/* -*- 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/. */ #ifndef mozilla_net_HttpBaseChannel_h #define mozilla_net_HttpBaseChannel_h #include "nsHttp.h" #include "nsAutoPtr.h" #include "nsHashPropertyBag.h" #include "nsProxyInfo.h" #include "nsHttpRequestHead.h" #include "nsHttpResponseHead.h" #include "nsHttpConnectionInfo.h" #include "nsIEncodedChannel.h" #include "nsIHttpChannel.h" #include "nsIHttpChannelInternal.h" #include "nsIUploadChannel.h" #include "nsIUploadChannel2.h" #include "nsIProgressEventSink.h" #include "nsIURI.h" #include "nsIStringEnumerator.h" #include "nsISupportsPriority.h" #include "nsIApplicationCache.h" #include "nsIResumableChannel.h" #include "nsITraceableChannel.h" #include "nsILoadContext.h" #include "mozilla/net/NeckoCommon.h" #include "nsThreadUtils.h" namespace mozilla { namespace net { /* * This class is a partial implementation of nsIHttpChannel. It contains code * shared by nsHttpChannel and HttpChannelChild. * - Note that this class has nothing to do with nsBaseChannel, which is an * earlier effort at a base class for channels that somehow never made it all * the way to the HTTP channel. */ class HttpBaseChannel : public nsHashPropertyBag , public nsIEncodedChannel , public nsIHttpChannel , public nsIHttpChannelInternal , public nsIUploadChannel , public nsIUploadChannel2 , public nsISupportsPriority , public nsIResumableChannel , public nsITraceableChannel { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIUPLOADCHANNEL NS_DECL_NSIUPLOADCHANNEL2 NS_DECL_NSITRACEABLECHANNEL HttpBaseChannel(); virtual ~HttpBaseChannel(); virtual nsresult Init(nsIURI *aURI, PRUint8 aCaps, nsProxyInfo *aProxyInfo); // nsIRequest NS_IMETHOD GetName(nsACString& aName); NS_IMETHOD IsPending(bool *aIsPending); NS_IMETHOD GetStatus(nsresult *aStatus); NS_IMETHOD GetLoadGroup(nsILoadGroup **aLoadGroup); NS_IMETHOD SetLoadGroup(nsILoadGroup *aLoadGroup); NS_IMETHOD GetLoadFlags(nsLoadFlags *aLoadFlags); NS_IMETHOD SetLoadFlags(nsLoadFlags aLoadFlags); // nsIChannel NS_IMETHOD GetOriginalURI(nsIURI **aOriginalURI); NS_IMETHOD SetOriginalURI(nsIURI *aOriginalURI); NS_IMETHOD GetURI(nsIURI **aURI); NS_IMETHOD GetOwner(nsISupports **aOwner); NS_IMETHOD SetOwner(nsISupports *aOwner); NS_IMETHOD GetNotificationCallbacks(nsIInterfaceRequestor **aCallbacks); NS_IMETHOD SetNotificationCallbacks(nsIInterfaceRequestor *aCallbacks); NS_IMETHOD GetContentType(nsACString& aContentType); NS_IMETHOD SetContentType(const nsACString& aContentType); NS_IMETHOD GetContentCharset(nsACString& aContentCharset); NS_IMETHOD SetContentCharset(const nsACString& aContentCharset); NS_IMETHOD GetContentDisposition(PRUint32 *aContentDisposition); NS_IMETHOD GetContentDispositionFilename(nsAString& aContentDispositionFilename); NS_IMETHOD GetContentDispositionHeader(nsACString& aContentDispositionHeader); NS_IMETHOD GetContentLength(PRInt32 *aContentLength); NS_IMETHOD SetContentLength(PRInt32 aContentLength); NS_IMETHOD Open(nsIInputStream **aResult); // nsIEncodedChannel NS_IMETHOD GetApplyConversion(bool *value); NS_IMETHOD SetApplyConversion(bool value); NS_IMETHOD GetContentEncodings(nsIUTF8StringEnumerator** aEncodings); // HttpBaseChannel::nsIHttpChannel NS_IMETHOD GetRequestMethod(nsACString& aMethod); NS_IMETHOD SetRequestMethod(const nsACString& aMethod); NS_IMETHOD GetReferrer(nsIURI **referrer); NS_IMETHOD SetReferrer(nsIURI *referrer); NS_IMETHOD GetRequestHeader(const nsACString& aHeader, nsACString& aValue); NS_IMETHOD SetRequestHeader(const nsACString& aHeader, const nsACString& aValue, bool aMerge); NS_IMETHOD VisitRequestHeaders(nsIHttpHeaderVisitor *visitor); NS_IMETHOD GetResponseHeader(const nsACString &header, nsACString &value); NS_IMETHOD SetResponseHeader(const nsACString& header, const nsACString& value, bool merge); NS_IMETHOD VisitResponseHeaders(nsIHttpHeaderVisitor *visitor); NS_IMETHOD GetAllowPipelining(bool *value); NS_IMETHOD SetAllowPipelining(bool value); NS_IMETHOD GetRedirectionLimit(PRUint32 *value); NS_IMETHOD SetRedirectionLimit(PRUint32 value); NS_IMETHOD IsNoStoreResponse(bool *value); NS_IMETHOD IsNoCacheResponse(bool *value); NS_IMETHOD GetResponseStatus(PRUint32 *aValue); NS_IMETHOD GetResponseStatusText(nsACString& aValue); NS_IMETHOD GetRequestSucceeded(bool *aValue); // nsIHttpChannelInternal NS_IMETHOD GetDocumentURI(nsIURI **aDocumentURI); NS_IMETHOD SetDocumentURI(nsIURI *aDocumentURI); NS_IMETHOD GetRequestVersion(PRUint32 *major, PRUint32 *minor); NS_IMETHOD GetResponseVersion(PRUint32 *major, PRUint32 *minor); NS_IMETHOD SetCookie(const char *aCookieHeader); NS_IMETHOD GetForceAllowThirdPartyCookie(bool *aForce); NS_IMETHOD SetForceAllowThirdPartyCookie(bool aForce); NS_IMETHOD GetCanceled(bool *aCanceled); NS_IMETHOD GetChannelIsForDownload(bool *aChannelIsForDownload); NS_IMETHOD SetChannelIsForDownload(bool aChannelIsForDownload); NS_IMETHOD SetCacheKeysRedirectChain(nsTArray *cacheKeys); NS_IMETHOD GetLocalAddress(nsACString& addr); NS_IMETHOD GetLocalPort(PRInt32* port); NS_IMETHOD GetRemoteAddress(nsACString& addr); NS_IMETHOD GetRemotePort(PRInt32* port); NS_IMETHOD GetAllowSpdy(bool *aAllowSpdy); NS_IMETHOD SetAllowSpdy(bool aAllowSpdy); inline void CleanRedirectCacheChainIfNecessary() { mRedirectedCachekeys = nullptr; } NS_IMETHOD HTTPUpgrade(const nsACString & aProtocolName, nsIHttpUpgradeListener *aListener); // nsISupportsPriority NS_IMETHOD GetPriority(PRInt32 *value); NS_IMETHOD AdjustPriority(PRInt32 delta); // nsIResumableChannel NS_IMETHOD GetEntityID(nsACString& aEntityID); class nsContentEncodings : public nsIUTF8StringEnumerator { public: NS_DECL_ISUPPORTS NS_DECL_NSIUTF8STRINGENUMERATOR nsContentEncodings(nsIHttpChannel* aChannel, const char* aEncodingHeader); virtual ~nsContentEncodings(); private: nsresult PrepareForNext(void); // We do not own the buffer. The channel owns it. const char* mEncodingHeader; const char* mCurStart; // points to start of current header const char* mCurEnd; // points to end of current header // Hold a ref to our channel so that it can't go away and take the // header with it. nsCOMPtr mChannel; bool mReady; }; nsHttpResponseHead * GetResponseHead() const { return mResponseHead; } nsHttpRequestHead * GetRequestHead() { return &mRequestHead; } const PRNetAddr& GetSelfAddr() { return mSelfAddr; } const PRNetAddr& GetPeerAddr() { return mPeerAddr; } public: /* Necko internal use only... */ bool ShouldRewriteRedirectToGET(PRUint32 httpStatus, nsHttpAtom method); bool IsSafeMethod(nsHttpAtom method); protected: // Handle notifying listener, removing from loadgroup if request failed. void DoNotifyListener(); virtual void DoNotifyListenerCleanup() = 0; nsresult ApplyContentConversions(); void AddCookiesToRequest(); virtual nsresult SetupReplacementChannel(nsIURI *, nsIChannel *, bool preserveMethod); // Helper function to simplify getting notification callbacks. template void GetCallback(nsCOMPtr &aResult) { NS_QueryNotificationCallbacks(mCallbacks, mLoadGroup, NS_GET_TEMPLATE_IID(T), getter_AddRefs(aResult)); } nsCOMPtr mURI; nsCOMPtr mOriginalURI; nsCOMPtr mDocumentURI; nsCOMPtr mListener; nsCOMPtr mListenerContext; nsCOMPtr mLoadGroup; nsCOMPtr mOwner; nsCOMPtr mCallbacks; nsCOMPtr mProgressSink; nsCOMPtr mReferrer; nsCOMPtr mApplicationCache; nsHttpRequestHead mRequestHead; nsCOMPtr mUploadStream; nsAutoPtr mResponseHead; nsRefPtr mConnectionInfo; nsCString mSpec; // ASCII encoded URL spec nsCString mContentTypeHint; nsCString mContentCharsetHint; nsCString mUserSetCookieHeader; PRNetAddr mSelfAddr; PRNetAddr mPeerAddr; // HTTP Upgrade Data nsCString mUpgradeProtocol; nsCOMPtr mUpgradeProtocolCallback; // Resumable channel specific data nsCString mEntityID; PRUint64 mStartPos; nsresult mStatus; PRUint32 mLoadFlags; PRInt16 mPriority; PRUint8 mCaps; PRUint8 mRedirectionLimit; PRUint32 mApplyConversion : 1; PRUint32 mCanceled : 1; PRUint32 mIsPending : 1; PRUint32 mWasOpened : 1; PRUint32 mResponseHeadersModified : 1; PRUint32 mAllowPipelining : 1; PRUint32 mForceAllowThirdPartyCookie : 1; PRUint32 mUploadStreamHasHeaders : 1; PRUint32 mInheritApplicationCache : 1; PRUint32 mChooseApplicationCache : 1; PRUint32 mLoadedFromApplicationCache : 1; PRUint32 mChannelIsForDownload : 1; PRUint32 mTracingEnabled : 1; // True if timing collection is enabled PRUint32 mTimingEnabled : 1; PRUint32 mAllowSpdy : 1; PRUint32 mPrivateBrowsing : 1; // Current suspension depth for this channel object PRUint32 mSuspendCount; nsAutoPtr > mRedirectedCachekeys; }; // Share some code while working around C++'s absurd inability to handle casting // of member functions between base/derived types. // - We want to store member function pointer to call at resume time, but one // such function--HandleAsyncAbort--we want to share between the // nsHttpChannel/HttpChannelChild. Can't define it in base class, because // then we'd have to cast member function ptr between base/derived class // types. Sigh... template class HttpAsyncAborter { public: HttpAsyncAborter(T *derived) : mThis(derived), mCallOnResume(0) {} // Aborts channel: calls OnStart/Stop with provided status, removes channel // from loadGroup. nsresult AsyncAbort(nsresult status); // Does most the actual work. void HandleAsyncAbort(); // AsyncCall calls a member function asynchronously (via an event). // retval isn't refcounted and is set only when event was successfully // posted, the event is returned for the purpose of cancelling when needed nsresult AsyncCall(void (T::*funcPtr)(), nsRunnableMethod **retval = nullptr); private: T *mThis; protected: // Function to be called at resume time void (T::* mCallOnResume)(void); }; template nsresult HttpAsyncAborter::AsyncAbort(nsresult status) { LOG(("HttpAsyncAborter::AsyncAbort [this=%p status=%x]\n", mThis, status)); mThis->mStatus = status; mThis->mIsPending = false; // if this fails? Callers ignore our return value anyway.... return AsyncCall(&T::HandleAsyncAbort); } // Each subclass needs to define its own version of this (which just calls this // base version), else we wind up casting base/derived member function ptrs template inline void HttpAsyncAborter::HandleAsyncAbort() { NS_PRECONDITION(!mCallOnResume, "How did that happen?"); if (mThis->mSuspendCount) { LOG(("Waiting until resume to do async notification [this=%p]\n", mThis)); mCallOnResume = &T::HandleAsyncAbort; return; } mThis->DoNotifyListener(); // finally remove ourselves from the load group. if (mThis->mLoadGroup) mThis->mLoadGroup->RemoveRequest(mThis, nullptr, mThis->mStatus); } template nsresult HttpAsyncAborter::AsyncCall(void (T::*funcPtr)(), nsRunnableMethod **retval) { nsresult rv; nsRefPtr > event = NS_NewRunnableMethod(mThis, funcPtr); rv = NS_DispatchToCurrentThread(event); if (NS_SUCCEEDED(rv) && retval) { *retval = event; } return rv; } } // namespace net } // namespace mozilla #endif // mozilla_net_HttpBaseChannel_h