blob: d5254a8a8009e06d8fdd3374851b9fd87cd71a82 [file] [log] [blame]
* Copyright 2013 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
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* See the License for the specific language governing permissions and
* limitations under the License.
#include <condition_variable>
#include <deque>
#include <mutex>
#include <queue>
#include <thread>
#include <unordered_map>
#include <EGL/egl.h>
#include <EGL/eglext.h>
#include <GLES2/gl2.h>
#include <android-base/thread_annotations.h>
#include <renderengine/RenderEngine.h>
#include <renderengine/private/Description.h>
#include <sys/types.h>
#include "GLShadowTexture.h"
#include "ImageManager.h"
#define EGL_NO_CONFIG ((EGLConfig)0)
namespace android {
namespace renderengine {
class Mesh;
class Texture;
namespace gl {
class GLImage;
class BlurFilter;
class GLESRenderEngine : public impl::RenderEngine {
static std::unique_ptr<GLESRenderEngine> create(const RenderEngineCreationArgs& args);
GLESRenderEngine(const RenderEngineCreationArgs& args, EGLDisplay display, EGLConfig config,
EGLContext ctxt, EGLSurface dummy, EGLContext protectedContext,
EGLSurface protectedDummy);
~GLESRenderEngine() override EXCLUDES(mRenderingMutex);
void primeCache() const override;
void genTextures(size_t count, uint32_t* names) override;
void deleteTextures(size_t count, uint32_t const* names) override;
void bindExternalTextureImage(uint32_t texName, const Image& image) override;
status_t bindExternalTextureBuffer(uint32_t texName, const sp<GraphicBuffer>& buffer,
const sp<Fence>& fence) EXCLUDES(mRenderingMutex);
void cacheExternalTextureBuffer(const sp<GraphicBuffer>& buffer) EXCLUDES(mRenderingMutex);
void unbindExternalTextureBuffer(uint64_t bufferId) EXCLUDES(mRenderingMutex);
status_t bindFrameBuffer(Framebuffer* framebuffer) override;
void unbindFrameBuffer(Framebuffer* framebuffer) override;
bool isProtected() const override { return mInProtectedContext; }
bool supportsProtectedContent() const override;
bool useProtectedContext(bool useProtectedContext) override;
status_t drawLayers(const DisplaySettings& display,
const std::vector<const LayerSettings*>& layers,
ANativeWindowBuffer* buffer, const bool useFramebufferCache,
base::unique_fd&& bufferFence, base::unique_fd* drawFence) override;
bool cleanupPostRender(CleanupMode mode) override;
EGLDisplay getEGLDisplay() const { return mEGLDisplay; }
// Creates an output image for rendering to
EGLImageKHR createFramebufferImageIfNeeded(ANativeWindowBuffer* nativeBuffer, bool isProtected,
bool useFramebufferCache)
// Test-only methods
// Returns true iff mImageCache contains an image keyed by bufferId
bool isImageCachedForTesting(uint64_t bufferId) EXCLUDES(mRenderingMutex);
// Returns true iff texName was previously generated by RenderEngine and was
// not destroyed.
bool isTextureNameKnownForTesting(uint32_t texName);
// Returns the buffer ID of the content bound to texName, or nullopt if no
// such mapping exists.
std::optional<uint64_t> getBufferIdForTextureNameForTesting(uint32_t texName);
// Returns true iff mFramebufferImageCache contains an image keyed by bufferId
bool isFramebufferImageCachedForTesting(uint64_t bufferId)
// These are wrappers around public methods above, but exposing Barrier
// objects so that tests can block.
std::shared_ptr<ImageManager::Barrier> cacheExternalTextureBufferForTesting(
const sp<GraphicBuffer>& buffer);
std::shared_ptr<ImageManager::Barrier> unbindExternalTextureBufferForTesting(uint64_t bufferId);
Framebuffer* getFramebufferForDrawing() override;
void dump(std::string& result) override EXCLUDES(mRenderingMutex)
size_t getMaxTextureSize() const override;
size_t getMaxViewportDims() const override;
enum GlesVersion {
GLES_VERSION_1_0 = 0x10000,
GLES_VERSION_1_1 = 0x10001,
GLES_VERSION_2_0 = 0x20000,
GLES_VERSION_3_0 = 0x30000,
static EGLConfig chooseEglConfig(EGLDisplay display, int format, bool logConfig);
static GlesVersion parseGlesVersion(const char* str);
static EGLContext createEglContext(EGLDisplay display, EGLConfig config,
EGLContext shareContext, bool useContextPriority,
Protection protection);
static EGLSurface createDummyEglPbufferSurface(EGLDisplay display, EGLConfig config,
int hwcFormat, Protection protection);
std::unique_ptr<Framebuffer> createFramebuffer();
std::unique_ptr<Image> createImage();
void checkErrors() const;
void checkErrors(const char* tag) const;
void setScissor(const Rect& region);
void disableScissor();
bool waitSync(EGLSyncKHR sync, EGLint flags);
status_t cacheExternalTextureBufferInternal(const sp<GraphicBuffer>& buffer)
void unbindExternalTextureBufferInternal(uint64_t bufferId) EXCLUDES(mRenderingMutex);
// A data space is considered HDR data space if it has BT2020 color space
// with PQ or HLG transfer function.
bool isHdrDataSpace(const ui::Dataspace dataSpace) const;
bool needsXYZTransformMatrix() const;
// Defines the viewport, and sets the projection matrix to the projection
// defined by the clip.
void setViewportAndProjection(Rect viewport, Rect clip);
// Evicts stale images from the buffer cache.
void evictImages(const std::vector<LayerSettings>& layers);
// Computes the cropping window for the layer and sets up cropping
// coordinates for the mesh.
FloatRect setupLayerCropping(const LayerSettings& layer, Mesh& mesh);
// We do a special handling for rounded corners when it's possible to turn off blending
// for the majority of the layer. The rounded corners needs to turn on blending such that
// we can set the alpha value correctly, however, only the corners need this, and since
// blending is an expensive operation, we want to turn off blending when it's not necessary.
void handleRoundedCorners(const DisplaySettings& display, const LayerSettings& layer,
const Mesh& mesh);
base::unique_fd flush();
bool finish();
bool waitFence(base::unique_fd fenceFd);
void clearWithColor(float red, float green, float blue, float alpha);
void fillRegionWithColor(const Region& region, float red, float green, float blue, float alpha);
void handleShadow(const FloatRect& casterRect, float casterCornerRadius,
const ShadowSettings& shadowSettings);
void setupLayerBlending(bool premultipliedAlpha, bool opaque, bool disableTexture,
const half4& color, float cornerRadius);
void setupLayerTexturing(const Texture& texture);
void setupFillWithColor(float r, float g, float b, float a);
void setColorTransform(const mat4& colorTransform);
void disableTexturing();
void disableBlending();
void setupCornerRadiusCropSize(float width, float height);
// HDR and color management related functions and state
void setSourceY410BT2020(bool enable);
void setSourceDataSpace(ui::Dataspace source);
void setOutputDataSpace(ui::Dataspace dataspace);
void setDisplayMaxLuminance(const float maxLuminance);
// drawing
void drawMesh(const Mesh& mesh);
EGLDisplay mEGLDisplay;
EGLConfig mEGLConfig;
EGLContext mEGLContext;
EGLSurface mDummySurface;
EGLContext mProtectedEGLContext;
EGLSurface mProtectedDummySurface;
GLint mMaxViewportDims[2];
GLint mMaxTextureSize;
GLuint mVpWidth;
GLuint mVpHeight;
Description mState;
GLShadowTexture mShadowTexture;
mat4 mSrgbToXyz;
mat4 mDisplayP3ToXyz;
mat4 mBt2020ToXyz;
mat4 mXyzToSrgb;
mat4 mXyzToDisplayP3;
mat4 mXyzToBt2020;
mat4 mSrgbToDisplayP3;
mat4 mSrgbToBt2020;
mat4 mDisplayP3ToSrgb;
mat4 mDisplayP3ToBt2020;
mat4 mBt2020ToSrgb;
mat4 mBt2020ToDisplayP3;
bool mInProtectedContext = false;
// If set to true, then enables tracing flush() and finish() to systrace.
bool mTraceGpuCompletion = false;
// Maximum size of mFramebufferImageCache. If more images would be cached, then (approximately)
// the last recently used buffer should be kicked out.
uint32_t mFramebufferImageCacheSize = 0;
// Cache of output images, keyed by corresponding GraphicBuffer ID.
std::deque<std::pair<uint64_t, EGLImageKHR>> mFramebufferImageCache
// The only reason why we have this mutex is so that we don't segfault when
// dumping info.
std::mutex mFramebufferImageCacheMutex;
// Current dataspace of layer being rendered
ui::Dataspace mDataSpace = ui::Dataspace::UNKNOWN;
// Current output dataspace of the render engine
ui::Dataspace mOutputDataSpace = ui::Dataspace::UNKNOWN;
// Whether device supports color management, currently color management
// supports sRGB, DisplayP3 color spaces.
const bool mUseColorManagement = false;
// Cache of GL images that we'll store per GraphicBuffer ID
std::unordered_map<uint64_t, std::unique_ptr<Image>> mImageCache GUARDED_BY(mRenderingMutex);
std::unordered_map<uint32_t, std::optional<uint64_t>> mTextureView;
// Mutex guarding rendering operations, so that:
// 1. GL operations aren't interleaved, and
// 2. Internal state related to rendering that is potentially modified by
// multiple threads is guaranteed thread-safe.
std::mutex mRenderingMutex;
std::unique_ptr<Framebuffer> mDrawingBuffer;
// this is a 1x1 RGB buffer, but over-allocate in case a driver wants more
// memory or if it needs to satisfy alignment requirements. In this case:
// assume that each channel requires 4 bytes, and add 3 additional bytes to
// ensure that we align on a word. Allocating 16 bytes will provide a
// guarantee that we don't clobber memory.
uint32_t mPlaceholderDrawBuffer[4];
// Placeholder buffer and image, similar to mPlaceholderDrawBuffer, but
// instead these are intended for cleaning up texture memory with the
ANativeWindowBuffer* mPlaceholderBuffer = nullptr;
EGLImage mPlaceholderImage = EGL_NO_IMAGE_KHR;
sp<Fence> mLastDrawFence;
// Store a separate boolean checking if prior resources were cleaned up, as
// devices that don't support native sync fences can't rely on a last draw
// fence that doesn't exist.
bool mPriorResourcesCleaned = true;
// Blur effect processor, only instantiated when a layer requests it.
BlurFilter* mBlurFilter = nullptr;
class FlushTracer {
FlushTracer(GLESRenderEngine* engine);
void queueSync(EGLSyncKHR sync) EXCLUDES(mMutex);
struct QueueEntry {
EGLSyncKHR mSync = nullptr;
uint64_t mFrameNum = 0;
void loop();
GLESRenderEngine* const mEngine;
std::thread mThread;
std::condition_variable_any mCondition;
std::mutex mMutex;
std::queue<QueueEntry> mQueue GUARDED_BY(mMutex);
uint64_t mFramesQueued GUARDED_BY(mMutex) = 0;
bool mRunning = true;
friend class FlushTracer;
friend class ImageManager;
friend class GLFramebuffer;
friend class BlurFilter;
friend class GenericProgram;
std::unique_ptr<FlushTracer> mFlushTracer;
std::unique_ptr<ImageManager> mImageManager = std::make_unique<ImageManager>(this);
} // namespace gl
} // namespace renderengine
} // namespace android