/* * libjingle SCTP * Copyright 2012 Google Inc, and Robin Seggelmann * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "talk/media/sctp/sctpdataengine.h" #include #include #include #include "talk/base/buffer.h" #include "talk/base/helpers.h" #include "talk/base/logging.h" #include "talk/media/base/codec.h" #include "talk/media/base/constants.h" #include "talk/media/base/streamparams.h" #include "usrsctplib/usrsctp.h" namespace cricket { // This is the SCTP port to use. It is passed along the wire and the listener // and connector must be using the same port. It is not related to the ports at // the IP level. (Corresponds to: sockaddr_conn.sconn_port in usrsctp.h) // // TODO(ldixon): Allow port to be set from higher level code. static const int kSctpDefaultPort = 5001; // TODO(ldixon): Find where this is defined, and also check is Sctp really // respects this. static const size_t kSctpMtu = 1280; enum { MSG_SCTPINBOUNDPACKET = 1, // MessageData is SctpInboundPacket MSG_SCTPOUTBOUNDPACKET = 2, // MessageData is talk_base:Buffer }; struct SctpInboundPacket { talk_base::Buffer buffer; ReceiveDataParams params; // The |flags| parameter is used by SCTP to distinguish notification packets // from other types of packets. int flags; }; // Helper for logging SCTP data. Given a buffer, returns a readable string. static void debug_sctp_printf(const char *format, ...) { char s[255]; va_list ap; va_start(ap, format); vsnprintf(s, sizeof(s), format, ap); LOG(LS_INFO) << s; // vprintf(format, ap); va_end(ap); } // Helper for make a string dump of some SCTP data. Used for LOG // debugging messages. static std::string SctpDataToDebugString(void* buffer, size_t length, int dump_type) { char *dump_buf = usrsctp_dumppacket(buffer, length, dump_type); if (!dump_buf) { return ""; } std::string s = std::string(dump_buf); usrsctp_freedumpbuffer(dump_buf); return s; } // This is the callback usrsctp uses when there's data to send on the network // that has been wrapped appropriatly for the SCTP protocol. static int OnSctpOutboundPacket(void* addr, void* data, size_t length, uint8_t tos, uint8_t set_df) { SctpDataMediaChannel* channel = static_cast(addr); LOG(LS_VERBOSE) << "global OnSctpOutboundPacket():" << "addr: " << addr << "; length: " << length << "; tos: " << std::hex << static_cast(tos) << "; set_df: " << std::hex << static_cast(set_df) << "; data:" << SctpDataToDebugString(data, length, SCTP_DUMP_OUTBOUND); // Note: We have to copy the data; the caller will delete it. talk_base::Buffer* buffer = new talk_base::Buffer(data, length); channel->worker_thread()->Post(channel, MSG_SCTPOUTBOUNDPACKET, talk_base::WrapMessageData(buffer)); return 0; } // This is the callback called from usrsctp when data has been received, after // a packet has been interpreted and parsed by usrsctp and found to contain // payload data. It is called by a usrsctp thread. It is assumed this function // will free the memory used by 'data'. static int OnSctpInboundPacket(struct socket* sock, union sctp_sockstore addr, void* data, size_t length, struct sctp_rcvinfo rcv, int flags, void* ulp_info) { LOG(LS_VERBOSE) << "global OnSctpInboundPacket... Msg of length " << length << " received via " << addr.sconn.sconn_addr << ":" << talk_base::NetworkToHost16(addr.sconn.sconn_port) << " on stream " << rcv.rcv_sid << " with SSN " << rcv.rcv_ssn << " and TSN " << rcv.rcv_tsn << ", PPID " << talk_base::NetworkToHost32(rcv.rcv_ppid) << ", context " << rcv.rcv_context << ", data: " << data << ", ulp_info:" << ulp_info << ", flags:" << std::hex << flags; SctpDataMediaChannel* channel = static_cast(ulp_info); // The second log call is useful when the defines flags are incorrect. In // this case, ulp_info ends up being bad and the second log message will // cause a crash. LOG(LS_VERBOSE) << "global OnSctpInboundPacket. channel=" << channel->debug_name() << "..."; // Post data to the channel's receiver thread (copying it). // TODO(ldixon): Unclear if copy is needed as this method is responsible for // memory cleanup. But this does simplify code. SctpInboundPacket* packet = new SctpInboundPacket(); packet->buffer.SetData(data, length); packet->params.ssrc = rcv.rcv_sid; packet->params.seq_num = rcv.rcv_ssn; packet->params.timestamp = rcv.rcv_tsn; packet->flags = flags; channel->worker_thread()->Post(channel, MSG_SCTPINBOUNDPACKET, talk_base::WrapMessageData(packet)); free(data); return 1; } // Set the initial value of the static SCTP Data Engines reference count. int SctpDataEngine::usrsctp_engines_count = 0; SctpDataEngine::SctpDataEngine() { if (usrsctp_engines_count == 0) { // First argument is udp_encapsulation_port, which is not releveant for our // AF_CONN use of sctp. usrsctp_init(0, cricket::OnSctpOutboundPacket, debug_sctp_printf); // To turn on/off detailed SCTP debugging. You will also need to have the // SCTP_DEBUG cpp defines flag. // usrsctp_sysctl_set_sctp_debug_on(SCTP_DEBUG_ALL); // TODO(ldixon): Consider turning this on/off. usrsctp_sysctl_set_sctp_ecn_enable(0); // TODO(ldixon): Consider turning this on/off. // This is not needed right now (we don't do dynamic address changes): // If SCTP Auto-ASCONF is enabled, the peer is informed automatically // when a new address is added or removed. This feature is enabled by // default. // usrsctp_sysctl_set_sctp_auto_asconf(0); // TODO(ldixon): Consider turning this on/off. // Add a blackhole sysctl. Setting it to 1 results in no ABORTs // being sent in response to INITs, setting it to 2 results // in no ABORTs being sent for received OOTB packets. // This is similar to the TCP sysctl. // // See: http://lakerest.net/pipermail/sctp-coders/2012-January/009438.html // See: http://svnweb.freebsd.org/base?view=revision&revision=229805 // usrsctp_sysctl_set_sctp_blackhole(2); } usrsctp_engines_count++; // We don't put in a codec because we don't want one offered when we // use the hybrid data engine. // codecs_.push_back(cricket::DataCodec( kGoogleSctpDataCodecId, // kGoogleSctpDataCodecName, 0)); } SctpDataEngine::~SctpDataEngine() { // TODO(ldixon): There is currently a bug in teardown of usrsctp that blocks // indefintely if a finish call made too soon after close calls. So teardown // has been skipped. Once the bug is fixed, retest and enable teardown. // // usrsctp_engines_count--; // LOG(LS_VERBOSE) << "usrsctp_engines_count:" << usrsctp_engines_count; // if (usrsctp_engines_count == 0) { // if (usrsctp_finish() != 0) { // LOG(LS_WARNING) << "usrsctp_finish."; // } // } } DataMediaChannel* SctpDataEngine::CreateChannel( DataChannelType data_channel_type) { if (data_channel_type != DCT_SCTP) { return NULL; } return new SctpDataMediaChannel(talk_base::Thread::Current()); } SctpDataMediaChannel::SctpDataMediaChannel(talk_base::Thread* thread) : worker_thread_(thread), local_port_(kSctpDefaultPort), remote_port_(kSctpDefaultPort), sock_(NULL), sending_(false), receiving_(false), debug_name_("SctpDataMediaChannel") { } SctpDataMediaChannel::~SctpDataMediaChannel() { CloseSctpSocket(); } sockaddr_conn SctpDataMediaChannel::GetSctpSockAddr(int port) { sockaddr_conn sconn = {0}; sconn.sconn_family = AF_CONN; #ifdef HAVE_SCONN_LEN sconn.sconn_len = sizeof(sockaddr_conn); #endif // Note: conversion from int to uint16_t happens here. sconn.sconn_port = talk_base::HostToNetwork16(port); sconn.sconn_addr = this; return sconn; } bool SctpDataMediaChannel::OpenSctpSocket() { if (sock_) { LOG(LS_VERBOSE) << debug_name_ << "->Ignoring attempt to re-create existing socket."; return false; } sock_ = usrsctp_socket(AF_CONN, SOCK_STREAM, IPPROTO_SCTP, cricket::OnSctpInboundPacket, NULL, 0, this); if (!sock_) { LOG_ERRNO(LS_ERROR) << debug_name_ << "Failed to create SCTP socket."; return false; } // Make the socket non-blocking. Connect, close, shutdown etc will not block // the thread waiting for the socket operation to complete. if (usrsctp_set_non_blocking(sock_, 1) < 0) { LOG_ERRNO(LS_ERROR) << debug_name_ << "Failed to set SCTP to non blocking."; return false; } // This ensures that the usrsctp close call deletes the association. This // prevents usrsctp from calling OnSctpOutboundPacket with references to // this class as the address. linger linger_opt; linger_opt.l_onoff = 1; linger_opt.l_linger = 0; if (usrsctp_setsockopt(sock_, SOL_SOCKET, SO_LINGER, &linger_opt, sizeof(linger_opt))) { LOG_ERRNO(LS_ERROR) << debug_name_ << "Failed to set SO_LINGER."; return false; } // Subscribe to SCTP event notifications. int event_types[] = {SCTP_ASSOC_CHANGE, SCTP_PEER_ADDR_CHANGE, SCTP_SEND_FAILED_EVENT, SCTP_SENDER_DRY_EVENT}; struct sctp_event event = {0}; event.se_assoc_id = SCTP_ALL_ASSOC; event.se_on = 1; for (size_t i = 0; i < ARRAY_SIZE(event_types); i++) { event.se_type = event_types[i]; if (usrsctp_setsockopt(sock_, IPPROTO_SCTP, SCTP_EVENT, &event, sizeof(event)) < 0) { LOG_ERRNO(LS_ERROR) << debug_name_ << "Failed to set SCTP_EVENT type: " << event.se_type; return false; } } // Register this class as an address for usrsctp. This is used by SCTP to // direct the packets received (by the created socket) to this class. usrsctp_register_address(this); sending_ = true; return true; } void SctpDataMediaChannel::CloseSctpSocket() { sending_ = false; if (sock_) { // We assume that SO_LINGER option is set to close the association when // close is called. This means that any pending packets in usrsctp will be // discarded instead of being sent. usrsctp_close(sock_); sock_ = NULL; usrsctp_deregister_address(this); } } bool SctpDataMediaChannel::Connect() { LOG(LS_VERBOSE) << debug_name_ << "->Connect()."; // If we already have a socket connection, just return. if (sock_) { LOG(LS_WARNING) << debug_name_ << "->Connect(): Ignored as socket " "is already established."; return true; } // If no socket (it was closed) try to start it again. This can happen when // the socket we are connecting to closes, does an sctp shutdown handshake, // or behaves unexpectedly causing us to perform a CloseSctpSocket. if (!sock_ && !OpenSctpSocket()) { return false; } // Note: conversion from int to uint16_t happens on assignment. sockaddr_conn local_sconn = GetSctpSockAddr(local_port_); if (usrsctp_bind(sock_, reinterpret_cast(&local_sconn), sizeof(local_sconn)) < 0) { LOG_ERRNO(LS_ERROR) << debug_name_ << "->Connect(): " << ("Failed usrsctp_bind"); CloseSctpSocket(); return false; } // Note: conversion from int to uint16_t happens on assignment. sockaddr_conn remote_sconn = GetSctpSockAddr(remote_port_); int connect_result = usrsctp_connect( sock_, reinterpret_cast(&remote_sconn), sizeof(remote_sconn)); if (connect_result < 0 && errno != SCTP_EINPROGRESS) { LOG_ERRNO(LS_ERROR) << debug_name_ << "Failed usrsctp_connect. got errno=" << errno << ", but wanted " << SCTP_EINPROGRESS; CloseSctpSocket(); return false; } return true; } void SctpDataMediaChannel::Disconnect() { // TODO(ldixon): Consider calling |usrsctp_shutdown(sock_, ...)| to do a // shutdown handshake and remove the association. CloseSctpSocket(); } bool SctpDataMediaChannel::SetSend(bool send) { if (!sending_ && send) { return Connect(); } if (sending_ && !send) { Disconnect(); } return true; } bool SctpDataMediaChannel::SetReceive(bool receive) { receiving_ = receive; return true; } bool SctpDataMediaChannel::AddSendStream(const StreamParams& stream) { if (!stream.has_ssrcs()) { return false; } StreamParams found_stream; if (GetStreamBySsrc(send_streams_, stream.first_ssrc(), &found_stream)) { LOG(LS_WARNING) << debug_name_ << "->AddSendStream(...): " << "Not adding data send stream '" << stream.id << "' with ssrc=" << stream.first_ssrc() << " because stream already exists."; return false; } send_streams_.push_back(stream); return true; } bool SctpDataMediaChannel::RemoveSendStream(uint32 ssrc) { StreamParams found_stream; if (!GetStreamBySsrc(send_streams_, ssrc, &found_stream)) { return false; } RemoveStreamBySsrc(&send_streams_, ssrc); return true; } // Note: expects exactly one ssrc. If none are given, it will fail. If more // than one are given, it will use the first. bool SctpDataMediaChannel::AddRecvStream(const StreamParams& stream) { if (!stream.has_ssrcs()) { return false; } StreamParams found_stream; if (GetStreamBySsrc(recv_streams_, stream.first_ssrc(), &found_stream)) { LOG(LS_WARNING) << debug_name_ << "->AddRecvStream(...): " << "Not adding data recv stream '" << stream.id << "' with ssrc=" << stream.first_ssrc() << " because stream already exists."; return false; } recv_streams_.push_back(stream); LOG(LS_VERBOSE) << debug_name_ << "->AddRecvStream(...): " << "Added data recv stream '" << stream.id << "' with ssrc=" << stream.first_ssrc(); return true; } bool SctpDataMediaChannel::RemoveRecvStream(uint32 ssrc) { RemoveStreamBySsrc(&recv_streams_, ssrc); return true; } bool SctpDataMediaChannel::SendData( const SendDataParams& params, const talk_base::Buffer& payload, SendDataResult* result) { if (result) { // If we return true, we'll set this to SDR_SUCCESS. *result = SDR_ERROR; } if (!sending_) { LOG(LS_WARNING) << debug_name_ << "->SendData(...): " << "Not sending packet with ssrc=" << params.ssrc << " len=" << payload.length() << " before SetSend(true)."; return false; } StreamParams found_stream; if (!GetStreamBySsrc(send_streams_, params.ssrc, &found_stream)) { LOG(LS_WARNING) << debug_name_ << "->SendData(...): " << "Not sending data because ssrc is unknown: " << params.ssrc; return false; } // TODO(ldixon): Experiment with sctp_sendv_spa instead of sctp_sndinfo. e.g. // struct sctp_sendv_spa spa = {0}; // spa.sendv_flags |= SCTP_SEND_SNDINFO_VALID; // spa.sendv_sndinfo.snd_sid = params.ssrc; // spa.sendv_sndinfo.snd_context = 0; // spa.sendv_sndinfo.snd_assoc_id = 0; // TODO(pthatcher): Support different types of protocols (e.g. SSL) and // messages (e.g. Binary) via SendDataParams. // spa.sendv_sndinfo.snd_ppid = htonl(PPID_NONE); // TODO(pthatcher): Support different reliability semantics. // For reliable: Remove SCTP_UNORDERED. // For partially-reliable: Add rtx or ttl. // spa.sendv_sndinfo.snd_flags = SCTP_UNORDERED; // TODO(phatcher): Try some of these things. // spa.sendv_flags |= SCTP_SEND_PRINFO_VALID; // spa.sendv_prinfo.pr_policy = SCTP_PR_SCTP_RTX; // spa.sendv_prinfo.pr_value = htons(max_retransmit_count); // spa.sendv_prinfo.pr_policy = SCTP_PR_SCTP_TTL; // spa.sendv_prinfo.pr_value = htons(max_retransmit_time); // // Send data using SCTP. sctp_sndinfo sndinfo = {0}; sndinfo.snd_sid = params.ssrc; sndinfo.snd_flags = 0; // TODO(pthatcher): Once data types are added to SendParams, this can be set // from SendParams. sndinfo.snd_ppid = talk_base::HostToNetwork32(PPID_NONE); sndinfo.snd_context = 0; sndinfo.snd_assoc_id = 0; ssize_t res = usrsctp_sendv(sock_, payload.data(), static_cast(payload.length()), NULL, 0, &sndinfo, static_cast(sizeof(sndinfo)), SCTP_SENDV_SNDINFO, 0); if (res < 0) { if (errno == EWOULDBLOCK) { *result = SDR_BLOCK; LOG(LS_INFO) << debug_name_ << "->SendData(...): EWOULDBLOCK returned"; } else { LOG_ERRNO(LS_ERROR) << "ERROR:" << debug_name_ << "->SendData(...): " << " usrsctp_sendv: "; } return false; } if (result) { // If we return true, we'll set this to SDR_SUCCESS. *result = SDR_SUCCESS; } return true; } // Called by network interface when a packet has been received. void SctpDataMediaChannel::OnPacketReceived(talk_base::Buffer* packet) { LOG(LS_VERBOSE) << debug_name_ << "->OnPacketReceived(...): " << " length=" << packet->length() << "; data=" << SctpDataToDebugString(packet->data(), packet->length(), SCTP_DUMP_INBOUND); // Only give receiving packets to usrsctp after if connected. This enables two // peers to each make a connect call, but for them not to receive an INIT // packet before they have called connect; least the last receiver of the INIT // packet will have called connect, and a connection will be established. if (sending_) { LOG(LS_VERBOSE) << debug_name_ << "->OnPacketReceived(...):" << " Passed packet to sctp."; // Pass received packet to SCTP stack. Once processed by usrsctp, the data // will be will be given to the global OnSctpInboundData, and then, // marshalled by a Post and handled with OnMessage. usrsctp_conninput(this, packet->data(), packet->length(), 0); } else { // TODO(ldixon): Consider caching the packet for very slightly better // reliability. LOG(LS_INFO) << debug_name_ << "->OnPacketReceived(...):" << " Threw packet (probably an INIT) away."; } } void SctpDataMediaChannel::OnInboundPacketFromSctpToChannel( SctpInboundPacket* packet) { LOG(LS_VERBOSE) << debug_name_ << "->OnInboundPacketFromSctpToChannel(...): " << "Received SCTP data:" << " ssrc=" << packet->params.ssrc << " data='" << std::string(packet->buffer.data(), packet->buffer.length()) << " notification: " << (packet->flags & MSG_NOTIFICATION) << "' length=" << packet->buffer.length(); // Sending a packet with data == NULL (no data) is SCTPs "close the // connection" message. This sets sock_ = NULL; if (!packet->buffer.length() || !packet->buffer.data()) { LOG(LS_INFO) << debug_name_ << "->OnInboundPacketFromSctpToChannel(...): " "No data, closing."; return; } if (packet->flags & MSG_NOTIFICATION) { OnNotificationFromSctp(&packet->buffer); } else { OnDataFromSctpToChannel(packet->params, &packet->buffer); } } void SctpDataMediaChannel::OnDataFromSctpToChannel( const ReceiveDataParams& params, talk_base::Buffer* buffer) { StreamParams found_stream; if (!GetStreamBySsrc(recv_streams_, params.ssrc, &found_stream)) { LOG(LS_WARNING) << debug_name_ << "->OnDataFromSctpToChannel(...): " << "Received packet for unknown ssrc: " << params.ssrc; return; } if (receiving_) { LOG(LS_VERBOSE) << debug_name_ << "->OnDataFromSctpToChannel(...): " << "Posting with length: " << buffer->length(); SignalDataReceived(params, buffer->data(), buffer->length()); } else { LOG(LS_WARNING) << debug_name_ << "->OnDataFromSctpToChannel(...): " << "Not receiving packet with sid=" << params.ssrc << " len=" << buffer->length() << " before SetReceive(true)."; } } void SctpDataMediaChannel::OnNotificationFromSctp(talk_base::Buffer* buffer) { const sctp_notification& notification = reinterpret_cast(*buffer->data()); ASSERT(notification.sn_header.sn_length == buffer->length()); // TODO(ldixon): handle notifications appropriately. switch (notification.sn_header.sn_type) { case SCTP_ASSOC_CHANGE: LOG(LS_VERBOSE) << "SCTP_ASSOC_CHANGE"; OnNotificationAssocChange(notification.sn_assoc_change); break; case SCTP_REMOTE_ERROR: LOG(LS_INFO) << "SCTP_REMOTE_ERROR"; break; case SCTP_SHUTDOWN_EVENT: LOG(LS_INFO) << "SCTP_SHUTDOWN_EVENT"; break; case SCTP_ADAPTATION_INDICATION: LOG(LS_INFO) << "SCTP_ADAPTATION_INIDICATION"; break; case SCTP_PARTIAL_DELIVERY_EVENT: LOG(LS_INFO) << "SCTP_PARTIAL_DELIVERY_EVENT"; break; case SCTP_AUTHENTICATION_EVENT: LOG(LS_INFO) << "SCTP_AUTHENTICATION_EVENT"; break; case SCTP_SENDER_DRY_EVENT: LOG(LS_INFO) << "SCTP_SENDER_DRY_EVENT"; SignalReadyToSend(true); break; // TODO(ldixon): Unblock after congestion. case SCTP_NOTIFICATIONS_STOPPED_EVENT: LOG(LS_INFO) << "SCTP_NOTIFICATIONS_STOPPED_EVENT"; break; case SCTP_SEND_FAILED_EVENT: LOG(LS_INFO) << "SCTP_SEND_FAILED_EVENT"; break; case SCTP_STREAM_RESET_EVENT: LOG(LS_INFO) << "SCTP_STREAM_RESET_EVENT"; // TODO(ldixon): Notify up to channel that stream resent has happened, // and write unit test for this case. break; case SCTP_ASSOC_RESET_EVENT: LOG(LS_INFO) << "SCTP_ASSOC_RESET_EVENT"; break; case SCTP_STREAM_CHANGE_EVENT: LOG(LS_INFO) << "SCTP_STREAM_CHANGE_EVENT"; break; default: LOG(LS_WARNING) << "Unknown SCTP event: " << notification.sn_header.sn_type; break; } } void SctpDataMediaChannel::OnNotificationAssocChange( const sctp_assoc_change& change) { switch (change.sac_state) { case SCTP_COMM_UP: LOG(LS_VERBOSE) << "Association change SCTP_COMM_UP"; break; case SCTP_COMM_LOST: LOG(LS_INFO) << "Association change SCTP_COMM_LOST"; break; case SCTP_RESTART: LOG(LS_INFO) << "Association change SCTP_RESTART"; break; case SCTP_SHUTDOWN_COMP: LOG(LS_INFO) << "Association change SCTP_SHUTDOWN_COMP"; break; case SCTP_CANT_STR_ASSOC: LOG(LS_INFO) << "Association change SCTP_CANT_STR_ASSOC"; break; default: LOG(LS_INFO) << "Association change UNKNOWN"; break; } } void SctpDataMediaChannel::OnPacketFromSctpToNetwork( talk_base::Buffer* buffer) { if (buffer->length() > kSctpMtu) { LOG(LS_ERROR) << debug_name_ << "->OnPacketFromSctpToNetwork(...): " << "SCTP seems to have made a poacket that is bigger " "than its official MTU."; } MediaChannel::SendPacket(buffer); } void SctpDataMediaChannel::OnMessage(talk_base::Message* msg) { switch (msg->message_id) { case MSG_SCTPINBOUNDPACKET: { SctpInboundPacket* packet = static_cast*>( msg->pdata)->data(); OnInboundPacketFromSctpToChannel(packet); delete packet; break; } case MSG_SCTPOUTBOUNDPACKET: { talk_base::Buffer* buffer = static_cast*>( msg->pdata)->data(); OnPacketFromSctpToNetwork(buffer); delete buffer; break; } } } } // namespace cricket