/* * Copyright (C) 2019 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 #include #include namespace android { namespace os { namespace statsd { /** * A simple stopwatch to time the duration of condition being true. * * The owner of the stopwatch (MetricProducer) is responsible to notify the stopwatch when condition * changes (start/pause), and when to start a new bucket (a new lap basically). All timestamps * should be elapsedRealTime in nano seconds. * * Keep the timer simple and inline everything. This class is *NOT* thread safe. Caller is * responsible for thread safety. */ class ConditionTimer { public: explicit ConditionTimer(bool initCondition, int64_t bucketStartNs) : mCondition(initCondition) { if (initCondition) { mLastConditionChangeTimestampNs = bucketStartNs; } }; // Tracks how long the condition has been stayed true in the *current* bucket. // When a new bucket is created, this value will be reset to 0. int64_t mTimerNs = 0; /** Tracks the delay prior current bucket start due to delayed bucket close. */ int64_t mCurrentBucketStartDelayNs = 0; // Last elapsed real timestamp when condition changed. int64_t mLastConditionChangeTimestampNs = 0; bool mCondition = false; struct ConditionDurationInfo { int64_t mDurationNs; int64_t mCorrectionNs; inline bool operator==(const ConditionDurationInfo& that) const { return mDurationNs == that.mDurationNs && mCorrectionNs == that.mCorrectionNs; } }; /** * Handles new bucket event processing and performs condition duration calculation * In case if next bucket start timestamp differs from event timestamp, the * correction calculation will be performed, due to delayed bucket close * \param eventTimeNs current timestamp * \param nextBucketStartNs next bucket start expected timestamp * \return The condition duration and correction in nanoseconds for the previous bucket */ ConditionDurationInfo newBucketStart(int64_t eventTimeNs, int64_t nextBucketStartNs) { // we would like to apply correction only in case // - when condition was true before new bucket start (pull event often the case) // - and remains true after the edge // here the mCondition represents current condition, which could be updated // based on onConditionChange() event int64_t conditionCorrectionNs = -mCurrentBucketStartDelayNs; mCurrentBucketStartDelayNs = 0; const int64_t currentBucketEndDelayNs = std::max(eventTimeNs - nextBucketStartNs, (int64_t)0); if (mCondition) { // Normally, the next bucket happens after the last condition // change. In this case, add the time between the condition becoming // true to the next bucket start time. // Otherwise, the next bucket start time is before the last // condition change time, this means that the condition was false at // the bucket boundary before the condition became true, so the // timer should not get updated and the last condition change time // remains as is. if (nextBucketStartNs >= mLastConditionChangeTimestampNs) { mTimerNs += (nextBucketStartNs - mLastConditionChangeTimestampNs); mLastConditionChangeTimestampNs = nextBucketStartNs; conditionCorrectionNs += currentBucketEndDelayNs; // keep start delay correction for the next bucket - condition was true // before the edge and remains true after the edge mCurrentBucketStartDelayNs = currentBucketEndDelayNs; } } else if (mLastConditionChangeTimestampNs > nextBucketStartNs) { // The next bucket start time is before the last condition change // time, this means that the condition was true at the bucket // boundary before the condition became false, so adjust the timer // to match how long the condition was true to the bucket boundary. // This means remove the amount the condition stayed true in the // next bucket from the current bucket. mTimerNs -= (mLastConditionChangeTimestampNs - nextBucketStartNs); conditionCorrectionNs += currentBucketEndDelayNs; // keep start delay correction for the next bucket - condition was true // before the edge and remains true after the edge up to delay mCurrentBucketStartDelayNs = currentBucketEndDelayNs; } const int64_t conditionDurationNs = mTimerNs; mTimerNs = 0; if (!mCondition && (mLastConditionChangeTimestampNs > nextBucketStartNs)) { // The next bucket start time is before the last condition change // time, this means that the condition was true at the bucket // boundary and remained true in the next bucket up to the condition // change to false, so adjust the timer to match how long the // condition stayed true in the next bucket (now the current bucket). mTimerNs = mLastConditionChangeTimestampNs - nextBucketStartNs; } return {conditionDurationNs, conditionCorrectionNs}; } void onConditionChanged(bool newCondition, int64_t timestampNs) { if (newCondition == mCondition) { return; } mCondition = newCondition; if (newCondition == false) { mTimerNs += (timestampNs - mLastConditionChangeTimestampNs); } mLastConditionChangeTimestampNs = timestampNs; } FRIEND_TEST(ConditionTimerTest, TestTimer_Inital_False); FRIEND_TEST(ConditionTimerTest, TestTimer_Inital_True); FRIEND_TEST(ConditionTimerTest, TestTimer_Correction_DelayedChangeToFalse); FRIEND_TEST(ConditionTimerTest, TestTimer_Correction_DelayedChangeToTrue); FRIEND_TEST(ConditionTimerTest, TestTimer_Correction_DelayedWithInitialFalse); FRIEND_TEST(ConditionTimerTest, TestTimer_Correction_DelayedWithInitialTrue); }; } // namespace statsd } // namespace os } // namespace android