/* * Copyright (C) 2013 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "healthd" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define POWER_SUPPLY_SUBSYSTEM "power_supply" #define POWER_SUPPLY_SYSFS_PATH "/sys/class/" POWER_SUPPLY_SUBSYSTEM #define FAKE_BATTERY_CAPACITY 42 #define FAKE_BATTERY_TEMPERATURE 424 #define ALWAYS_PLUGGED_CAPACITY 100 #define MILLION 1.0e6 #define DEFAULT_VBUS_VOLTAGE 5000000 namespace android { struct sysfsStringEnumMap { const char* s; int val; }; static int mapSysfsString(const char* str, struct sysfsStringEnumMap map[]) { for (int i = 0; map[i].s; i++) if (!strcmp(str, map[i].s)) return map[i].val; return -1; } static void initBatteryProperties(BatteryProperties* props) { props->chargerAcOnline = false; props->chargerUsbOnline = false; props->chargerWirelessOnline = false; props->maxChargingCurrent = 0; props->maxChargingVoltage = 0; props->batteryStatus = BATTERY_STATUS_UNKNOWN; props->batteryHealth = BATTERY_HEALTH_UNKNOWN; props->batteryPresent = false; props->batteryLevel = 0; props->batteryVoltage = 0; props->batteryTemperature = 0; props->batteryCurrent = 0; props->batteryCycleCount = 0; props->batteryFullCharge = 0; props->batteryChargeCounter = 0; props->batteryTechnology.clear(); } BatteryMonitor::BatteryMonitor() : mHealthdConfig(nullptr), mBatteryDevicePresent(false), mAlwaysPluggedDevice(false), mBatteryFixedCapacity(0), mBatteryFixedTemperature(0) { initBatteryProperties(&props); } int BatteryMonitor::getBatteryStatus(const char* status) { int ret; struct sysfsStringEnumMap batteryStatusMap[] = { { "Unknown", BATTERY_STATUS_UNKNOWN }, { "Charging", BATTERY_STATUS_CHARGING }, { "Discharging", BATTERY_STATUS_DISCHARGING }, { "Not charging", BATTERY_STATUS_NOT_CHARGING }, { "Full", BATTERY_STATUS_FULL }, { NULL, 0 }, }; ret = mapSysfsString(status, batteryStatusMap); if (ret < 0) { KLOG_WARNING(LOG_TAG, "Unknown battery status '%s'\n", status); ret = BATTERY_STATUS_UNKNOWN; } return ret; } int BatteryMonitor::getBatteryHealth(const char* status) { int ret; struct sysfsStringEnumMap batteryHealthMap[] = { { "Unknown", BATTERY_HEALTH_UNKNOWN }, { "Good", BATTERY_HEALTH_GOOD }, { "Overheat", BATTERY_HEALTH_OVERHEAT }, { "Dead", BATTERY_HEALTH_DEAD }, { "Over voltage", BATTERY_HEALTH_OVER_VOLTAGE }, { "Unspecified failure", BATTERY_HEALTH_UNSPECIFIED_FAILURE }, { "Cold", BATTERY_HEALTH_COLD }, // battery health values from JEITA spec { "Warm", BATTERY_HEALTH_GOOD }, { "Cool", BATTERY_HEALTH_GOOD }, { "Hot", BATTERY_HEALTH_OVERHEAT }, { NULL, 0 }, }; ret = mapSysfsString(status, batteryHealthMap); if (ret < 0) { KLOG_WARNING(LOG_TAG, "Unknown battery health '%s'\n", status); ret = BATTERY_HEALTH_UNKNOWN; } return ret; } int BatteryMonitor::readFromFile(const String8& path, std::string* buf) { if (android::base::ReadFileToString(path.c_str(), buf)) { *buf = android::base::Trim(*buf); } return buf->length(); } BatteryMonitor::PowerSupplyType BatteryMonitor::readPowerSupplyType(const String8& path) { std::string buf; BatteryMonitor::PowerSupplyType ret; struct sysfsStringEnumMap supplyTypeMap[] = { { "Unknown", ANDROID_POWER_SUPPLY_TYPE_UNKNOWN }, { "Battery", ANDROID_POWER_SUPPLY_TYPE_BATTERY }, { "UPS", ANDROID_POWER_SUPPLY_TYPE_AC }, { "Mains", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB", ANDROID_POWER_SUPPLY_TYPE_USB }, { "USB_DCP", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_HVDCP", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_CDP", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_ACA", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_C", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_PD", ANDROID_POWER_SUPPLY_TYPE_AC }, { "USB_PD_DRP", ANDROID_POWER_SUPPLY_TYPE_USB }, { "Wireless", ANDROID_POWER_SUPPLY_TYPE_WIRELESS }, { NULL, 0 }, }; if (readFromFile(path, &buf) <= 0) return ANDROID_POWER_SUPPLY_TYPE_UNKNOWN; ret = (BatteryMonitor::PowerSupplyType)mapSysfsString(buf.c_str(), supplyTypeMap); if (ret < 0) { KLOG_WARNING(LOG_TAG, "Unknown power supply type '%s'\n", buf.c_str()); ret = ANDROID_POWER_SUPPLY_TYPE_UNKNOWN; } return ret; } bool BatteryMonitor::getBooleanField(const String8& path) { std::string buf; bool value = false; if (readFromFile(path, &buf) > 0) if (buf[0] != '0') value = true; return value; } int BatteryMonitor::getIntField(const String8& path) { std::string buf; int value = 0; if (readFromFile(path, &buf) > 0) android::base::ParseInt(buf, &value); return value; } bool BatteryMonitor::update(void) { bool logthis; initBatteryProperties(&props); if (!mHealthdConfig->batteryPresentPath.isEmpty()) props.batteryPresent = getBooleanField(mHealthdConfig->batteryPresentPath); else props.batteryPresent = mBatteryDevicePresent; props.batteryLevel = mBatteryFixedCapacity ? mBatteryFixedCapacity : getIntField(mHealthdConfig->batteryCapacityPath); props.batteryVoltage = getIntField(mHealthdConfig->batteryVoltagePath) / 1000; if (!mHealthdConfig->batteryCurrentNowPath.isEmpty()) props.batteryCurrent = getIntField(mHealthdConfig->batteryCurrentNowPath) / 1000; if (!mHealthdConfig->batteryFullChargePath.isEmpty()) props.batteryFullCharge = getIntField(mHealthdConfig->batteryFullChargePath); if (!mHealthdConfig->batteryCycleCountPath.isEmpty()) props.batteryCycleCount = getIntField(mHealthdConfig->batteryCycleCountPath); if (!mHealthdConfig->batteryChargeCounterPath.isEmpty()) props.batteryChargeCounter = getIntField(mHealthdConfig->batteryChargeCounterPath); props.batteryTemperature = mBatteryFixedTemperature ? mBatteryFixedTemperature : getIntField(mHealthdConfig->batteryTemperaturePath); // For devices which do not have battery and are always plugged // into power souce. if (mAlwaysPluggedDevice) { props.chargerAcOnline = true; props.batteryPresent = true; props.batteryStatus = BATTERY_STATUS_CHARGING; props.batteryHealth = BATTERY_HEALTH_GOOD; } std::string buf; if (readFromFile(mHealthdConfig->batteryStatusPath, &buf) > 0) props.batteryStatus = getBatteryStatus(buf.c_str()); if (readFromFile(mHealthdConfig->batteryHealthPath, &buf) > 0) props.batteryHealth = getBatteryHealth(buf.c_str()); if (readFromFile(mHealthdConfig->batteryTechnologyPath, &buf) > 0) props.batteryTechnology = String8(buf.c_str()); unsigned int i; double MaxPower = 0; for (i = 0; i < mChargerNames.size(); i++) { String8 path; path.appendFormat("%s/%s/online", POWER_SUPPLY_SYSFS_PATH, mChargerNames[i].string()); if (getIntField(path)) { path.clear(); path.appendFormat("%s/%s/type", POWER_SUPPLY_SYSFS_PATH, mChargerNames[i].string()); switch(readPowerSupplyType(path)) { case ANDROID_POWER_SUPPLY_TYPE_AC: props.chargerAcOnline = true; break; case ANDROID_POWER_SUPPLY_TYPE_USB: props.chargerUsbOnline = true; break; case ANDROID_POWER_SUPPLY_TYPE_WIRELESS: props.chargerWirelessOnline = true; break; default: KLOG_WARNING(LOG_TAG, "%s: Unknown power supply type\n", mChargerNames[i].string()); } path.clear(); path.appendFormat("%s/%s/current_max", POWER_SUPPLY_SYSFS_PATH, mChargerNames[i].string()); int ChargingCurrent = (access(path.string(), R_OK) == 0) ? getIntField(path) : 0; path.clear(); path.appendFormat("%s/%s/voltage_max", POWER_SUPPLY_SYSFS_PATH, mChargerNames[i].string()); int ChargingVoltage = (access(path.string(), R_OK) == 0) ? getIntField(path) : DEFAULT_VBUS_VOLTAGE; double power = ((double)ChargingCurrent / MILLION) * ((double)ChargingVoltage / MILLION); if (MaxPower < power) { props.maxChargingCurrent = ChargingCurrent; props.maxChargingVoltage = ChargingVoltage; MaxPower = power; } } } logthis = !healthd_board_battery_update(&props); if (logthis) { char dmesgline[256]; size_t len; if (props.batteryPresent) { snprintf(dmesgline, sizeof(dmesgline), "battery l=%d v=%d t=%s%d.%d h=%d st=%d", props.batteryLevel, props.batteryVoltage, props.batteryTemperature < 0 ? "-" : "", abs(props.batteryTemperature / 10), abs(props.batteryTemperature % 10), props.batteryHealth, props.batteryStatus); len = strlen(dmesgline); if (!mHealthdConfig->batteryCurrentNowPath.isEmpty()) { len += snprintf(dmesgline + len, sizeof(dmesgline) - len, " c=%d", props.batteryCurrent); } if (!mHealthdConfig->batteryFullChargePath.isEmpty()) { len += snprintf(dmesgline + len, sizeof(dmesgline) - len, " fc=%d", props.batteryFullCharge); } if (!mHealthdConfig->batteryCycleCountPath.isEmpty()) { len += snprintf(dmesgline + len, sizeof(dmesgline) - len, " cc=%d", props.batteryCycleCount); } } else { len = snprintf(dmesgline, sizeof(dmesgline), "battery none"); } snprintf(dmesgline + len, sizeof(dmesgline) - len, " chg=%s%s%s", props.chargerAcOnline ? "a" : "", props.chargerUsbOnline ? "u" : "", props.chargerWirelessOnline ? "w" : ""); KLOG_WARNING(LOG_TAG, "%s\n", dmesgline); } healthd_mode_ops->battery_update(&props); return props.chargerAcOnline | props.chargerUsbOnline | props.chargerWirelessOnline; } int BatteryMonitor::getChargeStatus() { int result = BATTERY_STATUS_UNKNOWN; if (!mHealthdConfig->batteryStatusPath.isEmpty()) { std::string buf; if (readFromFile(mHealthdConfig->batteryStatusPath, &buf) > 0) result = getBatteryStatus(buf.c_str()); } return result; } status_t BatteryMonitor::getProperty(int id, struct BatteryProperty *val) { status_t ret = BAD_VALUE; val->valueInt64 = LONG_MIN; switch(id) { case BATTERY_PROP_CHARGE_COUNTER: if (!mHealthdConfig->batteryChargeCounterPath.isEmpty()) { val->valueInt64 = getIntField(mHealthdConfig->batteryChargeCounterPath); ret = NO_ERROR; } else { ret = NAME_NOT_FOUND; } break; case BATTERY_PROP_CURRENT_NOW: if (!mHealthdConfig->batteryCurrentNowPath.isEmpty()) { val->valueInt64 = getIntField(mHealthdConfig->batteryCurrentNowPath); ret = NO_ERROR; } else { ret = NAME_NOT_FOUND; } break; case BATTERY_PROP_CURRENT_AVG: if (!mHealthdConfig->batteryCurrentAvgPath.isEmpty()) { val->valueInt64 = getIntField(mHealthdConfig->batteryCurrentAvgPath); ret = NO_ERROR; } else { ret = NAME_NOT_FOUND; } break; case BATTERY_PROP_CAPACITY: if (!mHealthdConfig->batteryCapacityPath.isEmpty()) { val->valueInt64 = getIntField(mHealthdConfig->batteryCapacityPath); ret = NO_ERROR; } else { ret = NAME_NOT_FOUND; } break; case BATTERY_PROP_ENERGY_COUNTER: if (mHealthdConfig->energyCounter) { ret = mHealthdConfig->energyCounter(&val->valueInt64); } else { ret = NAME_NOT_FOUND; } break; default: break; } return ret; } void BatteryMonitor::dumpState(int fd) { int v; char vs[128]; snprintf(vs, sizeof(vs), "ac: %d usb: %d wireless: %d current_max: %d voltage_max: %d\n", props.chargerAcOnline, props.chargerUsbOnline, props.chargerWirelessOnline, props.maxChargingCurrent, props.maxChargingVoltage); write(fd, vs, strlen(vs)); snprintf(vs, sizeof(vs), "status: %d health: %d present: %d\n", props.batteryStatus, props.batteryHealth, props.batteryPresent); write(fd, vs, strlen(vs)); snprintf(vs, sizeof(vs), "level: %d voltage: %d temp: %d\n", props.batteryLevel, props.batteryVoltage, props.batteryTemperature); write(fd, vs, strlen(vs)); if (!mHealthdConfig->batteryCurrentNowPath.isEmpty()) { v = getIntField(mHealthdConfig->batteryCurrentNowPath); snprintf(vs, sizeof(vs), "current now: %d\n", v); write(fd, vs, strlen(vs)); } if (!mHealthdConfig->batteryCurrentAvgPath.isEmpty()) { v = getIntField(mHealthdConfig->batteryCurrentAvgPath); snprintf(vs, sizeof(vs), "current avg: %d\n", v); write(fd, vs, strlen(vs)); } if (!mHealthdConfig->batteryChargeCounterPath.isEmpty()) { v = getIntField(mHealthdConfig->batteryChargeCounterPath); snprintf(vs, sizeof(vs), "charge counter: %d\n", v); write(fd, vs, strlen(vs)); } if (!mHealthdConfig->batteryCurrentNowPath.isEmpty()) { snprintf(vs, sizeof(vs), "current now: %d\n", props.batteryCurrent); write(fd, vs, strlen(vs)); } if (!mHealthdConfig->batteryCycleCountPath.isEmpty()) { snprintf(vs, sizeof(vs), "cycle count: %d\n", props.batteryCycleCount); write(fd, vs, strlen(vs)); } if (!mHealthdConfig->batteryFullChargePath.isEmpty()) { snprintf(vs, sizeof(vs), "Full charge: %d\n", props.batteryFullCharge); write(fd, vs, strlen(vs)); } } void BatteryMonitor::init(struct healthd_config *hc) { String8 path; char pval[PROPERTY_VALUE_MAX]; mHealthdConfig = hc; std::unique_ptr dir(opendir(POWER_SUPPLY_SYSFS_PATH), closedir); if (dir == NULL) { KLOG_ERROR(LOG_TAG, "Could not open %s\n", POWER_SUPPLY_SYSFS_PATH); } else { struct dirent* entry; while ((entry = readdir(dir.get()))) { const char* name = entry->d_name; if (!strcmp(name, ".") || !strcmp(name, "..")) continue; // Look for "type" file in each subdirectory path.clear(); path.appendFormat("%s/%s/type", POWER_SUPPLY_SYSFS_PATH, name); switch(readPowerSupplyType(path)) { case ANDROID_POWER_SUPPLY_TYPE_AC: case ANDROID_POWER_SUPPLY_TYPE_USB: case ANDROID_POWER_SUPPLY_TYPE_WIRELESS: path.clear(); path.appendFormat("%s/%s/online", POWER_SUPPLY_SYSFS_PATH, name); if (access(path.string(), R_OK) == 0) mChargerNames.add(String8(name)); break; case ANDROID_POWER_SUPPLY_TYPE_BATTERY: mBatteryDevicePresent = true; if (mHealthdConfig->batteryStatusPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/status", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryStatusPath = path; } if (mHealthdConfig->batteryHealthPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/health", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryHealthPath = path; } if (mHealthdConfig->batteryPresentPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/present", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryPresentPath = path; } if (mHealthdConfig->batteryCapacityPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/capacity", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryCapacityPath = path; } if (mHealthdConfig->batteryVoltagePath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/voltage_now", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) { mHealthdConfig->batteryVoltagePath = path; } else { path.clear(); path.appendFormat("%s/%s/batt_vol", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryVoltagePath = path; } } if (mHealthdConfig->batteryFullChargePath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/charge_full", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryFullChargePath = path; } if (mHealthdConfig->batteryCurrentNowPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/current_now", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryCurrentNowPath = path; } if (mHealthdConfig->batteryCycleCountPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/cycle_count", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryCycleCountPath = path; } if (mHealthdConfig->batteryCurrentAvgPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/current_avg", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryCurrentAvgPath = path; } if (mHealthdConfig->batteryChargeCounterPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/charge_counter", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryChargeCounterPath = path; } if (mHealthdConfig->batteryTemperaturePath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/temp", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) { mHealthdConfig->batteryTemperaturePath = path; } else { path.clear(); path.appendFormat("%s/%s/batt_temp", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryTemperaturePath = path; } } if (mHealthdConfig->batteryTechnologyPath.isEmpty()) { path.clear(); path.appendFormat("%s/%s/technology", POWER_SUPPLY_SYSFS_PATH, name); if (access(path, R_OK) == 0) mHealthdConfig->batteryTechnologyPath = path; } break; case ANDROID_POWER_SUPPLY_TYPE_UNKNOWN: break; } } } // Typically the case for devices which do not have a battery and // and are always plugged into AC mains. if (!mBatteryDevicePresent) { KLOG_WARNING(LOG_TAG, "No battery devices found\n"); hc->periodic_chores_interval_fast = -1; hc->periodic_chores_interval_slow = -1; mBatteryFixedCapacity = ALWAYS_PLUGGED_CAPACITY; mBatteryFixedTemperature = FAKE_BATTERY_TEMPERATURE; mAlwaysPluggedDevice = true; } else { if (mHealthdConfig->batteryStatusPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryStatusPath not found\n"); if (mHealthdConfig->batteryHealthPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryHealthPath not found\n"); if (mHealthdConfig->batteryPresentPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryPresentPath not found\n"); if (mHealthdConfig->batteryCapacityPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryCapacityPath not found\n"); if (mHealthdConfig->batteryVoltagePath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryVoltagePath not found\n"); if (mHealthdConfig->batteryTemperaturePath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryTemperaturePath not found\n"); if (mHealthdConfig->batteryTechnologyPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryTechnologyPath not found\n"); if (mHealthdConfig->batteryCurrentNowPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryCurrentNowPath not found\n"); if (mHealthdConfig->batteryFullChargePath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryFullChargePath not found\n"); if (mHealthdConfig->batteryCycleCountPath.isEmpty()) KLOG_WARNING(LOG_TAG, "BatteryCycleCountPath not found\n"); } if (property_get("ro.boot.fake_battery", pval, NULL) > 0 && strtol(pval, NULL, 10) != 0) { mBatteryFixedCapacity = FAKE_BATTERY_CAPACITY; mBatteryFixedTemperature = FAKE_BATTERY_TEMPERATURE; } } }; // namespace android