/* * 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. */ #pragma once #include "anomaly/AnomalyMonitor.h" #include "anomaly/AnomalyTracker.h" #include "condition/ConditionTracker.h" #include "config/ConfigKey.h" #include "frameworks/base/cmds/statsd/src/statsd_config.pb.h" #include "logd/LogEvent.h" #include "matchers/LogMatchingTracker.h" #include "metrics/MetricProducer.h" #include "packages/UidMap.h" #include namespace android { namespace os { namespace statsd { // A MetricsManager is responsible for managing metrics from one single config source. class MetricsManager : public PackageInfoListener { public: MetricsManager(const ConfigKey& configKey, const StatsdConfig& config, const long timeBaseSec, sp uidMap); virtual ~MetricsManager(); // Return whether the configuration is valid. bool isConfigValid() const; void onLogEvent(const LogEvent& event); void onAnomalyAlarmFired( const uint64_t timestampNs, unordered_set, SpHash>& anomalySet); void setAnomalyMonitor(const sp& anomalyMonitor); void notifyAppUpgrade(const uint64_t& eventTimeNs, const string& apk, const int uid, const int64_t version) override; void notifyAppRemoved(const uint64_t& eventTimeNs, const string& apk, const int uid) override; void onUidMapReceived(const uint64_t& eventTimeNs) override; bool shouldAddUidMapListener() const { return !mAllowedPkg.empty(); } void dumpStates(FILE* out, bool verbose); // Returns the elapsed realtime when this metric manager last reported metrics. uint64_t getLastReportTimeNs() { return mLastReportTimeNs; }; // Config source owner can call onDumpReport() to get all the metrics collected. virtual void onDumpReport(const uint64_t dumpTimeNs, android::util::ProtoOutputStream* protoOutput); // Computes the total byte size of all metrics managed by a single config source. // Does not change the state. virtual size_t byteSize(); private: const ConfigKey mConfigKey; sp mUidMap; bool mConfigValid = false; uint64_t mLastReportTimeNs; // The uid log sources from StatsdConfig. std::vector mAllowedUid; // The pkg log sources from StatsdConfig. std::vector mAllowedPkg; // The combined uid sources (after translating pkg name to uid). // Logs from uids that are not in the list will be ignored to avoid spamming. std::set mAllowedLogSources; // To guard access to mAllowedLogSources mutable std::mutex mAllowedLogSourcesMutex; // All event tags that are interesting to my metrics. std::set mTagIds; // We only store the sp of LogMatchingTracker, MetricProducer, and ConditionTracker in // MetricsManager. There are relationships between them, and the relationships are denoted by // index instead of pointers. The reasons for this are: (1) the relationship between them are // complicated, so storing index instead of pointers reduces the risk that A holds B's sp, and B // holds A's sp. (2) When we evaluate matcher results, or condition results, we can quickly get // the related results from a cache using the index. // Hold all the atom matchers from the config. std::vector> mAllAtomMatchers; // Hold all the conditions from the config. std::vector> mAllConditionTrackers; // Hold all metrics from the config. std::vector> mAllMetricProducers; // Hold all alert trackers. std::vector> mAllAnomalyTrackers; // To make the log processing more efficient, we want to do as much filtering as possible // before we go into individual trackers and conditions to match. // 1st filter: check if the event tag id is in mTagIds. // 2nd filter: if it is, we parse the event because there is at least one member is interested. // then pass to all LogMatchingTrackers (itself also filter events by ids). // 3nd filter: for LogMatchingTrackers that matched this event, we pass this event to the // ConditionTrackers and MetricProducers that use this matcher. // 4th filter: for ConditionTrackers that changed value due to this event, we pass // new conditions to metrics that use this condition. // The following map is initialized from the statsd_config. // maps from the index of the LogMatchingTracker to index of MetricProducer. std::unordered_map> mTrackerToMetricMap; // maps from LogMatchingTracker to ConditionTracker std::unordered_map> mTrackerToConditionMap; // maps from ConditionTracker to MetricProducer std::unordered_map> mConditionToMetricMap; void initLogSourceWhiteList(); // The metrics that don't need to be uploaded or even reported. std::set mNoReportMetricIds; FRIEND_TEST(WakelockDurationE2eTest, TestAggregatedPredicateDimensions); FRIEND_TEST(MetricConditionLinkE2eTest, TestMultiplePredicatesAndLinks); FRIEND_TEST(AttributionE2eTest, TestAttributionMatchAndSlice); FRIEND_TEST(GaugeMetricE2eTest, TestMultipleFieldsForPushedEvent); FRIEND_TEST(DimensionInConditionE2eTest, TestCountMetricNoLink); FRIEND_TEST(DimensionInConditionE2eTest, TestCountMetricWithLink); FRIEND_TEST(DimensionInConditionE2eTest, TestDurationMetricNoLink); FRIEND_TEST(DimensionInConditionE2eTest, TestDurationMetricWithLink); }; } // namespace statsd } // namespace os } // namespace android