/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=8 et : */ /* 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/. */ #include "LayerTransactionParent.h" #include // for vector #include "apz/src/AsyncPanZoomController.h" #include "CompositableHost.h" // for CompositableParent, Get, etc #include "ImageLayers.h" // for ImageLayer #include "Layers.h" // for Layer, ContainerLayer, etc #include "ShadowLayerParent.h" // for ShadowLayerParent #include "CompositableTransactionParent.h" // for EditReplyVector #include "CompositorBridgeParent.h" #include "gfxPrefs.h" #include "mozilla/gfx/BasePoint3D.h" // for BasePoint3D #include "mozilla/layers/CanvasLayerComposite.h" #include "mozilla/layers/ColorLayerComposite.h" #include "mozilla/layers/Compositor.h" // for Compositor #include "mozilla/layers/ContainerLayerComposite.h" #include "mozilla/layers/ImageBridgeParent.h" // for ImageBridgeParent #include "mozilla/layers/ImageLayerComposite.h" #include "mozilla/layers/LayerManagerComposite.h" #include "mozilla/layers/LayersMessages.h" // for EditReply, etc #include "mozilla/layers/LayersSurfaces.h" // for PGrallocBufferParent #include "mozilla/layers/LayersTypes.h" // for MOZ_LAYERS_LOG #include "mozilla/layers/PCompositableParent.h" #include "mozilla/layers/PLayerParent.h" // for PLayerParent #include "mozilla/layers/TextureHostOGL.h" // for TextureHostOGL #include "mozilla/layers/PaintedLayerComposite.h" #include "mozilla/mozalloc.h" // for operator delete, etc #include "mozilla/Unused.h" #include "nsCoord.h" // for NSAppUnitsToFloatPixels #include "nsDebug.h" // for NS_RUNTIMEABORT #include "nsDeviceContext.h" // for AppUnitsPerCSSPixel #include "nsISupportsImpl.h" // for Layer::Release, etc #include "nsLayoutUtils.h" // for nsLayoutUtils #include "nsMathUtils.h" // for NS_round #include "nsPoint.h" // for nsPoint #include "nsTArray.h" // for nsTArray, nsTArray_Impl, etc #include "TreeTraversal.h" // for ForEachNode #include "GeckoProfiler.h" #include "mozilla/layers/TextureHost.h" #include "mozilla/layers/AsyncCompositionManager.h" typedef std::vector EditReplyVector; using mozilla::layout::RenderFrameParent; namespace mozilla { namespace layers { //-------------------------------------------------- // Convenience accessors static ShadowLayerParent* cast(const PLayerParent* in) { return const_cast( static_cast(in)); } template static ShadowLayerParent* AsLayerComposite(const OpCreateT& op) { return cast(op.layerParent()); } static ShadowLayerParent* AsLayerComposite(const OpSetRoot& op) { return cast(op.rootParent()); } static ShadowLayerParent* ShadowContainer(const OpInsertAfter& op) { return cast(op.containerParent()); } static ShadowLayerParent* ShadowChild(const OpInsertAfter& op) { return cast(op.childLayerParent()); } static ShadowLayerParent* ShadowAfter(const OpInsertAfter& op) { return cast(op.afterParent()); } static ShadowLayerParent* ShadowContainer(const OpPrependChild& op) { return cast(op.containerParent()); } static ShadowLayerParent* ShadowChild(const OpPrependChild& op) { return cast(op.childLayerParent()); } static ShadowLayerParent* ShadowContainer(const OpRemoveChild& op) { return cast(op.containerParent()); } static ShadowLayerParent* ShadowChild(const OpRemoveChild& op) { return cast(op.childLayerParent()); } static ShadowLayerParent* ShadowContainer(const OpRepositionChild& op) { return cast(op.containerParent()); } static ShadowLayerParent* ShadowChild(const OpRepositionChild& op) { return cast(op.childLayerParent()); } static ShadowLayerParent* ShadowAfter(const OpRepositionChild& op) { return cast(op.afterParent()); } static ShadowLayerParent* ShadowContainer(const OpRaiseToTopChild& op) { return cast(op.containerParent()); } static ShadowLayerParent* ShadowChild(const OpRaiseToTopChild& op) { return cast(op.childLayerParent()); } //-------------------------------------------------- // LayerTransactionParent LayerTransactionParent::LayerTransactionParent(LayerManagerComposite* aManager, CompositorBridgeParentBase* aBridge, uint64_t aId) : mLayerManager(aManager) , mCompositorBridge(aBridge) , mId(aId) , mChildEpoch(0) , mParentEpoch(0) , mPendingTransaction(0) , mPendingCompositorUpdates(0) , mDestroyed(false) , mIPCOpen(false) { } LayerTransactionParent::~LayerTransactionParent() { } void LayerTransactionParent::SetLayerManager(LayerManagerComposite* aLayerManager) { mLayerManager = aLayerManager; const ManagedContainer& layers = ManagedPLayerParent(); for (auto iter = layers.ConstIter(); !iter.Done(); iter.Next()) { ShadowLayerParent* slp = static_cast(iter.Get()->GetKey()); if (slp->AsLayer() && slp->AsLayer()->AsLayerComposite()) { slp->AsLayer()->AsLayerComposite()->SetLayerManager(aLayerManager); } } } bool LayerTransactionParent::RecvShutdown() { Destroy(); return Send__delete__(this); } void LayerTransactionParent::Destroy() { const ManagedContainer& layers = ManagedPLayerParent(); for (auto iter = layers.ConstIter(); !iter.Done(); iter.Next()) { ShadowLayerParent* slp = static_cast(iter.Get()->GetKey()); slp->Destroy(); } mDestroyed = true; } bool LayerTransactionParent::RecvUpdateNoSwap(InfallibleTArray&& cset, InfallibleTArray&& aToDestroy, const uint64_t& aFwdTransactionId, const uint64_t& aTransactionId, const TargetConfig& targetConfig, PluginsArray&& aPlugins, const bool& isFirstPaint, const bool& scheduleComposite, const uint32_t& paintSequenceNumber, const bool& isRepeatTransaction, const mozilla::TimeStamp& aTransactionStart, const int32_t& aPaintSyncId) { return RecvUpdate(Move(cset), Move(aToDestroy), aFwdTransactionId, aTransactionId, targetConfig, Move(aPlugins), isFirstPaint, scheduleComposite, paintSequenceNumber, isRepeatTransaction, aTransactionStart, aPaintSyncId, nullptr); } class MOZ_STACK_CLASS AutoLayerTransactionParentAsyncMessageSender { public: explicit AutoLayerTransactionParentAsyncMessageSender(LayerTransactionParent* aLayerTransaction, InfallibleTArray* aDestroyActors = nullptr) : mLayerTransaction(aLayerTransaction) , mActorsToDestroy(aDestroyActors) { mLayerTransaction->SetAboutToSendAsyncMessages(); } ~AutoLayerTransactionParentAsyncMessageSender() { mLayerTransaction->SendPendingAsyncMessages(); if (mActorsToDestroy) { // Destroy the actors after sending the async messages because the latter may contain // references to some actors. for (const auto& op : *mActorsToDestroy) { mLayerTransaction->DestroyActor(op); } } } private: LayerTransactionParent* mLayerTransaction; InfallibleTArray* mActorsToDestroy; }; bool LayerTransactionParent::RecvPaintTime(const uint64_t& aTransactionId, const TimeDuration& aPaintTime) { mCompositorBridge->UpdatePaintTime(this, aPaintTime); return true; } bool LayerTransactionParent::RecvUpdate(InfallibleTArray&& cset, InfallibleTArray&& aToDestroy, const uint64_t& aFwdTransactionId, const uint64_t& aTransactionId, const TargetConfig& targetConfig, PluginsArray&& aPlugins, const bool& isFirstPaint, const bool& scheduleComposite, const uint32_t& paintSequenceNumber, const bool& isRepeatTransaction, const mozilla::TimeStamp& aTransactionStart, const int32_t& aPaintSyncId, InfallibleTArray* reply) { profiler_tracing("Paint", "LayerTransaction", TRACING_INTERVAL_START); PROFILER_LABEL("LayerTransactionParent", "RecvUpdate", js::ProfileEntry::Category::GRAPHICS); #ifdef COMPOSITOR_PERFORMANCE_WARNING TimeStamp updateStart = TimeStamp::Now(); #endif MOZ_LAYERS_LOG(("[ParentSide] received txn with %d edits", cset.Length())); UpdateFwdTransactionId(aFwdTransactionId); if (mDestroyed || !layer_manager() || layer_manager()->IsDestroyed()) { for (const auto& op : aToDestroy) { DestroyActor(op); } return true; } // This ensures that destroy operations are always processed. It is not safe // to early-return from RecvUpdate without doing so. AutoLayerTransactionParentAsyncMessageSender autoAsyncMessageSender(this, &aToDestroy); EditReplyVector replyv; { AutoResolveRefLayers resolve(mCompositorBridge->GetCompositionManager(this)); layer_manager()->BeginTransaction(); } // not all edits require an update to the hit testing tree bool updateHitTestingTree = false; for (EditArray::index_type i = 0; i < cset.Length(); ++i) { const Edit& edit = cset[i]; switch (edit.type()) { // Create* ops case Edit::TOpCreatePaintedLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreatePaintedLayer")); RefPtr layer = layer_manager()->CreatePaintedLayerComposite(); AsLayerComposite(edit.get_OpCreatePaintedLayer())->Bind(layer); updateHitTestingTree = true; break; } case Edit::TOpCreateContainerLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreateContainerLayer")); RefPtr layer = layer_manager()->CreateContainerLayerComposite(); AsLayerComposite(edit.get_OpCreateContainerLayer())->Bind(layer); updateHitTestingTree = true; break; } case Edit::TOpCreateImageLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreateImageLayer")); RefPtr layer = layer_manager()->CreateImageLayerComposite(); AsLayerComposite(edit.get_OpCreateImageLayer())->Bind(layer); updateHitTestingTree = true; break; } case Edit::TOpCreateColorLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreateColorLayer")); RefPtr layer = layer_manager()->CreateColorLayerComposite(); AsLayerComposite(edit.get_OpCreateColorLayer())->Bind(layer); updateHitTestingTree = true; break; } case Edit::TOpCreateCanvasLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreateCanvasLayer")); RefPtr layer = layer_manager()->CreateCanvasLayerComposite(); AsLayerComposite(edit.get_OpCreateCanvasLayer())->Bind(layer); updateHitTestingTree = true; break; } case Edit::TOpCreateRefLayer: { MOZ_LAYERS_LOG(("[ParentSide] CreateRefLayer")); RefPtr layer = layer_manager()->CreateRefLayerComposite(); AsLayerComposite(edit.get_OpCreateRefLayer())->Bind(layer); updateHitTestingTree = true; break; } // Attributes case Edit::TOpSetLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] SetLayerAttributes")); const OpSetLayerAttributes& osla = edit.get_OpSetLayerAttributes(); ShadowLayerParent* layerParent = AsLayerComposite(osla); Layer* layer = layerParent->AsLayer(); if (!layer) { return false; } const LayerAttributes& attrs = osla.attrs(); const CommonLayerAttributes& common = attrs.common(); layer->SetLayerBounds(common.layerBounds()); layer->SetVisibleRegion(common.visibleRegion()); layer->SetEventRegions(common.eventRegions()); layer->SetContentFlags(common.contentFlags()); layer->SetOpacity(common.opacity()); layer->SetClipRect(common.useClipRect() ? Some(common.clipRect()) : Nothing()); layer->SetScrolledClip(common.scrolledClip()); layer->SetBaseTransform(common.transform().value()); layer->SetTransformIsPerspective(common.transformIsPerspective()); layer->SetPostScale(common.postXScale(), common.postYScale()); layer->SetIsFixedPosition(common.isFixedPosition()); if (common.isFixedPosition()) { layer->SetFixedPositionData(common.fixedPositionScrollContainerId(), common.fixedPositionAnchor(), common.fixedPositionSides()); } if (common.isStickyPosition()) { layer->SetStickyPositionData(common.stickyScrollContainerId(), common.stickyScrollRangeOuter(), common.stickyScrollRangeInner()); } layer->SetScrollbarData(common.scrollbarTargetContainerId(), static_cast(common.scrollbarDirection()), common.scrollbarThumbRatio()); if (common.isScrollbarContainer()) { layer->SetIsScrollbarContainer(); } layer->SetMixBlendMode((gfx::CompositionOp)common.mixBlendMode()); layer->SetForceIsolatedGroup(common.forceIsolatedGroup()); if (PLayerParent* maskLayer = common.maskLayerParent()) { layer->SetMaskLayer(cast(maskLayer)->AsLayer()); } else { layer->SetMaskLayer(nullptr); } layer->SetAnimations(common.animations()); layer->SetScrollMetadata(common.scrollMetadata()); layer->SetDisplayListLog(common.displayListLog().get()); // The updated invalid region is added to the existing one, since we can // update multiple times before the next composite. layer->AddInvalidRegion(common.invalidRegion()); nsTArray> maskLayers; for (size_t i = 0; i < common.ancestorMaskLayersParent().Length(); i++) { Layer* maskLayer = cast(common.ancestorMaskLayersParent().ElementAt(i))->AsLayer(); maskLayers.AppendElement(maskLayer); } layer->SetAncestorMaskLayers(maskLayers); typedef SpecificLayerAttributes Specific; const SpecificLayerAttributes& specific = attrs.specific(); switch (specific.type()) { case Specific::Tnull_t: break; case Specific::TPaintedLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] painted layer")); PaintedLayerComposite* paintedLayer = layerParent->AsPaintedLayerComposite(); if (!paintedLayer) { return false; } const PaintedLayerAttributes& attrs = specific.get_PaintedLayerAttributes(); paintedLayer->SetValidRegion(attrs.validRegion()); break; } case Specific::TContainerLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] container layer")); ContainerLayerComposite* containerLayer = layerParent->AsContainerLayerComposite(); if (!containerLayer) { return false; } const ContainerLayerAttributes& attrs = specific.get_ContainerLayerAttributes(); containerLayer->SetPreScale(attrs.preXScale(), attrs.preYScale()); containerLayer->SetInheritedScale(attrs.inheritedXScale(), attrs.inheritedYScale()); containerLayer->SetScaleToResolution(attrs.scaleToResolution(), attrs.presShellResolution()); containerLayer->SetEventRegionsOverride(attrs.eventRegionsOverride()); break; } case Specific::TColorLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] color layer")); ColorLayerComposite* colorLayer = layerParent->AsColorLayerComposite(); if (!colorLayer) { return false; } colorLayer->SetColor(specific.get_ColorLayerAttributes().color().value()); colorLayer->SetBounds(specific.get_ColorLayerAttributes().bounds()); break; } case Specific::TCanvasLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] canvas layer")); CanvasLayerComposite* canvasLayer = layerParent->AsCanvasLayerComposite(); if (!canvasLayer) { return false; } canvasLayer->SetSamplingFilter(specific.get_CanvasLayerAttributes().samplingFilter()); canvasLayer->SetBounds(specific.get_CanvasLayerAttributes().bounds()); break; } case Specific::TRefLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] ref layer")); RefLayerComposite* refLayer = layerParent->AsRefLayerComposite(); if (!refLayer) { return false; } refLayer->SetReferentId(specific.get_RefLayerAttributes().id()); refLayer->SetEventRegionsOverride(specific.get_RefLayerAttributes().eventRegionsOverride()); break; } case Specific::TImageLayerAttributes: { MOZ_LAYERS_LOG(("[ParentSide] image layer")); ImageLayerComposite* imageLayer = layerParent->AsImageLayerComposite(); if (!imageLayer) { return false; } const ImageLayerAttributes& attrs = specific.get_ImageLayerAttributes(); imageLayer->SetSamplingFilter(attrs.samplingFilter()); imageLayer->SetScaleToSize(attrs.scaleToSize(), attrs.scaleMode()); break; } default: NS_RUNTIMEABORT("not reached"); } updateHitTestingTree = true; break; } case Edit::TOpSetDiagnosticTypes: { mLayerManager->GetCompositor()->SetDiagnosticTypes( edit.get_OpSetDiagnosticTypes().diagnostics()); break; } case Edit::TOpWindowOverlayChanged: { mLayerManager->SetWindowOverlayChanged(); break; } // Tree ops case Edit::TOpSetRoot: { MOZ_LAYERS_LOG(("[ParentSide] SetRoot")); Layer* newRoot = AsLayerComposite(edit.get_OpSetRoot())->AsLayer(); if (!newRoot) { return false; } if (newRoot->GetParent()) { // newRoot is not a root! return false; } mRoot = newRoot; updateHitTestingTree = true; break; } case Edit::TOpInsertAfter: { MOZ_LAYERS_LOG(("[ParentSide] InsertAfter")); const OpInsertAfter& oia = edit.get_OpInsertAfter(); Layer* child = ShadowChild(oia)->AsLayer(); if (!child) { return false; } ContainerLayerComposite* container = ShadowContainer(oia)->AsContainerLayerComposite(); if (!container || !container->InsertAfter(child, ShadowAfter(oia)->AsLayer())) { return false; } updateHitTestingTree = true; break; } case Edit::TOpPrependChild: { MOZ_LAYERS_LOG(("[ParentSide] PrependChild")); const OpPrependChild& oac = edit.get_OpPrependChild(); Layer* child = ShadowChild(oac)->AsLayer(); if (!child) { return false; } ContainerLayerComposite* container = ShadowContainer(oac)->AsContainerLayerComposite(); if (!container || !container->InsertAfter(child, nullptr)) { return false; } updateHitTestingTree = true; break; } case Edit::TOpRemoveChild: { MOZ_LAYERS_LOG(("[ParentSide] RemoveChild")); const OpRemoveChild& orc = edit.get_OpRemoveChild(); Layer* childLayer = ShadowChild(orc)->AsLayer(); if (!childLayer) { return false; } ContainerLayerComposite* container = ShadowContainer(orc)->AsContainerLayerComposite(); if (!container || !container->RemoveChild(childLayer)) { return false; } updateHitTestingTree = true; break; } case Edit::TOpRepositionChild: { MOZ_LAYERS_LOG(("[ParentSide] RepositionChild")); const OpRepositionChild& orc = edit.get_OpRepositionChild(); Layer* child = ShadowChild(orc)->AsLayer(); if (!child) { return false; } ContainerLayerComposite* container = ShadowContainer(orc)->AsContainerLayerComposite(); if (!container || !container->RepositionChild(child, ShadowAfter(orc)->AsLayer())) { return false; } updateHitTestingTree = true; break; } case Edit::TOpRaiseToTopChild: { MOZ_LAYERS_LOG(("[ParentSide] RaiseToTopChild")); const OpRaiseToTopChild& rtc = edit.get_OpRaiseToTopChild(); Layer* child = ShadowChild(rtc)->AsLayer(); if (!child) { return false; } ContainerLayerComposite* container = ShadowContainer(rtc)->AsContainerLayerComposite(); if (!container || !container->RepositionChild(child, nullptr)) { return false; } updateHitTestingTree = true; break; } case Edit::TCompositableOperation: { if (!ReceiveCompositableUpdate(edit.get_CompositableOperation(), replyv)) { return false; } break; } case Edit::TOpAttachCompositable: { const OpAttachCompositable& op = edit.get_OpAttachCompositable(); CompositableHost* host = CompositableHost::FromIPDLActor(op.compositableParent()); if (mPendingCompositorUpdates) { // Do not attach compositables from old layer trees. Return true since // content cannot handle errors. return true; } if (!Attach(cast(op.layerParent()), host, false)) { return false; } host->SetCompositorID(mLayerManager->GetCompositor()->GetCompositorID()); break; } case Edit::TOpAttachAsyncCompositable: { const OpAttachAsyncCompositable& op = edit.get_OpAttachAsyncCompositable(); PCompositableParent* compositableParent = CompositableMap::Get(op.containerID()); if (!compositableParent) { NS_ERROR("CompositableParent not found in the map"); return false; } if (mPendingCompositorUpdates) { // Do not attach compositables from old layer trees. Return true since // content cannot handle errors. return true; } CompositableHost* host = CompositableHost::FromIPDLActor(compositableParent); if (!Attach(cast(op.layerParent()), host, true)) { return false; } host->SetCompositorID(mLayerManager->GetCompositor()->GetCompositorID()); break; } default: NS_RUNTIMEABORT("not reached"); } } mCompositorBridge->ShadowLayersUpdated(this, aTransactionId, targetConfig, aPlugins, isFirstPaint, scheduleComposite, paintSequenceNumber, isRepeatTransaction, aPaintSyncId, updateHitTestingTree); { AutoResolveRefLayers resolve(mCompositorBridge->GetCompositionManager(this)); layer_manager()->EndTransaction(TimeStamp(), LayerManager::END_NO_IMMEDIATE_REDRAW); } if (reply) { reply->SetCapacity(replyv.size()); if (replyv.size() > 0) { reply->AppendElements(&replyv.front(), replyv.size()); } } if (!IsSameProcess()) { // Ensure that any pending operations involving back and front // buffers have completed, so that neither process stomps on the // other's buffer contents. LayerManagerComposite::PlatformSyncBeforeReplyUpdate(); } #ifdef COMPOSITOR_PERFORMANCE_WARNING int compositeTime = (int)(mozilla::TimeStamp::Now() - updateStart).ToMilliseconds(); if (compositeTime > 15) { printf_stderr("Compositor: Layers update took %i ms (blocking gecko).\n", compositeTime); } #endif // Enable visual warning for long transaction when draw FPS option is enabled bool drawFps = gfxPrefs::LayersDrawFPS(); if (drawFps) { uint32_t visualWarningTrigger = gfxPrefs::LayerTransactionWarning(); // The default theshold is 200ms to trigger, hit red when it take 4 times longer TimeDuration latency = TimeStamp::Now() - aTransactionStart; if (latency > TimeDuration::FromMilliseconds(visualWarningTrigger)) { float severity = (latency - TimeDuration::FromMilliseconds(visualWarningTrigger)).ToMilliseconds() / (4 * visualWarningTrigger); if (severity > 1.f) { severity = 1.f; } mLayerManager->VisualFrameWarning(severity); PR_LogPrint("LayerTransactionParent::RecvUpdate transaction from process %d took %f ms", OtherPid(), latency.ToMilliseconds()); } } profiler_tracing("Paint", "LayerTransaction", TRACING_INTERVAL_END); return true; } bool LayerTransactionParent::RecvSetLayerObserverEpoch(const uint64_t& aLayerObserverEpoch) { mChildEpoch = aLayerObserverEpoch; return true; } bool LayerTransactionParent::ShouldParentObserveEpoch() { if (mParentEpoch == mChildEpoch) { return false; } mParentEpoch = mChildEpoch; return true; } bool LayerTransactionParent::RecvSetTestSampleTime(const TimeStamp& aTime) { return mCompositorBridge->SetTestSampleTime(this, aTime); } bool LayerTransactionParent::RecvLeaveTestMode() { mCompositorBridge->LeaveTestMode(this); return true; } bool LayerTransactionParent::RecvGetAnimationOpacity(PLayerParent* aParent, float* aOpacity, bool* aHasAnimationOpacity) { *aHasAnimationOpacity = false; if (mDestroyed || !layer_manager() || layer_manager()->IsDestroyed()) { return false; } Layer* layer = cast(aParent)->AsLayer(); if (!layer) { return false; } mCompositorBridge->ApplyAsyncProperties(this); if (!layer->AsLayerComposite()->GetShadowOpacitySetByAnimation()) { return true; } *aOpacity = layer->GetLocalOpacity(); *aHasAnimationOpacity = true; return true; } bool LayerTransactionParent::RecvGetAnimationTransform(PLayerParent* aParent, MaybeTransform* aTransform) { if (mDestroyed || !layer_manager() || layer_manager()->IsDestroyed()) { return false; } Layer* layer = cast(aParent)->AsLayer(); if (!layer) { return false; } // Make sure we apply the latest animation style or else we can end up with // a race between when we temporarily clear the animation transform (in // CompositorBridgeParent::SetShadowProperties) and when animation recalculates // the value. mCompositorBridge->ApplyAsyncProperties(this); // This method is specific to transforms applied by animation. // This is because this method uses the information stored with an animation // such as the origin of the reference frame corresponding to the layer, to // recover the untranslated transform from the shadow transform. For // transforms that are not set by animation we don't have this information // available. if (!layer->AsLayerComposite()->GetShadowTransformSetByAnimation()) { *aTransform = mozilla::void_t(); return true; } // The following code recovers the untranslated transform // from the shadow transform by undoing the translations in // AsyncCompositionManager::SampleValue. Matrix4x4 transform = layer->AsLayerComposite()->GetShadowBaseTransform(); if (ContainerLayer* c = layer->AsContainerLayer()) { // Undo the scale transform applied by AsyncCompositionManager::SampleValue transform.PostScale(1.0f/c->GetInheritedXScale(), 1.0f/c->GetInheritedYScale(), 1.0f); } float scale = 1; Point3D scaledOrigin; Point3D transformOrigin; for (uint32_t i=0; i < layer->GetAnimations().Length(); i++) { if (layer->GetAnimations()[i].data().type() == AnimationData::TTransformData) { const TransformData& data = layer->GetAnimations()[i].data().get_TransformData(); scale = data.appUnitsPerDevPixel(); scaledOrigin = Point3D(NS_round(NSAppUnitsToFloatPixels(data.origin().x, scale)), NS_round(NSAppUnitsToFloatPixels(data.origin().y, scale)), 0.0f); transformOrigin = data.transformOrigin(); break; } } // If our parent isn't a perspective layer, then the offset into reference // frame coordinates will have been applied to us. Add an inverse translation // to cancel it out. if (!layer->GetParent() || !layer->GetParent()->GetTransformIsPerspective()) { transform.PostTranslate(-scaledOrigin.x, -scaledOrigin.y, -scaledOrigin.z); } // Undo the rebasing applied by // nsDisplayTransform::GetResultingTransformMatrixInternal transform.ChangeBasis(-transformOrigin); // Convert to CSS pixels (this undoes the operations performed by // nsStyleTransformMatrix::ProcessTranslatePart which is called from // nsDisplayTransform::GetResultingTransformMatrix) double devPerCss = double(scale) / double(nsDeviceContext::AppUnitsPerCSSPixel()); transform._41 *= devPerCss; transform._42 *= devPerCss; transform._43 *= devPerCss; *aTransform = transform; return true; } static AsyncPanZoomController* GetAPZCForViewID(Layer* aLayer, FrameMetrics::ViewID aScrollID) { AsyncPanZoomController* resultApzc = nullptr; ForEachNode( aLayer, [aScrollID, &resultApzc] (Layer* layer) { for (uint32_t i = 0; i < layer->GetScrollMetadataCount(); i++) { if (layer->GetFrameMetrics(i).GetScrollId() == aScrollID) { resultApzc = layer->GetAsyncPanZoomController(i); return TraversalFlag::Abort; } } return TraversalFlag::Continue; }); return resultApzc; } bool LayerTransactionParent::RecvSetAsyncScrollOffset(const FrameMetrics::ViewID& aScrollID, const float& aX, const float& aY) { if (mDestroyed || !layer_manager() || layer_manager()->IsDestroyed()) { return false; } AsyncPanZoomController* controller = GetAPZCForViewID(mRoot, aScrollID); if (!controller) { return false; } controller->SetTestAsyncScrollOffset(CSSPoint(aX, aY)); return true; } bool LayerTransactionParent::RecvSetAsyncZoom(const FrameMetrics::ViewID& aScrollID, const float& aValue) { if (mDestroyed || !layer_manager() || layer_manager()->IsDestroyed()) { return false; } AsyncPanZoomController* controller = GetAPZCForViewID(mRoot, aScrollID); if (!controller) { return false; } controller->SetTestAsyncZoom(LayerToParentLayerScale(aValue)); return true; } bool LayerTransactionParent::RecvFlushApzRepaints() { mCompositorBridge->FlushApzRepaints(this); return true; } bool LayerTransactionParent::RecvGetAPZTestData(APZTestData* aOutData) { mCompositorBridge->GetAPZTestData(this, aOutData); return true; } bool LayerTransactionParent::RecvRequestProperty(const nsString& aProperty, float* aValue) { if (aProperty.Equals(NS_LITERAL_STRING("overdraw"))) { *aValue = layer_manager()->GetCompositor()->GetFillRatio(); } else if (aProperty.Equals(NS_LITERAL_STRING("missed_hwc"))) { *aValue = layer_manager()->LastFrameMissedHWC() ? 1 : 0; } else { *aValue = -1; } return true; } bool LayerTransactionParent::RecvSetConfirmedTargetAPZC(const uint64_t& aBlockId, nsTArray&& aTargets) { mCompositorBridge->SetConfirmedTargetAPZC(this, aBlockId, aTargets); return true; } bool LayerTransactionParent::Attach(ShadowLayerParent* aLayerParent, CompositableHost* aCompositable, bool aIsAsync) { if (!aCompositable) { return false; } Layer* baselayer = aLayerParent->AsLayer(); if (!baselayer) { return false; } LayerComposite* layer = baselayer->AsLayerComposite(); if (!layer) { return false; } Compositor* compositor = static_cast(aLayerParent->AsLayer()->Manager())->GetCompositor(); if (!layer->SetCompositableHost(aCompositable)) { // not all layer types accept a compositable, see bug 967824 return false; } aCompositable->Attach(aLayerParent->AsLayer(), compositor, aIsAsync ? CompositableHost::ALLOW_REATTACH | CompositableHost::KEEP_ATTACHED : CompositableHost::NO_FLAGS); return true; } bool LayerTransactionParent::RecvClearCachedResources() { if (mRoot) { // NB: |mRoot| here is the *child* context's root. In this parent // context, it's just a subtree root. We need to scope the clear // of resources to exactly that subtree, so we specify it here. mLayerManager->ClearCachedResources(mRoot); } mCompositorBridge->NotifyClearCachedResources(this); return true; } bool LayerTransactionParent::RecvForceComposite() { mCompositorBridge->ForceComposite(this); return true; } PLayerParent* LayerTransactionParent::AllocPLayerParent() { return new ShadowLayerParent(); } bool LayerTransactionParent::DeallocPLayerParent(PLayerParent* actor) { delete actor; return true; } PCompositableParent* LayerTransactionParent::AllocPCompositableParent(const TextureInfo& aInfo) { return CompositableHost::CreateIPDLActor(this, aInfo, 0); } bool LayerTransactionParent::DeallocPCompositableParent(PCompositableParent* aActor) { return CompositableHost::DestroyIPDLActor(aActor); } void LayerTransactionParent::ActorDestroy(ActorDestroyReason why) { } bool LayerTransactionParent::AllocShmem(size_t aSize, ipc::SharedMemory::SharedMemoryType aType, ipc::Shmem* aShmem) { if (!mIPCOpen || mDestroyed) { return false; } return PLayerTransactionParent::AllocShmem(aSize, aType, aShmem); } bool LayerTransactionParent::AllocUnsafeShmem(size_t aSize, ipc::SharedMemory::SharedMemoryType aType, ipc::Shmem* aShmem) { if (!mIPCOpen || mDestroyed) { return false; } return PLayerTransactionParent::AllocUnsafeShmem(aSize, aType, aShmem); } void LayerTransactionParent::DeallocShmem(ipc::Shmem& aShmem) { if (!mIPCOpen || mDestroyed) { return; } PLayerTransactionParent::DeallocShmem(aShmem); } bool LayerTransactionParent::IsSameProcess() const { return OtherPid() == base::GetCurrentProcId(); } void LayerTransactionParent::SendAsyncMessage(const InfallibleTArray& aMessage) { MOZ_ASSERT_UNREACHABLE("unexpected to be called"); } void LayerTransactionParent::SendPendingAsyncMessages() { mCompositorBridge->SendPendingAsyncMessages(); } void LayerTransactionParent::SetAboutToSendAsyncMessages() { mCompositorBridge->SetAboutToSendAsyncMessages(); } void LayerTransactionParent::NotifyNotUsed(PTextureParent* aTexture, uint64_t aTransactionId) { MOZ_ASSERT_UNREACHABLE("unexpected to be called"); } } // namespace layers } // namespace mozilla