/* 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 nsSocketTransport2_h__ #define nsSocketTransport2_h__ #ifdef DEBUG_darinf #define ENABLE_SOCKET_TRACING #endif #include "mozilla/Mutex.h" #include "nsSocketTransportService2.h" #include "nsString.h" #include "nsCOMPtr.h" #include "nsIInterfaceRequestor.h" #include "nsISocketTransport.h" #include "nsIAsyncInputStream.h" #include "nsIAsyncOutputStream.h" #include "nsIDNSListener.h" #include "nsIClassInfo.h" #include "mozilla/net/DNS.h" #include "nsASocketHandler.h" #include "prerror.h" #include "nsAutoPtr.h" class nsSocketTransport; class nsICancelable; class nsIDNSRecord; class nsIInterfaceRequestor; nsresult ErrorAccordingToNSPR(PRErrorCode errorCode); //----------------------------------------------------------------------------- // after this short interval, we will return to PR_Poll #define NS_SOCKET_CONNECT_TIMEOUT PR_MillisecondsToInterval(20) //----------------------------------------------------------------------------- class nsSocketInputStream : public nsIAsyncInputStream { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIINPUTSTREAM NS_DECL_NSIASYNCINPUTSTREAM explicit nsSocketInputStream(nsSocketTransport *); virtual ~nsSocketInputStream(); bool IsReferenced() { return mReaderRefCnt > 0; } nsresult Condition() { return mCondition; } uint64_t ByteCount() { return mByteCount; } // called by the socket transport on the socket thread... void OnSocketReady(nsresult condition); private: nsSocketTransport *mTransport; mozilla::ThreadSafeAutoRefCnt mReaderRefCnt; // access to these is protected by mTransport->mLock nsresult mCondition; nsCOMPtr mCallback; uint32_t mCallbackFlags; uint64_t mByteCount; }; //----------------------------------------------------------------------------- class nsSocketOutputStream : public nsIAsyncOutputStream { public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIOUTPUTSTREAM NS_DECL_NSIASYNCOUTPUTSTREAM explicit nsSocketOutputStream(nsSocketTransport *); virtual ~nsSocketOutputStream(); bool IsReferenced() { return mWriterRefCnt > 0; } nsresult Condition() { return mCondition; } uint64_t ByteCount() { return mByteCount; } // called by the socket transport on the socket thread... void OnSocketReady(nsresult condition); private: static NS_METHOD WriteFromSegments(nsIInputStream *, void *, const char *, uint32_t offset, uint32_t count, uint32_t *countRead); nsSocketTransport *mTransport; mozilla::ThreadSafeAutoRefCnt mWriterRefCnt; // access to these is protected by mTransport->mLock nsresult mCondition; nsCOMPtr mCallback; uint32_t mCallbackFlags; uint64_t mByteCount; }; //----------------------------------------------------------------------------- class nsSocketTransport MOZ_FINAL : public nsASocketHandler , public nsISocketTransport , public nsIDNSListener , public nsIClassInfo , public nsIInterfaceRequestor { typedef mozilla::Mutex Mutex; public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSITRANSPORT NS_DECL_NSISOCKETTRANSPORT NS_DECL_NSIDNSLISTENER NS_DECL_NSICLASSINFO NS_DECL_NSIINTERFACEREQUESTOR nsSocketTransport(); // this method instructs the socket transport to open a socket of the // given type(s) to the given host or proxy. nsresult Init(const char **socketTypes, uint32_t typeCount, const nsACString &host, uint16_t port, nsIProxyInfo *proxyInfo); // this method instructs the socket transport to use an already connected // socket with the given address. nsresult InitWithConnectedSocket(PRFileDesc *socketFD, const mozilla::net::NetAddr *addr); // this method instructs the socket transport to use an already connected // socket with the given address, and additionally supplies security info. nsresult InitWithConnectedSocket(PRFileDesc* aSocketFD, const mozilla::net::NetAddr* aAddr, nsISupports* aSecInfo); // This method instructs the socket transport to open a socket // connected to the given Unix domain address. We can only create // unlayered, simple, stream sockets. nsresult InitWithFilename(const char *filename); // nsASocketHandler methods: void OnSocketReady(PRFileDesc *, int16_t outFlags) MOZ_OVERRIDE; void OnSocketDetached(PRFileDesc *) MOZ_OVERRIDE; void IsLocal(bool *aIsLocal) MOZ_OVERRIDE; void OnKeepaliveEnabledPrefChange(bool aEnabled) MOZ_OVERRIDE MOZ_FINAL; // called when a socket event is handled void OnSocketEvent(uint32_t type, nsresult status, nsISupports *param); uint64_t ByteCountReceived() MOZ_OVERRIDE { return mInput.ByteCount(); } uint64_t ByteCountSent() MOZ_OVERRIDE { return mOutput.ByteCount(); } protected: virtual ~nsSocketTransport(); void CleanupTypes(); private: // event types enum { MSG_ENSURE_CONNECT, MSG_DNS_LOOKUP_COMPLETE, MSG_RETRY_INIT_SOCKET, MSG_TIMEOUT_CHANGED, MSG_INPUT_CLOSED, MSG_INPUT_PENDING, MSG_OUTPUT_CLOSED, MSG_OUTPUT_PENDING }; nsresult PostEvent(uint32_t type, nsresult status = NS_OK, nsISupports *param = nullptr); enum { STATE_CLOSED, STATE_IDLE, STATE_RESOLVING, STATE_CONNECTING, STATE_TRANSFERRING }; // Safer way to get and automatically release PRFileDesc objects. class MOZ_STACK_CLASS PRFileDescAutoLock { public: typedef mozilla::MutexAutoLock MutexAutoLock; explicit PRFileDescAutoLock(nsSocketTransport *aSocketTransport, nsresult *aConditionWhileLocked = nullptr) : mSocketTransport(aSocketTransport) , mFd(nullptr) { MOZ_ASSERT(aSocketTransport); MutexAutoLock lock(mSocketTransport->mLock); if (aConditionWhileLocked) { *aConditionWhileLocked = mSocketTransport->mCondition; if (NS_FAILED(mSocketTransport->mCondition)) { return; } } mFd = mSocketTransport->GetFD_Locked(); } ~PRFileDescAutoLock() { MutexAutoLock lock(mSocketTransport->mLock); if (mFd) { mSocketTransport->ReleaseFD_Locked(mFd); } } bool IsInitialized() { return mFd; } operator PRFileDesc*() { return mFd; } nsresult SetKeepaliveEnabled(bool aEnable); nsresult SetKeepaliveVals(bool aEnabled, int aIdleTime, int aRetryInterval, int aProbeCount); private: operator PRFileDescAutoLock*() { return nullptr; } // Weak ptr to nsSocketTransport since this is a stack class only. nsSocketTransport *mSocketTransport; PRFileDesc *mFd; }; friend class PRFileDescAutoLock; class LockedPRFileDesc { public: explicit LockedPRFileDesc(nsSocketTransport *aSocketTransport) : mSocketTransport(aSocketTransport) , mFd(nullptr) { MOZ_ASSERT(aSocketTransport); } ~LockedPRFileDesc() {} bool IsInitialized() { return mFd; } LockedPRFileDesc& operator=(PRFileDesc *aFd) { mSocketTransport->mLock.AssertCurrentThreadOwns(); mFd = aFd; return *this; } operator PRFileDesc*() { if (mSocketTransport->mAttached) { mSocketTransport->mLock.AssertCurrentThreadOwns(); } return mFd; } bool operator==(PRFileDesc *aFd) { mSocketTransport->mLock.AssertCurrentThreadOwns(); return mFd == aFd; } private: operator LockedPRFileDesc*() { return nullptr; } // Weak ptr to nsSocketTransport since it owns this class. nsSocketTransport *mSocketTransport; PRFileDesc *mFd; }; friend class LockedPRFileDesc; //------------------------------------------------------------------------- // these members are "set" at initialization time and are never modified // afterwards. this allows them to be safely accessed from any thread. //------------------------------------------------------------------------- // socket type info: char **mTypes; uint32_t mTypeCount; nsCString mHost; nsCString mProxyHost; uint16_t mPort; uint16_t mProxyPort; bool mProxyTransparent; bool mProxyTransparentResolvesHost; bool mHttpsProxy; uint32_t mConnectionFlags; uint16_t SocketPort() { return (!mProxyHost.IsEmpty() && !mProxyTransparent) ? mProxyPort : mPort; } const nsCString &SocketHost() { return (!mProxyHost.IsEmpty() && !mProxyTransparent) ? mProxyHost : mHost; } //------------------------------------------------------------------------- // members accessible only on the socket transport thread: // (the exception being initialization/shutdown time) //------------------------------------------------------------------------- // socket state vars: uint32_t mState; // STATE_??? flags bool mAttached; bool mInputClosed; bool mOutputClosed; // this flag is used to determine if the results of a host lookup arrive // recursively or not. this flag is not protected by any lock. bool mResolving; nsCOMPtr mDNSRequest; nsCOMPtr mDNSRecord; // mNetAddr is valid from GetPeerAddr() once we have // reached STATE_TRANSFERRING. It must not change after that. mozilla::net::NetAddr mNetAddr; bool mNetAddrIsSet; nsAutoPtr mBindAddr; // socket methods (these can only be called on the socket thread): void SendStatus(nsresult status); nsresult ResolveHost(); nsresult BuildSocket(PRFileDesc *&, bool &, bool &); nsresult InitiateSocket(); bool RecoverFromError(); void OnMsgInputPending() { if (mState == STATE_TRANSFERRING) mPollFlags |= (PR_POLL_READ | PR_POLL_EXCEPT); } void OnMsgOutputPending() { if (mState == STATE_TRANSFERRING) mPollFlags |= (PR_POLL_WRITE | PR_POLL_EXCEPT); } void OnMsgInputClosed(nsresult reason); void OnMsgOutputClosed(nsresult reason); // called when the socket is connected void OnSocketConnected(); //------------------------------------------------------------------------- // socket input/output objects. these may be accessed on any thread with // the exception of some specific methods (XXX). Mutex mLock; // protects members in this section. LockedPRFileDesc mFD; nsrefcnt mFDref; // mFD is closed when mFDref goes to zero. bool mFDconnected; // mFD is available to consumer when TRUE. // A delete protector reference to gSocketTransportService held for lifetime // of 'this'. Sometimes used interchangably with gSocketTransportService due // to scoping. nsRefPtr mSocketTransportService; nsCOMPtr mCallbacks; nsCOMPtr mEventSink; nsCOMPtr mSecInfo; nsSocketInputStream mInput; nsSocketOutputStream mOutput; friend class nsSocketInputStream; friend class nsSocketOutputStream; // socket timeouts are not protected by any lock. uint16_t mTimeouts[2]; // QoS setting for socket uint8_t mQoSBits; // // mFD access methods: called with mLock held. // PRFileDesc *GetFD_Locked(); void ReleaseFD_Locked(PRFileDesc *fd); // // stream state changes (called outside mLock): // void OnInputClosed(nsresult reason) { // no need to post an event if called on the socket thread if (PR_GetCurrentThread() == gSocketThread) OnMsgInputClosed(reason); else PostEvent(MSG_INPUT_CLOSED, reason); } void OnInputPending() { // no need to post an event if called on the socket thread if (PR_GetCurrentThread() == gSocketThread) OnMsgInputPending(); else PostEvent(MSG_INPUT_PENDING); } void OnOutputClosed(nsresult reason) { // no need to post an event if called on the socket thread if (PR_GetCurrentThread() == gSocketThread) OnMsgOutputClosed(reason); // XXX need to not be inside lock! else PostEvent(MSG_OUTPUT_CLOSED, reason); } void OnOutputPending() { // no need to post an event if called on the socket thread if (PR_GetCurrentThread() == gSocketThread) OnMsgOutputPending(); else PostEvent(MSG_OUTPUT_PENDING); } #ifdef ENABLE_SOCKET_TRACING void TraceInBuf(const char *buf, int32_t n); void TraceOutBuf(const char *buf, int32_t n); #endif // Reads prefs to get default keepalive config. nsresult EnsureKeepaliveValsAreInitialized(); // Groups calls to fd.SetKeepaliveEnabled and fd.SetKeepaliveVals. nsresult SetKeepaliveEnabledInternal(bool aEnable); // True if keepalive has been enabled by the socket owner. Note: Keepalive // must also be enabled globally for it to be enabled in TCP. bool mKeepaliveEnabled; // Keepalive config (support varies by platform). int32_t mKeepaliveIdleTimeS; int32_t mKeepaliveRetryIntervalS; int32_t mKeepaliveProbeCount; }; #endif // !nsSocketTransport_h__