/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 et sw=2 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 NETWERK_SCTP_DATACHANNEL_DATACHANNEL_H_ #define NETWERK_SCTP_DATACHANNEL_DATACHANNEL_H_ #ifdef MOZ_WEBRTC_SIGNALING #define SCTP_DTLS_SUPPORTED 1 #endif #include #include #include "nsISupports.h" #include "nsCOMPtr.h" #include "mozilla/WeakPtr.h" #include "nsString.h" #include "nsThreadUtils.h" #include "nsTArray.h" #include "nsDeque.h" #include "nsIInputStream.h" #include "nsITimer.h" #include "mozilla/Mutex.h" #include "DataChannelProtocol.h" #include "DataChannelListener.h" #ifdef SCTP_DTLS_SUPPORTED #include "mtransport/sigslot.h" #include "mtransport/transportflow.h" #include "mtransport/transportlayer.h" #include "mtransport/transportlayerdtls.h" #include "mtransport/transportlayerprsock.h" #endif #ifndef DATACHANNEL_LOG #define DATACHANNEL_LOG(args) #endif #ifndef EALREADY #define EALREADY WSAEALREADY #endif extern "C" { struct socket; struct sctp_rcvinfo; } namespace mozilla { class DTLSConnection; class DataChannelConnection; class DataChannel; class DataChannelOnMessageAvailable; // For queuing outgoing messages class BufferedMsg { public: BufferedMsg(struct sctp_sendv_spa &spa,const char *data, uint32_t length); ~BufferedMsg(); struct sctp_sendv_spa *mSpa; const char *mData; uint32_t mLength; }; // for queuing incoming data messages before the Open or // external negotiation is indicated to us class QueuedDataMessage { public: QueuedDataMessage(uint16_t stream, uint32_t ppid, const void *data, size_t length) : mStream(stream) , mPpid(ppid) , mLength(length) { mData = static_cast(moz_xmalloc(length)); // infallible memcpy(mData, data, length); } ~QueuedDataMessage() { moz_free(mData); } uint16_t mStream; uint32_t mPpid; size_t mLength; char *mData; }; // One per PeerConnection class DataChannelConnection: public nsITimerCallback #ifdef SCTP_DTLS_SUPPORTED , public sigslot::has_slots<> #endif { public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSITIMERCALLBACK class DataConnectionListener : public SupportsWeakPtr { public: MOZ_DECLARE_REFCOUNTED_TYPENAME(DataChannelConnection::DataConnectionListener) virtual ~DataConnectionListener() {} // Called when a the connection is open virtual void NotifyConnection() = 0; // Called when a the connection is lost/closed virtual void NotifyClosedConnection() = 0; // Called when a new DataChannel has been opened by the other side. virtual void NotifyDataChannel(already_AddRefed channel) = 0; }; DataChannelConnection(DataConnectionListener *listener); virtual ~DataChannelConnection(); bool Init(unsigned short aPort, uint16_t aNumStreams, bool aUsingDtls); void Destroy(); // So we can spawn refs tied to runnables in shutdown #ifdef ALLOW_DIRECT_SCTP_LISTEN_CONNECT // These block; they require something to decide on listener/connector // (though you can do simultaneous Connect()). Do not call these from // the main thread! bool Listen(unsigned short port); bool Connect(const char *addr, unsigned short port); #endif #ifdef SCTP_DTLS_SUPPORTED // Connect using a TransportFlow (DTLS) channel void SetEvenOdd(); bool ConnectViaTransportFlow(TransportFlow *aFlow, uint16_t localport, uint16_t remoteport); void CompleteConnect(TransportFlow *flow, TransportLayer::State state); void SetSignals(); #endif typedef enum { RELIABLE=0, PARTIAL_RELIABLE_REXMIT = 1, PARTIAL_RELIABLE_TIMED = 2 } Type; already_AddRefed Open(const nsACString& label, const nsACString& protocol, Type type, bool inOrder, uint32_t prValue, DataChannelListener *aListener, nsISupports *aContext, bool aExternalNegotiated, uint16_t aStream) NS_WARN_UNUSED_RESULT; void Close(DataChannel *aChannel); // CloseInt() must be called with mLock held void CloseInt(DataChannel *aChannel); void CloseAll(); int32_t SendMsg(uint16_t stream, const nsACString &aMsg) { return SendMsgCommon(stream, aMsg, false); } int32_t SendBinaryMsg(uint16_t stream, const nsACString &aMsg) { return SendMsgCommon(stream, aMsg, true); } int32_t SendBlob(uint16_t stream, nsIInputStream *aBlob); // Called on data reception from the SCTP library // must(?) be public so my c->c++ trampoline can call it int ReceiveCallback(struct socket* sock, void *data, size_t datalen, struct sctp_rcvinfo rcv, int32_t flags); // Find out state enum { CONNECTING = 0U, OPEN = 1U, CLOSING = 2U, CLOSED = 3U }; uint16_t GetReadyState() { MutexAutoLock lock(mLock); return mState; } friend class DataChannel; Mutex mLock; void ReadBlob(already_AddRefed aThis, uint16_t aStream, nsIInputStream* aBlob); void GetStreamIds(std::vector* aStreamList); protected: friend class DataChannelOnMessageAvailable; // Avoid cycles with PeerConnectionImpl // Use from main thread only as WeakPtr is not threadsafe WeakPtr mListener; private: friend class DataChannelConnectRunnable; #ifdef SCTP_DTLS_SUPPORTED static void DTLSConnectThread(void *data); int SendPacket(const unsigned char* data, size_t len, bool release); void SctpDtlsInput(TransportFlow *flow, const unsigned char *data, size_t len); static int SctpDtlsOutput(void *addr, void *buffer, size_t length, uint8_t tos, uint8_t set_df); #endif DataChannel* FindChannelByStream(uint16_t stream); uint16_t FindFreeStream(); bool RequestMoreStreams(int32_t aNeeded = 16); int32_t SendControlMessage(void *msg, uint32_t len, uint16_t stream); int32_t SendOpenRequestMessage(const nsACString& label, const nsACString& protocol, uint16_t stream, bool unordered, uint16_t prPolicy, uint32_t prValue); int32_t SendOpenAckMessage(uint16_t stream); int32_t SendMsgInternal(DataChannel *channel, const char *data, uint32_t length, uint32_t ppid); int32_t SendBinary(DataChannel *channel, const char *data, uint32_t len, uint32_t ppid_partial, uint32_t ppid_final); int32_t SendMsgCommon(uint16_t stream, const nsACString &aMsg, bool isBinary); void DeliverQueuedData(uint16_t stream); already_AddRefed OpenFinish(already_AddRefed&& aChannel); void StartDefer(); bool SendDeferredMessages(); void ProcessQueuedOpens(); void ClearResets(); void SendOutgoingStreamReset(); void ResetOutgoingStream(uint16_t stream); void HandleOpenRequestMessage(const struct rtcweb_datachannel_open_request *req, size_t length, uint16_t stream); void HandleOpenAckMessage(const struct rtcweb_datachannel_ack *ack, size_t length, uint16_t stream); void HandleUnknownMessage(uint32_t ppid, size_t length, uint16_t stream); void HandleDataMessage(uint32_t ppid, const void *buffer, size_t length, uint16_t stream); void HandleMessage(const void *buffer, size_t length, uint32_t ppid, uint16_t stream); void HandleAssociationChangeEvent(const struct sctp_assoc_change *sac); void HandlePeerAddressChangeEvent(const struct sctp_paddr_change *spc); void HandleRemoteErrorEvent(const struct sctp_remote_error *sre); void HandleShutdownEvent(const struct sctp_shutdown_event *sse); void HandleAdaptationIndication(const struct sctp_adaptation_event *sai); void HandleSendFailedEvent(const struct sctp_send_failed_event *ssfe); void HandleStreamResetEvent(const struct sctp_stream_reset_event *strrst); void HandleStreamChangeEvent(const struct sctp_stream_change_event *strchg); void HandleNotification(const union sctp_notification *notif, size_t n); #ifdef SCTP_DTLS_SUPPORTED bool IsSTSThread() { bool on = false; if (mSTS) { mSTS->IsOnCurrentThread(&on); } return on; } #endif // Exists solely for proxying release of the TransportFlow to the STS thread static void ReleaseTransportFlow(nsRefPtr aFlow) {} // Data: // NOTE: while this array will auto-expand, increases in the number of // channels available from the stack must be negotiated! bool mAllocateEven; nsAutoTArray,16> mStreams; nsDeque mPending; // Holds already_AddRefeds -- careful! // holds data that's come in before a channel is open nsTArray > mQueuedData; // Streams pending reset nsAutoTArray mStreamsResetting; struct socket *mMasterSocket; // accessed from STS thread struct socket *mSocket; // cloned from mMasterSocket on successful Connect on STS thread uint16_t mState; // Protected with mLock #ifdef SCTP_DTLS_SUPPORTED nsRefPtr mTransportFlow; nsCOMPtr mSTS; #endif uint16_t mLocalPort; // Accessed from connect thread uint16_t mRemotePort; bool mUsingDtls; // Timer to control when we try to resend blocked messages nsCOMPtr mDeferredTimer; uint32_t mDeferTimeout; // in ms bool mTimerRunning; nsCOMPtr mInternalIOThread; }; #define ENSURE_DATACONNECTION \ do { if (!mConnection) { DATACHANNEL_LOG(("%s: %p no connection!",__FUNCTION__, this)); return; } } while (0) #define ENSURE_DATACONNECTION_RET(x) \ do { if (!mConnection) { DATACHANNEL_LOG(("%s: %p no connection!",__FUNCTION__, this)); return (x); } } while (0) class DataChannel { public: enum { CONNECTING = 0U, OPEN = 1U, CLOSING = 2U, CLOSED = 3U, WAITING_TO_OPEN = 4U }; DataChannel(DataChannelConnection *connection, uint16_t stream, uint16_t state, const nsACString& label, const nsACString& protocol, uint16_t policy, uint32_t value, uint32_t flags, DataChannelListener *aListener, nsISupports *aContext) : mListenerLock("netwerk::sctp::DataChannel") , mListener(aListener) , mContext(aContext) , mConnection(connection) , mLabel(label) , mProtocol(protocol) , mState(state) , mReady(false) , mStream(stream) , mPrPolicy(policy) , mPrValue(value) , mFlags(flags) , mIsRecvBinary(false) { NS_ASSERTION(mConnection,"NULL connection"); } ~DataChannel(); void Destroy(); // when we disconnect from the connection after stream RESET NS_INLINE_DECL_THREADSAFE_REFCOUNTING(DataChannel) // Close this DataChannel. Can be called multiple times. MUST be called // before destroying the DataChannel (state must be CLOSED or CLOSING). void Close(); // Set the listener (especially for channels created from the other side) void SetListener(DataChannelListener *aListener, nsISupports *aContext); // Send a string bool SendMsg(const nsACString &aMsg) { ENSURE_DATACONNECTION_RET(false); if (mStream != INVALID_STREAM) return (mConnection->SendMsg(mStream, aMsg) > 0); else return false; } // Send a binary message (TypedArray) bool SendBinaryMsg(const nsACString &aMsg) { ENSURE_DATACONNECTION_RET(false); if (mStream != INVALID_STREAM) return (mConnection->SendBinaryMsg(mStream, aMsg) > 0); else return false; } // Send a binary blob bool SendBinaryStream(nsIInputStream *aBlob, uint32_t msgLen) { ENSURE_DATACONNECTION_RET(false); if (mStream != INVALID_STREAM) return (mConnection->SendBlob(mStream, aBlob) > 0); else return false; } uint16_t GetType() { return mPrPolicy; } bool GetOrdered() { return !(mFlags & DATA_CHANNEL_FLAGS_OUT_OF_ORDER_ALLOWED); } // Amount of data buffered to send uint32_t GetBufferedAmount(); // Find out state uint16_t GetReadyState() { if (mConnection) { MutexAutoLock lock(mConnection->mLock); if (mState == WAITING_TO_OPEN) return CONNECTING; return mState; } return CLOSED; } void GetLabel(nsAString& aLabel) { CopyUTF8toUTF16(mLabel, aLabel); } void GetProtocol(nsAString& aProtocol) { CopyUTF8toUTF16(mProtocol, aProtocol); } uint16_t GetStream() { return mStream; } void AppReady(); void SendOrQueue(DataChannelOnMessageAvailable *aMessage); protected: Mutex mListenerLock; // protects mListener and mContext DataChannelListener *mListener; nsCOMPtr mContext; private: friend class DataChannelOnMessageAvailable; friend class DataChannelConnection; nsresult AddDataToBinaryMsg(const char *data, uint32_t size); nsRefPtr mConnection; nsCString mLabel; nsCString mProtocol; uint16_t mState; bool mReady; uint16_t mStream; uint16_t mPrPolicy; uint32_t mPrValue; uint32_t mFlags; uint32_t mId; bool mIsRecvBinary; nsCString mRecvBuffer; nsTArray > mBufferedData; nsTArray > mQueuedMessages; }; // used to dispatch notifications of incoming data to the main thread // Patterned on CallOnMessageAvailable in WebSockets // Also used to proxy other items to MainThread class DataChannelOnMessageAvailable : public nsRunnable { public: enum { ON_CONNECTION, ON_DISCONNECTED, ON_CHANNEL_CREATED, ON_CHANNEL_OPEN, ON_CHANNEL_CLOSED, ON_DATA, START_DEFER, }; /* types */ DataChannelOnMessageAvailable(int32_t aType, DataChannelConnection *aConnection, DataChannel *aChannel, nsCString &aData, // XXX this causes inefficiency int32_t aLen) : mType(aType), mChannel(aChannel), mConnection(aConnection), mData(aData), mLen(aLen) {} DataChannelOnMessageAvailable(int32_t aType, DataChannel *aChannel) : mType(aType), mChannel(aChannel) {} // XXX is it safe to leave mData/mLen uninitialized? This should only be // used for notifications that don't use them, but I'd like more // bulletproof compile-time checking. DataChannelOnMessageAvailable(int32_t aType, DataChannelConnection *aConnection, DataChannel *aChannel) : mType(aType), mChannel(aChannel), mConnection(aConnection) {} // for ON_CONNECTION/ON_DISCONNECTED DataChannelOnMessageAvailable(int32_t aType, DataChannelConnection *aConnection, bool aResult = true) : mType(aType), mConnection(aConnection), mResult(aResult) {} NS_IMETHOD Run() { MOZ_ASSERT(NS_IsMainThread()); switch (mType) { case ON_DATA: case ON_CHANNEL_OPEN: case ON_CHANNEL_CLOSED: { MutexAutoLock lock(mChannel->mListenerLock); if (!mChannel->mListener) { DATACHANNEL_LOG(("DataChannelOnMessageAvailable (%d) with null Listener!",mType)); return NS_OK; } switch (mType) { case ON_DATA: if (mLen < 0) { mChannel->mListener->OnMessageAvailable(mChannel->mContext, mData); } else { mChannel->mListener->OnBinaryMessageAvailable(mChannel->mContext, mData); } break; case ON_CHANNEL_OPEN: mChannel->mListener->OnChannelConnected(mChannel->mContext); break; case ON_CHANNEL_CLOSED: mChannel->mListener->OnChannelClosed(mChannel->mContext); break; } break; } case ON_DISCONNECTED: // If we've disconnected, make sure we close all the streams - from mainthread! mConnection->CloseAll(); // fall through case ON_CHANNEL_CREATED: case ON_CONNECTION: // WeakPtr - only used/modified/nulled from MainThread so we can use a WeakPtr here if (!mConnection->mListener) { DATACHANNEL_LOG(("DataChannelOnMessageAvailable (%d) with null Listener",mType)); return NS_OK; } switch (mType) { case ON_CHANNEL_CREATED: // important to give it an already_AddRefed pointer! mConnection->mListener->NotifyDataChannel(mChannel.forget()); break; case ON_CONNECTION: if (mResult) { mConnection->mListener->NotifyConnection(); } // FIX - on mResult false (failure) we should do something. Needs spec work here break; case ON_DISCONNECTED: mConnection->mListener->NotifyClosedConnection(); break; } break; case START_DEFER: mConnection->StartDefer(); break; } return NS_OK; } private: ~DataChannelOnMessageAvailable() {} int32_t mType; // XXX should use union nsRefPtr mChannel; nsRefPtr mConnection; nsCString mData; int32_t mLen; bool mResult; }; } #endif // NETWERK_SCTP_DATACHANNEL_DATACHANNEL_H_