/*
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* Copyright (C) 2019 Allwinner.
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* weidonghui <weidonghui@allwinnertech.com>
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*
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* SUNXI AXP21 Driver
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <sunxi_power/pmu_axp1530.h>
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#include <sunxi_power/axp.h>
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#include <asm/arch/pmic_bus.h>
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/*#include <power/sunxi/pmu.h>*/
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#ifdef PMU_DEBUG
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#define axp_info(fmt...) tick_printf("[axp][info]: " fmt)
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#define axp_err(fmt...) tick_printf("[axp][err]: " fmt)
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#else
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#define axp_info(fmt...)
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#define axp_err(fmt...) tick_printf("[axp][err]: " fmt)
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#endif
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typedef struct _axp_contrl_info {
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char name[16];
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u32 min_vol;
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u32 max_vol;
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u32 cfg_reg_addr;
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u32 cfg_reg_mask;
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u32 step0_val;
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u32 split1_val;
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u32 step1_val;
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u32 ctrl_reg_addr;
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u32 ctrl_bit_ofs;
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u32 step2_val;
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u32 split2_val;
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} axp_contrl_info;
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__attribute__((section(".data"))) axp_contrl_info pmu_axp1530_ctrl_tbl[] = {
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/*name, min, max, reg, mask, step0,split1_val, step1,ctrl_reg,ctrl_bit */
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{ "dcdc1", 500, 3400, AXP1530_DC1OUT_VOL, 0x7f, 10, 1200, 20,
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AXP1530_OUTPUT_POWER_ON_OFF_CTL, 0, 100, 1540 },
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{ "dcdc2", 500, 1540, AXP1530_DC2OUT_VOL, 0x7f, 10, 1200, 20,
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AXP1530_OUTPUT_POWER_ON_OFF_CTL, 1 },
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{ "dcdc3", 500, 1840, AXP1530_DC3OUT_VOL, 0x7f, 10, 1200, 20,
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AXP1530_OUTPUT_POWER_ON_OFF_CTL, 2 },
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{ "aldo1", 500, 3500, AXP1530_ALDO1OUT_VOL, 0x1f, 100, 0, 0,
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AXP1530_OUTPUT_POWER_ON_OFF_CTL, 3 },
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{ "dldo1", 500, 3500, AXP1530_DLDO1OUT_VOL, 0x1f, 100, 0, 0,
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AXP1530_OUTPUT_POWER_ON_OFF_CTL, 4 },
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};
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static axp_contrl_info *get_ctrl_info_from_tbl(char *name)
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{
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int i = 0;
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int size = ARRAY_SIZE(pmu_axp1530_ctrl_tbl);
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axp_contrl_info *p;
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for (i = 0; i < size; i++) {
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if (!strncmp(name, pmu_axp1530_ctrl_tbl[i].name,
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strlen(pmu_axp1530_ctrl_tbl[i].name))) {
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break;
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}
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}
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if (i >= size) {
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axp_err("can't find %s from table\n", name);
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return NULL;
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}
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p = pmu_axp1530_ctrl_tbl + i;
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return p;
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}
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static int pmu_axp1530_necessary_reg_enable(void)
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{
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__attribute__((unused)) u8 reg_value;
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#ifdef CONFIG_AXP1530A_NECESSARY_REG_ENABLE
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_WRITE_LOCK, ®_value))
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return -1;
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reg_value |= 0x5;
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, AXP1530_WRITE_LOCK, reg_value))
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return -1;
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_ERROR_MANAGEMENT, ®_value))
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return -1;
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reg_value |= 0x8;
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, AXP1530_ERROR_MANAGEMENT, reg_value))
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return -1;
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_DCDC_DVM_PWM_CTL, ®_value))
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return -1;
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reg_value |= (0x1 << 5);
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, AXP1530_DCDC_DVM_PWM_CTL, reg_value))
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return -1;
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#endif
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return 0;
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}
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static int pmu_axp1530_probe(void)
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{
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u8 pmu_chip_id;
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if (pmic_bus_init(AXP1530_DEVICE_ADDR, AXP1530_RUNTIME_ADDR)) {
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tick_printf("%s pmic_bus_init fail\n", __func__);
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return -1;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_VERSION, &pmu_chip_id)) {
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tick_printf("%s pmic_bus_read fail\n", __func__);
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return -1;
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}
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pmu_chip_id &= 0XCF;
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if (pmu_chip_id == AXP1530_CHIP_ID) {
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/*pmu type AXP1530*/
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pmu_axp1530_necessary_reg_enable();
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tick_printf("PMU: AXP1530\n");
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return 0;
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}
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return -1;
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}
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static int pmu_axp1530_get_info(char *name, unsigned char *chipid)
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{
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strncpy(name, "axp1530", sizeof("axp1530"));
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*chipid = AXP1530_CHIP_ID;
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return 0;
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}
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static int pmu_axp1530_set_voltage(char *name, uint set_vol, uint onoff)
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{
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u8 reg_value;
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axp_contrl_info *p_item = NULL;
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u8 base_step = 0;
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p_item = get_ctrl_info_from_tbl(name);
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if (!p_item) {
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return -1;
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}
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axp_info(
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"name %s, min_vol %dmv, max_vol %d, cfg_reg 0x%x, cfg_mask 0x%x \
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step0_val %d, split1_val %d, step1_val %d, ctrl_reg_addr 0x%x, ctrl_bit_ofs %d\n",
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p_item->name, p_item->min_vol, p_item->max_vol,
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p_item->cfg_reg_addr, p_item->cfg_reg_mask, p_item->step0_val,
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p_item->split1_val, p_item->step1_val, p_item->ctrl_reg_addr,
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p_item->ctrl_bit_ofs);
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if ((set_vol > 0) && (p_item->min_vol)) {
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if (set_vol < p_item->min_vol) {
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set_vol = p_item->min_vol;
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} else if (set_vol > p_item->max_vol) {
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set_vol = p_item->max_vol;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, p_item->cfg_reg_addr,
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®_value)) {
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return -1;
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}
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reg_value &= ~p_item->cfg_reg_mask;
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if (p_item->split2_val && (set_vol > p_item->split2_val)) {
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base_step = (p_item->split2_val - p_item->split1_val) /
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p_item->step1_val;
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base_step += (p_item->split1_val - p_item->min_vol) /
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p_item->step0_val;
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reg_value |= (base_step +
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(set_vol - p_item->split2_val/p_item->step2_val*p_item->step2_val) /
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p_item->step2_val);
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} else if (p_item->split1_val &&
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(set_vol > p_item->split1_val)) {
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if (p_item->split1_val < p_item->min_vol) {
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axp_err("bad split val(%d) for %s\n",
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p_item->split1_val, name);
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}
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base_step = (p_item->split1_val - p_item->min_vol) /
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p_item->step0_val;
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reg_value |= (base_step +
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(set_vol - p_item->split1_val) /
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p_item->step1_val);
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} else {
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reg_value |=
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(set_vol - p_item->min_vol) / p_item->step0_val;
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}
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, p_item->cfg_reg_addr,
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reg_value)) {
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axp_err("unable to set %s\n", name);
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return -1;
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}
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}
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if (onoff < 0) {
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return 0;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, p_item->ctrl_reg_addr,
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®_value)) {
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return -1;
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}
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if (onoff == 0) {
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reg_value &= ~(1 << p_item->ctrl_bit_ofs);
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} else {
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reg_value |= (1 << p_item->ctrl_bit_ofs);
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}
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, p_item->ctrl_reg_addr,
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reg_value)) {
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axp_err("unable to onoff %s\n", name);
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return -1;
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}
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return 0;
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}
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static int pmu_axp1530_get_voltage(char *name)
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{
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u8 reg_value;
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axp_contrl_info *p_item = NULL;
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u8 base_step;
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int vol;
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p_item = get_ctrl_info_from_tbl(name);
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if (!p_item) {
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return -1;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, p_item->ctrl_reg_addr,
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®_value)) {
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return -1;
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}
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if (!(reg_value & (0x01 << p_item->ctrl_bit_ofs))) {
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return 0;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, p_item->cfg_reg_addr,
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®_value)) {
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return -1;
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}
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reg_value &= p_item->cfg_reg_mask;
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if (p_item->split2_val) {
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u32 base_step2;
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base_step = (p_item->split1_val - p_item->min_vol) /
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p_item->step0_val;
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base_step2 = base_step + (p_item->split2_val - p_item->split1_val) /
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p_item->step1_val;
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if (reg_value >= base_step2) {
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vol = ALIGN(p_item->split2_val, p_item->step2_val) +
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p_item->step2_val * (reg_value - base_step2);
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} else if (reg_value >= base_step) {
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vol = p_item->split1_val +
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p_item->step1_val * (reg_value - base_step);
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} else {
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vol = p_item->min_vol + p_item->step0_val * reg_value;
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}
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} else if (p_item->split1_val) {
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base_step = (p_item->split1_val - p_item->min_vol) /
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p_item->step0_val;
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if (reg_value > base_step) {
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vol = p_item->split1_val +
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p_item->step1_val * (reg_value - base_step);
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} else {
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vol = p_item->min_vol + p_item->step0_val * reg_value;
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}
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} else {
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vol = p_item->min_vol + p_item->step0_val * reg_value;
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}
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return vol;
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}
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static int pmu_axp1530_set_power_off(void)
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{
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u8 reg_value;
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_POWER_DOMN_SEQUENCE, ®_value)) {
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return -1;
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}
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reg_value |= (1<<7);
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, AXP1530_POWER_DOMN_SEQUENCE, reg_value)) {
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return -1;
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}
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return 0;
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}
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static int pmu_axp1530_get_key_irq(void)
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{
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u8 reg_value;
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, AXP1530_IRQ_STATUS, ®_value)) {
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return -1;
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}
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reg_value &= (0x03 << 4);
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if (reg_value) {
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, AXP1530_IRQ_STATUS,
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reg_value)) {
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return -1;
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}
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}
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return (reg_value >> 4) & 3;
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}
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unsigned char pmu_axp1530_get_reg_value(unsigned char reg_addr)
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{
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u8 reg_value;
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, reg_addr, ®_value)) {
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return -1;
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}
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return reg_value;
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}
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unsigned char pmu_axp1530_set_reg_value(unsigned char reg_addr, unsigned char reg_value)
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{
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unsigned char reg;
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if (pmic_bus_write(AXP1530_RUNTIME_ADDR, reg_addr, reg_value)) {
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return -1;
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}
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if (pmic_bus_read(AXP1530_RUNTIME_ADDR, reg_addr, ®)) {
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return -1;
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}
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return reg;
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}
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U_BOOT_AXP_PMU_INIT(pmu_axp1530) = {
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.pmu_name = "pmu_axp1530",
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.get_info = pmu_axp1530_get_info,
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.probe = pmu_axp1530_probe,
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.set_voltage = pmu_axp1530_set_voltage,
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.get_voltage = pmu_axp1530_get_voltage,
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.set_power_off = pmu_axp1530_set_power_off,
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/*.set_sys_mode = pmu_axp1530_set_sys_mode,*/
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/*.get_sys_mode = pmu_axp1530_get_sys_mode,*/
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.get_key_irq = pmu_axp1530_get_key_irq,
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/*.set_bus_vol_limit = pmu_axp1530_set_bus_vol_limit,*/
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.get_reg_value = pmu_axp1530_get_reg_value,
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.set_reg_value = pmu_axp1530_set_reg_value,
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};
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