/* arch/arm/mach-msm/htc_battery.c * * Copyright (C) 2008 HTC Corporation. * Copyright (C) 2008 Google, Inc. * * This software is licensed under the terms of the GNU General Public * License version 2, as published by the Free Software Foundation, and * may be copied, distributed, and modified under those terms. * * 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 /* Jay, to register display notifier */ #include #include #ifdef CONFIG_HTC_BATTCHG_SMEM #include "smd_private.h" #endif #if defined(CONFIG_TROUT_BATTCHG_DOCK) #include #endif #ifdef CONFIG_BATTERY_DS2784 #include #elif CONFIG_BATTERY_DS2746 #include #endif #include static struct wake_lock vbus_wake_lock; enum { HTC_BATT_DEBUG_M2A_RPC = 1U << 0, HTC_BATT_DEBUG_A2M_RPC = 1U << 1, HTC_BATT_DEBUG_UEVT = 1U << 2, HTC_BATT_DEBUG_USER_QUERY = 1U << 3, HTC_BATT_DEBUG_USB_NOTIFY = 1U << 4, HTC_BATT_DEBUG_SMEM = 1U << 5, }; static int htc_batt_debug_mask = HTC_BATT_DEBUG_M2A_RPC | HTC_BATT_DEBUG_A2M_RPC | HTC_BATT_DEBUG_UEVT | HTC_BATT_DEBUG_USB_NOTIFY | HTC_BATT_DEBUG_SMEM; module_param_named(debug_mask, htc_batt_debug_mask, int, S_IRUGO | S_IWUSR | S_IWGRP); #define BATT_LOG(x...) do { \ struct timespec ts; \ struct rtc_time tm; \ getnstimeofday(&ts); \ rtc_time_to_tm(ts.tv_sec, &tm); \ printk(KERN_INFO "batt: " x); \ printk(" at %lld (%d-%02d-%02d %02d:%02d:%02d.%09lu UTC)\n", \ ktime_to_ns(ktime_get()), tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday, \ tm.tm_hour, tm.tm_min, tm.tm_sec, ts.tv_nsec); \ } while (0) #define BATT_ERR(x...) do { \ struct timespec ts; \ struct rtc_time tm; \ getnstimeofday(&ts); \ rtc_time_to_tm(ts.tv_sec, &tm); \ printk(KERN_ERR "batt: err:" x); \ printk(" at %lld (%d-%02d-%02d %02d:%02d:%02d.%09lu UTC)\n", \ ktime_to_ns(ktime_get()), tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday, \ tm.tm_hour, tm.tm_min, tm.tm_sec, ts.tv_nsec); \ } while (0) /* rpc related */ #define APP_BATT_PDEV_NAME "rs30100001:00000000" #define APP_BATT_PROG 0x30100001 #define APP_BATT_VER MSM_RPC_VERS(0,0) #define HTC_PROCEDURE_BATTERY_NULL 0 #define HTC_PROCEDURE_GET_BATT_LEVEL 1 #define HTC_PROCEDURE_GET_BATT_INFO 2 #define HTC_PROCEDURE_GET_CABLE_STATUS 3 #define HTC_PROCEDURE_SET_BATT_DELTA 4 #define HTC_PROCEDURE_CHARGER_SWITCH 6 #define HTC_PROCEDURE_SET_FULL_LEVEL 7 #define HTC_PROCEDURE_GET_USB_ACCESSORY_ADC_LEVEL 10 const char *charger_tags[] = {"none", "USB", "AC"}; struct htc_battery_info { int device_id; int present; unsigned long update_time; /* lock to protect the battery info */ struct mutex lock; /* lock held while calling the arm9 to query the battery info */ struct mutex rpc_lock; struct battery_info_reply rep; int (*func_show_batt_attr)(struct device_attribute *attr, char *buf); int gpio_mbat_in; int gpio_usb_id; int gpio_mchg_en_n; int gpio_iset; int guage_driver; int m2a_cable_detect; int charger; }; static struct msm_rpc_endpoint *endpoint; static struct htc_battery_info htc_batt_info; /* Remove cache mechanism to prevent cable status not sync. */ static unsigned int cache_time; static int htc_battery_initial = 0; static int htc_full_level_flag = 0; static enum power_supply_property htc_battery_properties[] = { POWER_SUPPLY_PROP_STATUS, POWER_SUPPLY_PROP_HEALTH, POWER_SUPPLY_PROP_PRESENT, POWER_SUPPLY_PROP_TECHNOLOGY, POWER_SUPPLY_PROP_CAPACITY, }; static enum power_supply_property htc_power_properties[] = { POWER_SUPPLY_PROP_ONLINE, }; static char *supply_list[] = { "battery", }; /* HTC dedicated attributes */ static ssize_t htc_battery_show_property(struct device *dev, struct device_attribute *attr, char *buf); static int htc_power_get_property(struct power_supply *psy, enum power_supply_property psp, union power_supply_propval *val); static int htc_battery_get_property(struct power_supply *psy, enum power_supply_property psp, union power_supply_propval *val); static struct power_supply htc_power_supplies[] = { { .name = "battery", .type = POWER_SUPPLY_TYPE_BATTERY, .properties = htc_battery_properties, .num_properties = ARRAY_SIZE(htc_battery_properties), .get_property = htc_battery_get_property, }, { .name = "usb", .type = POWER_SUPPLY_TYPE_USB, .supplied_to = supply_list, .num_supplicants = ARRAY_SIZE(supply_list), .properties = htc_power_properties, .num_properties = ARRAY_SIZE(htc_power_properties), .get_property = htc_power_get_property, }, { .name = "ac", .type = POWER_SUPPLY_TYPE_MAINS, .supplied_to = supply_list, .num_supplicants = ARRAY_SIZE(supply_list), .properties = htc_power_properties, .num_properties = ARRAY_SIZE(htc_power_properties), .get_property = htc_power_get_property, }, }; static int update_batt_info(void); static void usb_status_notifier_func(int online); //static int g_usb_online; static struct t_usb_status_notifier usb_status_notifier = { .name = "htc_battery", .func = usb_status_notifier_func, }; /* Move cable detection/notification to standard PMIC RPC. */ static BLOCKING_NOTIFIER_HEAD(cable_status_notifier_list); int register_notifier_cable_status(struct notifier_block *nb) { return blocking_notifier_chain_register(&cable_status_notifier_list, nb); } int unregister_notifier_cable_status(struct notifier_block *nb) { return blocking_notifier_chain_unregister(&cable_status_notifier_list, nb); } /* -------------------------------------------------------------------------- */ /* For sleep charging screen. */ static int zcharge_enabled; static int htc_is_zcharge_enabled(void) { return zcharge_enabled; } static int __init enable_zcharge_setup(char *str) { int cal = simple_strtol(str, NULL, 0); zcharge_enabled = cal; return 1; } __setup("enable_zcharge=", enable_zcharge_setup); static int htc_is_cable_in(void) { if (!htc_batt_info.update_time) { BATT_ERR("%s: battery driver hasn't been initialized yet.", __func__); return -EINVAL; } return (htc_batt_info.rep.charging_source != CHARGER_BATTERY) ? 1 : 0; } /** * htc_power_policy - check if it obeys our policy * return 0 for no errors, to indicate it follows policy. * non zero otherwise. **/ static int __htc_power_policy(void) { if (!zcharge_enabled) return 0; if (htc_is_cable_in()) return 1; return 0; } /* * Jay, 7/1/09' */ static int htc_power_policy(struct notifier_block *nfb, unsigned long action, void *ignored) { int rc; switch (action) { case NOTIFY_POWER: pr_info("%s: enter.\n", __func__); rc = __htc_power_policy(); if (rc) return NOTIFY_STOP; else return NOTIFY_OK; } return NOTIFY_DONE; /* we did not care other action here */ } unsigned int batt_get_status(enum power_supply_property psp) { union power_supply_propval val; if (update_batt_info()) return -EINVAL; switch (psp) { case POWER_SUPPLY_PROP_CAPACITY: mutex_lock(&htc_batt_info.lock); val.intval = htc_batt_info.rep.level; mutex_unlock(&htc_batt_info.lock); /* prevent shutdown before battery driver ready. */ if (htc_batt_info.device_id == 0) val.intval = 55; /* 55 == ?? */ break; case POWER_SUPPLY_PROP_TEMP: mutex_lock(&htc_batt_info.lock); val.intval = htc_batt_info.rep.batt_temp; mutex_unlock(&htc_batt_info.lock); break; case POWER_SUPPLY_PROP_VOLTAGE_NOW: mutex_lock(&htc_batt_info.lock); val.intval = htc_batt_info.rep.batt_vol; mutex_unlock(&htc_batt_info.lock); break; default: return -EINVAL; } return val.intval; } #if defined(CONFIG_DEBUG_FS) static int htc_battery_set_charging(enum batt_ctl_t ctl); static int batt_debug_set(void *data, u64 val) { return htc_battery_set_charging((enum batt_ctl_t) val); } static int batt_debug_get(void *data, u64 *val) { return -ENOSYS; } DEFINE_SIMPLE_ATTRIBUTE(batt_debug_fops, batt_debug_get, batt_debug_set, "%llu\n"); static int __init batt_debug_init(void) { struct dentry *dent; dent = debugfs_create_dir("htc_battery", 0); if (IS_ERR(dent)) return PTR_ERR(dent); debugfs_create_file("charger_state", 0644, dent, NULL, &batt_debug_fops); return 0; } device_initcall(batt_debug_init); #endif static int init_batt_gpio(void) { if (htc_batt_info.gpio_mbat_in > 0 && gpio_request(htc_batt_info.gpio_mbat_in, "batt_detect") < 0) goto gpio_failed; if (htc_batt_info.gpio_mchg_en_n > 0 && gpio_request(htc_batt_info.gpio_mchg_en_n, "charger_en") < 0) goto gpio_failed; if (htc_batt_info.gpio_iset > 0 && gpio_request(htc_batt_info.gpio_iset, "charge_current") < 0) goto gpio_failed; return 0; gpio_failed: return -EINVAL; } /* * battery_charging_ctrl - battery charing control. * @ctl: battery control command * */ int battery_charging_ctrl(enum batt_ctl_t ctl) { int result = 0; switch (ctl) { case DISABLE: BATT_LOG("charger OFF"); /* 0 for enable; 1 disable */ result = gpio_direction_output(htc_batt_info.gpio_mchg_en_n, 1); break; case ENABLE_SLOW_CHG: BATT_LOG("charger ON (SLOW)"); result = gpio_direction_output(htc_batt_info.gpio_iset, 0); result = gpio_direction_output(htc_batt_info.gpio_mchg_en_n, 0); break; case ENABLE_FAST_CHG: BATT_LOG("charger ON (FAST)"); result = gpio_direction_output(htc_batt_info.gpio_iset, 1); result = gpio_direction_output(htc_batt_info.gpio_mchg_en_n, 0); break; default: BATT_ERR("%s: Not supported battery ctr called.!", __func__); result = -EINVAL; break; } return result; } static int htc_battery_set_charging(enum batt_ctl_t ctl) { int rc; if ((rc = battery_charging_ctrl(ctl)) < 0) goto result; if (!htc_battery_initial) { htc_batt_info.rep.charging_enabled = ctl & 0x3; } else { mutex_lock(&htc_batt_info.lock); htc_batt_info.rep.charging_enabled = ctl & 0x3; mutex_unlock(&htc_batt_info.lock); } result: return rc; } static int htc_battery_status_update(u32 curr_level) { int notify; if (!htc_battery_initial) return 0; mutex_lock(&htc_batt_info.lock); notify = (htc_batt_info.rep.level != curr_level); htc_batt_info.rep.level = curr_level; mutex_unlock(&htc_batt_info.lock); #if 0 if (notify) { power_supply_changed(&htc_power_supplies[CHARGER_BATTERY]); if (htc_batt_debug_mask & HTC_BATT_DEBUG_UEVT) BATT_LOG("power_supply_changed: battery"); } #else /* we don't check level here for charging over temp RPC call */ power_supply_changed(&htc_power_supplies[CHARGER_BATTERY]); if (htc_batt_debug_mask & HTC_BATT_DEBUG_UEVT) BATT_LOG("batt:power_supply_changed: battery"); #endif return 0; } static void update_wake_lock(int status) { if (status == CHARGER_USB) { wake_lock(&vbus_wake_lock); } else if (__htc_power_policy()) { /* Lock suspend for DOPOD charging animation */ wake_lock(&vbus_wake_lock); } else { /* give userspace some time to see the uevent and update * LED state or whatnot... */ wake_lock_timeout(&vbus_wake_lock, HZ * 5); } } #ifdef CONFIG_HTC_BATTCHG_SMEM static int htc_set_smem_cable_type(u32 cable_type); #else static int htc_set_smem_cable_type(u32 cable_type) { return -1; } #endif #if 1 //JH //this is for packet filter (notify port list while USB in/out) int update_port_list_charging_state(int enable); #endif static int htc_cable_status_update(int status) { int rc = 0; // unsigned last_source; if (!htc_battery_initial) return 0; if (status < CHARGER_BATTERY || status > CHARGER_AC) { BATT_ERR("%s: Not supported cable status received!", __func__); return -EINVAL; } mutex_lock(&htc_batt_info.lock); #if 1 pr_info("batt: %s: %d -> %d\n", __func__, htc_batt_info.rep.charging_source, status); if (status == htc_batt_info.rep.charging_source) { /* When cable overvoltage(5V => 7V) A9 will report the same source, so only sent the uevent */ if (status == CHARGER_USB) { power_supply_changed(&htc_power_supplies[CHARGER_USB]); if (htc_batt_debug_mask & HTC_BATT_DEBUG_UEVT) BATT_LOG("batt:(htc_cable_status_update)power_supply_changed: OverVoltage"); } mutex_unlock(&htc_batt_info.lock); return 0; } /* TODO: replace charging_source to vbus_present */ htc_batt_info.rep.charging_source = status; /* ARM9 should know the status it notifies, * keep this code for old projects. */ /* htc_set_smem_cable_type(status); */ update_wake_lock(status); /*ARM9 report CHARGER_AC while plug in htc_adaptor which is identify by usbid*/ /*don't need to notify usb driver*/ if ((htc_batt_info.guage_driver == GUAGE_MODEM) && (status == CHARGER_AC)) { htc_set_smem_cable_type(CHARGER_AC); power_supply_changed(&htc_power_supplies[CHARGER_AC]); } else msm_hsusb_set_vbus_state(!!htc_batt_info.rep.charging_source); /* TODO: use power_supply_change to notify battery drivers. */ if (htc_batt_info.guage_driver == GUAGE_DS2784 || htc_batt_info.guage_driver == GUAGE_DS2746) blocking_notifier_call_chain(&cable_status_notifier_list, status, NULL); if (status == CHARGER_BATTERY) { htc_set_smem_cable_type(CHARGER_BATTERY); power_supply_changed(&htc_power_supplies[CHARGER_BATTERY]); if (htc_batt_debug_mask & HTC_BATT_DEBUG_UEVT) BATT_LOG("batt:(htc_cable_status_update)power_supply_changed: battery"); } #else /* A9 reports USB charging when helf AC cable in and China AC charger. */ /* notify userspace USB charging first, and then usb driver will notify AC while D+/D- Line short. */ /* China AC detection: * Write SMEM as USB first, and update SMEM to AC * if receives AC notification */ last_source = htc_batt_info.rep.charging_source; if (status == CHARGER_USB && g_usb_online == 0) { htc_set_smem_cable_type(CHARGER_USB); htc_batt_info.rep.charging_source = CHARGER_USB; } else { htc_set_smem_cable_type(status); htc_batt_info.rep.charging_source = status; /* usb driver will not notify usb offline. */ if (status == CHARGER_BATTERY && g_usb_online != 0) g_usb_online = 0; } msm_hsusb_set_vbus_state(status == CHARGER_USB); if (htc_batt_info.guage_driver == GUAGE_DS2784 || htc_batt_info.guage_driver == GUAGE_DS2746) blocking_notifier_call_chain(&cable_status_notifier_list, htc_batt_info.rep.charging_source, NULL); if (htc_batt_info.rep.charging_source != last_source) { #if 1 //JH //this is for packet filter (notify port list while USB in/out) update_port_list_charging_state(!(htc_batt_info.rep.charging_source == CHARGER_BATTERY)); #endif /* Lock suspend only when USB in for ADB or other USB functions. */ if (htc_batt_info.rep.charging_source == CHARGER_USB) { wake_lock(&vbus_wake_lock); } else if (__htc_power_policy()) { /* Lock suspend for DOPOD charging animation */ wake_lock(&vbus_wake_lock); } else { if (htc_batt_info.rep.charging_source == CHARGER_AC && last_source == CHARGER_USB) BATT_ERR("%s: USB->AC\n", __func__); /* give userspace some time to see the uevent and update * LED state or whatnot... */ wake_lock_timeout(&vbus_wake_lock, HZ * 5); } if (htc_batt_info.rep.charging_source == CHARGER_BATTERY || last_source == CHARGER_BATTERY) power_supply_changed(&htc_power_supplies[CHARGER_BATTERY]); if (htc_batt_info.rep.charging_source == CHARGER_USB || last_source == CHARGER_USB) power_supply_changed(&htc_power_supplies[CHARGER_USB]); if (htc_batt_info.rep.charging_source == CHARGER_AC || last_source == CHARGER_AC) power_supply_changed(&htc_power_supplies[CHARGER_AC]); if (htc_batt_debug_mask & HTC_BATT_DEBUG_UEVT) BATT_LOG("power_supply_changed: %s -> %s", charger_tags[last_source], charger_tags[htc_batt_info.rep.charging_source]); } #endif mutex_unlock(&htc_batt_info.lock); return rc; } #ifdef CONFIG_USB_ACCESSORY_DETECT_BY_ADC int htc_get_usb_accessory_adc_level(uint32_t *buffer) { struct rpc_request_hdr req; struct htc_get_usb_adc_value_rep { struct rpc_reply_hdr hdr; uint32_t adc_value; } rep; int rc; printk(KERN_INFO "%s\n", __func__); if (buffer == NULL) { printk(KERN_INFO "%s: buffer null\n", __func__); return -EINVAL; } rc = msm_rpc_call_reply(endpoint, HTC_PROCEDURE_GET_USB_ACCESSORY_ADC_LEVEL, &req, sizeof(req), &rep, sizeof(rep), 5 * HZ); if (rc < 0) { printk(KERN_INFO "%s: msm_rpc_call_reply fail\n", __func__); return rc; } *buffer = be32_to_cpu(rep.adc_value); printk(KERN_INFO "%s: adc = %d\n", __func__, *buffer); return 0; } EXPORT_SYMBOL(htc_get_usb_accessory_adc_level); #endif /* A9 reports USB charging when helf AC cable in and China AC charger. */ /* notify userspace USB charging first, and then usb driver will notify AC while D+/D- Line short. */ static void usb_status_notifier_func(int online) { #if 1 pr_info("batt:online=%d",online); /* TODO: replace charging_source to usb_status */ htc_batt_info.rep.charging_source = online; htc_set_smem_cable_type(htc_batt_info.rep.charging_source); /* TODO: use power_supply_change to notify battery drivers. */ if (htc_batt_info.guage_driver == GUAGE_DS2784 || htc_batt_info.guage_driver == GUAGE_DS2746) blocking_notifier_call_chain(&cable_status_notifier_list, htc_batt_info.rep.charging_source, NULL); power_supply_changed(&htc_power_supplies[CHARGER_AC]); power_supply_changed(&htc_power_supplies[CHARGER_USB]); power_supply_changed(&htc_power_supplies[CHARGER_BATTERY]); update_wake_lock(htc_batt_info.rep.charging_source); #else mutex_lock(&htc_batt_info.lock); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USB_NOTIFY) BATT_LOG("%s: online=%d, g_usb_online=%d", __func__, online, g_usb_online); if (g_usb_online != online) { g_usb_online = online; if (online == CHARGER_AC && htc_batt_info.rep.charging_source == CHARGER_USB) { mutex_unlock(&htc_batt_info.lock); htc_cable_status_update(CHARGER_AC); mutex_lock(&htc_batt_info.lock); } } mutex_unlock(&htc_batt_info.lock); #endif } static int htc_get_batt_info(struct battery_info_reply *buffer) { struct rpc_request_hdr req; struct htc_get_batt_info_rep { struct rpc_reply_hdr hdr; struct battery_info_reply info; } rep; int rc; if (buffer == NULL) return -EINVAL; rc = msm_rpc_call_reply(endpoint, HTC_PROCEDURE_GET_BATT_INFO, &req, sizeof(req), &rep, sizeof(rep), 5 * HZ); if ( rc < 0 ) return rc; mutex_lock(&htc_batt_info.lock); buffer->batt_id = be32_to_cpu(rep.info.batt_id); buffer->batt_vol = be32_to_cpu(rep.info.batt_vol); buffer->batt_temp = be32_to_cpu(rep.info.batt_temp); buffer->batt_current = be32_to_cpu(rep.info.batt_current); buffer->level = be32_to_cpu(rep.info.level); /* Move the rules of charging_source to cable_status_update. */ /* buffer->charging_source = be32_to_cpu(rep.info.charging_source); */ buffer->charging_enabled = be32_to_cpu(rep.info.charging_enabled); buffer->full_bat = be32_to_cpu(rep.info.full_bat); /* Over_vchg only update in SMEM from A9 */ /* buffer->over_vchg = be32_to_cpu(rep.info.over_vchg); */ mutex_unlock(&htc_batt_info.lock); if (htc_batt_debug_mask & HTC_BATT_DEBUG_A2M_RPC) BATT_LOG("A2M_RPC: get_batt_info: batt_id=%d, batt_vol=%d, batt_temp=%d, " "batt_current=%d, level=%d, charging_source=%d, " "charging_enabled=%d, full_bat=%d, over_vchg=%d", buffer->batt_id, buffer->batt_vol, buffer->batt_temp, buffer->batt_current, buffer->level, buffer->charging_source, buffer->charging_enabled, buffer->full_bat, buffer->over_vchg); return 0; } #ifdef CONFIG_HTC_BATTCHG_SMEM struct htc_batt_info_full { u32 batt_id; u32 batt_vol; u32 batt_vol_last; u32 batt_temp; s32 batt_current; s32 batt_current_last; u32 batt_discharge_current; u32 VREF_2; u32 VREF; u32 ADC4096_VREF; u32 Rtemp; s32 Temp; s32 Temp_last; u32 pd_M; u32 MBAT_pd; s32 I_MBAT; u32 pd_temp; u32 percent_last; u32 percent_update; u32 dis_percent; u32 vbus; u32 usbid; u32 charging_source; u32 MBAT_IN; u32 full_bat; u32 eval_current; u32 eval_current_last; u32 charging_enabled; u32 timeout; u32 fullcharge; u32 level; u32 delta; u32 chg_time; s32 level_change; u32 sleep_timer_count; u32 OT_led_on; u32 overloading_charge; u32 a2m_cable_type; u32 vchg; // VCHG => 0: Not, 1: In u32 over_vchg; /*over voltage charger detection, 0:VCHG normal(below 6V) 1:VCHG over(upper 6V)*/ u32 reserve4; u32 reserve5; }; /* SMEM_BATT_INFO is allocated by A9 after first A2M RPC is sent. */ static struct htc_batt_info_full *smem_batt_info; static int htc_get_batt_info_smem(struct battery_info_reply *buffer) { if (!smem_batt_info) { smem_batt_info = smem_alloc(SMEM_BATT_INFO, sizeof(struct htc_batt_info_full)); if (!smem_batt_info) { BATT_ERR("battery SMEM allocate fail, " "use RPC instead of"); return htc_get_batt_info(buffer); } } if (!buffer) return -EINVAL; mutex_lock(&htc_batt_info.lock); buffer->batt_id = smem_batt_info->batt_id; buffer->batt_vol = smem_batt_info->batt_vol; buffer->batt_temp = smem_batt_info->Temp; buffer->batt_current = smem_batt_info->batt_current; buffer->eval_current = smem_batt_info->eval_current; /* Fix issue that recharging percent drop to 99%. */ /* The level in SMEM is for A9 internal use, * always use value reported by M2A level update RPC. */ #if 0 buffer->level = smem_batt_info->percent_update; #endif /* Move the rules of charging_source to cable_status_update. */ /* buffer->charging_source = be32_to_cpu(smem_batt_info->charging_source); */ buffer->charging_enabled = smem_batt_info->charging_enabled; buffer->full_bat = smem_batt_info->full_bat; buffer->over_vchg = smem_batt_info->over_vchg; mutex_unlock(&htc_batt_info.lock); if (htc_batt_debug_mask & HTC_BATT_DEBUG_SMEM) BATT_LOG("SMEM_BATT: get_batt_info: batt_id=%d, batt_vol=%d, batt_temp=%d, " "batt_current=%d, eval_current=%d, level=%d, charging_source=%d, " "charging_enabled=%d, full_bat=%d, over_vchg=%d", buffer->batt_id, buffer->batt_vol, buffer->batt_temp, buffer->batt_current, buffer->eval_current, buffer->level, buffer->charging_source, buffer->charging_enabled, buffer->full_bat, buffer->over_vchg); return 0; } static ssize_t htc_battery_show_smem(struct device *dev, struct device_attribute *attr, char *buf) { int len = 0; if (!smem_batt_info) { smem_batt_info = smem_alloc(SMEM_BATT_INFO, sizeof(struct htc_batt_info_full)); if (!smem_batt_info) { BATT_ERR("Show SMEM: allocate fail"); return 0; } } if (!strcmp(attr->attr.name, "smem_raw")) { len = sizeof(struct htc_batt_info_full); memcpy(buf, smem_batt_info, len); } else if (!strcmp(attr->attr.name, "smem_text")) { len += scnprintf(buf + len, PAGE_SIZE - len, "batt_id: %d\n" "batt_vol: %d\n" "batt_vol_last: %d\n" "batt_temp: %d\n" "batt_current: %d\n" "batt_current_last: %d\n" "batt_discharge_current: %d\n" "VREF_2: %d\n" "VREF: %d\n" "ADC4096_VREF: %d\n" "Rtemp: %d\n" "Temp: %d\n" "Temp_last: %d\n" "pd_M: %d\n" "MBAT_pd: %d\n" "I_MBAT: %d\n" "pd_temp: %d\n" "percent_last: %d\n" "percent_update: %d\n" "dis_percent: %d\n" "vbus: %d\n" "usbid: %d\n" "charging_source: %d\n" "MBAT_IN: %d\n" "full_bat: %d\n" "eval_current: %d\n" "eval_current_last: %d\n" "charging_enabled: %d\n" "timeout: %d\n" "fullcharge: %d\n" "level: %d\n" "delta: %d\n" "chg_time: %d\n" "level_change: %d\n" "sleep_timer_count: %d\n" "OT_led_on: %d\n" "overloading_charge: %d\n" "a2m_cable_type: %d\n" "vchg: %d\n" "over_vchg: %d\n", smem_batt_info->batt_id, smem_batt_info->batt_vol, smem_batt_info->batt_vol_last, smem_batt_info->batt_temp, smem_batt_info->batt_current, smem_batt_info->batt_current_last, smem_batt_info->batt_discharge_current, smem_batt_info->VREF_2, smem_batt_info->VREF, smem_batt_info->ADC4096_VREF, smem_batt_info->Rtemp, smem_batt_info->Temp, smem_batt_info->Temp_last, smem_batt_info->pd_M, smem_batt_info->MBAT_pd, smem_batt_info->I_MBAT, smem_batt_info->pd_temp, smem_batt_info->percent_last, smem_batt_info->percent_update, smem_batt_info->dis_percent, smem_batt_info->vbus, smem_batt_info->usbid, smem_batt_info->charging_source, smem_batt_info->MBAT_IN, smem_batt_info->full_bat, smem_batt_info->eval_current, smem_batt_info->eval_current_last, smem_batt_info->charging_enabled, smem_batt_info->timeout, smem_batt_info->fullcharge, smem_batt_info->level, smem_batt_info->delta, smem_batt_info->chg_time, smem_batt_info->level_change, smem_batt_info->sleep_timer_count, smem_batt_info->OT_led_on, smem_batt_info->overloading_charge, smem_batt_info->a2m_cable_type, smem_batt_info->vchg, smem_batt_info->over_vchg); } return len; } static int htc_set_smem_cable_type(u32 cable_type) { if (!smem_batt_info) { smem_batt_info = smem_alloc(SMEM_BATT_INFO, sizeof(struct htc_batt_info_full)); if (!smem_batt_info) { BATT_ERR("Update SMEM: allocate fail"); return -EINVAL; } } smem_batt_info->a2m_cable_type = cable_type; BATT_LOG("Update SMEM: cable type %d", cable_type); return 0; } #endif static ssize_t htc_battery_show_batt_attr(struct device *dev, struct device_attribute *attr, char *buf) { switch (htc_batt_info.guage_driver) { case GUAGE_MODEM: #ifdef CONFIG_HTC_BATTCHG_SMEM return htc_battery_show_smem(dev, attr, buf); #endif break; case GUAGE_DS2784: case GUAGE_DS2746: return htc_batt_info.func_show_batt_attr(attr, buf); break; } return 0; } /* -------------------------------------------------------------------------- */ static int htc_power_get_property(struct power_supply *psy, enum power_supply_property psp, union power_supply_propval *val) { enum charger_type_t charger; mutex_lock(&htc_batt_info.lock); charger = htc_batt_info.rep.charging_source; /* ARM9 decides charging_enabled value by battery id */ if (htc_batt_info.rep.batt_id == 255) charger = CHARGER_BATTERY; mutex_unlock(&htc_batt_info.lock); switch (psp) { case POWER_SUPPLY_PROP_ONLINE: if (psy->type == POWER_SUPPLY_TYPE_MAINS) { val->intval = (charger == CHARGER_AC ? 1 : 0); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: online=%d", __func__, psy->name, val->intval); } else if (psy->type == POWER_SUPPLY_TYPE_USB) { val->intval = (charger == CHARGER_USB ? 1 : 0); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: online=%d", __func__, psy->name, val->intval); } else val->intval = 0; break; default: return -EINVAL; } return 0; } /* Once charge full, set this flag */ static int htc_charge_full = 0; static int htc_battery_get_charging_status(void) { u32 level; enum charger_type_t charger; int ret; mutex_lock(&htc_batt_info.lock); charger = htc_batt_info.rep.charging_source; /* ARM9 decides charging_enabled value by battery id */ if (htc_batt_info.rep.batt_id == 255) charger = CHARGER_UNKNOWN; switch (charger) { case CHARGER_BATTERY: htc_charge_full = 0; ret = POWER_SUPPLY_STATUS_NOT_CHARGING; break; case CHARGER_USB: case CHARGER_AC: if ((htc_charge_full) && (htc_batt_info.rep.full_level == 100)) { htc_batt_info.rep.level = 100; } level = htc_batt_info.rep.level; if (level == 100){ htc_charge_full = 1;} if (htc_charge_full) ret = POWER_SUPPLY_STATUS_FULL; else if (htc_batt_info.rep.charging_enabled != 0) ret = POWER_SUPPLY_STATUS_CHARGING; else ret = POWER_SUPPLY_STATUS_DISCHARGING; break; default: ret = POWER_SUPPLY_STATUS_UNKNOWN; } mutex_unlock(&htc_batt_info.lock); return ret; } static int htc_battery_get_property(struct power_supply *psy, enum power_supply_property psp, union power_supply_propval *val) { switch (psp) { case POWER_SUPPLY_PROP_STATUS: val->intval = htc_battery_get_charging_status(); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: status=%d", __func__, psy->name, val->intval); break; case POWER_SUPPLY_PROP_HEALTH: val->intval = POWER_SUPPLY_HEALTH_GOOD; if (machine_is_paradise() && (htc_batt_info.rep.batt_temp >= 500 || htc_batt_info.rep.batt_temp <= 0)) val->intval = POWER_SUPPLY_HEALTH_OVERHEAT; else if (!machine_is_paradise() && (htc_batt_info.rep.batt_temp >= 480 || htc_batt_info.rep.batt_temp <= 0)) val->intval = POWER_SUPPLY_HEALTH_OVERHEAT; if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: health=%d", __func__, psy->name, val->intval); break; case POWER_SUPPLY_PROP_PRESENT: val->intval = htc_batt_info.present; if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: present=%d", __func__, psy->name, val->intval); break; case POWER_SUPPLY_PROP_TECHNOLOGY: val->intval = POWER_SUPPLY_TECHNOLOGY_LION; if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: technology=%d", __func__, psy->name, val->intval); break; case POWER_SUPPLY_PROP_CAPACITY: mutex_lock(&htc_batt_info.lock); val->intval = htc_batt_info.rep.level; /* prevent shutdown before battery driver ready. */ if (htc_batt_info.device_id == 0) val->intval = 55; /* 55 == ?? */ mutex_unlock(&htc_batt_info.lock); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) BATT_LOG("%s: %s: capacity=%d", __func__, psy->name, val->intval); break; default: return -EINVAL; } return 0; } #define HTC_BATTERY_ATTR(_name) \ { \ .attr = { .name = #_name, .mode = S_IRUGO, .owner = THIS_MODULE }, \ .show = htc_battery_show_property, \ .store = NULL, \ } static struct device_attribute htc_battery_attrs[] = { HTC_BATTERY_ATTR(batt_id), HTC_BATTERY_ATTR(batt_vol), HTC_BATTERY_ATTR(batt_temp), HTC_BATTERY_ATTR(batt_current), HTC_BATTERY_ATTR(charging_source), HTC_BATTERY_ATTR(charging_enabled), HTC_BATTERY_ATTR(full_bat), HTC_BATTERY_ATTR(over_vchg), /*[FIXME]__ATTR(batt_attr_raw, S_IRUGO, htc_battery_show_batt_attr, NULL),*/ #ifdef CONFIG_HTC_BATTCHG_SMEM __ATTR(smem_raw, S_IRUGO, htc_battery_show_smem, NULL), __ATTR(smem_text, S_IRUGO, htc_battery_show_smem, NULL), #else __ATTR(batt_attr_text, S_IRUGO, htc_battery_show_batt_attr, NULL), #endif }; enum { BATT_ID = 0, BATT_VOL, BATT_TEMP, BATT_CURRENT, CHARGING_SOURCE, CHARGING_ENABLED, FULL_BAT, OVER_VCHG, }; static int htc_rpc_set_delta(unsigned delta) { struct set_batt_delta_req { struct rpc_request_hdr hdr; uint32_t data; } req; req.data = cpu_to_be32(delta); return msm_rpc_call(endpoint, HTC_PROCEDURE_SET_BATT_DELTA, &req, sizeof(req), 5 * HZ); } static int htc_rpc_charger_switch(unsigned enable) { struct charger_switch_req { struct rpc_request_hdr hdr; uint32_t data; } req; req.data = cpu_to_be32(enable); return msm_rpc_call(endpoint, HTC_PROCEDURE_CHARGER_SWITCH, &req, sizeof(req), 5 * HZ); } static int htc_rpc_set_full_level(unsigned level) { struct set_batt_full_level_req { struct rpc_request_hdr hdr; uint32_t data; } req; req.data = cpu_to_be32(level); return msm_rpc_call(endpoint, HTC_PROCEDURE_SET_FULL_LEVEL, &req, sizeof(req), 5 * HZ); } static ssize_t htc_battery_set_delta(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int rc; unsigned long delta = 0; delta = simple_strtoul(buf, NULL, 10); if (delta > 100) return -EINVAL; mutex_lock(&htc_batt_info.rpc_lock); rc = htc_rpc_set_delta(delta); mutex_unlock(&htc_batt_info.rpc_lock); if (rc < 0) return rc; return count; } /* * For PA and QA test * 0x10-> fake temp to 250 * 0x11->TBD if needed * 0x12->TBD if needed * .... */ static ssize_t htc_battery_debug_flag(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { unsigned long debug_flag; debug_flag = simple_strtoul(buf, NULL, 10); if (debug_flag > 100 || debug_flag == 0) return -EINVAL; mutex_lock(&htc_batt_info.lock); blocking_notifier_call_chain(&cable_status_notifier_list, debug_flag, 0); mutex_unlock(&htc_batt_info.lock); return 0; } static ssize_t htc_battery_charger_switch(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int rc; unsigned long enable = 0; enable = simple_strtoul(buf, NULL, 10); if (enable > 1 || enable < 0) return -EINVAL; mutex_lock(&htc_batt_info.rpc_lock); rc = htc_rpc_charger_switch(enable); mutex_unlock(&htc_batt_info.rpc_lock); if (rc < 0) return rc; return count; } static ssize_t htc_battery_set_full_level(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int rc = 0; unsigned long percent = 100; unsigned long param = 0; percent = simple_strtoul(buf, NULL, 10); if (percent > 100 || percent == 0) return -EINVAL; switch (htc_batt_info.guage_driver) { case GUAGE_MODEM: mutex_lock(&htc_batt_info.rpc_lock); htc_batt_info.rep.full_level = percent; rc = htc_rpc_set_full_level(percent); mutex_unlock(&htc_batt_info.rpc_lock); break; case GUAGE_DS2784: case GUAGE_DS2746: if (htc_full_level_flag == 0) { mutex_lock(&htc_batt_info.lock); htc_full_level_flag = 1; htc_batt_info.rep.full_level = percent; param = percent; blocking_notifier_call_chain(&cable_status_notifier_list, 0xff, (void *) ¶m); mutex_unlock(&htc_batt_info.lock); } rc = 0; break; } if (rc < 0) return rc; return rc; } static struct device_attribute htc_set_delta_attrs[] = { __ATTR(delta, S_IWUSR | S_IWGRP, NULL, htc_battery_set_delta), __ATTR(full_level, S_IWUSR | S_IWGRP, NULL, htc_battery_set_full_level), __ATTR(batt_debug_flag,S_IWUSR | S_IWGRP, NULL, htc_battery_debug_flag), __ATTR(charger_control, S_IWUSR | S_IWGRP, NULL, htc_battery_charger_switch), }; static int htc_battery_create_attrs(struct device * dev) { int i = 0, j = 0, rc = 0; for (i = 0; i < ARRAY_SIZE(htc_battery_attrs); i++) { rc = device_create_file(dev, &htc_battery_attrs[i]); if (rc) goto htc_attrs_failed; } for (j = 0; j < ARRAY_SIZE(htc_set_delta_attrs); j++) { rc = device_create_file(dev, &htc_set_delta_attrs[j]); if (rc) goto htc_delta_attrs_failed; } goto succeed; htc_attrs_failed: while (i--) device_remove_file(dev, &htc_battery_attrs[i]); htc_delta_attrs_failed: while (j--) device_remove_file(dev, &htc_set_delta_attrs[i]); succeed: return rc; } static int update_batt_info(void) { int ret = 0; /* FIXME */ switch (htc_batt_info.guage_driver) { case GUAGE_MODEM: #ifdef CONFIG_HTC_BATTCHG_SMEM if (htc_get_batt_info_smem(&htc_batt_info.rep) < 0) { BATT_ERR("%s: smem read failed!!!", __func__); ret = -1; } #else if (htc_get_batt_info(&htc_batt_info.rep) < 0) { BATT_ERR("%s: rpc failed!!!", __func__); ret = -1; } #endif break; #ifdef CONFIG_BATTERY_DS2784 case GUAGE_DS2784: if (ds2784_get_battery_info(&htc_batt_info.rep)) { BATT_ERR("%s: ds2784 read failed!!!", __func__); ret = -1; } break; #elif CONFIG_BATTERY_DS2746 case GUAGE_DS2746: if (ds2746_get_battery_info(&htc_batt_info.rep)) { BATT_ERR("%s: ds2746 read failed!!!", __func__); ret = -1; } break; #endif default: return -EINVAL; } return ret; } static ssize_t htc_battery_show_property(struct device *dev, struct device_attribute *attr, char *buf) { int i = 0; const ptrdiff_t off = attr - htc_battery_attrs; /* rpc lock is used to prevent two threads from calling * into the get info rpc at the same time */ mutex_lock(&htc_batt_info.rpc_lock); /* check cache time to decide if we need to update */ if (htc_batt_info.update_time && time_before(jiffies, htc_batt_info.update_time + msecs_to_jiffies(cache_time))) { BATT_LOG("%s: use cached values", __func__); goto dont_need_update; } if (!update_batt_info()) htc_batt_info.update_time = jiffies; dont_need_update: mutex_unlock(&htc_batt_info.rpc_lock); mutex_lock(&htc_batt_info.lock); switch (off) { case BATT_ID: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.batt_id); break; case BATT_VOL: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.batt_vol); break; case BATT_TEMP: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.batt_temp); break; case BATT_CURRENT: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.batt_current); break; case CHARGING_SOURCE: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.charging_source); break; case CHARGING_ENABLED: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.charging_enabled); break; case FULL_BAT: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.full_bat); break; case OVER_VCHG: i += scnprintf(buf + i, PAGE_SIZE - i, "%d\n", htc_batt_info.rep.over_vchg); break; default: i = -EINVAL; } mutex_unlock(&htc_batt_info.lock); if (htc_batt_debug_mask & HTC_BATT_DEBUG_USER_QUERY) { if (i < 0) BATT_LOG("%s: battery: attribute is not supported: %d", __func__, off); else BATT_LOG("%s: battery: %s=%s", __func__, attr->attr.name, buf); } return i; } static int htc_battery_core_probe(struct platform_device *pdev) { int i, rc; /* init battery gpio */ if (htc_batt_info.charger == LINEAR_CHARGER) { if ((rc = init_batt_gpio()) < 0) { BATT_ERR("%s: init battery gpio failed!", __func__); return rc; } } /* init structure data member */ htc_batt_info.update_time = jiffies; /* A9 will shutdown the phone if battery is pluged out, so this value is always 1. htc_batt_info.present = gpio_get_value(GPIO_TROUT_MBAT_IN); */ htc_batt_info.present = 1; /* init rpc */ endpoint = msm_rpc_connect(APP_BATT_PROG, APP_BATT_VER, 0); if (IS_ERR(endpoint)) { BATT_ERR("%s: init rpc failed! rc = %ld", __func__, PTR_ERR(endpoint)); return -EINVAL; } /* init power supplier framework */ for (i = 0; i < ARRAY_SIZE(htc_power_supplies); i++) { rc = power_supply_register(&pdev->dev, &htc_power_supplies[i]); if (rc) BATT_ERR("%s: Failed to register power supply (%d)", __func__, rc); } /* create htc detail attributes */ htc_battery_create_attrs(htc_power_supplies[CHARGER_BATTERY].dev); /* After battery driver gets initialized, send rpc request to inquiry * the battery status in case of we lost some info */ htc_battery_initial = 1; mutex_lock(&htc_batt_info.rpc_lock); htc_batt_info.rep.charging_source = CHARGER_BATTERY; if (htc_get_batt_info(&htc_batt_info.rep) < 0) BATT_ERR("%s: get info failed", __func__); if (htc_rpc_set_delta(1) < 0) BATT_ERR("%s: set delta failed", __func__); htc_batt_info.update_time = jiffies; mutex_unlock(&htc_batt_info.rpc_lock); return 0; } static struct platform_driver htc_battery_core_driver = { .probe = htc_battery_core_probe, .driver = { .name = APP_BATT_PDEV_NAME, .owner = THIS_MODULE, }, }; /* batt_mtoa server definitions */ #define BATT_MTOA_PROG 0x30100000 #define BATT_MTOA_VERS 0 #define RPC_BATT_MTOA_NULL 0 #define RPC_BATT_MTOA_SET_CHARGING_PROC 1 #define RPC_BATT_MTOA_CABLE_STATUS_UPDATE_PROC 2 #define RPC_BATT_MTOA_LEVEL_UPDATE_PROC 3 struct rpc_batt_mtoa_set_charging_args { int enable; }; struct rpc_batt_mtoa_cable_status_update_args { int status; }; struct rpc_dem_battery_update_args { uint32_t level; }; static int handle_battery_call(struct msm_rpc_server *server, struct rpc_request_hdr *req, unsigned len) { switch (req->procedure) { case RPC_BATT_MTOA_NULL: return 0; case RPC_BATT_MTOA_SET_CHARGING_PROC: { struct rpc_batt_mtoa_set_charging_args *args; args = (struct rpc_batt_mtoa_set_charging_args *)(req + 1); args->enable = be32_to_cpu(args->enable); if (htc_batt_debug_mask & HTC_BATT_DEBUG_M2A_RPC) BATT_LOG("M2A_RPC: set_charging: %d", args->enable); if (htc_batt_info.charger == SWITCH_CHARGER) blocking_notifier_call_chain(&cable_status_notifier_list, args->enable, NULL); else { htc_battery_set_charging(args->enable); } return 0; } case RPC_BATT_MTOA_CABLE_STATUS_UPDATE_PROC: { struct rpc_batt_mtoa_cable_status_update_args *args; args = (struct rpc_batt_mtoa_cable_status_update_args *)(req + 1); args->status = be32_to_cpu(args->status); if (htc_batt_debug_mask & HTC_BATT_DEBUG_M2A_RPC) BATT_LOG("M2A_RPC: cable_update: %s", charger_tags[args->status]); #if 0 /* FIXME: work arround for usb function, remove it after battery driver ready */ if (machine_is_incrediblec() && args->status == CHARGER_AC) args->status = CHARGER_USB; #endif htc_cable_status_update(args->status); #if defined(CONFIG_TROUT_BATTCHG_DOCK) dock_detect_start(args->status); #endif return 0; } case RPC_BATT_MTOA_LEVEL_UPDATE_PROC: { struct rpc_dem_battery_update_args *args; args = (struct rpc_dem_battery_update_args *)(req + 1); args->level = be32_to_cpu(args->level); if (htc_batt_debug_mask & HTC_BATT_DEBUG_M2A_RPC) BATT_LOG("M2A_RPC: level_update: %d", args->level); htc_battery_status_update(args->level); return 0; } default: BATT_ERR("%s: program 0x%08x:%d: unknown procedure %d", __func__, req->prog, req->vers, req->procedure); return -ENODEV; } } static struct msm_rpc_server battery_server = { .prog = BATT_MTOA_PROG, .vers = BATT_MTOA_VERS, .rpc_call = handle_battery_call, }; #if defined(CONFIG_BATTERY_DS2784) || defined(CONFIG_BATTERY_DS2746) static int ds2784_notifier_func(struct notifier_block *nfb, unsigned long action, void *param) { u8 arg = 0; if (param) arg = *(u8 *)param; BATT_LOG("ds2784_notify: %ld %d", action, arg); switch (action) { case DS2784_CHARGING_CONTROL: if (htc_batt_info.charger == LINEAR_CHARGER) battery_charging_ctrl(arg); // else if(htc_batt_info.charger == SWITCH_CHARGER) // set_charger_ctrl(arg); break; case DS2784_LEVEL_UPDATE: htc_battery_status_update(arg); break; case DS2784_BATTERY_FAULT: case DS2784_OVER_TEMP: htc_battery_status_update(htc_batt_info.rep.level); break; default: return NOTIFY_BAD; } return NOTIFY_OK; /* we did not care other action here */ } static struct notifier_block ds2784_notifier = { .notifier_call = ds2784_notifier_func, }; #endif static int htc_battery_probe(struct platform_device *pdev) { struct htc_battery_platform_data *pdata = pdev->dev.platform_data; htc_batt_info.device_id = pdev->id; htc_batt_info.gpio_usb_id = pdata->gpio_usb_id; htc_batt_info.guage_driver = pdata->guage_driver; htc_batt_info.m2a_cable_detect = pdata->m2a_cable_detect; htc_batt_info.func_show_batt_attr = pdata->func_show_batt_attr; htc_batt_info.charger = pdata->charger; htc_batt_info.rep.full_level = 100; if (htc_batt_info.charger == LINEAR_CHARGER) { htc_batt_info.gpio_mbat_in = pdata->gpio_mbat_in; htc_batt_info.gpio_mchg_en_n = pdata->gpio_mchg_en_n; htc_batt_info.gpio_iset = pdata->gpio_iset; } if (pdata->guage_driver == GUAGE_MODEM || pdata->m2a_cable_detect) msm_rpc_create_server(&battery_server); #ifdef CONFIG_BATTERY_DS2784 if (pdata->guage_driver == GUAGE_DS2784) ds2784_register_notifier(&ds2784_notifier); #elif CONFIG_BATTERY_DS2746 if (pdata->guage_driver == GUAGE_DS2746) ds2746_register_notifier(&ds2784_notifier); #endif return 0; } int get_cable_status(void) { // if(htc_batt_info.rep.charging_source == CHARGER_AC || htc_batt_info.rep.charging_source == CHARGER_USB) // htc_cable_status_update(htc_batt_info.rep.charging_source); return htc_batt_info.rep.charging_source; } static struct platform_driver htc_battery_driver = { .probe = htc_battery_probe, .driver = { .name = "htc_battery", .owner = THIS_MODULE, }, }; static struct notifier_block batt_notify = { .notifier_call = htc_power_policy, }; static BLOCKING_NOTIFIER_HEAD(battery_notifier_list); int batt_register_client(struct notifier_block *nb) { return blocking_notifier_chain_register(&battery_notifier_list, nb); } int batt_unregister_client(struct notifier_block *nb) { return blocking_notifier_chain_unregister(&battery_notifier_list, nb); } int batt_notifier_call_chain(unsigned long val, void *v) { return blocking_notifier_call_chain(&battery_notifier_list, val, v); } static int __init htc_battery_init(void) { wake_lock_init(&vbus_wake_lock, WAKE_LOCK_SUSPEND, "vbus_present"); mutex_init(&htc_batt_info.lock); mutex_init(&htc_batt_info.rpc_lock); usb_register_notifier(&usb_status_notifier); platform_driver_register(&htc_battery_driver); platform_driver_register(&htc_battery_core_driver); batt_register_client(&batt_notify); /* Jay, The msm_fb need to consult htc_battery for power policy */ display_notifier(htc_power_policy, NOTIFY_POWER); return 0; } module_init(htc_battery_init); MODULE_DESCRIPTION("HTC Battery Driver"); MODULE_LICENSE("GPL"); EXPORT_SYMBOL(htc_is_cable_in); EXPORT_SYMBOL(htc_is_zcharge_enabled);