/* -*- 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_GFX_DRAWEVENTRECORDER_H_ #define MOZILLA_GFX_DRAWEVENTRECORDER_H_ #include "2D.h" #include "RecordedEvent.h" #include "RecordingTypes.h" #include #include #include #include #include "mozilla/DataMutex.h" #include "mozilla/ThreadSafeWeakPtr.h" #include "nsTHashSet.h" namespace mozilla { namespace gfx { class PathRecording; class DrawEventRecorderPrivate : public DrawEventRecorder { public: MOZ_DECLARE_REFCOUNTED_VIRTUAL_TYPENAME(DrawEventRecorderPrivate, override) DrawEventRecorderPrivate(); virtual ~DrawEventRecorderPrivate() = default; bool Finish() override { ClearResources(); return true; } virtual void FlushItem(IntRect) {} void DetachResources() { std::unordered_set fonts; fonts.swap(mStoredFonts); std::for_each(fonts.begin(), fonts.end(), [this](auto font) { font->RemoveUserData(reinterpret_cast(this)); }); // SourceSurfaces can be deleted off the main thread, so we use // ThreadSafeWeakPtrs to allow for this. RemoveUserData is thread safe. std::unordered_map> surfaces; surfaces.swap(mStoredSurfaces); std::for_each(surfaces.begin(), surfaces.end(), [this](auto surfacePair) { RefPtr strongRef(surfacePair.second); if (strongRef) { strongRef->RemoveUserData(reinterpret_cast(this)); } }); // Now that we've detached we can't get any more pending deletions, so // processing now should mean we include all clean up operations. ProcessPendingDeletions(); } void ClearResources() { mStoredObjects.clear(); mStoredFontData.clear(); mScaledFonts.clear(); } template void WriteHeader(S& aStream) { WriteElement(aStream, kMagicInt); WriteElement(aStream, kMajorRevision); WriteElement(aStream, kMinorRevision); } virtual void RecordEvent(const RecordedEvent& aEvent) = 0; void AddStoredObject(const ReferencePtr aObject) { ProcessPendingDeletions(); mStoredObjects.insert(aObject); } /** * This is a combination of HasStoredObject and AddStoredObject, so that we * only have to call ProcessPendingDeletions once, which involves locking. * @param aObject the object to store if not already stored * @return true if the object was not already stored, false if it was */ bool TryAddStoredObject(const ReferencePtr aObject) { ProcessPendingDeletions(); if (mStoredObjects.find(aObject) != mStoredObjects.end()) { return false; } mStoredObjects.insert(aObject); return true; } void AddPendingDeletion(std::function&& aPendingDeletion) { auto lockedPendingDeletions = mPendingDeletions.Lock(); lockedPendingDeletions->emplace_back(std::move(aPendingDeletion)); } void RemoveStoredObject(const ReferencePtr aObject) { mStoredObjects.erase(aObject); } /** * @param aUnscaledFont the UnscaledFont to increment the reference count for * @return the previous reference count */ int32_t IncrementUnscaledFontRefCount(const ReferencePtr aUnscaledFont) { int32_t& count = mUnscaledFontRefs[aUnscaledFont]; return count++; } /** * Decrements the reference count for aUnscaledFont and, if count is now zero, * records its destruction. * @param aUnscaledFont the UnscaledFont to decrement the reference count for */ void DecrementUnscaledFontRefCount(const ReferencePtr aUnscaledFont); void AddScaledFont(ScaledFont* aFont) { if (mStoredFonts.insert(aFont).second && WantsExternalFonts()) { mScaledFonts.push_back(aFont); } } void RemoveScaledFont(ScaledFont* aFont) { mStoredFonts.erase(aFont); } void AddSourceSurface(SourceSurface* aSurface) { mStoredSurfaces.emplace(aSurface, aSurface); } void RemoveSourceSurface(SourceSurface* aSurface) { mStoredSurfaces.erase(aSurface); } #if defined(DEBUG) // Only used within debug assertions. bool HasStoredObject(const ReferencePtr aObject) { ProcessPendingDeletions(); return mStoredObjects.find(aObject) != mStoredObjects.end(); } #endif void AddStoredFontData(const uint64_t aFontDataKey) { mStoredFontData.insert(aFontDataKey); } bool HasStoredFontData(const uint64_t aFontDataKey) { return mStoredFontData.find(aFontDataKey) != mStoredFontData.end(); } bool WantsExternalFonts() const { return mExternalFonts; } void TakeExternalSurfaces(std::vector>& aSurfaces) { aSurfaces = std::move(mExternalSurfaces); } virtual void StoreSourceSurfaceRecording(SourceSurface* aSurface, const char* aReason); /** * Used when a source surface is destroyed, aSurface is a void* instead of a * SourceSurface* because this is called during the SourceSurface destructor, * so it is partially destructed and should not be accessed. * @param aSurface the surface whose destruction is being recorded */ void RecordSourceSurfaceDestruction(void* aSurface); virtual void AddDependentSurface(uint64_t aDependencyId) { MOZ_CRASH("GFX: AddDependentSurface"); } protected: void StoreExternalSurfaceRecording(SourceSurface* aSurface, uint64_t aKey); void ProcessPendingDeletions() { MOZ_ASSERT(NS_IsMainThread()); PendingDeletionsVector pendingDeletions; { auto lockedPendingDeletions = mPendingDeletions.Lock(); pendingDeletions.swap(*lockedPendingDeletions); } for (const auto& pendingDeletion : pendingDeletions) { pendingDeletion(); } } virtual void Flush() = 0; std::unordered_set mStoredObjects; using PendingDeletionsVector = std::vector>; DataMutex mPendingDeletions{ "DrawEventRecorderPrivate::mPendingDeletions"}; // It's difficult to track the lifetimes of UnscaledFonts directly, so we // instead track the number of recorded ScaledFonts that hold a reference to // an Unscaled font and use that as a proxy to the real lifetime. An // UnscaledFonts lifetime could be longer than this, but we only use the // ScaledFonts directly and if another uses an UnscaledFont we have destroyed // on the translation side, it will be recreated. std::unordered_map mUnscaledFontRefs; std::unordered_set mStoredFontData; std::unordered_set mStoredFonts; std::vector> mScaledFonts; // SourceSurfaces can get deleted off the main thread, so we hold a map of the // raw pointer to a ThreadSafeWeakPtr to protect against this. std::unordered_map> mStoredSurfaces; std::vector> mExternalSurfaces; bool mExternalFonts; }; typedef std::function>& aScaledFonts)> SerializeResourcesFn; // WARNING: This should not be used in its existing state because // it is likely to OOM because of large continguous allocations. class DrawEventRecorderMemory : public DrawEventRecorderPrivate { public: MOZ_DECLARE_REFCOUNTED_VIRTUAL_TYPENAME(DrawEventRecorderMemory, override) /** * Constructs a DrawEventRecorder that stores the recording in memory. */ DrawEventRecorderMemory(); explicit DrawEventRecorderMemory(const SerializeResourcesFn& aSerialize); void RecordEvent(const RecordedEvent& aEvent) override; void AddDependentSurface(uint64_t aDependencyId) override; nsTHashSet&& TakeDependentSurfaces(); /** * @return the current size of the recording (in chars). */ size_t RecordingSize(); /** * Wipes the internal recording buffer, but the recorder does NOT forget which * objects it has recorded. This can be used so that a recording can be copied * and processed in chunks, releasing memory as it goes. */ void WipeRecording(); bool Finish() override; void FlushItem(IntRect) override; MemStream mOutputStream; /* The index stream is of the form: * ItemIndex { size_t dataEnd; size_t extraDataEnd; } * It gets concatenated to the end of mOutputStream in Finish() * The last size_t in the stream is offset of the begining of the * index. */ MemStream mIndex; protected: virtual ~DrawEventRecorderMemory() = default; private: SerializeResourcesFn mSerializeCallback; nsTHashSet mDependentSurfaces; void Flush() override; }; } // namespace gfx } // namespace mozilla #endif /* MOZILLA_GFX_DRAWEVENTRECORDER_H_ */