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path: root/drivers/pwm/pwm-atmel.c
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// SPDX-License-Identifier: GPL-2.0-only
/*
 * Driver for Atmel Pulse Width Modulation Controller
 *
 * Copyright (C) 2013 Atmel Corporation
 *		 Bo Shen <voice.shen@atmel.com>
 *
 * Links to reference manuals for the supported PWM chips can be found in
 * Documentation/arch/arm/microchip.rst.
 *
 * Limitations:
 * - Periods start with the inactive level.
 * - Hardware has to be stopped in general to update settings.
 *
 * Software bugs/possible improvements:
 * - When atmel_pwm_apply() is called with state->enabled=false a change in
 *   state->polarity isn't honored.
 * - Instead of sleeping to wait for a completed period, the interrupt
 *   functionality could be used.
 */

#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/err.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/platform_device.h>
#include <linux/pwm.h>
#include <linux/slab.h>

/* The following is global registers for PWM controller */
#define PWM_ENA			0x04
#define PWM_DIS			0x08
#define PWM_SR			0x0C
#define PWM_ISR			0x1C
/* Bit field in SR */
#define PWM_SR_ALL_CH_MASK	0x0F

/* The following register is PWM channel related registers */
#define PWM_CH_REG_OFFSET	0x200
#define PWM_CH_REG_SIZE		0x20

#define PWM_CMR			0x0
/* Bit field in CMR */
#define PWM_CMR_CPOL		(1 << 9)
#define PWM_CMR_UPD_CDTY	(1 << 10)
#define PWM_CMR_CPRE_MSK	0xF

/* The following registers for PWM v1 */
#define PWMV1_CDTY		0x04
#define PWMV1_CPRD		0x08
#define PWMV1_CUPD		0x10

/* The following registers for PWM v2 */
#define PWMV2_CDTY		0x04
#define PWMV2_CDTYUPD		0x08
#define PWMV2_CPRD		0x0C
#define PWMV2_CPRDUPD		0x10

#define PWM_MAX_PRES		10

struct atmel_pwm_registers {
	u8 period;
	u8 period_upd;
	u8 duty;
	u8 duty_upd;
};

struct atmel_pwm_config {
	u32 period_bits;
};

struct atmel_pwm_data {
	struct atmel_pwm_registers regs;
	struct atmel_pwm_config cfg;
};

struct atmel_pwm_chip {
	struct clk *clk;
	void __iomem *base;
	const struct atmel_pwm_data *data;

	/*
	 * The hardware supports a mechanism to update a channel's duty cycle at
	 * the end of the currently running period. When such an update is
	 * pending we delay disabling the PWM until the new configuration is
	 * active because otherwise pmw_config(duty_cycle=0); pwm_disable();
	 * might not result in an inactive output.
	 * This bitmask tracks for which channels an update is pending in
	 * hardware.
	 */
	u32 update_pending;

	/* Protects .update_pending */
	spinlock_t lock;
};

static inline struct atmel_pwm_chip *to_atmel_pwm_chip(struct pwm_chip *chip)
{
	return pwmchip_get_drvdata(chip);
}

static inline u32 atmel_pwm_readl(struct atmel_pwm_chip *chip,
				  unsigned long offset)
{
	return readl_relaxed(chip->base + offset);
}

static inline void atmel_pwm_writel(struct atmel_pwm_chip *chip,
				    unsigned long offset, unsigned long val)
{
	writel_relaxed(val, chip->base + offset);
}

static inline u32 atmel_pwm_ch_readl(struct atmel_pwm_chip *chip,
				     unsigned int ch, unsigned long offset)
{
	unsigned long base = PWM_CH_REG_OFFSET + ch * PWM_CH_REG_SIZE;

	return atmel_pwm_readl(chip, base + offset);
}

static inline void atmel_pwm_ch_writel(struct atmel_pwm_chip *chip,
				       unsigned int ch, unsigned long offset,
				       unsigned long val)
{
	unsigned long base = PWM_CH_REG_OFFSET + ch * PWM_CH_REG_SIZE;

	atmel_pwm_writel(chip, base + offset, val);
}

static void atmel_pwm_update_pending(struct atmel_pwm_chip *chip)
{
	/*
	 * Each channel that has its bit in ISR set started a new period since
	 * ISR was cleared and so there is no more update pending.  Note that
	 * reading ISR clears it, so this needs to handle all channels to not
	 * loose information.
	 */
	u32 isr = atmel_pwm_readl(chip, PWM_ISR);

	chip->update_pending &= ~isr;
}

static void atmel_pwm_set_pending(struct atmel_pwm_chip *chip, unsigned int ch)
{
	spin_lock(&chip->lock);

	/*
	 * Clear pending flags in hardware because otherwise there might still
	 * be a stale flag in ISR.
	 */
	atmel_pwm_update_pending(chip);

	chip->update_pending |= (1 << ch);

	spin_unlock(&chip->lock);
}

static int atmel_pwm_test_pending(struct atmel_pwm_chip *chip, unsigned int ch)
{
	int ret = 0;

	spin_lock(&chip->lock);

	if (chip->update_pending & (1 << ch)) {
		atmel_pwm_update_pending(chip);

		if (chip->update_pending & (1 << ch))
			ret = 1;
	}

	spin_unlock(&chip->lock);

	return ret;
}

static int atmel_pwm_wait_nonpending(struct atmel_pwm_chip *chip, unsigned int ch)
{
	unsigned long timeout = jiffies + 2 * HZ;
	int ret;

	while ((ret = atmel_pwm_test_pending(chip, ch)) &&
	       time_before(jiffies, timeout))
		usleep_range(10, 100);

	return ret ? -ETIMEDOUT : 0;
}

static int atmel_pwm_calculate_cprd_and_pres(struct pwm_chip *chip,
					     unsigned long clkrate,
					     const struct pwm_state *state,
					     unsigned long *cprd, u32 *pres)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	unsigned long long cycles = state->period;
	int shift;

	/* Calculate the period cycles and prescale value */
	cycles *= clkrate;
	do_div(cycles, NSEC_PER_SEC);

	/*
	 * The register for the period length is cfg.period_bits bits wide.
	 * So for each bit the number of clock cycles is wider divide the input
	 * clock frequency by two using pres and shift cprd accordingly.
	 */
	shift = fls(cycles) - atmel_pwm->data->cfg.period_bits;

	if (shift > PWM_MAX_PRES) {
		dev_err(pwmchip_parent(chip), "pres exceeds the maximum value\n");
		return -EINVAL;
	} else if (shift > 0) {
		*pres = shift;
		cycles >>= *pres;
	} else {
		*pres = 0;
	}

	*cprd = cycles;

	return 0;
}

static void atmel_pwm_calculate_cdty(const struct pwm_state *state,
				     unsigned long clkrate, unsigned long cprd,
				     u32 pres, unsigned long *cdty)
{
	unsigned long long cycles = state->duty_cycle;

	cycles *= clkrate;
	do_div(cycles, NSEC_PER_SEC);
	cycles >>= pres;
	*cdty = cprd - cycles;
}

static void atmel_pwm_update_cdty(struct pwm_chip *chip, struct pwm_device *pwm,
				  unsigned long cdty)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	u32 val;

	if (atmel_pwm->data->regs.duty_upd ==
	    atmel_pwm->data->regs.period_upd) {
		val = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
		val &= ~PWM_CMR_UPD_CDTY;
		atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm, PWM_CMR, val);
	}

	atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
			    atmel_pwm->data->regs.duty_upd, cdty);
	atmel_pwm_set_pending(atmel_pwm, pwm->hwpwm);
}

static void atmel_pwm_set_cprd_cdty(struct pwm_chip *chip,
				    struct pwm_device *pwm,
				    unsigned long cprd, unsigned long cdty)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);

	atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
			    atmel_pwm->data->regs.duty, cdty);
	atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
			    atmel_pwm->data->regs.period, cprd);
}

static void atmel_pwm_disable(struct pwm_chip *chip, struct pwm_device *pwm,
			      bool disable_clk)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	unsigned long timeout;

	atmel_pwm_wait_nonpending(atmel_pwm, pwm->hwpwm);

	atmel_pwm_writel(atmel_pwm, PWM_DIS, 1 << pwm->hwpwm);

	/*
	 * Wait for the PWM channel disable operation to be effective before
	 * stopping the clock.
	 */
	timeout = jiffies + 2 * HZ;

	while ((atmel_pwm_readl(atmel_pwm, PWM_SR) & (1 << pwm->hwpwm)) &&
	       time_before(jiffies, timeout))
		usleep_range(10, 100);

	if (disable_clk)
		clk_disable(atmel_pwm->clk);
}

static int atmel_pwm_apply(struct pwm_chip *chip, struct pwm_device *pwm,
			   const struct pwm_state *state)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	unsigned long cprd, cdty;
	u32 pres, val;
	int ret;

	if (state->enabled) {
		unsigned long clkrate = clk_get_rate(atmel_pwm->clk);

		if (pwm->state.enabled &&
		    pwm->state.polarity == state->polarity &&
		    pwm->state.period == state->period) {
			u32 cmr = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);

			cprd = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
						  atmel_pwm->data->regs.period);
			pres = cmr & PWM_CMR_CPRE_MSK;

			atmel_pwm_calculate_cdty(state, clkrate, cprd, pres, &cdty);
			atmel_pwm_update_cdty(chip, pwm, cdty);
			return 0;
		}

		ret = atmel_pwm_calculate_cprd_and_pres(chip, clkrate, state, &cprd,
							&pres);
		if (ret) {
			dev_err(pwmchip_parent(chip),
				"failed to calculate cprd and prescaler\n");
			return ret;
		}

		atmel_pwm_calculate_cdty(state, clkrate, cprd, pres, &cdty);

		if (pwm->state.enabled) {
			atmel_pwm_disable(chip, pwm, false);
		} else {
			ret = clk_enable(atmel_pwm->clk);
			if (ret) {
				dev_err(pwmchip_parent(chip), "failed to enable clock\n");
				return ret;
			}
		}

		/* It is necessary to preserve CPOL, inside CMR */
		val = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
		val = (val & ~PWM_CMR_CPRE_MSK) | (pres & PWM_CMR_CPRE_MSK);
		if (state->polarity == PWM_POLARITY_NORMAL)
			val &= ~PWM_CMR_CPOL;
		else
			val |= PWM_CMR_CPOL;
		atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm, PWM_CMR, val);
		atmel_pwm_set_cprd_cdty(chip, pwm, cprd, cdty);
		atmel_pwm_writel(atmel_pwm, PWM_ENA, 1 << pwm->hwpwm);
	} else if (pwm->state.enabled) {
		atmel_pwm_disable(chip, pwm, true);
	}

	return 0;
}

static int atmel_pwm_get_state(struct pwm_chip *chip, struct pwm_device *pwm,
			       struct pwm_state *state)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	u32 sr, cmr;

	sr = atmel_pwm_readl(atmel_pwm, PWM_SR);
	cmr = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);

	if (sr & (1 << pwm->hwpwm)) {
		unsigned long rate = clk_get_rate(atmel_pwm->clk);
		u32 cdty, cprd, pres;
		u64 tmp;

		pres = cmr & PWM_CMR_CPRE_MSK;

		cprd = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
					  atmel_pwm->data->regs.period);
		tmp = (u64)cprd * NSEC_PER_SEC;
		tmp <<= pres;
		state->period = DIV64_U64_ROUND_UP(tmp, rate);

		/* Wait for an updated duty_cycle queued in hardware */
		atmel_pwm_wait_nonpending(atmel_pwm, pwm->hwpwm);

		cdty = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
					  atmel_pwm->data->regs.duty);
		tmp = (u64)(cprd - cdty) * NSEC_PER_SEC;
		tmp <<= pres;
		state->duty_cycle = DIV64_U64_ROUND_UP(tmp, rate);

		state->enabled = true;
	} else {
		state->enabled = false;
	}

	if (cmr & PWM_CMR_CPOL)
		state->polarity = PWM_POLARITY_INVERSED;
	else
		state->polarity = PWM_POLARITY_NORMAL;

	return 0;
}

static const struct pwm_ops atmel_pwm_ops = {
	.apply = atmel_pwm_apply,
	.get_state = atmel_pwm_get_state,
};

static const struct atmel_pwm_data atmel_sam9rl_pwm_data = {
	.regs = {
		.period		= PWMV1_CPRD,
		.period_upd	= PWMV1_CUPD,
		.duty		= PWMV1_CDTY,
		.duty_upd	= PWMV1_CUPD,
	},
	.cfg = {
		/* 16 bits to keep period and duty. */
		.period_bits	= 16,
	},
};

static const struct atmel_pwm_data atmel_sama5_pwm_data = {
	.regs = {
		.period		= PWMV2_CPRD,
		.period_upd	= PWMV2_CPRDUPD,
		.duty		= PWMV2_CDTY,
		.duty_upd	= PWMV2_CDTYUPD,
	},
	.cfg = {
		/* 16 bits to keep period and duty. */
		.period_bits	= 16,
	},
};

static const struct atmel_pwm_data mchp_sam9x60_pwm_data = {
	.regs = {
		.period		= PWMV1_CPRD,
		.period_upd	= PWMV1_CUPD,
		.duty		= PWMV1_CDTY,
		.duty_upd	= PWMV1_CUPD,
	},
	.cfg = {
		/* 32 bits to keep period and duty. */
		.period_bits	= 32,
	},
};

static const struct of_device_id atmel_pwm_dt_ids[] = {
	{
		.compatible = "atmel,at91sam9rl-pwm",
		.data = &atmel_sam9rl_pwm_data,
	}, {
		.compatible = "atmel,sama5d3-pwm",
		.data = &atmel_sama5_pwm_data,
	}, {
		.compatible = "atmel,sama5d2-pwm",
		.data = &atmel_sama5_pwm_data,
	}, {
		.compatible = "microchip,sam9x60-pwm",
		.data = &mchp_sam9x60_pwm_data,
	}, {
		/* sentinel */
	},
};
MODULE_DEVICE_TABLE(of, atmel_pwm_dt_ids);

static int atmel_pwm_enable_clk_if_on(struct pwm_chip *chip, bool on)
{
	struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
	unsigned int i, cnt = 0;
	unsigned long sr;
	int ret = 0;

	sr = atmel_pwm_readl(atmel_pwm, PWM_SR) & PWM_SR_ALL_CH_MASK;
	if (!sr)
		return 0;

	cnt = bitmap_weight(&sr, chip->npwm);

	if (!on)
		goto disable_clk;

	for (i = 0; i < cnt; i++) {
		ret = clk_enable(atmel_pwm->clk);
		if (ret) {
			dev_err(pwmchip_parent(chip),
				"failed to enable clock for pwm %pe\n",
				ERR_PTR(ret));

			cnt = i;
			goto disable_clk;
		}
	}

	return 0;

disable_clk:
	while (cnt--)
		clk_disable(atmel_pwm->clk);

	return ret;
}

static int atmel_pwm_probe(struct platform_device *pdev)
{
	struct atmel_pwm_chip *atmel_pwm;
	struct pwm_chip *chip;
	int ret;

	chip = devm_pwmchip_alloc(&pdev->dev, 4, sizeof(*atmel_pwm));
	if (IS_ERR(chip))
		return PTR_ERR(chip);

	atmel_pwm = to_atmel_pwm_chip(chip);
	atmel_pwm->data = of_device_get_match_data(&pdev->dev);

	atmel_pwm->update_pending = 0;
	spin_lock_init(&atmel_pwm->lock);

	atmel_pwm->base = devm_platform_ioremap_resource(pdev, 0);
	if (IS_ERR(atmel_pwm->base))
		return PTR_ERR(atmel_pwm->base);

	atmel_pwm->clk = devm_clk_get_prepared(&pdev->dev, NULL);
	if (IS_ERR(atmel_pwm->clk))
		return dev_err_probe(&pdev->dev, PTR_ERR(atmel_pwm->clk),
				     "failed to get prepared PWM clock\n");

	chip->ops = &atmel_pwm_ops;

	ret = atmel_pwm_enable_clk_if_on(chip, true);
	if (ret < 0)
		return ret;

	ret = devm_pwmchip_add(&pdev->dev, chip);
	if (ret < 0) {
		dev_err_probe(&pdev->dev, ret, "failed to add PWM chip\n");
		goto disable_clk;
	}

	return 0;

disable_clk:
	atmel_pwm_enable_clk_if_on(chip, false);

	return ret;
}

static struct platform_driver atmel_pwm_driver = {
	.driver = {
		.name = "atmel-pwm",
		.of_match_table = atmel_pwm_dt_ids,
	},
	.probe = atmel_pwm_probe,
};
module_platform_driver(atmel_pwm_driver);

MODULE_ALIAS("platform:atmel-pwm");
MODULE_AUTHOR("Bo Shen <voice.shen@atmel.com>");
MODULE_DESCRIPTION("Atmel PWM driver");
MODULE_LICENSE("GPL v2");