libs/hwui/renderthread/RenderThread.h - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 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
  *
  *      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.
  */

 #ifndef RENDERTHREAD_H_
 #define RENDERTHREAD_H_

 #include <GrDirectContext.h>
 #include <SkBitmap.h>
 #include <cutils/compiler.h>
 #include <private/android/choreographer.h>
 #include <surface_control_private.h>
 #include <thread/ThreadBase.h>
 #include <utils/Looper.h>
 #include <utils/Thread.h>

 #include <memory>
 #include <mutex>
 #include <set>

 #include "CacheManager.h"
 #include "MemoryPolicy.h"
 #include "ProfileDataContainer.h"
 #include "RenderTask.h"
 #include "TimeLord.h"
 #include "WebViewFunctorManager.h"
 #include "thread/ThreadBase.h"
 #include "utils/TimeUtils.h"

 namespace android {

 class Bitmap;

 namespace uirenderer {

 class AutoBackendTextureRelease;
 class Readback;
 class RenderState;
 class TestUtils;

 namespace skiapipeline {
 class VkFunctorDrawHandler;
 }

 namespace VectorDrawable {
 class Tree;
 }

 namespace renderthread {

 class CanvasContext;
 class EglManager;
 class RenderProxy;
 class VulkanManager;

 // Mimics android.view.Choreographer.FrameCallback
 class IFrameCallback {
 public:
     virtual void doFrame() = 0;

 protected:
     virtual ~IFrameCallback() {}
 };

 struct VsyncSource {
     virtual void requestNextVsync() = 0;
     virtual void drainPendingEvents() = 0;
     virtual ~VsyncSource() {}
 };

 typedef ASurfaceControl* (*ASC_create)(ASurfaceControl* parent, const char* debug_name);
 typedef void (*ASC_acquire)(ASurfaceControl* control);
 typedef void (*ASC_release)(ASurfaceControl* control);

 typedef void (*ASC_registerSurfaceStatsListener)(ASurfaceControl* control, int32_t id,
                                                  void* context,
                                                  ASurfaceControl_SurfaceStatsListener func);
 typedef void (*ASC_unregisterSurfaceStatsListener)(void* context,
                                                    ASurfaceControl_SurfaceStatsListener func);

 typedef int64_t (*ASCStats_getAcquireTime)(ASurfaceControlStats* stats);
 typedef uint64_t (*ASCStats_getFrameNumber)(ASurfaceControlStats* stats);

 typedef ASurfaceTransaction* (*AST_create)();
 typedef void (*AST_delete)(ASurfaceTransaction* transaction);
 typedef void (*AST_apply)(ASurfaceTransaction* transaction);
 typedef void (*AST_reparent)(ASurfaceTransaction* aSurfaceTransaction,
                              ASurfaceControl* aSurfaceControl,
                              ASurfaceControl* newParentASurfaceControl);
 typedef void (*AST_setVisibility)(ASurfaceTransaction* transaction,
                                   ASurfaceControl* surface_control, int8_t visibility);
 typedef void (*AST_setZOrder)(ASurfaceTransaction* transaction, ASurfaceControl* surface_control,
                               int32_t z_order);

 struct ASurfaceControlFunctions {
     ASurfaceControlFunctions();

     ASC_create createFunc;
     ASC_acquire acquireFunc;
     ASC_release releaseFunc;
     ASC_registerSurfaceStatsListener registerListenerFunc;
     ASC_unregisterSurfaceStatsListener unregisterListenerFunc;
     ASCStats_getAcquireTime getAcquireTimeFunc;
     ASCStats_getFrameNumber getFrameNumberFunc;

     AST_create transactionCreateFunc;
     AST_delete transactionDeleteFunc;
     AST_apply transactionApplyFunc;
     AST_reparent transactionReparentFunc;
     AST_setVisibility transactionSetVisibilityFunc;
     AST_setZOrder transactionSetZOrderFunc;
 };

 class ChoreographerSource;
 class DummyVsyncSource;

 typedef void (*JVMAttachHook)(const char* name);

 class RenderThread : private ThreadBase {
     PREVENT_COPY_AND_ASSIGN(RenderThread);

 public:
     // Sets a callback that fires before any RenderThread setup has occurred.
     static void setOnStartHook(JVMAttachHook onStartHook);
     static JVMAttachHook getOnStartHook();

     WorkQueue& queue() { return ThreadBase::queue(); }

     // Mimics android.view.Choreographer
     void postFrameCallback(IFrameCallback* callback);
     bool removeFrameCallback(IFrameCallback* callback);
     // If the callback is currently registered, it will be pushed back until
     // the next vsync. If it is not currently registered this does nothing.
     void pushBackFrameCallback(IFrameCallback* callback);

     TimeLord& timeLord() { return mTimeLord; }
     RenderState& renderState() const { return *mRenderState; }
     EglManager& eglManager() const { return *mEglManager; }
     ProfileDataContainer& globalProfileData() { return mGlobalProfileData; }
     std::mutex& getJankDataMutex() { return mJankDataMutex; }
     Readback& readback();

     GrDirectContext* getGrContext() const { return mGrContext.get(); }
     void setGrContext(sk_sp<GrDirectContext> cxt);
     sk_sp<GrDirectContext> requireGrContext();

     CacheManager& cacheManager() { return *mCacheManager; }
     VulkanManager& vulkanManager();

     sk_sp<Bitmap> allocateHardwareBitmap(SkBitmap& skBitmap);
     void dumpGraphicsMemory(int fd, bool includeProfileData);
     void getMemoryUsage(size_t* cpuUsage, size_t* gpuUsage);

     void requireGlContext();
     void requireVkContext();
     void destroyRenderingContext();

     void preload();

     const ASurfaceControlFunctions& getASurfaceControlFunctions() {
         return mASurfaceControlFunctions;
     }

     void trimMemory(TrimLevel level);
     void trimCaches(CacheTrimLevel level);

     /**
      * isCurrent provides a way to query, if the caller is running on
      * the render thread.
      *
      * @return true only if isCurrent is invoked from the render thread.
      */
     static bool isCurrent();

     static void initGrContextOptions(GrContextOptions& options);

 protected:
     virtual bool threadLoop() override;

 private:
     friend class DispatchFrameCallbacks;
     friend class RenderProxy;
     friend class DummyVsyncSource;
     friend class ChoreographerSource;
     friend class android::uirenderer::AutoBackendTextureRelease;
     friend class android::uirenderer::TestUtils;
     friend class android::uirenderer::WebViewFunctor;
     friend class android::uirenderer::skiapipeline::VkFunctorDrawHandler;
     friend class android::uirenderer::VectorDrawable::Tree;
     friend class sp<RenderThread>;

     RenderThread();
     virtual ~RenderThread();

     static bool hasInstance();
     static RenderThread& getInstance();

     void initThreadLocals();
     void initializeChoreographer();
     void setupFrameInterval();
     // Callbacks for choreographer events:
     // choreographerCallback will call AChoreograper_handleEvent to call the
     // corresponding callbacks for each display event type
     static int choreographerCallback(int fd, int events, void* data);
     // Callback that will be run on vsync ticks.
     static void extendedFrameCallback(const AChoreographerFrameCallbackData* cbData, void* data);
     void frameCallback(int64_t vsyncId, int64_t frameDeadline, int64_t frameTimeNanos,
                        int64_t frameInterval);
     // Callback that will be run whenver there is a refresh rate change.
     static void refreshRateCallback(int64_t vsyncPeriod, void* data);
     void drainDisplayEventQueue();
     void dispatchFrameCallbacks();
     void requestVsync();

     AChoreographer* mChoreographer;
     VsyncSource* mVsyncSource;
     bool mVsyncRequested;
     std::set<IFrameCallback*> mFrameCallbacks;
     // We defer the actual registration of these callbacks until
     // both mQueue *and* mDisplayEventReceiver have been drained off all
     // immediate events. This makes sure that we catch the next vsync, not
     // the previous one
     std::set<IFrameCallback*> mPendingRegistrationFrameCallbacks;
     bool mFrameCallbackTaskPending;

     TimeLord mTimeLord;
     RenderState* mRenderState;
     EglManager* mEglManager;
     WebViewFunctorManager& mFunctorManager;

     ProfileDataContainer mGlobalProfileData;
     Readback* mReadback = nullptr;

     sk_sp<GrDirectContext> mGrContext;
     CacheManager* mCacheManager;
     sp<VulkanManager> mVkManager;

     ASurfaceControlFunctions mASurfaceControlFunctions;
     std::mutex mJankDataMutex;
 };

 } /* namespace renderthread */
 } /* namespace uirenderer */
 } /* namespace android */
 #endif /* RENDERTHREAD_H_ */
	/*
	* Copyright (C) 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
	*
	* 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.
	*/

	#ifndef RENDERTHREAD_H_
	#define RENDERTHREAD_H_

	#include <GrDirectContext.h>
	#include <SkBitmap.h>
	#include <cutils/compiler.h>
	#include <private/android/choreographer.h>
	#include <surface_control_private.h>
	#include <thread/ThreadBase.h>
	#include <utils/Looper.h>
	#include <utils/Thread.h>

	#include <memory>
	#include <mutex>
	#include <set>

	#include "CacheManager.h"
	#include "MemoryPolicy.h"
	#include "ProfileDataContainer.h"
	#include "RenderTask.h"
	#include "TimeLord.h"
	#include "WebViewFunctorManager.h"
	#include "thread/ThreadBase.h"
	#include "utils/TimeUtils.h"

	namespace android {

	class Bitmap;

	namespace uirenderer {

	class AutoBackendTextureRelease;
	class Readback;
	class RenderState;
	class TestUtils;

	namespace skiapipeline {
	class VkFunctorDrawHandler;
	}

	namespace VectorDrawable {
	class Tree;
	}

	namespace renderthread {

	class CanvasContext;
	class EglManager;
	class RenderProxy;
	class VulkanManager;

	// Mimics android.view.Choreographer.FrameCallback
	class IFrameCallback {
	public:
	virtual void doFrame() = 0;

	protected:
	virtual ~IFrameCallback() {}
	};

	struct VsyncSource {
	virtual void requestNextVsync() = 0;
	virtual void drainPendingEvents() = 0;
	virtual ~VsyncSource() {}
	};

	typedef ASurfaceControl* (ASC_create)(ASurfaceControl parent, const char* debug_name);
	typedef void (ASC_acquire)(ASurfaceControl control);
	typedef void (ASC_release)(ASurfaceControl control);

	typedef void (ASC_registerSurfaceStatsListener)(ASurfaceControl control, int32_t id,
	void* context,
	ASurfaceControl_SurfaceStatsListener func);
	typedef void (ASC_unregisterSurfaceStatsListener)(void context,
	ASurfaceControl_SurfaceStatsListener func);

	typedef int64_t (ASCStats_getAcquireTime)(ASurfaceControlStats stats);
	typedef uint64_t (ASCStats_getFrameNumber)(ASurfaceControlStats stats);

	typedef ASurfaceTransaction* (*AST_create)();
	typedef void (AST_delete)(ASurfaceTransaction transaction);
	typedef void (AST_apply)(ASurfaceTransaction transaction);
	typedef void (AST_reparent)(ASurfaceTransaction aSurfaceTransaction,
	ASurfaceControl* aSurfaceControl,
	ASurfaceControl* newParentASurfaceControl);
	typedef void (AST_setVisibility)(ASurfaceTransaction transaction,
	ASurfaceControl* surface_control, int8_t visibility);
	typedef void (AST_setZOrder)(ASurfaceTransaction transaction, ASurfaceControl* surface_control,
	int32_t z_order);

	struct ASurfaceControlFunctions {
	ASurfaceControlFunctions();

	ASC_create createFunc;
	ASC_acquire acquireFunc;
	ASC_release releaseFunc;
	ASC_registerSurfaceStatsListener registerListenerFunc;
	ASC_unregisterSurfaceStatsListener unregisterListenerFunc;
	ASCStats_getAcquireTime getAcquireTimeFunc;
	ASCStats_getFrameNumber getFrameNumberFunc;

	AST_create transactionCreateFunc;
	AST_delete transactionDeleteFunc;
	AST_apply transactionApplyFunc;
	AST_reparent transactionReparentFunc;
	AST_setVisibility transactionSetVisibilityFunc;
	AST_setZOrder transactionSetZOrderFunc;
	};

	class ChoreographerSource;
	class DummyVsyncSource;

	typedef void (JVMAttachHook)(const char name);

	class RenderThread : private ThreadBase {
	PREVENT_COPY_AND_ASSIGN(RenderThread);

	public:
	// Sets a callback that fires before any RenderThread setup has occurred.
	static void setOnStartHook(JVMAttachHook onStartHook);
	static JVMAttachHook getOnStartHook();

	WorkQueue& queue() { return ThreadBase::queue(); }

	// Mimics android.view.Choreographer
	void postFrameCallback(IFrameCallback* callback);
	bool removeFrameCallback(IFrameCallback* callback);
	// If the callback is currently registered, it will be pushed back until
	// the next vsync. If it is not currently registered this does nothing.
	void pushBackFrameCallback(IFrameCallback* callback);

	TimeLord& timeLord() { return mTimeLord; }
	RenderState& renderState() const { return *mRenderState; }
	EglManager& eglManager() const { return *mEglManager; }
	ProfileDataContainer& globalProfileData() { return mGlobalProfileData; }
	std::mutex& getJankDataMutex() { return mJankDataMutex; }
	Readback& readback();

	GrDirectContext* getGrContext() const { return mGrContext.get(); }
	void setGrContext(sk_sp<GrDirectContext> cxt);
	sk_sp<GrDirectContext> requireGrContext();

	CacheManager& cacheManager() { return *mCacheManager; }
	VulkanManager& vulkanManager();

	sk_sp<Bitmap> allocateHardwareBitmap(SkBitmap& skBitmap);
	void dumpGraphicsMemory(int fd, bool includeProfileData);
	void getMemoryUsage(size_t* cpuUsage, size_t* gpuUsage);

	void requireGlContext();
	void requireVkContext();
	void destroyRenderingContext();

	void preload();

	const ASurfaceControlFunctions& getASurfaceControlFunctions() {
	return mASurfaceControlFunctions;
	}

	void trimMemory(TrimLevel level);
	void trimCaches(CacheTrimLevel level);

	/**
	* isCurrent provides a way to query, if the caller is running on
	* the render thread.
	*
	* @return true only if isCurrent is invoked from the render thread.
	*/
	static bool isCurrent();

	static void initGrContextOptions(GrContextOptions& options);

	protected:
	virtual bool threadLoop() override;

	private:
	friend class DispatchFrameCallbacks;
	friend class RenderProxy;
	friend class DummyVsyncSource;
	friend class ChoreographerSource;
	friend class android::uirenderer::AutoBackendTextureRelease;
	friend class android::uirenderer::TestUtils;
	friend class android::uirenderer::WebViewFunctor;
	friend class android::uirenderer::skiapipeline::VkFunctorDrawHandler;
	friend class android::uirenderer::VectorDrawable::Tree;
	friend class sp<RenderThread>;

	RenderThread();
	virtual ~RenderThread();

	static bool hasInstance();
	static RenderThread& getInstance();

	void initThreadLocals();
	void initializeChoreographer();
	void setupFrameInterval();
	// Callbacks for choreographer events:
	// choreographerCallback will call AChoreograper_handleEvent to call the
	// corresponding callbacks for each display event type
	static int choreographerCallback(int fd, int events, void* data);
	// Callback that will be run on vsync ticks.
	static void extendedFrameCallback(const AChoreographerFrameCallbackData* cbData, void* data);
	void frameCallback(int64_t vsyncId, int64_t frameDeadline, int64_t frameTimeNanos,
	int64_t frameInterval);
	// Callback that will be run whenver there is a refresh rate change.
	static void refreshRateCallback(int64_t vsyncPeriod, void* data);
	void drainDisplayEventQueue();
	void dispatchFrameCallbacks();
	void requestVsync();

	AChoreographer* mChoreographer;
	VsyncSource* mVsyncSource;
	bool mVsyncRequested;
	std::set<IFrameCallback*> mFrameCallbacks;
	// We defer the actual registration of these callbacks until
	// both mQueue and mDisplayEventReceiver have been drained off all
	// immediate events. This makes sure that we catch the next vsync, not
	// the previous one
	std::set<IFrameCallback*> mPendingRegistrationFrameCallbacks;
	bool mFrameCallbackTaskPending;

	TimeLord mTimeLord;
	RenderState* mRenderState;
	EglManager* mEglManager;
	WebViewFunctorManager& mFunctorManager;

	ProfileDataContainer mGlobalProfileData;
	Readback* mReadback = nullptr;

	sk_sp<GrDirectContext> mGrContext;
	CacheManager* mCacheManager;
	sp<VulkanManager> mVkManager;

	ASurfaceControlFunctions mASurfaceControlFunctions;
	std::mutex mJankDataMutex;
	};

	} /* namespace renderthread */
	} /* namespace uirenderer */
	} /* namespace android */
	#endif /* RENDERTHREAD_H_ */