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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef MOZILLA_LAYERS_RENDERTHREAD_H
#define MOZILLA_LAYERS_RENDERTHREAD_H
#include "base/basictypes.h" // for DISALLOW_EVIL_CONSTRUCTORS
#include "base/platform_thread.h" // for PlatformThreadId
#include "base/thread.h" // for Thread
#include "base/message_loop.h"
#include "GLTypes.h" // for GLenum
#include "nsISupportsImpl.h"
#include "mozilla/gfx/Point.h"
#include "mozilla/MozPromise.h"
#include "mozilla/DataMutex.h"
#include "mozilla/Maybe.h"
#include "mozilla/webrender/webrender_ffi.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/webrender/WebRenderTypes.h"
#include "mozilla/layers/CompositionRecorder.h"
#include "mozilla/layers/SynchronousTask.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/VsyncDispatcher.h"
#include <list>
#include <queue>
#include <unordered_map>
namespace mozilla {
namespace gl {
class GLContext;
} // namespace gl
namespace layers {
class CompositorBridgeParent;
class ShaderProgramOGLsHolder;
class SurfacePool;
} // namespace layers
namespace wr {
typedef MozPromise<MemoryReport, bool, true> MemoryReportPromise;
class RendererOGL;
class RenderTextureHost;
class RenderThread;
/// A rayon thread pool that is shared by all WebRender instances within a
/// process.
class WebRenderThreadPool {
public:
explicit WebRenderThreadPool(bool low_priority);
~WebRenderThreadPool();
wr::WrThreadPool* Raw() {
// If this pointer is null we are likely at some late shutdown stage,
// when threads are no longer safe to interact with.
MOZ_RELEASE_ASSERT(mThreadPool);
return mThreadPool;
}
/// Prematurely destroys this handle to the thread pool.
/// After calling this the object is useless.
void Release();
protected:
wr::WrThreadPool* mThreadPool;
};
class WebRenderProgramCache final {
public:
explicit WebRenderProgramCache(wr::WrThreadPool* aThreadPool);
~WebRenderProgramCache();
wr::WrProgramCache* Raw() { return mProgramCache; }
protected:
wr::WrProgramCache* mProgramCache;
};
class WebRenderShaders final {
public:
WebRenderShaders(gl::GLContext* gl, WebRenderProgramCache* programCache);
~WebRenderShaders();
wr::WrShaders* RawShaders() { return mShaders; }
protected:
RefPtr<gl::GLContext> mGL;
wr::WrShaders* mShaders;
};
class WebRenderPipelineInfo final {
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(WebRenderPipelineInfo);
const wr::WrPipelineInfo& Raw() const { return mPipelineInfo; }
wr::WrPipelineInfo& Raw() { return mPipelineInfo; }
protected:
~WebRenderPipelineInfo() = default;
wr::WrPipelineInfo mPipelineInfo;
};
/// Base class for an event that can be scheduled to run on the render thread.
///
/// The event can be passed through the same channels as regular WebRender
/// messages to preserve ordering.
class RendererEvent {
public:
virtual ~RendererEvent() = default;
virtual void Run(RenderThread& aRenderThread, wr::WindowId aWindow) = 0;
};
/// The render thread is where WebRender issues all of its GPU work, and as much
/// as possible this thread should only serve this purpose.
///
/// The render thread owns the different RendererOGLs (one per window) and
/// implements the RenderNotifier api exposed by the WebRender bindings.
///
/// Callers are not allowed to post tasks to the render thread's event loop
/// directly and must instead use the RendererEvent mechanism which avoids races
/// between the events and WebRender's own messages.
///
/// The GL context(s) should be created and used on this thread only.
/// XXX - I've tried to organize code so that we can potentially avoid making
/// this a singleton since this bad habit has a tendency to bite us later, but
/// I haven't gotten all the way there either, in order to focus on the more
/// important pieces first. So we are a bit in-between (this is totally a
/// singleton but in some places we pretend it's not). Hopefully we can evolve
/// this in a way that keeps the door open to removing the singleton bits.
class RenderThread final {
NS_INLINE_DECL_THREADSAFE_REFCOUNTING_WITH_DELETE_ON_MAIN_THREAD(RenderThread)
public:
/// Can be called from any thread.
static RenderThread* Get();
/// Can only be called from the main thread.
static void Start(uint32_t aNamespace);
/// Can only be called from the main thread.
static void ShutDown();
/// Can be called from any thread.
static bool IsInRenderThread();
/// Can be called from any thread.
static already_AddRefed<nsIThread> GetRenderThread();
// Can be called from any thread. Dispatches an event to the Renderer thread
// to iterate over all Renderers, accumulates memory statistics, and resolves
// the return promise.
static RefPtr<MemoryReportPromise> AccumulateMemoryReport(
MemoryReport aInitial);
/// Can only be called from the render thread.
void AddRenderer(wr::WindowId aWindowId, UniquePtr<RendererOGL> aRenderer);
/// Can only be called from the render thread.
void RemoveRenderer(wr::WindowId aWindowId);
/// Can only be called from the render thread.
RendererOGL* GetRenderer(wr::WindowId aWindowId);
/// Automatically forwarded to the render thread.
void SetClearColor(wr::WindowId aWindowId, wr::ColorF aColor);
/// Automatically forwarded to the render thread.
void SetProfilerUI(wr::WindowId aWindowId, const nsACString& aUI);
/// Automatically forwarded to the render thread.
void PipelineSizeChanged(wr::WindowId aWindowId, uint64_t aPipelineId,
float aWidth, float aHeight);
/// Post RendererEvent to the render thread.
void PostEvent(wr::WindowId aWindowId, UniquePtr<RendererEvent> aEvent);
/// Can only be called from the render thread.
void SetFramePublishId(wr::WindowId aWindowId, FramePublishId aPublishId);
/// Can only be called from the render thread.
void UpdateAndRender(wr::WindowId aWindowId, const VsyncId& aStartId,
const TimeStamp& aStartTime, bool aRender,
const Maybe<gfx::IntSize>& aReadbackSize,
const Maybe<wr::ImageFormat>& aReadbackFormat,
const Maybe<Range<uint8_t>>& aReadbackBuffer,
bool* aNeedsYFlip = nullptr);
void Pause(wr::WindowId aWindowId);
bool Resume(wr::WindowId aWindowId);
/// Can be called from any thread.
void RegisterExternalImage(const wr::ExternalImageId& aExternalImageId,
already_AddRefed<RenderTextureHost> aTexture);
/// Can be called from any thread.
void UnregisterExternalImage(const wr::ExternalImageId& aExternalImageId);
/// Can be called from any thread.
void DestroyExternalImagesSyncWait(
const std::vector<wr::ExternalImageId>&& aIds);
/// Can be called from any thread.
void PrepareForUse(const wr::ExternalImageId& aExternalImageId);
/// Can be called from any thread.
void NotifyNotUsed(const wr::ExternalImageId& aExternalImageId);
/// Can be called from any thread.
void NotifyForUse(const wr::ExternalImageId& aExternalImageId);
void HandleRenderTextureOps();
/// Can only be called from the render thread.
void UnregisterExternalImageDuringShutdown(
const wr::ExternalImageId& aExternalImageId);
/// Can only be called from the render thread.
RenderTextureHost* GetRenderTexture(
const wr::ExternalImageId& aExternalImageId);
/// Can be called from any thread.
bool IsDestroyed(wr::WindowId aWindowId);
/// Can be called from any thread.
void SetDestroyed(wr::WindowId aWindowId);
/// Can be called from any thread.
bool TooManyPendingFrames(wr::WindowId aWindowId);
/// Can be called from any thread.
void IncPendingFrameCount(wr::WindowId aWindowId, const VsyncId& aStartId,
const TimeStamp& aStartTime);
/// Can be called from any thread.
void DecPendingFrameBuildCount(wr::WindowId aWindowId);
void DecPendingFrameCount(wr::WindowId aWindowId);
// RenderNotifier implementation
void WrNotifierEvent_WakeUp(WrWindowId aWindowId, bool aCompositeNeeded);
void WrNotifierEvent_NewFrameReady(WrWindowId aWindowId,
bool aCompositeNeeded,
FramePublishId aPublishId);
void WrNotifierEvent_ExternalEvent(WrWindowId aWindowId, size_t aRawEvent);
/// Can be called from any thread.
WebRenderThreadPool& ThreadPool() { return mThreadPool; }
/// Thread pool for low priority scene building
/// Can be called from any thread.
WebRenderThreadPool& ThreadPoolLP() { return mThreadPoolLP; }
/// Returns the cache used to serialize shader programs to disk, if enabled.
///
/// Can only be called from the render thread.
WebRenderProgramCache* GetProgramCache() {
MOZ_ASSERT(IsInRenderThread());
return mProgramCache.get();
}
/// Can only be called from the render thread.
WebRenderShaders* GetShaders() {
MOZ_ASSERT(IsInRenderThread());
return mShaders.get();
}
/// Can only be called from the render thread.
gl::GLContext* SingletonGL(nsACString& aError);
gl::GLContext* SingletonGL();
gl::GLContext* SingletonGLForCompositorOGL();
void ClearSingletonGL();
RefPtr<layers::SurfacePool> SharedSurfacePool();
void ClearSharedSurfacePool();
RefPtr<layers::ShaderProgramOGLsHolder> GetProgramsForCompositorOGL();
/// Can only be called from the render thread.
void HandleDeviceReset(const char* aWhere, GLenum aReason);
/// Can only be called from the render thread.
bool IsHandlingDeviceReset();
/// Can be called from any thread.
void SimulateDeviceReset();
/// Can only be called from the render thread.
void NotifyWebRenderError(WebRenderError aError);
/// Can only be called from the render thread.
void HandleWebRenderError(WebRenderError aError);
/// Can only be called from the render thread.
bool IsHandlingWebRenderError();
/// Can only be called from the render thread.
bool SyncObjectNeeded();
size_t RendererCount() const;
size_t ActiveRendererCount() const;
void BeginRecordingForWindow(wr::WindowId aWindowId,
const TimeStamp& aRecordingStart,
wr::PipelineId aRootPipelineId);
Maybe<layers::FrameRecording> EndRecordingForWindow(wr::WindowId aWindowId);
static void MaybeEnableGLDebugMessage(gl::GLContext* aGLContext);
private:
enum class RenderTextureOp {
PrepareForUse,
NotifyForUse,
NotifyNotUsed,
};
class WrNotifierEvent {
public:
enum class Tag {
WakeUp,
NewFrameReady,
ExternalEvent,
};
const Tag mTag;
private:
WrNotifierEvent(const Tag aTag, const bool aCompositeNeeded)
: mTag(aTag), mCompositeNeeded(aCompositeNeeded) {
MOZ_ASSERT(mTag == Tag::WakeUp);
}
WrNotifierEvent(const Tag aTag, bool aCompositeNeeded,
FramePublishId aPublishId)
: mTag(aTag),
mCompositeNeeded(aCompositeNeeded),
mPublishId(aPublishId) {
MOZ_ASSERT(mTag == Tag::NewFrameReady);
}
WrNotifierEvent(const Tag aTag, UniquePtr<RendererEvent>&& aRendererEvent)
: mTag(aTag), mRendererEvent(std::move(aRendererEvent)) {
MOZ_ASSERT(mTag == Tag::ExternalEvent);
}
const bool mCompositeNeeded = false;
const FramePublishId mPublishId = FramePublishId::INVALID;
UniquePtr<RendererEvent> mRendererEvent;
public:
static WrNotifierEvent WakeUp(const bool aCompositeNeeded) {
return WrNotifierEvent(Tag::WakeUp, aCompositeNeeded);
}
static WrNotifierEvent NewFrameReady(const bool aCompositeNeeded,
const FramePublishId aPublishId) {
return WrNotifierEvent(Tag::NewFrameReady, aCompositeNeeded, aPublishId);
}
static WrNotifierEvent ExternalEvent(
UniquePtr<RendererEvent>&& aRendererEvent) {
return WrNotifierEvent(Tag::ExternalEvent, std::move(aRendererEvent));
}
bool CompositeNeeded() {
if (mTag == Tag::WakeUp || mTag == Tag::NewFrameReady) {
return mCompositeNeeded;
}
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
return false;
}
FramePublishId PublishId() {
if (mTag == Tag::NewFrameReady) {
return mPublishId;
}
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
return FramePublishId::INVALID;
}
UniquePtr<RendererEvent> ExternalEvent() {
if (mTag == Tag::ExternalEvent) {
MOZ_ASSERT(mRendererEvent);
return std::move(mRendererEvent);
}
MOZ_ASSERT_UNREACHABLE("unexpected to be called");
return nullptr;
}
};
explicit RenderThread(RefPtr<nsIThread> aThread);
void HandleFrameOneDocInner(wr::WindowId aWindowId, bool aRender,
bool aTrackedFrame,
Maybe<FramePublishId> aPublishId);
void DeferredRenderTextureHostDestroy();
void ShutDownTask();
void InitDeviceTask();
void HandleFrameOneDoc(wr::WindowId aWindowId, bool aRender,
bool aTrackedFrame, Maybe<FramePublishId> aPublishId);
void RunEvent(wr::WindowId aWindowId, UniquePtr<RendererEvent> aEvent);
void PostRunnable(already_AddRefed<nsIRunnable> aRunnable);
void DoAccumulateMemoryReport(MemoryReport,
const RefPtr<MemoryReportPromise::Private>&);
void AddRenderTextureOp(RenderTextureOp aOp,
const wr::ExternalImageId& aExternalImageId);
void CreateSingletonGL(nsACString& aError);
void DestroyExternalImages(const std::vector<wr::ExternalImageId>&& aIds);
struct WindowInfo;
void PostWrNotifierEvents(WrWindowId aWindowId);
void PostWrNotifierEvents(WrWindowId aWindowId, WindowInfo* aInfo);
void HandleWrNotifierEvents(WrWindowId aWindowId);
void WrNotifierEvent_HandleWakeUp(wr::WindowId aWindowId,
bool aCompositeNeeded);
void WrNotifierEvent_HandleNewFrameReady(wr::WindowId aWindowId,
bool aCompositeNeeded,
FramePublishId aPublishId);
void WrNotifierEvent_HandleExternalEvent(
wr::WindowId aWindowId, UniquePtr<RendererEvent> aRendererEvent);
~RenderThread();
RefPtr<nsIThread> const mThread;
WebRenderThreadPool mThreadPool;
WebRenderThreadPool mThreadPoolLP;
UniquePtr<WebRenderProgramCache> mProgramCache;
UniquePtr<WebRenderShaders> mShaders;
RefPtr<layers::ShaderProgramOGLsHolder> mProgramsForCompositorOGL;
// An optional shared GLContext to be used for all
// windows.
RefPtr<gl::GLContext> mSingletonGL;
bool mSingletonGLIsForHardwareWebRender;
RefPtr<layers::SurfacePool> mSurfacePool;
std::map<wr::WindowId, UniquePtr<RendererOGL>> mRenderers;
struct PendingFrameInfo {
TimeStamp mStartTime;
VsyncId mStartId;
};
struct WindowInfo {
int64_t PendingCount() { return mPendingFrames.size(); }
std::queue<PendingFrameInfo> mPendingFrames;
uint8_t mPendingFrameBuild = 0;
bool mIsDestroyed = false;
RefPtr<nsIRunnable> mWrNotifierEventsRunnable;
std::queue<WrNotifierEvent> mPendingWrNotifierEvents;
};
DataMutex<std::unordered_map<uint64_t, UniquePtr<WindowInfo>>> mWindowInfos;
std::unordered_map<uint64_t, UniquePtr<std::queue<WrNotifierEvent>>>
mWrNotifierEventsQueues;
struct ExternalImageIdHashFn {
std::size_t operator()(const wr::ExternalImageId& aId) const {
return HashGeneric(wr::AsUint64(aId));
}
};
Mutex mRenderTextureMapLock MOZ_UNANNOTATED;
std::unordered_map<wr::ExternalImageId, RefPtr<RenderTextureHost>,
ExternalImageIdHashFn>
mRenderTextures;
std::unordered_map<wr::ExternalImageId, RefPtr<RenderTextureHost>,
ExternalImageIdHashFn>
mSyncObjectNeededRenderTextures;
std::list<std::pair<RenderTextureOp, RefPtr<RenderTextureHost>>>
mRenderTextureOps;
// Used to remove all RenderTextureHost that are going to be removed by
// a deferred callback and remove them right away without waiting for the
// callback. On device reset we have to remove all GL related resources right
// away.
std::list<RefPtr<RenderTextureHost>> mRenderTexturesDeferred;
RefPtr<nsIRunnable> mRenderTextureOpsRunnable;
bool mHasShutdown;
bool mHandlingDeviceReset;
bool mHandlingWebRenderError;
};
} // namespace wr
} // namespace mozilla
#endif
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