/* -*- 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/. */ #include "mozilla/dom/DocGroup.h" #include "mozilla/dom/DOMTypes.h" #include "mozilla/dom/TabGroup.h" #include "mozilla/AbstractThread.h" #include "mozilla/PerformanceUtils.h" #include "mozilla/StaticPrefs.h" #include "mozilla/Telemetry.h" #include "nsIDocShell.h" #include "nsDOMMutationObserver.h" #include "nsProxyRelease.h" #if defined(XP_WIN) # include // for GetCurrentProcessId() #else # include // for getpid() #endif // defined(XP_WIN) namespace mozilla { namespace dom { AutoTArray, 2>* DocGroup::sPendingDocGroups = nullptr; /* static */ nsresult DocGroup::GetKey(nsIPrincipal* aPrincipal, nsACString& aKey) { // Use GetBaseDomain() to handle things like file URIs, IP address URIs, // etc. correctly. nsresult rv = aPrincipal->GetBaseDomain(aKey); if (NS_FAILED(rv)) { // We don't really know what to do here. But we should be conservative, // otherwise it would be possible to reorder two events incorrectly in the // future if we interrupt at the DocGroup level, so to be safe, use an // empty string to classify all such documents as belonging to the same // DocGroup. aKey.Truncate(); } return rv; } void DocGroup::RemoveDocument(Document* aDocument) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(mDocuments.Contains(aDocument)); mDocuments.RemoveElement(aDocument); } DocGroup::DocGroup(TabGroup* aTabGroup, const nsACString& aKey) : mKey(aKey), mTabGroup(aTabGroup) { // This method does not add itself to mTabGroup->mDocGroups as the caller does // it for us. if (mozilla::StaticPrefs::dom_performance_enable_scheduler_timing()) { mPerformanceCounter = new mozilla::PerformanceCounter(NS_LITERAL_CSTRING("DocGroup:") + aKey); } } DocGroup::~DocGroup() { MOZ_ASSERT(mDocuments.IsEmpty()); if (!NS_IsMainThread()) { nsIEventTarget* target = EventTargetFor(TaskCategory::Other); NS_ProxyRelease("DocGroup::mReactionsStack", target, mReactionsStack.forget()); } mTabGroup->mDocGroups.RemoveEntry(mKey); } RefPtr DocGroup::ReportPerformanceInfo() { AssertIsOnMainThread(); MOZ_ASSERT(mPerformanceCounter); #if defined(XP_WIN) uint32_t pid = GetCurrentProcessId(); #else uint32_t pid = getpid(); #endif uint64_t windowID = 0; uint16_t count = 0; uint64_t duration = 0; bool isTopLevel = false; nsCString host; nsCOMPtr top; RefPtr mainThread; // iterating on documents until we find the top window for (const auto& document : *this) { nsCOMPtr doc = document; MOZ_ASSERT(doc); nsCOMPtr docURI = doc->GetDocumentURI(); if (!docURI) { continue; } docURI->GetHost(host); // If the host is empty, using the url if (host.IsEmpty()) { host = docURI->GetSpecOrDefault(); } // looking for the top level document URI nsPIDOMWindowOuter* win = doc->GetWindow(); if (!win) { continue; } top = win->GetTop(); if (!top) { continue; } windowID = top->WindowID(); isTopLevel = win->IsTopLevelWindow(); mainThread = AbstractMainThreadFor(TaskCategory::Performance); break; } MOZ_ASSERT(!host.IsEmpty()); duration = mPerformanceCounter->GetExecutionDuration(); FallibleTArray items; // now that we have the host and window ids, let's look at the perf counters for (uint32_t index = 0; index < (uint32_t)TaskCategory::Count; index++) { TaskCategory category = static_cast(index); count = mPerformanceCounter->GetDispatchCount(DispatchCategory(category)); CategoryDispatch item = CategoryDispatch(index, count); if (!items.AppendElement(item, fallible)) { NS_ERROR("Could not complete the operation"); break; } } if (!isTopLevel) { return PerformanceInfoPromise::CreateAndResolve( PerformanceInfo(host, pid, windowID, duration, mPerformanceCounter->GetID(), false, isTopLevel, PerformanceMemoryInfo(), // Empty memory info items), __func__); } MOZ_ASSERT(mainThread); RefPtr self = this; return CollectMemoryInfo(top, mainThread) ->Then( mainThread, __func__, [self, host, pid, windowID, duration, isTopLevel, items](const PerformanceMemoryInfo& aMemoryInfo) { PerformanceInfo info = PerformanceInfo(host, pid, windowID, duration, self->mPerformanceCounter->GetID(), false, isTopLevel, aMemoryInfo, items); return PerformanceInfoPromise::CreateAndResolve(std::move(info), __func__); }, [self](const nsresult rv) { return PerformanceInfoPromise::CreateAndReject(rv, __func__); }); } nsresult DocGroup::Dispatch(TaskCategory aCategory, already_AddRefed&& aRunnable) { if (mPerformanceCounter) { mPerformanceCounter->IncrementDispatchCounter(DispatchCategory(aCategory)); } return mTabGroup->DispatchWithDocGroup(aCategory, std::move(aRunnable), this); } nsISerialEventTarget* DocGroup::EventTargetFor(TaskCategory aCategory) const { return mTabGroup->EventTargetFor(aCategory); } AbstractThread* DocGroup::AbstractMainThreadFor(TaskCategory aCategory) { MOZ_RELEASE_ASSERT(NS_IsMainThread()); return mTabGroup->AbstractMainThreadFor(aCategory); } bool* DocGroup::GetValidAccessPtr() { return mTabGroup->GetValidAccessPtr(); } void DocGroup::SignalSlotChange(HTMLSlotElement& aSlot) { MOZ_ASSERT(!mSignalSlotList.Contains(&aSlot)); mSignalSlotList.AppendElement(&aSlot); if (!sPendingDocGroups) { // Queue a mutation observer compound microtask. nsDOMMutationObserver::QueueMutationObserverMicroTask(); sPendingDocGroups = new AutoTArray, 2>; } sPendingDocGroups->AppendElement(this); } void DocGroup::MoveSignalSlotListTo(nsTArray>& aDest) { aDest.SetCapacity(aDest.Length() + mSignalSlotList.Length()); for (RefPtr& slot : mSignalSlotList) { slot->RemovedFromSignalSlotList(); aDest.AppendElement(std::move(slot)); } mSignalSlotList.Clear(); } bool DocGroup::IsActive() const { for (Document* doc : mDocuments) { if (doc->IsCurrentActiveDocument()) { return true; } } return false; } } // namespace dom } // namespace mozilla