drivers/clk/sprd/pll.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 //
 // Spreadtrum pll clock driver
 //
 // Copyright (C) 2015~2017 Spreadtrum, Inc.
 // Author: Chunyan Zhang <chunyan.zhang@spreadtrum.com>

 #include <linux/delay.h>
 #include <linux/err.h>
 #include <linux/regmap.h>
 #include <linux/slab.h>

 #include "pll.h"

 #define CLK_PLL_1M	1000000
 #define CLK_PLL_10M	(CLK_PLL_1M * 10)

 #define pindex(pll, member)		\
 	(pll->factors[member].shift / (8 * sizeof(pll->regs_num)))

 #define pshift(pll, member)		\
 	(pll->factors[member].shift % (8 * sizeof(pll->regs_num)))

 #define pwidth(pll, member)		\
 	pll->factors[member].width

 #define pmask(pll, member)					\
 	((pwidth(pll, member)) ?				\
 	GENMASK(pwidth(pll, member) + pshift(pll, member) - 1,	\
 	pshift(pll, member)) : 0)

 #define pinternal(pll, cfg, member)	\
 	(cfg[pindex(pll, member)] & pmask(pll, member))

 #define pinternal_val(pll, cfg, member)	\
 	(pinternal(pll, cfg, member) >> pshift(pll, member))

 static inline unsigned int
 sprd_pll_read(const struct sprd_pll *pll, u8 index)
 {
 	const struct sprd_clk_common *common = &pll->common;
 	unsigned int val = 0;

 	if (WARN_ON(index >= pll->regs_num))
 		return 0;

 	regmap_read(common->regmap, common->reg + index * 4, &val);

 	return val;
 }

 static inline void
 sprd_pll_write(const struct sprd_pll *pll, u8 index,
 				  u32 msk, u32 val)
 {
 	const struct sprd_clk_common *common = &pll->common;
 	unsigned int offset, reg;
 	int ret = 0;

 	if (WARN_ON(index >= pll->regs_num))
 		return;

 	offset = common->reg + index * 4;
 	ret = regmap_read(common->regmap, offset, &reg);
 	if (!ret)
 		regmap_write(common->regmap, offset, (reg & ~msk) | val);
 }

 static unsigned long pll_get_refin(const struct sprd_pll *pll)
 {
 	u32 shift, mask, index, refin_id = 3;
 	const unsigned long refin[4] = { 2, 4, 13, 26 };

 	if (pwidth(pll, PLL_REFIN)) {
 		index = pindex(pll, PLL_REFIN);
 		shift = pshift(pll, PLL_REFIN);
 		mask = pmask(pll, PLL_REFIN);
 		refin_id = (sprd_pll_read(pll, index) & mask) >> shift;
 		if (refin_id > 3)
 			refin_id = 3;
 	}

 	return refin[refin_id];
 }

 static u32 pll_get_ibias(u64 rate, const u64 *table)
 {
 	u32 i, num = table[0];

 	/* table[0] indicates the number of items in this table */
 	for (i = 0; i < num; i++)
 		if (rate <= table[i + 1])
 			break;

 	return i == num ? num - 1 : i;
 }

 static unsigned long _sprd_pll_recalc_rate(const struct sprd_pll *pll,
 					   unsigned long parent_rate)
 {
 	u32 *cfg;
 	u32 i, mask, regs_num = pll->regs_num;
 	unsigned long rate, nint, kint = 0;
 	u64 refin;
 	u16 k1, k2;

 	cfg = kcalloc(regs_num, sizeof(*cfg), GFP_KERNEL);
 	if (!cfg)
 		return parent_rate;

 	for (i = 0; i < regs_num; i++)
 		cfg[i] = sprd_pll_read(pll, i);

 	refin = pll_get_refin(pll);

 	if (pinternal(pll, cfg, PLL_PREDIV))
 		refin = refin * 2;

 	if (pwidth(pll, PLL_POSTDIV) &&
 	    ((pll->fflag == 1 && pinternal(pll, cfg, PLL_POSTDIV)) ||
 	     (!pll->fflag && !pinternal(pll, cfg, PLL_POSTDIV))))
 		refin = refin / 2;

 	if (!pinternal(pll, cfg, PLL_DIV_S)) {
 		rate = refin * pinternal_val(pll, cfg, PLL_N) * CLK_PLL_10M;
 	} else {
 		nint = pinternal_val(pll, cfg, PLL_NINT);
 		if (pinternal(pll, cfg, PLL_SDM_EN))
 			kint = pinternal_val(pll, cfg, PLL_KINT);

 		mask = pmask(pll, PLL_KINT);

 		k1 = pll->k1;
 		k2 = pll->k2;
 		rate = DIV_ROUND_CLOSEST_ULL(refin * kint * k1,
 					 ((mask >> __ffs(mask)) + 1)) *
 					 k2 + refin * nint * CLK_PLL_1M;
 	}

 	kfree(cfg);
 	return rate;
 }

 #define SPRD_PLL_WRITE_CHECK(pll, i, mask, val)		\
 	(((sprd_pll_read(pll, i) & mask) == val) ? 0 : (-EFAULT))

 static int _sprd_pll_set_rate(const struct sprd_pll *pll,
 			      unsigned long rate,
 			      unsigned long parent_rate)
 {
 	struct reg_cfg *cfg;
 	int ret = 0;
 	u32 mask, shift, width, ibias_val, index;
 	u32 regs_num = pll->regs_num, i = 0;
 	unsigned long kint, nint;
 	u64 tmp, refin, fvco = rate;

 	cfg = kcalloc(regs_num, sizeof(*cfg), GFP_KERNEL);
 	if (!cfg)
 		return -ENOMEM;

 	refin = pll_get_refin(pll);

 	mask = pmask(pll, PLL_PREDIV);
 	index = pindex(pll, PLL_PREDIV);
 	width = pwidth(pll, PLL_PREDIV);
 	if (width && (sprd_pll_read(pll, index) & mask))
 		refin = refin * 2;

 	mask = pmask(pll, PLL_POSTDIV);
 	index = pindex(pll, PLL_POSTDIV);
 	width = pwidth(pll, PLL_POSTDIV);
 	cfg[index].msk = mask;
 	if (width && ((pll->fflag == 1 && fvco <= pll->fvco) ||
 		      (pll->fflag == 0 && fvco > pll->fvco)))
 		cfg[index].val |= mask;

 	if (width && fvco <= pll->fvco)
 		fvco = fvco * 2;

 	mask = pmask(pll, PLL_DIV_S);
 	index = pindex(pll, PLL_DIV_S);
 	cfg[index].val |= mask;
 	cfg[index].msk |= mask;

 	mask = pmask(pll, PLL_SDM_EN);
 	index = pindex(pll, PLL_SDM_EN);
 	cfg[index].val |= mask;
 	cfg[index].msk |= mask;

 	nint = do_div(fvco, refin * CLK_PLL_1M);
 	mask = pmask(pll, PLL_NINT);
 	index = pindex(pll, PLL_NINT);
 	shift = pshift(pll, PLL_NINT);
 	cfg[index].val |= (nint << shift) & mask;
 	cfg[index].msk |= mask;

 	mask = pmask(pll, PLL_KINT);
 	index = pindex(pll, PLL_KINT);
 	width = pwidth(pll, PLL_KINT);
 	shift = pshift(pll, PLL_KINT);
 	tmp = fvco - refin * nint * CLK_PLL_1M;
 	tmp = do_div(tmp, 10000) * ((mask >> shift) + 1);
 	kint = DIV_ROUND_CLOSEST_ULL(tmp, refin * 100);
 	cfg[index].val |= (kint << shift) & mask;
 	cfg[index].msk |= mask;

 	ibias_val = pll_get_ibias(fvco, pll->itable);

 	mask = pmask(pll, PLL_IBIAS);
 	index = pindex(pll, PLL_IBIAS);
 	shift = pshift(pll, PLL_IBIAS);
 	cfg[index].val |= ibias_val << shift & mask;
 	cfg[index].msk |= mask;

 	for (i = 0; i < regs_num; i++) {
 		if (cfg[i].msk) {
 			sprd_pll_write(pll, i, cfg[i].msk, cfg[i].val);
 			ret |= SPRD_PLL_WRITE_CHECK(pll, i, cfg[i].msk,
 						   cfg[i].val);
 		}
 	}

 	if (!ret)
 		udelay(pll->udelay);

 	kfree(cfg);
 	return ret;
 }

 static unsigned long sprd_pll_recalc_rate(struct clk_hw *hw,
 					  unsigned long parent_rate)
 {
 	struct sprd_pll *pll = hw_to_sprd_pll(hw);

 	return _sprd_pll_recalc_rate(pll, parent_rate);
 }

 static int sprd_pll_set_rate(struct clk_hw *hw,
 			     unsigned long rate,
 			     unsigned long parent_rate)
 {
 	struct sprd_pll *pll = hw_to_sprd_pll(hw);

 	return _sprd_pll_set_rate(pll, rate, parent_rate);
 }

 static int sprd_pll_clk_prepare(struct clk_hw *hw)
 {
 	struct sprd_pll *pll = hw_to_sprd_pll(hw);

 	udelay(pll->udelay);

 	return 0;
 }

 static long sprd_pll_round_rate(struct clk_hw *hw, unsigned long rate,
 				unsigned long *prate)
 {
 	return rate;
 }

 const struct clk_ops sprd_pll_ops = {
 	.prepare = sprd_pll_clk_prepare,
 	.recalc_rate = sprd_pll_recalc_rate,
 	.round_rate = sprd_pll_round_rate,
 	.set_rate = sprd_pll_set_rate,
 };
 EXPORT_SYMBOL_GPL(sprd_pll_ops);
	// SPDX-License-Identifier: GPL-2.0
	//
	// Spreadtrum pll clock driver
	//
	// Copyright (C) 2015~2017 Spreadtrum, Inc.
	// Author: Chunyan Zhang <chunyan.zhang@spreadtrum.com>

	#include <linux/delay.h>
	#include <linux/err.h>
	#include <linux/regmap.h>
	#include <linux/slab.h>

	#include "pll.h"

	#define CLK_PLL_1M 1000000
	#define CLK_PLL_10M (CLK_PLL_1M * 10)

	#define pindex(pll, member) \
	(pll->factors[member].shift / (8 * sizeof(pll->regs_num)))

	#define pshift(pll, member) \
	(pll->factors[member].shift % (8 * sizeof(pll->regs_num)))

	#define pwidth(pll, member) \
	pll->factors[member].width

	#define pmask(pll, member) \
	((pwidth(pll, member)) ? \
	GENMASK(pwidth(pll, member) + pshift(pll, member) - 1, \
	pshift(pll, member)) : 0)

	#define pinternal(pll, cfg, member) \
	(cfg[pindex(pll, member)] & pmask(pll, member))

	#define pinternal_val(pll, cfg, member) \
	(pinternal(pll, cfg, member) >> pshift(pll, member))

	static inline unsigned int
	sprd_pll_read(const struct sprd_pll *pll, u8 index)
	{
	const struct sprd_clk_common *common = &pll->common;
	unsigned int val = 0;

	if (WARN_ON(index >= pll->regs_num))
	return 0;

	regmap_read(common->regmap, common->reg + index * 4, &val);

	return val;
	}

	static inline void
	sprd_pll_write(const struct sprd_pll *pll, u8 index,
	u32 msk, u32 val)
	{
	const struct sprd_clk_common *common = &pll->common;
	unsigned int offset, reg;
	int ret = 0;

	if (WARN_ON(index >= pll->regs_num))
	return;

	offset = common->reg + index * 4;
	ret = regmap_read(common->regmap, offset, &reg);
	if (!ret)
	regmap_write(common->regmap, offset, (reg & ~msk) \| val);
	}

	static unsigned long pll_get_refin(const struct sprd_pll *pll)
	{
	u32 shift, mask, index, refin_id = 3;
	const unsigned long refin[4] = { 2, 4, 13, 26 };

	if (pwidth(pll, PLL_REFIN)) {
	index = pindex(pll, PLL_REFIN);
	shift = pshift(pll, PLL_REFIN);
	mask = pmask(pll, PLL_REFIN);
	refin_id = (sprd_pll_read(pll, index) & mask) >> shift;
	if (refin_id > 3)
	refin_id = 3;
	}

	return refin[refin_id];
	}

	static u32 pll_get_ibias(u64 rate, const u64 *table)
	{
	u32 i, num = table[0];

	/* table[0] indicates the number of items in this table */
	for (i = 0; i < num; i++)
	if (rate <= table[i + 1])
	break;

	return i == num ? num - 1 : i;
	}

	static unsigned long _sprd_pll_recalc_rate(const struct sprd_pll *pll,
	unsigned long parent_rate)
	{
	u32 *cfg;
	u32 i, mask, regs_num = pll->regs_num;
	unsigned long rate, nint, kint = 0;
	u64 refin;
	u16 k1, k2;

	cfg = kcalloc(regs_num, sizeof(*cfg), GFP_KERNEL);
	if (!cfg)
	return parent_rate;

	for (i = 0; i < regs_num; i++)
	cfg[i] = sprd_pll_read(pll, i);

	refin = pll_get_refin(pll);

	if (pinternal(pll, cfg, PLL_PREDIV))
	refin = refin * 2;

	if (pwidth(pll, PLL_POSTDIV) &&
	((pll->fflag == 1 && pinternal(pll, cfg, PLL_POSTDIV)) \|\|
	(!pll->fflag && !pinternal(pll, cfg, PLL_POSTDIV))))
	refin = refin / 2;

	if (!pinternal(pll, cfg, PLL_DIV_S)) {
	rate = refin * pinternal_val(pll, cfg, PLL_N) * CLK_PLL_10M;
	} else {
	nint = pinternal_val(pll, cfg, PLL_NINT);
	if (pinternal(pll, cfg, PLL_SDM_EN))
	kint = pinternal_val(pll, cfg, PLL_KINT);

	mask = pmask(pll, PLL_KINT);

	k1 = pll->k1;
	k2 = pll->k2;
	rate = DIV_ROUND_CLOSEST_ULL(refin * kint * k1,
	((mask >> __ffs(mask)) + 1)) *
	k2 + refin * nint * CLK_PLL_1M;
	}

	kfree(cfg);
	return rate;
	}

	#define SPRD_PLL_WRITE_CHECK(pll, i, mask, val) \
	(((sprd_pll_read(pll, i) & mask) == val) ? 0 : (-EFAULT))

	static int _sprd_pll_set_rate(const struct sprd_pll *pll,
	unsigned long rate,
	unsigned long parent_rate)
	{
	struct reg_cfg *cfg;
	int ret = 0;
	u32 mask, shift, width, ibias_val, index;
	u32 regs_num = pll->regs_num, i = 0;
	unsigned long kint, nint;
	u64 tmp, refin, fvco = rate;

	cfg = kcalloc(regs_num, sizeof(*cfg), GFP_KERNEL);
	if (!cfg)
	return -ENOMEM;

	refin = pll_get_refin(pll);

	mask = pmask(pll, PLL_PREDIV);
	index = pindex(pll, PLL_PREDIV);
	width = pwidth(pll, PLL_PREDIV);
	if (width && (sprd_pll_read(pll, index) & mask))
	refin = refin * 2;

	mask = pmask(pll, PLL_POSTDIV);
	index = pindex(pll, PLL_POSTDIV);
	width = pwidth(pll, PLL_POSTDIV);
	cfg[index].msk = mask;
	if (width && ((pll->fflag == 1 && fvco <= pll->fvco) \|\|
	(pll->fflag == 0 && fvco > pll->fvco)))
	cfg[index].val \|= mask;

	if (width && fvco <= pll->fvco)
	fvco = fvco * 2;

	mask = pmask(pll, PLL_DIV_S);
	index = pindex(pll, PLL_DIV_S);
	cfg[index].val \|= mask;
	cfg[index].msk \|= mask;

	mask = pmask(pll, PLL_SDM_EN);
	index = pindex(pll, PLL_SDM_EN);
	cfg[index].val \|= mask;
	cfg[index].msk \|= mask;

	nint = do_div(fvco, refin * CLK_PLL_1M);
	mask = pmask(pll, PLL_NINT);
	index = pindex(pll, PLL_NINT);
	shift = pshift(pll, PLL_NINT);
	cfg[index].val \|= (nint << shift) & mask;
	cfg[index].msk \|= mask;

	mask = pmask(pll, PLL_KINT);
	index = pindex(pll, PLL_KINT);
	width = pwidth(pll, PLL_KINT);
	shift = pshift(pll, PLL_KINT);
	tmp = fvco - refin * nint * CLK_PLL_1M;
	tmp = do_div(tmp, 10000) * ((mask >> shift) + 1);
	kint = DIV_ROUND_CLOSEST_ULL(tmp, refin * 100);
	cfg[index].val \|= (kint << shift) & mask;
	cfg[index].msk \|= mask;

	ibias_val = pll_get_ibias(fvco, pll->itable);

	mask = pmask(pll, PLL_IBIAS);
	index = pindex(pll, PLL_IBIAS);
	shift = pshift(pll, PLL_IBIAS);
	cfg[index].val \|= ibias_val << shift & mask;
	cfg[index].msk \|= mask;

	for (i = 0; i < regs_num; i++) {
	if (cfg[i].msk) {
	sprd_pll_write(pll, i, cfg[i].msk, cfg[i].val);
	ret \|= SPRD_PLL_WRITE_CHECK(pll, i, cfg[i].msk,
	cfg[i].val);
	}
	}

	if (!ret)
	udelay(pll->udelay);

	kfree(cfg);
	return ret;
	}

	static unsigned long sprd_pll_recalc_rate(struct clk_hw *hw,
	unsigned long parent_rate)
	{
	struct sprd_pll *pll = hw_to_sprd_pll(hw);

	return _sprd_pll_recalc_rate(pll, parent_rate);
	}

	static int sprd_pll_set_rate(struct clk_hw *hw,
	unsigned long rate,
	unsigned long parent_rate)
	{
	struct sprd_pll *pll = hw_to_sprd_pll(hw);

	return _sprd_pll_set_rate(pll, rate, parent_rate);
	}

	static int sprd_pll_clk_prepare(struct clk_hw *hw)
	{
	struct sprd_pll *pll = hw_to_sprd_pll(hw);

	udelay(pll->udelay);

	return 0;
	}

	static long sprd_pll_round_rate(struct clk_hw *hw, unsigned long rate,
	unsigned long *prate)
	{
	return rate;
	}

	const struct clk_ops sprd_pll_ops = {
	.prepare = sprd_pll_clk_prepare,
	.recalc_rate = sprd_pll_recalc_rate,
	.round_rate = sprd_pll_round_rate,
	.set_rate = sprd_pll_set_rate,
	};
	EXPORT_SYMBOL_GPL(sprd_pll_ops);