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SubjectRe: [PATCH v7 08/13] drivers: memory: add DMC driver for Exynos5422
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Hi Krzysztof,

On 5/8/19 9:11 AM, Krzysztof Kozlowski wrote:
> ())On Mon, 6 May 2019 at 17:12, Lukasz Luba <l.luba@partner.samsung.com> wrote:
>>
>> This patch adds driver for Exynos5422 Dynamic Memory Controller.
>> The driver provides support for dynamic frequency and voltage scaling for
>> DMC and DRAM. It supports changing timings of DRAM running with different
>> frequency. There is also an algorithm to calculate timigns based on
>> memory description provided in DT.
>> The patch also contains needed MAINTAINERS file update.
>>
>> Signed-off-by: Lukasz Luba <l.luba@partner.samsung.com>
>> ---
>> MAINTAINERS | 8 +
>> drivers/memory/samsung/Kconfig | 17 +
>> drivers/memory/samsung/Makefile | 1 +
>> drivers/memory/samsung/exynos5422-dmc.c | 1761 +++++++++++++++++++++++++++++++
>> 4 files changed, 1787 insertions(+)
>> create mode 100644 drivers/memory/samsung/exynos5422-dmc.c
>>
>> diff --git a/MAINTAINERS b/MAINTAINERS
>> index 8ac65e4..c7abb73 100644
>> --- a/MAINTAINERS
>> +++ b/MAINTAINERS
>> @@ -3396,6 +3396,14 @@ S: Maintained
>> F: drivers/devfreq/exynos-bus.c
>> F: Documentation/devicetree/bindings/devfreq/exynos-bus.txt
>>
>> +DMC FREQUENCY DRIVER FOR SAMSUNG EXYNOS5422
>> +M: Lukasz Luba <l.luba@partner.samsung.com>
>> +L: linux-pm@vger.kernel.org
>> +L: linux-samsung-soc@vger.kernel.org
>> +S: Maintained
>> +F: drivers/memory/samsung/exynos5422-dmc.c
>> +F: Documentation/devicetree/bindings/memory-controllers/exynos5422-dmc.txt
>> +
>> BUSLOGIC SCSI DRIVER
>> M: Khalid Aziz <khalid@gonehiking.org>
>> L: linux-scsi@vger.kernel.org
>> diff --git a/drivers/memory/samsung/Kconfig b/drivers/memory/samsung/Kconfig
>> index 79ce7ea..202972b 100644
>> --- a/drivers/memory/samsung/Kconfig
>> +++ b/drivers/memory/samsung/Kconfig
>> @@ -5,6 +5,23 @@ config SAMSUNG_MC
>> Support for the Memory Controller (MC) devices found on
>> Samsung Exynos SoCs.
>>
>> +config ARM_EXYNOS5422_DMC
>> + tristate "ARM EXYNOS5422 Dynamic Memory Controller driver"
>> + depends on ARCH_EXYNOS || COMPILE_TEST
>> + select DDR
>> + select PM_DEVFREQ
>> + select DEVFREQ_GOV_SIMPLE_ONDEMAND
>> + select DEVFREQ_GOV_USERSPACE
>> + select PM_DEVFREQ_EVENT
>> + select PM_OPP
>> + help
>> + This adds driver for Exynos5422 DMC (Dynamic Memory Controller).
>> + The driver provides support for Dynamic Voltage and Frequency Scaling in
>> + DMC and DRAM. It also supports changing timings of DRAM running with
>> + different frequency. The timings are calculated based on DT memory
>> + information.
>> +
>> +
>> if SAMSUNG_MC
>>
>> config EXYNOS_SROM
>> diff --git a/drivers/memory/samsung/Makefile b/drivers/memory/samsung/Makefile
>> index 00587be..4f6e438 100644
>> --- a/drivers/memory/samsung/Makefile
>> +++ b/drivers/memory/samsung/Makefile
>> @@ -1,2 +1,3 @@
>> # SPDX-License-Identifier: GPL-2.0
>> +obj-$(CONFIG_ARM_EXYNOS5422_DMC) += exynos5422-dmc.o
>> obj-$(CONFIG_EXYNOS_SROM) += exynos-srom.o
>> diff --git a/drivers/memory/samsung/exynos5422-dmc.c b/drivers/memory/samsung/exynos5422-dmc.c
>> new file mode 100644
>> index 0000000..64e99b1
>> --- /dev/null
>> +++ b/drivers/memory/samsung/exynos5422-dmc.c
>> @@ -0,0 +1,1761 @@
>> +// SPDX-License-Identifier: GPL-2.0
>> +/*
>> + * Copyright (c) 2019 Samsung Electronics Co., Ltd.
>> + */
>> +
>> +#include <linux/clk.h>
>> +#include <linux/debugfs.h>
>> +#include <linux/delay.h>
>> +#include <linux/devfreq.h>
>> +#include <linux/devfreq-event.h>
>> +#include <linux/device.h>
>> +#include <linux/io.h>
>> +#include <linux/mfd/syscon.h>
>> +#include <linux/module.h>
>> +#include <linux/of_device.h>
>> +#include <linux/pm_opp.h>
>> +#include <linux/platform_device.h>
>> +#include <linux/regmap.h>
>> +#include <linux/regulator/consumer.h>
>> +#include <linux/seq_file.h>
>> +#include <linux/slab.h>
>> +#include <memory/jedec_ddr.h>
>> +#include "../of_memory.h"
>> +
>> +#define EXYNOS5_DREXI_TIMINGAREF (0x0030)
>> +#define EXYNOS5_DREXI_TIMINGROW0 (0x0034)
>> +#define EXYNOS5_DREXI_TIMINGDATA0 (0x0038)
>> +#define EXYNOS5_DREXI_TIMINGPOWER0 (0x003C)
>> +#define EXYNOS5_DREXI_TIMINGROW1 (0x00E4)
>> +#define EXYNOS5_DREXI_TIMINGDATA1 (0x00E8)
>> +#define EXYNOS5_DREXI_TIMINGPOWER1 (0x00EC)
>> +#define CDREX_PAUSE (0x91c)
>> +#define CDREX_LPDDR3PHY_CON3 (0xa20)
>> +#define EXYNOS5_TIMING_SET_SWI (1UL << 28)
>> +#define USE_MX_MSPLL_TIMINGS (1)
>> +#define USE_BPLL_TIMINGS (0)
>> +
>> +#define EXYNOS5_AREF_NORMAL (0x2e)
>> +
>> +#define IS_MEM_2GB(val) \
>> + ( \
>> + (((val) & 0xf0) & 0x20) ? 1 : \
>> + (((val) & 0xf0) & 0x30) ? 1 : 0 \
>> + )
>> +
>> +#define EXYNOS5_POP_OPTIONS(val) (((val >> 4) & 0x3UL) << 4)
>> +#define EXYNOS5_DDR_TYPE(val) (((val >> 14) & 0x1UL))
>> +
>> +#define EXYNOS5_CHIP_PROD_ID (0)
>> +#define EXYNOS5_CHIP_PKG_ID (4)
>> +
>> +#define PPMU_PMCNT_CONST_RATIO_MUL 15
>> +#define PPMU_PMCNT_CONST_RATIO_DIV 10
>> +
>> +#define AXI_BUS_WIDTH_BYTES (128 >> 3)
>> +
>> +enum dmc_slot_id {
>> + DMC0_0,
>> + DMC0_1,
>> + DMC1_0,
>> + DMC1_1,
>> + DMC_SLOTS_END
>> +};
>> +
>> +/**
>> + * struct dmc_slot_info - Describes DMC's slot
>> + *
>> + * The structure holds DMC's slot name which is part of the device name
>> + * provided in DT. Each slot has particular share of the DMC bandwidth.
>> + * To abstract the model performance and values in performance counters,
>> + * fields 'ratio_mul' and 'ratio_div' are used in calculation algorithm
>> + * for each slot. Please check the corresponding function with the algorithm,
>> + * to see how these variables are used.
>> + */
>> +struct dmc_slot_info {
>> + char *name;
>> + int id;
>> + int ratio_mul;
>> + int ratio_div;
>> +};
>> +
>> +/**
>> + * struct dmc_opp_table - Operating level desciption
>> + *
>> + * Covers frequency and voltage settings of the DMC operating mode.
>> + */
>> +struct dmc_opp_table {
>> + u32 freq_hz;
>> + u32 volt_uv;
>> +};
>> +
>> +/**
>> + * struct exynos5_dmc - main structure describing DMC device
>> + *
>> + * The main structure for the Dynamic Memory Controller which covers clocks,
>> + * memory regions, HW information, parameters and current operating mode.
>> + */
>> +struct exynos5_dmc {
>> + struct device *dev;
>> + struct devfreq *df;
>> + struct devfreq_simple_ondemand_data gov_data;
>> + void __iomem *base_drexi0;
>> + void __iomem *base_drexi1;
>> + struct regmap *clk_regmap;
>> + struct regmap *chipid_regmap;
>> + struct mutex lock;
>> + unsigned long curr_rate;
>> + unsigned long curr_volt;
>> + unsigned long bypass_rate;
>> + struct dmc_opp_table *opp;
>> + struct dmc_opp_table opp_bypass;
>> + int opp_count;
>> + u32 timings_arr_size;
>> + u32 *timing_row;
>> + u32 *timing_data;
>> + u32 *timing_power;
>> + const struct lpddr3_timings *timings;
>> + const struct lpddr3_min_tck *min_tck;
>> + u32 bypass_timing_row;
>> + u32 bypass_timing_data;
>> + u32 bypass_timing_power;
>> + unsigned int prod_rev;
>> + unsigned int pkg_rev;
>> + unsigned int mem_info;
>> + struct regulator *vdd_mif;
>> + struct clk *fout_spll;
>> + struct clk *fout_bpll;
>> + struct clk *mout_spll;
>> + struct clk *mout_bpll;
>> + struct clk *mout_mclk_cdrex;
>> + struct clk *dout_clk2x_phy0;
>> + struct clk *mout_mx_mspll_ccore;
>> + struct clk *mx_mspll_ccore_phy;
>> + struct clk *mout_mx_mspll_ccore_phy;
>> + struct devfreq_event_dev **counter;
>> + int num_counters;
>> +#ifdef CONFIG_DEBUG_FS
>> + struct dentry *dbg_root;
>> +#endif
>> +};
>> +
>> +#define TIMING_FIELD(t_name, t_bit_beg, t_bit_end) \
>> + { .name = t_name, .bit_beg = t_bit_beg, .bit_end = t_bit_end }
>> +
>> +#define TIMING_VAL(timing_array, id, t_val) \
>> +({ \
>> + u32 __val; \
>> + __val = t_val << timing_array[id].bit_beg; \
>> + __val; \
>> +})
>> +
>> +#define TIMING_VAL2REG(timing, t_val) \
>> +({ \
>> + u32 __val; \
>> + __val = t_val << timing->bit_beg; \
>> + __val; \
>> +})
>> +
>> +#define TIMING_REG2VAL(reg, timing) \
>> +({ \
>> + u32 __val; \
>> + reg <<= (31 - timing->bit_end); \
>> + reg >>= (31 - timing->bit_end); \
>> + __val = reg >> timing->bit_beg; \
>> + __val; \
>> +})
>> +
>> +struct timing_reg {
>> + char *name;
>> + int bit_beg;
>> + int bit_end;
>> + unsigned int val;
>> +};
>> +
>> +static const struct timing_reg timing_row[] = {
>> + TIMING_FIELD("tRFC", 24, 31),
>> + TIMING_FIELD("tRRD", 20, 23),
>> + TIMING_FIELD("tRP", 16, 19),
>> + TIMING_FIELD("tRCD", 12, 15),
>> + TIMING_FIELD("tRC", 6, 11),
>> + TIMING_FIELD("tRAS", 0, 5),
>> +};
>> +
>> +static const struct timing_reg timing_data[] = {
>> + TIMING_FIELD("tWTR", 28, 31),
>> + TIMING_FIELD("tWR", 24, 27),
>> + TIMING_FIELD("tRTP", 20, 23),
>> + TIMING_FIELD("tW2W-C2C", 14, 14),
>> + TIMING_FIELD("tR2R-C2C", 12, 12),
>> + TIMING_FIELD("WL", 8, 11),
>> + TIMING_FIELD("tDQSCK", 4, 7),
>> + TIMING_FIELD("RL", 0, 3),
>> +};
>> +
>> +static const struct timing_reg timing_power[] = {
>> + TIMING_FIELD("tFAW", 26, 31),
>> + TIMING_FIELD("tXSR", 16, 25),
>> + TIMING_FIELD("tXP", 8, 15),
>> + TIMING_FIELD("tCKE", 4, 7),
>> + TIMING_FIELD("tMRD", 0, 3),
>> +};
>> +
>> +#define TIMING_COUNT (ARRAY_SIZE(timing_row) + ARRAY_SIZE(timing_data) + \
>> + ARRAY_SIZE(timing_power))
>> +
>> +static int exynos5_counters_set_event(struct exynos5_dmc *dmc)
>> +{
>> + int i, ret;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + if (!dmc->counter[i])
>> + continue;
>> + ret = devfreq_event_set_event(dmc->counter[i]);
>> + if (ret < 0)
>> + return ret;
>> + }
>> + return 0;
>> +}
>> +
>> +static int exynos5_counters_enable_edev(struct exynos5_dmc *dmc)
>> +{
>> + int i, ret;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + if (!dmc->counter[i])
>> + continue;
>> + ret = devfreq_event_enable_edev(dmc->counter[i]);
>> + if (ret < 0)
>> + return ret;
>> + }
>> + return 0;
>> +}
>> +
>> +static int exynos5_counters_disable_edev(struct exynos5_dmc *dmc)
>> +{
>> + int i, ret;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + if (!dmc->counter[i])
>> + continue;
>> + ret = devfreq_event_disable_edev(dmc->counter[i]);
>> + if (ret < 0)
>> + return ret;
>> + }
>> + return 0;
>> +}
>> +
>> +/* Event names to DMC channel and slot with proper data count type */
>> +static const char *event_name[] = {
>> + /* Counters for DMC0 slot 0 */
>> + "ppmu-event0-dmc0_0",
>> + "DMC0_0-Read",
>> + "ppmu-event1-dmc0_0",
>> + "DMC0_0-Write",
>> + "ppmu-event3-dmc0_0",
>> + "DMC0_0-Read+Write",
>> + /* Counters for DMC0 slot 1 */
>> + "ppmu-event0-dmc0_1",
>> + "DMC0_1-Read",
>> + "ppmu-event1-dmc0_1",
>> + "DMC0_1-Write",
>> + "ppmu-event3-dmc0_1",
>> + "DMC0_1-Read+Write",
>> + /* Counters for DMC1 slot 0 */
>> + "ppmu-event0-dmc1_0",
>> + "DMC1_0-Read",
>> + "ppmu-event1-dmc1_0",
>> + "DMC1_0-Write",
>> + "ppmu-event3-dmc1_0",
>> + "DMC1_0-Read+Write",
>> + /* Counters for DMC1 slot 0 */
>> + "ppmu-event0-dmc1_1",
>> + "DMC1_1-Read",
>> + "ppmu-event1-dmc1_1",
>> + "DMC1_1-Write",
>> + "ppmu-event3-dmc1_1",
>> + "DMC1_1-Read+Write",
>> +};
>> +
>> +/**
>> + * find_target_freq_id() - Finds requested frequency in local DMC configuration
>> + * @dmc: device for which the information is checked
>> + * @target_rate: requested frequency in KHz
>> + *
>> + * Seeks in the local DMC driver structure for the requested frequency value
>> + * and returns index or error value.
>> + */
>> +static int find_target_freq_idx(struct exynos5_dmc *dmc,
>> + unsigned long target_rate)
>> +{
>> + int i;
>> +
>> + for (i = dmc->opp_count - 1; i >= 0; i--)
>> + if (dmc->opp[i].freq_hz <= target_rate)
>> + return i;
>> +
>> + return -EINVAL;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_chip_revision_settings() - Chooses proper DMC's configuration
>> + * @dmc: device for which is going to be checked and configured
>> + *
>> + * Function checks the HW product information in order to choose proper
>> + * configuration for DMC frequency, voltage and DRAM timings.
>> + */
>> +static int exynos5_dmc_chip_revision_settings(struct exynos5_dmc *dmc)
>> +{
>> + unsigned int val;
>> +
>> + regmap_read(dmc->chipid_regmap, EXYNOS5_CHIP_PROD_ID, &val);
>> + dmc->prod_rev = val;
>> +
>> + regmap_read(dmc->chipid_regmap, EXYNOS5_CHIP_PKG_ID, &val);
>> + dmc->pkg_rev = val;
>
> You do not use them later (prod_rev and pkg_rev) except debug message.
> Don't store them only for that purpose... and you anyway do not need
> to print prod_id/pkg_id. These are properties of SoC/chipid, not
> properties of DMC. They could be printed by chipd driver but not by
> other drivers.
>
> Actually, you do not use mem_info either, so remove all of it.
OK, I will remove 'prod_rev, pkg_rev and mem_info from the
'struct exynos5_dmc'. I will just read the register and test this 2GB
memory info locally.
>
>> +
>> + dmc->mem_info = EXYNOS5_POP_OPTIONS(val);
>> + dmc->mem_info |= EXYNOS5_DDR_TYPE(val);
>> +
>> + if (!IS_MEM_2GB(dmc->mem_info)) {
>> + dev_warn(dmc->dev, "DRAM memory type not supported\n");
>> + return -EINVAL;
>> + }
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_switch_timing_regs() - Changes bank register set for DRAM timings
>> + * @dmc: device for which the new settings is going to be applied
>> + * @set: boolean variable passing set value
>> + *
>> + * Changes the register set, which holds timing parameters.
>> + * There is two register sets: 0 and 1. The register set 0
>> + * is used in normal operation when the clock is provided from main PLL.
>> + * The bank register set 1 is used when the main PLL frequency is going to be
>> + * changed and the clock is taken from alternative, stable source.
>> + * This function switches between these banks according to the
>> + * currently used clock source.
>> + */
>> +static void exynos5_switch_timing_regs(struct exynos5_dmc *dmc, bool set)
>> +{
>> + unsigned int reg;
>> + int ret;
>> +
>> + ret = regmap_read(dmc->clk_regmap, CDREX_LPDDR3PHY_CON3, &reg);
>> +
>> + if (set)
>> + reg |= EXYNOS5_TIMING_SET_SWI;
>> + else
>> + reg &= ~EXYNOS5_TIMING_SET_SWI;
>> +
>> + regmap_write(dmc->clk_regmap, CDREX_LPDDR3PHY_CON3, reg);
>> +}
>> +
>> +/**
>> + * exynos5_init_freq_table() - Initialized PM OPP framework
>> + * @dev: devfreq device for which the OPP table is going to be
>> + * initialized
>> + * @dmc: DMC device for which the frequencies are used for OPP init
>> + * @profile: devfreq device's profile
>> + *
>> + * Populate the devfreq device's OPP table based on current frequency, voltage.
>> + */
>> +static int exynos5_init_freq_table(struct device *dev, struct exynos5_dmc *dmc,
>> + struct devfreq_dev_profile *profile)
>> +{
>> + int i, ret;
>> + int idx;
>> + unsigned long freq;
>> +
>> + ret = dev_pm_opp_of_add_table(dev);
>> + if (ret < 0) {
>> + dev_err(dev, "Failed to get OPP table\n");
>> + return ret;
>> + }
>> +
>> + dmc->opp_count = dev_pm_opp_get_opp_count(dev);
>> +
>> + dmc->opp = devm_kmalloc_array(dmc->dev, dmc->opp_count,
>> + sizeof(struct dmc_opp_table), GFP_KERNEL);
>> + if (!dmc->opp)
>> + goto err_opp;
>> +
>> + idx = dmc->opp_count - 1;
>> + for (i = 0, freq = ULONG_MAX; i < dmc->opp_count; i++, freq--) {
>> + struct dev_pm_opp *opp;
>> +
>> + opp = dev_pm_opp_find_freq_floor(dev, &freq);
>> + if (IS_ERR(opp))
>> + goto err_free_tables;
>> +
>> + dmc->opp[idx - i].freq_hz = freq;
>> + dmc->opp[idx - i].volt_uv = dev_pm_opp_get_voltage(opp);
>> +
>> + dev_pm_opp_put(opp);
>> + }
>> +
>> + return 0;
>> +
>> +err_free_tables:
>> + kfree(dmc->opp);
>> +err_opp:
>> + dev_pm_opp_of_remove_table(dev);
>> +
>> + return -EINVAL;
>> +}
>> +
>> +/**
>> + * exynos5_set_bypass_dram_timings() - Low-level changes of the DRAM timings
>> + * @dmc: device for which the new settings is going to be applied
>> + * @param: DRAM parameters which passes timing data
>> + *
>> + * Low-level function for changing timings for DRAM memory clocking from
>> + * 'bypass' clock source (fixed frequency @400MHz).
>> + * It uses timing bank registers set 1.
>> + */
>> +static void exynos5_set_bypass_dram_timings(struct exynos5_dmc *dmc)
>> +{
>> + writel(EXYNOS5_AREF_NORMAL,
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGAREF);
>> +
>> + writel(dmc->bypass_timing_row,
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGROW1);
>> + writel(dmc->bypass_timing_row,
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGROW1);
>> + writel(dmc->bypass_timing_data,
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGDATA1);
>> + writel(dmc->bypass_timing_data,
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGDATA1);
>> + writel(dmc->bypass_timing_power,
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGPOWER1);
>> + writel(dmc->bypass_timing_power,
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGPOWER1);
>> +}
>> +
>> +/**
>> + * exynos5_dram_change_timings() - Low-level changes of the DRAM final timings
>> + * @dmc: device for which the new settings is going to be applied
>> + * @target_rate: target frequency of the DMC
>> + *
>> + * Low-level function for changing timings for DRAM memory operating from main
>> + * clock source (BPLL), which can have different frequencies. Thus, each
>> + * frequency must have corresponding timings register values in order to keep
>> + * the needed delays.
>> + * It uses timing bank registers set 0.
>> + */
>> +static int exynos5_dram_change_timings(struct exynos5_dmc *dmc,
>> + unsigned long target_rate)
>> +{
>> + int idx;
>> +
>> + for (idx = dmc->opp_count - 1; idx >= 0; idx--)
>> + if (dmc->opp[idx].freq_hz <= target_rate)
>> + break;
>> +
>> + if (idx < 0)
>> + return -EINVAL;
>> +
>> + writel(EXYNOS5_AREF_NORMAL,
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGAREF);
>> +
>> + writel(dmc->timing_row[idx],
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGROW0);
>> + writel(dmc->timing_row[idx],
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGROW0);
>> + writel(dmc->timing_data[idx],
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGDATA0);
>> + writel(dmc->timing_data[idx],
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGDATA0);
>> + writel(dmc->timing_power[idx],
>> + dmc->base_drexi0 + EXYNOS5_DREXI_TIMINGPOWER0);
>> + writel(dmc->timing_power[idx],
>> + dmc->base_drexi1 + EXYNOS5_DREXI_TIMINGPOWER0);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_align_target_voltage() - Sets the final voltage for the DMC
>> + * @dmc: device for which it is going to be set
>> + * @target_volt: new voltage which is chosen to be final
>> + *
>> + * Function tries to align voltage to the safe level for 'normal' mode.
>> + * It checks the need of higher voltage and changes the value. The target
>> + * voltage might be lower that currently set and still the system will be
>> + * stable.
>> + */
>> +static int exynos5_dmc_align_target_voltage(struct exynos5_dmc *dmc,
>> + unsigned long target_volt)
>> +{
>> + int ret = 0;
>> +
>> + if (dmc->curr_volt > target_volt) {
>> + ret = regulator_set_voltage(dmc->vdd_mif, target_volt,
>> + target_volt);
>> + if (!ret)
>> + dmc->curr_volt = target_volt;
>> + }
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_align_bypass_voltage() - Sets the voltage for the DMC
>> + * @dmc: device for which it is going to be set
>> + * @target_volt: new voltage which is chosen to be final
>> + *
>> + * Function tries to align voltage to the safe level for the 'bypass' mode.
>> + * It checks the need of higher voltage and changes the value.
>> + * The target voltage must not be less than currently needed, because
>> + * for current frequency the device might become unstable.
>> + */
>> +static int exynos5_dmc_align_bypass_voltage(struct exynos5_dmc *dmc,
>> + unsigned long target_volt)
>> +{
>> + int ret = 0;
>> + unsigned long bypass_volt = dmc->opp_bypass.volt_uv;
>> +
>> + target_volt = max(bypass_volt, target_volt);
>> +
>> + if (dmc->curr_volt >= target_volt)
>> + return 0;
>> +
>> + ret = regulator_set_voltage(dmc->vdd_mif, target_volt,
>> + target_volt);
>> + if (!ret)
>> + dmc->curr_volt = target_volt;
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_align_bypass_dram_timings() - Chooses and sets DRAM timings
>> + * @dmc: device for which it is going to be set
>> + * @target_rate: new frequency which is chosen to be final
>> + *
>> + * Function changes the DRAM timings for the temporary 'bypass' mode.
>> + */
>> +static int exynos5_dmc_align_bypass_dram_timings(struct exynos5_dmc *dmc,
>> + unsigned long target_rate)
>> +{
>> + int idx = find_target_freq_idx(dmc, target_rate);
>> +
>> + if (idx < 0)
>> + return -EINVAL;
>> +
>> + exynos5_set_bypass_dram_timings(dmc);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_switch_to_bypass_configuration() - Switching to temporary clock
>> + * @dmc: DMC device for which the switching is going to happen
>> + * @target_rate: new frequency which is going to be set as a final
>> + * @target_volt: new voltage which is going to be set as a final
>> + *
>> + * Function configures DMC and clocks for operating in temporary 'bypass' mode.
>> + * This mode is used only temporary but if required, changes voltage and timings
>> + * for DRAM chips. It switches the main clock to stable clock source for the
>> + * period of the main PLL reconfiguration.
>> + */
>> +static int exynos5_dmc_switch_to_bypass_configuration(struct exynos5_dmc *dmc,
>> + unsigned long target_rate,
>> + unsigned long target_volt)
>> +{
>> + int ret;
>> +
>> + /*
>> + * Having higher voltage for a particular frequency does not harm
>> + * the chip. Use it for the temporary frequency change when one
>> + * voltage manipulation might be avoided.
>> + */
>> + ret = exynos5_dmc_align_bypass_voltage(dmc, target_volt);
>> + if (ret)
>> + return ret;
>> +
>> + /*
>> + * Longer delays for DRAM does not cause crash, the opposite does.
>> + */
>> + ret = exynos5_dmc_align_bypass_dram_timings(dmc, target_rate);
>> + if (ret)
>> + return ret;
>> +
>> + /*
>> + * Delays are long enough, so use them for the new coming clock.
>> + */
>> + exynos5_switch_timing_regs(dmc, USE_MX_MSPLL_TIMINGS);
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_change_freq_and_volt() - Changes voltage and frequency of the DMC
>> + * using safe procedure
>> + * @dmc: device for which the frequency is going to be changed
>> + * @target_rate: requested new frequency
>> + * @target_volt: requested voltage which corresponds to the new frequency
>> + *
>> + * The DMC frequency change procedure requires a few steps.
>> + * The main requirement is to change the clock source in the clk mux
>> + * for the time of main clock PLL locking. The assumption is that the
>> + * alternative clock source set as parent is stable.
>> + * The second parent's clock frequency is fixed to 400MHz, it is named 'bypass'
>> + * clock. This requires alignment in DRAM timing parameters for the new
>> + * T-period. There is two bank sets for keeping DRAM
>> + * timings: set 0 and set 1. The set 0 is used when main clock source is
>> + * chosen. The 2nd set of regs is used for 'bypass' clock. Switching between
>> + * the two bank sets is part of the process.
>> + * The voltage must also be aligned to the minimum required level. There is
>> + * this intermediate step with switching to 'bypass' parent clock source.
>> + * if the old voltage is lower, it requires an increase of the voltage level.
>> + * The complexity of the voltage manipulation is hidden in low level function.
>> + * In this function there is last alignment of the voltage level at the end.
>> + */
>> +static int
>> +exynos5_dmc_change_freq_and_volt(struct exynos5_dmc *dmc,
>> + unsigned long target_rate,
>> + unsigned long target_volt)
>> +{
>> + int ret;
>> +
>> + ret = exynos5_dmc_switch_to_bypass_configuration(dmc, target_rate,
>> + target_volt);
>> + if (ret)
>> + return ret;
>> +
>> + /*
>> + * Voltage is set at least to a level needed for this frequency,
>> + * so switching clock source is safe now.
>> + */
>> + clk_prepare_enable(dmc->fout_spll);
>> + clk_prepare_enable(dmc->mout_spll);
>> + clk_prepare_enable(dmc->mout_mx_mspll_ccore);
>> +
>> + ret = clk_set_parent(dmc->mout_mclk_cdrex, dmc->mout_mx_mspll_ccore);
>> + if (ret)
>> + return ret;
>> +
>> + /*
>> + * We are safe to increase the timings for current bypass frequency.
>> + * Thanks to this the settings we be ready for the upcoming clock source
>> + * change.
>> + */
>> + exynos5_dram_change_timings(dmc, target_rate);
>> +
>> + clk_set_rate(dmc->fout_bpll, target_rate);
>> +
>> + exynos5_switch_timing_regs(dmc, USE_BPLL_TIMINGS);
>> +
>> + ret = clk_set_parent(dmc->mout_mclk_cdrex, dmc->mout_bpll);
>> + if (ret)
>> + return ret;
>> +
>> + clk_disable_unprepare(dmc->mout_mx_mspll_ccore);
>> + clk_disable_unprepare(dmc->mout_spll);
>> + clk_disable_unprepare(dmc->fout_spll);
>> + /*
>> + * Make sure if the voltage is not from 'bypass' settings and align to
>> + * the right level for power efficiency.
>> + */
>> + ret = exynos5_dmc_align_target_voltage(dmc, target_volt);
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_get_volt_freq() - Gets the frequency and voltage from the OPP
>> + * table.
>> + * @dev: device for which the frequency is going to be changed
>> + * @freq: requested frequency in KHz
>> + * @target_rate: returned frequency which is the same or lower than
>> + * requested
>> + * @target_volt: returned voltage which corresponds to the returned
>> + * frequency
>> + *
>> + * Function gets requested frequency and checks OPP framework for needed
>> + * frequency and voltage. It populates the values 'target_rate' and
>> + * 'target_volt' or returns error value when OPP framework fails.
>> + */
>> +static int exynos5_dmc_get_volt_freq(struct device *dev, unsigned long *freq,
>> + unsigned long *target_rate,
>> + unsigned long *target_volt, u32 flags)
>> +{
>> + struct dev_pm_opp *opp;
>> +
>> + opp = devfreq_recommended_opp(dev, freq, flags);
>> + if (IS_ERR(opp))
>> + return PTR_ERR(opp);
>> +
>> + *target_rate = dev_pm_opp_get_freq(opp);
>> + *target_volt = dev_pm_opp_get_voltage(opp);
>> + dev_pm_opp_put(opp);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_target() - Function responsible for changing frequency of DMC
>> + * @dev: device for which the frequency is going to be changed
>> + * @freq: requested frequency in KHz
>> + * @flags: flags provided for this frequency change request
>> + *
>> + * An entry function provided to the devfreq framework which provides frequency
>> + * change of the DMC. The function gets the possible rate from OPP table based
>> + * on requested frequency. It calls the next function responsible for the
>> + * frequency and voltage change. In case of failure, does not set 'curr_rate'
>> + * and returns error value to the framework.
>> + */
>> +static int exynos5_dmc_target(struct device *dev, unsigned long *freq,
>> + u32 flags)
>> +{
>> + struct exynos5_dmc *dmc = dev_get_drvdata(dev);
>> + unsigned long target_rate = 0;
>> + unsigned long target_volt = 0;
>> + int ret;
>> +
>> + ret = exynos5_dmc_get_volt_freq(dev, freq, &target_rate, &target_volt,
>> + flags);
>> +
>> + if (ret)
>> + return ret;
>> +
>> + if (target_rate == dmc->curr_rate)
>> + return 0;
>> +
>> + mutex_lock(&dmc->lock);
>> +
>> + ret = exynos5_dmc_change_freq_and_volt(dmc, target_rate, target_volt);
>> +
>> + if (ret) {
>> + mutex_unlock(&dmc->lock);
>> + return ret;
>> + }
>> +
>> + dmc->curr_rate = target_rate;
>> +
>> + mutex_unlock(&dmc->lock);
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_counters_get() - Gets the performance counters values.
>> + * @dmc: device for which the counters are going to be checked
>> + * @load_count: variable which is populated with counter value
>> + * @total_count: variable which is used as 'wall clock' reference
>> + *
>> + * Function which provides performance counters values. It sums up counters for
>> + * two DMC channels. The 'total_count' is used as a reference and max value.
>> + * The ratio 'load_count/total_count' shows the busy percentage [0%, 100%].
>> + */
>> +static int exynos5_counters_get(struct exynos5_dmc *dmc,
>> + unsigned long *load_count,
>> + unsigned long *total_count)
>> +{
>> + unsigned long total = 0;
>> + struct devfreq_event_data event;
>> + int ret, i;
>> +
>> + *load_count = 0;
>> +
>> + /* Take into account only read+write counters, but stop all */
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + if (!dmc->counter[i])
>> + continue;
>> +
>> + ret = devfreq_event_get_event(dmc->counter[i], &event);
>> + if (ret < 0)
>> + return ret;
>> +
>> + if (i % 3 != 2)
>> + continue;
>> +
>> + *load_count += event.load_count;
>> +
>> + if (total < event.total_count)
>> + total = event.total_count;
>> + }
>> +
>> + *total_count = total;
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_get_status() - Read current DMC performance statistics.
>> + * @dev: device for which the statistics are requested
>> + * @stat: structure which has statistic fields
>> + *
>> + * Function reads the DMC performance counters and calculates 'busy_time'
>> + * and 'total_time'. To protect from overflow, the values are shifted right
>> + * by 10. After read out the counters are setup to count again.
>> + */
>> +static int exynos5_dmc_get_status(struct device *dev,
>> + struct devfreq_dev_status *stat)
>> +{
>> + struct exynos5_dmc *dmc = dev_get_drvdata(dev);
>> + unsigned long load, total;
>> + int ret;
>> +
>> + ret = exynos5_counters_get(dmc, &load, &total);
>> + if (ret < 0)
>> + return -EINVAL;
>> +
>> + /* To protect from overflow in calculation ratios, divide by 1024 */
>> + stat->busy_time = load >> 10;
>> + stat->total_time = total >> 10;
>> +
>> + ret = exynos5_counters_set_event(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "could not set event counter\n");
>
> Please, make usage of 'dev' consistent and simpler:
> 1. You have here 'dev' so why dereferencing dmc->dev? Is it different dev? No.
> 2. In some places you use dmc->dev, in some &pdev->dev (while having
> also reference to dmc). Just use one convention, except for the cases
> where you could use 'dev' from argument directly.
OK, I will align the 'dev' usage.
>
>> + return ret;
>> + }
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_get_cur_freq() - Function returns current DMC frequency
>> + * @dev: device for which the framework checks operating frequency
>> + * @freq: returned frequency value
>> + *
>> + * It returns the currently used frequency of the DMC. The real operating
>> + * frequency might be lower when the clock source value could not be divided
>> + * to the requested value.
>> + */
>> +static int exynos5_dmc_get_cur_freq(struct device *dev, unsigned long *freq)
>> +{
>> + struct exynos5_dmc *dmc = dev_get_drvdata(dev);
>> +
>> + mutex_lock(&dmc->lock);
>> + *freq = dmc->curr_rate;
>> + mutex_unlock(&dmc->lock);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_df_profile - Devfreq governor's profile structure
>> + *
>> + * It provides to the devfreq framework needed functions and polling period.
>> + */
>> +static struct devfreq_dev_profile exynos5_dmc_df_profile = {
>> + .polling_ms = 500,
>> + .target = exynos5_dmc_target,
>> + .get_dev_status = exynos5_dmc_get_status,
>> + .get_cur_freq = exynos5_dmc_get_cur_freq,
>> +};
>> +
>> +/**
>> + * exynos5_dmc_align_initial_frequency() - Align initial frequency value
>> + * @dmc: device for which the frequency is going to be set
>> + * @bootloader_init_freq: initial frequency set by the bootloader in KHz
>> + *
>> + * The initial bootloader frequency, which is present during boot, might be
>> + * different that supported frequency values in the driver. It is possible
>> + * due to different PLL settings or used PLL as a source.
>> + * This function provides the 'initial_freq' for the devfreq framework
>> + * statistics engine which supports only registered values. Thus, some alignment
>> + * must be made.
>> + */
>> +unsigned long
>> +exynos5_dmc_align_init_freq(struct exynos5_dmc *dmc,
>> + unsigned long bootloader_init_freq)
>> +{
>> + unsigned long aligned_freq;
>> + int idx;
>> +
>> + idx = find_target_freq_idx(dmc, bootloader_init_freq);
>> + if (idx >= 0)
>> + aligned_freq = dmc->opp[idx].freq_hz;
>> + else
>> + aligned_freq = dmc->opp[dmc->opp_count - 1].freq_hz;
>> +
>> + return aligned_freq;
>> +}
>> +
>> +/**
>> + * create_timings_aligned() - Create register values and align with standard
>> + * @dmc: device for which the frequency is going to be set
>> + * @idx: speed bin in the OPP table
>> + * @clk_period_ps: the period of the clock, known as tCK
>> + *
>> + * The function calculates timings and creates a register value ready for
>> + * a frequency transition. The register contains a few timings. They are
>> + * shifted by a known offset. The timing value is calculated based on memory
>> + * specyfication: minimal time required and minimal cycles required.
>> + */
>> +static int create_timings_aligned(struct exynos5_dmc *dmc, u32 *reg_timing_row,
>> + u32 *reg_timing_data, u32 *reg_timing_power,
>> + u32 clk_period_ps)
>> +{
>> + u32 val;
>> + const struct timing_reg *reg;
>> +
>> + if (clk_period_ps == 0)
>> + return -EINVAL;
>> +
>> + *reg_timing_row = 0;
>> + *reg_timing_data = 0;
>> + *reg_timing_power = 0;
>> +
>> + val = dmc->timings->tRFC / clk_period_ps;
>> + val += dmc->timings->tRFC % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRFC);
>> + reg = &timing_row[0];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRRD / clk_period_ps;
>> + val += dmc->timings->tRRD % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRRD);
>> + reg = &timing_row[1];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRPab / clk_period_ps;
>> + val += dmc->timings->tRPab % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRPab);
>> + reg = &timing_row[2];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRCD / clk_period_ps;
>> + val += dmc->timings->tRCD % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRCD);
>> + reg = &timing_row[3];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRC / clk_period_ps;
>> + val += dmc->timings->tRC % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRC);
>> + reg = &timing_row[4];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRAS / clk_period_ps;
>> + val += dmc->timings->tRAS % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRAS);
>> + reg = &timing_row[5];
>> + *reg_timing_row |= TIMING_VAL2REG(reg, val);
>> +
>> + /* data related timings */
>> + val = dmc->timings->tWTR / clk_period_ps;
>> + val += dmc->timings->tWTR % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tWTR);
>> + reg = &timing_data[0];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tWR / clk_period_ps;
>> + val += dmc->timings->tWR % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tWR);
>> + reg = &timing_data[1];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRTP / clk_period_ps;
>> + val += dmc->timings->tRTP % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRTP);
>> + reg = &timing_data[2];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tW2W_C2C / clk_period_ps;
>> + val += dmc->timings->tW2W_C2C % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tW2W_C2C);
>> + reg = &timing_data[3];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tR2R_C2C / clk_period_ps;
>> + val += dmc->timings->tR2R_C2C % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tR2R_C2C);
>> + reg = &timing_data[4];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tWL / clk_period_ps;
>> + val += dmc->timings->tWL % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tWL);
>> + reg = &timing_data[5];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tDQSCK / clk_period_ps;
>> + val += dmc->timings->tDQSCK % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tDQSCK);
>> + reg = &timing_data[6];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tRL / clk_period_ps;
>> + val += dmc->timings->tRL % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tRL);
>> + reg = &timing_data[7];
>> + *reg_timing_data |= TIMING_VAL2REG(reg, val);
>> +
>> + /* power related timings */
>> + val = dmc->timings->tFAW / clk_period_ps;
>> + val += dmc->timings->tFAW % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tXP);
>> + reg = &timing_power[0];
>> + *reg_timing_power |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tXSR / clk_period_ps;
>> + val += dmc->timings->tXSR % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tXSR);
>> + reg = &timing_power[1];
>> + *reg_timing_power |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tXP / clk_period_ps;
>> + val += dmc->timings->tXP % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tXP);
>> + reg = &timing_power[2];
>> + *reg_timing_power |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tCKE / clk_period_ps;
>> + val += dmc->timings->tCKE % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tCKE);
>> + reg = &timing_power[3];
>> + *reg_timing_power |= TIMING_VAL2REG(reg, val);
>> +
>> + val = dmc->timings->tMRD / clk_period_ps;
>> + val += dmc->timings->tMRD % clk_period_ps ? 1 : 0;
>> + val = max(val, dmc->min_tck->tMRD);
>> + reg = &timing_power[4];
>> + *reg_timing_power |= TIMING_VAL2REG(reg, val);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * of_get_dram_timings() - helper function for parsing DT settings for DRAM
>> + * @dmc: device for which the frequency is going to be set
>> + *
>> + * The function parses DT entries with DRAM information.
>> + */
>> +static int of_get_dram_timings(struct exynos5_dmc *dmc)
>> +{
>> + int ret = 0;
>> + int idx;
>> + struct device_node *np_ddr;
>> + u32 freq_mhz, clk_period_ps;
>> +
>> + np_ddr = of_parse_phandle(dmc->dev->of_node, "device-handle", 0);
>> + if (!np_ddr) {
>> + dev_warn(dmc->dev, "could not find 'device-handle' in DT\n");
>> + return -EINVAL;
>> + }
>> +
>> + dmc->timing_row = devm_kmalloc_array(dmc->dev, TIMING_COUNT,
>> + sizeof(u32), GFP_KERNEL);
>> + if (!dmc->timing_row)
>> + return -ENOMEM;
>> +
>> + dmc->timing_data = devm_kmalloc_array(dmc->dev, TIMING_COUNT,
>> + sizeof(u32), GFP_KERNEL);
>> + if (!dmc->timing_data)
>> + return -ENOMEM;
>> +
>> + dmc->timing_power = devm_kmalloc_array(dmc->dev, TIMING_COUNT,
>> + sizeof(u32), GFP_KERNEL);
>> + if (!dmc->timing_power)
>> + return -ENOMEM;
>> +
>> + dmc->timings = of_lpddr3_get_ddr_timings(np_ddr, dmc->dev,
>> + DDR_TYPE_LPDDR3,
>> + &dmc->timings_arr_size);
>> + if (!dmc->timings) {
>> + of_node_put(np_ddr);
>> + dev_warn(dmc->dev, "could not get timings from DT\n");
>> + return -EINVAL;
>> + }
>> +
>> + dmc->min_tck = of_lpddr3_get_min_tck(np_ddr, dmc->dev);
>> + if (!dmc->min_tck) {
>> + of_node_put(np_ddr);
>> + dev_warn(dmc->dev, "could not get tck from DT\n");
>> + return -EINVAL;
>> + }
>> +
>> + /* Sorted array of OPPs with frequency ascending */
>> + for (idx = 0; idx < dmc->opp_count; idx++) {
>> + freq_mhz = dmc->opp[idx].freq_hz / 1000000;
>> + clk_period_ps = 1000000 / freq_mhz;
>> +
>> + ret = create_timings_aligned(dmc, &dmc->timing_row[idx],
>> + &dmc->timing_data[idx],
>> + &dmc->timing_power[idx],
>> + clk_period_ps);
>> + }
>> +
>> + of_node_put(np_ddr);
>> +
>> + /* Take the highest frequency's timings as 'bypass' */
>> + dmc->bypass_timing_row = dmc->timing_row[idx - 1];
>> + dmc->bypass_timing_data = dmc->timing_data[idx - 1];
>> + dmc->bypass_timing_power = dmc->timing_power[idx - 1];
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_init_clks() - Initialize clocks needed for DMC operation.
>> + * @dev: device for which the clocks are setup
>> + * @dmc: DMC structure containing needed fields
>> + *
>> + * Get the needed clocks defined in DT device, enable and set the right parents.
>> + * Read current frequency and initialize the initial rate for governor.
>> + */
>> +static int exynos5_dmc_init_clks(struct device *dev, struct exynos5_dmc *dmc)
>> +{
>> + int ret;
>> + unsigned long target_volt = 0;
>> + unsigned long target_rate = 0;
>> +
>> + dmc->fout_spll = devm_clk_get(dev, "fout_spll");
>> + if (IS_ERR(dmc->fout_spll))
>> + return PTR_ERR(dmc->fout_spll);
>> +
>> + dmc->fout_bpll = devm_clk_get(dev, "fout_bpll");
>> + if (IS_ERR(dmc->fout_bpll))
>> + return PTR_ERR(dmc->fout_bpll);
>> +
>> + dmc->mout_mclk_cdrex = devm_clk_get(dev, "mout_mclk_cdrex");
>> + if (IS_ERR(dmc->mout_mclk_cdrex))
>> + return PTR_ERR(dmc->mout_mclk_cdrex);
>> +
>> + dmc->mout_bpll = devm_clk_get(dev, "mout_bpll");
>> + if (IS_ERR(dmc->mout_bpll))
>> + return PTR_ERR(dmc->mout_bpll);
>> +
>> + dmc->mout_mx_mspll_ccore = devm_clk_get(dev, "mout_mx_mspll_ccore");
>> + if (IS_ERR(dmc->mout_mx_mspll_ccore))
>> + return PTR_ERR(dmc->mout_mx_mspll_ccore);
>> +
>> + dmc->dout_clk2x_phy0 = devm_clk_get(dev, "dout_clk2x_phy0");
>> + if (IS_ERR(dmc->dout_clk2x_phy0))
>> + return PTR_ERR(dmc->dout_clk2x_phy0);
>> +
>> + dmc->mout_spll = devm_clk_get(dev, "ff_dout_spll2");
>> + if (IS_ERR(dmc->mout_spll)) {
>> + dmc->mout_spll = devm_clk_get(dev, "mout_sclk_spll");
>> + if (IS_ERR(dmc->mout_spll))
>> + return PTR_ERR(dmc->mout_spll);
>> + }
>> +
>> + /*
>> + * Convert frequency to KHz values and set it for the governor.
>> + */
>> + dmc->curr_rate = clk_get_rate(dmc->mout_mclk_cdrex);
>> + dmc->curr_rate = exynos5_dmc_align_init_freq(dmc, dmc->curr_rate);
>> + exynos5_dmc_df_profile.initial_freq = dmc->curr_rate;
>> +
>> + ret = exynos5_dmc_get_volt_freq(dev, &dmc->curr_rate, &target_rate,
>> + &target_volt, 0);
>> + if (ret)
>> + return ret;
>> +
>> + dmc->curr_volt = target_volt;
>> +
>> + clk_prepare_enable(dmc->mout_spll);
>> + clk_set_parent(dmc->mout_mx_mspll_ccore, dmc->mout_spll);
>> + clk_prepare_enable(dmc->mout_mx_mspll_ccore);
>> +
>> + dmc->bypass_rate = clk_get_rate(dmc->mout_mx_mspll_ccore);
>> +
>> + clk_prepare_enable(dmc->fout_bpll);
>> + clk_prepare_enable(dmc->mout_bpll);
>> +
>
> This would leave certain clocks unbalanced (e.g. mout_spll). I do not
> get logic of it... you enable them for entire lifetime of device and
> then still toggle in exynos5_dmc_change_freq_and_volt(). Which clocks
> do you want to have enabled all the time and which not?
Right. I will remove above lines
>> + clk_prepare_enable(dmc->mout_spll);
>> + clk_prepare_enable(dmc->mout_mx_mspll_ccore);
Then it should be fine (I will confirm it during the tests).
>
>
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_performance_counters_init() - Initializes performance DMC's counters
>> + * @dmc: DMC for which it does the setup
>> + *
>> + * Initialization of performance counters in DMC for estimating usage.
>> + * The counter's values are used for calculation of a memory bandwidth and based
>> + * on that the governor changes the frequency.
>> + * The counters are not used when the governor is GOVERNOR_USERSPACE.
>> + */
>> +static int exynos5_performance_counters_init(struct exynos5_dmc *dmc)
>> +{
>> + int counters_size;
>> + int ret, i;
>> +
>> + dmc->num_counters = devfreq_event_get_edev_count(dmc->dev);
>> + if (dmc->num_counters < 0) {
>> + dev_err(dmc->dev, "could not get devfreq-event counters\n");
>> + return dmc->num_counters;
>> + }
>> +
>> + counters_size = sizeof(struct devfreq_event_dev) * dmc->num_counters;
>> + dmc->counter = devm_kzalloc(dmc->dev, counters_size, GFP_KERNEL);
>> + if (!dmc->counter)
>> + return -ENOMEM;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + dmc->counter[i] =
>> + devfreq_event_get_edev_by_phandle(dmc->dev, i);
>> + if (IS_ERR_OR_NULL(dmc->counter[i]))
>> + return -EPROBE_DEFER;
>> + }
>> +
>> + ret = exynos5_counters_enable_edev(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "could not enable event counter\n");
>> + return ret;
>> + }
>> +
>> + ret = exynos5_counters_set_event(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "counld not set event counter\n");
>> + return ret;
>> + }
>> +
>> + return 0;
>> +}
>> +
>> +#ifdef CONFIG_DEBUG_FS
>> +
>> +static int dmc_dbg_show_timings(struct seq_file *seq, void *na)
>> +{
>> + struct exynos5_dmc *dmc = seq->private;
>> + int i, j;
>> + u32 val;
>> + const struct timing_reg *reg;
>> +
>> + seq_printf(seq, "timings for each frequency\n");
>> + for (j = dmc->opp_count - 1; j >= 0; j--) {
>> + seq_printf(seq, "frequency = %uMHz\n",
>> + dmc->opp[j].freq_hz / 1000000);
>> + seq_printf(seq, "timing_row, timing_data, timing_power\n");
>> + seq_printf(seq, "0x%08X, 0x%08X, 0x%08X\n", dmc->timing_row[j],
>> + dmc->timing_data[j], dmc->timing_power[j]);
>> + }
>> +
>> + for (j = dmc->opp_count - 1; j >= 0; j--) {
>> + seq_printf(seq, "frequency [MHz] = %u\n",
>> + dmc->opp[j].freq_hz / 1000000);
>> +
>> + for (i = 0; i < ARRAY_SIZE(timing_row); i++) {
>> + reg = &timing_row[i];
>> + val = TIMING_REG2VAL(dmc->timing_row[j], reg);
>> + seq_printf(seq, "%s = %u\n", reg->name, val);
>> + }
>> +
>> + for (i = 0; i < ARRAY_SIZE(timing_data); i++) {
>> + reg = &timing_data[i];
>> + val = TIMING_REG2VAL(dmc->timing_data[j], reg);
>> + seq_printf(seq, "%s = %u\n", reg->name, val);
>> + }
>> +
>> + for (i = 0; i < ARRAY_SIZE(timing_power); i++) {
>> + reg = &timing_power[i];
>> + val = TIMING_REG2VAL(dmc->timing_power[j], reg);
>> + seq_printf(seq, "%s = %u\n", reg->name, val);
>> + }
>> + }
>> +
>> + return 0;
>> +}
>> +
>> +static int dmc_dbg_open_timings(struct inode *inode, struct file *f)
>> +{
>> + return single_open(f, dmc_dbg_show_timings, inode->i_private);
>> +}
>> +
>> +static const char *event_get_name(const char *evt)
>> +{
>> + int i;
>> +
>> + for (i = 0; i < ARRAY_SIZE(event_name); i += 2) {
>> + if (!strcmp(event_name[i], evt))
>> + return event_name[i + 1];
>> + }
>> +
>> + return "Unknown";
>> +}
>> +
>> +static int dmc_dbg_show_cnt(struct seq_file *seq, void *na)
>> +{
>> + struct exynos5_dmc *dmc = seq->private;
>> + int i;
>> + struct devfreq_event_data event;
>> + struct devfreq_event_dev *edev;
>> + int ret;
>> + const char *evt_name;
>> + u64 ts_new, delta;
>> + static u64 ts;
>> +
>> + seq_printf(seq, "Performance based on PMU counters\n");
>> + seq_printf(seq, "The counters could overflow every ~9.2 sec\n");
>> +
>> + ts_new = ktime_get_ns();
>> + delta = ts_new - ts;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + edev = dmc->counter[i];
>> + if (!edev)
>> + continue;
>> +
>> + evt_name = event_get_name(edev->desc->name);
>> +
>> + ret = devfreq_event_get_event(edev, &event);
>> + if (ret < 0)
>> + return ret;
>> +
>> + seq_printf(seq, "%s = %lu / %lu\n", evt_name, event.load_count,
>> + event.total_count);
>> + }
>> +
>> + seq_printf(seq, "For last %llu ms\n",
>> + div64_u64(delta, 1000000UL));
>> +
>> + ts = ktime_get_ns();
>> + ret = exynos5_counters_set_event(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "could not set event counter\n");
>> + return ret;
>> + }
>> +
>> + return 0;
>> +}
>> +
>> +static int dmc_dbg_open_cnt(struct inode *inode, struct file *f)
>> +{
>> + return single_open(f, dmc_dbg_show_cnt, inode->i_private);
>> +}
>> +
>> +struct counter {
>> + u64 load;
>> + u64 total;
>> +};
>> +
>> +static int dmc_dbg_show_cnt_100ms(struct seq_file *seq, void *na)
>> +{
>> + struct exynos5_dmc *dmc = seq->private;
>> + int i;
>> + u64 bandwidth = 0;
>> + struct devfreq_event_data event;
>> + struct devfreq_event_dev *edev;
>> + int ret;
>> + const char *evt_name;
>> + u64 ts_new, delta;
>> + static u64 ts;
>> + struct counter *cnt;
>> + u64 total[3] = {0, 0, 0 }; /* read, write, read+write data*/
>> + const char *type[3] = {"read", "write", "read+write"};
>> + u64 bus_cyc_count = 0;
>> + int offset = 0;
>> + char *s;
>
> That amount of local declarations is a clear hint that you should
> split this function.
Agree
>
>> +
>> + s = kzalloc(PAGE_SIZE * sizeof(char), GFP_KERNEL);
>> + if (!s)
>> + return -ENOMEM;
>> +
>> + cnt = kcalloc(dmc->num_counters, sizeof(struct counter), GFP_KERNEL);
>> + if (!cnt)
>> + return -ENOMEM;
>> +
>> + ret = exynos5_counters_set_event(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "could not set event counter\n");
>> + return ret;
>> + }
>> +
>> + ts = ktime_get_ns();
>> + msleep(100);
>> +
>> + /* Seprate data acquisition from presentation due to some
>> + overheads. */
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + edev = dmc->counter[i];
>> + if (!edev)
>> + continue;
>> +
>> + ret = devfreq_event_get_event(edev, &event);
>> + if (ret < 0)
>> + return ret;
>> +
>> + total[i % 3] += event.load_count;
>> + cnt[i].load = event.load_count;
>> + cnt[i].total = event.total_count;
>> +
>> + if (bus_cyc_count < event.total_count)
>> + bus_cyc_count = event.total_count;
>> + }
>> +
>> + ts_new = ktime_get_ns();
>> + delta = ts_new - ts;
>> + if (delta == 0)
>> + delta = 1;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + edev = dmc->counter[i];
>> + if (!edev)
>> + continue;
>> +
>> + evt_name = event_get_name(edev->desc->name);
>> +
>> + bandwidth = (u64)cnt[i].load * AXI_BUS_WIDTH_BYTES * 1000;
>> + bandwidth = div64_u64(bandwidth, delta);
>> +
>> + offset += sprintf(s + offset, "%s\t\t%llu MB/s\n",
>> + evt_name, bandwidth);
>> + }
>> +
>> + for (i = 0; i < 3; i++) {
>> + bandwidth = (u64)total[i] * AXI_BUS_WIDTH_BYTES * 1000;
>> + bandwidth = div64_u64(bandwidth, delta);
>> +
>> + offset += sprintf(s + offset, "total\t%s\t\t%llu MB/s\n",
>> + type[i], bandwidth);
>> + }
>> +
>> + /* AXI speed is presented in MHz*/
>> + bus_cyc_count *= 1000;
>> +
>> + seq_printf(seq, "Performance based on PMU counters\n");
>> + seq_printf(seq, "The counters will overflow every ~9.2 sec\n");
>> + seq_printf(seq, "%s", s);
>> + seq_printf(seq, "AXI bus frequency %llu MHz, width %u B, SDR mode\n",
>> + div64_u64(bus_cyc_count, delta), AXI_BUS_WIDTH_BYTES);
>> + seq_printf(seq, "For last %llu ms\n",
>> + div64_u64(delta, 1000000UL));
>> +
>> + kfree(cnt);
>> + kfree(s);
>> +
>> + return 0;
>> +}
>> +
>> +static int dmc_dbg_show_cnt_100ms_raw(struct seq_file *seq, void *na)
>> +{
>> + struct exynos5_dmc *dmc = seq->private;
>> + int i;
>> + struct devfreq_event_data event;
>> + struct devfreq_event_dev *edev;
>> + int ret;
>> + const char *evt_name;
>> + u64 ts_new, delta;
>> + static u64 ts;
>> + struct counter *cnt;
>> + const char *type[3] = {"read", "write", "read+write"};
>> + int offset = 0;
>> + char *s;
>
> The same.
Agree
>
>> +
>> + s = kzalloc(PAGE_SIZE * sizeof(char), GFP_KERNEL);
>> + if (!s)
>> + return -ENOMEM;
>> +
>> + cnt = kcalloc(dmc->num_counters, sizeof(struct counter), GFP_KERNEL);
>> + if (!cnt)
>> + return -ENOMEM;
>> +
>> + ret = exynos5_counters_set_event(dmc);
>> + if (ret < 0) {
>> + dev_err(dmc->dev, "could not set event counter\n");
>> + return ret;
>> + }
>> +
>> + ts = ktime_get_ns();
>> + msleep(100);
>> +
>> + /* Seprate data acquisition from presentation due to some
>> + overheads. */
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + edev = dmc->counter[i];
>> + if (!edev)
>> + continue;
>> +
>> + ret = devfreq_event_get_event(edev, &event);
>> + if (ret < 0)
>> + return ret;
>> +
>> + cnt[i].load = event.load_count;
>> + cnt[i].total = event.total_count;
>> + }
>> +
>> + ts_new = ktime_get_ns();
>> + delta = ts_new - ts;
>> + if (delta == 0)
>> + delta = 1;
>> +
>> + for (i = 0; i < dmc->num_counters; i++) {
>> + edev = dmc->counter[i];
>> + if (!edev)
>> + continue;
>> +
>> + evt_name = event_get_name(edev->desc->name);
>> +
>> + offset += sprintf(s + offset, "%s (%s)\t\t%llu / %llu\n",
>> + evt_name, type[i % 3], cnt[i].load,
>> + cnt[i].total);
>> + }
>> +
>> + seq_printf(seq, "Performance based on PMU counters ('load'/'total')\n");
>> + seq_printf(seq, "The counters will overflow every ~9.2 sec\n");
>> + seq_printf(seq, "%s", s);
>> + seq_printf(seq, "For last %llu ms\n",
>> + div64_u64(delta, 1000000UL));
>> +
>> + kfree(cnt);
>> + kfree(s);
>> +
>> + return 0;
>> +}
>> +
>> +static int dmc_dbg_open_cnt_100ms(struct inode *inode, struct file *f)
>> +{
>> + return single_open(f, dmc_dbg_show_cnt_100ms, inode->i_private);
>> +}
>> +
>> +static int dmc_dbg_open_cnt_100ms_raw(struct inode *inode, struct file *f)
>> +{
>> + return single_open(f, dmc_dbg_show_cnt_100ms_raw, inode->i_private);
>> +}
>> +
>> +static const struct file_operations dmc_debugfs_ops_timings = {
>> + .open = dmc_dbg_open_timings,
>> + .read = seq_read,
>> + .release = single_release,
>> +};
>> +
>> +static const struct file_operations dmc_debugfs_ops_cnt = {
>> + .open = dmc_dbg_open_cnt,
>> + .read = seq_read,
>> + .release = single_release,
>> +};
>> +
>> +static const struct file_operations dmc_debugfs_ops_cnt_100ms = {
>> + .open = dmc_dbg_open_cnt_100ms,
>> + .read = seq_read,
>> + .release = single_release,
>> +};
>> +
>> +static const struct file_operations dmc_debugfs_ops_cnt_100ms_raw = {
>> + .open = dmc_dbg_open_cnt_100ms_raw,
>> + .read = seq_read,
>> + .release = single_release,
>> +};
>> +
>> +static void exynos5_dmc_debugfs_init(struct exynos5_dmc *dmc)
>> +{
>> + struct dentry *dentry;
>> +
>> + dmc->dbg_root = debugfs_create_dir(dev_name(dmc->dev), NULL);
>> + if (!dmc->dbg_root)
>> + return;
>> +
>> + dentry = debugfs_create_file("timings", 0444, dmc->dbg_root, dmc,
>> + &dmc_debugfs_ops_timings);
>> + if (!dentry)
>> + goto clean_debugfs;
>> +
>> + dentry = debugfs_create_file("counters", 0444, dmc->dbg_root, dmc,
>> + &dmc_debugfs_ops_cnt);
>> + if (!dentry)
>> + goto clean_debugfs;
>> +
>> + dentry = debugfs_create_file("100ms_counters", 0444, dmc->dbg_root, dmc,
>> + &dmc_debugfs_ops_cnt_100ms);
>> + if (!dentry)
>> + goto clean_debugfs;
>> +
>> + dentry = debugfs_create_file("100ms_raw_counters", 0444, dmc->dbg_root,
>> + dmc, &dmc_debugfs_ops_cnt_100ms_raw);
>> + if (!dentry)
>> + goto clean_debugfs;
>> +
>> + return;
>> +
>> +clean_debugfs:
>> + debugfs_remove_recursive(dmc->dbg_root);
>> +}
>> +#else
>> +static void exynos5_dmc_debugfs_init(struct exynos5_dmc *dmc)
>> +{}
>> +#endif
>> +
>> +/**
>> + * exynos5_dmc_set_pause_on_switching() - Controls a pause feature in DMC
>> + * @dmc: device which is used for changing this feature
>> + * @set: a boolean state passing enable/disable request
>> + *
>> + * There is a need of pausing DREX DMC when divider or MUX in clock tree
>> + * changes its configuration. In such situation access to the memory is blocked
>> + * in DMC automatically. This feature is used when clock frequency change
>> + * request appears and touches clock tree.
>> + */
>> +static inline int exynos5_dmc_set_pause_on_switching(struct exynos5_dmc *dmc)
>> +{
>> + unsigned int val;
>> + int ret;
>> +
>> + ret = regmap_read(dmc->clk_regmap, CDREX_PAUSE, &val);
>> + if (ret)
>> + return ret;
>> +
>> + val |= 1UL;
>> + regmap_write(dmc->clk_regmap, CDREX_PAUSE, val);
>> +
>> + return 0;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_probe() - Probe function for the DMC driver
>> + * @pdev: platform device for which the driver is going to be initialized
>> + *
>> + * Initialize basic components: clocks, regulators, performance counters, etc.
>> + * Read out product version and based on the information setup
>> + * internal structures for the controller (frequency and voltage) and for DRAM
>> + * memory parameters: timings for each operating frequency.
>> + * Register new devfreq device for controlling DVFS of the DMC.
>> + */
>> +static int exynos5_dmc_probe(struct platform_device *pdev)
>> +{
>> + int ret = 0;
>> + struct exynos5_dmc *dmc;
>> + struct device *dev = &pdev->dev;
>> + struct device_node *np = dev->of_node;
>> + struct resource *res;
>> +
>> + dmc = devm_kzalloc(dev, sizeof(*dmc), GFP_KERNEL);
>> + if (!dmc)
>> + return -ENOMEM;
>> +
>> + mutex_init(&dmc->lock);
>> +
>> + dmc->dev = dev;
>> + platform_set_drvdata(pdev, dmc);
>> +
>> + res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
>> + dmc->base_drexi0 = devm_ioremap_resource(dev, res);
>> + if (IS_ERR(dmc->base_drexi0))
>> + return PTR_ERR(dmc->base_drexi0);
>> +
>> + res = platform_get_resource(pdev, IORESOURCE_MEM, 1);
>> + dmc->base_drexi1 = devm_ioremap_resource(dev, res);
>> + if (IS_ERR(dmc->base_drexi1))
>> + return PTR_ERR(dmc->base_drexi1);
>> +
>> + dmc->chipid_regmap = syscon_regmap_lookup_by_phandle(np,
>> + "samsung,syscon-chipid");
>> + if (IS_ERR(dmc->chipid_regmap))
>> + return PTR_ERR(dmc->chipid_regmap);
>> +
>> + dmc->clk_regmap = syscon_regmap_lookup_by_phandle(np,
>> + "samsung,syscon-clk");
>> + if (IS_ERR(dmc->clk_regmap))
>> + return PTR_ERR(dmc->clk_regmap);
>> +
>> + ret = exynos5_dmc_chip_revision_settings(dmc);
>> + if (ret)
>> + return ret;
>> +
>> + ret = exynos5_init_freq_table(dev, dmc, &exynos5_dmc_df_profile);
>> + if (ret) {
>> + dev_warn(dev, "couldn't initialize frequency settings\n");
>> + return ret;
>> + }
>> +
>> + dmc->vdd_mif = devm_regulator_get(dev, "vdd");
>> + if (IS_ERR(dmc->vdd_mif)) {
>> + ret = PTR_ERR(dmc->vdd_mif);
>> + dev_warn(dev, "couldn't get regulator\n");
>
> This could be EPROBE_DEFER so do not print a warning then.
OK
>
>> + return ret;
>> + }
>> +
>> + ret = exynos5_dmc_init_clks(dev, dmc);
>> + if (ret) {
>> + dev_warn(dev, "couldn't initialize clocks\n");
>
> The same - no warnings on deferred probe.
OK
>
>> + return ret;
>> + }
>> +
>> + ret = of_get_dram_timings(dmc);
>> + if (ret) {
>> + dev_warn(dev, "couldn't initialize timings settings\n");
>> + return ret;
>> + }
>> +
>> + ret = exynos5_performance_counters_init(dmc);
>> + if (ret) {
>> + dev_warn(dev, "couldn't probe performance counters\n");
>> + goto remove_clocks;
>> + }
>> +
>> + ret = exynos5_dmc_set_pause_on_switching(dmc);
>> + if (ret) {
>> + dev_warn(dev, "couldn't get access to PAUSE register\n");
>> + goto remove_clocks;
>> + }
>> +
>
> One line can be removed.
OK
>
>> +
>> + /*
>> + * Setup default thresholds for the devfreq governor.
>> + * The values are chosen based on experiments.
>> + */
>> + dmc->gov_data.upthreshold = 30;
>> + dmc->gov_data.downdifferential = 5;
>> +
>> + dmc->df = devm_devfreq_add_device(dev, &exynos5_dmc_df_profile,
>> + DEVFREQ_GOV_USERSPACE,
>> + &dmc->gov_data);
>> +
>> + if (IS_ERR(dmc->df)) {
>> + ret = PTR_ERR(dmc->df);
>> + goto err_devfreq_add;
>> + }
>> +
>> + exynos5_dmc_debugfs_init(dmc);
>> +
>> + dev_info(&pdev->dev, "DMC init for prod_id=0x%08x pkg_id=0x%08x\n",
>> + dmc->prod_rev, dmc->pkg_rev);
>> +
>> + return 0;
>> +
>> +err_devfreq_add:
>> + exynos5_counters_disable_edev(dmc);
>> +remove_clocks:
>> + clk_disable_unprepare(dmc->mout_mx_mspll_ccore);
>> + clk_disable_unprepare(dmc->mout_spll);
>
> It does not look like full clock cleanup. You enabled 4 clocks.
Right. BPLLs should also be disabled.
>
>> +
>> + return ret;
>> +}
>> +
>> +/**
>> + * exynos5_dmc_remove() - Remove function for the platform device
>> + * @pdev: platform device which is going to be removed
>> + *
>> + * The function relies on 'devm' framework function which automatically
>> + * clean the device's resources. It just calls explicitly disable function for
>> + * the performance counters.
>> + */
>> +static int exynos5_dmc_remove(struct platform_device *pdev)
>> +{
>> + struct exynos5_dmc *dmc = dev_get_drvdata(&pdev->dev);
>> +
>> + exynos5_counters_disable_edev(dmc);
>> +
>> + clk_disable_unprepare(dmc->mout_mx_mspll_ccore);
>> + clk_disable_unprepare(dmc->mout_spll);
>
> The same.
ack
>
>> +
>> + dev_pm_opp_remove_table(&pdev->dev);
>> +
>> + dev_info(&pdev->dev, "DMC removed\n");
>
> No need to inform about removal.
OK, I will delete it.

Thank you for the review.

Regards,
Lukasz

>
> Best regards,
> Krzysztof
>
>> +
>> + return 0;
>> +}
>> +
>> +static const struct of_device_id exynos5_dmc_of_match[] = {
>> + { .compatible = "samsung,exynos5422-dmc", },
>> + { },
>> +};
>> +MODULE_DEVICE_TABLE(of, exynos5_dmc_of_match);
>> +
>> +static struct platform_driver exynos5_dmc_platdrv = {
>> + .probe = exynos5_dmc_probe,
>> + .remove = exynos5_dmc_remove,
>> + .driver = {
>> + .name = "exynos5-dmc",
>> + .of_match_table = exynos5_dmc_of_match,
>> + },
>> +};
>> +module_platform_driver(exynos5_dmc_platdrv);
>> +MODULE_DESCRIPTION("Driver for Exynos5422 Dynamic Memory Controller dynamic frequency and voltage change");
>> +MODULE_LICENSE("GPL v2");
>> +MODULE_AUTHOR("Samsung");
>> --
>> 2.7.4
>>
>
>

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