/* * Copyright (C) 2011 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. */ #define ATRACE_TAG ATRACE_TAG_GRAPHICS #include #include #include #include #include #include #include #include #include #include #include #include #include #include "EventThread.h" using namespace std::chrono_literals; namespace android { using base::StringAppendF; using base::StringPrintf; namespace { auto vsyncPeriod(VSyncRequest request) { return static_cast>(request); } std::string toString(VSyncRequest request) { switch (request) { case VSyncRequest::None: return "VSyncRequest::None"; case VSyncRequest::Single: return "VSyncRequest::Single"; default: return StringPrintf("VSyncRequest::Periodic{period=%d}", vsyncPeriod(request)); } } std::string toString(const EventThreadConnection& connection) { return StringPrintf("Connection{%p, %s}", &connection, toString(connection.vsyncRequest).c_str()); } std::string toString(const DisplayEventReceiver::Event& event) { switch (event.header.type) { case DisplayEventReceiver::DISPLAY_EVENT_HOTPLUG: return StringPrintf("Hotplug{displayId=%" ANDROID_PHYSICAL_DISPLAY_ID_FORMAT ", %s}", event.header.displayId, event.hotplug.connected ? "connected" : "disconnected"); case DisplayEventReceiver::DISPLAY_EVENT_VSYNC: return StringPrintf("VSync{displayId=%" ANDROID_PHYSICAL_DISPLAY_ID_FORMAT ", count=%u}", event.header.displayId, event.vsync.count); case DisplayEventReceiver::DISPLAY_EVENT_CONFIG_CHANGED: return StringPrintf("ConfigChanged{displayId=%" ANDROID_PHYSICAL_DISPLAY_ID_FORMAT ", configId=%u}", event.header.displayId, event.config.configId); default: return "Event{}"; } } DisplayEventReceiver::Event makeHotplug(PhysicalDisplayId displayId, nsecs_t timestamp, bool connected) { DisplayEventReceiver::Event event; event.header = {DisplayEventReceiver::DISPLAY_EVENT_HOTPLUG, displayId, timestamp}; event.hotplug.connected = connected; return event; } DisplayEventReceiver::Event makeVSync(PhysicalDisplayId displayId, nsecs_t timestamp, uint32_t count) { DisplayEventReceiver::Event event; event.header = {DisplayEventReceiver::DISPLAY_EVENT_VSYNC, displayId, timestamp}; event.vsync.count = count; return event; } DisplayEventReceiver::Event makeConfigChanged(PhysicalDisplayId displayId, int32_t configId) { DisplayEventReceiver::Event event; event.header = {DisplayEventReceiver::DISPLAY_EVENT_CONFIG_CHANGED, displayId, systemTime()}; event.config.configId = configId; return event; } } // namespace EventThreadConnection::EventThreadConnection(EventThread* eventThread, ResyncCallback resyncCallback, ISurfaceComposer::ConfigChanged configChanged) : resyncCallback(std::move(resyncCallback)), configChanged(configChanged), mEventThread(eventThread), mChannel(gui::BitTube::DefaultSize) {} EventThreadConnection::~EventThreadConnection() { // do nothing here -- clean-up will happen automatically // when the main thread wakes up } void EventThreadConnection::onFirstRef() { // NOTE: mEventThread doesn't hold a strong reference on us mEventThread->registerDisplayEventConnection(this); } status_t EventThreadConnection::stealReceiveChannel(gui::BitTube* outChannel) { outChannel->setReceiveFd(mChannel.moveReceiveFd()); return NO_ERROR; } status_t EventThreadConnection::setVsyncRate(uint32_t rate) { mEventThread->setVsyncRate(rate, this); return NO_ERROR; } void EventThreadConnection::requestNextVsync() { ATRACE_NAME("requestNextVsync"); mEventThread->requestNextVsync(this); } status_t EventThreadConnection::postEvent(const DisplayEventReceiver::Event& event) { ssize_t size = DisplayEventReceiver::sendEvents(&mChannel, &event, 1); return size < 0 ? status_t(size) : status_t(NO_ERROR); } // --------------------------------------------------------------------------- EventThread::~EventThread() = default; namespace impl { EventThread::EventThread(std::unique_ptr src, InterceptVSyncsCallback interceptVSyncsCallback, const char* threadName) : EventThread(nullptr, std::move(src), std::move(interceptVSyncsCallback), threadName) {} EventThread::EventThread(VSyncSource* src, InterceptVSyncsCallback interceptVSyncsCallback, const char* threadName) : EventThread(src, nullptr, std::move(interceptVSyncsCallback), threadName) {} EventThread::EventThread(VSyncSource* src, std::unique_ptr uniqueSrc, InterceptVSyncsCallback interceptVSyncsCallback, const char* threadName) : mVSyncSource(src), mVSyncSourceUnique(std::move(uniqueSrc)), mInterceptVSyncsCallback(std::move(interceptVSyncsCallback)), mThreadName(threadName) { if (src == nullptr) { mVSyncSource = mVSyncSourceUnique.get(); } mVSyncSource->setCallback(this); mThread = std::thread([this]() NO_THREAD_SAFETY_ANALYSIS { std::unique_lock lock(mMutex); threadMain(lock); }); pthread_setname_np(mThread.native_handle(), threadName); pid_t tid = pthread_gettid_np(mThread.native_handle()); // Use SCHED_FIFO to minimize jitter constexpr int EVENT_THREAD_PRIORITY = 2; struct sched_param param = {0}; param.sched_priority = EVENT_THREAD_PRIORITY; if (pthread_setschedparam(mThread.native_handle(), SCHED_FIFO, ¶m) != 0) { ALOGE("Couldn't set SCHED_FIFO for EventThread"); } set_sched_policy(tid, SP_FOREGROUND); } EventThread::~EventThread() { mVSyncSource->setCallback(nullptr); { std::lock_guard lock(mMutex); mState = State::Quit; mCondition.notify_all(); } mThread.join(); } void EventThread::setPhaseOffset(nsecs_t phaseOffset) { std::lock_guard lock(mMutex); mVSyncSource->setPhaseOffset(phaseOffset); } sp EventThread::createEventConnection( ResyncCallback resyncCallback, ISurfaceComposer::ConfigChanged configChanged) const { return new EventThreadConnection(const_cast(this), std::move(resyncCallback), configChanged); } status_t EventThread::registerDisplayEventConnection(const sp& connection) { std::lock_guard lock(mMutex); // this should never happen auto it = std::find(mDisplayEventConnections.cbegin(), mDisplayEventConnections.cend(), connection); if (it != mDisplayEventConnections.cend()) { ALOGW("DisplayEventConnection %p already exists", connection.get()); mCondition.notify_all(); return ALREADY_EXISTS; } mDisplayEventConnections.push_back(connection); mCondition.notify_all(); return NO_ERROR; } void EventThread::removeDisplayEventConnectionLocked(const wp& connection) { auto it = std::find(mDisplayEventConnections.cbegin(), mDisplayEventConnections.cend(), connection); if (it != mDisplayEventConnections.cend()) { mDisplayEventConnections.erase(it); } } void EventThread::setVsyncRate(uint32_t rate, const sp& connection) { if (static_cast>(rate) < 0) { return; } std::lock_guard lock(mMutex); const auto request = rate == 0 ? VSyncRequest::None : static_cast(rate); if (connection->vsyncRequest != request) { connection->vsyncRequest = request; mCondition.notify_all(); } } void EventThread::requestNextVsync(const sp& connection) { if (connection->resyncCallback) { connection->resyncCallback(); } std::lock_guard lock(mMutex); if (connection->vsyncRequest == VSyncRequest::None) { connection->vsyncRequest = VSyncRequest::Single; mCondition.notify_all(); } } void EventThread::onScreenReleased() { std::lock_guard lock(mMutex); if (!mVSyncState || mVSyncState->synthetic) { return; } mVSyncState->synthetic = true; mCondition.notify_all(); } void EventThread::onScreenAcquired() { std::lock_guard lock(mMutex); if (!mVSyncState || !mVSyncState->synthetic) { return; } mVSyncState->synthetic = false; mCondition.notify_all(); } void EventThread::onVSyncEvent(nsecs_t timestamp) { std::lock_guard lock(mMutex); LOG_FATAL_IF(!mVSyncState); mPendingEvents.push_back(makeVSync(mVSyncState->displayId, timestamp, ++mVSyncState->count)); mCondition.notify_all(); } void EventThread::onHotplugReceived(PhysicalDisplayId displayId, bool connected) { std::lock_guard lock(mMutex); mPendingEvents.push_back(makeHotplug(displayId, systemTime(), connected)); mCondition.notify_all(); } void EventThread::onConfigChanged(PhysicalDisplayId displayId, int32_t configId) { std::lock_guard lock(mMutex); mPendingEvents.push_back(makeConfigChanged(displayId, configId)); mCondition.notify_all(); } void EventThread::threadMain(std::unique_lock& lock) { DisplayEventConsumers consumers; while (mState != State::Quit) { std::optional event; // Determine next event to dispatch. if (!mPendingEvents.empty()) { event = mPendingEvents.front(); mPendingEvents.pop_front(); switch (event->header.type) { case DisplayEventReceiver::DISPLAY_EVENT_HOTPLUG: if (event->hotplug.connected && !mVSyncState) { mVSyncState.emplace(event->header.displayId); } else if (!event->hotplug.connected && mVSyncState && mVSyncState->displayId == event->header.displayId) { mVSyncState.reset(); } break; case DisplayEventReceiver::DISPLAY_EVENT_VSYNC: if (mInterceptVSyncsCallback) { mInterceptVSyncsCallback(event->header.timestamp); } break; } } bool vsyncRequested = false; // Find connections that should consume this event. auto it = mDisplayEventConnections.begin(); while (it != mDisplayEventConnections.end()) { if (const auto connection = it->promote()) { vsyncRequested |= connection->vsyncRequest != VSyncRequest::None; if (event && shouldConsumeEvent(*event, connection)) { consumers.push_back(connection); } ++it; } else { it = mDisplayEventConnections.erase(it); } } if (!consumers.empty()) { dispatchEvent(*event, consumers); consumers.clear(); } State nextState; if (mVSyncState && vsyncRequested) { nextState = mVSyncState->synthetic ? State::SyntheticVSync : State::VSync; } else { ALOGW_IF(!mVSyncState, "Ignoring VSYNC request while display is disconnected"); nextState = State::Idle; } if (mState != nextState) { if (mState == State::VSync) { mVSyncSource->setVSyncEnabled(false); } else if (nextState == State::VSync) { mVSyncSource->setVSyncEnabled(true); } mState = nextState; } if (event) { continue; } // Wait for event or client registration/request. if (mState == State::Idle) { mCondition.wait(lock); } else { // Generate a fake VSYNC after a long timeout in case the driver stalls. When the // display is off, keep feeding clients at 60 Hz. const auto timeout = mState == State::SyntheticVSync ? 16ms : 1000ms; if (mCondition.wait_for(lock, timeout) == std::cv_status::timeout) { ALOGW_IF(mState == State::VSync, "Faking VSYNC due to driver stall"); LOG_FATAL_IF(!mVSyncState); mPendingEvents.push_back(makeVSync(mVSyncState->displayId, systemTime(SYSTEM_TIME_MONOTONIC), ++mVSyncState->count)); } } } } bool EventThread::shouldConsumeEvent(const DisplayEventReceiver::Event& event, const sp& connection) const { switch (event.header.type) { case DisplayEventReceiver::DISPLAY_EVENT_HOTPLUG: return true; case DisplayEventReceiver::DISPLAY_EVENT_CONFIG_CHANGED: return connection->configChanged == ISurfaceComposer::eConfigChangedDispatch; case DisplayEventReceiver::DISPLAY_EVENT_VSYNC: switch (connection->vsyncRequest) { case VSyncRequest::None: return false; case VSyncRequest::Single: connection->vsyncRequest = VSyncRequest::None; return true; case VSyncRequest::Periodic: return true; default: return event.vsync.count % vsyncPeriod(connection->vsyncRequest) == 0; } default: return false; } } void EventThread::dispatchEvent(const DisplayEventReceiver::Event& event, const DisplayEventConsumers& consumers) { for (const auto& consumer : consumers) { switch (consumer->postEvent(event)) { case NO_ERROR: break; case -EAGAIN: // TODO: Try again if pipe is full. ALOGW("Failed dispatching %s for %s", toString(event).c_str(), toString(*consumer).c_str()); break; default: // Treat EPIPE and other errors as fatal. removeDisplayEventConnectionLocked(consumer); } } } void EventThread::dump(std::string& result) const { std::lock_guard lock(mMutex); StringAppendF(&result, "%s: state=%s VSyncState=", mThreadName, toCString(mState)); if (mVSyncState) { StringAppendF(&result, "{displayId=%" ANDROID_PHYSICAL_DISPLAY_ID_FORMAT ", count=%u%s}\n", mVSyncState->displayId, mVSyncState->count, mVSyncState->synthetic ? ", synthetic" : ""); } else { StringAppendF(&result, "none\n"); } StringAppendF(&result, " pending events (count=%zu):\n", mPendingEvents.size()); for (const auto& event : mPendingEvents) { StringAppendF(&result, " %s\n", toString(event).c_str()); } StringAppendF(&result, " connections (count=%zu):\n", mDisplayEventConnections.size()); for (const auto& ptr : mDisplayEventConnections) { if (const auto connection = ptr.promote()) { StringAppendF(&result, " %s\n", toString(*connection).c_str()); } } } const char* EventThread::toCString(State state) { switch (state) { case State::Idle: return "Idle"; case State::Quit: return "Quit"; case State::SyntheticVSync: return "SyntheticVSync"; case State::VSync: return "VSync"; } } } // namespace impl } // namespace android