/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include "ec.h" #include "commands.h" int wilco_ec_get_info(enum get_ec_info_cmd type, char *info) { struct ec_response_get_ec_info rsp; if (!info) return -1; if (wilco_ec_sendrecv(KB_EC_INFO, type, &rsp, sizeof(rsp)) < 0) return -1; /* Copy returned string */ strncpy(info, rsp.data, sizeof(rsp.data)); return 0; } void wilco_ec_print_all_info(void) { char info[EC_INFO_MAX_SIZE]; if (!wilco_ec_get_info(GET_EC_LABEL, info)) printk(BIOS_INFO, "EC Label : %s\n", info); if (!wilco_ec_get_info(GET_EC_SVN_REV, info)) printk(BIOS_INFO, "EC Revision : %s\n", info); if (!wilco_ec_get_info(GET_EC_MODEL_NO, info)) printk(BIOS_INFO, "EC Model Num : %s\n", info); if (!wilco_ec_get_info(GET_EC_BUILD_DATE, info)) printk(BIOS_INFO, "EC Build Date : %s\n", info); } static int wilco_ec_get_power_smi(struct ec_pm_event_state *pm) { struct ec_response_power_smi { uint8_t pm_event_1; uint8_t pm_state_1; uint8_t hotkey; uint8_t pm_state_2; uint8_t pm_state_3; uint8_t pm_state_4; uint8_t pm_state_5; uint8_t pm_event_2; uint8_t pm_state_6; } __packed rsp; if (!pm) return -1; if (wilco_ec_sendrecv_noargs(KB_POWER_SMI, &rsp, sizeof(rsp)) < 0) return -1; pm->event[0] = rsp.pm_event_1; pm->event[1] = rsp.pm_event_2; pm->state[0] = rsp.pm_state_1; pm->state[1] = rsp.pm_state_2; pm->state[2] = rsp.pm_state_3; pm->state[3] = rsp.pm_state_4; pm->state[4] = rsp.pm_state_5; pm->state[5] = rsp.pm_state_6; pm->hotkey = rsp.hotkey; return 0; } static int wilco_ec_get_power_status(struct ec_pm_event_state *pm) { struct ec_response_power_status { uint8_t pm_state_1; uint8_t pm_state_2; uint8_t pm_state_3; uint8_t pm_state_4; uint8_t pm_state_5; uint8_t ac_type_lsb; uint8_t pm_state_6; uint8_t pm_event_2; uint8_t ac_type_msb; } __packed rsp; if (!pm) return -1; if (wilco_ec_sendrecv_noargs(KB_POWER_STATUS, &rsp, sizeof(rsp)) < 0) return -1; pm->hotkey = 0; pm->event[0] = 0; pm->event[1] = rsp.pm_event_2; pm->state[0] = rsp.pm_state_1; pm->state[1] = rsp.pm_state_2; pm->state[2] = rsp.pm_state_3; pm->state[3] = rsp.pm_state_4; pm->state[4] = rsp.pm_state_5; pm->state[5] = rsp.pm_state_6; pm->ac_type = rsp.ac_type_msb << 8 | rsp.ac_type_lsb; return 0; } int wilco_ec_get_pm(struct ec_pm_event_state *pm, bool clear) { if (clear) return wilco_ec_get_power_smi(pm); else return wilco_ec_get_power_status(pm); } int wilco_ec_get_lid_state(void) { struct ec_pm_event_state pm; if (wilco_ec_get_power_status(&pm) < 0) return -1; return !!(pm.state[0] & EC_PM1_LID_OPEN); } int wilco_ec_get_board_id(uint8_t *id) { return wilco_ec_mailbox(WILCO_EC_MSG_RAW, KB_BOARD_ID, NULL, 0, id, sizeof(*id)); } void wilco_ec_slp_en(void) { /* EC does not respond to this command */ if (wilco_ec_mailbox(WILCO_EC_MSG_NO_RESPONSE, KB_SLP_EN, NULL, 0, NULL, 0) < 0) printk(BIOS_ERR, "%s: command failed\n", __func__); } void wilco_ec_power_off(enum ec_power_off_reason reason) { /* EC does not respond to this command */ if (wilco_ec_mailbox(WILCO_EC_MSG_NO_RESPONSE, KB_POWER_OFF, &reason, 1, NULL, 0) < 0) printk(BIOS_ERR, "%s: command failed\n", __func__); } int wilco_ec_radio_control(enum ec_radio radio, uint8_t state) { uint8_t radio_control[3] = { radio, RADIO_WRITE, state }; return wilco_ec_mailbox(WILCO_EC_MSG_DEFAULT, KB_RADIO_CONTROL, radio_control, ARRAY_SIZE(radio_control), NULL, 0); } int wilco_ec_change_wake(uint8_t source, enum ec_wake_change change) { uint8_t wake_source[3] = { change, source }; return wilco_ec_mailbox(WILCO_EC_MSG_DEFAULT, KB_ACPI_WAKEUP_CHANGE, wake_source, ARRAY_SIZE(wake_source), NULL, 0); } int wilco_ec_signed_fw(void) { ec_set_ports(CONFIG_EC_BASE_ACPI_COMMAND, CONFIG_EC_BASE_ACPI_DATA); return !!ec_read(EC_RAM_SIGNED_FW); } struct err_code_entry { uint8_t post_code; enum ec_err_code ec_err; }; /* * Any post codes not listed in the post_code_err_map[] use default. */ static const enum ec_err_code default_ec_err = DLED_ROM; static const struct err_code_entry post_code_err_map[] = { { .post_code = POST_RAM_FAILURE, .ec_err = DLED_MEMORY, }, { .post_code = POST_VIDEO_FAILURE, .ec_err = DLED_PANEL, }, }; /* Records the most recent post code during boot */ static uint8_t wilco_ec_saved_post_code; void wilco_ec_save_post_code(uint8_t post_code) { wilco_ec_saved_post_code = post_code; } /* Send error code to the EC based on last saved post code */ void die_notify(void) { size_t i; enum ec_err_code err_code = default_ec_err; for (i = 0; i < ARRAY_SIZE(post_code_err_map); i++) { if (post_code_err_map[i].post_code == wilco_ec_saved_post_code) { err_code = post_code_err_map[i].ec_err; break; } } printk(BIOS_EMERG, "Fatal error: post_code 0x%02x, EC err 0x%02x\n", wilco_ec_saved_post_code, err_code); wilco_ec_mailbox(WILCO_EC_MSG_DEFAULT, KB_ERR_CODE, &err_code, 1, NULL, 0); } /* * EC CPU ID data struct * MBOX[2] = 0xFF * MBOX[3] = CPUID_Low * MBOX[4] = CPUID_Mid * MBOX[5] = CPUID_High * MBOX[6] = CPU_Core * MBOX[7] = GPU_Core * MBOX[8] = Reserved */ int wilco_ec_set_cpuid(uint32_t cpuid, uint8_t cpu_cores, uint8_t gpu_cores) { uint8_t cpu_id[7] = {0}, i; cpu_id[0] = 0xff; for (i = 1; i < 4; i++) { cpu_id[i] = cpuid & 0xff; cpuid = cpuid >> 8; } cpu_id[4] = cpu_cores; cpu_id[5] = gpu_cores; return wilco_ec_mailbox(WILCO_EC_MSG_DEFAULT, KB_CPU_ID, cpu_id, ARRAY_SIZE(cpu_id), NULL, 0); }