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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Mailbox EC communication interface for Google Chrome Embedded Controller.
*/
#ifndef _EC_GOOGLE_CHROMEEC_EC_H
#define _EC_GOOGLE_CHROMEEC_EC_H
#include <types.h>
#include <device/device.h>
#include "ec_commands.h"
/* Fill in base and size of the IO port resources used. */
void google_chromeec_ioport_range(uint16_t *base, size_t *size);
int google_chromeec_i2c_xfer(uint8_t chip, uint8_t addr, int alen,
uint8_t *buffer, int len, int is_read);
uint64_t google_chromeec_get_wake_mask(void);
int google_chromeec_set_sci_mask(uint64_t mask);
int google_chromeec_set_smi_mask(uint64_t mask);
int google_chromeec_set_wake_mask(uint64_t mask);
enum host_event_code google_chromeec_get_event(void);
/* Check if EC supports feature EC_FEATURE_UNIFIED_WAKE_MASKS */
bool google_chromeec_is_uhepi_supported(void);
int google_ec_running_ro(void);
enum ec_image google_chromeec_get_current_image(void);
void google_chromeec_init(void);
int google_chromeec_pd_get_amode(uint16_t svid);
/* Check for the current mux state in EC
* in: int port physical port number of the type-c port
* out: uint8_t flags representing the status of the mux such as
* usb capability, dp capability, cable type, etc
*/
int google_chromeec_usb_get_pd_mux_info(int port, uint8_t *flags);
/* Returns data role and type of device connected */
int google_chromeec_usb_pd_control(int port, bool *ufp, bool *dbg_acc,
uint8_t *dp_mode);
int google_chromeec_wait_for_displayport(long timeout);
/* Device events */
uint64_t google_chromeec_get_device_enabled_events(void);
int google_chromeec_set_device_enabled_events(uint64_t mask);
uint64_t google_chromeec_get_device_current_events(void);
int google_chromeec_check_feature(int feature);
uint8_t google_chromeec_calc_checksum(const uint8_t *data, int size);
/**
* google_chromeec_get_board_version() - Get the board version
* @version: Out parameter to retrieve the board Version
*
* Return: 0 on success or -1 on failure/error.
*
* This function is used to get the board version information from EC.
*/
int google_chromeec_get_board_version(uint32_t *version);
uint32_t google_chromeec_get_sku_id(void);
int google_chromeec_set_sku_id(uint32_t skuid);
uint64_t google_chromeec_get_events_b(void);
int google_chromeec_clear_events_b(uint64_t mask);
int google_chromeec_kbbacklight(int percent);
void google_chromeec_post(uint8_t postcode);
int google_chromeec_vbnv_context(int is_read, uint8_t *data, int len);
uint8_t google_chromeec_get_switches(void);
bool google_chromeec_get_ap_watchdog_flag(void);
/* Temporary secure storage commands */
int google_chromeec_vstore_supported(void);
int google_chromeec_vstore_info(uint32_t *locked);
int google_chromeec_vstore_read(int slot, uint8_t *data);
int google_chromeec_vstore_write(int slot, uint8_t *data, size_t size);
/* Issue reboot command to EC with specified type and flags. Returns 0 on
success, < 0 otherwise. */
int google_chromeec_reboot(int dev_idx, enum ec_reboot_cmd type, uint8_t flags);
/**
* Get data from Cros Board Info
*
* @param id/fw_config/buf [OUT] value from CBI.
* @return 0 on success or negative integer for errors.
*/
int google_chromeec_cbi_get_oem_id(uint32_t *id);
int google_chromeec_cbi_get_sku_id(uint32_t *id);
int google_chromeec_cbi_get_fw_config(uint64_t *fw_config);
int google_chromeec_cbi_get_dram_part_num(char *buf, size_t bufsize);
int google_chromeec_cbi_get_oem_name(char *buf, size_t bufsize);
/* version may be stored in CBI as a smaller integer width, but the EC code
handles it correctly. */
int google_chromeec_cbi_get_board_version(uint32_t *version);
int google_chromeec_cbi_get_ssfc(uint32_t *ssfc);
#define CROS_SKU_UNKNOWN 0xFFFFFFFF
#define CROS_SKU_UNPROVISIONED 0x7FFFFFFF
/* Returns CROS_SKU_UNKNOWN on failure. */
uint32_t google_chromeec_get_board_sku(void);
const char *google_chromeec_smbios_system_sku(void);
/* MEC uses 0x800/0x804 as register/index pair, thus an 8-byte resource. */
#define MEC_EMI_BASE 0x800
#define MEC_EMI_SIZE 8
/* For MEC, access ranges 0x800 thru 0x9ff using EMI interface instead of LPC */
#define MEC_EMI_RANGE_START EC_HOST_CMD_REGION0
#define MEC_EMI_RANGE_END (EC_LPC_ADDR_MEMMAP + EC_MEMMAP_SIZE)
int google_chromeec_set_usb_charge_mode(uint8_t port_id, enum usb_charge_mode mode);
int google_chromeec_set_usb_pd_role(uint8_t port, enum usb_pd_control_role role);
/*
* Retrieve the charger type and max wattage.
*
* @param type charger type
* @param current_max charger max current
* @param voltage_max charger max voltage
* @return non-zero for error, otherwise 0.
*/
int google_chromeec_get_usb_pd_power_info(enum usb_chg_type *type,
uint16_t *current_max, uint16_t *voltage_max);
/*
* Set max current and voltage of a dedicated charger.
*
* @param current_lim Max current in mA
* @param voltage_lim Max voltage in mV
* @return non-zero for error, otherwise 0.
*/
int google_chromeec_override_dedicated_charger_limit(uint16_t current_lim,
uint16_t voltage_lim);
/* internal structure to send a command to the EC and wait for response. */
struct chromeec_command {
uint16_t cmd_code; /* command code in, status out */
uint8_t cmd_version; /* command version */
const void* cmd_data_in; /* command data, if any */
void* cmd_data_out; /* command response, if any */
uint16_t cmd_size_in; /* size of command data */
uint16_t cmd_size_out; /* expected size of command response in,
* actual received size out */
int cmd_dev_index;/* device index for passthru */
};
/*
* There are transport level constraints for sending protov3 packets. Because
* of this provide a way for the generic protocol layer to request buffers
* so that there is zero copying being done through the layers.
*
* Request the buffer provided the size. If 'req' is non-zero then the
* buffer requested is for EC requests. Otherwise it's for responses. Return
* non-NULL on success, NULL on error.
*/
void *crosec_get_buffer(size_t size, int req);
/*
* The lower level transport works on the buffers handed out to the
* upper level. Therefore, only the size of the request and response
* are required.
*/
typedef int (*crosec_io_t)(size_t req_size, size_t resp_size, void *context);
int crosec_command_proto(struct chromeec_command *cec_command,
crosec_io_t crosec_io, void *context);
/**
* Performs light verification of the EC<->AP communication channel.
*
* @return 0 on success, -1 on error
*/
int google_chromeec_hello(void);
/**
* Send a command to a CrOS EC
*
* @param cec_command: CrOS EC command to send
* @return 0 for success. Non-zero for error.
*/
int google_chromeec_command(struct chromeec_command *cec_command);
struct google_chromeec_event_info {
uint64_t log_events;
uint64_t sci_events;
uint64_t smi_events;
uint64_t s3_wake_events;
uint64_t s3_device_events;
uint64_t s5_wake_events;
uint64_t s0ix_wake_events;
};
void google_chromeec_events_init(const struct google_chromeec_event_info *info,
bool is_s3_wakeup);
/*
* Get next available MKBP event in ec_response_get_next_event. Returns 0 on
* success, < 0 otherwise.
*/
int google_chromeec_get_mkbp_event(struct ec_response_get_next_event *event);
/* Log host events to eventlog based on the mask provided. */
void google_chromeec_log_events(uint64_t mask);
/**
* Protect/un-protect EC flash regions.
*
* @param mask Set/clear the requested bits in 'flags'
* @param flags Flash protection flags
* @param resp Pointer to response structure
* @return 0 on success, -1 on error
*/
int google_chromeec_flash_protect(uint32_t mask, uint32_t flags,
struct ec_response_flash_protect *resp);
/**
* Calculate image hash for vboot.
*
* @param hash_type The hash types supported by the EC for vboot
* @param offset The offset to start hashing in flash
* @param resp Pointer to response structure
* @return 0 on success, -1 on error
*/
int google_chromeec_start_vboot_hash(enum ec_vboot_hash_type hash_type,
uint32_t offset,
struct ec_response_vboot_hash *resp);
/**
* Return the EC's vboot image hash.
*
* @param offset Get hash for flash region beginning here
* @param resp Pointer to response structure
* @return 0 on success, -1 on error
*
*/
int google_chromeec_get_vboot_hash(uint32_t offset,
struct ec_response_vboot_hash *resp);
/**
* Get offset and size of the specified EC flash region.
*
* @param region Which region of EC flash
* @param offset Gets filled with region's offset
* @param size Gets filled with region's size
* @return 0 on success, -1 on error
*/
int google_chromeec_flash_region_info(enum ec_flash_region region,
uint32_t *offset, uint32_t *size);
/**
* Erase a region of EC flash.
*
* @param offset Where to begin erasing
* @param size Size of area to erase
* @return 0 on success, -1 on error
*/
int google_chromeec_flash_erase(uint32_t region_offset, uint32_t region_size);
/**
* Return information about the entire flash.
*
* @param info Pointer to response structure
* @return 0 on success, -1 on error
*/
int google_chromeec_flash_info(struct ec_response_flash_info *info);
/**
* Write a block into EC flash.
*
* @param data Pointer to data to write to flash, prefixed by a
* struct ec_params_flash_write
* @param offset Offset to begin writing data
* @param size Number of bytes to be written to flash from data
* @return 0 on success, -1 on error
*/
int google_chromeec_flash_write_block(const uint8_t *data, uint32_t size);
/**
* Verify flash using EFS if available.
*
* @param region Which flash region to verify
* @return 0 on success, -1 on error
*/
int google_chromeec_efs_verify(enum ec_flash_region region);
/**
* Command EC to perform battery cutoff.
*
* @param flags Flags to pass to the EC
* @return 0 on success, -1 on error
*/
int google_chromeec_battery_cutoff(uint8_t flags);
/**
* Check if the EC is requesting the system to limit input power.
*
* @param limit_power If successful, limit_power is 1 if EC is requesting
* input power limits, otherwise 0.
* @return 0 on success, -1 on error
*/
int google_chromeec_read_limit_power_request(int *limit_power);
/**
* Get information about the protocol that the EC speaks.
*
* @param resp Filled with host command protocol information.
* @return 0 on success, -1 on error
*/
int google_chromeec_get_protocol_info(
struct ec_response_get_protocol_info *resp);
/**
* Get available versions of the specified command.
*
* @param command Command ID
* @param pmask Pointer to version mask
* @return 0 on success, -1 on error
*/
int google_chromeec_get_cmd_versions(int command, uint32_t *pmask);
/**
* Get number of PD-capable USB ports from EC.
*
* @param *num_ports If successful, num_ports is the number
* of PD-capable USB ports according to the EC.
* @return 0 on success, -1 on error
*/
int google_chromeec_get_num_pd_ports(unsigned int *num_ports);
/* Structure representing the capabilities of a USB-PD port */
struct usb_pd_port_caps {
enum ec_pd_power_role_caps power_role_cap;
enum ec_pd_try_power_role_caps try_power_role_cap;
enum ec_pd_data_role_caps data_role_cap;
enum ec_pd_port_location port_location;
};
/**
* Get role-based capabilities for a USB-PD port
*
* @param port Which port to get information about
* @param *power_role_cap The power-role capability of the port
* @param *try_power_role_cap The Try-power-role capability of the port
* @param *data_role_cap The data role capability of the port
* @param *port_location Location of the port on the device
* @return 0 on success, -1 on error
*/
int google_chromeec_get_pd_port_caps(int port,
struct usb_pd_port_caps *port_caps);
/**
* Get the keyboard configuration / layout information from EC
*
* @param *keybd If successful, this is filled with EC filled parameters
* @return 0 on success, -1 on error
*/
int google_chromeec_get_keybd_config(struct ec_response_keybd_config *keybd);
/**
* Send EC command to perform AP reset
*
* @return 0 on success, -1 on error
*/
int google_chromeec_ap_reset(void);
/**
* Configure the regulator as enabled / disabled.
*
* @param index Regulator ID
* @param enable Set to enable / disable the regulator
* @return 0 on success, -1 on error
*/
int google_chromeec_regulator_enable(uint32_t index, uint8_t enable);
/**
* Query if the regulator is enabled.
*
* @param index Regulator ID
* @param *enabled If successful, enabled indicates enable/disable status.
* @return 0 on success, -1 on error
*/
int google_chromeec_regulator_is_enabled(uint32_t index, uint8_t *enabled);
/**
* Set voltage for the voltage regulator within the range specified.
*
* @param index Regulator ID
* @param min_mv Minimum voltage
* @param max_mv Maximum voltage
* @return 0 on success, -1 on error
*/
int google_chromeec_regulator_set_voltage(uint32_t index, uint32_t min_mv,
uint32_t max_mv);
/**
* Get the currently configured voltage for the voltage regulator.
*
* @param index Regulator ID
* @param *voltage_mv If successful, voltage_mv is filled with current voltage
* @return 0 on success, -1 on error
*/
int google_chromeec_regulator_get_voltage(uint32_t index, uint32_t *voltage_mv);
#if CONFIG(HAVE_ACPI_TABLES)
/**
* Writes USB Type-C PD related information to the SSDT
*
* @param dev EC device
*/
void google_chromeec_fill_ssdt_generator(const struct device *dev);
/**
* Returns the ACPI name for the EC device.
*
* @param dev EC device
*/
const char *google_chromeec_acpi_name(const struct device *dev);
#endif /* HAVE_ACPI_TABLES */
#endif /* _EC_GOOGLE_CHROMEEC_EC_H */
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