/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set sw=2 ts=8 et tw=80 : */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ // HttpLog.h should generally be included first #include "HttpLog.h" #include "mozilla/ipc/FileDescriptorSetParent.h" #include "mozilla/net/HttpChannelParent.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/TabParent.h" #include "mozilla/net/NeckoParent.h" #include "mozilla/unused.h" #include "HttpChannelParentListener.h" #include "nsHttpHandler.h" #include "nsNetUtil.h" #include "nsISupportsPriority.h" #include "nsIAuthPromptProvider.h" #include "nsSerializationHelper.h" #include "nsISerializable.h" #include "nsIAssociatedContentSecurity.h" #include "nsIApplicationCacheService.h" #include "mozilla/ipc/InputStreamUtils.h" #include "mozilla/ipc/URIUtils.h" #include "SerializedLoadContext.h" #include "nsIAuthInformation.h" #include "nsIAuthPromptCallback.h" #include "nsIContentPolicy.h" #include "mozilla/ipc/BackgroundUtils.h" #include "nsIOService.h" #include "nsICachingChannel.h" #include "mozilla/LoadInfo.h" #include "nsIHttpHeaderVisitor.h" #include "nsQueryObject.h" #include "mozilla/BasePrincipal.h" #include "nsCORSListenerProxy.h" #include "nsIPrompt.h" #include "nsIWindowWatcher.h" #include "nsIDocument.h" using mozilla::BasePrincipal; using namespace mozilla::dom; using namespace mozilla::ipc; namespace mozilla { namespace net { HttpChannelParent::HttpChannelParent(const PBrowserOrId& iframeEmbedding, nsILoadContext* aLoadContext, PBOverrideStatus aOverrideStatus) : mIPCClosed(false) , mStoredStatus(NS_OK) , mStoredProgress(0) , mStoredProgressMax(0) , mSentRedirect1Begin(false) , mSentRedirect1BeginFailed(false) , mReceivedRedirect2Verify(false) , mPBOverride(aOverrideStatus) , mLoadContext(aLoadContext) , mStatus(NS_OK) , mPendingDiversion(false) , mDivertingFromChild(false) , mDivertedOnStartRequest(false) , mSuspendedForDiversion(false) , mShouldIntercept(false) , mShouldSuspendIntercept(false) , mSuspendAfterSynthesizeResponse(false) , mNestedFrameId(0) { LOG(("Creating HttpChannelParent [this=%p]\n", this)); // Ensure gHttpHandler is initialized: we need the atom table up and running. nsCOMPtr dummyInitializer = do_GetService(NS_NETWORK_PROTOCOL_CONTRACTID_PREFIX "http"); MOZ_ASSERT(gHttpHandler); mHttpHandler = gHttpHandler; if (iframeEmbedding.type() == PBrowserOrId::TPBrowserParent) { mTabParent = static_cast(iframeEmbedding.get_PBrowserParent()); } else { mNestedFrameId = iframeEmbedding.get_TabId(); } mObserver = new OfflineObserver(this); mEventQ = new ChannelEventQueue(static_cast(this)); } HttpChannelParent::~HttpChannelParent() { LOG(("Destroying HttpChannelParent [this=%p]\n", this)); if (mObserver) { mObserver->RemoveObserver(); } } void HttpChannelParent::ActorDestroy(ActorDestroyReason why) { // We may still have refcount>0 if nsHttpChannel hasn't called OnStopRequest // yet, but child process has crashed. We must not try to send any more msgs // to child, or IPDL will kill chrome process, too. mIPCClosed = true; // If this is an intercepted channel, we need to make sure that any resources are // cleaned up to avoid leaks. if (mInterceptedChannel) { mInterceptedChannel->Cancel(NS_ERROR_INTERCEPTION_FAILED); mInterceptedChannel = nullptr; } } bool HttpChannelParent::Init(const HttpChannelCreationArgs& aArgs) { LOG(("HttpChannelParent::Init [this=%p]\n", this)); switch (aArgs.type()) { case HttpChannelCreationArgs::THttpChannelOpenArgs: { const HttpChannelOpenArgs& a = aArgs.get_HttpChannelOpenArgs(); return DoAsyncOpen(a.uri(), a.original(), a.doc(), a.referrer(), a.referrerPolicy(), a.apiRedirectTo(), a.topWindowURI(), a.loadFlags(), a.requestHeaders(), a.requestMethod(), a.uploadStream(), a.uploadStreamHasHeaders(), a.priority(), a.classOfService(), a.redirectionLimit(), a.allowPipelining(), a.allowSTS(), a.thirdPartyFlags(), a.resumeAt(), a.startPos(), a.entityID(), a.chooseApplicationCache(), a.appCacheClientID(), a.allowSpdy(), a.allowAltSvc(), a.fds(), a.loadInfo(), a.synthesizedResponseHead(), a.synthesizedSecurityInfoSerialization(), a.cacheKey(), a.schedulingContextID(), a.preflightArgs(), a.initialRwin(), a.suspendAfterSynthesizeResponse()); } case HttpChannelCreationArgs::THttpChannelConnectArgs: { const HttpChannelConnectArgs& cArgs = aArgs.get_HttpChannelConnectArgs(); return ConnectChannel(cArgs.channelId(), cArgs.shouldIntercept()); } default: NS_NOTREACHED("unknown open type"); return false; } } //----------------------------------------------------------------------------- // HttpChannelParent::nsISupports //----------------------------------------------------------------------------- NS_IMPL_ISUPPORTS(HttpChannelParent, nsIInterfaceRequestor, nsIProgressEventSink, nsIRequestObserver, nsIStreamListener, nsIPackagedAppChannelListener, nsIParentChannel, nsIAuthPromptProvider, nsIParentRedirectingChannel, nsINetworkInterceptController, nsIDeprecationWarner) NS_IMETHODIMP HttpChannelParent::ShouldPrepareForIntercept(nsIURI* aURI, bool aIsNonSubresourceRequest, bool* aShouldIntercept) { *aShouldIntercept = mShouldIntercept; return NS_OK; } class HeaderVisitor final : public nsIHttpHeaderVisitor { nsCOMPtr mChannel; ~HeaderVisitor() { } public: explicit HeaderVisitor(nsIInterceptedChannel* aChannel) : mChannel(aChannel) { } NS_DECL_ISUPPORTS NS_IMETHOD VisitHeader(const nsACString& aHeader, const nsACString& aValue) override { mChannel->SynthesizeHeader(aHeader, aValue); return NS_OK; } }; NS_IMPL_ISUPPORTS(HeaderVisitor, nsIHttpHeaderVisitor) class FinishSynthesizedResponse : public nsRunnable { nsCOMPtr mChannel; public: explicit FinishSynthesizedResponse(nsIInterceptedChannel* aChannel) : mChannel(aChannel) { } NS_IMETHOD Run() { // The URL passed as an argument here doesn't matter, since the child will // receive a redirection notification as a result of this synthesized response. mChannel->FinishSynthesizedResponse(EmptyCString()); return NS_OK; } }; class ResponseSynthesizer final : public nsIFetchEventDispatcher { public: ResponseSynthesizer(nsIInterceptedChannel* aChannel, HttpChannelParent* aParentChannel) : mChannel(aChannel) , mParentChannel(aParentChannel) { } NS_DECL_ISUPPORTS NS_DECL_NSIFETCHEVENTDISPATCHER private: ~ResponseSynthesizer() { } nsCOMPtr mChannel; RefPtr mParentChannel; }; NS_IMPL_ISUPPORTS(ResponseSynthesizer, nsIFetchEventDispatcher) NS_IMETHODIMP ResponseSynthesizer::Dispatch() { mParentChannel->SynthesizeResponse(mChannel); return NS_OK; } NS_IMETHODIMP HttpChannelParent::ChannelIntercepted(nsIInterceptedChannel* aChannel, nsIFetchEventDispatcher** aDispatcher) { RefPtr dispatcher = new ResponseSynthesizer(aChannel, this); dispatcher.forget(aDispatcher); return NS_OK; } void HttpChannelParent::SynthesizeResponse(nsIInterceptedChannel* aChannel) { if (mShouldSuspendIntercept) { mInterceptedChannel = aChannel; return; } if (!mSynthesizedResponseHead) { // Near-term crash fix for bug 1219469. mozilla::Unused << SendReportRedirectionError(); return; } aChannel->SynthesizeStatus(mSynthesizedResponseHead->Status(), mSynthesizedResponseHead->StatusText()); nsCOMPtr visitor = new HeaderVisitor(aChannel); mSynthesizedResponseHead->Headers().VisitHeaders(visitor); nsCOMPtr event = new FinishSynthesizedResponse(aChannel); NS_DispatchToCurrentThread(event); mSynthesizedResponseHead = nullptr; // Suspend now even though the FinishSynthesizeResponse runnable has // not executed. We want to suspend after we get far enough to trigger // the synthesis, but not actually allow the nsHttpChannel to trigger // any OnStartRequests(). if (mSuspendAfterSynthesizeResponse) { mChannel->Suspend(); } MaybeFlushPendingDiversion(); } //----------------------------------------------------------------------------- // HttpChannelParent::nsIInterfaceRequestor //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::GetInterface(const nsIID& aIID, void **result) { if (aIID.Equals(NS_GET_IID(nsIAuthPromptProvider)) || aIID.Equals(NS_GET_IID(nsISecureBrowserUI))) { if (mTabParent) { return mTabParent->QueryInterface(aIID, result); } } // Only support nsIAuthPromptProvider in Content process if (XRE_IsParentProcess() && aIID.Equals(NS_GET_IID(nsIAuthPromptProvider))) { *result = nullptr; return NS_OK; } // Only support nsILoadContext if child channel's callbacks did too if (aIID.Equals(NS_GET_IID(nsILoadContext)) && mLoadContext) { nsCOMPtr copy = mLoadContext; copy.forget(result); return NS_OK; } if (mTabParent && aIID.Equals(NS_GET_IID(nsIPrompt))) { nsCOMPtr frameElement = mTabParent->GetOwnerElement(); if (frameElement) { nsresult rv; nsCOMPtr win = do_QueryInterface(frameElement->OwnerDoc()->GetWindow(), &rv); if (NS_WARN_IF(!NS_SUCCEEDED(rv))) { return rv; } nsCOMPtr wwatch = do_GetService(NS_WINDOWWATCHER_CONTRACTID, &rv); if (NS_WARN_IF(!NS_SUCCEEDED(rv))) { return rv; } nsCOMPtr prompt; rv = wwatch->GetNewPrompter(win, getter_AddRefs(prompt)); if (NS_WARN_IF(!NS_SUCCEEDED(rv))) { return rv; } prompt.forget(result); return NS_OK; } } return QueryInterface(aIID, result); } //----------------------------------------------------------------------------- // HttpChannelParent::PHttpChannelParent //----------------------------------------------------------------------------- bool HttpChannelParent::DoAsyncOpen( const URIParams& aURI, const OptionalURIParams& aOriginalURI, const OptionalURIParams& aDocURI, const OptionalURIParams& aReferrerURI, const uint32_t& aReferrerPolicy, const OptionalURIParams& aAPIRedirectToURI, const OptionalURIParams& aTopWindowURI, const uint32_t& aLoadFlags, const RequestHeaderTuples& requestHeaders, const nsCString& requestMethod, const OptionalInputStreamParams& uploadStream, const bool& uploadStreamHasHeaders, const uint16_t& priority, const uint32_t& classOfService, const uint8_t& redirectionLimit, const bool& allowPipelining, const bool& allowSTS, const uint32_t& thirdPartyFlags, const bool& doResumeAt, const uint64_t& startPos, const nsCString& entityID, const bool& chooseApplicationCache, const nsCString& appCacheClientID, const bool& allowSpdy, const bool& allowAltSvc, const OptionalFileDescriptorSet& aFds, const OptionalLoadInfoArgs& aLoadInfoArgs, const OptionalHttpResponseHead& aSynthesizedResponseHead, const nsCString& aSecurityInfoSerialization, const uint32_t& aCacheKey, const nsCString& aSchedulingContextID, const OptionalCorsPreflightArgs& aCorsPreflightArgs, const uint32_t& aInitialRwin, const bool& aSuspendAfterSynthesizeResponse) { nsCOMPtr uri = DeserializeURI(aURI); if (!uri) { // URIParams does MOZ_ASSERT if null, but we need to protect opt builds from // null deref here. return false; } nsCOMPtr originalUri = DeserializeURI(aOriginalURI); nsCOMPtr docUri = DeserializeURI(aDocURI); nsCOMPtr referrerUri = DeserializeURI(aReferrerURI); nsCOMPtr apiRedirectToUri = DeserializeURI(aAPIRedirectToURI); nsCOMPtr topWindowUri = DeserializeURI(aTopWindowURI); nsCString uriSpec; uri->GetSpec(uriSpec); LOG(("HttpChannelParent RecvAsyncOpen [this=%p uri=%s]\n", this, uriSpec.get())); nsresult rv; nsCOMPtr ios(do_GetIOService(&rv)); if (NS_FAILED(rv)) return SendFailedAsyncOpen(rv); bool appOffline = false; uint32_t appId = GetAppId(); if (appId != NECKO_UNKNOWN_APP_ID && appId != NECKO_NO_APP_ID) { gIOService->IsAppOffline(appId, &appOffline); } uint32_t loadFlags = aLoadFlags; if (appOffline) { loadFlags |= nsICachingChannel::LOAD_ONLY_FROM_CACHE; loadFlags |= nsIRequest::LOAD_FROM_CACHE; loadFlags |= nsICachingChannel::LOAD_NO_NETWORK_IO; } nsCOMPtr loadInfo; rv = mozilla::ipc::LoadInfoArgsToLoadInfo(aLoadInfoArgs, getter_AddRefs(loadInfo)); if (NS_FAILED(rv)) { return SendFailedAsyncOpen(rv); } nsCOMPtr channel; rv = NS_NewChannelInternal(getter_AddRefs(channel), uri, loadInfo, nullptr, nullptr, loadFlags, ios); if (NS_FAILED(rv)) return SendFailedAsyncOpen(rv); mChannel = static_cast(channel.get()); mChannel->SetWarningReporter(this); mChannel->SetTimingEnabled(true); if (mPBOverride != kPBOverride_Unset) { mChannel->SetPrivate(mPBOverride == kPBOverride_Private ? true : false); } if (doResumeAt) mChannel->ResumeAt(startPos, entityID); if (originalUri) mChannel->SetOriginalURI(originalUri); if (docUri) mChannel->SetDocumentURI(docUri); if (referrerUri) mChannel->SetReferrerWithPolicyInternal(referrerUri, aReferrerPolicy); if (apiRedirectToUri) mChannel->RedirectTo(apiRedirectToUri); if (topWindowUri) mChannel->SetTopWindowURI(topWindowUri); if (loadFlags != nsIRequest::LOAD_NORMAL) mChannel->SetLoadFlags(loadFlags); for (uint32_t i = 0; i < requestHeaders.Length(); i++) { if (requestHeaders[i].mEmpty) { mChannel->SetEmptyRequestHeader(requestHeaders[i].mHeader); } else { mChannel->SetRequestHeader(requestHeaders[i].mHeader, requestHeaders[i].mValue, requestHeaders[i].mMerge); } } mParentListener = new HttpChannelParentListener(this); mChannel->SetNotificationCallbacks(mParentListener); mChannel->SetRequestMethod(nsDependentCString(requestMethod.get())); nsTArray fds; if (aFds.type() == OptionalFileDescriptorSet::TPFileDescriptorSetParent) { FileDescriptorSetParent* fdSetActor = static_cast(aFds.get_PFileDescriptorSetParent()); MOZ_ASSERT(fdSetActor); fdSetActor->ForgetFileDescriptors(fds); MOZ_ASSERT(!fds.IsEmpty()); Unused << fdSetActor->Send__delete__(fdSetActor); } else if (aFds.type() == OptionalFileDescriptorSet::TArrayOfFileDescriptor) { const_cast(aFds). get_ArrayOfFileDescriptor().SwapElements(fds); } if (aCorsPreflightArgs.type() == OptionalCorsPreflightArgs::TCorsPreflightArgs) { const CorsPreflightArgs& args = aCorsPreflightArgs.get_CorsPreflightArgs(); mChannel->SetCorsPreflightParameters(args.unsafeHeaders()); } nsCOMPtr stream = DeserializeInputStream(uploadStream, fds); if (stream) { mChannel->InternalSetUploadStream(stream); mChannel->SetUploadStreamHasHeaders(uploadStreamHasHeaders); } if (aSynthesizedResponseHead.type() == OptionalHttpResponseHead::TnsHttpResponseHead) { mSynthesizedResponseHead = new nsHttpResponseHead(aSynthesizedResponseHead.get_nsHttpResponseHead()); mShouldIntercept = true; mChannel->SetCouldBeSynthesized(); if (!aSecurityInfoSerialization.IsEmpty()) { nsCOMPtr secInfo; NS_DeserializeObject(aSecurityInfoSerialization, getter_AddRefs(secInfo)); mChannel->OverrideSecurityInfo(secInfo); } } else { nsLoadFlags loadFlags; mChannel->GetLoadFlags(&loadFlags); loadFlags |= nsIChannel::LOAD_BYPASS_SERVICE_WORKER; mChannel->SetLoadFlags(loadFlags); } nsCOMPtr cacheKey = do_CreateInstance(NS_SUPPORTS_PRUINT32_CONTRACTID, &rv); if (NS_FAILED(rv)) { return SendFailedAsyncOpen(rv); } rv = cacheKey->SetData(aCacheKey); if (NS_FAILED(rv)) { return SendFailedAsyncOpen(rv); } mChannel->SetCacheKey(cacheKey); if (priority != nsISupportsPriority::PRIORITY_NORMAL) { mChannel->SetPriority(priority); } if (classOfService) { mChannel->SetClassFlags(classOfService); } mChannel->SetRedirectionLimit(redirectionLimit); mChannel->SetAllowPipelining(allowPipelining); mChannel->SetAllowSTS(allowSTS); mChannel->SetThirdPartyFlags(thirdPartyFlags); mChannel->SetAllowSpdy(allowSpdy); mChannel->SetAllowAltSvc(allowAltSvc); mChannel->SetInitialRwin(aInitialRwin); nsCOMPtr appCacheChan = do_QueryObject(mChannel); nsCOMPtr appCacheService = do_GetService(NS_APPLICATIONCACHESERVICE_CONTRACTID); bool setChooseApplicationCache = chooseApplicationCache; if (appCacheChan && appCacheService) { // We might potentially want to drop this flag (that is TRUE by default) // after we successfully associate the channel with an application cache // reported by the channel child. Dropping it here may be too early. appCacheChan->SetInheritApplicationCache(false); if (!appCacheClientID.IsEmpty()) { nsCOMPtr appCache; rv = appCacheService->GetApplicationCache(appCacheClientID, getter_AddRefs(appCache)); if (NS_SUCCEEDED(rv)) { appCacheChan->SetApplicationCache(appCache); setChooseApplicationCache = false; } } if (setChooseApplicationCache) { DocShellOriginAttributes docShellAttrs; if (mLoadContext) { bool result = mLoadContext->GetOriginAttributes(docShellAttrs); if (!result) { return SendFailedAsyncOpen(NS_ERROR_FAILURE); } } NeckoOriginAttributes neckoAttrs; neckoAttrs.InheritFromDocShellToNecko(docShellAttrs); PrincipalOriginAttributes attrs; attrs.InheritFromNecko(neckoAttrs); nsCOMPtr principal = BasePrincipal::CreateCodebasePrincipal(uri, attrs); bool chooseAppCache = false; // This works because we've already called SetNotificationCallbacks and // done mPBOverride logic by this point. chooseAppCache = NS_ShouldCheckAppCache(principal, NS_UsePrivateBrowsing(mChannel)); appCacheChan->SetChooseApplicationCache(chooseAppCache); } } nsID schedulingContextID; schedulingContextID.Parse(aSchedulingContextID.BeginReading()); mChannel->SetSchedulingContextID(schedulingContextID); mSuspendAfterSynthesizeResponse = aSuspendAfterSynthesizeResponse; if (loadInfo && loadInfo->GetEnforceSecurity()) { rv = mChannel->AsyncOpen2(mParentListener); } else { rv = mChannel->AsyncOpen(mParentListener, nullptr); } if (NS_FAILED(rv)) return SendFailedAsyncOpen(rv); return true; } bool HttpChannelParent::ConnectChannel(const uint32_t& channelId, const bool& shouldIntercept) { nsresult rv; LOG(("HttpChannelParent::ConnectChannel: Looking for a registered channel " "[this=%p, id=%lu]\n", this, channelId)); nsCOMPtr channel; rv = NS_LinkRedirectChannels(channelId, this, getter_AddRefs(channel)); mChannel = static_cast(channel.get()); LOG((" found channel %p, rv=%08x", mChannel.get(), rv)); mShouldIntercept = shouldIntercept; if (mShouldIntercept) { // When an interception occurs, this channel should suspend all further activity. // It will be torn down and recreated if necessary. mShouldSuspendIntercept = true; } if (mPBOverride != kPBOverride_Unset) { // redirected-to channel may not support PB nsCOMPtr pbChannel = do_QueryObject(mChannel); if (pbChannel) { pbChannel->SetPrivate(mPBOverride == kPBOverride_Private ? true : false); } } bool appOffline = false; uint32_t appId = GetAppId(); if (appId != NECKO_UNKNOWN_APP_ID && appId != NECKO_NO_APP_ID) { gIOService->IsAppOffline(appId, &appOffline); } if (appOffline) { uint32_t loadFlags; mChannel->GetLoadFlags(&loadFlags); loadFlags |= nsICachingChannel::LOAD_ONLY_FROM_CACHE; loadFlags |= nsIRequest::LOAD_FROM_CACHE; loadFlags |= nsICachingChannel::LOAD_NO_NETWORK_IO; mChannel->SetLoadFlags(loadFlags); } return true; } bool HttpChannelParent::RecvSetPriority(const uint16_t& priority) { LOG(("HttpChannelParent::RecvSetPriority [this=%p, priority=%u]\n", this, priority)); if (mChannel) { mChannel->SetPriority(priority); } nsCOMPtr priorityRedirectChannel = do_QueryInterface(mRedirectChannel); if (priorityRedirectChannel) priorityRedirectChannel->SetPriority(priority); return true; } bool HttpChannelParent::RecvSetClassOfService(const uint32_t& cos) { if (mChannel) { mChannel->SetClassFlags(cos); } return true; } bool HttpChannelParent::RecvSuspend() { LOG(("HttpChannelParent::RecvSuspend [this=%p]\n", this)); if (mChannel) { mChannel->Suspend(); } return true; } bool HttpChannelParent::RecvResume() { LOG(("HttpChannelParent::RecvResume [this=%p]\n", this)); if (mChannel) { mChannel->Resume(); } return true; } bool HttpChannelParent::RecvCancel(const nsresult& status) { LOG(("HttpChannelParent::RecvCancel [this=%p]\n", this)); // May receive cancel before channel has been constructed! if (mChannel) { mChannel->Cancel(status); } return true; } bool HttpChannelParent::RecvSetCacheTokenCachedCharset(const nsCString& charset) { if (mCacheEntry) mCacheEntry->SetMetaDataElement("charset", charset.get()); return true; } bool HttpChannelParent::RecvUpdateAssociatedContentSecurity(const int32_t& broken, const int32_t& no) { if (mAssociatedContentSecurity) { mAssociatedContentSecurity->SetCountSubRequestsBrokenSecurity(broken); mAssociatedContentSecurity->SetCountSubRequestsNoSecurity(no); } return true; } bool HttpChannelParent::RecvRedirect2Verify(const nsresult& result, const RequestHeaderTuples& changedHeaders, const uint32_t& loadFlags, const OptionalURIParams& aAPIRedirectURI, const OptionalCorsPreflightArgs& aCorsPreflightArgs) { LOG(("HttpChannelParent::RecvRedirect2Verify [this=%p result=%x]\n", this, result)); if (NS_SUCCEEDED(result)) { nsCOMPtr newHttpChannel = do_QueryInterface(mRedirectChannel); if (newHttpChannel) { nsCOMPtr apiRedirectUri = DeserializeURI(aAPIRedirectURI); if (apiRedirectUri) newHttpChannel->RedirectTo(apiRedirectUri); for (uint32_t i = 0; i < changedHeaders.Length(); i++) { if (changedHeaders[i].mEmpty) { newHttpChannel->SetEmptyRequestHeader(changedHeaders[i].mHeader); } else { newHttpChannel->SetRequestHeader(changedHeaders[i].mHeader, changedHeaders[i].mValue, changedHeaders[i].mMerge); } } // A successfully redirected channel must have the LOAD_REPLACE flag. MOZ_ASSERT(loadFlags & nsIChannel::LOAD_REPLACE); if (loadFlags & nsIChannel::LOAD_REPLACE) { newHttpChannel->SetLoadFlags(loadFlags); } if (aCorsPreflightArgs.type() == OptionalCorsPreflightArgs::TCorsPreflightArgs) { nsCOMPtr newInternalChannel = do_QueryInterface(newHttpChannel); MOZ_RELEASE_ASSERT(newInternalChannel); const CorsPreflightArgs& args = aCorsPreflightArgs.get_CorsPreflightArgs(); newInternalChannel->SetCorsPreflightParameters(args.unsafeHeaders()); } } } if (!mRedirectCallback) { // This should according the logic never happen, log the situation. if (mReceivedRedirect2Verify) LOG(("RecvRedirect2Verify[%p]: Duplicate fire", this)); if (mSentRedirect1BeginFailed) LOG(("RecvRedirect2Verify[%p]: Send to child failed", this)); if (mSentRedirect1Begin && NS_FAILED(result)) LOG(("RecvRedirect2Verify[%p]: Redirect failed", this)); if (mSentRedirect1Begin && NS_SUCCEEDED(result)) LOG(("RecvRedirect2Verify[%p]: Redirect succeeded", this)); if (!mRedirectChannel) LOG(("RecvRedirect2Verify[%p]: Missing redirect channel", this)); NS_ERROR("Unexpcted call to HttpChannelParent::RecvRedirect2Verify, " "mRedirectCallback null"); } mReceivedRedirect2Verify = true; if (mRedirectCallback) { LOG(("HttpChannelParent::RecvRedirect2Verify call OnRedirectVerifyCallback" " [this=%p result=%x, mRedirectCallback=%p]\n", this, result, mRedirectCallback.get())); mRedirectCallback->OnRedirectVerifyCallback(result); mRedirectCallback = nullptr; } return true; } bool HttpChannelParent::RecvDocumentChannelCleanup() { // From now on only using mAssociatedContentSecurity. Free everything else. mChannel = 0; // Reclaim some memory sooner. mCacheEntry = 0; // Else we'll block other channels reading same URI return true; } bool HttpChannelParent::RecvMarkOfflineCacheEntryAsForeign() { if (mOfflineForeignMarker) { mOfflineForeignMarker->MarkAsForeign(); mOfflineForeignMarker = 0; } return true; } class DivertDataAvailableEvent : public ChannelEvent { public: DivertDataAvailableEvent(HttpChannelParent* aParent, const nsCString& data, const uint64_t& offset, const uint32_t& count) : mParent(aParent) , mData(data) , mOffset(offset) , mCount(count) { } void Run() { mParent->DivertOnDataAvailable(mData, mOffset, mCount); } private: HttpChannelParent* mParent; nsCString mData; uint64_t mOffset; uint32_t mCount; }; bool HttpChannelParent::RecvDivertOnDataAvailable(const nsCString& data, const uint64_t& offset, const uint32_t& count) { LOG(("HttpChannelParent::RecvDivertOnDataAvailable [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot RecvDivertOnDataAvailable if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return false; } // Drop OnDataAvailables if the parent was canceled already. if (NS_FAILED(mStatus)) { return true; } if (mEventQ->ShouldEnqueue()) { mEventQ->Enqueue(new DivertDataAvailableEvent(this, data, offset, count)); return true; } DivertOnDataAvailable(data, offset, count); return true; } void HttpChannelParent::DivertOnDataAvailable(const nsCString& data, const uint64_t& offset, const uint32_t& count) { LOG(("HttpChannelParent::DivertOnDataAvailable [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot DivertOnDataAvailable if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return; } // Drop OnDataAvailables if the parent was canceled already. if (NS_FAILED(mStatus)) { return; } nsCOMPtr stringStream; nsresult rv = NS_NewByteInputStream(getter_AddRefs(stringStream), data.get(), count, NS_ASSIGNMENT_DEPEND); if (NS_FAILED(rv)) { if (mChannel) { mChannel->Cancel(rv); } mStatus = rv; return; } AutoEventEnqueuer ensureSerialDispatch(mEventQ); rv = mParentListener->OnDataAvailable(mChannel, nullptr, stringStream, offset, count); stringStream->Close(); if (NS_FAILED(rv)) { if (mChannel) { mChannel->Cancel(rv); } mStatus = rv; } } class DivertStopRequestEvent : public ChannelEvent { public: DivertStopRequestEvent(HttpChannelParent* aParent, const nsresult& statusCode) : mParent(aParent) , mStatusCode(statusCode) { } void Run() { mParent->DivertOnStopRequest(mStatusCode); } private: HttpChannelParent* mParent; nsresult mStatusCode; }; bool HttpChannelParent::RecvDivertOnStopRequest(const nsresult& statusCode) { LOG(("HttpChannelParent::RecvDivertOnStopRequest [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot RecvDivertOnStopRequest if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return false; } if (mEventQ->ShouldEnqueue()) { mEventQ->Enqueue(new DivertStopRequestEvent(this, statusCode)); return true; } DivertOnStopRequest(statusCode); return true; } void HttpChannelParent::DivertOnStopRequest(const nsresult& statusCode) { LOG(("HttpChannelParent::DivertOnStopRequest [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot DivertOnStopRequest if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return; } // Honor the channel's status even if the underlying transaction completed. nsresult status = NS_FAILED(mStatus) ? mStatus : statusCode; // Reset fake pending status in case OnStopRequest has already been called. if (mChannel) { mChannel->ForcePending(false); } AutoEventEnqueuer ensureSerialDispatch(mEventQ); mParentListener->OnStopRequest(mChannel, nullptr, status); } class DivertCompleteEvent : public ChannelEvent { public: explicit DivertCompleteEvent(HttpChannelParent* aParent) : mParent(aParent) { } void Run() { mParent->DivertComplete(); } private: HttpChannelParent* mParent; }; bool HttpChannelParent::RecvDivertComplete() { LOG(("HttpChannelParent::RecvDivertComplete [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot RecvDivertComplete if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return false; } if (mEventQ->ShouldEnqueue()) { mEventQ->Enqueue(new DivertCompleteEvent(this)); return true; } DivertComplete(); return true; } void HttpChannelParent::DivertComplete() { LOG(("HttpChannelParent::DivertComplete [this=%p]\n", this)); MOZ_ASSERT(mParentListener); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot DivertComplete if diverting is not set!"); FailDiversion(NS_ERROR_UNEXPECTED); return; } nsresult rv = ResumeForDiversion(); if (NS_WARN_IF(NS_FAILED(rv))) { FailDiversion(NS_ERROR_UNEXPECTED); return; } mParentListener = nullptr; } void HttpChannelParent::MaybeFlushPendingDiversion() { if (!mPendingDiversion) { return; } mPendingDiversion = false; nsresult rv = SuspendForDiversion(); if (NS_WARN_IF(NS_FAILED(rv))) { return; } if (mDivertListener) { DivertTo(mDivertListener); } return; } bool HttpChannelParent::RecvRemoveCorsPreflightCacheEntry(const URIParams& uri, const mozilla::ipc::PrincipalInfo& requestingPrincipal) { nsCOMPtr deserializedURI = DeserializeURI(uri); if (!deserializedURI) { return false; } nsCOMPtr principal = PrincipalInfoToPrincipal(requestingPrincipal); if (!principal) { return false; } nsCORSListenerProxy::RemoveFromCorsPreflightCache(deserializedURI, principal); return true; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIPackagedAppChannelListener //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::OnStartSignedPackageRequest(const nsACString& aPackageId) { if (mTabParent) { mTabParent->OnStartSignedPackageRequest(mChannel, aPackageId); } return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIRequestObserver //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::OnStartRequest(nsIRequest *aRequest, nsISupports *aContext) { LOG(("HttpChannelParent::OnStartRequest [this=%p, aRequest=%p]\n", this, aRequest)); MOZ_RELEASE_ASSERT(!mDivertingFromChild, "Cannot call OnStartRequest if diverting is set!"); nsHttpChannel *chan = static_cast(aRequest); nsHttpResponseHead *responseHead = chan->GetResponseHead(); nsHttpRequestHead *requestHead = chan->GetRequestHead(); bool isFromCache = false; chan->IsFromCache(&isFromCache); uint32_t expirationTime = nsICacheEntry::NO_EXPIRATION_TIME; chan->GetCacheTokenExpirationTime(&expirationTime); nsCString cachedCharset; chan->GetCacheTokenCachedCharset(cachedCharset); bool loadedFromApplicationCache; chan->GetLoadedFromApplicationCache(&loadedFromApplicationCache); if (loadedFromApplicationCache) { mOfflineForeignMarker = chan->GetOfflineCacheEntryAsForeignMarker(); nsCOMPtr appCache; chan->GetApplicationCache(getter_AddRefs(appCache)); nsCString appCacheGroupId; nsCString appCacheClientId; appCache->GetGroupID(appCacheGroupId); appCache->GetClientID(appCacheClientId); if (mIPCClosed || !SendAssociateApplicationCache(appCacheGroupId, appCacheClientId)) { return NS_ERROR_UNEXPECTED; } } nsCOMPtr encodedChannel = do_QueryInterface(aRequest); if (encodedChannel) encodedChannel->SetApplyConversion(false); // Keep the cache entry for future use in RecvSetCacheTokenCachedCharset(). // It could be already released by nsHttpChannel at that time. nsCOMPtr cacheEntry; chan->GetCacheToken(getter_AddRefs(cacheEntry)); mCacheEntry = do_QueryInterface(cacheEntry); nsresult channelStatus = NS_OK; chan->GetStatus(&channelStatus); nsCString secInfoSerialization; UpdateAndSerializeSecurityInfo(secInfoSerialization); uint16_t redirectCount = 0; mChannel->GetRedirectCount(&redirectCount); nsCOMPtr cacheKey; mChannel->GetCacheKey(getter_AddRefs(cacheKey)); uint32_t cacheKeyValue = 0; if (cacheKey) { nsCOMPtr container = do_QueryInterface(cacheKey); if (!container) { return NS_ERROR_ILLEGAL_VALUE; } nsresult rv = container->GetData(&cacheKeyValue); if (NS_FAILED(rv)) { return rv; } } if (mIPCClosed || !SendOnStartRequest(channelStatus, responseHead ? *responseHead : nsHttpResponseHead(), !!responseHead, requestHead->Headers(), isFromCache, mCacheEntry ? true : false, expirationTime, cachedCharset, secInfoSerialization, mChannel->GetSelfAddr(), mChannel->GetPeerAddr(), redirectCount, cacheKeyValue)) { return NS_ERROR_UNEXPECTED; } return NS_OK; } NS_IMETHODIMP HttpChannelParent::OnStopRequest(nsIRequest *aRequest, nsISupports *aContext, nsresult aStatusCode) { LOG(("HttpChannelParent::OnStopRequest: [this=%p aRequest=%p status=%x]\n", this, aRequest, aStatusCode)); MOZ_RELEASE_ASSERT(!mDivertingFromChild, "Cannot call OnStopRequest if diverting is set!"); ResourceTimingStruct timing; mChannel->GetDomainLookupStart(&timing.domainLookupStart); mChannel->GetDomainLookupEnd(&timing.domainLookupEnd); mChannel->GetConnectStart(&timing.connectStart); mChannel->GetConnectEnd(&timing.connectEnd); mChannel->GetRequestStart(&timing.requestStart); mChannel->GetResponseStart(&timing.responseStart); mChannel->GetResponseEnd(&timing.responseEnd); mChannel->GetAsyncOpen(&timing.fetchStart); mChannel->GetRedirectStart(&timing.redirectStart); mChannel->GetRedirectEnd(&timing.redirectEnd); mChannel->GetTransferSize(&timing.transferSize); mChannel->GetEncodedBodySize(&timing.encodedBodySize); // decodedBodySize can be computed in the child process so it doesn't need // to be passed down. mChannel->GetProtocolVersion(timing.protocolVersion); if (mIPCClosed || !SendOnStopRequest(aStatusCode, timing)) return NS_ERROR_UNEXPECTED; return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIStreamListener //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::OnDataAvailable(nsIRequest *aRequest, nsISupports *aContext, nsIInputStream *aInputStream, uint64_t aOffset, uint32_t aCount) { LOG(("HttpChannelParent::OnDataAvailable [this=%p aRequest=%p]\n", this, aRequest)); MOZ_RELEASE_ASSERT(!mDivertingFromChild, "Cannot call OnDataAvailable if diverting is set!"); nsCString data; nsresult rv = NS_ReadInputStreamToString(aInputStream, data, aCount); if (NS_FAILED(rv)) return rv; nsresult channelStatus = NS_OK; mChannel->GetStatus(&channelStatus); // OnDataAvailable is always preceded by OnStatus/OnProgress calls that set // mStoredStatus/mStoredProgress(Max) to appropriate values, unless // LOAD_BACKGROUND set. In that case, they'll have garbage values, but // child doesn't use them. if (mIPCClosed || !SendOnTransportAndData(channelStatus, mStoredStatus, mStoredProgress, mStoredProgressMax, data, aOffset, aCount)) { return NS_ERROR_UNEXPECTED; } return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIProgressEventSink //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::OnProgress(nsIRequest *aRequest, nsISupports *aContext, int64_t aProgress, int64_t aProgressMax) { // OnStatus has always just set mStoredStatus. If it indicates this precedes // OnDataAvailable, store and ODA will send to child. if (mStoredStatus == NS_NET_STATUS_RECEIVING_FROM || mStoredStatus == NS_NET_STATUS_READING) { mStoredProgress = aProgress; mStoredProgressMax = aProgressMax; } else { // Send OnProgress events to the child for data upload progress notifications // (i.e. status == NS_NET_STATUS_SENDING_TO) or if the channel has // LOAD_BACKGROUND set. if (mIPCClosed || !SendOnProgress(aProgress, aProgressMax)) return NS_ERROR_UNEXPECTED; } return NS_OK; } NS_IMETHODIMP HttpChannelParent::OnStatus(nsIRequest *aRequest, nsISupports *aContext, nsresult aStatus, const char16_t *aStatusArg) { // If this precedes OnDataAvailable, store and ODA will send to child. if (aStatus == NS_NET_STATUS_RECEIVING_FROM || aStatus == NS_NET_STATUS_READING) { mStoredStatus = aStatus; return NS_OK; } // Otherwise, send to child now if (mIPCClosed || !SendOnStatus(aStatus)) return NS_ERROR_UNEXPECTED; return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIParentChannel //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::SetParentListener(HttpChannelParentListener* aListener) { LOG(("HttpChannelParent::SetParentListener [this=%p aListener=%p]\n", this, aListener)); MOZ_ASSERT(aListener); MOZ_ASSERT(!mParentListener, "SetParentListener should only be called for " "new HttpChannelParents after a redirect, when " "mParentListener is null."); mParentListener = aListener; return NS_OK; } NS_IMETHODIMP HttpChannelParent::NotifyTrackingProtectionDisabled() { if (!mIPCClosed) Unused << SendNotifyTrackingProtectionDisabled(); return NS_OK; } NS_IMETHODIMP HttpChannelParent::Delete() { if (!mIPCClosed) Unused << SendDeleteSelf(); return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::nsIParentRedirectingChannel //----------------------------------------------------------------------------- NS_IMETHODIMP HttpChannelParent::StartRedirect(uint32_t newChannelId, nsIChannel* newChannel, uint32_t redirectFlags, nsIAsyncVerifyRedirectCallback* callback) { LOG(("HttpChannelParent::StartRedirect [this=%p, newChannelId=%lu " "newChannel=%p callback=%p]\n", this, newChannelId, newChannel, callback)); if (mIPCClosed) return NS_BINDING_ABORTED; nsCOMPtr newURI; newChannel->GetURI(getter_AddRefs(newURI)); URIParams uriParams; SerializeURI(newURI, uriParams); nsCString secInfoSerialization; UpdateAndSerializeSecurityInfo(secInfoSerialization); nsHttpResponseHead *responseHead = mChannel->GetResponseHead(); bool result = SendRedirect1Begin(newChannelId, uriParams, redirectFlags, responseHead ? *responseHead : nsHttpResponseHead(), secInfoSerialization); if (!result) { // Bug 621446 investigation mSentRedirect1BeginFailed = true; return NS_BINDING_ABORTED; } // Bug 621446 investigation mSentRedirect1Begin = true; // Result is handled in RecvRedirect2Verify above mRedirectChannel = newChannel; mRedirectCallback = callback; return NS_OK; } NS_IMETHODIMP HttpChannelParent::CompleteRedirect(bool succeeded) { LOG(("HttpChannelParent::CompleteRedirect [this=%p succeeded=%d]\n", this, succeeded)); if (succeeded && !mIPCClosed) { // TODO: check return value: assume child dead if failed Unused << SendRedirect3Complete(); } mRedirectChannel = nullptr; return NS_OK; } //----------------------------------------------------------------------------- // HttpChannelParent::ADivertableParentChannel //----------------------------------------------------------------------------- nsresult HttpChannelParent::SuspendForDiversion() { LOG(("HttpChannelParent::SuspendForDiversion [this=%p]\n", this)); MOZ_ASSERT(mChannel); MOZ_ASSERT(mParentListener); // If we're in the process of opening a synthesized response, we must wait // to perform the diversion. Some of our diversion listeners clear callbacks // which breaks the synthesis process. if (mSynthesizedResponseHead) { mPendingDiversion = true; return NS_OK; } if (NS_WARN_IF(mDivertingFromChild)) { MOZ_ASSERT(!mDivertingFromChild, "Already suspended for diversion!"); return NS_ERROR_UNEXPECTED; } nsresult rv = NS_OK; // Try suspending the channel. Allow it to fail, since OnStopRequest may have // been called and thus the channel may not be pending. If we've already // automatically suspended after synthesizing the response, then we don't // need to suspend again here. if (!mSuspendAfterSynthesizeResponse) { rv = mChannel->Suspend(); MOZ_ASSERT(NS_SUCCEEDED(rv) || rv == NS_ERROR_NOT_AVAILABLE); mSuspendedForDiversion = NS_SUCCEEDED(rv); } else { // Take ownership of the automatic suspend that occurred after synthesizing // the response. mSuspendedForDiversion = true; } rv = mParentListener->SuspendForDiversion(); MOZ_ASSERT(NS_SUCCEEDED(rv)); // Once this is set, no more OnStart/OnData/OnStop callbacks should be sent // to the child. mDivertingFromChild = true; return NS_OK; } /* private, supporting function for ADivertableParentChannel */ nsresult HttpChannelParent::ResumeForDiversion() { LOG(("HttpChannelParent::ResumeForDiversion [this=%p]\n", this)); MOZ_ASSERT(mChannel); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot ResumeForDiversion if not diverting!"); return NS_ERROR_UNEXPECTED; } if (mSuspendedForDiversion) { // The nsHttpChannel will deliver remaining OnData/OnStop for the transfer. nsresult rv = mChannel->Resume(); if (NS_WARN_IF(NS_FAILED(rv))) { FailDiversion(NS_ERROR_UNEXPECTED, true); return rv; } mSuspendedForDiversion = false; } if (NS_WARN_IF(mIPCClosed || !SendDeleteSelf())) { FailDiversion(NS_ERROR_UNEXPECTED); return NS_ERROR_UNEXPECTED; } return NS_OK; } void HttpChannelParent::DivertTo(nsIStreamListener *aListener) { LOG(("HttpChannelParent::DivertTo [this=%p aListener=%p]\n", this, aListener)); MOZ_ASSERT(mParentListener); // If we're in the process of opening a synthesized response, we must wait // to perform the diversion. Some of our diversion listeners clear callbacks // which breaks the synthesis process. if (mSynthesizedResponseHead) { // We should already have started pending the diversion when // SuspendForDiversion() was called. MOZ_ASSERT(mPendingDiversion); mDivertListener = aListener; return; } if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot DivertTo new listener if diverting is not set!"); return; } mDivertListener = aListener; // Call OnStartRequest and SendDivertMessages asynchronously to avoid // reentering client context. NS_DispatchToCurrentThread( NS_NewRunnableMethod(this, &HttpChannelParent::StartDiversion)); return; } void HttpChannelParent::StartDiversion() { LOG(("HttpChannelParent::StartDiversion [this=%p]\n", this)); if (NS_WARN_IF(!mDivertingFromChild)) { MOZ_ASSERT(mDivertingFromChild, "Cannot StartDiversion if diverting is not set!"); return; } // Fake pending status in case OnStopRequest has already been called. if (mChannel) { mChannel->ForcePending(true); } { AutoEventEnqueuer ensureSerialDispatch(mEventQ); // Call OnStartRequest for the "DivertTo" listener. nsresult rv = mDivertListener->OnStartRequest(mChannel, nullptr); if (NS_FAILED(rv)) { if (mChannel) { mChannel->Cancel(rv); } mStatus = rv; } } mDivertedOnStartRequest = true; // After OnStartRequest has been called, setup content decoders if needed. // // Create a content conversion chain based on mDivertListener and update // mDivertListener. nsCOMPtr converterListener; mChannel->DoApplyContentConversions(mDivertListener, getter_AddRefs(converterListener)); if (converterListener) { mDivertListener = converterListener.forget(); } // Now mParentListener can be diverted to mDivertListener. DebugOnly rvdbg = mParentListener->DivertTo(mDivertListener); MOZ_ASSERT(NS_SUCCEEDED(rvdbg)); mDivertListener = nullptr; if (NS_WARN_IF(mIPCClosed || !SendFlushedForDiversion())) { FailDiversion(NS_ERROR_UNEXPECTED); return; } // The listener chain should now be setup; tell HttpChannelChild to divert // the OnDataAvailables and OnStopRequest to this HttpChannelParent. if (NS_WARN_IF(mIPCClosed || !SendDivertMessages())) { FailDiversion(NS_ERROR_UNEXPECTED); return; } } class HTTPFailDiversionEvent : public nsRunnable { public: HTTPFailDiversionEvent(HttpChannelParent *aChannelParent, nsresult aErrorCode, bool aSkipResume) : mChannelParent(aChannelParent) , mErrorCode(aErrorCode) , mSkipResume(aSkipResume) { MOZ_RELEASE_ASSERT(aChannelParent); MOZ_RELEASE_ASSERT(NS_FAILED(aErrorCode)); } NS_IMETHOD Run() { mChannelParent->NotifyDiversionFailed(mErrorCode, mSkipResume); return NS_OK; } private: RefPtr mChannelParent; nsresult mErrorCode; bool mSkipResume; }; void HttpChannelParent::FailDiversion(nsresult aErrorCode, bool aSkipResume) { MOZ_RELEASE_ASSERT(NS_FAILED(aErrorCode)); MOZ_RELEASE_ASSERT(mDivertingFromChild); MOZ_RELEASE_ASSERT(mParentListener); MOZ_RELEASE_ASSERT(mChannel); NS_DispatchToCurrentThread( new HTTPFailDiversionEvent(this, aErrorCode, aSkipResume)); } void HttpChannelParent::NotifyDiversionFailed(nsresult aErrorCode, bool aSkipResume) { LOG(("HttpChannelParent::NotifyDiversionFailed [this=%p aErrorCode=%x]\n", this, aErrorCode)); MOZ_RELEASE_ASSERT(NS_FAILED(aErrorCode)); MOZ_RELEASE_ASSERT(mDivertingFromChild); MOZ_RELEASE_ASSERT(mParentListener); MOZ_RELEASE_ASSERT(mChannel); mChannel->Cancel(aErrorCode); mChannel->ForcePending(false); bool isPending = false; nsresult rv = mChannel->IsPending(&isPending); MOZ_RELEASE_ASSERT(NS_SUCCEEDED(rv)); // Resume only if we suspended earlier. if (mSuspendedForDiversion) { mChannel->Resume(); } // Channel has already sent OnStartRequest to the child, so ensure that we // call it here if it hasn't already been called. if (!mDivertedOnStartRequest) { mChannel->ForcePending(true); mParentListener->OnStartRequest(mChannel, nullptr); mChannel->ForcePending(false); } // If the channel is pending, it will call OnStopRequest itself; otherwise, do // it here. if (!isPending) { mParentListener->OnStopRequest(mChannel, nullptr, aErrorCode); } mParentListener = nullptr; mChannel = nullptr; if (!mIPCClosed) { Unused << SendDeleteSelf(); } } void HttpChannelParent::OfflineDisconnect() { if (mChannel) { mChannel->Cancel(NS_ERROR_OFFLINE); } mStatus = NS_ERROR_OFFLINE; } uint32_t HttpChannelParent::GetAppId() { uint32_t appId = NECKO_UNKNOWN_APP_ID; if (mLoadContext) { mLoadContext->GetAppId(&appId); } return appId; } NS_IMETHODIMP HttpChannelParent::GetAuthPrompt(uint32_t aPromptReason, const nsIID& iid, void** aResult) { nsCOMPtr prompt = new NeckoParent::NestedFrameAuthPrompt(Manager(), mNestedFrameId); prompt.forget(aResult); return NS_OK; } void HttpChannelParent::UpdateAndSerializeSecurityInfo(nsACString& aSerializedSecurityInfoOut) { nsCOMPtr secInfoSupp; mChannel->GetSecurityInfo(getter_AddRefs(secInfoSupp)); if (secInfoSupp) { mAssociatedContentSecurity = do_QueryInterface(secInfoSupp); nsCOMPtr secInfoSer = do_QueryInterface(secInfoSupp); if (secInfoSer) { NS_SerializeToString(secInfoSer, aSerializedSecurityInfoOut); } } } //----------------------------------------------------------------------------- // HttpChannelSecurityWarningReporter //----------------------------------------------------------------------------- nsresult HttpChannelParent::ReportSecurityMessage(const nsAString& aMessageTag, const nsAString& aMessageCategory) { if (mIPCClosed || NS_WARN_IF(!SendReportSecurityMessage(nsString(aMessageTag), nsString(aMessageCategory)))) { return NS_ERROR_UNEXPECTED; } return NS_OK; } NS_IMETHODIMP HttpChannelParent::IssueWarning(uint32_t aWarning, bool aAsError) { Unused << SendIssueDeprecationWarning(aWarning, aAsError); return NS_OK; } } // namespace net } // namespace mozilla