OpenCloudOS-Kernel/drivers/clk/baikal-t1/ccu-pll.c

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clk: Add Baikal-T1 CCU PLLs driver Baikal-T1 is supposed to be supplied with a high-frequency external oscillator. But in order to create signals suitable for each IP-block embedded into the SoC the oscillator output is primarily connected to a set of CCU PLLs. There are five of them to create clocks for the MIPS P5600 cores, an embedded DDR controller, SATA, Ethernet and PCIe domains. The last three domains though named by the biggest system interfaces in fact include nearly all of the rest SoC peripherals. Each of the PLLs is based on True Circuits TSMC CLN28HPM IP-core with an interface wrapper (so called safe PLL' clocks switcher) to simplify the PLL configuration procedure. This driver creates the of-based hardware clocks to use them then in the corresponding subsystems. In order to simplify the driver code we split the functionality up into the PLLs clocks operations and hardware clocks declaration/registration procedures. Even though the PLLs are based on the same IP-core, they may have some differences. In particular, some CCU PLLs support the output clock change without gating them (like CPU or PCIe PLLs), while the others don't, some CCU PLLs are critical and aren't supposed to be gated. In order to cover all of these cases the hardware clocks driver is designed with an info-descriptor pattern. So there are special static descriptors declared for each PLL, which is then used to create a hardware clock with proper operations. Additionally debugfs-files are provided for each PLL' field to make sure the implemented rate-PLLs-dividers calculation algorithm is correct. Signed-off-by: Serge Semin <Sergey.Semin@baikalelectronics.ru> Cc: Alexey Malahov <Alexey.Malahov@baikalelectronics.ru> Cc: Arnd Bergmann <arnd@arndb.de> Cc: Rob Herring <robh+dt@kernel.org> Cc: linux-mips@vger.kernel.org Cc: devicetree@vger.kernel.org Link: https://lore.kernel.org/r/20200526222056.18072-4-Sergey.Semin@baikalelectronics.ru [sboyd@kernel.org: Silence sparse warning about initializing structs with NULL vs. integer] Signed-off-by: Stephen Boyd <sboyd@kernel.org>
2020-05-27 06:20:55 +08:00
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (C) 2020 BAIKAL ELECTRONICS, JSC
*
* Authors:
* Serge Semin <Sergey.Semin@baikalelectronics.ru>
* Dmitry Dunaev <dmitry.dunaev@baikalelectronics.ru>
*
* Baikal-T1 CCU PLL interface driver
*/
#define pr_fmt(fmt) "bt1-ccu-pll: " fmt
#include <linux/kernel.h>
#include <linux/printk.h>
#include <linux/limits.h>
#include <linux/bits.h>
#include <linux/bitfield.h>
#include <linux/slab.h>
#include <linux/clk-provider.h>
#include <linux/of.h>
#include <linux/spinlock.h>
#include <linux/regmap.h>
#include <linux/iopoll.h>
#include <linux/time64.h>
#include <linux/rational.h>
#include <linux/debugfs.h>
#include "ccu-pll.h"
#define CCU_PLL_CTL 0x000
#define CCU_PLL_CTL_EN BIT(0)
#define CCU_PLL_CTL_RST BIT(1)
#define CCU_PLL_CTL_CLKR_FLD 2
#define CCU_PLL_CTL_CLKR_MASK GENMASK(7, CCU_PLL_CTL_CLKR_FLD)
#define CCU_PLL_CTL_CLKF_FLD 8
#define CCU_PLL_CTL_CLKF_MASK GENMASK(20, CCU_PLL_CTL_CLKF_FLD)
#define CCU_PLL_CTL_CLKOD_FLD 21
#define CCU_PLL_CTL_CLKOD_MASK GENMASK(24, CCU_PLL_CTL_CLKOD_FLD)
#define CCU_PLL_CTL_BYPASS BIT(30)
#define CCU_PLL_CTL_LOCK BIT(31)
#define CCU_PLL_CTL1 0x004
#define CCU_PLL_CTL1_BWADJ_FLD 3
#define CCU_PLL_CTL1_BWADJ_MASK GENMASK(14, CCU_PLL_CTL1_BWADJ_FLD)
#define CCU_PLL_LOCK_CHECK_RETRIES 50
#define CCU_PLL_NR_MAX \
((CCU_PLL_CTL_CLKR_MASK >> CCU_PLL_CTL_CLKR_FLD) + 1)
#define CCU_PLL_NF_MAX \
((CCU_PLL_CTL_CLKF_MASK >> (CCU_PLL_CTL_CLKF_FLD + 1)) + 1)
#define CCU_PLL_OD_MAX \
((CCU_PLL_CTL_CLKOD_MASK >> CCU_PLL_CTL_CLKOD_FLD) + 1)
#define CCU_PLL_NB_MAX \
((CCU_PLL_CTL1_BWADJ_MASK >> CCU_PLL_CTL1_BWADJ_FLD) + 1)
#define CCU_PLL_FDIV_MIN 427000UL
#define CCU_PLL_FDIV_MAX 3500000000UL
#define CCU_PLL_FOUT_MIN 200000000UL
#define CCU_PLL_FOUT_MAX 2500000000UL
#define CCU_PLL_FVCO_MIN 700000000UL
#define CCU_PLL_FVCO_MAX 3500000000UL
#define CCU_PLL_CLKOD_FACTOR 2
static inline unsigned long ccu_pll_lock_delay_us(unsigned long ref_clk,
unsigned long nr)
{
u64 us = 500ULL * nr * USEC_PER_SEC;
do_div(us, ref_clk);
return us;
}
static inline unsigned long ccu_pll_calc_freq(unsigned long ref_clk,
unsigned long nr,
unsigned long nf,
unsigned long od)
{
u64 tmp = ref_clk;
do_div(tmp, nr);
tmp *= nf;
do_div(tmp, od);
return tmp;
}
static int ccu_pll_reset(struct ccu_pll *pll, unsigned long ref_clk,
unsigned long nr)
{
unsigned long ud, ut;
u32 val;
ud = ccu_pll_lock_delay_us(ref_clk, nr);
ut = ud * CCU_PLL_LOCK_CHECK_RETRIES;
regmap_update_bits(pll->sys_regs, pll->reg_ctl,
CCU_PLL_CTL_RST, CCU_PLL_CTL_RST);
return regmap_read_poll_timeout_atomic(pll->sys_regs, pll->reg_ctl, val,
val & CCU_PLL_CTL_LOCK, ud, ut);
}
static int ccu_pll_enable(struct clk_hw *hw)
{
struct clk_hw *parent_hw = clk_hw_get_parent(hw);
struct ccu_pll *pll = to_ccu_pll(hw);
unsigned long flags;
u32 val = 0;
int ret;
if (!parent_hw) {
pr_err("Can't enable '%s' with no parent", clk_hw_get_name(hw));
return -EINVAL;
}
regmap_read(pll->sys_regs, pll->reg_ctl, &val);
if (val & CCU_PLL_CTL_EN)
return 0;
spin_lock_irqsave(&pll->lock, flags);
regmap_write(pll->sys_regs, pll->reg_ctl, val | CCU_PLL_CTL_EN);
ret = ccu_pll_reset(pll, clk_hw_get_rate(parent_hw),
FIELD_GET(CCU_PLL_CTL_CLKR_MASK, val) + 1);
spin_unlock_irqrestore(&pll->lock, flags);
if (ret)
pr_err("PLL '%s' reset timed out\n", clk_hw_get_name(hw));
return ret;
}
static void ccu_pll_disable(struct clk_hw *hw)
{
struct ccu_pll *pll = to_ccu_pll(hw);
unsigned long flags;
spin_lock_irqsave(&pll->lock, flags);
regmap_update_bits(pll->sys_regs, pll->reg_ctl, CCU_PLL_CTL_EN, 0);
spin_unlock_irqrestore(&pll->lock, flags);
}
static int ccu_pll_is_enabled(struct clk_hw *hw)
{
struct ccu_pll *pll = to_ccu_pll(hw);
u32 val = 0;
regmap_read(pll->sys_regs, pll->reg_ctl, &val);
return !!(val & CCU_PLL_CTL_EN);
}
static unsigned long ccu_pll_recalc_rate(struct clk_hw *hw,
unsigned long parent_rate)
{
struct ccu_pll *pll = to_ccu_pll(hw);
unsigned long nr, nf, od;
u32 val = 0;
regmap_read(pll->sys_regs, pll->reg_ctl, &val);
nr = FIELD_GET(CCU_PLL_CTL_CLKR_MASK, val) + 1;
nf = FIELD_GET(CCU_PLL_CTL_CLKF_MASK, val) + 1;
od = FIELD_GET(CCU_PLL_CTL_CLKOD_MASK, val) + 1;
return ccu_pll_calc_freq(parent_rate, nr, nf, od);
}
static void ccu_pll_calc_factors(unsigned long rate, unsigned long parent_rate,
unsigned long *nr, unsigned long *nf,
unsigned long *od)
{
unsigned long err, freq, min_err = ULONG_MAX;
unsigned long num, denom, n1, d1, nri;
unsigned long nr_max, nf_max, od_max;
/*
* Make sure PLL is working with valid input signal (Fdiv). If
* you want to speed the function up just reduce CCU_PLL_NR_MAX.
* This will cause a worse approximation though.
*/
nri = (parent_rate / CCU_PLL_FDIV_MAX) + 1;
nr_max = min(parent_rate / CCU_PLL_FDIV_MIN, CCU_PLL_NR_MAX);
/*
* Find a closest [nr;nf;od] vector taking into account the
* limitations like: 1) 700MHz <= Fvco <= 3.5GHz, 2) PLL Od is
* either 1 or even number within the acceptable range (alas 1s
* is also excluded by the next loop).
*/
for (; nri <= nr_max; ++nri) {
/* Use Od factor to fulfill the limitation 2). */
num = CCU_PLL_CLKOD_FACTOR * rate;
denom = parent_rate / nri;
/*
* Make sure Fvco is within the acceptable range to fulfill
* the condition 1). Note due to the CCU_PLL_CLKOD_FACTOR value
* the actual upper limit is also divided by that factor.
* It's not big problem for us since practically there is no
* need in clocks with that high frequency.
*/
nf_max = min(CCU_PLL_FVCO_MAX / denom, CCU_PLL_NF_MAX);
od_max = CCU_PLL_OD_MAX / CCU_PLL_CLKOD_FACTOR;
/*
* Bypass the out-of-bound values, which can't be properly
* handled by the rational fraction approximation algorithm.
*/
if (num / denom >= nf_max) {
n1 = nf_max;
d1 = 1;
} else if (denom / num >= od_max) {
n1 = 1;
d1 = od_max;
} else {
rational_best_approximation(num, denom, nf_max, od_max,
&n1, &d1);
}
/* Select the best approximation of the target rate. */
freq = ccu_pll_calc_freq(parent_rate, nri, n1, d1);
err = abs((int64_t)freq - num);
if (err < min_err) {
min_err = err;
*nr = nri;
*nf = n1;
*od = CCU_PLL_CLKOD_FACTOR * d1;
}
}
}
static long ccu_pll_round_rate(struct clk_hw *hw, unsigned long rate,
unsigned long *parent_rate)
{
unsigned long nr = 1, nf = 1, od = 1;
ccu_pll_calc_factors(rate, *parent_rate, &nr, &nf, &od);
return ccu_pll_calc_freq(*parent_rate, nr, nf, od);
}
/*
* This method is used for PLLs, which support the on-the-fly dividers
* adjustment. So there is no need in gating such clocks.
*/
static int ccu_pll_set_rate_reset(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct ccu_pll *pll = to_ccu_pll(hw);
unsigned long nr, nf, od;
unsigned long flags;
u32 mask, val;
int ret;
ccu_pll_calc_factors(rate, parent_rate, &nr, &nf, &od);
mask = CCU_PLL_CTL_CLKR_MASK | CCU_PLL_CTL_CLKF_MASK |
CCU_PLL_CTL_CLKOD_MASK;
val = FIELD_PREP(CCU_PLL_CTL_CLKR_MASK, nr - 1) |
FIELD_PREP(CCU_PLL_CTL_CLKF_MASK, nf - 1) |
FIELD_PREP(CCU_PLL_CTL_CLKOD_MASK, od - 1);
spin_lock_irqsave(&pll->lock, flags);
regmap_update_bits(pll->sys_regs, pll->reg_ctl, mask, val);
ret = ccu_pll_reset(pll, parent_rate, nr);
spin_unlock_irqrestore(&pll->lock, flags);
if (ret)
pr_err("PLL '%s' reset timed out\n", clk_hw_get_name(hw));
return ret;
}
/*
* This method is used for PLLs, which don't support the on-the-fly dividers
* adjustment. So the corresponding clocks are supposed to be gated first.
*/
static int ccu_pll_set_rate_norst(struct clk_hw *hw, unsigned long rate,
unsigned long parent_rate)
{
struct ccu_pll *pll = to_ccu_pll(hw);
unsigned long nr, nf, od;
unsigned long flags;
u32 mask, val;
ccu_pll_calc_factors(rate, parent_rate, &nr, &nf, &od);
/*
* Disable PLL if it was enabled by default or left enabled by the
* system bootloader.
*/
mask = CCU_PLL_CTL_CLKR_MASK | CCU_PLL_CTL_CLKF_MASK |
CCU_PLL_CTL_CLKOD_MASK | CCU_PLL_CTL_EN;
val = FIELD_PREP(CCU_PLL_CTL_CLKR_MASK, nr - 1) |
FIELD_PREP(CCU_PLL_CTL_CLKF_MASK, nf - 1) |
FIELD_PREP(CCU_PLL_CTL_CLKOD_MASK, od - 1);
spin_lock_irqsave(&pll->lock, flags);
regmap_update_bits(pll->sys_regs, pll->reg_ctl, mask, val);
spin_unlock_irqrestore(&pll->lock, flags);
return 0;
}
#ifdef CONFIG_DEBUG_FS
struct ccu_pll_dbgfs_bit {
struct ccu_pll *pll;
const char *name;
unsigned int reg;
u32 mask;
};
struct ccu_pll_dbgfs_fld {
struct ccu_pll *pll;
const char *name;
unsigned int reg;
unsigned int lsb;
u32 mask;
u32 min;
u32 max;
};
#define CCU_PLL_DBGFS_BIT_ATTR(_name, _reg, _mask) \
{ \
.name = _name, \
.reg = _reg, \
.mask = _mask \
}
#define CCU_PLL_DBGFS_FLD_ATTR(_name, _reg, _lsb, _mask, _min, _max) \
{ \
.name = _name, \
.reg = _reg, \
.lsb = _lsb, \
.mask = _mask, \
.min = _min, \
.max = _max \
}
static const struct ccu_pll_dbgfs_bit ccu_pll_bits[] = {
CCU_PLL_DBGFS_BIT_ATTR("pll_en", CCU_PLL_CTL, CCU_PLL_CTL_EN),
CCU_PLL_DBGFS_BIT_ATTR("pll_rst", CCU_PLL_CTL, CCU_PLL_CTL_RST),
CCU_PLL_DBGFS_BIT_ATTR("pll_bypass", CCU_PLL_CTL, CCU_PLL_CTL_BYPASS),
CCU_PLL_DBGFS_BIT_ATTR("pll_lock", CCU_PLL_CTL, CCU_PLL_CTL_LOCK)
};
#define CCU_PLL_DBGFS_BIT_NUM ARRAY_SIZE(ccu_pll_bits)
static const struct ccu_pll_dbgfs_fld ccu_pll_flds[] = {
CCU_PLL_DBGFS_FLD_ATTR("pll_nr", CCU_PLL_CTL, CCU_PLL_CTL_CLKR_FLD,
CCU_PLL_CTL_CLKR_MASK, 1, CCU_PLL_NR_MAX),
CCU_PLL_DBGFS_FLD_ATTR("pll_nf", CCU_PLL_CTL, CCU_PLL_CTL_CLKF_FLD,
CCU_PLL_CTL_CLKF_MASK, 1, CCU_PLL_NF_MAX),
CCU_PLL_DBGFS_FLD_ATTR("pll_od", CCU_PLL_CTL, CCU_PLL_CTL_CLKOD_FLD,
CCU_PLL_CTL_CLKOD_MASK, 1, CCU_PLL_OD_MAX),
CCU_PLL_DBGFS_FLD_ATTR("pll_nb", CCU_PLL_CTL1, CCU_PLL_CTL1_BWADJ_FLD,
CCU_PLL_CTL1_BWADJ_MASK, 1, CCU_PLL_NB_MAX)
};
#define CCU_PLL_DBGFS_FLD_NUM ARRAY_SIZE(ccu_pll_flds)
/*
* It can be dangerous to change the PLL settings behind clock framework back,
* therefore we don't provide any kernel config based compile time option for
* this feature to enable.
*/
#undef CCU_PLL_ALLOW_WRITE_DEBUGFS
#ifdef CCU_PLL_ALLOW_WRITE_DEBUGFS
static int ccu_pll_dbgfs_bit_set(void *priv, u64 val)
{
const struct ccu_pll_dbgfs_bit *bit = priv;
struct ccu_pll *pll = bit->pll;
unsigned long flags;
spin_lock_irqsave(&pll->lock, flags);
regmap_update_bits(pll->sys_regs, pll->reg_ctl + bit->reg,
bit->mask, val ? bit->mask : 0);
spin_unlock_irqrestore(&pll->lock, flags);
return 0;
}
static int ccu_pll_dbgfs_fld_set(void *priv, u64 val)
{
struct ccu_pll_dbgfs_fld *fld = priv;
struct ccu_pll *pll = fld->pll;
unsigned long flags;
u32 data;
val = clamp_t(u64, val, fld->min, fld->max);
data = ((val - 1) << fld->lsb) & fld->mask;
spin_lock_irqsave(&pll->lock, flags);
regmap_update_bits(pll->sys_regs, pll->reg_ctl + fld->reg, fld->mask,
data);
spin_unlock_irqrestore(&pll->lock, flags);
return 0;
}
#define ccu_pll_dbgfs_mode 0644
#else /* !CCU_PLL_ALLOW_WRITE_DEBUGFS */
#define ccu_pll_dbgfs_bit_set NULL
#define ccu_pll_dbgfs_fld_set NULL
#define ccu_pll_dbgfs_mode 0444
#endif /* !CCU_PLL_ALLOW_WRITE_DEBUGFS */
static int ccu_pll_dbgfs_bit_get(void *priv, u64 *val)
{
struct ccu_pll_dbgfs_bit *bit = priv;
struct ccu_pll *pll = bit->pll;
u32 data = 0;
regmap_read(pll->sys_regs, pll->reg_ctl + bit->reg, &data);
*val = !!(data & bit->mask);
return 0;
}
DEFINE_DEBUGFS_ATTRIBUTE(ccu_pll_dbgfs_bit_fops,
ccu_pll_dbgfs_bit_get, ccu_pll_dbgfs_bit_set, "%llu\n");
static int ccu_pll_dbgfs_fld_get(void *priv, u64 *val)
{
struct ccu_pll_dbgfs_fld *fld = priv;
struct ccu_pll *pll = fld->pll;
u32 data = 0;
regmap_read(pll->sys_regs, pll->reg_ctl + fld->reg, &data);
*val = ((data & fld->mask) >> fld->lsb) + 1;
return 0;
}
DEFINE_DEBUGFS_ATTRIBUTE(ccu_pll_dbgfs_fld_fops,
ccu_pll_dbgfs_fld_get, ccu_pll_dbgfs_fld_set, "%llu\n");
static void ccu_pll_debug_init(struct clk_hw *hw, struct dentry *dentry)
{
struct ccu_pll *pll = to_ccu_pll(hw);
struct ccu_pll_dbgfs_bit *bits;
struct ccu_pll_dbgfs_fld *flds;
int idx;
bits = kcalloc(CCU_PLL_DBGFS_BIT_NUM, sizeof(*bits), GFP_KERNEL);
if (!bits)
return;
for (idx = 0; idx < CCU_PLL_DBGFS_BIT_NUM; ++idx) {
bits[idx] = ccu_pll_bits[idx];
bits[idx].pll = pll;
debugfs_create_file_unsafe(bits[idx].name, ccu_pll_dbgfs_mode,
dentry, &bits[idx],
&ccu_pll_dbgfs_bit_fops);
}
flds = kcalloc(CCU_PLL_DBGFS_FLD_NUM, sizeof(*flds), GFP_KERNEL);
if (!flds)
return;
for (idx = 0; idx < CCU_PLL_DBGFS_FLD_NUM; ++idx) {
flds[idx] = ccu_pll_flds[idx];
flds[idx].pll = pll;
debugfs_create_file_unsafe(flds[idx].name, ccu_pll_dbgfs_mode,
dentry, &flds[idx],
&ccu_pll_dbgfs_fld_fops);
}
}
#else /* !CONFIG_DEBUG_FS */
#define ccu_pll_debug_init NULL
#endif /* !CONFIG_DEBUG_FS */
static const struct clk_ops ccu_pll_gate_to_set_ops = {
.enable = ccu_pll_enable,
.disable = ccu_pll_disable,
.is_enabled = ccu_pll_is_enabled,
.recalc_rate = ccu_pll_recalc_rate,
.round_rate = ccu_pll_round_rate,
.set_rate = ccu_pll_set_rate_norst,
.debug_init = ccu_pll_debug_init
};
static const struct clk_ops ccu_pll_straight_set_ops = {
.enable = ccu_pll_enable,
.disable = ccu_pll_disable,
.is_enabled = ccu_pll_is_enabled,
.recalc_rate = ccu_pll_recalc_rate,
.round_rate = ccu_pll_round_rate,
.set_rate = ccu_pll_set_rate_reset,
.debug_init = ccu_pll_debug_init
};
struct ccu_pll *ccu_pll_hw_register(const struct ccu_pll_init_data *pll_init)
{
struct clk_parent_data parent_data = { };
struct clk_init_data hw_init = { };
struct ccu_pll *pll;
int ret;
if (!pll_init)
return ERR_PTR(-EINVAL);
pll = kzalloc(sizeof(*pll), GFP_KERNEL);
if (!pll)
return ERR_PTR(-ENOMEM);
/*
* Note since Baikal-T1 System Controller registers are MMIO-backed
* we won't check the regmap IO operations return status, because it
* must be zero anyway.
*/
pll->hw.init = &hw_init;
pll->reg_ctl = pll_init->base + CCU_PLL_CTL;
pll->reg_ctl1 = pll_init->base + CCU_PLL_CTL1;
pll->sys_regs = pll_init->sys_regs;
pll->id = pll_init->id;
spin_lock_init(&pll->lock);
hw_init.name = pll_init->name;
hw_init.flags = pll_init->flags;
if (hw_init.flags & CLK_SET_RATE_GATE)
hw_init.ops = &ccu_pll_gate_to_set_ops;
else
hw_init.ops = &ccu_pll_straight_set_ops;
if (!pll_init->parent_name) {
ret = -EINVAL;
goto err_free_pll;
}
parent_data.fw_name = pll_init->parent_name;
hw_init.parent_data = &parent_data;
hw_init.num_parents = 1;
ret = of_clk_hw_register(pll_init->np, &pll->hw);
if (ret)
goto err_free_pll;
return pll;
err_free_pll:
kfree(pll);
return ERR_PTR(ret);
}
void ccu_pll_hw_unregister(struct ccu_pll *pll)
{
clk_hw_unregister(&pll->hw);
kfree(pll);
}