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zoneminder/src/zm_rtsp.cpp

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//
// ZoneMinder RTSP Class Implementation, $Date$, $Revision$
// Copyright (C) 2001-2008 Philip Coombes
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//
#include "zm_rtsp.h"
#include "zm_config.h"
#include "zm_rtp_data.h"
#include "zm_rtp_ctrl.h"
#include "zm_db.h"
#include <algorithm>
#if HAVE_LIBAVFORMAT
int RtspThread::smMinDataPort = 0;
int RtspThread::smMaxDataPort = 0;
RtspThread::PortSet RtspThread::smAssignedPorts;
bool RtspThread::sendCommand(std::string message) {
if ( mNeedAuth ) {
StringVector parts = split(message, " ");
if ( parts.size() > 1 )
message += mAuthenticator->getAuthHeader(parts[0], parts[1]);
}
message += stringtf("User-Agent: ZoneMinder/%s\r\n", ZM_VERSION);
message += stringtf("CSeq: %d\r\n\r\n", ++mSeq);
Debug(2, "Sending RTSP message: %s", message.c_str());
if ( mMethod == RTP_RTSP_HTTP ) {
message = base64Encode(message);
Debug(2, "Sending encoded RTSP message: %s", message.c_str());
if ( mRtspSocket2.send(message.c_str(), message.size()) != (int)message.length() ) {
Error("Unable to send message '%s': %s", message.c_str(), strerror(errno));
return false;
}
} else {
if ( mRtspSocket.send(message.c_str(), message.size()) != (int)message.length() ) {
Error("Unable to send message '%s': %s", message.c_str(), strerror(errno));
return false;
}
}
return true;
}
bool RtspThread::recvResponse(std::string &response) {
if ( mRtspSocket.recv(response) < 0 )
Error("Recv failed; %s", strerror(errno));
Debug(2, "Received RTSP response: %s (%zd bytes)", response.c_str(), response.size());
float respVer = 0;
respCode = -1;
char respText[ZM_NETWORK_BUFSIZ];
if ( sscanf(response.c_str(), "RTSP/%f %3d %[^\r\n]\r\n", &respVer, &respCode, respText) != 3 ) {
if ( isalnum(response[0]) ) {
Error("Response parse failure in '%s'", response.c_str());
} else {
Error("Response parse failure, %zd bytes follow", response.size());
if ( response.size() )
Hexdump(Logger::ERROR, response.data(), std::min(int(response.size()), 16));
}
return false;
}
if ( respCode == 401 ) {
Debug(2, "Got 401 access denied response code, check WWW-Authenticate header and retry");
mAuthenticator->checkAuthResponse(response);
mNeedAuth = true;
return false;
} else if ( respCode != 200 ) {
Error("Unexpected response code %d, text is '%s'", respCode, respText);
return false;
}
return true;
} // end RtspThread::recvResponse
int RtspThread::requestPorts() {
if ( !smMinDataPort ) {
char sql[ZM_SQL_SML_BUFSIZ];
//FIXME Why not load specifically by Id? This will get ineffeicient with a lot of monitors
strncpy(sql, "SELECT `Id` FROM `Monitors` WHERE `Function` != 'None' AND `Type` = 'Remote' AND `Protocol` = 'rtsp' AND `Method` = 'rtpUni' ORDER BY `Id` ASC", sizeof(sql));
MYSQL_RES *result = zmDbFetch(sql);
int nMonitors = mysql_num_rows(result);
int position = 0;
if ( nMonitors ) {
for ( int i = 0; MYSQL_ROW dbrow = mysql_fetch_row(result); i++ ) {
int id = atoi(dbrow[0]);
if ( mId == id ) {
position = i;
break;
}
}
} else {
// Minor hack for testing when not strictly enabled
nMonitors = 1;
position = 0;
}
mysql_free_result(result);
int portRange = int(((config.max_rtp_port-config.min_rtp_port)+1)/nMonitors);
smMinDataPort = config.min_rtp_port + (position * portRange);
smMaxDataPort = smMinDataPort + portRange - 1;
Debug(2, "Assigned RTP port range is %d-%d", smMinDataPort, smMaxDataPort);
}
for ( int i = smMinDataPort; i <= smMaxDataPort; i++ ) {
PortSet::const_iterator iter = smAssignedPorts.find(i);
if ( iter == smAssignedPorts.end() ) {
smAssignedPorts.insert(i);
return i;
}
}
Panic("Can assign RTP port, no ports left in pool");
return -1;
}
void RtspThread::releasePorts(int port) {
if ( port > 0 )
smAssignedPorts.erase(port);
}
RtspThread::RtspThread(
int id,
RtspMethod method,
const std::string &protocol,
const std::string &host,
const std::string &port,
const std::string &path,
const std::string &auth,
bool rtsp_describe) :
mId(id),
mMethod(method),
mProtocol(protocol),
mHost(host),
mPort(port),
mPath(path),
mRtspDescribe(rtsp_describe),
mSessDesc(0),
mFormatContext(0),
mSeq(0),
mSession(0),
mSsrc(0),
mDist(UNDEFINED),
mRtpTime(0),
mTerminate(false)
{
mUrl = mProtocol+"://"+mHost+":"+mPort;
if ( !mPath.empty() ) {
if ( mPath[0] == '/' )
mUrl += mPath;
else
mUrl += '/'+mPath;
}
mSsrc = rand();
Debug(2, "RTSP Local SSRC is %x, url is %s", mSsrc, mUrl.c_str());
if ( mMethod == RTP_RTSP_HTTP )
mHttpSession = stringtf("%d", rand());
mNeedAuth = false;
StringVector parts = split(auth, ":");
Debug(2, "# of auth parts %d", parts.size());
if ( parts.size() > 1 )
mAuthenticator = new zm::Authenticator(parts[0], parts[1]);
else
mAuthenticator = new zm::Authenticator(parts[0], "");
mThread = std::thread(&RtspThread::Run, this);
}
RtspThread::~RtspThread() {
Stop();
if (mThread.joinable())
mThread.join();
if ( mFormatContext ) {
#if LIBAVFORMAT_VERSION_CHECK(52, 96, 0, 96, 0)
avformat_free_context(mFormatContext);
#else
av_free_format_context(mFormatContext);
#endif
mFormatContext = nullptr;
}
if ( mSessDesc ) {
delete mSessDesc;
mSessDesc = nullptr;
}
delete mAuthenticator;
mAuthenticator = nullptr;
}
void RtspThread::Run() {
std::string message;
std::string response;
response.reserve(ZM_NETWORK_BUFSIZ);
if ( !mRtspSocket.connect(mHost.c_str(), mPort.c_str()) )
Fatal("Unable to connect RTSP socket");
//Select select( 0.25 );
//select.addReader( &mRtspSocket );
//while ( select.wait() )
//{
//mRtspSocket.recv( response );
//Debug( 4, "Drained %d bytes from RTSP socket", response.size() );
//}
bool authTried = false;
if ( mMethod == RTP_RTSP_HTTP ) {
if ( !mRtspSocket2.connect(mHost.c_str(), mPort.c_str()) )
Fatal("Unable to connect auxiliary RTSP/HTTP socket");
//Select select( 0.25 );
//select.addReader( &mRtspSocket2 );
//while ( select.wait() )
//{
//mRtspSocket2.recv( response );
//Debug( 4, "Drained %d bytes from HTTP socket", response.size() );
//}
//possibly retry sending the message for authentication
int respCode = -1;
char respText[256];
do {
message = "GET "+mPath+" HTTP/1.0\r\n";
message += "X-SessionCookie: "+mHttpSession+"\r\n";
if ( mNeedAuth ) {
message += mAuthenticator->getAuthHeader("GET", mPath);
authTried = true;
}
message += "Accept: application/x-rtsp-tunnelled\r\n\r\n";
Debug(2, "Sending HTTP message: %s", message.c_str());
if ( mRtspSocket.send(message.c_str(), message.size()) != (int)message.length() ) {
Error("Unable to send message '%s': %s", message.c_str(), strerror(errno));
return;
}
if ( mRtspSocket.recv(response) < 0 ) {
Error("Recv failed; %s", strerror(errno));
return;
}
Debug(2, "Received HTTP response: %s (%zd bytes)", response.c_str(), response.size());
float respVer = 0;
respCode = -1;
if ( sscanf(response.c_str(), "HTTP/%f %3d %[^\r\n]\r\n", &respVer, &respCode, respText) != 3 ) {
if ( isalnum(response[0]) ) {
Error("Response parse failure in '%s'", response.c_str());
} else {
Error("Response parse failure, %zd bytes follow", response.size());
if ( response.size() )
Hexdump(Logger::ERROR, response.data(), std::min(int(response.size()), 16));
}
return;
}
// If Server requests authentication, check WWW-Authenticate header and fill required fields
// for requested authentication method
if ( respCode == 401 && !authTried ) {
mNeedAuth = true;
mAuthenticator->checkAuthResponse(response);
Debug(2, "Processed 401 response");
mRtspSocket.close();
if ( !mRtspSocket.connect(mHost.c_str(), mPort.c_str()) )
Fatal("Unable to reconnect RTSP socket");
Debug(2, "connection should be reopened now");
}
} while (respCode == 401 && !authTried);
if ( respCode != 200 ) {
Error("Unexpected response code %d, text is '%s'", respCode, respText);
return;
}
message = "POST "+mPath+" HTTP/1.0\r\n";
message += "X-SessionCookie: "+mHttpSession+"\r\n";
if ( mNeedAuth )
message += mAuthenticator->getAuthHeader("POST", mPath);
message += "Content-Length: 32767\r\n";
message += "Content-Type: application/x-rtsp-tunnelled\r\n";
message += "\r\n";
Debug(2, "Sending HTTP message: %s", message.c_str());
if ( mRtspSocket2.send(message.c_str(), message.size()) != (int)message.length() ) {
Error("Unable to send message '%s': %s", message.c_str(), strerror(errno));
return;
}
} // end if ( mMethod == RTP_RTSP_HTTP )
std::string localHost = "";
int localPorts[2] = { 0, 0 };
// Request supported RTSP commands by the server
message = "OPTIONS "+mUrl+" RTSP/1.0\r\n";
if ( !sendCommand(message) )
return;
// A negative return here may indicate auth failure, but we will have setup the auth mechanisms so we need to retry.
if ( !recvResponse(response) ) {
if ( mNeedAuth ) {
Debug(2, "Resending OPTIONS due to possible auth requirement");
if ( !sendCommand(message) )
return;
if ( !recvResponse(response) )
return;
} else {
return;
}
} // end if failed response maybe due to auth
char publicLine[256] = "";
StringVector lines = split(response, "\r\n");
for ( size_t i = 0; i < lines.size(); i++ )
sscanf(lines[i].c_str(), "Public: %[^\r\n]\r\n", publicLine);
// Check if the server supports the GET_PARAMETER command
// If yes, it is likely that the server will request this command as a keepalive message
bool sendKeepalive = false;
if ( publicLine[0] && strstr(publicLine, "GET_PARAMETER") )
sendKeepalive = true;
message = "DESCRIBE "+mUrl+" RTSP/1.0\r\n";
bool res;
do {
if ( mNeedAuth )
authTried = true;
sendCommand(message);
// FIXME Why sleep 1?
usleep(10000);
res = recvResponse(response);
if ( !res && respCode==401 )
mNeedAuth = true;
} while (!res && respCode==401 && !authTried);
const std::string endOfHeaders = "\r\n\r\n";
size_t sdpStart = response.find(endOfHeaders);
if ( sdpStart == std::string::npos )
return;
if ( mRtspDescribe ) {
std::string DescHeader = response.substr(0, sdpStart);
Debug(1, "Processing DESCRIBE response header '%s'", DescHeader.c_str());
lines = split(DescHeader, "\r\n");
for ( size_t i = 0; i < lines.size(); i++ ) {
// If the device sends us a url value for Content-Base in the response header, we should use that instead
if ( ( lines[i].size() > 13 ) && ( lines[i].substr( 0, 13 ) == "Content-Base:" ) ) {
mUrl = trimSpaces( lines[i].substr( 13 ) );
Info("Received new Content-Base in DESCRIBE response header. Updated device Url to: '%s'", mUrl.c_str() );
break;
}
} // end foreach line
} // end if mRtspDescribe
sdpStart += endOfHeaders.length();
std::string sdp = response.substr(sdpStart);
Debug(1, "Processing SDP '%s'", sdp.c_str());
try {
mSessDesc = new SessionDescriptor( mUrl, sdp );
mFormatContext = mSessDesc->generateFormatContext();
} catch ( const Exception &e ) {
Error(e.getMessage().c_str());
return;
}
#if 0
// New method using ffmpeg native functions
std::string authUrl = mUrl;
if ( !mAuth.empty() )
authUrl.insert( authUrl.find( "://" )+3, mAuth+"@" );
if ( av_open_input_file( &mFormatContext, authUrl.c_str(), nullptr, 0, nullptr ) != 0 )
{
Error( "Unable to open input '%s'", authUrl.c_str() );
return( -1 );
}
#endif
uint32_t rtpClock = 0;
std::string trackUrl = mUrl;
std::string controlUrl;
_AVCODECID codecId = AV_CODEC_ID_NONE;
if ( mFormatContext->nb_streams >= 1 ) {
for ( unsigned int i = 0; i < mFormatContext->nb_streams; i++ ) {
SessionDescriptor::MediaDescriptor *mediaDesc = mSessDesc->getStream(i);
#if LIBAVFORMAT_VERSION_CHECK(57, 33, 0, 33, 0)
if ( mFormatContext->streams[i]->codecpar->codec_type == AVMEDIA_TYPE_VIDEO )
#elif (LIBAVCODEC_VERSION_CHECK(52, 64, 0, 64, 0) || LIBAVUTIL_VERSION_CHECK(50, 14, 0, 14, 0))
if ( mFormatContext->streams[i]->codec->codec_type == AVMEDIA_TYPE_VIDEO )
#else
if ( mFormatContext->streams[i]->codec->codec_type == CODEC_TYPE_VIDEO )
#endif
{
// Check if control Url is absolute or relative
controlUrl = mediaDesc->getControlUrl();
if ( std::equal(trackUrl.begin(), trackUrl.end(), controlUrl.begin()) ) {
trackUrl = controlUrl;
} else {
if ( *trackUrl.rbegin() != '/' ) {
trackUrl += "/" + controlUrl;
} else {
trackUrl += controlUrl;
}
}
rtpClock = mediaDesc->getClock();
#if LIBAVFORMAT_VERSION_CHECK(57, 33, 0, 33, 0)
codecId = mFormatContext->streams[i]->codecpar->codec_id;
#else
codecId = mFormatContext->streams[i]->codec->codec_id;
#endif
break;
} // end if is video
} // end foreach stream
} // end if have stream
switch ( mMethod ) {
case RTP_UNICAST :
localPorts[0] = requestPorts();
localPorts[1] = localPorts[0]+1;
message = "SETUP "+trackUrl+" RTSP/1.0\r\nTransport: RTP/AVP;unicast;client_port="
+stringtf("%d", localPorts[0] )+"-"+stringtf( "%d", localPorts[1])+"\r\n";
break;
case RTP_MULTICAST :
message = "SETUP "+trackUrl+" RTSP/1.0\r\nTransport: RTP/AVP;multicast\r\n";
break;
case RTP_RTSP :
case RTP_RTSP_HTTP :
message = "SETUP "+trackUrl+" RTSP/1.0\r\nTransport: RTP/AVP/TCP;unicast\r\n";
break;
default:
Panic("Got unexpected method %d", mMethod);
break;
}
if ( !sendCommand(message) )
return;
if ( !recvResponse(response) )
return;
lines = split(response, "\r\n");
std::string session;
int timeout = 0;
char transport[256] = "";
for ( size_t i = 0; i < lines.size(); i++ ) {
if ( ( lines[i].size() > 8 ) && ( lines[i].substr(0, 8) == "Session:" ) ) {
StringVector sessionLine = split(lines[i].substr(9), ";");
session = trimSpaces(sessionLine[0]);
if ( sessionLine.size() == 2 )
sscanf(trimSpaces(sessionLine[1]).c_str(), "timeout=%d", &timeout);
}
sscanf(lines[i].c_str(), "Transport: %s", transport);
}
if ( session.empty() )
Fatal("Unable to get session identifier from response '%s'", response.c_str());
Debug(2, "Got RTSP session %s, timeout %d secs", session.c_str(), timeout);
if ( !transport[0] )
Fatal("Unable to get transport details from response '%s'", response.c_str());
Debug(2, "Got RTSP transport %s", transport);
std::string method = "";
int remotePorts[2] = { 0, 0 };
int remoteChannels[2] = { 0, 0 };
std::string distribution = "";
unsigned long ssrc = 0;
StringVector parts = split( transport, ";" );
for ( size_t i = 0; i < parts.size(); i++ ) {
if ( parts[i] == "unicast" || parts[i] == "multicast" )
distribution = parts[i];
else if ( startsWith( parts[i], "server_port=" ) ) {
method = "RTP/UNICAST";
StringVector subparts = split( parts[i], "=" );
StringVector ports = split( subparts[1], "-" );
remotePorts[0] = strtol( ports[0].c_str(), nullptr, 10 );
remotePorts[1] = strtol( ports[1].c_str(), nullptr, 10 );
} else if ( startsWith( parts[i], "interleaved=" ) ) {
method = "RTP/RTSP";
StringVector subparts = split( parts[i], "=" );
StringVector channels = split( subparts[1], "-" );
remoteChannels[0] = strtol( channels[0].c_str(), nullptr, 10 );
remoteChannels[1] = strtol( channels[1].c_str(), nullptr, 10 );
} else if ( startsWith( parts[i], "port=" ) ) {
method = "RTP/MULTICAST";
StringVector subparts = split( parts[i], "=" );
StringVector ports = split( subparts[1], "-" );
localPorts[0] = strtol( ports[0].c_str(), nullptr, 10 );
localPorts[1] = strtol( ports[1].c_str(), nullptr, 10 );
} else if ( startsWith( parts[i], "destination=" ) ) {
StringVector subparts = split( parts[i], "=" );
localHost = subparts[1];
} else if ( startsWith( parts[i], "ssrc=" ) ) {
StringVector subparts = split( parts[i], "=" );
ssrc = strtoll( subparts[1].c_str(), nullptr, 16 );
}
}
Debug( 2, "RTSP Method is %s", method.c_str() );
Debug( 2, "RTSP Distribution is %s", distribution.c_str() );
Debug( 2, "RTSP SSRC is %lx", ssrc );
Debug( 2, "RTSP Local Host is %s", localHost.c_str() );
Debug( 2, "RTSP Local Ports are %d/%d", localPorts[0], localPorts[1] );
Debug( 2, "RTSP Remote Ports are %d/%d", remotePorts[0], remotePorts[1] );
Debug( 2, "RTSP Remote Channels are %d/%d", remoteChannels[0], remoteChannels[1] );
message = "PLAY "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\nRange: npt=0.000-\r\n";
if ( !sendCommand(message) )
return;
if ( !recvResponse(response) )
return;
lines = split(response, "\r\n");
std::string rtpInfo;
for ( size_t i = 0; i < lines.size(); i++ ) {
if ( ( lines[i].size() > 9 ) && ( lines[i].substr(0, 9) == "RTP-Info:" ) )
rtpInfo = trimSpaces(lines[i].substr(9));
// Check for a timeout again. Some rtsp devices don't send a timeout until after the PLAY command is sent
if ( ( lines[i].size() > 8 ) && ( lines[i].substr(0, 8) == "Session:" ) && ( timeout == 0 ) ) {
StringVector sessionLine = split(lines[i].substr(9), ";");
if ( sessionLine.size() == 2 )
sscanf(trimSpaces(sessionLine[1]).c_str(), "timeout=%d", &timeout);
if ( timeout > 0 )
Debug(2, "Got timeout %d secs from PLAY command response", timeout);
}
}
int seq = 0;
unsigned long rtpTime = 0;
StringVector streams;
if ( rtpInfo.empty() ) {
Debug( 1, "RTP Info Empty. Starting values for Sequence and Rtptime shall be zero.");
} else {
Debug( 2, "Got RTP Info %s", rtpInfo.c_str() );
// More than one stream can be included in the RTP Info
streams = split( rtpInfo.c_str(), "," );
for ( size_t i = 0; i < streams.size(); i++ ) {
// We want the stream that matches the trackUrl we are using
if ( streams[i].find(controlUrl.c_str()) != std::string::npos ) {
// Parse the sequence and rtptime values
parts = split( streams[i].c_str(), ";" );
for ( size_t j = 0; j < parts.size(); j++ ) {
if ( startsWith( parts[j], "seq=" ) ) {
StringVector subparts = split( parts[j], "=" );
seq = strtol( subparts[1].c_str(), nullptr, 10 );
} else if ( startsWith( parts[j], "rtptime=" ) ) {
StringVector subparts = split( parts[j], "=" );
rtpTime = strtol( subparts[1].c_str(), nullptr, 10 );
}
}
break;
}
}
}
Debug( 2, "RTSP Seq is %d", seq );
Debug( 2, "RTSP Rtptime is %ld", rtpTime );
time_t lastKeepalive = time(nullptr);
time_t now;
message = "GET_PARAMETER "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
switch( mMethod ) {
case RTP_UNICAST :
{
RtpSource *source = new RtpSource( mId, "", localPorts[0], mHost, remotePorts[0], ssrc, seq, rtpClock, rtpTime, codecId );
mSources[ssrc] = source;
RtpDataThread rtpDataThread( *this, *source );
RtpCtrlThread rtpCtrlThread( *this, *source );
rtpDataThread.start();
while (!mTerminate) {
now = time(nullptr);
// Send a keepalive message if the server supports this feature and we are close to the timeout expiration
Debug(5, "sendkeepalive %d, timeout %d, now: %d last: %d since: %d",
sendKeepalive, timeout, now, lastKeepalive, (now-lastKeepalive) );
if ( sendKeepalive && (timeout > 0) && ((now-lastKeepalive) > (timeout-5)) ) {
if ( !sendCommand( message ) )
return;
lastKeepalive = now;
}
usleep( 100000 );
}
#if 0
message = "PAUSE "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand( message ) )
return( -1 );
if ( !recvResponse( response ) )
return( -1 );
#endif
message = "TEARDOWN "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand( message ) )
return;
if ( !recvResponse( response ) )
return;
rtpDataThread.stop();
rtpCtrlThread.Stop();
//rtpDataThread.kill( SIGTERM );
//rtpCtrlThread.kill( SIGTERM );
rtpDataThread.join();
rtpCtrlThread.join();
delete mSources[ssrc];
mSources.clear();
releasePorts( localPorts[0] );
break;
}
case RTP_RTSP :
case RTP_RTSP_HTTP :
{
RtpSource *source = new RtpSource( mId, "", remoteChannels[0], mHost, remoteChannels[0], ssrc, seq, rtpClock, rtpTime, codecId );
mSources[ssrc] = source;
// These never actually run
RtpDataThread rtpDataThread( *this, *source );
RtpCtrlThread rtpCtrlThread( *this, *source );
ZM::Select select( double(config.http_timeout)/1000.0 );
select.addReader( &mRtspSocket );
Buffer buffer( ZM_NETWORK_BUFSIZ );
std::string keepaliveMessage = "OPTIONS "+mUrl+" RTSP/1.0\r\n";
std::string keepaliveResponse = "RTSP/1.0 200 OK\r\n";
while (!mTerminate && select.wait() >= 0) {
ZM::Select::CommsList readable = select.getReadable();
if ( readable.size() == 0 ) {
Error( "RTSP timed out" );
break;
}
static char tempBuffer[ZM_NETWORK_BUFSIZ];
ssize_t nBytes = mRtspSocket.recv( tempBuffer, sizeof(tempBuffer) );
buffer.append( tempBuffer, nBytes );
Debug( 4, "Read %zd bytes on sd %d, %d total", nBytes, mRtspSocket.getReadDesc(), buffer.size() );
while( buffer.size() > 0 ) {
if ( buffer[0] == '$' ) {
if ( buffer.size() < 4 )
break;
unsigned char channel = buffer[1];
unsigned short len = ntohs( *((unsigned short *)(buffer+2)) );
Debug( 4, "Got %d bytes left, expecting %d byte packet on channel %d", buffer.size(), len, channel );
if ( (unsigned short)buffer.size() < (len+4) ) {
Debug( 4, "Missing %d bytes, rereading", (len+4)-buffer.size() );
break;
}
if ( channel == remoteChannels[0] ) {
Debug(4, "Got %d bytes on data channel %d, packet length is %d", buffer.size(), channel, len);
Hexdump(4, (char *)buffer, 16);
rtpDataThread.recvPacket(buffer+4, len);
} else if ( channel == remoteChannels[1] ) {
// len = ntohs( *((unsigned short *)(buffer+2)) );
// Debug( 4, "Got %d bytes on control channel %d", nBytes, channel );
Debug(4, "Got %d bytes on control channel %d, packet length is %d", buffer.size(), channel, len);
Hexdump(4, (char *)buffer, 16);
rtpCtrlThread.recvPackets(buffer+4, len);
} else {
Error("Unexpected channel selector %d in RTSP interleaved data", buffer[1]);
buffer.clear();
break;
}
buffer.consume(len+4);
nBytes -= len+4;
} else {
if ( keepaliveResponse.compare( 0, keepaliveResponse.size(), (char *)buffer, keepaliveResponse.size() ) == 0 ) {
Debug( 4, "Got keepalive response '%s'", (char *)buffer );
//buffer.consume( keepaliveResponse.size() );
if ( char *charPtr = (char *)memchr( (char *)buffer, '$', buffer.size() ) ) {
int discardBytes = charPtr-(char *)buffer;
buffer -= discardBytes;
} else {
buffer.clear();
}
} else {
if ( char *charPtr = (char *)memchr( (char *)buffer, '$', buffer.size() ) ) {
int discardBytes = charPtr-(char *)buffer;
Warning( "Unexpected format RTSP interleaved data, resyncing by %d bytes", discardBytes );
Hexdump( -1, (char *)buffer, discardBytes );
buffer -= discardBytes;
} else {
Warning( "Unexpected format RTSP interleaved data, dumping %d bytes", buffer.size() );
Hexdump( -1, (char *)buffer, 32 );
buffer.clear();
}
}
}
}
// Send a keepalive message if the server supports this feature and we are close to the timeout expiration
// FIXME: Is this really necessary when using tcp ?
now = time(nullptr);
// Send a keepalive message if the server supports this feature and we are close to the timeout expiration
Debug(5, "sendkeepalive %d, timeout %d, now: %d last: %d since: %d", sendKeepalive, timeout, now, lastKeepalive, (now-lastKeepalive) );
if ( sendKeepalive && (timeout > 0) && ((now-lastKeepalive) > (timeout-5)) )
{
if ( !sendCommand( message ) )
return;
lastKeepalive = now;
}
buffer.tidy( 1 );
}
#if 0
message = "PAUSE "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand( message ) )
return( -1 );
if ( !recvResponse( response ) )
return( -1 );
#endif
// Send a teardown message but don't expect a response as this may not be implemented on the server when using TCP
message = "TEARDOWN "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand( message ) )
return;
delete mSources[ssrc];
mSources.clear();
break;
}
case RTP_MULTICAST :
{
RtpSource *source = new RtpSource( mId, localHost, localPorts[0], mHost, remotePorts[0], ssrc, seq, rtpClock, rtpTime, codecId );
mSources[ssrc] = source;
RtpDataThread rtpDataThread( *this, *source );
RtpCtrlThread rtpCtrlThread( *this, *source );
rtpDataThread.start();
while (!mTerminate) {
// Send a keepalive message if the server supports this feature and we are close to the timeout expiration
if ( sendKeepalive && (timeout > 0) && ((time(nullptr)-lastKeepalive) > (timeout-5)) ) {
if ( !sendCommand( message ) )
return;
lastKeepalive = time(nullptr);
}
usleep(100000);
}
#if 0
message = "PAUSE "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand( message ) )
return( -1 );
if ( !recvResponse( response ) )
return( -1 );
#endif
message = "TEARDOWN "+mUrl+" RTSP/1.0\r\nSession: "+session+"\r\n";
if ( !sendCommand(message) )
return;
if ( !recvResponse(response) )
return;
rtpDataThread.stop();
rtpCtrlThread.Stop();
rtpDataThread.join();
delete mSources[ssrc];
mSources.clear();
releasePorts( localPorts[0] );
break;
}
default:
Panic("Got unexpected method %d", mMethod);
break;
}
return;
}
#endif // HAVE_LIBAVFORMAT
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