, N, N),
MUX(0, 10, 0, N, N, N, N),
MUX(0, 11, 0, N, N, N, N),
MUX(0, 12, 0, N, N, N, N),
MUX(0, 13, 0, N, N, N, N),
MUX(0, 14, 0, N, N, N, N),
MUX(0, 15, 0, N, N, N, N),
MUX(0, 16, 0, N, N, N, N),
MUX(0, 17, 0, N, N, N, N),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
MUX(0, 9, 0, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_grp_mux rtc_gpio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(rtc_gpio_grp_pad_mux),
.pad_mux_list = rtc_gpio_grp_pad_mux,
};
static struct atlas7_pad_mux audio_ac97_grp_pad_mux[] = {
MUX(1, 113, 2, N, N, N, N),
MUX(1, 118, 2, N, N, N, N),
MUX(1, 115, 2, N, N, N, N),
MUX(1, 114, 2, N, N, N, N),
};
static struct atlas7_grp_mux audio_ac97_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_ac97_grp_pad_mux),
.pad_mux_list = audio_ac97_grp_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux audio_digmic_grp0_pad_mux[] = {
MUX(1, 51, 3, 0xa10, 20, 0xa90, 20),
};
static struct atlas7_grp_mux audio_digmic_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_digmic_grp0_pad_mux),
.pad_mux_list = audio_digmic_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_digmic_grp1_pad_mux[] = {
MUX(1, 122, 5, 0xa10, 20, 0xa90, 20),
};
static struct atlas7_grp_mux audio_digmic_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_digmic_grp1_pad_mux),
.pad_mux_list = audio_digmic_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_digmic_grp2_pad_mux[] = {
MUX(1, 161, 7, 0xa10, 20, 0xa90, 20),
};
static struct atlas7_grp_mux audio_digmic_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_digmic_grp2_pad_mux),
.pad_mux_list = audio_digmic_grp2_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux audio_func_dbg_grp_pad_mux[] = {
MUX(1, 141, 4, N, N, N, N),
MUX(1, 144, 4, N, N, N, N),
MUX(1, 44, 6, N, N, N, N),
MUX(1, 43, 6, N, N, N, N),
MUX(1, 42, 6, N, N, N, N),
MUX(1, 41, 6, N, N, N, N),
MUX(1, 40, 6, N, N, N, N),
MUX(1, 39, 6, N, N, N, N),
MUX(1, 38, 6, N, N, N, N),
MUX(1, 37, 6, N, N, N, N),
MUX(1, 74, 6, N, N, N, N),
MUX(1, 75, 6, N, N, N, N),
MUX(1, 76, 6, N, N, N, N),
MUX(1, 77, 6, N, N, N, N),
MUX(1, 78, 6, N, N, N, N),
MUX(1, 79, 6, N, N, N, N),
MUX(1, 81, 6, N, N, N, N),
MUX(1, 113, 6, N, N, N, N),
MUX(1, 114, 6, N, N, N, N),
MUX(1, 118, 6, N, N, N, N),
MUX(1, 115, 6, N, N, N, N),
MUX(1, 49, 6, N, N, N, N),
MUX(1, 50, 6, N, N, N, N),
MUX(1, 142, 4, N, N, N, N),
MUX(1, 143, 4, N, N, N, N),
MUX(1, 80, 6, N, N, N, N),
};
static struct atlas7_grp_mux audio_func_dbg_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_func_dbg_grp_pad_mux),
.pad_mux_list = audio_func_dbg_grp_pad_mux,
};
static struct atlas7_pad_mux audio_i2s_grp_pad_mux[] = {
MUX(1, 118, 1, N, N, N, N),
MUX(1, 115, 1, N, N, N, N),
MUX(1, 116, 1, N, N, N, N),
MUX(1, 117, 1, N, N, N, N),
MUX(1, 112, 1, N, N, N, N),
MUX(1, 113, 1, N, N, N, N),
MUX(1, 114, 1, N, N, N, N),
};
static struct atlas7_grp_mux audio_i2s_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_i2s_grp_pad_mux),
.pad_mux_list = audio_i2s_grp_pad_mux,
};
static struct atlas7_pad_mux audio_i2s_2ch_grp_pad_mux[] = {
MUX(1, 118, 1, N, N, N, N),
MUX(1, 115, 1, N, N, N, N),
MUX(1, 112, 1, N, N, N, N),
MUX(1, 113, 1, N, N, N, N),
MUX(1, 114, 1, N, N, N, N),
};
static struct atlas7_grp_mux audio_i2s_2ch_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_i2s_2ch_grp_pad_mux),
.pad_mux_list = audio_i2s_2ch_grp_pad_mux,
};
static struct atlas7_pad_mux audio_i2s_extclk_grp_pad_mux[] = {
MUX(1, 112, 2, N, N, N, N),
};
static struct atlas7_grp_mux audio_i2s_extclk_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_i2s_extclk_grp_pad_mux),
.pad_mux_list = audio_i2s_extclk_grp_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux audio_spdif_out_grp0_pad_mux[] = {
MUX(1, 112, 3, N, N, N, N),
};
static struct atlas7_grp_mux audio_spdif_out_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_spdif_out_grp0_pad_mux),
.pad_mux_list = audio_spdif_out_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_spdif_out_grp1_pad_mux[] = {
MUX(1, 116, 3, N, N, N, N),
};
static struct atlas7_grp_mux audio_spdif_out_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_spdif_out_grp1_pad_mux),
.pad_mux_list = audio_spdif_out_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_spdif_out_grp2_pad_mux[] = {
MUX(1, 142, 3, N, N, N, N),
};
static struct atlas7_grp_mux audio_spdif_out_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_spdif_out_grp2_pad_mux),
.pad_mux_list = audio_spdif_out_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart0_basic_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 143, 1, N, N, N, N),
MUX(1, 142, 1, N, N, N, N),
MUX(1, 141, 1, N, N, N, N),
MUX(1, 144, 1, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux audio_uart0_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart0_basic_grp_pad_mux),
.pad_mux_list = audio_uart0_basic_grp_pad_mux,
};
static struct atlas7_pad_mux audio_uart0_urfs_grp0_pad_mux[] = {
MUX(1, 117, 5, 0xa10, 28, 0xa90, 28),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux audio_uart0_urfs_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart0_urfs_grp0_pad_mux),
.pad_mux_list = audio_uart0_urfs_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux audio_uart0_urfs_grp1_pad_mux[] = {
MUX(1, 139, 3, 0xa10, 28, 0xa90, 28),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux audio_uart0_urfs_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart0_urfs_grp1_pad_mux),
.pad_mux_list = audio_uart0_urfs_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart0_urfs_grp2_pad_mux[] = {
MUX(1, 163, 3, 0xa10, 28, 0xa90, 28),
};
static struct atlas7_grp_mux audio_uart0_urfs_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart0_urfs_grp2_pad_mux),
.pad_mux_list = audio_uart0_urfs_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart0_urfs_grp3_pad_mux[] = {
MUX(1, 162, 6, 0xa10, 28, 0xa90, 28),
};
static struct atlas7_grp_mux audio_uart0_urfs_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart0_urfs_grp3_pad_mux),
.pad_mux_list = audio_uart0_urfs_grp3_pad_mux,
};
static struct atlas7_pad_mux audio_uart1_basic_grp_pad_mux[] = {
MUX(1, 147, 1, 0xa10, 24, 0xa90, 24),
MUX(1, 146, 1, 0xa10, 25, 0xa90, 25),
MUX(1, 145, 1, 0xa10, 23, 0xa90, 23),
MUX(1, 148, 1, 0xa10, 22, 0xa90, 22),
};
static struct atlas7_grp_mux audio_uart1_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart1_basic_grp_pad_mux),
.pad_mux_list = audio_uart1_basic_grp_pad_mux,
};
static struct atlas7_pad_mux audio_uart1_urfs_grp0_pad_mux[] = {
MUX(1, 117, 6, 0xa10, 29, 0xa90, 29),
};
static struct atlas7_grp_mux audio_uart1_urfs_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart1_urfs_grp0_pad_mux),
.pad_mux_list = audio_uart1_urfs_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_uart1_urfs_grp1_pad_mux[] = {
MUX(1, 140, 3, 0xa10, 29, 0xa90, 29),
};
static struct atlas7_grp_mux audio_uart1_urfs_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart1_urfs_grp1_pad_mux),
.pad_mux_list = audio_uart1_urfs_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart1_urfs_grp2_pad_mux[] = {
MUX(1, 163, 4, 0xa10, 29, 0xa90, 29),
};
static struct atlas7_grp_mux audio_uart1_urfs_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart1_urfs_grp2_pad_mux),
.pad_mux_list = audio_uart1_urfs_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_urfs_grp0_pad_mux[] = {
MUX(1, 139, 4, 0xa10, 30, 0xa90, 30),
};
static struct atlas7_grp_mux audio_uart2_urfs_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urfs_grp0_pad_mux),
.pad_mux_list = audio_uart2_urfs_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_urfs_grp1_pad_mux[] = {
MUX(1, 163, 6, 0xa10, 30, 0xa90, 30),
};
static struct atlas7_grp_mux audio_uart2_urfs_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urfs_grp1_pad_mux),
.pad_mux_list = audio_uart2_urfs_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_urfs_grp2_pad_mux[] = {
MUX(1, 96, 3, 0xa10, 30, 0xa90, 30),
};
static struct atlas7_grp_mux audio_uart2_urfs_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urfs_grp2_pad_mux),
.pad_mux_list = audio_uart2_urfs_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_urxd_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 20, 2, 0xa00, 24, 0xa80, 24),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux audio_uart2_urxd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urxd_grp0_pad_mux),
.pad_mux_list = audio_uart2_urxd_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux audio_uart2_urxd_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 109, 2, 0xa00, 24, 0xa80, 24),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux audio_uart2_urxd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urxd_grp1_pad_mux),
.pad_mux_list = audio_uart2_urxd_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_urxd_grp2_pad_mux[] = {
MUX(1, 93, 3, 0xa00, 24, 0xa80, 24),
};
static struct atlas7_grp_mux audio_uart2_urxd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_urxd_grp2_pad_mux),
.pad_mux_list = audio_uart2_urxd_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_usclk_grp0_pad_mux[] = {
MUX(1, 19, 2, 0xa00, 23, 0xa80, 23),
};
static struct atlas7_grp_mux audio_uart2_usclk_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_usclk_grp0_pad_mux),
.pad_mux_list = audio_uart2_usclk_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_usclk_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 101, 2, 0xa00, 23, 0xa80, 23),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux audio_uart2_usclk_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_usclk_grp1_pad_mux),
.pad_mux_list = audio_uart2_usclk_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_usclk_grp2_pad_mux[] = {
MUX(1, 91, 3, 0xa00, 23, 0xa80, 23),
};
static struct atlas7_grp_mux audio_uart2_usclk_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_usclk_grp2_pad_mux),
.pad_mux_list = audio_uart2_usclk_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utfs_grp0_pad_mux[] = {
MUX(1, 18, 2, 0xa00, 22, 0xa80, 22),
};
static struct atlas7_grp_mux audio_uart2_utfs_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utfs_grp0_pad_mux),
.pad_mux_list = audio_uart2_utfs_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utfs_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 111, 2, 0xa00, 22, 0xa80, 22),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux audio_uart2_utfs_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utfs_grp1_pad_mux),
.pad_mux_list = audio_uart2_utfs_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utfs_grp2_pad_mux[] = {
MUX(1, 94, 3, 0xa00, 22, 0xa80, 22),
};
static struct atlas7_grp_mux audio_uart2_utfs_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utfs_grp2_pad_mux),
.pad_mux_list = audio_uart2_utfs_grp2_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utxd_grp0_pad_mux[] = {
MUX(1, 21, 2, 0xa00, 25, 0xa80, 25),
};
static struct atlas7_grp_mux audio_uart2_utxd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utxd_grp0_pad_mux),
.pad_mux_list = audio_uart2_utxd_grp0_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utxd_grp1_pad_mux[] = {
MUX(1, 110, 2, 0xa00, 25, 0xa80, 25),
};
static struct atlas7_grp_mux audio_uart2_utxd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utxd_grp1_pad_mux),
.pad_mux_list = audio_uart2_utxd_grp1_pad_mux,
};
static struct atlas7_pad_mux audio_uart2_utxd_grp2_pad_mux[] = {
MUX(1, 92, 3, 0xa00, 25, 0xa80, 25),
};
static struct atlas7_grp_mux audio_uart2_utxd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(audio_uart2_utxd_grp2_pad_mux),
.pad_mux_list = audio_uart2_utxd_grp2_pad_mux,
};
static struct atlas7_pad_mux c_can_trnsvr_en_grp0_pad_mux[] = {
MUX(0, 2, 6, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c_can_trnsvr_en_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(c_can_trnsvr_en_grp0_pad_mux),
.pad_mux_list = c_can_trnsvr_en_grp0_pad_mux,
};
static struct atlas7_pad_mux c_can_trnsvr_en_grp1_pad_mux[] = {
MUX(0, 0, 2, N, N, N, N),
};
static struct atlas7_grp_mux c_can_trnsvr_en_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(c_can_trnsvr_en_grp1_pad_mux),
.pad_mux_list = c_can_trnsvr_en_grp1_pad_mux,
};
static struct atlas7_pad_mux c_can_trnsvr_intr_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 1, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c_can_trnsvr_intr_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c_can_trnsvr_intr_grp_pad_mux),
.pad_mux_list = c_can_trnsvr_intr_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux c_can_trnsvr_stb_n_grp_pad_mux[] = {
MUX(0, 3, 6, N, N, N, N),
};
static struct atlas7_grp_mux c_can_trnsvr_stb_n_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c_can_trnsvr_stb_n_grp_pad_mux),
.pad_mux_list = c_can_trnsvr_stb_n_grp_pad_mux,
};
static struct atlas7_pad_mux c0_can_rxd_trnsv0_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 11, 1, 0xa08, 9, 0xa88, 9),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux c0_can_rxd_trnsv0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c0_can_rxd_trnsv0_grp_pad_mux),
.pad_mux_list = c0_can_rxd_trnsv0_grp_pad_mux,
};
static struct atlas7_pad_mux c0_can_rxd_trnsv1_grp_pad_mux[] = {
MUX(0, 2, 5, 0xa10, 9, 0xa90, 9),
};
static struct atlas7_grp_mux c0_can_rxd_trnsv1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c0_can_rxd_trnsv1_grp_pad_mux),
.pad_mux_list = c0_can_rxd_trnsv1_grp_pad_mux,
};
static struct atlas7_pad_mux c0_can_txd_trnsv0_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 10, 1, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c0_can_txd_trnsv0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c0_can_txd_trnsv0_grp_pad_mux),
.pad_mux_list = c0_can_txd_trnsv0_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux c0_can_txd_trnsv1_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 3, 5, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c0_can_txd_trnsv1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(c0_can_txd_trnsv1_grp_pad_mux),
.pad_mux_list = c0_can_txd_trnsv1_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux c1_can_rxd_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 138, 2, 0xa00, 4, 0xa80, 4),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c1_can_rxd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_rxd_grp0_pad_mux),
.pad_mux_list = c1_can_rxd_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux c1_can_rxd_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 147, 2, 0xa00, 4, 0xa80, 4),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c1_can_rxd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_rxd_grp1_pad_mux),
.pad_mux_list = c1_can_rxd_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux c1_can_rxd_grp2_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 2, 2, 0xa00, 4, 0xa80, 4),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux c1_can_rxd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_rxd_grp2_pad_mux),
.pad_mux_list = c1_can_rxd_grp2_pad_mux,
};
static struct atlas7_pad_mux c1_can_rxd_grp3_pad_mux[] = {
MUX(1, 162, 4, 0xa00, 4, 0xa80, 4),
};
static struct atlas7_grp_mux c1_can_rxd_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_rxd_grp3_pad_mux),
.pad_mux_list = c1_can_rxd_grp3_pad_mux,
};
static struct atlas7_pad_mux c1_can_txd_grp0_pad_mux[] = {
MUX(1, 137, 2, N, N, N, N),
};
static struct atlas7_grp_mux c1_can_txd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_txd_grp0_pad_mux),
.pad_mux_list = c1_can_txd_grp0_pad_mux,
};
static struct atlas7_pad_mux c1_can_txd_grp1_pad_mux[] = {
MUX(1, 146, 2, N, N, N, N),
};
static struct atlas7_grp_mux c1_can_txd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_txd_grp1_pad_mux),
.pad_mux_list = c1_can_txd_grp1_pad_mux,
};
static struct atlas7_pad_mux c1_can_txd_grp2_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 3, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux c1_can_txd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_txd_grp2_pad_mux),
.pad_mux_list = c1_can_txd_grp2_pad_mux,
};
static struct atlas7_pad_mux c1_can_txd_grp3_pad_mux[] = {
MUX(1, 161, 4, N, N, N, N),
};
static struct atlas7_grp_mux c1_can_txd_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(c1_can_txd_grp3_pad_mux),
.pad_mux_list = c1_can_txd_grp3_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux ca_audio_lpc_grp_pad_mux[] = {
MUX(1, 62, 4, N, N, N, N),
MUX(1, 63, 4, N, N, N, N),
MUX(1, 64, 4, N, N, N, N),
MUX(1, 65, 4, N, N, N, N),
MUX(1, 66, 4, N, N, N, N),
MUX(1, 67, 4, N, N, N, N),
MUX(1, 68, 4, N, N, N, N),
MUX(1, 69, 4, N, N, N, N),
MUX(1, 70, 4, N, N, N, N),
MUX(1, 71, 4, N, N, N, N),
};
static struct atlas7_grp_mux ca_audio_lpc_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_audio_lpc_grp_pad_mux),
.pad_mux_list = ca_audio_lpc_grp_pad_mux,
};
static struct atlas7_pad_mux ca_bt_lpc_grp_pad_mux[] = {
MUX(1, 85, 5, N, N, N, N),
MUX(1, 86, 5, N, N, N, N),
MUX(1, 87, 5, N, N, N, N),
MUX(1, 88, 5, N, N, N, N),
MUX(1, 89, 5, N, N, N, N),
MUX(1, 90, 5, N, N, N, N),
};
static struct atlas7_grp_mux ca_bt_lpc_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_bt_lpc_grp_pad_mux),
.pad_mux_list = ca_bt_lpc_grp_pad_mux,
};
static struct atlas7_pad_mux ca_coex_grp_pad_mux[] = {
MUX(1, 129, 1, N, N, N, N),
MUX(1, 130, 1, N, N, N, N),
MUX(1, 131, 1, N, N, N, N),
MUX(1, 132, 1, N, N, N, N),
};
static struct atlas7_grp_mux ca_coex_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_coex_grp_pad_mux),
.pad_mux_list = ca_coex_grp_pad_mux,
};
static struct atlas7_pad_mux ca_curator_lpc_grp_pad_mux[] = {
MUX(1, 57, 4, N, N, N, N),
MUX(1, 58, 4, N, N, N, N),
MUX(1, 59, 4, N, N, N, N),
MUX(1, 60, 4, N, N, N, N),
};
static struct atlas7_grp_mux ca_curator_lpc_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_curator_lpc_grp_pad_mux),
.pad_mux_list = ca_curator_lpc_grp_pad_mux,
};
static struct atlas7_pad_mux ca_pcm_debug_grp_pad_mux[] = {
MUX(1, 91, 5, N, N, N, N),
MUX(1, 93, 5, N, N, N, N),
MUX(1, 94, 5, N, N, N, N),
MUX(1, 92, 5, N, N, N, N),
};
static struct atlas7_grp_mux ca_pcm_debug_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_pcm_debug_grp_pad_mux),
.pad_mux_list = ca_pcm_debug_grp_pad_mux,
};
static struct atlas7_pad_mux ca_pio_grp_pad_mux[] = {
MUX(1, 121, 2, N, N, N, N),
MUX(1, 122, 2, N, N, N, N),
MUX(1, 125, 6, N, N, N, N),
MUX(1, 126, 6, N, N, N, N),
MUX(1, 38, 5, N, N, N, N),
MUX(1, 37, 5, N, N, N, N),
MUX(1, 47, 5, N, N, N, N),
MUX(1, 49, 5, N, N, N, N),
MUX(1, 50, 5, N, N, N, N),
MUX(1, 54, 4, N, N, N, N),
MUX(1, 55, 4, N, N, N, N),
MUX(1, 56, 4, N, N, N, N),
};
static struct atlas7_grp_mux ca_pio_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_pio_grp_pad_mux),
.pad_mux_list = ca_pio_grp_pad_mux,
};
static struct atlas7_pad_mux ca_sdio_debug_grp_pad_mux[] = {
MUX(1, 40, 5, N, N, N, N),
MUX(1, 39, 5, N, N, N, N),
MUX(1, 44, 5, N, N, N, N),
MUX(1, 43, 5, N, N, N, N),
MUX(1, 42, 5, N, N, N, N),
MUX(1, 41, 5, N, N, N, N),
};
static struct atlas7_grp_mux ca_sdio_debug_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_sdio_debug_grp_pad_mux),
.pad_mux_list = ca_sdio_debug_grp_pad_mux,
};
static struct atlas7_pad_mux ca_spi_grp_pad_mux[] = {
MUX(1, 82, 5, N, N, N, N),
MUX(1, 79, 5, 0xa08, 6, 0xa88, 6),
MUX(1, 80, 5, N, N, N, N),
MUX(1, 81, 5, N, N, N, N),
};
static struct atlas7_grp_mux ca_spi_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_spi_grp_pad_mux),
.pad_mux_list = ca_spi_grp_pad_mux,
};
static struct atlas7_pad_mux ca_trb_grp_pad_mux[] = {
MUX(1, 91, 4, N, N, N, N),
MUX(1, 93, 4, N, N, N, N),
MUX(1, 94, 4, N, N, N, N),
MUX(1, 95, 4, N, N, N, N),
MUX(1, 96, 4, N, N, N, N),
MUX(1, 78, 5, N, N, N, N),
MUX(1, 74, 5, N, N, N, N),
MUX(1, 75, 5, N, N, N, N),
MUX(1, 76, 5, N, N, N, N),
MUX(1, 77, 5, N, N, N, N),
};
static struct atlas7_grp_mux ca_trb_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_trb_grp_pad_mux),
.pad_mux_list = ca_trb_grp_pad_mux,
};
static struct atlas7_pad_mux ca_uart_debug_grp_pad_mux[] = {
MUX(1, 136, 3, N, N, N, N),
MUX(1, 135, 3, N, N, N, N),
MUX(1, 134, 3, N, N, N, N),
MUX(1, 133, 3, N, N, N, N),
};
static struct atlas7_grp_mux ca_uart_debug_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ca_uart_debug_grp_pad_mux),
.pad_mux_list = ca_uart_debug_grp_pad_mux,
};
static struct atlas7_pad_mux clkc_grp0_pad_mux[] = {
MUX(1, 30, 2, 0xa08, 14, 0xa88, 14),
MUX(1, 47, 6, N, N, N, N),
};
static struct atlas7_grp_mux clkc_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(clkc_grp0_pad_mux),
.pad_mux_list = clkc_grp0_pad_mux,
};
static struct atlas7_pad_mux clkc_grp1_pad_mux[] = {
MUX(1, 78, 3, 0xa08, 14, 0xa88, 14),
MUX(1, 54, 5, N, N, N, N),
};
static struct atlas7_grp_mux clkc_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(clkc_grp1_pad_mux),
.pad_mux_list = clkc_grp1_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_i2c_grp_pad_mux[] = {
MUX(1, 128, 2, N, N, N, N),
MUX(1, 127, 2, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_i2c_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_i2c_grp_pad_mux),
.pad_mux_list = gn_gnss_i2c_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_uart_nopause_grp_pad_mux[] = {
MUX(1, 134, 4, N, N, N, N),
MUX(1, 133, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_uart_nopause_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_uart_nopause_grp_pad_mux),
.pad_mux_list = gn_gnss_uart_nopause_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_uart_grp_pad_mux[] = {
MUX(1, 134, 4, N, N, N, N),
MUX(1, 133, 4, N, N, N, N),
MUX(1, 136, 4, N, N, N, N),
MUX(1, 135, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_uart_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_uart_grp_pad_mux),
.pad_mux_list = gn_gnss_uart_grp_pad_mux,
};
static struct atlas7_pad_mux gn_trg_spi_grp0_pad_mux[] = {
MUX(1, 22, 1, N, N, N, N),
MUX(1, 25, 1, N, N, N, N),
MUX(1, 23, 1, 0xa00, 10, 0xa80, 10),
MUX(1, 24, 1, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_spi_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_spi_grp0_pad_mux),
.pad_mux_list = gn_trg_spi_grp0_pad_mux,
};
static struct atlas7_pad_mux gn_trg_spi_grp1_pad_mux[] = {
MUX(1, 82, 3, N, N, N, N),
MUX(1, 79, 3, N, N, N, N),
MUX(1, 80, 3, 0xa00, 10, 0xa80, 10),
MUX(1, 81, 3, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_spi_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_spi_grp1_pad_mux),
.pad_mux_list = gn_trg_spi_grp1_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_grp_pad_mux[] = {
MUX(1, 54, 3, N, N, N, N),
MUX(1, 53, 3, N, N, N, N),
MUX(1, 82, 7, N, N, N, N),
MUX(1, 74, 7, N, N, N, N),
MUX(1, 75, 7, N, N, N, N),
MUX(1, 76, 7, N, N, N, N),
MUX(1, 77, 7, N, N, N, N),
MUX(1, 78, 7, N, N, N, N),
MUX(1, 79, 7, N, N, N, N),
MUX(1, 80, 7, N, N, N, N),
MUX(1, 81, 7, N, N, N, N),
MUX(1, 83, 7, N, N, N, N),
MUX(1, 84, 7, N, N, N, N),
MUX(1, 73, 3, N, N, N, N),
MUX(1, 55, 3, N, N, N, N),
MUX(1, 56, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_grp_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_grp_pad_mux),
.pad_mux_list = cvbs_dbg_grp_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp0_pad_mux[] = {
MUX(1, 57, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp0_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp0_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp1_pad_mux[] = {
MUX(1, 58, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp1_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp1_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp2_pad_mux[] = {
MUX(1, 59, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp2_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp2_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp3_pad_mux[] = {
MUX(1, 60, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp3_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp3_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp4_pad_mux[] = {
MUX(1, 61, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp4_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp4_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp4_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp5_pad_mux[] = {
MUX(1, 62, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp5_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp5_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp5_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp6_pad_mux[] = {
MUX(1, 63, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp6_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp6_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp6_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp7_pad_mux[] = {
MUX(1, 64, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp7_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp7_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp7_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp8_pad_mux[] = {
MUX(1, 65, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp8_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp8_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp8_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp9_pad_mux[] = {
MUX(1, 66, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp9_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp9_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp9_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp10_pad_mux[] = {
MUX(1, 67, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp10_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp10_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp10_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp11_pad_mux[] = {
MUX(1, 68, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp11_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp11_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp11_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp12_pad_mux[] = {
MUX(1, 69, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp12_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp12_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp12_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp13_pad_mux[] = {
MUX(1, 70, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp13_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp13_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp13_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp14_pad_mux[] = {
MUX(1, 71, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp14_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp14_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp14_pad_mux,
};
static struct atlas7_pad_mux cvbs_dbg_test_grp15_pad_mux[] = {
MUX(1, 72, 3, N, N, N, N),
};
static struct atlas7_grp_mux cvbs_dbg_test_grp15_mux = {
.pad_mux_count = ARRAY_SIZE(cvbs_dbg_test_grp15_pad_mux),
.pad_mux_list = cvbs_dbg_test_grp15_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_power_grp_pad_mux[] = {
MUX(1, 123, 7, N, N, N, N),
MUX(1, 124, 7, N, N, N, N),
MUX(1, 121, 7, N, N, N, N),
MUX(1, 122, 7, N, N, N, N),
MUX(1, 125, 7, N, N, N, N),
MUX(1, 120, 7, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_power_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_power_grp_pad_mux),
.pad_mux_list = gn_gnss_power_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_sw_status_grp_pad_mux[] = {
MUX(1, 57, 7, N, N, N, N),
MUX(1, 58, 7, N, N, N, N),
MUX(1, 59, 7, N, N, N, N),
MUX(1, 60, 7, N, N, N, N),
MUX(1, 61, 7, N, N, N, N),
MUX(1, 62, 7, N, N, N, N),
MUX(1, 63, 7, N, N, N, N),
MUX(1, 64, 7, N, N, N, N),
MUX(1, 65, 7, N, N, N, N),
MUX(1, 66, 7, N, N, N, N),
MUX(1, 67, 7, N, N, N, N),
MUX(1, 68, 7, N, N, N, N),
MUX(1, 69, 7, N, N, N, N),
MUX(1, 70, 7, N, N, N, N),
MUX(1, 71, 7, N, N, N, N),
MUX(1, 72, 7, N, N, N, N),
MUX(1, 53, 7, N, N, N, N),
MUX(1, 55, 7, N, N, N, N),
MUX(1, 56, 7, 0xa08, 12, 0xa88, 12),
MUX(1, 54, 7, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_sw_status_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_sw_status_grp_pad_mux),
.pad_mux_list = gn_gnss_sw_status_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_eclk_grp_pad_mux[] = {
MUX(1, 113, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_eclk_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_eclk_grp_pad_mux),
.pad_mux_list = gn_gnss_eclk_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_irq1_grp0_pad_mux[] = {
MUX(1, 112, 4, 0xa08, 10, 0xa88, 10),
};
static struct atlas7_grp_mux gn_gnss_irq1_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_irq1_grp0_pad_mux),
.pad_mux_list = gn_gnss_irq1_grp0_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_irq2_grp0_pad_mux[] = {
MUX(1, 118, 4, 0xa08, 11, 0xa88, 11),
};
static struct atlas7_grp_mux gn_gnss_irq2_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_irq2_grp0_pad_mux),
.pad_mux_list = gn_gnss_irq2_grp0_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_tm_grp_pad_mux[] = {
MUX(1, 115, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_tm_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_tm_grp_pad_mux),
.pad_mux_list = gn_gnss_tm_grp_pad_mux,
};
static struct atlas7_pad_mux gn_gnss_tsync_grp_pad_mux[] = {
MUX(1, 114, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_gnss_tsync_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_gnss_tsync_grp_pad_mux),
.pad_mux_list = gn_gnss_tsync_grp_pad_mux,
};
static struct atlas7_pad_mux gn_io_gnsssys_sw_cfg_grp_pad_mux[] = {
MUX(1, 44, 7, N, N, N, N),
MUX(1, 43, 7, N, N, N, N),
MUX(1, 42, 7, N, N, N, N),
MUX(1, 41, 7, N, N, N, N),
MUX(1, 40, 7, N, N, N, N),
MUX(1, 39, 7, N, N, N, N),
MUX(1, 38, 7, N, N, N, N),
MUX(1, 37, 7, N, N, N, N),
MUX(1, 49, 7, N, N, N, N),
MUX(1, 50, 7, N, N, N, N),
MUX(1, 91, 7, N, N, N, N),
MUX(1, 92, 7, N, N, N, N),
MUX(1, 93, 7, N, N, N, N),
MUX(1, 94, 7, N, N, N, N),
MUX(1, 95, 7, N, N, N, N),
MUX(1, 96, 7, N, N, N, N),
};
static struct atlas7_grp_mux gn_io_gnsssys_sw_cfg_grp_mux = {
.pad_mux_count = ARRAY_SIZE(gn_io_gnsssys_sw_cfg_grp_pad_mux),
.pad_mux_list = gn_io_gnsssys_sw_cfg_grp_pad_mux,
};
static struct atlas7_pad_mux gn_trg_grp0_pad_mux[] = {
MUX(1, 29, 1, 0xa00, 6, 0xa80, 6),
MUX(1, 28, 1, 0xa00, 7, 0xa80, 7),
MUX(1, 26, 1, 0xa00, 8, 0xa80, 8),
MUX(1, 27, 1, 0xa00, 9, 0xa80, 9),
};
static struct atlas7_grp_mux gn_trg_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_grp0_pad_mux),
.pad_mux_list = gn_trg_grp0_pad_mux,
};
static struct atlas7_pad_mux gn_trg_grp1_pad_mux[] = {
MUX(1, 77, 3, 0xa00, 6, 0xa80, 6),
MUX(1, 76, 3, 0xa00, 7, 0xa80, 7),
MUX(1, 74, 3, 0xa00, 8, 0xa80, 8),
MUX(1, 75, 3, 0xa00, 9, 0xa80, 9),
};
static struct atlas7_grp_mux gn_trg_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_grp1_pad_mux),
.pad_mux_list = gn_trg_grp1_pad_mux,
};
static struct atlas7_pad_mux gn_trg_shutdown_grp0_pad_mux[] = {
MUX(1, 30, 1, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_shutdown_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_shutdown_grp0_pad_mux),
.pad_mux_list = gn_trg_shutdown_grp0_pad_mux,
};
static struct atlas7_pad_mux gn_trg_shutdown_grp1_pad_mux[] = {
MUX(1, 83, 3, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_shutdown_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_shutdown_grp1_pad_mux),
.pad_mux_list = gn_trg_shutdown_grp1_pad_mux,
};
static struct atlas7_pad_mux gn_trg_shutdown_grp2_pad_mux[] = {
MUX(1, 117, 4, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_shutdown_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_shutdown_grp2_pad_mux),
.pad_mux_list = gn_trg_shutdown_grp2_pad_mux,
};
static struct atlas7_pad_mux gn_trg_shutdown_grp3_pad_mux[] = {
MUX(1, 123, 5, N, N, N, N),
};
static struct atlas7_grp_mux gn_trg_shutdown_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(gn_trg_shutdown_grp3_pad_mux),
.pad_mux_list = gn_trg_shutdown_grp3_pad_mux,
};
static struct atlas7_pad_mux i2c0_grp_pad_mux[] = {
MUX(1, 128, 1, N, N, N, N),
MUX(1, 127, 1, N, N, N, N),
};
static struct atlas7_grp_mux i2c0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(i2c0_grp_pad_mux),
.pad_mux_list = i2c0_grp_pad_mux,
};
static struct atlas7_pad_mux i2c1_grp_pad_mux[] = {
MUX(1, 126, 4, N, N, N, N),
MUX(1, 125, 4, N, N, N, N),
};
static struct atlas7_grp_mux i2c1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(i2c1_grp_pad_mux),
.pad_mux_list = i2c1_grp_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux i2s0_grp_pad_mux[] = {
MUX(1, 91, 2, 0xa10, 12, 0xa90, 12),
MUX(1, 93, 2, 0xa10, 13, 0xa90, 13),
MUX(1, 94, 2, 0xa10, 14, 0xa90, 14),
MUX(1, 92, 2, 0xa10, 15, 0xa90, 15),
};
static struct atlas7_grp_mux i2s0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(i2s0_grp_pad_mux),
.pad_mux_list = i2s0_grp_pad_mux,
};
static struct atlas7_pad_mux i2s1_basic_grp_pad_mux[] = {
MUX(1, 95, 2, 0xa10, 16, 0xa90, 16),
MUX(1, 96, 2, 0xa10, 19, 0xa90, 19),
};
static struct atlas7_grp_mux i2s1_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_basic_grp_pad_mux),
.pad_mux_list = i2s1_basic_grp_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd0_grp0_pad_mux[] = {
MUX(1, 61, 4, 0xa10, 17, 0xa90, 17),
};
static struct atlas7_grp_mux i2s1_rxd0_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd0_grp0_pad_mux),
.pad_mux_list = i2s1_rxd0_grp0_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd0_grp1_pad_mux[] = {
MUX(1, 131, 4, 0xa10, 17, 0xa90, 17),
};
static struct atlas7_grp_mux i2s1_rxd0_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd0_grp1_pad_mux),
.pad_mux_list = i2s1_rxd0_grp1_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd0_grp2_pad_mux[] = {
MUX(1, 129, 2, 0xa10, 17, 0xa90, 17),
};
static struct atlas7_grp_mux i2s1_rxd0_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd0_grp2_pad_mux),
.pad_mux_list = i2s1_rxd0_grp2_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd0_grp3_pad_mux[] = {
MUX(1, 117, 7, 0xa10, 17, 0xa90, 17),
};
static struct atlas7_grp_mux i2s1_rxd0_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd0_grp3_pad_mux),
.pad_mux_list = i2s1_rxd0_grp3_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd0_grp4_pad_mux[] = {
MUX(1, 83, 4, 0xa10, 17, 0xa90, 17),
};
static struct atlas7_grp_mux i2s1_rxd0_grp4_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd0_grp4_pad_mux),
.pad_mux_list = i2s1_rxd0_grp4_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd1_grp0_pad_mux[] = {
MUX(1, 72, 4, 0xa10, 18, 0xa90, 18),
};
static struct atlas7_grp_mux i2s1_rxd1_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd1_grp0_pad_mux),
.pad_mux_list = i2s1_rxd1_grp0_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd1_grp1_pad_mux[] = {
MUX(1, 132, 4, 0xa10, 18, 0xa90, 18),
};
static struct atlas7_grp_mux i2s1_rxd1_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd1_grp1_pad_mux),
.pad_mux_list = i2s1_rxd1_grp1_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd1_grp2_pad_mux[] = {
MUX(1, 130, 2, 0xa10, 18, 0xa90, 18),
};
static struct atlas7_grp_mux i2s1_rxd1_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd1_grp2_pad_mux),
.pad_mux_list = i2s1_rxd1_grp2_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd1_grp3_pad_mux[] = {
MUX(1, 118, 7, 0xa10, 18, 0xa90, 18),
};
static struct atlas7_grp_mux i2s1_rxd1_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd1_grp3_pad_mux),
.pad_mux_list = i2s1_rxd1_grp3_pad_mux,
};
static struct atlas7_pad_mux i2s1_rxd1_grp4_pad_mux[] = {
MUX(1, 84, 4, 0xa10, 18, 0xa90, 18),
};
static struct atlas7_grp_mux i2s1_rxd1_grp4_mux = {
.pad_mux_count = ARRAY_SIZE(i2s1_rxd1_grp4_pad_mux),
.pad_mux_list = i2s1_rxd1_grp4_pad_mux,
};
static struct atlas7_pad_mux jtag_jt_dbg_nsrst_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 125, 5, 0xa08, 2, 0xa88, 2),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux jtag_jt_dbg_nsrst_grp_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_jt_dbg_nsrst_grp_pad_mux),
.pad_mux_list = jtag_jt_dbg_nsrst_grp_pad_mux,
};
static struct atlas7_pad_mux jtag_ntrst_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 4, 3, 0xa08, 3, 0xa88, 3),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux jtag_ntrst_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_ntrst_grp0_pad_mux),
.pad_mux_list = jtag_ntrst_grp0_pad_mux,
};
static struct atlas7_pad_mux jtag_ntrst_grp1_pad_mux[] = {
MUX(1, 163, 1, 0xa08, 3, 0xa88, 3),
};
static struct atlas7_grp_mux jtag_ntrst_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_ntrst_grp1_pad_mux),
.pad_mux_list = jtag_ntrst_grp1_pad_mux,
};
static struct atlas7_pad_mux jtag_swdiotms_grp0_pad_mux[] = {
MUX(0, 2, 3, 0xa10, 10, 0xa90, 10),
};
static struct atlas7_grp_mux jtag_swdiotms_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_swdiotms_grp0_pad_mux),
.pad_mux_list = jtag_swdiotms_grp0_pad_mux,
};
static struct atlas7_pad_mux jtag_swdiotms_grp1_pad_mux[] = {
MUX(1, 160, 1, 0xa10, 10, 0xa90, 10),
};
static struct atlas7_grp_mux jtag_swdiotms_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_swdiotms_grp1_pad_mux),
.pad_mux_list = jtag_swdiotms_grp1_pad_mux,
};
static struct atlas7_pad_mux jtag_tck_grp0_pad_mux[] = {
MUX(0, 0, 3, 0xa10, 11, 0xa90, 11),
};
static struct atlas7_grp_mux jtag_tck_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tck_grp0_pad_mux),
.pad_mux_list = jtag_tck_grp0_pad_mux,
};
static struct atlas7_pad_mux jtag_tck_grp1_pad_mux[] = {
MUX(1, 161, 1, 0xa10, 11, 0xa90, 11),
};
static struct atlas7_grp_mux jtag_tck_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tck_grp1_pad_mux),
.pad_mux_list = jtag_tck_grp1_pad_mux,
};
static struct atlas7_pad_mux jtag_tdi_grp0_pad_mux[] = {
MUX(0, 1, 3, 0xa10, 31, 0xa90, 31),
};
static struct atlas7_grp_mux jtag_tdi_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tdi_grp0_pad_mux),
.pad_mux_list = jtag_tdi_grp0_pad_mux,
};
static struct atlas7_pad_mux jtag_tdi_grp1_pad_mux[] = {
MUX(1, 162, 1, 0xa10, 31, 0xa90, 31),
};
static struct atlas7_grp_mux jtag_tdi_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tdi_grp1_pad_mux),
.pad_mux_list = jtag_tdi_grp1_pad_mux,
};
static struct atlas7_pad_mux jtag_tdo_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 3, 3, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux jtag_tdo_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tdo_grp0_pad_mux),
.pad_mux_list = jtag_tdo_grp0_pad_mux,
};
static struct atlas7_pad_mux jtag_tdo_grp1_pad_mux[] = {
MUX(1, 159, 1, N, N, N, N),
};
static struct atlas7_grp_mux jtag_tdo_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(jtag_tdo_grp1_pad_mux),
.pad_mux_list = jtag_tdo_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux ks_kas_spi_grp0_pad_mux[] = {
MUX(1, 141, 2, N, N, N, N),
MUX(1, 144, 2, 0xa08, 8, 0xa88, 8),
MUX(1, 143, 2, N, N, N, N),
MUX(1, 142, 2, N, N, N, N),
};
static struct atlas7_grp_mux ks_kas_spi_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(ks_kas_spi_grp0_pad_mux),
.pad_mux_list = ks_kas_spi_grp0_pad_mux,
};
static struct atlas7_pad_mux ld_ldd_grp_pad_mux[] = {
MUX(1, 57, 1, N, N, N, N),
MUX(1, 58, 1, N, N, N, N),
MUX(1, 59, 1, N, N, N, N),
MUX(1, 60, 1, N, N, N, N),
MUX(1, 61, 1, N, N, N, N),
MUX(1, 62, 1, N, N, N, N),
MUX(1, 63, 1, N, N, N, N),
MUX(1, 64, 1, N, N, N, N),
MUX(1, 65, 1, N, N, N, N),
MUX(1, 66, 1, N, N, N, N),
MUX(1, 67, 1, N, N, N, N),
MUX(1, 68, 1, N, N, N, N),
MUX(1, 69, 1, N, N, N, N),
MUX(1, 70, 1, N, N, N, N),
MUX(1, 71, 1, N, N, N, N),
MUX(1, 72, 1, N, N, N, N),
MUX(1, 74, 2, N, N, N, N),
MUX(1, 75, 2, N, N, N, N),
MUX(1, 76, 2, N, N, N, N),
MUX(1, 77, 2, N, N, N, N),
MUX(1, 78, 2, N, N, N, N),
MUX(1, 79, 2, N, N, N, N),
MUX(1, 80, 2, N, N, N, N),
MUX(1, 81, 2, N, N, N, N),
MUX(1, 56, 1, N, N, N, N),
MUX(1, 53, 1, N, N, N, N),
};
static struct atlas7_grp_mux ld_ldd_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ld_ldd_grp_pad_mux),
.pad_mux_list = ld_ldd_grp_pad_mux,
};
static struct atlas7_pad_mux ld_ldd_16bit_grp_pad_mux[] = {
MUX(1, 57, 1, N, N, N, N),
MUX(1, 58, 1, N, N, N, N),
MUX(1, 59, 1, N, N, N, N),
MUX(1, 60, 1, N, N, N, N),
MUX(1, 61, 1, N, N, N, N),
MUX(1, 62, 1, N, N, N, N),
MUX(1, 63, 1, N, N, N, N),
MUX(1, 64, 1, N, N, N, N),
MUX(1, 65, 1, N, N, N, N),
MUX(1, 66, 1, N, N, N, N),
MUX(1, 67, 1, N, N, N, N),
MUX(1, 68, 1, N, N, N, N),
MUX(1, 69, 1, N, N, N, N),
MUX(1, 70, 1, N, N, N, N),
MUX(1, 71, 1, N, N, N, N),
MUX(1, 72, 1, N, N, N, N),
MUX(1, 56, 1, N, N, N, N),
MUX(1, 53, 1, N, N, N, N),
};
static struct atlas7_grp_mux ld_ldd_16bit_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ld_ldd_16bit_grp_pad_mux),
.pad_mux_list = ld_ldd_16bit_grp_pad_mux,
};
static struct atlas7_pad_mux ld_ldd_fck_grp_pad_mux[] = {
MUX(1, 55, 1, N, N, N, N),
};
static struct atlas7_grp_mux ld_ldd_fck_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ld_ldd_fck_grp_pad_mux),
.pad_mux_list = ld_ldd_fck_grp_pad_mux,
};
static struct atlas7_pad_mux ld_ldd_lck_grp_pad_mux[] = {
MUX(1, 54, 1, N, N, N, N),
};
static struct atlas7_grp_mux ld_ldd_lck_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ld_ldd_lck_grp_pad_mux),
.pad_mux_list = ld_ldd_lck_grp_pad_mux,
};
static struct atlas7_pad_mux lr_lcdrom_grp_pad_mux[] = {
MUX(1, 73, 2, N, N, N, N),
MUX(1, 54, 2, N, N, N, N),
MUX(1, 57, 2, N, N, N, N),
MUX(1, 58, 2, N, N, N, N),
MUX(1, 59, 2, N, N, N, N),
MUX(1, 60, 2, N, N, N, N),
MUX(1, 61, 2, N, N, N, N),
MUX(1, 62, 2, N, N, N, N),
MUX(1, 63, 2, N, N, N, N),
MUX(1, 64, 2, N, N, N, N),
MUX(1, 65, 2, N, N, N, N),
MUX(1, 66, 2, N, N, N, N),
MUX(1, 67, 2, N, N, N, N),
MUX(1, 68, 2, N, N, N, N),
MUX(1, 69, 2, N, N, N, N),
MUX(1, 70, 2, N, N, N, N),
MUX(1, 71, 2, N, N, N, N),
MUX(1, 72, 2, N, N, N, N),
MUX(1, 56, 2, N, N, N, N),
MUX(1, 53, 2, N, N, N, N),
MUX(1, 55, 2, N, N, N, N),
};
static struct atlas7_grp_mux lr_lcdrom_grp_mux = {
.pad_mux_count = ARRAY_SIZE(lr_lcdrom_grp_pad_mux),
.pad_mux_list = lr_lcdrom_grp_pad_mux,
};
static struct atlas7_pad_mux lvds_analog_grp_pad_mux[] = {
MUX(1, 149, 8, N, N, N, N),
MUX(1, 150, 8, N, N, N, N),
MUX(1, 151, 8, N, N, N, N),
MUX(1, 152, 8, N, N, N, N),
MUX(1, 153, 8, N, N, N, N),
MUX(1, 154, 8, N, N, N, N),
MUX(1, 155, 8, N, N, N, N),
MUX(1, 156, 8, N, N, N, N),
MUX(1, 157, 8, N, N, N, N),
MUX(1, 158, 8, N, N, N, N),
};
static struct atlas7_grp_mux lvds_analog_grp_mux = {
.pad_mux_count = ARRAY_SIZE(lvds_analog_grp_pad_mux),
.pad_mux_list = lvds_analog_grp_pad_mux,
};
static struct atlas7_pad_mux nd_df_basic_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 44, 1, N, N, N, N),
MUX(1, 43, 1, N, N, N, N),
MUX(1, 42, 1, N, N, N, N),
MUX(1, 41, 1, N, N, N, N),
MUX(1, 40, 1, N, N, N, N),
MUX(1, 39, 1, N, N, N, N),
MUX(1, 38, 1, N, N, N, N),
MUX(1, 37, 1, N, N, N, N),
MUX(1, 47, 1, N, N, N, N),
MUX(1, 46, 1, N, N, N, N),
MUX(1, 52, 1, N, N, N, N),
MUX(1, 45, 1, N, N, N, N),
MUX(1, 49, 1, N, N, N, N),
MUX(1, 50, 1, N, N, N, N),
MUX(1, 48, 1, N, N, N, N),
};
static struct atlas7_grp_mux nd_df_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(nd_df_basic_grp_pad_mux),
.pad_mux_list = nd_df_basic_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux nd_df_wp_grp_pad_mux[] = {
MUX(1, 124, 4, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_grp_mux nd_df_wp_grp_mux = {
.pad_mux_count = ARRAY_SIZE(nd_df_wp_grp_pad_mux),
.pad_mux_list = nd_df_wp_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux nd_df_cs_grp_pad_mux[] = {
MUX(1, 51, 1, N, N, N, N),
};
static struct atlas7_grp_mux nd_df_cs_grp_mux = {
.pad_mux_count = ARRAY_SIZE(nd_df_cs_grp_pad_mux),
.pad_mux_list = nd_df_cs_grp_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux ps_grp_pad_mux[] = {
MUX(1, 120, 2, N, N, N, N),
MUX(1, 119, 2, N, N, N, N),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
MUX(1, 121, 5, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_grp_mux ps_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ps_grp_pad_mux),
.pad_mux_list = ps_grp_pad_mux,
};
static struct atlas7_pad_mux ps_no_dir_grp_pad_mux[] = {
MUX(1, 119, 2, N, N, N, N),
};
static struct atlas7_grp_mux ps_no_dir_grp_mux = {
.pad_mux_count = ARRAY_SIZE(ps_no_dir_grp_pad_mux),
.pad_mux_list = ps_no_dir_grp_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux pwc_core_on_grp_pad_mux[] = {
MUX(0, 8, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_core_on_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_core_on_grp_pad_mux),
.pad_mux_list = pwc_core_on_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_ext_on_grp_pad_mux[] = {
MUX(0, 6, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_ext_on_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_ext_on_grp_pad_mux),
.pad_mux_list = pwc_ext_on_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_gpio3_clk_grp_pad_mux[] = {
MUX(0, 3, 4, N, N, N, N),
};
static struct atlas7_grp_mux pwc_gpio3_clk_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_gpio3_clk_grp_pad_mux),
.pad_mux_list = pwc_gpio3_clk_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_io_on_grp_pad_mux[] = {
MUX(0, 9, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_io_on_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_io_on_grp_pad_mux),
.pad_mux_list = pwc_io_on_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_lowbatt_b_grp0_pad_mux[] = {
MUX(0, 4, 1, 0xa08, 4, 0xa88, 4),
};
static struct atlas7_grp_mux pwc_lowbatt_b_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_lowbatt_b_grp0_pad_mux),
.pad_mux_list = pwc_lowbatt_b_grp0_pad_mux,
};
static struct atlas7_pad_mux pwc_mem_on_grp_pad_mux[] = {
MUX(0, 7, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_mem_on_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_mem_on_grp_pad_mux),
.pad_mux_list = pwc_mem_on_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_on_key_b_grp0_pad_mux[] = {
MUX(0, 5, 1, 0xa08, 5, 0xa88, 5),
};
static struct atlas7_grp_mux pwc_on_key_b_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_on_key_b_grp0_pad_mux),
.pad_mux_list = pwc_on_key_b_grp0_pad_mux,
};
static struct atlas7_pad_mux pwc_wakeup_src0_grp_pad_mux[] = {
MUX(0, 0, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_wakeup_src0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_wakeup_src0_grp_pad_mux),
.pad_mux_list = pwc_wakeup_src0_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_wakeup_src1_grp_pad_mux[] = {
MUX(0, 1, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_wakeup_src1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_wakeup_src1_grp_pad_mux),
.pad_mux_list = pwc_wakeup_src1_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_wakeup_src2_grp_pad_mux[] = {
MUX(0, 2, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_wakeup_src2_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_wakeup_src2_grp_pad_mux),
.pad_mux_list = pwc_wakeup_src2_grp_pad_mux,
};
static struct atlas7_pad_mux pwc_wakeup_src3_grp_pad_mux[] = {
MUX(0, 3, 1, N, N, N, N),
};
static struct atlas7_grp_mux pwc_wakeup_src3_grp_mux = {
.pad_mux_count = ARRAY_SIZE(pwc_wakeup_src3_grp_pad_mux),
.pad_mux_list = pwc_wakeup_src3_grp_pad_mux,
};
static struct atlas7_pad_mux pw_cko0_grp0_pad_mux[] = {
MUX(1, 123, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko0_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko0_grp0_pad_mux),
.pad_mux_list = pw_cko0_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_cko0_grp1_pad_mux[] = {
MUX(1, 101, 4, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko0_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko0_grp1_pad_mux),
.pad_mux_list = pw_cko0_grp1_pad_mux,
};
static struct atlas7_pad_mux pw_cko0_grp2_pad_mux[] = {
MUX(1, 82, 2, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko0_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko0_grp2_pad_mux),
.pad_mux_list = pw_cko0_grp2_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_cko0_grp3_pad_mux[] = {
MUX(1, 162, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko0_grp3_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko0_grp3_pad_mux),
.pad_mux_list = pw_cko0_grp3_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux pw_cko1_grp0_pad_mux[] = {
MUX(1, 124, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko1_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko1_grp0_pad_mux),
.pad_mux_list = pw_cko1_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_cko1_grp1_pad_mux[] = {
MUX(1, 110, 4, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko1_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko1_grp1_pad_mux),
.pad_mux_list = pw_cko1_grp1_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_cko1_grp2_pad_mux[] = {
MUX(1, 163, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_cko1_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_cko1_grp2_pad_mux),
.pad_mux_list = pw_cko1_grp2_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux pw_i2s01_clk_grp0_pad_mux[] = {
MUX(1, 125, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_i2s01_clk_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_i2s01_clk_grp0_pad_mux),
.pad_mux_list = pw_i2s01_clk_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_i2s01_clk_grp1_pad_mux[] = {
MUX(1, 117, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_i2s01_clk_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_i2s01_clk_grp1_pad_mux),
.pad_mux_list = pw_i2s01_clk_grp1_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_i2s01_clk_grp2_pad_mux[] = {
MUX(1, 132, 2, N, N, N, N),
};
static struct atlas7_grp_mux pw_i2s01_clk_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_i2s01_clk_grp2_pad_mux),
.pad_mux_list = pw_i2s01_clk_grp2_pad_mux,
};
static struct atlas7_pad_mux pw_pwm0_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 119, 3, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux pw_pwm0_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm0_grp0_pad_mux),
.pad_mux_list = pw_pwm0_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_pwm0_grp1_pad_mux[] = {
MUX(1, 159, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm0_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm0_grp1_pad_mux),
.pad_mux_list = pw_pwm0_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_pwm1_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 120, 3, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux pw_pwm1_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm1_grp0_pad_mux),
.pad_mux_list = pw_pwm1_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_pwm1_grp1_pad_mux[] = {
MUX(1, 160, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm1_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm1_grp1_pad_mux),
.pad_mux_list = pw_pwm1_grp1_pad_mux,
};
static struct atlas7_pad_mux pw_pwm1_grp2_pad_mux[] = {
MUX(1, 131, 2, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm1_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm1_grp2_pad_mux),
.pad_mux_list = pw_pwm1_grp2_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux pw_pwm2_grp0_pad_mux[] = {
MUX(1, 121, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm2_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm2_grp0_pad_mux),
.pad_mux_list = pw_pwm2_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_pwm2_grp1_pad_mux[] = {
MUX(1, 98, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm2_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm2_grp1_pad_mux),
.pad_mux_list = pw_pwm2_grp1_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_pwm2_grp2_pad_mux[] = {
MUX(1, 161, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm2_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm2_grp2_pad_mux),
.pad_mux_list = pw_pwm2_grp2_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux pw_pwm3_grp0_pad_mux[] = {
MUX(1, 122, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm3_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm3_grp0_pad_mux),
.pad_mux_list = pw_pwm3_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_pwm3_grp1_pad_mux[] = {
MUX(1, 73, 4, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm3_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm3_grp1_pad_mux),
.pad_mux_list = pw_pwm3_grp1_pad_mux,
};
static struct atlas7_pad_mux pw_pwm_cpu_vol_grp0_pad_mux[] = {
MUX(1, 121, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm_cpu_vol_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm_cpu_vol_grp0_pad_mux),
.pad_mux_list = pw_pwm_cpu_vol_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_pwm_cpu_vol_grp1_pad_mux[] = {
MUX(1, 98, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm_cpu_vol_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm_cpu_vol_grp1_pad_mux),
.pad_mux_list = pw_pwm_cpu_vol_grp1_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux pw_pwm_cpu_vol_grp2_pad_mux[] = {
MUX(1, 161, 5, N, N, N, N),
};
static struct atlas7_grp_mux pw_pwm_cpu_vol_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(pw_pwm_cpu_vol_grp2_pad_mux),
.pad_mux_list = pw_pwm_cpu_vol_grp2_pad_mux,
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct atlas7_pad_mux pw_backlight_grp0_pad_mux[] = {
MUX(1, 122, 3, N, N, N, N),
};
static struct atlas7_grp_mux pw_backlight_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(pw_backlight_grp0_pad_mux),
.pad_mux_list = pw_backlight_grp0_pad_mux,
};
static struct atlas7_pad_mux pw_backlight_grp1_pad_mux[] = {
MUX(1, 73, 4, N, N, N, N),
};
static struct atlas7_grp_mux pw_backlight_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(pw_backlight_grp1_pad_mux),
.pad_mux_list = pw_backlight_grp1_pad_mux,
};
static struct atlas7_pad_mux rg_eth_mac_grp_pad_mux[] = {
MUX(1, 108, 1, N, N, N, N),
MUX(1, 103, 1, N, N, N, N),
MUX(1, 104, 1, N, N, N, N),
MUX(1, 105, 1, N, N, N, N),
MUX(1, 106, 1, N, N, N, N),
MUX(1, 107, 1, N, N, N, N),
MUX(1, 102, 1, N, N, N, N),
MUX(1, 97, 1, N, N, N, N),
MUX(1, 98, 1, N, N, N, N),
MUX(1, 99, 1, N, N, N, N),
MUX(1, 100, 1, N, N, N, N),
MUX(1, 101, 1, N, N, N, N),
};
static struct atlas7_grp_mux rg_eth_mac_grp_mux = {
.pad_mux_count = ARRAY_SIZE(rg_eth_mac_grp_pad_mux),
.pad_mux_list = rg_eth_mac_grp_pad_mux,
};
static struct atlas7_pad_mux rg_gmac_phy_intr_n_grp_pad_mux[] = {
MUX(1, 111, 1, 0xa08, 13, 0xa88, 13),
};
static struct atlas7_grp_mux rg_gmac_phy_intr_n_grp_mux = {
.pad_mux_count = ARRAY_SIZE(rg_gmac_phy_intr_n_grp_pad_mux),
.pad_mux_list = rg_gmac_phy_intr_n_grp_pad_mux,
};
static struct atlas7_pad_mux rg_rgmii_mac_grp_pad_mux[] = {
MUX(1, 109, 1, N, N, N, N),
MUX(1, 110, 1, N, N, N, N),
};
static struct atlas7_grp_mux rg_rgmii_mac_grp_mux = {
.pad_mux_count = ARRAY_SIZE(rg_rgmii_mac_grp_pad_mux),
.pad_mux_list = rg_rgmii_mac_grp_pad_mux,
};
static struct atlas7_pad_mux rg_rgmii_phy_ref_clk_grp0_pad_mux[] = {
MUX(1, 111, 5, N, N, N, N),
};
static struct atlas7_grp_mux rg_rgmii_phy_ref_clk_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(rg_rgmii_phy_ref_clk_grp0_pad_mux),
.pad_mux_list = rg_rgmii_phy_ref_clk_grp0_pad_mux,
};
static struct atlas7_pad_mux rg_rgmii_phy_ref_clk_grp1_pad_mux[] = {
MUX(1, 53, 4, N, N, N, N),
};
static struct atlas7_grp_mux rg_rgmii_phy_ref_clk_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(rg_rgmii_phy_ref_clk_grp1_pad_mux),
.pad_mux_list = rg_rgmii_phy_ref_clk_grp1_pad_mux,
};
static struct atlas7_pad_mux sd0_grp_pad_mux[] = {
MUX(1, 46, 2, N, N, N, N),
MUX(1, 47, 2, N, N, N, N),
MUX(1, 44, 2, N, N, N, N),
MUX(1, 43, 2, N, N, N, N),
MUX(1, 42, 2, N, N, N, N),
MUX(1, 41, 2, N, N, N, N),
MUX(1, 40, 2, N, N, N, N),
MUX(1, 39, 2, N, N, N, N),
MUX(1, 38, 2, N, N, N, N),
MUX(1, 37, 2, N, N, N, N),
};
static struct atlas7_grp_mux sd0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd0_grp_pad_mux),
.pad_mux_list = sd0_grp_pad_mux,
};
static struct atlas7_pad_mux sd0_4bit_grp_pad_mux[] = {
MUX(1, 46, 2, N, N, N, N),
MUX(1, 47, 2, N, N, N, N),
MUX(1, 44, 2, N, N, N, N),
MUX(1, 43, 2, N, N, N, N),
MUX(1, 42, 2, N, N, N, N),
MUX(1, 41, 2, N, N, N, N),
};
static struct atlas7_grp_mux sd0_4bit_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd0_4bit_grp_pad_mux),
.pad_mux_list = sd0_4bit_grp_pad_mux,
};
static struct atlas7_pad_mux sd1_grp_pad_mux[] = {
MUX(1, 48, 3, N, N, N, N),
MUX(1, 49, 3, N, N, N, N),
MUX(1, 44, 3, 0xa00, 0, 0xa80, 0),
MUX(1, 43, 3, 0xa00, 1, 0xa80, 1),
MUX(1, 42, 3, 0xa00, 2, 0xa80, 2),
MUX(1, 41, 3, 0xa00, 3, 0xa80, 3),
MUX(1, 40, 3, N, N, N, N),
MUX(1, 39, 3, N, N, N, N),
MUX(1, 38, 3, N, N, N, N),
MUX(1, 37, 3, N, N, N, N),
};
static struct atlas7_grp_mux sd1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd1_grp_pad_mux),
.pad_mux_list = sd1_grp_pad_mux,
};
static struct atlas7_pad_mux sd1_4bit_grp0_pad_mux[] = {
MUX(1, 48, 3, N, N, N, N),
MUX(1, 49, 3, N, N, N, N),
MUX(1, 44, 3, 0xa00, 0, 0xa80, 0),
MUX(1, 43, 3, 0xa00, 1, 0xa80, 1),
MUX(1, 42, 3, 0xa00, 2, 0xa80, 2),
MUX(1, 41, 3, 0xa00, 3, 0xa80, 3),
};
static struct atlas7_grp_mux sd1_4bit_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(sd1_4bit_grp0_pad_mux),
.pad_mux_list = sd1_4bit_grp0_pad_mux,
};
static struct atlas7_pad_mux sd1_4bit_grp1_pad_mux[] = {
MUX(1, 48, 3, N, N, N, N),
MUX(1, 49, 3, N, N, N, N),
MUX(1, 40, 4, 0xa00, 0, 0xa80, 0),
MUX(1, 39, 4, 0xa00, 1, 0xa80, 1),
MUX(1, 38, 4, 0xa00, 2, 0xa80, 2),
MUX(1, 37, 4, 0xa00, 3, 0xa80, 3),
};
static struct atlas7_grp_mux sd1_4bit_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(sd1_4bit_grp1_pad_mux),
.pad_mux_list = sd1_4bit_grp1_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux sd2_basic_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 31, 1, N, N, N, N),
MUX(1, 32, 1, N, N, N, N),
MUX(1, 33, 1, N, N, N, N),
MUX(1, 34, 1, N, N, N, N),
MUX(1, 35, 1, N, N, N, N),
MUX(1, 36, 1, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux sd2_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd2_basic_grp_pad_mux),
.pad_mux_list = sd2_basic_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux sd2_cdb_grp0_pad_mux[] = {
MUX(1, 124, 2, 0xa08, 7, 0xa88, 7),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux sd2_cdb_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(sd2_cdb_grp0_pad_mux),
.pad_mux_list = sd2_cdb_grp0_pad_mux,
};
static struct atlas7_pad_mux sd2_cdb_grp1_pad_mux[] = {
MUX(1, 161, 6, 0xa08, 7, 0xa88, 7),
};
static struct atlas7_grp_mux sd2_cdb_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(sd2_cdb_grp1_pad_mux),
.pad_mux_list = sd2_cdb_grp1_pad_mux,
};
static struct atlas7_pad_mux sd2_wpb_grp0_pad_mux[] = {
MUX(1, 123, 2, 0xa10, 6, 0xa90, 6),
};
static struct atlas7_grp_mux sd2_wpb_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(sd2_wpb_grp0_pad_mux),
.pad_mux_list = sd2_wpb_grp0_pad_mux,
};
static struct atlas7_pad_mux sd2_wpb_grp1_pad_mux[] = {
MUX(1, 163, 7, 0xa10, 6, 0xa90, 6),
};
static struct atlas7_grp_mux sd2_wpb_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(sd2_wpb_grp1_pad_mux),
.pad_mux_list = sd2_wpb_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux sd3_9_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 85, 1, N, N, N, N),
MUX(1, 86, 1, N, N, N, N),
MUX(1, 87, 1, N, N, N, N),
MUX(1, 88, 1, N, N, N, N),
MUX(1, 89, 1, N, N, N, N),
MUX(1, 90, 1, N, N, N, N),
};
static struct atlas7_grp_mux sd3_9_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd3_9_grp_pad_mux),
.pad_mux_list = sd3_9_grp_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux sd5_grp_pad_mux[] = {
MUX(1, 91, 1, N, N, N, N),
MUX(1, 92, 1, N, N, N, N),
MUX(1, 93, 1, N, N, N, N),
MUX(1, 94, 1, N, N, N, N),
MUX(1, 95, 1, N, N, N, N),
MUX(1, 96, 1, N, N, N, N),
};
static struct atlas7_grp_mux sd5_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sd5_grp_pad_mux),
.pad_mux_list = sd5_grp_pad_mux,
};
static struct atlas7_pad_mux sd6_grp0_pad_mux[] = {
MUX(1, 79, 4, 0xa00, 27, 0xa80, 27),
MUX(1, 78, 4, 0xa00, 26, 0xa80, 26),
MUX(1, 74, 4, 0xa00, 28, 0xa80, 28),
MUX(1, 75, 4, 0xa00, 29, 0xa80, 29),
MUX(1, 76, 4, 0xa00, 30, 0xa80, 30),
MUX(1, 77, 4, 0xa00, 31, 0xa80, 31),
};
static struct atlas7_grp_mux sd6_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(sd6_grp0_pad_mux),
.pad_mux_list = sd6_grp0_pad_mux,
};
static struct atlas7_pad_mux sd6_grp1_pad_mux[] = {
MUX(1, 101, 3, 0xa00, 27, 0xa80, 27),
MUX(1, 99, 3, 0xa00, 26, 0xa80, 26),
MUX(1, 100, 3, 0xa00, 28, 0xa80, 28),
MUX(1, 110, 3, 0xa00, 29, 0xa80, 29),
MUX(1, 109, 3, 0xa00, 30, 0xa80, 30),
MUX(1, 111, 3, 0xa00, 31, 0xa80, 31),
};
static struct atlas7_grp_mux sd6_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(sd6_grp1_pad_mux),
.pad_mux_list = sd6_grp1_pad_mux,
};
static struct atlas7_pad_mux sp0_ext_ldo_on_grp_pad_mux[] = {
MUX(0, 4, 2, N, N, N, N),
};
static struct atlas7_grp_mux sp0_ext_ldo_on_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sp0_ext_ldo_on_grp_pad_mux),
.pad_mux_list = sp0_ext_ldo_on_grp_pad_mux,
};
static struct atlas7_pad_mux sp0_qspi_grp_pad_mux[] = {
MUX(0, 12, 1, N, N, N, N),
MUX(0, 13, 1, N, N, N, N),
MUX(0, 14, 1, N, N, N, N),
MUX(0, 15, 1, N, N, N, N),
MUX(0, 16, 1, N, N, N, N),
MUX(0, 17, 1, N, N, N, N),
};
static struct atlas7_grp_mux sp0_qspi_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sp0_qspi_grp_pad_mux),
.pad_mux_list = sp0_qspi_grp_pad_mux,
};
static struct atlas7_pad_mux sp1_spi_grp_pad_mux[] = {
MUX(1, 19, 1, N, N, N, N),
MUX(1, 20, 1, N, N, N, N),
MUX(1, 21, 1, N, N, N, N),
MUX(1, 18, 1, N, N, N, N),
};
static struct atlas7_grp_mux sp1_spi_grp_mux = {
.pad_mux_count = ARRAY_SIZE(sp1_spi_grp_pad_mux),
.pad_mux_list = sp1_spi_grp_pad_mux,
};
static struct atlas7_pad_mux tpiu_trace_grp_pad_mux[] = {
MUX(1, 53, 5, N, N, N, N),
MUX(1, 56, 5, N, N, N, N),
MUX(1, 57, 5, N, N, N, N),
MUX(1, 58, 5, N, N, N, N),
MUX(1, 59, 5, N, N, N, N),
MUX(1, 60, 5, N, N, N, N),
MUX(1, 61, 5, N, N, N, N),
MUX(1, 62, 5, N, N, N, N),
MUX(1, 63, 5, N, N, N, N),
MUX(1, 64, 5, N, N, N, N),
MUX(1, 65, 5, N, N, N, N),
MUX(1, 66, 5, N, N, N, N),
MUX(1, 67, 5, N, N, N, N),
MUX(1, 68, 5, N, N, N, N),
MUX(1, 69, 5, N, N, N, N),
MUX(1, 70, 5, N, N, N, N),
MUX(1, 71, 5, N, N, N, N),
MUX(1, 72, 5, N, N, N, N),
};
static struct atlas7_grp_mux tpiu_trace_grp_mux = {
.pad_mux_count = ARRAY_SIZE(tpiu_trace_grp_pad_mux),
.pad_mux_list = tpiu_trace_grp_pad_mux,
};
static struct atlas7_pad_mux uart0_grp_pad_mux[] = {
MUX(1, 121, 4, N, N, N, N),
MUX(1, 120, 4, N, N, N, N),
MUX(1, 134, 1, N, N, N, N),
MUX(1, 133, 1, N, N, N, N),
};
static struct atlas7_grp_mux uart0_grp_mux = {
.pad_mux_count = ARRAY_SIZE(uart0_grp_pad_mux),
.pad_mux_list = uart0_grp_pad_mux,
};
static struct atlas7_pad_mux uart0_nopause_grp_pad_mux[] = {
MUX(1, 134, 1, N, N, N, N),
MUX(1, 133, 1, N, N, N, N),
};
static struct atlas7_grp_mux uart0_nopause_grp_mux = {
.pad_mux_count = ARRAY_SIZE(uart0_nopause_grp_pad_mux),
.pad_mux_list = uart0_nopause_grp_pad_mux,
};
static struct atlas7_pad_mux uart1_grp_pad_mux[] = {
MUX(1, 136, 1, N, N, N, N),
MUX(1, 135, 1, N, N, N, N),
};
static struct atlas7_grp_mux uart1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(uart1_grp_pad_mux),
.pad_mux_list = uart1_grp_pad_mux,
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart2_cts_grp0_pad_mux[] = {
MUX(1, 132, 3, 0xa10, 2, 0xa90, 2),
};
static struct atlas7_grp_mux uart2_cts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_cts_grp0_pad_mux),
.pad_mux_list = uart2_cts_grp0_pad_mux,
};
static struct atlas7_pad_mux uart2_cts_grp1_pad_mux[] = {
MUX(1, 162, 2, 0xa10, 2, 0xa90, 2),
};
static struct atlas7_grp_mux uart2_cts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_cts_grp1_pad_mux),
.pad_mux_list = uart2_cts_grp1_pad_mux,
};
static struct atlas7_pad_mux uart2_rts_grp0_pad_mux[] = {
MUX(1, 131, 3, N, N, N, N),
};
static struct atlas7_grp_mux uart2_rts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_rts_grp0_pad_mux),
.pad_mux_list = uart2_rts_grp0_pad_mux,
};
static struct atlas7_pad_mux uart2_rts_grp1_pad_mux[] = {
MUX(1, 161, 2, N, N, N, N),
};
static struct atlas7_grp_mux uart2_rts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_rts_grp1_pad_mux),
.pad_mux_list = uart2_rts_grp1_pad_mux,
};
static struct atlas7_pad_mux uart2_rxd_grp0_pad_mux[] = {
MUX(0, 11, 2, 0xa10, 5, 0xa90, 5),
};
static struct atlas7_grp_mux uart2_rxd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_rxd_grp0_pad_mux),
.pad_mux_list = uart2_rxd_grp0_pad_mux,
};
static struct atlas7_pad_mux uart2_rxd_grp1_pad_mux[] = {
MUX(1, 160, 2, 0xa10, 5, 0xa90, 5),
};
static struct atlas7_grp_mux uart2_rxd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_rxd_grp1_pad_mux),
.pad_mux_list = uart2_rxd_grp1_pad_mux,
};
static struct atlas7_pad_mux uart2_rxd_grp2_pad_mux[] = {
MUX(1, 130, 3, 0xa10, 5, 0xa90, 5),
};
static struct atlas7_grp_mux uart2_rxd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_rxd_grp2_pad_mux),
.pad_mux_list = uart2_rxd_grp2_pad_mux,
};
static struct atlas7_pad_mux uart2_txd_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(0, 10, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart2_txd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_txd_grp0_pad_mux),
.pad_mux_list = uart2_txd_grp0_pad_mux,
};
static struct atlas7_pad_mux uart2_txd_grp1_pad_mux[] = {
MUX(1, 159, 2, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart2_txd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_txd_grp1_pad_mux),
.pad_mux_list = uart2_txd_grp1_pad_mux,
};
static struct atlas7_pad_mux uart2_txd_grp2_pad_mux[] = {
MUX(1, 129, 3, N, N, N, N),
};
static struct atlas7_grp_mux uart2_txd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart2_txd_grp2_pad_mux),
.pad_mux_list = uart2_txd_grp2_pad_mux,
};
static struct atlas7_pad_mux uart3_cts_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 125, 2, 0xa08, 0, 0xa88, 0),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_cts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_cts_grp0_pad_mux),
.pad_mux_list = uart3_cts_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_cts_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 111, 4, 0xa08, 0, 0xa88, 0),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_cts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_cts_grp1_pad_mux),
.pad_mux_list = uart3_cts_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_cts_grp2_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 140, 2, 0xa08, 0, 0xa88, 0),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux uart3_cts_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_cts_grp2_pad_mux),
.pad_mux_list = uart3_cts_grp2_pad_mux,
};
static struct atlas7_pad_mux uart3_rts_grp0_pad_mux[] = {
MUX(1, 126, 2, N, N, N, N),
};
static struct atlas7_grp_mux uart3_rts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rts_grp0_pad_mux),
.pad_mux_list = uart3_rts_grp0_pad_mux,
};
static struct atlas7_pad_mux uart3_rts_grp1_pad_mux[] = {
MUX(1, 109, 4, N, N, N, N),
};
static struct atlas7_grp_mux uart3_rts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rts_grp1_pad_mux),
.pad_mux_list = uart3_rts_grp1_pad_mux,
};
static struct atlas7_pad_mux uart3_rts_grp2_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 139, 2, N, N, N, N),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
};
static struct atlas7_grp_mux uart3_rts_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rts_grp2_pad_mux),
.pad_mux_list = uart3_rts_grp2_pad_mux,
};
static struct atlas7_pad_mux uart3_rxd_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 138, 1, 0xa00, 5, 0xa80, 5),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_rxd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rxd_grp0_pad_mux),
.pad_mux_list = uart3_rxd_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_rxd_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 84, 2, 0xa00, 5, 0xa80, 5),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_rxd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rxd_grp1_pad_mux),
.pad_mux_list = uart3_rxd_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_rxd_grp2_pad_mux[] = {
MUX(1, 162, 3, 0xa00, 5, 0xa80, 5),
};
static struct atlas7_grp_mux uart3_rxd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_rxd_grp2_pad_mux),
.pad_mux_list = uart3_rxd_grp2_pad_mux,
};
static struct atlas7_pad_mux uart3_txd_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 137, 1, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_txd_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_txd_grp0_pad_mux),
.pad_mux_list = uart3_txd_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_txd_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 83, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart3_txd_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_txd_grp1_pad_mux),
.pad_mux_list = uart3_txd_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart3_txd_grp2_pad_mux[] = {
MUX(1, 161, 3, N, N, N, N),
};
static struct atlas7_grp_mux uart3_txd_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart3_txd_grp2_pad_mux),
.pad_mux_list = uart3_txd_grp2_pad_mux,
};
static struct atlas7_pad_mux uart4_basic_grp_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 140, 1, N, N, N, N),
MUX(1, 139, 1, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart4_basic_grp_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_basic_grp_pad_mux),
.pad_mux_list = uart4_basic_grp_pad_mux,
};
static struct atlas7_pad_mux uart4_cts_grp0_pad_mux[] = {
MUX(1, 122, 4, 0xa08, 1, 0xa88, 1),
};
static struct atlas7_grp_mux uart4_cts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_cts_grp0_pad_mux),
.pad_mux_list = uart4_cts_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart4_cts_grp1_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 100, 4, 0xa08, 1, 0xa88, 1),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart4_cts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_cts_grp1_pad_mux),
.pad_mux_list = uart4_cts_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart4_cts_grp2_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 117, 2, 0xa08, 1, 0xa88, 1),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart4_cts_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_cts_grp2_pad_mux),
.pad_mux_list = uart4_cts_grp2_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart4_rts_grp0_pad_mux[] = {
MUX(1, 123, 4, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux uart4_rts_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_rts_grp0_pad_mux),
.pad_mux_list = uart4_rts_grp0_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_pad_mux uart4_rts_grp1_pad_mux[] = {
MUX(1, 99, 4, N, N, N, N),
};
static struct atlas7_grp_mux uart4_rts_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_rts_grp1_pad_mux),
.pad_mux_list = uart4_rts_grp1_pad_mux,
};
static struct atlas7_pad_mux uart4_rts_grp2_pad_mux[] = {
MUX(1, 116, 2, N, N, N, N),
};
static struct atlas7_grp_mux uart4_rts_grp2_mux = {
.pad_mux_count = ARRAY_SIZE(uart4_rts_grp2_pad_mux),
.pad_mux_list = uart4_rts_grp2_pad_mux,
};
static struct atlas7_pad_mux usb0_drvvbus_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 51, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux usb0_drvvbus_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(usb0_drvvbus_grp0_pad_mux),
.pad_mux_list = usb0_drvvbus_grp0_pad_mux,
};
static struct atlas7_pad_mux usb0_drvvbus_grp1_pad_mux[] = {
MUX(1, 162, 7, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux usb0_drvvbus_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(usb0_drvvbus_grp1_pad_mux),
.pad_mux_list = usb0_drvvbus_grp1_pad_mux,
};
static struct atlas7_pad_mux usb1_drvvbus_grp0_pad_mux[] = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
MUX(1, 134, 2, N, N, N, N),
};
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
static struct atlas7_grp_mux usb1_drvvbus_grp0_mux = {
.pad_mux_count = ARRAY_SIZE(usb1_drvvbus_grp0_pad_mux),
.pad_mux_list = usb1_drvvbus_grp0_pad_mux,
};
static struct atlas7_pad_mux usb1_drvvbus_grp1_pad_mux[] = {
MUX(1, 163, 2, N, N, N, N),
};
static struct atlas7_grp_mux usb1_drvvbus_grp1_mux = {
.pad_mux_count = ARRAY_SIZE(usb1_drvvbus_grp1_pad_mux),
.pad_mux_list = usb1_drvvbus_grp1_pad_mux,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_pad_mux visbus_dout_grp_pad_mux[] = {
MUX(1, 57, 6, N, N, N, N),
MUX(1, 58, 6, N, N, N, N),
MUX(1, 59, 6, N, N, N, N),
MUX(1, 60, 6, N, N, N, N),
MUX(1, 61, 6, N, N, N, N),
MUX(1, 62, 6, N, N, N, N),
MUX(1, 63, 6, N, N, N, N),
MUX(1, 64, 6, N, N, N, N),
MUX(1, 65, 6, N, N, N, N),
MUX(1, 66, 6, N, N, N, N),
MUX(1, 67, 6, N, N, N, N),
MUX(1, 68, 6, N, N, N, N),
MUX(1, 69, 6, N, N, N, N),
MUX(1, 70, 6, N, N, N, N),
MUX(1, 71, 6, N, N, N, N),
MUX(1, 72, 6, N, N, N, N),
MUX(1, 53, 6, N, N, N, N),
MUX(1, 54, 6, N, N, N, N),
MUX(1, 55, 6, N, N, N, N),
MUX(1, 56, 6, N, N, N, N),
MUX(1, 85, 6, N, N, N, N),
MUX(1, 86, 6, N, N, N, N),
MUX(1, 87, 6, N, N, N, N),
MUX(1, 88, 6, N, N, N, N),
MUX(1, 89, 6, N, N, N, N),
MUX(1, 90, 6, N, N, N, N),
MUX(1, 91, 6, N, N, N, N),
MUX(1, 92, 6, N, N, N, N),
MUX(1, 93, 6, N, N, N, N),
MUX(1, 94, 6, N, N, N, N),
MUX(1, 95, 6, N, N, N, N),
MUX(1, 96, 6, N, N, N, N),
};
static struct atlas7_grp_mux visbus_dout_grp_mux = {
.pad_mux_count = ARRAY_SIZE(visbus_dout_grp_pad_mux),
.pad_mux_list = visbus_dout_grp_pad_mux,
};
static struct atlas7_pad_mux vi_vip1_grp_pad_mux[] = {
MUX(1, 74, 1, N, N, N, N),
MUX(1, 75, 1, N, N, N, N),
MUX(1, 76, 1, N, N, N, N),
MUX(1, 77, 1, N, N, N, N),
MUX(1, 78, 1, N, N, N, N),
MUX(1, 79, 1, N, N, N, N),
MUX(1, 80, 1, N, N, N, N),
MUX(1, 81, 1, N, N, N, N),
MUX(1, 82, 1, N, N, N, N),
MUX(1, 83, 1, N, N, N, N),
MUX(1, 84, 1, N, N, N, N),
MUX(1, 103, 2, N, N, N, N),
MUX(1, 104, 2, N, N, N, N),
MUX(1, 105, 2, N, N, N, N),
MUX(1, 106, 2, N, N, N, N),
MUX(1, 107, 2, N, N, N, N),
MUX(1, 102, 2, N, N, N, N),
MUX(1, 97, 2, N, N, N, N),
MUX(1, 98, 2, N, N, N, N),
};
static struct atlas7_grp_mux vi_vip1_grp_mux = {
.pad_mux_count = ARRAY_SIZE(vi_vip1_grp_pad_mux),
.pad_mux_list = vi_vip1_grp_pad_mux,
};
static struct atlas7_pad_mux vi_vip1_ext_grp_pad_mux[] = {
MUX(1, 74, 1, N, N, N, N),
MUX(1, 75, 1, N, N, N, N),
MUX(1, 76, 1, N, N, N, N),
MUX(1, 77, 1, N, N, N, N),
MUX(1, 78, 1, N, N, N, N),
MUX(1, 79, 1, N, N, N, N),
MUX(1, 80, 1, N, N, N, N),
MUX(1, 81, 1, N, N, N, N),
MUX(1, 82, 1, N, N, N, N),
MUX(1, 83, 1, N, N, N, N),
MUX(1, 84, 1, N, N, N, N),
MUX(1, 108, 2, N, N, N, N),
MUX(1, 103, 2, N, N, N, N),
MUX(1, 104, 2, N, N, N, N),
MUX(1, 105, 2, N, N, N, N),
MUX(1, 106, 2, N, N, N, N),
MUX(1, 107, 2, N, N, N, N),
MUX(1, 102, 2, N, N, N, N),
MUX(1, 97, 2, N, N, N, N),
MUX(1, 98, 2, N, N, N, N),
MUX(1, 99, 2, N, N, N, N),
MUX(1, 100, 2, N, N, N, N),
};
static struct atlas7_grp_mux vi_vip1_ext_grp_mux = {
.pad_mux_count = ARRAY_SIZE(vi_vip1_ext_grp_pad_mux),
.pad_mux_list = vi_vip1_ext_grp_pad_mux,
};
static struct atlas7_pad_mux vi_vip1_low8bit_grp_pad_mux[] = {
MUX(1, 74, 1, N, N, N, N),
MUX(1, 75, 1, N, N, N, N),
MUX(1, 76, 1, N, N, N, N),
MUX(1, 77, 1, N, N, N, N),
MUX(1, 78, 1, N, N, N, N),
MUX(1, 79, 1, N, N, N, N),
MUX(1, 80, 1, N, N, N, N),
MUX(1, 81, 1, N, N, N, N),
MUX(1, 82, 1, N, N, N, N),
MUX(1, 83, 1, N, N, N, N),
MUX(1, 84, 1, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_grp_mux vi_vip1_low8bit_grp_mux = {
.pad_mux_count = ARRAY_SIZE(vi_vip1_low8bit_grp_pad_mux),
.pad_mux_list = vi_vip1_low8bit_grp_pad_mux,
};
static struct atlas7_pad_mux vi_vip1_high8bit_grp_pad_mux[] = {
MUX(1, 82, 1, N, N, N, N),
MUX(1, 83, 1, N, N, N, N),
MUX(1, 84, 1, N, N, N, N),
MUX(1, 103, 2, N, N, N, N),
MUX(1, 104, 2, N, N, N, N),
MUX(1, 105, 2, N, N, N, N),
MUX(1, 106, 2, N, N, N, N),
MUX(1, 107, 2, N, N, N, N),
MUX(1, 102, 2, N, N, N, N),
MUX(1, 97, 2, N, N, N, N),
MUX(1, 98, 2, N, N, N, N),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct atlas7_grp_mux vi_vip1_high8bit_grp_mux = {
.pad_mux_count = ARRAY_SIZE(vi_vip1_high8bit_grp_pad_mux),
.pad_mux_list = vi_vip1_high8bit_grp_pad_mux,
};
static struct atlas7_pmx_func atlas7_pmx_functions[] = {
FUNCTION("gnss_gpio", gnss_gpio_grp, &gnss_gpio_grp_mux),
FUNCTION("lcd_vip_gpio", lcd_vip_gpio_grp, &lcd_vip_gpio_grp_mux),
FUNCTION("sdio_i2s_gpio", sdio_i2s_gpio_grp, &sdio_i2s_gpio_grp_mux),
FUNCTION("sp_rgmii_gpio", sp_rgmii_gpio_grp, &sp_rgmii_gpio_grp_mux),
FUNCTION("lvds_gpio", lvds_gpio_grp, &lvds_gpio_grp_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("jtag_uart_nand_gpio",
jtag_uart_nand_gpio_grp,
&jtag_uart_nand_gpio_grp_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("rtc_gpio", rtc_gpio_grp, &rtc_gpio_grp_mux),
FUNCTION("audio_ac97", audio_ac97_grp, &audio_ac97_grp_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("audio_digmic_m0",
audio_digmic_grp0,
&audio_digmic_grp0_mux),
FUNCTION("audio_digmic_m1",
audio_digmic_grp1,
&audio_digmic_grp1_mux),
FUNCTION("audio_digmic_m2",
audio_digmic_grp2,
&audio_digmic_grp2_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("audio_func_dbg",
audio_func_dbg_grp,
&audio_func_dbg_grp_mux),
FUNCTION("audio_i2s", audio_i2s_grp, &audio_i2s_grp_mux),
FUNCTION("audio_i2s_2ch", audio_i2s_2ch_grp, &audio_i2s_2ch_grp_mux),
FUNCTION("audio_i2s_extclk",
audio_i2s_extclk_grp,
&audio_i2s_extclk_grp_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("audio_spdif_out_m0",
audio_spdif_out_grp0,
&audio_spdif_out_grp0_mux),
FUNCTION("audio_spdif_out_m1",
audio_spdif_out_grp1,
&audio_spdif_out_grp1_mux),
FUNCTION("audio_spdif_out_m2",
audio_spdif_out_grp2,
&audio_spdif_out_grp2_mux),
FUNCTION("audio_uart0_basic",
audio_uart0_basic_grp,
&audio_uart0_basic_grp_mux),
FUNCTION("audio_uart0_urfs_m0",
audio_uart0_urfs_grp0,
&audio_uart0_urfs_grp0_mux),
FUNCTION("audio_uart0_urfs_m1",
audio_uart0_urfs_grp1,
&audio_uart0_urfs_grp1_mux),
FUNCTION("audio_uart0_urfs_m2",
audio_uart0_urfs_grp2,
&audio_uart0_urfs_grp2_mux),
FUNCTION("audio_uart0_urfs_m3",
audio_uart0_urfs_grp3,
&audio_uart0_urfs_grp3_mux),
FUNCTION("audio_uart1_basic",
audio_uart1_basic_grp,
&audio_uart1_basic_grp_mux),
FUNCTION("audio_uart1_urfs_m0",
audio_uart1_urfs_grp0,
&audio_uart1_urfs_grp0_mux),
FUNCTION("audio_uart1_urfs_m1",
audio_uart1_urfs_grp1,
&audio_uart1_urfs_grp1_mux),
FUNCTION("audio_uart1_urfs_m2",
audio_uart1_urfs_grp2,
&audio_uart1_urfs_grp2_mux),
FUNCTION("audio_uart2_urfs_m0",
audio_uart2_urfs_grp0,
&audio_uart2_urfs_grp0_mux),
FUNCTION("audio_uart2_urfs_m1",
audio_uart2_urfs_grp1,
&audio_uart2_urfs_grp1_mux),
FUNCTION("audio_uart2_urfs_m2",
audio_uart2_urfs_grp2,
&audio_uart2_urfs_grp2_mux),
FUNCTION("audio_uart2_urxd_m0",
audio_uart2_urxd_grp0,
&audio_uart2_urxd_grp0_mux),
FUNCTION("audio_uart2_urxd_m1",
audio_uart2_urxd_grp1,
&audio_uart2_urxd_grp1_mux),
FUNCTION("audio_uart2_urxd_m2",
audio_uart2_urxd_grp2,
&audio_uart2_urxd_grp2_mux),
FUNCTION("audio_uart2_usclk_m0",
audio_uart2_usclk_grp0,
&audio_uart2_usclk_grp0_mux),
FUNCTION("audio_uart2_usclk_m1",
audio_uart2_usclk_grp1,
&audio_uart2_usclk_grp1_mux),
FUNCTION("audio_uart2_usclk_m2",
audio_uart2_usclk_grp2,
&audio_uart2_usclk_grp2_mux),
FUNCTION("audio_uart2_utfs_m0",
audio_uart2_utfs_grp0,
&audio_uart2_utfs_grp0_mux),
FUNCTION("audio_uart2_utfs_m1",
audio_uart2_utfs_grp1,
&audio_uart2_utfs_grp1_mux),
FUNCTION("audio_uart2_utfs_m2",
audio_uart2_utfs_grp2,
&audio_uart2_utfs_grp2_mux),
FUNCTION("audio_uart2_utxd_m0",
audio_uart2_utxd_grp0,
&audio_uart2_utxd_grp0_mux),
FUNCTION("audio_uart2_utxd_m1",
audio_uart2_utxd_grp1,
&audio_uart2_utxd_grp1_mux),
FUNCTION("audio_uart2_utxd_m2",
audio_uart2_utxd_grp2,
&audio_uart2_utxd_grp2_mux),
FUNCTION("c_can_trnsvr_en_m0",
c_can_trnsvr_en_grp0,
&c_can_trnsvr_en_grp0_mux),
FUNCTION("c_can_trnsvr_en_m1",
c_can_trnsvr_en_grp1,
&c_can_trnsvr_en_grp1_mux),
FUNCTION("c_can_trnsvr_intr",
c_can_trnsvr_intr_grp,
&c_can_trnsvr_intr_grp_mux),
FUNCTION("c_can_trnsvr_stb_n",
c_can_trnsvr_stb_n_grp,
&c_can_trnsvr_stb_n_grp_mux),
FUNCTION("c0_can_rxd_trnsv0",
c0_can_rxd_trnsv0_grp,
&c0_can_rxd_trnsv0_grp_mux),
FUNCTION("c0_can_rxd_trnsv1",
c0_can_rxd_trnsv1_grp,
&c0_can_rxd_trnsv1_grp_mux),
FUNCTION("c0_can_txd_trnsv0",
c0_can_txd_trnsv0_grp,
&c0_can_txd_trnsv0_grp_mux),
FUNCTION("c0_can_txd_trnsv1",
c0_can_txd_trnsv1_grp,
&c0_can_txd_trnsv1_grp_mux),
FUNCTION("c1_can_rxd_m0", c1_can_rxd_grp0, &c1_can_rxd_grp0_mux),
FUNCTION("c1_can_rxd_m1", c1_can_rxd_grp1, &c1_can_rxd_grp1_mux),
FUNCTION("c1_can_rxd_m2", c1_can_rxd_grp2, &c1_can_rxd_grp2_mux),
FUNCTION("c1_can_rxd_m3", c1_can_rxd_grp3, &c1_can_rxd_grp3_mux),
FUNCTION("c1_can_txd_m0", c1_can_txd_grp0, &c1_can_txd_grp0_mux),
FUNCTION("c1_can_txd_m1", c1_can_txd_grp1, &c1_can_txd_grp1_mux),
FUNCTION("c1_can_txd_m2", c1_can_txd_grp2, &c1_can_txd_grp2_mux),
FUNCTION("c1_can_txd_m3", c1_can_txd_grp3, &c1_can_txd_grp3_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("ca_audio_lpc", ca_audio_lpc_grp, &ca_audio_lpc_grp_mux),
FUNCTION("ca_bt_lpc", ca_bt_lpc_grp, &ca_bt_lpc_grp_mux),
FUNCTION("ca_coex", ca_coex_grp, &ca_coex_grp_mux),
FUNCTION("ca_curator_lpc",
ca_curator_lpc_grp,
&ca_curator_lpc_grp_mux),
FUNCTION("ca_pcm_debug", ca_pcm_debug_grp, &ca_pcm_debug_grp_mux),
FUNCTION("ca_pio", ca_pio_grp, &ca_pio_grp_mux),
FUNCTION("ca_sdio_debug", ca_sdio_debug_grp, &ca_sdio_debug_grp_mux),
FUNCTION("ca_spi", ca_spi_grp, &ca_spi_grp_mux),
FUNCTION("ca_trb", ca_trb_grp, &ca_trb_grp_mux),
FUNCTION("ca_uart_debug", ca_uart_debug_grp, &ca_uart_debug_grp_mux),
FUNCTION("clkc_m0", clkc_grp0, &clkc_grp0_mux),
FUNCTION("clkc_m1", clkc_grp1, &clkc_grp1_mux),
FUNCTION("gn_gnss_i2c", gn_gnss_i2c_grp, &gn_gnss_i2c_grp_mux),
FUNCTION("gn_gnss_uart_nopause",
gn_gnss_uart_nopause_grp,
&gn_gnss_uart_nopause_grp_mux),
FUNCTION("gn_gnss_uart", gn_gnss_uart_grp, &gn_gnss_uart_grp_mux),
FUNCTION("gn_trg_spi_m0", gn_trg_spi_grp0, &gn_trg_spi_grp0_mux),
FUNCTION("gn_trg_spi_m1", gn_trg_spi_grp1, &gn_trg_spi_grp1_mux),
FUNCTION("cvbs_dbg", cvbs_dbg_grp, &cvbs_dbg_grp_mux),
FUNCTION("cvbs_dbg_test_m0",
cvbs_dbg_test_grp0,
&cvbs_dbg_test_grp0_mux),
FUNCTION("cvbs_dbg_test_m1",
cvbs_dbg_test_grp1,
&cvbs_dbg_test_grp1_mux),
FUNCTION("cvbs_dbg_test_m2",
cvbs_dbg_test_grp2,
&cvbs_dbg_test_grp2_mux),
FUNCTION("cvbs_dbg_test_m3",
cvbs_dbg_test_grp3,
&cvbs_dbg_test_grp3_mux),
FUNCTION("cvbs_dbg_test_m4",
cvbs_dbg_test_grp4,
&cvbs_dbg_test_grp4_mux),
FUNCTION("cvbs_dbg_test_m5",
cvbs_dbg_test_grp5,
&cvbs_dbg_test_grp5_mux),
FUNCTION("cvbs_dbg_test_m6",
cvbs_dbg_test_grp6,
&cvbs_dbg_test_grp6_mux),
FUNCTION("cvbs_dbg_test_m7",
cvbs_dbg_test_grp7,
&cvbs_dbg_test_grp7_mux),
FUNCTION("cvbs_dbg_test_m8",
cvbs_dbg_test_grp8,
&cvbs_dbg_test_grp8_mux),
FUNCTION("cvbs_dbg_test_m9",
cvbs_dbg_test_grp9,
&cvbs_dbg_test_grp9_mux),
FUNCTION("cvbs_dbg_test_m10",
cvbs_dbg_test_grp10,
&cvbs_dbg_test_grp10_mux),
FUNCTION("cvbs_dbg_test_m11",
cvbs_dbg_test_grp11,
&cvbs_dbg_test_grp11_mux),
FUNCTION("cvbs_dbg_test_m12",
cvbs_dbg_test_grp12,
&cvbs_dbg_test_grp12_mux),
FUNCTION("cvbs_dbg_test_m13",
cvbs_dbg_test_grp13,
&cvbs_dbg_test_grp13_mux),
FUNCTION("cvbs_dbg_test_m14",
cvbs_dbg_test_grp14,
&cvbs_dbg_test_grp14_mux),
FUNCTION("cvbs_dbg_test_m15",
cvbs_dbg_test_grp15,
&cvbs_dbg_test_grp15_mux),
FUNCTION("gn_gnss_power", gn_gnss_power_grp, &gn_gnss_power_grp_mux),
FUNCTION("gn_gnss_sw_status",
gn_gnss_sw_status_grp,
&gn_gnss_sw_status_grp_mux),
FUNCTION("gn_gnss_eclk", gn_gnss_eclk_grp, &gn_gnss_eclk_grp_mux),
FUNCTION("gn_gnss_irq1_m0",
gn_gnss_irq1_grp0,
&gn_gnss_irq1_grp0_mux),
FUNCTION("gn_gnss_irq2_m0",
gn_gnss_irq2_grp0,
&gn_gnss_irq2_grp0_mux),
FUNCTION("gn_gnss_tm", gn_gnss_tm_grp, &gn_gnss_tm_grp_mux),
FUNCTION("gn_gnss_tsync", gn_gnss_tsync_grp, &gn_gnss_tsync_grp_mux),
FUNCTION("gn_io_gnsssys_sw_cfg",
gn_io_gnsssys_sw_cfg_grp,
&gn_io_gnsssys_sw_cfg_grp_mux),
FUNCTION("gn_trg_m0", gn_trg_grp0, &gn_trg_grp0_mux),
FUNCTION("gn_trg_m1", gn_trg_grp1, &gn_trg_grp1_mux),
FUNCTION("gn_trg_shutdown_m0",
gn_trg_shutdown_grp0,
&gn_trg_shutdown_grp0_mux),
FUNCTION("gn_trg_shutdown_m1",
gn_trg_shutdown_grp1,
&gn_trg_shutdown_grp1_mux),
FUNCTION("gn_trg_shutdown_m2",
gn_trg_shutdown_grp2,
&gn_trg_shutdown_grp2_mux),
FUNCTION("gn_trg_shutdown_m3",
gn_trg_shutdown_grp3,
&gn_trg_shutdown_grp3_mux),
FUNCTION("i2c0", i2c0_grp, &i2c0_grp_mux),
FUNCTION("i2c1", i2c1_grp, &i2c1_grp_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("i2s0", i2s0_grp, &i2s0_grp_mux),
FUNCTION("i2s1_basic", i2s1_basic_grp, &i2s1_basic_grp_mux),
FUNCTION("i2s1_rxd0_m0", i2s1_rxd0_grp0, &i2s1_rxd0_grp0_mux),
FUNCTION("i2s1_rxd0_m1", i2s1_rxd0_grp1, &i2s1_rxd0_grp1_mux),
FUNCTION("i2s1_rxd0_m2", i2s1_rxd0_grp2, &i2s1_rxd0_grp2_mux),
FUNCTION("i2s1_rxd0_m3", i2s1_rxd0_grp3, &i2s1_rxd0_grp3_mux),
FUNCTION("i2s1_rxd0_m4", i2s1_rxd0_grp4, &i2s1_rxd0_grp4_mux),
FUNCTION("i2s1_rxd1_m0", i2s1_rxd1_grp0, &i2s1_rxd1_grp0_mux),
FUNCTION("i2s1_rxd1_m1", i2s1_rxd1_grp1, &i2s1_rxd1_grp1_mux),
FUNCTION("i2s1_rxd1_m2", i2s1_rxd1_grp2, &i2s1_rxd1_grp2_mux),
FUNCTION("i2s1_rxd1_m3", i2s1_rxd1_grp3, &i2s1_rxd1_grp3_mux),
FUNCTION("i2s1_rxd1_m4", i2s1_rxd1_grp4, &i2s1_rxd1_grp4_mux),
FUNCTION("jtag_jt_dbg_nsrst",
jtag_jt_dbg_nsrst_grp,
&jtag_jt_dbg_nsrst_grp_mux),
FUNCTION("jtag_ntrst_m0", jtag_ntrst_grp0, &jtag_ntrst_grp0_mux),
FUNCTION("jtag_ntrst_m1", jtag_ntrst_grp1, &jtag_ntrst_grp1_mux),
FUNCTION("jtag_swdiotms_m0",
jtag_swdiotms_grp0,
&jtag_swdiotms_grp0_mux),
FUNCTION("jtag_swdiotms_m1",
jtag_swdiotms_grp1,
&jtag_swdiotms_grp1_mux),
FUNCTION("jtag_tck_m0", jtag_tck_grp0, &jtag_tck_grp0_mux),
FUNCTION("jtag_tck_m1", jtag_tck_grp1, &jtag_tck_grp1_mux),
FUNCTION("jtag_tdi_m0", jtag_tdi_grp0, &jtag_tdi_grp0_mux),
FUNCTION("jtag_tdi_m1", jtag_tdi_grp1, &jtag_tdi_grp1_mux),
FUNCTION("jtag_tdo_m0", jtag_tdo_grp0, &jtag_tdo_grp0_mux),
FUNCTION("jtag_tdo_m1", jtag_tdo_grp1, &jtag_tdo_grp1_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("ks_kas_spi_m0", ks_kas_spi_grp0, &ks_kas_spi_grp0_mux),
FUNCTION("ld_ldd", ld_ldd_grp, &ld_ldd_grp_mux),
FUNCTION("ld_ldd_16bit", ld_ldd_16bit_grp, &ld_ldd_16bit_grp_mux),
FUNCTION("ld_ldd_fck", ld_ldd_fck_grp, &ld_ldd_fck_grp_mux),
FUNCTION("ld_ldd_lck", ld_ldd_lck_grp, &ld_ldd_lck_grp_mux),
FUNCTION("lr_lcdrom", lr_lcdrom_grp, &lr_lcdrom_grp_mux),
FUNCTION("lvds_analog", lvds_analog_grp, &lvds_analog_grp_mux),
FUNCTION("nd_df_basic", nd_df_basic_grp, &nd_df_basic_grp_mux),
FUNCTION("nd_df_wp", nd_df_wp_grp, &nd_df_wp_grp_mux),
FUNCTION("nd_df_cs", nd_df_cs_grp, &nd_df_cs_grp_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("ps", ps_grp, &ps_grp_mux),
FUNCTION("ps_no_dir", ps_no_dir_grp, &ps_no_dir_grp_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pwc_core_on", pwc_core_on_grp, &pwc_core_on_grp_mux),
FUNCTION("pwc_ext_on", pwc_ext_on_grp, &pwc_ext_on_grp_mux),
FUNCTION("pwc_gpio3_clk", pwc_gpio3_clk_grp, &pwc_gpio3_clk_grp_mux),
FUNCTION("pwc_io_on", pwc_io_on_grp, &pwc_io_on_grp_mux),
FUNCTION("pwc_lowbatt_b_m0",
pwc_lowbatt_b_grp0,
&pwc_lowbatt_b_grp0_mux),
FUNCTION("pwc_mem_on", pwc_mem_on_grp, &pwc_mem_on_grp_mux),
FUNCTION("pwc_on_key_b_m0",
pwc_on_key_b_grp0,
&pwc_on_key_b_grp0_mux),
FUNCTION("pwc_wakeup_src0",
pwc_wakeup_src0_grp,
&pwc_wakeup_src0_grp_mux),
FUNCTION("pwc_wakeup_src1",
pwc_wakeup_src1_grp,
&pwc_wakeup_src1_grp_mux),
FUNCTION("pwc_wakeup_src2",
pwc_wakeup_src2_grp,
&pwc_wakeup_src2_grp_mux),
FUNCTION("pwc_wakeup_src3",
pwc_wakeup_src3_grp,
&pwc_wakeup_src3_grp_mux),
FUNCTION("pw_cko0_m0", pw_cko0_grp0, &pw_cko0_grp0_mux),
FUNCTION("pw_cko0_m1", pw_cko0_grp1, &pw_cko0_grp1_mux),
FUNCTION("pw_cko0_m2", pw_cko0_grp2, &pw_cko0_grp2_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("pw_cko0_m3", pw_cko0_grp3, &pw_cko0_grp3_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pw_cko1_m0", pw_cko1_grp0, &pw_cko1_grp0_mux),
FUNCTION("pw_cko1_m1", pw_cko1_grp1, &pw_cko1_grp1_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("pw_cko1_m2", pw_cko1_grp2, &pw_cko1_grp2_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pw_i2s01_clk_m0",
pw_i2s01_clk_grp0,
&pw_i2s01_clk_grp0_mux),
FUNCTION("pw_i2s01_clk_m1",
pw_i2s01_clk_grp1,
&pw_i2s01_clk_grp1_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("pw_i2s01_clk_m2",
pw_i2s01_clk_grp2,
&pw_i2s01_clk_grp2_mux),
FUNCTION("pw_pwm0_m0", pw_pwm0_grp0, &pw_pwm0_grp0_mux),
FUNCTION("pw_pwm0_m1", pw_pwm0_grp1, &pw_pwm0_grp1_mux),
FUNCTION("pw_pwm1_m0", pw_pwm1_grp0, &pw_pwm1_grp0_mux),
FUNCTION("pw_pwm1_m1", pw_pwm1_grp1, &pw_pwm1_grp1_mux),
FUNCTION("pw_pwm1_m2", pw_pwm1_grp2, &pw_pwm1_grp2_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pw_pwm2_m0", pw_pwm2_grp0, &pw_pwm2_grp0_mux),
FUNCTION("pw_pwm2_m1", pw_pwm2_grp1, &pw_pwm2_grp1_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("pw_pwm2_m2", pw_pwm2_grp2, &pw_pwm2_grp2_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pw_pwm3_m0", pw_pwm3_grp0, &pw_pwm3_grp0_mux),
FUNCTION("pw_pwm3_m1", pw_pwm3_grp1, &pw_pwm3_grp1_mux),
FUNCTION("pw_pwm_cpu_vol_m0",
pw_pwm_cpu_vol_grp0,
&pw_pwm_cpu_vol_grp0_mux),
FUNCTION("pw_pwm_cpu_vol_m1",
pw_pwm_cpu_vol_grp1,
&pw_pwm_cpu_vol_grp1_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("pw_pwm_cpu_vol_m2",
pw_pwm_cpu_vol_grp2,
&pw_pwm_cpu_vol_grp2_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("pw_backlight_m0",
pw_backlight_grp0,
&pw_backlight_grp0_mux),
FUNCTION("pw_backlight_m1",
pw_backlight_grp1,
&pw_backlight_grp1_mux),
FUNCTION("rg_eth_mac", rg_eth_mac_grp, &rg_eth_mac_grp_mux),
FUNCTION("rg_gmac_phy_intr_n",
rg_gmac_phy_intr_n_grp,
&rg_gmac_phy_intr_n_grp_mux),
FUNCTION("rg_rgmii_mac", rg_rgmii_mac_grp, &rg_rgmii_mac_grp_mux),
FUNCTION("rg_rgmii_phy_ref_clk_m0",
rg_rgmii_phy_ref_clk_grp0,
&rg_rgmii_phy_ref_clk_grp0_mux),
FUNCTION("rg_rgmii_phy_ref_clk_m1",
rg_rgmii_phy_ref_clk_grp1,
&rg_rgmii_phy_ref_clk_grp1_mux),
FUNCTION("sd0", sd0_grp, &sd0_grp_mux),
FUNCTION("sd0_4bit", sd0_4bit_grp, &sd0_4bit_grp_mux),
FUNCTION("sd1", sd1_grp, &sd1_grp_mux),
FUNCTION("sd1_4bit_m0", sd1_4bit_grp0, &sd1_4bit_grp0_mux),
FUNCTION("sd1_4bit_m1", sd1_4bit_grp1, &sd1_4bit_grp1_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("sd2_basic", sd2_basic_grp, &sd2_basic_grp_mux),
FUNCTION("sd2_cdb_m0", sd2_cdb_grp0, &sd2_cdb_grp0_mux),
FUNCTION("sd2_cdb_m1", sd2_cdb_grp1, &sd2_cdb_grp1_mux),
FUNCTION("sd2_wpb_m0", sd2_wpb_grp0, &sd2_wpb_grp0_mux),
FUNCTION("sd2_wpb_m1", sd2_wpb_grp1, &sd2_wpb_grp1_mux),
FUNCTION("sd3", sd3_9_grp, &sd3_9_grp_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("sd5", sd5_grp, &sd5_grp_mux),
FUNCTION("sd6_m0", sd6_grp0, &sd6_grp0_mux),
FUNCTION("sd6_m1", sd6_grp1, &sd6_grp1_mux),
FUNCTION("sd9", sd3_9_grp, &sd3_9_grp_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("sp0_ext_ldo_on",
sp0_ext_ldo_on_grp,
&sp0_ext_ldo_on_grp_mux),
FUNCTION("sp0_qspi", sp0_qspi_grp, &sp0_qspi_grp_mux),
FUNCTION("sp1_spi", sp1_spi_grp, &sp1_spi_grp_mux),
FUNCTION("tpiu_trace", tpiu_trace_grp, &tpiu_trace_grp_mux),
FUNCTION("uart0", uart0_grp, &uart0_grp_mux),
FUNCTION("uart0_nopause", uart0_nopause_grp, &uart0_nopause_grp_mux),
FUNCTION("uart1", uart1_grp, &uart1_grp_mux),
pinctrl: atlas7: support atlas7 step B changes The the pin groups and pin functions have been changed in atlas7 step B soc. We have to update the driver to support step B chip. Changes: 1. add 5 jtag pins to IOC_TOP: "jtag_tdo", "jtag_tms","jtag_tck", "jtag_tdi", "jtag_trstn" these 5 pins can be mutiplex with other functions, so we have to conver these 5 pins in pinmux. 2. add pin groups for audio digmic, audio spdif, can transceiver en, can transceiver stb, i2s0, i2s1 and jtag. 3. serval pins can be located to more PADs: audio_uart0_urfs, audio_uart1_urfs, audio_uart2_urfs, audio_uart2_urxd, audio_uart2_usclk, audio_uart2_utfs, audio_uart2_utxd, can0_rxd, can0_txd, can1_rxd, can1_txd jtag_ntrst, jtag_swdiotms, jtag_tck, jtag_tdi, jtag_tdo, pw_cko0, pw_cko1, pw_i2s01, pw_pwm0, pw_pwm1, sd2_cdb, sd2_wpb, uart2_cts, uart2_rts, uart2_rxd, uart2_txd, uart3_cts, uart3_rts, uart3_rxd, uart3_txd, uart4_cts, uart4_rts, usb0_drvvbus, usb1_drvvbus. Because of Changes#3, some functions should have more than one pin groups. So we have to split the original pin group to serval pin groups. For example: audio_uart0 has 5 pins, on STEPA, each of these 5 pins only has one related PAD. But on STEPB, audio_uart0_urfs has 4 related PAD. So we place the 4 pins with one PAD into a single pin group: audio_uart0_basic_group. and place urfs pin wtih different PADs to 4 different pin groups: audio_uart0_urfs_group0, ..., audio_uart0_urfs_group3 A full audio_uart0 pin group can be: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group0>; If audio_uart0 pin group encountered some confiction, we only have to change the urfs group: pinctrl-0 = <&audio_uart0_basic_group &audio_uart0_urfs_group2>; Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-10-09 14:31:18 +08:00
FUNCTION("uart2_cts_m0", uart2_cts_grp0, &uart2_cts_grp0_mux),
FUNCTION("uart2_cts_m1", uart2_cts_grp1, &uart2_cts_grp1_mux),
FUNCTION("uart2_rts_m0", uart2_rts_grp0, &uart2_rts_grp0_mux),
FUNCTION("uart2_rts_m1", uart2_rts_grp1, &uart2_rts_grp1_mux),
FUNCTION("uart2_rxd_m0", uart2_rxd_grp0, &uart2_rxd_grp0_mux),
FUNCTION("uart2_rxd_m1", uart2_rxd_grp1, &uart2_rxd_grp1_mux),
FUNCTION("uart2_rxd_m2", uart2_rxd_grp2, &uart2_rxd_grp2_mux),
FUNCTION("uart2_txd_m0", uart2_txd_grp0, &uart2_txd_grp0_mux),
FUNCTION("uart2_txd_m1", uart2_txd_grp1, &uart2_txd_grp1_mux),
FUNCTION("uart2_txd_m2", uart2_txd_grp2, &uart2_txd_grp2_mux),
FUNCTION("uart3_cts_m0", uart3_cts_grp0, &uart3_cts_grp0_mux),
FUNCTION("uart3_cts_m1", uart3_cts_grp1, &uart3_cts_grp1_mux),
FUNCTION("uart3_cts_m2", uart3_cts_grp2, &uart3_cts_grp2_mux),
FUNCTION("uart3_rts_m0", uart3_rts_grp0, &uart3_rts_grp0_mux),
FUNCTION("uart3_rts_m1", uart3_rts_grp1, &uart3_rts_grp1_mux),
FUNCTION("uart3_rts_m2", uart3_rts_grp2, &uart3_rts_grp2_mux),
FUNCTION("uart3_rxd_m0", uart3_rxd_grp0, &uart3_rxd_grp0_mux),
FUNCTION("uart3_rxd_m1", uart3_rxd_grp1, &uart3_rxd_grp1_mux),
FUNCTION("uart3_rxd_m2", uart3_rxd_grp2, &uart3_rxd_grp2_mux),
FUNCTION("uart3_txd_m0", uart3_txd_grp0, &uart3_txd_grp0_mux),
FUNCTION("uart3_txd_m1", uart3_txd_grp1, &uart3_txd_grp1_mux),
FUNCTION("uart3_txd_m2", uart3_txd_grp2, &uart3_txd_grp2_mux),
FUNCTION("uart4_basic", uart4_basic_grp, &uart4_basic_grp_mux),
FUNCTION("uart4_cts_m0", uart4_cts_grp0, &uart4_cts_grp0_mux),
FUNCTION("uart4_cts_m1", uart4_cts_grp1, &uart4_cts_grp1_mux),
FUNCTION("uart4_cts_m2", uart4_cts_grp2, &uart4_cts_grp2_mux),
FUNCTION("uart4_rts_m0", uart4_rts_grp0, &uart4_rts_grp0_mux),
FUNCTION("uart4_rts_m1", uart4_rts_grp1, &uart4_rts_grp1_mux),
FUNCTION("uart4_rts_m2", uart4_rts_grp2, &uart4_rts_grp2_mux),
FUNCTION("usb0_drvvbus_m0",
usb0_drvvbus_grp0,
&usb0_drvvbus_grp0_mux),
FUNCTION("usb0_drvvbus_m1",
usb0_drvvbus_grp1,
&usb0_drvvbus_grp1_mux),
FUNCTION("usb1_drvvbus_m0",
usb1_drvvbus_grp0,
&usb1_drvvbus_grp0_mux),
FUNCTION("usb1_drvvbus_m1",
usb1_drvvbus_grp1,
&usb1_drvvbus_grp1_mux),
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
FUNCTION("visbus_dout", visbus_dout_grp, &visbus_dout_grp_mux),
FUNCTION("vi_vip1", vi_vip1_grp, &vi_vip1_grp_mux),
FUNCTION("vi_vip1_ext", vi_vip1_ext_grp, &vi_vip1_ext_grp_mux),
FUNCTION("vi_vip1_low8bit",
vi_vip1_low8bit_grp,
&vi_vip1_low8bit_grp_mux),
FUNCTION("vi_vip1_high8bit",
vi_vip1_high8bit_grp,
&vi_vip1_high8bit_grp_mux),
};
static struct atlas7_pinctrl_data atlas7_ioc_data = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
.pads = (struct pinctrl_pin_desc *)atlas7_ioc_pads,
.pads_cnt = ARRAY_SIZE(atlas7_ioc_pads),
.grps = (struct atlas7_pin_group *)altas7_pin_groups,
.grps_cnt = ARRAY_SIZE(altas7_pin_groups),
.funcs = (struct atlas7_pmx_func *)atlas7_pmx_functions,
.funcs_cnt = ARRAY_SIZE(atlas7_pmx_functions),
.confs = (struct atlas7_pad_config *)atlas7_ioc_pad_confs,
.confs_cnt = ARRAY_SIZE(atlas7_ioc_pad_confs),
};
/* Simple map data structure */
struct map_data {
u8 idx;
u8 data;
};
/**
* struct atlas7_pull_info - Atlas7 Pad pull info
* @type:The type of this Pad.
* @mask:The mas value of this pin's pull bits.
* @v2s: The map of pull register value to pull status.
* @s2v: The map of pull status to pull register value.
*/
struct atlas7_pull_info {
u8 pad_type;
u8 mask;
const struct map_data *v2s;
const struct map_data *s2v;
};
/* Pull Register value map to status */
static const struct map_data p4we_pull_v2s[] = {
{ P4WE_PULL_UP, PULL_UP },
{ P4WE_HIGH_HYSTERESIS, HIGH_HYSTERESIS },
{ P4WE_HIGH_Z, HIGH_Z },
{ P4WE_PULL_DOWN, PULL_DOWN },
};
static const struct map_data p16st_pull_v2s[] = {
{ P16ST_PULL_UP, PULL_UP },
{ PD, PULL_UNKNOWN },
{ P16ST_HIGH_Z, HIGH_Z },
{ P16ST_PULL_DOWN, PULL_DOWN },
};
static const struct map_data pm31_pull_v2s[] = {
{ PM31_PULL_DISABLED, PULL_DOWN },
{ PM31_PULL_ENABLED, PULL_UP },
};
static const struct map_data pangd_pull_v2s[] = {
{ PANGD_PULL_UP, PULL_UP },
{ PD, PULL_UNKNOWN },
{ PANGD_HIGH_Z, HIGH_Z },
{ PANGD_PULL_DOWN, PULL_DOWN },
};
/* Pull status map to register value */
static const struct map_data p4we_pull_s2v[] = {
{ PULL_UP, P4WE_PULL_UP },
{ HIGH_HYSTERESIS, P4WE_HIGH_HYSTERESIS },
{ HIGH_Z, P4WE_HIGH_Z },
{ PULL_DOWN, P4WE_PULL_DOWN },
{ PULL_DISABLE, -1 },
{ PULL_ENABLE, -1 },
};
static const struct map_data p16st_pull_s2v[] = {
{ PULL_UP, P16ST_PULL_UP },
{ HIGH_HYSTERESIS, -1 },
{ HIGH_Z, P16ST_HIGH_Z },
{ PULL_DOWN, P16ST_PULL_DOWN },
{ PULL_DISABLE, -1 },
{ PULL_ENABLE, -1 },
};
static const struct map_data pm31_pull_s2v[] = {
{ PULL_UP, PM31_PULL_ENABLED },
{ HIGH_HYSTERESIS, -1 },
{ HIGH_Z, -1 },
{ PULL_DOWN, PM31_PULL_DISABLED },
{ PULL_DISABLE, -1 },
{ PULL_ENABLE, -1 },
};
static const struct map_data pangd_pull_s2v[] = {
{ PULL_UP, PANGD_PULL_UP },
{ HIGH_HYSTERESIS, -1 },
{ HIGH_Z, PANGD_HIGH_Z },
{ PULL_DOWN, PANGD_PULL_DOWN },
{ PULL_DISABLE, -1 },
{ PULL_ENABLE, -1 },
};
static const struct atlas7_pull_info atlas7_pull_map[] = {
{ PAD_T_4WE_PD, P4WE_PULL_MASK, p4we_pull_v2s, p4we_pull_s2v },
{ PAD_T_4WE_PU, P4WE_PULL_MASK, p4we_pull_v2s, p4we_pull_s2v },
{ PAD_T_16ST, P16ST_PULL_MASK, p16st_pull_v2s, p16st_pull_s2v },
{ PAD_T_M31_0204_PD, PM31_PULL_MASK, pm31_pull_v2s, pm31_pull_s2v },
{ PAD_T_M31_0204_PU, PM31_PULL_MASK, pm31_pull_v2s, pm31_pull_s2v },
{ PAD_T_M31_0610_PD, PM31_PULL_MASK, pm31_pull_v2s, pm31_pull_s2v },
{ PAD_T_M31_0610_PU, PM31_PULL_MASK, pm31_pull_v2s, pm31_pull_s2v },
{ PAD_T_AD, PANGD_PULL_MASK, pangd_pull_v2s, pangd_pull_s2v },
};
/**
* struct atlas7_ds_ma_info - Atlas7 Pad DriveStrength & currents info
* @ma: The Drive Strength in current value .
* @ds_16st: The correspond raw value of 16st pad.
* @ds_4we: The correspond raw value of 4we pad.
* @ds_0204m31: The correspond raw value of 0204m31 pad.
* @ds_0610m31: The correspond raw value of 0610m31 pad.
*/
struct atlas7_ds_ma_info {
u32 ma;
u32 ds_16st;
u32 ds_4we;
u32 ds_0204m31;
u32 ds_0610m31;
};
static const struct atlas7_ds_ma_info atlas7_ma2ds_map[] = {
{ 2, DS_16ST_0, DS_4WE_0, DS_M31_0, DS_NULL },
{ 4, DS_16ST_1, DS_NULL, DS_M31_1, DS_NULL },
{ 6, DS_16ST_2, DS_NULL, DS_NULL, DS_M31_0 },
{ 8, DS_16ST_3, DS_4WE_1, DS_NULL, DS_NULL },
{ 10, DS_16ST_4, DS_NULL, DS_NULL, DS_M31_1 },
{ 12, DS_16ST_5, DS_NULL, DS_NULL, DS_NULL },
{ 14, DS_16ST_6, DS_NULL, DS_NULL, DS_NULL },
{ 16, DS_16ST_7, DS_4WE_2, DS_NULL, DS_NULL },
{ 18, DS_16ST_8, DS_NULL, DS_NULL, DS_NULL },
{ 20, DS_16ST_9, DS_NULL, DS_NULL, DS_NULL },
{ 22, DS_16ST_10, DS_NULL, DS_NULL, DS_NULL },
{ 24, DS_16ST_11, DS_NULL, DS_NULL, DS_NULL },
{ 26, DS_16ST_12, DS_NULL, DS_NULL, DS_NULL },
{ 28, DS_16ST_13, DS_4WE_3, DS_NULL, DS_NULL },
{ 30, DS_16ST_14, DS_NULL, DS_NULL, DS_NULL },
{ 32, DS_16ST_15, DS_NULL, DS_NULL, DS_NULL },
};
/**
* struct atlas7_ds_info - Atlas7 Pad DriveStrength info
* @type: The type of this Pad.
* @mask: The mask value of this pin's pull bits.
* @imval: The immediate value of drives trength register.
*/
struct atlas7_ds_info {
u8 type;
u8 mask;
u8 imval;
u8 reserved;
};
static const struct atlas7_ds_info atlas7_ds_map[] = {
{ PAD_T_4WE_PD, DS_2BIT_MASK, DS_2BIT_IM_VAL },
{ PAD_T_4WE_PU, DS_2BIT_MASK, DS_2BIT_IM_VAL },
{ PAD_T_16ST, DS_4BIT_MASK, DS_4BIT_IM_VAL },
{ PAD_T_M31_0204_PD, DS_1BIT_MASK, DS_1BIT_IM_VAL },
{ PAD_T_M31_0204_PU, DS_1BIT_MASK, DS_1BIT_IM_VAL },
{ PAD_T_M31_0610_PD, DS_1BIT_MASK, DS_1BIT_IM_VAL },
{ PAD_T_M31_0610_PU, DS_1BIT_MASK, DS_1BIT_IM_VAL },
{ PAD_T_AD, DS_NULL, DS_NULL },
};
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static inline u32 atlas7_pin_to_bank(u32 pin)
{
return (pin >= ATLAS7_PINCTRL_BANK_0_PINS) ? 1 : 0;
}
static int atlas7_pmx_get_funcs_count(struct pinctrl_dev *pctldev)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
return pmx->pctl_data->funcs_cnt;
}
static const char *atlas7_pmx_get_func_name(struct pinctrl_dev *pctldev,
u32 selector)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
return pmx->pctl_data->funcs[selector].name;
}
static int atlas7_pmx_get_func_groups(struct pinctrl_dev *pctldev,
u32 selector, const char * const **groups,
u32 * const num_groups)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
*groups = pmx->pctl_data->funcs[selector].groups;
*num_groups = pmx->pctl_data->funcs[selector].num_groups;
return 0;
}
static void __atlas7_pmx_pin_input_disable_set(struct atlas7_pmx *pmx,
const struct atlas7_pad_mux *mux)
{
/* Set Input Disable to avoid input glitches
*
* All Input-Disable Control registers are located on IOCRTC.
* So the regs bank is always 0.
*
*/
if (mux->dinput_reg && mux->dinput_val_reg) {
writel(DI_MASK << mux->dinput_bit,
pmx->regs[BANK_DS] + CLR_REG(mux->dinput_reg));
writel(DI_DISABLE << mux->dinput_bit,
pmx->regs[BANK_DS] + mux->dinput_reg);
writel(DIV_MASK << mux->dinput_val_bit,
pmx->regs[BANK_DS] + CLR_REG(mux->dinput_val_reg));
writel(DIV_DISABLE << mux->dinput_val_bit,
pmx->regs[BANK_DS] + mux->dinput_val_reg);
}
}
static void __atlas7_pmx_pin_input_disable_clr(struct atlas7_pmx *pmx,
const struct atlas7_pad_mux *mux)
{
/* Clear Input Disable to avoid input glitches */
if (mux->dinput_reg && mux->dinput_val_reg) {
writel(DI_MASK << mux->dinput_bit,
pmx->regs[BANK_DS] + CLR_REG(mux->dinput_reg));
writel(DI_ENABLE << mux->dinput_bit,
pmx->regs[BANK_DS] + mux->dinput_reg);
writel(DIV_MASK << mux->dinput_val_bit,
pmx->regs[BANK_DS] + CLR_REG(mux->dinput_val_reg));
writel(DIV_ENABLE << mux->dinput_val_bit,
pmx->regs[BANK_DS] + mux->dinput_val_reg);
}
}
static int __atlas7_pmx_pin_ad_sel(struct atlas7_pmx *pmx,
struct atlas7_pad_config *conf,
u32 bank, u32 ad_sel)
{
unsigned long regv;
/* Write to clear register to clear A/D selector */
writel(ANA_CLEAR_MASK << conf->ad_ctrl_bit,
pmx->regs[bank] + CLR_REG(conf->ad_ctrl_reg));
/* Set target pad A/D selector */
regv = readl(pmx->regs[bank] + conf->ad_ctrl_reg);
regv &= ~(ANA_CLEAR_MASK << conf->ad_ctrl_bit);
writel(regv | (ad_sel << conf->ad_ctrl_bit),
pmx->regs[bank] + conf->ad_ctrl_reg);
regv = readl(pmx->regs[bank] + conf->ad_ctrl_reg);
pr_debug("bank:%d reg:0x%04x val:0x%08lx\n",
bank, conf->ad_ctrl_reg, regv);
return 0;
}
static int __atlas7_pmx_pin_analog_enable(struct atlas7_pmx *pmx,
struct atlas7_pad_config *conf, u32 bank)
{
/* Only PAD_T_AD pins can change between Analogue&Digital */
if (conf->type != PAD_T_AD)
return -EINVAL;
return __atlas7_pmx_pin_ad_sel(pmx, conf, bank, 0);
}
static int __atlas7_pmx_pin_digital_enable(struct atlas7_pmx *pmx,
struct atlas7_pad_config *conf, u32 bank)
{
/* Other type pads are always digital */
if (conf->type != PAD_T_AD)
return 0;
return __atlas7_pmx_pin_ad_sel(pmx, conf, bank, 1);
}
static int __atlas7_pmx_pin_enable(struct atlas7_pmx *pmx,
u32 pin, u32 func)
{
struct atlas7_pad_config *conf;
u32 bank;
int ret;
unsigned long regv;
pr_debug("PMX DUMP ### pin#%d func:%d #### START >>>\n",
pin, func);
/* Get this Pad's descriptor from PINCTRL */
conf = &pmx->pctl_data->confs[pin];
bank = atlas7_pin_to_bank(pin);
/* Just enable the analog function of this pad */
if (FUNC_ANALOGUE == func) {
ret = __atlas7_pmx_pin_analog_enable(pmx, conf, bank);
if (ret)
dev_err(pmx->dev,
"Convert pad#%d to analog failed, ret=%d\n",
pin, ret);
return ret;
}
/* Set Pads from analog to digital */
ret = __atlas7_pmx_pin_digital_enable(pmx, conf, bank);
if (ret) {
dev_err(pmx->dev,
"Convert pad#%d to digital failed, ret=%d\n",
pin, ret);
return ret;
}
/* Write to clear register to clear current function */
writel(FUNC_CLEAR_MASK << conf->mux_bit,
pmx->regs[bank] + CLR_REG(conf->mux_reg));
/* Set target pad mux function */
regv = readl(pmx->regs[bank] + conf->mux_reg);
regv &= ~(FUNC_CLEAR_MASK << conf->mux_bit);
writel(regv | (func << conf->mux_bit),
pmx->regs[bank] + conf->mux_reg);
regv = readl(pmx->regs[bank] + conf->mux_reg);
pr_debug("bank:%d reg:0x%04x val:0x%08lx\n",
bank, conf->mux_reg, regv);
return 0;
}
static int atlas7_pmx_set_mux(struct pinctrl_dev *pctldev,
u32 func_selector, u32 group_selector)
{
int idx, ret;
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
struct atlas7_pmx_func *pmx_func;
struct atlas7_pin_group *pin_grp;
const struct atlas7_grp_mux *grp_mux;
const struct atlas7_pad_mux *mux;
pmx_func = &pmx->pctl_data->funcs[func_selector];
pin_grp = &pmx->pctl_data->grps[group_selector];
pr_debug("PMX DUMP ### Function:[%s] Group:[%s] #### START >>>\n",
pmx_func->name, pin_grp->name);
/* the sd3 and sd9 pin select by SYS2PCI_SDIO9SEL register */
if (pin_grp->pins == (unsigned int *)&sd3_9_pins) {
if (!strcmp(pmx_func->name, "sd9"))
writel(1, pmx->sys2pci_base + SYS2PCI_SDIO9SEL);
else
writel(0, pmx->sys2pci_base + SYS2PCI_SDIO9SEL);
}
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
grp_mux = pmx_func->grpmux;
for (idx = 0; idx < grp_mux->pad_mux_count; idx++) {
mux = &grp_mux->pad_mux_list[idx];
__atlas7_pmx_pin_input_disable_set(pmx, mux);
ret = __atlas7_pmx_pin_enable(pmx, mux->pin, mux->func);
if (ret) {
dev_err(pmx->dev,
"FUNC:%s GRP:%s PIN#%d.%d failed, ret=%d\n",
pmx_func->name, pin_grp->name,
mux->pin, mux->func, ret);
BUG_ON(1);
}
__atlas7_pmx_pin_input_disable_clr(pmx, mux);
}
pr_debug("PMX DUMP ### Function:[%s] Group:[%s] #### END <<<\n",
pmx_func->name, pin_grp->name);
return 0;
}
static u32 convert_current_to_drive_strength(u32 type, u32 ma)
{
int idx;
for (idx = 0; idx < ARRAY_SIZE(atlas7_ma2ds_map); idx++) {
if (atlas7_ma2ds_map[idx].ma != ma)
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
continue;
if (type == PAD_T_4WE_PD || type == PAD_T_4WE_PU)
return atlas7_ma2ds_map[idx].ds_4we;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
else if (type == PAD_T_16ST)
return atlas7_ma2ds_map[idx].ds_16st;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
else if (type == PAD_T_M31_0204_PD || type == PAD_T_M31_0204_PU)
return atlas7_ma2ds_map[idx].ds_0204m31;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
else if (type == PAD_T_M31_0610_PD || type == PAD_T_M31_0610_PU)
return atlas7_ma2ds_map[idx].ds_0610m31;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
return DS_NULL;
}
static int altas7_pinctrl_set_pull_sel(struct pinctrl_dev *pctldev,
u32 pin, u32 sel)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
struct atlas7_pad_config *conf = &pmx->pctl_data->confs[pin];
const struct atlas7_pull_info *pull_info;
u32 bank;
unsigned long regv;
void __iomem *pull_sel_reg;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
bank = atlas7_pin_to_bank(pin);
pull_info = &atlas7_pull_map[conf->type];
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
pull_sel_reg = pmx->regs[bank] + conf->pupd_reg;
/* Retrieve correspond register value from table by sel */
regv = pull_info->s2v[sel].data & pull_info->mask;
/* Clear & Set new value to pull register */
writel(pull_info->mask << conf->pupd_bit, CLR_REG(pull_sel_reg));
writel(regv << conf->pupd_bit, pull_sel_reg);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
pr_debug("PIN_CFG ### SET PIN#%d PULL SELECTOR:%d == OK ####\n",
pin, sel);
return 0;
}
static int __altas7_pinctrl_set_drive_strength_sel(struct pinctrl_dev *pctldev,
u32 pin, u32 sel)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
struct atlas7_pad_config *conf = &pmx->pctl_data->confs[pin];
const struct atlas7_ds_info *ds_info;
u32 bank;
void __iomem *ds_sel_reg;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
ds_info = &atlas7_ds_map[conf->type];
if (sel & (~(ds_info->mask)))
goto unsupport;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
bank = atlas7_pin_to_bank(pin);
ds_sel_reg = pmx->regs[bank] + conf->drvstr_reg;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
writel(ds_info->imval << conf->drvstr_bit, CLR_REG(ds_sel_reg));
writel(sel << conf->drvstr_bit, ds_sel_reg);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return 0;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
unsupport:
pr_err("Pad#%d type[%d] doesn't support ds code[%d]!\n",
pin, conf->type, sel);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return -ENOTSUPP;
}
static int altas7_pinctrl_set_drive_strength_sel(struct pinctrl_dev *pctldev,
u32 pin, u32 ma)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
struct atlas7_pad_config *conf = &pmx->pctl_data->confs[pin];
u32 type = conf->type;
u32 sel;
int ret;
sel = convert_current_to_drive_strength(conf->type, ma);
if (DS_NULL == sel) {
pr_err("Pad#%d type[%d] doesn't support ds current[%d]!\n",
pin, type, ma);
return -ENOTSUPP;
}
ret = __altas7_pinctrl_set_drive_strength_sel(pctldev,
pin, sel);
pr_debug("PIN_CFG ### SET PIN#%d DS:%d MA:%d == %s ####\n",
pin, sel, ma, ret?"FAILED":"OK");
return ret;
}
static int atlas7_pmx_gpio_request_enable(struct pinctrl_dev *pctldev,
struct pinctrl_gpio_range *range, u32 pin)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
u32 idx;
dev_dbg(pmx->dev,
"atlas7_pmx_gpio_request_enable: pin=%d\n", pin);
for (idx = 0; idx < range->npins; idx++) {
if (pin == range->pins[idx])
break;
}
if (idx >= range->npins) {
dev_err(pmx->dev,
"The pin#%d could not be requested as GPIO!!\n",
pin);
return -EPERM;
}
__atlas7_pmx_pin_enable(pmx, pin, FUNC_GPIO);
return 0;
}
static const struct pinmux_ops atlas7_pinmux_ops = {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
.get_functions_count = atlas7_pmx_get_funcs_count,
.get_function_name = atlas7_pmx_get_func_name,
.get_function_groups = atlas7_pmx_get_func_groups,
.set_mux = atlas7_pmx_set_mux,
.gpio_request_enable = atlas7_pmx_gpio_request_enable,
};
static int atlas7_pinctrl_get_groups_count(struct pinctrl_dev *pctldev)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
return pmx->pctl_data->grps_cnt;
}
static const char *atlas7_pinctrl_get_group_name(struct pinctrl_dev *pctldev,
u32 group)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
return pmx->pctl_data->grps[group].name;
}
static int atlas7_pinctrl_get_group_pins(struct pinctrl_dev *pctldev,
u32 group, const u32 **pins, u32 *num_pins)
{
struct atlas7_pmx *pmx = pinctrl_dev_get_drvdata(pctldev);
*num_pins = pmx->pctl_data->grps[group].num_pins;
*pins = pmx->pctl_data->grps[group].pins;
return 0;
}
static int atlas7_pinctrl_dt_node_to_map(struct pinctrl_dev *pctldev,
struct device_node *np_config,
struct pinctrl_map **map,
u32 *num_maps)
{
return pinconf_generic_dt_node_to_map(pctldev, np_config, map,
num_maps, PIN_MAP_TYPE_INVALID);
}
static void atlas7_pinctrl_dt_free_map(struct pinctrl_dev *pctldev,
struct pinctrl_map *map, u32 num_maps)
{
kfree(map);
}
static const struct pinctrl_ops atlas7_pinctrl_ops = {
.get_groups_count = atlas7_pinctrl_get_groups_count,
.get_group_name = atlas7_pinctrl_get_group_name,
.get_group_pins = atlas7_pinctrl_get_group_pins,
.dt_node_to_map = atlas7_pinctrl_dt_node_to_map,
.dt_free_map = atlas7_pinctrl_dt_free_map,
};
static int atlas7_pin_config_set(struct pinctrl_dev *pctldev,
unsigned pin, unsigned long *configs,
unsigned num_configs)
{
u16 param;
u32 arg;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
int idx, err;
for (idx = 0; idx < num_configs; idx++) {
param = pinconf_to_config_param(configs[idx]);
arg = pinconf_to_config_argument(configs[idx]);
pr_debug("PMX CFG###### ATLAS7 PIN#%d [%s] CONFIG PARAM:%d ARG:%d >>>>>\n",
pin, atlas7_ioc_pads[pin].name, param, arg);
switch (param) {
case PIN_CONFIG_BIAS_PULL_UP:
err = altas7_pinctrl_set_pull_sel(pctldev,
pin, PULL_UP);
if (err)
return err;
break;
case PIN_CONFIG_BIAS_PULL_DOWN:
err = altas7_pinctrl_set_pull_sel(pctldev,
pin, PULL_DOWN);
if (err)
return err;
break;
case PIN_CONFIG_INPUT_SCHMITT_ENABLE:
err = altas7_pinctrl_set_pull_sel(pctldev,
pin, HIGH_HYSTERESIS);
if (err)
return err;
break;
case PIN_CONFIG_BIAS_HIGH_IMPEDANCE:
err = altas7_pinctrl_set_pull_sel(pctldev,
pin, HIGH_Z);
if (err)
return err;
break;
case PIN_CONFIG_DRIVE_STRENGTH:
err = altas7_pinctrl_set_drive_strength_sel(pctldev,
pin, arg);
if (err)
return err;
break;
default:
return -ENOTSUPP;
}
pr_debug("PMX CFG###### ATLAS7 PIN#%d [%s] CONFIG PARAM:%d ARG:%d <<<<\n",
pin, atlas7_ioc_pads[pin].name, param, arg);
}
return 0;
}
static int atlas7_pin_config_group_set(struct pinctrl_dev *pctldev,
unsigned group, unsigned long *configs,
unsigned num_configs)
{
const unsigned *pins;
unsigned npins;
int i, ret;
ret = atlas7_pinctrl_get_group_pins(pctldev, group, &pins, &npins);
if (ret)
return ret;
for (i = 0; i < npins; i++) {
if (atlas7_pin_config_set(pctldev, pins[i],
configs, num_configs))
return -ENOTSUPP;
}
return 0;
}
static const struct pinconf_ops atlas7_pinconf_ops = {
.pin_config_set = atlas7_pin_config_set,
.pin_config_group_set = atlas7_pin_config_group_set,
.is_generic = true,
};
static int atlas7_pinmux_probe(struct platform_device *pdev)
{
int ret, idx;
struct atlas7_pmx *pmx;
struct device_node *np = pdev->dev.of_node;
u32 banks = ATLAS7_PINCTRL_REG_BANKS;
struct device_node *sys2pci_np;
struct resource res;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* Create state holders etc for this driver */
pmx = devm_kzalloc(&pdev->dev, sizeof(*pmx), GFP_KERNEL);
if (!pmx)
return -ENOMEM;
/* The sd3 and sd9 shared all pins, and the function select by
* SYS2PCI_SDIO9SEL register
*/
sys2pci_np = of_find_node_by_name(NULL, "sys2pci");
if (!sys2pci_np)
return -EINVAL;
ret = of_address_to_resource(sys2pci_np, 0, &res);
of_node_put(sys2pci_np);
if (ret)
return ret;
pmx->sys2pci_base = devm_ioremap_resource(&pdev->dev, &res);
if (IS_ERR(pmx->sys2pci_base))
return -ENOMEM;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
pmx->dev = &pdev->dev;
pmx->pctl_data = &atlas7_ioc_data;
pmx->pctl_desc.name = "pinctrl-atlas7";
pmx->pctl_desc.pins = pmx->pctl_data->pads;
pmx->pctl_desc.npins = pmx->pctl_data->pads_cnt;
pmx->pctl_desc.pctlops = &atlas7_pinctrl_ops;
pmx->pctl_desc.pmxops = &atlas7_pinmux_ops;
pmx->pctl_desc.confops = &atlas7_pinconf_ops;
for (idx = 0; idx < banks; idx++) {
pmx->regs[idx] = of_iomap(np, idx);
if (!pmx->regs[idx]) {
dev_err(&pdev->dev,
"can't map ioc bank#%d registers\n", idx);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
ret = -ENOMEM;
goto unmap_io;
}
}
/* Now register the pin controller and all pins it handles */
pmx->pctl = pinctrl_register(&pmx->pctl_desc, &pdev->dev, pmx);
if (IS_ERR(pmx->pctl)) {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
dev_err(&pdev->dev, "could not register atlas7 pinmux driver\n");
ret = PTR_ERR(pmx->pctl);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
goto unmap_io;
}
platform_set_drvdata(pdev, pmx);
dev_info(&pdev->dev, "initialized atlas7 pinmux driver\n");
return 0;
unmap_io:
for (idx = 0; idx < banks; idx++) {
if (!pmx->regs[idx])
break;
iounmap(pmx->regs[idx]);
}
return ret;
}
#ifdef CONFIG_PM_SLEEP
static int atlas7_pinmux_suspend_noirq(struct device *dev)
{
struct atlas7_pmx *pmx = dev_get_drvdata(dev);
struct atlas7_pad_status *status;
struct atlas7_pad_config *conf;
const struct atlas7_ds_info *ds_info;
const struct atlas7_pull_info *pull_info;
int idx;
u32 bank;
unsigned long regv;
for (idx = 0; idx < pmx->pctl_desc.npins; idx++) {
/* Get this Pad's descriptor from PINCTRL */
conf = &pmx->pctl_data->confs[idx];
bank = atlas7_pin_to_bank(idx);
status = &pmx->sleep_data[idx];
/* Save Function selector */
regv = readl(pmx->regs[bank] + conf->mux_reg);
status->func = (regv >> conf->mux_bit) & FUNC_CLEAR_MASK;
/* Check if Pad is in Analogue selector */
if (conf->ad_ctrl_reg == -1)
goto save_ds_sel;
regv = readl(pmx->regs[bank] + conf->ad_ctrl_reg);
if (!(regv & (conf->ad_ctrl_bit << ANA_CLEAR_MASK)))
status->func = FUNC_ANALOGUE;
save_ds_sel:
if (conf->drvstr_reg == -1)
goto save_pull_sel;
/* Save Drive Strength selector */
ds_info = &atlas7_ds_map[conf->type];
regv = readl(pmx->regs[bank] + conf->drvstr_reg);
status->dstr = (regv >> conf->drvstr_bit) & ds_info->mask;
save_pull_sel:
/* Save Pull selector */
pull_info = &atlas7_pull_map[conf->type];
regv = readl(pmx->regs[bank] + conf->pupd_reg);
regv = (regv >> conf->pupd_bit) & pull_info->mask;
status->pull = pull_info->v2s[regv].data;
}
/*
* Save disable input selector, this selector is not for Pin,
* but for Mux function.
*/
for (idx = 0; idx < NUM_OF_IN_DISABLE_REG; idx++) {
pmx->status_ds[idx] = readl(pmx->regs[BANK_DS] +
IN_DISABLE_0_REG_SET + 0x8 * idx);
pmx->status_dsv[idx] = readl(pmx->regs[BANK_DS] +
IN_DISABLE_VAL_0_REG_SET + 0x8 * idx);
}
return 0;
}
static int atlas7_pinmux_resume_noirq(struct device *dev)
{
struct atlas7_pmx *pmx = dev_get_drvdata(dev);
struct atlas7_pad_status *status;
struct atlas7_pad_config *conf;
int idx;
u32 bank;
for (idx = 0; idx < pmx->pctl_desc.npins; idx++) {
/* Get this Pad's descriptor from PINCTRL */
conf = &pmx->pctl_data->confs[idx];
bank = atlas7_pin_to_bank(idx);
status = &pmx->sleep_data[idx];
/* Restore Function selector */
__atlas7_pmx_pin_enable(pmx, idx, (u32)status->func & 0xff);
if (FUNC_ANALOGUE == status->func)
goto restore_pull_sel;
/* Restore Drive Strength selector */
__altas7_pinctrl_set_drive_strength_sel(pmx->pctl, idx,
(u32)status->dstr & 0xff);
restore_pull_sel:
/* Restore Pull selector */
altas7_pinctrl_set_pull_sel(pmx->pctl, idx,
(u32)status->pull & 0xff);
}
/*
* Restore disable input selector, this selector is not for Pin,
* but for Mux function
*/
for (idx = 0; idx < NUM_OF_IN_DISABLE_REG; idx++) {
writel(~0, pmx->regs[BANK_DS] +
IN_DISABLE_0_REG_CLR + 0x8 * idx);
writel(pmx->status_ds[idx], pmx->regs[BANK_DS] +
IN_DISABLE_0_REG_SET + 0x8 * idx);
writel(~0, pmx->regs[BANK_DS] +
IN_DISABLE_VAL_0_REG_CLR + 0x8 * idx);
writel(pmx->status_dsv[idx], pmx->regs[BANK_DS] +
IN_DISABLE_VAL_0_REG_SET + 0x8 * idx);
}
return 0;
}
static const struct dev_pm_ops atlas7_pinmux_pm_ops = {
.suspend_noirq = atlas7_pinmux_suspend_noirq,
.resume_noirq = atlas7_pinmux_resume_noirq,
.freeze_noirq = atlas7_pinmux_suspend_noirq,
.restore_noirq = atlas7_pinmux_resume_noirq,
};
#endif
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static const struct of_device_id atlas7_pinmux_ids[] = {
{ .compatible = "sirf,atlas7-ioc",},
{},
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static struct platform_driver atlas7_pinmux_driver = {
.driver = {
.name = "atlas7-ioc",
.of_match_table = atlas7_pinmux_ids,
#ifdef CONFIG_PM_SLEEP
.pm = &atlas7_pinmux_pm_ops,
#endif
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
},
.probe = atlas7_pinmux_probe,
};
static int __init atlas7_pinmux_init(void)
{
return platform_driver_register(&atlas7_pinmux_driver);
}
arch_initcall(atlas7_pinmux_init);
/**
* The Following is GPIO Code
*/
static inline struct
atlas7_gpio_bank *atlas7_gpio_to_bank(struct atlas7_gpio_chip *a7gc, u32 gpio)
{
return &a7gc->banks[GPIO_TO_BANK(gpio)];
}
static int __atlas7_gpio_to_pin(struct atlas7_gpio_chip *a7gc, u32 gpio)
{
struct atlas7_gpio_bank *bank;
u32 ofs;
bank = atlas7_gpio_to_bank(a7gc, gpio);
ofs = gpio - bank->gpio_offset;
if (ofs >= bank->ngpio)
return -ENODEV;
return bank->gpio_pins[ofs];
}
static void atlas7_gpio_irq_ack(struct irq_data *d)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(d);
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 val, pin_in_bank;
unsigned long flags;
bank = atlas7_gpio_to_bank(a7gc, d->hwirq);
pin_in_bank = d->hwirq - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
val = readl(ctrl_reg);
/* clear interrupt status */
writel(val, ctrl_reg);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
static void __atlas7_gpio_irq_mask(struct atlas7_gpio_chip *a7gc, int idx)
{
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 val, pin_in_bank;
bank = atlas7_gpio_to_bank(a7gc, idx);
pin_in_bank = idx - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
val = readl(ctrl_reg);
val &= ~(ATLAS7_GPIO_CTL_INTR_EN_MASK |
ATLAS7_GPIO_CTL_INTR_STATUS_MASK);
writel(val, ctrl_reg);
}
static void atlas7_gpio_irq_mask(struct irq_data *d)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(d);
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
unsigned long flags;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
__atlas7_gpio_irq_mask(a7gc, d->hwirq);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
static void atlas7_gpio_irq_unmask(struct irq_data *d)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(d);
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 val, pin_in_bank;
unsigned long flags;
bank = atlas7_gpio_to_bank(a7gc, d->hwirq);
pin_in_bank = d->hwirq - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
val = readl(ctrl_reg);
val &= ~ATLAS7_GPIO_CTL_INTR_STATUS_MASK;
val |= ATLAS7_GPIO_CTL_INTR_EN_MASK;
writel(val, ctrl_reg);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
static int atlas7_gpio_irq_type(struct irq_data *d,
unsigned int type)
{
struct gpio_chip *gc = irq_data_get_irq_chip_data(d);
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 val, pin_in_bank;
unsigned long flags;
bank = atlas7_gpio_to_bank(a7gc, d->hwirq);
pin_in_bank = d->hwirq - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
val = readl(ctrl_reg);
val &= ~(ATLAS7_GPIO_CTL_INTR_STATUS_MASK |
ATLAS7_GPIO_CTL_INTR_EN_MASK);
switch (type) {
case IRQ_TYPE_NONE:
break;
case IRQ_TYPE_EDGE_RISING:
val |= ATLAS7_GPIO_CTL_INTR_HIGH_MASK |
ATLAS7_GPIO_CTL_INTR_TYPE_MASK;
val &= ~ATLAS7_GPIO_CTL_INTR_LOW_MASK;
break;
case IRQ_TYPE_EDGE_FALLING:
val &= ~ATLAS7_GPIO_CTL_INTR_HIGH_MASK;
val |= ATLAS7_GPIO_CTL_INTR_LOW_MASK |
ATLAS7_GPIO_CTL_INTR_TYPE_MASK;
break;
case IRQ_TYPE_EDGE_BOTH:
val |= ATLAS7_GPIO_CTL_INTR_HIGH_MASK |
ATLAS7_GPIO_CTL_INTR_LOW_MASK |
ATLAS7_GPIO_CTL_INTR_TYPE_MASK;
break;
case IRQ_TYPE_LEVEL_LOW:
val &= ~(ATLAS7_GPIO_CTL_INTR_HIGH_MASK |
ATLAS7_GPIO_CTL_INTR_TYPE_MASK);
val |= ATLAS7_GPIO_CTL_INTR_LOW_MASK;
break;
case IRQ_TYPE_LEVEL_HIGH:
val |= ATLAS7_GPIO_CTL_INTR_HIGH_MASK;
val &= ~(ATLAS7_GPIO_CTL_INTR_LOW_MASK |
ATLAS7_GPIO_CTL_INTR_TYPE_MASK);
break;
}
writel(val, ctrl_reg);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return 0;
}
static struct irq_chip atlas7_gpio_irq_chip = {
.name = "atlas7-gpio-irq",
.irq_ack = atlas7_gpio_irq_ack,
.irq_mask = atlas7_gpio_irq_mask,
.irq_unmask = atlas7_gpio_irq_unmask,
.irq_set_type = atlas7_gpio_irq_type,
};
static void atlas7_gpio_handle_irq(struct irq_desc *desc)
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
{
struct gpio_chip *gc = irq_desc_get_handler_data(desc);
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank = NULL;
u32 status, ctrl;
int pin_in_bank = 0, idx;
struct irq_chip *chip = irq_desc_get_chip(desc);
unsigned int irq = irq_desc_get_irq(desc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
for (idx = 0; idx < a7gc->nbank; idx++) {
bank = &a7gc->banks[idx];
if (bank->irq == irq)
break;
}
BUG_ON(idx == a7gc->nbank);
chained_irq_enter(chip, desc);
status = readl(ATLAS7_GPIO_INT_STATUS(bank));
if (!status) {
pr_warn("%s: gpio [%s] status %#x no interrupt is flagged\n",
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
__func__, gc->label, status);
handle_bad_irq(desc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return;
}
while (status) {
ctrl = readl(ATLAS7_GPIO_CTRL(bank, pin_in_bank));
/*
* Here we must check whether the corresponding GPIO's
* interrupt has been enabled, otherwise just skip it
*/
if ((status & 0x1) && (ctrl & ATLAS7_GPIO_CTL_INTR_EN_MASK)) {
pr_debug("%s: chip[%s] gpio:%d happens\n",
__func__, gc->label,
bank->gpio_offset + pin_in_bank);
generic_handle_irq(
irq_find_mapping(gc->irq.domain,
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
bank->gpio_offset + pin_in_bank));
}
if (++pin_in_bank >= bank->ngpio)
break;
status = status >> 1;
}
chained_irq_exit(chip, desc);
}
static void __atlas7_gpio_set_input(struct atlas7_gpio_chip *a7gc,
unsigned int gpio)
{
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 val, pin_in_bank;
bank = atlas7_gpio_to_bank(a7gc, gpio);
pin_in_bank = gpio - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
val = readl(ctrl_reg);
val &= ~ATLAS7_GPIO_CTL_OUT_EN_MASK;
writel(val, ctrl_reg);
}
static int atlas7_gpio_request(struct gpio_chip *chip,
unsigned int gpio)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
int ret;
unsigned long flags;
ret = __atlas7_gpio_to_pin(a7gc, gpio);
if (ret < 0)
return ret;
if (pinctrl_gpio_request(chip->base + gpio))
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return -ENODEV;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/*
* default status:
* set direction as input and mask irq
*/
__atlas7_gpio_set_input(a7gc, gpio);
__atlas7_gpio_irq_mask(a7gc, gpio);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return 0;
}
static void atlas7_gpio_free(struct gpio_chip *chip,
unsigned int gpio)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
unsigned long flags;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
__atlas7_gpio_irq_mask(a7gc, gpio);
__atlas7_gpio_set_input(a7gc, gpio);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
pinctrl_gpio_free(chip->base + gpio);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
static int atlas7_gpio_direction_input(struct gpio_chip *chip,
unsigned int gpio)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
unsigned long flags;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
__atlas7_gpio_set_input(a7gc, gpio);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return 0;
}
static void __atlas7_gpio_set_output(struct atlas7_gpio_chip *a7gc,
unsigned int gpio, int value)
{
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 out_ctrl, pin_in_bank;
bank = atlas7_gpio_to_bank(a7gc, gpio);
pin_in_bank = gpio - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
out_ctrl = readl(ctrl_reg);
if (value)
out_ctrl |= ATLAS7_GPIO_CTL_DATAOUT_MASK;
else
out_ctrl &= ~ATLAS7_GPIO_CTL_DATAOUT_MASK;
out_ctrl &= ~ATLAS7_GPIO_CTL_INTR_EN_MASK;
out_ctrl |= ATLAS7_GPIO_CTL_OUT_EN_MASK;
writel(out_ctrl, ctrl_reg);
}
static int atlas7_gpio_direction_output(struct gpio_chip *chip,
unsigned int gpio, int value)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
unsigned long flags;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
__atlas7_gpio_set_output(a7gc, gpio, value);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return 0;
}
static int atlas7_gpio_get_value(struct gpio_chip *chip,
unsigned int gpio)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank;
u32 val, pin_in_bank;
unsigned long flags;
bank = atlas7_gpio_to_bank(a7gc, gpio);
pin_in_bank = gpio - bank->gpio_offset;
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
val = readl(ATLAS7_GPIO_CTRL(bank, pin_in_bank));
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
return !!(val & ATLAS7_GPIO_CTL_DATAIN_MASK);
}
static void atlas7_gpio_set_value(struct gpio_chip *chip,
unsigned int gpio, int value)
{
struct atlas7_gpio_chip *a7gc = gpiochip_get_data(chip);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 ctrl, pin_in_bank;
unsigned long flags;
bank = atlas7_gpio_to_bank(a7gc, gpio);
pin_in_bank = gpio - bank->gpio_offset;
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin_in_bank);
raw_spin_lock_irqsave(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
ctrl = readl(ctrl_reg);
if (value)
ctrl |= ATLAS7_GPIO_CTL_DATAOUT_MASK;
else
ctrl &= ~ATLAS7_GPIO_CTL_DATAOUT_MASK;
writel(ctrl, ctrl_reg);
raw_spin_unlock_irqrestore(&a7gc->lock, flags);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
}
static const struct of_device_id atlas7_gpio_ids[] = {
{ .compatible = "sirf,atlas7-gpio", },
{},
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
};
static int atlas7_gpio_probe(struct platform_device *pdev)
{
struct device_node *np = pdev->dev.of_node;
struct atlas7_gpio_chip *a7gc;
struct gpio_chip *chip;
u32 nbank;
int ret, idx;
ret = of_property_read_u32(np, "gpio-banks", &nbank);
if (ret) {
dev_err(&pdev->dev,
"Could not find GPIO bank info,ret=%d!\n",
ret);
return ret;
}
/* retrieve gpio descriptor data */
a7gc = devm_kzalloc(&pdev->dev, sizeof(*a7gc) +
sizeof(struct atlas7_gpio_bank) * nbank, GFP_KERNEL);
if (!a7gc)
return -ENOMEM;
/* Get Gpio clk */
a7gc->clk = of_clk_get(np, 0);
if (!IS_ERR(a7gc->clk)) {
ret = clk_prepare_enable(a7gc->clk);
if (ret) {
dev_err(&pdev->dev,
"Could not enable clock!\n");
return ret;
}
}
/* Get Gpio Registers */
a7gc->reg = of_iomap(np, 0);
if (!a7gc->reg) {
dev_err(&pdev->dev, "Could not map GPIO Registers!\n");
return -ENOMEM;
}
a7gc->nbank = nbank;
raw_spin_lock_init(&a7gc->lock);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* Setup GPIO Chip */
chip = &a7gc->chip;
chip->request = atlas7_gpio_request;
chip->free = atlas7_gpio_free;
chip->direction_input = atlas7_gpio_direction_input;
chip->get = atlas7_gpio_get_value;
chip->direction_output = atlas7_gpio_direction_output;
chip->set = atlas7_gpio_set_value;
chip->base = -1;
/* Each chip can support 32 pins at one bank */
chip->ngpio = NGPIO_OF_BANK * nbank;
chip->label = kstrdup(np->name, GFP_KERNEL);
chip->of_node = np;
chip->of_gpio_n_cells = 2;
gpio: change member .dev to .parent The name .dev in a struct is normally reserved for a struct device that is let us say a superclass to the thing described by the struct. struct gpio_chip stands out by confusingly using a struct device *dev to point to the parent device (such as a platform_device) that represents the hardware. As we want to give gpio_chip:s real devices, this is not working. We need to rename this member to parent. This was done by two coccinelle scripts, I guess it is possible to combine them into one, but I don't know such stuff. They look like this: @@ struct gpio_chip *var; @@ -var->dev +var->parent and: @@ struct gpio_chip var; @@ -var.dev +var.parent and: @@ struct bgpio_chip *var; @@ -var->gc.dev +var->gc.parent Plus a few instances of bgpio that I couldn't figure out how to teach Coccinelle to rewrite. This patch hits all over the place, but I *strongly* prefer this solution to any piecemal approaches that just exercise patch mechanics all over the place. It mainly hits drivers/gpio and drivers/pinctrl which is my own backyard anyway. Cc: Haavard Skinnemoen <hskinnemoen@gmail.com> Cc: Rafał Miłecki <zajec5@gmail.com> Cc: Richard Purdie <rpurdie@rpsys.net> Cc: Mauro Carvalho Chehab <mchehab@osg.samsung.com> Cc: Alek Du <alek.du@intel.com> Cc: Jaroslav Kysela <perex@perex.cz> Cc: Takashi Iwai <tiwai@suse.com> Acked-by: Dmitry Torokhov <dmitry.torokhov@gmail.com> Acked-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org> Acked-by: Lee Jones <lee.jones@linaro.org> Acked-by: Jiri Kosina <jkosina@suse.cz> Acked-by: Hans-Christian Egtvedt <egtvedt@samfundet.no> Acked-by: Jacek Anaszewski <j.anaszewski@samsung.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-11-04 16:56:26 +08:00
chip->parent = &pdev->dev;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* Add gpio chip to system */
ret = gpiochip_add_data(chip, a7gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
if (ret) {
dev_err(&pdev->dev,
"%s: error in probe function with status %d\n",
np->name, ret);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
goto failed;
}
/* Add gpio chip to irq subsystem */
ret = gpiochip_irqchip_add(chip, &atlas7_gpio_irq_chip,
0, handle_level_irq, IRQ_TYPE_NONE);
if (ret) {
dev_err(&pdev->dev,
"could not connect irqchip to gpiochip\n");
goto failed;
}
for (idx = 0; idx < nbank; idx++) {
struct atlas7_gpio_bank *bank;
bank = &a7gc->banks[idx];
/* Set ctrl registers' base of this bank */
bank->base = ATLAS7_GPIO_BASE(a7gc, idx);
bank->gpio_offset = idx * NGPIO_OF_BANK;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
/* Get interrupt number from DTS */
ret = of_irq_get(np, idx);
if (ret <= 0) {
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
dev_err(&pdev->dev,
"Unable to find IRQ number. ret=%d\n", ret);
if (!ret)
ret = -ENXIO;
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
goto failed;
}
bank->irq = ret;
gpiochip_set_chained_irqchip(chip, &atlas7_gpio_irq_chip,
bank->irq, atlas7_gpio_handle_irq);
}
platform_set_drvdata(pdev, a7gc);
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
dev_info(&pdev->dev, "add to system.\n");
return 0;
failed:
return ret;
}
#ifdef CONFIG_PM_SLEEP
static int atlas7_gpio_suspend_noirq(struct device *dev)
{
struct atlas7_gpio_chip *a7gc = dev_get_drvdata(dev);
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 idx, pin;
for (idx = 0; idx < a7gc->nbank; idx++) {
bank = &a7gc->banks[idx];
for (pin = 0; pin < bank->ngpio; pin++) {
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin);
bank->sleep_data[pin] = readl(ctrl_reg);
}
}
return 0;
}
static int atlas7_gpio_resume_noirq(struct device *dev)
{
struct atlas7_gpio_chip *a7gc = dev_get_drvdata(dev);
struct atlas7_gpio_bank *bank;
void __iomem *ctrl_reg;
u32 idx, pin;
for (idx = 0; idx < a7gc->nbank; idx++) {
bank = &a7gc->banks[idx];
for (pin = 0; pin < bank->ngpio; pin++) {
ctrl_reg = ATLAS7_GPIO_CTRL(bank, pin);
writel(bank->sleep_data[pin], ctrl_reg);
}
}
return 0;
}
static const struct dev_pm_ops atlas7_gpio_pm_ops = {
.suspend_noirq = atlas7_gpio_suspend_noirq,
.resume_noirq = atlas7_gpio_resume_noirq,
.freeze_noirq = atlas7_gpio_suspend_noirq,
.restore_noirq = atlas7_gpio_resume_noirq,
};
#endif
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
static struct platform_driver atlas7_gpio_driver = {
.driver = {
.name = "atlas7-gpio",
.of_match_table = atlas7_gpio_ids,
#ifdef CONFIG_PM_SLEEP
.pm = &atlas7_gpio_pm_ops,
#endif
pinctrl: sirf: add sirf atlas7 pinctrl and gpio support The Pinctrl module (ioc) controls the Pad's function select (each pad can have 8 functions), Pad's Drive Strength, Pad's Pull Select and Pad's Input Disable status. The ioc has two modules, ioc_top & ioc_rtc. Both of these two modules have function select/clear, Pull select and Drive Strength registers. But only ioc_rtc has input-disable registers. The Pads on ioc_top have to access ioc_rtc to set their input-disable status and intpu-disable-value. So have to use one ioc driver instance to drive these two ioc modules at the same time, and each ioc module will be treat as one bank on the "IOC Device". The GPIO Controller controls the GPIO status if the Pad has been config as GPIO by Pinctrl already. Includes the GPIO Input/output, Interrupt type, Interrupt Status, and Set/Get Values. The GPIO pull up/down are controlled by Pinctrl. There are 7 GPIO Groups and splited into 3 MACROs in atlas7. The GPIO Groups in one MACRO share one GPIO controllers, each GPIO Group are treated as one GPIO bank. For example: In VDIFM macro, there is one GPIO Controller, it has 3 banks to control 3 gpio groups. Its gpio name space is from 0 to 95. The Device Tree can be written as following: gpio-ranges = <&pinctrl 0 0 0>, <&pinctrl 32 0 0>, <&pinctrl 64 0 0>; gpio-ranges-group-names = "gnss_gpio_grp", "lcd_vip_gpio_grp", "sdio_i2s_gpio_grp"; bank#0 is from 0~31, the pins are from pinctrl's "gnss_gpio_grp". bank#2 is from 32~63, the pins are from pinctrl's "lcd_vip_gpio_grp". bank#3 is from 64~95, the pins are from pinctrl's "sdio_i2s_gpio_grp". Signed-off-by: Wei Chen <Wei.Chen@csr.com> Signed-off-by: Barry Song <Baohua.Song@csr.com> Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
2015-05-18 15:28:32 +08:00
},
.probe = atlas7_gpio_probe,
};
static int __init atlas7_gpio_init(void)
{
return platform_driver_register(&atlas7_gpio_driver);
}
subsys_initcall(atlas7_gpio_init);