/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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/. */ #ifndef mozilla_net_HttpChannelChild_h #define mozilla_net_HttpChannelChild_h #include "mozilla/UniquePtr.h" #include "mozilla/net/HttpBaseChannel.h" #include "mozilla/net/PHttpChannelChild.h" #include "mozilla/net/ChannelEventQueue.h" #include "nsIStreamListener.h" #include "nsILoadGroup.h" #include "nsIInterfaceRequestor.h" #include "nsIInterfaceRequestorUtils.h" #include "nsIProgressEventSink.h" #include "nsICacheInfoChannel.h" #include "nsIApplicationCache.h" #include "nsIApplicationCacheChannel.h" #include "nsIUploadChannel2.h" #include "nsIResumableChannel.h" #include "nsIProxiedChannel.h" #include "nsIAsyncVerifyRedirectCallback.h" #include "nsIAssociatedContentSecurity.h" #include "nsIChildChannel.h" #include "nsIHttpChannelChild.h" #include "nsIDivertableChannel.h" #include "mozilla/net/DNS.h" class nsInputStreamPump; namespace mozilla { namespace net { class InterceptedChannelContent; class InterceptStreamListener; class HttpChannelChild final : public PHttpChannelChild , public HttpBaseChannel , public HttpAsyncAborter , public nsICacheInfoChannel , public nsIProxiedChannel , public nsIApplicationCacheChannel , public nsIAsyncVerifyRedirectCallback , public nsIAssociatedContentSecurity , public nsIChildChannel , public nsIHttpChannelChild , public nsIDivertableChannel { virtual ~HttpChannelChild(); public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSICACHEINFOCHANNEL NS_DECL_NSIPROXIEDCHANNEL NS_DECL_NSIAPPLICATIONCACHECONTAINER NS_DECL_NSIAPPLICATIONCACHECHANNEL NS_DECL_NSIASYNCVERIFYREDIRECTCALLBACK NS_DECL_NSIASSOCIATEDCONTENTSECURITY NS_DECL_NSICHILDCHANNEL NS_DECL_NSIHTTPCHANNELCHILD NS_DECL_NSIDIVERTABLECHANNEL HttpChannelChild(); // Methods HttpBaseChannel didn't implement for us or that we override. // // nsIRequest NS_IMETHOD Cancel(nsresult status) override; NS_IMETHOD Suspend() override; NS_IMETHOD Resume() override; // nsIChannel NS_IMETHOD GetSecurityInfo(nsISupports **aSecurityInfo) override; NS_IMETHOD AsyncOpen(nsIStreamListener *listener, nsISupports *aContext) override; NS_IMETHOD AsyncOpen2(nsIStreamListener *aListener) override; // HttpBaseChannel::nsIHttpChannel NS_IMETHOD SetRequestHeader(const nsACString& aHeader, const nsACString& aValue, bool aMerge) override; NS_IMETHOD SetEmptyRequestHeader(const nsACString& aHeader) override; NS_IMETHOD RedirectTo(nsIURI *newURI) override; NS_IMETHOD GetProtocolVersion(nsACString& aProtocolVersion) override; // nsIHttpChannelInternal NS_IMETHOD SetupFallbackChannel(const char *aFallbackKey) override; NS_IMETHOD ForceIntercepted(uint64_t aInterceptionID) override; // nsISupportsPriority NS_IMETHOD SetPriority(int32_t value) override; // nsIClassOfService NS_IMETHOD SetClassFlags(uint32_t inFlags) override; NS_IMETHOD AddClassFlags(uint32_t inFlags) override; NS_IMETHOD ClearClassFlags(uint32_t inFlags) override; // nsIResumableChannel NS_IMETHOD ResumeAt(uint64_t startPos, const nsACString& entityID) override; // IPDL holds a reference while the PHttpChannel protocol is live (starting at // AsyncOpen, and ending at either OnStopRequest or any IPDL error, either of // which call NeckoChild::DeallocPHttpChannelChild()). void AddIPDLReference(); void ReleaseIPDLReference(); bool IsSuspended(); void FlushedForDiversion(); protected: bool RecvOnStartRequest(const nsresult& channelStatus, const nsHttpResponseHead& responseHead, const bool& useResponseHead, const nsHttpHeaderArray& requestHeaders, const bool& isFromCache, const bool& cacheEntryAvailable, const uint32_t& cacheExpirationTime, const nsCString& cachedCharset, const nsCString& securityInfoSerialization, const NetAddr& selfAddr, const NetAddr& peerAddr, const int16_t& redirectCount, const uint32_t& cacheKey, const nsCString& altDataType) override; bool RecvOnTransportAndData(const nsresult& channelStatus, const nsresult& status, const uint64_t& progress, const uint64_t& progressMax, const uint64_t& offset, const uint32_t& count, const nsCString& data) override; bool RecvOnStopRequest(const nsresult& statusCode, const ResourceTimingStruct& timing) override; bool RecvOnProgress(const int64_t& progress, const int64_t& progressMax) override; bool RecvOnStatus(const nsresult& status) override; bool RecvFailedAsyncOpen(const nsresult& status) override; bool RecvRedirect1Begin(const uint32_t& registrarId, const URIParams& newURI, const uint32_t& redirectFlags, const nsHttpResponseHead& responseHead, const nsCString& securityInfoSerialization, const nsCString& channelId) override; bool RecvRedirect3Complete() override; bool RecvAssociateApplicationCache(const nsCString& groupID, const nsCString& clientID) override; bool RecvFlushedForDiversion() override; bool RecvDivertMessages() override; bool RecvDeleteSelf() override; bool RecvFinishInterceptedRedirect() override; bool RecvReportSecurityMessage(const nsString& messageTag, const nsString& messageCategory) override; bool RecvIssueDeprecationWarning(const uint32_t& warning, const bool& asError) override; bool GetAssociatedContentSecurity(nsIAssociatedContentSecurity** res = nullptr); virtual void DoNotifyListenerCleanup() override; NS_IMETHOD GetResponseSynthesized(bool* aSynthesized) override; private: class OverrideRunnable : public Runnable { public: OverrideRunnable(HttpChannelChild* aChannel, HttpChannelChild* aNewChannel, InterceptStreamListener* aListener, nsIInputStream* aInput, nsAutoPtr& aHead); NS_IMETHOD Run() override; void OverrideWithSynthesizedResponse(); private: RefPtr mChannel; RefPtr mNewChannel; RefPtr mListener; nsCOMPtr mInput; nsAutoPtr mHead; }; nsresult ContinueAsyncOpen(); void DoOnStartRequest(nsIRequest* aRequest, nsISupports* aContext); void DoOnStatus(nsIRequest* aRequest, nsresult status); void DoOnProgress(nsIRequest* aRequest, int64_t progress, int64_t progressMax); void DoOnDataAvailable(nsIRequest* aRequest, nsISupports* aContext, nsIInputStream* aStream, uint64_t offset, uint32_t count); void DoPreOnStopRequest(nsresult aStatus); void DoOnStopRequest(nsIRequest* aRequest, nsresult aChannelStatus, nsISupports* aContext); bool ShouldInterceptURI(nsIURI* aURI, bool& aShouldUpgrade); // Discard the prior interception and continue with the original network request. void ResetInterception(); // Override this channel's pending response with a synthesized one. The content will be // asynchronously read from the pump. void OverrideWithSynthesizedResponse(nsAutoPtr& aResponseHead, nsIInputStream* aSynthesizedInput, InterceptStreamListener* aStreamListener); void ForceIntercepted(nsIInputStream* aSynthesizedInput); RequestHeaderTuples mClientSetRequestHeaders; nsCOMPtr mRedirectChannelChild; RefPtr mInterceptListener; RefPtr mSynthesizedResponsePump; nsCOMPtr mSynthesizedInput; int64_t mSynthesizedStreamLength; bool mIsFromCache; bool mCacheEntryAvailable; uint32_t mCacheExpirationTime; nsCString mCachedCharset; nsCOMPtr mCacheKey; nsCString mProtocolVersion; // If ResumeAt is called before AsyncOpen, we need to send extra data upstream bool mSendResumeAt; bool mIPCOpen; bool mKeptAlive; // IPC kept open, but only for security info RefPtr mEventQ; // If nsUnknownDecoder is involved OnStartRequest call will be delayed and // this queue keeps OnDataAvailable data until OnStartRequest is finally // called. nsTArray> mUnknownDecoderEventQ; bool mUnknownDecoderInvolved; // Once set, OnData and possibly OnStop will be diverted to the parent. bool mDivertingToParent; // Once set, no OnStart/OnData/OnStop callbacks should be received from the // parent channel, nor dequeued from the ChannelEventQueue. bool mFlushedForDiversion; // Set if SendSuspend is called. Determines if SendResume is needed when // diverting callbacks to parent. bool mSuspendSent; // Set if a response was synthesized, indicating that any forthcoming redirects // should be intercepted. bool mSynthesizedResponse; // Set if a synthesized response should cause us to explictly allows intercepting // an expected forthcoming redirect. bool mShouldInterceptSubsequentRedirect; // Set if a redirection is being initiated to facilitate providing a synthesized // response to a channel using a different principal than the current one. bool mRedirectingForSubsequentSynthesizedResponse; // Set if a manual redirect mode channel needs to be intercepted in the // parent. bool mPostRedirectChannelShouldIntercept; // Set if a manual redirect mode channel needs to be upgraded to a secure URI // when it's being considered for interception. Can only be true if // mPostRedirectChannelShouldIntercept is true. bool mPostRedirectChannelShouldUpgrade; // Set if the corresponding parent channel should force an interception to occur // before the network transaction is initiated. bool mShouldParentIntercept; // Set if the corresponding parent channel should suspend after a response // is synthesized. bool mSuspendParentAfterSynthesizeResponse; // Needed to call AsyncOpen in FinishInterceptedRedirect nsCOMPtr mInterceptedRedirectListener; nsCOMPtr mInterceptedRedirectContext; // Needed to call CleanupRedirectingChannel in FinishInterceptedRedirect RefPtr mInterceptingChannel; // Used to call OverrideWithSynthesizedResponse in FinishInterceptedRedirect RefPtr mOverrideRunnable; void FinishInterceptedRedirect(); void CleanupRedirectingChannel(nsresult rv); // true after successful AsyncOpen until OnStopRequest completes. bool RemoteChannelExists() { return mIPCOpen && !mKeptAlive; } void AssociateApplicationCache(const nsCString &groupID, const nsCString &clientID); void OnStartRequest(const nsresult& channelStatus, const nsHttpResponseHead& responseHead, const bool& useResponseHead, const nsHttpHeaderArray& requestHeaders, const bool& isFromCache, const bool& cacheEntryAvailable, const uint32_t& cacheExpirationTime, const nsCString& cachedCharset, const nsCString& securityInfoSerialization, const NetAddr& selfAddr, const NetAddr& peerAddr, const uint32_t& cacheKey, const nsCString& altDataType); void MaybeDivertOnData(const nsCString& data, const uint64_t& offset, const uint32_t& count); void OnTransportAndData(const nsresult& channelStatus, const nsresult& status, const uint64_t progress, const uint64_t& progressMax, const uint64_t& offset, const uint32_t& count, const nsCString& data); void OnStopRequest(const nsresult& channelStatus, const ResourceTimingStruct& timing); void MaybeDivertOnStop(const nsresult& aChannelStatus); void OnProgress(const int64_t& progress, const int64_t& progressMax); void OnStatus(const nsresult& status); void FailedAsyncOpen(const nsresult& status); void HandleAsyncAbort(); void Redirect1Begin(const uint32_t& registrarId, const URIParams& newUri, const uint32_t& redirectFlags, const nsHttpResponseHead& responseHead, const nsACString& securityInfoSerialization, const nsACString& channelId); bool Redirect3Complete(OverrideRunnable* aRunnable); void DeleteSelf(); // Create a a new channel to be used in a redirection, based on the provided // response headers. nsresult SetupRedirect(nsIURI* uri, const nsHttpResponseHead* responseHead, const uint32_t& redirectFlags, nsIChannel** outChannel); // Perform a redirection without communicating with the parent process at all. void BeginNonIPCRedirect(nsIURI* responseURI, const nsHttpResponseHead* responseHead); // Override the default security info pointer during a non-IPC redirection. void OverrideSecurityInfoForNonIPCRedirect(nsISupports* securityInfo); friend class AssociateApplicationCacheEvent; friend class StartRequestEvent; friend class StopRequestEvent; friend class TransportAndDataEvent; friend class MaybeDivertOnDataHttpEvent; friend class MaybeDivertOnStopHttpEvent; friend class ProgressEvent; friend class StatusEvent; friend class FailedAsyncOpenEvent; friend class Redirect1Event; friend class Redirect3Event; friend class DeleteSelfEvent; friend class HttpAsyncAborter; friend class InterceptStreamListener; friend class InterceptedChannelContent; }; // A stream listener interposed between the nsInputStreamPump used for intercepted channels // and this channel's original listener. This is only used to ensure the original listener // sees the channel as the request object, and to synthesize OnStatus and OnProgress notifications. class InterceptStreamListener : public nsIStreamListener , public nsIProgressEventSink { RefPtr mOwner; nsCOMPtr mContext; virtual ~InterceptStreamListener() {} public: InterceptStreamListener(HttpChannelChild* aOwner, nsISupports* aContext) : mOwner(aOwner) , mContext(aContext) { } NS_DECL_ISUPPORTS NS_DECL_NSIREQUESTOBSERVER NS_DECL_NSISTREAMLISTENER NS_DECL_NSIPROGRESSEVENTSINK void Cleanup(); }; //----------------------------------------------------------------------------- // inline functions //----------------------------------------------------------------------------- inline bool HttpChannelChild::IsSuspended() { return mSuspendCount != 0; } } // namespace net } // namespace mozilla #endif // mozilla_net_HttpChannelChild_h