/* * This file is part of the coreboot project. * * Copyright (C) 2017 Google Inc. * * 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; version 2 of the License. * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #define FIZZ_SKU_ID_I7_U42 0x4 #define FIZZ_SKU_ID_I5_U42 0x5 #define FIZZ_SKU_ID_I3_U42 0x6 #define FIZZ_SKU_ID_I7_U22 0x3 #define FIZZ_SKU_ID_I5_U22 0x2 #define FIZZ_SKU_ID_I3_U22 0x1 #define FIZZ_SKU_ID_CEL_U22 0x0 #define FIZZ_PL2_U42 44 #define FIZZ_PL2_U22 29 #define FIZZ_PSYSPL2_U22 65 #define FIZZ_PSYSPL2_U42 90 /* * For type-C chargers, set PL2 to 90% of max power to account for * cable loss and FET Rdson loss in the path from the source. */ #define SET_PSYSPL2(w) (9 * (w) / 10) #define OEM_ID_COUNT 3 #define SKU_ID_COUNT 7 /* List of BJ adapters shipped with Fizz or its variants */ enum bj_adapter { BJ_UNKNOWN, BJ_65W_19V, BJ_90W_19V, BJ_65W_19P5V, BJ_90W_19P5V, BJ_COUNT, }; /* BJ adapter specs */ static const struct { uint16_t current_lim; /* in mA */ uint16_t voltage_lim; /* in mV */ } bj_adapters[] = { [BJ_65W_19V] = { .current_lim = 3420, .voltage_lim = 19000 }, [BJ_90W_19V] = { .current_lim = 4740, .voltage_lim = 19000 }, [BJ_65W_19P5V] = { .current_lim = 3330, .voltage_lim = 19500 }, [BJ_90W_19P5V] = { .current_lim = 4620, .voltage_lim = 19500 }, }; /* * The table showing which device is shipped with which BJ adapter. * * | SKU0 SKU1 ... * OEM0 | AdapterX AdapterZ ... * OEM1 | AdapterY ... * ... | */ static const enum bj_adapter bj_adapter_table[OEM_ID_COUNT][SKU_ID_COUNT] = { { BJ_65W_19P5V, BJ_65W_19P5V, BJ_90W_19P5V, BJ_90W_19P5V, BJ_90W_19P5V, BJ_90W_19P5V, BJ_65W_19P5V }, { BJ_65W_19V, BJ_65W_19V, BJ_UNKNOWN, BJ_UNKNOWN, BJ_90W_19V, BJ_90W_19V, BJ_UNKNOWN }, { BJ_65W_19V, BJ_65W_19V, BJ_90W_19V, BJ_90W_19V, BJ_90W_19V, BJ_90W_19V, BJ_65W_19V }, }; static const char *oem_id = "GOOGLE"; static const char *oem_table_id = "FIZZ"; static uint8_t board_sku_id(void) { static int id = -1; const gpio_t sku_id_gpios[] = { GPIO_SKU_ID0, GPIO_SKU_ID1, GPIO_SKU_ID2, GPIO_SKU_ID3, }; if (id < 0) id = gpio_base2_value(sku_id_gpios, ARRAY_SIZE(sku_id_gpios)); return id; } /* * mainboard_set_power_limits * * Set Pl2 and SysPl2 values based on detected charger. * If detected barrel jack, use values below based on SKU. * +-------------+-----+---------+-----+------+------+ * | sku_id | PL2 | PsysPL2 | PL4 | Pmax | Prop | * +-------------+-----+---------+-----+------+------+ * | i7 U42 | 44 | 81 | 71 | 120 | 48 | * | i5 U42 | 44 | 81 | 71 | 120 | 48 | * | i3 U42 | 44 | 81 | 71 | 120 | 48 | * | i7 U22 | 29 | 58 | 43 | 91 | 48 | * | i5 U22 | 29 | 58 | 43 | 91 | 48 | * | i3 U22 | 29 | 58 | 43 | 91 | 48 | * | celeron U22 | 29 | 58 | 43 | 91 | 48 | * +-------------+-----+---------+-----+------+------+ * For USB C charger: * +-------------+-----+---------+-----+------+------+ * | Max Power(W)| PL2 | PsysPL2 | PL4 | Pmax | Prop | * +-------------+-----+---------+-----+------+------+ * | 60 (U42) | 44 | 54 | 54 | 120 | 48 | * | 60 (U22) | 29 | 54 | 43 | 91 | 48 | * | X (U42) | 44 | .9X | .9X | 120 | 48 | * | X (U22) | 29 | .9X | .9X | 91 | 48 | * +-------------+-----+---------+-----+------+------+ */ static void mainboard_set_power_limits(u32 *pl2_val, u32 *psyspl2_val) { enum usb_chg_type type; u32 watts; u32 pl2, psyspl2; int rv = google_chromeec_get_usb_pd_power_info(&type, &watts); uint8_t sku = board_sku_id(); const uint32_t u42_mask = (1 << FIZZ_SKU_ID_I7_U42) | (1 << FIZZ_SKU_ID_I5_U42) | (1 << FIZZ_SKU_ID_I3_U42); /* PL2 value is sku-based, no matter what charger we are using */ pl2 = FIZZ_PL2_U22; if ((1 << sku) & u42_mask) pl2 = FIZZ_PL2_U42; /* If we can't get charger info or not PD charger, assume barrel jack */ if (rv != 0 || type != USB_CHG_TYPE_PD) { /* using the barrel jack, get PsysPL2 based on sku id */ psyspl2 = FIZZ_PSYSPL2_U22; /* Running a U42 SKU */ if ((1 << sku) & u42_mask) psyspl2 = FIZZ_PSYSPL2_U42; } else { /* Base on max value of adapter */ psyspl2 = watts; } *pl2_val = pl2; /* set psyspl2 to 90% of max adapter power */ *psyspl2_val = SET_PSYSPL2(psyspl2); } static uint8_t board_oem_id(void) { static int id = -1; const gpio_t oem_id_gpios[] = { GPIO_OEM_ID1, GPIO_OEM_ID2, GPIO_OEM_ID3, }; if (id < 0) id = gpio_base2_value(oem_id_gpios, ARRAY_SIZE(oem_id_gpios)); return id; } const char *smbios_mainboard_sku(void) { static char sku_str[5]; /* sku{0..7} */ snprintf(sku_str, sizeof(sku_str), "sku%d", board_oem_id()); return sku_str; } static void mainboard_init(device_t dev) { mainboard_ec_init(); } static unsigned long mainboard_write_acpi_tables( device_t device, unsigned long current, acpi_rsdp_t *rsdp) { uintptr_t start_addr; uintptr_t end_addr; struct nhlt *nhlt; start_addr = current; nhlt = nhlt_init(); if (!nhlt) return start_addr; /* RT5663 Headset codec */ if (nhlt_soc_add_rt5663(nhlt, AUDIO_LINK_SSP1)) printk(BIOS_ERR, "Couldn't add headset codec.\n"); end_addr = nhlt_soc_serialize_oem_overrides(nhlt, start_addr, oem_id, oem_table_id, 0); if (end_addr != start_addr) acpi_add_table(rsdp, (void *)start_addr); return end_addr; } /* * Set max current and voltage for a barrel jack adapter based on {OEM, SKU}. * If this fails, the limit will remain unchanged = default values, which make * the system run under safe but under-rated power. * If a BJ adapter isn't plugged, this is a no-op. */ static void set_bj_adapter_limit(void) { uint8_t oem = board_oem_id(); uint8_t sku = board_sku_id(); enum bj_adapter bj; if (oem >= OEM_ID_COUNT || sku >= SKU_ID_COUNT) { printk(BIOS_ERR, "Unrecognized OEM or SKU: %d/%d\n", oem, sku); return; } bj = bj_adapter_table[oem][sku]; if (bj <= BJ_UNKNOWN || BJ_COUNT <= bj) { printk(BIOS_ERR, "Invalid BJ adapter ID: %d\n", bj); return; } printk(BIOS_INFO, "Setting BJ limit: %dmA/%dmV\n", bj_adapters[bj].current_lim, bj_adapters[bj].voltage_lim); if (google_chromeec_override_dedicated_charger_limit( bj_adapters[bj].current_lim, bj_adapters[bj].voltage_lim)) printk(BIOS_ERR, "Failed to set BJ limit\n"); } static void mainboard_enable(device_t dev) { device_t root = SA_DEV_ROOT; config_t *conf = root->chip_info; mainboard_set_power_limits(&conf->tdp_pl2_override, &conf->tdp_psyspl2); set_bj_adapter_limit(); dev->ops->init = mainboard_init; dev->ops->acpi_inject_dsdt_generator = chromeos_dsdt_generator; dev->ops->write_acpi_tables = mainboard_write_acpi_tables; } struct chip_operations mainboard_ops = { .enable_dev = mainboard_enable, };