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dd1f1da4ad
The value of NSEC_PER_SEC << PWM_DUTY_WIDTH doesn't fix within a 32 bit integer causing a build warning/error (and the value truncated): drivers/pwm/pwm-tegra.c: In function ‘tegra_pwm_config’: drivers/pwm/pwm-tegra.c:148:53: error: result of ‘1000000000 << 8’ requires 39 bits to represent, but ‘long int’ only has 32 bits [-Werror=shift-overflow=] 148 | required_clk_rate = DIV_ROUND_UP_ULL(NSEC_PER_SEC << PWM_DUTY_WIDTH, | ^~ Explicitly cast to a u64 to ensure the correct result. Fixes: cfcb68817fb3 ("pwm: tegra: Improve required rate calculation") Signed-off-by: Steven Price <steven.price@arm.com> Reviewed-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de> Reviewed-by: Jon Hunter <jonathanh@nvidia.com>
446 lines
11 KiB
C
446 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* drivers/pwm/pwm-tegra.c
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*
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* Tegra pulse-width-modulation controller driver
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*
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* Copyright (c) 2010-2020, NVIDIA Corporation.
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* Based on arch/arm/plat-mxc/pwm.c by Sascha Hauer <s.hauer@pengutronix.de>
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*
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* Overview of Tegra Pulse Width Modulator Register:
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* 1. 13-bit: Frequency division (SCALE)
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* 2. 8-bit : Pulse division (DUTY)
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* 3. 1-bit : Enable bit
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*
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* The PWM clock frequency is divided by 256 before subdividing it based
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* on the programmable frequency division value to generate the required
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* frequency for PWM output. The maximum output frequency that can be
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* achieved is (max rate of source clock) / 256.
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* e.g. if source clock rate is 408 MHz, maximum output frequency can be:
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* 408 MHz/256 = 1.6 MHz.
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* This 1.6 MHz frequency can further be divided using SCALE value in PWM.
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*
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* PWM pulse width: 8 bits are usable [23:16] for varying pulse width.
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* To achieve 100% duty cycle, program Bit [24] of this register to
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* 1’b1. In which case the other bits [23:16] are set to don't care.
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*
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* Limitations:
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* - When PWM is disabled, the output is driven to inactive.
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* - It does not allow the current PWM period to complete and
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* stops abruptly.
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*
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* - If the register is reconfigured while PWM is running,
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* it does not complete the currently running period.
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*
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* - If the user input duty is beyond acceptible limits,
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* -EINVAL is returned.
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*/
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#include <linux/clk.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/pm_opp.h>
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#include <linux/pwm.h>
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#include <linux/platform_device.h>
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#include <linux/pinctrl/consumer.h>
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#include <linux/pm_runtime.h>
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#include <linux/slab.h>
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#include <linux/reset.h>
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#include <soc/tegra/common.h>
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#define PWM_ENABLE (1 << 31)
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#define PWM_DUTY_WIDTH 8
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#define PWM_DUTY_SHIFT 16
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#define PWM_SCALE_WIDTH 13
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#define PWM_SCALE_SHIFT 0
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struct tegra_pwm_soc {
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unsigned int num_channels;
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/* Maximum IP frequency for given SoCs */
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unsigned long max_frequency;
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};
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struct tegra_pwm_chip {
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struct pwm_chip chip;
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struct device *dev;
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struct clk *clk;
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struct reset_control*rst;
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unsigned long clk_rate;
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unsigned long min_period_ns;
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void __iomem *regs;
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const struct tegra_pwm_soc *soc;
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};
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static inline struct tegra_pwm_chip *to_tegra_pwm_chip(struct pwm_chip *chip)
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{
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return container_of(chip, struct tegra_pwm_chip, chip);
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}
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static inline u32 pwm_readl(struct tegra_pwm_chip *pc, unsigned int offset)
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{
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return readl(pc->regs + (offset << 4));
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}
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static inline void pwm_writel(struct tegra_pwm_chip *pc, unsigned int offset, u32 value)
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{
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writel(value, pc->regs + (offset << 4));
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}
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static int tegra_pwm_config(struct pwm_chip *chip, struct pwm_device *pwm,
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int duty_ns, int period_ns)
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{
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struct tegra_pwm_chip *pc = to_tegra_pwm_chip(chip);
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unsigned long long c = duty_ns;
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unsigned long rate, required_clk_rate;
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u32 val = 0;
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int err;
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/*
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* Convert from duty_ns / period_ns to a fixed number of duty ticks
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* per (1 << PWM_DUTY_WIDTH) cycles and make sure to round to the
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* nearest integer during division.
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*/
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c *= (1 << PWM_DUTY_WIDTH);
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c = DIV_ROUND_CLOSEST_ULL(c, period_ns);
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val = (u32)c << PWM_DUTY_SHIFT;
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/*
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* min period = max clock limit >> PWM_DUTY_WIDTH
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*/
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if (period_ns < pc->min_period_ns)
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return -EINVAL;
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/*
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* Compute the prescaler value for which (1 << PWM_DUTY_WIDTH)
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* cycles at the PWM clock rate will take period_ns nanoseconds.
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*
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* num_channels: If single instance of PWM controller has multiple
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* channels (e.g. Tegra210 or older) then it is not possible to
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* configure separate clock rates to each of the channels, in such
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* case the value stored during probe will be referred.
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*
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* If every PWM controller instance has one channel respectively, i.e.
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* nums_channels == 1 then only the clock rate can be modified
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* dynamically (e.g. Tegra186 or Tegra194).
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*/
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if (pc->soc->num_channels == 1) {
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/*
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* Rate is multiplied with 2^PWM_DUTY_WIDTH so that it matches
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* with the maximum possible rate that the controller can
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* provide. Any further lower value can be derived by setting
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* PFM bits[0:12].
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*
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* required_clk_rate is a reference rate for source clock and
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* it is derived based on user requested period. By setting the
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* source clock rate as required_clk_rate, PWM controller will
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* be able to configure the requested period.
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*/
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required_clk_rate = DIV_ROUND_UP_ULL((u64)NSEC_PER_SEC << PWM_DUTY_WIDTH,
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period_ns);
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if (required_clk_rate > clk_round_rate(pc->clk, required_clk_rate))
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/*
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* required_clk_rate is a lower bound for the input
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* rate; for lower rates there is no value for PWM_SCALE
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* that yields a period less than or equal to the
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* requested period. Hence, for lower rates, double the
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* required_clk_rate to get a clock rate that can meet
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* the requested period.
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*/
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required_clk_rate *= 2;
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err = dev_pm_opp_set_rate(pc->dev, required_clk_rate);
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if (err < 0)
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return -EINVAL;
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/* Store the new rate for further references */
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pc->clk_rate = clk_get_rate(pc->clk);
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}
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/* Consider precision in PWM_SCALE_WIDTH rate calculation */
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rate = mul_u64_u64_div_u64(pc->clk_rate, period_ns,
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(u64)NSEC_PER_SEC << PWM_DUTY_WIDTH);
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/*
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* Since the actual PWM divider is the register's frequency divider
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* field plus 1, we need to decrement to get the correct value to
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* write to the register.
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*/
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if (rate > 0)
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rate--;
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else
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return -EINVAL;
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/*
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* Make sure that the rate will fit in the register's frequency
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* divider field.
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*/
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if (rate >> PWM_SCALE_WIDTH)
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return -EINVAL;
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val |= rate << PWM_SCALE_SHIFT;
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/*
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* If the PWM channel is disabled, make sure to turn on the clock
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* before writing the register. Otherwise, keep it enabled.
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*/
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if (!pwm_is_enabled(pwm)) {
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err = pm_runtime_resume_and_get(pc->dev);
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if (err)
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return err;
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} else
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val |= PWM_ENABLE;
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pwm_writel(pc, pwm->hwpwm, val);
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/*
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* If the PWM is not enabled, turn the clock off again to save power.
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*/
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if (!pwm_is_enabled(pwm))
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pm_runtime_put(pc->dev);
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return 0;
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}
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static int tegra_pwm_enable(struct pwm_chip *chip, struct pwm_device *pwm)
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{
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struct tegra_pwm_chip *pc = to_tegra_pwm_chip(chip);
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int rc = 0;
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u32 val;
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rc = pm_runtime_resume_and_get(pc->dev);
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if (rc)
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return rc;
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val = pwm_readl(pc, pwm->hwpwm);
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val |= PWM_ENABLE;
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pwm_writel(pc, pwm->hwpwm, val);
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return 0;
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}
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static void tegra_pwm_disable(struct pwm_chip *chip, struct pwm_device *pwm)
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{
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struct tegra_pwm_chip *pc = to_tegra_pwm_chip(chip);
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u32 val;
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val = pwm_readl(pc, pwm->hwpwm);
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val &= ~PWM_ENABLE;
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pwm_writel(pc, pwm->hwpwm, val);
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pm_runtime_put_sync(pc->dev);
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}
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static int tegra_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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int err;
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bool enabled = pwm->state.enabled;
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if (state->polarity != PWM_POLARITY_NORMAL)
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return -EINVAL;
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if (!state->enabled) {
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if (enabled)
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tegra_pwm_disable(chip, pwm);
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return 0;
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}
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err = tegra_pwm_config(pwm->chip, pwm, state->duty_cycle, state->period);
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if (err)
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return err;
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if (!enabled)
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err = tegra_pwm_enable(chip, pwm);
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return err;
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}
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static const struct pwm_ops tegra_pwm_ops = {
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.apply = tegra_pwm_apply,
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.owner = THIS_MODULE,
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};
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static int tegra_pwm_probe(struct platform_device *pdev)
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{
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struct tegra_pwm_chip *pc;
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int ret;
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pc = devm_kzalloc(&pdev->dev, sizeof(*pc), GFP_KERNEL);
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if (!pc)
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return -ENOMEM;
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pc->soc = of_device_get_match_data(&pdev->dev);
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pc->dev = &pdev->dev;
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pc->regs = devm_platform_ioremap_resource(pdev, 0);
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if (IS_ERR(pc->regs))
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return PTR_ERR(pc->regs);
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platform_set_drvdata(pdev, pc);
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pc->clk = devm_clk_get(&pdev->dev, NULL);
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if (IS_ERR(pc->clk))
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return PTR_ERR(pc->clk);
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ret = devm_tegra_core_dev_init_opp_table_common(&pdev->dev);
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if (ret)
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return ret;
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pm_runtime_enable(&pdev->dev);
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ret = pm_runtime_resume_and_get(&pdev->dev);
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if (ret)
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return ret;
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/* Set maximum frequency of the IP */
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ret = dev_pm_opp_set_rate(pc->dev, pc->soc->max_frequency);
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if (ret < 0) {
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dev_err(&pdev->dev, "Failed to set max frequency: %d\n", ret);
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goto put_pm;
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}
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/*
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* The requested and configured frequency may differ due to
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* clock register resolutions. Get the configured frequency
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* so that PWM period can be calculated more accurately.
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*/
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pc->clk_rate = clk_get_rate(pc->clk);
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/* Set minimum limit of PWM period for the IP */
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pc->min_period_ns =
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(NSEC_PER_SEC / (pc->soc->max_frequency >> PWM_DUTY_WIDTH)) + 1;
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pc->rst = devm_reset_control_get_exclusive(&pdev->dev, "pwm");
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if (IS_ERR(pc->rst)) {
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ret = PTR_ERR(pc->rst);
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dev_err(&pdev->dev, "Reset control is not found: %d\n", ret);
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goto put_pm;
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}
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reset_control_deassert(pc->rst);
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pc->chip.dev = &pdev->dev;
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pc->chip.ops = &tegra_pwm_ops;
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pc->chip.npwm = pc->soc->num_channels;
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ret = pwmchip_add(&pc->chip);
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if (ret < 0) {
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dev_err(&pdev->dev, "pwmchip_add() failed: %d\n", ret);
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reset_control_assert(pc->rst);
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goto put_pm;
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}
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pm_runtime_put(&pdev->dev);
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return 0;
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put_pm:
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pm_runtime_put_sync_suspend(&pdev->dev);
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pm_runtime_force_suspend(&pdev->dev);
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return ret;
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}
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static int tegra_pwm_remove(struct platform_device *pdev)
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{
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struct tegra_pwm_chip *pc = platform_get_drvdata(pdev);
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pwmchip_remove(&pc->chip);
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reset_control_assert(pc->rst);
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pm_runtime_force_suspend(&pdev->dev);
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return 0;
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}
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static int __maybe_unused tegra_pwm_runtime_suspend(struct device *dev)
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{
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struct tegra_pwm_chip *pc = dev_get_drvdata(dev);
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int err;
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clk_disable_unprepare(pc->clk);
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err = pinctrl_pm_select_sleep_state(dev);
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if (err) {
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clk_prepare_enable(pc->clk);
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return err;
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}
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return 0;
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}
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static int __maybe_unused tegra_pwm_runtime_resume(struct device *dev)
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{
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struct tegra_pwm_chip *pc = dev_get_drvdata(dev);
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int err;
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err = pinctrl_pm_select_default_state(dev);
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if (err)
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return err;
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err = clk_prepare_enable(pc->clk);
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if (err) {
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pinctrl_pm_select_sleep_state(dev);
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return err;
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}
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return 0;
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}
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static const struct tegra_pwm_soc tegra20_pwm_soc = {
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.num_channels = 4,
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.max_frequency = 48000000UL,
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};
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static const struct tegra_pwm_soc tegra186_pwm_soc = {
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.num_channels = 1,
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.max_frequency = 102000000UL,
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};
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static const struct tegra_pwm_soc tegra194_pwm_soc = {
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.num_channels = 1,
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.max_frequency = 408000000UL,
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};
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static const struct of_device_id tegra_pwm_of_match[] = {
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{ .compatible = "nvidia,tegra20-pwm", .data = &tegra20_pwm_soc },
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{ .compatible = "nvidia,tegra186-pwm", .data = &tegra186_pwm_soc },
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{ .compatible = "nvidia,tegra194-pwm", .data = &tegra194_pwm_soc },
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{ }
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};
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MODULE_DEVICE_TABLE(of, tegra_pwm_of_match);
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static const struct dev_pm_ops tegra_pwm_pm_ops = {
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SET_RUNTIME_PM_OPS(tegra_pwm_runtime_suspend, tegra_pwm_runtime_resume,
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NULL)
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SET_SYSTEM_SLEEP_PM_OPS(pm_runtime_force_suspend,
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pm_runtime_force_resume)
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};
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static struct platform_driver tegra_pwm_driver = {
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.driver = {
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.name = "tegra-pwm",
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.of_match_table = tegra_pwm_of_match,
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.pm = &tegra_pwm_pm_ops,
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},
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.probe = tegra_pwm_probe,
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.remove = tegra_pwm_remove,
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};
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module_platform_driver(tegra_pwm_driver);
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MODULE_LICENSE("GPL");
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MODULE_AUTHOR("Sandipan Patra <spatra@nvidia.com>");
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MODULE_DESCRIPTION("Tegra PWM controller driver");
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MODULE_ALIAS("platform:tegra-pwm");
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