src/superio/ite/common/env_ctrl.c - coreboot - Gitiles

 /*
  * This file is part of the coreboot project.
  *
  * Copyright (C) 2011 The ChromiumOS Authors.  All rights reserved.
  * Copyright (C) 2016 secunet Security Networks AG
  * Copyright (C) 2019 Protectli
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  */

 #include <stdlib.h>
 #include <arch/io.h>
 #include <console/console.h>
 #include <delay.h>

 #include "env_ctrl.h"
 #include "env_ctrl_chip.h"

 static inline u8 ite_ec_read(const u16 base, const u8 addr)
 {
 	outb(addr, base + 5);
 	return inb(base + 6);
 }

 static inline void ite_ec_write(const u16 base, const u8 addr, const u8 value)
 {
 	outb(addr, base + 5);
 	outb(value, base + 6);
 }

 static void extemp_force_idle_status(const u16 base)
 {
 	u8 reg;
 	int retries = 10;

 	/* Wait up to 10ms for non-busy state. */
 	while (retries > 0) {
 		reg = ite_ec_read(base, ITE_EC_EXTEMP_STATUS);

 		if ((reg & ITE_EC_EXTEMP_STATUS_HOST_BUSY) == 0x0)
 			break;

 		retries--;

 		mdelay(1);
 	}

 	if (retries == 0 && (reg & ITE_EC_EXTEMP_STATUS_HOST_BUSY) == 0x1) {
 		/*
 		 * SIO is busy due to unfinished peci transaction.
 		 * Re-configure Register 0x8E to terminate processes.
 		 */
 		ite_ec_write(base, ITE_EC_EXTEMP_CONTROL,
 			ITE_EC_EXTEMP_CTRL_AUTO_4HZ |
 			ITE_EC_EXTEMP_CTRL_AUTO_START);
 	}
 }

 /*
  * Setup PECI interface
  */
 static void enable_peci(const u16 base)
 {
 	/* Enable PECI interface */
 	ite_ec_write(base, ITE_EC_INTERFACE_SELECT,
 			   ITE_EC_INTERFACE_SEL_PECI |
 			   ITE_EC_INTERFACE_SPEED_TOLERANCE);

 	/* Setup External Temperature using PECI GetTemp */
 	ite_ec_write(base, ITE_EC_EXTEMP_ADDRESS,
 			   PECI_CLIENT_ADDRESS);
 	ite_ec_write(base, ITE_EC_EXTEMP_COMMAND,
 			   PECI_GETTEMP_COMMAND);
 	ite_ec_write(base, ITE_EC_EXTEMP_WRITE_LENGTH,
 			   PECI_GETTEMP_WRITE_LENGTH);
 	ite_ec_write(base, ITE_EC_EXTEMP_READ_LENGTH,
 			   PECI_GETTEMP_READ_LENGTH);
 	ite_ec_write(base, ITE_EC_EXTEMP_CONTROL,
 			   ITE_EC_EXTEMP_CTRL_AUTO_4HZ |
 			   ITE_EC_EXTEMP_CTRL_AUTO_START);
 }

 /*
  * Set up External Temperature to read via PECI or thermal diode/resistor
  * into TMPINx register
  */
 static void enable_tmpin(const u16 base, const u8 tmpin,
 			 const struct ite_ec_thermal_config *const conf)
 {
 	u8 reg;

 	reg = ite_ec_read(base, ITE_EC_ADC_TEMP_CHANNEL_ENABLE);

 	switch (conf->mode) {
 	case THERMAL_PECI:
 		if (reg & ITE_EC_ADC_TEMP_EXT_REPORTS_TO_MASK) {
 			printk(BIOS_WARNING, "PECI specified for multiple TMPIN\n");
 			return;
 		}
 		enable_peci(base);
 		reg |= ITE_EC_ADC_TEMP_EXT_REPORTS_TO(tmpin);
 		break;
 	case THERMAL_DIODE:
 		reg |= ITE_EC_ADC_TEMP_DIODE_MODE(tmpin);
 		break;
 	case THERMAL_RESISTOR:
 		reg |= ITE_EC_ADC_TEMP_RESISTOR_MODE(tmpin);
 		break;
 	default:
 		printk(BIOS_WARNING,
 		       "Unsupported thermal mode 0x%x on TMPIN%d\n",
 		       conf->mode, tmpin);
 		return;
 	}

 	ite_ec_write(base, ITE_EC_ADC_TEMP_CHANNEL_ENABLE, reg);

 	/* Set temperature offsets */
 	if (conf->mode != THERMAL_RESISTOR) {
 		reg = ite_ec_read(base, ITE_EC_BEEP_ENABLE);
 		reg |= ITE_EC_TEMP_ADJUST_WRITE_ENABLE;
 		ite_ec_write(base, ITE_EC_BEEP_ENABLE, reg);
 		ite_ec_write(base, ITE_EC_TEMP_ADJUST[tmpin-1], conf->offset);
 	}

 	/* Set temperature limits */
 	u8 max = conf->max;
 	ite_ec_write(base, ITE_EC_HIGH_TEMP_LIMIT(tmpin),
 		     max ? max : 127);
 	ite_ec_write(base, ITE_EC_LOW_TEMP_LIMIT(tmpin), conf->min);

 	/* Enable the startup of monitoring operation */
 	reg = ite_ec_read(base, ITE_EC_CONFIGURATION);
 	reg |= ITE_EC_CONFIGURATION_START;
 	ite_ec_write(base, ITE_EC_CONFIGURATION, reg);
 }

 static void fan_smartconfig(const u16 base, const u8 fan,
 			    const enum ite_ec_fan_mode mode,
 			    const struct ite_ec_fan_smartconfig *const conf)
 {
 	u8 pwm_ctrl;
 	u8 pwm_start = 0;
 	u8 pwm_auto = 0;

 	if (mode == FAN_SMART_SOFTWARE) {
 		pwm_ctrl = ITE_EC_FAN_CTL_PWM_MODE_SOFTWARE;

 		/* 50% duty cycle by default */
 		const u8 duty = conf->pwm_start ? conf->pwm_start : 50;
 		if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_8BIT_PWM))
 			pwm_start = ITE_EC_FAN_CTL_PWM_DUTY(duty);
 		else
 			pwm_ctrl |= ITE_EC_FAN_CTL_PWM_DUTY(duty);
 	} else {
 		pwm_ctrl = ITE_EC_FAN_CTL_PWM_MODE_AUTOMATIC;
 		pwm_ctrl |= ITE_EC_FAN_CTL_TEMPIN(conf->tmpin);

 		pwm_start = ITE_EC_FAN_CTL_PWM_START_DUTY(conf->pwm_start);
 		pwm_start |= ITE_EC_FAN_CTL_PWM_SLOPE_BIT6(conf->slope);

 		pwm_auto = ITE_EC_FAN_CTL_PWM_SLOPE_LOWER(conf->slope);
 		if (conf->smoothing)
 			pwm_auto |= ITE_EC_FAN_CTL_AUTO_SMOOTHING_EN;

 		ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_OFF(fan),
 			     conf->tmp_off);
 		ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_START(fan),
 			     conf->tmp_start);
 		/* Full speed above 127°C by default */
 		ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_FULL(fan),
 			     conf->tmp_full ? conf->tmp_full : 127);
 		ite_ec_write(base, ITE_EC_FAN_CTL_DELTA_TEMP(fan),
 			     ITE_EC_FAN_CTL_DELTA_TEMP_INTRVL(conf->tmp_delta));
 	}

 	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_CONTROL(fan), pwm_ctrl);
 	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_START(fan), pwm_start);
 	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_AUTO(fan), pwm_auto);
 }

 static void enable_fan(const u16 base, const u8 fan,
 		       const struct ite_ec_fan_config *const conf)
 {
 	u8 reg;

 	if (conf->mode == FAN_IGNORE ||
 	    (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_NO_ONOFF) &&
 	     conf->mode <= FAN_MODE_OFF))
 		return;

 	/* FAN_CTL2 might have its own frequency setting */
 	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_PWM_FREQ2) && fan == 2) {
 		reg = ite_ec_read(base, ITE_EC_ADC_TEMP_EXTRA_CHANNEL_ENABLE);
 		reg &= ~ITE_EC_FAN_PWM_CLOCK_MASK;
 		reg |= ITE_EC_FAN_PWM_DEFAULT_CLOCK;
 		ite_ec_write(base, ITE_EC_ADC_TEMP_EXTRA_CHANNEL_ENABLE, reg);
 	}

 	if (conf->mode >= FAN_SMART_SOFTWARE) {
 		fan_smartconfig(base, fan, conf->mode, &conf->smart);
 	} else {
 		reg = ite_ec_read(base, ITE_EC_FAN_CTL_MODE);
 		if (conf->mode == FAN_MODE_ON)
 			reg |= ITE_EC_FAN_CTL_ON(fan);
 		else
 			reg &= ~ITE_EC_FAN_CTL_ON(fan);
 		ite_ec_write(base, ITE_EC_FAN_CTL_MODE, reg);
 	}

 	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_FAN16_CONFIG)
 	    && conf->mode >= FAN_MODE_ON) {
 		reg = ite_ec_read(base, ITE_EC_FAN_TAC_COUNTER_ENABLE);
 		reg |= ITE_EC_FAN_TAC_16BIT_ENABLE(fan);
 		ite_ec_write(base, ITE_EC_FAN_TAC_COUNTER_ENABLE, reg);
 	}

 	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_5FANS) && fan > 3) {
 		reg = ite_ec_read(base, ITE_EC_FAN_SEC_CTL);
 		if (conf->mode >= FAN_MODE_ON)
 			reg |= ITE_EC_FAN_SEC_CTL_TAC_EN(fan);
 		else
 			reg &= ~ITE_EC_FAN_SEC_CTL_TAC_EN(fan);
 		ite_ec_write(base, ITE_EC_FAN_SEC_CTL, reg);
 	} else {
 		reg = ite_ec_read(base, ITE_EC_FAN_MAIN_CTL);
 		if (conf->mode >= FAN_MODE_ON)
 			reg |= ITE_EC_FAN_MAIN_CTL_TAC_EN(fan);
 		else
 			reg &= ~ITE_EC_FAN_MAIN_CTL_TAC_EN(fan);

 		/* Some ITEs have SmartGuardian always enabled */
 		if (!IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_NO_ONOFF)) {
 			if (conf->mode >= FAN_SMART_SOFTWARE)
 				reg |= ITE_EC_FAN_MAIN_CTL_SMART(fan);
 			else
 				reg &= ~ITE_EC_FAN_MAIN_CTL_SMART(fan);
 		}
 		ite_ec_write(base, ITE_EC_FAN_MAIN_CTL, reg);
 	}
 }

 static void enable_beeps(const u16 base, const struct ite_ec_config *const conf)
 {
 	u8 reg = 0;
 	u8 freq = ITE_EC_BEEP_TONE_DIVISOR(10) | ITE_EC_BEEP_FREQ_DIVISOR(10);

 	if (conf->tmpin_beep) {
 		reg |= ITE_EC_BEEP_ON_TMP_LIMIT;
 		ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_TMPIN, freq);
 	}
 	if (conf->fan_beep) {
 		reg |= ITE_EC_BEEP_ON_FAN_LIMIT;
 		ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_FAN, freq);
 	}
 	if (conf->vin_beep) {
 		reg |= ITE_EC_BEEP_ON_VIN_LIMIT;
 		ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_VIN, freq);
 	}

 	if (reg) {
 		reg |= ite_ec_read(base, ITE_EC_BEEP_ENABLE);
 		ite_ec_write(base, ITE_EC_BEEP_ENABLE, reg);
 	}
 }

 void ite_ec_init(const u16 base, const struct ite_ec_config *const conf)
 {
 	size_t i;

 	/* Configure 23.43kHz PWM active high output */
 	u8 fan_ctl = ite_ec_read(base, ITE_EC_FAN_CTL_MODE);
 	fan_ctl &= ~ITE_EC_FAN_PWM_CLOCK_MASK;
 	fan_ctl |= ITE_EC_FAN_PWM_DEFAULT_CLOCK;
 	fan_ctl |= ITE_EC_FAN_CTL_POLARITY_HIGH;
 	ite_ec_write(base, ITE_EC_FAN_CTL_MODE, fan_ctl);

 	/* Enable HWM if configured */
 	for (i = 0; i < ITE_EC_TMPIN_CNT; ++i)
 		enable_tmpin(base, i + 1, &conf->tmpin[i]);

 	/* Enable reading of voltage pins */
 	ite_ec_write(base, ITE_EC_ADC_VOLTAGE_CHANNEL_ENABLE, conf->vin_mask);

 	/* Enable FANx if configured */
 	for (i = 0; i < ITE_EC_FAN_CNT; ++i)
 		enable_fan(base, i + 1, &conf->fan[i]);

 	/* Enable beeps if configured */
 	enable_beeps(base, conf);

 	/*
 	 * System may get wrong temperature data when SIO is in
 	 * busy state. Therefore, check the status and terminate
 	 * processes if needed.
 	 */
 	for (i = 0; i < ITE_EC_TMPIN_CNT; ++i)
 		if (conf->tmpin[i].mode == THERMAL_PECI)
 			extemp_force_idle_status(base);
 }
	/*
	* This file is part of the coreboot project.
	*
	* Copyright (C) 2011 The ChromiumOS Authors. All rights reserved.
	* Copyright (C) 2016 secunet Security Networks AG
	* Copyright (C) 2019 Protectli
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*/

	#include <stdlib.h>
	#include <arch/io.h>
	#include <console/console.h>
	#include <delay.h>

	#include "env_ctrl.h"
	#include "env_ctrl_chip.h"

	static inline u8 ite_ec_read(const u16 base, const u8 addr)
	{
	outb(addr, base + 5);
	return inb(base + 6);
	}

	static inline void ite_ec_write(const u16 base, const u8 addr, const u8 value)
	{
	outb(addr, base + 5);
	outb(value, base + 6);
	}

	static void extemp_force_idle_status(const u16 base)
	{
	u8 reg;
	int retries = 10;

	/* Wait up to 10ms for non-busy state. */
	while (retries > 0) {
	reg = ite_ec_read(base, ITE_EC_EXTEMP_STATUS);

	if ((reg & ITE_EC_EXTEMP_STATUS_HOST_BUSY) == 0x0)
	break;

	retries--;

	mdelay(1);
	}

	if (retries == 0 && (reg & ITE_EC_EXTEMP_STATUS_HOST_BUSY) == 0x1) {
	/*
	* SIO is busy due to unfinished peci transaction.
	* Re-configure Register 0x8E to terminate processes.
	*/
	ite_ec_write(base, ITE_EC_EXTEMP_CONTROL,
	ITE_EC_EXTEMP_CTRL_AUTO_4HZ \|
	ITE_EC_EXTEMP_CTRL_AUTO_START);
	}
	}

	/*
	* Setup PECI interface
	*/
	static void enable_peci(const u16 base)
	{
	/* Enable PECI interface */
	ite_ec_write(base, ITE_EC_INTERFACE_SELECT,
	ITE_EC_INTERFACE_SEL_PECI \|
	ITE_EC_INTERFACE_SPEED_TOLERANCE);

	/* Setup External Temperature using PECI GetTemp */
	ite_ec_write(base, ITE_EC_EXTEMP_ADDRESS,
	PECI_CLIENT_ADDRESS);
	ite_ec_write(base, ITE_EC_EXTEMP_COMMAND,
	PECI_GETTEMP_COMMAND);
	ite_ec_write(base, ITE_EC_EXTEMP_WRITE_LENGTH,
	PECI_GETTEMP_WRITE_LENGTH);
	ite_ec_write(base, ITE_EC_EXTEMP_READ_LENGTH,
	PECI_GETTEMP_READ_LENGTH);
	ite_ec_write(base, ITE_EC_EXTEMP_CONTROL,
	ITE_EC_EXTEMP_CTRL_AUTO_4HZ \|
	ITE_EC_EXTEMP_CTRL_AUTO_START);
	}

	/*
	* Set up External Temperature to read via PECI or thermal diode/resistor
	* into TMPINx register
	*/
	static void enable_tmpin(const u16 base, const u8 tmpin,
	const struct ite_ec_thermal_config *const conf)
	{
	u8 reg;

	reg = ite_ec_read(base, ITE_EC_ADC_TEMP_CHANNEL_ENABLE);

	switch (conf->mode) {
	case THERMAL_PECI:
	if (reg & ITE_EC_ADC_TEMP_EXT_REPORTS_TO_MASK) {
	printk(BIOS_WARNING, "PECI specified for multiple TMPIN\n");
	return;
	}
	enable_peci(base);
	reg \|= ITE_EC_ADC_TEMP_EXT_REPORTS_TO(tmpin);
	break;
	case THERMAL_DIODE:
	reg \|= ITE_EC_ADC_TEMP_DIODE_MODE(tmpin);
	break;
	case THERMAL_RESISTOR:
	reg \|= ITE_EC_ADC_TEMP_RESISTOR_MODE(tmpin);
	break;
	default:
	printk(BIOS_WARNING,
	"Unsupported thermal mode 0x%x on TMPIN%d\n",
	conf->mode, tmpin);
	return;
	}

	ite_ec_write(base, ITE_EC_ADC_TEMP_CHANNEL_ENABLE, reg);

	/* Set temperature offsets */
	if (conf->mode != THERMAL_RESISTOR) {
	reg = ite_ec_read(base, ITE_EC_BEEP_ENABLE);
	reg \|= ITE_EC_TEMP_ADJUST_WRITE_ENABLE;
	ite_ec_write(base, ITE_EC_BEEP_ENABLE, reg);
	ite_ec_write(base, ITE_EC_TEMP_ADJUST[tmpin-1], conf->offset);
	}

	/* Set temperature limits */
	u8 max = conf->max;
	ite_ec_write(base, ITE_EC_HIGH_TEMP_LIMIT(tmpin),
	max ? max : 127);
	ite_ec_write(base, ITE_EC_LOW_TEMP_LIMIT(tmpin), conf->min);

	/* Enable the startup of monitoring operation */
	reg = ite_ec_read(base, ITE_EC_CONFIGURATION);
	reg \|= ITE_EC_CONFIGURATION_START;
	ite_ec_write(base, ITE_EC_CONFIGURATION, reg);
	}

	static void fan_smartconfig(const u16 base, const u8 fan,
	const enum ite_ec_fan_mode mode,
	const struct ite_ec_fan_smartconfig *const conf)
	{
	u8 pwm_ctrl;
	u8 pwm_start = 0;
	u8 pwm_auto = 0;

	if (mode == FAN_SMART_SOFTWARE) {
	pwm_ctrl = ITE_EC_FAN_CTL_PWM_MODE_SOFTWARE;

	/* 50% duty cycle by default */
	const u8 duty = conf->pwm_start ? conf->pwm_start : 50;
	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_8BIT_PWM))
	pwm_start = ITE_EC_FAN_CTL_PWM_DUTY(duty);
	else
	pwm_ctrl \|= ITE_EC_FAN_CTL_PWM_DUTY(duty);
	} else {
	pwm_ctrl = ITE_EC_FAN_CTL_PWM_MODE_AUTOMATIC;
	pwm_ctrl \|= ITE_EC_FAN_CTL_TEMPIN(conf->tmpin);

	pwm_start = ITE_EC_FAN_CTL_PWM_START_DUTY(conf->pwm_start);
	pwm_start \|= ITE_EC_FAN_CTL_PWM_SLOPE_BIT6(conf->slope);

	pwm_auto = ITE_EC_FAN_CTL_PWM_SLOPE_LOWER(conf->slope);
	if (conf->smoothing)
	pwm_auto \|= ITE_EC_FAN_CTL_AUTO_SMOOTHING_EN;

	ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_OFF(fan),
	conf->tmp_off);
	ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_START(fan),
	conf->tmp_start);
	/* Full speed above 127°C by default */
	ite_ec_write(base, ITE_EC_FAN_CTL_TEMP_LIMIT_FULL(fan),
	conf->tmp_full ? conf->tmp_full : 127);
	ite_ec_write(base, ITE_EC_FAN_CTL_DELTA_TEMP(fan),
	ITE_EC_FAN_CTL_DELTA_TEMP_INTRVL(conf->tmp_delta));
	}

	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_CONTROL(fan), pwm_ctrl);
	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_START(fan), pwm_start);
	ite_ec_write(base, ITE_EC_FAN_CTL_PWM_AUTO(fan), pwm_auto);
	}

	static void enable_fan(const u16 base, const u8 fan,
	const struct ite_ec_fan_config *const conf)
	{
	u8 reg;

	if (conf->mode == FAN_IGNORE \|\|
	(IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_NO_ONOFF) &&
	conf->mode <= FAN_MODE_OFF))
	return;

	/* FAN_CTL2 might have its own frequency setting */
	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_PWM_FREQ2) && fan == 2) {
	reg = ite_ec_read(base, ITE_EC_ADC_TEMP_EXTRA_CHANNEL_ENABLE);
	reg &= ~ITE_EC_FAN_PWM_CLOCK_MASK;
	reg \|= ITE_EC_FAN_PWM_DEFAULT_CLOCK;
	ite_ec_write(base, ITE_EC_ADC_TEMP_EXTRA_CHANNEL_ENABLE, reg);
	}

	if (conf->mode >= FAN_SMART_SOFTWARE) {
	fan_smartconfig(base, fan, conf->mode, &conf->smart);
	} else {
	reg = ite_ec_read(base, ITE_EC_FAN_CTL_MODE);
	if (conf->mode == FAN_MODE_ON)
	reg \|= ITE_EC_FAN_CTL_ON(fan);
	else
	reg &= ~ITE_EC_FAN_CTL_ON(fan);
	ite_ec_write(base, ITE_EC_FAN_CTL_MODE, reg);
	}

	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_FAN16_CONFIG)
	&& conf->mode >= FAN_MODE_ON) {
	reg = ite_ec_read(base, ITE_EC_FAN_TAC_COUNTER_ENABLE);
	reg \|= ITE_EC_FAN_TAC_16BIT_ENABLE(fan);
	ite_ec_write(base, ITE_EC_FAN_TAC_COUNTER_ENABLE, reg);
	}

	if (IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_5FANS) && fan > 3) {
	reg = ite_ec_read(base, ITE_EC_FAN_SEC_CTL);
	if (conf->mode >= FAN_MODE_ON)
	reg \|= ITE_EC_FAN_SEC_CTL_TAC_EN(fan);
	else
	reg &= ~ITE_EC_FAN_SEC_CTL_TAC_EN(fan);
	ite_ec_write(base, ITE_EC_FAN_SEC_CTL, reg);
	} else {
	reg = ite_ec_read(base, ITE_EC_FAN_MAIN_CTL);
	if (conf->mode >= FAN_MODE_ON)
	reg \|= ITE_EC_FAN_MAIN_CTL_TAC_EN(fan);
	else
	reg &= ~ITE_EC_FAN_MAIN_CTL_TAC_EN(fan);

	/* Some ITEs have SmartGuardian always enabled */
	if (!IS_ENABLED(CONFIG_SUPERIO_ITE_ENV_CTRL_NO_ONOFF)) {
	if (conf->mode >= FAN_SMART_SOFTWARE)
	reg \|= ITE_EC_FAN_MAIN_CTL_SMART(fan);
	else
	reg &= ~ITE_EC_FAN_MAIN_CTL_SMART(fan);
	}
	ite_ec_write(base, ITE_EC_FAN_MAIN_CTL, reg);
	}
	}

	static void enable_beeps(const u16 base, const struct ite_ec_config *const conf)
	{
	u8 reg = 0;
	u8 freq = ITE_EC_BEEP_TONE_DIVISOR(10) \| ITE_EC_BEEP_FREQ_DIVISOR(10);

	if (conf->tmpin_beep) {
	reg \|= ITE_EC_BEEP_ON_TMP_LIMIT;
	ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_TMPIN, freq);
	}
	if (conf->fan_beep) {
	reg \|= ITE_EC_BEEP_ON_FAN_LIMIT;
	ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_FAN, freq);
	}
	if (conf->vin_beep) {
	reg \|= ITE_EC_BEEP_ON_VIN_LIMIT;
	ite_ec_write(base, ITE_EC_BEEP_FREQ_DIV_OF_VIN, freq);
	}

	if (reg) {
	reg \|= ite_ec_read(base, ITE_EC_BEEP_ENABLE);
	ite_ec_write(base, ITE_EC_BEEP_ENABLE, reg);
	}
	}

	void ite_ec_init(const u16 base, const struct ite_ec_config *const conf)
	{
	size_t i;

	/* Configure 23.43kHz PWM active high output */
	u8 fan_ctl = ite_ec_read(base, ITE_EC_FAN_CTL_MODE);
	fan_ctl &= ~ITE_EC_FAN_PWM_CLOCK_MASK;
	fan_ctl \|= ITE_EC_FAN_PWM_DEFAULT_CLOCK;
	fan_ctl \|= ITE_EC_FAN_CTL_POLARITY_HIGH;
	ite_ec_write(base, ITE_EC_FAN_CTL_MODE, fan_ctl);

	/* Enable HWM if configured */
	for (i = 0; i < ITE_EC_TMPIN_CNT; ++i)
	enable_tmpin(base, i + 1, &conf->tmpin[i]);

	/* Enable reading of voltage pins */
	ite_ec_write(base, ITE_EC_ADC_VOLTAGE_CHANNEL_ENABLE, conf->vin_mask);

	/* Enable FANx if configured */
	for (i = 0; i < ITE_EC_FAN_CNT; ++i)
	enable_fan(base, i + 1, &conf->fan[i]);

	/* Enable beeps if configured */
	enable_beeps(base, conf);

	/*
	* System may get wrong temperature data when SIO is in
	* busy state. Therefore, check the status and terminate
	* processes if needed.
	*/
	for (i = 0; i < ITE_EC_TMPIN_CNT; ++i)
	if (conf->tmpin[i].mode == THERMAL_PECI)
	extemp_force_idle_status(base);
	}