cmds/statsd/src/metrics/GaugeMetricProducer.h - platform/frameworks/base - Gitiles

 /*
  * 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 <unordered_map>

 #include <android/util/ProtoOutputStream.h>
 #include <gtest/gtest_prod.h>
 #include "../condition/ConditionTracker.h"
 #include "../external/PullDataReceiver.h"
 #include "../external/StatsPullerManager.h"
 #include "../matchers/matcher_util.h"
 #include "../matchers/EventMatcherWizard.h"
 #include "MetricProducer.h"
 #include "frameworks/base/cmds/statsd/src/statsd_config.pb.h"
 #include "../stats_util.h"

 namespace android {
 namespace os {
 namespace statsd {

 struct GaugeAtom {
     GaugeAtom(std::shared_ptr<vector<FieldValue>> fields, int64_t elapsedTimeNs)
         : mFields(fields), mElapsedTimestampNs(elapsedTimeNs) {
     }
     std::shared_ptr<vector<FieldValue>> mFields;
     int64_t mElapsedTimestampNs;
 };

 struct GaugeBucket {
     int64_t mBucketStartNs;
     int64_t mBucketEndNs;
     std::vector<GaugeAtom> mGaugeAtoms;
 };

 typedef std::unordered_map<MetricDimensionKey, std::vector<GaugeAtom>>
     DimToGaugeAtomsMap;

 // This gauge metric producer first register the puller to automatically pull the gauge at the
 // beginning of each bucket. If the condition is met, insert it to the bucket info. Otherwise
 // proactively pull the gauge when the condition is changed to be true. Therefore, the gauge metric
 // producer always reports the guage at the earliest time of the bucket when the condition is met.
 class GaugeMetricProducer : public virtual MetricProducer, public virtual PullDataReceiver {
 public:
     GaugeMetricProducer(
             const ConfigKey& key, const GaugeMetric& gaugeMetric, const int conditionIndex,
             const sp<ConditionWizard>& conditionWizard, const int whatMatcherIndex,
             const sp<EventMatcherWizard>& matcherWizard, const int pullTagId,
             const int triggerAtomId, const int atomId, const int64_t timeBaseNs,
             const int64_t startTimeNs, const sp<StatsPullerManager>& pullerManager,
             const std::unordered_map<int, std::shared_ptr<Activation>>& eventActivationMap = {},
             const std::unordered_map<int, std::vector<std::shared_ptr<Activation>>>&
                     eventDeactivationMap = {});

     virtual ~GaugeMetricProducer();

     // Handles when the pulled data arrives.
     void onDataPulled(const std::vector<std::shared_ptr<LogEvent>>& data,
                       bool pullSuccess, int64_t originalPullTimeNs) override;

     // GaugeMetric needs to immediately trigger another pull when we create the partial bucket.
     void notifyAppUpgrade(const int64_t& eventTimeNs, const string& apk, const int uid,
                           const int64_t version) override {
         std::lock_guard<std::mutex> lock(mMutex);

         if (!mSplitBucketForAppUpgrade) {
             return;
         }
         if (eventTimeNs > getCurrentBucketEndTimeNs()) {
             // Flush full buckets on the normal path up to the latest bucket boundary.
             flushIfNeededLocked(eventTimeNs);
         }
         flushCurrentBucketLocked(eventTimeNs, eventTimeNs);
         if (mIsPulled && mSamplingType == GaugeMetric::RANDOM_ONE_SAMPLE) {
             pullAndMatchEventsLocked(eventTimeNs);
         }
     };

 protected:
     void onMatchedLogEventInternalLocked(
             const size_t matcherIndex, const MetricDimensionKey& eventKey,
             const ConditionKey& conditionKey, bool condition, const LogEvent& event,
             const std::map<int, HashableDimensionKey>& statePrimaryKeys) override;

 private:
     void onDumpReportLocked(const int64_t dumpTimeNs,
                             const bool include_current_partial_bucket,
                             const bool erase_data,
                             const DumpLatency dumpLatency,
                             std::set<string> *str_set,
                             android::util::ProtoOutputStream* protoOutput) override;
     void clearPastBucketsLocked(const int64_t dumpTimeNs) override;

     // Internal interface to handle condition change.
     void onConditionChangedLocked(const bool conditionMet, const int64_t eventTime) override;

     // Internal interface to handle active state change.
     void onActiveStateChangedLocked(const int64_t& eventTimeNs) override;

     // Internal interface to handle sliced condition change.
     void onSlicedConditionMayChangeLocked(bool overallCondition, const int64_t eventTime) override;

     // Internal function to calculate the current used bytes.
     size_t byteSizeLocked() const override;

     void dumpStatesLocked(FILE* out, bool verbose) const override;

     void dropDataLocked(const int64_t dropTimeNs) override;

     // Util function to flush the old packet.
     void flushIfNeededLocked(const int64_t& eventTime) override;

     void flushCurrentBucketLocked(const int64_t& eventTimeNs,
                                   const int64_t& nextBucketStartTimeNs) override;

     void prepareFirstBucketLocked() override;

     void pullAndMatchEventsLocked(const int64_t timestampNs);

     const int mWhatMatcherIndex;

     sp<EventMatcherWizard> mEventMatcherWizard;

     sp<StatsPullerManager> mPullerManager;
     // tagId for pulled data. -1 if this is not pulled
     const int mPullTagId;

     // tagId for atoms that trigger the pulling, if any
     const int mTriggerAtomId;

     // tagId for output atom
     const int mAtomId;

     // if this is pulled metric
     const bool mIsPulled;

     // Save the past buckets and we can clear when the StatsLogReport is dumped.
     std::unordered_map<MetricDimensionKey, std::vector<GaugeBucket>> mPastBuckets;

     // The current partial bucket.
     std::shared_ptr<DimToGaugeAtomsMap> mCurrentSlicedBucket;

     // The current full bucket for anomaly detection. This is updated to the latest value seen for
     // this slice (ie, for partial buckets, we use the last partial bucket in this full bucket).
     std::shared_ptr<DimToValMap> mCurrentSlicedBucketForAnomaly;

     const int64_t mMinBucketSizeNs;

     // Translate Atom based bucket to single numeric value bucket for anomaly and updates the map
     // for each slice with the latest value.
     void updateCurrentSlicedBucketForAnomaly();

     // Whitelist of fields to report. Empty means all are reported.
     std::vector<Matcher> mFieldMatchers;

     GaugeMetric::SamplingType mSamplingType;

     const int64_t mMaxPullDelayNs;

     // apply a whitelist on the original input
     std::shared_ptr<vector<FieldValue>> getGaugeFields(const LogEvent& event);

     // Util function to check whether the specified dimension hits the guardrail.
     bool hitGuardRailLocked(const MetricDimensionKey& newKey);

     static const size_t kBucketSize = sizeof(GaugeBucket{});

     const size_t mDimensionSoftLimit;

     const size_t mDimensionHardLimit;

     const size_t mGaugeAtomsPerDimensionLimit;

     const bool mSplitBucketForAppUpgrade;

     FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsWithCondition);
     FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsWithSlicedCondition);
     FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsNoCondition);
     FRIEND_TEST(GaugeMetricProducerTest, TestPushedEventsWithUpgrade);
     FRIEND_TEST(GaugeMetricProducerTest, TestPulledWithUpgrade);
     FRIEND_TEST(GaugeMetricProducerTest, TestPulledWithAppUpgradeDisabled);
     FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsAnomalyDetection);
     FRIEND_TEST(GaugeMetricProducerTest, TestFirstBucket);
     FRIEND_TEST(GaugeMetricProducerTest, TestPullOnTrigger);
     FRIEND_TEST(GaugeMetricProducerTest, TestRemoveDimensionInOutput);
 };

 }  // namespace statsd
 }  // namespace os
 }  // namespace android
	/*
	* 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 <unordered_map>

	#include <android/util/ProtoOutputStream.h>
	#include <gtest/gtest_prod.h>
	#include "../condition/ConditionTracker.h"
	#include "../external/PullDataReceiver.h"
	#include "../external/StatsPullerManager.h"
	#include "../matchers/matcher_util.h"
	#include "../matchers/EventMatcherWizard.h"
	#include "MetricProducer.h"
	#include "frameworks/base/cmds/statsd/src/statsd_config.pb.h"
	#include "../stats_util.h"

	namespace android {
	namespace os {
	namespace statsd {

	struct GaugeAtom {
	GaugeAtom(std::shared_ptr<vector<FieldValue>> fields, int64_t elapsedTimeNs)
	: mFields(fields), mElapsedTimestampNs(elapsedTimeNs) {
	}
	std::shared_ptr<vector<FieldValue>> mFields;
	int64_t mElapsedTimestampNs;
	};

	struct GaugeBucket {
	int64_t mBucketStartNs;
	int64_t mBucketEndNs;
	std::vector<GaugeAtom> mGaugeAtoms;
	};

	typedef std::unordered_map<MetricDimensionKey, std::vector<GaugeAtom>>
	DimToGaugeAtomsMap;

	// This gauge metric producer first register the puller to automatically pull the gauge at the
	// beginning of each bucket. If the condition is met, insert it to the bucket info. Otherwise
	// proactively pull the gauge when the condition is changed to be true. Therefore, the gauge metric
	// producer always reports the guage at the earliest time of the bucket when the condition is met.
	class GaugeMetricProducer : public virtual MetricProducer, public virtual PullDataReceiver {
	public:
	GaugeMetricProducer(
	const ConfigKey& key, const GaugeMetric& gaugeMetric, const int conditionIndex,
	const sp<ConditionWizard>& conditionWizard, const int whatMatcherIndex,
	const sp<EventMatcherWizard>& matcherWizard, const int pullTagId,
	const int triggerAtomId, const int atomId, const int64_t timeBaseNs,
	const int64_t startTimeNs, const sp<StatsPullerManager>& pullerManager,
	const std::unordered_map<int, std::shared_ptr<Activation>>& eventActivationMap = {},
	const std::unordered_map<int, std::vector<std::shared_ptr<Activation>>>&
	eventDeactivationMap = {});

	virtual ~GaugeMetricProducer();

	// Handles when the pulled data arrives.
	void onDataPulled(const std::vector<std::shared_ptr<LogEvent>>& data,
	bool pullSuccess, int64_t originalPullTimeNs) override;

	// GaugeMetric needs to immediately trigger another pull when we create the partial bucket.
	void notifyAppUpgrade(const int64_t& eventTimeNs, const string& apk, const int uid,
	const int64_t version) override {
	std::lock_guard<std::mutex> lock(mMutex);

	if (!mSplitBucketForAppUpgrade) {
	return;
	}
	if (eventTimeNs > getCurrentBucketEndTimeNs()) {
	// Flush full buckets on the normal path up to the latest bucket boundary.
	flushIfNeededLocked(eventTimeNs);
	}
	flushCurrentBucketLocked(eventTimeNs, eventTimeNs);
	if (mIsPulled && mSamplingType == GaugeMetric::RANDOM_ONE_SAMPLE) {
	pullAndMatchEventsLocked(eventTimeNs);
	}
	};

	protected:
	void onMatchedLogEventInternalLocked(
	const size_t matcherIndex, const MetricDimensionKey& eventKey,
	const ConditionKey& conditionKey, bool condition, const LogEvent& event,
	const std::map<int, HashableDimensionKey>& statePrimaryKeys) override;

	private:
	void onDumpReportLocked(const int64_t dumpTimeNs,
	const bool include_current_partial_bucket,
	const bool erase_data,
	const DumpLatency dumpLatency,
	std::set<string> *str_set,
	android::util::ProtoOutputStream* protoOutput) override;
	void clearPastBucketsLocked(const int64_t dumpTimeNs) override;

	// Internal interface to handle condition change.
	void onConditionChangedLocked(const bool conditionMet, const int64_t eventTime) override;

	// Internal interface to handle active state change.
	void onActiveStateChangedLocked(const int64_t& eventTimeNs) override;

	// Internal interface to handle sliced condition change.
	void onSlicedConditionMayChangeLocked(bool overallCondition, const int64_t eventTime) override;

	// Internal function to calculate the current used bytes.
	size_t byteSizeLocked() const override;

	void dumpStatesLocked(FILE* out, bool verbose) const override;

	void dropDataLocked(const int64_t dropTimeNs) override;

	// Util function to flush the old packet.
	void flushIfNeededLocked(const int64_t& eventTime) override;

	void flushCurrentBucketLocked(const int64_t& eventTimeNs,
	const int64_t& nextBucketStartTimeNs) override;

	void prepareFirstBucketLocked() override;

	void pullAndMatchEventsLocked(const int64_t timestampNs);

	const int mWhatMatcherIndex;

	sp<EventMatcherWizard> mEventMatcherWizard;

	sp<StatsPullerManager> mPullerManager;
	// tagId for pulled data. -1 if this is not pulled
	const int mPullTagId;

	// tagId for atoms that trigger the pulling, if any
	const int mTriggerAtomId;

	// tagId for output atom
	const int mAtomId;

	// if this is pulled metric
	const bool mIsPulled;

	// Save the past buckets and we can clear when the StatsLogReport is dumped.
	std::unordered_map<MetricDimensionKey, std::vector<GaugeBucket>> mPastBuckets;

	// The current partial bucket.
	std::shared_ptr<DimToGaugeAtomsMap> mCurrentSlicedBucket;

	// The current full bucket for anomaly detection. This is updated to the latest value seen for
	// this slice (ie, for partial buckets, we use the last partial bucket in this full bucket).
	std::shared_ptr<DimToValMap> mCurrentSlicedBucketForAnomaly;

	const int64_t mMinBucketSizeNs;

	// Translate Atom based bucket to single numeric value bucket for anomaly and updates the map
	// for each slice with the latest value.
	void updateCurrentSlicedBucketForAnomaly();

	// Whitelist of fields to report. Empty means all are reported.
	std::vector<Matcher> mFieldMatchers;

	GaugeMetric::SamplingType mSamplingType;

	const int64_t mMaxPullDelayNs;

	// apply a whitelist on the original input
	std::shared_ptr<vector<FieldValue>> getGaugeFields(const LogEvent& event);

	// Util function to check whether the specified dimension hits the guardrail.
	bool hitGuardRailLocked(const MetricDimensionKey& newKey);

	static const size_t kBucketSize = sizeof(GaugeBucket{});

	const size_t mDimensionSoftLimit;

	const size_t mDimensionHardLimit;

	const size_t mGaugeAtomsPerDimensionLimit;

	const bool mSplitBucketForAppUpgrade;

	FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsWithCondition);
	FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsWithSlicedCondition);
	FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsNoCondition);
	FRIEND_TEST(GaugeMetricProducerTest, TestPushedEventsWithUpgrade);
	FRIEND_TEST(GaugeMetricProducerTest, TestPulledWithUpgrade);
	FRIEND_TEST(GaugeMetricProducerTest, TestPulledWithAppUpgradeDisabled);
	FRIEND_TEST(GaugeMetricProducerTest, TestPulledEventsAnomalyDetection);
	FRIEND_TEST(GaugeMetricProducerTest, TestFirstBucket);
	FRIEND_TEST(GaugeMetricProducerTest, TestPullOnTrigger);
	FRIEND_TEST(GaugeMetricProducerTest, TestRemoveDimensionInOutput);
	};

	} // namespace statsd
	} // namespace os
	} // namespace android