src/ec/google/wilco/commands.h - coreboot - Gitiles

 /* SPDX-License-Identifier: GPL-2.0-only */

 #ifndef EC_GOOGLE_WILCO_COMMANDS_H
 #define EC_GOOGLE_WILCO_COMMANDS_H

 #include <types.h>

 enum {
 	/* Read and clear power state information */
 	KB_POWER_SMI = 0x04,
 	/* Read but do not clear power state information */
 	KB_POWER_STATUS = 0x05,
 	/* Inform the EC about the reason host is turning off */
 	KB_POWER_OFF = 0x08,
 	/* Control wireless radios */
 	KB_RADIO_CONTROL = 0x2b,
 	/* Save PS/2 data before S3 suspend */
 	KB_SAVE = 0x2f,
 	/* Restore PS/2 data after S3 resume */
 	KB_RESTORE = 0x30,
 	/* Manage the EC control of camera power */
 	KB_CAMERA = 0x33,
 	/* Retrieve information about the EC */
 	KB_EC_INFO = 0x38,
 	/* Set ACPI mode on or off */
 	KB_ACPI = 0x3a,
 	/* Board ID */
 	KB_BOARD_ID = 0x3d,
 	/* Change ACPI wake up source */
 	KB_ACPI_WAKEUP_CHANGE = 0x4a,
 	/* Manage the EC power button passthru to the host */
 	KB_POWER_BUTTON_TO_HOST = 0x3e,
 	/* Manage the EC control of speaker mute */
 	KB_HW_MUTE_CONTROL = 0x60,
 	/* Inform the EC that the host is about to enter S3 */
 	KB_SLP_EN = 0x64,
 	/* Inform the EC about BIOS boot progress */
 	KB_BIOS_PROGRESS = 0xc2,
 	/* Inform the EC that a fatal error occurred */
 	KB_ERR_CODE = 0x7b,
 	/* Set CPU ID */
 	KB_CPU_ID = 0xbf,
 };

 enum ec_ram_addr {
 	/* Indicate if EC uses signed firmware */
 	EC_RAM_SIGNED_FW = 0x5c,
 	/* Indicate support for S0ix */
 	EC_RAM_S0IX_SUPPORT = 0xb8,
 };

 enum set_acpi_mode_cmd {
 	ACPI_OFF = 0,
 	ACPI_ON
 };

 enum bios_progress_code {
 	BIOS_PROGRESS_BEFORE_MEMORY = 0x00,
 	BIOS_PROGRESS_MEMORY_INIT = 0x01,
 	BIOS_PROGRESS_VIDEO_INIT = 0x02,
 	BIOS_PROGRESS_LOGO_DISPLAYED = 0x03,
 	BIOS_PROGRESS_POST_COMPLETE = 0x04,
 };

 enum ec_audio_mute {
 	AUDIO_MUTE = 0,		/* Mute speakers immediately */
 	AUDIO_UNMUTE_125MS,	/* Unmute in 125ms */
 };

 enum ec_radio {
 	RADIO_WIFI = 0,
 	RADIO_WWAN,
 	RADIO_BT,
 };

 enum ec_radio_action {
 	RADIO_READ = 1,
 	RADIO_WRITE,
 	RADIO_TOGGLE,
 };

 enum ec_camera {
 	CAMERA_ON = 0,
 	CAMERA_OFF
 };

 enum ec_err_code {
 	DLED_MEMORY = 0x03,
 	DLED_PANEL = 0x10,
 	DLED_ROM = 0x19,
 };

 /**
  * wilco_ec_radio_control() - Control wireless radios.
  * @ec_radio: Wireless radio type.
  * @state: Turn radio on or off.
  * Return: 0 if successful or negative error code on failure.
  */
 int wilco_ec_radio_control(enum ec_radio radio, uint8_t state);

 /*
  * EC Information
  */

 enum get_ec_info_cmd {
 	GET_EC_LABEL = 0,
 	GET_EC_SVN_REV,
 	GET_EC_MODEL_NO,
 	GET_EC_BUILD_DATE
 };

 #define EC_INFO_MAX_SIZE 9
 struct ec_response_get_ec_info {
 	char data[EC_INFO_MAX_SIZE]; /* ASCII NUL terminated string */
 };

 /**
  * wilco_ec_get_info
  *
  * Read a specific information string from the EC and return it in
  * the caller-provided buffer of at least EC_INFO_MAX_SIZE bytes.
  *
  * @cmd:	Information to retrieve
  * @info:	Character array of EC_INFO_MAX_SIZE bytes
  *
  * Returns 0 if successful and resulting string is in 'info'
  * Returns -1 if the EC command fails
  */
 int wilco_ec_get_info(enum get_ec_info_cmd cmd, char *info);

 /**
  * wilco_ec_print_all_info
  *
  * Retrieve and print all the information strings from the EC:
  *
  *  GET_EC_LABEL
  *  GET_EC_SVN_REV
  *  GET_EC_MODEL_NO
  *  GET_EC_BUILD_DATE
  */
 void wilco_ec_print_all_info(void);

 /*
  * EC Power State
  */

 enum ec_power_off_reason {
 	EC_PWROFF_FLASH = 0x11,
 	EC_PWROFF_AC_REMOVED = 0x12,
 	EC_PWROFF_BAT_REMOVED = 0x13,
 	EC_PWROFF_LOBAT = 0x15,
 	EC_PWROFF_PWRB_IN_POST = 0x16,
 	EC_PWROFF_FORCE_IMMEDIATE = 0x18,
 	EC_PWROFF_WDT = 0x1b,
 	EC_PWROFF_FORCE_THERMAL = 0x22,
 	EC_PWROFF_ERR_CODE = 0x23,
 	EC_PWROFF_PAID_PWRGD = 0x27,
 	EC_PWROFF_PAID_CPU = 0x28,
 	EC_PWROFF_PAID_GFX = 0x29,
 	EC_PWROFF_PAID_CLK = 0x2a,
 	EC_PWROFF_PAID_NOMEMORY = 0x2b,
 	EC_PWROFF_PAID_MEMORY_ERR = 0x2c,
 	EC_PWROFF_PAID_MEMORY_SPD = 0x2d,
 	EC_SWOFF_ACPI = 0x31,
 	EC_SWOFF_BOOT_PASSWORD = 0x33,
 	EC_SWOFF_DISK_PASSWORD = 0x34,
 	EC_SWOFF_POWER_CYCLE = 0x37,
 	EC_SWOFF_HARD_RESET = 0x3b,
 	EC_SWOFF_FSMI = 0x3f,
 	EC_PWRLOG_THERMTRIP = 0x41,
 	EC_PWRLOG_NO_S5 = 0x42,
 	EC_PWROFF_4S_PWRB = 0x44,
 	EC_PWROFF_ASF2_FORCEOFF = 0x45,
 	EC_PWROFF_PWRB_THERMAL = 0x48,
 	EC_PWROFF_AOAC_TIMER = 0x4b,
 };

 /**
  * wilco_ec_power_off
  *
  * Tell the EC why the host is about to power off.
 */
 void wilco_ec_power_off(enum ec_power_off_reason reason);

 /**
  * wilco_ec_slp_en
  *
  * Tell the EC that the host is entering a sleep state.
  */
 void wilco_ec_slp_en(void);

 enum ec_pm1_state {
 	EC_PM1_AC_AVAIL = BIT(0),	/* AC available */
 	EC_PM1_BAT_AVAIL = BIT(1),	/* Battery available */
 	EC_PM1_LO_BAT1 = BIT(2),	/* Battery 1 low */
 	EC_PM1_LO_BAT2 = BIT(3),	/* Battery 2 low */
 	EC_PM1_LID_OPEN = BIT(4),	/* Lid is open */
 	EC_PM1_LCD_POWER = BIT(5),	/* LCD is powered */
 	EC_PM1_OVER_TEMP = BIT(6),	/* CPU is over temperature */
 	EC_PM1_DOCKED = BIT(7),		/* System is docked */
 };

 enum ec_pm2_state {
 	EC_PM2_SYS_MB_PCIE = BIT(0),	/* MB has PCIe */
 	EC_PM2_SYS_MB_SATA = BIT(1),	/* MB has SATA */
 	EC_PM2_PWRB_PRESSED = BIT(2),	/* Power button is pressed */
 	EC_PM2_TURBO_MODE = BIT(3),	/* Turbo mode */
 };

 enum ec_pm3_state {
 	EC_PM3_BAT1_PRES = BIT(2),	/* Battery 1 is present */
 	EC_PM3_BAT2_PRES = BIT(3),	/* Battery 2 is present */
 	EC_PM3_LOWER_PSTATE = BIT(6),	/* EC requests lower P-state */
 	EC_PM3_CPU_THROTTLE = BIT(7),	/* EC requests CPU throttle */
 };

 enum ec_pm4_state {
 	EC_PM4_BAT1_CHG = BIT(0),	/* Battery 1 is being charged */
 	EC_PM4_BAT2_CHG = BIT(1),	/* Battery 2 is being charged */
 	EC_PM4_BAT1_PWR = BIT(2),	/* Battery 1 is powering the system */
 	EC_PM4_BAT2_PWR = BIT(3),	/* Battery 2 is powering the system */
 	EC_PM4_PANEL_STATE = BIT(5),	/* Panel power state */
 };

 enum ec_pm5_state {
 	EC_PM5_INT_HD_SATA = BIT(7),	/* Internal SATA HDD */
 };

 enum ec_pm6_state {
 	EC_PM6_WLAN_SWITCH = BIT(0),	/* Wireless switch */
 	EC_PM6_SYS_MB_MODEM = BIT(1),	/* MB has modem */
 	EC_PM6_ETH_STATE = BIT(2),	/* Ethernet cable state */
 	EC_PM6_AC_UPDATE = BIT(3),	/* Update AC information */
 };

 enum ec_pm1_event {
 	EC_EV1_PWRB_PRESSED = BIT(0),	/* Power button was pressed */
 	EC_EV1_HOTKEY_PRESSED = BIT(1),	/* Hotkey was pressed */
 	EC_EV1_STATE_CHANGED = BIT(2),	/* PMx state changed */
 };

 enum ec_pm2_event {
 	EC_EV2_ACPI_MONSWITCH = BIT(0),	/* Monitor switch status */
 };

 struct ec_pm_event_state {
 	uint8_t event[2];		/* ec_pm{1,2}_event */
 	uint8_t state[6];		/* ec_pm{1,2,3,4,5,6}_state */
 	uint8_t hotkey;			/* Hotkey, if pressed */
 	uint16_t ac_type;		/* AC adapter information */
 };

 /**
  * wilco_ec_get_pm
  *
  * Retrieve power and event information from the EC.
  *
  * @pm:		Power event state structure to fill out
  * @clear:	Clear EC event state after reading
  *
  * Returns 0 if EC command was successful
  * Returns -1 if EC command failed
  */
 int wilco_ec_get_pm(struct ec_pm_event_state *pm, bool clear);

 /**
  * wilco_ec_get_lid_state
  *
  * Retrieve the lid state without clearing it in the EC.
  *
  * Returns 1 if the lid is open, 0 if it is closed
  * Returns -1 if the EC command failed
  */
 int wilco_ec_get_lid_state(void);

 /**
  * wilco_ec_get_board_id
  *
  * Retrieve the board ID value from the EC.
  * @id:		Pointer to variable to store the ID read from the EC.
  *
  * Returns number of bytes transferred from the EC
  * Returns -1 if the EC command failed
  */
 int wilco_ec_get_board_id(uint8_t *id);

 enum ec_wake_change {
 	WAKE_OFF = 0,
 	WAKE_ON
 };
 /**
  * wilco_ec_change_wake_source
  *
  * Change acpi wake up source.
  * @source:		Wake up source that can be enabled/disabled.
  * @ec_wake_change:	On/off switch.
  *
  * Returns -1 if the EC command failed
  */
 int wilco_ec_change_wake(uint8_t source, enum ec_wake_change change);

 enum ec_acpi_wake_events {
 	EC_ACPI_WAKE_PWRB = BIT(0),	/* Wake up by power button */
 	EC_ACPI_WAKE_LID = BIT(1),	/* Wake up by lid switch */
 	EC_ACPI_WAKE_RTC = BIT(5),	/* Wake up by RTC */
 };

 /**
  * wilco_ec_signed_fw
  *
  * Indicate if the EC uses signed firmware.
  *
  * Returns 1 if EC uses signed firmware, otherwise returns 0
  */
 int wilco_ec_signed_fw(void);

 /**
  * wilco_ec_save_post_code
  *
  * Save this post code as the most recent progress step.  If the boot fails
  * and calls die_notify() this post code will be used to send an error code
  * to the EC indicating the failure.
  *
  * @post_code: Post code to save
  */
 void wilco_ec_save_post_code(uint8_t post_code);

 /**
  * wilco_ec_set_cpuid
  *
  * Set CPU ID to EC.
  *
  * @cpuid:	read CPU ID from cpu_eax(1)
  * @cpu_cores:	cores of CPU
  * @gpu_cores:	cores of GPU
  *
  * Returns 0 if EC command was successful
  * Returns -1 if EC command failed
  */
 int wilco_ec_set_cpuid(uint32_t cpuid, uint8_t cpu_cores, uint8_t gpu_cores);

 #endif /* EC_GOOGLE_WILCO_COMMANDS_H */
	/* SPDX-License-Identifier: GPL-2.0-only */

	#ifndef EC_GOOGLE_WILCO_COMMANDS_H
	#define EC_GOOGLE_WILCO_COMMANDS_H

	#include <types.h>

	enum {
	/* Read and clear power state information */
	KB_POWER_SMI = 0x04,
	/* Read but do not clear power state information */
	KB_POWER_STATUS = 0x05,
	/* Inform the EC about the reason host is turning off */
	KB_POWER_OFF = 0x08,
	/* Control wireless radios */
	KB_RADIO_CONTROL = 0x2b,
	/* Save PS/2 data before S3 suspend */
	KB_SAVE = 0x2f,
	/* Restore PS/2 data after S3 resume */
	KB_RESTORE = 0x30,
	/* Manage the EC control of camera power */
	KB_CAMERA = 0x33,
	/* Retrieve information about the EC */
	KB_EC_INFO = 0x38,
	/* Set ACPI mode on or off */
	KB_ACPI = 0x3a,
	/* Board ID */
	KB_BOARD_ID = 0x3d,
	/* Change ACPI wake up source */
	KB_ACPI_WAKEUP_CHANGE = 0x4a,
	/* Manage the EC power button passthru to the host */
	KB_POWER_BUTTON_TO_HOST = 0x3e,
	/* Manage the EC control of speaker mute */
	KB_HW_MUTE_CONTROL = 0x60,
	/* Inform the EC that the host is about to enter S3 */
	KB_SLP_EN = 0x64,
	/* Inform the EC about BIOS boot progress */
	KB_BIOS_PROGRESS = 0xc2,
	/* Inform the EC that a fatal error occurred */
	KB_ERR_CODE = 0x7b,
	/* Set CPU ID */
	KB_CPU_ID = 0xbf,
	};

	enum ec_ram_addr {
	/* Indicate if EC uses signed firmware */
	EC_RAM_SIGNED_FW = 0x5c,
	/* Indicate support for S0ix */
	EC_RAM_S0IX_SUPPORT = 0xb8,
	};

	enum set_acpi_mode_cmd {
	ACPI_OFF = 0,
	ACPI_ON
	};

	enum bios_progress_code {
	BIOS_PROGRESS_BEFORE_MEMORY = 0x00,
	BIOS_PROGRESS_MEMORY_INIT = 0x01,
	BIOS_PROGRESS_VIDEO_INIT = 0x02,
	BIOS_PROGRESS_LOGO_DISPLAYED = 0x03,
	BIOS_PROGRESS_POST_COMPLETE = 0x04,
	};

	enum ec_audio_mute {
	AUDIO_MUTE = 0, /* Mute speakers immediately */
	AUDIO_UNMUTE_125MS, /* Unmute in 125ms */
	};

	enum ec_radio {
	RADIO_WIFI = 0,
	RADIO_WWAN,
	RADIO_BT,
	};

	enum ec_radio_action {
	RADIO_READ = 1,
	RADIO_WRITE,
	RADIO_TOGGLE,
	};

	enum ec_camera {
	CAMERA_ON = 0,
	CAMERA_OFF
	};

	enum ec_err_code {
	DLED_MEMORY = 0x03,
	DLED_PANEL = 0x10,
	DLED_ROM = 0x19,
	};

	/**
	* wilco_ec_radio_control() - Control wireless radios.
	* @ec_radio: Wireless radio type.
	* @state: Turn radio on or off.
	* Return: 0 if successful or negative error code on failure.
	*/
	int wilco_ec_radio_control(enum ec_radio radio, uint8_t state);

	/*
	* EC Information
	*/

	enum get_ec_info_cmd {
	GET_EC_LABEL = 0,
	GET_EC_SVN_REV,
	GET_EC_MODEL_NO,
	GET_EC_BUILD_DATE
	};

	#define EC_INFO_MAX_SIZE 9
	struct ec_response_get_ec_info {
	char data[EC_INFO_MAX_SIZE]; /* ASCII NUL terminated string */
	};

	/**
	* wilco_ec_get_info
	*
	* Read a specific information string from the EC and return it in
	* the caller-provided buffer of at least EC_INFO_MAX_SIZE bytes.
	*
	* @cmd: Information to retrieve
	* @info: Character array of EC_INFO_MAX_SIZE bytes
	*
	* Returns 0 if successful and resulting string is in 'info'
	* Returns -1 if the EC command fails
	*/
	int wilco_ec_get_info(enum get_ec_info_cmd cmd, char *info);

	/**
	* wilco_ec_print_all_info
	*
	* Retrieve and print all the information strings from the EC:
	*
	* GET_EC_LABEL
	* GET_EC_SVN_REV
	* GET_EC_MODEL_NO
	* GET_EC_BUILD_DATE
	*/
	void wilco_ec_print_all_info(void);

	/*
	* EC Power State
	*/

	enum ec_power_off_reason {
	EC_PWROFF_FLASH = 0x11,
	EC_PWROFF_AC_REMOVED = 0x12,
	EC_PWROFF_BAT_REMOVED = 0x13,
	EC_PWROFF_LOBAT = 0x15,
	EC_PWROFF_PWRB_IN_POST = 0x16,
	EC_PWROFF_FORCE_IMMEDIATE = 0x18,
	EC_PWROFF_WDT = 0x1b,
	EC_PWROFF_FORCE_THERMAL = 0x22,
	EC_PWROFF_ERR_CODE = 0x23,
	EC_PWROFF_PAID_PWRGD = 0x27,
	EC_PWROFF_PAID_CPU = 0x28,
	EC_PWROFF_PAID_GFX = 0x29,
	EC_PWROFF_PAID_CLK = 0x2a,
	EC_PWROFF_PAID_NOMEMORY = 0x2b,
	EC_PWROFF_PAID_MEMORY_ERR = 0x2c,
	EC_PWROFF_PAID_MEMORY_SPD = 0x2d,
	EC_SWOFF_ACPI = 0x31,
	EC_SWOFF_BOOT_PASSWORD = 0x33,
	EC_SWOFF_DISK_PASSWORD = 0x34,
	EC_SWOFF_POWER_CYCLE = 0x37,
	EC_SWOFF_HARD_RESET = 0x3b,
	EC_SWOFF_FSMI = 0x3f,
	EC_PWRLOG_THERMTRIP = 0x41,
	EC_PWRLOG_NO_S5 = 0x42,
	EC_PWROFF_4S_PWRB = 0x44,
	EC_PWROFF_ASF2_FORCEOFF = 0x45,
	EC_PWROFF_PWRB_THERMAL = 0x48,
	EC_PWROFF_AOAC_TIMER = 0x4b,
	};

	/**
	* wilco_ec_power_off
	*
	* Tell the EC why the host is about to power off.
	*/
	void wilco_ec_power_off(enum ec_power_off_reason reason);

	/**
	* wilco_ec_slp_en
	*
	* Tell the EC that the host is entering a sleep state.
	*/
	void wilco_ec_slp_en(void);

	enum ec_pm1_state {
	EC_PM1_AC_AVAIL = BIT(0), /* AC available */
	EC_PM1_BAT_AVAIL = BIT(1), /* Battery available */
	EC_PM1_LO_BAT1 = BIT(2), /* Battery 1 low */
	EC_PM1_LO_BAT2 = BIT(3), /* Battery 2 low */
	EC_PM1_LID_OPEN = BIT(4), /* Lid is open */
	EC_PM1_LCD_POWER = BIT(5), /* LCD is powered */
	EC_PM1_OVER_TEMP = BIT(6), /* CPU is over temperature */
	EC_PM1_DOCKED = BIT(7), /* System is docked */
	};

	enum ec_pm2_state {
	EC_PM2_SYS_MB_PCIE = BIT(0), /* MB has PCIe */
	EC_PM2_SYS_MB_SATA = BIT(1), /* MB has SATA */
	EC_PM2_PWRB_PRESSED = BIT(2), /* Power button is pressed */
	EC_PM2_TURBO_MODE = BIT(3), /* Turbo mode */
	};

	enum ec_pm3_state {
	EC_PM3_BAT1_PRES = BIT(2), /* Battery 1 is present */
	EC_PM3_BAT2_PRES = BIT(3), /* Battery 2 is present */
	EC_PM3_LOWER_PSTATE = BIT(6), /* EC requests lower P-state */
	EC_PM3_CPU_THROTTLE = BIT(7), /* EC requests CPU throttle */
	};

	enum ec_pm4_state {
	EC_PM4_BAT1_CHG = BIT(0), /* Battery 1 is being charged */
	EC_PM4_BAT2_CHG = BIT(1), /* Battery 2 is being charged */
	EC_PM4_BAT1_PWR = BIT(2), /* Battery 1 is powering the system */
	EC_PM4_BAT2_PWR = BIT(3), /* Battery 2 is powering the system */
	EC_PM4_PANEL_STATE = BIT(5), /* Panel power state */
	};

	enum ec_pm5_state {
	EC_PM5_INT_HD_SATA = BIT(7), /* Internal SATA HDD */
	};

	enum ec_pm6_state {
	EC_PM6_WLAN_SWITCH = BIT(0), /* Wireless switch */
	EC_PM6_SYS_MB_MODEM = BIT(1), /* MB has modem */
	EC_PM6_ETH_STATE = BIT(2), /* Ethernet cable state */
	EC_PM6_AC_UPDATE = BIT(3), /* Update AC information */
	};

	enum ec_pm1_event {
	EC_EV1_PWRB_PRESSED = BIT(0), /* Power button was pressed */
	EC_EV1_HOTKEY_PRESSED = BIT(1), /* Hotkey was pressed */
	EC_EV1_STATE_CHANGED = BIT(2), /* PMx state changed */
	};

	enum ec_pm2_event {
	EC_EV2_ACPI_MONSWITCH = BIT(0), /* Monitor switch status */
	};

	struct ec_pm_event_state {
	uint8_t event[2]; /* ec_pm{1,2}_event */
	uint8_t state[6]; /* ec_pm{1,2,3,4,5,6}_state */
	uint8_t hotkey; /* Hotkey, if pressed */
	uint16_t ac_type; /* AC adapter information */
	};

	/**
	* wilco_ec_get_pm
	*
	* Retrieve power and event information from the EC.
	*
	* @pm: Power event state structure to fill out
	* @clear: Clear EC event state after reading
	*
	* Returns 0 if EC command was successful
	* Returns -1 if EC command failed
	*/
	int wilco_ec_get_pm(struct ec_pm_event_state *pm, bool clear);

	/**
	* wilco_ec_get_lid_state
	*
	* Retrieve the lid state without clearing it in the EC.
	*
	* Returns 1 if the lid is open, 0 if it is closed
	* Returns -1 if the EC command failed
	*/
	int wilco_ec_get_lid_state(void);

	/**
	* wilco_ec_get_board_id
	*
	* Retrieve the board ID value from the EC.
	* @id: Pointer to variable to store the ID read from the EC.
	*
	* Returns number of bytes transferred from the EC
	* Returns -1 if the EC command failed
	*/
	int wilco_ec_get_board_id(uint8_t *id);

	enum ec_wake_change {
	WAKE_OFF = 0,
	WAKE_ON
	};
	/**
	* wilco_ec_change_wake_source
	*
	* Change acpi wake up source.
	* @source: Wake up source that can be enabled/disabled.
	* @ec_wake_change: On/off switch.
	*
	* Returns -1 if the EC command failed
	*/
	int wilco_ec_change_wake(uint8_t source, enum ec_wake_change change);

	enum ec_acpi_wake_events {
	EC_ACPI_WAKE_PWRB = BIT(0), /* Wake up by power button */
	EC_ACPI_WAKE_LID = BIT(1), /* Wake up by lid switch */
	EC_ACPI_WAKE_RTC = BIT(5), /* Wake up by RTC */
	};

	/**
	* wilco_ec_signed_fw
	*
	* Indicate if the EC uses signed firmware.
	*
	* Returns 1 if EC uses signed firmware, otherwise returns 0
	*/
	int wilco_ec_signed_fw(void);

	/**
	* wilco_ec_save_post_code
	*
	* Save this post code as the most recent progress step. If the boot fails
	* and calls die_notify() this post code will be used to send an error code
	* to the EC indicating the failure.
	*
	* @post_code: Post code to save
	*/
	void wilco_ec_save_post_code(uint8_t post_code);

	/**
	* wilco_ec_set_cpuid
	*
	* Set CPU ID to EC.
	*
	* @cpuid: read CPU ID from cpu_eax(1)
	* @cpu_cores: cores of CPU
	* @gpu_cores: cores of GPU
	*
	* Returns 0 if EC command was successful
	* Returns -1 if EC command failed
	*/
	int wilco_ec_set_cpuid(uint32_t cpuid, uint8_t cpu_cores, uint8_t gpu_cores);

	#endif /* EC_GOOGLE_WILCO_COMMANDS_H */