/* * (C) Copyright 2018-2020 * Allwinner Technology Co., Ltd. * wangwei * axp809 */ #include #include #include #define PMU_IC_TYPY_REG (0x3) #define VDD_SYS_VOL (920) #define VOL_ON (1) static axp_contrl_info axp_ctrl_tbl[] = { { "dcdc2", 600, 1540, BOOT_POWER809_DC2OUT_VOL, 0x3f, BOOT_POWER809_OUTPUT_CTL1, 2, 0, { {600, 1540, 20}, } }, { "dcdc3", 600, 1860, BOOT_POWER809_DC3OUT_VOL, 0x3f, BOOT_POWER809_OUTPUT_CTL1, 3, 0, { {600, 1860, 20}, } }, { "dcdc5", 1000, 2550, BOOT_POWER809_DC5OUT_VOL, 0x1f, BOOT_POWER809_OUTPUT_CTL1, 5, 0, { {1000, 2550, 50}, } }, { "aldo3", 700, 3300, BOOT_POWER809_ALDO3OUT_VOL, 0x1f, BOOT_POWER809_OUTPUT_CTL2, 5, 0, { {1000, 2550, 100}, } }, }; #define PMU_POWER_KEY_STATUS BOOT_POWER809_INTSTS5 #define PMU_POWER_KEY_OFFSET 0x3 static axp_contrl_info *get_ctrl_info_from_tbl(char *name) { int i = 0; int size = ARRAY_SIZE(axp_ctrl_tbl); for (i = 0; i < size; i++) { if (!strncmp(name, axp_ctrl_tbl[i].name, strlen(axp_ctrl_tbl[i].name))) { break; } } if (i >= size) { return NULL; } return axp_ctrl_tbl + i; } static int pmu_set_vol(char *name, int set_vol, int onoff) { u8 reg_value, i; axp_contrl_info *p_item = NULL; u8 base_step = 0; p_item = get_ctrl_info_from_tbl(name); if (!p_item) { return -1; } if ((set_vol > 0) && (p_item->min_vol)) { if (set_vol < p_item->min_vol) { set_vol = p_item->min_vol; } else if (set_vol > p_item->max_vol) { set_vol = p_item->max_vol; } if (pmic_bus_read(AXP809_RUNTIME_ADDR, p_item->cfg_reg_addr, ®_value)) { return -1; } reg_value &= ~p_item->cfg_reg_mask; for (i = 0; p_item->axp_step_tbl[i].step_max_vol != 0; i++) { if ((set_vol > p_item->axp_step_tbl[i].step_max_vol) && (set_vol < p_item->axp_step_tbl[i+1].step_min_vol)) { set_vol = p_item->axp_step_tbl[i].step_max_vol; } if (p_item->axp_step_tbl[i].step_max_vol >= set_vol) { reg_value |= ((base_step + ((set_vol - p_item->axp_step_tbl[i].step_min_vol)/ p_item->axp_step_tbl[i].step_val)) << p_item->reg_addr_offest); if (p_item->axp_step_tbl[i].regation) { u8 reg_value_temp = (~reg_value & p_item->cfg_reg_mask); reg_value &= ~p_item->cfg_reg_mask; reg_value |= reg_value_temp; } break; } else { base_step += ((p_item->axp_step_tbl[i].step_max_vol - p_item->axp_step_tbl[i].step_min_vol + p_item->axp_step_tbl[i].step_val) / p_item->axp_step_tbl[i].step_val); } } if (pmic_bus_write(AXP809_RUNTIME_ADDR, p_item->cfg_reg_addr, reg_value)) { return -1; } } if (onoff < 0) { return 0; } if (pmic_bus_read(AXP809_RUNTIME_ADDR, p_item->ctrl_reg_addr, ®_value)) { return -1; } if (onoff == 0) { reg_value &= ~(1 << p_item->ctrl_bit_ofs); } else { reg_value |= (1 << p_item->ctrl_bit_ofs); } if (pmic_bus_write(AXP809_RUNTIME_ADDR, p_item->ctrl_reg_addr, reg_value)) { return -1; } return 0; } int axp809_probe_power_key(void) { u8 reg_value; if (pmic_bus_read(AXP809_RUNTIME_ADDR, PMU_POWER_KEY_STATUS, ®_value)) { return -1; } /* POKLIRQ,POKSIRQ */ reg_value &= (0x03 << PMU_POWER_KEY_OFFSET); if (reg_value) { if (pmic_bus_write(AXP809_RUNTIME_ADDR, PMU_POWER_KEY_STATUS, reg_value)) { return -1; } } return (reg_value >> PMU_POWER_KEY_OFFSET) & 3; } int axp809_set_ddr_voltage(int set_vol) { return pmu_set_vol("dcdc5", set_vol, 1); } int axp809_set_pll_voltage(int set_vol) { return pmu_set_vol("dcdc2", set_vol, 1); } int axp809_set_efuse_voltage(int set_vol) { return pmu_set_vol("aldo3", set_vol, 1); } int axp809_set_sys_voltage(int set_vol, int onoff) { return pmu_set_vol("dcdc3", set_vol, onoff); } int axp809_reg_read(u8 addr, u8 *val) { return pmic_bus_read(AXP809_RUNTIME_ADDR, addr, val); } int axp809_reg_write(u8 addr, u8 val) { return pmic_bus_write(AXP809_RUNTIME_ADDR, addr, val); } int axp809_axp_init(u8 power_mode) { u8 pmu_type; if (pmic_bus_init(AXP809_DEVICE_ADDR, AXP809_RUNTIME_ADDR)) { pmu_err("bus init error\n"); return -1; } if (pmic_bus_read(AXP809_RUNTIME_ADDR, PMU_IC_TYPY_REG, &pmu_type)) { pmu_err("bus read error\n"); return -1; } pmu_type &= 0xCF; if (pmu_type == 0x42) { /* pmu type AXP809 */ printf("PMU: AXP809\n"); axp809_set_sys_voltage(VDD_SYS_VOL, VOL_ON); return AXP809_CHIP_ID; } printf("unknow PMU\n"); return -1; }