/* -*- Mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; tab-width: 40 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "XMLHttpRequest.h" #include "nsIDOMEvent.h" #include "nsIDOMEventListener.h" #include "nsIDOMProgressEvent.h" #include "nsIRunnable.h" #include "nsIVariant.h" #include "nsIXMLHttpRequest.h" #include "nsIXPConnect.h" #include "jsfriendapi.h" #include "nsContentUtils.h" #include "nsCxPusher.h" #include "nsJSUtils.h" #include "nsThreadUtils.h" #include "nsXMLHttpRequest.h" #include "Events.h" #include "EventTarget.h" #include "Exceptions.h" #include "File.h" #include "RuntimeService.h" #include "WorkerPrivate.h" #include "XMLHttpRequestUpload.h" #include "DOMBindingInlines.h" #include "mozilla/Attributes.h" using namespace mozilla; using namespace mozilla::dom; USING_WORKERS_NAMESPACE using mozilla::dom::workers::exceptions::ThrowDOMExceptionForNSResult; // XXX Need to figure this out... #define UNCATCHABLE_EXCEPTION NS_ERROR_OUT_OF_MEMORY /** * XMLHttpRequest in workers * * XHR in workers is implemented by proxying calls/events/etc between the * worker thread and an nsXMLHttpRequest on the main thread. The glue * object here is the Proxy, which lives on both threads. All other objects * live on either the main thread (the nsXMLHttpRequest) or the worker thread * (the worker and XHR private objects). * * The main thread XHR is always operated in async mode, even for sync XHR * in workers. Calls made on the worker thread are proxied to the main thread * synchronously (meaning the worker thread is blocked until the call * returns). Each proxied call spins up a sync queue, which captures any * synchronously dispatched events and ensures that they run synchronously * on the worker as well. Asynchronously dispatched events are posted to the * worker thread to run asynchronously. Some of the XHR state is mirrored on * the worker thread to avoid needing a cross-thread call on every property * access. * * The XHR private is stored in the private slot of the XHR JSObject on the * worker thread. It is destroyed when that JSObject is GCd. The private * roots its JSObject while network activity is in progress. It also * adds itself as a feature to the worker to give itself a chance to clean up * if the worker goes away during an XHR call. It is important that the * rooting and feature registration (collectively called pinning) happens at * the proper times. If we pin for too long we can cause memory leaks or even * shutdown hangs. If we don't pin for long enough we introduce a GC hazard. * * The XHR is pinned from the time Send is called to roughly the time loadend * is received. There are some complications involved with Abort and XHR * reuse. We maintain a counter on the main thread of how many times Send was * called on this XHR, and we decrement the counter every time we receive a * loadend event. When the counter reaches zero we dispatch a runnable to the * worker thread to unpin the XHR. We only decrement the counter if the * dispatch was successful, because the worker may no longer be accepting * regular runnables. In the event that we reach Proxy::Teardown and there * the outstanding Send count is still non-zero, we dispatch a control * runnable which is guaranteed to run. * * NB: Some of this could probably be simplified now that we have the * inner/outer channel ids. */ BEGIN_WORKERS_NAMESPACE class Proxy MOZ_FINAL : public nsIDOMEventListener { public: // Read on multiple threads. WorkerPrivate* mWorkerPrivate; XMLHttpRequest* mXMLHttpRequestPrivate; // XHR Params: bool mMozAnon; bool mMozSystem; // Only touched on the main thread. nsRefPtr mXHR; nsCOMPtr mXHRUpload; uint32_t mInnerEventStreamId; uint32_t mInnerChannelId; uint32_t mOutstandingSendCount; // Only touched on the worker thread. uint32_t mOuterEventStreamId; uint32_t mOuterChannelId; uint64_t mLastLoaded; uint64_t mLastTotal; uint64_t mLastUploadLoaded; uint64_t mLastUploadTotal; bool mIsSyncXHR; bool mLastLengthComputable; bool mLastUploadLengthComputable; bool mSeenLoadStart; bool mSeenUploadLoadStart; // Only touched on the main thread. uint32_t mSyncQueueKey; uint32_t mSyncEventResponseSyncQueueKey; bool mUploadEventListenersAttached; bool mMainThreadSeenLoadStart; bool mInOpen; public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIDOMEVENTLISTENER Proxy(XMLHttpRequest* aXHRPrivate, bool aMozAnon, bool aMozSystem) : mWorkerPrivate(nullptr), mXMLHttpRequestPrivate(aXHRPrivate), mMozAnon(aMozAnon), mMozSystem(aMozSystem), mInnerEventStreamId(0), mInnerChannelId(0), mOutstandingSendCount(0), mOuterEventStreamId(0), mOuterChannelId(0), mLastLoaded(0), mLastTotal(0), mLastUploadLoaded(0), mLastUploadTotal(0), mIsSyncXHR(false), mLastLengthComputable(false), mLastUploadLengthComputable(false), mSeenLoadStart(false), mSeenUploadLoadStart(false), mSyncQueueKey(UINT32_MAX), mSyncEventResponseSyncQueueKey(UINT32_MAX), mUploadEventListenersAttached(false), mMainThreadSeenLoadStart(false), mInOpen(false) { } ~Proxy() { NS_ASSERTION(!mXHR, "Still have an XHR object attached!"); NS_ASSERTION(!mXHRUpload, "Still have an XHR upload object attached!"); NS_ASSERTION(!mOutstandingSendCount, "We're dying too early!"); } bool Init() { AssertIsOnMainThread(); NS_ASSERTION(mWorkerPrivate, "Must have a worker here!"); if (!mXHR) { nsPIDOMWindow* ownerWindow = mWorkerPrivate->GetWindow(); if (ownerWindow) { ownerWindow = ownerWindow->GetOuterWindow(); if (!ownerWindow) { NS_ERROR("No outer window?!"); return false; } nsPIDOMWindow* innerWindow = ownerWindow->GetCurrentInnerWindow(); if (mWorkerPrivate->GetWindow() != innerWindow) { NS_WARNING("Window has navigated, cannot create XHR here."); return false; } } mXHR = new nsXMLHttpRequest(); nsCOMPtr global = do_QueryInterface(ownerWindow); if (NS_FAILED(mXHR->Init(mWorkerPrivate->GetPrincipal(), mWorkerPrivate->GetScriptContext(), global, mWorkerPrivate->GetBaseURI()))) { mXHR = nullptr; return false; } mXHR->SetParameters(mMozAnon, mMozSystem); if (NS_FAILED(mXHR->GetUpload(getter_AddRefs(mXHRUpload)))) { mXHR = nullptr; return false; } if (!AddRemoveEventListeners(false, true)) { mXHRUpload = nullptr; mXHR = nullptr; return false; } } return true; } void Teardown(); bool AddRemoveEventListeners(bool aUpload, bool aAdd); void Reset() { AssertIsOnMainThread(); if (mUploadEventListenersAttached) { AddRemoveEventListeners(true, false); } } uint32_t GetSyncQueueKey() { AssertIsOnMainThread(); return mSyncEventResponseSyncQueueKey == UINT32_MAX ? mSyncQueueKey : mSyncEventResponseSyncQueueKey; } bool EventsBypassSyncQueue() { AssertIsOnMainThread(); return mSyncQueueKey == UINT32_MAX && mSyncEventResponseSyncQueueKey == UINT32_MAX; } }; END_WORKERS_NAMESPACE namespace { inline void ConvertResponseTypeToString(XMLHttpRequestResponseType aType, nsString& aString) { using namespace mozilla::dom::XMLHttpRequestResponseTypeValues; size_t index = static_cast(aType); MOZ_ASSERT(index < ArrayLength(strings), "Codegen gave us a bad value!"); aString.AssignASCII(strings[index].value, strings[index].length); } inline XMLHttpRequestResponseType ConvertStringToResponseType(const nsAString& aString) { using namespace mozilla::dom::XMLHttpRequestResponseTypeValues; for (size_t index = 0; index < ArrayLength(strings) - 1; index++) { if (aString.EqualsASCII(strings[index].value, strings[index].length)) { return static_cast(index); } } MOZ_CRASH("Don't know anything about this response type!"); } enum { STRING_abort = 0, STRING_error, STRING_load, STRING_loadstart, STRING_progress, STRING_timeout, STRING_readystatechange, STRING_loadend, STRING_COUNT, STRING_LAST_XHR = STRING_loadend, STRING_LAST_EVENTTARGET = STRING_timeout }; JS_STATIC_ASSERT(STRING_LAST_XHR >= STRING_LAST_EVENTTARGET); JS_STATIC_ASSERT(STRING_LAST_XHR == STRING_COUNT - 1); const char* const sEventStrings[] = { // nsIXMLHttpRequestEventTarget event types, supported by both XHR and Upload. "abort", "error", "load", "loadstart", "progress", "timeout", // nsIXMLHttpRequest event types, supported only by XHR. "readystatechange", "loadend", }; JS_STATIC_ASSERT(JS_ARRAY_LENGTH(sEventStrings) == STRING_COUNT); class MainThreadProxyRunnable : public MainThreadSyncRunnable { protected: nsRefPtr mProxy; public: MainThreadProxyRunnable(WorkerPrivate* aWorkerPrivate, ClearingBehavior aClearingBehavior, Proxy* aProxy) : MainThreadSyncRunnable(aWorkerPrivate, aClearingBehavior, aProxy->GetSyncQueueKey(), aProxy->EventsBypassSyncQueue()), mProxy(aProxy) { } }; class XHRUnpinRunnable : public WorkerControlRunnable { XMLHttpRequest* mXMLHttpRequestPrivate; public: XHRUnpinRunnable(WorkerPrivate* aWorkerPrivate, XMLHttpRequest* aXHRPrivate) : WorkerControlRunnable(aWorkerPrivate, WorkerThread, UnchangedBusyCount), mXMLHttpRequestPrivate(aXHRPrivate) { } bool PreDispatch(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { AssertIsOnMainThread(); return true; } void PostDispatch(JSContext* aCx, WorkerPrivate* aWorkerPrivate, bool aDispatchResult) { AssertIsOnMainThread(); } bool WorkerRun(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { mXMLHttpRequestPrivate->Unpin(); return true; } }; class AsyncTeardownRunnable : public nsRunnable { nsRefPtr mProxy; public: AsyncTeardownRunnable(Proxy* aProxy) { mProxy = aProxy; NS_ASSERTION(mProxy, "Null proxy!"); } NS_IMETHOD Run() { AssertIsOnMainThread(); mProxy->Teardown(); mProxy = nullptr; return NS_OK; } }; class LoadStartDetectionRunnable MOZ_FINAL : public nsIRunnable, public nsIDOMEventListener { WorkerPrivate* mWorkerPrivate; nsRefPtr mProxy; nsRefPtr mXHR; XMLHttpRequest* mXMLHttpRequestPrivate; nsString mEventType; bool mReceivedLoadStart; uint32_t mChannelId; class ProxyCompleteRunnable : public MainThreadProxyRunnable { XMLHttpRequest* mXMLHttpRequestPrivate; uint32_t mChannelId; public: ProxyCompleteRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, XMLHttpRequest* aXHRPrivate, uint32_t aChannelId) : MainThreadProxyRunnable(aWorkerPrivate, RunWhenClearing, aProxy), mXMLHttpRequestPrivate(aXHRPrivate), mChannelId(aChannelId) { } bool PreDispatch(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { AssertIsOnMainThread(); return true; } void PostDispatch(JSContext* aCx, WorkerPrivate* aWorkerPrivate, bool aDispatchResult) { AssertIsOnMainThread(); } bool WorkerRun(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { if (mChannelId != mProxy->mOuterChannelId) { // Threads raced, this event is now obsolete. return true; } if (mSyncQueueKey != UINT32_MAX) { aWorkerPrivate->StopSyncLoop(mSyncQueueKey, true); } mXMLHttpRequestPrivate->Unpin(); return true; } }; public: NS_DECL_ISUPPORTS LoadStartDetectionRunnable(Proxy* aProxy, XMLHttpRequest* aXHRPrivate) : mWorkerPrivate(aProxy->mWorkerPrivate), mProxy(aProxy), mXHR(aProxy->mXHR), mXMLHttpRequestPrivate(aXHRPrivate), mReceivedLoadStart(false), mChannelId(mProxy->mInnerChannelId) { AssertIsOnMainThread(); mEventType.AssignWithConversion(sEventStrings[STRING_loadstart]); } ~LoadStartDetectionRunnable() { AssertIsOnMainThread(); } bool RegisterAndDispatch() { AssertIsOnMainThread(); if (NS_FAILED(mXHR->AddEventListener(mEventType, this, false, false, 2))) { NS_WARNING("Failed to add event listener!"); return false; } return NS_SUCCEEDED(NS_DispatchToCurrentThread(this)); } NS_IMETHOD Run() { AssertIsOnMainThread(); if (NS_FAILED(mXHR->RemoveEventListener(mEventType, this, false))) { NS_WARNING("Failed to remove event listener!"); } if (!mReceivedLoadStart) { if (mProxy->mOutstandingSendCount > 1) { mProxy->mOutstandingSendCount--; } else if (mProxy->mOutstandingSendCount == 1) { mProxy->Reset(); nsRefPtr runnable = new ProxyCompleteRunnable(mWorkerPrivate, mProxy, mXMLHttpRequestPrivate, mChannelId); if (runnable->Dispatch(nullptr)) { mProxy->mWorkerPrivate = nullptr; mProxy->mOutstandingSendCount--; } } } mProxy = nullptr; mXHR = nullptr; mXMLHttpRequestPrivate = nullptr; return NS_OK; } NS_IMETHOD HandleEvent(nsIDOMEvent* aEvent) { AssertIsOnMainThread(); #ifdef DEBUG { nsString type; if (NS_SUCCEEDED(aEvent->GetType(type))) { NS_ASSERTION(type == mEventType, "Unexpected event type!"); } else { NS_WARNING("Failed to get event type!"); } } #endif mReceivedLoadStart = true; return NS_OK; } }; NS_IMPL_ISUPPORTS2(LoadStartDetectionRunnable, nsIRunnable, nsIDOMEventListener) class EventRunnable : public MainThreadProxyRunnable { nsString mType; nsString mResponseType; JSAutoStructuredCloneBuffer mResponseBuffer; nsTArray > mClonedObjects; JS::Heap mResponse; nsString mResponseText; nsCString mStatusText; uint64_t mLoaded; uint64_t mTotal; uint32_t mEventStreamId; uint32_t mStatus; uint16_t mReadyState; bool mUploadEvent; bool mProgressEvent; bool mLengthComputable; nsresult mResponseTextResult; nsresult mStatusResult; nsresult mResponseResult; public: EventRunnable(Proxy* aProxy, bool aUploadEvent, const nsString& aType, bool aLengthComputable, uint64_t aLoaded, uint64_t aTotal) : MainThreadProxyRunnable(aProxy->mWorkerPrivate, SkipWhenClearing, aProxy), mType(aType), mResponse(JSVAL_VOID), mLoaded(aLoaded), mTotal(aTotal), mEventStreamId(aProxy->mInnerEventStreamId), mStatus(0), mReadyState(0), mUploadEvent(aUploadEvent), mProgressEvent(true), mLengthComputable(aLengthComputable), mResponseTextResult(NS_OK), mStatusResult(NS_OK), mResponseResult(NS_OK) { } EventRunnable(Proxy* aProxy, bool aUploadEvent, const nsString& aType) : MainThreadProxyRunnable(aProxy->mWorkerPrivate, SkipWhenClearing, aProxy), mType(aType), mResponse(JSVAL_VOID), mLoaded(0), mTotal(0), mEventStreamId(aProxy->mInnerEventStreamId), mStatus(0), mReadyState(0), mUploadEvent(aUploadEvent), mProgressEvent(false), mLengthComputable(0), mResponseTextResult(NS_OK), mStatusResult(NS_OK), mResponseResult(NS_OK) { } bool PreDispatch(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { nsRefPtr& xhr = mProxy->mXHR; NS_ASSERTION(xhr, "Must have an XHR here!"); if (NS_FAILED(xhr->GetResponseType(mResponseType))) { NS_ERROR("This should never fail!"); } mResponseTextResult = xhr->GetResponseText(mResponseText); if (NS_SUCCEEDED(mResponseTextResult)) { mResponseResult = mResponseTextResult; if (mResponseText.IsVoid()) { mResponse = JSVAL_NULL; } } else { JS::Rooted response(aCx); mResponseResult = xhr->GetResponse(aCx, response.address()); if (NS_SUCCEEDED(mResponseResult)) { if (JSVAL_IS_UNIVERSAL(response)) { mResponse = response; } else { // Anything subject to GC must be cloned. JSStructuredCloneCallbacks* callbacks = aWorkerPrivate->IsChromeWorker() ? ChromeWorkerStructuredCloneCallbacks(true) : WorkerStructuredCloneCallbacks(true); nsTArray > clonedObjects; if (mResponseBuffer.write(aCx, response, callbacks, &clonedObjects)) { mClonedObjects.SwapElements(clonedObjects); } else { NS_WARNING("Failed to clone response!"); mResponseResult = NS_ERROR_DOM_DATA_CLONE_ERR; } } } } mStatusResult = xhr->GetStatus(&mStatus); xhr->GetStatusText(mStatusText); mReadyState = xhr->ReadyState(); return true; } class StateDataAutoRooter : private JS::CustomAutoRooter { public: explicit StateDataAutoRooter(JSContext* aCx, XMLHttpRequest::StateData* aData MOZ_GUARD_OBJECT_NOTIFIER_PARAM) : CustomAutoRooter(aCx), mStateData(aData), mSkip(aCx, mStateData) { MOZ_GUARD_OBJECT_NOTIFIER_INIT; } private: virtual void trace(JSTracer* aTrc) { JS_CallHeapValueTracer(aTrc, &mStateData->mResponse, "XMLHttpRequest::StateData::mResponse"); } XMLHttpRequest::StateData* mStateData; js::SkipRoot mSkip; MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER }; bool WorkerRun(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { if (mEventStreamId != mProxy->mOuterEventStreamId) { // Threads raced, this event is now obsolete. return true; } if (!mProxy->mXMLHttpRequestPrivate) { // Object was finalized, bail. return true; } if (mType.EqualsASCII(sEventStrings[STRING_loadstart])) { if (mUploadEvent) { mProxy->mSeenUploadLoadStart = true; } else { mProxy->mSeenLoadStart = true; } } else if (mType.EqualsASCII(sEventStrings[STRING_loadend])) { if (mUploadEvent) { mProxy->mSeenUploadLoadStart = false; } else { mProxy->mSeenLoadStart = false; } } else if (mType.EqualsASCII(sEventStrings[STRING_abort])) { if ((mUploadEvent && !mProxy->mSeenUploadLoadStart) || (!mUploadEvent && !mProxy->mSeenLoadStart)) { // We've already dispatched premature abort events. return true; } } else if (mType.EqualsASCII(sEventStrings[STRING_readystatechange])) { if (mReadyState == 4 && !mUploadEvent && !mProxy->mSeenLoadStart) { // We've already dispatched premature abort events. return true; } } if (mProgressEvent) { // Cache these for premature abort events. if (mUploadEvent) { mProxy->mLastUploadLengthComputable = mLengthComputable; mProxy->mLastUploadLoaded = mLoaded; mProxy->mLastUploadTotal = mTotal; } else { mProxy->mLastLengthComputable = mLengthComputable; mProxy->mLastLoaded = mLoaded; mProxy->mLastTotal = mTotal; } } XMLHttpRequest::StateData state; StateDataAutoRooter rooter(aCx, &state); state.mResponseTextResult = mResponseTextResult; state.mResponseText = mResponseText; if (NS_SUCCEEDED(mResponseTextResult)) { MOZ_ASSERT(JSVAL_IS_VOID(mResponse) || JSVAL_IS_NULL(mResponse)); state.mResponseResult = mResponseTextResult; state.mResponse = mResponse; } else { state.mResponseResult = mResponseResult; if (NS_SUCCEEDED(mResponseResult)) { if (mResponseBuffer.data()) { MOZ_ASSERT(JSVAL_IS_VOID(mResponse)); JSAutoStructuredCloneBuffer responseBuffer; mResponseBuffer.swap(responseBuffer); JSStructuredCloneCallbacks* callbacks = aWorkerPrivate->IsChromeWorker() ? ChromeWorkerStructuredCloneCallbacks(false) : WorkerStructuredCloneCallbacks(false); nsTArray > clonedObjects; clonedObjects.SwapElements(mClonedObjects); JS::Rooted response(aCx); if (!responseBuffer.read(aCx, response.address(), callbacks, &clonedObjects)) { return false; } state.mResponse = response; } else { state.mResponse = mResponse; } } } state.mStatusResult = mStatusResult; state.mStatus = mStatus; state.mStatusText = mStatusText; state.mReadyState = mReadyState; XMLHttpRequest* xhr = mProxy->mXMLHttpRequestPrivate; xhr->UpdateState(state); if (mUploadEvent && !xhr->GetUploadObjectNoCreate()) { return true; } JS::Rooted type(aCx, JS_NewUCStringCopyN(aCx, mType.get(), mType.Length())); if (!type) { return false; } JS::Rooted event(aCx, mProgressEvent ? events::CreateProgressEvent(aCx, type, mLengthComputable, mLoaded, mTotal) : events::CreateGenericEvent(aCx, type, false, false, false)); if (!event) { return false; } JS::Rooted target(aCx, mUploadEvent ? xhr->GetUploadObjectNoCreate()->GetJSObject() : xhr->GetJSObject()); MOZ_ASSERT(target); bool dummy; if (!events::DispatchEventToTarget(aCx, target, event, &dummy)) { JS_ReportPendingException(aCx); } // After firing the event set mResponse to JSVAL_NULL for chunked response // types. if (StringBeginsWith(mResponseType, NS_LITERAL_STRING("moz-chunked-"))) { xhr->NullResponseText(); } return true; } }; class WorkerThreadProxySyncRunnable : public nsRunnable { protected: WorkerPrivate* mWorkerPrivate; nsRefPtr mProxy; uint32_t mSyncQueueKey; private: class ResponseRunnable : public MainThreadProxyRunnable { uint32_t mSyncQueueKey; nsresult mErrorCode; public: ResponseRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, uint32_t aSyncQueueKey, nsresult aErrorCode) : MainThreadProxyRunnable(aWorkerPrivate, SkipWhenClearing, aProxy), mSyncQueueKey(aSyncQueueKey), mErrorCode(aErrorCode) { NS_ASSERTION(aProxy, "Don't hand me a null proxy!"); } bool WorkerRun(JSContext* aCx, WorkerPrivate* aWorkerPrivate) { if (NS_FAILED(mErrorCode)) { ThrowDOMExceptionForNSResult(aCx, mErrorCode); aWorkerPrivate->StopSyncLoop(mSyncQueueKey, false); } else { aWorkerPrivate->StopSyncLoop(mSyncQueueKey, true); } return true; } }; public: WorkerThreadProxySyncRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy) : mWorkerPrivate(aWorkerPrivate), mProxy(aProxy), mSyncQueueKey(0) { mWorkerPrivate->AssertIsOnWorkerThread(); NS_ASSERTION(aProxy, "Don't hand me a null proxy!"); } bool Dispatch(JSContext* aCx) { mWorkerPrivate->AssertIsOnWorkerThread(); AutoSyncLoopHolder syncLoop(mWorkerPrivate); mSyncQueueKey = syncLoop.SyncQueueKey(); if (NS_FAILED(NS_DispatchToMainThread(this, NS_DISPATCH_NORMAL))) { JS_ReportError(aCx, "Failed to dispatch to main thread!"); return false; } return syncLoop.RunAndForget(aCx); } virtual nsresult MainThreadRun() = 0; NS_IMETHOD Run() { AssertIsOnMainThread(); uint32_t oldSyncQueueKey = mProxy->mSyncEventResponseSyncQueueKey; mProxy->mSyncEventResponseSyncQueueKey = mSyncQueueKey; nsresult rv = MainThreadRun(); nsRefPtr response = new ResponseRunnable(mWorkerPrivate, mProxy, mSyncQueueKey, rv); if (!response->Dispatch(nullptr)) { NS_WARNING("Failed to dispatch response!"); } mProxy->mSyncEventResponseSyncQueueKey = oldSyncQueueKey; return NS_OK; } }; class SyncTeardownRunnable : public WorkerThreadProxySyncRunnable { public: SyncTeardownRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy) { MOZ_ASSERT(aWorkerPrivate); MOZ_ASSERT(aProxy); } virtual nsresult MainThreadRun() { AssertIsOnMainThread(); mProxy->Teardown(); return NS_OK; } }; class SetBackgroundRequestRunnable : public WorkerThreadProxySyncRunnable { bool mValue; public: SetBackgroundRequestRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, bool aValue) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mValue(aValue) { } nsresult MainThreadRun() { return mProxy->mXHR->SetMozBackgroundRequest(mValue); } }; class SetWithCredentialsRunnable : public WorkerThreadProxySyncRunnable { bool mValue; public: SetWithCredentialsRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, bool aValue) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mValue(aValue) { } nsresult MainThreadRun() { return mProxy->mXHR->SetWithCredentials(mValue); } }; class SetResponseTypeRunnable : public WorkerThreadProxySyncRunnable { nsString mResponseType; public: SetResponseTypeRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsAString& aResponseType) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mResponseType(aResponseType) { } nsresult MainThreadRun() { nsresult rv = mProxy->mXHR->SetResponseType(mResponseType); mResponseType.Truncate(); if (NS_SUCCEEDED(rv)) { rv = mProxy->mXHR->GetResponseType(mResponseType); } return rv; } void GetResponseType(nsAString& aResponseType) { aResponseType.Assign(mResponseType); } }; class SetTimeoutRunnable : public WorkerThreadProxySyncRunnable { uint32_t mTimeout; public: SetTimeoutRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, uint32_t aTimeout) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mTimeout(aTimeout) { } nsresult MainThreadRun() { return mProxy->mXHR->SetTimeout(mTimeout); } }; class AbortRunnable : public WorkerThreadProxySyncRunnable { public: AbortRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy) { } nsresult MainThreadRun() { mProxy->mInnerEventStreamId++; WorkerPrivate* oldWorker = mProxy->mWorkerPrivate; mProxy->mWorkerPrivate = mWorkerPrivate; mProxy->mXHR->Abort(); mProxy->mWorkerPrivate = oldWorker; mProxy->Reset(); return NS_OK; } }; class GetAllResponseHeadersRunnable : public WorkerThreadProxySyncRunnable { nsCString& mResponseHeaders; public: GetAllResponseHeadersRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, nsCString& aResponseHeaders) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mResponseHeaders(aResponseHeaders) { } nsresult MainThreadRun() { mProxy->mXHR->GetAllResponseHeaders(mResponseHeaders); return NS_OK; } }; class GetResponseHeaderRunnable : public WorkerThreadProxySyncRunnable { const nsCString mHeader; nsCString& mValue; public: GetResponseHeaderRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsACString& aHeader, nsCString& aValue) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mHeader(aHeader), mValue(aValue) { } nsresult MainThreadRun() { return mProxy->mXHR->GetResponseHeader(mHeader, mValue); } }; class OpenRunnable : public WorkerThreadProxySyncRunnable { nsCString mMethod; nsString mURL; Optional mUser; nsString mUserStr; Optional mPassword; nsString mPasswordStr; bool mBackgroundRequest; bool mWithCredentials; uint32_t mTimeout; public: OpenRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsACString& aMethod, const nsAString& aURL, const Optional& aUser, const Optional& aPassword, bool aBackgroundRequest, bool aWithCredentials, uint32_t aTimeout) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mMethod(aMethod), mURL(aURL), mBackgroundRequest(aBackgroundRequest), mWithCredentials(aWithCredentials), mTimeout(aTimeout) { if (aUser.WasPassed()) { mUserStr = aUser.Value(); mUser = &mUserStr; } if (aPassword.WasPassed()) { mPasswordStr = aPassword.Value(); mPassword = &mPasswordStr; } } nsresult MainThreadRun() { WorkerPrivate* oldWorker = mProxy->mWorkerPrivate; mProxy->mWorkerPrivate = mWorkerPrivate; nsresult rv = MainThreadRunInternal(); mProxy->mWorkerPrivate = oldWorker; return rv; } nsresult MainThreadRunInternal() { if (!mProxy->Init()) { return NS_ERROR_DOM_INVALID_STATE_ERR; } nsresult rv; if (mBackgroundRequest) { rv = mProxy->mXHR->SetMozBackgroundRequest(mBackgroundRequest); NS_ENSURE_SUCCESS(rv, rv); } if (mWithCredentials) { rv = mProxy->mXHR->SetWithCredentials(mWithCredentials); NS_ENSURE_SUCCESS(rv, rv); } if (mTimeout) { rv = mProxy->mXHR->SetTimeout(mTimeout); NS_ENSURE_SUCCESS(rv, rv); } NS_ASSERTION(!mProxy->mInOpen, "Reentrancy is bad!"); mProxy->mInOpen = true; ErrorResult rv2; mProxy->mXHR->Open(mMethod, mURL, true, mUser, mPassword, rv2); NS_ASSERTION(mProxy->mInOpen, "Reentrancy is bad!"); mProxy->mInOpen = false; if (rv2.Failed()) { return rv2.ErrorCode(); } rv = mProxy->mXHR->SetResponseType(NS_LITERAL_STRING("text")); return rv; } }; class SendRunnable : public WorkerThreadProxySyncRunnable { nsString mStringBody; JSAutoStructuredCloneBuffer mBody; nsTArray > mClonedObjects; uint32_t mSyncQueueKey; bool mHasUploadListeners; public: SendRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsAString& aStringBody, JSAutoStructuredCloneBuffer& aBody, nsTArray >& aClonedObjects, uint32_t aSyncQueueKey, bool aHasUploadListeners) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mStringBody(aStringBody), mSyncQueueKey(aSyncQueueKey), mHasUploadListeners(aHasUploadListeners) { mBody.swap(aBody); mClonedObjects.SwapElements(aClonedObjects); } nsresult MainThreadRun() { nsCOMPtr variant; if (mBody.data()) { AutoSafeJSContext cx; JSAutoRequest ar(cx); nsIXPConnect* xpc = nsContentUtils::XPConnect(); NS_ASSERTION(xpc, "This should never be null!"); nsresult rv = NS_OK; JSStructuredCloneCallbacks* callbacks = mWorkerPrivate->IsChromeWorker() ? ChromeWorkerStructuredCloneCallbacks(true) : WorkerStructuredCloneCallbacks(true); JS::Rooted body(cx); if (mBody.read(cx, body.address(), callbacks, &mClonedObjects)) { if (NS_FAILED(xpc->JSValToVariant(cx, body.address(), getter_AddRefs(variant)))) { rv = NS_ERROR_DOM_INVALID_STATE_ERR; } } else { rv = NS_ERROR_DOM_DATA_CLONE_ERR; } mBody.clear(); mClonedObjects.Clear(); NS_ENSURE_SUCCESS(rv, rv); } else { nsCOMPtr wvariant = do_CreateInstance(NS_VARIANT_CONTRACTID); NS_ENSURE_TRUE(wvariant, NS_ERROR_UNEXPECTED); if (NS_FAILED(wvariant->SetAsAString(mStringBody))) { NS_ERROR("This should never fail!"); } variant = wvariant; } NS_ASSERTION(!mProxy->mWorkerPrivate, "Should be null!"); mProxy->mWorkerPrivate = mWorkerPrivate; NS_ASSERTION(mProxy->mSyncQueueKey == UINT32_MAX, "Should be unset!"); mProxy->mSyncQueueKey = mSyncQueueKey; if (mHasUploadListeners) { NS_ASSERTION(!mProxy->mUploadEventListenersAttached, "Huh?!"); if (!mProxy->AddRemoveEventListeners(true, true)) { NS_ERROR("This should never fail!"); } } mProxy->mInnerChannelId++; nsresult rv = mProxy->mXHR->Send(variant); if (NS_SUCCEEDED(rv)) { mProxy->mOutstandingSendCount++; if (!mHasUploadListeners) { NS_ASSERTION(!mProxy->mUploadEventListenersAttached, "Huh?!"); if (!mProxy->AddRemoveEventListeners(true, true)) { NS_ERROR("This should never fail!"); } } } return rv; } }; class SetRequestHeaderRunnable : public WorkerThreadProxySyncRunnable { nsCString mHeader; nsCString mValue; public: SetRequestHeaderRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsACString& aHeader, const nsACString& aValue) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mHeader(aHeader), mValue(aValue) { } nsresult MainThreadRun() { return mProxy->mXHR->SetRequestHeader(mHeader, mValue); } }; class OverrideMimeTypeRunnable : public WorkerThreadProxySyncRunnable { nsString mMimeType; public: OverrideMimeTypeRunnable(WorkerPrivate* aWorkerPrivate, Proxy* aProxy, const nsAString& aMimeType) : WorkerThreadProxySyncRunnable(aWorkerPrivate, aProxy), mMimeType(aMimeType) { } nsresult MainThreadRun() { mProxy->mXHR->OverrideMimeType(mMimeType); return NS_OK; } }; class AutoUnpinXHR { public: AutoUnpinXHR(XMLHttpRequest* aXMLHttpRequestPrivate) : mXMLHttpRequestPrivate(aXMLHttpRequestPrivate) { MOZ_ASSERT(aXMLHttpRequestPrivate); } ~AutoUnpinXHR() { if (mXMLHttpRequestPrivate) { mXMLHttpRequestPrivate->Unpin(); } } void Clear() { mXMLHttpRequestPrivate = NULL; } private: XMLHttpRequest* mXMLHttpRequestPrivate; }; } // anonymous namespace void Proxy::Teardown() { AssertIsOnMainThread(); if (mXHR) { Reset(); // NB: We are intentionally dropping events coming from xhr.abort on the // floor. AddRemoveEventListeners(false, false); mXHR->Abort(); if (mOutstandingSendCount) { nsRefPtr runnable = new XHRUnpinRunnable(mWorkerPrivate, mXMLHttpRequestPrivate); if (!runnable->Dispatch(nullptr)) { NS_RUNTIMEABORT("We're going to hang at shutdown anyways."); } mWorkerPrivate = nullptr; mOutstandingSendCount = 0; } mXHRUpload = nullptr; mXHR = nullptr; } } bool Proxy::AddRemoveEventListeners(bool aUpload, bool aAdd) { AssertIsOnMainThread(); NS_ASSERTION(!aUpload || (mUploadEventListenersAttached && !aAdd) || (!mUploadEventListenersAttached && aAdd), "Messed up logic for upload listeners!"); nsCOMPtr target = aUpload ? do_QueryInterface(mXHRUpload) : do_QueryInterface(static_cast(mXHR.get())); NS_ASSERTION(target, "This should never fail!"); uint32_t lastEventType = aUpload ? STRING_LAST_EVENTTARGET : STRING_LAST_XHR; nsAutoString eventType; for (uint32_t index = 0; index <= lastEventType; index++) { eventType = NS_ConvertASCIItoUTF16(sEventStrings[index]); if (aAdd) { if (NS_FAILED(target->AddEventListener(eventType, this, false))) { return false; } } else if (NS_FAILED(target->RemoveEventListener(eventType, this, false))) { return false; } } if (aUpload) { mUploadEventListenersAttached = aAdd; } return true; } NS_IMPL_ISUPPORTS1(Proxy, nsIDOMEventListener) NS_IMETHODIMP Proxy::HandleEvent(nsIDOMEvent* aEvent) { AssertIsOnMainThread(); if (!mWorkerPrivate || !mXMLHttpRequestPrivate) { NS_ERROR("Shouldn't get here!"); return NS_OK; } nsString type; if (NS_FAILED(aEvent->GetType(type))) { NS_WARNING("Failed to get event type!"); return NS_ERROR_FAILURE; } nsCOMPtr target; if (NS_FAILED(aEvent->GetTarget(getter_AddRefs(target)))) { NS_WARNING("Failed to get target!"); return NS_ERROR_FAILURE; } nsCOMPtr uploadTarget = do_QueryInterface(target); nsCOMPtr progressEvent = do_QueryInterface(aEvent); nsRefPtr runnable; if (mInOpen && type.EqualsASCII(sEventStrings[STRING_readystatechange])) { uint16_t readyState = 0; if (NS_SUCCEEDED(mXHR->GetReadyState(&readyState)) && readyState == nsIXMLHttpRequest::OPENED) { mInnerEventStreamId++; } } if (progressEvent) { bool lengthComputable; uint64_t loaded, total; if (NS_FAILED(progressEvent->GetLengthComputable(&lengthComputable)) || NS_FAILED(progressEvent->GetLoaded(&loaded)) || NS_FAILED(progressEvent->GetTotal(&total))) { NS_WARNING("Bad progress event!"); return NS_ERROR_FAILURE; } runnable = new EventRunnable(this, !!uploadTarget, type, lengthComputable, loaded, total); } else { runnable = new EventRunnable(this, !!uploadTarget, type); } { AutoSafeJSContext cx; JSAutoRequest ar(cx); runnable->Dispatch(cx); } if (!uploadTarget) { if (type.EqualsASCII(sEventStrings[STRING_loadstart])) { NS_ASSERTION(!mMainThreadSeenLoadStart, "Huh?!"); mMainThreadSeenLoadStart = true; } else if (mMainThreadSeenLoadStart && type.EqualsASCII(sEventStrings[STRING_loadend])) { mMainThreadSeenLoadStart = false; nsRefPtr runnable = new LoadStartDetectionRunnable(this, mXMLHttpRequestPrivate); if (NS_FAILED(NS_DispatchToCurrentThread(runnable))) { NS_WARNING("Failed to dispatch LoadStartDetectionRunnable!"); } } } return NS_OK; } XMLHttpRequest::XMLHttpRequest(JSContext* aCx, WorkerPrivate* aWorkerPrivate) : XMLHttpRequestEventTarget(aCx), mJSObject(NULL), mUpload(NULL), mWorkerPrivate(aWorkerPrivate), mResponseType(XMLHttpRequestResponseType::Text), mTimeout(0), mJSObjectRooted(false), mBackgroundRequest(false), mWithCredentials(false), mCanceled(false), mMozAnon(false), mMozSystem(false) { mWorkerPrivate->AssertIsOnWorkerThread(); } XMLHttpRequest::~XMLHttpRequest() { mWorkerPrivate->AssertIsOnWorkerThread(); MOZ_ASSERT(!mJSObjectRooted); } void XMLHttpRequest::_trace(JSTracer* aTrc) { if (mUpload) { mUpload->TraceJSObject(aTrc, "XMLHttpRequest::mUpload"); } JS_CallHeapValueTracer(aTrc, &mStateData.mResponse, "XMLHttpRequest::mResponse"); XMLHttpRequestEventTarget::_trace(aTrc); } void XMLHttpRequest::_finalize(JSFreeOp* aFop) { ReleaseProxy(XHRIsGoingAway); XMLHttpRequestEventTarget::_finalize(aFop); } // static XMLHttpRequest* XMLHttpRequest::Constructor(const WorkerGlobalObject& aGlobal, const MozXMLHttpRequestParametersWorkers& aParams, ErrorResult& aRv) { JSContext* cx = aGlobal.GetContext(); WorkerPrivate* workerPrivate = GetWorkerPrivateFromContext(cx); MOZ_ASSERT(workerPrivate); nsRefPtr xhr = new XMLHttpRequest(cx, workerPrivate); if (!Wrap(cx, aGlobal.Get(), xhr)) { aRv.Throw(NS_ERROR_FAILURE); return NULL; } if (workerPrivate->XHRParamsAllowed()) { xhr->mMozAnon = aParams.mMozAnon; xhr->mMozSystem = aParams.mMozSystem; } xhr->mJSObject = xhr->GetJSObject(); return xhr; } void XMLHttpRequest::ReleaseProxy(ReleaseType aType) { // Can't assert that we're on the worker thread here because mWorkerPrivate // may be gone. if (mProxy) { if (aType == XHRIsGoingAway) { // We're in a GC finalizer, so we can't do a sync call here (and we don't // need to). nsRefPtr runnable = new AsyncTeardownRunnable(mProxy); mProxy = nullptr; if (NS_FAILED(NS_DispatchToMainThread(runnable))) { NS_ERROR("Failed to dispatch teardown runnable!"); } } else { // This isn't necessary if the worker is going away or the XHR is going // away. if (aType == Default) { // Don't let any more events run. mProxy->mOuterEventStreamId++; } // We need to make a sync call here. nsRefPtr runnable = new SyncTeardownRunnable(mWorkerPrivate, mProxy); mProxy = nullptr; if (!runnable->Dispatch(nullptr)) { NS_ERROR("Failed to dispatch teardown runnable!"); } } } } void XMLHttpRequest::MaybePin(ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mJSObjectRooted) { return; } JSContext* cx = GetJSContext(); /* * It's safe to use unsafeGet() here: the unsafeness comes from the * possibility of updating the value of mJSObject without triggering the post * barriers. However if the value will always be marked, post barriers are * unnecessary. */ if (!JS_AddNamedObjectRoot(cx, mJSObject.unsafeGet(), "XMLHttpRequest::mJSObjectRooted")) { aRv.Throw(NS_ERROR_FAILURE); return; } if (!mWorkerPrivate->AddFeature(cx, this)) { JS_RemoveObjectRoot(cx, mJSObject.unsafeGet()); aRv.Throw(NS_ERROR_FAILURE); return; } mJSObjectRooted = true; } void XMLHttpRequest::MaybeDispatchPrematureAbortEvents(ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); MOZ_ASSERT(mProxy); mStateData.mReadyState = 4; if (mProxy->mSeenUploadLoadStart) { MOZ_ASSERT(mUpload); JS::Rooted target(GetJSContext(), mUpload->GetJSObject()); MOZ_ASSERT(target); DispatchPrematureAbortEvent(target, STRING_abort, true, aRv); if (aRv.Failed()) { return; } DispatchPrematureAbortEvent(target, STRING_loadend, true, aRv); if (aRv.Failed()) { return; } mProxy->mSeenUploadLoadStart = false; } if (mProxy->mSeenLoadStart) { JS::Rooted target(GetJSContext(), GetJSObject()); MOZ_ASSERT(target); DispatchPrematureAbortEvent(target, STRING_readystatechange, false, aRv); if (aRv.Failed()) { return; } DispatchPrematureAbortEvent(target, STRING_abort, false, aRv); if (aRv.Failed()) { return; } DispatchPrematureAbortEvent(target, STRING_loadend, false, aRv); if (aRv.Failed()) { return; } mProxy->mSeenLoadStart = false; } } void XMLHttpRequest::DispatchPrematureAbortEvent(JS::Handle aTarget, uint8_t aEventType, bool aUploadTarget, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); MOZ_ASSERT(aTarget); MOZ_ASSERT(aEventType <= STRING_COUNT); if (!mProxy) { aRv.Throw(NS_ERROR_FAILURE); return; } JSContext* cx = GetJSContext(); JS::Rooted type(cx, JS_NewStringCopyZ(cx, sEventStrings[aEventType])); if (!type) { aRv.Throw(NS_ERROR_OUT_OF_MEMORY); return; } JS::Rooted event(cx); if (aEventType == STRING_readystatechange) { event = events::CreateGenericEvent(cx, type, false, false, false); } else if (aUploadTarget) { event = events::CreateProgressEvent(cx, type, mProxy->mLastUploadLengthComputable, mProxy->mLastUploadLoaded, mProxy->mLastUploadTotal); } else { event = events::CreateProgressEvent(cx, type, mProxy->mLastLengthComputable, mProxy->mLastLoaded, mProxy->mLastTotal); } if (!event) { aRv.Throw(NS_ERROR_FAILURE); return; } bool dummy; if (!events::DispatchEventToTarget(cx, aTarget, event, &dummy)) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::Unpin() { mWorkerPrivate->AssertIsOnWorkerThread(); NS_ASSERTION(mJSObjectRooted, "Mismatched calls to Unpin!"); JSContext* cx = GetJSContext(); /* See the comment in MaybePin() for why this is safe. */ JS_RemoveObjectRoot(cx, mJSObject.unsafeGet()); mWorkerPrivate->RemoveFeature(cx, this); mJSObjectRooted = false; } void XMLHttpRequest::SendInternal(const nsAString& aStringBody, JSAutoStructuredCloneBuffer& aBody, nsTArray >& aClonedObjects, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); bool hasUploadListeners = mUpload ? mUpload->HasListeners() : false; MaybePin(aRv); if (aRv.Failed()) { return; } AutoUnpinXHR autoUnpin(this); Maybe autoSyncLoop; uint32_t syncQueueKey = UINT32_MAX; bool isSyncXHR = mProxy->mIsSyncXHR; if (isSyncXHR) { autoSyncLoop.construct(mWorkerPrivate); syncQueueKey = autoSyncLoop.ref().SyncQueueKey(); } mProxy->mOuterChannelId++; JSContext* cx = GetJSContext(); nsRefPtr runnable = new SendRunnable(mWorkerPrivate, mProxy, aStringBody, aBody, aClonedObjects, syncQueueKey, hasUploadListeners); if (!runnable->Dispatch(cx)) { aRv.Throw(NS_ERROR_FAILURE); return; } if (!isSyncXHR) { autoUnpin.Clear(); MOZ_ASSERT(autoSyncLoop.empty()); return; } // If our sync XHR was canceled during the send call the worker is going // away. We have no idea how far through the send call we got. There may // be a ProxyCompleteRunnable in the sync loop, but rather than run the loop // to get it we just let our RAII helpers clean up. if (mCanceled) { return; } autoUnpin.Clear(); if (!autoSyncLoop.ref().RunAndForget(cx)) { aRv.Throw(NS_ERROR_FAILURE); } } bool XMLHttpRequest::Notify(JSContext* aCx, Status aStatus) { mWorkerPrivate->AssertIsOnWorkerThread(); MOZ_ASSERT(GetJSContext() == aCx); if (aStatus >= Canceling && !mCanceled) { mCanceled = true; ReleaseProxy(WorkerIsGoingAway); } return true; } void XMLHttpRequest::Open(const nsACString& aMethod, const nsAString& aUrl, bool aAsync, const Optional& aUser, const Optional& aPassword, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (mProxy) { MaybeDispatchPrematureAbortEvents(aRv); if (aRv.Failed()) { return; } } else { mProxy = new Proxy(this, mMozAnon, mMozSystem); } mProxy->mOuterEventStreamId++; nsRefPtr runnable = new OpenRunnable(mWorkerPrivate, mProxy, aMethod, aUrl, aUser, aPassword, mBackgroundRequest, mWithCredentials, mTimeout); if (!runnable->Dispatch(GetJSContext())) { ReleaseProxy(); aRv.Throw(NS_ERROR_FAILURE); return; } mProxy->mIsSyncXHR = !aAsync; } void XMLHttpRequest::SetRequestHeader(const nsACString& aHeader, const nsACString& aValue, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } nsRefPtr runnable = new SetRequestHeaderRunnable(mWorkerPrivate, mProxy, aHeader, aValue); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::SetTimeout(uint32_t aTimeout, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } mTimeout = aTimeout; if (!mProxy) { // Open may not have been called yet, in which case we'll handle the // timeout in OpenRunnable. return; } nsRefPtr runnable = new SetTimeoutRunnable(mWorkerPrivate, mProxy, aTimeout); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::SetWithCredentials(bool aWithCredentials, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } mWithCredentials = aWithCredentials; if (!mProxy) { // Open may not have been called yet, in which case we'll handle the // credentials in OpenRunnable. return; } nsRefPtr runnable = new SetWithCredentialsRunnable(mWorkerPrivate, mProxy, aWithCredentials); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::SetMozBackgroundRequest(bool aBackgroundRequest, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } mBackgroundRequest = aBackgroundRequest; if (!mProxy) { // Open may not have been called yet, in which case we'll handle the // background request in OpenRunnable. return; } nsRefPtr runnable = new SetBackgroundRequestRunnable(mWorkerPrivate, mProxy, aBackgroundRequest); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } XMLHttpRequestUpload* XMLHttpRequest::GetUpload(ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return NULL; } if (!mUpload) { XMLHttpRequestUpload* upload = XMLHttpRequestUpload::Create(GetJSContext(), this); if (!upload) { aRv.Throw(NS_ERROR_FAILURE); return NULL; } mUpload = upload; } return mUpload; } void XMLHttpRequest::Send(ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } // Nothing to clone. JSAutoStructuredCloneBuffer buffer; nsTArray > clonedObjects; SendInternal(NullString(), buffer, clonedObjects, aRv); } void XMLHttpRequest::Send(const nsAString& aBody, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } // Nothing to clone. JSAutoStructuredCloneBuffer buffer; nsTArray > clonedObjects; SendInternal(aBody, buffer, clonedObjects, aRv); } void XMLHttpRequest::Send(JSObject* aBody, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); MOZ_ASSERT(aBody); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } JSContext* cx = GetJSContext(); jsval valToClone; if (JS_IsArrayBufferObject(aBody) || JS_IsArrayBufferViewObject(aBody) || file::GetDOMBlobFromJSObject(aBody)) { valToClone = OBJECT_TO_JSVAL(aBody); } else { JSString* bodyStr = JS_ValueToString(cx, OBJECT_TO_JSVAL(aBody)); if (!bodyStr) { aRv.Throw(NS_ERROR_OUT_OF_MEMORY); return; } valToClone = STRING_TO_JSVAL(bodyStr); } JSStructuredCloneCallbacks* callbacks = mWorkerPrivate->IsChromeWorker() ? ChromeWorkerStructuredCloneCallbacks(false) : WorkerStructuredCloneCallbacks(false); nsTArray > clonedObjects; JSAutoStructuredCloneBuffer buffer; if (!buffer.write(cx, valToClone, callbacks, &clonedObjects)) { aRv.Throw(NS_ERROR_DOM_DATA_CLONE_ERR); return; } SendInternal(EmptyString(), buffer, clonedObjects, aRv); } void XMLHttpRequest::SendAsBinary(const nsAString& aBody, ErrorResult& aRv) { NS_NOTYETIMPLEMENTED("Implement me!"); aRv.Throw(NS_ERROR_NOT_IMPLEMENTED); return; } void XMLHttpRequest::Abort(ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); } if (!mProxy) { return; } MaybeDispatchPrematureAbortEvents(aRv); if (aRv.Failed()) { return; } mProxy->mOuterEventStreamId++; nsRefPtr runnable = new AbortRunnable(mWorkerPrivate, mProxy); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::GetResponseHeader(const nsACString& aHeader, nsACString& aResponseHeader, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } nsCString responseHeader; nsRefPtr runnable = new GetResponseHeaderRunnable(mWorkerPrivate, mProxy, aHeader, responseHeader); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } aResponseHeader = responseHeader; } void XMLHttpRequest::GetAllResponseHeaders(nsACString& aResponseHeaders, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } nsCString responseHeaders; nsRefPtr runnable = new GetAllResponseHeadersRunnable(mWorkerPrivate, mProxy, responseHeaders); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } aResponseHeaders = responseHeaders; } void XMLHttpRequest::OverrideMimeType(const nsAString& aMimeType, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } // We're supposed to throw if the state is not OPENED or HEADERS_RECEIVED. We // can detect OPENED really easily but we can't detect HEADERS_RECEIVED in a // non-racy way until the XHR state machine actually runs on this thread // (bug 671047). For now we're going to let this work only if the Send() // method has not been called. if (!mProxy || SendInProgress()) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } nsRefPtr runnable = new OverrideMimeTypeRunnable(mWorkerPrivate, mProxy, aMimeType); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } } void XMLHttpRequest::SetResponseType(XMLHttpRequestResponseType aResponseType, ErrorResult& aRv) { mWorkerPrivate->AssertIsOnWorkerThread(); if (mCanceled) { aRv.Throw(UNCATCHABLE_EXCEPTION); return; } if (!mProxy || SendInProgress()) { aRv.Throw(NS_ERROR_DOM_INVALID_STATE_ERR); return; } // "document" is fine for the main thread but not for a worker. Short-circuit // that here. if (aResponseType == XMLHttpRequestResponseType::Document) { return; } nsString responseType; ConvertResponseTypeToString(aResponseType, responseType); nsRefPtr runnable = new SetResponseTypeRunnable(mWorkerPrivate, mProxy, responseType); if (!runnable->Dispatch(GetJSContext())) { aRv.Throw(NS_ERROR_FAILURE); return; } nsString acceptedResponseTypeString; runnable->GetResponseType(acceptedResponseTypeString); mResponseType = ConvertStringToResponseType(acceptedResponseTypeString); } jsval XMLHttpRequest::GetResponse(JSContext* /* unused */, ErrorResult& aRv) { if (NS_SUCCEEDED(mStateData.mResponseTextResult) && JSVAL_IS_VOID(mStateData.mResponse)) { MOZ_ASSERT(mStateData.mResponseText.Length()); MOZ_ASSERT(NS_SUCCEEDED(mStateData.mResponseResult)); JSString* str = JS_NewUCStringCopyN(GetJSContext(), mStateData.mResponseText.get(), mStateData.mResponseText.Length()); if (!str) { aRv.Throw(NS_ERROR_OUT_OF_MEMORY); return JSVAL_VOID; } mStateData.mResponse = STRING_TO_JSVAL(str); } aRv = mStateData.mResponseResult; return mStateData.mResponse; } void XMLHttpRequest::GetResponseText(nsAString& aResponseText, ErrorResult& aRv) { aRv = mStateData.mResponseTextResult; aResponseText = mStateData.mResponseText; }