/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define PL2_I7_SKU 44 #define PL2_DEFAULT 29 #define PL2_KBL_U 25 /* PL2 ID define*/ #define PL2_ID_DEFAULT 0 #define PL2_ID_SONA_SYNDRA 1 #define PL2_ID_BARD_EKKO 2 static const struct pl2_config { uint32_t cpuid_y0_pl2; uint32_t cpuid_non_y0_pl2; } pl2_config_table[] = { [PL2_ID_DEFAULT] = { PL2_I7_SKU, PL2_DEFAULT }, [PL2_ID_SONA_SYNDRA] = { PL2_DEFAULT, PL2_KBL_U }, [PL2_ID_BARD_EKKO] = { PL2_DEFAULT, PL2_KBL_U }, }; /* Variant for AKALI */ #define AKALI_SA_AC_LOADLINE 1100 #define AKALI_SA_DC_LOADLINE 1028 #define AKALI_IA_AC_LOADLINE 272 #define AKALI_IA_DC_LOADLINE 247 #define AKALI_GT_AC_LOADLINE 314 #define AKALI_GT_DC_LOADLINE 321 /* We only have Akali and Nami default settings so far */ enum project_sku { PRJ_AKALI = 1, }; static const struct { enum project_sku sku; int ac_loadline[NUM_VR_DOMAINS]; int dc_loadline[NUM_VR_DOMAINS]; } sku_overwrite_mapping[] = { { .sku = PRJ_AKALI, .ac_loadline = { AKALI_SA_AC_LOADLINE, AKALI_IA_AC_LOADLINE, AKALI_GT_AC_LOADLINE, AKALI_GT_AC_LOADLINE }, .dc_loadline = { AKALI_SA_DC_LOADLINE, AKALI_IA_DC_LOADLINE, AKALI_GT_DC_LOADLINE, AKALI_GT_DC_LOADLINE } }, }; static uint32_t get_pl2(int pl2_id) { assert(pl2_id < ARRAY_SIZE(pl2_config_table)); if (cpuid_eax(1) == CPUID_KABYLAKE_Y0) return pl2_config_table[pl2_id].cpuid_y0_pl2; return pl2_config_table[pl2_id].cpuid_non_y0_pl2; } uint32_t variant_board_sku(void) { static uint32_t sku_id = SKU_UNKNOWN; uint32_t id; if (sku_id != SKU_UNKNOWN) return sku_id; if (google_chromeec_cbi_get_sku_id(&id)) return SKU_UNKNOWN; sku_id = id; return sku_id; } const char *smbios_system_sku(void) { static char sku_str[14]; /* sku{0..4294967295} */ snprintf(sku_str, sizeof(sku_str), "sku%u", variant_board_sku()); return sku_str; } #define OEM_UNKNOWN 0xff /* * Read OEM ID from EC using cbi commands. * Return value: * Success = OEM ID read from EC * Failure = OEM_UNKNOWN (0xff) */ static uint8_t read_oem_id(void) { static uint8_t oem_id = OEM_UNKNOWN; uint32_t id; if (oem_id != OEM_UNKNOWN) return oem_id; if (google_chromeec_cbi_get_oem_id(&id)) return OEM_UNKNOWN; if (id > OEM_UNKNOWN) { printk(BIOS_ERR, "%s: OEM ID too big %u!\n", __func__, id); return OEM_UNKNOWN; } oem_id = id; printk(BIOS_DEBUG, "%s: OEM ID=%d\n", __func__, oem_id); return oem_id; } /* "oem.bin" in cbfs contains array of records using the following structure. */ struct oem_mapping { uint8_t oem_id; char oem_name[10]; } __packed; /* Local buffer to read "oem.bin" */ static char oem_bin_data[200]; const char *smbios_mainboard_manufacturer(void) { uint8_t oem_id = read_oem_id(); const struct oem_mapping *oem_entry = (void *)&oem_bin_data; size_t oem_data_size; size_t curr = 0; static const char *manuf; if (manuf) return manuf; /* If OEM ID cannot be determined, return default manuf string. */ if (oem_id == OEM_UNKNOWN) return CONFIG_MAINBOARD_SMBIOS_MANUFACTURER; oem_data_size = cbfs_load("oem.bin", oem_bin_data, sizeof(oem_bin_data)); while ((curr < oem_data_size) && ((oem_data_size - curr) >= sizeof(*oem_entry))) { if (oem_id == oem_entry->oem_id) { manuf = oem_entry->oem_name; break; } curr += sizeof(*oem_entry); oem_entry++; } if (manuf == NULL) manuf = CONFIG_MAINBOARD_SMBIOS_MANUFACTURER; return manuf; } const char *smbios_mainboard_product_name(void) { uint32_t sku_id = variant_board_sku(); static char product[12]; switch (sku_id) { case SKU_0_PANTHEON: case SKU_1_PANTHEON: case SKU_2_PANTHEON: case SKU_3_PANTHEON: case SKU_4_PANTHEON: snprintf(product, sizeof(product), "Pantheon"); break; case SKU_0_VAYNE: case SKU_1_VAYNE: case SKU_2_VAYNE: snprintf(product, sizeof(product), "Vayne"); break; case SKU_0_AKALI: case SKU_1_AKALI: snprintf(product, sizeof(product), "Akali"); break; case SKU_0_AKALI360: case SKU_1_AKALI360: snprintf(product, sizeof(product), "Akali360"); break; case SKU_0_BARD: case SKU_1_BARD: case SKU_2_BARD: case SKU_3_BARD: snprintf(product, sizeof(product), "Bard"); break; case SKU_0_EKKO: case SKU_1_EKKO: case SKU_2_EKKO: case SKU_3_EKKO: snprintf(product, sizeof(product), "Ekko"); break; case SKU_0_SONA: case SKU_1_SONA: snprintf(product, sizeof(product), "Sona"); break; case SKU_0_SYNDRA: case SKU_1_SYNDRA: case SKU_2_SYNDRA: case SKU_3_SYNDRA: case SKU_4_SYNDRA: case SKU_5_SYNDRA: case SKU_6_SYNDRA: case SKU_7_SYNDRA: snprintf(product, sizeof(product), "Syndra"); break; default: snprintf(product, sizeof(product), "Nami"); break; } return product; } const char *mainboard_vbt_filename(void) { uint32_t sku_id = variant_board_sku(); switch (sku_id) { case SKU_0_PANTHEON: case SKU_1_PANTHEON: case SKU_2_PANTHEON: case SKU_3_PANTHEON: case SKU_4_PANTHEON: return "vbt-pantheon.bin"; case SKU_0_VAYNE: case SKU_1_VAYNE: case SKU_2_VAYNE: return "vbt-vayne.bin"; case SKU_0_AKALI: case SKU_1_AKALI: case SKU_0_AKALI360: case SKU_1_AKALI360: return "vbt-akali.bin"; case SKU_0_BARD: case SKU_1_BARD: case SKU_2_BARD: case SKU_3_BARD: case SKU_4_BARD: case SKU_5_BARD: case SKU_6_BARD: case SKU_7_BARD: return "vbt-bard.bin"; default: return "vbt.bin"; } } static int find_sku_mapping(const uint8_t oem_id) { /* Check if this OEM ID has a mapping table entry. */ for (int i = 0; i < ARRAY_SIZE(sku_overwrite_mapping); i++) if (oem_id == sku_overwrite_mapping[i].sku) return i; return -1; } /* Override dev tree settings per board */ void variant_devtree_update(void) { uint32_t sku_id = variant_board_sku(); uint32_t i; int oem_index; uint8_t pl2_id = PL2_ID_DEFAULT; struct device *spi_fpmcu = PCH_DEV_GSPI1; config_t *cfg = config_of_soc(); switch (sku_id) { case SKU_0_SONA: case SKU_1_SONA: case SKU_0_SYNDRA: case SKU_1_SYNDRA: case SKU_2_SYNDRA: case SKU_3_SYNDRA: case SKU_4_SYNDRA: case SKU_5_SYNDRA: case SKU_6_SYNDRA: case SKU_7_SYNDRA: pl2_id = PL2_ID_SONA_SYNDRA; __fallthrough; case SKU_0_VAYNE: case SKU_1_VAYNE: case SKU_2_VAYNE: case SKU_0_PANTHEON: case SKU_1_PANTHEON: case SKU_2_PANTHEON: case SKU_3_PANTHEON: case SKU_4_PANTHEON: cfg->usb2_ports[5].enable = 0; spi_fpmcu->enabled = 0; break; case SKU_0_BARD: case SKU_1_BARD: case SKU_2_BARD: case SKU_3_BARD: case SKU_4_BARD: case SKU_5_BARD: case SKU_6_BARD: case SKU_7_BARD: case SKU_0_EKKO: case SKU_1_EKKO: case SKU_2_EKKO: case SKU_3_EKKO: case SKU_4_EKKO: case SKU_5_EKKO: case SKU_6_EKKO: case SKU_7_EKKO: pl2_id = PL2_ID_BARD_EKKO; cfg->usb2_ports[5].enable = 0; cfg->usb2_ports[7].enable = 0; cfg->usb2_ports[8].enable = 0; cfg->usb2_ports[9].enable = 0; break; default: break; } struct soc_power_limits_config *soc_conf; soc_conf = &cfg->power_limits_config; /* Update PL2 based on SKU. */ soc_conf->tdp_pl2_override = get_pl2(pl2_id); /* Overwrite settings for different projects based on OEM ID*/ oem_index = find_sku_mapping(read_oem_id()); /* Return if the OEM ID is not supported or no changes are required */ if (oem_index < 0) return; for (i = 0; i < ARRAY_SIZE(cfg->domain_vr_config); i++) { cfg->domain_vr_config[i].ac_loadline = sku_overwrite_mapping[oem_index].ac_loadline[i]; cfg->domain_vr_config[i].dc_loadline = sku_overwrite_mapping[oem_index].dc_loadline[i]; } } void variant_final(void) { uint32_t sku_id = variant_board_sku(); switch (sku_id) { case SKU_0_BARD: case SKU_1_BARD: case SKU_2_BARD: case SKU_3_BARD: case SKU_4_BARD: case SKU_5_BARD: case SKU_6_BARD: case SKU_7_BARD: case SKU_0_EKKO: case SKU_1_EKKO: case SKU_2_EKKO: case SKU_3_EKKO: case SKU_4_EKKO: case SKU_5_EKKO: case SKU_6_EKKO: case SKU_7_EKKO: /* Enable FPMCU late in the boot process to achieve * ~150ms of power off time in total. */ gpio_output(GPP_B11, 1); /* PCH_FP_PWR_EN */ mdelay(3); gpio_output(GPP_C9, 1); /* FP_RST_ODL */ break; default: break; } }