/* * Copyright (C) 2017 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 DEBUG false #include "Log.h" #include #include #include #include #include #include #include "../StatsService.h" #include "../logd/LogEvent.h" #include "../stats_log_util.h" #include "../statscompanion_util.h" #include "GpuStatsPuller.h" #include "PowerStatsPuller.h" #include "ResourceHealthManagerPuller.h" #include "StatsCallbackPuller.h" #include "StatsCompanionServicePuller.h" #include "StatsPullerManager.h" #include "SubsystemSleepStatePuller.h" #include "TrainInfoPuller.h" #include "statslog.h" #include using std::make_shared; using std::map; using std::shared_ptr; using std::string; using std::vector; using std::list; namespace android { namespace os { namespace statsd { // Values smaller than this may require to update the alarm. const int64_t NO_ALARM_UPDATE = INT64_MAX; std::map StatsPullerManager::kAllPullAtomInfo = { // wifi_bytes_transfer {android::util::WIFI_BYTES_TRANSFER, {.additiveFields = {2, 3, 4, 5}, .puller = new StatsCompanionServicePuller(android::util::WIFI_BYTES_TRANSFER)}}, // wifi_bytes_transfer_by_fg_bg {android::util::WIFI_BYTES_TRANSFER_BY_FG_BG, {.additiveFields = {3, 4, 5, 6}, .puller = new StatsCompanionServicePuller(android::util::WIFI_BYTES_TRANSFER_BY_FG_BG)}}, // mobile_bytes_transfer {android::util::MOBILE_BYTES_TRANSFER, {.additiveFields = {2, 3, 4, 5}, .puller = new StatsCompanionServicePuller(android::util::MOBILE_BYTES_TRANSFER)}}, // mobile_bytes_transfer_by_fg_bg {android::util::MOBILE_BYTES_TRANSFER_BY_FG_BG, {.additiveFields = {3, 4, 5, 6}, .puller = new StatsCompanionServicePuller(android::util::MOBILE_BYTES_TRANSFER_BY_FG_BG)}}, // bluetooth_bytes_transfer {android::util::BLUETOOTH_BYTES_TRANSFER, {.additiveFields = {2, 3}, .puller = new StatsCompanionServicePuller(android::util::BLUETOOTH_BYTES_TRANSFER)}}, // kernel_wakelock {android::util::KERNEL_WAKELOCK, {.puller = new StatsCompanionServicePuller(android::util::KERNEL_WAKELOCK)}}, // subsystem_sleep_state {android::util::SUBSYSTEM_SLEEP_STATE, {.puller = new SubsystemSleepStatePuller()}}, // on_device_power_measurement {android::util::ON_DEVICE_POWER_MEASUREMENT, {.puller = new PowerStatsPuller()}}, // cpu_time_per_freq {android::util::CPU_TIME_PER_FREQ, {.additiveFields = {3}, .puller = new StatsCompanionServicePuller(android::util::CPU_TIME_PER_FREQ)}}, // cpu_time_per_uid {android::util::CPU_TIME_PER_UID, {.additiveFields = {2, 3}, .puller = new StatsCompanionServicePuller(android::util::CPU_TIME_PER_UID)}}, // cpu_time_per_uid_freq // the throttling is 3sec, handled in // frameworks/base/core/java/com/android/internal/os/KernelCpuProcReader {android::util::CPU_TIME_PER_UID_FREQ, {.additiveFields = {4}, .puller = new StatsCompanionServicePuller(android::util::CPU_TIME_PER_UID_FREQ)}}, // cpu_active_time // the throttling is 3sec, handled in // frameworks/base/core/java/com/android/internal/os/KernelCpuProcReader {android::util::CPU_ACTIVE_TIME, {.additiveFields = {2}, .puller = new StatsCompanionServicePuller(android::util::CPU_ACTIVE_TIME)}}, // cpu_cluster_time // the throttling is 3sec, handled in // frameworks/base/core/java/com/android/internal/os/KernelCpuProcReader {android::util::CPU_CLUSTER_TIME, {.additiveFields = {3}, .puller = new StatsCompanionServicePuller(android::util::CPU_CLUSTER_TIME)}}, // wifi_activity_energy_info {android::util::WIFI_ACTIVITY_INFO, {.puller = new StatsCompanionServicePuller(android::util::WIFI_ACTIVITY_INFO)}}, // modem_activity_info {android::util::MODEM_ACTIVITY_INFO, {.puller = new StatsCompanionServicePuller(android::util::MODEM_ACTIVITY_INFO)}}, // bluetooth_activity_info {android::util::BLUETOOTH_ACTIVITY_INFO, {.puller = new StatsCompanionServicePuller(android::util::BLUETOOTH_ACTIVITY_INFO)}}, // system_elapsed_realtime {android::util::SYSTEM_ELAPSED_REALTIME, {.pullTimeoutNs = NS_PER_SEC / 2, .coolDownNs = NS_PER_SEC, .puller = new StatsCompanionServicePuller(android::util::SYSTEM_ELAPSED_REALTIME)}}, // system_uptime {android::util::SYSTEM_UPTIME, {.puller = new StatsCompanionServicePuller(android::util::SYSTEM_UPTIME)}}, // remaining_battery_capacity {android::util::REMAINING_BATTERY_CAPACITY, {.puller = new ResourceHealthManagerPuller(android::util::REMAINING_BATTERY_CAPACITY)}}, // full_battery_capacity {android::util::FULL_BATTERY_CAPACITY, {.puller = new ResourceHealthManagerPuller(android::util::FULL_BATTERY_CAPACITY)}}, // battery_voltage {android::util::BATTERY_VOLTAGE, {.puller = new ResourceHealthManagerPuller(android::util::BATTERY_VOLTAGE)}}, // battery_level {android::util::BATTERY_LEVEL, {.puller = new ResourceHealthManagerPuller(android::util::BATTERY_LEVEL)}}, // battery_cycle_count {android::util::BATTERY_CYCLE_COUNT, {.puller = new ResourceHealthManagerPuller(android::util::BATTERY_CYCLE_COUNT)}}, // process_memory_state {android::util::PROCESS_MEMORY_STATE, {.additiveFields = {4, 5, 6, 7, 8, 9}, .puller = new StatsCompanionServicePuller(android::util::PROCESS_MEMORY_STATE)}}, // native_process_memory_state {android::util::NATIVE_PROCESS_MEMORY_STATE, {.additiveFields = {3, 4, 5, 6, 8}, .puller = new StatsCompanionServicePuller(android::util::NATIVE_PROCESS_MEMORY_STATE)}}, // process_memory_high_water_mark {android::util::PROCESS_MEMORY_HIGH_WATER_MARK, {.additiveFields = {3}, .puller = new StatsCompanionServicePuller(android::util::PROCESS_MEMORY_HIGH_WATER_MARK)}}, // system_ion_heap_size {android::util::SYSTEM_ION_HEAP_SIZE, {.puller = new StatsCompanionServicePuller(android::util::SYSTEM_ION_HEAP_SIZE)}}, // process_system_ion_heap_size {android::util::PROCESS_SYSTEM_ION_HEAP_SIZE, {.puller = new StatsCompanionServicePuller(android::util::PROCESS_SYSTEM_ION_HEAP_SIZE)}}, // temperature {android::util::TEMPERATURE, {.puller = new StatsCompanionServicePuller(android::util::TEMPERATURE)}}, // cooling_device {android::util::COOLING_DEVICE, {.puller = new StatsCompanionServicePuller(android::util::COOLING_DEVICE)}}, // binder_calls {android::util::BINDER_CALLS, {.additiveFields = {4, 5, 6, 8, 12}, .puller = new StatsCompanionServicePuller(android::util::BINDER_CALLS)}}, // binder_calls_exceptions {android::util::BINDER_CALLS_EXCEPTIONS, {.puller = new StatsCompanionServicePuller(android::util::BINDER_CALLS_EXCEPTIONS)}}, // looper_stats {android::util::LOOPER_STATS, {.additiveFields = {5, 6, 7, 8, 9}, .puller = new StatsCompanionServicePuller(android::util::LOOPER_STATS)}}, // Disk Stats {android::util::DISK_STATS, {.puller = new StatsCompanionServicePuller(android::util::DISK_STATS)}}, // Directory usage {android::util::DIRECTORY_USAGE, {.puller = new StatsCompanionServicePuller(android::util::DIRECTORY_USAGE)}}, // Size of app's code, data, and cache {android::util::APP_SIZE, {.puller = new StatsCompanionServicePuller(android::util::APP_SIZE)}}, // Size of specific categories of files. Eg. Music. {android::util::CATEGORY_SIZE, {.puller = new StatsCompanionServicePuller(android::util::CATEGORY_SIZE)}}, // Number of fingerprints enrolled for each user. {android::util::NUM_FINGERPRINTS_ENROLLED, {.puller = new StatsCompanionServicePuller(android::util::NUM_FINGERPRINTS_ENROLLED)}}, // Number of faces enrolled for each user. {android::util::NUM_FACES_ENROLLED, {.puller = new StatsCompanionServicePuller(android::util::NUM_FACES_ENROLLED)}}, // ProcStats. {android::util::PROC_STATS, {.puller = new StatsCompanionServicePuller(android::util::PROC_STATS)}}, // ProcStatsPkgProc. {android::util::PROC_STATS_PKG_PROC, {.puller = new StatsCompanionServicePuller(android::util::PROC_STATS_PKG_PROC)}}, // Disk I/O stats per uid. {android::util::DISK_IO, {.additiveFields = {2, 3, 4, 5, 6, 7, 8, 9, 10, 11}, .coolDownNs = 3 * NS_PER_SEC, .puller = new StatsCompanionServicePuller(android::util::DISK_IO)}}, // PowerProfile constants for power model calculations. {android::util::POWER_PROFILE, {.puller = new StatsCompanionServicePuller(android::util::POWER_PROFILE)}}, // Process cpu stats. Min cool-down is 5 sec, inline with what AcitivityManagerService uses. {android::util::PROCESS_CPU_TIME, {.coolDownNs = 5 * NS_PER_SEC /* min cool-down in seconds*/, .puller = new StatsCompanionServicePuller(android::util::PROCESS_CPU_TIME)}}, {android::util::CPU_TIME_PER_THREAD_FREQ, {.additiveFields = {7, 9, 11, 13, 15, 17, 19, 21}, .puller = new StatsCompanionServicePuller(android::util::CPU_TIME_PER_THREAD_FREQ)}}, // DeviceCalculatedPowerUse. {android::util::DEVICE_CALCULATED_POWER_USE, {.puller = new StatsCompanionServicePuller(android::util::DEVICE_CALCULATED_POWER_USE)}}, // DeviceCalculatedPowerBlameUid. {android::util::DEVICE_CALCULATED_POWER_BLAME_UID, {.puller = new StatsCompanionServicePuller( android::util::DEVICE_CALCULATED_POWER_BLAME_UID)}}, // DeviceCalculatedPowerBlameOther. {android::util::DEVICE_CALCULATED_POWER_BLAME_OTHER, {.puller = new StatsCompanionServicePuller( android::util::DEVICE_CALCULATED_POWER_BLAME_OTHER)}}, // DebugElapsedClock. {android::util::DEBUG_ELAPSED_CLOCK, {.additiveFields = {1, 2, 3, 4}, .puller = new StatsCompanionServicePuller(android::util::DEBUG_ELAPSED_CLOCK)}}, // DebugFailingElapsedClock. {android::util::DEBUG_FAILING_ELAPSED_CLOCK, {.additiveFields = {1, 2, 3, 4}, .puller = new StatsCompanionServicePuller(android::util::DEBUG_FAILING_ELAPSED_CLOCK)}}, // BuildInformation. {android::util::BUILD_INFORMATION, {.puller = new StatsCompanionServicePuller(android::util::BUILD_INFORMATION)}}, // RoleHolder. {android::util::ROLE_HOLDER, {.puller = new StatsCompanionServicePuller(android::util::ROLE_HOLDER)}}, // PermissionState. {android::util::DANGEROUS_PERMISSION_STATE, {.puller = new StatsCompanionServicePuller(android::util::DANGEROUS_PERMISSION_STATE)}}, // TrainInfo. {android::util::TRAIN_INFO, {.puller = new TrainInfoPuller()}}, // TimeZoneDataInfo. {android::util::TIME_ZONE_DATA_INFO, {.puller = new StatsCompanionServicePuller(android::util::TIME_ZONE_DATA_INFO)}}, // ExternalStorageInfo {android::util::EXTERNAL_STORAGE_INFO, {.puller = new StatsCompanionServicePuller(android::util::EXTERNAL_STORAGE_INFO)}}, // GpuStatsGlobalInfo {android::util::GPU_STATS_GLOBAL_INFO, {.puller = new GpuStatsPuller(android::util::GPU_STATS_GLOBAL_INFO)}}, // GpuStatsAppInfo {android::util::GPU_STATS_APP_INFO, {.puller = new GpuStatsPuller(android::util::GPU_STATS_APP_INFO)}}, // AppsOnExternalStorageInfo {android::util::APPS_ON_EXTERNAL_STORAGE_INFO, {.puller = new StatsCompanionServicePuller(android::util::APPS_ON_EXTERNAL_STORAGE_INFO)}}, // Face Settings {android::util::FACE_SETTINGS, {.puller = new StatsCompanionServicePuller(android::util::FACE_SETTINGS)}}, // App ops {android::util::APP_OPS, {.puller = new StatsCompanionServicePuller(android::util::APP_OPS)}}, }; StatsPullerManager::StatsPullerManager() : mNextPullTimeNs(NO_ALARM_UPDATE) { } bool StatsPullerManager::Pull(int tagId, vector>* data) { VLOG("Initiating pulling %d", tagId); if (kAllPullAtomInfo.find(tagId) != kAllPullAtomInfo.end()) { bool ret = kAllPullAtomInfo.find(tagId)->second.puller->Pull(data); VLOG("pulled %d items", (int)data->size()); if (!ret) { StatsdStats::getInstance().notePullFailed(tagId); } return ret; } else { VLOG("Unknown tagId %d", tagId); return false; // Return early since we don't know what to pull. } } bool StatsPullerManager::PullerForMatcherExists(int tagId) const { // Vendor pulled atoms might be registered after we parse the config. return isVendorPulledAtom(tagId) || kAllPullAtomInfo.find(tagId) != kAllPullAtomInfo.end(); } void StatsPullerManager::updateAlarmLocked() { if (mNextPullTimeNs == NO_ALARM_UPDATE) { VLOG("No need to set alarms. Skipping"); return; } sp statsCompanionServiceCopy = mStatsCompanionService; if (statsCompanionServiceCopy != nullptr) { statsCompanionServiceCopy->setPullingAlarm(mNextPullTimeNs / 1000000); } else { VLOG("StatsCompanionService not available. Alarm not set."); } return; } void StatsPullerManager::SetStatsCompanionService( sp statsCompanionService) { AutoMutex _l(mLock); sp tmpForLock = mStatsCompanionService; mStatsCompanionService = statsCompanionService; for (const auto& pulledAtom : kAllPullAtomInfo) { pulledAtom.second.puller->SetStatsCompanionService(statsCompanionService); } if (mStatsCompanionService != nullptr) { updateAlarmLocked(); } } void StatsPullerManager::RegisterReceiver(int tagId, wp receiver, int64_t nextPullTimeNs, int64_t intervalNs) { AutoMutex _l(mLock); auto& receivers = mReceivers[tagId]; for (auto it = receivers.begin(); it != receivers.end(); it++) { if (it->receiver == receiver) { VLOG("Receiver already registered of %d", (int)receivers.size()); return; } } ReceiverInfo receiverInfo; receiverInfo.receiver = receiver; // Round it to the nearest minutes. This is the limit of alarm manager. // In practice, we should always have larger buckets. int64_t roundedIntervalNs = intervalNs / NS_PER_SEC / 60 * NS_PER_SEC * 60; // Scheduled pulling should be at least 1 min apart. // This can be lower in cts tests, in which case we round it to 1 min. if (roundedIntervalNs < 60 * (int64_t)NS_PER_SEC) { roundedIntervalNs = 60 * (int64_t)NS_PER_SEC; } receiverInfo.intervalNs = roundedIntervalNs; receiverInfo.nextPullTimeNs = nextPullTimeNs; receivers.push_back(receiverInfo); // There is only one alarm for all pulled events. So only set it to the smallest denom. if (nextPullTimeNs < mNextPullTimeNs) { VLOG("Updating next pull time %lld", (long long)mNextPullTimeNs); mNextPullTimeNs = nextPullTimeNs; updateAlarmLocked(); } VLOG("Puller for tagId %d registered of %d", tagId, (int)receivers.size()); } void StatsPullerManager::UnRegisterReceiver(int tagId, wp receiver) { AutoMutex _l(mLock); if (mReceivers.find(tagId) == mReceivers.end()) { VLOG("Unknown pull code or no receivers: %d", tagId); return; } auto& receivers = mReceivers.find(tagId)->second; for (auto it = receivers.begin(); it != receivers.end(); it++) { if (receiver == it->receiver) { receivers.erase(it); VLOG("Puller for tagId %d unregistered of %d", tagId, (int)receivers.size()); return; } } } void StatsPullerManager::OnAlarmFired(int64_t elapsedTimeNs) { AutoMutex _l(mLock); int64_t wallClockNs = getWallClockNs(); int64_t minNextPullTimeNs = NO_ALARM_UPDATE; vector>> needToPull = vector>>(); for (auto& pair : mReceivers) { vector receivers = vector(); if (pair.second.size() != 0) { for (ReceiverInfo& receiverInfo : pair.second) { if (receiverInfo.nextPullTimeNs <= elapsedTimeNs) { receivers.push_back(&receiverInfo); } else { if (receiverInfo.nextPullTimeNs < minNextPullTimeNs) { minNextPullTimeNs = receiverInfo.nextPullTimeNs; } } } if (receivers.size() > 0) { needToPull.push_back(make_pair(pair.first, receivers)); } } } for (const auto& pullInfo : needToPull) { vector> data; bool pullSuccess = Pull(pullInfo.first, &data); if (pullSuccess) { StatsdStats::getInstance().notePullDelay( pullInfo.first, getElapsedRealtimeNs() - elapsedTimeNs); } else { VLOG("pull failed at %lld, will try again later", (long long)elapsedTimeNs); } // Convention is to mark pull atom timestamp at request time. // If we pull at t0, puller starts at t1, finishes at t2, and send back // at t3, we mark t0 as its timestamp, which should correspond to its // triggering event, such as condition change at t0. // Here the triggering event is alarm fired from AlarmManager. // In ValueMetricProducer and GaugeMetricProducer we do same thing // when pull on condition change, etc. for (auto& event : data) { event->setElapsedTimestampNs(elapsedTimeNs); event->setLogdWallClockTimestampNs(wallClockNs); } for (const auto& receiverInfo : pullInfo.second) { sp receiverPtr = receiverInfo->receiver.promote(); if (receiverPtr != nullptr) { receiverPtr->onDataPulled(data, pullSuccess, elapsedTimeNs); // We may have just come out of a coma, compute next pull time. int numBucketsAhead = (elapsedTimeNs - receiverInfo->nextPullTimeNs) / receiverInfo->intervalNs; receiverInfo->nextPullTimeNs += (numBucketsAhead + 1) * receiverInfo->intervalNs; if (receiverInfo->nextPullTimeNs < minNextPullTimeNs) { minNextPullTimeNs = receiverInfo->nextPullTimeNs; } } else { VLOG("receiver already gone."); } } } VLOG("mNextPullTimeNs: %lld updated to %lld", (long long)mNextPullTimeNs, (long long)minNextPullTimeNs); mNextPullTimeNs = minNextPullTimeNs; updateAlarmLocked(); } int StatsPullerManager::ForceClearPullerCache() { int totalCleared = 0; for (const auto& pulledAtom : kAllPullAtomInfo) { totalCleared += pulledAtom.second.puller->ForceClearCache(); } return totalCleared; } int StatsPullerManager::ClearPullerCacheIfNecessary(int64_t timestampNs) { int totalCleared = 0; for (const auto& pulledAtom : kAllPullAtomInfo) { totalCleared += pulledAtom.second.puller->ClearCacheIfNecessary(timestampNs); } return totalCleared; } void StatsPullerManager::RegisterPullerCallback(int32_t atomTag, const sp& callback) { AutoMutex _l(mLock); // Platform pullers cannot be changed. if (!isVendorPulledAtom(atomTag)) { VLOG("RegisterPullerCallback: atom tag %d is not vendor pulled", atomTag); return; } VLOG("RegisterPullerCallback: adding puller for tag %d", atomTag); StatsdStats::getInstance().notePullerCallbackRegistrationChanged(atomTag, /*registered=*/true); kAllPullAtomInfo[atomTag] = {.puller = new StatsCallbackPuller(atomTag, callback)}; } void StatsPullerManager::UnregisterPullerCallback(int32_t atomTag) { AutoMutex _l(mLock); // Platform pullers cannot be changed. if (!isVendorPulledAtom(atomTag)) { return; } StatsdStats::getInstance().notePullerCallbackRegistrationChanged(atomTag, /*registered=*/false); kAllPullAtomInfo.erase(atomTag); } } // namespace statsd } // namespace os } // namespace android