/* * Copyright 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 STATSD_DEBUG false // STOPSHIP if true #include "Log.h" #include "StatsdStats.h" #include #include "../stats_log_util.h" #include "shell/ShellSubscriber.h" #include "statslog_statsd.h" #include "storage/StorageManager.h" #include "utils/ShardOffsetProvider.h" namespace android { namespace os { namespace statsd { using android::util::FIELD_COUNT_REPEATED; using android::util::FIELD_TYPE_BOOL; using android::util::FIELD_TYPE_ENUM; using android::util::FIELD_TYPE_FLOAT; using android::util::FIELD_TYPE_INT32; using android::util::FIELD_TYPE_INT64; using android::util::FIELD_TYPE_MESSAGE; using android::util::FIELD_TYPE_STRING; using android::util::FIELD_TYPE_UINT32; using android::util::ProtoOutputStream; using std::lock_guard; using std::shared_ptr; using std::string; using std::to_string; using std::vector; const int FIELD_ID_BEGIN_TIME = 1; const int FIELD_ID_END_TIME = 2; const int FIELD_ID_CONFIG_STATS = 3; const int FIELD_ID_ATOM_STATS = 7; const int FIELD_ID_UIDMAP_STATS = 8; const int FIELD_ID_ANOMALY_ALARM_STATS = 9; const int FIELD_ID_PERIODIC_ALARM_STATS = 12; const int FIELD_ID_SYSTEM_SERVER_RESTART = 15; const int FIELD_ID_LOGGER_ERROR_STATS = 16; const int FIELD_ID_OVERFLOW = 18; const int FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL = 19; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS = 20; const int FIELD_ID_SHARD_OFFSET = 21; const int FIELD_ID_STATSD_STATS_ID = 22; const int FIELD_ID_SUBSCRIPTION_STATS = 23; const int FIELD_ID_SOCKET_LOSS_STATS = 24; const int FIELD_ID_QUEUE_STATS = 25; const int FIELD_ID_SOCKET_READ_STATS = 26; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CALLING_UID = 1; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_ID = 2; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_UID = 3; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_PACKAGE = 4; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_INVALID_QUERY_REASON = 5; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_QUERY_WALL_TIME_NS = 6; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_HAS_ERROR = 7; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_ERROR = 8; const int FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_LATENCY_NS = 9; const int FIELD_ID_ATOM_STATS_TAG = 1; const int FIELD_ID_ATOM_STATS_COUNT = 2; const int FIELD_ID_ATOM_STATS_ERROR_COUNT = 3; const int FIELD_ID_ATOM_STATS_DROPS_COUNT = 4; const int FIELD_ID_ATOM_STATS_SKIP_COUNT = 5; const int FIELD_ID_ANOMALY_ALARMS_REGISTERED = 1; const int FIELD_ID_PERIODIC_ALARMS_REGISTERED = 1; const int FIELD_ID_LOG_LOSS_STATS_TIME = 1; const int FIELD_ID_LOG_LOSS_STATS_COUNT = 2; const int FIELD_ID_LOG_LOSS_STATS_ERROR = 3; const int FIELD_ID_LOG_LOSS_STATS_TAG = 4; const int FIELD_ID_LOG_LOSS_STATS_UID = 5; const int FIELD_ID_LOG_LOSS_STATS_PID = 6; const int FIELD_ID_OVERFLOW_COUNT = 1; const int FIELD_ID_OVERFLOW_MAX_HISTORY = 2; const int FIELD_ID_OVERFLOW_MIN_HISTORY = 3; const int FIELD_ID_QUEUE_MAX_SIZE_OBSERVED = 1; const int FIELD_ID_QUEUE_MAX_SIZE_OBSERVED_ELAPSED_NANOS = 2; const int FIELD_ID_CONFIG_STATS_UID = 1; const int FIELD_ID_CONFIG_STATS_ID = 2; const int FIELD_ID_CONFIG_STATS_CREATION = 3; const int FIELD_ID_CONFIG_STATS_RESET = 19; const int FIELD_ID_CONFIG_STATS_DELETION = 4; const int FIELD_ID_CONFIG_STATS_METRIC_COUNT = 5; const int FIELD_ID_CONFIG_STATS_CONDITION_COUNT = 6; const int FIELD_ID_CONFIG_STATS_MATCHER_COUNT = 7; const int FIELD_ID_CONFIG_STATS_ALERT_COUNT = 8; const int FIELD_ID_CONFIG_STATS_VALID = 9; const int FIELD_ID_CONFIG_STATS_INVALID_CONFIG_REASON = 24; const int FIELD_ID_CONFIG_STATS_BROADCAST = 10; const int FIELD_ID_CONFIG_STATS_DATA_DROP_TIME = 11; const int FIELD_ID_CONFIG_STATS_DATA_DROP_BYTES = 21; const int FIELD_ID_CONFIG_STATS_DUMP_REPORT_TIME = 12; const int FIELD_ID_CONFIG_STATS_DUMP_REPORT_BYTES = 20; const int FIELD_ID_CONFIG_STATS_MATCHER_STATS = 13; const int FIELD_ID_CONFIG_STATS_CONDITION_STATS = 14; const int FIELD_ID_CONFIG_STATS_METRIC_STATS = 15; const int FIELD_ID_CONFIG_STATS_ALERT_STATS = 16; const int FIELD_ID_CONFIG_STATS_METRIC_DIMENSION_IN_CONDITION_STATS = 17; const int FIELD_ID_CONFIG_STATS_ANNOTATION = 18; const int FIELD_ID_CONFIG_STATS_ACTIVATION = 22; const int FIELD_ID_CONFIG_STATS_DEACTIVATION = 23; const int FIELD_ID_CONFIG_STATS_ANNOTATION_INT64 = 1; const int FIELD_ID_CONFIG_STATS_ANNOTATION_INT32 = 2; const int FIELD_ID_CONFIG_STATS_RESTRICTED_METRIC_STATS = 25; const int FIELD_ID_CONFIG_STATS_DEVICE_INFO_TABLE_CREATION_FAILED = 26; const int FIELD_ID_CONFIG_STATS_RESTRICTED_DB_CORRUPTED_COUNT = 27; const int FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_FLUSH_LATENCY = 28; const int FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_DB_SIZE_TIME_SEC = 29; const int FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_DB_SIZE_BYTES = 30; const int FIELD_ID_CONFIG_STATS_DUMP_REPORT_NUMBER = 31; const int FIELD_ID_DB_DELETION_STAT_FAILED = 32; const int FIELD_ID_DB_DELETION_SIZE_EXCEEDED_LIMIT = 33; const int FIELD_ID_DB_DELETION_CONFIG_INVALID = 34; const int FIELD_ID_DB_DELETION_TOO_OLD = 35; const int FIELD_ID_DB_DELETION_CONFIG_REMOVED = 36; const int FIELD_ID_DB_DELETION_CONFIG_UPDATED = 37; const int FIELD_ID_CONFIG_METADATA_PROVIDER_PROMOTION_FAILED = 38; const int FIELD_ID_INVALID_CONFIG_REASON_ENUM = 1; const int FIELD_ID_INVALID_CONFIG_REASON_METRIC_ID = 2; const int FIELD_ID_INVALID_CONFIG_REASON_STATE_ID = 3; const int FIELD_ID_INVALID_CONFIG_REASON_ALERT_ID = 4; const int FIELD_ID_INVALID_CONFIG_REASON_ALARM_ID = 5; const int FIELD_ID_INVALID_CONFIG_REASON_SUBSCRIPTION_ID = 6; const int FIELD_ID_INVALID_CONFIG_REASON_MATCHER_ID = 7; const int FIELD_ID_INVALID_CONFIG_REASON_CONDITION_ID = 8; const int FIELD_ID_MATCHER_STATS_ID = 1; const int FIELD_ID_MATCHER_STATS_COUNT = 2; const int FIELD_ID_CONDITION_STATS_ID = 1; const int FIELD_ID_CONDITION_STATS_COUNT = 2; const int FIELD_ID_METRIC_STATS_ID = 1; const int FIELD_ID_METRIC_STATS_COUNT = 2; const int FIELD_ID_ALERT_STATS_ID = 1; const int FIELD_ID_ALERT_STATS_COUNT = 2; const int FIELD_ID_UID_MAP_CHANGES = 1; const int FIELD_ID_UID_MAP_BYTES_USED = 2; const int FIELD_ID_UID_MAP_DROPPED_CHANGES = 3; const int FIELD_ID_UID_MAP_DELETED_APPS = 4; const int FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL_UID = 1; const int FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL_TIME = 2; // SocketLossStats const int FIELD_ID_SOCKET_LOSS_STATS_PER_UID = 1; const int FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS = 2; // for LossStatsOverflowCounters proto const int FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS_UID = 1; const int FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS_COUNT = 2; // for LossStatsPerUid proto const int FIELD_ID_SOCKET_LOSS_STATS_UID = 1; const int FIELD_ID_SOCKET_LOSS_STATS_FIRST_TIMESTAMP_NANOS = 2; const int FIELD_ID_SOCKET_LOSS_STATS_LAST_TIMESTAMP_NANOS = 3; const int FIELD_ID_SOCKET_LOSS_ATOM_ID_LOSS_STATS = 4; // for AtomIdLossStats proto const int FIELD_ID_ATOM_ID_LOSS_STATS_ATOM_ID = 1; const int FIELD_ID_ATOM_ID_LOSS_STATS_ERROR = 2; const int FIELD_ID_ATOM_ID_LOSS_STATS_COUNT = 3; // for RestrictedMetricStats proto const int FIELD_ID_RESTRICTED_STATS_METRIC_ID = 1; const int FIELD_ID_RESTRICTED_STATS_INSERT_ERROR = 2; const int FIELD_ID_RESTRICTED_STATS_TABLE_CREATION_ERROR = 3; const int FIELD_ID_RESTRICTED_STATS_TABLE_DELETION_ERROR = 4; const int FIELD_ID_RESTRICTED_STATS_FLUSH_LATENCY = 5; const int FIELD_ID_RESTRICTED_STATS_CATEGORY_CHANGED_COUNT = 6; const int FIELD_ID_SUBSCRIPTION_STATS_PER_SUBSCRIPTION_STATS = 1; const int FIELD_ID_SUBSCRIPTION_STATS_PULL_THREAD_WAKEUP_COUNT = 2; const int FIELD_ID_PER_SUBSCRIPTION_STATS_ID = 1; const int FIELD_ID_PER_SUBSCRIPTION_STATS_PUSHED_ATOM_COUNT = 2; const int FIELD_ID_PER_SUBSCRIPTION_STATS_PULLED_ATOM_COUNT = 3; const int FIELD_ID_PER_SUBSCRIPTION_STATS_START_TIME = 4; const int FIELD_ID_PER_SUBSCRIPTION_STATS_END_TIME = 5; const int FIELD_ID_PER_SUBSCRIPTION_STATS_FLUSH_COUNT = 6; // Socket read stats const int FIELD_ID_SOCKET_READ_STATS_BATCHED_READ_SIZE = 1; const int FIELD_ID_SOCKET_READ_STATS_LARGE_BATCH_STATS = 2; // Large socket batch stats const int FIELD_ID_LARGE_BATCH_SOCKET_READ_LAST_READ_TIME = 1; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_CURR_READ_TIME = 2; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_MIN_ATOM_TIME = 3; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_MAX_ATOM_TIME = 4; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_TOTAL_ATOMS = 5; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS = 6; // Large batch socket read atom stats const int FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS_ATOM_ID = 1; const int FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS_COUNT = 2; const std::map> StatsdStats::kAtomDimensionKeySizeLimitMap = { {util::BINDER_CALLS, {6000, 10000}}, {util::LOOPER_STATS, {1500, 2500}}, {util::CPU_TIME_PER_UID_FREQ, {6000, 10000}}, }; StatsdStats::StatsdStats() : mStatsdStatsId(rand()), mSocketBatchReadHistogram(kNumBinsInSocketBatchReadHistogram) { mPushedAtomStats.resize(kMaxPushedAtomId + 1); mStartTimeSec = getWallClockSec(); } StatsdStats& StatsdStats::getInstance() { static StatsdStats statsInstance; return statsInstance; } void StatsdStats::addToIceBoxLocked(shared_ptr& stats) { // The size of mIceBox grows strictly by one at a time. It won't be > kMaxIceBoxSize. if (mIceBox.size() == kMaxIceBoxSize) { mIceBox.pop_front(); } mIceBox.push_back(stats); } void StatsdStats::noteConfigReceived( const ConfigKey& key, int metricsCount, int conditionsCount, int matchersCount, int alertsCount, const std::list>& annotations, const optional& reason) { lock_guard lock(mLock); int32_t nowTimeSec = getWallClockSec(); // If there is an existing config for the same key, icebox the old config. noteConfigRemovedInternalLocked(key); shared_ptr configStats = std::make_shared(); configStats->uid = key.GetUid(); configStats->id = key.GetId(); configStats->creation_time_sec = nowTimeSec; configStats->metric_count = metricsCount; configStats->condition_count = conditionsCount; configStats->matcher_count = matchersCount; configStats->alert_count = alertsCount; configStats->is_valid = !reason.has_value(); configStats->reason = reason; for (auto& v : annotations) { configStats->annotations.emplace_back(v); } if (!reason.has_value()) { mConfigStats[key] = configStats; } else { configStats->deletion_time_sec = nowTimeSec; addToIceBoxLocked(configStats); } } void StatsdStats::noteConfigRemovedInternalLocked(const ConfigKey& key) { auto it = mConfigStats.find(key); if (it != mConfigStats.end()) { int32_t nowTimeSec = getWallClockSec(); it->second->deletion_time_sec = nowTimeSec; addToIceBoxLocked(it->second); mConfigStats.erase(it); } } void StatsdStats::noteConfigRemoved(const ConfigKey& key) { lock_guard lock(mLock); noteConfigRemovedInternalLocked(key); } void StatsdStats::noteConfigResetInternalLocked(const ConfigKey& key) { auto it = mConfigStats.find(key); if (it != mConfigStats.end()) { it->second->reset_time_sec = getWallClockSec(); } } void StatsdStats::noteConfigReset(const ConfigKey& key) { lock_guard lock(mLock); noteConfigResetInternalLocked(key); } void StatsdStats::noteLogLost(int32_t wallClockTimeSec, int32_t count, int32_t lastError, int32_t lastTag, int32_t uid, int32_t pid) { lock_guard lock(mLock); if (mLogLossStats.size() == kMaxLoggerErrors) { mLogLossStats.pop_front(); } mLogLossStats.emplace_back(wallClockTimeSec, count, lastError, lastTag, uid, pid); } void StatsdStats::noteBatchSocketRead(int32_t size, int64_t lastReadTimeNs, int64_t currReadTimeNs, int64_t minAtomReadTimeNs, int64_t maxAtomReadTimeNs, const unordered_map& atomCounts) { // Calculate the bin. int bin = 0; if (size < 0) { ALOGE("Unexpected negative size read from socket. This should never happen"); bin = 0; } else if (size < 5) { bin = size; // bin = [0,4]. } else if (size < 10) { bin = 4 + (size / 5); // bin = 5. } else if (size < 100) { bin = 5 + (size / 10); // bin = [6,14]. } else if (size < 1000) { bin = 14 + (size / 100); // bin = [15-23]. } else if (size < 2000) { bin = 19 + (size / 200); // bin = [24-28]. } else { // 2000+ bin = 29; } lock_guard lock(mLock); mSocketBatchReadHistogram[bin] += 1; // More detailed stats for large batches. if (size >= kLargeBatchReadThreshold) { // make a local copy and filter the map to atoms that pass the threshold unordered_map localAtomCounts = atomCounts; for (auto it = localAtomCounts.begin(); it != localAtomCounts.end();) { if (it->second < kMaxLargeBatchReadAtomThreshold) { it = localAtomCounts.erase(it); } else { ++it; } } // Add to list. if (mLargeBatchSocketReadStats.size() == kMaxLargeBatchReadSize) { mLargeBatchSocketReadStats.pop_front(); } mLargeBatchSocketReadStats.emplace_back(size, lastReadTimeNs, currReadTimeNs, minAtomReadTimeNs, maxAtomReadTimeNs, localAtomCounts); } } void StatsdStats::noteBroadcastSent(const ConfigKey& key) { noteBroadcastSent(key, getWallClockSec()); } void StatsdStats::noteBroadcastSent(const ConfigKey& key, int32_t timeSec) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } if (it->second->broadcast_sent_time_sec.size() == kMaxTimestampCount) { it->second->broadcast_sent_time_sec.pop_front(); } it->second->broadcast_sent_time_sec.push_back(timeSec); } void StatsdStats::noteActiveStatusChanged(const ConfigKey& key, bool activated) { noteActiveStatusChanged(key, activated, getWallClockSec()); } void StatsdStats::noteActiveStatusChanged(const ConfigKey& key, bool activated, int32_t timeSec) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } auto& vec = activated ? it->second->activation_time_sec : it->second->deactivation_time_sec; if (vec.size() == kMaxTimestampCount) { vec.pop_front(); } vec.push_back(timeSec); } void StatsdStats::noteActivationBroadcastGuardrailHit(const int uid) { noteActivationBroadcastGuardrailHit(uid, getWallClockSec()); } void StatsdStats::noteActivationBroadcastGuardrailHit(const int uid, const int32_t timeSec) { lock_guard lock(mLock); auto& guardrailTimes = mActivationBroadcastGuardrailStats[uid]; if (guardrailTimes.size() == kMaxTimestampCount) { guardrailTimes.pop_front(); } guardrailTimes.push_back(timeSec); } void StatsdStats::noteDataDropped(const ConfigKey& key, const size_t totalBytes) { noteDataDropped(key, totalBytes, getWallClockSec()); } void StatsdStats::noteEventQueueOverflow(int64_t oldestEventTimestampNs, int32_t atomId, bool isSkipped) { lock_guard lock(mLock); mOverflowCount++; const int64_t history = getElapsedRealtimeNs() - oldestEventTimestampNs; if (history > mMaxQueueHistoryNs) { mMaxQueueHistoryNs = history; } if (history < mMinQueueHistoryNs) { mMinQueueHistoryNs = history; } noteAtomLoggedLocked(atomId, isSkipped); noteAtomDroppedLocked(atomId); } void StatsdStats::noteEventQueueSize(int32_t size, int64_t eventTimestampNs) { lock_guard lock(mLock); if (mEventQueueMaxSizeObserved < size) { mEventQueueMaxSizeObserved = size; mEventQueueMaxSizeObservedElapsedNanos = eventTimestampNs; } } void StatsdStats::noteAtomDroppedLocked(int32_t atomId) { constexpr int kMaxPushedAtomDroppedStatsSize = kMaxPushedAtomId + kMaxNonPlatformPushedAtoms; if (mPushedAtomDropsStats.size() < kMaxPushedAtomDroppedStatsSize || mPushedAtomDropsStats.find(atomId) != mPushedAtomDropsStats.end()) { mPushedAtomDropsStats[atomId]++; } } void StatsdStats::noteAtomSocketLoss(const SocketLossInfo& lossInfo) { ALOGW("SocketLossEvent detected: %lld (firstLossTsNanos), %lld (lastLossTsNanos)", (long long)lossInfo.firstLossTsNanos, (long long)lossInfo.lastLossTsNanos); lock_guard lock(mLock); if (mSocketLossStats.size() == kMaxSocketLossStatsSize) { // erase the oldest record mSocketLossStats.pop_front(); } mSocketLossStats.emplace_back(lossInfo.uid, lossInfo.firstLossTsNanos, lossInfo.lastLossTsNanos); for (size_t i = 0; i < lossInfo.atomIds.size(); i++) { ALOGW("For uid %d atom %d was lost %d times with error %d", lossInfo.uid, lossInfo.atomIds[i], lossInfo.counts[i], lossInfo.errors[i]); mSocketLossStats.back().mLossCountPerErrorAtomId.emplace_back( lossInfo.atomIds[i], lossInfo.errors[i], lossInfo.counts[i]); } if (lossInfo.overflowCounter > 0) { auto overflowPerUid = mSocketLossStatsOverflowCounters.find(lossInfo.uid); if (overflowPerUid != mSocketLossStatsOverflowCounters.end()) { overflowPerUid->second += lossInfo.overflowCounter; } else if (mSocketLossStatsOverflowCounters.size() < kMaxSocketLossStatsSize) { mSocketLossStatsOverflowCounters[lossInfo.uid] = lossInfo.overflowCounter; } } } void StatsdStats::noteDataDropped(const ConfigKey& key, const size_t totalBytes, int32_t timeSec) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } if (it->second->data_drop_time_sec.size() == kMaxTimestampCount) { it->second->data_drop_time_sec.pop_front(); it->second->data_drop_bytes.pop_front(); } it->second->data_drop_time_sec.push_back(timeSec); it->second->data_drop_bytes.push_back(totalBytes); } void StatsdStats::noteMetricsReportSent(const ConfigKey& key, const size_t numBytes, const int32_t reportNumber) { noteMetricsReportSent(key, numBytes, getWallClockSec(), reportNumber); } void StatsdStats::noteMetricsReportSent(const ConfigKey& key, const size_t numBytes, int32_t timeSec, const int32_t reportNumber) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } if (it->second->dump_report_stats.size() == kMaxTimestampCount) { it->second->dump_report_stats.pop_front(); } it->second->dump_report_stats.emplace_back(timeSec, numBytes, reportNumber); } void StatsdStats::noteDeviceInfoTableCreationFailed(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->device_info_table_creation_failed = true; } void StatsdStats::noteDbCorrupted(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_corrupted_count++; } void StatsdStats::noteDbSizeExceeded(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_size_exceeded_limit++; } void StatsdStats::noteDbStatFailed(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_stat_failed++; } void StatsdStats::noteDbConfigInvalid(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_config_invalid++; } void StatsdStats::noteDbTooOld(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_too_old++; } void StatsdStats::noteDbDeletionConfigRemoved(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_config_removed++; } void StatsdStats::noteDbDeletionConfigUpdated(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->db_deletion_config_updated++; } void StatsdStats::noteConfigMetadataProviderPromotionFailed(const ConfigKey& key) { lock_guard lock(mLock); auto it = mConfigStats.find(key); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", key.ToString().c_str()); return; } it->second->config_metadata_provider_promote_failure++; } void StatsdStats::noteUidMapDropped(int deltas) { lock_guard lock(mLock); mUidMapStats.dropped_changes += mUidMapStats.dropped_changes + deltas; } void StatsdStats::noteUidMapAppDeletionDropped() { lock_guard lock(mLock); mUidMapStats.deleted_apps++; } void StatsdStats::setUidMapChanges(int changes) { lock_guard lock(mLock); mUidMapStats.changes = changes; } void StatsdStats::setCurrentUidMapMemory(int bytes) { lock_guard lock(mLock); mUidMapStats.bytes_used = bytes; } void StatsdStats::noteConditionDimensionSize(const ConfigKey& key, const int64_t id, int size) { lock_guard lock(mLock); // if name doesn't exist before, it will create the key with count 0. auto statsIt = mConfigStats.find(key); if (statsIt == mConfigStats.end()) { return; } auto& conditionSizeMap = statsIt->second->condition_stats; if (size > conditionSizeMap[id]) { conditionSizeMap[id] = size; } } void StatsdStats::noteMetricDimensionSize(const ConfigKey& key, const int64_t id, int size) { lock_guard lock(mLock); // if name doesn't exist before, it will create the key with count 0. auto statsIt = mConfigStats.find(key); if (statsIt == mConfigStats.end()) { return; } auto& metricsDimensionMap = statsIt->second->metric_stats; if (size > metricsDimensionMap[id]) { metricsDimensionMap[id] = size; } } void StatsdStats::noteMetricDimensionInConditionSize(const ConfigKey& key, const int64_t id, int size) { lock_guard lock(mLock); // if name doesn't exist before, it will create the key with count 0. auto statsIt = mConfigStats.find(key); if (statsIt == mConfigStats.end()) { return; } auto& metricsDimensionMap = statsIt->second->metric_dimension_in_condition_stats; if (size > metricsDimensionMap[id]) { metricsDimensionMap[id] = size; } } void StatsdStats::noteMatcherMatched(const ConfigKey& key, const int64_t id) { lock_guard lock(mLock); auto statsIt = mConfigStats.find(key); if (statsIt == mConfigStats.end()) { return; } statsIt->second->matcher_stats[id]++; } void StatsdStats::noteAnomalyDeclared(const ConfigKey& key, const int64_t id) { lock_guard lock(mLock); auto statsIt = mConfigStats.find(key); if (statsIt == mConfigStats.end()) { return; } statsIt->second->alert_stats[id]++; } void StatsdStats::noteRegisteredAnomalyAlarmChanged() { lock_guard lock(mLock); mAnomalyAlarmRegisteredStats++; } void StatsdStats::noteRegisteredPeriodicAlarmChanged() { lock_guard lock(mLock); mPeriodicAlarmRegisteredStats++; } void StatsdStats::updateMinPullIntervalSec(int pullAtomId, long intervalSec) { lock_guard lock(mLock); mPulledAtomStats[pullAtomId].minPullIntervalSec = std::min(mPulledAtomStats[pullAtomId].minPullIntervalSec, intervalSec); } void StatsdStats::notePull(int pullAtomId) { lock_guard lock(mLock); mPulledAtomStats[pullAtomId].totalPull++; } void StatsdStats::notePullFromCache(int pullAtomId) { lock_guard lock(mLock); mPulledAtomStats[pullAtomId].totalPullFromCache++; } void StatsdStats::notePullTime(int pullAtomId, int64_t pullTimeNs) { lock_guard lock(mLock); auto& pullStats = mPulledAtomStats[pullAtomId]; pullStats.maxPullTimeNs = std::max(pullStats.maxPullTimeNs, pullTimeNs); pullStats.avgPullTimeNs = (pullStats.avgPullTimeNs * pullStats.numPullTime + pullTimeNs) / (pullStats.numPullTime + 1); pullStats.numPullTime += 1; } void StatsdStats::notePullDelay(int pullAtomId, int64_t pullDelayNs) { lock_guard lock(mLock); auto& pullStats = mPulledAtomStats[pullAtomId]; pullStats.maxPullDelayNs = std::max(pullStats.maxPullDelayNs, pullDelayNs); pullStats.avgPullDelayNs = (pullStats.avgPullDelayNs * pullStats.numPullDelay + pullDelayNs) / (pullStats.numPullDelay + 1); pullStats.numPullDelay += 1; } void StatsdStats::notePullDataError(int pullAtomId) { lock_guard lock(mLock); mPulledAtomStats[pullAtomId].dataError++; } void StatsdStats::notePullTimeout(int pullAtomId, int64_t pullUptimeMillis, int64_t pullElapsedMillis) { lock_guard lock(mLock); PulledAtomStats& pulledAtomStats = mPulledAtomStats[pullAtomId]; pulledAtomStats.pullTimeout++; if (pulledAtomStats.pullTimeoutMetadata.size() == kMaxTimestampCount) { pulledAtomStats.pullTimeoutMetadata.pop_front(); } pulledAtomStats.pullTimeoutMetadata.emplace_back(pullUptimeMillis, pullElapsedMillis); } void StatsdStats::notePullExceedMaxDelay(int pullAtomId) { lock_guard lock(mLock); mPulledAtomStats[pullAtomId].pullExceedMaxDelay++; } void StatsdStats::noteAtomLogged(int atomId, int32_t /*timeSec*/, bool isSkipped) { lock_guard lock(mLock); noteAtomLoggedLocked(atomId, isSkipped); } void StatsdStats::noteAtomLoggedLocked(int atomId, bool isSkipped) { if (atomId >= 0 && atomId <= kMaxPushedAtomId) { mPushedAtomStats[atomId].logCount++; mPushedAtomStats[atomId].skipCount += isSkipped; } else { if (atomId < 0) { android_errorWriteLog(0x534e4554, "187957589"); } if (mNonPlatformPushedAtomStats.size() < kMaxNonPlatformPushedAtoms || mNonPlatformPushedAtomStats.find(atomId) != mNonPlatformPushedAtomStats.end()) { mNonPlatformPushedAtomStats[atomId].logCount++; mNonPlatformPushedAtomStats[atomId].skipCount += isSkipped; } } } void StatsdStats::noteSystemServerRestart(int32_t timeSec) { lock_guard lock(mLock); if (mSystemServerRestartSec.size() == kMaxSystemServerRestarts) { mSystemServerRestartSec.pop_front(); } mSystemServerRestartSec.push_back(timeSec); } void StatsdStats::notePullFailed(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].pullFailed++; } void StatsdStats::notePullUidProviderNotFound(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].pullUidProviderNotFound++; } void StatsdStats::notePullerNotFound(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].pullerNotFound++; } void StatsdStats::notePullBinderCallFailed(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].binderCallFailCount++; } void StatsdStats::noteEmptyData(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].emptyData++; } void StatsdStats::notePullerCallbackRegistrationChanged(int atomId, bool registered) { lock_guard lock(mLock); if (registered) { mPulledAtomStats[atomId].registeredCount++; } else { mPulledAtomStats[atomId].unregisteredCount++; } } void StatsdStats::noteHardDimensionLimitReached(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).hardDimensionLimitReached++; } void StatsdStats::noteLateLogEventSkipped(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).lateLogEventSkipped++; } void StatsdStats::noteSkippedForwardBuckets(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).skippedForwardBuckets++; } void StatsdStats::noteBadValueType(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).badValueType++; } void StatsdStats::noteBucketDropped(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).bucketDropped++; } void StatsdStats::noteBucketUnknownCondition(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).bucketUnknownCondition++; } void StatsdStats::noteConditionChangeInNextBucket(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).conditionChangeInNextBucket++; } void StatsdStats::noteInvalidatedBucket(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).invalidatedBucket++; } void StatsdStats::noteBucketCount(int64_t metricId) { lock_guard lock(mLock); getAtomMetricStats(metricId).bucketCount++; } void StatsdStats::noteBucketBoundaryDelayNs(int64_t metricId, int64_t timeDelayNs) { lock_guard lock(mLock); AtomMetricStats& metricStats = getAtomMetricStats(metricId); metricStats.maxBucketBoundaryDelayNs = std::max(metricStats.maxBucketBoundaryDelayNs, timeDelayNs); metricStats.minBucketBoundaryDelayNs = std::min(metricStats.minBucketBoundaryDelayNs, timeDelayNs); } void StatsdStats::noteAtomError(int atomTag, bool pull) { lock_guard lock(mLock); if (pull) { mPulledAtomStats[atomTag].atomErrorCount++; return; } bool present = (mPushedAtomErrorStats.find(atomTag) != mPushedAtomErrorStats.end()); bool full = (mPushedAtomErrorStats.size() >= (size_t)kMaxPushedAtomErrorStatsSize); if (!full || present) { mPushedAtomErrorStats[atomTag]++; } } bool StatsdStats::hasHitDimensionGuardrail(int64_t metricId) const { lock_guard lock(mLock); auto atomMetricStatsIter = mAtomMetricStats.find(metricId); if (atomMetricStatsIter != mAtomMetricStats.end()) { return atomMetricStatsIter->second.hardDimensionLimitReached > 0; } return false; } void StatsdStats::noteQueryRestrictedMetricSucceed(const int64_t configId, const string& configPackage, const std::optional configUid, const int32_t callingUid, const int64_t latencyNs) { lock_guard lock(mLock); if (mRestrictedMetricQueryStats.size() == kMaxRestrictedMetricQueryCount) { mRestrictedMetricQueryStats.pop_front(); } mRestrictedMetricQueryStats.emplace_back(RestrictedMetricQueryStats( callingUid, configId, configPackage, configUid, getWallClockNs(), /*invalidQueryReason=*/std::nullopt, /*error=*/"", latencyNs)); } void StatsdStats::noteQueryRestrictedMetricFailed(const int64_t configId, const string& configPackage, const std::optional configUid, const int32_t callingUid, const InvalidQueryReason reason) { lock_guard lock(mLock); noteQueryRestrictedMetricFailedLocked(configId, configPackage, configUid, callingUid, reason, /*error=*/""); } void StatsdStats::noteQueryRestrictedMetricFailed( const int64_t configId, const string& configPackage, const std::optional configUid, const int32_t callingUid, const InvalidQueryReason reason, const string& error) { lock_guard lock(mLock); noteQueryRestrictedMetricFailedLocked(configId, configPackage, configUid, callingUid, reason, error); } void StatsdStats::noteQueryRestrictedMetricFailedLocked( const int64_t configId, const string& configPackage, const std::optional configUid, const int32_t callingUid, const InvalidQueryReason reason, const string& error) { if (mRestrictedMetricQueryStats.size() == kMaxRestrictedMetricQueryCount) { mRestrictedMetricQueryStats.pop_front(); } mRestrictedMetricQueryStats.emplace_back(RestrictedMetricQueryStats( callingUid, configId, configPackage, configUid, getWallClockNs(), reason, error, /*queryLatencyNs=*/std::nullopt)); } void StatsdStats::noteRestrictedMetricInsertError(const ConfigKey& configKey, const int64_t metricId) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it != mConfigStats.end()) { it->second->restricted_metric_stats[metricId].insertError++; } } void StatsdStats::noteRestrictedMetricTableCreationError(const ConfigKey& configKey, const int64_t metricId) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it != mConfigStats.end()) { it->second->restricted_metric_stats[metricId].tableCreationError++; } } void StatsdStats::noteRestrictedMetricTableDeletionError(const ConfigKey& configKey, const int64_t metricId) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it != mConfigStats.end()) { it->second->restricted_metric_stats[metricId].tableDeletionError++; } } void StatsdStats::noteRestrictedMetricFlushLatency(const ConfigKey& configKey, const int64_t metricId, const int64_t flushLatencyNs) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", configKey.ToString().c_str()); return; } auto& restrictedMetricStats = it->second->restricted_metric_stats[metricId]; if (restrictedMetricStats.flushLatencyNs.size() == kMaxRestrictedMetricFlushLatencyCount) { restrictedMetricStats.flushLatencyNs.pop_front(); } restrictedMetricStats.flushLatencyNs.push_back(flushLatencyNs); } void StatsdStats::noteRestrictedConfigFlushLatency(const ConfigKey& configKey, const int64_t totalFlushLatencyNs) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", configKey.ToString().c_str()); return; } std::list& totalFlushLatencies = it->second->total_flush_latency_ns; if (totalFlushLatencies.size() == kMaxRestrictedConfigFlushLatencyCount) { totalFlushLatencies.pop_front(); } totalFlushLatencies.push_back(totalFlushLatencyNs); } void StatsdStats::noteRestrictedConfigDbSize(const ConfigKey& configKey, const int64_t elapsedTimeNs, const int64_t dbSize) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", configKey.ToString().c_str()); return; } std::list& totalDbSizeTimestamps = it->second->total_db_size_timestamps; std::list& totaDbSizes = it->second->total_db_sizes; if (totalDbSizeTimestamps.size() == kMaxRestrictedConfigDbSizeCount) { totalDbSizeTimestamps.pop_front(); totaDbSizes.pop_front(); } totalDbSizeTimestamps.push_back(elapsedTimeNs); totaDbSizes.push_back(dbSize); } void StatsdStats::noteRestrictedMetricCategoryChanged(const ConfigKey& configKey, const int64_t metricId) { lock_guard lock(mLock); auto it = mConfigStats.find(configKey); if (it == mConfigStats.end()) { ALOGE("Config key %s not found!", configKey.ToString().c_str()); return; } it->second->restricted_metric_stats[metricId].categoryChangedCount++; } void StatsdStats::noteSubscriptionStarted(int subId, int32_t pushedAtomCount, int32_t pulledAtomCount) { lock_guard lock(mLock); // If we're already keeping track of max # subscriptions, remove the earliest added // SubscriptionStats for which the corresponding subscription has ended. if (mSubscriptionStats.size() >= ShellSubscriber::getMaxSubscriptions()) { for (auto it = mSubscriptionStats.begin();;) { if (it == mSubscriptionStats.end()) { // Didn't find any ended subscriptions; don't track new subscription. // We should not really enter this block since ShellSubscriber will refuse more than // ShellSubscriber::kMaxSubscriptions active subscriptions to be added. So for // (kMaxSubscriptions + 1)th subscription being added, ShellSubscriber should reject // it and noteSubscriptionStarted should not be called for it. return; } else if (it->second.end_time_sec > 0) { // Remove the first ended subscription. mSubscriptionStats.erase(it); break; } else { it++; } } } const int32_t nowTimeSec = getWallClockSec(); SubscriptionStats& subscriptionStats = mSubscriptionStats[subId]; subscriptionStats.pushed_atom_count = pushedAtomCount; subscriptionStats.pulled_atom_count = pulledAtomCount; subscriptionStats.start_time_sec = nowTimeSec; } void StatsdStats::noteSubscriptionEnded(int subId) { lock_guard lock(mLock); auto it = mSubscriptionStats.find(subId); if (it == mSubscriptionStats.end()) { // We should not enter here since noteSubscriptionStarted should be called first and that // should successfully add an entry in mSubscriptionStats. See the comment in // noteSubscriptionStarted. return; } const int32_t nowTimeSec = getWallClockSec(); it->second.end_time_sec = nowTimeSec; } void StatsdStats::noteSubscriptionFlushed(int subId) { lock_guard lock(mLock); auto it = mSubscriptionStats.find(subId); if (it == mSubscriptionStats.end()) { // We should not enter here since noteSubscriptionStarted should be called first and that // should successfully add an entry in mSubscriptionStats. See the comment in // noteSubscriptionStarted. return; } it->second.flush_count++; } void StatsdStats::noteSubscriptionAtomPulled(int atomId) { lock_guard lock(mLock); mPulledAtomStats[atomId].subscriptionPullCount++; } void StatsdStats::noteSubscriptionPullThreadWakeup() { lock_guard lock(mLock); mSubscriptionPullThreadWakeupCount++; } StatsdStats::AtomMetricStats& StatsdStats::getAtomMetricStats(int64_t metricId) { auto atomMetricStatsIter = mAtomMetricStats.find(metricId); if (atomMetricStatsIter != mAtomMetricStats.end()) { return atomMetricStatsIter->second; } auto emplaceResult = mAtomMetricStats.emplace(metricId, AtomMetricStats()); return emplaceResult.first->second; } void StatsdStats::reset() { lock_guard lock(mLock); resetInternalLocked(); } void StatsdStats::resetInternalLocked() { // Reset the historical data, but keep the active ConfigStats mStartTimeSec = getWallClockSec(); mIceBox.clear(); std::fill(mPushedAtomStats.begin(), mPushedAtomStats.end(), PushedAtomStats()); mNonPlatformPushedAtomStats.clear(); mAnomalyAlarmRegisteredStats = 0; mPeriodicAlarmRegisteredStats = 0; mSystemServerRestartSec.clear(); mLogLossStats.clear(); mOverflowCount = 0; mMinQueueHistoryNs = kInt64Max; mMaxQueueHistoryNs = 0; mEventQueueMaxSizeObserved = 0; mEventQueueMaxSizeObservedElapsedNanos = 0; for (auto& config : mConfigStats) { config.second->broadcast_sent_time_sec.clear(); config.second->activation_time_sec.clear(); config.second->deactivation_time_sec.clear(); config.second->data_drop_time_sec.clear(); config.second->data_drop_bytes.clear(); config.second->dump_report_stats.clear(); config.second->annotations.clear(); config.second->matcher_stats.clear(); config.second->condition_stats.clear(); config.second->metric_stats.clear(); config.second->metric_dimension_in_condition_stats.clear(); config.second->alert_stats.clear(); config.second->restricted_metric_stats.clear(); config.second->db_corrupted_count = 0; config.second->total_flush_latency_ns.clear(); config.second->total_db_size_timestamps.clear(); config.second->total_db_sizes.clear(); config.second->db_deletion_size_exceeded_limit = 0; config.second->db_deletion_stat_failed = 0; config.second->db_deletion_config_invalid = 0; config.second->db_deletion_too_old = 0; config.second->db_deletion_config_removed = 0; config.second->db_deletion_config_updated = 0; config.second->config_metadata_provider_promote_failure = 0; } for (auto& pullStats : mPulledAtomStats) { pullStats.second.totalPull = 0; pullStats.second.totalPullFromCache = 0; pullStats.second.minPullIntervalSec = LONG_MAX; pullStats.second.avgPullTimeNs = 0; pullStats.second.maxPullTimeNs = 0; pullStats.second.numPullTime = 0; pullStats.second.avgPullDelayNs = 0; pullStats.second.maxPullDelayNs = 0; pullStats.second.numPullDelay = 0; pullStats.second.dataError = 0; pullStats.second.pullTimeout = 0; pullStats.second.pullExceedMaxDelay = 0; pullStats.second.pullFailed = 0; pullStats.second.pullUidProviderNotFound = 0; pullStats.second.pullerNotFound = 0; pullStats.second.registeredCount = 0; pullStats.second.unregisteredCount = 0; pullStats.second.atomErrorCount = 0; pullStats.second.binderCallFailCount = 0; pullStats.second.pullTimeoutMetadata.clear(); pullStats.second.subscriptionPullCount = 0; } mAtomMetricStats.clear(); mActivationBroadcastGuardrailStats.clear(); mPushedAtomErrorStats.clear(); mSocketLossStats.clear(); mSocketLossStatsOverflowCounters.clear(); mPushedAtomDropsStats.clear(); mRestrictedMetricQueryStats.clear(); mSubscriptionPullThreadWakeupCount = 0; std::fill(mSocketBatchReadHistogram.begin(), mSocketBatchReadHistogram.end(), 0); mLargeBatchSocketReadStats.clear(); for (auto it = mSubscriptionStats.begin(); it != mSubscriptionStats.end();) { if (it->second.end_time_sec > 0) { // Remove finished subscriptions it = mSubscriptionStats.erase(it); } else { // Reset dynamic properties of active subscriptions. it->second.flush_count = 0; ++it; } } } string buildTimeString(int64_t timeSec) { time_t t = timeSec; struct tm* tm = localtime(&t); char timeBuffer[80]; strftime(timeBuffer, sizeof(timeBuffer), "%Y-%m-%d %I:%M%p", tm); return string(timeBuffer); } int StatsdStats::getPushedAtomErrorsLocked(int atomId) const { const auto& it = mPushedAtomErrorStats.find(atomId); if (it != mPushedAtomErrorStats.end()) { return it->second; } else { return 0; } } int StatsdStats::getPushedAtomDropsLocked(int atomId) const { const auto& it = mPushedAtomDropsStats.find(atomId); if (it != mPushedAtomDropsStats.end()) { return it->second; } else { return 0; } } bool StatsdStats::hasRestrictedConfigErrors(const std::shared_ptr& configStats) const { return configStats->device_info_table_creation_failed || configStats->db_corrupted_count || configStats->db_deletion_size_exceeded_limit || configStats->db_deletion_stat_failed || configStats->db_deletion_config_invalid || configStats->db_deletion_too_old || configStats->db_deletion_config_removed || configStats->db_deletion_config_updated; } bool StatsdStats::hasEventQueueOverflow() const { lock_guard lock(mLock); return mOverflowCount != 0; } StatsdStats::QueueOverflowAtomsStatsMap StatsdStats::getQueueOverflowAtomsStats() const { lock_guard lock(mLock); return mPushedAtomDropsStats; } bool StatsdStats::hasSocketLoss() const { lock_guard lock(mLock); return !mLogLossStats.empty(); } void StatsdStats::dumpStats(int out) const { lock_guard lock(mLock); time_t t = mStartTimeSec; struct tm* tm = localtime(&t); char timeBuffer[80]; strftime(timeBuffer, sizeof(timeBuffer), "%Y-%m-%d %I:%M%p\n", tm); dprintf(out, "Stats collection start second: %s\n", timeBuffer); dprintf(out, "%lu Config in icebox: \n", (unsigned long)mIceBox.size()); for (const auto& configStats : mIceBox) { dprintf(out, "Config {%d_%lld}: creation=%d, deletion=%d, reset=%d, #metric=%d, #condition=%d, " "#matcher=%d, #alert=%d, valid=%d", configStats->uid, (long long)configStats->id, configStats->creation_time_sec, configStats->deletion_time_sec, configStats->reset_time_sec, configStats->metric_count, configStats->condition_count, configStats->matcher_count, configStats->alert_count, configStats->is_valid); if (hasRestrictedConfigErrors(configStats)) { dprintf(out, ", device_info_table_creation_failed=%d, db_corrupted_count=%d, " "db_size_exceeded=%d, db_stat_failed=%d, " "db_config_invalid=%d, db_too_old=%d, db_deletion_config_removed=%d, " "db_deletion_config_updated=%d", configStats->device_info_table_creation_failed, configStats->db_corrupted_count, configStats->db_deletion_size_exceeded_limit, configStats->db_deletion_stat_failed, configStats->db_deletion_config_invalid, configStats->db_deletion_too_old, configStats->db_deletion_config_removed, configStats->db_deletion_config_updated); } if (configStats->config_metadata_provider_promote_failure > 0) { dprintf(out, "ConfigMetadataProviderPromotionFailure=%d", configStats->config_metadata_provider_promote_failure); } dprintf(out, "\n"); if (!configStats->is_valid) { dprintf(out, "\tinvalid config reason: %s\n", InvalidConfigReasonEnum_Name(configStats->reason->reason).c_str()); } for (const auto& broadcastTime : configStats->broadcast_sent_time_sec) { dprintf(out, "\tbroadcast time: %d\n", broadcastTime); } for (const int& activationTime : configStats->activation_time_sec) { dprintf(out, "\tactivation time: %d\n", activationTime); } for (const int& deactivationTime : configStats->deactivation_time_sec) { dprintf(out, "\tdeactivation time: %d\n", deactivationTime); } auto dropTimePtr = configStats->data_drop_time_sec.begin(); auto dropBytesPtr = configStats->data_drop_bytes.begin(); for (int i = 0; i < (int)configStats->data_drop_time_sec.size(); i++, dropTimePtr++, dropBytesPtr++) { dprintf(out, "\tdata drop time: %s(%lld) with %lld bytes\n", buildTimeString(*dropTimePtr).c_str(), (long long)*dropTimePtr, (long long)*dropBytesPtr); } for (const auto& stats : configStats->restricted_metric_stats) { dprintf(out, "Restricted MetricId %lld: ", (long long)stats.first); dprintf(out, "Insert error %lld, ", (long long)stats.second.insertError); dprintf(out, "Table creation error %lld, ", (long long)stats.second.tableCreationError); dprintf(out, "Table deletion error %lld ", (long long)stats.second.tableDeletionError); dprintf(out, "Category changed count %lld\n ", (long long)stats.second.categoryChangedCount); string flushLatencies = "Flush Latencies: "; for (const int64_t latencyNs : stats.second.flushLatencyNs) { flushLatencies.append(to_string(latencyNs).append(",")); } flushLatencies.pop_back(); flushLatencies.push_back('\n'); dprintf(out, "%s", flushLatencies.c_str()); } for (const int64_t flushLatency : configStats->total_flush_latency_ns) { dprintf(out, "\tflush latency time ns: %lld\n", (long long)flushLatency); } for (const int64_t dbSize : configStats->total_db_sizes) { dprintf(out, "\tdb size: %lld\n", (long long)dbSize); } } dprintf(out, "%lu Active Configs\n", (unsigned long)mConfigStats.size()); for (auto& pair : mConfigStats) { auto& configStats = pair.second; dprintf(out, "Config {%d-%lld}: creation=%d, deletion=%d, #metric=%d, #condition=%d, " "#matcher=%d, #alert=%d, valid=%d", configStats->uid, (long long)configStats->id, configStats->creation_time_sec, configStats->deletion_time_sec, configStats->metric_count, configStats->condition_count, configStats->matcher_count, configStats->alert_count, configStats->is_valid); if (hasRestrictedConfigErrors(configStats)) { dprintf(out, ", device_info_table_creation_failed=%d, db_corrupted_count=%d, " "db_size_exceeded=%d, db_stat_failed=%d, " "db_config_invalid=%d, db_too_old=%d, db_deletion_config_removed=%d, " "db_deletion_config_updated=%d", configStats->device_info_table_creation_failed, configStats->db_corrupted_count, configStats->db_deletion_size_exceeded_limit, configStats->db_deletion_stat_failed, configStats->db_deletion_config_invalid, configStats->db_deletion_too_old, configStats->db_deletion_config_removed, configStats->db_deletion_config_updated); } dprintf(out, "\n"); if (!configStats->is_valid) { dprintf(out, "\tinvalid config reason: %s\n", InvalidConfigReasonEnum_Name(configStats->reason->reason).c_str()); } for (const auto& annotation : configStats->annotations) { dprintf(out, "\tannotation: %lld, %d\n", (long long)annotation.first, annotation.second); } for (const auto& broadcastTime : configStats->broadcast_sent_time_sec) { dprintf(out, "\tbroadcast time: %s(%lld)\n", buildTimeString(broadcastTime).c_str(), (long long)broadcastTime); } for (const int& activationTime : configStats->activation_time_sec) { dprintf(out, "\tactivation time: %d\n", activationTime); } for (const int& deactivationTime : configStats->deactivation_time_sec) { dprintf(out, "\tdeactivation time: %d\n", deactivationTime); } auto dropTimePtr = configStats->data_drop_time_sec.begin(); auto dropBytesPtr = configStats->data_drop_bytes.begin(); for (int i = 0; i < (int)configStats->data_drop_time_sec.size(); i++, dropTimePtr++, dropBytesPtr++) { dprintf(out, "\tdata drop time: %s(%lld) with %lld bytes\n", buildTimeString(*dropTimePtr).c_str(), (long long)*dropTimePtr, (long long)*dropBytesPtr); } for (const auto& dump : configStats->dump_report_stats) { dprintf(out, "\tdump report time: %s(%lld) bytes: %d reportNumber: %d\n", buildTimeString(dump.mDumpReportTimeSec).c_str(), (long long)dump.mDumpReportTimeSec, dump.mDumpReportSizeBytes, dump.mDumpReportNumber); } for (const auto& stats : pair.second->matcher_stats) { dprintf(out, "matcher %lld matched %d times\n", (long long)stats.first, stats.second); } for (const auto& stats : pair.second->condition_stats) { dprintf(out, "condition %lld max output tuple size %d\n", (long long)stats.first, stats.second); } for (const auto& stats : pair.second->condition_stats) { dprintf(out, "metrics %lld max output tuple size %d\n", (long long)stats.first, stats.second); } for (const auto& stats : pair.second->alert_stats) { dprintf(out, "alert %lld declared %d times\n", (long long)stats.first, stats.second); } for (const auto& stats : configStats->restricted_metric_stats) { dprintf(out, "Restricted MetricId %lld: ", (long long)stats.first); dprintf(out, "Insert error %lld, ", (long long)stats.second.insertError); dprintf(out, "Table creation error %lld, ", (long long)stats.second.tableCreationError); dprintf(out, "Table deletion error %lld ", (long long)stats.second.tableDeletionError); dprintf(out, "Category changed count %lld\n ", (long long)stats.second.categoryChangedCount); string flushLatencies = "Flush Latencies: "; for (const int64_t latencyNs : stats.second.flushLatencyNs) { flushLatencies.append(to_string(latencyNs).append(",")); } flushLatencies.pop_back(); flushLatencies.push_back('\n'); dprintf(out, "%s", flushLatencies.c_str()); } for (const int64_t flushLatency : configStats->total_flush_latency_ns) { dprintf(out, "flush latency time ns: %lld\n", (long long)flushLatency); } for (const int64_t dbSize : configStats->total_db_sizes) { dprintf(out, "\tdb size: %lld\n", (long long)dbSize); } } dprintf(out, "********Disk Usage stats***********\n"); StorageManager::printStats(out); dprintf(out, "********Pushed Atom stats***********\n"); const size_t atomCounts = mPushedAtomStats.size(); for (size_t i = 2; i < atomCounts; i++) { if (mPushedAtomStats[i].logCount > 0) { dprintf(out, "Atom %zu->(total count)%d, (error count)%d, (drop count)%d, (skip count)%d\n", i, mPushedAtomStats[i].logCount, getPushedAtomErrorsLocked((int)i), getPushedAtomDropsLocked((int)i), mPushedAtomStats[i].skipCount); } } for (const auto& pair : mNonPlatformPushedAtomStats) { dprintf(out, "Atom %d->(total count)%d, (error count)%d, (drop count)%d, (skip count)%d\n", pair.first, pair.second.logCount, getPushedAtomErrorsLocked(pair.first), getPushedAtomDropsLocked((int)pair.first), pair.second.skipCount); } dprintf(out, "********Pulled Atom stats***********\n"); for (const auto& pair : mPulledAtomStats) { dprintf(out, "Atom %d->(total pull)%ld, (pull from cache)%ld, " "(pull failed)%ld, (min pull interval)%ld \n" " (average pull time nanos)%lld, (max pull time nanos)%lld, (average pull delay " "nanos)%lld, " " (max pull delay nanos)%lld, (data error)%ld\n" " (pull timeout)%ld, (pull exceed max delay)%ld" " (no uid provider count)%ld, (no puller found count)%ld\n" " (registered count) %ld, (unregistered count) %ld" " (atom error count) %d, (subscription pull count) %d, (binder call failed) %ld\n", (int)pair.first, (long)pair.second.totalPull, (long)pair.second.totalPullFromCache, (long)pair.second.pullFailed, (long)pair.second.minPullIntervalSec, (long long)pair.second.avgPullTimeNs, (long long)pair.second.maxPullTimeNs, (long long)pair.second.avgPullDelayNs, (long long)pair.second.maxPullDelayNs, pair.second.dataError, pair.second.pullTimeout, pair.second.pullExceedMaxDelay, pair.second.pullUidProviderNotFound, pair.second.pullerNotFound, pair.second.registeredCount, pair.second.unregisteredCount, pair.second.atomErrorCount, pair.second.subscriptionPullCount, pair.second.binderCallFailCount); if (pair.second.pullTimeoutMetadata.size() > 0) { string uptimeMillis = "(pull timeout system uptime millis) "; string pullTimeoutMillis = "(pull timeout elapsed time millis) "; for (const auto& stats : pair.second.pullTimeoutMetadata) { uptimeMillis.append(to_string(stats.pullTimeoutUptimeMillis)).append(","); pullTimeoutMillis.append(to_string(stats.pullTimeoutElapsedMillis)).append(","); } uptimeMillis.pop_back(); uptimeMillis.push_back('\n'); pullTimeoutMillis.pop_back(); pullTimeoutMillis.push_back('\n'); dprintf(out, "%s", uptimeMillis.c_str()); dprintf(out, "%s", pullTimeoutMillis.c_str()); } } if (mAnomalyAlarmRegisteredStats > 0) { dprintf(out, "********AnomalyAlarmStats stats***********\n"); dprintf(out, "Anomaly alarm registrations: %d\n", mAnomalyAlarmRegisteredStats); } if (mPeriodicAlarmRegisteredStats > 0) { dprintf(out, "********SubscriberAlarmStats stats***********\n"); dprintf(out, "Subscriber alarm registrations: %d\n", mPeriodicAlarmRegisteredStats); } dprintf(out, "UID map stats: bytes=%d, changes=%d, deleted=%d, changes lost=%d\n", mUidMapStats.bytes_used, mUidMapStats.changes, mUidMapStats.deleted_apps, mUidMapStats.dropped_changes); for (const auto& restart : mSystemServerRestartSec) { dprintf(out, "System server restarts at %s(%lld)\n", buildTimeString(restart).c_str(), (long long)restart); } dprintf(out, "********Socket batch read size stats***********\n"); for (int i = 0; i < kNumBinsInSocketBatchReadHistogram; i++) { if (mSocketBatchReadHistogram[i] == 0) { continue; } string range; if (i < 5) { range = "[" + to_string(i) + "]"; } else if (i == 5) { range = "[5-9]"; } else if (i < 15) { range = "[" + to_string(i - 5) + "0-" + to_string(i - 5) + "9]"; } else if (i < 24) { range = "[" + to_string(i - 14) + "00-" + to_string(i - 14) + "99]"; } else if (i < 29) { range = "[" + to_string((i - 19) * 2) + "00-" + to_string((i - 19) * 2 + 1) + "99]"; } else { range = "[2000+]"; } dprintf(out, "%s: %lld\n", range.c_str(), (long long)mSocketBatchReadHistogram[i]); } if (mLargeBatchSocketReadStats.size() > 0) { dprintf(out, "Large socket read batch stats: \n"); for (const auto& batchRead : mLargeBatchSocketReadStats) { dprintf(out, "Num atoms: %d - read time elapsed ms: %lld, prev read time: %lld, min atom " "elapsed ms: %lld, max atom elapsed ns: %lld\n", batchRead.mSize, (long long)NanoToMillis(batchRead.mCurrReadTimeNs), (long long)NanoToMillis(batchRead.mLastReadTimeNs), (long long)NanoToMillis(batchRead.mMinAtomReadTimeNs), (long long)NanoToMillis(batchRead.mMaxAtomReadTimeNs)); if (batchRead.mCommonAtomCounts.size() > 0) { string commonAtoms = " Common atoms: "; auto it = batchRead.mCommonAtomCounts.begin(); commonAtoms.append(to_string(it->first).append(": ").append(to_string(it->second))); for (++it; it != batchRead.mCommonAtomCounts.end(); ++it) { commonAtoms.append( ", " + to_string(it->first).append(": ").append(to_string(it->second))); } dprintf(out, "%s\n", commonAtoms.c_str()); } } dprintf(out, "\n"); } for (const auto& loss : mLogLossStats) { dprintf(out, "Log loss: %lld (wall clock sec) - %d (count), %d (last error), %d (last tag), %d " "(uid), %d (pid)\n", (long long)loss.mWallClockSec, loss.mCount, loss.mLastError, loss.mLastTag, loss.mUid, loss.mPid); } if (mSocketLossStats.size()) { dprintf(out, "********SocketLossStats stats***********\n"); for (const auto& loss : mSocketLossStats) { dprintf(out, "Socket loss: %d (uid), first loss at %lld, last loss at %lld\n", loss.mUid, (long long)loss.mFirstLossTsNanos, (long long)loss.mLastLossTsNanos); for (const auto& counterInfo : loss.mLossCountPerErrorAtomId) { dprintf(out, "\t\t %d (atomId) %d (error), %d (count)\n", counterInfo.mAtomId, counterInfo.mError, counterInfo.mCount); } } } if (mSocketLossStatsOverflowCounters.size()) { dprintf(out, "********mSocketLossStatsOverflowCounters stats***********\n"); for (const auto& overflow : mSocketLossStatsOverflowCounters) { dprintf(out, "Socket loss overflow for %d uid is %d times\n", overflow.first, overflow.second); } } dprintf(out, "********EventQueueOverflow stats***********\n"); dprintf(out, "Event queue overflow: %d; MaxHistoryNs: %lld; MinHistoryNs: %lld\n", mOverflowCount, (long long)mMaxQueueHistoryNs, (long long)mMinQueueHistoryNs); dprintf(out, "Event queue max size: %d; Observed at : %lld\n", mEventQueueMaxSizeObserved, (long long)mEventQueueMaxSizeObservedElapsedNanos); if (mActivationBroadcastGuardrailStats.size() > 0) { dprintf(out, "********mActivationBroadcastGuardrail stats***********\n"); for (const auto& pair: mActivationBroadcastGuardrailStats) { dprintf(out, "Uid %d: Times: ", pair.first); for (const auto& guardrailHitTime : pair.second) { dprintf(out, "%d ", guardrailHitTime); } } dprintf(out, "\n"); } dprintf(out, "********Atom Subscription stats***********\n"); dprintf(out, "Pull thread wakeup count: %d\n", mSubscriptionPullThreadWakeupCount); for (const auto& [id, subStats] : mSubscriptionStats) { dprintf(out, "Subscription %d: pushed_atom_count=%d, pulled_atom_count=%d, flush_count=%d\n", id, subStats.pushed_atom_count, subStats.pulled_atom_count, subStats.flush_count); dprintf(out, "\n"); } if (mRestrictedMetricQueryStats.size() > 0) { dprintf(out, "********Restricted Metric Query stats***********\n"); for (const auto& stat : mRestrictedMetricQueryStats) { if (stat.mHasError) { dprintf(out, "Query with error type: %d - %lld (query time ns), " "%d (calling uid), %lld (config id), %s (config package), %s (error)\n", stat.mInvalidQueryReason.value(), (long long)stat.mQueryWallTimeNs, stat.mCallingUid, (long long)stat.mConfigId, stat.mConfigPackage.c_str(), stat.mError.c_str()); } else { dprintf(out, "Query succeed - %lld (query time ns), %d (calling uid), " "%lld (config id), %s (config package), %d (config uid), " "%lld (queryLatencyNs)\n", (long long)stat.mQueryWallTimeNs, stat.mCallingUid, (long long)stat.mConfigId, stat.mConfigPackage.c_str(), stat.mConfigUid.value(), (long long)stat.mQueryLatencyNs.value()); } } } dprintf(out, "********Statsd Stats Id***********\n"); dprintf(out, "Statsd Stats Id %d\n", mStatsdStatsId); dprintf(out, "********Shard Offset Provider stats***********\n"); dprintf(out, "Shard Offset: %u\n", ShardOffsetProvider::getInstance().getShardOffset()); dprintf(out, "\n"); } void addConfigStatsToProto(const ConfigStats& configStats, ProtoOutputStream* proto) { uint64_t token = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_UID, configStats.uid); proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_ID, (long long)configStats.id); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_CREATION, configStats.creation_time_sec); if (configStats.reset_time_sec != 0) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_RESET, configStats.reset_time_sec); } if (configStats.deletion_time_sec != 0) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DELETION, configStats.deletion_time_sec); } proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_METRIC_COUNT, configStats.metric_count); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_CONDITION_COUNT, configStats.condition_count); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_MATCHER_COUNT, configStats.matcher_count); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_ALERT_COUNT, configStats.alert_count); proto->write(FIELD_TYPE_BOOL | FIELD_ID_CONFIG_STATS_VALID, configStats.is_valid); if (!configStats.is_valid) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_ID_CONFIG_STATS_INVALID_CONFIG_REASON); proto->write(FIELD_TYPE_ENUM | FIELD_ID_INVALID_CONFIG_REASON_ENUM, configStats.reason->reason); if (configStats.reason->metricId.has_value()) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_INVALID_CONFIG_REASON_METRIC_ID, configStats.reason->metricId.value()); } if (configStats.reason->stateId.has_value()) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_INVALID_CONFIG_REASON_STATE_ID, configStats.reason->stateId.value()); } if (configStats.reason->alertId.has_value()) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_INVALID_CONFIG_REASON_ALERT_ID, configStats.reason->alertId.value()); } if (configStats.reason->alarmId.has_value()) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_INVALID_CONFIG_REASON_ALARM_ID, configStats.reason->alarmId.value()); } if (configStats.reason->subscriptionId.has_value()) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_INVALID_CONFIG_REASON_SUBSCRIPTION_ID, configStats.reason->subscriptionId.value()); } for (const auto& matcherId : configStats.reason->matcherIds) { proto->write(FIELD_TYPE_INT64 | FIELD_COUNT_REPEATED | FIELD_ID_INVALID_CONFIG_REASON_MATCHER_ID, matcherId); } for (const auto& conditionId : configStats.reason->conditionIds) { proto->write(FIELD_TYPE_INT64 | FIELD_COUNT_REPEATED | FIELD_ID_INVALID_CONFIG_REASON_CONDITION_ID, conditionId); } proto->end(tmpToken); } for (const auto& broadcast : configStats.broadcast_sent_time_sec) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_BROADCAST | FIELD_COUNT_REPEATED, broadcast); } for (const auto& activation : configStats.activation_time_sec) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_ACTIVATION | FIELD_COUNT_REPEATED, activation); } for (const auto& deactivation : configStats.deactivation_time_sec) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DEACTIVATION | FIELD_COUNT_REPEATED, deactivation); } for (const auto& drop_time : configStats.data_drop_time_sec) { proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DATA_DROP_TIME | FIELD_COUNT_REPEATED, drop_time); } for (const auto& drop_bytes : configStats.data_drop_bytes) { proto->write( FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_DATA_DROP_BYTES | FIELD_COUNT_REPEATED, (long long)drop_bytes); } for (const auto& dump : configStats.dump_report_stats) { proto->write( FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DUMP_REPORT_TIME | FIELD_COUNT_REPEATED, dump.mDumpReportTimeSec); } for (const auto& dump : configStats.dump_report_stats) { proto->write( FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DUMP_REPORT_BYTES | FIELD_COUNT_REPEATED, (long long)dump.mDumpReportSizeBytes); } for (const auto& dump : configStats.dump_report_stats) { proto->write( FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_DUMP_REPORT_NUMBER | FIELD_COUNT_REPEATED, dump.mDumpReportNumber); } for (const auto& annotation : configStats.annotations) { uint64_t token = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_ANNOTATION); proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_ANNOTATION_INT64, (long long)annotation.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_ANNOTATION_INT32, annotation.second); proto->end(token); } for (const auto& pair : configStats.matcher_stats) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_MATCHER_STATS); proto->write(FIELD_TYPE_INT64 | FIELD_ID_MATCHER_STATS_ID, (long long)pair.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_MATCHER_STATS_COUNT, pair.second); proto->end(tmpToken); } for (const auto& pair : configStats.condition_stats) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_CONDITION_STATS); proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONDITION_STATS_ID, (long long)pair.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_CONDITION_STATS_COUNT, pair.second); proto->end(tmpToken); } for (const auto& pair : configStats.metric_stats) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_METRIC_STATS); proto->write(FIELD_TYPE_INT64 | FIELD_ID_METRIC_STATS_ID, (long long)pair.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_METRIC_STATS_COUNT, pair.second); proto->end(tmpToken); } for (const auto& pair : configStats.metric_dimension_in_condition_stats) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_METRIC_DIMENSION_IN_CONDITION_STATS); proto->write(FIELD_TYPE_INT64 | FIELD_ID_METRIC_STATS_ID, (long long)pair.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_METRIC_STATS_COUNT, pair.second); proto->end(tmpToken); } for (const auto& pair : configStats.alert_stats) { uint64_t tmpToken = proto->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_CONFIG_STATS_ALERT_STATS); proto->write(FIELD_TYPE_INT64 | FIELD_ID_ALERT_STATS_ID, (long long)pair.first); proto->write(FIELD_TYPE_INT32 | FIELD_ID_ALERT_STATS_COUNT, pair.second); proto->end(tmpToken); } for (const auto& pair : configStats.restricted_metric_stats) { uint64_t token = proto->start(FIELD_TYPE_MESSAGE | FIELD_ID_CONFIG_STATS_RESTRICTED_METRIC_STATS | FIELD_COUNT_REPEATED); proto->write(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_METRIC_ID, (long long)pair.first); writeNonZeroStatToStream(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_INSERT_ERROR, (long long)pair.second.insertError, proto); writeNonZeroStatToStream(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_TABLE_CREATION_ERROR, (long long)pair.second.tableCreationError, proto); writeNonZeroStatToStream(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_TABLE_DELETION_ERROR, (long long)pair.second.tableDeletionError, proto); for (const int64_t flushLatencyNs : pair.second.flushLatencyNs) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_FLUSH_LATENCY | FIELD_COUNT_REPEATED, flushLatencyNs); } writeNonZeroStatToStream( FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_STATS_CATEGORY_CHANGED_COUNT, (long long)pair.second.categoryChangedCount, proto); proto->end(token); } writeNonZeroStatToStream( FIELD_TYPE_BOOL | FIELD_ID_CONFIG_STATS_DEVICE_INFO_TABLE_CREATION_FAILED, configStats.device_info_table_creation_failed, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_STATS_RESTRICTED_DB_CORRUPTED_COUNT, configStats.db_corrupted_count, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_STAT_FAILED, configStats.db_deletion_size_exceeded_limit, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_SIZE_EXCEEDED_LIMIT, configStats.db_deletion_size_exceeded_limit, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_CONFIG_INVALID, configStats.db_deletion_config_invalid, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_TOO_OLD, configStats.db_deletion_too_old, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_CONFIG_REMOVED, configStats.db_deletion_config_removed, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_DB_DELETION_CONFIG_UPDATED, configStats.db_deletion_config_updated, proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_CONFIG_METADATA_PROVIDER_PROMOTION_FAILED, configStats.config_metadata_provider_promote_failure, proto); for (int64_t latency : configStats.total_flush_latency_ns) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_FLUSH_LATENCY | FIELD_COUNT_REPEATED, latency); } for (int64_t dbSizeTimestamp : configStats.total_db_size_timestamps) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_DB_SIZE_TIME_SEC | FIELD_COUNT_REPEATED, dbSizeTimestamp); } for (int64_t dbSize : configStats.total_db_sizes) { proto->write(FIELD_TYPE_INT64 | FIELD_ID_CONFIG_STATS_RESTRICTED_CONFIG_DB_SIZE_BYTES | FIELD_COUNT_REPEATED, dbSize); } proto->end(token); } void StatsdStats::dumpStats(vector* output, bool reset) { lock_guard lock(mLock); ProtoOutputStream proto; proto.write(FIELD_TYPE_INT32 | FIELD_ID_BEGIN_TIME, mStartTimeSec); proto.write(FIELD_TYPE_INT32 | FIELD_ID_END_TIME, (int32_t)getWallClockSec()); for (const auto& configStats : mIceBox) { addConfigStatsToProto(*configStats, &proto); } for (auto& pair : mConfigStats) { addConfigStatsToProto(*(pair.second), &proto); } const size_t atomCounts = mPushedAtomStats.size(); for (size_t i = 2; i < atomCounts; i++) { if (mPushedAtomStats[i].logCount > 0) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_ATOM_STATS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_TAG, (int32_t)i); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_COUNT, mPushedAtomStats[i].logCount); const int errors = getPushedAtomErrorsLocked(i); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_ERROR_COUNT, errors, &proto); const int drops = getPushedAtomDropsLocked(i); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_DROPS_COUNT, drops, &proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_SKIP_COUNT, mPushedAtomStats[i].skipCount, &proto); proto.end(token); } } for (const auto& pair : mNonPlatformPushedAtomStats) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_ATOM_STATS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_TAG, pair.first); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_COUNT, pair.second.logCount); const int errors = getPushedAtomErrorsLocked(pair.first); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_ERROR_COUNT, errors, &proto); const int drops = getPushedAtomDropsLocked(pair.first); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_DROPS_COUNT, drops, &proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_ATOM_STATS_SKIP_COUNT, pair.second.skipCount, &proto); proto.end(token); } for (const auto& pair : mPulledAtomStats) { writePullerStatsToStream(pair, &proto); } for (const auto& pair : mAtomMetricStats) { writeAtomMetricStatsToStream(pair, &proto); } if (mAnomalyAlarmRegisteredStats > 0) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_ANOMALY_ALARM_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ANOMALY_ALARMS_REGISTERED, mAnomalyAlarmRegisteredStats); proto.end(token); } if (mPeriodicAlarmRegisteredStats > 0) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_PERIODIC_ALARM_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_PERIODIC_ALARMS_REGISTERED, mPeriodicAlarmRegisteredStats); proto.end(token); } uint64_t uidMapToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_UIDMAP_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_UID_MAP_CHANGES, mUidMapStats.changes); proto.write(FIELD_TYPE_INT32 | FIELD_ID_UID_MAP_BYTES_USED, mUidMapStats.bytes_used); proto.write(FIELD_TYPE_INT32 | FIELD_ID_UID_MAP_DROPPED_CHANGES, mUidMapStats.dropped_changes); proto.write(FIELD_TYPE_INT32 | FIELD_ID_UID_MAP_DELETED_APPS, mUidMapStats.deleted_apps); proto.end(uidMapToken); for (const auto& error : mLogLossStats) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_LOGGER_ERROR_STATS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_TIME, error.mWallClockSec); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_COUNT, error.mCount); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_ERROR, error.mLastError); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_TAG, error.mLastTag); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_UID, error.mUid); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LOG_LOSS_STATS_PID, error.mPid); proto.end(token); } if (mOverflowCount > 0) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_OVERFLOW); proto.write(FIELD_TYPE_INT32 | FIELD_ID_OVERFLOW_COUNT, (int32_t)mOverflowCount); proto.write(FIELD_TYPE_INT64 | FIELD_ID_OVERFLOW_MAX_HISTORY, (long long)mMaxQueueHistoryNs); proto.write(FIELD_TYPE_INT64 | FIELD_ID_OVERFLOW_MIN_HISTORY, (long long)mMinQueueHistoryNs); proto.end(token); } uint64_t queueStatsToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_QUEUE_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_QUEUE_MAX_SIZE_OBSERVED, (int32_t)mEventQueueMaxSizeObserved); proto.write(FIELD_TYPE_INT64 | FIELD_ID_QUEUE_MAX_SIZE_OBSERVED_ELAPSED_NANOS, (long long)mEventQueueMaxSizeObservedElapsedNanos); proto.end(queueStatsToken); for (const auto& restart : mSystemServerRestartSec) { proto.write(FIELD_TYPE_INT32 | FIELD_ID_SYSTEM_SERVER_RESTART | FIELD_COUNT_REPEATED, restart); } for (const auto& pair: mActivationBroadcastGuardrailStats) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL_UID, (int32_t) pair.first); for (const auto& guardrailHitTime : pair.second) { proto.write(FIELD_TYPE_INT32 | FIELD_ID_ACTIVATION_BROADCAST_GUARDRAIL_TIME | FIELD_COUNT_REPEATED, guardrailHitTime); } proto.end(token); } for (const auto& stat : mRestrictedMetricQueryStats) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CALLING_UID, stat.mCallingUid); proto.write(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_ID, stat.mConfigId); proto.write(FIELD_TYPE_STRING | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_PACKAGE, stat.mConfigPackage); if (stat.mConfigUid.has_value()) { proto.write(FIELD_TYPE_INT32 | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_CONFIG_UID, stat.mConfigUid.value()); } if (stat.mInvalidQueryReason.has_value()) { proto.write( FIELD_TYPE_ENUM | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_INVALID_QUERY_REASON, stat.mInvalidQueryReason.value()); } proto.write(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_QUERY_WALL_TIME_NS, stat.mQueryWallTimeNs); proto.write(FIELD_TYPE_BOOL | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_HAS_ERROR, stat.mHasError); if (stat.mHasError && !stat.mError.empty()) { proto.write(FIELD_TYPE_STRING | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_ERROR, stat.mError); } if (stat.mQueryLatencyNs.has_value()) { proto.write(FIELD_TYPE_INT64 | FIELD_ID_RESTRICTED_METRIC_QUERY_STATS_LATENCY_NS, stat.mQueryLatencyNs.value()); } proto.end(token); } proto.write(FIELD_TYPE_UINT32 | FIELD_ID_SHARD_OFFSET, static_cast(ShardOffsetProvider::getInstance().getShardOffset())); proto.write(FIELD_TYPE_INT32 | FIELD_ID_STATSD_STATS_ID, mStatsdStatsId); // Write subscription stats const uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SUBSCRIPTION_STATS); for (const auto& [id, subStats] : mSubscriptionStats) { const uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_SUBSCRIPTION_STATS_PER_SUBSCRIPTION_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_ID, id); writeNonZeroStatToStream( FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_PUSHED_ATOM_COUNT, subStats.pushed_atom_count, &proto); writeNonZeroStatToStream( FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_PULLED_ATOM_COUNT, subStats.pulled_atom_count, &proto); proto.write(FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_START_TIME, subStats.start_time_sec); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_END_TIME, subStats.end_time_sec, &proto); writeNonZeroStatToStream(FIELD_TYPE_INT32 | FIELD_ID_PER_SUBSCRIPTION_STATS_FLUSH_COUNT, subStats.flush_count, &proto); proto.end(token); } writeNonZeroStatToStream( FIELD_TYPE_INT32 | FIELD_ID_SUBSCRIPTION_STATS_PULL_THREAD_WAKEUP_COUNT, mSubscriptionPullThreadWakeupCount, &proto); proto.end(token); // libstatssocket specific stats const uint64_t socketLossStatsToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SOCKET_LOSS_STATS); // socket loss stats info per uid/error/atom id counter for (const auto& perUidLossInfo : mSocketLossStats) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SOCKET_LOSS_STATS_PER_UID | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_SOCKET_LOSS_STATS_UID, perUidLossInfo.mUid); proto.write(FIELD_TYPE_INT32 | FIELD_ID_SOCKET_LOSS_STATS_FIRST_TIMESTAMP_NANOS, perUidLossInfo.mFirstLossTsNanos); proto.write(FIELD_TYPE_INT32 | FIELD_ID_SOCKET_LOSS_STATS_LAST_TIMESTAMP_NANOS, perUidLossInfo.mLastLossTsNanos); for (const auto& counterInfo : perUidLossInfo.mLossCountPerErrorAtomId) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SOCKET_LOSS_ATOM_ID_LOSS_STATS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_ID_LOSS_STATS_ATOM_ID, counterInfo.mAtomId); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_ID_LOSS_STATS_ERROR, counterInfo.mError); proto.write(FIELD_TYPE_INT32 | FIELD_ID_ATOM_ID_LOSS_STATS_COUNT, counterInfo.mCount); proto.end(token); } proto.end(token); } // socket loss stats overflow counters for (const auto& overflowInfo : mSocketLossStatsOverflowCounters) { uint64_t token = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS | FIELD_COUNT_REPEATED); proto.write(FIELD_TYPE_INT32 | FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS_UID, overflowInfo.first); proto.write(FIELD_TYPE_INT32 | FIELD_ID_SOCKET_LOSS_STATS_OVERFLOW_COUNTERS_COUNT, overflowInfo.second); proto.end(token); } proto.end(socketLossStatsToken); // Socket batch read stats. const uint64_t socketReadStatsToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_ID_SOCKET_READ_STATS); for (const auto& it : mSocketBatchReadHistogram) { proto.write(FIELD_TYPE_INT64 | FIELD_ID_SOCKET_READ_STATS_BATCHED_READ_SIZE | FIELD_COUNT_REPEATED, it); } for (const auto& batchRead : mLargeBatchSocketReadStats) { const uint64_t largeBatchStatsToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_SOCKET_READ_STATS_LARGE_BATCH_STATS); proto.write(FIELD_TYPE_INT64 | FIELD_ID_LARGE_BATCH_SOCKET_READ_LAST_READ_TIME, batchRead.mLastReadTimeNs); proto.write(FIELD_TYPE_INT64 | FIELD_ID_LARGE_BATCH_SOCKET_READ_CURR_READ_TIME, batchRead.mCurrReadTimeNs); proto.write(FIELD_TYPE_INT64 | FIELD_ID_LARGE_BATCH_SOCKET_READ_MIN_ATOM_TIME, batchRead.mMinAtomReadTimeNs); proto.write(FIELD_TYPE_INT64 | FIELD_ID_LARGE_BATCH_SOCKET_READ_MAX_ATOM_TIME, batchRead.mMaxAtomReadTimeNs); proto.write(FIELD_TYPE_INT64 | FIELD_ID_LARGE_BATCH_SOCKET_READ_TOTAL_ATOMS, batchRead.mSize); for (const auto& [batchAtomId, batchAtomCount] : batchRead.mCommonAtomCounts) { const uint64_t largeBatchAtomStatsToken = proto.start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS_ATOM_ID, batchAtomId); proto.write(FIELD_TYPE_INT32 | FIELD_ID_LARGE_BATCH_SOCKET_READ_ATOM_STATS_COUNT, batchAtomCount); proto.end(largeBatchAtomStatsToken); } proto.end(largeBatchStatsToken); } proto.end(socketReadStatsToken); output->clear(); proto.serializeToVector(output); if (reset) { resetInternalLocked(); } VLOG("reset=%d, returned proto size %lu", reset, (unsigned long)output->size()); } std::pair StatsdStats::getAtomDimensionKeySizeLimits(int atomId, size_t defaultHardLimit) { return kAtomDimensionKeySizeLimitMap.find(atomId) != kAtomDimensionKeySizeLimitMap.end() ? kAtomDimensionKeySizeLimitMap.at(atomId) : std::pair(kDimensionKeySizeSoftLimit, defaultHardLimit); } InvalidConfigReason createInvalidConfigReasonWithMatcher(const InvalidConfigReasonEnum reason, const int64_t matcherId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.matcherIds.push_back(matcherId); return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithMatcher(const InvalidConfigReasonEnum reason, const int64_t metricId, const int64_t matcherId) { InvalidConfigReason invalidConfigReason(reason, metricId); invalidConfigReason.matcherIds.push_back(matcherId); return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithPredicate(const InvalidConfigReasonEnum reason, const int64_t conditionId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.conditionIds.push_back(conditionId); return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithPredicate(const InvalidConfigReasonEnum reason, const int64_t metricId, const int64_t conditionId) { InvalidConfigReason invalidConfigReason(reason, metricId); invalidConfigReason.conditionIds.push_back(conditionId); return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithState(const InvalidConfigReasonEnum reason, const int64_t metricId, const int64_t stateId) { InvalidConfigReason invalidConfigReason(reason, metricId); invalidConfigReason.stateId = stateId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithAlert(const InvalidConfigReasonEnum reason, const int64_t alertId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.alertId = alertId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithAlert(const InvalidConfigReasonEnum reason, const int64_t metricId, const int64_t alertId) { InvalidConfigReason invalidConfigReason(reason, metricId); invalidConfigReason.alertId = alertId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithAlarm(const InvalidConfigReasonEnum reason, const int64_t alarmId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.alarmId = alarmId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithSubscription(const InvalidConfigReasonEnum reason, const int64_t subscriptionId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.subscriptionId = subscriptionId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithSubscriptionAndAlarm( const InvalidConfigReasonEnum reason, const int64_t subscriptionId, const int64_t alarmId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.subscriptionId = subscriptionId; invalidConfigReason.alarmId = alarmId; return invalidConfigReason; } InvalidConfigReason createInvalidConfigReasonWithSubscriptionAndAlert( const InvalidConfigReasonEnum reason, const int64_t subscriptionId, const int64_t alertId) { InvalidConfigReason invalidConfigReason(reason); invalidConfigReason.subscriptionId = subscriptionId; invalidConfigReason.alertId = alertId; return invalidConfigReason; } void PrintTo(const InvalidConfigReason& obj, std::ostream* os) { *os << "{ reason: " << obj.reason; if (obj.metricId.has_value()) { *os << ", metricId: " << obj.metricId.value(); } if (obj.stateId.has_value()) { *os << ", stateId: " << obj.stateId.value(); } if (obj.alertId.has_value()) { *os << ", alertId: " << obj.alertId.value(); } if (obj.alarmId.has_value()) { *os << ", alarmId: " << obj.alarmId.value(); } if (obj.subscriptionId.has_value()) { *os << ", subscriptionId: " << obj.subscriptionId.value(); } if (!obj.matcherIds.empty()) { *os << ", matcherIds: ["; std::copy(obj.matcherIds.begin(), obj.matcherIds.end(), std::ostream_iterator(*os, ", ")); *os << "]"; } if (!obj.conditionIds.empty()) { *os << ", conditionIds: ["; std::copy(obj.conditionIds.begin(), obj.conditionIds.end(), std::ostream_iterator(*os, ", ")); *os << "]"; } *os << " }"; } } // namespace statsd } // namespace os } // namespace android