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pwm_lpss_is_updating() does a sanity check which should never fail. If the check does actually fail that is worth logging an error, especially since this means that we will skip making the requested changes to the PWM settings. Reviewed-by: Andy Shevchenko <andy.shevchenko@gmail.com> Signed-off-by: Hans de Goede <hdegoede@redhat.com> Signed-off-by: Thierry Reding <thierry.reding@gmail.com>
271 lines
6.9 KiB
C
271 lines
6.9 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Intel Low Power Subsystem PWM controller driver
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*
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* Copyright (C) 2014, Intel Corporation
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* Author: Mika Westerberg <mika.westerberg@linux.intel.com>
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* Author: Chew Kean Ho <kean.ho.chew@intel.com>
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* Author: Chang Rebecca Swee Fun <rebecca.swee.fun.chang@intel.com>
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* Author: Chew Chiau Ee <chiau.ee.chew@intel.com>
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* Author: Alan Cox <alan@linux.intel.com>
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*/
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#include <linux/delay.h>
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#include <linux/io.h>
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#include <linux/iopoll.h>
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#include <linux/kernel.h>
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#include <linux/module.h>
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#include <linux/pm_runtime.h>
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#include <linux/time.h>
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#include "pwm-lpss.h"
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#define PWM 0x00000000
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#define PWM_ENABLE BIT(31)
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#define PWM_SW_UPDATE BIT(30)
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#define PWM_BASE_UNIT_SHIFT 8
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#define PWM_ON_TIME_DIV_MASK 0x000000ff
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/* Size of each PWM register space if multiple */
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#define PWM_SIZE 0x400
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static inline struct pwm_lpss_chip *to_lpwm(struct pwm_chip *chip)
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{
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return container_of(chip, struct pwm_lpss_chip, chip);
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}
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static inline u32 pwm_lpss_read(const struct pwm_device *pwm)
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{
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struct pwm_lpss_chip *lpwm = to_lpwm(pwm->chip);
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return readl(lpwm->regs + pwm->hwpwm * PWM_SIZE + PWM);
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}
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static inline void pwm_lpss_write(const struct pwm_device *pwm, u32 value)
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{
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struct pwm_lpss_chip *lpwm = to_lpwm(pwm->chip);
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writel(value, lpwm->regs + pwm->hwpwm * PWM_SIZE + PWM);
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}
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static int pwm_lpss_wait_for_update(struct pwm_device *pwm)
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{
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struct pwm_lpss_chip *lpwm = to_lpwm(pwm->chip);
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const void __iomem *addr = lpwm->regs + pwm->hwpwm * PWM_SIZE + PWM;
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const unsigned int ms = 500 * USEC_PER_MSEC;
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u32 val;
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int err;
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/*
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* PWM Configuration register has SW_UPDATE bit that is set when a new
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* configuration is written to the register. The bit is automatically
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* cleared at the start of the next output cycle by the IP block.
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*
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* If one writes a new configuration to the register while it still has
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* the bit enabled, PWM may freeze. That is, while one can still write
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* to the register, it won't have an effect. Thus, we try to sleep long
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* enough that the bit gets cleared and make sure the bit is not
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* enabled while we update the configuration.
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*/
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err = readl_poll_timeout(addr, val, !(val & PWM_SW_UPDATE), 40, ms);
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if (err)
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dev_err(pwm->chip->dev, "PWM_SW_UPDATE was not cleared\n");
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return err;
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}
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static inline int pwm_lpss_is_updating(struct pwm_device *pwm)
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{
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if (pwm_lpss_read(pwm) & PWM_SW_UPDATE) {
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dev_err(pwm->chip->dev, "PWM_SW_UPDATE is still set, skipping update\n");
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return -EBUSY;
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}
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return 0;
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}
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static void pwm_lpss_prepare(struct pwm_lpss_chip *lpwm, struct pwm_device *pwm,
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int duty_ns, int period_ns)
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{
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unsigned long long on_time_div;
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unsigned long c = lpwm->info->clk_rate, base_unit_range;
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unsigned long long base_unit, freq = NSEC_PER_SEC;
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u32 ctrl;
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do_div(freq, period_ns);
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/*
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* The equation is:
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* base_unit = round(base_unit_range * freq / c)
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*/
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base_unit_range = BIT(lpwm->info->base_unit_bits);
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freq *= base_unit_range;
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base_unit = DIV_ROUND_CLOSEST_ULL(freq, c);
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/* base_unit must not be 0 and we also want to avoid overflowing it */
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base_unit = clamp_val(base_unit, 1, base_unit_range - 1);
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on_time_div = 255ULL * duty_ns;
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do_div(on_time_div, period_ns);
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on_time_div = 255ULL - on_time_div;
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ctrl = pwm_lpss_read(pwm);
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ctrl &= ~PWM_ON_TIME_DIV_MASK;
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ctrl &= ~((base_unit_range - 1) << PWM_BASE_UNIT_SHIFT);
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ctrl |= (u32) base_unit << PWM_BASE_UNIT_SHIFT;
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ctrl |= on_time_div;
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pwm_lpss_write(pwm, ctrl);
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pwm_lpss_write(pwm, ctrl | PWM_SW_UPDATE);
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}
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static inline void pwm_lpss_cond_enable(struct pwm_device *pwm, bool cond)
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{
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if (cond)
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pwm_lpss_write(pwm, pwm_lpss_read(pwm) | PWM_ENABLE);
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}
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static int pwm_lpss_prepare_enable(struct pwm_lpss_chip *lpwm,
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struct pwm_device *pwm,
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const struct pwm_state *state)
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{
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int ret;
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ret = pwm_lpss_is_updating(pwm);
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if (ret)
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return ret;
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pwm_lpss_prepare(lpwm, pwm, state->duty_cycle, state->period);
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pwm_lpss_cond_enable(pwm, lpwm->info->bypass == false);
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ret = pwm_lpss_wait_for_update(pwm);
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if (ret)
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return ret;
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pwm_lpss_cond_enable(pwm, lpwm->info->bypass == true);
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return 0;
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}
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static int pwm_lpss_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 pwm_lpss_chip *lpwm = to_lpwm(chip);
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int ret = 0;
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if (state->enabled) {
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if (!pwm_is_enabled(pwm)) {
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pm_runtime_get_sync(chip->dev);
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ret = pwm_lpss_prepare_enable(lpwm, pwm, state);
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if (ret)
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pm_runtime_put(chip->dev);
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} else {
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ret = pwm_lpss_prepare_enable(lpwm, pwm, state);
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}
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} else if (pwm_is_enabled(pwm)) {
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pwm_lpss_write(pwm, pwm_lpss_read(pwm) & ~PWM_ENABLE);
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pm_runtime_put(chip->dev);
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}
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return ret;
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}
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static void pwm_lpss_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 pwm_lpss_chip *lpwm = to_lpwm(chip);
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unsigned long base_unit_range;
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unsigned long long base_unit, freq, on_time_div;
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u32 ctrl;
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pm_runtime_get_sync(chip->dev);
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base_unit_range = BIT(lpwm->info->base_unit_bits);
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ctrl = pwm_lpss_read(pwm);
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on_time_div = 255 - (ctrl & PWM_ON_TIME_DIV_MASK);
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base_unit = (ctrl >> PWM_BASE_UNIT_SHIFT) & (base_unit_range - 1);
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freq = base_unit * lpwm->info->clk_rate;
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do_div(freq, base_unit_range);
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if (freq == 0)
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state->period = NSEC_PER_SEC;
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else
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state->period = NSEC_PER_SEC / (unsigned long)freq;
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on_time_div *= state->period;
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do_div(on_time_div, 255);
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state->duty_cycle = on_time_div;
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state->polarity = PWM_POLARITY_NORMAL;
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state->enabled = !!(ctrl & PWM_ENABLE);
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pm_runtime_put(chip->dev);
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}
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static const struct pwm_ops pwm_lpss_ops = {
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.apply = pwm_lpss_apply,
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.get_state = pwm_lpss_get_state,
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.owner = THIS_MODULE,
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};
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struct pwm_lpss_chip *pwm_lpss_probe(struct device *dev, struct resource *r,
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const struct pwm_lpss_boardinfo *info)
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{
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struct pwm_lpss_chip *lpwm;
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unsigned long c;
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int i, ret;
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u32 ctrl;
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if (WARN_ON(info->npwm > MAX_PWMS))
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return ERR_PTR(-ENODEV);
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lpwm = devm_kzalloc(dev, sizeof(*lpwm), GFP_KERNEL);
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if (!lpwm)
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return ERR_PTR(-ENOMEM);
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lpwm->regs = devm_ioremap_resource(dev, r);
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if (IS_ERR(lpwm->regs))
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return ERR_CAST(lpwm->regs);
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lpwm->info = info;
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c = lpwm->info->clk_rate;
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if (!c)
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return ERR_PTR(-EINVAL);
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lpwm->chip.dev = dev;
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lpwm->chip.ops = &pwm_lpss_ops;
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lpwm->chip.base = -1;
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lpwm->chip.npwm = info->npwm;
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ret = pwmchip_add(&lpwm->chip);
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if (ret) {
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dev_err(dev, "failed to add PWM chip: %d\n", ret);
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return ERR_PTR(ret);
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}
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for (i = 0; i < lpwm->info->npwm; i++) {
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ctrl = pwm_lpss_read(&lpwm->chip.pwms[i]);
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if (ctrl & PWM_ENABLE)
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pm_runtime_get(dev);
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}
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return lpwm;
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}
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EXPORT_SYMBOL_GPL(pwm_lpss_probe);
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int pwm_lpss_remove(struct pwm_lpss_chip *lpwm)
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{
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int i;
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for (i = 0; i < lpwm->info->npwm; i++) {
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if (pwm_is_enabled(&lpwm->chip.pwms[i]))
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pm_runtime_put(lpwm->chip.dev);
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}
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return pwmchip_remove(&lpwm->chip);
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}
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EXPORT_SYMBOL_GPL(pwm_lpss_remove);
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MODULE_DESCRIPTION("PWM driver for Intel LPSS");
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MODULE_AUTHOR("Mika Westerberg <mika.westerberg@linux.intel.com>");
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MODULE_LICENSE("GPL v2");
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