/* * Copyright 2018 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. */ #undef LOG_TAG #define LOG_TAG "TimeStats" #define ATRACE_TAG ATRACE_TAG_GRAPHICS #include #include #include #include #include #include #include #include #include #include #include "TimeStats.h" #include "timestatsproto/TimeStatsHelper.h" namespace android { namespace impl { namespace { FrameTimingHistogram histogramToProto(const std::unordered_map& histogram, size_t maxPulledHistogramBuckets) { auto buckets = std::vector>(histogram.begin(), histogram.end()); std::sort(buckets.begin(), buckets.end(), [](std::pair& left, std::pair& right) { return left.second > right.second; }); FrameTimingHistogram histogramProto; int histogramSize = 0; for (const auto& bucket : buckets) { if (++histogramSize > maxPulledHistogramBuckets) { break; } histogramProto.add_time_millis_buckets((int32_t)bucket.first); histogramProto.add_frame_counts((int64_t)bucket.second); } return histogramProto; } SurfaceflingerStatsLayerInfo_GameMode gameModeToProto(GameMode gameMode) { switch (gameMode) { case GameMode::Unsupported: return SurfaceflingerStatsLayerInfo::GAME_MODE_UNSUPPORTED; case GameMode::Standard: return SurfaceflingerStatsLayerInfo::GAME_MODE_STANDARD; case GameMode::Performance: return SurfaceflingerStatsLayerInfo::GAME_MODE_PERFORMANCE; case GameMode::Battery: return SurfaceflingerStatsLayerInfo::GAME_MODE_BATTERY; case GameMode::Custom: return SurfaceflingerStatsLayerInfo::GAME_MODE_CUSTOM; default: return SurfaceflingerStatsLayerInfo::GAME_MODE_UNSPECIFIED; } } SurfaceflingerStatsLayerInfo_SetFrameRateVote frameRateVoteToProto( const TimeStats::SetFrameRateVote& setFrameRateVote) { using FrameRateCompatibilityEnum = SurfaceflingerStatsLayerInfo::SetFrameRateVote::FrameRateCompatibility; using SeamlessnessEnum = SurfaceflingerStatsLayerInfo::SetFrameRateVote::Seamlessness; SurfaceflingerStatsLayerInfo_SetFrameRateVote proto; proto.set_frame_rate(setFrameRateVote.frameRate); proto.set_frame_rate_compatibility( static_cast(setFrameRateVote.frameRateCompatibility)); proto.set_seamlessness(static_cast(setFrameRateVote.seamlessness)); return proto; } } // namespace bool TimeStats::populateGlobalAtom(std::vector* pulledData) { std::lock_guard lock(mMutex); if (mTimeStats.statsStartLegacy == 0) { return false; } flushPowerTimeLocked(); SurfaceflingerStatsGlobalInfoWrapper atomList; for (const auto& globalSlice : mTimeStats.stats) { SurfaceflingerStatsGlobalInfo* atom = atomList.add_atom(); atom->set_total_frames(mTimeStats.totalFramesLegacy); atom->set_missed_frames(mTimeStats.missedFramesLegacy); atom->set_client_composition_frames(mTimeStats.clientCompositionFramesLegacy); atom->set_display_on_millis(mTimeStats.displayOnTimeLegacy); atom->set_animation_millis(mTimeStats.presentToPresentLegacy.totalTime()); // Deprecated atom->set_event_connection_count(0); *atom->mutable_frame_duration() = histogramToProto(mTimeStats.frameDurationLegacy.hist, mMaxPulledHistogramBuckets); *atom->mutable_render_engine_timing() = histogramToProto(mTimeStats.renderEngineTimingLegacy.hist, mMaxPulledHistogramBuckets); atom->set_total_timeline_frames(globalSlice.second.jankPayload.totalFrames); atom->set_total_janky_frames(globalSlice.second.jankPayload.totalJankyFrames); atom->set_total_janky_frames_with_long_cpu(globalSlice.second.jankPayload.totalSFLongCpu); atom->set_total_janky_frames_with_long_gpu(globalSlice.second.jankPayload.totalSFLongGpu); atom->set_total_janky_frames_sf_unattributed( globalSlice.second.jankPayload.totalSFUnattributed); atom->set_total_janky_frames_app_unattributed( globalSlice.second.jankPayload.totalAppUnattributed); atom->set_total_janky_frames_sf_scheduling( globalSlice.second.jankPayload.totalSFScheduling); atom->set_total_jank_frames_sf_prediction_error( globalSlice.second.jankPayload.totalSFPredictionError); atom->set_total_jank_frames_app_buffer_stuffing( globalSlice.second.jankPayload.totalAppBufferStuffing); atom->set_display_refresh_rate_bucket(globalSlice.first.displayRefreshRateBucket); *atom->mutable_sf_deadline_misses() = histogramToProto(globalSlice.second.displayDeadlineDeltas.hist, mMaxPulledHistogramBuckets); *atom->mutable_sf_prediction_errors() = histogramToProto(globalSlice.second.displayPresentDeltas.hist, mMaxPulledHistogramBuckets); atom->set_render_rate_bucket(globalSlice.first.renderRateBucket); } // Always clear data. clearGlobalLocked(); pulledData->resize(atomList.ByteSizeLong()); return atomList.SerializeToArray(pulledData->data(), atomList.ByteSizeLong()); } bool TimeStats::populateLayerAtom(std::vector* pulledData) { std::lock_guard lock(mMutex); std::vector dumpStats; uint32_t numLayers = 0; for (const auto& globalSlice : mTimeStats.stats) { numLayers += globalSlice.second.stats.size(); } dumpStats.reserve(numLayers); for (auto& globalSlice : mTimeStats.stats) { for (auto& layerSlice : globalSlice.second.stats) { dumpStats.push_back(&layerSlice.second); } } std::sort(dumpStats.begin(), dumpStats.end(), [](TimeStatsHelper::TimeStatsLayer const* l, TimeStatsHelper::TimeStatsLayer const* r) { return l->totalFrames > r->totalFrames; }); if (mMaxPulledLayers < dumpStats.size()) { dumpStats.resize(mMaxPulledLayers); } SurfaceflingerStatsLayerInfoWrapper atomList; for (auto& layer : dumpStats) { SurfaceflingerStatsLayerInfo* atom = atomList.add_atom(); atom->set_layer_name(layer->layerName); atom->set_total_frames(layer->totalFrames); atom->set_dropped_frames(layer->droppedFrames); const auto& present2PresentHist = layer->deltas.find("present2present"); if (present2PresentHist != layer->deltas.cend()) { *atom->mutable_present_to_present() = histogramToProto(present2PresentHist->second.hist, mMaxPulledHistogramBuckets); } const auto& present2PresentDeltaHist = layer->deltas.find("present2presentDelta"); if (present2PresentDeltaHist != layer->deltas.cend()) { *atom->mutable_present_to_present_delta() = histogramToProto(present2PresentDeltaHist->second.hist, mMaxPulledHistogramBuckets); } const auto& post2presentHist = layer->deltas.find("post2present"); if (post2presentHist != layer->deltas.cend()) { *atom->mutable_post_to_present() = histogramToProto(post2presentHist->second.hist, mMaxPulledHistogramBuckets); } const auto& acquire2presentHist = layer->deltas.find("acquire2present"); if (acquire2presentHist != layer->deltas.cend()) { *atom->mutable_acquire_to_present() = histogramToProto(acquire2presentHist->second.hist, mMaxPulledHistogramBuckets); } const auto& latch2presentHist = layer->deltas.find("latch2present"); if (latch2presentHist != layer->deltas.cend()) { *atom->mutable_latch_to_present() = histogramToProto(latch2presentHist->second.hist, mMaxPulledHistogramBuckets); } const auto& desired2presentHist = layer->deltas.find("desired2present"); if (desired2presentHist != layer->deltas.cend()) { *atom->mutable_desired_to_present() = histogramToProto(desired2presentHist->second.hist, mMaxPulledHistogramBuckets); } const auto& post2acquireHist = layer->deltas.find("post2acquire"); if (post2acquireHist != layer->deltas.cend()) { *atom->mutable_post_to_acquire() = histogramToProto(post2acquireHist->second.hist, mMaxPulledHistogramBuckets); } atom->set_late_acquire_frames(layer->lateAcquireFrames); atom->set_bad_desired_present_frames(layer->badDesiredPresentFrames); atom->set_uid(layer->uid); atom->set_total_timeline_frames(layer->jankPayload.totalFrames); atom->set_total_janky_frames(layer->jankPayload.totalJankyFrames); atom->set_total_janky_frames_with_long_cpu(layer->jankPayload.totalSFLongCpu); atom->set_total_janky_frames_with_long_gpu(layer->jankPayload.totalSFLongGpu); atom->set_total_janky_frames_sf_unattributed(layer->jankPayload.totalSFUnattributed); atom->set_total_janky_frames_app_unattributed(layer->jankPayload.totalAppUnattributed); atom->set_total_janky_frames_sf_scheduling(layer->jankPayload.totalSFScheduling); atom->set_total_jank_frames_sf_prediction_error(layer->jankPayload.totalSFPredictionError); atom->set_total_jank_frames_app_buffer_stuffing(layer->jankPayload.totalAppBufferStuffing); atom->set_display_refresh_rate_bucket(layer->displayRefreshRateBucket); atom->set_render_rate_bucket(layer->renderRateBucket); *atom->mutable_set_frame_rate_vote() = frameRateVoteToProto(layer->setFrameRateVote); *atom->mutable_app_deadline_misses() = histogramToProto(layer->deltas["appDeadlineDeltas"].hist, mMaxPulledHistogramBuckets); atom->set_game_mode(gameModeToProto(layer->gameMode)); } // Always clear data. clearLayersLocked(); pulledData->resize(atomList.ByteSizeLong()); return atomList.SerializeToArray(pulledData->data(), atomList.ByteSizeLong()); } TimeStats::TimeStats() : TimeStats(std::nullopt, std::nullopt) {} TimeStats::TimeStats(std::optional maxPulledLayers, std::optional maxPulledHistogramBuckets) { if (maxPulledLayers) { mMaxPulledLayers = *maxPulledLayers; } if (maxPulledHistogramBuckets) { mMaxPulledHistogramBuckets = *maxPulledHistogramBuckets; } } bool TimeStats::onPullAtom(const int atomId, std::vector* pulledData) { bool success = false; if (atomId == 10062) { // SURFACEFLINGER_STATS_GLOBAL_INFO success = populateGlobalAtom(pulledData); } else if (atomId == 10063) { // SURFACEFLINGER_STATS_LAYER_INFO success = populateLayerAtom(pulledData); } // Enable timestats now. The first full pull for a given build is expected to // have empty or very little stats, as stats are first enabled after the // first pull is completed for either the global or layer stats. enable(); return success; } void TimeStats::parseArgs(bool asProto, const Vector& args, std::string& result) { ATRACE_CALL(); std::unordered_map argsMap; for (size_t index = 0; index < args.size(); ++index) { argsMap[std::string(String8(args[index]).c_str())] = index; } if (argsMap.count("-disable")) { disable(); } if (argsMap.count("-dump")) { std::optional maxLayers = std::nullopt; auto iter = argsMap.find("-maxlayers"); if (iter != argsMap.end() && iter->second + 1 < static_cast(args.size())) { int64_t value = strtol(String8(args[iter->second + 1]).c_str(), nullptr, 10); value = std::clamp(value, int64_t(0), int64_t(UINT32_MAX)); maxLayers = static_cast(value); } dump(asProto, maxLayers, result); } if (argsMap.count("-clear")) { clearAll(); } if (argsMap.count("-enable")) { enable(); } } std::string TimeStats::miniDump() { ATRACE_CALL(); std::string result = "TimeStats miniDump:\n"; std::lock_guard lock(mMutex); android::base::StringAppendF(&result, "Number of layers currently being tracked is %zu\n", mTimeStatsTracker.size()); android::base::StringAppendF(&result, "Number of layers in the stats pool is %zu\n", mTimeStats.stats.size()); return result; } void TimeStats::incrementTotalFrames() { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); mTimeStats.totalFramesLegacy++; } void TimeStats::incrementMissedFrames() { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); mTimeStats.missedFramesLegacy++; } void TimeStats::pushCompositionStrategyState(const TimeStats::ClientCompositionRecord& record) { if (!mEnabled.load() || !record.hasInterestingData()) { return; } ATRACE_CALL(); std::lock_guard lock(mMutex); if (record.changed) mTimeStats.compositionStrategyChangesLegacy++; if (record.hadClientComposition) mTimeStats.clientCompositionFramesLegacy++; if (record.reused) mTimeStats.clientCompositionReusedFramesLegacy++; if (record.predicted) mTimeStats.compositionStrategyPredictedLegacy++; if (record.predictionSucceeded) mTimeStats.compositionStrategyPredictionSucceededLegacy++; } void TimeStats::incrementRefreshRateSwitches() { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); mTimeStats.refreshRateSwitchesLegacy++; } static int32_t toMs(nsecs_t nanos) { int64_t millis = std::chrono::duration_cast(std::chrono::nanoseconds(nanos)) .count(); millis = std::clamp(millis, int64_t(INT32_MIN), int64_t(INT32_MAX)); return static_cast(millis); } static int32_t msBetween(nsecs_t start, nsecs_t end) { return toMs(end - start); } void TimeStats::recordFrameDuration(nsecs_t startTime, nsecs_t endTime) { if (!mEnabled.load()) return; std::lock_guard lock(mMutex); if (mPowerTime.powerMode == PowerMode::ON) { mTimeStats.frameDurationLegacy.insert(msBetween(startTime, endTime)); } } void TimeStats::recordRenderEngineDuration(nsecs_t startTime, nsecs_t endTime) { if (!mEnabled.load()) return; std::lock_guard lock(mMutex); if (mGlobalRecord.renderEngineDurations.size() == MAX_NUM_TIME_RECORDS) { ALOGE("RenderEngineTimes are already at its maximum size[%zu]", MAX_NUM_TIME_RECORDS); mGlobalRecord.renderEngineDurations.pop_front(); } mGlobalRecord.renderEngineDurations.push_back({startTime, endTime}); } void TimeStats::recordRenderEngineDuration(nsecs_t startTime, const std::shared_ptr& endTime) { if (!mEnabled.load()) return; std::lock_guard lock(mMutex); if (mGlobalRecord.renderEngineDurations.size() == MAX_NUM_TIME_RECORDS) { ALOGE("RenderEngineTimes are already at its maximum size[%zu]", MAX_NUM_TIME_RECORDS); mGlobalRecord.renderEngineDurations.pop_front(); } mGlobalRecord.renderEngineDurations.push_back({startTime, endTime}); } bool TimeStats::recordReadyLocked(int32_t layerId, TimeRecord* timeRecord) { if (!timeRecord->ready) { ALOGV("[%d]-[%" PRIu64 "]-presentFence is still not received", layerId, timeRecord->frameTime.frameNumber); return false; } if (timeRecord->acquireFence != nullptr) { if (timeRecord->acquireFence->getSignalTime() == Fence::SIGNAL_TIME_PENDING) { return false; } if (timeRecord->acquireFence->getSignalTime() != Fence::SIGNAL_TIME_INVALID) { timeRecord->frameTime.acquireTime = timeRecord->acquireFence->getSignalTime(); timeRecord->acquireFence = nullptr; } else { ALOGV("[%d]-[%" PRIu64 "]-acquireFence signal time is invalid", layerId, timeRecord->frameTime.frameNumber); } } if (timeRecord->presentFence != nullptr) { if (timeRecord->presentFence->getSignalTime() == Fence::SIGNAL_TIME_PENDING) { return false; } if (timeRecord->presentFence->getSignalTime() != Fence::SIGNAL_TIME_INVALID) { timeRecord->frameTime.presentTime = timeRecord->presentFence->getSignalTime(); timeRecord->presentFence = nullptr; } else { ALOGV("[%d]-[%" PRIu64 "]-presentFence signal time invalid", layerId, timeRecord->frameTime.frameNumber); } } return true; } static int32_t clampToNearestBucket(Fps fps, size_t bucketWidth) { return std::round(fps.getValue() / bucketWidth) * bucketWidth; } void TimeStats::flushAvailableRecordsToStatsLocked(int32_t layerId, Fps displayRefreshRate, std::optional renderRate, SetFrameRateVote frameRateVote, GameMode gameMode) { ATRACE_CALL(); ALOGV("[%d]-flushAvailableRecordsToStatsLocked", layerId); LayerRecord& layerRecord = mTimeStatsTracker[layerId]; TimeRecord& prevTimeRecord = layerRecord.prevTimeRecord; std::optional& prevPresentToPresentMs = layerRecord.prevPresentToPresentMs; std::deque& timeRecords = layerRecord.timeRecords; const int32_t refreshRateBucket = clampToNearestBucket(displayRefreshRate, REFRESH_RATE_BUCKET_WIDTH); const int32_t renderRateBucket = clampToNearestBucket(renderRate ? *renderRate : displayRefreshRate, RENDER_RATE_BUCKET_WIDTH); while (!timeRecords.empty()) { if (!recordReadyLocked(layerId, &timeRecords[0])) break; ALOGV("[%d]-[%" PRIu64 "]-presentFenceTime[%" PRId64 "]", layerId, timeRecords[0].frameTime.frameNumber, timeRecords[0].frameTime.presentTime); if (prevTimeRecord.ready) { uid_t uid = layerRecord.uid; const std::string& layerName = layerRecord.layerName; TimeStatsHelper::TimelineStatsKey timelineKey = {refreshRateBucket, renderRateBucket}; if (!mTimeStats.stats.count(timelineKey)) { mTimeStats.stats[timelineKey].key = timelineKey; } TimeStatsHelper::TimelineStats& displayStats = mTimeStats.stats[timelineKey]; TimeStatsHelper::LayerStatsKey layerKey = {uid, layerName, gameMode}; if (!displayStats.stats.count(layerKey)) { displayStats.stats[layerKey].displayRefreshRateBucket = refreshRateBucket; displayStats.stats[layerKey].renderRateBucket = renderRateBucket; displayStats.stats[layerKey].uid = uid; displayStats.stats[layerKey].layerName = layerName; displayStats.stats[layerKey].gameMode = gameMode; } if (frameRateVote.frameRate > 0.0f) { displayStats.stats[layerKey].setFrameRateVote = frameRateVote; } TimeStatsHelper::TimeStatsLayer& timeStatsLayer = displayStats.stats[layerKey]; timeStatsLayer.totalFrames++; timeStatsLayer.droppedFrames += layerRecord.droppedFrames; timeStatsLayer.lateAcquireFrames += layerRecord.lateAcquireFrames; timeStatsLayer.badDesiredPresentFrames += layerRecord.badDesiredPresentFrames; layerRecord.droppedFrames = 0; layerRecord.lateAcquireFrames = 0; layerRecord.badDesiredPresentFrames = 0; const int32_t postToAcquireMs = msBetween(timeRecords[0].frameTime.postTime, timeRecords[0].frameTime.acquireTime); ALOGV("[%d]-[%" PRIu64 "]-post2acquire[%d]", layerId, timeRecords[0].frameTime.frameNumber, postToAcquireMs); timeStatsLayer.deltas["post2acquire"].insert(postToAcquireMs); const int32_t postToPresentMs = msBetween(timeRecords[0].frameTime.postTime, timeRecords[0].frameTime.presentTime); ALOGV("[%d]-[%" PRIu64 "]-post2present[%d]", layerId, timeRecords[0].frameTime.frameNumber, postToPresentMs); timeStatsLayer.deltas["post2present"].insert(postToPresentMs); const int32_t acquireToPresentMs = msBetween(timeRecords[0].frameTime.acquireTime, timeRecords[0].frameTime.presentTime); ALOGV("[%d]-[%" PRIu64 "]-acquire2present[%d]", layerId, timeRecords[0].frameTime.frameNumber, acquireToPresentMs); timeStatsLayer.deltas["acquire2present"].insert(acquireToPresentMs); const int32_t latchToPresentMs = msBetween(timeRecords[0].frameTime.latchTime, timeRecords[0].frameTime.presentTime); ALOGV("[%d]-[%" PRIu64 "]-latch2present[%d]", layerId, timeRecords[0].frameTime.frameNumber, latchToPresentMs); timeStatsLayer.deltas["latch2present"].insert(latchToPresentMs); const int32_t desiredToPresentMs = msBetween(timeRecords[0].frameTime.desiredTime, timeRecords[0].frameTime.presentTime); ALOGV("[%d]-[%" PRIu64 "]-desired2present[%d]", layerId, timeRecords[0].frameTime.frameNumber, desiredToPresentMs); timeStatsLayer.deltas["desired2present"].insert(desiredToPresentMs); const int32_t presentToPresentMs = msBetween(prevTimeRecord.frameTime.presentTime, timeRecords[0].frameTime.presentTime); ALOGV("[%d]-[%" PRIu64 "]-present2present[%d]", layerId, timeRecords[0].frameTime.frameNumber, presentToPresentMs); timeStatsLayer.deltas["present2present"].insert(presentToPresentMs); if (prevPresentToPresentMs) { const int32_t presentToPresentDeltaMs = std::abs(presentToPresentMs - *prevPresentToPresentMs); timeStatsLayer.deltas["present2presentDelta"].insert(presentToPresentDeltaMs); } prevPresentToPresentMs = presentToPresentMs; } prevTimeRecord = timeRecords[0]; timeRecords.pop_front(); layerRecord.waitData--; } } static constexpr const char* kPopupWindowPrefix = "PopupWindow"; static const size_t kMinLenLayerName = std::strlen(kPopupWindowPrefix); // Avoid tracking the "PopupWindow:#" layers static bool layerNameIsValid(const std::string& layerName) { return layerName.length() >= kMinLenLayerName && layerName.compare(0, kMinLenLayerName, kPopupWindowPrefix) != 0; } bool TimeStats::canAddNewAggregatedStats(uid_t uid, const std::string& layerName, GameMode gameMode) { uint32_t layerRecords = 0; for (const auto& record : mTimeStats.stats) { if (record.second.stats.count({uid, layerName, gameMode}) > 0) { return true; } layerRecords += record.second.stats.size(); } return layerRecords < MAX_NUM_LAYER_STATS; } void TimeStats::setPostTime(int32_t layerId, uint64_t frameNumber, const std::string& layerName, uid_t uid, nsecs_t postTime, GameMode gameMode) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-[%s]-PostTime[%" PRId64 "]", layerId, frameNumber, layerName.c_str(), postTime); std::lock_guard lock(mMutex); if (!canAddNewAggregatedStats(uid, layerName, gameMode)) { return; } if (!mTimeStatsTracker.count(layerId) && mTimeStatsTracker.size() < MAX_NUM_LAYER_RECORDS && layerNameIsValid(layerName)) { mTimeStatsTracker[layerId].uid = uid; mTimeStatsTracker[layerId].layerName = layerName; mTimeStatsTracker[layerId].gameMode = gameMode; } if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.timeRecords.size() == MAX_NUM_TIME_RECORDS) { ALOGE("[%d]-[%s]-timeRecords is at its maximum size[%zu]. Ignore this when unittesting.", layerId, layerRecord.layerName.c_str(), MAX_NUM_TIME_RECORDS); mTimeStatsTracker.erase(layerId); return; } // For most media content, the acquireFence is invalid because the buffer is // ready at the queueBuffer stage. In this case, acquireTime should be given // a default value as postTime. TimeRecord timeRecord = { .frameTime = { .frameNumber = frameNumber, .postTime = postTime, .latchTime = postTime, .acquireTime = postTime, .desiredTime = postTime, }, }; layerRecord.timeRecords.push_back(timeRecord); if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) layerRecord.waitData = layerRecord.timeRecords.size() - 1; } void TimeStats::setLatchTime(int32_t layerId, uint64_t frameNumber, nsecs_t latchTime) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-LatchTime[%" PRId64 "]", layerId, frameNumber, latchTime); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.frameTime.latchTime = latchTime; } } void TimeStats::incrementLatchSkipped(int32_t layerId, LatchSkipReason reason) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-LatchSkipped-Reason[%d]", layerId, static_cast::type>(reason)); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; switch (reason) { case LatchSkipReason::LateAcquire: layerRecord.lateAcquireFrames++; break; } } void TimeStats::incrementBadDesiredPresent(int32_t layerId) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-BadDesiredPresent", layerId); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; layerRecord.badDesiredPresentFrames++; } void TimeStats::setDesiredTime(int32_t layerId, uint64_t frameNumber, nsecs_t desiredTime) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-DesiredTime[%" PRId64 "]", layerId, frameNumber, desiredTime); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.frameTime.desiredTime = desiredTime; } } void TimeStats::setAcquireTime(int32_t layerId, uint64_t frameNumber, nsecs_t acquireTime) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-AcquireTime[%" PRId64 "]", layerId, frameNumber, acquireTime); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.frameTime.acquireTime = acquireTime; } } void TimeStats::setAcquireFence(int32_t layerId, uint64_t frameNumber, const std::shared_ptr& acquireFence) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-AcquireFenceTime[%" PRId64 "]", layerId, frameNumber, acquireFence->getSignalTime()); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.acquireFence = acquireFence; } } void TimeStats::setPresentTime(int32_t layerId, uint64_t frameNumber, nsecs_t presentTime, Fps displayRefreshRate, std::optional renderRate, SetFrameRateVote frameRateVote, GameMode gameMode) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-PresentTime[%" PRId64 "]", layerId, frameNumber, presentTime); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.frameTime.presentTime = presentTime; timeRecord.ready = true; layerRecord.waitData++; } flushAvailableRecordsToStatsLocked(layerId, displayRefreshRate, renderRate, frameRateVote, gameMode); } void TimeStats::setPresentFence(int32_t layerId, uint64_t frameNumber, const std::shared_ptr& presentFence, Fps displayRefreshRate, std::optional renderRate, SetFrameRateVote frameRateVote, GameMode gameMode) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-PresentFenceTime[%" PRId64 "]", layerId, frameNumber, presentFence->getSignalTime()); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; if (layerRecord.waitData < 0 || layerRecord.waitData >= static_cast(layerRecord.timeRecords.size())) return; TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData]; if (timeRecord.frameTime.frameNumber == frameNumber) { timeRecord.presentFence = presentFence; timeRecord.ready = true; layerRecord.waitData++; } flushAvailableRecordsToStatsLocked(layerId, displayRefreshRate, renderRate, frameRateVote, gameMode); } static const constexpr int32_t kValidJankyReason = JankType::DisplayHAL | JankType::SurfaceFlingerCpuDeadlineMissed | JankType::SurfaceFlingerGpuDeadlineMissed | JankType::AppDeadlineMissed | JankType::PredictionError | JankType::SurfaceFlingerScheduling; template static void updateJankPayload(T& t, int32_t reasons) { t.jankPayload.totalFrames++; if (reasons & kValidJankyReason) { t.jankPayload.totalJankyFrames++; if ((reasons & JankType::SurfaceFlingerCpuDeadlineMissed) != 0) { t.jankPayload.totalSFLongCpu++; } if ((reasons & JankType::SurfaceFlingerGpuDeadlineMissed) != 0) { t.jankPayload.totalSFLongGpu++; } if ((reasons & JankType::DisplayHAL) != 0) { t.jankPayload.totalSFUnattributed++; } if ((reasons & JankType::AppDeadlineMissed) != 0) { t.jankPayload.totalAppUnattributed++; } if ((reasons & JankType::PredictionError) != 0) { t.jankPayload.totalSFPredictionError++; } if ((reasons & JankType::SurfaceFlingerScheduling) != 0) { t.jankPayload.totalSFScheduling++; } } // We want to track BufferStuffing separately as it can provide info on latency issues if (reasons & JankType::BufferStuffing) { t.jankPayload.totalAppBufferStuffing++; } } void TimeStats::incrementJankyFrames(const JankyFramesInfo& info) { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); // Only update layer stats if we're already tracking the layer in TimeStats. // Otherwise, continue tracking the statistic but use a default layer name instead. // As an implementation detail, we do this because this method is expected to be // called from FrameTimeline, whose jank classification includes transaction jank // that occurs without a buffer. But, in general those layer names are not suitable as // aggregation keys: e.g., it's normal and expected for Window Manager to include the hash code // for an animation leash. So while we can show that jank in dumpsys, aggregating based on the // layer blows up the stats size, so as a workaround drop those stats. This assumes that // TimeStats will flush the first present fence for a layer *before* FrameTimeline does so that // the first jank record is not dropped. static const std::string kDefaultLayerName = "none"; constexpr GameMode kDefaultGameMode = GameMode::Unsupported; const int32_t refreshRateBucket = clampToNearestBucket(info.refreshRate, REFRESH_RATE_BUCKET_WIDTH); const int32_t renderRateBucket = clampToNearestBucket(info.renderRate ? *info.renderRate : info.refreshRate, RENDER_RATE_BUCKET_WIDTH); const TimeStatsHelper::TimelineStatsKey timelineKey = {refreshRateBucket, renderRateBucket}; if (!mTimeStats.stats.count(timelineKey)) { mTimeStats.stats[timelineKey].key = timelineKey; } TimeStatsHelper::TimelineStats& timelineStats = mTimeStats.stats[timelineKey]; updateJankPayload(timelineStats, info.reasons); TimeStatsHelper::LayerStatsKey layerKey = {info.uid, info.layerName, info.gameMode}; if (!timelineStats.stats.count(layerKey)) { layerKey = {info.uid, kDefaultLayerName, kDefaultGameMode}; timelineStats.stats[layerKey].displayRefreshRateBucket = refreshRateBucket; timelineStats.stats[layerKey].renderRateBucket = renderRateBucket; timelineStats.stats[layerKey].uid = info.uid; timelineStats.stats[layerKey].layerName = kDefaultLayerName; timelineStats.stats[layerKey].gameMode = kDefaultGameMode; } TimeStatsHelper::TimeStatsLayer& timeStatsLayer = timelineStats.stats[layerKey]; updateJankPayload(timeStatsLayer, info.reasons); if (info.reasons & kValidJankyReason) { // TimeStats Histograms only retain positive values, so we don't need to check if these // deadlines were really missed if we know that the frame had jank, since deadlines // that were met will be dropped. timelineStats.displayDeadlineDeltas.insert(toMs(info.displayDeadlineDelta)); timelineStats.displayPresentDeltas.insert(toMs(info.displayPresentJitter)); timeStatsLayer.deltas["appDeadlineDeltas"].insert(toMs(info.appDeadlineDelta)); } } void TimeStats::onDestroy(int32_t layerId) { ATRACE_CALL(); ALOGV("[%d]-onDestroy", layerId); std::lock_guard lock(mMutex); mTimeStatsTracker.erase(layerId); } void TimeStats::removeTimeRecord(int32_t layerId, uint64_t frameNumber) { if (!mEnabled.load()) return; ATRACE_CALL(); ALOGV("[%d]-[%" PRIu64 "]-removeTimeRecord", layerId, frameNumber); std::lock_guard lock(mMutex); if (!mTimeStatsTracker.count(layerId)) return; LayerRecord& layerRecord = mTimeStatsTracker[layerId]; size_t removeAt = 0; for (const TimeRecord& record : layerRecord.timeRecords) { if (record.frameTime.frameNumber == frameNumber) break; removeAt++; } if (removeAt == layerRecord.timeRecords.size()) return; layerRecord.timeRecords.erase(layerRecord.timeRecords.begin() + removeAt); if (layerRecord.waitData > static_cast(removeAt)) { layerRecord.waitData--; } layerRecord.droppedFrames++; } void TimeStats::flushPowerTimeLocked() { if (!mEnabled.load()) return; nsecs_t curTime = systemTime(); // elapsedTime is in milliseconds. int64_t elapsedTime = (curTime - mPowerTime.prevTime) / 1000000; switch (mPowerTime.powerMode) { case PowerMode::ON: mTimeStats.displayOnTimeLegacy += elapsedTime; break; case PowerMode::OFF: case PowerMode::DOZE: case PowerMode::DOZE_SUSPEND: case PowerMode::ON_SUSPEND: default: break; } mPowerTime.prevTime = curTime; } void TimeStats::setPowerMode(PowerMode powerMode) { if (!mEnabled.load()) { std::lock_guard lock(mMutex); mPowerTime.powerMode = powerMode; return; } std::lock_guard lock(mMutex); if (powerMode == mPowerTime.powerMode) return; flushPowerTimeLocked(); mPowerTime.powerMode = powerMode; } void TimeStats::recordRefreshRate(uint32_t fps, nsecs_t duration) { std::lock_guard lock(mMutex); if (mTimeStats.refreshRateStatsLegacy.count(fps)) { mTimeStats.refreshRateStatsLegacy[fps] += duration; } else { mTimeStats.refreshRateStatsLegacy.insert({fps, duration}); } } void TimeStats::flushAvailableGlobalRecordsToStatsLocked() { ATRACE_CALL(); while (!mGlobalRecord.presentFences.empty()) { const nsecs_t curPresentTime = mGlobalRecord.presentFences.front()->getSignalTime(); if (curPresentTime == Fence::SIGNAL_TIME_PENDING) break; if (curPresentTime == Fence::SIGNAL_TIME_INVALID) { ALOGE("GlobalPresentFence is invalid!"); mGlobalRecord.prevPresentTime = 0; mGlobalRecord.presentFences.pop_front(); continue; } ALOGV("GlobalPresentFenceTime[%" PRId64 "]", mGlobalRecord.presentFences.front()->getSignalTime()); if (mGlobalRecord.prevPresentTime != 0) { const int32_t presentToPresentMs = msBetween(mGlobalRecord.prevPresentTime, curPresentTime); ALOGV("Global present2present[%d] prev[%" PRId64 "] curr[%" PRId64 "]", presentToPresentMs, mGlobalRecord.prevPresentTime, curPresentTime); mTimeStats.presentToPresentLegacy.insert(presentToPresentMs); } mGlobalRecord.prevPresentTime = curPresentTime; mGlobalRecord.presentFences.pop_front(); } while (!mGlobalRecord.renderEngineDurations.empty()) { const auto duration = mGlobalRecord.renderEngineDurations.front(); const auto& endTime = duration.endTime; nsecs_t endNs = -1; if (auto val = std::get_if(&endTime)) { endNs = *val; } else { endNs = std::get>(endTime)->getSignalTime(); } if (endNs == Fence::SIGNAL_TIME_PENDING) break; if (endNs < 0) { ALOGE("RenderEngineTiming is invalid!"); mGlobalRecord.renderEngineDurations.pop_front(); continue; } const int32_t renderEngineMs = msBetween(duration.startTime, endNs); mTimeStats.renderEngineTimingLegacy.insert(renderEngineMs); mGlobalRecord.renderEngineDurations.pop_front(); } } void TimeStats::setPresentFenceGlobal(const std::shared_ptr& presentFence) { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); if (presentFence == nullptr || !presentFence->isValid()) { mGlobalRecord.prevPresentTime = 0; return; } if (mPowerTime.powerMode != PowerMode::ON) { // Try flushing the last present fence on PowerMode::ON. flushAvailableGlobalRecordsToStatsLocked(); mGlobalRecord.presentFences.clear(); mGlobalRecord.prevPresentTime = 0; return; } if (mGlobalRecord.presentFences.size() == MAX_NUM_TIME_RECORDS) { // The front presentFence must be trapped in pending status in this // case. Try dequeuing the front one to recover. ALOGE("GlobalPresentFences is already at its maximum size[%zu]", MAX_NUM_TIME_RECORDS); mGlobalRecord.prevPresentTime = 0; mGlobalRecord.presentFences.pop_front(); } mGlobalRecord.presentFences.emplace_back(presentFence); flushAvailableGlobalRecordsToStatsLocked(); } void TimeStats::enable() { if (mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); mEnabled.store(true); mTimeStats.statsStartLegacy = static_cast(std::time(0)); mPowerTime.prevTime = systemTime(); ALOGD("Enabled"); } void TimeStats::disable() { if (!mEnabled.load()) return; ATRACE_CALL(); std::lock_guard lock(mMutex); flushPowerTimeLocked(); mEnabled.store(false); mTimeStats.statsEndLegacy = static_cast(std::time(0)); ALOGD("Disabled"); } void TimeStats::clearAll() { std::lock_guard lock(mMutex); mTimeStats.stats.clear(); clearGlobalLocked(); clearLayersLocked(); } void TimeStats::clearGlobalLocked() { ATRACE_CALL(); mTimeStats.statsStartLegacy = (mEnabled.load() ? static_cast(std::time(0)) : 0); mTimeStats.statsEndLegacy = 0; mTimeStats.totalFramesLegacy = 0; mTimeStats.missedFramesLegacy = 0; mTimeStats.clientCompositionFramesLegacy = 0; mTimeStats.clientCompositionReusedFramesLegacy = 0; mTimeStats.compositionStrategyChangesLegacy = 0; mTimeStats.compositionStrategyPredictedLegacy = 0; mTimeStats.compositionStrategyPredictionSucceededLegacy = 0; mTimeStats.refreshRateSwitchesLegacy = 0; mTimeStats.displayOnTimeLegacy = 0; mTimeStats.presentToPresentLegacy.hist.clear(); mTimeStats.frameDurationLegacy.hist.clear(); mTimeStats.renderEngineTimingLegacy.hist.clear(); mTimeStats.refreshRateStatsLegacy.clear(); mPowerTime.prevTime = systemTime(); for (auto& globalRecord : mTimeStats.stats) { globalRecord.second.clearGlobals(); } mGlobalRecord.prevPresentTime = 0; mGlobalRecord.presentFences.clear(); ALOGD("Cleared global stats"); } void TimeStats::clearLayersLocked() { ATRACE_CALL(); mTimeStatsTracker.clear(); for (auto& globalRecord : mTimeStats.stats) { globalRecord.second.stats.clear(); } ALOGD("Cleared layer stats"); } bool TimeStats::isEnabled() { return mEnabled.load(); } void TimeStats::dump(bool asProto, std::optional maxLayers, std::string& result) { ATRACE_CALL(); std::lock_guard lock(mMutex); if (mTimeStats.statsStartLegacy == 0) { return; } mTimeStats.statsEndLegacy = static_cast(std::time(0)); flushPowerTimeLocked(); if (asProto) { ALOGD("Dumping TimeStats as proto"); SFTimeStatsGlobalProto timeStatsProto = mTimeStats.toProto(maxLayers); result.append(timeStatsProto.SerializeAsString()); } else { ALOGD("Dumping TimeStats as text"); result.append(mTimeStats.toString(maxLayers)); result.append("\n"); } } } // namespace impl } // namespace android