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a3c28bca11
The .remove() callback for a platform driver returns an int which makes many driver authors wrongly assume it's possible to do error handling by returning an error code. However the value returned is (mostly) ignored and this typically results in resource leaks. To improve here there is a quest to make the remove callback return void. In the first step of this quest all drivers are converted to .remove_new() which already returns void. Trivially convert this driver from always returning zero in the remove callback to the void returning variant. Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de> Reviewed-by: Claudiu Beznea <claudiu.beznea@microchip.com> Signed-off-by: Thierry Reding <thierry.reding@gmail.com>
537 lines
13 KiB
C
537 lines
13 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Driver for Atmel Pulse Width Modulation Controller
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*
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* Copyright (C) 2013 Atmel Corporation
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* Bo Shen <voice.shen@atmel.com>
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*
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* Links to reference manuals for the supported PWM chips can be found in
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* Documentation/arm/microchip.rst.
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*
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* Limitations:
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* - Periods start with the inactive level.
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* - Hardware has to be stopped in general to update settings.
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*
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* Software bugs/possible improvements:
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* - When atmel_pwm_apply() is called with state->enabled=false a change in
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* state->polarity isn't honored.
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* - Instead of sleeping to wait for a completed period, the interrupt
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* functionality could be used.
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*/
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#include <linux/clk.h>
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#include <linux/delay.h>
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#include <linux/err.h>
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#include <linux/io.h>
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#include <linux/module.h>
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#include <linux/of.h>
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#include <linux/of_device.h>
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#include <linux/platform_device.h>
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#include <linux/pwm.h>
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#include <linux/slab.h>
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/* The following is global registers for PWM controller */
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#define PWM_ENA 0x04
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#define PWM_DIS 0x08
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#define PWM_SR 0x0C
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#define PWM_ISR 0x1C
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/* Bit field in SR */
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#define PWM_SR_ALL_CH_ON 0x0F
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/* The following register is PWM channel related registers */
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#define PWM_CH_REG_OFFSET 0x200
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#define PWM_CH_REG_SIZE 0x20
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#define PWM_CMR 0x0
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/* Bit field in CMR */
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#define PWM_CMR_CPOL (1 << 9)
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#define PWM_CMR_UPD_CDTY (1 << 10)
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#define PWM_CMR_CPRE_MSK 0xF
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/* The following registers for PWM v1 */
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#define PWMV1_CDTY 0x04
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#define PWMV1_CPRD 0x08
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#define PWMV1_CUPD 0x10
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/* The following registers for PWM v2 */
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#define PWMV2_CDTY 0x04
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#define PWMV2_CDTYUPD 0x08
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#define PWMV2_CPRD 0x0C
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#define PWMV2_CPRDUPD 0x10
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#define PWM_MAX_PRES 10
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struct atmel_pwm_registers {
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u8 period;
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u8 period_upd;
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u8 duty;
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u8 duty_upd;
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};
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struct atmel_pwm_config {
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u32 period_bits;
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};
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struct atmel_pwm_data {
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struct atmel_pwm_registers regs;
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struct atmel_pwm_config cfg;
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};
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struct atmel_pwm_chip {
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struct pwm_chip chip;
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struct clk *clk;
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void __iomem *base;
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const struct atmel_pwm_data *data;
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/*
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* The hardware supports a mechanism to update a channel's duty cycle at
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* the end of the currently running period. When such an update is
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* pending we delay disabling the PWM until the new configuration is
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* active because otherwise pmw_config(duty_cycle=0); pwm_disable();
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* might not result in an inactive output.
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* This bitmask tracks for which channels an update is pending in
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* hardware.
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*/
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u32 update_pending;
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/* Protects .update_pending */
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spinlock_t lock;
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};
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static inline struct atmel_pwm_chip *to_atmel_pwm_chip(struct pwm_chip *chip)
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{
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return container_of(chip, struct atmel_pwm_chip, chip);
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}
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static inline u32 atmel_pwm_readl(struct atmel_pwm_chip *chip,
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unsigned long offset)
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{
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return readl_relaxed(chip->base + offset);
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}
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static inline void atmel_pwm_writel(struct atmel_pwm_chip *chip,
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unsigned long offset, unsigned long val)
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{
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writel_relaxed(val, chip->base + offset);
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}
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static inline u32 atmel_pwm_ch_readl(struct atmel_pwm_chip *chip,
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unsigned int ch, unsigned long offset)
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{
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unsigned long base = PWM_CH_REG_OFFSET + ch * PWM_CH_REG_SIZE;
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return atmel_pwm_readl(chip, base + offset);
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}
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static inline void atmel_pwm_ch_writel(struct atmel_pwm_chip *chip,
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unsigned int ch, unsigned long offset,
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unsigned long val)
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{
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unsigned long base = PWM_CH_REG_OFFSET + ch * PWM_CH_REG_SIZE;
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atmel_pwm_writel(chip, base + offset, val);
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}
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static void atmel_pwm_update_pending(struct atmel_pwm_chip *chip)
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{
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/*
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* Each channel that has its bit in ISR set started a new period since
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* ISR was cleared and so there is no more update pending. Note that
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* reading ISR clears it, so this needs to handle all channels to not
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* loose information.
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*/
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u32 isr = atmel_pwm_readl(chip, PWM_ISR);
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chip->update_pending &= ~isr;
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}
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static void atmel_pwm_set_pending(struct atmel_pwm_chip *chip, unsigned int ch)
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{
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spin_lock(&chip->lock);
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/*
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* Clear pending flags in hardware because otherwise there might still
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* be a stale flag in ISR.
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*/
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atmel_pwm_update_pending(chip);
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chip->update_pending |= (1 << ch);
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spin_unlock(&chip->lock);
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}
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static int atmel_pwm_test_pending(struct atmel_pwm_chip *chip, unsigned int ch)
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{
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int ret = 0;
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spin_lock(&chip->lock);
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if (chip->update_pending & (1 << ch)) {
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atmel_pwm_update_pending(chip);
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if (chip->update_pending & (1 << ch))
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ret = 1;
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}
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spin_unlock(&chip->lock);
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return ret;
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}
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static int atmel_pwm_wait_nonpending(struct atmel_pwm_chip *chip, unsigned int ch)
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{
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unsigned long timeout = jiffies + 2 * HZ;
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int ret;
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while ((ret = atmel_pwm_test_pending(chip, ch)) &&
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time_before(jiffies, timeout))
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usleep_range(10, 100);
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return ret ? -ETIMEDOUT : 0;
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}
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static int atmel_pwm_calculate_cprd_and_pres(struct pwm_chip *chip,
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unsigned long clkrate,
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const struct pwm_state *state,
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unsigned long *cprd, u32 *pres)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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unsigned long long cycles = state->period;
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int shift;
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/* Calculate the period cycles and prescale value */
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cycles *= clkrate;
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do_div(cycles, NSEC_PER_SEC);
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/*
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* The register for the period length is cfg.period_bits bits wide.
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* So for each bit the number of clock cycles is wider divide the input
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* clock frequency by two using pres and shift cprd accordingly.
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*/
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shift = fls(cycles) - atmel_pwm->data->cfg.period_bits;
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if (shift > PWM_MAX_PRES) {
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dev_err(chip->dev, "pres exceeds the maximum value\n");
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return -EINVAL;
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} else if (shift > 0) {
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*pres = shift;
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cycles >>= *pres;
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} else {
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*pres = 0;
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}
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*cprd = cycles;
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return 0;
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}
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static void atmel_pwm_calculate_cdty(const struct pwm_state *state,
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unsigned long clkrate, unsigned long cprd,
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u32 pres, unsigned long *cdty)
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{
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unsigned long long cycles = state->duty_cycle;
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cycles *= clkrate;
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do_div(cycles, NSEC_PER_SEC);
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cycles >>= pres;
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*cdty = cprd - cycles;
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}
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static void atmel_pwm_update_cdty(struct pwm_chip *chip, struct pwm_device *pwm,
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unsigned long cdty)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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u32 val;
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if (atmel_pwm->data->regs.duty_upd ==
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atmel_pwm->data->regs.period_upd) {
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val = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
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val &= ~PWM_CMR_UPD_CDTY;
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atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm, PWM_CMR, val);
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}
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atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.duty_upd, cdty);
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atmel_pwm_set_pending(atmel_pwm, pwm->hwpwm);
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}
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static void atmel_pwm_set_cprd_cdty(struct pwm_chip *chip,
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struct pwm_device *pwm,
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unsigned long cprd, unsigned long cdty)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.duty, cdty);
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atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.period, cprd);
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}
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static void atmel_pwm_disable(struct pwm_chip *chip, struct pwm_device *pwm,
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bool disable_clk)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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unsigned long timeout;
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atmel_pwm_wait_nonpending(atmel_pwm, pwm->hwpwm);
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atmel_pwm_writel(atmel_pwm, PWM_DIS, 1 << pwm->hwpwm);
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/*
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* Wait for the PWM channel disable operation to be effective before
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* stopping the clock.
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*/
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timeout = jiffies + 2 * HZ;
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while ((atmel_pwm_readl(atmel_pwm, PWM_SR) & (1 << pwm->hwpwm)) &&
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time_before(jiffies, timeout))
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usleep_range(10, 100);
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if (disable_clk)
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clk_disable(atmel_pwm->clk);
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}
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static int atmel_pwm_apply(struct pwm_chip *chip, struct pwm_device *pwm,
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const struct pwm_state *state)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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struct pwm_state cstate;
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unsigned long cprd, cdty;
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u32 pres, val;
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int ret;
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pwm_get_state(pwm, &cstate);
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if (state->enabled) {
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unsigned long clkrate = clk_get_rate(atmel_pwm->clk);
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if (cstate.enabled &&
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cstate.polarity == state->polarity &&
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cstate.period == state->period) {
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u32 cmr = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
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cprd = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.period);
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pres = cmr & PWM_CMR_CPRE_MSK;
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atmel_pwm_calculate_cdty(state, clkrate, cprd, pres, &cdty);
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atmel_pwm_update_cdty(chip, pwm, cdty);
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return 0;
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}
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ret = atmel_pwm_calculate_cprd_and_pres(chip, clkrate, state, &cprd,
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&pres);
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if (ret) {
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dev_err(chip->dev,
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"failed to calculate cprd and prescaler\n");
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return ret;
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}
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atmel_pwm_calculate_cdty(state, clkrate, cprd, pres, &cdty);
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if (cstate.enabled) {
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atmel_pwm_disable(chip, pwm, false);
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} else {
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ret = clk_enable(atmel_pwm->clk);
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if (ret) {
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dev_err(chip->dev, "failed to enable clock\n");
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return ret;
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}
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}
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/* It is necessary to preserve CPOL, inside CMR */
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val = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
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val = (val & ~PWM_CMR_CPRE_MSK) | (pres & PWM_CMR_CPRE_MSK);
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if (state->polarity == PWM_POLARITY_NORMAL)
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val &= ~PWM_CMR_CPOL;
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else
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val |= PWM_CMR_CPOL;
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atmel_pwm_ch_writel(atmel_pwm, pwm->hwpwm, PWM_CMR, val);
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atmel_pwm_set_cprd_cdty(chip, pwm, cprd, cdty);
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atmel_pwm_writel(atmel_pwm, PWM_ENA, 1 << pwm->hwpwm);
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} else if (cstate.enabled) {
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atmel_pwm_disable(chip, pwm, true);
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}
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return 0;
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}
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static int atmel_pwm_get_state(struct pwm_chip *chip, struct pwm_device *pwm,
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struct pwm_state *state)
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{
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struct atmel_pwm_chip *atmel_pwm = to_atmel_pwm_chip(chip);
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u32 sr, cmr;
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sr = atmel_pwm_readl(atmel_pwm, PWM_SR);
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cmr = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm, PWM_CMR);
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if (sr & (1 << pwm->hwpwm)) {
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unsigned long rate = clk_get_rate(atmel_pwm->clk);
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u32 cdty, cprd, pres;
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u64 tmp;
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pres = cmr & PWM_CMR_CPRE_MSK;
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cprd = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.period);
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tmp = (u64)cprd * NSEC_PER_SEC;
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tmp <<= pres;
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state->period = DIV64_U64_ROUND_UP(tmp, rate);
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/* Wait for an updated duty_cycle queued in hardware */
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atmel_pwm_wait_nonpending(atmel_pwm, pwm->hwpwm);
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cdty = atmel_pwm_ch_readl(atmel_pwm, pwm->hwpwm,
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atmel_pwm->data->regs.duty);
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tmp = (u64)(cprd - cdty) * NSEC_PER_SEC;
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tmp <<= pres;
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state->duty_cycle = DIV64_U64_ROUND_UP(tmp, rate);
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state->enabled = true;
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} else {
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state->enabled = false;
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}
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if (cmr & PWM_CMR_CPOL)
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state->polarity = PWM_POLARITY_INVERSED;
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else
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state->polarity = PWM_POLARITY_NORMAL;
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return 0;
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}
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static const struct pwm_ops atmel_pwm_ops = {
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.apply = atmel_pwm_apply,
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.get_state = atmel_pwm_get_state,
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.owner = THIS_MODULE,
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};
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static const struct atmel_pwm_data atmel_sam9rl_pwm_data = {
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.regs = {
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.period = PWMV1_CPRD,
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.period_upd = PWMV1_CUPD,
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.duty = PWMV1_CDTY,
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.duty_upd = PWMV1_CUPD,
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},
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.cfg = {
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/* 16 bits to keep period and duty. */
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.period_bits = 16,
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},
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};
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static const struct atmel_pwm_data atmel_sama5_pwm_data = {
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.regs = {
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.period = PWMV2_CPRD,
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.period_upd = PWMV2_CPRDUPD,
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.duty = PWMV2_CDTY,
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.duty_upd = PWMV2_CDTYUPD,
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},
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.cfg = {
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/* 16 bits to keep period and duty. */
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.period_bits = 16,
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},
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};
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static const struct atmel_pwm_data mchp_sam9x60_pwm_data = {
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.regs = {
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.period = PWMV1_CPRD,
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.period_upd = PWMV1_CUPD,
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.duty = PWMV1_CDTY,
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.duty_upd = PWMV1_CUPD,
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},
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.cfg = {
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/* 32 bits to keep period and duty. */
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.period_bits = 32,
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},
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};
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static const struct of_device_id atmel_pwm_dt_ids[] = {
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{
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.compatible = "atmel,at91sam9rl-pwm",
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.data = &atmel_sam9rl_pwm_data,
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}, {
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.compatible = "atmel,sama5d3-pwm",
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.data = &atmel_sama5_pwm_data,
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}, {
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.compatible = "atmel,sama5d2-pwm",
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.data = &atmel_sama5_pwm_data,
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}, {
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.compatible = "microchip,sam9x60-pwm",
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.data = &mchp_sam9x60_pwm_data,
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}, {
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/* sentinel */
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},
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};
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MODULE_DEVICE_TABLE(of, atmel_pwm_dt_ids);
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static int atmel_pwm_probe(struct platform_device *pdev)
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{
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struct atmel_pwm_chip *atmel_pwm;
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int ret;
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atmel_pwm = devm_kzalloc(&pdev->dev, sizeof(*atmel_pwm), GFP_KERNEL);
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if (!atmel_pwm)
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return -ENOMEM;
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atmel_pwm->data = of_device_get_match_data(&pdev->dev);
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atmel_pwm->update_pending = 0;
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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(&pdev->dev, NULL);
|
|
if (IS_ERR(atmel_pwm->clk))
|
|
return PTR_ERR(atmel_pwm->clk);
|
|
|
|
ret = clk_prepare(atmel_pwm->clk);
|
|
if (ret) {
|
|
dev_err(&pdev->dev, "failed to prepare PWM clock\n");
|
|
return ret;
|
|
}
|
|
|
|
atmel_pwm->chip.dev = &pdev->dev;
|
|
atmel_pwm->chip.ops = &atmel_pwm_ops;
|
|
atmel_pwm->chip.npwm = 4;
|
|
|
|
ret = pwmchip_add(&atmel_pwm->chip);
|
|
if (ret < 0) {
|
|
dev_err(&pdev->dev, "failed to add PWM chip %d\n", ret);
|
|
goto unprepare_clk;
|
|
}
|
|
|
|
platform_set_drvdata(pdev, atmel_pwm);
|
|
|
|
return ret;
|
|
|
|
unprepare_clk:
|
|
clk_unprepare(atmel_pwm->clk);
|
|
return ret;
|
|
}
|
|
|
|
static void atmel_pwm_remove(struct platform_device *pdev)
|
|
{
|
|
struct atmel_pwm_chip *atmel_pwm = platform_get_drvdata(pdev);
|
|
|
|
pwmchip_remove(&atmel_pwm->chip);
|
|
|
|
clk_unprepare(atmel_pwm->clk);
|
|
}
|
|
|
|
static struct platform_driver atmel_pwm_driver = {
|
|
.driver = {
|
|
.name = "atmel-pwm",
|
|
.of_match_table = of_match_ptr(atmel_pwm_dt_ids),
|
|
},
|
|
.probe = atmel_pwm_probe,
|
|
.remove_new = atmel_pwm_remove,
|
|
};
|
|
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");
|