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Release 4.7 drivers/devfreq/tegra-devfreq.c

Directory: drivers/devfreq
/*
 * A devfreq driver for NVIDIA Tegra SoCs
 *
 * Copyright (c) 2014 NVIDIA CORPORATION. All rights reserved.
 * Copyright (C) 2014 Google, Inc
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
 * more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program. If not, see <http://www.gnu.org/licenses/>.
 *
 */

#include <linux/clk.h>
#include <linux/cpufreq.h>
#include <linux/devfreq.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/pm_opp.h>
#include <linux/reset.h>

#include "governor.h"


#define ACTMON_GLB_STATUS					0x0

#define ACTMON_GLB_PERIOD_CTRL					0x4


#define ACTMON_DEV_CTRL						0x0

#define ACTMON_DEV_CTRL_K_VAL_SHIFT				10

#define ACTMON_DEV_CTRL_ENB_PERIODIC				BIT(18)

#define ACTMON_DEV_CTRL_AVG_BELOW_WMARK_EN			BIT(20)

#define ACTMON_DEV_CTRL_AVG_ABOVE_WMARK_EN			BIT(21)

#define ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_NUM_SHIFT	23

#define ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_NUM_SHIFT	26

#define ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN		BIT(29)

#define ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN		BIT(30)

#define ACTMON_DEV_CTRL_ENB					BIT(31)


#define ACTMON_DEV_UPPER_WMARK					0x4

#define ACTMON_DEV_LOWER_WMARK					0x8

#define ACTMON_DEV_INIT_AVG					0xc

#define ACTMON_DEV_AVG_UPPER_WMARK				0x10

#define ACTMON_DEV_AVG_LOWER_WMARK				0x14

#define ACTMON_DEV_COUNT_WEIGHT					0x18

#define ACTMON_DEV_AVG_COUNT					0x20

#define ACTMON_DEV_INTR_STATUS					0x24


#define ACTMON_INTR_STATUS_CLEAR				0xffffffff


#define ACTMON_DEV_INTR_CONSECUTIVE_UPPER			BIT(31)

#define ACTMON_DEV_INTR_CONSECUTIVE_LOWER			BIT(30)


#define ACTMON_ABOVE_WMARK_WINDOW				1

#define ACTMON_BELOW_WMARK_WINDOW				3

#define ACTMON_BOOST_FREQ_STEP					16000

/*
 * Activity counter is incremented every 256 memory transactions, and each
 * transaction takes 4 EMC clocks for Tegra124; So the COUNT_WEIGHT is
 * 4 * 256 = 1024.
 */

#define ACTMON_COUNT_WEIGHT					0x400

/*
 * ACTMON_AVERAGE_WINDOW_LOG2: default value for @DEV_CTRL_K_VAL, which
 * translates to 2 ^ (K_VAL + 1). ex: 2 ^ (6 + 1) = 128
 */

#define ACTMON_AVERAGE_WINDOW_LOG2			6

#define ACTMON_SAMPLING_PERIOD				12 
/* ms */

#define ACTMON_DEFAULT_AVG_BAND				6  
/* 1/10 of % */


#define KHZ							1000

/* Assume that the bus is saturated if the utilization is 25% */

#define BUS_SATURATION_RATIO					25

/**
 * struct tegra_devfreq_device_config - configuration specific to an ACTMON
 * device
 *
 * Coefficients and thresholds are percentages unless otherwise noted
 */

struct tegra_devfreq_device_config {
	
u32		offset;
	
u32		irq_mask;

	/* Factors applied to boost_freq every consecutive watermark breach */
	
unsigned int	boost_up_coeff;
	
unsigned int	boost_down_coeff;

	/* Define the watermark bounds when applied to the current avg */
	
unsigned int	boost_up_threshold;
	
unsigned int	boost_down_threshold;

	/*
         * Threshold of activity (cycles) below which the CPU frequency isn't
         * to be taken into account. This is to avoid increasing the EMC
         * frequency when the CPU is very busy but not accessing the bus often.
         */
	
u32		avg_dependency_threshold;
};


enum tegra_actmon_device {
	
MCALL = 0,
	
MCCPU,
};


static struct tegra_devfreq_device_config actmon_device_configs[] = {
	{
		/* MCALL: All memory accesses (including from the CPUs) */
		.offset = 0x1c0,
		.irq_mask = 1 << 26,
		.boost_up_coeff = 200,
		.boost_down_coeff = 50,
		.boost_up_threshold = 60,
		.boost_down_threshold = 40,
        },
	{
		/* MCCPU: memory accesses from the CPUs */
		.offset = 0x200,
		.irq_mask = 1 << 25,
		.boost_up_coeff = 800,
		.boost_down_coeff = 90,
		.boost_up_threshold = 27,
		.boost_down_threshold = 10,
		.avg_dependency_threshold = 50000,
        },
};

/**
 * struct tegra_devfreq_device - state specific to an ACTMON device
 *
 * Frequencies are in kHz.
 */

struct tegra_devfreq_device {
	
const struct tegra_devfreq_device_config *config;
	
void __iomem *regs;
	
spinlock_t lock;

	/* Average event count sampled in the last interrupt */
	
u32 avg_count;

	/*
         * Extra frequency to increase the target by due to consecutive
         * watermark breaches.
         */
	
unsigned long boost_freq;

	/* Optimal frequency calculated from the stats for this device */
	
unsigned long target_freq;
};


struct tegra_devfreq {
	
struct devfreq		*devfreq;

	
struct reset_control	*reset;
	
struct clk		*clock;
	
void __iomem		*regs;

	
struct clk		*emc_clock;
	
unsigned long		max_freq;
	
unsigned long		cur_freq;
	
struct notifier_block	rate_change_nb;

	
struct tegra_devfreq_device devices[ARRAY_SIZE(actmon_device_configs)];
};


struct tegra_actmon_emc_ratio {
	
unsigned long cpu_freq;
	
unsigned long emc_freq;
};


static struct tegra_actmon_emc_ratio actmon_emc_ratios[] = {
	{ 1400000, ULONG_MAX },
	{ 1200000,    750000 },
	{ 1100000,    600000 },
	{ 1000000,    500000 },
	{  800000,    375000 },
	{  500000,    200000 },
	{  250000,    100000 },
};


static u32 actmon_readl(struct tegra_devfreq *tegra, u32 offset) { return readl(tegra->regs + offset); }

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static void actmon_writel(struct tegra_devfreq *tegra, u32 val, u32 offset) { writel(val, tegra->regs + offset); }

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static u32 device_readl(struct tegra_devfreq_device *dev, u32 offset) { return readl(dev->regs + offset); }

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static void device_writel(struct tegra_devfreq_device *dev, u32 val, u32 offset) { writel(val, dev->regs + offset); }

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static unsigned long do_percent(unsigned long val, unsigned int pct) { return val * pct / 100; }

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static void tegra_devfreq_update_avg_wmark(struct tegra_devfreq *tegra, struct tegra_devfreq_device *dev) { u32 avg = dev->avg_count; u32 avg_band_freq = tegra->max_freq * ACTMON_DEFAULT_AVG_BAND / KHZ; u32 band = avg_band_freq * ACTMON_SAMPLING_PERIOD; device_writel(dev, avg + band, ACTMON_DEV_AVG_UPPER_WMARK); avg = max(dev->avg_count, band); device_writel(dev, avg - band, ACTMON_DEV_AVG_LOWER_WMARK); }

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static void tegra_devfreq_update_wmark(struct tegra_devfreq *tegra, struct tegra_devfreq_device *dev) { u32 val = tegra->cur_freq * ACTMON_SAMPLING_PERIOD; device_writel(dev, do_percent(val, dev->config->boost_up_threshold), ACTMON_DEV_UPPER_WMARK); device_writel(dev, do_percent(val, dev->config->boost_down_threshold), ACTMON_DEV_LOWER_WMARK); }

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static void actmon_write_barrier(struct tegra_devfreq *tegra) { /* ensure the update has reached the ACTMON */ wmb(); actmon_readl(tegra, ACTMON_GLB_STATUS); }

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static void actmon_isr_device(struct tegra_devfreq *tegra, struct tegra_devfreq_device *dev) { unsigned long flags; u32 intr_status, dev_ctrl; spin_lock_irqsave(&dev->lock, flags); dev->avg_count = device_readl(dev, ACTMON_DEV_AVG_COUNT); tegra_devfreq_update_avg_wmark(tegra, dev); intr_status = device_readl(dev, ACTMON_DEV_INTR_STATUS); dev_ctrl = device_readl(dev, ACTMON_DEV_CTRL); if (intr_status & ACTMON_DEV_INTR_CONSECUTIVE_UPPER) { /* * new_boost = min(old_boost * up_coef + step, max_freq) */ dev->boost_freq = do_percent(dev->boost_freq, dev->config->boost_up_coeff); dev->boost_freq += ACTMON_BOOST_FREQ_STEP; dev_ctrl |= ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; if (dev->boost_freq >= tegra->max_freq) dev->boost_freq = tegra->max_freq; else dev_ctrl |= ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN; } else if (intr_status & ACTMON_DEV_INTR_CONSECUTIVE_LOWER) { /* * new_boost = old_boost * down_coef * or 0 if (old_boost * down_coef < step / 2) */ dev->boost_freq = do_percent(dev->boost_freq, dev->config->boost_down_coeff); dev_ctrl |= ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN; if (dev->boost_freq < (ACTMON_BOOST_FREQ_STEP >> 1)) dev->boost_freq = 0; else dev_ctrl |= ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; } if (dev->config->avg_dependency_threshold) { if (dev->avg_count >= dev->config->avg_dependency_threshold) dev_ctrl |= ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; else if (dev->boost_freq == 0) dev_ctrl &= ~ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; } device_writel(dev, dev_ctrl, ACTMON_DEV_CTRL); device_writel(dev, ACTMON_INTR_STATUS_CLEAR, ACTMON_DEV_INTR_STATUS); actmon_write_barrier(tegra); spin_unlock_irqrestore(&dev->lock, flags); }

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static irqreturn_t actmon_isr(int irq, void *data) { struct tegra_devfreq *tegra = data; bool handled = false; unsigned int i; u32 val; val = actmon_readl(tegra, ACTMON_GLB_STATUS); for (i = 0; i < ARRAY_SIZE(tegra->devices); i++) { if (val & tegra->devices[i].config->irq_mask) { actmon_isr_device(tegra, tegra->devices + i); handled = true; } } return handled ? IRQ_WAKE_THREAD : IRQ_NONE; }

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static unsigned long actmon_cpu_to_emc_rate(struct tegra_devfreq *tegra, unsigned long cpu_freq) { unsigned int i; struct tegra_actmon_emc_ratio *ratio = actmon_emc_ratios; for (i = 0; i < ARRAY_SIZE(actmon_emc_ratios); i++, ratio++) { if (cpu_freq >= ratio->cpu_freq) { if (ratio->emc_freq >= tegra->max_freq) return tegra->max_freq; else return ratio->emc_freq; } } return 0; }

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static void actmon_update_target(struct tegra_devfreq *tegra, struct tegra_devfreq_device *dev) { unsigned long cpu_freq = 0; unsigned long static_cpu_emc_freq = 0; unsigned int avg_sustain_coef; unsigned long flags; if (dev->config->avg_dependency_threshold) { cpu_freq = cpufreq_get(0); static_cpu_emc_freq = actmon_cpu_to_emc_rate(tegra, cpu_freq); } spin_lock_irqsave(&dev->lock, flags); dev->target_freq = dev->avg_count / ACTMON_SAMPLING_PERIOD; avg_sustain_coef = 100 * 100 / dev->config->boost_up_threshold; dev->target_freq = do_percent(dev->target_freq, avg_sustain_coef); dev->target_freq += dev->boost_freq; if (dev->avg_count >= dev->config->avg_dependency_threshold) dev->target_freq = max(dev->target_freq, static_cpu_emc_freq); spin_unlock_irqrestore(&dev->lock, flags); }

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static irqreturn_t actmon_thread_isr(int irq, void *data) { struct tegra_devfreq *tegra = data; mutex_lock(&tegra->devfreq->lock); update_devfreq(tegra->devfreq); mutex_unlock(&tegra->devfreq->lock); return IRQ_HANDLED; }

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static int tegra_actmon_rate_notify_cb(struct notifier_block *nb, unsigned long action, void *ptr) { struct clk_notifier_data *data = ptr; struct tegra_devfreq *tegra; struct tegra_devfreq_device *dev; unsigned int i; unsigned long flags; if (action != POST_RATE_CHANGE) return NOTIFY_OK; tegra = container_of(nb, struct tegra_devfreq, rate_change_nb); tegra->cur_freq = data->new_rate / KHZ; for (i = 0; i < ARRAY_SIZE(tegra->devices); i++) { dev = &tegra->devices[i]; spin_lock_irqsave(&dev->lock, flags); tegra_devfreq_update_wmark(tegra, dev); spin_unlock_irqrestore(&dev->lock, flags); } actmon_write_barrier(tegra); return NOTIFY_OK; }

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static void tegra_actmon_enable_interrupts(struct tegra_devfreq *tegra) { struct tegra_devfreq_device *dev; u32 val; unsigned int i; for (i = 0; i < ARRAY_SIZE(tegra->devices); i++) { dev = &tegra->devices[i]; val = device_readl(dev, ACTMON_DEV_CTRL); val |= ACTMON_DEV_CTRL_AVG_ABOVE_WMARK_EN; val |= ACTMON_DEV_CTRL_AVG_BELOW_WMARK_EN; val |= ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; val |= ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN; device_writel(dev, val, ACTMON_DEV_CTRL); } actmon_write_barrier(tegra); }

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static void tegra_actmon_disable_interrupts(struct tegra_devfreq *tegra) { struct tegra_devfreq_device *dev; u32 val; unsigned int i; for (i = 0; i < ARRAY_SIZE(tegra->devices); i++) { dev = &tegra->devices[i]; val = device_readl(dev, ACTMON_DEV_CTRL); val &= ~ACTMON_DEV_CTRL_AVG_ABOVE_WMARK_EN; val &= ~ACTMON_DEV_CTRL_AVG_BELOW_WMARK_EN; val &= ~ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_EN; val &= ~ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_EN; device_writel(dev, val, ACTMON_DEV_CTRL); } actmon_write_barrier(tegra); }

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static void tegra_actmon_configure_device(struct tegra_devfreq *tegra, struct tegra_devfreq_device *dev) { u32 val = 0; dev->target_freq = tegra->cur_freq; dev->avg_count = tegra->cur_freq * ACTMON_SAMPLING_PERIOD; device_writel(dev, dev->avg_count, ACTMON_DEV_INIT_AVG); tegra_devfreq_update_avg_wmark(tegra, dev); tegra_devfreq_update_wmark(tegra, dev); device_writel(dev, ACTMON_COUNT_WEIGHT, ACTMON_DEV_COUNT_WEIGHT); device_writel(dev, ACTMON_INTR_STATUS_CLEAR, ACTMON_DEV_INTR_STATUS); val |= ACTMON_DEV_CTRL_ENB_PERIODIC; val |= (ACTMON_AVERAGE_WINDOW_LOG2 - 1) << ACTMON_DEV_CTRL_K_VAL_SHIFT; val |= (ACTMON_BELOW_WMARK_WINDOW - 1) << ACTMON_DEV_CTRL_CONSECUTIVE_BELOW_WMARK_NUM_SHIFT; val |= (ACTMON_ABOVE_WMARK_WINDOW - 1) << ACTMON_DEV_CTRL_CONSECUTIVE_ABOVE_WMARK_NUM_SHIFT; val |= ACTMON_DEV_CTRL_ENB; device_writel(dev, val, ACTMON_DEV_CTRL); actmon_write_barrier(tegra); }

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static int tegra_devfreq_target(struct device *dev, unsigned long *freq, u32 flags) { struct tegra_devfreq *tegra = dev_get_drvdata(dev); struct dev_pm_opp *opp; unsigned long rate = *freq * KHZ; rcu_read_lock(); opp = devfreq_recommended_opp(dev, &rate, flags); if (IS_ERR(opp)) { rcu_read_unlock(); dev_err(dev, "Failed to find opp for %lu KHz\n", *freq); return PTR_ERR(opp); } rate = dev_pm_opp_get_freq(opp); rcu_read_unlock(); clk_set_min_rate(tegra->emc_clock, rate); clk_set_rate(tegra->emc_clock, 0); *freq = rate; return 0; }

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static int tegra_devfreq_get_dev_status(struct device *dev, struct devfreq_dev_status *stat) { struct tegra_devfreq *tegra = dev_get_drvdata(dev); struct tegra_devfreq_device *actmon_dev; stat->current_frequency = tegra->cur_freq; /* To be used by the tegra governor */ stat->private_data = tegra; /* The below are to be used by the other governors */ actmon_dev = &tegra->devices[MCALL]; /* Number of cycles spent on memory access */ stat->busy_time = device_readl(actmon_dev, ACTMON_DEV_AVG_COUNT); /* The bus can be considered to be saturated way before 100% */ stat->busy_time *= 100 / BUS_SATURATION_RATIO; /* Number of cycles in a sampling period */ stat->total_time = ACTMON_SAMPLING_PERIOD * tegra->cur_freq; stat->busy_time = min(stat->busy_time, stat->total_time); return 0; }

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static struct devfreq_dev_profile tegra_devfreq_profile = { .polling_ms = 0, .target = tegra_devfreq_target, .get_dev_status = tegra_devfreq_get_dev_status, };
static int tegra_governor_get_target(struct devfreq *devfreq, unsigned long *freq) { struct devfreq_dev_status *stat; struct tegra_devfreq *tegra; struct tegra_devfreq_device *dev; unsigned long target_freq = 0; unsigned int i; int err; err = devfreq_update_stats(devfreq); if (err) return err; stat = &devfreq->last_status; tegra = stat->private_data; for (i = 0; i < ARRAY_SIZE(tegra->devices); i++) { dev = &tegra->devices[i]; actmon_update_target(tegra, dev); target_freq = max(target_freq, dev->target_freq); } *freq = target_freq; return 0; }

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static int tegra_governor_event_handler(struct devfreq *devfreq, unsigned int event, void *data) { struct tegra_devfreq *tegra; int ret = 0; tegra = dev_get_drvdata(devfreq->dev.parent); switch (event) { case DEVFREQ_GOV_START: devfreq_monitor_start(devfreq); tegra_actmon_enable_interrupts(tegra); break; case DEVFREQ_GOV_STOP: tegra_actmon_disable_interrupts(tegra); devfreq_monitor_stop(devfreq); break; case DEVFREQ_GOV_SUSPEND: tegra_actmon_disable_interrupts(tegra); devfreq_monitor_suspend(devfreq); break; case DEVFREQ_GOV_RESUME: devfreq_monitor_resume(devfreq); tegra_actmon_enable_interrupts(tegra); break; } return ret; }

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static struct devfreq_governor tegra_devfreq_governor = { .name = "tegra_actmon", .get_target_freq = tegra_governor_get_target, .event_handler = tegra_governor_event_handler, };
static int tegra_devfreq_probe(struct platform_device *pdev) { struct tegra_devfreq *tegra; struct tegra_devfreq_device *dev; struct resource *res; unsigned int i; unsigned long rate; int irq; int err; tegra = devm_kzalloc(&pdev->dev, sizeof(*tegra), GFP_KERNEL); if (!tegra) return -ENOMEM; res = platform_get_resource(pdev, IORESOURCE_MEM, 0); tegra->regs = devm_ioremap_resource(&pdev->dev, res); if (IS_ERR(tegra->regs)) return PTR_ERR(tegra->regs); tegra->reset = devm_reset_control_get(&pdev->dev, "actmon"); if (IS_ERR(tegra->reset)) { dev_err(&pdev->dev, "Failed to get reset\n"); return PTR_ERR(tegra->reset); } tegra->clock = devm_clk_get(&pdev->dev, "actmon"); if (IS_ERR(tegra->clock)) { dev_err(&pdev->dev, "Failed to get actmon clock\n"); return PTR_ERR(tegra->clock); } tegra->emc_clock = devm_clk_get(&pdev->dev, "emc"); if (IS_ERR(tegra->emc_clock)) { dev_err(&pdev->dev, "Failed to get emc clock\n"); return PTR_ERR(tegra->emc_clock); } clk_set_rate(tegra->emc_clock, ULONG_MAX); tegra->rate_change_nb.notifier_call = tegra_actmon_rate_notify_cb; err = clk_notifier_register(tegra->emc_clock, &tegra->rate_change_nb); if (err) { dev_err(&pdev->dev, "Failed to register rate change notifier\n"); return err; } reset_control_assert(tegra->reset); err = clk_prepare_enable(tegra->clock); if (err) { dev_err(&pdev->dev, "Failed to prepare and enable ACTMON clock\n"); return err; } reset_control_deassert(tegra->reset); tegra->max_freq = clk_round_rate(tegra->emc_clock, ULONG_MAX) / KHZ; tegra->cur_freq = clk_get_rate(tegra->emc_clock) / KHZ; actmon_writel(tegra, ACTMON_SAMPLING_PERIOD - 1, ACTMON_GLB_PERIOD_CTRL); for (i = 0; i < ARRAY_SIZE(actmon_device_configs); i++) { dev = tegra->devices + i; dev->config = actmon_device_configs + i; dev->regs = tegra->regs + dev->config->offset; spin_lock_init(&dev->lock); tegra_actmon_configure_device(tegra, dev); } for (rate = 0; rate <= tegra->max_freq * KHZ; rate++) { rate = clk_round_rate(tegra->emc_clock, rate); dev_pm_opp_add(&pdev->dev, rate, 0); } irq = platform_get_irq(pdev, 0); if (irq <= 0) { dev_err(&pdev->dev, "Failed to get IRQ\n"); return -ENODEV; } platform_set_drvdata(pdev, tegra); err = devm_request_threaded_irq(&pdev->dev, irq, actmon_isr, actmon_thread_isr, IRQF_SHARED, "tegra-devfreq", tegra); if (err) { dev_err(&pdev->dev, "Interrupt request failed\n"); return err; } tegra_devfreq_profile.initial_freq = clk_get_rate(tegra->emc_clock); tegra->devfreq = devm_devfreq_add_device(&pdev->dev, &tegra_devfreq_profile, "tegra_actmon", NULL); return 0; }

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static int tegra_devfreq_remove(struct platform_device *pdev) { struct tegra_devfreq *tegra = platform_get_drvdata(pdev); int irq = platform_get_irq(pdev, 0); u32 val; unsigned int i; for (i = 0; i < ARRAY_SIZE(actmon_device_configs); i++) { val = device_readl(&tegra->devices[i], ACTMON_DEV_CTRL); val &= ~ACTMON_DEV_CTRL_ENB; device_writel(&tegra->devices[i], val, ACTMON_DEV_CTRL); } actmon_write_barrier(tegra); devm_free_irq(&pdev->dev, irq, tegra); clk_notifier_unregister(tegra->emc_clock, &tegra->rate_change_nb); clk_disable_unprepare(tegra->clock); return 0; }

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static const struct of_device_id tegra_devfreq_of_match[] = { { .compatible = "nvidia,tegra124-actmon" }, { }, }; MODULE_DEVICE_TABLE(of, tegra_devfreq_of_match); static struct platform_driver tegra_devfreq_driver = { .probe = tegra_devfreq_probe, .remove = tegra_devfreq_remove, .driver = { .name = "tegra-devfreq", .of_match_table = tegra_devfreq_of_match, }, };
static int __init tegra_devfreq_init(void) { int ret = 0; ret = devfreq_add_governor(&tegra_devfreq_governor); if (ret) { pr_err("%s: failed to add governor: %d\n", __func__, ret); return ret; } ret = platform_driver_register(&tegra_devfreq_driver); if (ret) devfreq_remove_governor(&tegra_devfreq_governor); return ret; }

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module_init(tegra_devfreq_init)
static void __exit tegra_devfreq_exit(void) { int ret = 0; platform_driver_unregister(&tegra_devfreq_driver); ret = devfreq_remove_governor(&tegra_devfreq_governor); if (ret) pr_err("%s: failed to remove governor: %d\n", __func__, ret); }

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module_exit(tegra_devfreq_exit) MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("Tegra devfreq driver"); MODULE_AUTHOR("Tomeu Vizoso <tomeu.vizoso@collabora.com>");

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Directory: drivers/devfreq
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