/* Copyright (c) 2010-2011, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * 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 #include #include #include #include #include /* Config Regs and their bits*/ #define PM8058_CHG_TEST 0x75 #define IGNORE_LL 2 #define PM8058_CHG_TEST_2 0xEA #define PM8058_CHG_TEST_3 0xEB #define PM8058_OVP_TEST_REG 0xF6 #define FORCE_OVP_OFF 3 #define PM8058_CHG_CNTRL 0x1E #define CHG_TRICKLE_EN 7 #define CHG_USB_SUSPEND 6 #define CHG_IMON_CAL 5 #define CHG_IMON_GAIN 4 #define CHG_CHARGE_BAT 3 #define CHG_VBUS_FROM_BOOST_OVRD 2 #define CHG_CHARGE_DIS 1 #define CHG_VCP_EN 0 #define PM8058_CHG_CNTRL_2 0xD8 #define ATC_DIS 7 /* coincell backed */ #define CHARGE_AUTO_DIS 6 #define DUMB_CHG_OVRD 5 /* coincell backed */ #define ENUM_DONE 4 #define CHG_TEMP_MODE 3 #define CHG_BATT_TEMP_DIS 1 /* coincell backed */ #define CHG_FAILED_CLEAR 0 #define PM8058_CHG_VMAX_SEL 0x21 #define PM8058_CHG_VBAT_DET 0xD9 #define PM8058_CHG_IMAX 0x1F #define PM8058_CHG_TRICKLE 0xDB #define PM8058_CHG_ITERM 0xDC #define PM8058_CHG_TTRKL_MAX 0xE1 #define PM8058_CHG_TCHG_MAX 0xE4 #define PM8058_CHG_TEMP_THRESH 0xE2 #define PM8058_CHG_TEMP_REG 0xE3 #define PM8058_CHG_PULSE 0x22 /* IRQ STATUS and CLEAR */ #define PM8058_CHG_STATUS_CLEAR_IRQ_1 0x31 #define PM8058_CHG_STATUS_CLEAR_IRQ_3 0x33 #define PM8058_CHG_STATUS_CLEAR_IRQ_10 0xB3 #define PM8058_CHG_STATUS_CLEAR_IRQ_11 0xB4 /* IRQ MASKS */ #define PM8058_CHG_MASK_IRQ_1 0x38 #define PM8058_CHG_MASK_IRQ_3 0x3A #define PM8058_CHG_MASK_IRQ_10 0xBA #define PM8058_CHG_MASK_IRQ_11 0xBB /* IRQ Real time status regs */ #define PM8058_CHG_STATUS_RT_1 0x3F #define STATUS_RTCHGVAL 7 #define STATUS_RTCHGINVAL 6 #define STATUS_RTBATT_REPLACE 5 #define STATUS_RTVBATDET_LOW 4 #define STATUS_RTCHGILIM 3 #define STATUS_RTPCTDONE 1 #define STATUS_RTVCP 0 #define PM8058_CHG_STATUS_RT_3 0x41 #define PM8058_CHG_STATUS_RT_10 0xC1 #define PM8058_CHG_STATUS_RT_11 0xC2 /* VTRIM */ #define PM8058_CHG_VTRIM 0x1D #define PM8058_CHG_VBATDET_TRIM 0x1E #define PM8058_CHG_ITRIM 0x1F #define PM8058_CHG_TTRIM 0x20 #define AUTO_CHARGING_VMAXSEL 4200 #define AUTO_CHARGING_FAST_TIME_MAX_MINUTES 512 #define AUTO_CHARGING_TRICKLE_TIME_MINUTES 30 #define AUTO_CHARGING_VEOC_ITERM 100 #define AUTO_CHARGING_IEOC_ITERM 160 #define AUTO_CHARGING_RESUME_MV 4100 #define AUTO_CHARGING_VBATDET 4150 #define AUTO_CHARGING_VBATDET_DEBOUNCE_TIME_MS 3000 #define AUTO_CHARGING_VEOC_VBATDET 4100 #define AUTO_CHARGING_VEOC_TCHG 16 #define AUTO_CHARGING_VEOC_TCHG_FINAL_CYCLE 32 #define AUTO_CHARGING_VEOC_BEGIN_TIME_MS 5400000 #define AUTO_CHARGING_VEOC_VBAT_LOW_CHECK_TIME_MS 60000 #define AUTO_CHARGING_RESUME_CHARGE_DETECTION_COUNTER 5 #define AUTO_CHARGING_DONE_CHECK_TIME_MS 1000 #define PM8058_CHG_I_STEP_MA 50 #define PM8058_CHG_I_MIN_MA 50 #define PM8058_CHG_T_TCHG_SHIFT 2 #define PM8058_CHG_I_TERM_STEP_MA 10 #define PM8058_CHG_V_STEP_MV 25 #define PM8058_CHG_V_MIN_MV 2400 /* * enum pmic_chg_interrupts: pmic interrupts * @CHGVAL_IRQ: charger V between 3.3 and 7.9 * @CHGINVAL_IRQ: charger V outside 3.3 and 7.9 * @VBATDET_LOW_IRQ: VBAT < VBATDET * @VCP_IRQ: VDD went below VBAT: BAT_FET is turned on * @CHGILIM_IRQ: mA consumed>IMAXSEL: chgloop draws less mA * @ATC_DONE_IRQ: Auto Trickle done * @ATCFAIL_IRQ: Auto Trickle fail * @AUTO_CHGDONE_IRQ: Auto chg done * @AUTO_CHGFAIL_IRQ: time exceeded w/o reaching term current * @CHGSTATE_IRQ: something happend causing a state change * @FASTCHG_IRQ: trkl charging completed: moving to fastchg * @CHG_END_IRQ: mA has dropped to termination current * @BATTTEMP_IRQ: batt temp is out of range * @CHGHOT_IRQ: the pass device is too hot * @CHGTLIMIT_IRQ: unused * @CHG_GONE_IRQ: charger was removed * @VCPMAJOR_IRQ: vcp major * @VBATDET_IRQ: VBAT >= VBATDET * @BATFET_IRQ: BATFET closed * @BATT_REPLACE_IRQ: * @BATTCONNECT_IRQ: */ enum pmic_chg_interrupts { CHGVAL_IRQ, CHGINVAL_IRQ, VBATDET_LOW_IRQ, VCP_IRQ, CHGILIM_IRQ, ATC_DONE_IRQ, ATCFAIL_IRQ, AUTO_CHGDONE_IRQ, AUTO_CHGFAIL_IRQ, CHGSTATE_IRQ, FASTCHG_IRQ, CHG_END_IRQ, BATTTEMP_IRQ, CHGHOT_IRQ, CHGTLIMIT_IRQ, CHG_GONE_IRQ, VCPMAJOR_IRQ, VBATDET_IRQ, BATFET_IRQ, BATT_REPLACE_IRQ, BATTCONNECT_IRQ, PMIC_CHG_MAX_INTS }; struct pm8058_charger { struct pmic_charger_pdata *pdata; struct device *dev; int pmic_chg_irq[PMIC_CHG_MAX_INTS]; DECLARE_BITMAP(enabled_irqs, PMIC_CHG_MAX_INTS); struct delayed_work chg_done_check_work; struct delayed_work check_vbat_low_work; struct delayed_work veoc_begin_work; struct delayed_work charging_check_work; int waiting_for_topoff; int waiting_for_veoc; int vbatdet; struct msm_hardware_charger hw_chg; int current_charger_current; int disabled; struct msm_xo_voter *voter; struct dentry *dent; int inited; int present; }; static struct pm8058_charger pm8058_chg; static struct msm_hardware_charger usb_hw_chg; static struct pmic8058_charger_data chg_data; static int msm_battery_gauge_alarm_notify(struct notifier_block *nb, unsigned long status, void *unused); static struct notifier_block alarm_notifier = { .notifier_call = msm_battery_gauge_alarm_notify, }; static int resume_mv = AUTO_CHARGING_RESUME_MV; static DEFINE_MUTEX(batt_alarm_lock); static int resume_mv_set(const char *val, struct kernel_param *kp); module_param_call(resume_mv, resume_mv_set, param_get_int, &resume_mv, S_IRUGO | S_IWUSR); static int resume_mv_set(const char *val, struct kernel_param *kp) { int rc; mutex_lock(&batt_alarm_lock); rc = param_set_int(val, kp); if (rc) goto out; rc = pm8xxx_batt_alarm_threshold_set( PM8XXX_BATT_ALARM_LOWER_COMPARATOR, resume_mv); if (!rc) rc = pm8xxx_batt_alarm_threshold_set( PM8XXX_BATT_ALARM_UPPER_COMPARATOR, 4300); out: mutex_unlock(&batt_alarm_lock); return rc; } static void pm8058_chg_enable_irq(int interrupt) { if (!__test_and_set_bit(interrupt, pm8058_chg.enabled_irqs)) { dev_dbg(pm8058_chg.dev, "%s %d\n", __func__, pm8058_chg.pmic_chg_irq[interrupt]); enable_irq(pm8058_chg.pmic_chg_irq[interrupt]); } } static void pm8058_chg_disable_irq(int interrupt) { if (__test_and_clear_bit(interrupt, pm8058_chg.enabled_irqs)) { dev_dbg(pm8058_chg.dev, "%s %d\n", __func__, pm8058_chg.pmic_chg_irq[interrupt]); disable_irq_nosync(pm8058_chg.pmic_chg_irq[interrupt]); } } static int pm_chg_get_rt_status(int irq) { int ret; ret = pm8xxx_read_irq_stat(pm8058_chg.dev->parent, irq); if (ret == -EAGAIN) return 0; else return ret; } static int is_chg_plugged_in(void) { return pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGVAL_IRQ]); } #ifdef DEBUG static void __dump_chg_regs(void) { u8 temp; int temp2; pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_CNTRL = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_CNTRL_2 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_VMAX_SEL, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_VMAX_SEL = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_VBAT_DET, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_VBAT_DET = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_IMAX, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_IMAX = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TRICKLE, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_TRICKLE = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_ITERM, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_ITERM = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TTRKL_MAX, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_TTRKL_MAX = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TCHG_MAX, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_TCHG_MAX = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TEMP_THRESH, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_TEMP_THRESH = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TEMP_REG, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_TEMP_REG = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_PULSE, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_PULSE = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_STATUS_CLEAR_IRQ_1, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_STATUS_CLEAR_IRQ_1 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_STATUS_CLEAR_IRQ_3, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_STATUS_CLEAR_IRQ_3 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_STATUS_CLEAR_IRQ_10, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_STATUS_CLEAR_IRQ_10 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_STATUS_CLEAR_IRQ_11, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_STATUS_CLEAR_IRQ_11 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_MASK_IRQ_1, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_MASK_IRQ_1 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_MASK_IRQ_3, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_MASK_IRQ_3 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_MASK_IRQ_10, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_MASK_IRQ_10 = 0x%x\n", temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_MASK_IRQ_11, &temp); dev_dbg(pm8058_chg.dev, "PM8058_CHG_MASK_IRQ_11 = 0x%x\n", temp); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGVAL_IRQ]); dev_dbg(pm8058_chg.dev, "CHGVAL_IRQ = %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGINVAL_IRQ]); dev_dbg(pm8058_chg.dev, "CHGINVAL_IRQ = %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VBATDET_LOW_IRQ]); dev_dbg(pm8058_chg.dev, "VBATDET_LOW_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VCP_IRQ]); dev_dbg(pm8058_chg.dev, "VCP_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGILIM_IRQ]); dev_dbg(pm8058_chg.dev, "CHGILIM_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[ATC_DONE_IRQ]); dev_dbg(pm8058_chg.dev, "ATC_DONE_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[ATCFAIL_IRQ]); dev_dbg(pm8058_chg.dev, "ATCFAIL_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[AUTO_CHGDONE_IRQ]); dev_dbg(pm8058_chg.dev, "AUTO_CHGDONE_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[AUTO_CHGFAIL_IRQ]); dev_dbg(pm8058_chg.dev, "AUTO_CHGFAIL_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGSTATE_IRQ]); dev_dbg(pm8058_chg.dev, "CHGSTATE_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[FASTCHG_IRQ]); dev_dbg(pm8058_chg.dev, "FASTCHG_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHG_END_IRQ]); dev_dbg(pm8058_chg.dev, "CHG_END_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATTTEMP_IRQ]); dev_dbg(pm8058_chg.dev, "BATTTEMP_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGHOT_IRQ]); dev_dbg(pm8058_chg.dev, "CHGHOT_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHGTLIMIT_IRQ]); dev_dbg(pm8058_chg.dev, "CHGTLIMIT_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[CHG_GONE_IRQ]); dev_dbg(pm8058_chg.dev, "CHG_GONE_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VCPMAJOR_IRQ]); dev_dbg(pm8058_chg.dev, "VCPMAJOR_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VBATDET_IRQ]); dev_dbg(pm8058_chg.dev, "VBATDET_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATFET_IRQ]); dev_dbg(pm8058_chg.dev, "BATFET_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATT_REPLACE_IRQ]); dev_dbg(pm8058_chg.dev, "BATT_REPLACE_IRQ= %d\n", temp2); temp2 = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ]); dev_dbg(pm8058_chg.dev, "BATTCONNECT_IRQ= %d\n", temp2); } #else static inline void __dump_chg_regs(void) { } #endif /* SSBI register access helper functions */ static int pm_chg_suspend(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, &temp); if (ret) return ret; if (value) temp |= BIT(CHG_USB_SUSPEND); else temp &= ~BIT(CHG_USB_SUSPEND); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, temp); } static int pm_chg_auto_disable(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, &temp); if (ret) return ret; if (value) temp |= BIT(CHARGE_AUTO_DIS); else temp &= ~BIT(CHARGE_AUTO_DIS); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, temp); } static int pm_chg_batt_temp_disable(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, &temp); if (ret) return ret; if (value) temp |= BIT(CHG_BATT_TEMP_DIS); else temp &= ~BIT(CHG_BATT_TEMP_DIS); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, temp); } static int pm_chg_vbatdet_set(int voltage) { u8 temp; int diff; diff = (voltage - PM8058_CHG_V_MIN_MV); if (diff < 0) { dev_warn(pm8058_chg.dev, "%s bad mV=%d asked to set\n", __func__, voltage); return -EINVAL; } temp = diff / PM8058_CHG_V_STEP_MV; dev_dbg(pm8058_chg.dev, "%s voltage=%d setting %02x\n", __func__, voltage, temp); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_VBAT_DET, temp); } static int pm_chg_imaxsel_set(int chg_current) { u8 temp; int diff; diff = chg_current - PM8058_CHG_I_MIN_MA; if (diff < 0) { dev_warn(pm8058_chg.dev, "%s bad mA=%d asked to set\n", __func__, chg_current); return -EINVAL; } temp = diff / PM8058_CHG_I_STEP_MA; /* make sure we arent writing more than 5 bits of data */ if (temp > 31) { dev_warn(pm8058_chg.dev, "%s max mA=1500 requested mA=%d\n", __func__, chg_current); temp = 31; } return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_IMAX, temp); } #define PM8058_CHG_VMAX_MIN 3300 #define PM8058_CHG_VMAX_MAX 5500 static int pm_chg_vmaxsel_set(int voltage) { u8 temp; if (voltage < PM8058_CHG_VMAX_MIN || voltage > PM8058_CHG_VMAX_MAX) { dev_warn(pm8058_chg.dev, "%s bad mV=%d asked to set\n", __func__, voltage); return -EINVAL; } temp = (voltage - PM8058_CHG_V_MIN_MV) / PM8058_CHG_V_STEP_MV; dev_dbg(pm8058_chg.dev, "%s mV=%d setting %02x\n", __func__, voltage, temp); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_VMAX_SEL, temp); } static int pm_chg_failed_clear(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, &temp); if (ret) return ret; if (value) temp |= BIT(CHG_FAILED_CLEAR); else temp &= ~BIT(CHG_FAILED_CLEAR); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, temp); } static int pm_chg_iterm_set(int chg_current) { u8 temp; temp = (chg_current / PM8058_CHG_I_TERM_STEP_MA) - 1; return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_ITERM, temp); } static int pm_chg_tchg_set(int minutes) { u8 temp; temp = (minutes >> PM8058_CHG_T_TCHG_SHIFT) - 1; return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TCHG_MAX, temp); } static int pm_chg_ttrkl_set(int minutes) { u8 temp; temp = minutes - 1; return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TTRKL_MAX, temp); } static int pm_chg_enum_done_enable(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, &temp); if (ret) return ret; if (value) temp |= BIT(ENUM_DONE); else temp &= ~BIT(ENUM_DONE); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL_2, temp); } static uint32_t get_fsm_state(void) { u8 temp; temp = 0x00; pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST_3, temp); pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TEST_3, &temp); return (uint32_t)temp; } static int get_fsm_status(void *data, u64 * val) { *val = get_fsm_state(); return 0; } enum pmic8058_chg_state pmic8058_get_fsm_state(void) { if (!pm8058_chg.inited) { pr_err("%s: called when not inited\n", __func__); return -EINVAL; } return get_fsm_state(); } static int pm_chg_disable(int value) { u8 temp; int ret; ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, &temp); if (ret) return ret; if (value) temp |= BIT(CHG_CHARGE_DIS); else temp &= ~BIT(CHG_CHARGE_DIS); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, temp); } static void pm8058_start_system_current(struct msm_hardware_charger *hw_chg, int max_current) { int ret = 0; if (pm8058_chg.disabled) return; ret = pm_chg_imaxsel_set(max_current); ret |= pm_chg_enum_done_enable(1); ret |= pm_chg_disable(0); if (ret) pr_err("%s: failed to turn on system power err=%d", __func__, ret); } static void pm8058_stop_system_current(struct msm_hardware_charger *hw_chg) { int ret = 0; ret = pm_chg_enum_done_enable(0); ret |= pm_chg_disable(1); if (ret) pr_err("%s: failed to turn off system power err=%d", __func__, ret); } static int __pm8058_start_charging(int chg_current, int termination_current, int time) { int ret = 0; if (pm8058_chg.disabled) goto out; dev_info(pm8058_chg.dev, "%s %dmA %dmin\n", __func__, chg_current, time); ret = pm_chg_auto_disable(1); if (ret) goto out; ret = pm_chg_suspend(0); if (ret) goto out; ret = pm_chg_imaxsel_set(chg_current); if (ret) goto out; ret = pm_chg_failed_clear(1); if (ret) goto out; ret = pm_chg_iterm_set(termination_current); if (ret) goto out; ret = pm_chg_tchg_set(time); if (ret) goto out; ret = pm_chg_ttrkl_set(AUTO_CHARGING_TRICKLE_TIME_MINUTES); if (ret) goto out; ret = pm_chg_batt_temp_disable(0); if (ret) goto out; if (pm8058_chg.voter == NULL) pm8058_chg.voter = msm_xo_get(MSM_XO_TCXO_D1, "pm8058_charger"); msm_xo_mode_vote(pm8058_chg.voter, MSM_XO_MODE_ON); ret = pm_chg_enum_done_enable(1); if (ret) goto out; wmb(); ret = pm_chg_auto_disable(0); if (ret) goto out; /* wait for the enable to update interrupt status*/ msleep(20); pm8058_chg_enable_irq(AUTO_CHGFAIL_IRQ); pm8058_chg_enable_irq(CHGHOT_IRQ); pm8058_chg_enable_irq(AUTO_CHGDONE_IRQ); pm8058_chg_enable_irq(CHG_END_IRQ); pm8058_chg_enable_irq(CHGSTATE_IRQ); out: return ret; } static void chg_done_cleanup(void) { dev_info(pm8058_chg.dev, "%s notify pm8058 charging completion" "\n", __func__); pm8058_chg_disable_irq(AUTO_CHGDONE_IRQ); cancel_delayed_work_sync(&pm8058_chg.veoc_begin_work); cancel_delayed_work_sync(&pm8058_chg.check_vbat_low_work); pm8058_chg_disable_irq(CHG_END_IRQ); pm8058_chg_disable_irq(VBATDET_LOW_IRQ); pm8058_chg_disable_irq(VBATDET_IRQ); pm8058_chg.waiting_for_veoc = 0; pm8058_chg.waiting_for_topoff = 0; pm_chg_auto_disable(1); msm_charger_notify_event(&usb_hw_chg, CHG_DONE_EVENT); } static void chg_done_check_work(struct work_struct *work) { chg_done_cleanup(); } static void charging_check_work(struct work_struct *work) { uint32_t fsm_state = get_fsm_state(); int rc; switch (fsm_state) { /* We're charging, so disarm alarm */ case PMIC8058_CHG_STATE_ATC: case PMIC8058_CHG_STATE_FAST_CHG: case PMIC8058_CHG_STATE_TRKL_CHG: rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_UPPER_COMPARATOR); if (!rc) rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_LOWER_COMPARATOR); if (rc) dev_err(pm8058_chg.dev, "%s: unable to set alarm state\n", __func__); break; default: /* Still not charging, so update driver state */ chg_done_cleanup(); break; }; } static int pm8058_start_charging(struct msm_hardware_charger *hw_chg, int chg_voltage, int chg_current) { int vbat_higher_than_vbatdet; int ret = 0; cancel_delayed_work_sync(&pm8058_chg.charging_check_work); /* * adjust the max current for PC USB connection - set the higher limit * to 450 and make sure we never cross it */ if (chg_current == 500) chg_current = 450; if (hw_chg->type == CHG_TYPE_AC && chg_data.max_source_current) chg_current = chg_data.max_source_current; pm8058_chg.current_charger_current = chg_current; pm8058_chg_enable_irq(FASTCHG_IRQ); ret = pm_chg_vmaxsel_set(chg_voltage); if (ret) goto out; /* set vbat to CC to CV threshold */ ret = pm_chg_vbatdet_set(AUTO_CHARGING_VBATDET); if (ret) goto out; pm8058_chg.vbatdet = AUTO_CHARGING_VBATDET; /* * get the state of vbat and if it is higher than * AUTO_CHARGING_VBATDET we start the veoc start timer * else wait for the voltage to go to AUTO_CHARGING_VBATDET * and then start the 90 min timer */ vbat_higher_than_vbatdet = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VBATDET_IRQ]); if (vbat_higher_than_vbatdet) { /* * we are in constant voltage phase of charging * IEOC should happen withing 90 mins of this instant * else we enable VEOC */ dev_info(pm8058_chg.dev, "%s begin veoc timer\n", __func__); schedule_delayed_work(&pm8058_chg.veoc_begin_work, round_jiffies_relative(msecs_to_jiffies (AUTO_CHARGING_VEOC_BEGIN_TIME_MS))); } else pm8058_chg_enable_irq(VBATDET_IRQ); ret = __pm8058_start_charging(chg_current, AUTO_CHARGING_IEOC_ITERM, AUTO_CHARGING_FAST_TIME_MAX_MINUTES); pm8058_chg.current_charger_current = chg_current; /* * We want to check the FSM state to verify we're charging. We must * wait before doing this to allow the VBATDET to settle. The worst * case for this is two seconds. The batt alarm does not have this * delay. */ schedule_delayed_work(&pm8058_chg.charging_check_work, round_jiffies_relative(msecs_to_jiffies (AUTO_CHARGING_VBATDET_DEBOUNCE_TIME_MS))); out: return ret; } static void veoc_begin_work(struct work_struct *work) { /* we have been doing CV for 90mins with no signs of IEOC * start checking for VEOC in addition with 16min charges*/ dev_info(pm8058_chg.dev, "%s begin veoc detection\n", __func__); pm8058_chg.waiting_for_veoc = 1; /* * disable VBATDET irq we dont need it unless we are at the end of * charge cycle */ pm8058_chg_disable_irq(VBATDET_IRQ); __pm8058_start_charging(pm8058_chg.current_charger_current, AUTO_CHARGING_VEOC_ITERM, AUTO_CHARGING_VEOC_TCHG); } static void vbat_low_work(struct work_struct *work) { /* * It has been one minute and the battery still holds voltage * start the final topoff - charging is almost done */ dev_info(pm8058_chg.dev, "%s vbatt maintains for a minute" "starting topoff\n", __func__); pm8058_chg.waiting_for_veoc = 0; pm8058_chg.waiting_for_topoff = 1; pm8058_chg_disable_irq(VBATDET_LOW_IRQ); pm8058_chg_disable_irq(VBATDET_IRQ); __pm8058_start_charging(pm8058_chg.current_charger_current, AUTO_CHARGING_VEOC_ITERM, AUTO_CHARGING_VEOC_TCHG_FINAL_CYCLE); } static irqreturn_t pm8058_chg_chgval_handler(int irq, void *dev_id) { u8 old, temp; int ret; if (is_chg_plugged_in()) { /* this debounces it */ if (!pm8058_chg.present) { msm_charger_notify_event(&usb_hw_chg, CHG_INSERTED_EVENT); pm8058_chg.present = 1; } } else { if (pm8058_chg.present) { ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, &old); temp = old | BIT(FORCE_OVP_OFF); ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, temp); temp = 0xFC; ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); /* 10 ms sleep is for the VCHG to discharge */ msleep(10); temp = 0xF0; ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, old); pm_chg_enum_done_enable(0); pm_chg_auto_disable(1); msm_charger_notify_event(&usb_hw_chg, CHG_REMOVED_EVENT); pm8058_chg.present = 0; } } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_chginval_handler(int irq, void *dev_id) { u8 old, temp; int ret; if (pm8058_chg.present) { pm8058_chg_disable_irq(CHGINVAL_IRQ); pm_chg_enum_done_enable(0); pm_chg_auto_disable(1); ret = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, &old); temp = old | BIT(FORCE_OVP_OFF); ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, temp); temp = 0xFC; ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); /* 10 ms sleep is for the VCHG to discharge */ msleep(10); temp = 0xF0; ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); ret = pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_OVP_TEST_REG, old); if (!is_chg_plugged_in()) { msm_charger_notify_event(&usb_hw_chg, CHG_REMOVED_EVENT); pm8058_chg.present = 0; } else { /* was a fake */ pm8058_chg_enable_irq(CHGINVAL_IRQ); } } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_auto_chgdone_handler(int irq, void *dev_id) { dev_info(pm8058_chg.dev, "%s waiting a sec to confirm\n", __func__); pm8058_chg_disable_irq(AUTO_CHGDONE_IRQ); pm8058_chg_disable_irq(VBATDET_IRQ); if (!delayed_work_pending(&pm8058_chg.chg_done_check_work)) { schedule_delayed_work(&pm8058_chg.chg_done_check_work, round_jiffies_relative(msecs_to_jiffies (AUTO_CHARGING_DONE_CHECK_TIME_MS))); } return IRQ_HANDLED; } /* can only happen with the pmic charger when it has been charing * for either 16 mins wating for VEOC or 32 mins for topoff * without a IEOC indication */ static irqreturn_t pm8058_chg_auto_chgfail_handler(int irq, void *dev_id) { pm8058_chg_disable_irq(AUTO_CHGFAIL_IRQ); if (pm8058_chg.waiting_for_topoff == 1) { dev_info(pm8058_chg.dev, "%s topoff done, charging done\n", __func__); pm8058_chg.waiting_for_topoff = 0; /* notify we are done charging */ msm_charger_notify_event(&usb_hw_chg, CHG_DONE_EVENT); } else { /* start one minute timer and monitor VBATDET_LOW */ dev_info(pm8058_chg.dev, "%s monitoring vbat_low for a" "minute\n", __func__); schedule_delayed_work(&pm8058_chg.check_vbat_low_work, round_jiffies_relative(msecs_to_jiffies (AUTO_CHARGING_VEOC_VBAT_LOW_CHECK_TIME_MS))); /* note we are waiting on veoc */ pm8058_chg.waiting_for_veoc = 1; pm_chg_vbatdet_set(AUTO_CHARGING_VEOC_VBATDET); pm8058_chg.vbatdet = AUTO_CHARGING_VEOC_VBATDET; pm8058_chg_enable_irq(VBATDET_LOW_IRQ); } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_chgstate_handler(int irq, void *dev_id) { u8 temp; temp = 0x00; if (!pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST_3, temp)) { pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TEST_3, &temp); dev_dbg(pm8058_chg.dev, "%s state=%d\n", __func__, temp); } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_fastchg_handler(int irq, void *dev_id) { pm8058_chg_disable_irq(FASTCHG_IRQ); /* we have begun the fast charging state */ dev_info(pm8058_chg.dev, "%s begin fast charging" , __func__); msm_charger_notify_event(&usb_hw_chg, CHG_BATT_BEGIN_FAST_CHARGING); return IRQ_HANDLED; } static irqreturn_t pm8058_chg_batttemp_handler(int irq, void *dev_id) { int ret; /* we could get temperature * interrupt when the battery is plugged out */ ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ]); if (ret) { msm_charger_notify_event(&usb_hw_chg, CHG_BATT_REMOVED); } else { /* read status to determine we are inrange or outofrange */ ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATTTEMP_IRQ]); if (ret) msm_charger_notify_event(&usb_hw_chg, CHG_BATT_TEMP_OUTOFRANGE); else msm_charger_notify_event(&usb_hw_chg, CHG_BATT_TEMP_INRANGE); } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_vbatdet_handler(int irq, void *dev_id) { int ret; /* settling time */ msleep(20); ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[VBATDET_IRQ]); if (ret) { if (pm8058_chg.vbatdet == AUTO_CHARGING_VBATDET && !delayed_work_pending(&pm8058_chg.veoc_begin_work)) { /* * we are in constant voltage phase of charging * IEOC should happen withing 90 mins of this instant * else we enable VEOC */ dev_info(pm8058_chg.dev, "%s entered constant voltage" "begin veoc timer\n", __func__); schedule_delayed_work(&pm8058_chg.veoc_begin_work, round_jiffies_relative (msecs_to_jiffies (AUTO_CHARGING_VEOC_BEGIN_TIME_MS))); } } else { if (pm8058_chg.vbatdet == AUTO_CHARGING_VEOC_VBATDET) { cancel_delayed_work_sync( &pm8058_chg.check_vbat_low_work); if (pm8058_chg.waiting_for_topoff || pm8058_chg.waiting_for_veoc) { /* * the battery dropped its voltage below 4100 * around a minute charge the battery for 16 * mins and check vbat again for a minute */ dev_info(pm8058_chg.dev, "%s batt dropped vlt" "within a minute\n", __func__); pm8058_chg.waiting_for_topoff = 0; pm8058_chg.waiting_for_veoc = 1; pm8058_chg_disable_irq(VBATDET_IRQ); __pm8058_start_charging(pm8058_chg. current_charger_current, AUTO_CHARGING_VEOC_ITERM, AUTO_CHARGING_VEOC_TCHG); } } } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_batt_replace_handler(int irq, void *dev_id) { int ret; pm8058_chg_disable_irq(BATT_REPLACE_IRQ); ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATT_REPLACE_IRQ]); if (ret) { msm_charger_notify_event(&usb_hw_chg, CHG_BATT_INSERTED); /* * battery is present enable batt removal * and batt temperatture interrupt */ pm8058_chg_enable_irq(BATTCONNECT_IRQ); } return IRQ_HANDLED; } static irqreturn_t pm8058_chg_battconnect_handler(int irq, void *dev_id) { int ret; ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ]); if (ret) { msm_charger_notify_event(&usb_hw_chg, CHG_BATT_REMOVED); } else { msm_charger_notify_event(&usb_hw_chg, CHG_BATT_INSERTED); pm8058_chg_enable_irq(BATTTEMP_IRQ); } return IRQ_HANDLED; } static int get_rt_status(void *data, u64 * val) { int i = (int)data; int ret; ret = pm_chg_get_rt_status(i); *val = ret; return 0; } DEFINE_SIMPLE_ATTRIBUTE(rt_fops, get_rt_status, NULL, "%llu\n"); DEFINE_SIMPLE_ATTRIBUTE(fsm_fops, get_fsm_status, NULL, "%llu\n"); static void free_irqs(void) { int i; for (i = 0; i < PMIC_CHG_MAX_INTS; i++) if (pm8058_chg.pmic_chg_irq[i]) { free_irq(pm8058_chg.pmic_chg_irq[i], NULL); pm8058_chg.pmic_chg_irq[i] = 0; } } static int __devinit request_irqs(struct platform_device *pdev) { struct resource *res; int ret; ret = 0; bitmap_fill(pm8058_chg.enabled_irqs, PMIC_CHG_MAX_INTS); res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "CHGVAL"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource CHGVAL\n", __func__); goto err_out; } else { ret = request_threaded_irq(res->start, NULL, pm8058_chg_chgval_handler, IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[CHGVAL_IRQ] = res->start; pm8058_chg_disable_irq(CHGVAL_IRQ); enable_irq_wake(pm8058_chg.pmic_chg_irq[CHGVAL_IRQ]); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "CHGINVAL"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource CHGINVAL\n", __func__); goto err_out; } else { ret = request_threaded_irq(res->start, NULL, pm8058_chg_chginval_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[CHGINVAL_IRQ] = res->start; pm8058_chg_disable_irq(CHGINVAL_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "AUTO_CHGDONE"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource AUTO_CHGDONE\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_auto_chgdone_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[AUTO_CHGDONE_IRQ] = res->start; pm8058_chg_disable_irq(AUTO_CHGDONE_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "AUTO_CHGFAIL"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource AUTO_CHGFAIL\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_auto_chgfail_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[AUTO_CHGFAIL_IRQ] = res->start; pm8058_chg_disable_irq(AUTO_CHGFAIL_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "CHGSTATE"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource CHGSTATE\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_chgstate_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[CHGSTATE_IRQ] = res->start; pm8058_chg_disable_irq(CHGSTATE_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "FASTCHG"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource FASTCHG\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_fastchg_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[FASTCHG_IRQ] = res->start; pm8058_chg_disable_irq(FASTCHG_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "BATTTEMP"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource CHG_END\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_batttemp_handler, IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[BATTTEMP_IRQ] = res->start; pm8058_chg_disable_irq(BATTTEMP_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "BATT_REPLACE"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource BATT_REPLACE\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_batt_replace_handler, IRQF_TRIGGER_RISING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[BATT_REPLACE_IRQ] = res->start; pm8058_chg_disable_irq(BATT_REPLACE_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "BATTCONNECT"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource BATTCONNECT\n", __func__); goto err_out; } else { ret = request_irq(res->start, pm8058_chg_battconnect_handler, IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ] = res->start; pm8058_chg_disable_irq(BATTCONNECT_IRQ); } } res = platform_get_resource_byname(pdev, IORESOURCE_IRQ, "VBATDET"); if (res == NULL) { dev_err(pm8058_chg.dev, "%s:couldnt find resource VBATDET\n", __func__); goto err_out; } else { ret = request_threaded_irq(res->start, NULL, pm8058_chg_vbatdet_handler, IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING, res->name, NULL); if (ret < 0) { dev_err(pm8058_chg.dev, "%s:couldnt request %d %d\n", __func__, res->start, ret); goto err_out; } else { pm8058_chg.pmic_chg_irq[VBATDET_IRQ] = res->start; pm8058_chg_disable_irq(VBATDET_IRQ); } } return 0; err_out: free_irqs(); return -EINVAL; } static int pm8058_get_charge_batt(void) { u8 temp; int rc; rc = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, &temp); if (rc) return rc; temp &= BIT(CHG_CHARGE_BAT); if (temp) temp = 1; return temp; } EXPORT_SYMBOL(pm8058_get_charge_batt); static int pm8058_set_charge_batt(int on) { u8 temp; int rc; rc = pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, &temp); if (rc) return rc; if (on) temp |= BIT(CHG_CHARGE_BAT); else temp &= ~BIT(CHG_CHARGE_BAT); return pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_CNTRL, temp); } EXPORT_SYMBOL(pm8058_set_charge_batt); static int get_charge_batt(void *data, u64 * val) { int ret; ret = pm8058_get_charge_batt(); if (ret < 0) return ret; *val = ret; return 0; } static int set_charge_batt(void *data, u64 val) { return pm8058_set_charge_batt(val); } DEFINE_SIMPLE_ATTRIBUTE(fet_fops, get_charge_batt, set_charge_batt, "%llu\n"); static void pm8058_chg_determine_initial_state(void) { if (is_chg_plugged_in()) { pm8058_chg.present = 1; msm_charger_notify_event(&usb_hw_chg, CHG_INSERTED_EVENT); dev_info(pm8058_chg.dev, "%s charger present\n", __func__); } else { pm8058_chg.present = 0; dev_info(pm8058_chg.dev, "%s charger absent\n", __func__); } pm8058_chg_enable_irq(CHGVAL_IRQ); } static int pm8058_stop_charging(struct msm_hardware_charger *hw_chg) { int ret; dev_info(pm8058_chg.dev, "%s stopping charging\n", __func__); /* disable the irqs enabled while charging */ pm8058_chg_disable_irq(AUTO_CHGFAIL_IRQ); pm8058_chg_disable_irq(CHGHOT_IRQ); pm8058_chg_disable_irq(AUTO_CHGDONE_IRQ); pm8058_chg_disable_irq(FASTCHG_IRQ); pm8058_chg_disable_irq(CHG_END_IRQ); pm8058_chg_disable_irq(VBATDET_IRQ); pm8058_chg_disable_irq(VBATDET_LOW_IRQ); cancel_delayed_work_sync(&pm8058_chg.veoc_begin_work); cancel_delayed_work_sync(&pm8058_chg.check_vbat_low_work); cancel_delayed_work_sync(&pm8058_chg.chg_done_check_work); cancel_delayed_work_sync(&pm8058_chg.charging_check_work); ret = pm_chg_get_rt_status(pm8058_chg.pmic_chg_irq[FASTCHG_IRQ]); if (ret == 1) pm_chg_suspend(1); else dev_err(pm8058_chg.dev, "%s called when not fast-charging\n", __func__); pm_chg_failed_clear(1); pm8058_chg.waiting_for_veoc = 0; pm8058_chg.waiting_for_topoff = 0; if (pm8058_chg.voter) msm_xo_mode_vote(pm8058_chg.voter, MSM_XO_MODE_OFF); return 0; } static int get_status(void *data, u64 * val) { *val = pm8058_chg.current_charger_current; return 0; } static int set_status(void *data, u64 val) { pm8058_chg.current_charger_current = val; if (pm8058_chg.current_charger_current) pm8058_start_charging(NULL, AUTO_CHARGING_VMAXSEL, pm8058_chg.current_charger_current); else pm8058_stop_charging(NULL); return 0; } DEFINE_SIMPLE_ATTRIBUTE(chg_fops, get_status, set_status, "%llu\n"); static int set_disable_status_param(const char *val, struct kernel_param *kp) { int ret; ret = param_set_int(val, kp); if (ret) return ret; if (pm8058_chg.inited && pm8058_chg.disabled) { /* * stop_charging is called during usb suspend * act as the usb is removed by disabling auto and enum */ pm_chg_enum_done_enable(0); pm_chg_auto_disable(1); pm8058_stop_charging(NULL); } return 0; } module_param_call(disabled, set_disable_status_param, param_get_uint, &(pm8058_chg.disabled), 0644); static int pm8058_charging_switched(struct msm_hardware_charger *hw_chg) { u8 temp; temp = 0xA3; pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST_2, temp); temp = 0x84; pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST_2, temp); msleep(2); temp = 0x80; pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST_2, temp); return 0; } static int get_reg(void *data, u64 * val) { int i = (int)data; int ret; u8 temp; ret = pm8xxx_readb(pm8058_chg.dev->parent, i, &temp); if (ret) return -EAGAIN; *val = temp; return 0; } static int set_reg(void *data, u64 val) { int i = (int)data; int ret; u8 temp; temp = (u8) val; ret = pm8xxx_writeb(pm8058_chg.dev->parent, i, temp); mb(); if (ret) return -EAGAIN; return 0; } DEFINE_SIMPLE_ATTRIBUTE(reg_fops, get_reg, set_reg, "%llu\n"); #ifdef CONFIG_DEBUG_FS static void create_debugfs_entries(void) { pm8058_chg.dent = debugfs_create_dir("pm8058_usb_chg", NULL); if (IS_ERR(pm8058_chg.dent)) { pr_err("pmic charger couldnt create debugfs dir\n"); return; } debugfs_create_file("CHG_CNTRL", 0644, pm8058_chg.dent, (void *)PM8058_CHG_CNTRL, ®_fops); debugfs_create_file("CHG_CNTRL_2", 0644, pm8058_chg.dent, (void *)PM8058_CHG_CNTRL_2, ®_fops); debugfs_create_file("CHG_VMAX_SEL", 0644, pm8058_chg.dent, (void *)PM8058_CHG_VMAX_SEL, ®_fops); debugfs_create_file("CHG_VBAT_DET", 0644, pm8058_chg.dent, (void *)PM8058_CHG_VBAT_DET, ®_fops); debugfs_create_file("CHG_IMAX", 0644, pm8058_chg.dent, (void *)PM8058_CHG_IMAX, ®_fops); debugfs_create_file("CHG_TRICKLE", 0644, pm8058_chg.dent, (void *)PM8058_CHG_TRICKLE, ®_fops); debugfs_create_file("CHG_ITERM", 0644, pm8058_chg.dent, (void *)PM8058_CHG_ITERM, ®_fops); debugfs_create_file("CHG_TTRKL_MAX", 0644, pm8058_chg.dent, (void *)PM8058_CHG_TTRKL_MAX, ®_fops); debugfs_create_file("CHG_TCHG_MAX", 0644, pm8058_chg.dent, (void *)PM8058_CHG_TCHG_MAX, ®_fops); debugfs_create_file("CHG_TEMP_THRESH", 0644, pm8058_chg.dent, (void *)PM8058_CHG_TEMP_THRESH, ®_fops); debugfs_create_file("CHG_TEMP_REG", 0644, pm8058_chg.dent, (void *)PM8058_CHG_TEMP_REG, ®_fops); debugfs_create_file("FSM_STATE", 0644, pm8058_chg.dent, NULL, &fsm_fops); debugfs_create_file("stop", 0644, pm8058_chg.dent, NULL, &chg_fops); if (pm8058_chg.pmic_chg_irq[CHGVAL_IRQ]) debugfs_create_file("CHGVAL", 0444, pm8058_chg.dent, (void *)pm8058_chg.pmic_chg_irq[CHGVAL_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHGINVAL_IRQ]) debugfs_create_file("CHGINVAL", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHGINVAL_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHGILIM_IRQ]) debugfs_create_file("CHGILIM", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHGILIM_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[VCP_IRQ]) debugfs_create_file("VCP", 0444, pm8058_chg.dent, (void *)pm8058_chg.pmic_chg_irq[VCP_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[ATC_DONE_IRQ]) debugfs_create_file("ATC_DONE", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[ATC_DONE_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[ATCFAIL_IRQ]) debugfs_create_file("ATCFAIL", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[ATCFAIL_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[AUTO_CHGDONE_IRQ]) debugfs_create_file("AUTO_CHGDONE", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[AUTO_CHGDONE_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[AUTO_CHGFAIL_IRQ]) debugfs_create_file("AUTO_CHGFAIL", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[AUTO_CHGFAIL_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHGSTATE_IRQ]) debugfs_create_file("CHGSTATE", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHGSTATE_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[FASTCHG_IRQ]) debugfs_create_file("FASTCHG", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[FASTCHG_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHG_END_IRQ]) debugfs_create_file("CHG_END", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHG_END_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[BATTTEMP_IRQ]) debugfs_create_file("BATTTEMP", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[BATTTEMP_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHGHOT_IRQ]) debugfs_create_file("CHGHOT", 0444, pm8058_chg.dent, (void *)pm8058_chg.pmic_chg_irq[CHGHOT_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHGTLIMIT_IRQ]) debugfs_create_file("CHGTLIMIT", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHGTLIMIT_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[CHG_GONE_IRQ]) debugfs_create_file("CHG_GONE", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[CHG_GONE_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[VCPMAJOR_IRQ]) debugfs_create_file("VCPMAJOR", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[VCPMAJOR_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[BATFET_IRQ]) debugfs_create_file("BATFET", 0444, pm8058_chg.dent, (void *)pm8058_chg.pmic_chg_irq[BATFET_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[BATT_REPLACE_IRQ]) debugfs_create_file("BATT_REPLACE", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[BATT_REPLACE_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ]) debugfs_create_file("BATTCONNECT", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[BATTCONNECT_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[VBATDET_IRQ]) debugfs_create_file("VBATDET", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[VBATDET_IRQ], &rt_fops); if (pm8058_chg.pmic_chg_irq[VBATDET_LOW_IRQ]) debugfs_create_file("VBATDET_LOW", 0444, pm8058_chg.dent, (void *) pm8058_chg.pmic_chg_irq[VBATDET_LOW_IRQ], &rt_fops); debugfs_create_file("CHARGE_BATT", 0444, pm8058_chg.dent, NULL, &fet_fops); } #else static inline void create_debugfs_entries(void) { } #endif static void remove_debugfs_entries(void) { debugfs_remove_recursive(pm8058_chg.dent); } static struct msm_hardware_charger usb_hw_chg = { .type = CHG_TYPE_USB, .rating = 1, .name = "pm8058-usb", .start_charging = pm8058_start_charging, .stop_charging = pm8058_stop_charging, .charging_switched = pm8058_charging_switched, .start_system_current = pm8058_start_system_current, .stop_system_current = pm8058_stop_system_current, }; static int batt_read_adc(int channel, int *mv_reading) { int ret; void *h; struct adc_chan_result adc_chan_result; struct completion conv_complete_evt; pr_debug("%s: called for %d\n", __func__, channel); ret = adc_channel_open(channel, &h); if (ret) { pr_err("%s: couldnt open channel %d ret=%d\n", __func__, channel, ret); goto out; } init_completion(&conv_complete_evt); ret = adc_channel_request_conv(h, &conv_complete_evt); if (ret) { pr_err("%s: couldnt request conv channel %d ret=%d\n", __func__, channel, ret); goto out; } wait_for_completion(&conv_complete_evt); ret = adc_channel_read_result(h, &adc_chan_result); if (ret) { pr_err("%s: couldnt read result channel %d ret=%d\n", __func__, channel, ret); goto out; } ret = adc_channel_close(h); if (ret) { pr_err("%s: couldnt close channel %d ret=%d\n", __func__, channel, ret); } if (mv_reading) *mv_reading = adc_chan_result.measurement; pr_debug("%s: done for %d\n", __func__, channel); return adc_chan_result.physical; out: pr_debug("%s: done for %d\n", __func__, channel); return -EINVAL; } #define BATT_THERM_OPEN_MV 2000 static int pm8058_is_battery_present(void) { int mv_reading; mv_reading = 0; batt_read_adc(CHANNEL_ADC_BATT_THERM, &mv_reading); pr_debug("%s: therm_raw is %d\n", __func__, mv_reading); if (mv_reading > 0 && mv_reading < BATT_THERM_OPEN_MV) return 1; return 0; } static int pm8058_get_battery_temperature(void) { return batt_read_adc(CHANNEL_ADC_BATT_THERM, NULL); } #define BATT_THERM_OPERATIONAL_MAX_CELCIUS 40 #define BATT_THERM_OPERATIONAL_MIN_CELCIUS 0 static int pm8058_is_battery_temp_within_range(void) { int therm_celcius; therm_celcius = pm8058_get_battery_temperature(); pr_debug("%s: therm_celcius is %d\n", __func__, therm_celcius); if (therm_celcius > 0 && therm_celcius > BATT_THERM_OPERATIONAL_MIN_CELCIUS && therm_celcius < BATT_THERM_OPERATIONAL_MAX_CELCIUS) return 1; return 0; } #define BATT_ID_MAX_MV 800 #define BATT_ID_MIN_MV 600 static int pm8058_is_battery_id_valid(void) { int batt_id_mv; batt_id_mv = batt_read_adc(CHANNEL_ADC_BATT_ID, NULL); pr_debug("%s: batt_id_mv is %d\n", __func__, batt_id_mv); /* * The readings are not in range * assume battery is present for now */ return 1; if (batt_id_mv > 0 && batt_id_mv > BATT_ID_MIN_MV && batt_id_mv < BATT_ID_MAX_MV) return 1; return 0; } /* returns voltage in mV */ static int pm8058_get_battery_mvolts(void) { int vbatt_mv; vbatt_mv = batt_read_adc(CHANNEL_ADC_VBATT, NULL); pr_debug("%s: vbatt_mv is %d\n", __func__, vbatt_mv); if (vbatt_mv > 0) return vbatt_mv; /* * return 0 to tell the upper layers * we couldnt read the battery voltage */ return 0; } static int msm_battery_gauge_alarm_notify(struct notifier_block *nb, unsigned long status, void *unused) { int rc; pr_info("%s: status: %lu\n", __func__, status); switch (status) { case 0: dev_err(pm8058_chg.dev, "%s: spurious interrupt\n", __func__); break; /* expected case - trip of low threshold */ case 1: rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_UPPER_COMPARATOR); if (!rc) rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_LOWER_COMPARATOR); if (rc) dev_err(pm8058_chg.dev, "%s: unable to set alarm state\n", __func__); msm_charger_notify_event(NULL, CHG_BATT_NEEDS_RECHARGING); break; case 2: dev_err(pm8058_chg.dev, "%s: trip of high threshold\n", __func__); break; default: dev_err(pm8058_chg.dev, "%s: error received\n", __func__); }; return 0; } static int pm8058_monitor_for_recharging(void) { int rc; /* enable low comparator */ rc = pm8xxx_batt_alarm_disable(PM8XXX_BATT_ALARM_UPPER_COMPARATOR); if (!rc) return pm8xxx_batt_alarm_enable( PM8XXX_BATT_ALARM_LOWER_COMPARATOR); return rc; } static struct msm_battery_gauge pm8058_batt_gauge = { .get_battery_mvolts = pm8058_get_battery_mvolts, .get_battery_temperature = pm8058_get_battery_temperature, .is_battery_present = pm8058_is_battery_present, .is_battery_temp_within_range = pm8058_is_battery_temp_within_range, .is_battery_id_valid = pm8058_is_battery_id_valid, .monitor_for_recharging = pm8058_monitor_for_recharging, }; static int pm8058_usb_voltage_lower_limit(void) { u8 temp, old; int ret = 0; temp = 0x10; ret |= pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); ret |= pm8xxx_readb(pm8058_chg.dev->parent, PM8058_CHG_TEST, &old); old = old & ~BIT(IGNORE_LL); temp = 0x90 | (0xF & old); ret |= pm8xxx_writeb(pm8058_chg.dev->parent, PM8058_CHG_TEST, temp); return ret; } static int __devinit pm8058_charger_probe(struct platform_device *pdev) { struct pmic8058_charger_data *pdata; int rc = 0; pm8058_chg.pdata = pdev->dev.platform_data; pm8058_chg.dev = &pdev->dev; pdata = (struct pmic8058_charger_data *) pm8058_chg.pdata; if (pdata == NULL) { pr_err("%s: pdata not present\n", __func__); return -EINVAL; } if (pdata->charger_data_valid) { usb_hw_chg.type = pdata->charger_type; chg_data.charger_type = pdata->charger_type; chg_data.max_source_current = pdata->max_source_current; } rc = request_irqs(pdev); if (rc) { pr_err("%s: couldnt register interrupts\n", __func__); goto out; } rc = pm8058_usb_voltage_lower_limit(); if (rc) { pr_err("%s: couldnt set ignore lower limit bit to 0\n", __func__); goto free_irq; } rc = msm_charger_register(&usb_hw_chg); if (rc) { pr_err("%s: msm_charger_register failed ret=%d\n", __func__, rc); goto free_irq; } pm_chg_batt_temp_disable(0); msm_battery_gauge_register(&pm8058_batt_gauge); __dump_chg_regs(); create_debugfs_entries(); INIT_DELAYED_WORK(&pm8058_chg.veoc_begin_work, veoc_begin_work); INIT_DELAYED_WORK(&pm8058_chg.check_vbat_low_work, vbat_low_work); INIT_DELAYED_WORK(&pm8058_chg.chg_done_check_work, chg_done_check_work); INIT_DELAYED_WORK(&pm8058_chg.charging_check_work, charging_check_work); /* determine what state the charger is in */ pm8058_chg_determine_initial_state(); pm8058_chg_enable_irq(BATTTEMP_IRQ); pm8058_chg_enable_irq(BATTCONNECT_IRQ); rc = pm8xxx_batt_alarm_disable(PM8XXX_BATT_ALARM_UPPER_COMPARATOR); if (!rc) rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_LOWER_COMPARATOR); if (rc) { pr_err("%s: unable to set batt alarm state\n", __func__); goto free_irq; } /* * The batt-alarm driver requires sane values for both min / max, * regardless of whether they're both activated. */ rc = pm8xxx_batt_alarm_threshold_set( PM8XXX_BATT_ALARM_LOWER_COMPARATOR, resume_mv); if (!rc) rc = pm8xxx_batt_alarm_threshold_set( PM8XXX_BATT_ALARM_UPPER_COMPARATOR, 4300); if (rc) { pr_err("%s: unable to set batt alarm threshold\n", __func__); goto free_irq; } rc = pm8xxx_batt_alarm_hold_time_set( PM8XXX_BATT_ALARM_HOLD_TIME_16_MS); if (rc) { pr_err("%s: unable to set batt alarm hold time\n", __func__); goto free_irq; } /* PWM enabled at 2Hz */ rc = pm8xxx_batt_alarm_pwm_rate_set(1, 7, 4); if (rc) { pr_err("%s: unable to set batt alarm pwm rate\n", __func__); goto free_irq; } rc = pm8xxx_batt_alarm_register_notifier(&alarm_notifier); if (rc) { pr_err("%s: unable to register alarm notifier\n", __func__); goto free_irq; } pm8058_chg.inited = 1; return 0; free_irq: free_irqs(); out: return rc; } static int __devexit pm8058_charger_remove(struct platform_device *pdev) { struct pm8058_charger_chip *chip = platform_get_drvdata(pdev); int rc; msm_charger_notify_event(&usb_hw_chg, CHG_REMOVED_EVENT); msm_charger_unregister(&usb_hw_chg); cancel_delayed_work_sync(&pm8058_chg.veoc_begin_work); cancel_delayed_work_sync(&pm8058_chg.check_vbat_low_work); cancel_delayed_work_sync(&pm8058_chg.charging_check_work); free_irqs(); remove_debugfs_entries(); kfree(chip); rc = pm8xxx_batt_alarm_disable(PM8XXX_BATT_ALARM_UPPER_COMPARATOR); if (!rc) rc = pm8xxx_batt_alarm_disable( PM8XXX_BATT_ALARM_LOWER_COMPARATOR); if (rc) pr_err("%s: unable to set batt alarm state\n", __func__); rc |= pm8xxx_batt_alarm_unregister_notifier(&alarm_notifier); if (rc) pr_err("%s: unable to register alarm notifier\n", __func__); return rc; } static struct platform_driver pm8058_charger_driver = { .probe = pm8058_charger_probe, .remove = __devexit_p(pm8058_charger_remove), .driver = { .name = "pm8058-charger", .owner = THIS_MODULE, }, }; static int __init pm8058_charger_init(void) { return platform_driver_register(&pm8058_charger_driver); } static void __exit pm8058_charger_exit(void) { platform_driver_unregister(&pm8058_charger_driver); } late_initcall(pm8058_charger_init); module_exit(pm8058_charger_exit); MODULE_LICENSE("GPL v2"); MODULE_DESCRIPTION("PMIC8058 BATTERY driver"); MODULE_VERSION("1.0"); MODULE_ALIAS("platform:pm8058_charger");