/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include "ec.h" #define BIRMAN_EC_CMD 0x666 #define BIRMAN_EC_DATA 0x662 #define EC_GPIO_1_ADDR 0xA1 #define EC1_EVAL_PWREN BIT(1) #define EC_GPIO_2_ADDR 0xA2 #define EC2_EVAL_SLOT_PWREN BIT(5) #define EC2_EVAL_19V_EN BIT(2) #define EC_GPIO_3_ADDR 0xA3 #define EC3_WLAN_RST_AUX BIT(5) #define EC3_WWAN_RST_AUX BIT(4) #define EC3_SD_RST_AUX BIT(3) #define EC3_DT_RST_AUX BIT(2) #define EC3_LOM_RST_AUX BIT(1) #define EC3_EVAL_RST_AUX BIT(0) #define EC_GPIO_7_ADDR 0xA7 #define EC7_WWAN_PWR_OFF_N BIT(7) #define EC7_BT_RADIO_DIS BIT(2) #define EC7_WL_RADIO_DIS BIT(0) #define EC_GPIO_8_ADDR 0xA8 #define EC8_ADAPTER_OFF BIT(5) #define EC8_EVAL_SMBUS1_N_SW BIT(3) #define EC8_MP2_SEL BIT(2) #define EC8_DT_N_SSD1_SW BIT(1) #define EC_GPIO_9_ADDR 0xA9 #define EC9_CAM0_PWR_EN BIT(7) #define EC9_CAM1_PWR_EN BIT(6) #define EC9_WWAN_RST BIT(5) #define EC9_DT_PWREN BIT(2) #define EC9_TPM_PWR_EN BIT(1) #define EC9_TPM_S0I3_N BIT(0) #define EC_GPIO_A_ADDR 0xAA #define ECA_MUX2_S0 BIT(7) #define ECA_MUX2_S1 BIT(6) #define ECA_MUX1_S0 BIT(5) #define ECA_MUX1_S1 BIT(4) #define ECA_MUX0_S0 BIT(3) #define ECA_MUX0_S1 BIT(2) #define ECA_SMBUS1_EN BIT(1) #define ECA_SMBUS0_EN BIT(0) #define EC_GPIO_C_ADDR 0xAC #define ECC_TPNL_BUF_EN BIT(6) #define ECC_TPAD_BUF_EN BIT(5) #define ECC_NFC_BUF_EN BIT(4) #define EC_GPIO_D_ADDR 0xAD #define ECD_TPNL_PWR_EN BIT(7) #define ECD_TPNL_EN BIT(6) #define ECD_SSD1_PWR_EN BIT(5) #define ECD_FPR_PWR_EN BIT(3) #define ECD_FPR_OFF_N BIT(2) #define ECD_FPR_LOCK_N BIT(1) #define ECD_TPAD_DISABLE_N BIT(0) #define EC_GPIO_E_ADDR 0xAE #define ECE_LOM_PWR_EN BIT(7) #define ECE_SSD0_PWR_EN BIT(6) #define ECE_SD_PWR_EN BIT(5) #define ECE_WLAN_PWR_EN BIT(4) #define ECE_WWAN_PWR_EN BIT(3) #define ECE_CAM_PWR_EN BIT(2) #define ECE_FPR_N_GBE_SEL BIT(1) #define ECE_BT_N_TPNL_SEL BIT(0) #define EC_GPIO_F_ADDR 0xAF #define ECF_CAM_FW_WP_N BIT(7) #define ECF_I2C_MUX_OE_N BIT(4) #define ECF_WLAN0_N_WWAN1_SW BIT(1) #define ECF_WWAN0_N_WLAN1_SW BIT(0) #define EC_GPIO_G_ADDR 0xB0 #define ECG_IR_LED_PWR_EN BIT(7) #define ECG_U0_WLAN_HDR_SEL BIT(6) #define ECG_DT_SSD1_MUX_OFF BIT(5) #define ECG_WLAN_WWAN_MUX_OFF BIT(4) static void configure_ec_gpio(void) { uint8_t tmp; tmp = ec_read(EC_GPIO_1_ADDR); if (CONFIG(ENABLE_EVAL_CARD)) { tmp |= EC1_EVAL_PWREN; } else { tmp &= ~EC1_EVAL_PWREN; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_1_ADDR, tmp); ec_write(EC_GPIO_1_ADDR, tmp); tmp = ec_read(EC_GPIO_2_ADDR); if (CONFIG(ENABLE_EVAL_CARD)) { tmp |= EC2_EVAL_SLOT_PWREN; if (CONFIG(ENABLE_EVAL_19V)) { tmp |= EC2_EVAL_19V_EN; } else { tmp &= ~EC2_EVAL_19V_EN; } } else { tmp &= ~EC2_EVAL_SLOT_PWREN; tmp &= ~EC2_EVAL_19V_EN; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_2_ADDR, tmp); ec_write(EC_GPIO_2_ADDR, tmp); tmp = ec_read(EC_GPIO_3_ADDR); tmp |= EC3_WLAN_RST_AUX | EC3_WWAN_RST_AUX | EC3_SD_RST_AUX; tmp |= EC3_DT_RST_AUX | EC3_LOM_RST_AUX | EC3_EVAL_RST_AUX; printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_3_ADDR, tmp); ec_write(EC_GPIO_3_ADDR, tmp); tmp = ec_read(EC_GPIO_7_ADDR); tmp &= ~EC7_BT_RADIO_DIS; tmp &= ~EC7_WL_RADIO_DIS; tmp |= EC7_WWAN_PWR_OFF_N; printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_7_ADDR, tmp); ec_write(EC_GPIO_7_ADDR, tmp); tmp = ec_read(EC_GPIO_8_ADDR); if (CONFIG(ENABLE_M2_SSD1)) { tmp |= EC8_DT_N_SSD1_SW; } else { tmp &= ~EC8_DT_N_SSD1_SW; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_8_ADDR, tmp); ec_write(EC_GPIO_8_ADDR, tmp); tmp = ec_read(EC_GPIO_9_ADDR); tmp |= EC9_CAM0_PWR_EN | EC9_CAM1_PWR_EN | EC9_WWAN_RST | EC9_TPM_PWR_EN; if (CONFIG(ENABLE_DT_SLOT)) { tmp |= EC9_DT_PWREN; } else { tmp &= ~EC9_DT_PWREN; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_9_ADDR, tmp); ec_write(EC_GPIO_9_ADDR, tmp); tmp = ECA_MUX1_S0 | ECA_SMBUS1_EN | ECA_SMBUS0_EN; printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_A_ADDR, tmp); ec_write(EC_GPIO_A_ADDR, tmp); tmp = ec_read(EC_GPIO_C_ADDR); tmp |= ECC_TPNL_BUF_EN | ECC_TPAD_BUF_EN | ECC_NFC_BUF_EN; printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_C_ADDR, tmp); ec_write(EC_GPIO_C_ADDR, tmp); tmp = ec_read(EC_GPIO_D_ADDR); tmp |= ECD_TPNL_PWR_EN | ECD_TPNL_EN | ECD_TPAD_DISABLE_N; if (CONFIG(ENABLE_M2_SSD1)) { tmp |= ECD_SSD1_PWR_EN; } else { tmp &= ~ECD_SSD1_PWR_EN; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_D_ADDR, tmp); ec_write(EC_GPIO_D_ADDR, tmp); tmp = ec_read(EC_GPIO_E_ADDR); tmp |= ECE_LOM_PWR_EN | ECE_SSD0_PWR_EN | ECE_SD_PWR_EN; tmp |= ECE_CAM_PWR_EN | ECE_FPR_N_GBE_SEL; tmp &= ~ECE_BT_N_TPNL_SEL; if (CONFIG(WLAN01)) { // no WWAN, turn off WWAN power tmp &= ~ECE_WWAN_PWR_EN; } else { tmp |= ECE_WWAN_PWR_EN; } if (CONFIG(WWAN01)) { // no WLAN, turn off WLAN power tmp &= ~ECE_WLAN_PWR_EN; } else { tmp |= ECE_WLAN_PWR_EN; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_E_ADDR, tmp); ec_write(EC_GPIO_E_ADDR, tmp); tmp = ec_read(EC_GPIO_F_ADDR); if (CONFIG(WLAN01)) { tmp |= ECF_WWAN0_N_WLAN1_SW; } else { tmp &= ~ECF_WWAN0_N_WLAN1_SW; } if (CONFIG(WWAN01)) { tmp |= ECF_WLAN0_N_WWAN1_SW; } else { tmp &= ~ECF_WLAN0_N_WWAN1_SW; } printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_F_ADDR, tmp); ec_write(EC_GPIO_F_ADDR, tmp); tmp = ec_read(EC_GPIO_G_ADDR); tmp &= ~ECG_DT_SSD1_MUX_OFF; tmp &= ~ECG_WLAN_WWAN_MUX_OFF; tmp |= ECG_IR_LED_PWR_EN | ECG_U0_WLAN_HDR_SEL; printk(BIOS_SPEW, "Write reg [0x%02x] = 0x%02x\n", EC_GPIO_G_ADDR, tmp); ec_write(EC_GPIO_G_ADDR, tmp); } void birman_ec_init(void) { ec_set_ports(BIRMAN_EC_CMD, BIRMAN_EC_DATA); configure_ec_gpio(); }