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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
#include "ScriptLoader.h"
#include "ScriptLoadHandler.h"
#include "ScriptTrace.h"
#include "ModuleLoader.h"
#include "nsGenericHTMLElement.h"
#include "SharedScriptCache.h"
#include "mozilla/Assertions.h"
#include "mozilla/dom/FetchPriority.h"
#include "mozilla/glean/GleanMetrics.h"
#include "mozilla/dom/RequestBinding.h"
#include "prsystem.h"
#include "js/ColumnNumber.h" // JS::ColumnNumberOneOrigin
#include "js/CompilationAndEvaluation.h"
#include "js/CompileOptions.h" // JS::CompileOptions, JS::OwningCompileOptions, JS::DecodeOptions, JS::OwningDecodeOptions, JS::DelazificationOption
#include "js/ContextOptions.h" // JS::ContextOptionsRef
#include "js/experimental/JSStencil.h" // JS::Stencil, JS::InstantiationStorage, JS::StartCollectingDelazifications, JS::FinishCollectingDelazifications, JS::AbortCollectingDelazifications
#include "js/experimental/CompileScript.h" // JS::FrontendContext, JS::NewFrontendContext, JS::DestroyFrontendContext, JS::SetNativeStackQuota, JS::ThreadStackQuotaForSize, JS::CompilationStorage, JS::CompileGlobalScriptToStencil, JS::CompileModuleScriptToStencil, JS::DecodeStencil, JS::PrepareForInstantiate
#include "js/loader/ScriptLoadRequest.h"
#include "ScriptCompression.h"
#include "js/loader/LoadedScript.h"
#include "js/loader/ModuleLoadRequest.h"
#include "js/MemoryFunctions.h"
#include "js/Modules.h"
#include "js/PropertyAndElement.h" // JS_DefineProperty
#include "js/Transcoding.h" // JS::TranscodeRange, JS::TranscodeResult, JS::IsTranscodeFailureResult
#include "js/Utility.h"
#include "xpcpublic.h"
#include "GeckoProfiler.h"
#include "nsContentSecurityManager.h"
#include "nsCycleCollectionParticipant.h"
#include "nsIContent.h"
#include "nsJSUtils.h"
#include "mozilla/dom/AutoEntryScript.h"
#include "mozilla/dom/DocGroup.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/JSExecutionUtils.h" // mozilla::dom::Compile, mozilla::dom::InstantiateStencil, mozilla::dom::EvaluationExceptionToNSResult
#include "mozilla/dom/ScriptDecoding.h" // mozilla::dom::ScriptDecoding
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/dom/SRILogHelper.h"
#include "mozilla/dom/WindowContext.h"
#include "mozilla/Mutex.h" // mozilla::Mutex
#include "mozilla/net/HttpBaseChannel.h"
#include "mozilla/net/UrlClassifierFeatureFactory.h"
#include "mozilla/StaticPrefs_dom.h"
#include "mozilla/StaticPrefs_javascript.h"
#include "mozilla/StaticPrefs_network.h"
#include "nsAboutProtocolUtils.h"
#include "nsGkAtoms.h"
#include "nsNetUtil.h"
#include "nsIScriptGlobalObject.h"
#include "nsIScriptContext.h"
#include "nsIPrincipal.h"
#include "nsJSPrincipals.h"
#include "nsContentPolicyUtils.h"
#include "nsContentSecurityUtils.h"
#include "nsIClassifiedChannel.h"
#include "nsIHttpChannel.h"
#include "nsIHttpChannelInternal.h"
#include "nsIClassOfService.h"
#include "nsICacheInfoChannel.h"
#include "nsITimedChannel.h"
#include "nsITimer.h"
#include "nsIScriptElement.h"
#include "nsISupportsPriority.h"
#include "nsIDocShell.h"
#include "nsContentUtils.h"
#include "nsUnicharUtils.h"
#include "nsError.h"
#include "nsThreadUtils.h"
#include "nsIContentSecurityPolicy.h"
#include "mozilla/Logging.h"
#include "nsCRT.h"
#include "nsContentCreatorFunctions.h"
#include "nsProxyRelease.h"
#include "nsQueryObject.h"
#include "nsINetworkPredictor.h"
#include "mozilla/ConsoleReportCollector.h"
#include "mozilla/CycleCollectedJSContext.h"
#include "mozilla/EventQueue.h"
#include "mozilla/LoadInfo.h"
#include "ReferrerInfo.h"
#include "mozilla/AsyncEventDispatcher.h"
#include "mozilla/Attributes.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/TaskController.h"
#include "mozilla/Telemetry.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/Utf8.h" // mozilla::Utf8Unit
#include "nsIScriptError.h"
#include "nsIAsyncOutputStream.h"
#include "js/loader/ModuleLoaderBase.h"
#include "mozilla/Maybe.h"
using namespace JS::loader;
namespace mozilla::dom {
LazyLogModule ScriptLoader::gCspPRLog("CSP");
LazyLogModule ScriptLoader::gScriptLoaderLog("ScriptLoader");
#undef LOG
#define LOG(args) \
MOZ_LOG(ScriptLoader::gScriptLoaderLog, mozilla::LogLevel::Debug, args)
#define LOG_ENABLED() \
MOZ_LOG_TEST(ScriptLoader::gScriptLoaderLog, mozilla::LogLevel::Debug)
// Alternate Data MIME type used by the ScriptLoader to register that we want to
// store bytecode without reading it.
static constexpr auto kNullMimeType = "javascript/null"_ns;
/////////////////////////////////////////////////////////////
// AsyncCompileShutdownObserver
/////////////////////////////////////////////////////////////
NS_IMPL_ISUPPORTS(AsyncCompileShutdownObserver, nsIObserver)
void AsyncCompileShutdownObserver::OnShutdown() {
if (mScriptLoader) {
mScriptLoader->Destroy();
MOZ_ASSERT(!mScriptLoader);
}
}
void AsyncCompileShutdownObserver::Unregister() {
if (mScriptLoader) {
mScriptLoader = nullptr;
nsContentUtils::UnregisterShutdownObserver(this);
}
}
NS_IMETHODIMP
AsyncCompileShutdownObserver::Observe(nsISupports* aSubject, const char* aTopic,
const char16_t* aData) {
OnShutdown();
return NS_OK;
}
//////////////////////////////////////////////////////////////
// ScriptLoader::PreloadInfo
//////////////////////////////////////////////////////////////
inline void ImplCycleCollectionUnlink(ScriptLoader::PreloadInfo& aField) {
ImplCycleCollectionUnlink(aField.mRequest);
}
inline void ImplCycleCollectionTraverse(
nsCycleCollectionTraversalCallback& aCallback,
ScriptLoader::PreloadInfo& aField, const char* aName, uint32_t aFlags = 0) {
ImplCycleCollectionTraverse(aCallback, aField.mRequest, aName, aFlags);
}
//////////////////////////////////////////////////////////////
// ScriptLoader
//////////////////////////////////////////////////////////////
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ScriptLoader)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTION_CLASS(ScriptLoader)
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(ScriptLoader)
if (tmp->mDocument) {
tmp->DropDocumentReference();
}
NS_IMPL_CYCLE_COLLECTION_UNLINK(
mNonAsyncExternalScriptInsertedRequests, mLoadingAsyncRequests,
mLoadedAsyncRequests, mOffThreadCompilingRequests, mDeferRequests,
mXSLTRequests, mParserBlockingRequest, mBytecodeEncodingQueue, mPreloads,
mPendingChildLoaders, mModuleLoader, mWebExtModuleLoaders,
mShadowRealmModuleLoaders)
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(ScriptLoader)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(
mNonAsyncExternalScriptInsertedRequests, mLoadingAsyncRequests,
mLoadedAsyncRequests, mOffThreadCompilingRequests, mDeferRequests,
mXSLTRequests, mParserBlockingRequest, mBytecodeEncodingQueue, mPreloads,
mPendingChildLoaders, mModuleLoader, mWebExtModuleLoaders,
mShadowRealmModuleLoaders)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(ScriptLoader)
NS_IMPL_CYCLE_COLLECTING_RELEASE(ScriptLoader)
ScriptLoader::ScriptLoader(Document* aDocument)
: mDocument(aDocument),
mParserBlockingBlockerCount(0),
mBlockerCount(0),
mNumberOfProcessors(0),
mTotalFullParseSize(0),
mPhysicalSizeOfMemory(-1),
mEnabled(true),
mDeferEnabled(false),
mSpeculativeOMTParsingEnabled(false),
mDeferCheckpointReached(false),
mBlockingDOMContentLoaded(false),
mLoadEventFired(false),
mGiveUpEncoding(false),
mReporter(new ConsoleReportCollector()) {
LOG(("ScriptLoader::ScriptLoader %p", this));
mSpeculativeOMTParsingEnabled = StaticPrefs::
dom_script_loader_external_scripts_speculative_omt_parse_enabled();
#ifdef NIGHTLY_BUILD
if (StaticPrefs::dom_script_loader_navigation_cache()) {
mCache = SharedScriptCache::Get();
RegisterToCache();
}
#endif
mShutdownObserver = new AsyncCompileShutdownObserver(this);
nsContentUtils::RegisterShutdownObserver(mShutdownObserver);
}
ScriptLoader::~ScriptLoader() {
LOG(("ScriptLoader::~ScriptLoader %p", this));
mObservers.Clear();
if (mParserBlockingRequest) {
FireScriptAvailable(NS_ERROR_ABORT, mParserBlockingRequest);
}
for (ScriptLoadRequest* req = mXSLTRequests.getFirst(); req;
req = req->getNext()) {
FireScriptAvailable(NS_ERROR_ABORT, req);
}
for (ScriptLoadRequest* req = mDeferRequests.getFirst(); req;
req = req->getNext()) {
FireScriptAvailable(NS_ERROR_ABORT, req);
}
for (ScriptLoadRequest* req = mLoadingAsyncRequests.getFirst(); req;
req = req->getNext()) {
FireScriptAvailable(NS_ERROR_ABORT, req);
}
for (ScriptLoadRequest* req = mLoadedAsyncRequests.getFirst(); req;
req = req->getNext()) {
FireScriptAvailable(NS_ERROR_ABORT, req);
}
for (ScriptLoadRequest* req =
mNonAsyncExternalScriptInsertedRequests.getFirst();
req; req = req->getNext()) {
FireScriptAvailable(NS_ERROR_ABORT, req);
}
// Unblock the kids, in case any of them moved to a different document
// subtree in the meantime and therefore aren't actually going away.
for (uint32_t j = 0; j < mPendingChildLoaders.Length(); ++j) {
mPendingChildLoaders[j]->RemoveParserBlockingScriptExecutionBlocker();
}
if (mShutdownObserver) {
mShutdownObserver->Unregister();
mShutdownObserver = nullptr;
}
mModuleLoader = nullptr;
if (mProcessPendingRequestsAsyncBypassParserBlocking) {
mProcessPendingRequestsAsyncBypassParserBlocking->Cancel();
}
}
void ScriptLoader::SetGlobalObject(nsIGlobalObject* aGlobalObject) {
if (!aGlobalObject) {
// The document is being detached.
CancelAndClearScriptLoadRequests();
return;
}
MOZ_ASSERT(!HasPendingRequests());
if (!mModuleLoader) {
// The module loader is associated with a global object, so don't create it
// until we have a global set.
mModuleLoader = new ModuleLoader(this, aGlobalObject, ModuleLoader::Normal);
}
MOZ_ASSERT(mModuleLoader->GetGlobalObject() == aGlobalObject);
MOZ_ASSERT(aGlobalObject->GetModuleLoader(dom::danger::GetJSContext()) ==
mModuleLoader);
}
void ScriptLoader::DropDocumentReference() {
if (mDocument && mCache) {
DeregisterFromCache();
}
mDocument = nullptr;
}
void ScriptLoader::RegisterToCache() {
if (mCache) {
MOZ_ASSERT(mDocument);
mCache->RegisterLoader(*this);
}
}
void ScriptLoader::DeregisterFromCache() {
if (mCache) {
MOZ_ASSERT(mDocument);
mCache->CancelLoadsForLoader(*this);
mCache->UnregisterLoader(*this);
}
}
nsIPrincipal* ScriptLoader::LoaderPrincipal() const {
return mDocument->NodePrincipal();
}
nsIPrincipal* ScriptLoader::PartitionedPrincipal() const {
if (mDocument && StaticPrefs::privacy_partition_network_state()) {
return mDocument->PartitionedPrincipal();
}
return LoaderPrincipal();
}
bool ScriptLoader::ShouldBypassCache() const {
return mDocument && nsContentUtils::ShouldBypassSubResourceCache(mDocument);
}
void ScriptLoader::RegisterContentScriptModuleLoader(ModuleLoader* aLoader) {
MOZ_ASSERT(aLoader);
MOZ_ASSERT(aLoader->GetScriptLoader() == this);
mWebExtModuleLoaders.AppendElement(aLoader);
}
void ScriptLoader::RegisterShadowRealmModuleLoader(ModuleLoader* aLoader) {
MOZ_ASSERT(aLoader);
MOZ_ASSERT(aLoader->GetScriptLoader() == this);
mShadowRealmModuleLoaders.AppendElement(aLoader);
}
// Collect telemtry data about the cache information, and the kind of source
// which are being loaded, and where it is being loaded from.
static void CollectScriptTelemetry(ScriptLoadRequest* aRequest) {
using namespace mozilla::Telemetry;
MOZ_ASSERT(aRequest->IsFetching());
// Skip this function if we are not running telemetry.
if (!CanRecordExtended()) {
return;
}
// Report the type of source. This is used to monitor the status of the
// JavaScript Start-up Bytecode Cache, with the expectation of an almost zero
// source-fallback and alternate-data being roughtly equal to source loads.
if (aRequest->mFetchSourceOnly) {
if (aRequest->GetScriptLoadContext()->mIsInline) {
AccumulateCategorical(LABELS_DOM_SCRIPT_LOADING_SOURCE::Inline);
} else if (aRequest->IsTextSource()) {
AccumulateCategorical(LABELS_DOM_SCRIPT_LOADING_SOURCE::SourceFallback);
}
} else {
if (aRequest->IsTextSource()) {
AccumulateCategorical(LABELS_DOM_SCRIPT_LOADING_SOURCE::Source);
} else if (aRequest->IsBytecode()) {
AccumulateCategorical(LABELS_DOM_SCRIPT_LOADING_SOURCE::AltData);
}
}
}
// Helper method for checking if the script element is an event-handler
// This means that it has both a for-attribute and a event-attribute.
// Also, if the for-attribute has a value that matches "\s*window\s*",
// and the event-attribute matches "\s*onload([ \(].*)?" then it isn't an
// eventhandler. (both matches are case insensitive).
// This is how IE seems to filter out a window's onload handler from a
// <script for=... event=...> element.
static bool IsScriptEventHandler(ScriptKind kind, nsIContent* aScriptElement) {
if (kind != ScriptKind::eClassic) {
return false;
}
if (!aScriptElement->IsHTMLElement()) {
return false;
}
nsAutoString forAttr, eventAttr;
if (!aScriptElement->AsElement()->GetAttr(nsGkAtoms::_for, forAttr) ||
!aScriptElement->AsElement()->GetAttr(nsGkAtoms::event, eventAttr)) {
return false;
}
const nsAString& for_str =
nsContentUtils::TrimWhitespace<nsCRT::IsAsciiSpace>(forAttr);
if (!for_str.LowerCaseEqualsLiteral("window")) {
return true;
}
// We found for="window", now check for event="onload".
const nsAString& event_str =
nsContentUtils::TrimWhitespace<nsCRT::IsAsciiSpace>(eventAttr, false);
if (!StringBeginsWith(event_str, u"onload"_ns,
nsCaseInsensitiveStringComparator)) {
// It ain't "onload.*".
return true;
}
nsAutoString::const_iterator start, end;
event_str.BeginReading(start);
event_str.EndReading(end);
start.advance(6); // advance past "onload"
if (start != end && *start != '(' && *start != ' ') {
// We got onload followed by something other than space or
// '('. Not good enough.
return true;
}
return false;
}
nsContentPolicyType ScriptLoadRequestToContentPolicyType(
ScriptLoadRequest* aRequest) {
if (aRequest->GetScriptLoadContext()->IsPreload()) {
return aRequest->IsModuleRequest()
? nsIContentPolicy::TYPE_INTERNAL_MODULE_PRELOAD
: nsIContentPolicy::TYPE_INTERNAL_SCRIPT_PRELOAD;
}
return aRequest->IsModuleRequest() ? nsIContentPolicy::TYPE_INTERNAL_MODULE
: nsIContentPolicy::TYPE_INTERNAL_SCRIPT;
}
nsresult ScriptLoader::CheckContentPolicy(Document* aDocument,
nsIScriptElement* aElement,
const nsAString& aNonce,
ScriptLoadRequest* aRequest) {
nsContentPolicyType contentPolicyType =
ScriptLoadRequestToContentPolicyType(aRequest);
nsCOMPtr<nsINode> requestingNode = do_QueryInterface(aElement);
nsCOMPtr<nsILoadInfo> secCheckLoadInfo = new net::LoadInfo(
aDocument->NodePrincipal(), // loading principal
aDocument->NodePrincipal(), // triggering principal
requestingNode, nsILoadInfo::SEC_ONLY_FOR_EXPLICIT_CONTENTSEC_CHECK,
contentPolicyType);
secCheckLoadInfo->SetParserCreatedScript(aElement->GetParserCreated() !=
mozilla::dom::NOT_FROM_PARSER);
// Use nonce of the current element, instead of the preload, because those
// are allowed to differ.
secCheckLoadInfo->SetCspNonce(aNonce);
if (aRequest->mIntegrity.IsValid()) {
MOZ_ASSERT(!aRequest->mIntegrity.IsEmpty());
secCheckLoadInfo->SetIntegrityMetadata(
aRequest->mIntegrity.GetIntegrityString());
}
int16_t shouldLoad = nsIContentPolicy::ACCEPT;
nsresult rv =
NS_CheckContentLoadPolicy(aRequest->mURI, secCheckLoadInfo, &shouldLoad,
nsContentUtils::GetContentPolicy());
if (NS_FAILED(rv) || NS_CP_REJECTED(shouldLoad)) {
if (NS_FAILED(rv) || shouldLoad != nsIContentPolicy::REJECT_TYPE) {
return NS_ERROR_CONTENT_BLOCKED;
}
return NS_ERROR_CONTENT_BLOCKED_SHOW_ALT;
}
return NS_OK;
}
/* static */
bool ScriptLoader::IsAboutPageLoadingChromeURI(ScriptLoadRequest* aRequest,
Document* aDocument) {
// if the uri to be loaded is not of scheme chrome:, there is nothing to do.
if (!aRequest->mURI->SchemeIs("chrome")) {
return false;
}
// we can either get here with a regular contentPrincipal or with a
// NullPrincipal in case we are showing an error page in a sandboxed iframe.
// In either case if the about: page is linkable from content, there is
// nothing to do.
uint32_t aboutModuleFlags = 0;
nsresult rv = NS_OK;
nsCOMPtr<nsIPrincipal> triggeringPrincipal = aRequest->TriggeringPrincipal();
if (triggeringPrincipal->GetIsContentPrincipal()) {
if (!triggeringPrincipal->SchemeIs("about")) {
return false;
}
rv = triggeringPrincipal->GetAboutModuleFlags(&aboutModuleFlags);
NS_ENSURE_SUCCESS(rv, false);
} else if (triggeringPrincipal->GetIsNullPrincipal()) {
nsCOMPtr<nsIURI> docURI = aDocument->GetDocumentURI();
if (!docURI->SchemeIs("about")) {
return false;
}
nsCOMPtr<nsIAboutModule> aboutModule;
rv = NS_GetAboutModule(docURI, getter_AddRefs(aboutModule));
if (NS_FAILED(rv) || !aboutModule) {
return false;
}
rv = aboutModule->GetURIFlags(docURI, &aboutModuleFlags);
NS_ENSURE_SUCCESS(rv, false);
} else {
return false;
}
if (aboutModuleFlags & nsIAboutModule::MAKE_LINKABLE) {
return false;
}
// seems like an about page wants to load a chrome URI.
return true;
}
nsIURI* ScriptLoader::GetBaseURI() const {
MOZ_ASSERT(mDocument);
return mDocument->GetDocBaseURI();
}
class ScriptRequestProcessor : public Runnable {
private:
RefPtr<ScriptLoader> mLoader;
RefPtr<ScriptLoadRequest> mRequest;
public:
ScriptRequestProcessor(ScriptLoader* aLoader, ScriptLoadRequest* aRequest)
: Runnable("dom::ScriptRequestProcessor"),
mLoader(aLoader),
mRequest(aRequest) {}
NS_IMETHOD Run() override { return mLoader->ProcessRequest(mRequest); }
};
void ScriptLoader::RunScriptWhenSafe(ScriptLoadRequest* aRequest) {
auto* runnable = new ScriptRequestProcessor(this, aRequest);
nsContentUtils::AddScriptRunner(runnable);
}
nsresult ScriptLoader::RestartLoad(ScriptLoadRequest* aRequest) {
aRequest->DropBytecode();
TRACE_FOR_TEST(aRequest, "scriptloader_fallback");
// Notify preload restart so that we can register this preload request again.
aRequest->GetScriptLoadContext()->NotifyRestart(mDocument);
// Start a new channel from which we explicitly request to stream the source
// instead of the bytecode.
aRequest->mFetchSourceOnly = true;
nsresult rv;
if (aRequest->IsModuleRequest()) {
rv = aRequest->AsModuleRequest()->RestartModuleLoad();
} else {
rv = StartLoad(aRequest, Nothing());
}
if (NS_FAILED(rv)) {
return rv;
}
// Close the current channel and this ScriptLoadHandler as we created a new
// one for the same request.
return NS_BINDING_RETARGETED;
}
nsresult ScriptLoader::StartLoad(
ScriptLoadRequest* aRequest,
const Maybe<nsAutoString>& aCharsetForPreload) {
if (aRequest->IsModuleRequest()) {
return aRequest->AsModuleRequest()->StartModuleLoad();
}
return StartClassicLoad(aRequest, aCharsetForPreload);
}
static nsSecurityFlags CORSModeToSecurityFlags(CORSMode aCORSMode) {
nsSecurityFlags securityFlags =
nsContentSecurityManager::ComputeSecurityFlags(
aCORSMode, nsContentSecurityManager::CORSSecurityMapping::
CORS_NONE_MAPS_TO_DISABLED_CORS_CHECKS);
securityFlags |= nsILoadInfo::SEC_ALLOW_CHROME;
return securityFlags;
}
nsresult ScriptLoader::StartClassicLoad(
ScriptLoadRequest* aRequest,
const Maybe<nsAutoString>& aCharsetForPreload) {
MOZ_ASSERT(aRequest->IsFetching());
NS_ENSURE_TRUE(mDocument, NS_ERROR_NULL_POINTER);
aRequest->SetUnknownDataType();
// If this document is sandboxed without 'allow-scripts', abort.
if (mDocument->HasScriptsBlockedBySandbox()) {
return NS_OK;
}
if (LOG_ENABLED()) {
nsAutoCString url;
aRequest->mURI->GetAsciiSpec(url);
LOG(("ScriptLoadRequest (%p): Start Classic Load (url = %s)", aRequest,
url.get()));
}
nsSecurityFlags securityFlags = CORSModeToSecurityFlags(aRequest->CORSMode());
nsresult rv = StartLoadInternal(aRequest, securityFlags, aCharsetForPreload);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
static bool IsWebExtensionRequest(ScriptLoadRequest* aRequest) {
if (!aRequest->IsModuleRequest()) {
return false;
}
ModuleLoader* loader =
ModuleLoader::From(aRequest->AsModuleRequest()->mLoader);
return loader->GetKind() == ModuleLoader::WebExtension;
}
static nsresult CreateChannelForScriptLoading(
nsIChannel** aOutChannel, Document* aDocument, nsIURI* aURI,
nsINode* aContext, nsIPrincipal* aTriggeringPrincipal,
nsSecurityFlags aSecurityFlags, nsContentPolicyType aContentPolicyType) {
nsCOMPtr<nsILoadGroup> loadGroup = aDocument->GetDocumentLoadGroup();
nsCOMPtr<nsPIDOMWindowOuter> window = aDocument->GetWindow();
NS_ENSURE_TRUE(window, NS_ERROR_NULL_POINTER);
nsIDocShell* docshell = window->GetDocShell();
nsCOMPtr<nsIInterfaceRequestor> prompter(do_QueryInterface(docshell));
return NS_NewChannelWithTriggeringPrincipal(
aOutChannel, aURI, aContext, aTriggeringPrincipal, aSecurityFlags,
aContentPolicyType,
/* aPerformanceStorage = */ nullptr, loadGroup, prompter);
}
static nsresult CreateChannelForScriptLoading(nsIChannel** aOutChannel,
Document* aDocument,
ScriptLoadRequest* aRequest,
nsSecurityFlags aSecurityFlags) {
nsContentPolicyType contentPolicyType =
ScriptLoadRequestToContentPolicyType(aRequest);
nsCOMPtr<nsINode> context;
if (aRequest->GetScriptLoadContext()->HasScriptElement()) {
context = do_QueryInterface(
aRequest->GetScriptLoadContext()->GetScriptElementForLoadingNode());
} else {
context = aDocument;
}
return CreateChannelForScriptLoading(aOutChannel, aDocument, aRequest->mURI,
context, aRequest->TriggeringPrincipal(),
aSecurityFlags, contentPolicyType);
}
static void PrepareLoadInfoForScriptLoading(nsIChannel* aChannel,
const ScriptLoadRequest* aRequest) {
nsCOMPtr<nsILoadInfo> loadInfo = aChannel->LoadInfo();
loadInfo->SetParserCreatedScript(aRequest->ParserMetadata() ==
ParserMetadata::ParserInserted);
loadInfo->SetCspNonce(aRequest->Nonce());
if (aRequest->mIntegrity.IsValid()) {
MOZ_ASSERT(!aRequest->mIntegrity.IsEmpty());
loadInfo->SetIntegrityMetadata(aRequest->mIntegrity.GetIntegrityString());
}
}
// static
void ScriptLoader::PrepareCacheInfoChannel(nsIChannel* aChannel,
ScriptLoadRequest* aRequest) {
// To avoid decoding issues, the build-id is part of the bytecode MIME type
// constant.
aRequest->mCacheInfo = nullptr;
nsCOMPtr<nsICacheInfoChannel> cic(do_QueryInterface(aChannel));
if (cic && StaticPrefs::dom_script_loader_bytecode_cache_enabled()) {
MOZ_ASSERT(!IsWebExtensionRequest(aRequest),
"Can not bytecode cache WebExt code");
if (!aRequest->mFetchSourceOnly) {
// Inform the HTTP cache that we prefer to have information coming from
// the bytecode cache instead of the sources, if such entry is already
// registered.
LOG(("ScriptLoadRequest (%p): Maybe request bytecode", aRequest));
cic->PreferAlternativeDataType(
ScriptLoader::BytecodeMimeTypeFor(aRequest), ""_ns,
nsICacheInfoChannel::PreferredAlternativeDataDeliveryType::ASYNC);
} else {
// If we are explicitly loading from the sources, such as after a
// restarted request, we might still want to save the bytecode after.
//
// The following tell the cache to look for an alternative data type which
// does not exist, such that we can later save the bytecode with a
// different alternative data type.
LOG(("ScriptLoadRequest (%p): Request saving bytecode later", aRequest));
cic->PreferAlternativeDataType(
kNullMimeType, ""_ns,
nsICacheInfoChannel::PreferredAlternativeDataDeliveryType::ASYNC);
}
}
}
static void AdjustPriorityAndClassOfServiceForLinkPreloadScripts(
nsIChannel* aChannel, ScriptLoadRequest* aRequest) {
MOZ_ASSERT(aRequest->GetScriptLoadContext()->IsLinkPreloadScript());
// Put it to the group that is not blocked by leaders and doesn't block
// follower at the same time.
// Giving it a much higher priority will make this request be processed
// ahead of other Unblocked requests, but with the same weight as
// Leaders. This will make us behave similar way for both http2 and http1.
ScriptLoadContext::PrioritizeAsPreload(aChannel);
if (!StaticPrefs::network_fetchpriority_enabled()) {
return;
}
const auto fetchPriority = ToFetchPriority(aRequest->FetchPriority());
if (nsCOMPtr<nsISupportsPriority> supportsPriority =
do_QueryInterface(aChannel)) {
LOG(("Is <link rel=[module]preload"));
// The spec defines the priority to be set in an implementation defined
// See corresponding preferences in StaticPrefList.yaml for more context.
const int32_t supportsPriorityDelta =
FETCH_PRIORITY_ADJUSTMENT_FOR(link_preload_script, fetchPriority);
supportsPriority->AdjustPriority(supportsPriorityDelta);
#ifdef DEBUG
int32_t adjustedPriority;
supportsPriority->GetPriority(&adjustedPriority);
LogPriorityMapping(ScriptLoader::gScriptLoaderLog, fetchPriority,
adjustedPriority);
#endif
}
if (nsCOMPtr<nsIClassOfService> cos = do_QueryInterface(aChannel)) {
cos->SetFetchPriorityDOM(fetchPriority);
}
}
void AdjustPriorityForNonLinkPreloadScripts(nsIChannel* aChannel,
ScriptLoadRequest* aRequest) {
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->IsLinkPreloadScript());
if (!StaticPrefs::network_fetchpriority_enabled()) {
return;
}
const auto fetchPriority = ToFetchPriority(aRequest->FetchPriority());
if (nsCOMPtr<nsISupportsPriority> supportsPriority =
do_QueryInterface(aChannel)) {
LOG(("Is not <link rel=[module]preload"));
// The spec defines the priority to be set in an implementation defined
// See corresponding preferences in StaticPrefList.yaml for more context.
const int32_t supportsPriorityDelta = [&]() {
const ScriptLoadContext* scriptLoadContext =
aRequest->GetScriptLoadContext();
if (aRequest->IsModuleRequest()) {
return FETCH_PRIORITY_ADJUSTMENT_FOR(module_script, fetchPriority);
}
if (scriptLoadContext->IsAsyncScript() ||
scriptLoadContext->IsDeferredScript()) {
return FETCH_PRIORITY_ADJUSTMENT_FOR(async_or_defer_script,
fetchPriority);
}
if (scriptLoadContext->mScriptFromHead) {
return FETCH_PRIORITY_ADJUSTMENT_FOR(script_in_head, fetchPriority);
}
return FETCH_PRIORITY_ADJUSTMENT_FOR(other_script, fetchPriority);
}();
if (supportsPriorityDelta) {
supportsPriority->AdjustPriority(supportsPriorityDelta);
#ifdef DEBUG
int32_t adjustedPriority;
supportsPriority->GetPriority(&adjustedPriority);
LogPriorityMapping(ScriptLoader::gScriptLoaderLog, fetchPriority,
adjustedPriority);
#endif
}
}
if (nsCOMPtr<nsIClassOfService> cos = do_QueryInterface(aChannel)) {
cos->SetFetchPriorityDOM(fetchPriority);
}
}
// static
void ScriptLoader::PrepareRequestPriorityAndRequestDependencies(
nsIChannel* aChannel, ScriptLoadRequest* aRequest) {
if (aRequest->GetScriptLoadContext()->IsLinkPreloadScript()) {
// This is <link rel="preload" as="script"> or <link rel="modulepreload">
// initiated speculative load
AdjustPriorityAndClassOfServiceForLinkPreloadScripts(aChannel, aRequest);
ScriptLoadContext::AddLoadBackgroundFlag(aChannel);
} else if (nsCOMPtr<nsIClassOfService> cos = do_QueryInterface(aChannel)) {
AdjustPriorityForNonLinkPreloadScripts(aChannel, aRequest);
if (aRequest->GetScriptLoadContext()->mScriptFromHead &&
aRequest->GetScriptLoadContext()->IsBlockingScript()) {
// synchronous head scripts block loading of most other non js/css
// content such as images, Leader implicitely disallows tailing
cos->AddClassFlags(nsIClassOfService::Leader);
} else if (aRequest->GetScriptLoadContext()->IsDeferredScript() &&
!StaticPrefs::network_http_tailing_enabled()) {
// We want to make sure that turing tailing off by the pref makes the
// browser behave exactly the same way as before landing the tailing
// patch.
// head/body deferred scripts are blocked by leaders but are not
// allowed tailing because they block DOMContentLoaded
cos->AddClassFlags(nsIClassOfService::TailForbidden);
} else {
// other scripts (=body sync or head/body async) are neither blocked
// nor prioritized
cos->AddClassFlags(nsIClassOfService::Unblocked);
if (aRequest->GetScriptLoadContext()->IsAsyncScript()) {
// async scripts are allowed tailing, since those and only those
// don't block DOMContentLoaded; this flag doesn't enforce tailing,
// just overweights the Unblocked flag when the channel is found
// to be a thrird-party tracker and thus set the Tail flag to engage
// tailing.
cos->AddClassFlags(nsIClassOfService::TailAllowed);
}
}
}
}
inline nsLiteralString GetInitiatorType(ScriptLoadRequest* aRequest) {
if (aRequest->mEarlyHintPreloaderId) {
return u"early-hints"_ns;
}
if (aRequest->GetScriptLoadContext()->IsLinkPreloadScript()) {
return u"link"_ns;
}
return u"script"_ns;
}
// static
nsresult ScriptLoader::PrepareHttpRequestAndInitiatorType(
nsIChannel* aChannel, ScriptLoadRequest* aRequest,
const Maybe<nsAutoString>& aCharsetForPreload) {
nsCOMPtr<nsIHttpChannel> httpChannel(do_QueryInterface(aChannel));
nsresult rv = NS_OK;
if (httpChannel) {
// HTTP content negotation has little value in this context.
nsAutoCString acceptTypes("*/*");
rv = httpChannel->SetRequestHeader("Accept"_ns, acceptTypes, false);
MOZ_ASSERT(NS_SUCCEEDED(rv));
nsCOMPtr<nsIReferrerInfo> referrerInfo =
new ReferrerInfo(aRequest->mReferrer, aRequest->ReferrerPolicy());
rv = httpChannel->SetReferrerInfoWithoutClone(referrerInfo);
MOZ_ASSERT(NS_SUCCEEDED(rv));
nsCOMPtr<nsIHttpChannelInternal> internalChannel(
do_QueryInterface(httpChannel));
if (internalChannel) {
rv = internalChannel->SetIntegrityMetadata(
aRequest->mIntegrity.GetIntegrityString());
MOZ_ASSERT(NS_SUCCEEDED(rv));
}
nsAutoString hintCharset;
if (!aRequest->GetScriptLoadContext()->IsPreload() &&
aRequest->GetScriptLoadContext()->HasScriptElement()) {
aRequest->GetScriptLoadContext()->GetHintCharset(hintCharset);
} else if (aCharsetForPreload.isSome()) {
hintCharset = aCharsetForPreload.ref();
}
rv = httpChannel->SetClassicScriptHintCharset(hintCharset);
NS_ENSURE_SUCCESS(rv, rv);
}
// Set the initiator type
nsCOMPtr<nsITimedChannel> timedChannel(do_QueryInterface(httpChannel));
if (timedChannel) {
timedChannel->SetInitiatorType(GetInitiatorType(aRequest));
}
return rv;
}
nsresult ScriptLoader::PrepareIncrementalStreamLoader(
nsIIncrementalStreamLoader** aOutLoader, nsIChannel* aChannel,
ScriptLoadRequest* aRequest) {
UniquePtr<mozilla::dom::SRICheckDataVerifier> sriDataVerifier;
if (!aRequest->mIntegrity.IsEmpty()) {
nsAutoCString sourceUri;
if (mDocument->GetDocumentURI()) {
mDocument->GetDocumentURI()->GetAsciiSpec(sourceUri);
}
sriDataVerifier = MakeUnique<SRICheckDataVerifier>(aRequest->mIntegrity,
sourceUri, mReporter);
}
RefPtr<ScriptLoadHandler> handler =
new ScriptLoadHandler(this, aRequest, std::move(sriDataVerifier));
aChannel->SetNotificationCallbacks(handler);
nsresult rv = NS_NewIncrementalStreamLoader(aOutLoader, handler);
NS_ENSURE_SUCCESS(rv, rv);
return rv;
}
nsresult ScriptLoader::StartLoadInternal(
ScriptLoadRequest* aRequest, nsSecurityFlags securityFlags,
const Maybe<nsAutoString>& aCharsetForPreload) {
nsCOMPtr<nsIChannel> channel;
nsresult rv = CreateChannelForScriptLoading(
getter_AddRefs(channel), mDocument, aRequest, securityFlags);
NS_ENSURE_SUCCESS(rv, rv);
if (aRequest->mEarlyHintPreloaderId) {
nsCOMPtr<nsIHttpChannelInternal> channelInternal =
do_QueryInterface(channel);
NS_ENSURE_TRUE(channelInternal != nullptr, NS_ERROR_FAILURE);
rv = channelInternal->SetEarlyHintPreloaderId(
aRequest->mEarlyHintPreloaderId);
NS_ENSURE_SUCCESS(rv, rv);
}
PrepareLoadInfoForScriptLoading(channel, aRequest);
nsCOMPtr<nsIScriptGlobalObject> scriptGlobal = GetScriptGlobalObject();
if (!scriptGlobal) {
return NS_ERROR_FAILURE;
}
ScriptLoader::PrepareCacheInfoChannel(channel, aRequest);
LOG(("ScriptLoadRequest (%p): mode=%u tracking=%d", aRequest,
unsigned(aRequest->GetScriptLoadContext()->mScriptMode),
aRequest->GetScriptLoadContext()->IsTracking()));
PrepareRequestPriorityAndRequestDependencies(channel, aRequest);
rv =
PrepareHttpRequestAndInitiatorType(channel, aRequest, aCharsetForPreload);
NS_ENSURE_SUCCESS(rv, rv);
mozilla::net::PredictorLearn(
aRequest->mURI, mDocument->GetDocumentURI(),
nsINetworkPredictor::LEARN_LOAD_SUBRESOURCE,
mDocument->NodePrincipal()->OriginAttributesRef());
nsCOMPtr<nsIIncrementalStreamLoader> loader;
rv =
PrepareIncrementalStreamLoader(getter_AddRefs(loader), channel, aRequest);
NS_ENSURE_SUCCESS(rv, rv);
auto key = PreloadHashKey::CreateAsScript(
aRequest->mURI, aRequest->CORSMode(), aRequest->mKind);
aRequest->GetScriptLoadContext()->NotifyOpen(
key, channel, mDocument,
aRequest->GetScriptLoadContext()->IsLinkPreloadScript(),
aRequest->IsModuleRequest());
rv = channel->AsyncOpen(loader);
if (NS_FAILED(rv)) {
// Make sure to inform any <link preload> tags about failure to load the
// resource.
aRequest->GetScriptLoadContext()->NotifyStart(channel);
aRequest->GetScriptLoadContext()->NotifyStop(rv);
}
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
bool ScriptLoader::PreloadURIComparator::Equals(const PreloadInfo& aPi,
nsIURI* const& aURI) const {
bool same;
return NS_SUCCEEDED(aPi.mRequest->mURI->Equals(aURI, &same)) && same;
}
static bool CSPAllowsInlineScript(nsIScriptElement* aElement,
const nsAString& aNonce,
Document* aDocument) {
nsCOMPtr<nsIContentSecurityPolicy> csp = aDocument->GetCsp();
if (!csp) {
// no CSP --> allow
return true;
}
bool parserCreated =
aElement->GetParserCreated() != mozilla::dom::NOT_FROM_PARSER;
nsCOMPtr<Element> element = do_QueryInterface(aElement);
bool allowInlineScript = false;
nsresult rv = csp->GetAllowsInline(
nsIContentSecurityPolicy::SCRIPT_SRC_ELEM_DIRECTIVE,
false /* aHasUnsafeHash */, aNonce, parserCreated, element,
nullptr /* nsICSPEventListener */, u""_ns,
aElement->GetScriptLineNumber(),
aElement->GetScriptColumnNumber().oneOriginValue(), &allowInlineScript);
return NS_SUCCEEDED(rv) && allowInlineScript;
}
namespace {
RequestPriority FetchPriorityToRequestPriority(
const FetchPriority aFetchPriority) {
switch (aFetchPriority) {
case FetchPriority::High:
return RequestPriority::High;
case FetchPriority::Low:
return RequestPriority::Low;
case FetchPriority::Auto:
return RequestPriority::Auto;
}
MOZ_ASSERT_UNREACHABLE();
return RequestPriority::Auto;
}
} // namespace
void ScriptLoader::NotifyObserversForCachedScript(
nsIURI* aURI, nsINode* aContext, nsIPrincipal* aTriggeringPrincipal,
nsSecurityFlags aSecurityFlags, nsContentPolicyType aContentPolicyType,
SubResourceNetworkMetadataHolder* aNetworkMetadata) {
nsCOMPtr<nsIObserverService> obsService = services::GetObserverService();
if (!obsService->HasObservers("http-on-resource-cache-response")) {
return;
}
nsCOMPtr<nsIChannel> channel;
nsresult rv = CreateChannelForScriptLoading(
getter_AddRefs(channel), mDocument, aURI, aContext, aTriggeringPrincipal,
aSecurityFlags, aContentPolicyType);
if (NS_FAILED(rv)) {
return;
}
RefPtr<net::HttpBaseChannel> httpBaseChannel = do_QueryObject(channel);
if (httpBaseChannel) {
const net::nsHttpResponseHead* responseHead = nullptr;
if (aNetworkMetadata) {
responseHead = aNetworkMetadata->GetResponseHead();
}
httpBaseChannel->SetDummyChannelForCachedResource(responseHead);
}
// TODO: Populate fields.
// TODO: Move the handling into SharedSubResourceCache once the notification
obsService->NotifyObservers(channel, "http-on-resource-cache-response",
nullptr);
}
already_AddRefed<ScriptLoadRequest> ScriptLoader::CreateLoadRequest(
ScriptKind aKind, nsIURI* aURI, nsIScriptElement* aElement,
nsIPrincipal* aTriggeringPrincipal, CORSMode aCORSMode,
const nsAString& aNonce, RequestPriority aRequestPriority,
const SRIMetadata& aIntegrity, ReferrerPolicy aReferrerPolicy,
ParserMetadata aParserMetadata, RequestType requestType) {
nsIURI* referrer = mDocument->GetDocumentURIAsReferrer();
RefPtr<ScriptFetchOptions> fetchOptions =
new ScriptFetchOptions(aCORSMode, aNonce, aRequestPriority,
aParserMetadata, aTriggeringPrincipal);
RefPtr<ScriptLoadContext> context = new ScriptLoadContext(aElement);
if (aKind == ScriptKind::eClassic || aKind == ScriptKind::eImportMap) {
RefPtr<ScriptLoadRequest> aRequest =
new ScriptLoadRequest(aKind, aURI, aReferrerPolicy, fetchOptions,
aIntegrity, referrer, context);
if (requestType == RequestType::External && mCache) {
ScriptHashKey key(this, aRequest);
auto cacheResult = mCache->Lookup(*this, key,
/* aSyncLoad = */ true);
if (cacheResult.mState == CachedSubResourceState::Complete) {
if (NS_FAILED(
CheckContentPolicy(mDocument, aElement, aNonce, aRequest))) {
aRequest->NoCacheEntryFound();
return aRequest.forget();
}
nsCOMPtr<nsINode> context;
if (aElement) {
context = do_QueryInterface(aElement);
} else {
context = mDocument;
}
NotifyObserversForCachedScript(aURI, context, aTriggeringPrincipal,
CORSModeToSecurityFlags(aCORSMode),
nsIContentPolicy::TYPE_INTERNAL_SCRIPT,
cacheResult.mNetworkMetadata);
{
nsAutoCString name;
nsString entryName;
aURI->GetSpec(name);
CopyUTF8toUTF16(name, entryName);
auto now = TimeStamp::Now();
SharedSubResourceCacheUtils::AddPerformanceEntryForCache(
entryName, GetInitiatorType(aRequest),
cacheResult.mNetworkMetadata, now, now, mDocument);
}
aRequest->CacheEntryFound(cacheResult.mCompleteValue);
return aRequest.forget();
}
aRequest->NoCacheEntryFound();
return aRequest.forget();
}
aRequest->NoCacheEntryFound();
return aRequest.forget();
}
MOZ_ASSERT(aKind == ScriptKind::eModule);
RefPtr<ModuleLoadRequest> aRequest = ModuleLoader::CreateTopLevel(
aURI, aReferrerPolicy, fetchOptions, aIntegrity, referrer, this, context);
return aRequest.forget();
}
bool ScriptLoader::ProcessScriptElement(nsIScriptElement* aElement) {
// We need a document to evaluate scripts.
NS_ENSURE_TRUE(mDocument, false);
// Check to see if scripts has been turned off.
if (!mEnabled || !mDocument->IsScriptEnabled()) {
return false;
}
NS_ASSERTION(!aElement->IsMalformed(), "Executing malformed script");
nsCOMPtr<nsIContent> scriptContent = do_QueryInterface(aElement);
ScriptKind scriptKind;
if (aElement->GetScriptIsModule()) {
scriptKind = ScriptKind::eModule;
} else if (aElement->GetScriptIsImportMap()) {
scriptKind = ScriptKind::eImportMap;
} else {
scriptKind = ScriptKind::eClassic;
}
// Step 13. Check that the script is not an eventhandler
if (IsScriptEventHandler(scriptKind, scriptContent)) {
return false;
}
// "In modern user agents that support module scripts, the script element with
// the nomodule attribute will be ignored".
// "The nomodule attribute must not be specified on module scripts (and will
// be ignored if it is)."
if (scriptKind == ScriptKind::eClassic && scriptContent->IsHTMLElement() &&
scriptContent->AsElement()->HasAttr(nsGkAtoms::nomodule)) {
return false;
}
// Step 15. and later in the HTML5 spec
if (aElement->GetScriptExternal()) {
return ProcessExternalScript(aElement, scriptKind, scriptContent);
}
return ProcessInlineScript(aElement, scriptKind);
}
static ParserMetadata GetParserMetadata(nsIScriptElement* aElement) {
return aElement->GetParserCreated() == mozilla::dom::NOT_FROM_PARSER
? ParserMetadata::NotParserInserted
: ParserMetadata::ParserInserted;
}
bool ScriptLoader::ProcessExternalScript(nsIScriptElement* aElement,
ScriptKind aScriptKind,
nsIContent* aScriptContent) {
LOG(("ScriptLoader (%p): Process external script for element %p", this,
aElement));
// Step 30.1. If el's type is "importmap", then queue an element task on the
// DOM manipulation task source given el to fire an event named error at el,
// and return.
if (aScriptKind == ScriptKind::eImportMap) {
NS_DispatchToCurrentThread(
NewRunnableMethod("nsIScriptElement::FireErrorEvent", aElement,
&nsIScriptElement::FireErrorEvent));
nsContentUtils::ReportToConsole(
nsIScriptError::warningFlag, "Script Loader"_ns, mDocument,
nsContentUtils::eDOM_PROPERTIES, "ImportMapExternalNotSupported");
return false;
}
nsCOMPtr<nsIURI> scriptURI = aElement->GetScriptURI();
if (!scriptURI) {
// Asynchronously report the failure to create a URI object
NS_DispatchToCurrentThread(
NewRunnableMethod("nsIScriptElement::FireErrorEvent", aElement,
&nsIScriptElement::FireErrorEvent));
return false;
}
nsString nonce = nsContentSecurityUtils::GetIsElementNonceableNonce(
*aScriptContent->AsElement());
SRIMetadata sriMetadata;
{
nsAutoString integrity;
aScriptContent->AsElement()->GetAttr(nsGkAtoms::integrity, integrity);
GetSRIMetadata(integrity, &sriMetadata);
}
RefPtr<ScriptLoadRequest> request =
LookupPreloadRequest(aElement, aScriptKind, sriMetadata);
if (request) {
if (NS_FAILED(CheckContentPolicy(mDocument, aElement, nonce, request))) {
LOG(("ScriptLoader (%p): content policy check failed for preload", this));
// Probably plans have changed; even though the preload was allowed seems
// like the actual load is not; let's cancel the preload request.
request->Cancel();
return false;
}
// Use the preload request.
LOG(("ScriptLoadRequest (%p): Using preload request", request.get()));
// Step 1. Disallow further import maps given settings object.
if (request->IsModuleRequest()) {
LOG(("ScriptLoadRequest (%p): Disallow further import maps.",
request.get()));
mModuleLoader->DisallowImportMaps();
}
// It's possible these attributes changed since we started the preload so
// update them here.
request->GetScriptLoadContext()->SetScriptMode(
aElement->GetScriptDeferred(), aElement->GetScriptAsync(), false);
// The request will be added to another list or set as
// mParserBlockingRequest below.
if (request->GetScriptLoadContext()->mInCompilingList) {
mOffThreadCompilingRequests.Remove(request);
request->GetScriptLoadContext()->mInCompilingList = false;
}
} else {
// No usable preload found.
nsCOMPtr<nsIPrincipal> principal =
aElement->GetScriptURITriggeringPrincipal();
if (!principal) {
principal = aScriptContent->NodePrincipal();
}
CORSMode ourCORSMode = aElement->GetCORSMode();
const FetchPriority fetchPriority = aElement->GetFetchPriority();
ReferrerPolicy referrerPolicy = GetReferrerPolicy(aElement);
ParserMetadata parserMetadata = GetParserMetadata(aElement);
request = CreateLoadRequest(
aScriptKind, scriptURI, aElement, principal, ourCORSMode, nonce,
FetchPriorityToRequestPriority(fetchPriority), sriMetadata,
referrerPolicy, parserMetadata, RequestType::External);
request->GetScriptLoadContext()->mIsInline = false;
request->GetScriptLoadContext()->SetScriptMode(
aElement->GetScriptDeferred(), aElement->GetScriptAsync(), false);
// keep request->GetScriptLoadContext()->mScriptFromHead to false so we
// don't treat non preloaded scripts as blockers for full page load. See bug
// 792438.
LOG(("ScriptLoadRequest (%p): Created request for external script",
request.get()));
if (!request->IsStencil()) {
nsresult rv = StartLoad(request, Nothing());
if (NS_FAILED(rv)) {
ReportErrorToConsole(request, rv);
// Asynchronously report the load failure
nsCOMPtr<nsIRunnable> runnable =
NewRunnableMethod("nsIScriptElement::FireErrorEvent", aElement,
&nsIScriptElement::FireErrorEvent);
if (mDocument) {
mDocument->Dispatch(runnable.forget());
} else {
NS_DispatchToCurrentThread(runnable.forget());
}
return false;
}
}
}
// We should still be in loading stage of script unless we're loading a
// module or speculatively off-main-thread parsing a script.
NS_ASSERTION(SpeculativeOMTParsingEnabled() ||
!request->GetScriptLoadContext()->CompileStarted() ||
request->IsModuleRequest(),
"Request should not yet be in compiling stage.");
if (request->GetScriptLoadContext()->IsAsyncScript()) {
AddAsyncRequest(request);
if (request->IsFinished()) {
// The script is available already. Run it ASAP when the event
// loop gets a chance to spin.
// KVKV TODO: Instead of processing immediately, try off-thread-parsing
// it and only schedule a pending ProcessRequest if that fails.
ProcessPendingRequestsAsync();
}
return false;
}
if (!aElement->GetParserCreated()) {
// Violate the HTML5 spec in order to make LABjs and the "order" plug-in
// for RequireJS work with their Gecko-sniffed code path. See
request->GetScriptLoadContext()->mIsNonAsyncScriptInserted = true;
mNonAsyncExternalScriptInsertedRequests.AppendElement(request);
if (request->IsFinished()) {
// The script is available already. Run it ASAP when the event
// loop gets a chance to spin.
ProcessPendingRequestsAsync();
}
return false;
}
// we now have a parser-inserted request that may or may not be still
// loading
if (request->GetScriptLoadContext()->IsDeferredScript()) {
// We don't want to run this yet.
// If we come here, the script is a parser-created script and it has
// the defer attribute but not the async attribute OR it is a module
// script without the async attribute. Since a
// a parser-inserted script is being run, we came here by the parser
// running the script, which means the parser is still alive and the
// parse is ongoing.
NS_ASSERTION(mDocument->GetCurrentContentSink() ||
aElement->GetParserCreated() == FROM_PARSER_XSLT,
"Non-XSLT Defer script on a document without an active "
AddDeferRequest(request);
return false;
}
if (aElement->GetParserCreated() == FROM_PARSER_XSLT) {
// Need to maintain order for XSLT-inserted scripts
NS_ASSERTION(!mParserBlockingRequest,
"Parser-blocking scripts and XSLT scripts in the same doc!");
request->GetScriptLoadContext()->mIsXSLT = true;
mXSLTRequests.AppendElement(request);
if (request->IsFinished()) {
// The script is available already. Run it ASAP when the event
// loop gets a chance to spin.
ProcessPendingRequestsAsync();
}
return true;
}
if (request->IsFinished() && ReadyToExecuteParserBlockingScripts()) {
// The request has already been loaded and there are no pending style
// sheets. If the script comes from the network stream, cheat for
// performance reasons and avoid a trip through the event loop.
if (aElement->GetParserCreated() == FROM_PARSER_NETWORK) {
return ProcessRequest(request) == NS_ERROR_HTMLPARSER_BLOCK;
}
// Otherwise, we've got a document.written script, make a trip through
// the event loop to hide the preload effects from the scripts on the
// Web page.
NS_ASSERTION(!mParserBlockingRequest,
"There can be only one parser-blocking script at a time");
NS_ASSERTION(mXSLTRequests.isEmpty(),
"Parser-blocking scripts and XSLT scripts in the same doc!");
mParserBlockingRequest = request;
ProcessPendingRequestsAsync();
return true;
}
// The script hasn't loaded yet or there's a style sheet blocking it.
// The script will be run when it loads or the style sheet loads.
NS_ASSERTION(!mParserBlockingRequest,
"There can be only one parser-blocking script at a time");
NS_ASSERTION(mXSLTRequests.isEmpty(),
"Parser-blocking scripts and XSLT scripts in the same doc!");
mParserBlockingRequest = request;
return true;
}
bool ScriptLoader::ProcessInlineScript(nsIScriptElement* aElement,
ScriptKind aScriptKind) {
// Is this document sandboxed without 'allow-scripts'?
if (mDocument->HasScriptsBlockedBySandbox()) {
return false;
}
nsCOMPtr<Element> element = do_QueryInterface(aElement);
nsString nonce = nsContentSecurityUtils::GetIsElementNonceableNonce(*element);
// Does CSP allow this inline script to run?
if (!CSPAllowsInlineScript(aElement, nonce, mDocument)) {
return false;
}
// Check if adding an import map script is allowed. If not, we bail out
// early to prevent creating a load request.
if (aScriptKind == ScriptKind::eImportMap) {
// Step 31.2 type is "importmap":
// Step 1. If el's relevant global object's import maps allowed is false,
// then queue an element task on the DOM manipulation task source given el
// to fire an event named error at el, and return.
if (!mModuleLoader->IsImportMapAllowed()) {
NS_WARNING("ScriptLoader: import maps allowed is false.");
const char* msg = mModuleLoader->HasImportMapRegistered()
? "ImportMapNotAllowedMultiple"
: "ImportMapNotAllowedAfterModuleLoad";
nsContentUtils::ReportToConsole(nsIScriptError::warningFlag,
"Script Loader"_ns, mDocument,
nsContentUtils::eDOM_PROPERTIES, msg);
NS_DispatchToCurrentThread(
NewRunnableMethod("nsIScriptElement::FireErrorEvent", aElement,
&nsIScriptElement::FireErrorEvent));
return false;
}
}
// Inline classic scripts ignore their CORS mode and are always CORS_NONE.
CORSMode corsMode = CORS_NONE;
if (aScriptKind == ScriptKind::eModule) {
corsMode = aElement->GetCORSMode();
}
// step 29 specifies to use the fetch priority. Presumably it has no effect
// for inline scripts.
const auto fetchPriority = aElement->GetFetchPriority();
ReferrerPolicy referrerPolicy = GetReferrerPolicy(aElement);
ParserMetadata parserMetadata = GetParserMetadata(aElement);
// NOTE: The `nonce` as specified here is significant, because it's inherited
// by other scripts (e.g. modules created via dynamic imports).
RefPtr<ScriptLoadRequest> request =
CreateLoadRequest(aScriptKind, mDocument->GetDocumentURI(), aElement,
mDocument->NodePrincipal(), corsMode, nonce,
FetchPriorityToRequestPriority(fetchPriority),
SRIMetadata(), // SRI doesn't apply
referrerPolicy, parserMetadata, RequestType::Inline);
request->GetScriptLoadContext()->mIsInline = true;
request->GetScriptLoadContext()->mLineNo = aElement->GetScriptLineNumber();
request->GetScriptLoadContext()->mColumnNo =
aElement->GetScriptColumnNumber();
request->mFetchSourceOnly = true;
request->SetTextSource(request->mLoadContext.get());
TRACE_FOR_TEST_BOOL(request, "scriptloader_load_source");
CollectScriptTelemetry(request);
// Only the 'async' attribute is heeded on an inline module script and
// inline classic scripts ignore both these attributes.
MOZ_ASSERT(!aElement->GetScriptDeferred());
MOZ_ASSERT_IF(!request->IsModuleRequest(), !aElement->GetScriptAsync());
request->GetScriptLoadContext()->SetScriptMode(
false, aElement->GetScriptAsync(), false);
LOG(("ScriptLoadRequest (%p): Created request for inline script",
request.get()));
request->mBaseURL = mDocument->GetDocBaseURI();
if (request->IsModuleRequest()) {
// Step 1. Disallow further import maps given settings object.
mModuleLoader->DisallowImportMaps();
ModuleLoadRequest* modReq = request->AsModuleRequest();
if (aElement->GetParserCreated() != NOT_FROM_PARSER) {
if (aElement->GetScriptAsync()) {
AddAsyncRequest(modReq);
} else {
AddDeferRequest(modReq);
}
}
// This calls OnFetchComplete directly since there's no need to start
// fetching an inline script.
nsresult rv = modReq->OnFetchComplete(NS_OK);
if (NS_FAILED(rv)) {
ReportErrorToConsole(modReq, rv);
HandleLoadError(modReq, rv);
}
return false;
}
if (request->IsImportMapRequest()) {
// Step 31.2 type is "importmap":
// Impl note: Step 1 is done above before creating a ScriptLoadRequest.
MOZ_ASSERT(mModuleLoader->IsImportMapAllowed());
// Step 2. Set el's relevant global object's import maps allowed to false.
mModuleLoader->DisallowImportMaps();
// Step 3. Let result be the result of creating an import map parse result
// given source text and base URL.
UniquePtr<ImportMap> importMap = mModuleLoader->ParseImportMap(request);
if (!importMap) {
// If parsing import maps fails, the exception will be reported in
// ModuleLoaderBase::ParseImportMap, and the registration of the import
// map will bail out early.
return false;
}
// Remove any module preloads. Module specifier resolution is invalidated by
// adding an import map, and incorrect dependencies may have been loaded.
mPreloads.RemoveElementsBy([](const PreloadInfo& info) {
if (info.mRequest->IsModuleRequest()) {
info.mRequest->Cancel();
return true;
}
return false;
});
//
// The spec defines 'register an import map' should be done in
// 'execute the script element', because inside 'execute the script element'
// it will perform a 'preparation-time document check'.
// However, as import maps could be only inline scripts by now, the
// 'preparation-time document check' will never fail for import maps.
// So we simply call 'register an import map' here.
mModuleLoader->RegisterImportMap(std::move(importMap));
return false;
}
request->mState = ScriptLoadRequest::State::Ready;
if (aElement->GetParserCreated() == FROM_PARSER_XSLT &&
(!ReadyToExecuteParserBlockingScripts() || !mXSLTRequests.isEmpty())) {
// Need to maintain order for XSLT-inserted scripts
NS_ASSERTION(!mParserBlockingRequest,
"Parser-blocking scripts and XSLT scripts in the same doc!");
mXSLTRequests.AppendElement(request);
return true;
}
if (aElement->GetParserCreated() == NOT_FROM_PARSER) {
NS_ASSERTION(
!nsContentUtils::IsSafeToRunScript(),
"A script-inserted script is inserted without an update batch?");
RunScriptWhenSafe(request);
return false;
}
if (aElement->GetParserCreated() == FROM_PARSER_NETWORK &&
!ReadyToExecuteParserBlockingScripts()) {
NS_ASSERTION(!mParserBlockingRequest,
"There can be only one parser-blocking script at a time");
mParserBlockingRequest = request;
NS_ASSERTION(mXSLTRequests.isEmpty(),
"Parser-blocking scripts and XSLT scripts in the same doc!");
return true;
}
// We now have a document.written inline script or we have an inline script
// from the network but there is no style sheet that is blocking scripts.
// Don't check for style sheets blocking scripts in the document.write
// case to avoid style sheet network activity affecting when
// document.write returns. It's not really necessary to do this if
// there's no document.write currently on the call stack. However,
// this way matches IE more closely than checking if document.write
// is on the call stack.
NS_ASSERTION(nsContentUtils::IsSafeToRunScript(),
"Not safe to run a parser-inserted script?");
return ProcessRequest(request) == NS_ERROR_HTMLPARSER_BLOCK;
}
ScriptLoadRequest* ScriptLoader::LookupPreloadRequest(
nsIScriptElement* aElement, ScriptKind aScriptKind,
const SRIMetadata& aSRIMetadata) {
MOZ_ASSERT(aElement);
nsTArray<PreloadInfo>::index_type i =
mPreloads.IndexOf(aElement->GetScriptURI(), 0, PreloadURIComparator());
if (i == nsTArray<PreloadInfo>::NoIndex) {
return nullptr;
}
RefPtr<ScriptLoadRequest> request = mPreloads[i].mRequest;
if (aScriptKind != request->mKind) {
return nullptr;
}
// Found preloaded request. Note that a script-inserted script can steal a
// preload!
request->GetScriptLoadContext()->SetIsLoadRequest(aElement);
if (request->GetScriptLoadContext()->mWasCompiledOMT &&
!request->IsModuleRequest()) {
request->SetReady();
}
nsString preloadCharset(mPreloads[i].mCharset);
mPreloads.RemoveElementAt(i);
// Double-check that the charset the preload used is the same as the charset
// we have now.
nsAutoString elementCharset;
aElement->GetScriptCharset(elementCharset);
// of module scripts and modulepreload
if (!request->IsModuleRequest() &&
(!elementCharset.Equals(preloadCharset) ||
aElement->GetCORSMode() != request->CORSMode())) {
// Drop the preload.
request->Cancel();
return nullptr;
}
if (!aSRIMetadata.CanTrustBeDelegatedTo(request->mIntegrity)) {
// Don't cancel link preload requests, we want to deliver onload according
// the result of the load, cancellation would unexpectedly lead to error
// notification.
if (!request->GetScriptLoadContext()->IsLinkPreloadScript()) {
request->Cancel();
}
return nullptr;
}
// Report any errors that we skipped while preloading.
ReportPreloadErrorsToConsole(request);
// This makes sure the pending preload (if exists) for this resource is
// properly marked as used and thus not notified in the console as unused.
request->GetScriptLoadContext()->NotifyUsage(mDocument);
// A used preload must no longer be found in the Document's hash table. Any
// <link preload> tag after the <script> tag will start a new request, that
// can be satisfied from a different cache, but not from the preload cache.
request->GetScriptLoadContext()->RemoveSelf(mDocument);
return request;
}
void ScriptLoader::GetSRIMetadata(const nsAString& aIntegrityAttr,
SRIMetadata* aMetadataOut) {
MOZ_ASSERT(aMetadataOut->IsEmpty());
if (aIntegrityAttr.IsEmpty()) {
return;
}
MOZ_LOG(SRILogHelper::GetSriLog(), mozilla::LogLevel::Debug,
("ScriptLoader::GetSRIMetadata, integrity=%s",
NS_ConvertUTF16toUTF8(aIntegrityAttr).get()));
nsAutoCString sourceUri;
if (mDocument->GetDocumentURI()) {
mDocument->GetDocumentURI()->GetAsciiSpec(sourceUri);
}
SRICheck::IntegrityMetadata(aIntegrityAttr, sourceUri, mReporter,
aMetadataOut);
}
ReferrerPolicy ScriptLoader::GetReferrerPolicy(nsIScriptElement* aElement) {
ReferrerPolicy scriptReferrerPolicy = aElement->GetReferrerPolicy();
if (scriptReferrerPolicy != ReferrerPolicy::_empty) {
return scriptReferrerPolicy;
}
return mDocument->GetReferrerPolicy();
}
void ScriptLoader::CancelAndClearScriptLoadRequests() {
// Cancel all requests that have not been executed and remove them.
if (mParserBlockingRequest) {
mParserBlockingRequest->Cancel();
mParserBlockingRequest = nullptr;
}
mDeferRequests.CancelRequestsAndClear();
mLoadingAsyncRequests.CancelRequestsAndClear();
mLoadedAsyncRequests.CancelRequestsAndClear();
mNonAsyncExternalScriptInsertedRequests.CancelRequestsAndClear();
mXSLTRequests.CancelRequestsAndClear();
mOffThreadCompilingRequests.CancelRequestsAndClear();
if (mModuleLoader) {
mModuleLoader->CancelAndClearDynamicImports();
}
for (ModuleLoader* loader : mWebExtModuleLoaders) {
loader->CancelAndClearDynamicImports();
}
for (ModuleLoader* loader : mShadowRealmModuleLoaders) {
loader->CancelAndClearDynamicImports();
}
for (size_t i = 0; i < mPreloads.Length(); i++) {
mPreloads[i].mRequest->Cancel();
}
mPreloads.Clear();
}
nsresult ScriptLoader::CompileOffThreadOrProcessRequest(
ScriptLoadRequest* aRequest) {
NS_ASSERTION(nsContentUtils::IsSafeToRunScript(),
"Processing requests when running scripts is unsafe.");
if (!aRequest->IsStencil() &&
!aRequest->GetScriptLoadContext()->mCompileOrDecodeTask &&
!aRequest->GetScriptLoadContext()->CompileStarted()) {
bool couldCompile = false;
nsresult rv = AttemptOffThreadScriptCompile(aRequest, &couldCompile);
if (NS_FAILED(rv)) {
HandleLoadError(aRequest, rv);
return rv;
}
if (couldCompile) {
return NS_OK;
}
}
return ProcessRequest(aRequest);
}
namespace {
class OffThreadCompilationCompleteTask : public Task {
public:
OffThreadCompilationCompleteTask(ScriptLoadRequest* aRequest,
ScriptLoader* aLoader)
: Task(Kind::MainThreadOnly, EventQueuePriority::Normal),
mRequest(aRequest),
mLoader(aLoader) {
MOZ_ASSERT(NS_IsMainThread());
}
void RecordStartTime() { mStartTime = TimeStamp::Now(); }
void RecordStopTime() { mStopTime = TimeStamp::Now(); }
#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
bool GetName(nsACString& aName) override {
aName.AssignLiteral("dom::OffThreadCompilationCompleteTask");
return true;
}
#endif
TaskResult Run() override {
MOZ_ASSERT(NS_IsMainThread());
RefPtr<ScriptLoadContext> context = mRequest->GetScriptLoadContext();
if (!context->mCompileOrDecodeTask) {
// Request has been cancelled by MaybeCancelOffThreadScript.
return TaskResult::Complete;
}
RecordStopTime();
if (profiler_is_active()) {
ProfilerString8View scriptSourceString;
if (mRequest->IsTextSource()) {
scriptSourceString = "ScriptCompileOffThread";
} else {
MOZ_ASSERT(mRequest->IsBytecode());
scriptSourceString = "BytecodeDecodeOffThread";
}
nsAutoCString profilerLabelString;
mRequest->GetScriptLoadContext()->GetProfilerLabel(profilerLabelString);
PROFILER_MARKER_TEXT(scriptSourceString, JS,
MarkerTiming::Interval(mStartTime, mStopTime),
profilerLabelString);
}
(void)mLoader->ProcessOffThreadRequest(mRequest);
mRequest = nullptr;
mLoader = nullptr;
return TaskResult::Complete;
}
private:
// NOTE:
// These fields are main-thread only, and this task shouldn't be freed off
// main thread.
//
// This is guaranteed by not having off-thread tasks which depends on this
// task, because otherwise the off-thread task's mDependencies can be the
// last reference, which results in freeing this task off main thread.
//
// If such task is added, these fields must be moved to separate storage.
RefPtr<ScriptLoadRequest> mRequest;
RefPtr<ScriptLoader> mLoader;
TimeStamp mStartTime;
TimeStamp mStopTime;
};
} /* anonymous namespace */
// TODO: This uses the same heuristics and the same threshold as the
// JS::CanCompileOffThread / JS::CanDecodeOffThread APIs, but the
// heuristics needs to be updated to reflect the change regarding the
// Stencil API, and also the thread management on the consumer side
static constexpr size_t OffThreadMinimumTextLength = 5 * 1000;
static constexpr size_t OffThreadMinimumBytecodeLength = 5 * 1000;
nsresult ScriptLoader::AttemptOffThreadScriptCompile(
ScriptLoadRequest* aRequest, bool* aCouldCompileOut) {
// If speculative parsing is enabled, the request may not be ready to run if
// the element is not yet available.
MOZ_ASSERT_IF(!SpeculativeOMTParsingEnabled() && !aRequest->IsModuleRequest(),
aRequest->IsFinished());
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mWasCompiledOMT);
MOZ_ASSERT(aCouldCompileOut && !*aCouldCompileOut);
// Don't off-thread compile inline scripts.
if (aRequest->GetScriptLoadContext()->mIsInline) {
return NS_OK;
}
// Don't off-thread compile JSON modules.
if (aRequest->IsModuleRequest() &&
aRequest->AsModuleRequest()->mModuleType == JS::ModuleType::JSON) {
return NS_OK;
}
nsCOMPtr<nsIGlobalObject> globalObject = GetGlobalForRequest(aRequest);
if (!globalObject) {
return NS_ERROR_FAILURE;
}
AutoJSAPI jsapi;
if (!jsapi.Init(globalObject)) {
return NS_ERROR_FAILURE;
}
JSContext* cx = jsapi.cx();
JS::CompileOptions options(cx);
// Introduction script will actually be computed and set when the script is
// collected from offthread
JS::Rooted<JSScript*> dummyIntroductionScript(cx);
nsresult rv = FillCompileOptionsForRequest(cx, aRequest, &options,
&dummyIntroductionScript);
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
if (aRequest->IsTextSource()) {
if (!StaticPrefs::javascript_options_parallel_parsing() ||
aRequest->ScriptTextLength() < OffThreadMinimumTextLength) {
TRACE_FOR_TEST(aRequest, "scriptloader_main_thread_compile");
return NS_OK;
}
} else {
MOZ_ASSERT(aRequest->IsBytecode());
JS::TranscodeRange bytecode = aRequest->Bytecode();
if (!StaticPrefs::javascript_options_parallel_parsing() ||
bytecode.length() < OffThreadMinimumBytecodeLength) {
return NS_OK;
}
}
RefPtr<CompileOrDecodeTask> compileOrDecodeTask;
rv = CreateOffThreadTask(cx, aRequest, options,
getter_AddRefs(compileOrDecodeTask));
NS_ENSURE_SUCCESS(rv, rv);
RefPtr<OffThreadCompilationCompleteTask> completeTask =
new OffThreadCompilationCompleteTask(aRequest, this);
completeTask->RecordStartTime();
aRequest->GetScriptLoadContext()->mCompileOrDecodeTask = compileOrDecodeTask;
completeTask->AddDependency(compileOrDecodeTask);
TaskController::Get()->AddTask(compileOrDecodeTask.forget());
TaskController::Get()->AddTask(completeTask.forget());
aRequest->GetScriptLoadContext()->BlockOnload(mDocument);
// Once the compilation is finished, the completeTask will be run on
// the main thread to call ScriptLoader::ProcessOffThreadRequest for the
// request.
aRequest->mState = ScriptLoadRequest::State::Compiling;
// Requests that are not tracked elsewhere are added to a list while they are
// being compiled off-thread, so we can cancel the compilation later if
// necessary.
//
// Non-top-level modules not tracked because these are cancelled from their
// importing module.
if (aRequest->IsTopLevel() && !aRequest->isInList()) {
mOffThreadCompilingRequests.AppendElement(aRequest);
aRequest->GetScriptLoadContext()->mInCompilingList = true;
}
*aCouldCompileOut = true;
return NS_OK;
}
CompileOrDecodeTask::CompileOrDecodeTask()
: Task(Kind::OffMainThreadOnly, EventQueuePriority::Normal),
mMutex("CompileOrDecodeTask"),
mOptions(JS::OwningCompileOptions::ForFrontendContext()) {}
CompileOrDecodeTask::~CompileOrDecodeTask() {
if (mFrontendContext) {
JS::DestroyFrontendContext(mFrontendContext);
mFrontendContext = nullptr;
}
}
nsresult CompileOrDecodeTask::InitFrontendContext() {
mFrontendContext = JS::NewFrontendContext();
if (!mFrontendContext) {
mIsCancelled = true;
return NS_ERROR_OUT_OF_MEMORY;
}
return NS_OK;
}
void CompileOrDecodeTask::DidRunTask(const MutexAutoLock& aProofOfLock,
RefPtr<JS::Stencil>&& aStencil) {
if (aStencil) {
if (!JS::PrepareForInstantiate(mFrontendContext, *aStencil,
mInstantiationStorage)) {
aStencil = nullptr;
}
}
mStencil = std::move(aStencil);
}
already_AddRefed<JS::Stencil> CompileOrDecodeTask::StealResult(
JSContext* aCx, JS::InstantiationStorage* aInstantiationStorage) {
JS::FrontendContext* fc = mFrontendContext;
mFrontendContext = nullptr;
auto destroyFrontendContext =
mozilla::MakeScopeExit([&]() { JS::DestroyFrontendContext(fc); });
MOZ_ASSERT(fc);
if (JS::HadFrontendErrors(fc)) {
(void)JS::ConvertFrontendErrorsToRuntimeErrors(aCx, fc, mOptions);
return nullptr;
}
if (!mStencil && JS::IsTranscodeFailureResult(mResult)) {
// Decode failure with bad content isn't reported as error.
JS_ReportErrorASCII(aCx, "failed to decode cache");
return nullptr;
}
// Report warnings.
if (!JS::ConvertFrontendErrorsToRuntimeErrors(aCx, fc, mOptions)) {
return nullptr;
}
MOZ_ASSERT(mStencil,
"If this task is cancelled, StealResult shouldn't be called");
// This task is started and finished successfully.
*aInstantiationStorage = std::move(mInstantiationStorage);
return mStencil.forget();
}
void CompileOrDecodeTask::Cancel() {
MOZ_ASSERT(NS_IsMainThread());
MutexAutoLock lock(mMutex);
mIsCancelled = true;
}
enum class CompilationTarget { Script, Module };
template <CompilationTarget target>
class ScriptOrModuleCompileTask final : public CompileOrDecodeTask {
public:
explicit ScriptOrModuleCompileTask(
ScriptLoader::MaybeSourceText&& aMaybeSource)
: CompileOrDecodeTask(), mMaybeSource(std::move(aMaybeSource)) {}
nsresult Init(JS::CompileOptions& aOptions) {
nsresult rv = InitFrontendContext();
NS_ENSURE_SUCCESS(rv, rv);
if (!mOptions.copy(mFrontendContext, aOptions)) {
mIsCancelled = true;
return NS_ERROR_OUT_OF_MEMORY;
}
return NS_OK;
}
TaskResult Run() override {
MutexAutoLock lock(mMutex);
if (IsCancelled(lock)) {
return TaskResult::Complete;
}
RefPtr<JS::Stencil> stencil = Compile();
DidRunTask(lock, std::move(stencil));
return TaskResult::Complete;
}
private:
already_AddRefed<JS::Stencil> Compile() {
size_t stackSize = TaskController::GetThreadStackSize();
JS::SetNativeStackQuota(mFrontendContext,
JS::ThreadStackQuotaForSize(stackSize));
auto compile = [&](auto& source) {
if constexpr (target == CompilationTarget::Script) {
return JS::CompileGlobalScriptToStencil(mFrontendContext, mOptions,
source);
}
return JS::CompileModuleScriptToStencil(mFrontendContext, mOptions,
source);
};
return mMaybeSource.mapNonEmpty(compile);
}
public:
#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
bool GetName(nsACString& aName) override {
if constexpr (target == CompilationTarget::Script) {
aName.AssignLiteral("ScriptCompileTask");
} else {
aName.AssignLiteral("ModuleCompileTask");
}
return true;
}
#endif
private:
ScriptLoader::MaybeSourceText mMaybeSource;
};
using ScriptCompileTask =
class ScriptOrModuleCompileTask<CompilationTarget::Script>;
using ModuleCompileTask =
class ScriptOrModuleCompileTask<CompilationTarget::Module>;
class ScriptDecodeTask final : public CompileOrDecodeTask {
public:
explicit ScriptDecodeTask(const JS::TranscodeRange& aRange)
: mRange(aRange) {}
nsresult Init(JS::DecodeOptions& aOptions) {
nsresult rv = InitFrontendContext();
NS_ENSURE_SUCCESS(rv, rv);
if (!mDecodeOptions.copy(mFrontendContext, aOptions)) {
mIsCancelled = true;
return NS_ERROR_OUT_OF_MEMORY;
}
return NS_OK;
}
TaskResult Run() override {
MutexAutoLock lock(mMutex);
if (IsCancelled(lock)) {
return TaskResult::Complete;
}
RefPtr<JS::Stencil> stencil = Decode();
JS::OwningCompileOptions compileOptions(
(JS::OwningCompileOptions::ForFrontendContext()));
mOptions.steal(std::move(mDecodeOptions));
DidRunTask(lock, std::move(stencil));
return TaskResult::Complete;
}
private:
already_AddRefed<JS::Stencil> Decode() {
// NOTE: JS::DecodeStencil doesn't need the stack quota.
RefPtr<JS::Stencil> stencil;
mResult = JS::DecodeStencil(mFrontendContext, mDecodeOptions, mRange,
getter_AddRefs(stencil));
return stencil.forget();
}
public:
#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
bool GetName(nsACString& aName) override {
aName.AssignLiteral("ScriptDecodeTask");
return true;
}
#endif
private:
JS::OwningDecodeOptions mDecodeOptions;
JS::TranscodeRange mRange;
};
nsresult ScriptLoader::CreateOffThreadTask(
JSContext* aCx, ScriptLoadRequest* aRequest, JS::CompileOptions& aOptions,
CompileOrDecodeTask** aCompileOrDecodeTask) {
if (aRequest->IsBytecode()) {
JS::TranscodeRange bytecode = aRequest->Bytecode();
JS::DecodeOptions decodeOptions(aOptions);
RefPtr<ScriptDecodeTask> decodeTask = new ScriptDecodeTask(bytecode);
nsresult rv = decodeTask->Init(decodeOptions);
NS_ENSURE_SUCCESS(rv, rv);
decodeTask.forget(aCompileOrDecodeTask);
return NS_OK;
}
MaybeSourceText maybeSource;
nsresult rv = aRequest->GetScriptSource(aCx, &maybeSource,
aRequest->mLoadContext.get());
NS_ENSURE_SUCCESS(rv, rv);
if (ShouldApplyDelazifyStrategy(aRequest)) {
ApplyDelazifyStrategy(&aOptions);
mTotalFullParseSize +=
aRequest->ScriptTextLength() > 0
? static_cast<uint32_t>(aRequest->ScriptTextLength())
: 0;
LOG(
("ScriptLoadRequest (%p): non-on-demand-only (omt) Parsing Enabled "
"for url=%s mTotalFullParseSize=%u",
aRequest, aRequest->mURI->GetSpecOrDefault().get(),
mTotalFullParseSize));
}
if (aRequest->IsModuleRequest()) {
RefPtr<ModuleCompileTask> compileTask =
new ModuleCompileTask(std::move(maybeSource));
rv = compileTask->Init(aOptions);
NS_ENSURE_SUCCESS(rv, rv);
compileTask.forget(aCompileOrDecodeTask);
return NS_OK;
}
if (StaticPrefs::dom_expose_test_interfaces()) {
switch (aOptions.eagerDelazificationStrategy()) {
case JS::DelazificationOption::OnDemandOnly:
TRACE_FOR_TEST(aRequest, "delazification_on_demand_only");
break;
case JS::DelazificationOption::CheckConcurrentWithOnDemand:
case JS::DelazificationOption::ConcurrentDepthFirst:
TRACE_FOR_TEST(aRequest, "delazification_concurrent_depth_first");
break;
case JS::DelazificationOption::ConcurrentLargeFirst:
TRACE_FOR_TEST(aRequest, "delazification_concurrent_large_first");
break;
case JS::DelazificationOption::ParseEverythingEagerly:
TRACE_FOR_TEST(aRequest, "delazification_parse_everything_eagerly");
break;
}
}
RefPtr<ScriptCompileTask> compileTask =
new ScriptCompileTask(std::move(maybeSource));
rv = compileTask->Init(aOptions);
NS_ENSURE_SUCCESS(rv, rv);
compileTask.forget(aCompileOrDecodeTask);
return NS_OK;
}
nsresult ScriptLoader::ProcessOffThreadRequest(ScriptLoadRequest* aRequest) {
MOZ_ASSERT(aRequest->IsCompiling());
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mWasCompiledOMT);
if (aRequest->IsCanceled()) {
return NS_OK;
}
aRequest->GetScriptLoadContext()->mWasCompiledOMT = true;
if (aRequest->GetScriptLoadContext()->mInCompilingList) {
mOffThreadCompilingRequests.Remove(aRequest);
aRequest->GetScriptLoadContext()->mInCompilingList = false;
}
if (aRequest->IsModuleRequest()) {
MOZ_ASSERT(aRequest->GetScriptLoadContext()->mCompileOrDecodeTask);
ModuleLoadRequest* request = aRequest->AsModuleRequest();
return request->OnFetchComplete(NS_OK);
}
// Element may not be ready yet if speculatively compiling, so process the
// request in ProcessPendingRequests when it is available.
MOZ_ASSERT_IF(!SpeculativeOMTParsingEnabled(),
aRequest->GetScriptLoadContext()->HasScriptElement());
if (!aRequest->GetScriptLoadContext()->HasScriptElement()) {
// Unblock onload here in case this request never gets executed.
aRequest->GetScriptLoadContext()->MaybeUnblockOnload();
return NS_OK;
}
aRequest->SetReady();
// Move async scripts to mLoadedAsyncRequests and process them by calling
// ProcessPendingRequests.
if (aRequest != mParserBlockingRequest &&
(aRequest->GetScriptLoadContext()->IsAsyncScript() ||
aRequest->GetScriptLoadContext()->IsBlockingScript()) &&
!aRequest->isInList()) {
if (aRequest->GetScriptLoadContext()->IsAsyncScript()) {
// We're adding the request back to async list so that it can be executed
// later.
aRequest->GetScriptLoadContext()->mInAsyncList = false;
AddAsyncRequest(aRequest);
} else {
MOZ_ASSERT(
false,
"This should not run ever with the current default prefs. The "
"request should not run synchronously but added to some queue.");
return ProcessRequest(aRequest);
}
}
// Process other scripts in the proper order.
ProcessPendingRequests();
return NS_OK;
}
nsresult ScriptLoader::ProcessRequest(ScriptLoadRequest* aRequest) {
LOG(("ScriptLoadRequest (%p): Process request", aRequest));
NS_ASSERTION(nsContentUtils::IsSafeToRunScript(),
"Processing requests when running scripts is unsafe.");
NS_ASSERTION(aRequest->IsFinished(),
"Processing a request that is not ready to run.");
NS_ENSURE_ARG(aRequest);
auto unblockOnload = MakeScopeExit(
[&] { aRequest->GetScriptLoadContext()->MaybeUnblockOnload(); });
if (aRequest->IsModuleRequest()) {
ModuleLoadRequest* request = aRequest->AsModuleRequest();
if (request->IsDynamicImport()) {
request->ProcessDynamicImport();
return NS_OK;
}
if (request->mModuleScript) {
if (!request->InstantiateModuleGraph()) {
request->mModuleScript = nullptr;
}
}
if (!request->mModuleScript) {
// There was an error fetching a module script. Nothing to do here.
LOG(("ScriptLoadRequest (%p): Error loading request, firing error",
aRequest));
FireScriptAvailable(NS_ERROR_FAILURE, aRequest);
return NS_OK;
}
}
nsCOMPtr<nsINode> scriptElem = do_QueryInterface(
aRequest->GetScriptLoadContext()->GetScriptElementForExecuteEvents());
nsCOMPtr<Document> doc;
if (!aRequest->GetScriptLoadContext()->mIsInline ||
aRequest->IsModuleRequest()) {
doc = scriptElem->OwnerDoc();
}
nsCOMPtr<nsIScriptElement> oldParserInsertedScript;
uint32_t parserCreated = aRequest->GetScriptLoadContext()->GetParserCreated();
if (parserCreated) {
oldParserInsertedScript = mCurrentParserInsertedScript;
mCurrentParserInsertedScript =
aRequest->GetScriptLoadContext()
->GetScriptElementForCurrentParserInsertedScript();
}
aRequest->GetScriptLoadContext()->BeginEvaluatingTopLevel();
FireScriptAvailable(NS_OK, aRequest);
// The window may have gone away by this point, in which case there's no point
// in trying to run the script.
{
// Try to perform a microtask checkpoint
nsAutoMicroTask mt;
}
nsPIDOMWindowInner* pwin = mDocument->GetInnerWindow();
bool runScript = !!pwin;
if (runScript) {
nsContentUtils::DispatchTrustedEvent(
scriptElem->OwnerDoc(), scriptElem, u"beforescriptexecute"_ns,
CanBubble::eYes, Cancelable::eYes, &runScript);
}
// Inner window could have gone away after firing beforescriptexecute
pwin = mDocument->GetInnerWindow();
if (!pwin) {
runScript = false;
}
nsresult rv = NS_OK;
if (runScript) {
if (doc) {
doc->IncrementIgnoreDestructiveWritesCounter();
}
rv = EvaluateScriptElement(aRequest);
if (doc) {
doc->DecrementIgnoreDestructiveWritesCounter();
}
nsContentUtils::DispatchTrustedEvent(scriptElem->OwnerDoc(), scriptElem,
u"afterscriptexecute"_ns,
CanBubble::eYes, Cancelable::eNo);
}
FireScriptEvaluated(rv, aRequest);
aRequest->GetScriptLoadContext()->EndEvaluatingTopLevel();
if (parserCreated) {
mCurrentParserInsertedScript = oldParserInsertedScript;
}
if (aRequest->GetScriptLoadContext()->mCompileOrDecodeTask) {
// The request was parsed off-main-thread, but the result of the off
// thread parse was not actually needed to process the request
// (disappearing window, some other error, ...). Finish the
// request to avoid leaks.
MOZ_ASSERT(!aRequest->IsModuleRequest());
aRequest->GetScriptLoadContext()->MaybeCancelOffThreadScript();
}
// Free any source data, but keep the bytecode content as we might have to
// save it later.
aRequest->ClearScriptSource();
if (aRequest->IsBytecode()) {
// We received bytecode as input, thus we were decoding, and we will not be
// encoding the bytecode once more. We can safely clear the content of this
// buffer.
aRequest->DropBytecode();
}
return rv;
}
void ScriptLoader::FireScriptAvailable(nsresult aResult,
ScriptLoadRequest* aRequest) {
for (int32_t i = 0; i < mObservers.Count(); i++) {
nsCOMPtr<nsIScriptLoaderObserver> obs = mObservers[i];
obs->ScriptAvailable(
aResult,
aRequest->GetScriptLoadContext()->GetScriptElementForObserver(),
aRequest->GetScriptLoadContext()->mIsInline, aRequest->mURI,
aRequest->GetScriptLoadContext()->mLineNo);
}
bool isInlineClassicScript = aRequest->GetScriptLoadContext()->mIsInline &&
!aRequest->IsModuleRequest();
RefPtr<nsIScriptElement> scriptElement =
aRequest->GetScriptLoadContext()->GetScriptElementForObserver();
scriptElement->ScriptAvailable(aResult, scriptElement, isInlineClassicScript,
aRequest->mURI,
aRequest->GetScriptLoadContext()->mLineNo);
}
MOZ_CAN_RUN_SCRIPT_BOUNDARY void ScriptLoader::FireScriptEvaluated(
nsresult aResult, ScriptLoadRequest* aRequest) {
for (int32_t i = 0; i < mObservers.Count(); i++) {
nsCOMPtr<nsIScriptLoaderObserver> obs = mObservers[i];
RefPtr<nsIScriptElement> scriptElement =
aRequest->GetScriptLoadContext()->GetScriptElementForObserver();
obs->ScriptEvaluated(aResult, scriptElement,
aRequest->GetScriptLoadContext()->mIsInline);
}
RefPtr<nsIScriptElement> scriptElement =
aRequest->GetScriptLoadContext()->GetScriptElementForObserver();
scriptElement->ScriptEvaluated(aResult, scriptElement,
aRequest->GetScriptLoadContext()->mIsInline);
}
already_AddRefed<nsIGlobalObject> ScriptLoader::GetGlobalForRequest(
ScriptLoadRequest* aRequest) {
if (aRequest->IsModuleRequest()) {
ModuleLoader* loader =
ModuleLoader::From(aRequest->AsModuleRequest()->mLoader);
nsCOMPtr<nsIGlobalObject> global = loader->GetGlobalObject();
return global.forget();
}
return GetScriptGlobalObject();
}
already_AddRefed<nsIScriptGlobalObject> ScriptLoader::GetScriptGlobalObject() {
if (!mDocument) {
return nullptr;
}
nsPIDOMWindowInner* pwin = mDocument->GetInnerWindow();
if (!pwin) {
return nullptr;
}
nsCOMPtr<nsIScriptGlobalObject> globalObject = do_QueryInterface(pwin);
NS_ASSERTION(globalObject, "windows must be global objects");
// and make sure we are setup for this type of script.
nsresult rv = globalObject->EnsureScriptEnvironment();
if (NS_FAILED(rv)) {
return nullptr;
}
return globalObject.forget();
}
nsresult ScriptLoader::FillCompileOptionsForRequest(
JSContext* aCx, ScriptLoadRequest* aRequest, JS::CompileOptions* aOptions,
JS::MutableHandle<JSScript*> aIntroductionScript) {
// It's very important to use aRequest->mURI, not the final URI of the channel
// aRequest ended up getting script data from, as the script filename.
nsresult rv = aRequest->mURI->GetSpec(aRequest->mURL);
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
if (mDocument) {
mDocument->NoteScriptTrackingStatus(
aRequest->mURL, aRequest->GetScriptLoadContext()->IsTracking());
}
const char* introductionType;
if (aRequest->IsModuleRequest() &&
!aRequest->AsModuleRequest()->IsTopLevel()) {
introductionType = "importedModule";
} else if (!aRequest->GetScriptLoadContext()->mIsInline) {
introductionType = "srcScript";
} else if (aRequest->GetScriptLoadContext()->GetParserCreated() ==
FROM_PARSER_NETWORK) {
introductionType = "inlineScript";
} else {
introductionType = "injectedScript";
}
aOptions->setIntroductionInfoToCaller(aCx, introductionType,
aIntroductionScript);
aOptions->setFileAndLine(aRequest->mURL.get(),
aRequest->GetScriptLoadContext()->mLineNo);
// The column is only relevant for inline scripts in order for SpiderMonkey to
// properly compute offsets relatively to the script position within the HTML
// file. injectedScript are not concerned and are always considered to start
// at column 0.
if (aRequest->GetScriptLoadContext()->mIsInline &&
aRequest->GetScriptLoadContext()->GetParserCreated() ==
FROM_PARSER_NETWORK) {
aOptions->setColumn(aRequest->GetScriptLoadContext()->mColumnNo);
}
aOptions->setIsRunOnce(true);
aOptions->setNoScriptRval(true);
if (aRequest->mSourceMapURL) {
aOptions->setSourceMapURL(aRequest->mSourceMapURL->get());
}
if (aRequest->mOriginPrincipal) {
nsCOMPtr<nsIGlobalObject> globalObject = GetGlobalForRequest(aRequest);
nsIPrincipal* scriptPrin = globalObject->PrincipalOrNull();
MOZ_ASSERT(scriptPrin);
bool subsumes = scriptPrin->Subsumes(aRequest->mOriginPrincipal);
aOptions->setMutedErrors(!subsumes);
}
if (aRequest->IsModuleRequest()) {
aOptions->setHideScriptFromDebugger(true);
}
aOptions->setDeferDebugMetadata(true);
aOptions->borrowBuffer = true;
return NS_OK;
}
/* static */
void ScriptLoader::CalculateBytecodeCacheFlag(ScriptLoadRequest* aRequest) {
using mozilla::TimeDuration;
using mozilla::TimeStamp;
if (aRequest->IsStencil()) {
aRequest->MarkPassedConditionForBytecodeEncoding();
return;
}
// We need the nsICacheInfoChannel to exist to be able to open the alternate
// data output stream. This pointer would only be non-null if the bytecode was
// activated at the time the channel got created in StartLoad.
if (!aRequest->mCacheInfo) {
LOG(("ScriptLoadRequest (%p): Cannot cache anything (cacheInfo = %p)",
aRequest, aRequest->mCacheInfo.get()));
aRequest->MarkSkippedBytecodeEncoding();
return;
}
// Look at the preference to know which strategy (parameters) should be used
// when the bytecode cache is enabled.
int32_t strategy = StaticPrefs::dom_script_loader_bytecode_cache_strategy();
// List of parameters used by the strategies.
bool hasSourceLengthMin = false;
bool hasFetchCountMin = false;
size_t sourceLengthMin = 100;
uint32_t fetchCountMin = 4;
LOG(("ScriptLoadRequest (%p): Bytecode-cache: strategy = %d.", aRequest,
strategy));
switch (strategy) {
case -2: {
// Reader mode, keep requesting alternate data but no longer save it.
LOG(("ScriptLoadRequest (%p): Bytecode-cache: Encoding disabled.",
aRequest));
aRequest->MarkSkippedBytecodeEncoding();
return;
}
case -1: {
// Eager mode, skip heuristics!
hasSourceLengthMin = false;
hasFetchCountMin = false;
break;
}
default:
case 0: {
hasSourceLengthMin = true;
hasFetchCountMin = true;
sourceLengthMin = 1024;
// If we were to optimize only for speed, without considering the impact
fetchCountMin = 4;
break;
}
}
// If the script is too small/large, do not attempt at creating a bytecode
// cache for this script, as the overhead of parsing it might not be worth the
// effort.
if (hasSourceLengthMin) {
size_t sourceLength;
size_t minLength;
MOZ_ASSERT(aRequest->IsTextSource());
sourceLength = aRequest->ReceivedScriptTextLength();
minLength = sourceLengthMin;
if (sourceLength < minLength) {
LOG(("ScriptLoadRequest (%p): Bytecode-cache: Script is too small.",
aRequest));
aRequest->MarkSkippedBytecodeEncoding();
return;
}
}
// Check that we loaded the cache entry a few times before attempting any
// bytecode-cache optimization, such that we do not waste time on entry which
// are going to be dropped soon.
if (hasFetchCountMin) {
uint32_t fetchCount = 0;
if (NS_FAILED(aRequest->mCacheInfo->GetCacheTokenFetchCount(&fetchCount))) {
LOG(("ScriptLoadRequest (%p): Bytecode-cache: Cannot get fetchCount.",
aRequest));
aRequest->MarkSkippedBytecodeEncoding();
return;
}
LOG(("ScriptLoadRequest (%p): Bytecode-cache: fetchCount = %d.", aRequest,
fetchCount));
if (fetchCount < fetchCountMin) {
aRequest->MarkSkippedBytecodeEncoding();
return;
}
}
LOG(("ScriptLoadRequest (%p): Bytecode-cache: Trigger encoding.", aRequest));
aRequest->MarkPassedConditionForBytecodeEncoding();
}
class MOZ_RAII AutoSetProcessingScriptTag {
nsCOMPtr<nsIScriptContext> mContext;
bool mOldTag;
public:
explicit AutoSetProcessingScriptTag(nsIScriptContext* aContext)
: mContext(aContext), mOldTag(mContext->GetProcessingScriptTag()) {
mContext->SetProcessingScriptTag(true);
}
~AutoSetProcessingScriptTag() { mContext->SetProcessingScriptTag(mOldTag); }
};
static void ExecuteCompiledScript(JSContext* aCx, ClassicScript* aLoaderScript,
JS::Handle<JSScript*> aScript,
ErrorResult& aRv) {
if (!aScript) {
// Compilation succeeds without producing a script if scripting is
// disabled for the global.
return;
}
if (JS::GetScriptPrivate(aScript).isUndefined()) {
aLoaderScript->AssociateWithScript(aScript);
}
if (!JS_ExecuteScript(aCx, aScript)) {
aRv.NoteJSContextException(aCx);
}
}
nsresult ScriptLoader::EvaluateScriptElement(ScriptLoadRequest* aRequest) {
using namespace mozilla::Telemetry;
MOZ_ASSERT(aRequest->IsFinished());
// We need a document to evaluate scripts.
if (!mDocument) {
return NS_ERROR_FAILURE;
}
Document* ownerDoc =
aRequest->GetScriptLoadContext()->GetScriptOwnerDocument();
if (ownerDoc != mDocument) {
// Willful violation of HTML5 as of 2010-12-01
return NS_ERROR_FAILURE;
}
nsCOMPtr<nsIGlobalObject> globalObject;
nsCOMPtr<nsIScriptContext> context;
if (!IsWebExtensionRequest(aRequest)) {
// Otherwise we have to ensure that there is a nsIScriptContext.
nsCOMPtr<nsIScriptGlobalObject> scriptGlobal = GetScriptGlobalObject();
if (!scriptGlobal) {
return NS_ERROR_FAILURE;
}
MOZ_ASSERT_IF(
aRequest->IsModuleRequest(),
aRequest->AsModuleRequest()->GetGlobalObject() == scriptGlobal);
// Make sure context is a strong reference since we access it after
// we've executed a script, which may cause all other references to
// the context to go away.
context = scriptGlobal->GetScriptContext();
if (!context) {
return NS_ERROR_FAILURE;
}
globalObject = scriptGlobal;
}
// Update our current script.
// This must be destroyed after destroying nsAutoMicroTask, see:
nsIScriptElement* currentScript =
aRequest->IsModuleRequest() ? nullptr
: aRequest->GetScriptLoadContext()
->GetScriptElementForCurrentScript();
AutoCurrentScriptUpdater scriptUpdater(this, currentScript);
Maybe<AutoSetProcessingScriptTag> setProcessingScriptTag;
if (context) {
setProcessingScriptTag.emplace(context);
}
// Switch on the script's type for scriptElement:
// "importmap"
// Assert: Never reached.
MOZ_ASSERT(!aRequest->IsImportMapRequest());
if (aRequest->IsModuleRequest()) {
return aRequest->AsModuleRequest()->EvaluateModule();
}
return EvaluateScript(globalObject, aRequest);
}
// Decode a script contained in a buffer.
static void Decode(JSContext* aCx, JS::CompileOptions& aCompileOptions,
const JS::TranscodeRange& aBytecodeBuf,
RefPtr<JS::Stencil>& aStencil, ErrorResult& aRv) {
JS::DecodeOptions decodeOptions(aCompileOptions);
decodeOptions.borrowBuffer = true;
MOZ_ASSERT(aCompileOptions.noScriptRval);
JS::TranscodeResult tr = JS::DecodeStencil(aCx, decodeOptions, aBytecodeBuf,
getter_AddRefs(aStencil));
// These errors are external parameters which should be handled before the
// decoding phase, and which are the only reasons why you might want to
// fallback on decoding failures.
MOZ_ASSERT(tr != JS::TranscodeResult::Failure_BadBuildId);
if (tr != JS::TranscodeResult::Ok) {
aRv = NS_ERROR_DOM_JS_DECODING_ERROR;
return;
}
}
// Instantiate (on main-thread) a JS::Stencil generated by off-thread or
// main-thread parsing or decoding.
static void InstantiateStencil(
JSContext* aCx, JS::CompileOptions& aCompileOptions, JS::Stencil* aStencil,
JS::MutableHandle<JSScript*> aScript,
bool& aCollectingDelazificationsAlreadyStarted,
JS::Handle<JS::Value> aDebuggerPrivateValue,
JS::Handle<JSScript*> aDebuggerIntroductionScript, ErrorResult& aRv,
bool aEncodeBytecode = false,
JS::InstantiationStorage* aStorage = nullptr) {
JS::InstantiateOptions instantiateOptions(aCompileOptions);
JS::Rooted<JSScript*> script(
aCx, JS::InstantiateGlobalStencil(aCx, instantiateOptions, aStencil,
aStorage));
if (!script) {
aRv.NoteJSContextException(aCx);
return;
}
if (aEncodeBytecode) {
if (!JS::StartCollectingDelazifications(
aCx, script, aStencil, aCollectingDelazificationsAlreadyStarted)) {
aRv.NoteJSContextException(aCx);
return;
}
}
aScript.set(script);
if (instantiateOptions.deferDebugMetadata) {
if (!JS::UpdateDebugMetadata(aCx, aScript, instantiateOptions,
aDebuggerPrivateValue, nullptr,
aDebuggerIntroductionScript, nullptr)) {
aRv = NS_ERROR_OUT_OF_MEMORY;
}
}
}
void ScriptLoader::InstantiateClassicScriptFromMaybeEncodedSource(
JSContext* aCx, JS::CompileOptions& aCompileOptions,
ScriptLoadRequest* aRequest, JS::MutableHandle<JSScript*> aScript,
RefPtr<JS::Stencil>& aStencilOut,
JS::Handle<JS::Value> aDebuggerPrivateValue,
JS::Handle<JSScript*> aDebuggerIntroductionScript, ErrorResult& aRv) {
nsAutoCString profilerLabelString;
aRequest->GetScriptLoadContext()->GetProfilerLabel(profilerLabelString);
if (aRequest->IsBytecode()) {
if (aRequest->GetScriptLoadContext()->mCompileOrDecodeTask) {
LOG(("ScriptLoadRequest (%p): Decode Bytecode & instantiate and Execute",
aRequest));
RefPtr<JS::Stencil> stencil;
JS::InstantiationStorage storage;
MOZ_ASSERT(aCompileOptions.noScriptRval);
stencil =
aRequest->GetScriptLoadContext()->StealOffThreadResult(aCx, &storage);
if (!stencil) {
aRv.NoteJSContextException(aCx);
return;
}
aStencilOut = stencil.get();
bool unused;
InstantiateStencil(aCx, aCompileOptions, stencil, aScript, unused,
aDebuggerPrivateValue, aDebuggerIntroductionScript,
aRv, false, &storage);
} else {
LOG(("ScriptLoadRequest (%p): Decode Bytecode and Execute", aRequest));
AUTO_PROFILER_MARKER_TEXT("BytecodeDecodeMainThread", JS,
MarkerInnerWindowIdFromJSContext(aCx),
profilerLabelString);
RefPtr<JS::Stencil> stencil;
Decode(aCx, aCompileOptions, aRequest->Bytecode(), stencil, aRv);
aStencilOut = stencil.get();
if (stencil) {
bool unused;
InstantiateStencil(aCx, aCompileOptions, stencil, aScript, unused,
aDebuggerPrivateValue, aDebuggerIntroductionScript,
aRv);
}
}
// We do not expect to be saving anything when we already have some
// bytecode.
MOZ_ASSERT(!aRequest->mCacheInfo);
return;
}
MOZ_ASSERT(aRequest->IsSource());
CalculateBytecodeCacheFlag(aRequest);
bool encodeBytecode = aRequest->PassedConditionForBytecodeEncoding();
if (aRequest->GetScriptLoadContext()->mCompileOrDecodeTask) {
// Off-main-thread parsing.
LOG(
("ScriptLoadRequest (%p): instantiate off-thread result and "
"Execute",
aRequest));
MOZ_ASSERT(aRequest->IsTextSource());
RefPtr<JS::Stencil> stencil;
JS::InstantiationStorage storage;
MOZ_ASSERT(aCompileOptions.noScriptRval);
stencil =
aRequest->GetScriptLoadContext()->StealOffThreadResult(aCx, &storage);
if (!stencil) {
aRv.NoteJSContextException(aCx);
return;
}
aStencilOut = stencil.get();
bool unused;
InstantiateStencil(aCx, aCompileOptions, stencil, aScript, unused,
aDebuggerPrivateValue, aDebuggerIntroductionScript, aRv,
encodeBytecode, &storage);
} else {
// Main thread parsing (inline and small scripts)
LOG(("ScriptLoadRequest (%p): Compile And Exec", aRequest));
MOZ_ASSERT(aRequest->IsTextSource());
MaybeSourceText maybeSource;
aRv = aRequest->GetScriptSource(aCx, &maybeSource,
aRequest->mLoadContext.get());
if (!aRv.Failed()) {
AUTO_PROFILER_MARKER_TEXT("ScriptCompileMainThread", JS,
MarkerInnerWindowIdFromJSContext(aCx),
profilerLabelString);
RefPtr<JS::Stencil> stencil;
ErrorResult erv;
auto compile = [&](auto& source) {
stencil = CompileGlobalScriptToStencil(aCx, aCompileOptions, source);
if (!stencil) {
erv.NoteJSContextException(aCx);
}
};
MOZ_ASSERT(!maybeSource.empty());
TimeStamp startTime = TimeStamp::Now();
maybeSource.mapNonEmpty(compile);
aStencilOut = stencil.get();
if (stencil) {
bool unused;
InstantiateStencil(aCx, aCompileOptions, stencil, aScript, unused,
aDebuggerPrivateValue, aDebuggerIntroductionScript,
erv, encodeBytecode);
}
mMainThreadParseTime += TimeStamp::Now() - startTime;
aRv = std::move(erv);
}
}
}
void ScriptLoader::InstantiateClassicScriptFromCachedStencil(
JSContext* aCx, JS::CompileOptions& aCompileOptions,
ScriptLoadRequest* aRequest, JS::Stencil* aStencil,
JS::MutableHandle<JSScript*> aScript,
JS::Handle<JS::Value> aDebuggerPrivateValue,
JS::Handle<JSScript*> aDebuggerIntroductionScript, ErrorResult& aRv) {
bool collectingDelazificationsAlreadyStarted = false;
InstantiateStencil(aCx, aCompileOptions, aStencil, aScript,
collectingDelazificationsAlreadyStarted,
aDebuggerPrivateValue, aDebuggerIntroductionScript, aRv,
/* aEncodeBytecode */ true);
if (collectingDelazificationsAlreadyStarted) {
aRequest->MarkSkippedBytecodeEncoding();
}
}
void ScriptLoader::InstantiateClassicScriptFromAny(
JSContext* aCx, JS::CompileOptions& aCompileOptions,
ScriptLoadRequest* aRequest, JS::MutableHandle<JSScript*> aScript,
JS::Handle<JS::Value> aDebuggerPrivateValue,
JS::Handle<JSScript*> aDebuggerIntroductionScript, ErrorResult& aRv) {
if (aRequest->IsStencil()) {
RefPtr<JS::Stencil> stencil = aRequest->GetStencil();
InstantiateClassicScriptFromCachedStencil(
aCx, aCompileOptions, aRequest, stencil, aScript, aDebuggerPrivateValue,
aDebuggerIntroductionScript, aRv);
return;
}
bool createCache = false;
if (mCache) {
createCache = aRequest->IsCacheable();
ScriptHashKey key(this, aRequest);
auto cacheResult = mCache->Lookup(*this, key,
/* aSyncLoad = */ true);
if (cacheResult.mState == CachedSubResourceState::Complete) {
// NOTE: Avoid creating cache regardless of CSP.
createCache = false;
}
}
RefPtr<JS::Stencil> stencil;
InstantiateClassicScriptFromMaybeEncodedSource(
aCx, aCompileOptions, aRequest, aScript, stencil, aDebuggerPrivateValue,
aDebuggerIntroductionScript, aRv);
if (!aRv.Failed()) {
if (createCache) {
MOZ_ASSERT(mCache);
MOZ_ASSERT(stencil);
aRequest->SetStencil(stencil.forget());
auto loadData = MakeRefPtr<ScriptLoadData>(this, aRequest);
mCache->Insert(*loadData);
}
}
}
/* static */
nsCString& ScriptLoader::BytecodeMimeTypeFor(ScriptLoadRequest* aRequest) {
if (aRequest->IsModuleRequest()) {
return nsContentUtils::JSModuleBytecodeMimeType();
}
return nsContentUtils::JSScriptBytecodeMimeType();
}
void ScriptLoader::MaybePrepareForBytecodeEncodingBeforeExecute(
ScriptLoadRequest* aRequest, JS::Handle<JSScript*> aScript) {
if (!aRequest->PassedConditionForBytecodeEncoding()) {
return;
}
aRequest->MarkScriptForBytecodeEncoding(aScript);
}
nsresult ScriptLoader::MaybePrepareForBytecodeEncodingAfterExecute(
ScriptLoadRequest* aRequest, nsresult aRv) {
if (aRequest->IsMarkedForBytecodeEncoding()) {
TRACE_FOR_TEST(aRequest, "scriptloader_encode");
// Bytecode-encoding branch is used for 2 purposes right now:
// * If the request is stencil, reflect delazifications to cached stencil
// * otherwise, encode the initial stencil and delazifications
//
// For latter case, check that the TranscodeBuffer which is going to
// receive the encoded bytecode only contains the SRI, and nothing more.
//
// NOTE: This assertion will fail once we start encoding more data after the
// first encode.
MOZ_ASSERT_IF(
!aRequest->IsStencil(),
aRequest->GetSRILength() == aRequest->SRIAndBytecode().length());
RegisterForBytecodeEncoding(aRequest);
MOZ_ASSERT(IsAlreadyHandledForBytecodeEncodingPreparation(aRequest));
return aRv;
}
LOG(("ScriptLoadRequest (%p): Bytecode-cache: disabled (rv = %X)", aRequest,
unsigned(aRv)));
TRACE_FOR_TEST_NONE(aRequest, "scriptloader_no_encode");
aRequest->mCacheInfo = nullptr;
MOZ_ASSERT(IsAlreadyHandledForBytecodeEncodingPreparation(aRequest));
return aRv;
}
bool ScriptLoader::IsAlreadyHandledForBytecodeEncodingPreparation(
ScriptLoadRequest* aRequest) {
return aRequest->isInList() || !aRequest->mCacheInfo;
}
void ScriptLoader::MaybePrepareModuleForBytecodeEncodingBeforeExecute(
JSContext* aCx, ModuleLoadRequest* aRequest) {
{
ModuleScript* moduleScript = aRequest->mModuleScript;
JS::Rooted<JSObject*> module(aCx, moduleScript->ModuleRecord());
if (aRequest->IsMarkedForBytecodeEncoding()) {
// This module is imported multiple times, and already marked.
return;
}
if (aRequest->PassedConditionForBytecodeEncoding()) {
aRequest->MarkModuleForBytecodeEncoding();
}
}
for (ModuleLoadRequest* childRequest : aRequest->mImports) {
MaybePrepareModuleForBytecodeEncodingBeforeExecute(aCx, childRequest);
}
}
nsresult ScriptLoader::MaybePrepareModuleForBytecodeEncodingAfterExecute(
ModuleLoadRequest* aRequest, nsresult aRv) {
if (IsAlreadyHandledForBytecodeEncodingPreparation(aRequest)) {
// This module is imported multiple times and already handled.
return aRv;
}
aRv = MaybePrepareForBytecodeEncodingAfterExecute(aRequest, aRv);
for (ModuleLoadRequest* childRequest : aRequest->mImports) {
aRv = MaybePrepareModuleForBytecodeEncodingAfterExecute(childRequest, aRv);
}
return aRv;
}
nsresult ScriptLoader::EvaluateScript(nsIGlobalObject* aGlobalObject,
ScriptLoadRequest* aRequest) {
nsAutoMicroTask mt;
AutoEntryScript aes(aGlobalObject, "EvaluateScript", true);
JSContext* cx = aes.cx();
nsAutoCString profilerLabelString;
aRequest->GetScriptLoadContext()->GetProfilerLabel(profilerLabelString);
// Create a ClassicScript object and associate it with the JSScript.
MOZ_ASSERT(aRequest->mLoadedScript->IsClassicScript());
MOZ_ASSERT(aRequest->mLoadedScript->GetFetchOptions()->IsCompatible(
aRequest->mFetchOptions));
#ifdef DEBUG
{
bool equals;
(void)aRequest->mLoadedScript->GetURI()->Equals(aRequest->mURI, &equals);
MOZ_ASSERT(equals);
}
#endif
if (aRequest->IsStencil()) {
#ifdef DEBUG
// A request with cache might not have mBaseURL.
if (aRequest->mBaseURL) {
bool equals;
(void)aRequest->mLoadedScript->BaseURL()->Equals(aRequest->mBaseURL,
&equals);
MOZ_ASSERT(equals);
}
#endif
} else {
aRequest->mLoadedScript->SetBaseURL(aRequest->mBaseURL);
}
RefPtr<ClassicScript> classicScript =
aRequest->mLoadedScript->AsClassicScript();
JS::Rooted<JS::Value> classicScriptValue(cx, JS::PrivateValue(classicScript));
JS::CompileOptions options(cx);
JS::Rooted<JSScript*> introductionScript(cx);
nsresult rv =
FillCompileOptionsForRequest(cx, aRequest, &options, &introductionScript);
if (NS_FAILED(rv)) {
return rv;
}
// Apply the delazify strategy if the script is small.
if (aRequest->IsTextSource() &&
aRequest->ScriptTextLength() < OffThreadMinimumTextLength &&
ShouldApplyDelazifyStrategy(aRequest)) {
ApplyDelazifyStrategy(&options);
mTotalFullParseSize +=
aRequest->ScriptTextLength() > 0
? static_cast<uint32_t>(aRequest->ScriptTextLength())
: 0;
LOG(
("ScriptLoadRequest (%p): non-on-demand-only (non-omt) Parsing Enabled "
"for url=%s mTotalFullParseSize=%u",
aRequest, aRequest->mURI->GetSpecOrDefault().get(),
mTotalFullParseSize));
}
TRACE_FOR_TEST(aRequest, "scriptloader_execute");
JS::Rooted<JSObject*> global(cx, aGlobalObject->GetGlobalJSObject());
if (MOZ_UNLIKELY(!xpc::Scriptability::Get(global).Allowed())) {
return NS_OK;
}
ErrorResult erv;
mozilla::AutoProfilerLabel autoProfilerLabel("JSExecutionContext",
/* dynamicStr */ nullptr,
JS::ProfilingCategoryPair::JS);
JSAutoRealm autoRealm(cx, global);
JS::Rooted<JSScript*> script(cx);
InstantiateClassicScriptFromAny(cx, options, aRequest, &script,
classicScriptValue, introductionScript, erv);
if (!erv.Failed()) {
MaybePrepareForBytecodeEncodingBeforeExecute(aRequest, script);
{
LOG(("ScriptLoadRequest (%p): Evaluate Script", aRequest));
AUTO_PROFILER_MARKER_TEXT("ScriptExecution", JS,
MarkerInnerWindowIdFromJSContext(cx),
profilerLabelString);
MOZ_ASSERT(options.noScriptRval);
ExecuteCompiledScript(cx, classicScript, script, erv);
}
}
rv = EvaluationExceptionToNSResult(erv);
if (NS_FAILED(rv)) {
return rv;
}
// This must be called also for compilation failure case, in order to
// dispatch test-only event.
rv = MaybePrepareForBytecodeEncodingAfterExecute(aRequest, rv);
// Even if we are not saving the bytecode of the current script, we have
// to trigger the encoding of the bytecode, as the current script can
// call functions of a script for which we are recording the bytecode.
LOG(("ScriptLoadRequest (%p): ScriptLoader = %p", aRequest, this));
MaybeTriggerBytecodeEncoding();
return rv;
}
/* static */
LoadedScript* ScriptLoader::GetActiveScript(JSContext* aCx) {
JS::Value value = JS::GetScriptedCallerPrivate(aCx);
if (value.isUndefined()) {
return nullptr;
}
return static_cast<LoadedScript*>(value.toPrivate());
}
void ScriptLoader::RegisterForBytecodeEncoding(ScriptLoadRequest* aRequest) {
MOZ_ASSERT_IF(!aRequest->IsStencil(), aRequest->mCacheInfo);
MOZ_ASSERT(aRequest->IsMarkedForBytecodeEncoding());
MOZ_DIAGNOSTIC_ASSERT(!aRequest->isInList());
mBytecodeEncodingQueue.AppendElement(aRequest);
}
void ScriptLoader::LoadEventFired() {
mLoadEventFired = true;
MaybeTriggerBytecodeEncoding();
if (!mMainThreadParseTime.IsZero()) {
glean::javascript_pageload::parse_time.AccumulateRawDuration(
mMainThreadParseTime);
}
}
void ScriptLoader::Destroy() {
if (mShutdownObserver) {
mShutdownObserver->Unregister();
mShutdownObserver = nullptr;
}
CancelAndClearScriptLoadRequests();
GiveUpBytecodeEncoding();
}
void ScriptLoader::MaybeTriggerBytecodeEncoding() {
// If we already gave up, ensure that we are not going to enqueue any script,
// and that we finalize them properly.
if (mGiveUpEncoding) {
LOG(("ScriptLoader (%p): Keep giving-up bytecode encoding.", this));
GiveUpBytecodeEncoding();
return;
}
// We wait for the load event to be fired before saving the bytecode of
// any script to the cache. It is quite common to have load event
// listeners trigger more JavaScript execution, that we want to save as
// part of this start-up bytecode cache.
if (!mLoadEventFired) {
LOG(("ScriptLoader (%p): Wait for the load-end event to fire.", this));
return;
}
// No need to fire any event if there is no bytecode to be saved.
if (mBytecodeEncodingQueue.isEmpty()) {
LOG(("ScriptLoader (%p): No script in queue to be encoded.", this));
return;
}
// Wait until all scripts are loaded before saving the bytecode, such that
// we capture most of the intialization of the page.
if (HasPendingRequests()) {
LOG(("ScriptLoader (%p): Wait for other pending request to finish.", this));
return;
}
// Create a new runnable dedicated to encoding the content of the bytecode of
// all enqueued scripts when the document is idle. In case of failure, we
// give-up on encoding the bytecode.
nsCOMPtr<nsIRunnable> encoder = NewRunnableMethod(
"ScriptLoader::EncodeBytecode", this, &ScriptLoader::EncodeBytecode);
if (NS_FAILED(NS_DispatchToCurrentThreadQueue(encoder.forget(),
EventQueuePriority::Idle))) {
GiveUpBytecodeEncoding();
return;
}
LOG(("ScriptLoader (%p): Schedule bytecode encoding.", this));
}
void ScriptLoader::EncodeBytecode() {
LOG(("ScriptLoader (%p): Start bytecode encoding.", this));
// If any script got added in the previous loop cycle, wait until all
// remaining script executions are completed, such that we capture most of
// the initialization.
if (HasPendingRequests()) {
return;
}
// Should not be encoding modules at all.
nsCOMPtr<nsIScriptGlobalObject> globalObject = GetScriptGlobalObject();
if (!globalObject) {
GiveUpBytecodeEncoding();
return;
}
nsCOMPtr<nsIScriptContext> context = globalObject->GetScriptContext();
if (!context) {
GiveUpBytecodeEncoding();
return;
}
AutoEntryScript aes(globalObject, "encode bytecode", true);
RefPtr<ScriptLoadRequest> request;
while (!mBytecodeEncodingQueue.isEmpty()) {
request = mBytecodeEncodingQueue.StealFirst();
MOZ_ASSERT(!IsWebExtensionRequest(request),
"Bytecode for web extension content scrips is not cached");
EncodeRequestBytecode(aes.cx(), request);
request->DropBytecode();
request->DropBytecodeCacheReferences();
}
}
void ScriptLoader::EncodeRequestBytecode(JSContext* aCx,
ScriptLoadRequest* aRequest) {
using namespace mozilla::Telemetry;
nsresult rv = NS_OK;
MOZ_ASSERT_IF(!aRequest->IsStencil(), aRequest->mCacheInfo);
auto bytecodeFailed = mozilla::MakeScopeExit(
[&]() { TRACE_FOR_TEST_NONE(aRequest, "scriptloader_bytecode_failed"); });
bool result;
if (aRequest->IsModuleRequest()) {
aRequest->mScriptForBytecodeEncoding = nullptr;
ModuleScript* moduleScript = aRequest->AsModuleRequest()->mModuleScript;
JS::Rooted<JSObject*> module(aCx, moduleScript->ModuleRecord());
result = JS::FinishCollectingDelazifications(aCx, module,
aRequest->SRIAndBytecode());
} else if (mCache) {
RefPtr<JS::Stencil> stencil;
JS::Rooted<JSScript*> script(aCx, aRequest->mScriptForBytecodeEncoding);
aRequest->mScriptForBytecodeEncoding = nullptr;
result = JS::FinishCollectingDelazifications(aCx, script,
getter_AddRefs(stencil));
if (result) {
aRequest->SetStencil(stencil.forget());
bytecodeFailed.release();
return;
}
// TODO: Bytecode encoding for script, at different timing.
} else {
JS::Rooted<JSScript*> script(aCx, aRequest->mScriptForBytecodeEncoding);
result = JS::FinishCollectingDelazifications(aCx, script,
aRequest->SRIAndBytecode());
aRequest->mScriptForBytecodeEncoding = nullptr;
}
if (!result) {
// Encoding can be aborted for non-supported syntax (e.g. asm.js), or
// any other internal error.
// We don't care the error and just give up encoding.
JS_ClearPendingException(aCx);
LOG(("ScriptLoadRequest (%p): Cannot serialize bytecode", aRequest));
return;
}
Vector<uint8_t> compressedBytecode;
// TODO probably need to move this to a helper thread
if (!ScriptBytecodeCompress(aRequest->SRIAndBytecode(),
aRequest->GetSRILength(), compressedBytecode)) {
return;
}
if (compressedBytecode.length() >= UINT32_MAX) {
LOG(
("ScriptLoadRequest (%p): Bytecode cache is too large to be decoded "
"correctly.",
aRequest));
return;
}
// Open the output stream to the cache entry alternate data storage. This
// might fail if the stream is already open by another request, in which
// case, we just ignore the current one.
nsCOMPtr<nsIAsyncOutputStream> output;
rv = aRequest->mCacheInfo->OpenAlternativeOutputStream(
BytecodeMimeTypeFor(aRequest),
static_cast<int64_t>(compressedBytecode.length()),
getter_AddRefs(output));
if (NS_FAILED(rv)) {
LOG(
("ScriptLoadRequest (%p): Cannot open bytecode cache (rv = %X, output "
"= %p)",
aRequest, unsigned(rv), output.get()));
return;
}
MOZ_ASSERT(output);
auto closeOutStream = mozilla::MakeScopeExit([&]() {
rv = output->CloseWithStatus(rv);
LOG(("ScriptLoadRequest (%p): Closing (rv = %X)", aRequest, unsigned(rv)));
});
uint32_t n;
rv = output->Write(reinterpret_cast<char*>(compressedBytecode.begin()),
compressedBytecode.length(), &n);
LOG(
("ScriptLoadRequest (%p): Write bytecode cache (rv = %X, length = %u, "
"written = %u)",
aRequest, unsigned(rv), unsigned(compressedBytecode.length()), n));
if (NS_FAILED(rv)) {
return;
}
MOZ_RELEASE_ASSERT(compressedBytecode.length() == n);
bytecodeFailed.release();
TRACE_FOR_TEST_NONE(aRequest, "scriptloader_bytecode_saved");
}
void ScriptLoader::GiveUpBytecodeEncoding() {
// If the document went away prematurely, we still want to set this, in order
// to avoid queuing more scripts.
mGiveUpEncoding = true;
// Ideally we prefer to properly end the incremental encoder, such that we
// would not keep a large buffer around. If we cannot, we fallback on the
// removal of all request from the current list and these large buffers would
// be removed at the same time as the source object.
nsCOMPtr<nsIScriptGlobalObject> globalObject = GetScriptGlobalObject();
AutoAllowLegacyScriptExecution exemption;
Maybe<AutoEntryScript> aes;
if (globalObject) {
nsCOMPtr<nsIScriptContext> context = globalObject->GetScriptContext();
if (context) {
aes.emplace(globalObject, "give-up bytecode encoding", true);
}
}
while (!mBytecodeEncodingQueue.isEmpty()) {
RefPtr<ScriptLoadRequest> request = mBytecodeEncodingQueue.StealFirst();
LOG(("ScriptLoadRequest (%p): Cannot serialize bytecode", request.get()));
TRACE_FOR_TEST_NONE(request, "scriptloader_bytecode_failed");
MOZ_ASSERT(!IsWebExtensionRequest(request));
if (aes.isSome()) {
if (request->IsModuleRequest()) {
ModuleScript* moduleScript = request->AsModuleRequest()->mModuleScript;
JS::Rooted<JSObject*> module(aes->cx(), moduleScript->ModuleRecord());
JS::AbortCollectingDelazifications(module);
} else {
JS::Rooted<JSScript*> script(aes->cx(),
request->mScriptForBytecodeEncoding);
request->mScriptForBytecodeEncoding = nullptr;
JS::AbortCollectingDelazifications(script);
}
}
request->DropBytecode();
request->DropBytecodeCacheReferences();
}
}
bool ScriptLoader::HasPendingRequests() const {
return mParserBlockingRequest || !mXSLTRequests.isEmpty() ||
!mLoadedAsyncRequests.isEmpty() ||
!mNonAsyncExternalScriptInsertedRequests.isEmpty() ||
!mDeferRequests.isEmpty() || HasPendingDynamicImports() ||
!mPendingChildLoaders.IsEmpty();
// mOffThreadCompilingRequests are already being processed.
}
bool ScriptLoader::HasPendingDynamicImports() const {
if (mModuleLoader && mModuleLoader->HasPendingDynamicImports()) {
return true;
}
for (ModuleLoader* loader : mWebExtModuleLoaders) {
if (loader->HasPendingDynamicImports()) {
return true;
}
}
for (ModuleLoader* loader : mShadowRealmModuleLoaders) {
if (loader->HasPendingDynamicImports()) {
return true;
}
}
return false;
}
void ScriptLoader::ProcessPendingRequestsAsync() {
if (HasPendingRequests()) {
nsCOMPtr<nsIRunnable> task = NewRunnableMethod<bool>(
"dom::ScriptLoader::ProcessPendingRequests", this,
&ScriptLoader::ProcessPendingRequests, false);
if (mDocument) {
mDocument->Dispatch(task.forget());
} else {
NS_DispatchToCurrentThread(task.forget());
}
}
}
void ProcessPendingRequestsCallback(nsITimer* aTimer, void* aClosure) {
RefPtr<ScriptLoader> sl = static_cast<ScriptLoader*>(aClosure);
sl->ProcessPendingRequests(true);
}
void ScriptLoader::ProcessPendingRequestsAsyncBypassParserBlocking() {
MOZ_ASSERT(HasPendingRequests());
if (!mProcessPendingRequestsAsyncBypassParserBlocking) {
mProcessPendingRequestsAsyncBypassParserBlocking = NS_NewTimer();
}
// test_bug503481b.html tests the unlikely edge case where loading parser
// blocking script depends on async script to be executed. So don't block
// async scripts forever.
mProcessPendingRequestsAsyncBypassParserBlocking->InitWithNamedFuncCallback(
ProcessPendingRequestsCallback, this, 2500, nsITimer::TYPE_ONE_SHOT,
"ProcessPendingRequestsAsyncBypassParserBlocking");
}
void ScriptLoader::ProcessPendingRequests(bool aAllowBypassingParserBlocking) {
RefPtr<ScriptLoadRequest> request;
if (mProcessPendingRequestsAsyncBypassParserBlocking) {
mProcessPendingRequestsAsyncBypassParserBlocking->Cancel();
}
if (mParserBlockingRequest) {
if (mParserBlockingRequest->IsFinished() &&
ReadyToExecuteParserBlockingScripts()) {
request.swap(mParserBlockingRequest);
UnblockParser(request);
ProcessRequest(request);
ContinueParserAsync(request);
ProcessPendingRequestsAsync();
return;
}
if (!aAllowBypassingParserBlocking) {
ProcessPendingRequestsAsyncBypassParserBlocking();
return;
}
}
while (ReadyToExecuteParserBlockingScripts() && !mXSLTRequests.isEmpty() &&
mXSLTRequests.getFirst()->IsFinished()) {
request = mXSLTRequests.StealFirst();
ProcessRequest(request);
}
while (ReadyToExecuteScripts() && !mLoadedAsyncRequests.isEmpty()) {
request = mLoadedAsyncRequests.StealFirst();
if (request->IsModuleRequest()) {
ProcessRequest(request);
} else {
CompileOffThreadOrProcessRequest(request);
}
}
while (ReadyToExecuteScripts() &&
!mNonAsyncExternalScriptInsertedRequests.isEmpty() &&
mNonAsyncExternalScriptInsertedRequests.getFirst()->IsFinished()) {
// Violate the HTML5 spec and execute these in the insertion order in
// order to make LABjs and the "order" plug-in for RequireJS work with
// their Gecko-sniffed code path. See
request = mNonAsyncExternalScriptInsertedRequests.StealFirst();
ProcessRequest(request);
}
if (mDeferCheckpointReached && mXSLTRequests.isEmpty()) {
while (ReadyToExecuteScripts() && !mDeferRequests.isEmpty() &&
mDeferRequests.getFirst()->IsFinished()) {
request = mDeferRequests.StealFirst();
ProcessRequest(request);
}
}
while (!mPendingChildLoaders.IsEmpty() &&
ReadyToExecuteParserBlockingScripts()) {
RefPtr<ScriptLoader> child = mPendingChildLoaders[0];
mPendingChildLoaders.RemoveElementAt(0);
child->RemoveParserBlockingScriptExecutionBlocker();
}
if (mDeferCheckpointReached && mDocument && !mParserBlockingRequest &&
mNonAsyncExternalScriptInsertedRequests.isEmpty() &&
mXSLTRequests.isEmpty() && mDeferRequests.isEmpty() &&
MaybeRemovedDeferRequests()) {
return ProcessPendingRequests();
}
if (mDeferCheckpointReached && mDocument && !mParserBlockingRequest &&
mLoadingAsyncRequests.isEmpty() && mLoadedAsyncRequests.isEmpty() &&
mNonAsyncExternalScriptInsertedRequests.isEmpty() &&
mXSLTRequests.isEmpty() && mDeferRequests.isEmpty()) {
// No more pending scripts; time to unblock onload.
// OK to unblock onload synchronously here, since callers must be
// prepared for the world changing anyway.
mDeferCheckpointReached = false;
mDocument->UnblockOnload(true);
}
}
bool ScriptLoader::ReadyToExecuteParserBlockingScripts() {
// Make sure the SelfReadyToExecuteParserBlockingScripts check is first, so
// that we don't block twice on an ancestor.
if (!SelfReadyToExecuteParserBlockingScripts()) {
return false;
}
if (mDocument && mDocument->GetWindowContext()) {
for (WindowContext* wc =
mDocument->GetWindowContext()->GetParentWindowContext();
wc; wc = wc->GetParentWindowContext()) {
if (Document* doc = wc->GetDocument()) {
ScriptLoader* ancestor = doc->ScriptLoader();
if (!ancestor->SelfReadyToExecuteParserBlockingScripts() &&
ancestor->AddPendingChildLoader(this)) {
AddParserBlockingScriptExecutionBlocker();
return false;
}
}
}
}
return true;
}
template <typename Unit>
static nsresult ConvertToUnicode(nsIChannel* aChannel, const uint8_t* aData,
uint32_t aLength,
const nsAString& aHintCharset,
Document* aDocument, Unit*& aBufOut,
size_t& aLengthOut) {
if (!aLength) {
aBufOut = nullptr;
aLengthOut = 0;
return NS_OK;
}
auto data = Span(aData, aLength);
// The encoding info precedence is as follows from high to low:
// The BOM
// HTTP Content-Type (if name recognized)
// charset attribute (if name recognized)
// The encoding of the document
UniquePtr<Decoder> unicodeDecoder;
const Encoding* encoding;
std::tie(encoding, std::ignore) = Encoding::ForBOM(data);
if (encoding) {
unicodeDecoder = encoding->NewDecoderWithBOMRemoval();
}
if (!unicodeDecoder && aChannel) {
nsAutoCString label;
if (NS_SUCCEEDED(aChannel->GetContentCharset(label)) &&
(encoding = Encoding::ForLabel(label))) {
unicodeDecoder = encoding->NewDecoderWithoutBOMHandling();
}
}
if (!unicodeDecoder && (encoding = Encoding::ForLabel(aHintCharset))) {
unicodeDecoder = encoding->NewDecoderWithoutBOMHandling();
}
if (!unicodeDecoder && aDocument) {
unicodeDecoder =
aDocument->GetDocumentCharacterSet()->NewDecoderWithoutBOMHandling();
}
if (!unicodeDecoder) {
// Curiously, there are various callers that don't pass aDocument. The
// fallback in the old code was ISO-8859-1, which behaved like
// windows-1252.
unicodeDecoder = WINDOWS_1252_ENCODING->NewDecoderWithoutBOMHandling();
}
auto signalOOM = mozilla::MakeScopeExit([&aBufOut, &aLengthOut]() {
aBufOut = nullptr;
aLengthOut = 0;
});
CheckedInt<size_t> bufferLength =
ScriptDecoding<Unit>::MaxBufferLength(unicodeDecoder, aLength);
if (!bufferLength.isValid()) {
return NS_ERROR_OUT_OF_MEMORY;
}
CheckedInt<size_t> bufferByteSize = bufferLength * sizeof(Unit);
if (!bufferByteSize.isValid()) {
return NS_ERROR_OUT_OF_MEMORY;
}
aBufOut = static_cast<Unit*>(js_malloc(bufferByteSize.value()));
if (!aBufOut) {
return NS_ERROR_OUT_OF_MEMORY;
}
signalOOM.release();
aLengthOut = ScriptDecoding<Unit>::DecodeInto(
unicodeDecoder, data, Span(aBufOut, bufferLength.value()),
/* aEndOfSource = */ true);
return NS_OK;
}
/* static */
nsresult ScriptLoader::ConvertToUTF16(
nsIChannel* aChannel, const uint8_t* aData, uint32_t aLength,
const nsAString& aHintCharset, Document* aDocument,
UniquePtr<char16_t[], JS::FreePolicy>& aBufOut, size_t& aLengthOut) {
char16_t* bufOut;
nsresult rv = ConvertToUnicode(aChannel, aData, aLength, aHintCharset,
aDocument, bufOut, aLengthOut);
if (NS_SUCCEEDED(rv)) {
aBufOut.reset(bufOut);
}
return rv;
}
/* static */
nsresult ScriptLoader::ConvertToUTF8(
nsIChannel* aChannel, const uint8_t* aData, uint32_t aLength,
const nsAString& aHintCharset, Document* aDocument,
UniquePtr<Utf8Unit[], JS::FreePolicy>& aBufOut, size_t& aLengthOut) {
Utf8Unit* bufOut;
nsresult rv = ConvertToUnicode(aChannel, aData, aLength, aHintCharset,
aDocument, bufOut, aLengthOut);
if (NS_SUCCEEDED(rv)) {
aBufOut.reset(bufOut);
}
return rv;
}
nsresult ScriptLoader::OnStreamComplete(
nsIIncrementalStreamLoader* aLoader, ScriptLoadRequest* aRequest,
nsresult aChannelStatus, nsresult aSRIStatus,
SRICheckDataVerifier* aSRIDataVerifier) {
NS_ASSERTION(aRequest, "null request in stream complete handler");
NS_ENSURE_TRUE(aRequest, NS_ERROR_FAILURE);
nsresult rv = VerifySRI(aRequest, aLoader, aSRIStatus, aSRIDataVerifier);
if (NS_SUCCEEDED(rv)) {
// If we are loading from source, save the computed SRI hash or a dummy SRI
// hash in case we are going to save the bytecode of this script in the
// cache.
if (aRequest->IsSource()) {
rv = SaveSRIHash(aRequest, aSRIDataVerifier);
}
if (NS_SUCCEEDED(rv)) {
rv = PrepareLoadedRequest(aRequest, aLoader, aChannelStatus);
}
if (NS_FAILED(rv)) {
ReportErrorToConsole(aRequest, rv);
}
}
if (NS_FAILED(rv)) {
// When loading bytecode, we verify the SRI hash. If it does not match the
// one from the document we restart the load, forcing us to load the source
// instead. If this happens do not remove the current request from script
// loader's data structures or fire any events.
if (aChannelStatus != NS_BINDING_RETARGETED) {
HandleLoadError(aRequest, rv);
}
}
// Process our request and/or any pending ones
ProcessPendingRequests();
return rv;
}
nsresult ScriptLoader::VerifySRI(ScriptLoadRequest* aRequest,
nsIIncrementalStreamLoader* aLoader,
nsresult aSRIStatus,
SRICheckDataVerifier* aSRIDataVerifier) const {
nsCOMPtr<nsIRequest> channelRequest;
aLoader->GetRequest(getter_AddRefs(channelRequest));
nsCOMPtr<nsIChannel> channel;
channel = do_QueryInterface(channelRequest);
nsresult rv = NS_OK;
if (!aRequest->mIntegrity.IsEmpty() && NS_SUCCEEDED((rv = aSRIStatus))) {
MOZ_ASSERT(aSRIDataVerifier);
MOZ_ASSERT(mReporter);
nsAutoCString sourceUri;
if (mDocument && mDocument->GetDocumentURI()) {
mDocument->GetDocumentURI()->GetAsciiSpec(sourceUri);
}
rv = aSRIDataVerifier->Verify(aRequest->mIntegrity, channel, sourceUri,
mReporter);
if (channelRequest) {
mReporter->FlushReportsToConsole(
nsContentUtils::GetInnerWindowID(channelRequest));
} else {
mReporter->FlushConsoleReports(mDocument);
}
if (NS_FAILED(rv)) {
rv = NS_ERROR_SRI_CORRUPT;
}
}
return rv;
}
nsresult ScriptLoader::SaveSRIHash(
ScriptLoadRequest* aRequest, SRICheckDataVerifier* aSRIDataVerifier) const {
MOZ_ASSERT(aRequest->IsSource());
JS::TranscodeBuffer& bytecode = aRequest->SRIAndBytecode();
MOZ_ASSERT(bytecode.empty());
uint32_t len = 0;
// If the integrity metadata does not correspond to a valid hash function,
// IsComplete would be false.
if (!aRequest->mIntegrity.IsEmpty() && aSRIDataVerifier->IsComplete()) {
MOZ_ASSERT(bytecode.length() == 0);
// Encode the SRI computed hash.
len = aSRIDataVerifier->DataSummaryLength();
if (!bytecode.resize(len)) {
return NS_ERROR_OUT_OF_MEMORY;
}
DebugOnly<nsresult> res =
aSRIDataVerifier->ExportDataSummary(len, bytecode.begin());
MOZ_ASSERT(NS_SUCCEEDED(res));
} else {
MOZ_ASSERT(bytecode.length() == 0);
// Encode a dummy SRI hash.
len = SRICheckDataVerifier::EmptyDataSummaryLength();
if (!bytecode.resize(len)) {
return NS_ERROR_OUT_OF_MEMORY;
}
DebugOnly<nsresult> res =
SRICheckDataVerifier::ExportEmptyDataSummary(len, bytecode.begin());
MOZ_ASSERT(NS_SUCCEEDED(res));
}
// Verify that the exported and predicted length correspond.
DebugOnly<uint32_t> srilen{};
MOZ_ASSERT(NS_SUCCEEDED(
SRICheckDataVerifier::DataSummaryLength(len, bytecode.begin(), &srilen)));
MOZ_ASSERT(srilen == len);
MOZ_ASSERT(bytecode.length() == len);
aRequest->SetSRILength(len);
if (aRequest->GetSRILength() != len) {
// The bytecode is aligned in the bytecode buffer, and space might be
// reserved for padding after the SRI hash.
if (!bytecode.resize(aRequest->GetSRILength())) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
return NS_OK;
}
void ScriptLoader::ReportErrorToConsole(ScriptLoadRequest* aRequest,
nsresult aResult) const {
MOZ_ASSERT(aRequest);
if (aRequest->GetScriptLoadContext()->IsPreload()) {
// Skip reporting errors in preload requests. If the request is actually
// used then we will report the error in ReportPreloadErrorsToConsole below.
aRequest->GetScriptLoadContext()->mUnreportedPreloadError = aResult;
return;
}
bool isScript = !aRequest->IsModuleRequest();
const char* message;
if (aResult == NS_ERROR_MALFORMED_URI) {
message = isScript ? "ScriptSourceMalformed" : "ModuleSourceMalformed";
} else if (aResult == NS_ERROR_DOM_BAD_URI) {
message = isScript ? "ScriptSourceNotAllowed" : "ModuleSourceNotAllowed";
} else if (aResult == NS_ERROR_DOM_WEBEXT_CONTENT_SCRIPT_URI) {
MOZ_ASSERT(!isScript);
message = "WebExtContentScriptModuleSourceNotAllowed";
} else if (net::UrlClassifierFeatureFactory::IsClassifierBlockingErrorCode(
aResult)) {
// Blocking classifier error codes already show their own console messages.
return;
} else {
message = isScript ? "ScriptSourceLoadFailed" : "ModuleSourceLoadFailed";
}
AutoTArray<nsString, 1> params;
CopyUTF8toUTF16(aRequest->mURI->GetSpecOrDefault(), *params.AppendElement());
uint32_t lineNo = aRequest->GetScriptLoadContext()->GetScriptLineNumber();
JS::ColumnNumberOneOrigin columnNo =
aRequest->GetScriptLoadContext()->GetScriptColumnNumber();
nsContentUtils::ReportToConsole(
nsIScriptError::warningFlag, "Script Loader"_ns, mDocument,
nsContentUtils::eDOM_PROPERTIES, message, params,
SourceLocation{mDocument->GetDocumentURI(), lineNo,
columnNo.oneOriginValue()});
}
void ScriptLoader::ReportWarningToConsole(
ScriptLoadRequest* aRequest, const char* aMessageName,
const nsTArray<nsString>& aParams) const {
uint32_t lineNo = aRequest->GetScriptLoadContext()->GetScriptLineNumber();
JS::ColumnNumberOneOrigin columnNo =
aRequest->GetScriptLoadContext()->GetScriptColumnNumber();
nsContentUtils::ReportToConsole(
nsIScriptError::warningFlag, "Script Loader"_ns, mDocument,
nsContentUtils::eDOM_PROPERTIES, aMessageName, aParams,
SourceLocation{mDocument->GetDocumentURI(), lineNo,
columnNo.oneOriginValue()});
}
void ScriptLoader::ReportPreloadErrorsToConsole(ScriptLoadRequest* aRequest) {
if (NS_FAILED(aRequest->GetScriptLoadContext()->mUnreportedPreloadError)) {
ReportErrorToConsole(
aRequest, aRequest->GetScriptLoadContext()->mUnreportedPreloadError);
aRequest->GetScriptLoadContext()->mUnreportedPreloadError = NS_OK;
}
if (aRequest->IsModuleRequest()) {
for (const auto& childRequest : aRequest->AsModuleRequest()->mImports) {
ReportPreloadErrorsToConsole(childRequest);
}
}
}
void ScriptLoader::HandleLoadError(ScriptLoadRequest* aRequest,
nsresult aResult) {
/*
* Handle script not loading error because source was an tracking URL (or
* fingerprinting, cryptomining, etc).
* We make a note of this script node by including it in a dedicated
* array of blocked tracking nodes under its parent document.
*/
if (net::UrlClassifierFeatureFactory::IsClassifierBlockingErrorCode(
aResult)) {
nsCOMPtr<nsIContent> cont = do_QueryInterface(
aRequest->GetScriptLoadContext()->GetScriptElementForUrlClassifier());
mDocument->AddBlockedNodeByClassifier(cont);
}
if (aRequest->IsModuleRequest()) {
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mIsInline);
aRequest->AsModuleRequest()->OnFetchComplete(aResult);
}
if (aRequest->GetScriptLoadContext()->mInDeferList) {
MOZ_ASSERT_IF(aRequest->IsModuleRequest(),
aRequest->AsModuleRequest()->IsTopLevel());
if (aRequest->isInList()) {
RefPtr<ScriptLoadRequest> req = mDeferRequests.Steal(aRequest);
FireScriptAvailable(aResult, req);
}
} else if (aRequest->GetScriptLoadContext()->mInAsyncList) {
MOZ_ASSERT_IF(aRequest->IsModuleRequest(),
aRequest->AsModuleRequest()->IsTopLevel());
if (aRequest->isInList()) {
RefPtr<ScriptLoadRequest> req = mLoadingAsyncRequests.Steal(aRequest);
FireScriptAvailable(aResult, req);
}
} else if (aRequest->GetScriptLoadContext()->mIsNonAsyncScriptInserted) {
if (aRequest->isInList()) {
RefPtr<ScriptLoadRequest> req =
mNonAsyncExternalScriptInsertedRequests.Steal(aRequest);
FireScriptAvailable(aResult, req);
}
} else if (aRequest->GetScriptLoadContext()->mIsXSLT) {
if (aRequest->isInList()) {
RefPtr<ScriptLoadRequest> req = mXSLTRequests.Steal(aRequest);
FireScriptAvailable(aResult, req);
}
} else if (aRequest->GetScriptLoadContext()->IsPreload()) {
if (aRequest->IsModuleRequest()) {
aRequest->Cancel();
}
if (aRequest->IsTopLevel()) {
// Request may already have been removed by
// CancelAndClearScriptLoadRequests.
mPreloads.RemoveElement(aRequest, PreloadRequestComparator());
}
MOZ_ASSERT(!aRequest->isInList());
} else if (aRequest->IsModuleRequest()) {
ModuleLoadRequest* modReq = aRequest->AsModuleRequest();
if (modReq->IsDynamicImport()) {
MOZ_ASSERT(modReq->IsTopLevel());
if (aRequest->isInList()) {
modReq->CancelDynamicImport(aResult);
}
} else {
MOZ_ASSERT(!modReq->isInList());
modReq->Cancel();
}
} else if (mParserBlockingRequest == aRequest) {
MOZ_ASSERT(!aRequest->isInList());
mParserBlockingRequest = nullptr;
UnblockParser(aRequest);
// Ensure that we treat the script as our current parser-inserted script
// while firing onerror on it.
MOZ_ASSERT(aRequest->GetScriptLoadContext()->GetParserCreated());
nsCOMPtr<nsIScriptElement> oldParserInsertedScript =
mCurrentParserInsertedScript;
mCurrentParserInsertedScript =
aRequest->GetScriptLoadContext()
->GetScriptElementForCurrentParserInsertedScript();
FireScriptAvailable(aResult, aRequest);
ContinueParserAsync(aRequest);
mCurrentParserInsertedScript = oldParserInsertedScript;
} else {
// This happens for blocking requests cancelled by ParsingComplete().
// Ignore cancellation status for link-preload requests, as cancellation can
// be omitted for them when SRI is stronger on consumer tags.
MOZ_ASSERT(aRequest->IsCanceled() ||
aRequest->GetScriptLoadContext()->IsLinkPreloadScript());
MOZ_ASSERT(!aRequest->isInList());
}
}
void ScriptLoader::UnblockParser(ScriptLoadRequest* aParserBlockingRequest) {
aParserBlockingRequest->GetScriptLoadContext()->UnblockParser();
}
void ScriptLoader::ContinueParserAsync(
ScriptLoadRequest* aParserBlockingRequest) {
aParserBlockingRequest->GetScriptLoadContext()->ContinueParserAsync();
}
uint32_t ScriptLoader::NumberOfProcessors() {
if (mNumberOfProcessors > 0) {
return mNumberOfProcessors;
}
int32_t numProcs = PR_GetNumberOfProcessors();
if (numProcs > 0) {
mNumberOfProcessors = numProcs;
}
return mNumberOfProcessors;
}
int32_t ScriptLoader::PhysicalSizeOfMemoryInGB() {
// 0 is a valid result from PR_GetPhysicalMemorySize() which
// means a failure occured.
if (mPhysicalSizeOfMemory >= 0) {
return mPhysicalSizeOfMemory;
}
// Save the size in GB.
mPhysicalSizeOfMemory =
static_cast<int32_t>(PR_GetPhysicalMemorySize() >> 30);
return mPhysicalSizeOfMemory;
}
bool ScriptLoader::ShouldApplyDelazifyStrategy(ScriptLoadRequest* aRequest) {
// Full parse everything if negative.
if (StaticPrefs::dom_script_loader_delazification_max_size() < 0) {
return true;
}
// Be conservative on machines with 2GB or less of memory.
if (PhysicalSizeOfMemoryInGB() <=
StaticPrefs::dom_script_loader_delazification_min_mem()) {
return false;
}
uint32_t max_size = static_cast<uint32_t>(
StaticPrefs::dom_script_loader_delazification_max_size());
uint32_t script_size =
aRequest->ScriptTextLength() > 0
? static_cast<uint32_t>(aRequest->ScriptTextLength())
: 0;
if (mTotalFullParseSize + script_size < max_size) {
return true;
}
if (LOG_ENABLED()) {
nsCString url = aRequest->mURI->GetSpecOrDefault();
LOG(
("ScriptLoadRequest (%p): non-on-demand-only Parsing Disabled for (%s) "
"with size=%u because mTotalFullParseSize=%u would exceed max_size=%u",
aRequest, url.get(), script_size, mTotalFullParseSize, max_size));
}
return false;
}
void ScriptLoader::ApplyDelazifyStrategy(JS::CompileOptions* aOptions) {
JS::DelazificationOption strategy =
JS::DelazificationOption::ParseEverythingEagerly;
uint32_t strategyIndex =
StaticPrefs::dom_script_loader_delazification_strategy();
// Assert that all enumerated values of DelazificationOption are dense between
// OnDemandOnly and ParseEverythingEagerly.
#ifdef DEBUG
uint32_t count = 0;
uint32_t mask = 0;
# define _COUNT_ENTRIES(Name) count++;
# define _MASK_ENTRIES(Name) \
mask |= 1 << uint32_t(JS::DelazificationOption::Name);
FOREACH_DELAZIFICATION_STRATEGY(_COUNT_ENTRIES);
MOZ_ASSERT(count == uint32_t(strategy) + 1);
FOREACH_DELAZIFICATION_STRATEGY(_MASK_ENTRIES);
MOZ_ASSERT(((mask + 1) & mask) == 0);
# undef _COUNT_ENTRIES
# undef _MASK_ENTRIES
#endif
// Any strategy index larger than ParseEverythingEagerly would default to
// ParseEverythingEagerly.
if (strategyIndex <= uint32_t(strategy)) {
strategy = JS::DelazificationOption(uint8_t(strategyIndex));
}
aOptions->setEagerDelazificationStrategy(strategy);
}
bool ScriptLoader::ShouldCompileOffThread(ScriptLoadRequest* aRequest) {
if (NumberOfProcessors() <= 1) {
return false;
}
if (aRequest == mParserBlockingRequest) {
return true;
}
if (SpeculativeOMTParsingEnabled()) {
// Processing non async inserted scripts too early can potentially delay the
// load event from firing so focus on other scripts instead.
if (aRequest->GetScriptLoadContext()->mIsNonAsyncScriptInserted &&
!StaticPrefs::
dom_script_loader_external_scripts_speculate_non_parser_inserted_enabled()) {
return false;
}
// Async and link preload scripts do not need to be parsed right away.
if (aRequest->GetScriptLoadContext()->IsAsyncScript() &&
!StaticPrefs::
dom_script_loader_external_scripts_speculate_async_enabled()) {
return false;
}
if (aRequest->GetScriptLoadContext()->IsLinkPreloadScript() &&
!StaticPrefs::
dom_script_loader_external_scripts_speculate_link_preload_enabled()) {
return false;
}
return true;
}
return false;
}
static bool MimeTypeMatchesExpectedModuleType(
nsIChannel* aChannel, JS::ModuleType expectedModuleType) {
nsAutoCString mimeType;
aChannel->GetContentType(mimeType);
NS_ConvertUTF8toUTF16 typeString(mimeType);
if (expectedModuleType == JS::ModuleType::JavaScript &&
nsContentUtils::IsJavascriptMIMEType(typeString)) {
return true;
}
if (expectedModuleType == JS::ModuleType::JSON &&
nsContentUtils::IsJsonMimeType(typeString)) {
return true;
}
return false;
}
nsresult ScriptLoader::PrepareLoadedRequest(ScriptLoadRequest* aRequest,
nsIIncrementalStreamLoader* aLoader,
nsresult aStatus) {
if (NS_FAILED(aStatus)) {
return aStatus;
}
if (aRequest->IsCanceled()) {
return NS_BINDING_ABORTED;
}
MOZ_ASSERT(aRequest->IsFetching());
CollectScriptTelemetry(aRequest);
// If we don't have a document, then we need to abort further
// evaluation.
if (!mDocument) {
return NS_ERROR_NOT_AVAILABLE;
}
// If the load returned an error page, then we need to abort
nsCOMPtr<nsIRequest> req;
nsresult rv = aLoader->GetRequest(getter_AddRefs(req));
NS_ASSERTION(req, "StreamLoader's request went away prematurely");
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIHttpChannel> httpChannel = do_QueryInterface(req);
if (httpChannel) {
bool requestSucceeded;
rv = httpChannel->GetRequestSucceeded(&requestSucceeded);
if (NS_SUCCEEDED(rv) && !requestSucceeded) {
return NS_ERROR_NOT_AVAILABLE;
}
if (aRequest->IsModuleRequest()) {
// Update script's referrer-policy if there's a Referrer-Policy header in
// the HTTP response.
ReferrerPolicy policy =
nsContentUtils::GetReferrerPolicyFromChannel(httpChannel);
if (policy != ReferrerPolicy::_empty) {
aRequest->UpdateReferrerPolicy(policy);
}
}
nsAutoCString sourceMapURL;
if (nsContentUtils::GetSourceMapURL(httpChannel, sourceMapURL)) {
aRequest->mSourceMapURL = Some(NS_ConvertUTF8toUTF16(sourceMapURL));
}
nsCOMPtr<nsIClassifiedChannel> classifiedChannel = do_QueryInterface(req);
MOZ_ASSERT(classifiedChannel);
if (classifiedChannel &&
classifiedChannel->IsThirdPartyTrackingResource()) {
aRequest->GetScriptLoadContext()->SetIsTracking();
}
}
nsCOMPtr<nsIChannel> channel = do_QueryInterface(req);
// If this load was subject to a CORS check, don't flag it with a separate
// origin principal, so that it will treat our document's principal as the
// origin principal. Module loads always use CORS.
if (!aRequest->IsModuleRequest() && aRequest->CORSMode() == CORS_NONE) {
rv = nsContentUtils::GetSecurityManager()->GetChannelResultPrincipal(
channel, getter_AddRefs(aRequest->mOriginPrincipal));
NS_ENSURE_SUCCESS(rv, rv);
}
// This assertion could fire errorously if we ran out of memory when
// inserting the request in the array. However it's an unlikely case
// so if you see this assertion it is likely something else that is
// wrong, especially if you see it more than once.
NS_ASSERTION(mDeferRequests.Contains(aRequest) ||
mLoadingAsyncRequests.Contains(aRequest) ||
mNonAsyncExternalScriptInsertedRequests.Contains(aRequest) ||
mXSLTRequests.Contains(aRequest) ||
(aRequest->IsModuleRequest() &&
(aRequest->AsModuleRequest()->IsRegisteredDynamicImport() ||
!aRequest->AsModuleRequest()->IsTopLevel())) ||
mPreloads.Contains(aRequest, PreloadRequestComparator()) ||
mParserBlockingRequest == aRequest,
"aRequest should be pending!");
nsCOMPtr<nsIURI> uri;
rv = channel->GetOriginalURI(getter_AddRefs(uri));
NS_ENSURE_SUCCESS(rv, rv);
aRequest->SetBaseURLFromChannelAndOriginalURI(channel, uri);
if (aRequest->IsModuleRequest()) {
ModuleLoadRequest* request = aRequest->AsModuleRequest();
// When loading a module, only responses with an expected MIME type are
// acceptable.
if (!MimeTypeMatchesExpectedModuleType(channel, request->mModuleType)) {
return NS_ERROR_FAILURE;
}
// Attempt to compile off main thread.
bool couldCompile = false;
rv = AttemptOffThreadScriptCompile(request, &couldCompile);
NS_ENSURE_SUCCESS(rv, rv);
if (couldCompile) {
return NS_OK;
}
// Otherwise compile it right away and start fetching descendents.
return request->OnFetchComplete(NS_OK);
}
// The script is now loaded and ready to run.
aRequest->SetReady();
// If speculative parsing is enabled attempt to compile all
// external scripts off-main-thread. Otherwise, only omt compile scripts
// blocking the parser.
if (ShouldCompileOffThread(aRequest)) {
MOZ_ASSERT(!aRequest->IsModuleRequest());
bool couldCompile = false;
nsresult rv = AttemptOffThreadScriptCompile(aRequest, &couldCompile);
NS_ENSURE_SUCCESS(rv, rv);
if (couldCompile) {
MOZ_ASSERT(aRequest->mState == ScriptLoadRequest::State::Compiling,
"Request should be off-thread compiling now.");
return NS_OK;
}
// If off-thread compile was rejected, continue with regular processing.
}
MaybeMoveToLoadedList(aRequest);
return NS_OK;
}
void ScriptLoader::DeferCheckpointReached() {
if (mDeferEnabled) {
// Have to check because we apparently get ParsingComplete
// without BeginDeferringScripts in some cases
mDeferCheckpointReached = true;
}
mDeferEnabled = false;
ProcessPendingRequests();
}
void ScriptLoader::ParsingComplete(bool aTerminated) {
if (aTerminated) {
CancelAndClearScriptLoadRequests();
// Have to call this even if aTerminated so we'll correctly unblock onload.
DeferCheckpointReached();
}
}
void ScriptLoader::PreloadURI(
nsIURI* aURI, const nsAString& aCharset, const nsAString& aType,
const nsAString& aCrossOrigin, const nsAString& aNonce,
const nsAString& aFetchPriority, const nsAString& aIntegrity,
bool aScriptFromHead, bool aAsync, bool aDefer, bool aLinkPreload,
const ReferrerPolicy aReferrerPolicy, uint64_t aEarlyHintPreloaderId) {
NS_ENSURE_TRUE_VOID(mDocument);
// Check to see if scripts has been turned off.
if (!mEnabled || !mDocument->IsScriptEnabled()) {
return;
}
ScriptKind scriptKind = ScriptKind::eClassic;
static const char kASCIIWhitespace[] = "\t\n\f\r ";
nsAutoString type(aType);
type.Trim(kASCIIWhitespace);
if (type.LowerCaseEqualsASCII("module")) {
scriptKind = ScriptKind::eModule;
}
if (scriptKind == ScriptKind::eClassic && !aType.IsEmpty() &&
!nsContentUtils::IsJavascriptMIMEType(aType)) {
// Unknown type. Don't load it.
return;
}
SRIMetadata sriMetadata;
GetSRIMetadata(aIntegrity, &sriMetadata);
const auto requestPriority = FetchPriorityToRequestPriority(
nsGenericHTMLElement::ToFetchPriority(aFetchPriority));
// For link type "modulepreload":
// Step 11. Let options be a script fetch options whose cryptographic nonce is
// cryptographic nonce, integrity metadata is integrity metadata, parser
// metadata is "not-parser-inserted", credentials mode is credentials mode,
// referrer policy is referrer policy, and fetch priority is fetch priority.
//
// We treat speculative <script> loads as parser-inserted, because they
// come from a parser. This will also match how they should be treated
// as a normal load.
RefPtr<ScriptLoadRequest> request =
CreateLoadRequest(scriptKind, aURI, nullptr, mDocument->NodePrincipal(),
Element::StringToCORSMode(aCrossOrigin), aNonce,
requestPriority, sriMetadata, aReferrerPolicy,
aLinkPreload ? ParserMetadata::NotParserInserted
: ParserMetadata::ParserInserted,
RequestType::Preload);
request->GetScriptLoadContext()->mIsInline = false;
request->GetScriptLoadContext()->mScriptFromHead = aScriptFromHead;
request->GetScriptLoadContext()->SetScriptMode(aDefer, aAsync, aLinkPreload);
request->GetScriptLoadContext()->SetIsPreloadRequest();
request->mEarlyHintPreloaderId = aEarlyHintPreloaderId;
if (LOG_ENABLED()) {
nsAutoCString url;
aURI->GetAsciiSpec(url);
LOG(("ScriptLoadRequest (%p): Created preload request for %s",
request.get(), url.get()));
}
nsAutoString charset(aCharset);
nsresult rv = StartLoad(request, Some(charset));
if (NS_FAILED(rv)) {
return;
}
PreloadInfo* pi = mPreloads.AppendElement();
pi->mRequest = request;
pi->mCharset = aCharset;
}
void ScriptLoader::AddDeferRequest(ScriptLoadRequest* aRequest) {
MOZ_ASSERT(aRequest->GetScriptLoadContext()->IsDeferredScript());
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mInDeferList &&
!aRequest->GetScriptLoadContext()->mInAsyncList);
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mInCompilingList);
aRequest->GetScriptLoadContext()->mInDeferList = true;
mDeferRequests.AppendElement(aRequest);
if (mDeferEnabled && aRequest == mDeferRequests.getFirst() && mDocument &&
!mBlockingDOMContentLoaded) {
MOZ_ASSERT(mDocument->GetReadyStateEnum() == Document::READYSTATE_LOADING);
mBlockingDOMContentLoaded = true;
mDocument->BlockDOMContentLoaded();
}
}
void ScriptLoader::AddAsyncRequest(ScriptLoadRequest* aRequest) {
MOZ_ASSERT(aRequest->GetScriptLoadContext()->IsAsyncScript());
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mInDeferList &&
!aRequest->GetScriptLoadContext()->mInAsyncList);
MOZ_ASSERT(!aRequest->GetScriptLoadContext()->mInCompilingList);
aRequest->GetScriptLoadContext()->mInAsyncList = true;
if (aRequest->IsFinished()) {
mLoadedAsyncRequests.AppendElement(aRequest);
} else {
mLoadingAsyncRequests.AppendElement(aRequest);
}
}
void ScriptLoader::MaybeMoveToLoadedList(ScriptLoadRequest* aRequest) {
MOZ_ASSERT(aRequest->IsFinished());
MOZ_ASSERT(aRequest->IsTopLevel());
// If it's async, move it to the loaded list.
// aRequest->GetScriptLoadContext()->mInAsyncList really _should_ be in a
// list, but the consequences if it's not are bad enough we want to avoid
// trying to move it if it's not.
if (aRequest->GetScriptLoadContext()->mInAsyncList) {
MOZ_ASSERT(aRequest->isInList());
if (aRequest->isInList()) {
RefPtr<ScriptLoadRequest> req = mLoadingAsyncRequests.Steal(aRequest);
mLoadedAsyncRequests.AppendElement(req);
}
} else if (aRequest->IsModuleRequest() &&
aRequest->AsModuleRequest()->IsDynamicImport()) {
// Process dynamic imports with async scripts.
MOZ_ASSERT(!aRequest->isInList());
mLoadedAsyncRequests.AppendElement(aRequest);
}
}
bool ScriptLoader::MaybeRemovedDeferRequests() {
if (mDeferRequests.isEmpty() && mDocument && mBlockingDOMContentLoaded) {
mBlockingDOMContentLoaded = false;
mDocument->UnblockDOMContentLoaded();
return true;
}
return false;
}
DocGroup* ScriptLoader::GetDocGroup() const { return mDocument->GetDocGroup(); }
void ScriptLoader::BeginDeferringScripts() {
mDeferEnabled = true;
if (mDeferCheckpointReached) {
// We already completed a parse and were just waiting for some async
// scripts to load (and were already blocking the load event waiting for
// that to happen), when document.open() happened and now we're doing a
// new parse. We shouldn't block the load event again, but _should_ reset
// mDeferCheckpointReached to false. It'll get set to true again when the
// DeferCheckpointReached call that corresponds to this
// BeginDeferringScripts call happens (on document.close()), since we just
// set mDeferEnabled to true.
mDeferCheckpointReached = false;
} else {
if (mDocument) {
mDocument->BlockOnload();
}
}
}
nsAutoScriptLoaderDisabler::nsAutoScriptLoaderDisabler(Document* aDoc) {
mLoader = aDoc->ScriptLoader();
mWasEnabled = mLoader->GetEnabled();
if (mWasEnabled) {
mLoader->SetEnabled(false);
}
}
nsAutoScriptLoaderDisabler::~nsAutoScriptLoaderDisabler() {
if (mWasEnabled) {
mLoader->SetEnabled(true);
}
}
#undef TRACE_FOR_TEST
#undef TRACE_FOR_TEST_BOOL
#undef TRACE_FOR_TEST_NONE
#undef LOG
} // namespace mozilla::dom