Re: [PATCH v20 3/7] soc: mediatek: SVS: introduce MTK SVS engine

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On 21/07/2021 09:09, Roger Lu wrote:
> The Smart Voltage Scaling(SVS) engine is a piece of hardware
> which calculates suitable SVS bank voltages to OPP voltage table.
> Then, DVFS driver could apply those SVS bank voltages to PMIC/Buck
> when receiving OPP_EVENT_ADJUST_VOLTAGE.
> 
> Signed-off-by: Roger Lu <roger.lu@xxxxxxxxxxxx>
> ---
>  drivers/soc/mediatek/Kconfig   |   10 +
>  drivers/soc/mediatek/Makefile  |    1 +
>  drivers/soc/mediatek/mtk-svs.c | 1720 ++++++++++++++++++++++++++++++++

That's a lot of code. Are you sure you tried hard to just implement basic
functionality. It'll take a long time to even understand what the driver does
etc. If there is a minimal working version that is smaller, then that could be a
good starting point for review.

For example, leave alone monitor mode for now, as not all banks use it, and we
can live with it disabled due to missing efuse data.

Please see below some random comments. I wasn't able to read and understand the
whole driver but I have doubts about some basic building blocks of it.

>  3 files changed, 1731 insertions(+)
>  create mode 100644 drivers/soc/mediatek/mtk-svs.c
> 
> diff --git a/drivers/soc/mediatek/Kconfig b/drivers/soc/mediatek/Kconfig
> index fdd8bc08569e..3c3eedea35f7 100644
> --- a/drivers/soc/mediatek/Kconfig
> +++ b/drivers/soc/mediatek/Kconfig
> @@ -73,4 +73,14 @@ config MTK_MMSYS
>  	  Say yes here to add support for the MediaTek Multimedia
>  	  Subsystem (MMSYS).
>  
> +config MTK_SVS
> +	tristate "MediaTek Smart Voltage Scaling(SVS)"
> +	depends on MTK_EFUSE && NVMEM
> +	help
> +	  The Smart Voltage Scaling(SVS) engine is a piece of hardware
> +	  which has several controllers(banks) for calculating suitable
> +	  voltage to different power domains(CPU/GPU/CCI) according to
> +	  chip process corner, temperatures and other factors. Then DVFS
> +	  driver could apply SVS bank voltage to PMIC/Buck.
> +
>  endmenu
> diff --git a/drivers/soc/mediatek/Makefile b/drivers/soc/mediatek/Makefile
> index 90270f8114ed..0e9e703c931a 100644
> --- a/drivers/soc/mediatek/Makefile
> +++ b/drivers/soc/mediatek/Makefile
> @@ -7,3 +7,4 @@ obj-$(CONFIG_MTK_SCPSYS) += mtk-scpsys.o
>  obj-$(CONFIG_MTK_SCPSYS_PM_DOMAINS) += mtk-pm-domains.o
>  obj-$(CONFIG_MTK_MMSYS) += mtk-mmsys.o
>  obj-$(CONFIG_MTK_MMSYS) += mtk-mutex.o
> +obj-$(CONFIG_MTK_SVS) += mtk-svs.o
> diff --git a/drivers/soc/mediatek/mtk-svs.c b/drivers/soc/mediatek/mtk-svs.c
> new file mode 100644
> index 000000000000..013667752ec2
> --- /dev/null
> +++ b/drivers/soc/mediatek/mtk-svs.c
> @@ -0,0 +1,1720 @@
> +// SPDX-License-Identifier: GPL-2.0-only
> +/*
> + * Copyright (C) 2020 MediaTek Inc.
> + */
> +
> +#include <linux/bits.h>
> +#include <linux/clk.h>
> +#include <linux/completion.h>
> +#include <linux/device.h>
> +#include <linux/init.h>
> +#include <linux/interrupt.h>
> +#include <linux/kernel.h>
> +#include <linux/kthread.h>
> +#include <linux/module.h>
> +#include <linux/mutex.h>
> +#include <linux/nvmem-consumer.h>
> +#include <linux/of_address.h>
> +#include <linux/of_irq.h>
> +#include <linux/of_platform.h>
> +#include <linux/platform_device.h>
> +#include <linux/pm_domain.h>
> +#include <linux/pm_opp.h>
> +#include <linux/pm_qos.h>
> +#include <linux/pm_runtime.h>
> +#include <linux/regulator/consumer.h>
> +#include <linux/reset.h>
> +#include <linux/slab.h>
> +#include <linux/spinlock.h>
> +#include <linux/thermal.h>
> +
> +/* svs bank 1-line sw id */
> +#define SVSB_CPU_LITTLE			BIT(0)
> +#define SVSB_CPU_BIG			BIT(1)
> +#define SVSB_CCI			BIT(2)
> +#define SVSB_GPU			BIT(3)
> +
> +/* svs bank mode support */
> +#define SVSB_MODE_ALL_DISABLE		0
> +#define SVSB_MODE_INIT01		BIT(1)
> +#define SVSB_MODE_INIT02		BIT(2)
> +#define SVSB_MODE_MON			BIT(3)
> +
> +/* svs bank volt flags */
> +#define SVSB_INIT01_VOLT_IGNORE		BIT(1)
> +#define SVSB_INIT01_VOLT_INC_ONLY	BIT(2)
> +#define SVSB_INIT02_RM_DVTFIXED		BIT(8)
> +#define SVSB_MON_VOLT_IGNORE		BIT(16)

Some flags get never set so they are not used. Please clean up the driver.

> +
> +/* svs bank common setting */
> +#define SVSB_DET_CLK_EN			BIT(31)
> +#define SVSB_TZONE_HIGH_TEMP_MAX	U32_MAX
> +#define SVSB_RUNCONFIG_DEFAULT		0x80000000
> +#define SVSB_DC_SIGNED_BIT		0x8000
> +#define SVSB_INTEN_INIT0x		0x00005f01
> +#define SVSB_INTEN_MONVOPEN		0x00ff0000
> +#define SVSB_EN_OFF			0x0
> +#define SVSB_EN_MASK			0x7
> +#define SVSB_EN_INIT01			0x1
> +#define SVSB_EN_INIT02			0x5
> +#define SVSB_EN_MON			0x2
> +#define SVSB_INTSTS_MONVOP		0x00ff0000

Same value used for register INTEN and INTSTS.
I suppose INTEN enables the interrupt. Is there any HW functionality to write to
INTSTS though? It seems it is just used to flag an interrupt as handeled.

> +#define SVSB_INTSTS_COMPLETE		0x1
> +#define SVSB_INTSTS_CLEAN		0x00ffffff
> +
> +static DEFINE_SPINLOCK(mtk_svs_lock);
> +
> +/*
> + * enum svsb_phase - svs bank phase enumeration
> + * @SVSB_PHASE_INIT01: basic init for svs bank
> + * @SVSB_PHASE_INIT02: svs bank can provide voltages
> + * @SVSB_PHASE_MON: svs bank can provide voltages with thermal effect
> + * @SVSB_PHASE_ERROR: svs bank encounters unexpected condition
> + *
> + * Each svs bank has its own independent phase. We enable each svs bank by
> + * running their phase orderly. However, When svs bank encounters unexpected
> + * condition, it will fire an irq (PHASE_ERROR) to inform svs software.
> + *
> + * svs bank general phase-enabled order:
> + * SVSB_PHASE_INIT01 -> SVSB_PHASE_INIT02 -> SVSB_PHASE_MON
> + */
> +enum svsb_phase {
> +	SVSB_PHASE_ERROR = 0,
> +	SVSB_PHASE_INIT01,
> +	SVSB_PHASE_INIT02,
> +	SVSB_PHASE_MON,
> +};
> +
> +enum svs_reg_index {
> +	DESCHAR = 0,
> +	TEMPCHAR,
> +	DETCHAR,
> +	AGECHAR,
> +	DCCONFIG,
> +	AGECONFIG,
> +	FREQPCT30,
> +	FREQPCT74,
> +	LIMITVALS,
> +	VBOOT,
> +	DETWINDOW,
> +	CONFIG,
> +	TSCALCS,
> +	RUNCONFIG,
> +	SVSEN,
> +	INIT2VALS,
> +	DCVALUES,
> +	AGEVALUES,
> +	VOP30,
> +	VOP74,
> +	TEMP,
> +	INTSTS,
> +	INTSTSRAW,
> +	INTEN,
> +	CHKINT,
> +	CHKSHIFT,
> +	STATUS,
> +	VDESIGN30,
> +	VDESIGN74,
> +	DVT30,
> +	DVT74,
> +	AGECOUNT,
> +	SMSTATE0,
> +	SMSTATE1,
> +	CTL0,
> +	DESDETSEC,
> +	TEMPAGESEC,
> +	CTRLSPARE0,
> +	CTRLSPARE1,
> +	CTRLSPARE2,
> +	CTRLSPARE3,
> +	CORESEL,
> +	THERMINTST,
> +	INTST,
> +	THSTAGE0ST,
> +	THSTAGE1ST,
> +	THSTAGE2ST,
> +	THAHBST0,
> +	THAHBST1,
> +	SPARE0,
> +	SPARE1,
> +	SPARE2,
> +	SPARE3,
> +	THSLPEVEB,
> +};
> +
> +static const u32 svs_regs_v2[] = {
> +	[DESCHAR]		= 0xc00,
> +	[TEMPCHAR]		= 0xc04,
> +	[DETCHAR]		= 0xc08,
> +	[AGECHAR]		= 0xc0c,
> +	[DCCONFIG]		= 0xc10,
> +	[AGECONFIG]		= 0xc14,
> +	[FREQPCT30]		= 0xc18,
> +	[FREQPCT74]		= 0xc1c,
> +	[LIMITVALS]		= 0xc20,
> +	[VBOOT]			= 0xc24,
> +	[DETWINDOW]		= 0xc28,
> +	[CONFIG]		= 0xc2c,
> +	[TSCALCS]		= 0xc30,
> +	[RUNCONFIG]		= 0xc34,
> +	[SVSEN]			= 0xc38,
> +	[INIT2VALS]		= 0xc3c,
> +	[DCVALUES]		= 0xc40,
> +	[AGEVALUES]		= 0xc44,
> +	[VOP30]			= 0xc48,
> +	[VOP74]			= 0xc4c,
> +	[TEMP]			= 0xc50,
> +	[INTSTS]		= 0xc54,
> +	[INTSTSRAW]		= 0xc58,
> +	[INTEN]			= 0xc5c,
> +	[CHKINT]		= 0xc60,
> +	[CHKSHIFT]		= 0xc64,
> +	[STATUS]		= 0xc68,
> +	[VDESIGN30]		= 0xc6c,
> +	[VDESIGN74]		= 0xc70,
> +	[DVT30]			= 0xc74,
> +	[DVT74]			= 0xc78,
> +	[AGECOUNT]		= 0xc7c,
> +	[SMSTATE0]		= 0xc80,
> +	[SMSTATE1]		= 0xc84,
> +	[CTL0]			= 0xc88,
> +	[DESDETSEC]		= 0xce0,
> +	[TEMPAGESEC]		= 0xce4,
> +	[CTRLSPARE0]		= 0xcf0,
> +	[CTRLSPARE1]		= 0xcf4,
> +	[CTRLSPARE2]		= 0xcf8,
> +	[CTRLSPARE3]		= 0xcfc,
> +	[CORESEL]		= 0xf00,
> +	[THERMINTST]		= 0xf04,
> +	[INTST]			= 0xf08,
> +	[THSTAGE0ST]		= 0xf0c,
> +	[THSTAGE1ST]		= 0xf10,
> +	[THSTAGE2ST]		= 0xf14,
> +	[THAHBST0]		= 0xf18,
> +	[THAHBST1]		= 0xf1c,
> +	[SPARE0]		= 0xf20,
> +	[SPARE1]		= 0xf24,
> +	[SPARE2]		= 0xf28,
> +	[SPARE3]		= 0xf2c,
> +	[THSLPEVEB]		= 0xf30,
> +};
> +
> +/*
> + * struct thermal_parameter - This is for storing thermal efuse data.
> + * We calculate thermal efuse data to produce "mts" and "bts" for
> + * svs bank mon mode.
> + */
> +struct thermal_parameter {
> +	int adc_ge_t;
> +	int adc_oe_t;
> +	int ge;
> +	int oe;
> +	int gain;
> +	int o_vtsabb;
> +	int o_vtsmcu1;
> +	int o_vtsmcu2;
> +	int o_vtsmcu3;
> +	int o_vtsmcu4;
> +	int o_vtsmcu5;
> +	int degc_cali;
> +	int adc_cali_en_t;
> +	int o_slope;
> +	int o_slope_sign;
> +	int ts_id;
> +};
> +
> +/*
> + * struct svs_platform - svs platform data
> + * @dev: svs platform device
> + * @base: svs platform register address base
> + * @main_clk: main clock for svs bank
> + * @pbank: phandle of svs bank and needs to be protected by spin_lock
> + * @banks: phandle of the banks that support
> + * @efuse_parsing: phandle of efuse parsing function
> + * @irqflags: irq settings flags
> + * @rst: svs reset control
> + * @regs: phandle to the registers map

Please review the comments here. Most of the so called phandle aren't phandle at
all. E.g. efuse_parsing is a function pointer.

> + * @efuse_num: the total number of svs platform efuse
> + * @tefuse_num: the total number of thermal efuse
> + * @bank_num: the total number of banks
> + * @efuse_check: the svs efuse check index
> + * @efuse: svs platform efuse data received from NVMEM framework
> + * @tefuse: thermal efuse data received from NVMEM framework
> + * @name: svs platform name

Please make sure comments and struct members are aligned. E.g. 'name' is not the
last member of the struct.

> + */
> +struct svs_platform {
> +	struct device *dev;
> +	void __iomem *base;
> +	struct clk *main_clk;
> +	struct svs_bank *pbank;
> +	struct svs_bank *banks;
> +	bool (*efuse_parsing)(struct svs_platform *svsp);
> +	unsigned long irqflags;
> +	struct reset_control *rst;
> +	const u32 *regs;
> +	char *name;
> +	size_t efuse_num;
> +	size_t tefuse_num;
> +	u32 bank_num;
> +	u32 efuse_check;
> +	u32 *efuse;
> +	u32 *tefuse;
> +};
> +
> +/*
> + * struct svs_bank - svs bank representation
> + * @dev: svs bank device
> + * @opp_dev: device for opp table/buck control
> + * @pd_dev: power domain device for SoC mtcmos control
> + * @init_completion: the timeout completion for bank init
> + * @buck: phandle of the regulator
> + * @lock: mutex lock to protect voltage update process
> + * @phase: bank current phase
> + * @name: bank name
> + * @tzone_name: thermal zone name
> + * @buck_name: regulator name
> + * @suspended: suspend flag of this bank
> + * @pd_req: bank's power-domain on request
> + * @enable_pm_runtime_ever: bank enables pm-runtime flag
> + * @set_freqs_pct: phandle of set frequencies percent function
> + * @get_vops: phandle of get bank voltages function
> + * @volt_offset: bank voltage offset controlled by svs software
> + * @mode_support: bank mode support.
> + * @opp_freqs: signed-off frequencies from default opp table
> + * @opp_volts: signed-off voltages from default opp table
> + * @freqs_pct: percent of "opp_freqs / freq_base" for bank init
> + * @volts: bank voltages
> + * @freq_base: reference frequency for bank init
> + * @vboot: voltage request for bank init01 stage only
> + * @volt_step: bank voltage step
> + * @volt_base: bank voltage base
> + * @volt_flags: bank voltage flags
> + * @vmax: bank voltage maximum
> + * @vmin: bank voltage minimum
> + * @temp: bank temperature
> + * @temp_upper_bound: bank temperature upper bound
> + * @temp_lower_bound: bank temperature lower bound
> + * @tzone_high_temp: thermal zone high temperature threshold
> + * @tzone_high_temp_offset: thermal zone high temperature offset
> + * @tzone_low_temp: thermal zone low temperature threshold
> + * @tzone_low_temp_offset: thermal zone low temperature offset
> + * @core_sel: bank selection
> + * @opp_count: bank opp count
> + * @int_st: bank interrupt identification
> + * @sw_id: bank software identification
> + * @ctl0: bank thermal sensor selection
> + * @cpu_id: cpu core id for SVS CPU only
> + *
> + * Other structure members which are not listed above are svs platform
> + * efuse data for bank init
> + */
> +struct svs_bank {
> +	struct device *dev;
> +	struct device *opp_dev;
> +	struct device *pd_dev;
> +	struct completion init_completion;
> +	struct regulator *buck;
> +	struct mutex lock;	/* lock to protect voltage update process */
> +	enum svsb_phase phase;
> +	char *name;
> +	char *tzone_name;
> +	char *buck_name;
> +	bool suspended;
> +	bool pd_req;
> +	bool enable_pm_runtime_ever;
> +	void (*set_freqs_pct)(struct svs_platform *svsp);
> +	void (*get_vops)(struct svs_platform *svsp);
> +	s32 volt_offset;
> +	u32 mode_support;

In which concrete case do we need this? When we suspend before probe (svs_start)
has finished?
Please explain why we need that at all. I think a one-bit flag that shows us if
a bank supports monitor mode should be enough.

> +	u32 opp_freqs[16];
> +	u32 opp_volts[16];
> +	u32 freqs_pct[16];
> +	u32 volts[16];
> +	u32 freq_base;
> +	u32 vboot;
> +	u32 volt_step;
> +	u32 volt_base;
> +	u32 volt_flags;
> +	u32 vmax;
> +	u32 vmin;
> +	u32 bts;
> +	u32 mts;
> +	u32 bdes;
> +	u32 mdes;
> +	u32 mtdes;
> +	u32 dcbdet;
> +	u32 dcmdet;
> +	u32 dthi;
> +	u32 dtlo;
> +	u32 det_window;
> +	u32 det_max;
> +	u32 age_config;
> +	u32 age_voffset_in;
> +	u32 agem;
> +	u32 dc_config;
> +	u32 dc_voffset_in;
> +	u32 dvt_fixed;
> +	u32 vco;
> +	u32 chk_shift;
> +	u32 temp;
> +	u32 temp_upper_bound;
> +	u32 temp_lower_bound;
> +	u32 tzone_high_temp;
> +	u32 tzone_high_temp_offset;
> +	u32 tzone_low_temp;
> +	u32 tzone_low_temp_offset;
> +	u32 core_sel;
> +	u32 opp_count;
> +	u32 int_st;
> +	u32 sw_id;
> +	u32 ctl0;
> +	u32 cpu_id;
> +};
> +
> +static u32 percent(u32 numerator, u32 denominator)
> +{
> +	/* If not divide 1000, "numerator * 100" will have data overflow. */
> +	numerator /= 1000;
> +	denominator /= 1000;
> +
> +	return DIV_ROUND_UP(numerator * 100, denominator);
> +}
> +
> +static u32 svs_readl(struct svs_platform *svsp, enum svs_reg_index rg_i)
> +{
> +	return readl(svsp->base + svsp->regs[rg_i]);
> +}
> +
> +static void svs_writel(struct svs_platform *svsp, u32 val,
> +		       enum svs_reg_index rg_i)
> +{
> +	writel(val, svsp->base + svsp->regs[rg_i]);
> +}

Read write functions don't add a great deal, why did you decide to ecapsualte them?
Why not use [writel,readl]_relaxed?

> +
> +static void svs_switch_bank(struct svs_platform *svsp)



> +{
> +	struct svs_bank *svsb = svsp->pbank;

Reading the comment, pbank needs to be protected by spin_lock but isn't here.
What's wrong, the comment or the function?

> +
> +	svs_writel(svsp, svsb->core_sel, CORESEL);
> +}
> +
> +static u32 svs_bank_volt_to_opp_volt(u32 svsb_volt, u32 svsb_volt_step,
> +				     u32 svsb_volt_base)
> +{
> +	return (svsb_volt * svsb_volt_step) + svsb_volt_base;
> +}
> +
> +static int svs_get_bank_zone_temperature(const char *tzone_name,
> +					 int *tzone_temp)
> +{
> +	struct thermal_zone_device *tzd;
> +
> +	tzd = thermal_zone_get_zone_by_name(tzone_name);
> +	if (IS_ERR(tzd))
> +		return PTR_ERR(tzd);
> +
> +	return thermal_zone_get_temp(tzd, tzone_temp);
> +}
> +
> +static int svs_adjust_pm_opp_volts(struct svs_bank *svsb, bool force_update)
> +{
> +	int tzone_temp = 0, ret = -EPERM;
> +	u32 i, svsb_volt, opp_volt, temp_offset = 0;
> +
> +	mutex_lock(&svsb->lock);
> +
> +	/*
> +	 * If svs bank is suspended, it means signed-off voltages are applied.
> +	 * Don't need to update opp voltage anymore.
> +	 */
> +	if (svsb->suspended && !force_update) {
> +		dev_notice(svsb->dev, "bank is suspended\n");
> +		ret = -EPERM;
> +		goto unlock_mutex;
> +	}
> +
> +	/* Get thermal effect */
> +	if (svsb->phase == SVSB_PHASE_MON) {
> +		if (svsb->temp > svsb->temp_upper_bound &&
> +		    svsb->temp < svsb->temp_lower_bound) {
> +			dev_warn(svsb->dev, "svsb temp = 0x%x?\n", svsb->temp);
> +			ret = -EINVAL;
> +			goto unlock_mutex;
> +		}
> +
> +		ret = svs_get_bank_zone_temperature(svsb->tzone_name,
> +						    &tzone_temp);
> +		if (ret) {
> +			dev_err(svsb->dev, "no %s? (%d), run default volts\n",
> +				svsb->tzone_name, ret);
> +			svsb->phase = SVSB_PHASE_ERROR;
> +		}
> +
> +		if (tzone_temp >= svsb->tzone_high_temp)
> +			temp_offset += svsb->tzone_high_temp_offset;
> +		else if (tzone_temp <= svsb->tzone_low_temp)
> +			temp_offset += svsb->tzone_low_temp_offset;
> +	}
> +
> +	/* vmin <= svsb_volt (opp_volt) <= signed-off (default) voltage */
> +	for (i = 0; i < svsb->opp_count; i++) {
> +		if (svsb->phase == SVSB_PHASE_MON) {
> +			svsb_volt = max(svsb->volts[i] + svsb->volt_offset +
> +					temp_offset, svsb->vmin);
> +			opp_volt = svs_bank_volt_to_opp_volt(svsb_volt,
> +							     svsb->volt_step,
> +							     svsb->volt_base);
> +		} else if (svsb->phase == SVSB_PHASE_INIT02) {
> +			svsb_volt = max(svsb->volts[i] + svsb->volt_offset,
> +					svsb->vmin);
> +			opp_volt = svs_bank_volt_to_opp_volt(svsb_volt,
> +							     svsb->volt_step,
> +							     svsb->volt_base);
> +		} else if (svsb->phase == SVSB_PHASE_ERROR) {
> +			opp_volt = svsb->opp_volts[i];
> +		} else {
> +			dev_err(svsb->dev, "unknown phase: %u?\n", svsb->phase);
> +			ret = -EINVAL;
> +			goto unlock_mutex;
> +		}
> +
> +		opp_volt = min(opp_volt, svsb->opp_volts[i]);
> +		ret = dev_pm_opp_adjust_voltage(svsb->opp_dev,
> +						svsb->opp_freqs[i],
> +						opp_volt, opp_volt,
> +						svsb->opp_volts[i]);
> +		if (ret) {
> +			dev_err(svsb->dev, "set voltage fail: %d\n", ret);
> +			goto unlock_mutex;
> +		}
> +	}
> +
> +unlock_mutex:
> +	mutex_unlock(&svsb->lock);
> +
> +	return ret;
> +}
> +
> +static u32 interpolate(u32 f0, u32 f1, u32 v0, u32 v1, u32 fx)
> +{
> +	u32 vx;
> +
> +	if (v0 == v1 || f0 == f1)
> +		return v0;
> +
> +	/* *100 to have decimal fraction factor */
> +	vx = (v0 * 100) - ((((v0 - v1) * 100) / (f0 - f1)) * (f0 - fx));
> +
> +	return DIV_ROUND_UP(vx, 100);
> +}
> +
> +static void svs_get_vops_v2(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +	u32 temp, i;
> +
> +	if (svsb->phase == SVSB_PHASE_MON &&
> +	    svsb->volt_flags & SVSB_MON_VOLT_IGNORE)
> +		return;
> +
> +	temp = svs_readl(svsp, VOP74);
> +	svsb->volts[14] = (temp >> 24) & GENMASK(7, 0);
> +	svsb->volts[12] = (temp >> 16) & GENMASK(7, 0);
> +	svsb->volts[10] = (temp >> 8)  & GENMASK(7, 0);
> +	svsb->volts[8] = (temp & GENMASK(7, 0));
> +
> +	temp = svs_readl(svsp, VOP30);
> +	svsb->volts[6] = (temp >> 24) & GENMASK(7, 0);
> +	svsb->volts[4] = (temp >> 16) & GENMASK(7, 0);
> +	svsb->volts[2] = (temp >> 8)  & GENMASK(7, 0);
> +	svsb->volts[0] = (temp & GENMASK(7, 0));
> +
> +	for (i = 0; i <= 12; i += 2)
> +		svsb->volts[i + 1] =
> +			interpolate(svsb->freqs_pct[i],
> +				    svsb->freqs_pct[i + 2],
> +				    svsb->volts[i],
> +				    svsb->volts[i + 2],
> +				    svsb->freqs_pct[i + 1]);
> +
> +	svsb->volts[15] =
> +		interpolate(svsb->freqs_pct[12],
> +			    svsb->freqs_pct[14],
> +			    svsb->volts[12],
> +			    svsb->volts[14],
> +			    svsb->freqs_pct[15]);
> +
> +	if (svsb->volt_flags & SVSB_INIT02_RM_DVTFIXED)
> +		for (i = 0; i < svsb->opp_count; i++)
> +			svsb->volts[i] -= svsb->dvt_fixed;
> +}
> +
> +static void svs_set_freqs_pct_v2(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +
> +	svs_writel(svsp,
> +		   (svsb->freqs_pct[14] << 24) |
> +		   (svsb->freqs_pct[12] << 16) |
> +		   (svsb->freqs_pct[10] << 8) |
> +		   svsb->freqs_pct[8],
> +		   FREQPCT74);
> +
> +	svs_writel(svsp,
> +		   (svsb->freqs_pct[6] << 24) |
> +		   (svsb->freqs_pct[4] << 16) |
> +		   (svsb->freqs_pct[2] << 8) |
> +		   svsb->freqs_pct[0],
> +		   FREQPCT30);
> +}
> +
> +static void svs_set_bank_phase(struct svs_platform *svsp,
> +			       enum svsb_phase target_phase)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +	u32 des_char, temp_char, det_char, limit_vals;
> +	u32 init2vals, ts_calcs, val, filter, i;
> +
> +	svs_switch_bank(svsp);
> +
> +	des_char = (svsb->bdes << 8) | svsb->mdes;
> +	svs_writel(svsp, des_char, DESCHAR);
> +
> +	temp_char = (svsb->vco << 16) | (svsb->mtdes << 8) | svsb->dvt_fixed;
> +	svs_writel(svsp, temp_char, TEMPCHAR);
> +
> +	det_char = (svsb->dcbdet << 8) | svsb->dcmdet;
> +	svs_writel(svsp, det_char, DETCHAR);
> +
> +	svs_writel(svsp, svsb->dc_config, DCCONFIG);
> +	svs_writel(svsp, svsb->age_config, AGECONFIG);
> +
> +	if (!svsb->agem) {
> +		svs_writel(svsp, SVSB_RUNCONFIG_DEFAULT, RUNCONFIG);

All banks have agem (whatever it means) set to zero, so else branch does only
bloat the code here. Please review the whole driver for this kind of cases to
trim the code size down. Once the driver got accepted, adding 'agem' support
will be an easy reviewable patch.

> +	} else {
> +		val = 0x0;
> +
> +		for (i = 0; i < 24; i += 2) {
> +			filter = 0x3 << i;
> +
> +			if (!(svsb->age_config & filter))
> +				val |= (0x1 << i);
> +			else
> +				val |= (svsb->age_config & filter);
> +		}
> +		svs_writel(svsp, val, RUNCONFIG);
> +	}
> +
> +	svsb->set_freqs_pct(svsp);
> +
> +	limit_vals = (svsb->vmax << 24) | (svsb->vmin << 16) |
> +		     (svsb->dthi << 8) | svsb->dtlo;
> +	svs_writel(svsp, limit_vals, LIMITVALS);
> +	svs_writel(svsp, svsb->vboot, VBOOT);
> +	svs_writel(svsp, svsb->det_window, DETWINDOW);
> +	svs_writel(svsp, svsb->det_max, CONFIG);
> +
> +	if (svsb->chk_shift)
> +		svs_writel(svsp, svsb->chk_shift, CHKSHIFT);
> +
> +	if (svsb->ctl0)
> +		svs_writel(svsp, svsb->ctl0, CTL0);
> +
> +	svs_writel(svsp, SVSB_INTSTS_CLEAN, INTSTS);
> +
> +	switch (target_phase) {
> +	case SVSB_PHASE_INIT01:
> +		svs_writel(svsp, SVSB_INTEN_INIT0x, INTEN);
> +		svs_writel(svsp, SVSB_EN_INIT01, SVSEN);
> +		break;
> +	case SVSB_PHASE_INIT02:
> +		svs_writel(svsp, SVSB_INTEN_INIT0x, INTEN);
> +		init2vals = (svsb->age_voffset_in << 16) | svsb->dc_voffset_in;
> +		svs_writel(svsp, init2vals, INIT2VALS);
> +		svs_writel(svsp, SVSB_EN_INIT02, SVSEN);
> +		break;
> +	case SVSB_PHASE_MON:
> +		ts_calcs = (svsb->bts << 12) | svsb->mts;
> +		svs_writel(svsp, ts_calcs, TSCALCS);
> +		svs_writel(svsp, SVSB_INTEN_MONVOPEN, INTEN);
> +		svs_writel(svsp, SVSB_EN_MON, SVSEN);
> +		break;
> +	default:
> +		WARN_ON(1);
> +		break;
> +	}
> +}
> +
> +static inline void svs_init01_isr_handler(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +
> +	dev_info(svsb->dev, "%s: VDN74~30:0x%08x~0x%08x, DC:0x%08x\n",
> +		 __func__, svs_readl(svsp, VDESIGN74),
> +		 svs_readl(svsp, VDESIGN30), svs_readl(svsp, DCVALUES));
> +
> +	svsb->phase = SVSB_PHASE_INIT01;
> +	svsb->dc_voffset_in = ~(svs_readl(svsp, DCVALUES) & GENMASK(15, 0)) + 1;
> +	if (svsb->volt_flags & SVSB_INIT01_VOLT_IGNORE ||
> +	    (svsb->dc_voffset_in & SVSB_DC_SIGNED_BIT &&
> +	     svsb->volt_flags & SVSB_INIT01_VOLT_INC_ONLY))
> +		svsb->dc_voffset_in = 0;
> +
> +	svsb->age_voffset_in = svs_readl(svsp, AGEVALUES) & GENMASK(15, 0);
> +
> +	svs_writel(svsp, SVSB_EN_OFF, SVSEN);
> +	svs_writel(svsp, SVSB_INTSTS_COMPLETE, INTSTS);
> +
> +	/* svs init01 clock gating */
> +	svsb->core_sel &= ~SVSB_DET_CLK_EN;
> +}
> +
> +static inline void svs_init02_isr_handler(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +
> +	dev_info(svsb->dev, "%s: VOP74~30:0x%08x~0x%08x, DC:0x%08x\n",
> +		 __func__, svs_readl(svsp, VOP74), svs_readl(svsp, VOP30),
> +		 svs_readl(svsp, DCVALUES));
> +
> +	svsb->phase = SVSB_PHASE_INIT02;
> +	svsb->get_vops(svsp);
> +
> +	svs_writel(svsp, SVSB_EN_OFF, SVSEN);
> +	svs_writel(svsp, SVSB_INTSTS_COMPLETE, INTSTS);
> +}
> +
> +static inline void svs_mon_mode_isr_handler(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +
> +	svsb->phase = SVSB_PHASE_MON;
> +	svsb->temp = svs_readl(svsp, TEMP) & GENMASK(7, 0);
> +	svsb->get_vops(svsp);
> +
> +	svs_writel(svsp, SVSB_INTSTS_MONVOP, INTSTS);
> +}
> +
> +static inline void svs_error_isr_handler(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb = svsp->pbank;
> +
> +	dev_err(svsb->dev, "%s: CORESEL = 0x%08x\n",
> +		__func__, svs_readl(svsp, CORESEL));
> +	dev_err(svsb->dev, "SVSEN = 0x%08x, INTSTS = 0x%08x\n",
> +		svs_readl(svsp, SVSEN), svs_readl(svsp, INTSTS));
> +	dev_err(svsb->dev, "SMSTATE0 = 0x%08x, SMSTATE1 = 0x%08x\n",
> +		svs_readl(svsp, SMSTATE0), svs_readl(svsp, SMSTATE1));
> +	dev_err(svsb->dev, "TEMP = 0x%08x\n", svs_readl(svsp, TEMP));
> +
> +	svsb->mode_support = SVSB_MODE_ALL_DISABLE;
> +	svsb->phase = SVSB_PHASE_ERROR;
> +
> +	svs_writel(svsp, SVSB_EN_OFF, SVSEN);
> +	svs_writel(svsp, SVSB_INTSTS_CLEAN, INTSTS);
> +}
> +
> +static irqreturn_t svs_isr(int irq, void *data)
> +{
> +	struct svs_platform *svsp = data;
> +	struct svs_bank *svsb = NULL;
> +	unsigned long flags;
> +	u32 idx, int_sts, svs_en;
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +		WARN_ON(!svsb);
> +
> +		spin_lock_irqsave(&mtk_svs_lock, flags);
> +		svsp->pbank = svsb;
> +
> +		/* Find out which svs bank fires interrupt */
> +		if (svsb->int_st & svs_readl(svsp, INTST)) {

Why are you looping over all banks to find out which bank got a pending
interrupt? Couldn't we just read INTST and handle pending interrupts shown in
that register?

> +			spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +			continue;
> +		}
> +
> +		if (!svsb->suspended) {

An interrupt can fire for a suspended bank? Is that an HW limitation? Further
more, do we need that at all? Can't we just disable interrupts globally in
suspend and enable them in resume. It seems you are trying to work around some
race condition between suspend/resume in an interrupt occuring.

> +			svs_switch_bank(svsp);
> +			int_sts = svs_readl(svsp, INTSTS);
> +			svs_en = svs_readl(svsp, SVSEN) & SVSB_EN_MASK;
> +
> +			if (int_sts == SVSB_INTSTS_COMPLETE &&

SVSB_INTSTS_COMPLETE get's written to int_sts in the different state ISR
handlers. So it seems as if this is used for a race condition betweeen having
finished svs_init_0[1-2]_isr_handler. Can't we just mask the interrupt until the
handler is done?

> +			    svs_en == SVSB_EN_INIT01)
> +				svs_init01_isr_handler(svsp);
> +			else if (int_sts == SVSB_INTSTS_COMPLETE &&
> +				 svs_en == SVSB_EN_INIT02)
> +				svs_init02_isr_handler(svsp);
> +			else if (int_sts & SVSB_INTSTS_MONVOP)
> +				svs_mon_mode_isr_handler(svsp);
> +			else
> +				svs_error_isr_handler(svsp);
> +		}
> +
> +		spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +		break;
> +	}
> +
> +	if (svsb->phase != SVSB_PHASE_INIT01)
> +		svs_adjust_pm_opp_volts(svsb, false);
> +
> +	if (svsb->phase == SVSB_PHASE_INIT01 ||
> +	    svsb->phase == SVSB_PHASE_INIT02)
> +		complete(&svsb->init_completion);
> +
> +	return IRQ_HANDLED;
> +}
> +
> +static void svs_mon_mode(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb;
> +	unsigned long flags;
> +	u32 idx;
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (!(svsb->mode_support & SVSB_MODE_MON))
> +			continue;
> +
> +		spin_lock_irqsave(&mtk_svs_lock, flags);
> +		svsp->pbank = svsb;
> +		svs_set_bank_phase(svsp, SVSB_PHASE_MON);
> +		spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +	}
> +}
> +
> +static int svs_init02(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb;
> +	unsigned long flags, time_left;
> +	u32 idx;
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (!(svsb->mode_support & SVSB_MODE_INIT02))
> +			continue;
> +
> +		reinit_completion(&svsb->init_completion);
> +		spin_lock_irqsave(&mtk_svs_lock, flags);
> +		svsp->pbank = svsb;
> +		svs_set_bank_phase(svsp, SVSB_PHASE_INIT02);
> +		spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +
> +		time_left =
> +			wait_for_completion_timeout(&svsb->init_completion,
> +						    msecs_to_jiffies(5000));
> +		if (!time_left) {
> +			dev_err(svsb->dev, "init02 completion timeout\n");
> +			return -EBUSY;
> +		}
> +	}
> +
> +	return 0;
> +}
> +
> +static int svs_init01(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb;
> +	struct pm_qos_request *qos_request;
> +	unsigned long flags, time_left;
> +	bool search_done;
> +	int ret = 0;
> +	u32 opp_freqs, opp_vboot, buck_volt, idx, i;
> +
> +	qos_request = kzalloc(sizeof(*qos_request), GFP_KERNEL);
> +	if (!qos_request)
> +		return -ENOMEM;
> +
> +	/* Let CPUs leave idle-off state for initializing svs_init01. */
> +	cpu_latency_qos_add_request(qos_request, 0);
> +
> +	/*
> +	 * Sometimes two svs banks use the same buck.
> +	 * Therefore, we set each svs bank to vboot voltage first.
> +	 */
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (!(svsb->mode_support & SVSB_MODE_INIT01))
> +			continue;
> +
> +		search_done = false;
> +
> +		if (svsb->pd_req) {
> +			ret = regulator_enable(svsb->buck);
> +			if (ret) {
> +				dev_err(svsb->dev, "%s enable fail: %d\n",
> +					svsb->buck_name, ret);
> +				goto init01_finish;
> +			}
> +
> +			if (!pm_runtime_enabled(svsb->pd_dev)) {
> +				pm_runtime_enable(svsb->pd_dev);
> +				svsb->enable_pm_runtime_ever = true;
> +			}
> +
> +			ret = pm_runtime_get_sync(svsb->pd_dev);
> +			if (ret < 0) {
> +				dev_err(svsb->dev, "mtcmos on fail: %d\n", ret);
> +				goto init01_finish;
> +			}
> +		}
> +
> +		if (regulator_set_mode(svsb->buck, REGULATOR_MODE_FAST))
> +			dev_notice(svsb->dev, "set fast mode fail\n");
> +
> +		/*
> +		 * Find the fastest freq that can be run at vboot and
> +		 * fix to that freq until svs_init01 is done.
> +		 */
> +		opp_vboot = svs_bank_volt_to_opp_volt(svsb->vboot,
> +						      svsb->volt_step,
> +						      svsb->volt_base);
> +
> +		for (i = 0; i < svsb->opp_count; i++) {
> +			opp_freqs = svsb->opp_freqs[i];
> +			if (!search_done && svsb->opp_volts[i] <= opp_vboot) {
> +				ret = dev_pm_opp_adjust_voltage(svsb->opp_dev,
> +								opp_freqs,
> +								opp_vboot,
> +								opp_vboot,
> +								opp_vboot);
> +				if (ret) {
> +					dev_err(svsb->dev,
> +						"set voltage fail: %d\n", ret);
> +					goto init01_finish;
> +				}
> +
> +				search_done = true;
> +			} else {
> +				dev_pm_opp_disable(svsb->opp_dev,
> +						   svsb->opp_freqs[i]);
> +			}
> +		}
> +	}
> +
> +	/* svs bank init01 begins */
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (!(svsb->mode_support & SVSB_MODE_INIT01))
> +			continue;
> +
> +		opp_vboot = svs_bank_volt_to_opp_volt(svsb->vboot,
> +						      svsb->volt_step,
> +						      svsb->volt_base);
> +
> +		buck_volt = regulator_get_voltage(svsb->buck);
> +		if (buck_volt != opp_vboot) {
> +			dev_err(svsb->dev,
> +				"buck voltage: %u, expected vboot: %u\n",
> +				buck_volt, opp_vboot);
> +			ret = -EPERM;
> +			goto init01_finish;
> +		}
> +
> +		spin_lock_irqsave(&mtk_svs_lock, flags);
> +		svsp->pbank = svsb;
> +		svs_set_bank_phase(svsp, SVSB_PHASE_INIT01);
> +		spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +
> +		time_left =
> +			wait_for_completion_timeout(&svsb->init_completion,
> +						    msecs_to_jiffies(5000));
> +		if (!time_left) {
> +			dev_err(svsb->dev, "init01 completion timeout\n");
> +			ret = -EBUSY;
> +			goto init01_finish;
> +		}
> +	}
> +
> +init01_finish:
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (!(svsb->mode_support & SVSB_MODE_INIT01))
> +			continue;
> +
> +		for (i = 0; i < svsb->opp_count; i++)
> +			dev_pm_opp_enable(svsb->opp_dev, svsb->opp_freqs[i]);
> +
> +		if (regulator_set_mode(svsb->buck, REGULATOR_MODE_NORMAL))
> +			dev_notice(svsb->dev, "fail to set normal mode\n");
> +
> +		if (svsb->pd_req) {
> +			if (pm_runtime_put_sync(svsb->pd_dev))
> +				dev_err(svsb->dev, "mtcmos off fail\n");
> +
> +			if (svsb->enable_pm_runtime_ever) {
> +				pm_runtime_disable(svsb->pd_dev);
> +				svsb->enable_pm_runtime_ever = false;
> +			}
> +
> +			if (regulator_disable(svsb->buck))
> +				dev_err(svsb->dev, "%s disable fail: %d\n",
> +					svsb->buck_name, ret);
> +		}
> +	}
> +
> +	cpu_latency_qos_remove_request(qos_request);
> +	kfree(qos_request);
> +
> +	return ret;
> +}
> +
> +static int svs_start(struct svs_platform *svsp)
> +{
> +	int ret;
> +
> +	ret = svs_init01(svsp);
> +	if (ret)
> +		return ret;
> +
> +	ret = svs_init02(svsp);
> +	if (ret)
> +		return ret;
> +
> +	svs_mon_mode(svsp);
> +
> +	return 0;
> +}
> +
> +static struct device *svs_get_subsys_device(struct svs_platform *svsp,
> +					    const char *node_name)
> +{
> +	struct platform_device *pdev;
> +	struct device_node *np;
> +
> +	np = of_find_node_by_name(NULL, node_name);
> +	if (!np) {
> +		dev_err(svsp->dev, "cannot find %s node\n", node_name);
> +		return ERR_PTR(-ENODEV);
> +	}
> +
> +	pdev = of_find_device_by_node(np);
> +	if (!pdev) {
> +		of_node_put(np);
> +		dev_err(svsp->dev, "cannot find pdev by %s\n", node_name);
> +		return ERR_PTR(-ENXIO);
> +	}
> +
> +	of_node_put(np);
> +
> +	return &pdev->dev;
> +}
> +
> +static struct device *svs_add_device_link(struct svs_platform *svsp,
> +					  const char *node_name)
> +{
> +	struct device *dev;
> +	struct device_link *sup_link;
> +
> +	if (!node_name) {
> +		dev_err(svsp->dev, "node name cannot be null\n");
> +		return ERR_PTR(-EINVAL);
> +	}
> +
> +	dev = svs_get_subsys_device(svsp, node_name);
> +	if (IS_ERR(dev))
> +		return dev;
> +
> +	sup_link = device_link_add(svsp->dev, dev,
> +				   DL_FLAG_AUTOREMOVE_CONSUMER);
> +	if (!sup_link) {
> +		dev_err(svsp->dev, "sup_link is NULL\n");
> +		return ERR_PTR(-EINVAL);
> +	}
> +
> +	if (sup_link->supplier->links.status != DL_DEV_DRIVER_BOUND)
> +		return ERR_PTR(-EPROBE_DEFER);
> +
> +	return dev;
> +}
> +
> +static int svs_resource_setup(struct svs_platform *svsp)
> +{
> +	struct svs_bank *svsb;
> +	struct dev_pm_opp *opp;
> +	unsigned long freq;
> +	int count, ret;
> +	u32 idx, i;
> +
> +	dev_set_drvdata(svsp->dev, svsp);
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		switch (svsb->sw_id) {
> +		case SVSB_CPU_LITTLE:
> +			svsb->name = "SVSB_CPU_LITTLE";
> +			break;
> +		case SVSB_CPU_BIG:
> +			svsb->name = "SVSB_CPU_BIG";
> +			break;
> +		case SVSB_CCI:
> +			svsb->name = "SVSB_CCI";
> +			break;
> +		case SVSB_GPU:
> +			svsb->name = "SVSB_GPU";
> +			break;

Why not set the name dircetly in svs_mt8183_banks?

> +		default:
> +			WARN_ON(1);
> +			return -EINVAL;
> +		}
> +
> +		svsb->dev = devm_kzalloc(svsp->dev, sizeof(*svsb->dev),
> +					 GFP_KERNEL);
> +		if (!svsb->dev)
> +			return -ENOMEM;
> +
> +		ret = dev_set_name(svsb->dev, "%s", svsb->name);
> +		if (ret)
> +			return ret;
> +
> +		dev_set_drvdata(svsb->dev, svsp);
> +
> +		ret = dev_pm_opp_of_add_table(svsb->opp_dev);
> +		if (ret) {
> +			dev_err(svsb->dev, "add opp table fail: %d\n", ret);
> +			return ret;
> +		}
> +
> +		mutex_init(&svsb->lock);
> +		init_completion(&svsb->init_completion);
> +
> +		svsb->buck = devm_regulator_get_optional(svsb->opp_dev,
> +							 svsb->buck_name);
> +		if (IS_ERR(svsb->buck)) {
> +			dev_err(svsb->dev, "cannot get \"%s-supply\"\n",
> +				svsb->buck_name);
> +			return PTR_ERR(svsb->buck);
> +		}
> +
> +		count = dev_pm_opp_get_opp_count(svsb->opp_dev);
> +		if (svsb->opp_count != count) {
> +			dev_err(svsb->dev,
> +				"opp_count not \"%u\" but get \"%d\"?\n",
> +				svsb->opp_count, count);
> +			return count;
> +		}
> +
> +		for (i = 0, freq = U32_MAX; i < svsb->opp_count; i++, freq--) {
> +			opp = dev_pm_opp_find_freq_floor(svsb->opp_dev, &freq);
> +			if (IS_ERR(opp)) {
> +				dev_err(svsb->dev, "cannot find freq = %ld\n",
> +					PTR_ERR(opp));
> +				return PTR_ERR(opp);
> +			}
> +
> +			svsb->opp_freqs[i] = freq;
> +			svsb->opp_volts[i] = dev_pm_opp_get_voltage(opp);
> +			svsb->freqs_pct[i] = percent(svsb->opp_freqs[i],
> +						     svsb->freq_base);
> +			dev_pm_opp_put(opp);
> +		}
> +	}
> +
> +	return 0;
> +}
> +
> +static bool svs_mt8183_efuse_parsing(struct svs_platform *svsp)

Is it me or do we always return true? Please make sure that the code is clean
and return types make sense.

> +{
> +	struct thermal_parameter tp;
> +	struct svs_bank *svsb;
> +	bool mon_mode_support = true;
> +	int format[6], x_roomt[6], tb_roomt = 0;
> +	struct nvmem_cell *cell;
> +	u32 idx, i, ft_pgm, mts, temp0, temp1, temp2;
> +
> +	for (i = 0; i < svsp->efuse_num; i++)
> +		if (svsp->efuse[i])
> +			dev_info(svsp->dev, "M_HW_RES%d: 0x%08x\n",
> +				 i, svsp->efuse[i]);
> +
> +	/* Svs efuse parsing */
> +	ft_pgm = (svsp->efuse[0] >> 4) & GENMASK(3, 0);
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		if (ft_pgm <= 1)
> +			svsb->volt_flags |= SVSB_INIT01_VOLT_IGNORE;
> +
> +		switch (svsb->sw_id) {
> +		case SVSB_CPU_LITTLE:
> +			svsb->bdes = svsp->efuse[16] & GENMASK(7, 0);
> +			svsb->mdes = (svsp->efuse[16] >> 8) & GENMASK(7, 0);
> +			svsb->dcbdet = (svsp->efuse[16] >> 16) & GENMASK(7, 0);
> +			svsb->dcmdet = (svsp->efuse[16] >> 24) & GENMASK(7, 0);
> +			svsb->mtdes  = (svsp->efuse[17] >> 16) & GENMASK(7, 0);
> +
> +			if (ft_pgm <= 3)
> +				svsb->volt_offset += 10;
> +			else
> +				svsb->volt_offset += 2;
> +			break;
> +		case SVSB_CPU_BIG:
> +			svsb->bdes = svsp->efuse[18] & GENMASK(7, 0);
> +			svsb->mdes = (svsp->efuse[18] >> 8) & GENMASK(7, 0);
> +			svsb->dcbdet = (svsp->efuse[18] >> 16) & GENMASK(7, 0);
> +			svsb->dcmdet = (svsp->efuse[18] >> 24) & GENMASK(7, 0);
> +			svsb->mtdes  = svsp->efuse[17] & GENMASK(7, 0);
> +
> +			if (ft_pgm <= 3)
> +				svsb->volt_offset += 15;
> +			else
> +				svsb->volt_offset += 12;
> +			break;
> +		case SVSB_CCI:
> +			svsb->bdes = svsp->efuse[4] & GENMASK(7, 0);
> +			svsb->mdes = (svsp->efuse[4] >> 8) & GENMASK(7, 0);
> +			svsb->dcbdet = (svsp->efuse[4] >> 16) & GENMASK(7, 0);
> +			svsb->dcmdet = (svsp->efuse[4] >> 24) & GENMASK(7, 0);
> +			svsb->mtdes  = (svsp->efuse[5] >> 16) & GENMASK(7, 0);
> +
> +			if (ft_pgm <= 3)
> +				svsb->volt_offset += 10;
> +			else
> +				svsb->volt_offset += 2;
> +			break;
> +		case SVSB_GPU:
> +			svsb->bdes = svsp->efuse[6] & GENMASK(7, 0);
> +			svsb->mdes = (svsp->efuse[6] >> 8) & GENMASK(7, 0);
> +			svsb->dcbdet = (svsp->efuse[6] >> 16) & GENMASK(7, 0);
> +			svsb->dcmdet = (svsp->efuse[6] >> 24) & GENMASK(7, 0);
> +			svsb->mtdes  = svsp->efuse[5] & GENMASK(7, 0);
> +
> +			if (ft_pgm >= 2) {
> +				svsb->freq_base = 800000000; /* 800MHz */
> +				svsb->dvt_fixed = 2;
> +			}
> +			break;
> +		default:
> +			break;
> +		}
> +	}
> +
> +	/* Get thermal efuse by nvmem */
> +	cell = nvmem_cell_get(svsp->dev, "t-calibration-data");
> +	if (IS_ERR_OR_NULL(cell)) {
> +		dev_err(svsp->dev, "no thermal cell, no mon mode\n");
> +		for (idx = 0; idx < svsp->bank_num; idx++) {
> +			svsb = &svsp->banks[idx];
> +			svsb->mode_support &= ~SVSB_MODE_MON;
> +		}
> +
> +		return true;
> +	}
> +
> +	svsp->tefuse = nvmem_cell_read(cell, &svsp->tefuse_num);
> +	svsp->tefuse_num /= sizeof(u32);
> +	nvmem_cell_put(cell);
> +
> +	/* Thermal efuse parsing */
> +	tp.adc_ge_t = (svsp->tefuse[1] >> 22) & GENMASK(9, 0);
> +	tp.adc_oe_t = (svsp->tefuse[1] >> 12) & GENMASK(9, 0);
> +
> +	tp.o_vtsmcu1 = (svsp->tefuse[0] >> 17) & GENMASK(8, 0);
> +	tp.o_vtsmcu2 = (svsp->tefuse[0] >> 8) & GENMASK(8, 0);
> +	tp.o_vtsmcu3 = svsp->tefuse[1] & GENMASK(8, 0);
> +	tp.o_vtsmcu4 = (svsp->tefuse[2] >> 23) & GENMASK(8, 0);
> +	tp.o_vtsmcu5 = (svsp->tefuse[2] >> 5) & GENMASK(8, 0);
> +	tp.o_vtsabb = (svsp->tefuse[2] >> 14) & GENMASK(8, 0);
> +
> +	tp.degc_cali = (svsp->tefuse[0] >> 1) & GENMASK(5, 0);
> +	tp.adc_cali_en_t = svsp->tefuse[0] & BIT(0);
> +	tp.o_slope_sign = (svsp->tefuse[0] >> 7) & BIT(0);
> +
> +	tp.ts_id = (svsp->tefuse[1] >> 9) & BIT(0);
> +	tp.o_slope = (svsp->tefuse[0] >> 26) & GENMASK(5, 0);
> +
> +	if (tp.adc_cali_en_t == 1) {
> +		if (!tp.ts_id)
> +			tp.o_slope = 0;
> +
> +		if (tp.adc_ge_t < 265 || tp.adc_ge_t > 758 ||
> +		    tp.adc_oe_t < 265 || tp.adc_oe_t > 758 ||
> +		    tp.o_vtsmcu1 < -8 || tp.o_vtsmcu1 > 484 ||
> +		    tp.o_vtsmcu2 < -8 || tp.o_vtsmcu2 > 484 ||
> +		    tp.o_vtsmcu3 < -8 || tp.o_vtsmcu3 > 484 ||
> +		    tp.o_vtsmcu4 < -8 || tp.o_vtsmcu4 > 484 ||
> +		    tp.o_vtsmcu5 < -8 || tp.o_vtsmcu5 > 484 ||
> +		    tp.o_vtsabb < -8 || tp.o_vtsabb > 484 ||
> +		    tp.degc_cali < 1 || tp.degc_cali > 63) {
> +			dev_err(svsp->dev, "bad thermal efuse, no mon mode\n");
> +			mon_mode_support = false;
> +		}
> +	} else {
> +		dev_err(svsp->dev, "no thermal efuse, no mon mode\n");
> +		mon_mode_support = false;
> +	}
> +
> +	if (!mon_mode_support) {
> +		for (idx = 0; idx < svsp->bank_num; idx++) {
> +			svsb = &svsp->banks[idx];
> +			svsb->mode_support &= ~SVSB_MODE_MON;
> +		}
> +
> +		return true;
> +	}
> +
> +	tp.ge = ((tp.adc_ge_t - 512) * 10000) / 4096;
> +	tp.oe = (tp.adc_oe_t - 512);
> +	tp.gain = (10000 + tp.ge);
> +
> +	format[0] = (tp.o_vtsmcu1 + 3350 - tp.oe);
> +	format[1] = (tp.o_vtsmcu2 + 3350 - tp.oe);
> +	format[2] = (tp.o_vtsmcu3 + 3350 - tp.oe);
> +	format[3] = (tp.o_vtsmcu4 + 3350 - tp.oe);
> +	format[4] = (tp.o_vtsmcu5 + 3350 - tp.oe);
> +	format[5] = (tp.o_vtsabb + 3350 - tp.oe);
> +
> +	for (i = 0; i < 6; i++)
> +		x_roomt[i] = (((format[i] * 10000) / 4096) * 10000) / tp.gain;
> +
> +	temp0 = (10000 * 100000 / tp.gain) * 15 / 18;
> +
> +	if (!tp.o_slope_sign)
> +		mts = (temp0 * 10) / (1534 + tp.o_slope * 10);
> +	else
> +		mts = (temp0 * 10) / (1534 - tp.o_slope * 10);
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +		svsb->mts = mts;
> +
> +		switch (svsb->sw_id) {
> +		case SVSB_CPU_LITTLE:
> +			tb_roomt = x_roomt[3];
> +			break;
> +		case SVSB_CPU_BIG:
> +			tb_roomt = x_roomt[4];
> +			break;
> +		case SVSB_CCI:
> +			tb_roomt = x_roomt[3];
> +			break;
> +		case SVSB_GPU:
> +			tb_roomt = x_roomt[1];
> +			break;
> +		default:
> +			break;
> +		}
> +
> +		temp0 = (tp.degc_cali * 10 / 2);
> +		temp1 = ((10000 * 100000 / 4096 / tp.gain) *
> +			 tp.oe + tb_roomt * 10) * 15 / 18;
> +
> +		if (!tp.o_slope_sign)
> +			temp2 = temp1 * 100 / (1534 + tp.o_slope * 10);
> +		else
> +			temp2 = temp1 * 100 / (1534 - tp.o_slope * 10);
> +
> +		svsb->bts = (temp0 + temp2 - 250) * 4 / 10;
> +	}
> +
> +	return true;
> +}
> +
> +static bool svs_is_supported(struct svs_platform *svsp)
> +{
> +	struct nvmem_cell *cell;
> +
> +	/* Get svs efuse by nvmem */
> +	cell = nvmem_cell_get(svsp->dev, "svs-calibration-data");
> +	if (IS_ERR_OR_NULL(cell)) {
> +		dev_err(svsp->dev,
> +			"no \"svs-calibration-data\" from dts? disable svs\n");
> +		return false;
> +	}
> +
> +	svsp->efuse = nvmem_cell_read(cell, &svsp->efuse_num);
> +	svsp->efuse_num /= sizeof(u32);
> +	nvmem_cell_put(cell);
> +
> +	if (!svsp->efuse[svsp->efuse_check]) {
> +		dev_err(svsp->dev, "svs_efuse[%u] = 0x%x?\n",
> +			svsp->efuse_check, svsp->efuse[svsp->efuse_check]);
> +		return false;
> +	}
> +
> +	return svsp->efuse_parsing(svsp);
> +}
> +
> +static int svs_suspend(struct device *dev)
> +{
> +	struct svs_platform *svsp = dev_get_drvdata(dev);
> +	struct svs_bank *svsb;
> +	unsigned long flags;
> +	int ret;
> +	u32 idx;
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		/* Wait if svs_isr() is still in process. */
> +		spin_lock_irqsave(&mtk_svs_lock, flags);
> +		svsp->pbank = svsb;
> +		svs_switch_bank(svsp);
> +		svs_writel(svsp, SVSB_EN_OFF, SVSEN);
> +		svs_writel(svsp, SVSB_INTSTS_CLEAN, INTSTS);
> +		spin_unlock_irqrestore(&mtk_svs_lock, flags);
> +
> +		svsb->suspended = true;
> +		if (svsb->phase != SVSB_PHASE_INIT01) {
> +			svsb->phase = SVSB_PHASE_ERROR;
> +			svs_adjust_pm_opp_volts(svsb, true);
> +		}
> +	}
> +
> +	ret = reset_control_assert(svsp->rst);
> +	if (ret) {
> +		dev_err(svsp->dev, "cannot assert reset %d\n", ret);
> +		return ret;
> +	}
> +
> +	clk_disable_unprepare(svsp->main_clk);
> +
> +	return 0;
> +}
> +
> +static int svs_resume(struct device *dev)
> +{
> +	struct svs_platform *svsp = dev_get_drvdata(dev);
> +	struct svs_bank *svsb;
> +	int ret;
> +	u32 idx;
> +
> +	ret = clk_prepare_enable(svsp->main_clk);
> +	if (ret) {
> +		dev_err(svsp->dev, "cannot enable main_clk, disable svs\n");
> +		return ret;
> +	}
> +
> +	ret = reset_control_deassert(svsp->rst);
> +	if (ret) {
> +		dev_err(svsp->dev, "cannot deassert reset %d\n", ret);
> +		return ret;
> +	}
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +		svsb->suspended = false;
> +	}
> +
> +	ret = svs_init02(svsp);
> +	if (ret)
> +		return ret;
> +
> +	svs_mon_mode(svsp);
> +
> +	return 0;
> +}
> +
> +static struct svs_bank svs_mt8183_banks[] = {
> +	{
> +		.sw_id			= SVSB_CPU_LITTLE,
> +		.set_freqs_pct		= svs_set_freqs_pct_v2,
> +		.get_vops		= svs_get_vops_v2,
> +		.cpu_id			= 0,
> +		.tzone_name		= "tzts4",
> +		.buck_name		= "proc",
> +		.pd_req			= false,
> +		.volt_flags		= SVSB_INIT01_VOLT_INC_ONLY,
> +		.mode_support		= SVSB_MODE_INIT01 | SVSB_MODE_INIT02,
> +		.opp_count		= 16,
> +		.freq_base		= 1989000000,
> +		.vboot			= 0x30,
> +		.volt_step		= 6250,
> +		.volt_base		= 500000,
> +		.volt_offset		= 0,
> +		.vmax			= 0x64,
> +		.vmin			= 0x18,
> +		.dthi			= 0x1,
> +		.dtlo			= 0xfe,
> +		.det_window		= 0xa28,
> +		.det_max		= 0xffff,
> +		.age_config		= 0x555555,
> +		.agem			= 0,
> +		.dc_config		= 0x555555,
> +		.dvt_fixed		= 0x7,
> +		.vco			= 0x10,
> +		.chk_shift		= 0x77,
> +		.temp_upper_bound	= 0x64,
> +		.temp_lower_bound	= 0xb2,
> +		.tzone_high_temp	= SVSB_TZONE_HIGH_TEMP_MAX,
> +		.tzone_low_temp		= 25000,
> +		.tzone_low_temp_offset	= 0,
> +		.core_sel		= 0x8fff0000,
> +		.int_st			= BIT(0),
> +		.ctl0			= 0x00010001,

Can we try to make that data structure smaller. I'm struggeling to understand
how this all works together.
Apart from that I think it would make sense to describe the banks in DT. Maybe
we can find a way then to create the device links using phandles instead of
hard-code that.
Please try to find a balanca between information in DTS and information
hardcoded in the driver. As for example done for mkt-pm-domains driver.

> +	},
> +	{
> +		.sw_id			= SVSB_CPU_BIG,
> +		.set_freqs_pct		= svs_set_freqs_pct_v2,
> +		.get_vops		= svs_get_vops_v2,
> +		.cpu_id			= 4,
> +		.tzone_name		= "tzts5",
> +		.buck_name		= "proc",
> +		.pd_req			= false,
> +		.volt_flags		= SVSB_INIT01_VOLT_INC_ONLY,
> +		.mode_support		= SVSB_MODE_INIT01 | SVSB_MODE_INIT02,
> +		.opp_count		= 16,
> +		.freq_base		= 1989000000,
> +		.vboot			= 0x30,
> +		.volt_step		= 6250,
> +		.volt_base		= 500000,
> +		.volt_offset		= 0,
> +		.vmax			= 0x58,
> +		.vmin			= 0x10,
> +		.dthi			= 0x1,
> +		.dtlo			= 0xfe,
> +		.det_window		= 0xa28,
> +		.det_max		= 0xffff,
> +		.age_config		= 0x555555,
> +		.agem			= 0,
> +		.dc_config		= 0x555555,
> +		.dvt_fixed		= 0x7,
> +		.vco			= 0x10,
> +		.chk_shift		= 0x77,
> +		.temp_upper_bound	= 0x64,
> +		.temp_lower_bound	= 0xb2,
> +		.tzone_high_temp	= SVSB_TZONE_HIGH_TEMP_MAX,
> +		.tzone_low_temp		= 25000,
> +		.tzone_low_temp_offset	= 0,
> +		.core_sel		= 0x8fff0001,
> +		.int_st			= BIT(1),
> +		.ctl0			= 0x00000001,
> +	},
> +	{
> +		.sw_id			= SVSB_CCI,
> +		.set_freqs_pct		= svs_set_freqs_pct_v2,
> +		.get_vops		= svs_get_vops_v2,
> +		.tzone_name		= "tzts4",
> +		.buck_name		= "proc",
> +		.pd_req			= false,
> +		.volt_flags		= SVSB_INIT01_VOLT_INC_ONLY,
> +		.mode_support		= SVSB_MODE_INIT01 | SVSB_MODE_INIT02,
> +		.opp_count		= 16,
> +		.freq_base		= 1196000000,
> +		.vboot			= 0x30,
> +		.volt_step		= 6250,
> +		.volt_base		= 500000,
> +		.volt_offset		= 0,
> +		.vmax			= 0x64,
> +		.vmin			= 0x18,
> +		.dthi			= 0x1,
> +		.dtlo			= 0xfe,
> +		.det_window		= 0xa28,
> +		.det_max		= 0xffff,
> +		.age_config		= 0x555555,
> +		.agem			= 0,
> +		.dc_config		= 0x555555,
> +		.dvt_fixed		= 0x7,
> +		.vco			= 0x10,
> +		.chk_shift		= 0x77,
> +		.temp_upper_bound	= 0x64,
> +		.temp_lower_bound	= 0xb2,
> +		.tzone_high_temp	= SVSB_TZONE_HIGH_TEMP_MAX,
> +		.tzone_low_temp		= 25000,
> +		.tzone_low_temp_offset	= 0,
> +		.core_sel		= 0x8fff0002,
> +		.int_st			= BIT(2),
> +		.ctl0			= 0x00100003,
> +	},
> +	{
> +		.sw_id			= SVSB_GPU,
> +		.set_freqs_pct		= svs_set_freqs_pct_v2,
> +		.get_vops		= svs_get_vops_v2,
> +		.tzone_name		= "tzts2",
> +		.buck_name		= "mali",
> +		.pd_req			= true,
> +		.volt_flags		= SVSB_INIT01_VOLT_INC_ONLY,
> +		.mode_support		= SVSB_MODE_INIT01 | SVSB_MODE_INIT02 |
> +					  SVSB_MODE_MON,
> +		.opp_count		= 16,
> +		.freq_base		= 900000000,
> +		.vboot			= 0x30,
> +		.volt_step		= 6250,
> +		.volt_base		= 500000,
> +		.volt_offset		= 0,
> +		.vmax			= 0x40,
> +		.vmin			= 0x14,
> +		.dthi			= 0x1,
> +		.dtlo			= 0xfe,
> +		.det_window		= 0xa28,
> +		.det_max		= 0xffff,
> +		.age_config		= 0x555555,
> +		.agem			= 0,
> +		.dc_config		= 0x555555,
> +		.dvt_fixed		= 0x3,
> +		.vco			= 0x10,
> +		.chk_shift		= 0x77,
> +		.temp_upper_bound	= 0x64,
> +		.temp_lower_bound	= 0xb2,
> +		.tzone_high_temp	= SVSB_TZONE_HIGH_TEMP_MAX,
> +		.tzone_low_temp		= 25000,
> +		.tzone_low_temp_offset	= 3,
> +		.core_sel		= 0x8fff0003,
> +		.int_st			= BIT(3),
> +		.ctl0			= 0x00050001,
> +	},
> +};
> +
> +static int svs_get_svs_mt8183_platform_data(struct svs_platform *svsp)
> +{
> +	struct device *dev;
> +	struct svs_bank *svsb;
> +	u32 idx;
> +
> +	svsp->name = "mt8183-svs";
> +	svsp->banks = svs_mt8183_banks;
> +	svsp->efuse_parsing = svs_mt8183_efuse_parsing;
> +	svsp->regs = svs_regs_v2;
> +	svsp->irqflags = IRQF_TRIGGER_LOW;
> +	svsp->rst = NULL;
> +	svsp->bank_num = ARRAY_SIZE(svs_mt8183_banks);
> +	svsp->efuse_check = 2;
> +

We are mixing up platform data with a SoC specific probe function, please split
that.

> +	dev = svs_add_device_link(svsp, "thermal");
> +	if (IS_ERR(dev))
> +		return PTR_ERR(dev);
> +
> +	for (idx = 0; idx < svsp->bank_num; idx++) {
> +		svsb = &svsp->banks[idx];
> +
> +		switch (svsb->sw_id) {
> +		case SVSB_CPU_LITTLE:
> +		case SVSB_CPU_BIG:
> +			svsb->opp_dev = get_cpu_device(svsb->cpu_id);
> +			break;
> +		case SVSB_CCI:
> +			svsb->opp_dev = svs_add_device_link(svsp, "cci");
> +			break;
> +		case SVSB_GPU:
> +			svsb->opp_dev = svs_add_device_link(svsp, "mali");
> +			svsb->pd_dev = svs_add_device_link(svsp,
> +							   "mali_gpu_core2");
> +			if (IS_ERR(svsb->pd_dev))
> +				return PTR_ERR(svsb->pd_dev);
> +			break;
> +		default:
> +			WARN_ON(1);
> +			return -EINVAL;
> +		}
> +
> +		if (IS_ERR(svsb->opp_dev))
> +			return PTR_ERR(svsb->opp_dev);
> +	}
> +
> +	return 0;
> +}
> +
> +static const struct of_device_id mtk_svs_of_match[] = {
> +	{
> +		.compatible = "mediatek,mt8183-svs",
> +		.data = &svs_get_svs_mt8183_platform_data,
> +	}, {
> +		/* Sentinel */
> +	},
> +};
> +
> +static int svs_probe(struct platform_device *pdev)
> +{
> +	int (*svs_get_svs_platform_data)(struct svs_platform *svsp);
> +	struct svs_platform *svsp;
> +	unsigned int svsp_irq;
> +	int ret;
> +
> +	svsp = devm_kzalloc(&pdev->dev, sizeof(*svsp), GFP_KERNEL);
> +	if (!svsp)
> +		return -ENOMEM;
> +
> +	svs_get_svs_platform_data = of_device_get_match_data(&pdev->dev);
> +	if (!svs_get_svs_platform_data) {
> +		dev_err(svsp->dev, "no svs platform data? why?\n");
> +		return -EPERM;
> +	}
> +
> +	svsp->dev = &pdev->dev;
> +	ret = svs_get_svs_platform_data(svsp);
> +	if (ret) {
> +		dev_err_probe(svsp->dev, ret, "fail to get svsp data\n");
> +		return ret;
> +	}
> +
> +	if (!svs_is_supported(svsp)) {

If svs is not supported, the device node shouldn't be enabled.

> +		dev_notice(svsp->dev, "svs is not supported\n");
> +		return -EPERM;
> +	}
> +
> +	ret = svs_resource_setup(svsp);
> +	if (ret) {
> +		dev_err(svsp->dev, "svs resource setup fail: %d\n", ret);
> +		return ret;
> +	}
> +
> +	svsp_irq = irq_of_parse_and_map(svsp->dev->of_node, 0);
> +	ret = devm_request_threaded_irq(svsp->dev, svsp_irq, NULL, svs_isr,
> +					svsp->irqflags | IRQF_ONESHOT,
> +					svsp->name, svsp);
> +	if (ret) {
> +		dev_err(svsp->dev, "register irq(%d) failed: %d\n",
> +			svsp_irq, ret);
> +		return ret;
> +	}
> +
> +	svsp->main_clk = devm_clk_get(svsp->dev, "main");
> +	if (IS_ERR(svsp->main_clk)) {
> +		dev_err(svsp->dev, "failed to get clock: %ld\n",
> +			PTR_ERR(svsp->main_clk));
> +		return PTR_ERR(svsp->main_clk);
> +	}
> +
> +	ret = clk_prepare_enable(svsp->main_clk);
> +	if (ret) {
> +		dev_err(svsp->dev, "cannot enable main clk: %d\n", ret);
> +		return ret;
> +	}
> +
> +	svsp->base = of_iomap(svsp->dev->of_node, 0);
> +	if (IS_ERR_OR_NULL(svsp->base)) {
> +		dev_err(svsp->dev, "cannot find svs register base\n");
> +		ret = -EINVAL;
> +		goto svs_probe_clk_disable;
> +	}
> +
> +	ret = svs_start(svsp);
> +	if (ret) {
> +		dev_err(svsp->dev, "svs start fail: %d\n", ret);
> +		goto svs_probe_iounmap;
> +	}
> +
> +	return 0;
> +
> +svs_probe_iounmap:
> +	iounmap(svsp->base);
> +
> +svs_probe_clk_disable:
> +	clk_disable_unprepare(svsp->main_clk);
> +
> +	return ret;
> +}
> +
> +static SIMPLE_DEV_PM_OPS(svs_pm_ops, svs_suspend, svs_resume);
> +
> +static struct platform_driver svs_driver = {
> +	.probe	= svs_probe,
> +	.driver	= {
> +		.name		= "mtk-svs",
> +		.pm		= &svs_pm_ops,
> +		.of_match_table	= of_match_ptr(mtk_svs_of_match),
> +	},
> +};
> +
> +module_platform_driver(svs_driver);
> +
> +MODULE_AUTHOR("Roger Lu <roger.lu@xxxxxxxxxxxx>");
> +MODULE_DESCRIPTION("MediaTek SVS driver");
> +MODULE_LICENSE("GPL v2");
> 




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