/* * 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 STATSD_DEBUG false // STOPSHIP if true #include "Log.h" #include "CountMetricProducer.h" #include #include #include #include "guardrail/StatsdStats.h" #include "metrics/parsing_utils/metrics_manager_util.h" #include "stats_log_util.h" #include "stats_util.h" using android::util::FIELD_COUNT_REPEATED; using android::util::FIELD_TYPE_BOOL; 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::ProtoOutputStream; using std::map; using std::string; using std::unordered_map; using std::vector; using std::shared_ptr; namespace android { namespace os { namespace statsd { // for StatsLogReport const int FIELD_ID_ID = 1; const int FIELD_ID_COUNT_METRICS = 5; const int FIELD_ID_TIME_BASE = 9; const int FIELD_ID_BUCKET_SIZE = 10; const int FIELD_ID_DIMENSION_PATH_IN_WHAT = 11; const int FIELD_ID_IS_ACTIVE = 14; const int FIELD_ID_DIMENSION_GUARDRAIL_HIT = 17; const int FIELD_ID_ESTIMATED_MEMORY_BYTES = 18; const int FIELD_ID_DATA_CORRUPTED_REASON = 19; // for CountMetricDataWrapper const int FIELD_ID_DATA = 1; // for CountMetricData const int FIELD_ID_DIMENSION_IN_WHAT = 1; const int FIELD_ID_SLICE_BY_STATE = 6; const int FIELD_ID_BUCKET_INFO = 3; const int FIELD_ID_DIMENSION_LEAF_IN_WHAT = 4; // for CountBucketInfo const int FIELD_ID_COUNT = 3; const int FIELD_ID_BUCKET_NUM = 4; const int FIELD_ID_START_BUCKET_ELAPSED_MILLIS = 5; const int FIELD_ID_END_BUCKET_ELAPSED_MILLIS = 6; const int FIELD_ID_CONDITION_TRUE_NS = 7; CountMetricProducer::CountMetricProducer( const ConfigKey& key, const CountMetric& metric, const int conditionIndex, const vector& initialConditionCache, const sp& wizard, const uint64_t protoHash, const int64_t timeBaseNs, const int64_t startTimeNs, const wp configMetadataProvider, const unordered_map>& eventActivationMap, const unordered_map>>& eventDeactivationMap, const vector& slicedStateAtoms, const unordered_map>& stateGroupMap) : MetricProducer(metric.id(), key, timeBaseNs, conditionIndex, initialConditionCache, wizard, protoHash, eventActivationMap, eventDeactivationMap, slicedStateAtoms, stateGroupMap, getAppUpgradeBucketSplit(metric), configMetadataProvider), mDimensionGuardrailHit(false), mDimensionHardLimit( StatsdStats::clampDimensionKeySizeLimit(metric.max_dimensions_per_bucket())) { if (metric.has_bucket()) { mBucketSizeNs = TimeUnitToBucketSizeInMillisGuardrailed(key.GetUid(), metric.bucket()) * 1000000; } else { mBucketSizeNs = LLONG_MAX; } if (metric.has_dimensions_in_what()) { translateFieldMatcher(metric.dimensions_in_what(), &mDimensionsInWhat); mContainANYPositionInDimensionsInWhat = HasPositionANY(metric.dimensions_in_what()); } mShouldUseNestedDimensions = ShouldUseNestedDimensions(metric.dimensions_in_what()); if (metric.links().size() > 0) { for (const auto& link : metric.links()) { Metric2Condition mc; mc.conditionId = link.condition(); translateFieldMatcher(link.fields_in_what(), &mc.metricFields); translateFieldMatcher(link.fields_in_condition(), &mc.conditionFields); mMetric2ConditionLinks.push_back(mc); } mConditionSliced = true; } for (const auto& stateLink : metric.state_link()) { Metric2State ms; ms.stateAtomId = stateLink.state_atom_id(); translateFieldMatcher(stateLink.fields_in_what(), &ms.metricFields); translateFieldMatcher(stateLink.fields_in_state(), &ms.stateFields); mMetric2StateLinks.push_back(ms); } if (metric.has_threshold()) { mUploadThreshold = metric.threshold(); } flushIfNeededLocked(startTimeNs); // Adjust start for partial bucket mCurrentBucketStartTimeNs = startTimeNs; mConditionTimer.newBucketStart(mCurrentBucketStartTimeNs, mCurrentBucketStartTimeNs); mConditionTimer.onConditionChanged(mIsActive && mCondition == ConditionState::kTrue, mCurrentBucketStartTimeNs); VLOG("metric %lld created. bucket size %lld start_time: %lld", (long long)mMetricId, (long long)mBucketSizeNs, (long long)mTimeBaseNs); } CountMetricProducer::~CountMetricProducer() { VLOG("~CountMetricProducer() called"); } optional CountMetricProducer::onConfigUpdatedLocked( const StatsdConfig& config, const int configIndex, const int metricIndex, const vector>& allAtomMatchingTrackers, const unordered_map& oldAtomMatchingTrackerMap, const unordered_map& newAtomMatchingTrackerMap, const sp& matcherWizard, const vector>& allConditionTrackers, const unordered_map& conditionTrackerMap, const sp& wizard, const unordered_map& metricToActivationMap, unordered_map>& trackerToMetricMap, unordered_map>& conditionToMetricMap, unordered_map>& activationAtomTrackerToMetricMap, unordered_map>& deactivationAtomTrackerToMetricMap, vector& metricsWithActivation) { optional invalidConfigReason = MetricProducer::onConfigUpdatedLocked( config, configIndex, metricIndex, allAtomMatchingTrackers, oldAtomMatchingTrackerMap, newAtomMatchingTrackerMap, matcherWizard, allConditionTrackers, conditionTrackerMap, wizard, metricToActivationMap, trackerToMetricMap, conditionToMetricMap, activationAtomTrackerToMetricMap, deactivationAtomTrackerToMetricMap, metricsWithActivation); if (invalidConfigReason.has_value()) { return invalidConfigReason; } const CountMetric& metric = config.count_metric(configIndex); int trackerIndex; // Update appropriate indices, specifically mConditionIndex and MetricsManager maps. invalidConfigReason = handleMetricWithAtomMatchingTrackers( metric.what(), mMetricId, metricIndex, false, allAtomMatchingTrackers, newAtomMatchingTrackerMap, trackerToMetricMap, trackerIndex); if (invalidConfigReason.has_value()) { return invalidConfigReason; } if (metric.has_condition()) { invalidConfigReason = handleMetricWithConditions( metric.condition(), mMetricId, metricIndex, conditionTrackerMap, metric.links(), allConditionTrackers, mConditionTrackerIndex, conditionToMetricMap); if (invalidConfigReason.has_value()) { return invalidConfigReason; } } return nullopt; } void CountMetricProducer::onStateChanged(const int64_t eventTimeNs, const int32_t atomId, const HashableDimensionKey& primaryKey, const FieldValue& oldState, const FieldValue& newState) { VLOG("CountMetric %lld onStateChanged time %lld, State%d, key %s, %d -> %d", (long long)mMetricId, (long long)eventTimeNs, atomId, primaryKey.toString().c_str(), oldState.mValue.int_value, newState.mValue.int_value); } void CountMetricProducer::dumpStatesLocked(int out, bool verbose) const { if (mCurrentSlicedCounter == nullptr || mCurrentSlicedCounter->size() == 0) { return; } dprintf(out, "CountMetric %lld dimension size %lu\n", (long long)mMetricId, (unsigned long)mCurrentSlicedCounter->size()); if (verbose) { for (const auto& it : *mCurrentSlicedCounter) { dprintf(out, "\t(what)%s\t(state)%s %lld\n", it.first.getDimensionKeyInWhat().toString().c_str(), it.first.getStateValuesKey().toString().c_str(), (unsigned long long)it.second); } } } void CountMetricProducer::onSlicedConditionMayChangeLocked(bool overallCondition, const int64_t eventTime) { VLOG("Metric %lld onSlicedConditionMayChange", (long long)mMetricId); } void CountMetricProducer::clearPastBucketsLocked(const int64_t dumpTimeNs) { mPastBuckets.clear(); resetDataCorruptionFlagsLocked(); mTotalDataSize = 0; } void CountMetricProducer::onDumpReportLocked(const int64_t dumpTimeNs, const bool include_current_partial_bucket, const bool erase_data, const DumpLatency dumpLatency, std::set* str_set, std::set& usedUids, ProtoOutputStream* protoOutput) { if (include_current_partial_bucket) { flushLocked(dumpTimeNs); } else { flushIfNeededLocked(dumpTimeNs); } protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_ID, (long long)mMetricId); protoOutput->write(FIELD_TYPE_BOOL | FIELD_ID_IS_ACTIVE, isActiveLocked()); // Data corrupted reason writeDataCorruptedReasons(*protoOutput, FIELD_ID_DATA_CORRUPTED_REASON, mDataCorruptedDueToQueueOverflow != DataCorruptionSeverity::kNone, mDataCorruptedDueToSocketLoss != DataCorruptionSeverity::kNone); if (mPastBuckets.empty()) { if (erase_data) { resetDataCorruptionFlagsLocked(); } return; } if (mDimensionGuardrailHit) { protoOutput->write(FIELD_TYPE_BOOL | FIELD_ID_DIMENSION_GUARDRAIL_HIT, mDimensionGuardrailHit); } protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_ESTIMATED_MEMORY_BYTES, (long long)byteSizeLocked()); protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_TIME_BASE, (long long)mTimeBaseNs); protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_BUCKET_SIZE, (long long)mBucketSizeNs); // Fills the dimension path if not slicing by a primitive repeated field or position ALL. if (!mShouldUseNestedDimensions) { if (!mDimensionsInWhat.empty()) { uint64_t dimenPathToken = protoOutput->start( FIELD_TYPE_MESSAGE | FIELD_ID_DIMENSION_PATH_IN_WHAT); writeDimensionPathToProto(mDimensionsInWhat, protoOutput); protoOutput->end(dimenPathToken); } } uint64_t protoToken = protoOutput->start(FIELD_TYPE_MESSAGE | FIELD_ID_COUNT_METRICS); for (const auto& counter : mPastBuckets) { const MetricDimensionKey& dimensionKey = counter.first; VLOG(" dimension key %s", dimensionKey.toString().c_str()); uint64_t wrapperToken = protoOutput->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_DATA); // First fill dimension. if (mShouldUseNestedDimensions) { uint64_t dimensionToken = protoOutput->start( FIELD_TYPE_MESSAGE | FIELD_ID_DIMENSION_IN_WHAT); writeDimensionToProto(dimensionKey.getDimensionKeyInWhat(), mUidFields, str_set, usedUids, protoOutput); protoOutput->end(dimensionToken); } else { writeDimensionLeafNodesToProto(dimensionKey.getDimensionKeyInWhat(), FIELD_ID_DIMENSION_LEAF_IN_WHAT, mUidFields, str_set, usedUids, protoOutput); } // Then fill slice_by_state. for (auto state : dimensionKey.getStateValuesKey().getValues()) { uint64_t stateToken = protoOutput->start(FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_SLICE_BY_STATE); writeStateToProto(state, protoOutput); protoOutput->end(stateToken); } // Then fill bucket_info (CountBucketInfo). for (const auto& bucket : counter.second) { uint64_t bucketInfoToken = protoOutput->start( FIELD_TYPE_MESSAGE | FIELD_COUNT_REPEATED | FIELD_ID_BUCKET_INFO); // Partial bucket. if (bucket.mBucketEndNs - bucket.mBucketStartNs != mBucketSizeNs) { protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_START_BUCKET_ELAPSED_MILLIS, (long long)NanoToMillis(bucket.mBucketStartNs)); protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_END_BUCKET_ELAPSED_MILLIS, (long long)NanoToMillis(bucket.mBucketEndNs)); } else { protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_BUCKET_NUM, (long long)(getBucketNumFromEndTimeNs(bucket.mBucketEndNs))); } protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_COUNT, (long long)bucket.mCount); // We only write the condition timer value if the metric has a // condition and isn't sliced by state or condition. // TODO(b/268531179): Slice the condition timer by state and condition if (mConditionTrackerIndex >= 0 && mSlicedStateAtoms.empty() && !mConditionSliced) { protoOutput->write(FIELD_TYPE_INT64 | FIELD_ID_CONDITION_TRUE_NS, (long long)bucket.mConditionTrueNs); } protoOutput->end(bucketInfoToken); VLOG("\t bucket [%lld - %lld] count: %lld", (long long)bucket.mBucketStartNs, (long long)bucket.mBucketEndNs, (long long)bucket.mCount); } protoOutput->end(wrapperToken); } protoOutput->end(protoToken); if (erase_data) { mPastBuckets.clear(); mDimensionGuardrailHit = false; resetDataCorruptionFlagsLocked(); mTotalDataSize = 0; } } void CountMetricProducer::dropDataLocked(const int64_t dropTimeNs) { flushIfNeededLocked(dropTimeNs); StatsdStats::getInstance().noteBucketDropped(mMetricId); mPastBuckets.clear(); resetDataCorruptionFlagsLocked(); mTotalDataSize = 0; } void CountMetricProducer::onConditionChangedLocked(const bool conditionMet, const int64_t eventTime) { VLOG("Metric %lld onConditionChanged", (long long)mMetricId); mCondition = conditionMet ? ConditionState::kTrue : ConditionState::kFalse; if (!mIsActive) { return; } mConditionTimer.onConditionChanged(mCondition, eventTime); } bool CountMetricProducer::hitGuardRailLocked(const MetricDimensionKey& newKey) { if (mCurrentSlicedCounter->find(newKey) != mCurrentSlicedCounter->end()) { return false; } // ===========GuardRail============== // 1. Report the tuple count if the tuple count > soft limit if (mCurrentSlicedCounter->size() >= StatsdStats::kDimensionKeySizeSoftLimit) { size_t newTupleCount = mCurrentSlicedCounter->size() + 1; StatsdStats::getInstance().noteMetricDimensionSize(mConfigKey, mMetricId, newTupleCount); // 2. Don't add more tuples, we are above the allowed threshold. Drop the data. if (newTupleCount > mDimensionHardLimit) { if (!mHasHitGuardrail) { ALOGE("CountMetric %lld dropping data for dimension key %s", (long long)mMetricId, newKey.toString().c_str()); mHasHitGuardrail = true; } mDimensionGuardrailHit = true; StatsdStats::getInstance().noteHardDimensionLimitReached(mMetricId); return true; } } return false; } void CountMetricProducer::onMatchedLogEventInternalLocked( const size_t matcherIndex, const MetricDimensionKey& eventKey, const ConditionKey& conditionKey, bool condition, const LogEvent& event, const map& statePrimaryKeys) { int64_t eventTimeNs = event.GetElapsedTimestampNs(); flushIfNeededLocked(eventTimeNs); if (!condition) { return; } auto it = mCurrentSlicedCounter->find(eventKey); if (it == mCurrentSlicedCounter->end()) { // ===========GuardRail============== if (hitGuardRailLocked(eventKey)) { return; } // create a counter for the new key (*mCurrentSlicedCounter)[eventKey] = 1; } else { // increment the existing value auto& count = it->second; count++; } for (auto& tracker : mAnomalyTrackers) { int64_t countWholeBucket = mCurrentSlicedCounter->find(eventKey)->second; auto prev = mCurrentFullCounters->find(eventKey); if (prev != mCurrentFullCounters->end()) { countWholeBucket += prev->second; } tracker->detectAndDeclareAnomaly(eventTimeNs, mCurrentBucketNum, mMetricId, eventKey, countWholeBucket); } VLOG("metric %lld %s->%lld", (long long)mMetricId, eventKey.toString().c_str(), (long long)(*mCurrentSlicedCounter)[eventKey]); } // When a new matched event comes in, we check if event falls into the current // bucket. If not, flush the old counter to past buckets and initialize the new bucket. void CountMetricProducer::flushIfNeededLocked(const int64_t eventTimeNs) { int64_t currentBucketEndTimeNs = getCurrentBucketEndTimeNs(); if (eventTimeNs < currentBucketEndTimeNs) { return; } // Setup the bucket start time and number. int64_t numBucketsForward = 1 + (eventTimeNs - currentBucketEndTimeNs) / mBucketSizeNs; int64_t nextBucketNs = currentBucketEndTimeNs + (numBucketsForward - 1) * mBucketSizeNs; flushCurrentBucketLocked(eventTimeNs, nextBucketNs); mCurrentBucketNum += numBucketsForward; VLOG("metric %lld: new bucket start time: %lld", (long long)mMetricId, (long long)mCurrentBucketStartTimeNs); } bool CountMetricProducer::countPassesThreshold(const int64_t count) { if (mUploadThreshold == nullopt) { return true; } switch (mUploadThreshold->value_comparison_case()) { case UploadThreshold::kLtInt: return count < mUploadThreshold->lt_int(); case UploadThreshold::kGtInt: return count > mUploadThreshold->gt_int(); case UploadThreshold::kLteInt: return count <= mUploadThreshold->lte_int(); case UploadThreshold::kGteInt: return count >= mUploadThreshold->gte_int(); default: ALOGE("Count metric incorrect upload threshold type used"); return false; } } void CountMetricProducer::flushCurrentBucketLocked(const int64_t eventTimeNs, const int64_t nextBucketStartTimeNs) { int64_t fullBucketEndTimeNs = getCurrentBucketEndTimeNs(); CountBucket info; info.mBucketStartNs = mCurrentBucketStartTimeNs; if (eventTimeNs < fullBucketEndTimeNs) { info.mBucketEndNs = eventTimeNs; } else { info.mBucketEndNs = fullBucketEndTimeNs; } const auto [globalConditionTrueNs, globalConditionCorrectionNs] = mConditionTimer.newBucketStart(eventTimeNs, nextBucketStartTimeNs); info.mConditionTrueNs = globalConditionTrueNs; for (const auto& counter : *mCurrentSlicedCounter) { if (countPassesThreshold(counter.second)) { info.mCount = counter.second; auto& bucketList = mPastBuckets[counter.first]; const bool isFirstBucket = bucketList.empty(); bucketList.push_back(info); mTotalDataSize += computeBucketSizeLocked(eventTimeNs < fullBucketEndTimeNs, counter.first, isFirstBucket); VLOG("metric %lld, dump key value: %s -> %lld", (long long)mMetricId, counter.first.toString().c_str(), (long long)counter.second); } } // Only update mCurrentFullCounters if any anomaly tackers are present. if (mAnomalyTrackers.size() > 0) { // If we have finished a full bucket, then send this to anomaly tracker. if (eventTimeNs > fullBucketEndTimeNs) { // Accumulate partial buckets with current value and then send to anomaly tracker. if (mCurrentFullCounters->size() > 0) { for (const auto& keyValuePair : *mCurrentSlicedCounter) { (*mCurrentFullCounters)[keyValuePair.first] += keyValuePair.second; } for (auto& tracker : mAnomalyTrackers) { tracker->addPastBucket(mCurrentFullCounters, mCurrentBucketNum); } mCurrentFullCounters = std::make_shared(); } else { // Skip aggregating the partial buckets since there's no previous partial bucket. for (auto& tracker : mAnomalyTrackers) { tracker->addPastBucket(mCurrentSlicedCounter, mCurrentBucketNum); } } } else { // Accumulate partial bucket. for (const auto& keyValuePair : *mCurrentSlicedCounter) { (*mCurrentFullCounters)[keyValuePair.first] += keyValuePair.second; } } } StatsdStats::getInstance().noteBucketCount(mMetricId); // Only resets the counters, but doesn't setup the times nor numbers. // (Do not clear since the old one is still referenced in mAnomalyTrackers). mCurrentSlicedCounter = std::make_shared(); mCurrentBucketStartTimeNs = nextBucketStartTimeNs; // Reset mHasHitGuardrail boolean since bucket was reset mHasHitGuardrail = false; } // Rough estimate of CountMetricProducer buffer stored. This number will be // greater than actual data size as it contains each dimension of // CountMetricData is duplicated. size_t CountMetricProducer::byteSizeLocked() const { sp configMetadataProvider = getConfigMetadataProvider(); if (configMetadataProvider != nullptr && configMetadataProvider->useV2SoftMemoryCalculation()) { return computeOverheadSizeLocked(!mPastBuckets.empty(), mDimensionGuardrailHit) + mTotalDataSize; } size_t totalSize = 0; for (const auto& pair : mPastBuckets) { totalSize += pair.second.size() * kBucketSize; } return totalSize; } // Estimate for the size of a CountBucket. size_t CountMetricProducer::computeBucketSizeLocked(const bool isFullBucket, const MetricDimensionKey& dimKey, const bool isFirstBucket) const { size_t bucketSize = MetricProducer::computeBucketSizeLocked(isFullBucket, dimKey, isFirstBucket); // Count Value bucketSize += sizeof(int32_t); // ConditionTrueNanos if (mConditionTrackerIndex >= 0 && mSlicedStateAtoms.empty() && !mConditionSliced) { bucketSize += sizeof(int64_t); } return bucketSize; } void CountMetricProducer::onActiveStateChangedLocked(const int64_t eventTimeNs, const bool isActive) { MetricProducer::onActiveStateChangedLocked(eventTimeNs, isActive); if (ConditionState::kTrue != mCondition) { return; } mConditionTimer.onConditionChanged(isActive, eventTimeNs); } MetricProducer::DataCorruptionSeverity CountMetricProducer::determineCorruptionSeverity( int32_t atomId, DataCorruptedReason /*reason*/, LostAtomType atomType) const { switch (atomType) { case LostAtomType::kWhat: return DataCorruptionSeverity::kResetOnDump; case LostAtomType::kCondition: case LostAtomType::kState: return DataCorruptionSeverity::kUnrecoverable; }; return DataCorruptionSeverity::kNone; }; } // namespace statsd } // namespace os } // namespace android