/* * Copyright (C) 2012 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. */ // This is needed for stdint.h to define INT64_MAX in C++ #define __STDC_LIMIT_MACROS #include #include #include #include #include #include "FrameTracker.h" #include "EventLog/EventLog.h" namespace android { FrameTracker::FrameTracker() : mOffset(0), mNumFences(0), mDisplayPeriod(0) { resetFrameCountersLocked(); } void FrameTracker::setDesiredPresentTime(nsecs_t presentTime) { Mutex::Autolock lock(mMutex); mFrameRecords[mOffset].desiredPresentTime = presentTime; } void FrameTracker::setFrameReadyTime(nsecs_t readyTime) { Mutex::Autolock lock(mMutex); mFrameRecords[mOffset].frameReadyTime = readyTime; } void FrameTracker::setFrameReadyFence( std::shared_ptr&& readyFence) { Mutex::Autolock lock(mMutex); mFrameRecords[mOffset].frameReadyFence = std::move(readyFence); mNumFences++; } void FrameTracker::setActualPresentTime(nsecs_t presentTime) { Mutex::Autolock lock(mMutex); mFrameRecords[mOffset].actualPresentTime = presentTime; } void FrameTracker::setActualPresentFence( std::shared_ptr&& readyFence) { Mutex::Autolock lock(mMutex); mFrameRecords[mOffset].actualPresentFence = std::move(readyFence); mNumFences++; } void FrameTracker::setDisplayRefreshPeriod(nsecs_t displayPeriod) { Mutex::Autolock lock(mMutex); mDisplayPeriod = displayPeriod; } void FrameTracker::advanceFrame() { Mutex::Autolock lock(mMutex); // Update the statistic to include the frame we just finished. updateStatsLocked(mOffset); // Advance to the next frame. mOffset = (mOffset+1) % NUM_FRAME_RECORDS; mFrameRecords[mOffset].desiredPresentTime = INT64_MAX; mFrameRecords[mOffset].frameReadyTime = INT64_MAX; mFrameRecords[mOffset].actualPresentTime = INT64_MAX; if (mFrameRecords[mOffset].frameReadyFence != nullptr) { // We're clobbering an unsignaled fence, so we need to decrement the // fence count. mFrameRecords[mOffset].frameReadyFence = nullptr; mNumFences--; } if (mFrameRecords[mOffset].actualPresentFence != nullptr) { // We're clobbering an unsignaled fence, so we need to decrement the // fence count. mFrameRecords[mOffset].actualPresentFence = nullptr; mNumFences--; } } void FrameTracker::clearStats() { Mutex::Autolock lock(mMutex); for (size_t i = 0; i < NUM_FRAME_RECORDS; i++) { mFrameRecords[i].desiredPresentTime = 0; mFrameRecords[i].frameReadyTime = 0; mFrameRecords[i].actualPresentTime = 0; mFrameRecords[i].frameReadyFence.reset(); mFrameRecords[i].actualPresentFence.reset(); } mNumFences = 0; mFrameRecords[mOffset].desiredPresentTime = INT64_MAX; mFrameRecords[mOffset].frameReadyTime = INT64_MAX; mFrameRecords[mOffset].actualPresentTime = INT64_MAX; } void FrameTracker::getStats(FrameStats* outStats) const { Mutex::Autolock lock(mMutex); processFencesLocked(); outStats->refreshPeriodNano = mDisplayPeriod; const size_t offset = mOffset; for (size_t i = 1; i < NUM_FRAME_RECORDS; i++) { const size_t index = (offset + i) % NUM_FRAME_RECORDS; // Skip frame records with no data (if buffer not yet full). if (mFrameRecords[index].desiredPresentTime == 0) { continue; } nsecs_t desiredPresentTimeNano = mFrameRecords[index].desiredPresentTime; outStats->desiredPresentTimesNano.push_back(desiredPresentTimeNano); nsecs_t actualPresentTimeNano = mFrameRecords[index].actualPresentTime; outStats->actualPresentTimesNano.push_back(actualPresentTimeNano); nsecs_t frameReadyTimeNano = mFrameRecords[index].frameReadyTime; outStats->frameReadyTimesNano.push_back(frameReadyTimeNano); } } void FrameTracker::logAndResetStats(const String8& name) { Mutex::Autolock lock(mMutex); logStatsLocked(name); resetFrameCountersLocked(); } void FrameTracker::processFencesLocked() const { FrameRecord* records = const_cast(mFrameRecords); int& numFences = const_cast(mNumFences); for (int i = 1; i < NUM_FRAME_RECORDS && numFences > 0; i++) { size_t idx = (mOffset+NUM_FRAME_RECORDS-i) % NUM_FRAME_RECORDS; bool updated = false; const std::shared_ptr& rfence = records[idx].frameReadyFence; if (rfence != nullptr) { records[idx].frameReadyTime = rfence->getSignalTime(); if (records[idx].frameReadyTime < INT64_MAX) { records[idx].frameReadyFence = nullptr; numFences--; updated = true; } } const std::shared_ptr& pfence = records[idx].actualPresentFence; if (pfence != nullptr) { records[idx].actualPresentTime = pfence->getSignalTime(); if (records[idx].actualPresentTime < INT64_MAX) { records[idx].actualPresentFence = nullptr; numFences--; updated = true; } } if (updated) { updateStatsLocked(idx); } } } void FrameTracker::updateStatsLocked(size_t newFrameIdx) const { int* numFrames = const_cast(mNumFrames); if (mDisplayPeriod > 0 && isFrameValidLocked(newFrameIdx)) { size_t prevFrameIdx = (newFrameIdx+NUM_FRAME_RECORDS-1) % NUM_FRAME_RECORDS; if (isFrameValidLocked(prevFrameIdx)) { nsecs_t newPresentTime = mFrameRecords[newFrameIdx].actualPresentTime; nsecs_t prevPresentTime = mFrameRecords[prevFrameIdx].actualPresentTime; nsecs_t duration = newPresentTime - prevPresentTime; int numPeriods = int((duration + mDisplayPeriod/2) / mDisplayPeriod); for (int i = 0; i < NUM_FRAME_BUCKETS-1; i++) { int nextBucket = 1 << (i+1); if (numPeriods < nextBucket) { numFrames[i]++; return; } } // The last duration bucket is a catch-all. numFrames[NUM_FRAME_BUCKETS-1]++; } } } void FrameTracker::resetFrameCountersLocked() { for (int i = 0; i < NUM_FRAME_BUCKETS; i++) { mNumFrames[i] = 0; } } void FrameTracker::logStatsLocked(const String8& name) const { for (int i = 0; i < NUM_FRAME_BUCKETS; i++) { if (mNumFrames[i] > 0) { EventLog::logFrameDurations(name, mNumFrames, NUM_FRAME_BUCKETS); return; } } } bool FrameTracker::isFrameValidLocked(size_t idx) const { return mFrameRecords[idx].actualPresentTime > 0 && mFrameRecords[idx].actualPresentTime < INT64_MAX; } void FrameTracker::dumpStats(std::string& result) const { Mutex::Autolock lock(mMutex); processFencesLocked(); const size_t o = mOffset; for (size_t i = 1; i < NUM_FRAME_RECORDS; i++) { const size_t index = (o+i) % NUM_FRAME_RECORDS; base::StringAppendF(&result, "%" PRId64 "\t%" PRId64 "\t%" PRId64 "\n", mFrameRecords[index].desiredPresentTime, mFrameRecords[index].actualPresentTime, mFrameRecords[index].frameReadyTime); } result.append("\n"); } } // namespace android