OpenCloudOS-Kernel/drivers/phy/cadence/phy-cadence-torrent.c

3863 lines
114 KiB
C

// SPDX-License-Identifier: GPL-2.0-only
/*
* Cadence Torrent SD0801 PHY driver.
*
* Copyright 2018 Cadence Design Systems, Inc.
*
*/
#include <dt-bindings/phy/phy.h>
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/err.h>
#include <linux/io.h>
#include <linux/iopoll.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/of_address.h>
#include <linux/of_device.h>
#include <linux/phy/phy.h>
#include <linux/platform_device.h>
#include <linux/reset.h>
#include <linux/regmap.h>
#define REF_CLK_19_2MHz 19200000
#define REF_CLK_25MHz 25000000
#define MAX_NUM_LANES 4
#define DEFAULT_MAX_BIT_RATE 8100 /* in Mbps */
#define NUM_SSC_MODE 3
#define NUM_PHY_TYPE 6
#define POLL_TIMEOUT_US 5000
#define PLL_LOCK_TIMEOUT 100000
#define TORRENT_COMMON_CDB_OFFSET 0x0
#define TORRENT_TX_LANE_CDB_OFFSET(ln, block_offset, reg_offset) \
((0x4000 << (block_offset)) + \
(((ln) << 9) << (reg_offset)))
#define TORRENT_RX_LANE_CDB_OFFSET(ln, block_offset, reg_offset) \
((0x8000 << (block_offset)) + \
(((ln) << 9) << (reg_offset)))
#define TORRENT_PHY_PCS_COMMON_OFFSET(block_offset) \
(0xC000 << (block_offset))
#define TORRENT_PHY_PMA_COMMON_OFFSET(block_offset) \
(0xE000 << (block_offset))
#define TORRENT_DPTX_PHY_OFFSET 0x0
/*
* register offsets from DPTX PHY register block base (i.e MHDP
* register base + 0x30a00)
*/
#define PHY_AUX_CTRL 0x04
#define PHY_RESET 0x20
#define PMA_TX_ELEC_IDLE_MASK 0xF0U
#define PMA_TX_ELEC_IDLE_SHIFT 4
#define PHY_L00_RESET_N_MASK 0x01U
#define PHY_PMA_XCVR_PLLCLK_EN 0x24
#define PHY_PMA_XCVR_PLLCLK_EN_ACK 0x28
#define PHY_PMA_XCVR_POWER_STATE_REQ 0x2c
#define PHY_POWER_STATE_LN_0 0x0000
#define PHY_POWER_STATE_LN_1 0x0008
#define PHY_POWER_STATE_LN_2 0x0010
#define PHY_POWER_STATE_LN_3 0x0018
#define PMA_XCVR_POWER_STATE_REQ_LN_MASK 0x3FU
#define PHY_PMA_XCVR_POWER_STATE_ACK 0x30
#define PHY_PMA_CMN_READY 0x34
/*
* register offsets from SD0801 PHY register block base (i.e MHDP
* register base + 0x500000)
*/
#define CMN_SSM_BANDGAP_TMR 0x0021U
#define CMN_SSM_BIAS_TMR 0x0022U
#define CMN_PLLSM0_PLLPRE_TMR 0x002AU
#define CMN_PLLSM0_PLLLOCK_TMR 0x002CU
#define CMN_PLLSM1_PLLPRE_TMR 0x0032U
#define CMN_PLLSM1_PLLLOCK_TMR 0x0034U
#define CMN_CDIAG_CDB_PWRI_OVRD 0x0041U
#define CMN_CDIAG_XCVRC_PWRI_OVRD 0x0047U
#define CMN_BGCAL_INIT_TMR 0x0064U
#define CMN_BGCAL_ITER_TMR 0x0065U
#define CMN_IBCAL_INIT_TMR 0x0074U
#define CMN_PLL0_VCOCAL_TCTRL 0x0082U
#define CMN_PLL0_VCOCAL_INIT_TMR 0x0084U
#define CMN_PLL0_VCOCAL_ITER_TMR 0x0085U
#define CMN_PLL0_VCOCAL_REFTIM_START 0x0086U
#define CMN_PLL0_VCOCAL_PLLCNT_START 0x0088U
#define CMN_PLL0_INTDIV_M0 0x0090U
#define CMN_PLL0_FRACDIVL_M0 0x0091U
#define CMN_PLL0_FRACDIVH_M0 0x0092U
#define CMN_PLL0_HIGH_THR_M0 0x0093U
#define CMN_PLL0_DSM_DIAG_M0 0x0094U
#define CMN_PLL0_SS_CTRL1_M0 0x0098U
#define CMN_PLL0_SS_CTRL2_M0 0x0099U
#define CMN_PLL0_SS_CTRL3_M0 0x009AU
#define CMN_PLL0_SS_CTRL4_M0 0x009BU
#define CMN_PLL0_LOCK_REFCNT_START 0x009CU
#define CMN_PLL0_LOCK_PLLCNT_START 0x009EU
#define CMN_PLL0_LOCK_PLLCNT_THR 0x009FU
#define CMN_PLL0_INTDIV_M1 0x00A0U
#define CMN_PLL0_FRACDIVH_M1 0x00A2U
#define CMN_PLL0_HIGH_THR_M1 0x00A3U
#define CMN_PLL0_DSM_DIAG_M1 0x00A4U
#define CMN_PLL0_SS_CTRL1_M1 0x00A8U
#define CMN_PLL0_SS_CTRL2_M1 0x00A9U
#define CMN_PLL0_SS_CTRL3_M1 0x00AAU
#define CMN_PLL0_SS_CTRL4_M1 0x00ABU
#define CMN_PLL1_VCOCAL_TCTRL 0x00C2U
#define CMN_PLL1_VCOCAL_INIT_TMR 0x00C4U
#define CMN_PLL1_VCOCAL_ITER_TMR 0x00C5U
#define CMN_PLL1_VCOCAL_REFTIM_START 0x00C6U
#define CMN_PLL1_VCOCAL_PLLCNT_START 0x00C8U
#define CMN_PLL1_INTDIV_M0 0x00D0U
#define CMN_PLL1_FRACDIVL_M0 0x00D1U
#define CMN_PLL1_FRACDIVH_M0 0x00D2U
#define CMN_PLL1_HIGH_THR_M0 0x00D3U
#define CMN_PLL1_DSM_DIAG_M0 0x00D4U
#define CMN_PLL1_SS_CTRL1_M0 0x00D8U
#define CMN_PLL1_SS_CTRL2_M0 0x00D9U
#define CMN_PLL1_SS_CTRL3_M0 0x00DAU
#define CMN_PLL1_SS_CTRL4_M0 0x00DBU
#define CMN_PLL1_LOCK_REFCNT_START 0x00DCU
#define CMN_PLL1_LOCK_PLLCNT_START 0x00DEU
#define CMN_PLL1_LOCK_PLLCNT_THR 0x00DFU
#define CMN_TXPUCAL_TUNE 0x0103U
#define CMN_TXPUCAL_INIT_TMR 0x0104U
#define CMN_TXPUCAL_ITER_TMR 0x0105U
#define CMN_TXPDCAL_TUNE 0x010BU
#define CMN_TXPDCAL_INIT_TMR 0x010CU
#define CMN_TXPDCAL_ITER_TMR 0x010DU
#define CMN_RXCAL_INIT_TMR 0x0114U
#define CMN_RXCAL_ITER_TMR 0x0115U
#define CMN_SD_CAL_INIT_TMR 0x0124U
#define CMN_SD_CAL_ITER_TMR 0x0125U
#define CMN_SD_CAL_REFTIM_START 0x0126U
#define CMN_SD_CAL_PLLCNT_START 0x0128U
#define CMN_PDIAG_PLL0_CTRL_M0 0x01A0U
#define CMN_PDIAG_PLL0_CLK_SEL_M0 0x01A1U
#define CMN_PDIAG_PLL0_CP_PADJ_M0 0x01A4U
#define CMN_PDIAG_PLL0_CP_IADJ_M0 0x01A5U
#define CMN_PDIAG_PLL0_FILT_PADJ_M0 0x01A6U
#define CMN_PDIAG_PLL0_CTRL_M1 0x01B0U
#define CMN_PDIAG_PLL0_CLK_SEL_M1 0x01B1U
#define CMN_PDIAG_PLL0_CP_PADJ_M1 0x01B4U
#define CMN_PDIAG_PLL0_CP_IADJ_M1 0x01B5U
#define CMN_PDIAG_PLL0_FILT_PADJ_M1 0x01B6U
#define CMN_PDIAG_PLL1_CTRL_M0 0x01C0U
#define CMN_PDIAG_PLL1_CLK_SEL_M0 0x01C1U
#define CMN_PDIAG_PLL1_CP_PADJ_M0 0x01C4U
#define CMN_PDIAG_PLL1_CP_IADJ_M0 0x01C5U
#define CMN_PDIAG_PLL1_FILT_PADJ_M0 0x01C6U
#define CMN_DIAG_BIAS_OVRD1 0x01E1U
/* PMA TX Lane registers */
#define TX_TXCC_CTRL 0x0040U
#define TX_TXCC_CPOST_MULT_00 0x004CU
#define TX_TXCC_CPOST_MULT_01 0x004DU
#define TX_TXCC_MGNFS_MULT_000 0x0050U
#define DRV_DIAG_TX_DRV 0x00C6U
#define XCVR_DIAG_PLLDRC_CTRL 0x00E5U
#define XCVR_DIAG_HSCLK_SEL 0x00E6U
#define XCVR_DIAG_HSCLK_DIV 0x00E7U
#define XCVR_DIAG_BIDI_CTRL 0x00EAU
#define XCVR_DIAG_PSC_OVRD 0x00EBU
#define TX_PSC_A0 0x0100U
#define TX_PSC_A1 0x0101U
#define TX_PSC_A2 0x0102U
#define TX_PSC_A3 0x0103U
#define TX_RCVDET_ST_TMR 0x0123U
#define TX_DIAG_ACYA 0x01E7U
#define TX_DIAG_ACYA_HBDC_MASK 0x0001U
/* PMA RX Lane registers */
#define RX_PSC_A0 0x0000U
#define RX_PSC_A1 0x0001U
#define RX_PSC_A2 0x0002U
#define RX_PSC_A3 0x0003U
#define RX_PSC_CAL 0x0006U
#define RX_CDRLF_CNFG 0x0080U
#define RX_CDRLF_CNFG3 0x0082U
#define RX_SIGDET_HL_FILT_TMR 0x0090U
#define RX_REE_GCSM1_CTRL 0x0108U
#define RX_REE_GCSM1_EQENM_PH1 0x0109U
#define RX_REE_GCSM1_EQENM_PH2 0x010AU
#define RX_REE_GCSM2_CTRL 0x0110U
#define RX_REE_PERGCSM_CTRL 0x0118U
#define RX_REE_ATTEN_THR 0x0149U
#define RX_REE_TAP1_CLIP 0x0171U
#define RX_REE_TAP2TON_CLIP 0x0172U
#define RX_REE_SMGM_CTRL1 0x0177U
#define RX_REE_SMGM_CTRL2 0x0178U
#define RX_DIAG_DFE_CTRL 0x01E0U
#define RX_DIAG_DFE_AMP_TUNE_2 0x01E2U
#define RX_DIAG_DFE_AMP_TUNE_3 0x01E3U
#define RX_DIAG_NQST_CTRL 0x01E5U
#define RX_DIAG_SIGDET_TUNE 0x01E8U
#define RX_DIAG_PI_RATE 0x01F4U
#define RX_DIAG_PI_CAP 0x01F5U
#define RX_DIAG_ACYA 0x01FFU
/* PHY PCS common registers */
#define PHY_PLL_CFG 0x000EU
#define PHY_PIPE_USB3_GEN2_PRE_CFG0 0x0020U
#define PHY_PIPE_USB3_GEN2_POST_CFG0 0x0022U
#define PHY_PIPE_USB3_GEN2_POST_CFG1 0x0023U
/* PHY PMA common registers */
#define PHY_PMA_CMN_CTRL1 0x0000U
#define PHY_PMA_CMN_CTRL2 0x0001U
#define PHY_PMA_PLL_RAW_CTRL 0x0003U
static const struct reg_field phy_pll_cfg =
REG_FIELD(PHY_PLL_CFG, 0, 1);
static const struct reg_field phy_pma_cmn_ctrl_1 =
REG_FIELD(PHY_PMA_CMN_CTRL1, 0, 0);
static const struct reg_field phy_pma_cmn_ctrl_2 =
REG_FIELD(PHY_PMA_CMN_CTRL2, 0, 7);
static const struct reg_field phy_pma_pll_raw_ctrl =
REG_FIELD(PHY_PMA_PLL_RAW_CTRL, 0, 1);
static const struct reg_field phy_reset_ctrl =
REG_FIELD(PHY_RESET, 8, 8);
enum cdns_torrent_phy_type {
TYPE_NONE,
TYPE_DP,
TYPE_PCIE,
TYPE_SGMII,
TYPE_QSGMII,
TYPE_USB,
};
enum cdns_torrent_ssc_mode {
NO_SSC,
EXTERNAL_SSC,
INTERNAL_SSC
};
struct cdns_torrent_inst {
struct phy *phy;
u32 mlane;
enum cdns_torrent_phy_type phy_type;
u32 num_lanes;
struct reset_control *lnk_rst;
enum cdns_torrent_ssc_mode ssc_mode;
};
struct cdns_torrent_phy {
void __iomem *base; /* DPTX registers base */
void __iomem *sd_base; /* SD0801 registers base */
u32 max_bit_rate; /* Maximum link bit rate to use (in Mbps) */
struct reset_control *phy_rst;
struct reset_control *apb_rst;
struct device *dev;
struct clk *clk;
unsigned long ref_clk_rate;
struct cdns_torrent_inst phys[MAX_NUM_LANES];
int nsubnodes;
const struct cdns_torrent_data *init_data;
struct regmap *regmap;
struct regmap *regmap_common_cdb;
struct regmap *regmap_phy_pcs_common_cdb;
struct regmap *regmap_phy_pma_common_cdb;
struct regmap *regmap_tx_lane_cdb[MAX_NUM_LANES];
struct regmap *regmap_rx_lane_cdb[MAX_NUM_LANES];
struct regmap *regmap_dptx_phy_reg;
struct regmap_field *phy_pll_cfg;
struct regmap_field *phy_pma_cmn_ctrl_1;
struct regmap_field *phy_pma_cmn_ctrl_2;
struct regmap_field *phy_pma_pll_raw_ctrl;
struct regmap_field *phy_reset_ctrl;
};
enum phy_powerstate {
POWERSTATE_A0 = 0,
/* Powerstate A1 is unused */
POWERSTATE_A2 = 2,
POWERSTATE_A3 = 3,
};
static int cdns_torrent_phy_init(struct phy *phy);
static int cdns_torrent_dp_init(struct phy *phy);
static int cdns_torrent_dp_run(struct cdns_torrent_phy *cdns_phy,
u32 num_lanes);
static
int cdns_torrent_dp_wait_pma_cmn_ready(struct cdns_torrent_phy *cdns_phy);
static void cdns_torrent_dp_pma_cfg(struct cdns_torrent_phy *cdns_phy,
struct cdns_torrent_inst *inst);
static
void cdns_torrent_dp_pma_cmn_cfg_19_2mhz(struct cdns_torrent_phy *cdns_phy);
static
void cdns_torrent_dp_pma_cmn_vco_cfg_19_2mhz(struct cdns_torrent_phy *cdns_phy,
u32 rate, bool ssc);
static
void cdns_torrent_dp_pma_cmn_cfg_25mhz(struct cdns_torrent_phy *cdns_phy);
static
void cdns_torrent_dp_pma_cmn_vco_cfg_25mhz(struct cdns_torrent_phy *cdns_phy,
u32 rate, bool ssc);
static void cdns_torrent_dp_pma_lane_cfg(struct cdns_torrent_phy *cdns_phy,
unsigned int lane);
static void cdns_torrent_dp_pma_cmn_rate(struct cdns_torrent_phy *cdns_phy,
u32 rate, u32 num_lanes);
static int cdns_torrent_dp_configure(struct phy *phy,
union phy_configure_opts *opts);
static int cdns_torrent_dp_set_power_state(struct cdns_torrent_phy *cdns_phy,
u32 num_lanes,
enum phy_powerstate powerstate);
static int cdns_torrent_phy_on(struct phy *phy);
static int cdns_torrent_phy_off(struct phy *phy);
static const struct phy_ops cdns_torrent_phy_ops = {
.init = cdns_torrent_phy_init,
.configure = cdns_torrent_dp_configure,
.power_on = cdns_torrent_phy_on,
.power_off = cdns_torrent_phy_off,
.owner = THIS_MODULE,
};
struct cdns_reg_pairs {
u32 val;
u32 off;
};
struct cdns_torrent_vals {
struct cdns_reg_pairs *reg_pairs;
u32 num_regs;
};
struct cdns_torrent_data {
u8 block_offset_shift;
u8 reg_offset_shift;
struct cdns_torrent_vals *link_cmn_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
struct cdns_torrent_vals *xcvr_diag_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
struct cdns_torrent_vals *pcs_cmn_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
struct cdns_torrent_vals *cmn_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
struct cdns_torrent_vals *tx_ln_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
struct cdns_torrent_vals *rx_ln_vals[NUM_PHY_TYPE][NUM_PHY_TYPE]
[NUM_SSC_MODE];
};
struct cdns_regmap_cdb_context {
struct device *dev;
void __iomem *base;
u8 reg_offset_shift;
};
static int cdns_regmap_write(void *context, unsigned int reg, unsigned int val)
{
struct cdns_regmap_cdb_context *ctx = context;
u32 offset = reg << ctx->reg_offset_shift;
writew(val, ctx->base + offset);
return 0;
}
static int cdns_regmap_read(void *context, unsigned int reg, unsigned int *val)
{
struct cdns_regmap_cdb_context *ctx = context;
u32 offset = reg << ctx->reg_offset_shift;
*val = readw(ctx->base + offset);
return 0;
}
static int cdns_regmap_dptx_write(void *context, unsigned int reg,
unsigned int val)
{
struct cdns_regmap_cdb_context *ctx = context;
u32 offset = reg;
writel(val, ctx->base + offset);
return 0;
}
static int cdns_regmap_dptx_read(void *context, unsigned int reg,
unsigned int *val)
{
struct cdns_regmap_cdb_context *ctx = context;
u32 offset = reg;
*val = readl(ctx->base + offset);
return 0;
}
#define TORRENT_TX_LANE_CDB_REGMAP_CONF(n) \
{ \
.name = "torrent_tx_lane" n "_cdb", \
.reg_stride = 1, \
.fast_io = true, \
.reg_write = cdns_regmap_write, \
.reg_read = cdns_regmap_read, \
}
#define TORRENT_RX_LANE_CDB_REGMAP_CONF(n) \
{ \
.name = "torrent_rx_lane" n "_cdb", \
.reg_stride = 1, \
.fast_io = true, \
.reg_write = cdns_regmap_write, \
.reg_read = cdns_regmap_read, \
}
static const struct regmap_config cdns_torrent_tx_lane_cdb_config[] = {
TORRENT_TX_LANE_CDB_REGMAP_CONF("0"),
TORRENT_TX_LANE_CDB_REGMAP_CONF("1"),
TORRENT_TX_LANE_CDB_REGMAP_CONF("2"),
TORRENT_TX_LANE_CDB_REGMAP_CONF("3"),
};
static const struct regmap_config cdns_torrent_rx_lane_cdb_config[] = {
TORRENT_RX_LANE_CDB_REGMAP_CONF("0"),
TORRENT_RX_LANE_CDB_REGMAP_CONF("1"),
TORRENT_RX_LANE_CDB_REGMAP_CONF("2"),
TORRENT_RX_LANE_CDB_REGMAP_CONF("3"),
};
static const struct regmap_config cdns_torrent_common_cdb_config = {
.name = "torrent_common_cdb",
.reg_stride = 1,
.fast_io = true,
.reg_write = cdns_regmap_write,
.reg_read = cdns_regmap_read,
};
static const struct regmap_config cdns_torrent_phy_pcs_cmn_cdb_config = {
.name = "torrent_phy_pcs_cmn_cdb",
.reg_stride = 1,
.fast_io = true,
.reg_write = cdns_regmap_write,
.reg_read = cdns_regmap_read,
};
static const struct regmap_config cdns_torrent_phy_pma_cmn_cdb_config = {
.name = "torrent_phy_pma_cmn_cdb",
.reg_stride = 1,
.fast_io = true,
.reg_write = cdns_regmap_write,
.reg_read = cdns_regmap_read,
};
static const struct regmap_config cdns_torrent_dptx_phy_config = {
.name = "torrent_dptx_phy",
.reg_stride = 1,
.fast_io = true,
.reg_write = cdns_regmap_dptx_write,
.reg_read = cdns_regmap_dptx_read,
};
/* PHY mmr access functions */
static void cdns_torrent_phy_write(struct regmap *regmap, u32 offset, u32 val)
{
regmap_write(regmap, offset, val);
}
static u32 cdns_torrent_phy_read(struct regmap *regmap, u32 offset)
{
unsigned int val;
regmap_read(regmap, offset, &val);
return val;
}
/* DPTX mmr access functions */
static void cdns_torrent_dp_write(struct regmap *regmap, u32 offset, u32 val)
{
regmap_write(regmap, offset, val);
}
static u32 cdns_torrent_dp_read(struct regmap *regmap, u32 offset)
{
u32 val;
regmap_read(regmap, offset, &val);
return val;
}
/*
* Structure used to store values of PHY registers for voltage-related
* coefficients, for particular voltage swing and pre-emphasis level. Values
* are shared across all physical lanes.
*/
struct coefficients {
/* Value of DRV_DIAG_TX_DRV register to use */
u16 diag_tx_drv;
/* Value of TX_TXCC_MGNFS_MULT_000 register to use */
u16 mgnfs_mult;
/* Value of TX_TXCC_CPOST_MULT_00 register to use */
u16 cpost_mult;
};
/*
* Array consists of values of voltage-related registers for sd0801 PHY. A value
* of 0xFFFF is a placeholder for invalid combination, and will never be used.
*/
static const struct coefficients vltg_coeff[4][4] = {
/* voltage swing 0, pre-emphasis 0->3 */
{ {.diag_tx_drv = 0x0003, .mgnfs_mult = 0x002A,
.cpost_mult = 0x0000},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x001F,
.cpost_mult = 0x0014},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0012,
.cpost_mult = 0x0020},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0000,
.cpost_mult = 0x002A}
},
/* voltage swing 1, pre-emphasis 0->3 */
{ {.diag_tx_drv = 0x0003, .mgnfs_mult = 0x001F,
.cpost_mult = 0x0000},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0013,
.cpost_mult = 0x0012},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0000,
.cpost_mult = 0x001F},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF}
},
/* voltage swing 2, pre-emphasis 0->3 */
{ {.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0013,
.cpost_mult = 0x0000},
{.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0000,
.cpost_mult = 0x0013},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF}
},
/* voltage swing 3, pre-emphasis 0->3 */
{ {.diag_tx_drv = 0x0003, .mgnfs_mult = 0x0000,
.cpost_mult = 0x0000},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF},
{.diag_tx_drv = 0xFFFF, .mgnfs_mult = 0xFFFF,
.cpost_mult = 0xFFFF}
}
};
/*
* Enable or disable PLL for selected lanes.
*/
static int cdns_torrent_dp_set_pll_en(struct cdns_torrent_phy *cdns_phy,
struct phy_configure_opts_dp *dp,
bool enable)
{
u32 rd_val;
u32 ret;
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
/*
* Used to determine, which bits to check for or enable in
* PHY_PMA_XCVR_PLLCLK_EN register.
*/
u32 pll_bits;
/* Used to enable or disable lanes. */
u32 pll_val;
/* Select values of registers and mask, depending on enabled lane
* count.
*/
switch (dp->lanes) {
/* lane 0 */
case (1):
pll_bits = 0x00000001;
break;
/* lanes 0-1 */
case (2):
pll_bits = 0x00000003;
break;
/* lanes 0-3, all */
default:
pll_bits = 0x0000000F;
break;
}
if (enable)
pll_val = pll_bits;
else
pll_val = 0x00000000;
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_PLLCLK_EN, pll_val);
/* Wait for acknowledgment from PHY. */
ret = regmap_read_poll_timeout(regmap,
PHY_PMA_XCVR_PLLCLK_EN_ACK,
rd_val,
(rd_val & pll_bits) == pll_val,
0, POLL_TIMEOUT_US);
ndelay(100);
return ret;
}
/*
* Perform register operations related to setting link rate, once powerstate is
* set and PLL disable request was processed.
*/
static int cdns_torrent_dp_configure_rate(struct cdns_torrent_phy *cdns_phy,
struct phy_configure_opts_dp *dp)
{
u32 ret;
u32 read_val;
/* Disable the cmn_pll0_en before re-programming the new data rate. */
regmap_field_write(cdns_phy->phy_pma_pll_raw_ctrl, 0x0);
/*
* Wait for PLL ready de-assertion.
* For PLL0 - PHY_PMA_CMN_CTRL2[2] == 1
*/
ret = regmap_field_read_poll_timeout(cdns_phy->phy_pma_cmn_ctrl_2,
read_val,
((read_val >> 2) & 0x01) != 0,
0, POLL_TIMEOUT_US);
if (ret)
return ret;
ndelay(200);
/* DP Rate Change - VCO Output settings. */
if (cdns_phy->ref_clk_rate == REF_CLK_19_2MHz) {
/* PMA common configuration 19.2MHz */
cdns_torrent_dp_pma_cmn_vco_cfg_19_2mhz(cdns_phy, dp->link_rate,
dp->ssc);
cdns_torrent_dp_pma_cmn_cfg_19_2mhz(cdns_phy);
} else if (cdns_phy->ref_clk_rate == REF_CLK_25MHz) {
/* PMA common configuration 25MHz */
cdns_torrent_dp_pma_cmn_vco_cfg_25mhz(cdns_phy, dp->link_rate,
dp->ssc);
cdns_torrent_dp_pma_cmn_cfg_25mhz(cdns_phy);
}
cdns_torrent_dp_pma_cmn_rate(cdns_phy, dp->link_rate, dp->lanes);
/* Enable the cmn_pll0_en. */
regmap_field_write(cdns_phy->phy_pma_pll_raw_ctrl, 0x3);
/*
* Wait for PLL ready assertion.
* For PLL0 - PHY_PMA_CMN_CTRL2[0] == 1
*/
ret = regmap_field_read_poll_timeout(cdns_phy->phy_pma_cmn_ctrl_2,
read_val,
(read_val & 0x01) != 0,
0, POLL_TIMEOUT_US);
return ret;
}
/*
* Verify, that parameters to configure PHY with are correct.
*/
static int cdns_torrent_dp_verify_config(struct cdns_torrent_inst *inst,
struct phy_configure_opts_dp *dp)
{
u8 i;
/* If changing link rate was required, verify it's supported. */
if (dp->set_rate) {
switch (dp->link_rate) {
case 1620:
case 2160:
case 2430:
case 2700:
case 3240:
case 4320:
case 5400:
case 8100:
/* valid bit rate */
break;
default:
return -EINVAL;
}
}
/* Verify lane count. */
switch (dp->lanes) {
case 1:
case 2:
case 4:
/* valid lane count. */
break;
default:
return -EINVAL;
}
/* Check against actual number of PHY's lanes. */
if (dp->lanes > inst->num_lanes)
return -EINVAL;
/*
* If changing voltages is required, check swing and pre-emphasis
* levels, per-lane.
*/
if (dp->set_voltages) {
/* Lane count verified previously. */
for (i = 0; i < dp->lanes; i++) {
if (dp->voltage[i] > 3 || dp->pre[i] > 3)
return -EINVAL;
/* Sum of voltage swing and pre-emphasis levels cannot
* exceed 3.
*/
if (dp->voltage[i] + dp->pre[i] > 3)
return -EINVAL;
}
}
return 0;
}
/* Set power state A0 and PLL clock enable to 0 on enabled lanes. */
static void cdns_torrent_dp_set_a0_pll(struct cdns_torrent_phy *cdns_phy,
u32 num_lanes)
{
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
u32 pwr_state = cdns_torrent_dp_read(regmap,
PHY_PMA_XCVR_POWER_STATE_REQ);
u32 pll_clk_en = cdns_torrent_dp_read(regmap,
PHY_PMA_XCVR_PLLCLK_EN);
/* Lane 0 is always enabled. */
pwr_state &= ~(PMA_XCVR_POWER_STATE_REQ_LN_MASK <<
PHY_POWER_STATE_LN_0);
pll_clk_en &= ~0x01U;
if (num_lanes > 1) {
/* lane 1 */
pwr_state &= ~(PMA_XCVR_POWER_STATE_REQ_LN_MASK <<
PHY_POWER_STATE_LN_1);
pll_clk_en &= ~(0x01U << 1);
}
if (num_lanes > 2) {
/* lanes 2 and 3 */
pwr_state &= ~(PMA_XCVR_POWER_STATE_REQ_LN_MASK <<
PHY_POWER_STATE_LN_2);
pwr_state &= ~(PMA_XCVR_POWER_STATE_REQ_LN_MASK <<
PHY_POWER_STATE_LN_3);
pll_clk_en &= ~(0x01U << 2);
pll_clk_en &= ~(0x01U << 3);
}
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_POWER_STATE_REQ, pwr_state);
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_PLLCLK_EN, pll_clk_en);
}
/* Configure lane count as required. */
static int cdns_torrent_dp_set_lanes(struct cdns_torrent_phy *cdns_phy,
struct phy_configure_opts_dp *dp)
{
u32 value;
u32 ret;
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
u8 lane_mask = (1 << dp->lanes) - 1;
value = cdns_torrent_dp_read(regmap, PHY_RESET);
/* clear pma_tx_elec_idle_ln_* bits. */
value &= ~PMA_TX_ELEC_IDLE_MASK;
/* Assert pma_tx_elec_idle_ln_* for disabled lanes. */
value |= ((~lane_mask) << PMA_TX_ELEC_IDLE_SHIFT) &
PMA_TX_ELEC_IDLE_MASK;
cdns_torrent_dp_write(regmap, PHY_RESET, value);
/* reset the link by asserting phy_l00_reset_n low */
cdns_torrent_dp_write(regmap, PHY_RESET,
value & (~PHY_L00_RESET_N_MASK));
/*
* Assert lane reset on unused lanes and lane 0 so they remain in reset
* and powered down when re-enabling the link
*/
value = (value & 0x0000FFF0) | (0x0000000E & lane_mask);
cdns_torrent_dp_write(regmap, PHY_RESET, value);
cdns_torrent_dp_set_a0_pll(cdns_phy, dp->lanes);
/* release phy_l0*_reset_n based on used laneCount */
value = (value & 0x0000FFF0) | (0x0000000F & lane_mask);
cdns_torrent_dp_write(regmap, PHY_RESET, value);
/* Wait, until PHY gets ready after releasing PHY reset signal. */
ret = cdns_torrent_dp_wait_pma_cmn_ready(cdns_phy);
if (ret)
return ret;
ndelay(100);
/* release pma_xcvr_pllclk_en_ln_*, only for the master lane */
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_PLLCLK_EN, 0x0001);
ret = cdns_torrent_dp_run(cdns_phy, dp->lanes);
return ret;
}
/* Configure link rate as required. */
static int cdns_torrent_dp_set_rate(struct cdns_torrent_phy *cdns_phy,
struct phy_configure_opts_dp *dp)
{
u32 ret;
ret = cdns_torrent_dp_set_power_state(cdns_phy, dp->lanes,
POWERSTATE_A3);
if (ret)
return ret;
ret = cdns_torrent_dp_set_pll_en(cdns_phy, dp, false);
if (ret)
return ret;
ndelay(200);
ret = cdns_torrent_dp_configure_rate(cdns_phy, dp);
if (ret)
return ret;
ndelay(200);
ret = cdns_torrent_dp_set_pll_en(cdns_phy, dp, true);
if (ret)
return ret;
ret = cdns_torrent_dp_set_power_state(cdns_phy, dp->lanes,
POWERSTATE_A2);
if (ret)
return ret;
ret = cdns_torrent_dp_set_power_state(cdns_phy, dp->lanes,
POWERSTATE_A0);
if (ret)
return ret;
ndelay(900);
return ret;
}
/* Configure voltage swing and pre-emphasis for all enabled lanes. */
static void cdns_torrent_dp_set_voltages(struct cdns_torrent_phy *cdns_phy,
struct phy_configure_opts_dp *dp)
{
u8 lane;
u16 val;
for (lane = 0; lane < dp->lanes; lane++) {
val = cdns_torrent_phy_read(cdns_phy->regmap_tx_lane_cdb[lane],
TX_DIAG_ACYA);
/*
* Write 1 to register bit TX_DIAG_ACYA[0] to freeze the
* current state of the analog TX driver.
*/
val |= TX_DIAG_ACYA_HBDC_MASK;
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_DIAG_ACYA, val);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_TXCC_CTRL, 0x08A4);
val = vltg_coeff[dp->voltage[lane]][dp->pre[lane]].diag_tx_drv;
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
DRV_DIAG_TX_DRV, val);
val = vltg_coeff[dp->voltage[lane]][dp->pre[lane]].mgnfs_mult;
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_TXCC_MGNFS_MULT_000,
val);
val = vltg_coeff[dp->voltage[lane]][dp->pre[lane]].cpost_mult;
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_TXCC_CPOST_MULT_00,
val);
val = cdns_torrent_phy_read(cdns_phy->regmap_tx_lane_cdb[lane],
TX_DIAG_ACYA);
/*
* Write 0 to register bit TX_DIAG_ACYA[0] to allow the state of
* analog TX driver to reflect the new programmed one.
*/
val &= ~TX_DIAG_ACYA_HBDC_MASK;
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_DIAG_ACYA, val);
}
};
static int cdns_torrent_dp_configure(struct phy *phy,
union phy_configure_opts *opts)
{
struct cdns_torrent_inst *inst = phy_get_drvdata(phy);
struct cdns_torrent_phy *cdns_phy = dev_get_drvdata(phy->dev.parent);
int ret;
ret = cdns_torrent_dp_verify_config(inst, &opts->dp);
if (ret) {
dev_err(&phy->dev, "invalid params for phy configure\n");
return ret;
}
if (opts->dp.set_lanes) {
ret = cdns_torrent_dp_set_lanes(cdns_phy, &opts->dp);
if (ret) {
dev_err(&phy->dev, "cdns_torrent_dp_set_lanes failed\n");
return ret;
}
}
if (opts->dp.set_rate) {
ret = cdns_torrent_dp_set_rate(cdns_phy, &opts->dp);
if (ret) {
dev_err(&phy->dev, "cdns_torrent_dp_set_rate failed\n");
return ret;
}
}
if (opts->dp.set_voltages)
cdns_torrent_dp_set_voltages(cdns_phy, &opts->dp);
return ret;
}
static int cdns_torrent_dp_init(struct phy *phy)
{
unsigned char lane_bits;
int ret;
struct cdns_torrent_inst *inst = phy_get_drvdata(phy);
struct cdns_torrent_phy *cdns_phy = dev_get_drvdata(phy->dev.parent);
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
switch (cdns_phy->ref_clk_rate) {
case REF_CLK_19_2MHz:
case REF_CLK_25MHz:
/* Valid Ref Clock Rate */
break;
default:
dev_err(cdns_phy->dev, "Unsupported Ref Clock Rate\n");
return -EINVAL;
}
cdns_torrent_dp_write(regmap, PHY_AUX_CTRL, 0x0003); /* enable AUX */
/* PHY PMA registers configuration function */
cdns_torrent_dp_pma_cfg(cdns_phy, inst);
/*
* Set lines power state to A0
* Set lines pll clk enable to 0
*/
cdns_torrent_dp_set_a0_pll(cdns_phy, inst->num_lanes);
/*
* release phy_l0*_reset_n and pma_tx_elec_idle_ln_* based on
* used lanes
*/
lane_bits = (1 << inst->num_lanes) - 1;
cdns_torrent_dp_write(regmap, PHY_RESET,
((0xF & ~lane_bits) << 4) | (0xF & lane_bits));
/* release pma_xcvr_pllclk_en_ln_*, only for the master lane */
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_PLLCLK_EN, 0x0001);
/* PHY PMA registers configuration functions */
/* Initialize PHY with max supported link rate, without SSC. */
if (cdns_phy->ref_clk_rate == REF_CLK_19_2MHz)
cdns_torrent_dp_pma_cmn_vco_cfg_19_2mhz(cdns_phy,
cdns_phy->max_bit_rate,
false);
else if (cdns_phy->ref_clk_rate == REF_CLK_25MHz)
cdns_torrent_dp_pma_cmn_vco_cfg_25mhz(cdns_phy,
cdns_phy->max_bit_rate,
false);
cdns_torrent_dp_pma_cmn_rate(cdns_phy, cdns_phy->max_bit_rate,
inst->num_lanes);
/* take out of reset */
regmap_field_write(cdns_phy->phy_reset_ctrl, 0x1);
cdns_torrent_phy_on(phy);
ret = cdns_torrent_dp_wait_pma_cmn_ready(cdns_phy);
if (ret)
return ret;
ret = cdns_torrent_dp_run(cdns_phy, inst->num_lanes);
return ret;
}
static
int cdns_torrent_dp_wait_pma_cmn_ready(struct cdns_torrent_phy *cdns_phy)
{
unsigned int reg;
int ret;
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
ret = regmap_read_poll_timeout(regmap, PHY_PMA_CMN_READY, reg,
reg & 1, 0, POLL_TIMEOUT_US);
if (ret == -ETIMEDOUT) {
dev_err(cdns_phy->dev,
"timeout waiting for PMA common ready\n");
return -ETIMEDOUT;
}
return 0;
}
static void cdns_torrent_dp_pma_cfg(struct cdns_torrent_phy *cdns_phy,
struct cdns_torrent_inst *inst)
{
unsigned int i;
if (cdns_phy->ref_clk_rate == REF_CLK_19_2MHz)
/* PMA common configuration 19.2MHz */
cdns_torrent_dp_pma_cmn_cfg_19_2mhz(cdns_phy);
else if (cdns_phy->ref_clk_rate == REF_CLK_25MHz)
/* PMA common configuration 25MHz */
cdns_torrent_dp_pma_cmn_cfg_25mhz(cdns_phy);
/* PMA lane configuration to deal with multi-link operation */
for (i = 0; i < inst->num_lanes; i++)
cdns_torrent_dp_pma_lane_cfg(cdns_phy, i);
}
static
void cdns_torrent_dp_pma_cmn_cfg_19_2mhz(struct cdns_torrent_phy *cdns_phy)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
/* refclock registers - assumes 19.2 MHz refclock */
cdns_torrent_phy_write(regmap, CMN_SSM_BIAS_TMR, 0x0014);
cdns_torrent_phy_write(regmap, CMN_PLLSM0_PLLPRE_TMR, 0x0027);
cdns_torrent_phy_write(regmap, CMN_PLLSM0_PLLLOCK_TMR, 0x00A1);
cdns_torrent_phy_write(regmap, CMN_PLLSM1_PLLPRE_TMR, 0x0027);
cdns_torrent_phy_write(regmap, CMN_PLLSM1_PLLLOCK_TMR, 0x00A1);
cdns_torrent_phy_write(regmap, CMN_BGCAL_INIT_TMR, 0x0060);
cdns_torrent_phy_write(regmap, CMN_BGCAL_ITER_TMR, 0x0060);
cdns_torrent_phy_write(regmap, CMN_IBCAL_INIT_TMR, 0x0014);
cdns_torrent_phy_write(regmap, CMN_TXPUCAL_INIT_TMR, 0x0018);
cdns_torrent_phy_write(regmap, CMN_TXPUCAL_ITER_TMR, 0x0005);
cdns_torrent_phy_write(regmap, CMN_TXPDCAL_INIT_TMR, 0x0018);
cdns_torrent_phy_write(regmap, CMN_TXPDCAL_ITER_TMR, 0x0005);
cdns_torrent_phy_write(regmap, CMN_RXCAL_INIT_TMR, 0x0240);
cdns_torrent_phy_write(regmap, CMN_RXCAL_ITER_TMR, 0x0005);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_INIT_TMR, 0x0002);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_ITER_TMR, 0x0002);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_REFTIM_START, 0x000B);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_PLLCNT_START, 0x0137);
/* PLL registers */
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_CP_PADJ_M0, 0x0509);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_CP_IADJ_M0, 0x0F00);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_FILT_PADJ_M0, 0x0F08);
cdns_torrent_phy_write(regmap, CMN_PLL0_DSM_DIAG_M0, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_CP_PADJ_M0, 0x0509);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_CP_IADJ_M0, 0x0F00);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_FILT_PADJ_M0, 0x0F08);
cdns_torrent_phy_write(regmap, CMN_PLL1_DSM_DIAG_M0, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_INIT_TMR, 0x00C0);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_ITER_TMR, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_INIT_TMR, 0x00C0);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_ITER_TMR, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_REFTIM_START, 0x0260);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_TCTRL, 0x0003);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_REFTIM_START, 0x0260);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_TCTRL, 0x0003);
}
/*
* Set registers responsible for enabling and configuring SSC, with second and
* third register values provided by parameters.
*/
static
void cdns_torrent_dp_enable_ssc_19_2mhz(struct cdns_torrent_phy *cdns_phy,
u32 ctrl2_val, u32 ctrl3_val)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, 0x0001);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, ctrl2_val);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, ctrl3_val);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL4_M0, 0x0003);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, 0x0001);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, ctrl2_val);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, ctrl3_val);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL4_M0, 0x0003);
}
static
void cdns_torrent_dp_pma_cmn_vco_cfg_19_2mhz(struct cdns_torrent_phy *cdns_phy,
u32 rate, bool ssc)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
/* Assumes 19.2 MHz refclock */
switch (rate) {
/* Setting VCO for 10.8GHz */
case 2700:
case 5400:
cdns_torrent_phy_write(regmap,
CMN_PLL0_INTDIV_M0, 0x0119);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVL_M0, 0x4000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL0_HIGH_THR_M0, 0x00BC);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL0_CTRL_M0, 0x0012);
cdns_torrent_phy_write(regmap,
CMN_PLL1_INTDIV_M0, 0x0119);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVL_M0, 0x4000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_HIGH_THR_M0, 0x00BC);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL1_CTRL_M0, 0x0012);
if (ssc)
cdns_torrent_dp_enable_ssc_19_2mhz(cdns_phy, 0x033A,
0x006A);
break;
/* Setting VCO for 9.72GHz */
case 1620:
case 2430:
case 3240:
cdns_torrent_phy_write(regmap,
CMN_PLL0_INTDIV_M0, 0x01FA);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVL_M0, 0x4000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL0_HIGH_THR_M0, 0x0152);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL0_CTRL_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_INTDIV_M0, 0x01FA);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVL_M0, 0x4000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_HIGH_THR_M0, 0x0152);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL1_CTRL_M0, 0x0002);
if (ssc)
cdns_torrent_dp_enable_ssc_19_2mhz(cdns_phy, 0x05DD,
0x0069);
break;
/* Setting VCO for 8.64GHz */
case 2160:
case 4320:
cdns_torrent_phy_write(regmap,
CMN_PLL0_INTDIV_M0, 0x01C2);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL0_HIGH_THR_M0, 0x012C);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL0_CTRL_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_INTDIV_M0, 0x01C2);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_HIGH_THR_M0, 0x012C);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL1_CTRL_M0, 0x0002);
if (ssc)
cdns_torrent_dp_enable_ssc_19_2mhz(cdns_phy, 0x0536,
0x0069);
break;
/* Setting VCO for 8.1GHz */
case 8100:
cdns_torrent_phy_write(regmap,
CMN_PLL0_INTDIV_M0, 0x01A5);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVL_M0, 0xE000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL0_HIGH_THR_M0, 0x011A);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL0_CTRL_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_INTDIV_M0, 0x01A5);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVL_M0, 0xE000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_HIGH_THR_M0, 0x011A);
cdns_torrent_phy_write(regmap,
CMN_PDIAG_PLL1_CTRL_M0, 0x0002);
if (ssc)
cdns_torrent_dp_enable_ssc_19_2mhz(cdns_phy, 0x04D7,
0x006A);
break;
}
if (ssc) {
cdns_torrent_phy_write(regmap,
CMN_PLL0_VCOCAL_PLLCNT_START, 0x025E);
cdns_torrent_phy_write(regmap,
CMN_PLL0_LOCK_PLLCNT_THR, 0x0005);
cdns_torrent_phy_write(regmap,
CMN_PLL1_VCOCAL_PLLCNT_START, 0x025E);
cdns_torrent_phy_write(regmap,
CMN_PLL1_LOCK_PLLCNT_THR, 0x0005);
} else {
cdns_torrent_phy_write(regmap,
CMN_PLL0_VCOCAL_PLLCNT_START, 0x0260);
cdns_torrent_phy_write(regmap,
CMN_PLL1_VCOCAL_PLLCNT_START, 0x0260);
/* Set reset register values to disable SSC */
cdns_torrent_phy_write(regmap,
CMN_PLL0_SS_CTRL1_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL0_SS_CTRL2_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_SS_CTRL3_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_SS_CTRL4_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_LOCK_PLLCNT_THR, 0x0003);
cdns_torrent_phy_write(regmap,
CMN_PLL1_SS_CTRL1_M0, 0x0002);
cdns_torrent_phy_write(regmap,
CMN_PLL1_SS_CTRL2_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_SS_CTRL3_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_SS_CTRL4_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_LOCK_PLLCNT_THR, 0x0003);
}
cdns_torrent_phy_write(regmap, CMN_PLL0_LOCK_REFCNT_START, 0x0099);
cdns_torrent_phy_write(regmap, CMN_PLL0_LOCK_PLLCNT_START, 0x0099);
cdns_torrent_phy_write(regmap, CMN_PLL1_LOCK_REFCNT_START, 0x0099);
cdns_torrent_phy_write(regmap, CMN_PLL1_LOCK_PLLCNT_START, 0x0099);
}
static
void cdns_torrent_dp_pma_cmn_cfg_25mhz(struct cdns_torrent_phy *cdns_phy)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
/* refclock registers - assumes 25 MHz refclock */
cdns_torrent_phy_write(regmap, CMN_SSM_BIAS_TMR, 0x0019);
cdns_torrent_phy_write(regmap, CMN_PLLSM0_PLLPRE_TMR, 0x0032);
cdns_torrent_phy_write(regmap, CMN_PLLSM0_PLLLOCK_TMR, 0x00D1);
cdns_torrent_phy_write(regmap, CMN_PLLSM1_PLLPRE_TMR, 0x0032);
cdns_torrent_phy_write(regmap, CMN_PLLSM1_PLLLOCK_TMR, 0x00D1);
cdns_torrent_phy_write(regmap, CMN_BGCAL_INIT_TMR, 0x007D);
cdns_torrent_phy_write(regmap, CMN_BGCAL_ITER_TMR, 0x007D);
cdns_torrent_phy_write(regmap, CMN_IBCAL_INIT_TMR, 0x0019);
cdns_torrent_phy_write(regmap, CMN_TXPUCAL_INIT_TMR, 0x001E);
cdns_torrent_phy_write(regmap, CMN_TXPUCAL_ITER_TMR, 0x0006);
cdns_torrent_phy_write(regmap, CMN_TXPDCAL_INIT_TMR, 0x001E);
cdns_torrent_phy_write(regmap, CMN_TXPDCAL_ITER_TMR, 0x0006);
cdns_torrent_phy_write(regmap, CMN_RXCAL_INIT_TMR, 0x02EE);
cdns_torrent_phy_write(regmap, CMN_RXCAL_ITER_TMR, 0x0006);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_INIT_TMR, 0x0002);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_ITER_TMR, 0x0002);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_REFTIM_START, 0x000E);
cdns_torrent_phy_write(regmap, CMN_SD_CAL_PLLCNT_START, 0x012B);
/* PLL registers */
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_CP_PADJ_M0, 0x0509);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_CP_IADJ_M0, 0x0F00);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_FILT_PADJ_M0, 0x0F08);
cdns_torrent_phy_write(regmap, CMN_PLL0_DSM_DIAG_M0, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_CP_PADJ_M0, 0x0509);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_CP_IADJ_M0, 0x0F00);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_FILT_PADJ_M0, 0x0F08);
cdns_torrent_phy_write(regmap, CMN_PLL1_DSM_DIAG_M0, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_INIT_TMR, 0x00FA);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_ITER_TMR, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_INIT_TMR, 0x00FA);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_ITER_TMR, 0x0004);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_REFTIM_START, 0x0317);
cdns_torrent_phy_write(regmap, CMN_PLL0_VCOCAL_TCTRL, 0x0003);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_REFTIM_START, 0x0317);
cdns_torrent_phy_write(regmap, CMN_PLL1_VCOCAL_TCTRL, 0x0003);
}
/*
* Set registers responsible for enabling and configuring SSC, with second
* register value provided by a parameter.
*/
static void cdns_torrent_dp_enable_ssc_25mhz(struct cdns_torrent_phy *cdns_phy,
u32 ctrl2_val)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, 0x0001);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, ctrl2_val);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, 0x007F);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL4_M0, 0x0003);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, 0x0001);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, ctrl2_val);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, 0x007F);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL4_M0, 0x0003);
}
static
void cdns_torrent_dp_pma_cmn_vco_cfg_25mhz(struct cdns_torrent_phy *cdns_phy,
u32 rate, bool ssc)
{
struct regmap *regmap = cdns_phy->regmap_common_cdb;
/* Assumes 25 MHz refclock */
switch (rate) {
/* Setting VCO for 10.8GHz */
case 2700:
case 5400:
cdns_torrent_phy_write(regmap, CMN_PLL0_INTDIV_M0, 0x01B0);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL0_HIGH_THR_M0, 0x0120);
cdns_torrent_phy_write(regmap, CMN_PLL1_INTDIV_M0, 0x01B0);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL1_HIGH_THR_M0, 0x0120);
if (ssc)
cdns_torrent_dp_enable_ssc_25mhz(cdns_phy, 0x0423);
break;
/* Setting VCO for 9.72GHz */
case 1620:
case 2430:
case 3240:
cdns_torrent_phy_write(regmap, CMN_PLL0_INTDIV_M0, 0x0184);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVL_M0, 0xCCCD);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL0_HIGH_THR_M0, 0x0104);
cdns_torrent_phy_write(regmap, CMN_PLL1_INTDIV_M0, 0x0184);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVL_M0, 0xCCCD);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL1_HIGH_THR_M0, 0x0104);
if (ssc)
cdns_torrent_dp_enable_ssc_25mhz(cdns_phy, 0x03B9);
break;
/* Setting VCO for 8.64GHz */
case 2160:
case 4320:
cdns_torrent_phy_write(regmap, CMN_PLL0_INTDIV_M0, 0x0159);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVL_M0, 0x999A);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL0_HIGH_THR_M0, 0x00E7);
cdns_torrent_phy_write(regmap, CMN_PLL1_INTDIV_M0, 0x0159);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVL_M0, 0x999A);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL1_HIGH_THR_M0, 0x00E7);
if (ssc)
cdns_torrent_dp_enable_ssc_25mhz(cdns_phy, 0x034F);
break;
/* Setting VCO for 8.1GHz */
case 8100:
cdns_torrent_phy_write(regmap, CMN_PLL0_INTDIV_M0, 0x0144);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL0_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL0_HIGH_THR_M0, 0x00D8);
cdns_torrent_phy_write(regmap, CMN_PLL1_INTDIV_M0, 0x0144);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVL_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL1_FRACDIVH_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL1_HIGH_THR_M0, 0x00D8);
if (ssc)
cdns_torrent_dp_enable_ssc_25mhz(cdns_phy, 0x031A);
break;
}
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL0_CTRL_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PDIAG_PLL1_CTRL_M0, 0x0002);
if (ssc) {
cdns_torrent_phy_write(regmap,
CMN_PLL0_VCOCAL_PLLCNT_START, 0x0315);
cdns_torrent_phy_write(regmap,
CMN_PLL0_LOCK_PLLCNT_THR, 0x0005);
cdns_torrent_phy_write(regmap,
CMN_PLL1_VCOCAL_PLLCNT_START, 0x0315);
cdns_torrent_phy_write(regmap,
CMN_PLL1_LOCK_PLLCNT_THR, 0x0005);
} else {
cdns_torrent_phy_write(regmap,
CMN_PLL0_VCOCAL_PLLCNT_START, 0x0317);
cdns_torrent_phy_write(regmap,
CMN_PLL1_VCOCAL_PLLCNT_START, 0x0317);
/* Set reset register values to disable SSC */
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL1_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL2_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL3_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL0_SS_CTRL4_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL0_LOCK_PLLCNT_THR, 0x0003);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL1_M0, 0x0002);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL2_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL3_M0, 0x0000);
cdns_torrent_phy_write(regmap, CMN_PLL1_SS_CTRL4_M0, 0x0000);
cdns_torrent_phy_write(regmap,
CMN_PLL1_LOCK_PLLCNT_THR, 0x0003);
}
cdns_torrent_phy_write(regmap, CMN_PLL0_LOCK_REFCNT_START, 0x00C7);
cdns_torrent_phy_write(regmap, CMN_PLL0_LOCK_PLLCNT_START, 0x00C7);
cdns_torrent_phy_write(regmap, CMN_PLL1_LOCK_REFCNT_START, 0x00C7);
cdns_torrent_phy_write(regmap, CMN_PLL1_LOCK_PLLCNT_START, 0x00C7);
}
static void cdns_torrent_dp_pma_cmn_rate(struct cdns_torrent_phy *cdns_phy,
u32 rate, u32 num_lanes)
{
unsigned int clk_sel_val = 0;
unsigned int hsclk_div_val = 0;
unsigned int i;
/* 16'h0000 for single DP link configuration */
regmap_field_write(cdns_phy->phy_pll_cfg, 0x0);
switch (rate) {
case 1620:
clk_sel_val = 0x0f01;
hsclk_div_val = 2;
break;
case 2160:
case 2430:
case 2700:
clk_sel_val = 0x0701;
hsclk_div_val = 1;
break;
case 3240:
clk_sel_val = 0x0b00;
hsclk_div_val = 2;
break;
case 4320:
case 5400:
clk_sel_val = 0x0301;
hsclk_div_val = 0;
break;
case 8100:
clk_sel_val = 0x0200;
hsclk_div_val = 0;
break;
}
cdns_torrent_phy_write(cdns_phy->regmap_common_cdb,
CMN_PDIAG_PLL0_CLK_SEL_M0, clk_sel_val);
cdns_torrent_phy_write(cdns_phy->regmap_common_cdb,
CMN_PDIAG_PLL1_CLK_SEL_M0, clk_sel_val);
/* PMA lane configuration to deal with multi-link operation */
for (i = 0; i < num_lanes; i++)
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[i],
XCVR_DIAG_HSCLK_DIV, hsclk_div_val);
}
static void cdns_torrent_dp_pma_lane_cfg(struct cdns_torrent_phy *cdns_phy,
unsigned int lane)
{
/* Per lane, refclock-dependent receiver detection setting */
if (cdns_phy->ref_clk_rate == REF_CLK_19_2MHz)
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_RCVDET_ST_TMR, 0x0780);
else if (cdns_phy->ref_clk_rate == REF_CLK_25MHz)
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_RCVDET_ST_TMR, 0x09C4);
/* Writing Tx/Rx Power State Controllers registers */
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_PSC_A0, 0x00FB);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_PSC_A2, 0x04AA);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
TX_PSC_A3, 0x04AA);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_PSC_A0, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_PSC_A2, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_PSC_A3, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_PSC_CAL, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_REE_GCSM1_CTRL, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_REE_GCSM2_CTRL, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_rx_lane_cdb[lane],
RX_REE_PERGCSM_CTRL, 0x0000);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
XCVR_DIAG_BIDI_CTRL, 0x000F);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
XCVR_DIAG_PLLDRC_CTRL, 0x0001);
cdns_torrent_phy_write(cdns_phy->regmap_tx_lane_cdb[lane],
XCVR_DIAG_HSCLK_SEL, 0x0000);
}
static int cdns_torrent_dp_set_power_state(struct cdns_torrent_phy *cdns_phy,
u32 num_lanes,
enum phy_powerstate powerstate)
{
/* Register value for power state for a single byte. */
u32 value_part;
u32 value;
u32 mask;
u32 read_val;
u32 ret;
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
switch (powerstate) {
case (POWERSTATE_A0):
value_part = 0x01U;
break;
case (POWERSTATE_A2):
value_part = 0x04U;
break;
default:
/* Powerstate A3 */
value_part = 0x08U;
break;
}
/* Select values of registers and mask, depending on enabled
* lane count.
*/
switch (num_lanes) {
/* lane 0 */
case (1):
value = value_part;
mask = 0x0000003FU;
break;
/* lanes 0-1 */
case (2):
value = (value_part
| (value_part << 8));
mask = 0x00003F3FU;
break;
/* lanes 0-3, all */
default:
value = (value_part
| (value_part << 8)
| (value_part << 16)
| (value_part << 24));
mask = 0x3F3F3F3FU;
break;
}
/* Set power state A<n>. */
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_POWER_STATE_REQ, value);
/* Wait, until PHY acknowledges power state completion. */
ret = regmap_read_poll_timeout(regmap, PHY_PMA_XCVR_POWER_STATE_ACK,
read_val, (read_val & mask) == value, 0,
POLL_TIMEOUT_US);
cdns_torrent_dp_write(regmap, PHY_PMA_XCVR_POWER_STATE_REQ, 0x00000000);
ndelay(100);
return ret;
}
static int cdns_torrent_dp_run(struct cdns_torrent_phy *cdns_phy, u32 num_lanes)
{
unsigned int read_val;
int ret;
struct regmap *regmap = cdns_phy->regmap_dptx_phy_reg;
/*
* waiting for ACK of pma_xcvr_pllclk_en_ln_*, only for the
* master lane
*/
ret = regmap_read_poll_timeout(regmap, PHY_PMA_XCVR_PLLCLK_EN_ACK,
read_val, read_val & 1,
0, POLL_TIMEOUT_US);
if (ret == -ETIMEDOUT) {
dev_err(cdns_phy->dev,
"timeout waiting for link PLL clock enable ack\n");
return ret;
}
ndelay(100);
ret = cdns_torrent_dp_set_power_state(cdns_phy, num_lanes,
POWERSTATE_A2);
if (ret)
return ret;
ret = cdns_torrent_dp_set_power_state(cdns_phy, num_lanes,
POWERSTATE_A0);
return ret;
}
static int cdns_torrent_phy_on(struct phy *phy)
{
struct cdns_torrent_inst *inst = phy_get_drvdata(phy);
struct cdns_torrent_phy *cdns_phy = dev_get_drvdata(phy->dev.parent);
u32 read_val;
int ret;
if (cdns_phy->nsubnodes == 1) {
/* Take the PHY lane group out of reset */
reset_control_deassert(inst->lnk_rst);
/* Take the PHY out of reset */
ret = reset_control_deassert(cdns_phy->phy_rst);
if (ret)
return ret;
}
/*
* Wait for cmn_ready assertion
* PHY_PMA_CMN_CTRL1[0] == 1
*/
ret = regmap_field_read_poll_timeout(cdns_phy->phy_pma_cmn_ctrl_1,
read_val, read_val, 1000,
PLL_LOCK_TIMEOUT);
if (ret) {
dev_err(cdns_phy->dev, "Timeout waiting for CMN ready\n");
return ret;
}
mdelay(10);
return 0;
}
static int cdns_torrent_phy_off(struct phy *phy)
{
struct cdns_torrent_inst *inst = phy_get_drvdata(phy);
struct cdns_torrent_phy *cdns_phy = dev_get_drvdata(phy->dev.parent);
int ret;
if (cdns_phy->nsubnodes != 1)
return 0;
ret = reset_control_assert(cdns_phy->phy_rst);
if (ret)
return ret;
return reset_control_assert(inst->lnk_rst);
}
static struct regmap *cdns_regmap_init(struct device *dev, void __iomem *base,
u32 block_offset,
u8 reg_offset_shift,
const struct regmap_config *config)
{
struct cdns_regmap_cdb_context *ctx;
ctx = devm_kzalloc(dev, sizeof(*ctx), GFP_KERNEL);
if (!ctx)
return ERR_PTR(-ENOMEM);
ctx->dev = dev;
ctx->base = base + block_offset;
ctx->reg_offset_shift = reg_offset_shift;
return devm_regmap_init(dev, NULL, ctx, config);
}
static int cdns_torrent_dp_regfield_init(struct cdns_torrent_phy *cdns_phy)
{
struct device *dev = cdns_phy->dev;
struct regmap_field *field;
struct regmap *regmap;
regmap = cdns_phy->regmap_dptx_phy_reg;
field = devm_regmap_field_alloc(dev, regmap, phy_reset_ctrl);
if (IS_ERR(field)) {
dev_err(dev, "PHY_RESET reg field init failed\n");
return PTR_ERR(field);
}
cdns_phy->phy_reset_ctrl = field;
return 0;
}
static int cdns_torrent_regfield_init(struct cdns_torrent_phy *cdns_phy)
{
struct device *dev = cdns_phy->dev;
struct regmap_field *field;
struct regmap *regmap;
regmap = cdns_phy->regmap_phy_pcs_common_cdb;
field = devm_regmap_field_alloc(dev, regmap, phy_pll_cfg);
if (IS_ERR(field)) {
dev_err(dev, "PHY_PLL_CFG reg field init failed\n");
return PTR_ERR(field);
}
cdns_phy->phy_pll_cfg = field;
regmap = cdns_phy->regmap_phy_pma_common_cdb;
field = devm_regmap_field_alloc(dev, regmap, phy_pma_cmn_ctrl_1);
if (IS_ERR(field)) {
dev_err(dev, "PHY_PMA_CMN_CTRL1 reg field init failed\n");
return PTR_ERR(field);
}
cdns_phy->phy_pma_cmn_ctrl_1 = field;
regmap = cdns_phy->regmap_phy_pma_common_cdb;
field = devm_regmap_field_alloc(dev, regmap, phy_pma_cmn_ctrl_2);
if (IS_ERR(field)) {
dev_err(dev, "PHY_PMA_CMN_CTRL2 reg field init failed\n");
return PTR_ERR(field);
}
cdns_phy->phy_pma_cmn_ctrl_2 = field;
regmap = cdns_phy->regmap_phy_pma_common_cdb;
field = devm_regmap_field_alloc(dev, regmap, phy_pma_pll_raw_ctrl);
if (IS_ERR(field)) {
dev_err(dev, "PHY_PMA_PLL_RAW_CTRL reg field init failed\n");
return PTR_ERR(field);
}
cdns_phy->phy_pma_pll_raw_ctrl = field;
return 0;
}
static int cdns_torrent_dp_regmap_init(struct cdns_torrent_phy *cdns_phy)
{
void __iomem *base = cdns_phy->base;
struct device *dev = cdns_phy->dev;
struct regmap *regmap;
u8 reg_offset_shift;
u32 block_offset;
reg_offset_shift = cdns_phy->init_data->reg_offset_shift;
block_offset = TORRENT_DPTX_PHY_OFFSET;
regmap = cdns_regmap_init(dev, base, block_offset,
reg_offset_shift,
&cdns_torrent_dptx_phy_config);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init DPTX PHY regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_dptx_phy_reg = regmap;
return 0;
}
static int cdns_torrent_regmap_init(struct cdns_torrent_phy *cdns_phy)
{
void __iomem *sd_base = cdns_phy->sd_base;
u8 block_offset_shift, reg_offset_shift;
struct device *dev = cdns_phy->dev;
struct regmap *regmap;
u32 block_offset;
int i;
block_offset_shift = cdns_phy->init_data->block_offset_shift;
reg_offset_shift = cdns_phy->init_data->reg_offset_shift;
for (i = 0; i < MAX_NUM_LANES; i++) {
block_offset = TORRENT_TX_LANE_CDB_OFFSET(i, block_offset_shift,
reg_offset_shift);
regmap = cdns_regmap_init(dev, sd_base, block_offset,
reg_offset_shift,
&cdns_torrent_tx_lane_cdb_config[i]);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init tx lane CDB regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_tx_lane_cdb[i] = regmap;
block_offset = TORRENT_RX_LANE_CDB_OFFSET(i, block_offset_shift,
reg_offset_shift);
regmap = cdns_regmap_init(dev, sd_base, block_offset,
reg_offset_shift,
&cdns_torrent_rx_lane_cdb_config[i]);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init rx lane CDB regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_rx_lane_cdb[i] = regmap;
}
block_offset = TORRENT_COMMON_CDB_OFFSET;
regmap = cdns_regmap_init(dev, sd_base, block_offset,
reg_offset_shift,
&cdns_torrent_common_cdb_config);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init common CDB regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_common_cdb = regmap;
block_offset = TORRENT_PHY_PCS_COMMON_OFFSET(block_offset_shift);
regmap = cdns_regmap_init(dev, sd_base, block_offset,
reg_offset_shift,
&cdns_torrent_phy_pcs_cmn_cdb_config);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init PHY PCS common CDB regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_phy_pcs_common_cdb = regmap;
block_offset = TORRENT_PHY_PMA_COMMON_OFFSET(block_offset_shift);
regmap = cdns_regmap_init(dev, sd_base, block_offset,
reg_offset_shift,
&cdns_torrent_phy_pma_cmn_cdb_config);
if (IS_ERR(regmap)) {
dev_err(dev, "Failed to init PHY PMA common CDB regmap\n");
return PTR_ERR(regmap);
}
cdns_phy->regmap_phy_pma_common_cdb = regmap;
return 0;
}
static int cdns_torrent_phy_init(struct phy *phy)
{
struct cdns_torrent_phy *cdns_phy = dev_get_drvdata(phy->dev.parent);
const struct cdns_torrent_data *init_data = cdns_phy->init_data;
struct cdns_torrent_vals *cmn_vals, *tx_ln_vals, *rx_ln_vals;
struct cdns_torrent_vals *link_cmn_vals, *xcvr_diag_vals;
struct cdns_torrent_inst *inst = phy_get_drvdata(phy);
enum cdns_torrent_phy_type phy_type = inst->phy_type;
enum cdns_torrent_ssc_mode ssc = inst->ssc_mode;
struct cdns_torrent_vals *pcs_cmn_vals;
struct cdns_reg_pairs *reg_pairs;
struct regmap *regmap;
u32 num_regs;
int i, j;
if (cdns_phy->nsubnodes > 1)
return 0;
if (phy_type == TYPE_DP)
return cdns_torrent_dp_init(phy);
/**
* Spread spectrum generation is not required or supported
* for SGMII/QSGMII
*/
if (phy_type == TYPE_SGMII || phy_type == TYPE_QSGMII)
ssc = NO_SSC;
/* PHY configuration specific registers for single link */
link_cmn_vals = init_data->link_cmn_vals[phy_type][TYPE_NONE][ssc];
if (link_cmn_vals) {
reg_pairs = link_cmn_vals->reg_pairs;
num_regs = link_cmn_vals->num_regs;
regmap = cdns_phy->regmap_common_cdb;
/**
* First array value in link_cmn_vals must be of
* PHY_PLL_CFG register
*/
regmap_field_write(cdns_phy->phy_pll_cfg, reg_pairs[0].val);
for (i = 1; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
xcvr_diag_vals = init_data->xcvr_diag_vals[phy_type][TYPE_NONE][ssc];
if (xcvr_diag_vals) {
reg_pairs = xcvr_diag_vals->reg_pairs;
num_regs = xcvr_diag_vals->num_regs;
for (i = 0; i < inst->num_lanes; i++) {
regmap = cdns_phy->regmap_tx_lane_cdb[i + inst->mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
/* PHY PCS common registers configurations */
pcs_cmn_vals = init_data->pcs_cmn_vals[phy_type][TYPE_NONE][ssc];
if (pcs_cmn_vals) {
reg_pairs = pcs_cmn_vals->reg_pairs;
num_regs = pcs_cmn_vals->num_regs;
regmap = cdns_phy->regmap_phy_pcs_common_cdb;
for (i = 0; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
/* PMA common registers configurations */
cmn_vals = init_data->cmn_vals[phy_type][TYPE_NONE][ssc];
if (cmn_vals) {
reg_pairs = cmn_vals->reg_pairs;
num_regs = cmn_vals->num_regs;
regmap = cdns_phy->regmap_common_cdb;
for (i = 0; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
/* PMA TX lane registers configurations */
tx_ln_vals = init_data->tx_ln_vals[phy_type][TYPE_NONE][ssc];
if (tx_ln_vals) {
reg_pairs = tx_ln_vals->reg_pairs;
num_regs = tx_ln_vals->num_regs;
for (i = 0; i < inst->num_lanes; i++) {
regmap = cdns_phy->regmap_tx_lane_cdb[i + inst->mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
/* PMA RX lane registers configurations */
rx_ln_vals = init_data->rx_ln_vals[phy_type][TYPE_NONE][ssc];
if (rx_ln_vals) {
reg_pairs = rx_ln_vals->reg_pairs;
num_regs = rx_ln_vals->num_regs;
for (i = 0; i < inst->num_lanes; i++) {
regmap = cdns_phy->regmap_rx_lane_cdb[i + inst->mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
return 0;
}
static
int cdns_torrent_phy_configure_multilink(struct cdns_torrent_phy *cdns_phy)
{
const struct cdns_torrent_data *init_data = cdns_phy->init_data;
struct cdns_torrent_vals *cmn_vals, *tx_ln_vals, *rx_ln_vals;
struct cdns_torrent_vals *link_cmn_vals, *xcvr_diag_vals;
enum cdns_torrent_phy_type phy_t1, phy_t2, tmp_phy_type;
struct cdns_torrent_vals *pcs_cmn_vals;
int i, j, node, mlane, num_lanes, ret;
struct cdns_reg_pairs *reg_pairs;
enum cdns_torrent_ssc_mode ssc;
struct regmap *regmap;
u32 num_regs;
/* Maximum 2 links (subnodes) are supported */
if (cdns_phy->nsubnodes != 2)
return -EINVAL;
phy_t1 = cdns_phy->phys[0].phy_type;
phy_t2 = cdns_phy->phys[1].phy_type;
/**
* First configure the PHY for first link with phy_t1. Get the array
* values as [phy_t1][phy_t2][ssc].
*/
for (node = 0; node < cdns_phy->nsubnodes; node++) {
if (node == 1) {
/**
* If first link with phy_t1 is configured, then
* configure the PHY for second link with phy_t2.
* Get the array values as [phy_t2][phy_t1][ssc].
*/
tmp_phy_type = phy_t1;
phy_t1 = phy_t2;
phy_t2 = tmp_phy_type;
}
mlane = cdns_phy->phys[node].mlane;
ssc = cdns_phy->phys[node].ssc_mode;
num_lanes = cdns_phy->phys[node].num_lanes;
/**
* PHY configuration specific registers:
* link_cmn_vals depend on combination of PHY types being
* configured and are common for both PHY types, so array
* values should be same for [phy_t1][phy_t2][ssc] and
* [phy_t2][phy_t1][ssc].
* xcvr_diag_vals also depend on combination of PHY types
* being configured, but these can be different for particular
* PHY type and are per lane.
*/
link_cmn_vals = init_data->link_cmn_vals[phy_t1][phy_t2][ssc];
if (link_cmn_vals) {
reg_pairs = link_cmn_vals->reg_pairs;
num_regs = link_cmn_vals->num_regs;
regmap = cdns_phy->regmap_common_cdb;
/**
* First array value in link_cmn_vals must be of
* PHY_PLL_CFG register
*/
regmap_field_write(cdns_phy->phy_pll_cfg,
reg_pairs[0].val);
for (i = 1; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
xcvr_diag_vals = init_data->xcvr_diag_vals[phy_t1][phy_t2][ssc];
if (xcvr_diag_vals) {
reg_pairs = xcvr_diag_vals->reg_pairs;
num_regs = xcvr_diag_vals->num_regs;
for (i = 0; i < num_lanes; i++) {
regmap = cdns_phy->regmap_tx_lane_cdb[i + mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
/* PHY PCS common registers configurations */
pcs_cmn_vals = init_data->pcs_cmn_vals[phy_t1][phy_t2][ssc];
if (pcs_cmn_vals) {
reg_pairs = pcs_cmn_vals->reg_pairs;
num_regs = pcs_cmn_vals->num_regs;
regmap = cdns_phy->regmap_phy_pcs_common_cdb;
for (i = 0; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
/* PMA common registers configurations */
cmn_vals = init_data->cmn_vals[phy_t1][phy_t2][ssc];
if (cmn_vals) {
reg_pairs = cmn_vals->reg_pairs;
num_regs = cmn_vals->num_regs;
regmap = cdns_phy->regmap_common_cdb;
for (i = 0; i < num_regs; i++)
regmap_write(regmap, reg_pairs[i].off,
reg_pairs[i].val);
}
/* PMA TX lane registers configurations */
tx_ln_vals = init_data->tx_ln_vals[phy_t1][phy_t2][ssc];
if (tx_ln_vals) {
reg_pairs = tx_ln_vals->reg_pairs;
num_regs = tx_ln_vals->num_regs;
for (i = 0; i < num_lanes; i++) {
regmap = cdns_phy->regmap_tx_lane_cdb[i + mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
/* PMA RX lane registers configurations */
rx_ln_vals = init_data->rx_ln_vals[phy_t1][phy_t2][ssc];
if (rx_ln_vals) {
reg_pairs = rx_ln_vals->reg_pairs;
num_regs = rx_ln_vals->num_regs;
for (i = 0; i < num_lanes; i++) {
regmap = cdns_phy->regmap_rx_lane_cdb[i + mlane];
for (j = 0; j < num_regs; j++)
regmap_write(regmap, reg_pairs[j].off,
reg_pairs[j].val);
}
}
reset_control_deassert(cdns_phy->phys[node].lnk_rst);
}
/* Take the PHY out of reset */
ret = reset_control_deassert(cdns_phy->phy_rst);
if (ret)
return ret;
return 0;
}
static int cdns_torrent_phy_probe(struct platform_device *pdev)
{
struct cdns_torrent_phy *cdns_phy;
struct device *dev = &pdev->dev;
struct phy_provider *phy_provider;
const struct cdns_torrent_data *data;
struct device_node *child;
int ret, subnodes, node = 0, i;
u32 total_num_lanes = 0;
u8 init_dp_regmap = 0;
u32 phy_type;
/* Get init data for this PHY */
data = of_device_get_match_data(dev);
if (!data)
return -EINVAL;
cdns_phy = devm_kzalloc(dev, sizeof(*cdns_phy), GFP_KERNEL);
if (!cdns_phy)
return -ENOMEM;
dev_set_drvdata(dev, cdns_phy);
cdns_phy->dev = dev;
cdns_phy->init_data = data;
cdns_phy->phy_rst = devm_reset_control_get_exclusive_by_index(dev, 0);
if (IS_ERR(cdns_phy->phy_rst)) {
dev_err(dev, "%s: failed to get reset\n",
dev->of_node->full_name);
return PTR_ERR(cdns_phy->phy_rst);
}
cdns_phy->apb_rst = devm_reset_control_get_optional(dev, "torrent_apb");
if (IS_ERR(cdns_phy->apb_rst)) {
dev_err(dev, "%s: failed to get apb reset\n",
dev->of_node->full_name);
return PTR_ERR(cdns_phy->apb_rst);
}
cdns_phy->clk = devm_clk_get(dev, "refclk");
if (IS_ERR(cdns_phy->clk)) {
dev_err(dev, "phy ref clock not found\n");
return PTR_ERR(cdns_phy->clk);
}
cdns_phy->sd_base = devm_platform_ioremap_resource(pdev, 0);
if (IS_ERR(cdns_phy->sd_base))
return PTR_ERR(cdns_phy->sd_base);
subnodes = of_get_available_child_count(dev->of_node);
if (subnodes == 0) {
dev_err(dev, "No available link subnodes found\n");
return -EINVAL;
}
ret = cdns_torrent_regmap_init(cdns_phy);
if (ret)
return ret;
ret = cdns_torrent_regfield_init(cdns_phy);
if (ret)
return ret;
ret = clk_prepare_enable(cdns_phy->clk);
if (ret) {
dev_err(cdns_phy->dev, "Failed to prepare ref clock\n");
return ret;
}
cdns_phy->ref_clk_rate = clk_get_rate(cdns_phy->clk);
if (!(cdns_phy->ref_clk_rate)) {
dev_err(cdns_phy->dev, "Failed to get ref clock rate\n");
clk_disable_unprepare(cdns_phy->clk);
return -EINVAL;
}
/* Enable APB */
reset_control_deassert(cdns_phy->apb_rst);
for_each_available_child_of_node(dev->of_node, child) {
struct phy *gphy;
/* PHY subnode name must be 'phy'. */
if (!(of_node_name_eq(child, "phy")))
continue;
cdns_phy->phys[node].lnk_rst =
of_reset_control_array_get_exclusive(child);
if (IS_ERR(cdns_phy->phys[node].lnk_rst)) {
dev_err(dev, "%s: failed to get reset\n",
child->full_name);
ret = PTR_ERR(cdns_phy->phys[node].lnk_rst);
goto put_lnk_rst;
}
if (of_property_read_u32(child, "reg",
&cdns_phy->phys[node].mlane)) {
dev_err(dev, "%s: No \"reg\"-property.\n",
child->full_name);
ret = -EINVAL;
goto put_child;
}
if (of_property_read_u32(child, "cdns,phy-type", &phy_type)) {
dev_err(dev, "%s: No \"cdns,phy-type\"-property.\n",
child->full_name);
ret = -EINVAL;
goto put_child;
}
switch (phy_type) {
case PHY_TYPE_PCIE:
cdns_phy->phys[node].phy_type = TYPE_PCIE;
break;
case PHY_TYPE_DP:
cdns_phy->phys[node].phy_type = TYPE_DP;
break;
case PHY_TYPE_SGMII:
cdns_phy->phys[node].phy_type = TYPE_SGMII;
break;
case PHY_TYPE_QSGMII:
cdns_phy->phys[node].phy_type = TYPE_QSGMII;
break;
case PHY_TYPE_USB3:
cdns_phy->phys[node].phy_type = TYPE_USB;
break;
default:
dev_err(dev, "Unsupported protocol\n");
ret = -EINVAL;
goto put_child;
}
if (of_property_read_u32(child, "cdns,num-lanes",
&cdns_phy->phys[node].num_lanes)) {
dev_err(dev, "%s: No \"cdns,num-lanes\"-property.\n",
child->full_name);
ret = -EINVAL;
goto put_child;
}
total_num_lanes += cdns_phy->phys[node].num_lanes;
/* Get SSC mode */
cdns_phy->phys[node].ssc_mode = NO_SSC;
of_property_read_u32(child, "cdns,ssc-mode",
&cdns_phy->phys[node].ssc_mode);
gphy = devm_phy_create(dev, child, &cdns_torrent_phy_ops);
if (IS_ERR(gphy)) {
ret = PTR_ERR(gphy);
goto put_child;
}
if (cdns_phy->phys[node].phy_type == TYPE_DP) {
switch (cdns_phy->phys[node].num_lanes) {
case 1:
case 2:
case 4:
/* valid number of lanes */
break;
default:
dev_err(dev, "unsupported number of lanes: %d\n",
cdns_phy->phys[node].num_lanes);
ret = -EINVAL;
goto put_child;
}
cdns_phy->max_bit_rate = DEFAULT_MAX_BIT_RATE;
of_property_read_u32(child, "cdns,max-bit-rate",
&cdns_phy->max_bit_rate);
switch (cdns_phy->max_bit_rate) {
case 1620:
case 2160:
case 2430:
case 2700:
case 3240:
case 4320:
case 5400:
case 8100:
/* valid bit rate */
break;
default:
dev_err(dev, "unsupported max bit rate: %dMbps\n",
cdns_phy->max_bit_rate);
ret = -EINVAL;
goto put_child;
}
/* DPTX registers */
cdns_phy->base = devm_platform_ioremap_resource(pdev, 1);
if (IS_ERR(cdns_phy->base)) {
ret = PTR_ERR(cdns_phy->base);
goto put_child;
}
if (!init_dp_regmap) {
ret = cdns_torrent_dp_regmap_init(cdns_phy);
if (ret)
goto put_child;
ret = cdns_torrent_dp_regfield_init(cdns_phy);
if (ret)
goto put_child;
init_dp_regmap++;
}
dev_info(dev, "%d lanes, max bit rate %d.%03d Gbps\n",
cdns_phy->phys[node].num_lanes,
cdns_phy->max_bit_rate / 1000,
cdns_phy->max_bit_rate % 1000);
gphy->attrs.bus_width = cdns_phy->phys[node].num_lanes;
gphy->attrs.max_link_rate = cdns_phy->max_bit_rate;
gphy->attrs.mode = PHY_MODE_DP;
}
cdns_phy->phys[node].phy = gphy;
phy_set_drvdata(gphy, &cdns_phy->phys[node]);
node++;
}
cdns_phy->nsubnodes = node;
if (total_num_lanes > MAX_NUM_LANES) {
dev_err(dev, "Invalid lane configuration\n");
ret = -EINVAL;
goto put_lnk_rst;
}
if (cdns_phy->nsubnodes > 1) {
ret = cdns_torrent_phy_configure_multilink(cdns_phy);
if (ret)
goto put_lnk_rst;
}
phy_provider = devm_of_phy_provider_register(dev, of_phy_simple_xlate);
if (IS_ERR(phy_provider)) {
ret = PTR_ERR(phy_provider);
goto put_lnk_rst;
}
return 0;
put_child:
node++;
put_lnk_rst:
for (i = 0; i < node; i++)
reset_control_put(cdns_phy->phys[i].lnk_rst);
of_node_put(child);
reset_control_assert(cdns_phy->apb_rst);
clk_disable_unprepare(cdns_phy->clk);
return ret;
}
static int cdns_torrent_phy_remove(struct platform_device *pdev)
{
struct cdns_torrent_phy *cdns_phy = platform_get_drvdata(pdev);
int i;
reset_control_assert(cdns_phy->phy_rst);
reset_control_assert(cdns_phy->apb_rst);
for (i = 0; i < cdns_phy->nsubnodes; i++) {
reset_control_assert(cdns_phy->phys[i].lnk_rst);
reset_control_put(cdns_phy->phys[i].lnk_rst);
}
clk_disable_unprepare(cdns_phy->clk);
return 0;
}
/* USB and SGMII/QSGMII link configuration */
static struct cdns_reg_pairs usb_sgmii_link_cmn_regs[] = {
{0x0002, PHY_PLL_CFG},
{0x8600, CMN_PDIAG_PLL0_CLK_SEL_M0},
{0x0601, CMN_PDIAG_PLL1_CLK_SEL_M0}
};
static struct cdns_reg_pairs usb_sgmii_xcvr_diag_ln_regs[] = {
{0x0000, XCVR_DIAG_HSCLK_SEL},
{0x0001, XCVR_DIAG_HSCLK_DIV},
{0x0041, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_reg_pairs sgmii_usb_xcvr_diag_ln_regs[] = {
{0x0011, XCVR_DIAG_HSCLK_SEL},
{0x0003, XCVR_DIAG_HSCLK_DIV},
{0x009B, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_torrent_vals usb_sgmii_link_cmn_vals = {
.reg_pairs = usb_sgmii_link_cmn_regs,
.num_regs = ARRAY_SIZE(usb_sgmii_link_cmn_regs),
};
static struct cdns_torrent_vals usb_sgmii_xcvr_diag_ln_vals = {
.reg_pairs = usb_sgmii_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(usb_sgmii_xcvr_diag_ln_regs),
};
static struct cdns_torrent_vals sgmii_usb_xcvr_diag_ln_vals = {
.reg_pairs = sgmii_usb_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(sgmii_usb_xcvr_diag_ln_regs),
};
/* PCIe and USB Unique SSC link configuration */
static struct cdns_reg_pairs pcie_usb_link_cmn_regs[] = {
{0x0003, PHY_PLL_CFG},
{0x0601, CMN_PDIAG_PLL0_CLK_SEL_M0},
{0x0400, CMN_PDIAG_PLL0_CLK_SEL_M1},
{0x8600, CMN_PDIAG_PLL1_CLK_SEL_M0}
};
static struct cdns_reg_pairs pcie_usb_xcvr_diag_ln_regs[] = {
{0x0000, XCVR_DIAG_HSCLK_SEL},
{0x0001, XCVR_DIAG_HSCLK_DIV},
{0x0012, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_reg_pairs usb_pcie_xcvr_diag_ln_regs[] = {
{0x0011, XCVR_DIAG_HSCLK_SEL},
{0x0001, XCVR_DIAG_HSCLK_DIV},
{0x00C9, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_torrent_vals pcie_usb_link_cmn_vals = {
.reg_pairs = pcie_usb_link_cmn_regs,
.num_regs = ARRAY_SIZE(pcie_usb_link_cmn_regs),
};
static struct cdns_torrent_vals pcie_usb_xcvr_diag_ln_vals = {
.reg_pairs = pcie_usb_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(pcie_usb_xcvr_diag_ln_regs),
};
static struct cdns_torrent_vals usb_pcie_xcvr_diag_ln_vals = {
.reg_pairs = usb_pcie_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(usb_pcie_xcvr_diag_ln_regs),
};
/* USB 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs usb_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL0_DSM_DIAG_M1},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M1},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M1},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M1},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0050, CMN_PLL0_INTDIV_M1},
{0x0064, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL0_FRACDIVH_M1},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0036, CMN_PLL0_HIGH_THR_M1},
{0x0044, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M1},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M1},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M1},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x0058, CMN_PLL0_SS_CTRL3_M1},
{0x006E, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x0012, CMN_PLL0_SS_CTRL4_M1},
{0x000E, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR},
{0x8200, CMN_CDIAG_CDB_PWRI_OVRD},
{0x8200, CMN_CDIAG_XCVRC_PWRI_OVRD}
};
static struct cdns_torrent_vals usb_100_int_ssc_cmn_vals = {
.reg_pairs = usb_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(usb_100_int_ssc_cmn_regs),
};
/* Single USB link configuration */
static struct cdns_reg_pairs sl_usb_link_cmn_regs[] = {
{0x0000, PHY_PLL_CFG},
{0x8600, CMN_PDIAG_PLL0_CLK_SEL_M0}
};
static struct cdns_reg_pairs sl_usb_xcvr_diag_ln_regs[] = {
{0x0000, XCVR_DIAG_HSCLK_SEL},
{0x0001, XCVR_DIAG_HSCLK_DIV},
{0x0041, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_torrent_vals sl_usb_link_cmn_vals = {
.reg_pairs = sl_usb_link_cmn_regs,
.num_regs = ARRAY_SIZE(sl_usb_link_cmn_regs),
};
static struct cdns_torrent_vals sl_usb_xcvr_diag_ln_vals = {
.reg_pairs = sl_usb_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(sl_usb_xcvr_diag_ln_regs),
};
/* USB PHY PCS common configuration */
static struct cdns_reg_pairs usb_phy_pcs_cmn_regs[] = {
{0x0A0A, PHY_PIPE_USB3_GEN2_PRE_CFG0},
{0x1000, PHY_PIPE_USB3_GEN2_POST_CFG0},
{0x0010, PHY_PIPE_USB3_GEN2_POST_CFG1}
};
static struct cdns_torrent_vals usb_phy_pcs_cmn_vals = {
.reg_pairs = usb_phy_pcs_cmn_regs,
.num_regs = ARRAY_SIZE(usb_phy_pcs_cmn_regs),
};
/* USB 100 MHz Ref clk, no SSC */
static struct cdns_reg_pairs usb_100_no_ssc_cmn_regs[] = {
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x8200, CMN_CDIAG_CDB_PWRI_OVRD},
{0x8200, CMN_CDIAG_XCVRC_PWRI_OVRD}
};
static struct cdns_reg_pairs usb_100_no_ssc_tx_ln_regs[] = {
{0x02FF, TX_PSC_A0},
{0x06AF, TX_PSC_A1},
{0x06AE, TX_PSC_A2},
{0x06AE, TX_PSC_A3},
{0x2A82, TX_TXCC_CTRL},
{0x0014, TX_TXCC_CPOST_MULT_01},
{0x0003, XCVR_DIAG_PSC_OVRD}
};
static struct cdns_reg_pairs usb_100_no_ssc_rx_ln_regs[] = {
{0x0D1D, RX_PSC_A0},
{0x0D1D, RX_PSC_A1},
{0x0D00, RX_PSC_A2},
{0x0500, RX_PSC_A3},
{0x0013, RX_SIGDET_HL_FILT_TMR},
{0x0000, RX_REE_GCSM1_CTRL},
{0x0C02, RX_REE_ATTEN_THR},
{0x0330, RX_REE_SMGM_CTRL1},
{0x0300, RX_REE_SMGM_CTRL2},
{0x0019, RX_REE_TAP1_CLIP},
{0x0019, RX_REE_TAP2TON_CLIP},
{0x1004, RX_DIAG_SIGDET_TUNE},
{0x00F9, RX_DIAG_NQST_CTRL},
{0x0C01, RX_DIAG_DFE_AMP_TUNE_2},
{0x0002, RX_DIAG_DFE_AMP_TUNE_3},
{0x0000, RX_DIAG_PI_CAP},
{0x0031, RX_DIAG_PI_RATE},
{0x0001, RX_DIAG_ACYA},
{0x018C, RX_CDRLF_CNFG},
{0x0003, RX_CDRLF_CNFG3}
};
static struct cdns_torrent_vals usb_100_no_ssc_cmn_vals = {
.reg_pairs = usb_100_no_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(usb_100_no_ssc_cmn_regs),
};
static struct cdns_torrent_vals usb_100_no_ssc_tx_ln_vals = {
.reg_pairs = usb_100_no_ssc_tx_ln_regs,
.num_regs = ARRAY_SIZE(usb_100_no_ssc_tx_ln_regs),
};
static struct cdns_torrent_vals usb_100_no_ssc_rx_ln_vals = {
.reg_pairs = usb_100_no_ssc_rx_ln_regs,
.num_regs = ARRAY_SIZE(usb_100_no_ssc_rx_ln_regs),
};
/* Single link USB, 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs sl_usb_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0064, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0044, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x006E, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x000E, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR},
{0x8200, CMN_CDIAG_CDB_PWRI_OVRD},
{0x8200, CMN_CDIAG_XCVRC_PWRI_OVRD}
};
static struct cdns_torrent_vals sl_usb_100_int_ssc_cmn_vals = {
.reg_pairs = sl_usb_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(sl_usb_100_int_ssc_cmn_regs),
};
/* PCIe and SGMII/QSGMII Unique SSC link configuration */
static struct cdns_reg_pairs pcie_sgmii_link_cmn_regs[] = {
{0x0003, PHY_PLL_CFG},
{0x0601, CMN_PDIAG_PLL0_CLK_SEL_M0},
{0x0400, CMN_PDIAG_PLL0_CLK_SEL_M1},
{0x0601, CMN_PDIAG_PLL1_CLK_SEL_M0}
};
static struct cdns_reg_pairs pcie_sgmii_xcvr_diag_ln_regs[] = {
{0x0000, XCVR_DIAG_HSCLK_SEL},
{0x0001, XCVR_DIAG_HSCLK_DIV},
{0x0012, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_reg_pairs sgmii_pcie_xcvr_diag_ln_regs[] = {
{0x0011, XCVR_DIAG_HSCLK_SEL},
{0x0003, XCVR_DIAG_HSCLK_DIV},
{0x009B, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_torrent_vals pcie_sgmii_link_cmn_vals = {
.reg_pairs = pcie_sgmii_link_cmn_regs,
.num_regs = ARRAY_SIZE(pcie_sgmii_link_cmn_regs),
};
static struct cdns_torrent_vals pcie_sgmii_xcvr_diag_ln_vals = {
.reg_pairs = pcie_sgmii_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(pcie_sgmii_xcvr_diag_ln_regs),
};
static struct cdns_torrent_vals sgmii_pcie_xcvr_diag_ln_vals = {
.reg_pairs = sgmii_pcie_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(sgmii_pcie_xcvr_diag_ln_regs),
};
/* SGMII 100 MHz Ref clk, no SSC */
static struct cdns_reg_pairs sgmii_100_no_ssc_cmn_regs[] = {
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x3700, CMN_DIAG_BIAS_OVRD1},
{0x0008, CMN_TXPUCAL_TUNE},
{0x0008, CMN_TXPDCAL_TUNE}
};
static struct cdns_reg_pairs sgmii_100_no_ssc_tx_ln_regs[] = {
{0x00F3, TX_PSC_A0},
{0x04A2, TX_PSC_A2},
{0x04A2, TX_PSC_A3},
{0x0000, TX_TXCC_CPOST_MULT_00},
{0x00B3, DRV_DIAG_TX_DRV}
};
static struct cdns_reg_pairs sgmii_100_no_ssc_rx_ln_regs[] = {
{0x091D, RX_PSC_A0},
{0x0900, RX_PSC_A2},
{0x0100, RX_PSC_A3},
{0x03C7, RX_REE_GCSM1_EQENM_PH1},
{0x01C7, RX_REE_GCSM1_EQENM_PH2},
{0x0000, RX_DIAG_DFE_CTRL},
{0x0019, RX_REE_TAP1_CLIP},
{0x0019, RX_REE_TAP2TON_CLIP},
{0x0098, RX_DIAG_NQST_CTRL},
{0x0C01, RX_DIAG_DFE_AMP_TUNE_2},
{0x0000, RX_DIAG_DFE_AMP_TUNE_3},
{0x0000, RX_DIAG_PI_CAP},
{0x0010, RX_DIAG_PI_RATE},
{0x0001, RX_DIAG_ACYA},
{0x018C, RX_CDRLF_CNFG},
};
static struct cdns_torrent_vals sgmii_100_no_ssc_cmn_vals = {
.reg_pairs = sgmii_100_no_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(sgmii_100_no_ssc_cmn_regs),
};
static struct cdns_torrent_vals sgmii_100_no_ssc_tx_ln_vals = {
.reg_pairs = sgmii_100_no_ssc_tx_ln_regs,
.num_regs = ARRAY_SIZE(sgmii_100_no_ssc_tx_ln_regs),
};
static struct cdns_torrent_vals sgmii_100_no_ssc_rx_ln_vals = {
.reg_pairs = sgmii_100_no_ssc_rx_ln_regs,
.num_regs = ARRAY_SIZE(sgmii_100_no_ssc_rx_ln_regs),
};
/* SGMII 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs sgmii_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL0_DSM_DIAG_M1},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M1},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M1},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M1},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0050, CMN_PLL0_INTDIV_M1},
{0x0064, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL0_FRACDIVH_M1},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0036, CMN_PLL0_HIGH_THR_M1},
{0x0044, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M1},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M1},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M1},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x0058, CMN_PLL0_SS_CTRL3_M1},
{0x006E, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x0012, CMN_PLL0_SS_CTRL4_M1},
{0x000E, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR},
{0x3700, CMN_DIAG_BIAS_OVRD1},
{0x0008, CMN_TXPUCAL_TUNE},
{0x0008, CMN_TXPDCAL_TUNE}
};
static struct cdns_torrent_vals sgmii_100_int_ssc_cmn_vals = {
.reg_pairs = sgmii_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(sgmii_100_int_ssc_cmn_regs),
};
/* QSGMII 100 MHz Ref clk, no SSC */
static struct cdns_reg_pairs qsgmii_100_no_ssc_cmn_regs[] = {
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL}
};
static struct cdns_reg_pairs qsgmii_100_no_ssc_tx_ln_regs[] = {
{0x00F3, TX_PSC_A0},
{0x04A2, TX_PSC_A2},
{0x04A2, TX_PSC_A3},
{0x0000, TX_TXCC_CPOST_MULT_00},
{0x0003, DRV_DIAG_TX_DRV}
};
static struct cdns_reg_pairs qsgmii_100_no_ssc_rx_ln_regs[] = {
{0x091D, RX_PSC_A0},
{0x0900, RX_PSC_A2},
{0x0100, RX_PSC_A3},
{0x03C7, RX_REE_GCSM1_EQENM_PH1},
{0x01C7, RX_REE_GCSM1_EQENM_PH2},
{0x0000, RX_DIAG_DFE_CTRL},
{0x0019, RX_REE_TAP1_CLIP},
{0x0019, RX_REE_TAP2TON_CLIP},
{0x0098, RX_DIAG_NQST_CTRL},
{0x0C01, RX_DIAG_DFE_AMP_TUNE_2},
{0x0000, RX_DIAG_DFE_AMP_TUNE_3},
{0x0000, RX_DIAG_PI_CAP},
{0x0010, RX_DIAG_PI_RATE},
{0x0001, RX_DIAG_ACYA},
{0x018C, RX_CDRLF_CNFG},
};
static struct cdns_torrent_vals qsgmii_100_no_ssc_cmn_vals = {
.reg_pairs = qsgmii_100_no_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(qsgmii_100_no_ssc_cmn_regs),
};
static struct cdns_torrent_vals qsgmii_100_no_ssc_tx_ln_vals = {
.reg_pairs = qsgmii_100_no_ssc_tx_ln_regs,
.num_regs = ARRAY_SIZE(qsgmii_100_no_ssc_tx_ln_regs),
};
static struct cdns_torrent_vals qsgmii_100_no_ssc_rx_ln_vals = {
.reg_pairs = qsgmii_100_no_ssc_rx_ln_regs,
.num_regs = ARRAY_SIZE(qsgmii_100_no_ssc_rx_ln_regs),
};
/* QSGMII 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs qsgmii_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL0_DSM_DIAG_M1},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M1},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M1},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M1},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0050, CMN_PLL0_INTDIV_M1},
{0x0064, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL0_FRACDIVH_M1},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0036, CMN_PLL0_HIGH_THR_M1},
{0x0044, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M1},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M1},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M1},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x0058, CMN_PLL0_SS_CTRL3_M1},
{0x006E, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x0012, CMN_PLL0_SS_CTRL4_M1},
{0x000E, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR}
};
static struct cdns_torrent_vals qsgmii_100_int_ssc_cmn_vals = {
.reg_pairs = qsgmii_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(qsgmii_100_int_ssc_cmn_regs),
};
/* Single SGMII/QSGMII link configuration */
static struct cdns_reg_pairs sl_sgmii_link_cmn_regs[] = {
{0x0000, PHY_PLL_CFG},
{0x0601, CMN_PDIAG_PLL0_CLK_SEL_M0}
};
static struct cdns_reg_pairs sl_sgmii_xcvr_diag_ln_regs[] = {
{0x0000, XCVR_DIAG_HSCLK_SEL},
{0x0003, XCVR_DIAG_HSCLK_DIV},
{0x0013, XCVR_DIAG_PLLDRC_CTRL}
};
static struct cdns_torrent_vals sl_sgmii_link_cmn_vals = {
.reg_pairs = sl_sgmii_link_cmn_regs,
.num_regs = ARRAY_SIZE(sl_sgmii_link_cmn_regs),
};
static struct cdns_torrent_vals sl_sgmii_xcvr_diag_ln_vals = {
.reg_pairs = sl_sgmii_xcvr_diag_ln_regs,
.num_regs = ARRAY_SIZE(sl_sgmii_xcvr_diag_ln_regs),
};
/* Multi link PCIe, 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs pcie_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL0_DSM_DIAG_M1},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M1},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M1},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M1},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0050, CMN_PLL0_INTDIV_M1},
{0x0064, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL0_FRACDIVH_M1},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0036, CMN_PLL0_HIGH_THR_M1},
{0x0044, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M1},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M1},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M1},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x0058, CMN_PLL0_SS_CTRL3_M1},
{0x006E, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x0012, CMN_PLL0_SS_CTRL4_M1},
{0x000E, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR}
};
static struct cdns_torrent_vals pcie_100_int_ssc_cmn_vals = {
.reg_pairs = pcie_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(pcie_100_int_ssc_cmn_regs),
};
/* Single link PCIe, 100 MHz Ref clk, internal SSC */
static struct cdns_reg_pairs sl_pcie_100_int_ssc_cmn_regs[] = {
{0x0004, CMN_PLL0_DSM_DIAG_M0},
{0x0004, CMN_PLL0_DSM_DIAG_M1},
{0x0004, CMN_PLL1_DSM_DIAG_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M0},
{0x0509, CMN_PDIAG_PLL0_CP_PADJ_M1},
{0x0509, CMN_PDIAG_PLL1_CP_PADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M0},
{0x0F00, CMN_PDIAG_PLL0_CP_IADJ_M1},
{0x0F00, CMN_PDIAG_PLL1_CP_IADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M0},
{0x0F08, CMN_PDIAG_PLL0_FILT_PADJ_M1},
{0x0F08, CMN_PDIAG_PLL1_FILT_PADJ_M0},
{0x0064, CMN_PLL0_INTDIV_M0},
{0x0050, CMN_PLL0_INTDIV_M1},
{0x0050, CMN_PLL1_INTDIV_M0},
{0x0002, CMN_PLL0_FRACDIVH_M0},
{0x0002, CMN_PLL0_FRACDIVH_M1},
{0x0002, CMN_PLL1_FRACDIVH_M0},
{0x0044, CMN_PLL0_HIGH_THR_M0},
{0x0036, CMN_PLL0_HIGH_THR_M1},
{0x0036, CMN_PLL1_HIGH_THR_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M0},
{0x0002, CMN_PDIAG_PLL0_CTRL_M1},
{0x0002, CMN_PDIAG_PLL1_CTRL_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M0},
{0x0001, CMN_PLL0_SS_CTRL1_M1},
{0x0001, CMN_PLL1_SS_CTRL1_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M0},
{0x011B, CMN_PLL0_SS_CTRL2_M1},
{0x011B, CMN_PLL1_SS_CTRL2_M0},
{0x006E, CMN_PLL0_SS_CTRL3_M0},
{0x0058, CMN_PLL0_SS_CTRL3_M1},
{0x0058, CMN_PLL1_SS_CTRL3_M0},
{0x000E, CMN_PLL0_SS_CTRL4_M0},
{0x0012, CMN_PLL0_SS_CTRL4_M1},
{0x0012, CMN_PLL1_SS_CTRL4_M0},
{0x0C5E, CMN_PLL0_VCOCAL_REFTIM_START},
{0x0C5E, CMN_PLL1_VCOCAL_REFTIM_START},
{0x0C56, CMN_PLL0_VCOCAL_PLLCNT_START},
{0x0C56, CMN_PLL1_VCOCAL_PLLCNT_START},
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL},
{0x00C7, CMN_PLL0_LOCK_REFCNT_START},
{0x00C7, CMN_PLL1_LOCK_REFCNT_START},
{0x00C7, CMN_PLL0_LOCK_PLLCNT_START},
{0x00C7, CMN_PLL1_LOCK_PLLCNT_START},
{0x0005, CMN_PLL0_LOCK_PLLCNT_THR},
{0x0005, CMN_PLL1_LOCK_PLLCNT_THR}
};
static struct cdns_torrent_vals sl_pcie_100_int_ssc_cmn_vals = {
.reg_pairs = sl_pcie_100_int_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(sl_pcie_100_int_ssc_cmn_regs),
};
/* PCIe, 100 MHz Ref clk, no SSC & external SSC */
static struct cdns_reg_pairs pcie_100_ext_no_ssc_cmn_regs[] = {
{0x0003, CMN_PLL0_VCOCAL_TCTRL},
{0x0003, CMN_PLL1_VCOCAL_TCTRL}
};
static struct cdns_reg_pairs pcie_100_ext_no_ssc_rx_ln_regs[] = {
{0x0019, RX_REE_TAP1_CLIP},
{0x0019, RX_REE_TAP2TON_CLIP},
{0x0001, RX_DIAG_ACYA}
};
static struct cdns_torrent_vals pcie_100_no_ssc_cmn_vals = {
.reg_pairs = pcie_100_ext_no_ssc_cmn_regs,
.num_regs = ARRAY_SIZE(pcie_100_ext_no_ssc_cmn_regs),
};
static struct cdns_torrent_vals pcie_100_no_ssc_rx_ln_vals = {
.reg_pairs = pcie_100_ext_no_ssc_rx_ln_regs,
.num_regs = ARRAY_SIZE(pcie_100_ext_no_ssc_rx_ln_regs),
};
static const struct cdns_torrent_data cdns_map_torrent = {
.block_offset_shift = 0x2,
.reg_offset_shift = 0x2,
.link_cmn_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_usb_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_usb_link_cmn_vals,
[INTERNAL_SSC] = &pcie_usb_link_cmn_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_usb_link_cmn_vals,
[EXTERNAL_SSC] = &sl_usb_link_cmn_vals,
[INTERNAL_SSC] = &sl_usb_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_usb_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_usb_link_cmn_vals,
[INTERNAL_SSC] = &pcie_usb_link_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
},
.xcvr_diag_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_usb_xcvr_diag_ln_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sl_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sl_usb_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_pcie_xcvr_diag_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
},
},
},
.pcs_cmn_vals = {
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
},
},
.cmn_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_pcie_100_int_ssc_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sgmii_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &qsgmii_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &usb_100_int_ssc_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
},
},
.tx_ln_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_QSGMII] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_USB] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
},
},
.rx_ln_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
},
},
};
static const struct cdns_torrent_data ti_j721e_map_torrent = {
.block_offset_shift = 0x0,
.reg_offset_shift = 0x1,
.link_cmn_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_usb_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_usb_link_cmn_vals,
[INTERNAL_SSC] = &pcie_usb_link_cmn_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &pcie_sgmii_link_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_usb_link_cmn_vals,
[EXTERNAL_SSC] = &sl_usb_link_cmn_vals,
[INTERNAL_SSC] = &sl_usb_link_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &pcie_usb_link_cmn_vals,
[EXTERNAL_SSC] = &pcie_usb_link_cmn_vals,
[INTERNAL_SSC] = &pcie_usb_link_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_sgmii_link_cmn_vals,
[EXTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
[INTERNAL_SSC] = &usb_sgmii_link_cmn_vals,
},
},
},
.xcvr_diag_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_sgmii_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &pcie_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &pcie_usb_xcvr_diag_ln_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_sgmii_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_pcie_xcvr_diag_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sgmii_usb_xcvr_diag_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &sl_usb_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &sl_usb_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &sl_usb_xcvr_diag_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_pcie_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_pcie_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_pcie_xcvr_diag_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[EXTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
[INTERNAL_SSC] = &usb_sgmii_xcvr_diag_ln_vals,
},
},
},
.pcs_cmn_vals = {
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_phy_pcs_cmn_vals,
[EXTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
[INTERNAL_SSC] = &usb_phy_pcs_cmn_vals,
},
},
},
.cmn_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_pcie_100_int_ssc_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &pcie_100_int_ssc_cmn_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sgmii_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_cmn_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &qsgmii_100_int_ssc_cmn_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_cmn_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &usb_100_int_ssc_cmn_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_cmn_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_cmn_vals,
[INTERNAL_SSC] = &sl_usb_100_int_ssc_cmn_vals,
},
},
},
.tx_ln_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_SGMII] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_QSGMII] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
[TYPE_USB] = {
[NO_SSC] = NULL,
[EXTERNAL_SSC] = NULL,
[INTERNAL_SSC] = NULL,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_tx_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_tx_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_tx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_tx_ln_vals,
},
},
},
.rx_ln_vals = {
[TYPE_PCIE] = {
[TYPE_NONE] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &pcie_100_no_ssc_rx_ln_vals,
},
},
[TYPE_SGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &sgmii_100_no_ssc_rx_ln_vals,
},
},
[TYPE_QSGMII] = {
[TYPE_NONE] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
[TYPE_USB] = {
[NO_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &qsgmii_100_no_ssc_rx_ln_vals,
},
},
[TYPE_USB] = {
[TYPE_NONE] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_PCIE] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_SGMII] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
[TYPE_QSGMII] = {
[NO_SSC] = &usb_100_no_ssc_rx_ln_vals,
[EXTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
[INTERNAL_SSC] = &usb_100_no_ssc_rx_ln_vals,
},
},
},
};
static const struct of_device_id cdns_torrent_phy_of_match[] = {
{
.compatible = "cdns,torrent-phy",
.data = &cdns_map_torrent,
},
{
.compatible = "ti,j721e-serdes-10g",
.data = &ti_j721e_map_torrent,
},
{}
};
MODULE_DEVICE_TABLE(of, cdns_torrent_phy_of_match);
static struct platform_driver cdns_torrent_phy_driver = {
.probe = cdns_torrent_phy_probe,
.remove = cdns_torrent_phy_remove,
.driver = {
.name = "cdns-torrent-phy",
.of_match_table = cdns_torrent_phy_of_match,
}
};
module_platform_driver(cdns_torrent_phy_driver);
MODULE_AUTHOR("Cadence Design Systems, Inc.");
MODULE_DESCRIPTION("Cadence Torrent PHY driver");
MODULE_LICENSE("GPL v2");