Gitiles
Code Review Sign In
review.shift-gmbh.com / SHIFTPHONES / android_frameworks_native / 796dabc14f93372050ad239eab51598ea860c8ec / . / services / surfaceflinger / TimeStats / TimeStats.cpp
blob: 93fe7d056c5a51532726fc3d814037870b5309c2 [file] [log] [blame]
/*
* 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 "TimeStats.h"
#include <android-base/stringprintf.h>
#include <log/log.h>
#include <utils/String8.h>
#include <utils/Timers.h>
#include <utils/Trace.h>
#include <algorithm>
#include <regex>
namespace android {
namespace impl {
void TimeStats::parseArgs(bool asProto, const Vector<String16>& args, std::string& result) {
ATRACE_CALL();
std::unordered_map<std::string, int32_t> 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<uint32_t> maxLayers = std::nullopt;
auto iter = argsMap.find("-maxlayers");
if (iter != argsMap.end() && iter->second + 1 < static_cast<int32_t>(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<uint32_t>(value);
}
dump(asProto, maxLayers, result);
}
if (argsMap.count("-clear")) {
clear();
}
if (argsMap.count("-enable")) {
enable();
}
}
std::string TimeStats::miniDump() {
ATRACE_CALL();
std::string result = "TimeStats miniDump:\n";
std::lock_guard<std::mutex> lock(mMutex);
android::base::StringAppendF(&result, "Number of tracked layers is %zu\n",
mTimeStatsTracker.size());
return result;
}
void TimeStats::incrementTotalFrames() {
if (!mEnabled.load()) return;
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
mTimeStats.totalFrames++;
}
void TimeStats::incrementMissedFrames() {
if (!mEnabled.load()) return;
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
mTimeStats.missedFrames++;
}
void TimeStats::incrementClientCompositionFrames() {
if (!mEnabled.load()) return;
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
mTimeStats.clientCompositionFrames++;
}
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 msBetween(nsecs_t start, nsecs_t end) {
int64_t delta = (end - start) / 1000000;
delta = std::clamp(delta, int64_t(INT32_MIN), int64_t(INT32_MAX));
return static_cast<int32_t>(delta);
}
// This regular expression captures the following for instance:
// StatusBar in StatusBar#0
// com.appname in com.appname/com.appname.activity#0
// com.appname in SurfaceView - com.appname/com.appname.activity#0
static const std::regex packageNameRegex("(?:SurfaceView[-\\s\\t]+)?([^/]+).*#\\d+");
static std::string getPackageName(const std::string& layerName) {
std::smatch match;
if (std::regex_match(layerName.begin(), layerName.end(), match, packageNameRegex)) {
// There must be a match for group 1 otherwise the whole string is not
// matched and the above will return false
return match[1];
}
return "";
}
void TimeStats::flushAvailableRecordsToStatsLocked(int32_t layerID) {
ATRACE_CALL();
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
TimeRecord& prevTimeRecord = layerRecord.prevTimeRecord;
std::deque<TimeRecord>& timeRecords = layerRecord.timeRecords;
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) {
const std::string& layerName = layerRecord.layerName;
if (!mTimeStats.stats.count(layerName)) {
mTimeStats.stats[layerName].layerName = layerName;
mTimeStats.stats[layerName].packageName = getPackageName(layerName);
}
TimeStatsHelper::TimeStatsLayer& timeStatsLayer = mTimeStats.stats[layerName];
timeStatsLayer.totalFrames++;
timeStatsLayer.droppedFrames += layerRecord.droppedFrames;
layerRecord.droppedFrames = 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);
}
prevTimeRecord = timeRecords[0];
timeRecords.pop_front();
layerRecord.waitData--;
}
}
// This regular expression captures the following layer names for instance:
// 1) StatusBat#0
// 2) NavigationBar#1
// 3) co(m).*#0
// 4) SurfaceView - co(m).*#0
// Using [-\\s\t]+ for the conjunction part between SurfaceView and co(m).*
// is a bit more robust in case there's a slight change.
// The layer name would only consist of . / $ _ 0-9 a-z A-Z in most cases.
static const std::regex layerNameRegex(
"(((SurfaceView[-\\s\\t]+)?com?\\.[./$\\w]+)|((Status|Navigation)Bar))#\\d+");
static bool layerNameIsValid(const std::string& layerName) {
return std::regex_match(layerName.begin(), layerName.end(), layerNameRegex);
}
void TimeStats::setPostTime(int32_t layerID, uint64_t frameNumber, const std::string& layerName,
nsecs_t postTime) {
if (!mEnabled.load()) return;
ATRACE_CALL();
ALOGV("[%d]-[%" PRIu64 "]-[%s]-PostTime[%" PRId64 "]", layerID, frameNumber, layerName.c_str(),
postTime);
std::lock_guard<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID) && mTimeStatsTracker.size() < MAX_NUM_LAYER_RECORDS &&
layerNameIsValid(layerName)) {
mTimeStatsTracker[layerID].layerName = layerName;
}
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<int32_t>(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<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(layerRecord.timeRecords.size()))
return;
TimeRecord& timeRecord = layerRecord.timeRecords[layerRecord.waitData];
if (timeRecord.frameTime.frameNumber == frameNumber) {
timeRecord.frameTime.latchTime = latchTime;
}
}
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<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(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<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(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<FenceTime>& acquireFence) {
if (!mEnabled.load()) return;
ATRACE_CALL();
ALOGV("[%d]-[%" PRIu64 "]-AcquireFenceTime[%" PRId64 "]", layerID, frameNumber,
acquireFence->getSignalTime());
std::lock_guard<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(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) {
if (!mEnabled.load()) return;
ATRACE_CALL();
ALOGV("[%d]-[%" PRIu64 "]-PresentTime[%" PRId64 "]", layerID, frameNumber, presentTime);
std::lock_guard<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(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);
}
void TimeStats::setPresentFence(int32_t layerID, uint64_t frameNumber,
const std::shared_ptr<FenceTime>& presentFence) {
if (!mEnabled.load()) return;
ATRACE_CALL();
ALOGV("[%d]-[%" PRIu64 "]-PresentFenceTime[%" PRId64 "]", layerID, frameNumber,
presentFence->getSignalTime());
std::lock_guard<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
LayerRecord& layerRecord = mTimeStatsTracker[layerID];
if (layerRecord.waitData < 0 ||
layerRecord.waitData >= static_cast<int32_t>(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);
}
void TimeStats::onDestroy(int32_t layerID) {
if (!mEnabled.load()) return;
ATRACE_CALL();
ALOGV("[%d]-onDestroy", layerID);
std::lock_guard<std::mutex> lock(mMutex);
if (!mTimeStatsTracker.count(layerID)) return;
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<std::mutex> 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<int32_t>(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 HWC_POWER_MODE_NORMAL:
mTimeStats.displayOnTime += elapsedTime;
break;
case HWC_POWER_MODE_OFF:
case HWC_POWER_MODE_DOZE:
case HWC_POWER_MODE_DOZE_SUSPEND:
default:
break;
}
mPowerTime.prevTime = curTime;
}
void TimeStats::setPowerMode(int32_t powerMode) {
if (!mEnabled.load()) {
std::lock_guard<std::mutex> lock(mMutex);
mPowerTime.powerMode = powerMode;
return;
}
std::lock_guard<std::mutex> lock(mMutex);
if (powerMode == mPowerTime.powerMode) return;
flushPowerTimeLocked();
mPowerTime.powerMode = powerMode;
}
void TimeStats::recordRefreshRate(uint32_t fps, nsecs_t duration) {
std::lock_guard<std::mutex> lock(mMutex);
if (mTimeStats.refreshRateStats.count(fps)) {
mTimeStats.refreshRateStats[fps] += duration;
} else {
mTimeStats.refreshRateStats.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.presentToPresent.insert(presentToPresentMs);
}
mGlobalRecord.prevPresentTime = curPresentTime;
mGlobalRecord.presentFences.pop_front();
}
}
void TimeStats::setPresentFenceGlobal(const std::shared_ptr<FenceTime>& presentFence) {
if (!mEnabled.load()) return;
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
if (presentFence == nullptr || !presentFence->isValid()) {
mGlobalRecord.prevPresentTime = 0;
return;
}
if (mPowerTime.powerMode != HWC_POWER_MODE_NORMAL) {
// Try flushing the last present fence on HWC_POWER_MODE_NORMAL.
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<std::mutex> lock(mMutex);
mEnabled.store(true);
mTimeStats.statsStart = static_cast<int64_t>(std::time(0));
mPowerTime.prevTime = systemTime();
ALOGD("Enabled");
}
void TimeStats::disable() {
if (!mEnabled.load()) return;
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
flushPowerTimeLocked();
mEnabled.store(false);
mTimeStats.statsEnd = static_cast<int64_t>(std::time(0));
ALOGD("Disabled");
}
void TimeStats::clear() {
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
mTimeStatsTracker.clear();
mTimeStats.stats.clear();
mTimeStats.statsStart = (mEnabled.load() ? static_cast<int64_t>(std::time(0)) : 0);
mTimeStats.statsEnd = 0;
mTimeStats.totalFrames = 0;
mTimeStats.missedFrames = 0;
mTimeStats.clientCompositionFrames = 0;
mTimeStats.displayOnTime = 0;
mTimeStats.presentToPresent.hist.clear();
mTimeStats.refreshRateStats.clear();
mPowerTime.prevTime = systemTime();
mGlobalRecord.prevPresentTime = 0;
mGlobalRecord.presentFences.clear();
ALOGD("Cleared");
}
bool TimeStats::isEnabled() {
return mEnabled.load();
}
void TimeStats::dump(bool asProto, std::optional<uint32_t> maxLayers, std::string& result) {
ATRACE_CALL();
std::lock_guard<std::mutex> lock(mMutex);
if (mTimeStats.statsStart == 0) {
return;
}
mTimeStats.statsEnd = static_cast<int64_t>(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