#include #include #include #include #include #include #include #include #include #include #include "../axp-core.h" #include "../axp-charger.h" #include "axp22-charger.h" static int axp22_get_ac_voltage(struct axp_charger_dev *cdev) { return 0; } static int axp22_get_ac_current(struct axp_charger_dev *cdev) { return 0; } static int axp22_set_ac_vhold(struct axp_charger_dev *cdev, int vol) { return 0; } static int axp22_get_ac_vhold(struct axp_charger_dev *cdev) { return 0; } static int axp22_set_ac_ihold(struct axp_charger_dev *cdev, int cur) { return 0; } static int axp22_get_ac_ihold(struct axp_charger_dev *cdev) { return 0; } static struct axp_ac_info axp22_ac_info = { .det_bit = 7, .det_offset = AXP22_CHARGE_STATUS, .valid_bit = 6, .valid_offset = AXP22_CHARGE_STATUS, .in_short_bit = 1, .in_short_offset = AXP22_CHARGE_STATUS, .get_ac_voltage = axp22_get_ac_voltage, .get_ac_current = axp22_get_ac_current, .set_ac_vhold = axp22_set_ac_vhold, .get_ac_vhold = axp22_get_ac_vhold, .set_ac_ihold = axp22_set_ac_ihold, .get_ac_ihold = axp22_get_ac_ihold, }; static int axp22_get_usb_voltage(struct axp_charger_dev *cdev) { return 0; } static int axp22_get_usb_current(struct axp_charger_dev *cdev) { return 0; } static int axp22_set_usb_vhold(struct axp_charger_dev *cdev, int vol) { u8 tmp; struct axp_regmap *map = cdev->chip->regmap; if (vol) { axp_regmap_set_bits(map, AXP22_CHARGE_VBUS, 0x40); if (vol >= 4000 && vol <= 4700) { tmp = (vol - 4000)/100; axp_regmap_update(map, AXP22_CHARGE_VBUS, tmp<<3, 0x7<<3); } else { pr_err("set usb limit voltage error, %d mV\n", axp22_config.pmu_usbpc_vol); } } else { axp_regmap_clr_bits(map, AXP22_CHARGE_VBUS, 0x40); } return 0; } static int axp22_get_usb_vhold(struct axp_charger_dev *cdev) { u8 tmp; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_read(map, AXP22_CHARGE_VBUS, &tmp); tmp = (tmp >> 3) & 0x7; return 4000 + tmp * 100; } static int axp22_set_usb_ihold(struct axp_charger_dev *cdev, int cur) { struct axp_regmap *map = cdev->chip->regmap; if (cur) { if (cur >= 900) axp_regmap_clr_bits(map, AXP22_CHARGE_VBUS, 0x3); else if (cur < 900) axp_regmap_update(map, AXP22_CHARGE_VBUS, 0x1, 0x3); } else { axp_regmap_set_bits(map, AXP22_CHARGE_VBUS, 0x3); } return 0; } static int axp22_get_usb_ihold(struct axp_charger_dev *cdev) { u8 tmp; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_read(map, AXP22_CHARGE_VBUS, &tmp); tmp = tmp & 0x3; if (tmp == 0x1) return 500; else if (tmp == 0) return 900; else return 0; } static struct axp_usb_info axp22_usb_info = { .det_bit = 5, .det_offset = AXP22_CHARGE_STATUS, .valid_bit = 4, .valid_offset = AXP22_CHARGE_STATUS, .get_usb_voltage = axp22_get_usb_voltage, .get_usb_current = axp22_get_usb_current, .set_usb_vhold = axp22_set_usb_vhold, .get_usb_vhold = axp22_get_usb_vhold, .set_usb_ihold = axp22_set_usb_ihold, .get_usb_ihold = axp22_get_usb_ihold, }; static int axp22_get_rest_cap(struct axp_charger_dev *cdev) { u8 val, temp_val[2], batt_max_cap_val[2]; int batt_max_cap, coulumb_counter; int rest_vol; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_read(map, AXP22_CAP, &val); rest_vol = (int) (val & 0x7F); axp_regmap_reads(map, 0xe2, 2, temp_val); coulumb_counter = (((temp_val[0] & 0x7f) << 8) + temp_val[1]) * 1456 / 1000; axp_regmap_reads(map, 0xe0, 2, temp_val); batt_max_cap = (((temp_val[0] & 0x7f) << 8) + temp_val[1]) * 1456 / 1000; /* Avoid the power stay in 100% for a long time. */ if (coulumb_counter > batt_max_cap) { batt_max_cap_val[0] = temp_val[0] | (0x1<<7); batt_max_cap_val[1] = temp_val[1]; axp_regmap_writes(map, 0xe2, 2, batt_max_cap_val); AXP_DEBUG(AXP_SPLY, cdev->chip->pmu_num, "Axp22 coulumb_counter = %d\n", batt_max_cap); } return rest_vol; } static int axp22_get_bat_health(struct axp_charger_dev *cdev) { u8 val; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_read(map, AXP22_FAULT_LOG1, &val); if (val & AXP22_FAULT_LOG_BATINACT) return POWER_SUPPLY_HEALTH_DEAD; else if (val & AXP22_FAULT_LOG_OVER_TEMP) return POWER_SUPPLY_HEALTH_OVERHEAT; else if (val & AXP22_FAULT_LOG_COLD) return POWER_SUPPLY_HEALTH_COLD; else return POWER_SUPPLY_HEALTH_GOOD; } static inline int axp22_vbat_to_mV(u32 reg) { return ((int)(((reg >> 8) << 4) | (reg & 0x000F))) * 1100 / 1000; } static int axp22_get_vbat(struct axp_charger_dev *cdev) { u8 tmp[2]; u32 res; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_reads(map, AXP22_VBATH_RES, 2, tmp); res = (tmp[0] << 8) | tmp[1]; return axp22_vbat_to_mV(res); } static inline int axp22_ibat_to_mA(u32 reg) { return (int)(((reg >> 8) << 4) | (reg & 0x000F)); } static inline int axp22_icharge_to_mA(u32 reg) { return (int)(((reg >> 8) << 4) | (reg & 0x000F)); } static int axp22_get_ibat(struct axp_charger_dev *cdev) { u8 tmp[2]; u32 res; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_reads(map, AXP22_IBATH_REG, 2, tmp); res = (tmp[0] << 8) | tmp[1]; return axp22_icharge_to_mA(res); } static int axp22_get_disibat(struct axp_charger_dev *cdev) { u8 tmp[2]; u32 dis_res; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_reads(map, AXP22_DISIBATH_REG, 2, tmp); dis_res = (tmp[0] << 8) | tmp[1]; return axp22_ibat_to_mA(dis_res); } static int axp22_set_chg_cur(struct axp_charger_dev *cdev, int cur) { uint8_t tmp = 0; struct axp_regmap *map = cdev->chip->regmap; if (cur == 0) axp_regmap_clr_bits(map, AXP22_CHARGE_CONTROL1, 0x80); else axp_regmap_set_bits(map, AXP22_CHARGE_CONTROL1, 0x80); if (cur >= 300 && cur <= 2550) { tmp = (cur - 300) / 150; axp_regmap_update(map, AXP22_CHARGE_CONTROL1, tmp, 0x0F); } else if (cur < 300) { axp_regmap_clr_bits(map, AXP22_CHARGE_CONTROL1, 0x0F); } else { axp_regmap_set_bits(map, AXP22_CHARGE_CONTROL1, 0x0F); } return 0; } static int axp22_set_chg_vol(struct axp_charger_dev *cdev, int vol) { uint8_t tmp = 0; struct axp_regmap *map = cdev->chip->regmap; if (vol < 4200) { tmp &= ~(3 << 5); } else if (vol < 4220) { tmp &= ~(3 << 5); tmp |= 1 << 6; } else if (vol < 4240) { tmp &= ~(3 << 5); tmp |= 1 << 5; } else { tmp |= 3 << 5; } axp_regmap_update(map, AXP22_CHARGE_CONTROL1, tmp, 0x3<<5); return 0; } static struct axp_battery_info axp22_batt_info = { .chgstat_bit = 6, .chgstat_offset = AXP22_MODE_CHGSTATUS, .det_bit = 5, .det_valid_bit = 4, .det_valid = 1, .det_offset = AXP22_MODE_CHGSTATUS, .cur_direction_bit = 2, .cur_direction_offset = AXP22_CHARGE_STATUS, .get_rest_cap = axp22_get_rest_cap, .get_bat_health = axp22_get_bat_health, .get_vbat = axp22_get_vbat, .get_ibat = axp22_get_ibat, .get_disibat = axp22_get_disibat, .set_chg_cur = axp22_set_chg_cur, .set_chg_vol = axp22_set_chg_vol, }; static struct power_supply_info battery_data = { .name = "PTI PL336078", .technology = POWER_SUPPLY_TECHNOLOGY_LiFe, .voltage_max_design = 4200000, .voltage_min_design = 3500000, .use_for_apm = 1, }; static struct axp_supply_info axp22_spy_info = { .ac = &axp22_ac_info, .usb = &axp22_usb_info, .batt = &axp22_batt_info, }; static int axp22_charger_init(struct axp_dev *axp_dev) { u8 ocv_cap[32]; u8 val; int cur_coulomb_counter, rdc; struct axp_regmap *map = axp_dev->regmap; int i, update_min_times[8] = {30, 60, 120, 164, 0, 5, 10, 20}; if (axp22_config.pmu_init_chgend_rate == 10) val &= ~(1 << 4); else val |= 1 << 4; val &= 0x7F; axp_regmap_write(map, AXP22_CHARGE_CONTROL1, val); if (axp22_config.pmu_init_chg_pretime < 30) axp22_config.pmu_init_chg_pretime = 30; if (axp22_config.pmu_init_chg_csttime < 360) axp22_config.pmu_init_chg_csttime = 360; val = ((((axp22_config.pmu_init_chg_pretime - 40) / 10) << 6) | ((axp22_config.pmu_init_chg_csttime - 360) / 120)); axp_regmap_update(map, AXP22_CHARGE_CONTROL2, val, 0xC2); /* adc set */ val = AXP22_ADC_BATVOL_ENABLE | AXP22_ADC_BATCUR_ENABLE; if (0 != axp22_config.pmu_bat_temp_enable) val = val | AXP22_ADC_TSVOL_ENABLE; axp_regmap_update(map, AXP22_ADC_CONTROL, val, AXP22_ADC_BATVOL_ENABLE | AXP22_ADC_BATCUR_ENABLE | AXP22_ADC_TSVOL_ENABLE); axp_regmap_read(map, AXP22_ADC_CONTROL3, &val); switch (axp22_config.pmu_init_adc_freq / 100) { case 1: val &= ~(3 << 6); break; case 2: val &= ~(3 << 6); val |= 1 << 6; break; case 4: val &= ~(3 << 6); val |= 2 << 6; break; case 8: val |= 3 << 6; break; default: break; } if (0 != axp22_config.pmu_bat_temp_enable) val &= (~(1 << 2)); axp_regmap_write(map, AXP22_ADC_CONTROL3, val); /* bat para */ axp_regmap_write(map, AXP22_WARNING_LEVEL, ((axp22_config.pmu_battery_warning_level1 - 5) << 4) + axp22_config.pmu_battery_warning_level2); ocv_cap[0] = axp22_config.pmu_bat_para1; ocv_cap[1] = axp22_config.pmu_bat_para2; ocv_cap[2] = axp22_config.pmu_bat_para3; ocv_cap[3] = axp22_config.pmu_bat_para4; ocv_cap[4] = axp22_config.pmu_bat_para5; ocv_cap[5] = axp22_config.pmu_bat_para6; ocv_cap[6] = axp22_config.pmu_bat_para7; ocv_cap[7] = axp22_config.pmu_bat_para8; ocv_cap[8] = axp22_config.pmu_bat_para9; ocv_cap[9] = axp22_config.pmu_bat_para10; ocv_cap[10] = axp22_config.pmu_bat_para11; ocv_cap[11] = axp22_config.pmu_bat_para12; ocv_cap[12] = axp22_config.pmu_bat_para13; ocv_cap[13] = axp22_config.pmu_bat_para14; ocv_cap[14] = axp22_config.pmu_bat_para15; ocv_cap[15] = axp22_config.pmu_bat_para16; ocv_cap[16] = axp22_config.pmu_bat_para17; ocv_cap[17] = axp22_config.pmu_bat_para18; ocv_cap[18] = axp22_config.pmu_bat_para19; ocv_cap[19] = axp22_config.pmu_bat_para20; ocv_cap[20] = axp22_config.pmu_bat_para21; ocv_cap[21] = axp22_config.pmu_bat_para22; ocv_cap[22] = axp22_config.pmu_bat_para23; ocv_cap[23] = axp22_config.pmu_bat_para24; ocv_cap[24] = axp22_config.pmu_bat_para25; ocv_cap[25] = axp22_config.pmu_bat_para26; ocv_cap[26] = axp22_config.pmu_bat_para27; ocv_cap[27] = axp22_config.pmu_bat_para28; ocv_cap[28] = axp22_config.pmu_bat_para29; ocv_cap[29] = axp22_config.pmu_bat_para30; ocv_cap[30] = axp22_config.pmu_bat_para31; ocv_cap[31] = axp22_config.pmu_bat_para32; axp_regmap_writes(map, 0xC0, 32, ocv_cap); /*Init 16's Reset PMU en */ if (axp22_config.pmu_reset) axp_regmap_set_bits(map, 0x8F, 0x08); /* enable */ else axp_regmap_clr_bits(map, 0x8F, 0x08); /* disable */ /*Init IRQ wakeup en*/ if (axp22_config.pmu_irq_wakeup) axp_regmap_set_bits(map, 0x8F, 0x80); /* enable */ else axp_regmap_clr_bits(map, 0x8F, 0x80); /* disable */ /*Init N_VBUSEN status*/ if (axp22_config.pmu_vbusen_func) axp_regmap_set_bits(map, 0x8F, 0x10); /* output */ else axp_regmap_clr_bits(map, 0x8F, 0x10); /* input */ /*Init InShort status*/ if (axp22_config.pmu_inshort) axp_regmap_set_bits(map, 0x8F, 0x60); /* InShort */ else axp_regmap_clr_bits(map, 0x8F, 0x60); /* auto detect */ /*Init CHGLED function*/ if (axp22_config.pmu_chgled_func) axp_regmap_set_bits(map, 0x32, 0x08); /* control by charger */ else axp_regmap_clr_bits(map, 0x32, 0x08); /* drive MOTO */ /*set CHGLED Indication Type*/ if (axp22_config.pmu_chgled_type) axp_regmap_set_bits(map, 0x34, 0x10); /* Type B */ else axp_regmap_clr_bits(map, 0x34, 0x10); /* Type A */ /*Init PMU Over Temperature protection*/ if (axp22_config.pmu_hot_shutdown) axp_regmap_set_bits(map, 0x8f, 0x04); /* enable */ else axp_regmap_clr_bits(map, 0x8f, 0x04); /* disable */ /*Init battery capacity correct function*/ if (axp22_config.pmu_batt_cap_correct) axp_regmap_set_bits(map, 0xb8, 0x20); /* enable */ else axp_regmap_clr_bits(map, 0xb8, 0x20); /* disable */ /* Init battery regulator enable or not when charge finish*/ if (axp22_config.pmu_chg_end_on_en) axp_regmap_set_bits(map, 0x34, 0x20); /* enable */ else axp_regmap_clr_bits(map, 0x34, 0x20); /* disable */ if (!axp22_config.pmu_batdeten) axp_regmap_clr_bits(map, AXP22_PDBC, 0x40); else axp_regmap_set_bits(map, AXP22_PDBC, 0x40); /* RDC initial */ axp_regmap_read(map, AXP22_RDC0, &val); if ((axp22_config.pmu_battery_rdc) && (!(val & 0x40))) { rdc = (axp22_config.pmu_battery_rdc * 10000 + 5371) / 10742; axp_regmap_write(map, AXP22_RDC0, ((rdc >> 8) & 0x1F)|0x80); axp_regmap_write(map, AXP22_RDC1, rdc & 0x00FF); } axp_regmap_read(map, AXP22_BATCAP0, &val); if ((axp22_config.pmu_battery_cap) && (!(val & 0x80))) { cur_coulomb_counter = axp22_config.pmu_battery_cap * 1000 / 1456; axp_regmap_write(map, AXP22_BATCAP0, ((cur_coulomb_counter >> 8) | 0x80)); axp_regmap_write(map, AXP22_BATCAP1, cur_coulomb_counter & 0x00FF); } else if (!axp22_config.pmu_battery_cap) { axp_regmap_write(map, AXP22_BATCAP0, 0x00); axp_regmap_write(map, AXP22_BATCAP1, 0x00); } if (axp22_config.pmu_bat_unused == 1) axp22_spy_info.batt->det_unused = 1; else axp22_spy_info.batt->det_unused = 0; if (axp22_config.pmu_ocv_en == 0) { pr_warn("axp22 ocv must be enabled\n"); axp22_config.pmu_ocv_en = 1; } if (axp22_config.pmu_cou_en == 1) { /* use ocv and cou */ axp_regmap_set_bits(map, AXP22_COULOMB_CTL, 0x80); axp_regmap_set_bits(map, AXP22_COULOMB_CTL, 0x40); } else if (axp22_config.pmu_cou_en == 0) { /* only use ocv */ axp_regmap_set_bits(map, AXP22_COULOMB_CTL, 0x80); axp_regmap_clr_bits(map, AXP22_COULOMB_CTL, 0x40); } for (i = 0; i < ARRAY_SIZE(update_min_times); i++) { if (update_min_times[i] == axp22_config.pmu_update_min_time) break; } axp_regmap_update(map, AXP22_ADJUST_PARA, i, 0x7); return 0; } static struct axp_interrupts axp_charger_irq[] = { {"usb in", axp_usb_in_isr}, {"usb out", axp_usb_out_isr}, {"ac in", axp_ac_in_isr}, {"ac out", axp_ac_out_isr}, {"bat in", axp_capchange_isr}, {"bat out", axp_capchange_isr}, {"bat temp low", axp_change_isr}, {"bat temp over", axp_change_isr}, {"charging", axp_change_isr}, {"charge over", axp_change_isr}, {"low warning1", axp_low_warning1_isr}, {"low warning2", axp_low_warning2_isr}, }; static void axp22_private_debug(struct axp_charger_dev *cdev) { u8 tmp[2]; struct axp_regmap *map = cdev->chip->regmap; axp_regmap_reads(map, 0xbc, 2, tmp); AXP_DEBUG(AXP_SPLY, cdev->chip->pmu_num, "ocv_vol = %d\n", ((tmp[0] << 4) | (tmp[1] & 0xF)) * 1100 / 1000); axp_regmap_read(map, 0xe4, &tmp[0]); if (tmp[0] & 0x80) AXP_DEBUG(AXP_SPLY, cdev->chip->pmu_num, "ocv_percent = %d\n", tmp[0] & 0x7f); axp_regmap_read(map, 0xe5, &tmp[0]); if (tmp[0] & 0x80) AXP_DEBUG(AXP_SPLY, cdev->chip->pmu_num, "coulomb_percent = %d\n", tmp[0] & 0x7f); } static int axp22_charger_probe(struct platform_device *pdev) { int ret, i, irq; struct axp_charger_dev *chg_dev; struct axp_dev *axp_dev = dev_get_drvdata(pdev->dev.parent); if (pdev->dev.of_node) { /* get dt and sysconfig */ ret = axp_charger_dt_parse(pdev->dev.of_node, &axp22_config); if (ret) { pr_err("%s parse device tree err\n", __func__); return -EINVAL; } } else { pr_err("axp22 charger device tree err!\n"); return -EBUSY; } axp22_ac_info.ac_vol = axp22_config.pmu_ac_vol; axp22_ac_info.ac_cur = axp22_config.pmu_ac_cur; axp22_usb_info.usb_pc_vol = axp22_config.pmu_usbpc_vol; axp22_usb_info.usb_pc_cur = axp22_config.pmu_usbpc_cur; axp22_usb_info.usb_ad_vol = axp22_config.pmu_ac_vol; axp22_usb_info.usb_ad_cur = axp22_config.pmu_ac_cur; axp22_batt_info.runtime_chgcur = axp22_config.pmu_runtime_chgcur; axp22_batt_info.suspend_chgcur = axp22_config.pmu_suspend_chgcur; axp22_batt_info.shutdown_chgcur = axp22_config.pmu_shutdown_chgcur; battery_data.voltage_max_design = axp22_config.pmu_init_chgvol * 1000; battery_data.voltage_min_design = axp22_config.pmu_pwroff_vol * 1000; battery_data.energy_full_design = axp22_config.pmu_battery_cap; axp22_charger_init(axp_dev); chg_dev = axp_power_supply_register(&pdev->dev, axp_dev, &battery_data, &axp22_spy_info); if (IS_ERR_OR_NULL(chg_dev)) goto fail; chg_dev->private_debug = axp22_private_debug; for (i = 0; i < ARRAY_SIZE(axp_charger_irq); i++) { irq = platform_get_irq_byname(pdev, axp_charger_irq[i].name); if (irq < 0) continue; ret = axp_request_irq(axp_dev, irq, axp_charger_irq[i].isr, chg_dev); if (ret != 0) { dev_err(&pdev->dev, "failed to request %s IRQ %d: %d\n", axp_charger_irq[i].name, irq, ret); goto out_irq; } dev_dbg(&pdev->dev, "Requested %s IRQ %d: %d\n", axp_charger_irq[i].name, irq, ret); } platform_set_drvdata(pdev, chg_dev); return 0; out_irq: for (i = i - 1; i >= 0; i--) { irq = platform_get_irq_byname(pdev, axp_charger_irq[i].name); if (irq < 0) continue; axp_free_irq(axp_dev, irq); } fail: return -1; } static int axp22_charger_remove(struct platform_device *pdev) { int i, irq; struct axp_charger_dev *chg_dev = platform_get_drvdata(pdev); struct axp_dev *axp_dev = dev_get_drvdata(pdev->dev.parent); for (i = 0; i < ARRAY_SIZE(axp_charger_irq); i++) { irq = platform_get_irq_byname(pdev, axp_charger_irq[i].name); if (irq < 0) continue; axp_free_irq(axp_dev, irq); } axp_power_supply_unregister(chg_dev); return 0; } static int axp22_charger_suspend(struct platform_device *dev, pm_message_t state) { struct axp_charger_dev *chg_dev = platform_get_drvdata(dev); axp_suspend_flag = AXP_WAS_SUSPEND; axp_charger_suspend(chg_dev); return 0; } static int axp22_charger_resume(struct platform_device *dev) { struct axp_charger_dev *chg_dev = platform_get_drvdata(dev); struct axp_regmap *map = chg_dev->chip->regmap; int pre_rest_vol; if (axp_suspend_flag == AXP_SUSPEND_WITH_IRQ) { axp_suspend_flag = AXP_NOT_SUSPEND; #ifdef CONFIG_AXP_NMI_USED enable_nmi(); #endif } else { axp_suspend_flag = AXP_NOT_SUSPEND; } pre_rest_vol = chg_dev->rest_vol; axp_charger_resume(chg_dev); if (chg_dev->rest_vol - pre_rest_vol) { pr_info("battery vol change: %d->%d\n", pre_rest_vol, chg_dev->rest_vol); axp_regmap_write(map, AXP22_DATA_BUFFER1, chg_dev->rest_vol | 0x80); } return 0; } static void axp22_charger_shutdown(struct platform_device *dev) { struct axp_charger_dev *chg_dev = platform_get_drvdata(dev); /* * we use this flag to stop pmu service when shutdown */ axp_suspend_flag = AXP_WAS_SUSPEND; axp_charger_shutdown(chg_dev); } static const struct of_device_id axp22_charger_dt_ids[] = { { .compatible = "axp221s-charger", }, { .compatible = "axp227-charger", }, { .compatible = "axp223-charger", }, {}, }; MODULE_DEVICE_TABLE(of, axp22_charger_dt_ids); static struct platform_driver axp22_charger_driver = { .driver = { .name = "axp22-charger", .of_match_table = axp22_charger_dt_ids, }, .probe = axp22_charger_probe, .remove = axp22_charger_remove, .suspend = axp22_charger_suspend, .resume = axp22_charger_resume, .shutdown = axp22_charger_shutdown, }; static int __init axp22_charger_initcall(void) { int ret; ret = platform_driver_register(&axp22_charger_driver); if (IS_ERR_VALUE(ret)) { pr_err("%s: failed, errno %d\n", __func__, ret); return -EINVAL; } return 0; } fs_initcall_sync(axp22_charger_initcall); MODULE_LICENSE("GPL"); MODULE_AUTHOR("Qin "); MODULE_DESCRIPTION("Charger Driver for axp22x PMIC"); MODULE_ALIAS("platform:axp22-charger");