/* * Copyright (C) 2014 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. */ #include "CanvasContext.h" #include "AnimationContext.h" #include "Caches.h" #include "DeferredLayerUpdater.h" #include "EglManager.h" #include "LayerRenderer.h" #include "OpenGLRenderer.h" #include "Properties.h" #include "RenderThread.h" #include "renderstate/RenderState.h" #include "renderstate/Stencil.h" #include #include #include #include #define TRIM_MEMORY_COMPLETE 80 #define TRIM_MEMORY_UI_HIDDEN 20 namespace android { namespace uirenderer { namespace renderthread { CanvasContext::CanvasContext(RenderThread& thread, bool translucent, RenderNode* rootRenderNode, IContextFactory* contextFactory) : mRenderThread(thread) , mEglManager(thread.eglManager()) , mOpaque(!translucent) , mAnimationContext(contextFactory->createAnimationContext(mRenderThread.timeLord())) , mRootRenderNode(rootRenderNode) , mJankTracker(thread.timeLord().frameIntervalNanos()) , mProfiler(mFrames) { mRenderThread.renderState().registerCanvasContext(this); mProfiler.setDensity(mRenderThread.mainDisplayInfo().density); } CanvasContext::~CanvasContext() { destroy(); mRenderThread.renderState().unregisterCanvasContext(this); } void CanvasContext::destroy() { stopDrawing(); setSurface(nullptr); freePrefetechedLayers(); destroyHardwareResources(); mAnimationContext->destroy(); if (mCanvas) { delete mCanvas; mCanvas = nullptr; } } void CanvasContext::setSurface(ANativeWindow* window) { ATRACE_CALL(); mNativeWindow = window; if (mEglSurface != EGL_NO_SURFACE) { mEglManager.destroySurface(mEglSurface); mEglSurface = EGL_NO_SURFACE; } if (window) { mEglSurface = mEglManager.createSurface(window); } if (mEglSurface != EGL_NO_SURFACE) { const bool preserveBuffer = (mSwapBehavior != kSwap_discardBuffer); mBufferPreserved = mEglManager.setPreserveBuffer(mEglSurface, preserveBuffer); mHaveNewSurface = true; makeCurrent(); } else { mRenderThread.removeFrameCallback(this); } } void CanvasContext::swapBuffers(const SkRect& dirty, EGLint width, EGLint height) { if (CC_UNLIKELY(!mEglManager.swapBuffers(mEglSurface, dirty, width, height))) { setSurface(nullptr); } mHaveNewSurface = false; } void CanvasContext::requireSurface() { LOG_ALWAYS_FATAL_IF(mEglSurface == EGL_NO_SURFACE, "requireSurface() called but no surface set!"); makeCurrent(); } void CanvasContext::setSwapBehavior(SwapBehavior swapBehavior) { mSwapBehavior = swapBehavior; } bool CanvasContext::initialize(ANativeWindow* window) { setSurface(window); if (mCanvas) return false; mCanvas = new OpenGLRenderer(mRenderThread.renderState()); mCanvas->initProperties(); return true; } void CanvasContext::updateSurface(ANativeWindow* window) { setSurface(window); } bool CanvasContext::pauseSurface(ANativeWindow* window) { return mRenderThread.removeFrameCallback(this); } // TODO: don't pass viewport size, it's automatic via EGL void CanvasContext::setup(int width, int height, float lightRadius, uint8_t ambientShadowAlpha, uint8_t spotShadowAlpha) { if (!mCanvas) return; mCanvas->initLight(lightRadius, ambientShadowAlpha, spotShadowAlpha); } void CanvasContext::setLightCenter(const Vector3& lightCenter) { if (!mCanvas) return; mCanvas->setLightCenter(lightCenter); } void CanvasContext::setOpaque(bool opaque) { mOpaque = opaque; } void CanvasContext::makeCurrent() { // TODO: Figure out why this workaround is needed, see b/13913604 // In the meantime this matches the behavior of GLRenderer, so it is not a regression EGLint error = 0; mHaveNewSurface |= mEglManager.makeCurrent(mEglSurface, &error); if (error) { setSurface(nullptr); } } void CanvasContext::processLayerUpdate(DeferredLayerUpdater* layerUpdater) { bool success = layerUpdater->apply(); LOG_ALWAYS_FATAL_IF(!success, "Failed to update layer!"); if (layerUpdater->backingLayer()->deferredUpdateScheduled) { mCanvas->pushLayerUpdate(layerUpdater->backingLayer()); } } static bool wasSkipped(FrameInfo* info) { return info && ((*info)[FrameInfoIndex::Flags] & FrameInfoFlags::SkippedFrame); } void CanvasContext::prepareTree(TreeInfo& info, int64_t* uiFrameInfo, int64_t syncQueued) { mRenderThread.removeFrameCallback(this); // If the previous frame was dropped we don't need to hold onto it, so // just keep using the previous frame's structure instead if (!wasSkipped(mCurrentFrameInfo)) { mCurrentFrameInfo = &mFrames.next(); } mCurrentFrameInfo->importUiThreadInfo(uiFrameInfo); mCurrentFrameInfo->set(FrameInfoIndex::SyncQueued) = syncQueued; mCurrentFrameInfo->markSyncStart(); info.damageAccumulator = &mDamageAccumulator; info.renderer = mCanvas; info.canvasContext = this; mAnimationContext->startFrame(info.mode); mRootRenderNode->prepareTree(info); mAnimationContext->runRemainingAnimations(info); freePrefetechedLayers(); if (CC_UNLIKELY(!mNativeWindow.get())) { mCurrentFrameInfo->addFlag(FrameInfoFlags::SkippedFrame); info.out.canDrawThisFrame = false; return; } int runningBehind = 0; // TODO: This query is moderately expensive, investigate adding some sort // of fast-path based off when we last called eglSwapBuffers() as well as // last vsync time. Or something. mNativeWindow->query(mNativeWindow.get(), NATIVE_WINDOW_CONSUMER_RUNNING_BEHIND, &runningBehind); info.out.canDrawThisFrame = !runningBehind; if (!info.out.canDrawThisFrame) { mCurrentFrameInfo->addFlag(FrameInfoFlags::SkippedFrame); } if (info.out.hasAnimations || !info.out.canDrawThisFrame) { if (!info.out.requiresUiRedraw) { // If animationsNeedsRedraw is set don't bother posting for an RT anim // as we will just end up fighting the UI thread. mRenderThread.postFrameCallback(this); } } } void CanvasContext::stopDrawing() { mRenderThread.removeFrameCallback(this); } void CanvasContext::notifyFramePending() { ATRACE_CALL(); mRenderThread.pushBackFrameCallback(this); } void CanvasContext::draw() { LOG_ALWAYS_FATAL_IF(!mCanvas || mEglSurface == EGL_NO_SURFACE, "drawRenderNode called on a context with no canvas or surface!"); SkRect dirty; mDamageAccumulator.finish(&dirty); // TODO: Re-enable after figuring out cause of b/22592975 // if (dirty.isEmpty() && Properties::skipEmptyFrames) { // mCurrentFrameInfo->addFlag(FrameInfoFlags::SkippedFrame); // return; // } mCurrentFrameInfo->markIssueDrawCommandsStart(); EGLint width, height; mEglManager.beginFrame(mEglSurface, &width, &height); if (width != mCanvas->getViewportWidth() || height != mCanvas->getViewportHeight()) { mCanvas->setViewport(width, height); dirty.setEmpty(); } else if (!mBufferPreserved || mHaveNewSurface) { dirty.setEmpty(); } else { if (!dirty.isEmpty() && !dirty.intersect(0, 0, width, height)) { ALOGW("Dirty " RECT_STRING " doesn't intersect with 0 0 %d %d ?", SK_RECT_ARGS(dirty), width, height); dirty.setEmpty(); } profiler().unionDirty(&dirty); } if (!dirty.isEmpty()) { mCanvas->prepareDirty(dirty.fLeft, dirty.fTop, dirty.fRight, dirty.fBottom, mOpaque); } else { mCanvas->prepare(mOpaque); } Rect outBounds; mCanvas->drawRenderNode(mRootRenderNode.get(), outBounds); profiler().draw(mCanvas); bool drew = mCanvas->finish(); // Even if we decided to cancel the frame, from the perspective of jank // metrics the frame was swapped at this point mCurrentFrameInfo->markSwapBuffers(); if (drew) { swapBuffers(dirty, width, height); } // TODO: Use a fence for real completion? mCurrentFrameInfo->markFrameCompleted(); mJankTracker.addFrame(*mCurrentFrameInfo); mRenderThread.jankTracker().addFrame(*mCurrentFrameInfo); } // Called by choreographer to do an RT-driven animation void CanvasContext::doFrame() { if (CC_UNLIKELY(!mCanvas || mEglSurface == EGL_NO_SURFACE)) { return; } ATRACE_CALL(); int64_t frameInfo[UI_THREAD_FRAME_INFO_SIZE]; UiFrameInfoBuilder(frameInfo) .addFlag(FrameInfoFlags::RTAnimation) .setVsync(mRenderThread.timeLord().computeFrameTimeNanos(), mRenderThread.timeLord().latestVsync()); TreeInfo info(TreeInfo::MODE_RT_ONLY, mRenderThread.renderState()); prepareTree(info, frameInfo, systemTime(CLOCK_MONOTONIC)); if (info.out.canDrawThisFrame) { draw(); } } void CanvasContext::invokeFunctor(RenderThread& thread, Functor* functor) { ATRACE_CALL(); DrawGlInfo::Mode mode = DrawGlInfo::kModeProcessNoContext; if (thread.eglManager().hasEglContext()) { mode = DrawGlInfo::kModeProcess; } thread.renderState().invokeFunctor(functor, mode, nullptr); } void CanvasContext::markLayerInUse(RenderNode* node) { if (mPrefetechedLayers.erase(node)) { node->decStrong(nullptr); } } static void destroyPrefetechedNode(RenderNode* node) { ALOGW("Incorrectly called buildLayer on View: %s, destroying layer...", node->getName()); node->destroyHardwareResources(); node->decStrong(nullptr); } void CanvasContext::freePrefetechedLayers() { if (mPrefetechedLayers.size()) { std::for_each(mPrefetechedLayers.begin(), mPrefetechedLayers.end(), destroyPrefetechedNode); mPrefetechedLayers.clear(); } } void CanvasContext::buildLayer(RenderNode* node) { ATRACE_CALL(); if (!mEglManager.hasEglContext() || !mCanvas) { return; } // buildLayer() will leave the tree in an unknown state, so we must stop drawing stopDrawing(); TreeInfo info(TreeInfo::MODE_FULL, mRenderThread.renderState()); info.damageAccumulator = &mDamageAccumulator; info.renderer = mCanvas; info.runAnimations = false; node->prepareTree(info); SkRect ignore; mDamageAccumulator.finish(&ignore); // Tickle the GENERIC property on node to mark it as dirty for damaging // purposes when the frame is actually drawn node->setPropertyFieldsDirty(RenderNode::GENERIC); mCanvas->markLayersAsBuildLayers(); mCanvas->flushLayerUpdates(); node->incStrong(nullptr); mPrefetechedLayers.insert(node); } bool CanvasContext::copyLayerInto(DeferredLayerUpdater* layer, SkBitmap* bitmap) { layer->apply(); return LayerRenderer::copyLayer(mRenderThread.renderState(), layer->backingLayer(), bitmap); } void CanvasContext::destroyHardwareResources() { stopDrawing(); if (mEglManager.hasEglContext()) { freePrefetechedLayers(); mRootRenderNode->destroyHardwareResources(); Caches& caches = Caches::getInstance(); // Make sure to release all the textures we were owning as there won't // be another draw caches.textureCache.resetMarkInUse(this); caches.flush(Caches::kFlushMode_Layers); } } void CanvasContext::trimMemory(RenderThread& thread, int level) { // No context means nothing to free if (!thread.eglManager().hasEglContext()) return; ATRACE_CALL(); if (level >= TRIM_MEMORY_COMPLETE) { Caches::getInstance().flush(Caches::kFlushMode_Full); thread.eglManager().destroy(); } else if (level >= TRIM_MEMORY_UI_HIDDEN) { Caches::getInstance().flush(Caches::kFlushMode_Moderate); } } void CanvasContext::runWithGlContext(RenderTask* task) { LOG_ALWAYS_FATAL_IF(!mEglManager.hasEglContext(), "GL context not initialized!"); task->run(); } Layer* CanvasContext::createTextureLayer() { requireSurface(); return LayerRenderer::createTextureLayer(mRenderThread.renderState()); } void CanvasContext::setTextureAtlas(RenderThread& thread, const sp& buffer, int64_t* map, size_t mapSize) { thread.eglManager().setTextureAtlas(buffer, map, mapSize); } void CanvasContext::dumpFrames(int fd) { FILE* file = fdopen(fd, "a"); fprintf(file, "\n\n---PROFILEDATA---\n"); for (size_t i = 0; i < static_cast(FrameInfoIndex::NumIndexes); i++) { fprintf(file, "%s", FrameInfoNames[i].c_str()); fprintf(file, ","); } for (size_t i = 0; i < mFrames.size(); i++) { FrameInfo& frame = mFrames[i]; if (frame[FrameInfoIndex::SyncStart] == 0) { continue; } fprintf(file, "\n"); for (int i = 0; i < static_cast(FrameInfoIndex::NumIndexes); i++) { fprintf(file, "%" PRId64 ",", frame[i]); } } fprintf(file, "\n---PROFILEDATA---\n\n"); fflush(file); } void CanvasContext::resetFrameStats() { mFrames.clear(); mRenderThread.jankTracker().reset(); } } /* namespace renderthread */ } /* namespace uirenderer */ } /* namespace android */