RtpSession* rtp_listen(const char *remote_addr, unsigned short remote_port) {
RtpSession *rtpSession;
recv_ts=0;
send_ts=0;
rtpSession=rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_scheduling_mode(rtpSession,TRUE);
rtp_session_set_blocking_mode(rtpSession,FALSE);
#ifdef HAVE_RTCP_ORTP
rtp_session_set_local_addr(rtpSession,INADDR_DSPSERVER,LOCAL_RTP_PORT,LOCAL_RTCP_PORT);
#else
rtp_session_set_local_addr(rtpSession,INADDR_DSPSERVER,LOCAL_RTP_PORT);
#endif
rtp_session_set_remote_addr(rtpSession, remote_addr, remote_port );
rtp_session_set_connected_mode(rtpSession,TRUE);
rtp_session_set_symmetric_rtp(rtpSession,TRUE);
rtp_session_enable_adaptive_jitter_compensation(rtpSession,adapt);
rtp_session_set_jitter_compensation(rtpSession,jittcomp);
rtp_session_set_payload_type(rtpSession,0);
rtp_session_set_time_jump_limit (rtpSession, timestamp_jump_limit);
//rtp_session_signal_connect(rtpSession,"ssrc_changed",(RtpCallback)ssrc_cb,0);
rtp_session_signal_connect(rtpSession,"ssrc_changed",(RtpCallback)rtp_session_reset,0);
rtp_session_signal_connect(rtpSession,"timestamp_jump",(RtpCallback)rtp_session_resync,0);
rtp_listening = 1;
rtp_connected = 1;
return rtpSession;
}
int main(int argc, char *argv[])
{
RtpSession *session;
unsigned char buffer[160];
int err;
FILE *outfile;
uint32_t ts=0;
int have_more;
if (argc<3){
printf("%s",help);
return -1;
}
ortp_init();
ortp_scheduler_init();
/* set the telephony event payload type to 96 in the av profile.*/
rtp_profile_set_payload(&av_profile,96,&payload_type_telephone_event);
session=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session,1);
rtp_session_set_blocking_mode(session,1);
rtp_session_set_local_addr(session,"0.0.0.0",atoi(argv[2]));
rtp_session_set_payload_type(session,0);
/* register for telephony events */
rtp_session_signal_connect(session,"telephone-event",(RtpCallback)recv_tev_cb,0);
outfile=fopen(argv[1],"wb");
if (outfile==NULL) {
perror("Cannot open file");
return -1;
}
signal(SIGINT,stophandler);
while(runcond)
{
have_more=1;
while (have_more){
err=rtp_session_recv_with_ts(session,buffer,160,ts,&have_more);
if (err>0) {
size_t ret = fwrite(buffer,1,err,outfile);
assert( ret == err );
}
}
ts+=160;
//ortp_message("Receiving packet.");
}
fclose(outfile);
rtp_session_destroy(session);
ortp_exit();
ortp_global_stats_display();
printf("Total dtmf events received: %i\n",dtmf_count);
return 0;
}
RtpSession * create_duplex_rtpsession( int locport, bool_t ipv6){
RtpSession *rtpr;
rtpr=rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_recv_buf_size(rtpr,MAX_RTP_SIZE);
rtp_session_set_scheduling_mode(rtpr,0);
rtp_session_set_blocking_mode(rtpr,0);
rtp_session_enable_adaptive_jitter_compensation(rtpr,TRUE);
rtp_session_set_symmetric_rtp(rtpr,TRUE);
rtp_session_set_local_addr(rtpr,ipv6 ? "::" : "0.0.0.0",locport);
rtp_session_signal_connect(rtpr,"timestamp_jump",(RtpCallback)rtp_session_resync,(long)NULL);
rtp_session_signal_connect(rtpr,"ssrc_changed",(RtpCallback)rtp_session_resync,(long)NULL);
return rtpr;
}
RtpSession * create_duplex_rtpsession(int loc_rtp_port, int loc_rtcp_port, bool_t ipv6) {
RtpSession *rtpr;
rtpr = rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_recv_buf_size(rtpr, MAX(ms_get_mtu() , MS_MINIMAL_MTU));
rtp_session_set_scheduling_mode(rtpr, 0);
rtp_session_set_blocking_mode(rtpr, 0);
rtp_session_enable_adaptive_jitter_compensation(rtpr, TRUE);
rtp_session_set_symmetric_rtp(rtpr, TRUE);
rtp_session_set_local_addr(rtpr, ipv6 ? "::" : "0.0.0.0", loc_rtp_port, loc_rtcp_port);
rtp_session_signal_connect(rtpr, "timestamp_jump", (RtpCallback)rtp_session_resync, (long)NULL);
rtp_session_signal_connect(rtpr, "ssrc_changed", (RtpCallback)rtp_session_resync, (long)NULL);
rtp_session_set_ssrc_changed_threshold(rtpr, 0);
disable_checksums(rtp_session_get_rtp_socket(rtpr));
return rtpr;
}
static void parse_cmd_line(int argc, char **argv, RtpSession* session)
{
char* local_address = NULL;
int local_port = DEFAULT_RTP_PORT;
int ch;
// Parse the options/switches
while ((ch = getopt(argc, argv, "h?")) != -1)
switch (ch) {
// case 'T': FIXME: timeout?
case '?':
case 'h':
default:
usage();
}
// Parse the ip address and port
if (argc > optind) {
local_address = argv[optind];
optind++;
// Look for port in the address
char* portstr = strchr(local_address, '/');
if (portstr && strlen(portstr)>1) {
*portstr = 0;
portstr++;
local_port = atoi(portstr);
}
} else {
MAST_ERROR("missing address/port to receive from");
usage();
}
// Make sure the port number is even
if (local_port%2 == 1) local_port--;
// Set the remote address/port
if (rtp_session_set_local_addr( session, local_address, local_port )) {
MAST_FATAL("Failed to set receive address/port (%s/%u)", local_address, local_port);
} else {
printf( "Receive address: %s/%u\n", local_address, local_port );
}
}
static int rtp_setup( struct rtp_spook_input *conf )
{
// ??RTP??
conf->session=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(conf->session,1);
rtp_session_set_blocking_mode(conf->session,1);
rtp_session_set_local_addr(conf->session,"0.0.0.0", conf->localport);
rtp_session_set_connected_mode(conf->session,TRUE);
rtp_session_set_symmetric_rtp(conf->session,TRUE);
rtp_session_enable_adaptive_jitter_compensation(conf->session,TRUE);
rtp_session_set_jitter_compensation(conf->session,40);
rtp_session_set_payload_type(conf->session,0);
rtp_session_signal_connect(conf->session,"ssrc_changed",(RtpCallback)ssrc_cb,0);
rtp_session_signal_connect(conf->session,"ssrc_changed",(RtpCallback)rtp_session_reset,0);
return 0;
}
RtpSession * ms_create_duplex_rtp_session(const char* local_ip, int loc_rtp_port, int loc_rtcp_port, int mtu) {
RtpSession *rtpr;
rtpr = rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_recv_buf_size(rtpr, MAX(mtu , MS_MINIMAL_MTU));
rtp_session_set_scheduling_mode(rtpr, 0);
rtp_session_set_blocking_mode(rtpr, 0);
rtp_session_enable_adaptive_jitter_compensation(rtpr, TRUE);
rtp_session_set_symmetric_rtp(rtpr, TRUE);
rtp_session_set_local_addr(rtpr, local_ip, loc_rtp_port, loc_rtcp_port);
rtp_session_signal_connect(rtpr, "timestamp_jump", (RtpCallback)rtp_session_resync, NULL);
rtp_session_signal_connect(rtpr, "ssrc_changed", (RtpCallback)rtp_session_resync, NULL);
rtp_session_set_ssrc_changed_threshold(rtpr, 0);
rtp_session_set_rtcp_report_interval(rtpr, 2500); /* At the beginning of the session send more reports. */
rtp_session_set_multicast_loopback(rtpr,TRUE); /*very useful, specially for testing purposes*/
disable_checksums(rtp_session_get_rtp_socket(rtpr));
return rtpr;
}
void MastTool::set_session_address( const char* in_addr )
{
char* address = strdup( in_addr );
char* portstr = NULL;
int port = DEFAULT_RTP_PORT;
// Look for port in the address
portstr = strchr(address, '/');
if (portstr && strlen(portstr)>1) {
*portstr = 0;
portstr++;
port = atoi(portstr);
}
// Make sure the port number is even
if (port%2 == 1) port--;
// Send of recieve address?
if (this->session->mode == RTP_SESSION_RECVONLY) {
// Set the local address/port
if (rtp_session_set_local_addr( session, address, port )) {
MAST_FATAL("Failed to set local address/port (%s/%d)", address, port);
} else {
MAST_INFO( "Local address: %s/%d", address, port );
}
} else if (this->session->mode == RTP_SESSION_SENDONLY) {
// Set the remote address/port
if (rtp_session_set_remote_addr( session, address, port )) {
MAST_FATAL("Failed to set remote address/port (%s/%d)", address, port);
} else {
MAST_INFO( "Remote address: %s/%d", address, port );
}
} else {
MAST_FATAL("Mode unsupported by MastTool: %d", this->session->mode);
}
free( address );
}
MSFilter *set_MSFilter(EndPoint *endpoint, int type, FlowDirections *fdir){
MSFilter *filter;
RtpSession *rtps;
switch(endpoint->protocol){
case MEDIA_RTP:
rtps = rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_local_addr(rtps,"0.0.0.0",8000);
rtp_session_set_scheduling_mode(rtps,0);
rtp_session_set_blocking_mode(rtps,0);
if(type == 1){
filter = ms_rtp_recv_new();
ms_rtp_recv_set_session(MS_RTP_RECV(filter), rtps);
fdir->rtpSessions = g_list_append(fdir->rtpSessions, rtps);
return filter;
}
else{
//ms_rtp_send_new
}
case MEDIA_OSS:
if(type == 1){
filter = ms_oss_read_new();
ms_sound_read_set_device(MS_SOUND_READ(filter),0);
return filter;
}
else{
filter = ms_oss_write_new();
ms_sound_write_set_device(MS_SOUND_WRITE(filter),0);
return filter;
}
case MEDIA_FILE:
if(type == 1){
filter = ms_read_new(endpoint->file);
return filter;
}
if(type == 0){
filter = ms_write_new(endpoint->file);
return filter;
}
}
}
int yy_init( int port) {
RtpSession *session;
ortp_init();
ortp_scheduler_init();
ortp_set_log_level_mask(
ORTP_DEBUG | ORTP_MESSAGE | ORTP_WARNING | ORTP_ERROR);
session = rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session, 1);
rtp_session_set_blocking_mode(session, 1);
rtp_session_set_local_addr(session, "0.0.0.0", port);
rtp_session_set_connected_mode(session, TRUE);
rtp_session_set_symmetric_rtp(session, TRUE);
// rtp_session_enable_adaptive_jitter_compensation(session,adapt);
// rtp_session_set_jitter_compensation(session,jittcomp);
rtp_session_set_payload_type(session, 0);
return (int) session;
}
void VodWnd::vod(const char *ip, int rtp_port, int rtcp_port)
{
server_ip_ = ip;
server_rtp_port_ = rtp_port;
server_rtcp_port_ = rtcp_port;
rtp_ = rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_payload_type(rtp_, 100);
rtp_session_set_local_addr(rtp_, util_get_myip(), 0, 0);
rtp_session_set_remote_addr_and_port(rtp_, ip, rtp_port, rtcp_port);
JBParameters jb;
jb.adaptive = 1;
jb.max_packets = 3000;
jb.max_size = -1;
jb.min_size = jb.nom_size = 300;
rtp_session_set_jitter_buffer_params(rtp_, &jb);
rtp_session_enable_jitter_buffer(rtp_, 0);
evq_ = ortp_ev_queue_new();
rtp_session_register_event_queue(rtp_, evq_);
ticker_ = ms_ticker_new();
filter_rtp_ = ms_filter_new(MS_RTP_RECV_ID);
ms_filter_call_method(filter_rtp_, MS_RTP_RECV_SET_SESSION, rtp_);
filter_decoder_ = ms_filter_new(MS_H264_DEC_ID);
ZonekeyYUVSinkCallbackParam cbp;
cbp.ctx = this;
cbp.push = cb_yuv;
filter_sink_ = ms_filter_new_from_name("ZonekeyYUVSink");
ms_filter_call_method(filter_sink_, ZONEKEY_METHOD_YUV_SINK_SET_CALLBACK_PARAM, &cbp);
ms_filter_link(filter_rtp_, 0, filter_decoder_, 0);
ms_filter_link(filter_decoder_, 0, filter_sink_, 0);
ms_ticker_attach(ticker_, filter_rtp_);
}
bool myAudioStream::init_stream()
{
/** Init stream **/
stream = (AudioStream *)ms_new0(AudioStream,1);
if (stream == 0) {
ms_error("Failed to create new stream");
return false;
}
/** Configure stream **/
stream->play_dtmfs = false;
stream->use_gc = false;
stream->use_agc = false;
stream->use_ng = false;
/** Init RTP session **/
stream->session = rtp_session_new(RTP_SESSION_RECVONLY);
if (stream->session == 0) {
ms_error("Failed to create new RTP session");
return false;
}
/** Configure RTP session **/
/* Create profile to use in session */
RtpProfile *rtp_profile = rtp_profile_new("My profile");
if (rtp_profile == 0) {
ms_error("Failed to create new RTP profile");
return false;
}
rtp_session_set_profile(stream->session, rtp_profile);
/* Define some payloads */
rtp_profile_set_payload(rtp_profile,110,&payload_type_speex_nb);
rtp_profile_set_payload(rtp_profile,111,&payload_type_speex_wb);
rtp_profile_set_payload(rtp_profile,112,&payload_type_speex_uwb);
/* Set local address and port */
rtp_session_set_local_addr(stream->session, "0.0.0.0", 1337);
return true;
}
int os_sound_start(jcall_t *ca, int port)
{
int p,cond;
int bits = 16;
int stereo = 0; /* 0 is mono */
int rate = 8000;
int blocksize = 512;
if (port == 0)
return -1;
fd=open(AUDIO_DEVICE, O_RDWR|O_NONBLOCK);
if (fd<0) return -EWOULDBLOCK;
fcntl(fd, F_SETFL, fcntl(fd, F_GETFL)&~O_NONBLOCK);
ioctl(fd, SNDCTL_DSP_RESET, 0);
p = bits; /* 16 bits */
ioctl(fd, SNDCTL_DSP_SAMPLESIZE, &p);
p = stereo; /* number of channels */
ioctl(fd, SNDCTL_DSP_CHANNELS, &p);
#ifdef USE_PCM
p = AFMT_S16_NE; /* choose LE or BE (endian) */
ioctl(fd, SNDCTL_DSP_SETFMT, &p);
#else
if (ca->payload==0)
p = AFMT_MU_LAW;
else if (ca->payload==8)
p = AFMT_A_LAW;
else if (ca->payload==110||ca->payload==111)
p = AFMT_S16_NE; /* choose LE or BE (endian) */
ioctl(fd, SNDCTL_DSP_SETFMT, &p);
#endif
p = rate; /* rate in khz*/
ioctl(fd, SNDCTL_DSP_SPEED, &p);
ioctl(fd, SNDCTL_DSP_GETBLKSIZE, &min_size);
if (min_size>blocksize)
{
cond=1;
p=min_size/blocksize;
while(cond)
{
int i=ioctl(fd, SNDCTL_DSP_SUBDIVIDE, &p);
/* printf("SUB_DIVIDE said error=%i,errno=%i\n",i,errno); */
if ((i==0) || (p==1)) cond=0;
else p=p/2;
}
}
ioctl(fd, SNDCTL_DSP_GETBLKSIZE, &min_size);
if (min_size>blocksize)
{
printf("dsp block size set to %i.",min_size);
exit(0);
}else{
/* no need to access the card with less latency than needed*/
min_size=blocksize;
}
printf("blocksize = %i\n", min_size);
#ifdef SPEEX_SUPPORT
{
float vbr_qual;
int value;
int quality;
ca->speex_enc = speex_encoder_init(&speex_nb_mode); /* 8kHz */
/* 16kHz speex_enc = speex_encoder_init(&speex_wb_mode); */
/* 32kHz speex_enc = speex_encoder_init(&speex_uwb_mode); */
ca->speex_dec = speex_decoder_init(&speex_nb_mode);
value = 1;
speex_decoder_ctl(ca->speex_dec, SPEEX_SET_ENH, &value);
quality = 8; /* 15kb */
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_QUALITY, &quality);
/* ou bien le bit rate:
value = 15000; // 15kb
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_BITRATE, &value);
*/
/* silence suppression (VAD)
value = 1; // 15kb
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_VAD, &value);
Discontinuous transmission (DTX)
value = 1; // 15kb
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_DTX, &value);
Variable Bit Rate (VBR)
value = 1; // 15kb
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_VBR, &value);
vbr_qual = 5,0; // between 0 and 10
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_VBR_QUALITY, &vbr_qual);
Average bit rate: (ABR)
value = 15000; // 15kb
speex_encoder_ctl(ca->speex_enc, SPEEX_SET_ABR, &value);
*/
speex_encoder_ctl(ca->speex_enc, SPEEX_GET_FRAME_SIZE,
&ca->speex_fsize);
ca->speex_nb_packet = 1;
speex_bits_init(&(ca->speex_bits));
speex_bits_init(&(ca->dec_speex_bits));
}
#endif
ca->rtp_session = rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_scheduling_mode(ca->rtp_session, 1); /* yes */
rtp_session_set_blocking_mode(ca->rtp_session, 1);
rtp_session_set_profile(ca->rtp_session, &av_profile);
rtp_session_set_jitter_compensation(ca->rtp_session, 60);
rtp_session_set_local_addr(ca->rtp_session, _localip, port);
rtp_session_set_remote_addr(ca->rtp_session,
ca->remote_sdp_audio_ip,
ca->remote_sdp_audio_port);
rtp_session_set_payload_type(ca->rtp_session, ca->payload);
rtp_session_signal_connect(ca->rtp_session, "telephone-event",
(RtpCallback)rcv_telephone_event, ca);
/* enter a loop (thread?) to send AUDIO data with
rtp_session_send_with_ts(ca->rtp_session, data, data_length, timestamp);
*/
ca->audio_thread = osip_thread_create(20000,
os_sound_start_thread, ca);
ca->out_audio_thread = osip_thread_create(20000,
os_sound_start_out_thread, ca);
return 0;
}
int main(int argc, char*argv[])
{
RtpSession *session;
unsigned char buffer[32];
int err;
uint32_t ts=0;
int stream_received=0;
FILE *outfile;
int local_port;
int have_more;
int i;
int format=0;
int soundcard=0;
int sound_fd=0;
int jittcomp=40;
bool_t adapt=TRUE;
/* init the lib */
if (argc<3){
printf("%s",help);
return -1;
}
local_port=atoi(argv[2]);
if (local_port<=0) {
printf("%s",help);
return -1;
}
for (i=3;i<argc;i++)
{
if (strcmp(argv[i],"--noadapt")==0) adapt=FALSE;
if (strcmp(argv[i],"--format")==0){
i++;
if (i<argc){
if (strcmp(argv[i],"mulaw")==0){
format=MULAW;
}else
if (strcmp(argv[i],"alaw")==0){
format=ALAW;
}else{
printf("Unsupported format %s\n",argv[i]);
return -1;
}
}
}
else if (strcmp(argv[i],"--soundcard")==0){
soundcard=1;
}
else if (strcmp(argv[i],"--with-jitter")==0){
i++;
if (i<argc){
jittcomp=atoi(argv[i]);
printf("Using a jitter buffer of %i milliseconds.\n",jittcomp);
}
}
}
outfile=fopen(argv[1],"wb");
if (outfile==NULL) {
perror("Cannot open file for writing");
return -1;
}
if (soundcard){
sound_fd=sound_init(format);
}
ortp_init();
ortp_scheduler_init();
ortp_set_log_level_mask(ORTP_DEBUG|ORTP_MESSAGE|ORTP_WARNING|ORTP_ERROR);
signal(SIGINT,stop_handler);
session=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session,1);
rtp_session_set_blocking_mode(session,1);
rtp_session_set_local_addr(session,"0.0.0.0",atoi(argv[2]));
rtp_session_set_connected_mode(session,TRUE);
rtp_session_set_symmetric_rtp(session,TRUE);
rtp_session_enable_adaptive_jitter_compensation(session,adapt);
rtp_session_set_jitter_compensation(session,jittcomp);
rtp_session_set_payload_type(session,0);
rtp_session_signal_connect(session,"ssrc_changed",(RtpCallback)ssrc_cb,0);
rtp_session_signal_connect(session,"ssrc_changed",(RtpCallback)rtp_session_reset,0);
fwrite("#!AMR\n",1,6,outfile);
// write(sound_fd,"#!AMR\n",err);
while(cond)
{
have_more=1;
while (have_more){
err=rtp_session_recv_with_ts(session,buffer,32,ts,&have_more);
if (err>0) stream_received=1;
/* this is to avoid to write to disk some silence before the first RTP packet is returned*/
if ((stream_received) && (err>0)) {
size_t ret = fwrite(buffer,1,err,outfile);
int ii;
for(ii =0 ; ii < 32 ; ii ++)
printf("%x " ,buffer[ii]);
printf("\n");
// while(1);
if (sound_fd>0){
ret = write(sound_fd,buffer,err);
if (ret==-1){
fprintf(stderr,"write to sound card failed (%s)",strerror(errno));
}
}
}
}
ts+=160;
//ortp_message("Receiving packet.");
}
rtp_session_destroy(session);
ortp_exit();
ortp_global_stats_display();
return 0;
}
int main(int argc, char **argv)
{
ortp_init();
ms_init();
zk_xmpp_uac_init();
ortp_set_log_level_mask(ORTP_MESSAGE);
if (argc < 2) {
fprintf(stderr, "usage: %s <zqpkt src url> [s]\n", argv[0]);
return -1;
}
bool stream_mode = false;
if (argc == 3 && argv[2][0] == 's')
stream_mode = true;
_stream_mode = stream_mode;
if (stream_mode)
fprintf(stdout, "=== STREAMING MODE ===\n\n");
else
fprintf(stdout, "=== SOURCING MODE ===\n\n");
_url = argv[1];
_env = CreateEvent(0, 0, 0, 0);
fprintf(stdout, "%s: using zqpkt src '%s', just wait mcu .....\n", argv[0], argv[1]);
// 使用 normaluser 登录
cb_xmpp_uac cbs = { 0, 0, 0, 0, cb_connect_notify };
_uac = zk_xmpp_uac_log_in(get_user_jid(), "ddkk1212", &cbs, 0);
WaitForSingleObject(_env, 10000);
if (_sid == -1) {
fprintf(stderr, ":( somthing err, exit!\n");
}
else {
SetConsoleCtrlHandler(signal_ctrl_c, 1);
const char *src_url = argv[1];
const char *target_ip = _ip.c_str();
int target_port = _rtp_port;
int target_port2 = _rtcp_port;
//fprintf(stdout, "target ip=%s\ntarget port=%d\n\n", target_ip, target_port);
// only support h264
rtp_profile_set_payload(&av_profile,100, &payload_type_h264);
/// 使用 zonekey.h264.source filter
zonekey_h264_source_register();
MSFilterDesc *desc = ms_filter_lookup_by_name("ZonekeyH264Source");
MSFilter *source = ms_filter_new_from_desc(desc);
if (_stream_mode)
zonekey_yuv_sink_register();
// 获取 writer_params
ZonekeyH264SourceWriterParam writer_param;
ms_filter_call_method(source, ZONEKEY_METHOD_H264_SOURCE_GET_WRITER_PARAM, &writer_param);
// RTP Session
RtpSession *rtpsess = rtp_session_new(RTP_SESSION_SENDRECV); //
rtp_session_set_local_addr(rtpsess, "0.0.0.0", -1, -1); // 随机端口
rtp_session_set_remote_addr_and_port(rtpsess, target_ip, target_port, target_port2);
rtp_session_set_payload_type(rtpsess, 100); // h264
JBParameters jb;
jb.adaptive = 1;
jb.max_packets = 3000;
jb.max_size = -1;
jb.min_size = jb.nom_size = 300;
rtp_session_set_jitter_buffer_params(rtpsess, &jb);
// disable video jitter control
rtp_session_enable_jitter_buffer(rtpsess, 0);
/// rtp sender
MSFilter *rtp_sender = ms_filter_new(MS_RTP_SEND_ID);
ms_filter_call_method(rtp_sender, MS_RTP_SEND_SET_SESSION, rtpsess);
// connect source --> rtp sender
ms_filter_link(source, 0, rtp_sender, 0);
// MSTicker
MSTicker *ticker = ms_ticker_new();
// attach ticker
ms_ticker_attach(ticker, source);
if (_stream_mode) {
// FIXME: recv, but ....
MSFilter *rtp_recver = ms_filter_new(MS_RTP_RECV_ID);
ms_filter_call_method(rtp_recver, MS_RTP_RECV_SET_SESSION, rtpsess);
MSFilter *decoder = ms_filter_new(MS_H264_DEC_ID);
MSFilter *sink = ms_filter_new_from_name("ZonekeyYUVSink");
ms_filter_link(rtp_recver, 0, decoder, 0);
ms_filter_link(decoder, 0, sink, 0);
MSTicker *tk = ms_ticker_new();
//ms_ticker_attach(tk, rtp_recver);
}
// 利用 libzqpkt 接收 h264 数据,并且调用 zonekey h264 source 的 writer()
void *zqp = 0;
if (zqpsrc_open(&zqp, src_url) < 0) {
fprintf(stderr, "to open src err\n");
return -1;
}
while (!_quit) {
zq_pkt *pkt = zqpsrc_getpkt(zqp);
if (pkt) {
if (pkt->type == 1) {
// h264
writer_param.write(writer_param.ctx, pkt->ptr, pkt->len, pkt->pts / 45000.0);
}
zqpsrc_freepkt(zqp, pkt);
}
else
break;
}
// 发送删除 sid 的命令
char options[128], *cmd="test.fc.del_source";
if (_stream_mode) {
snprintf(options, sizeof(options), "streamid=%d", _sid);
cmd = "test.dc.del_stream";
}
else
snprintf(options, sizeof(options), "sid=%d", _sid);
zk_xmpp_uac_send_cmd(_uac, get_mcu_jid(), cmd, options, 0, cb_response);
fprintf(stderr, "\n\nen. to del sid=%d\n\n", _sid);
zqpsrc_close(zqp);
fprintf(stderr, "END!\n");
WaitForSingleObject(_env, 3000); // 等待 test.fc.de_source 发送成功
}
return 0;
}
int main(int argc, char *argv[])
{
RtpSession *session[STREAMS_COUNT];
gint i;
gint filefd[STREAMS_COUNT];
gint port;
guint32 user_ts=0;
gint channels;
SessionSet *set;
gchar *filename;
if (argc<4){
printf(help);
return -1;
}
channels=atoi(argv[3]);
if (channels==0){
printf(help);
return -1;
}
ortp_init();
ortp_scheduler_init();
ortp_set_debug_file("oRTP",NULL);
/* set the telephony event payload type to 96 in the av profile.*/
rtp_profile_set_payload(&av_profile,96,&payload_type_telephone_event);
port=atoi(argv[2]);
p_channel_id = (int *)g_malloc(channels*sizeof(int));
for (i=0;i<channels;i++){
session[i]=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session[i],1);
rtp_session_set_blocking_mode(session[i],0);
rtp_session_set_local_addr(session[i],"0.0.0.0",port);
rtp_session_set_recv_payload_type(session[i],0);
rtp_session_set_recv_buf_size(session[i],256);
p_channel_id[i] = i;
/* register for telephony events */
rtp_session_signal_connect(session[i],"telephone-event",(RtpCallback)recv_tev_cb,&p_channel_id[i]);
port+=2;
}
filename=g_malloc(strlen(argv[1])+8);
for (i=0;i<channels;i++){
sprintf(filename,"%s%4.4d.dat",argv[1],i);
#ifndef _WIN32
filefd[i]=open(filename,O_WRONLY | O_CREAT | O_TRUNC, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP);
#else
filefd[i]=open(filename,_O_BINARY | O_WRONLY | O_CREAT | O_TRUNC);
#endif
if (filefd[i]<0) g_error("Could not open %s for writing: %s",filename,strerror(errno));
}
signal(SIGINT,stophandler);
/* create a set */
set=session_set_new();
while(runcond)
{
int k;
for (k=0;k<channels;k++){
/* add the session to the set */
session_set_set(set,session[k]);
}
/* and then suspend the process by selecting() */
session_set_select(set,NULL,NULL);
for (k=0;k<channels;k++){
if (session_set_is_set(set,session[k])){
rtp2disk(session[k],user_ts,filefd[k]);
}
}
user_ts+=160;
}
for (i=0;i<channels;i++){
close(filefd[i]);
rtp_session_destroy(session[i]);
}
session_set_destroy(set);
g_free(p_channel_id);
g_free(filename);
ortp_exit();
ortp_global_stats_display();
return 0;
}
int main(int argc, char *argv[])
{
RtpSession *session[STREAMS_COUNT];
int i;
int filefd[STREAMS_COUNT];
int port;
uint32_t user_ts=0;
int channels;
SessionSet *set;
char *filename;
if (argc<4){
printf("%s",help);
return -1;
}
channels=atoi(argv[3]);
if (channels==0){
printf("%s",help);
return -1;
}
ortp_init();
ortp_scheduler_init();
port=atoi(argv[2]);
recvbuf=ortp_malloc(160);
for (i=0;i<channels;i++){
session[i]=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session[i],1);
rtp_session_set_blocking_mode(session[i],0);
rtp_session_set_local_addr(session[i],"0.0.0.0",port,port+1);
rtp_session_set_payload_type(session[i],0);
rtp_session_enable_adaptive_jitter_compensation(session[i], TRUE);
rtp_session_set_recv_buf_size(session[i],256);
port+=2;
}
filename=ortp_malloc(strlen(argv[1])+15);
for (i=0;i<channels;i++){
sprintf(filename,"%s%4.4d.dat",argv[1],i);
#ifndef _WIN32
filefd[i]=open(filename,O_WRONLY | O_CREAT | O_TRUNC, S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP);
#else
filefd[i]=open(filename,_O_BINARY | O_WRONLY | O_CREAT | O_TRUNC);
#endif
if (filefd[i]<0) ortp_error("Could not open %s for writing: %s",filename,strerror(errno));
}
signal(SIGINT,stophandler);
/* create a set */
set=session_set_new();
while(runcond)
{
int k;
for (k=0;k<channels;k++){
/* add the session to the set */
session_set_set(set,session[k]);
//printf("session_set_set %d\n", k);
}
/* and then suspend the process by selecting() */
k=session_set_select(set,NULL,NULL);
if (k==0) printf("warning: session_set_select() is returning 0...\n");
for (k=0;k<channels;k++){
if (session_set_is_set(set,session[k])){
rtp2disk(session[k],user_ts,filefd[k]);
//printf("session_set_is_set %d\n", k);
} else {
//printf("warning: session %i is not set !\n",k);
}
}
user_ts+=160;
}
printf("Exiting\n");
for (i=0;i<channels;i++){
close(filefd[i]);
rtp_session_destroy(session[i]);
}
session_set_destroy(set);
ortp_free(filename);
ortp_exit();
ortp_global_stats_display();
ortp_free(recvbuf);
return 0;
}
void CameraStream::init()
{
/** 获取第一帧图像,初始化 sws_,创建 h264 encoder ....
*/
IplImage *img = cvQueryFrame(cap_);
// FIXME: 未必是 rgb24 吧???
sws_ = sws_getContext(img->width, img->height, PIX_FMT_RGB24, WIDTH, HEIGHT, PIX_FMT_YUV420P, SWS_FAST_BILINEAR, 0, 0, 0);
x264_param_t param;
x264_param_default_preset(¶m, "veryfast", "zerolatency");
param.i_threads = 0;
param.i_width = WIDTH;
param.i_height = HEIGHT;
param.i_keyint_max = FPS * 2;
param.i_fps_den = 1;
param.i_fps_num = FPS;
param.i_slice_max_size = 1300;
param.b_repeat_headers = 1;
param.b_annexb = 1;
param.rc.i_rc_method = X264_RC_ABR;
param.rc.i_bitrate = KBPS;
param.rc.i_vbv_max_bitrate = KBPS*1.1;
encoder_ = x264_encoder_open(¶m);
avpicture_alloc(&pic_, PIX_FMT_YUV420P, WIDTH, HEIGHT);
rtp_ = rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_payload_type(rtp_, 100);
rtp_session_set_remote_addr_and_port(rtp_, server_ip_.c_str(), server_rtp_port_, server_rtcp_port_);
rtp_session_set_local_addr(rtp_, util_get_myip(), 0, 0);
JBParameters jb;
jb.adaptive = 1;
jb.max_packets = 500;
jb.max_size = -1;
jb.min_size = jb.nom_size = 300;
rtp_session_set_jitter_buffer_params(rtp_, &jb);
filter_rtp_sender_ = ms_filter_new(MS_RTP_SEND_ID);
ms_filter_call_method(filter_rtp_sender_, MS_RTP_SEND_SET_SESSION, rtp_);
filter_h264_sender_ = ms_filter_new_from_name("ZonekeyH264Source");
ms_filter_call_method(filter_h264_sender_, ZONEKEY_METHOD_H264_SOURCE_GET_WRITER_PARAM, &sender_params_);
filter_rtp_recver_ = ms_filter_new(MS_RTP_RECV_ID);
ms_filter_call_method(filter_rtp_recver_, MS_RTP_RECV_SET_SESSION, rtp_);
filter_decoder_ = ms_filter_new(MS_H264_DEC_ID);
filter_yuv_sink_ = ms_filter_new_from_name("ZonekeyYUVSink");
// TODO: 显示 ...
ms_filter_link(filter_rtp_recver_, 0, filter_decoder_, 0);
ms_filter_link(filter_decoder_, 0, filter_yuv_sink_, 0);
ticker_recver_ = ms_ticker_new();
ms_ticker_attach(ticker_recver_, filter_rtp_recver_);
ms_filter_link(filter_h264_sender_, 0, filter_rtp_sender_, 0);
ticker_sender_ = ms_ticker_new();
ms_ticker_attach(ticker_sender_, filter_h264_sender_);
}
int main(int argc, char*argv[])
{
RtpSession *session;
#ifndef SBUS
unsigned char buffer[160];
#else
unsigned char buffer[SBUS_FRAME_SIZE];
#endif
int err;
uint32_t ts=0;
int stream_received=0;
FILE *outfile;
int local_port;
int have_more;
int i;
int format=0;
int soundcard=0;
int sound_fd=0;
int jittcomp=40;
bool_t adapt=TRUE;
#ifdef SBUS
RtpProfile prof;
#endif
/* init the lib */
if (argc<3){
printf("%s",help);
return -1;
}
local_port=atoi(argv[2]);
if (local_port<=0) {
printf("%s",help);
return -1;
}
for (i=3;i<argc;i++)
{
if (strcmp(argv[i],"--noadapt")==0) adapt=FALSE;
if (strcmp(argv[i],"--format")==0){
i++;
if (i<argc){
if (strcmp(argv[i],"mulaw")==0){
format=MULAW;
}else
if (strcmp(argv[i],"alaw")==0){
format=ALAW;
}else{
printf("Unsupported format %s\n",argv[i]);
return -1;
}
}
}
else if (strcmp(argv[i],"--soundcard")==0){
soundcard=1;
}
else if (strcmp(argv[i],"--with-jitter")==0){
i++;
if (i<argc){
jittcomp=atoi(argv[i]);
printf("Using a jitter buffer of %i milliseconds.\n",jittcomp);
}
}
}
outfile=fopen(argv[1],"wb");
if (outfile==NULL) {
perror("Cannot open file for writing");
return -1;
}
#ifdef SBUS
setvbuf(outfile, NULL, _IONBF, 0);
#endif
if (soundcard){
sound_fd=sound_init(format);
}
ortp_init();
ortp_scheduler_init();
ortp_set_log_level_mask(ORTP_DEBUG|ORTP_MESSAGE|ORTP_WARNING|ORTP_ERROR);
signal(SIGINT,stop_handler);
session=rtp_session_new(RTP_SESSION_RECVONLY);
rtp_session_set_scheduling_mode(session,1);
rtp_session_set_blocking_mode(session,1);
rtp_session_set_local_addr(session,"0.0.0.0",atoi(argv[2]),-1);
rtp_session_set_connected_mode(session,TRUE);
rtp_session_set_symmetric_rtp(session,TRUE);
rtp_session_enable_adaptive_jitter_compensation(session,adapt);
rtp_session_set_jitter_compensation(session,jittcomp);
#ifndef SBUS
rtp_session_set_payload_type(session,0);
#else
rtp_profile_clear_all(&prof);
//rtp_profile_set_name(&prof, "SBUS");
rtp_profile_set_payload(&prof, 71, &payload_type_sbus);
rtp_session_set_profile(session, &prof);
rtp_session_set_payload_type(session, 71);
#endif
rtp_session_signal_connect(session,"ssrc_changed",(RtpCallback)ssrc_cb,0);
rtp_session_signal_connect(session,"ssrc_changed",(RtpCallback)rtp_session_reset,0);
while(cond)
{
have_more=1;
while (have_more){
#ifndef SBUS
err=rtp_session_recv_with_ts(session,buffer,160,ts,&have_more);
#else
err=rtp_session_recv_with_ts(session,buffer,SBUS_FRAME_SIZE,ts,&have_more);
#endif
if (err>0) stream_received=1;
/* this is to avoid to write to disk some silence before the first RTP packet is returned*/
if ((stream_received) && (err>0)) {
#ifdef SBUS
clock_gettime(CLOCK_REALTIME, &tsnew);
printf("%09ld\n", tsnew.tv_nsec);
#endif
size_t ret = fwrite(buffer,1,err,outfile);
if (sound_fd>0){
ret = write(sound_fd,buffer,err);
if (ret==-1){
fprintf(stderr,"write to sound card failed (%s)",strerror(errno));
}
}
}
}
#ifndef SBUS
ts+=160;
#else
ts+=70;
#endif
//ortp_message("Receiving packet.");
}
rtp_session_destroy(session);
ortp_exit();
ortp_global_stats_display();
return 0;
}
int ph_media_start(phcall_t *ca, int port, void (*dtmfCallback)(phcall_t *ca, int event), const char * deviceId)
{
int format = WAVE_FORMAT_PCM;
phmstream_t *stream;
#if USE_CODECS
phcodec_t *codec;
#endif /* !USE_CODECS */
#if DO_ECHO_CAN
int taps=256;
#endif /* !DO_ECHO_CAN */
#if USE_CODECS
codec = ph_media_lookup_codec(ca->payload);
if (!codec)
return 0;
#endif /* !USE_CODECS */
stream = open_sndcard(format, codec, deviceId);
if (!stream)
return -1;
stream->payload = ca->payload;
stream->rtp_session = rtp_session_new(RTP_SESSION_SENDRECV);
rtp_session_set_scheduling_mode(stream->rtp_session, 0); /* yes */
rtp_session_set_blocking_mode(stream->rtp_session, 0);
rtp_session_set_profile(stream->rtp_session, &av_profile);
rtp_session_set_jitter_compensation(stream->rtp_session, 60);
rtp_session_set_local_addr(stream->rtp_session, "0.0.0.0", port);
rtp_session_set_remote_addr(stream->rtp_session,
ca->remote_sdp_audio_ip,
ca->remote_sdp_audio_port);
rtp_session_set_payload_type(stream->rtp_session, stream->payload);
rtp_session_signal_connect(stream->rtp_session, "telephone-event",
(RtpCallback)ph_telephone_event, ca);
ca->hasaudio = 1;
stream->running = 1;
ca->phstream = stream;
stream->dtmfCallback = dtmfCallback;
# if DO_ECHO_CAN
# if AEC_BIS
create_AEC();
# else /* !AEC_BIS */
stream->ec = echo_can_create(taps, 0);
if(stream->ec == 0){
fprintf(stderr, "Echo CAN creating failed\n");
}
if(stream->ec)
{
# endif /* !AEC_BIS */
stream->echocancel = taps;
stream->pcm_rd = stream->pcm_wr = 0;
stream->pcm_sent = malloc(PCM_TRACE_LEN);
stream->sent_cnt = stream->recv_cnt = 0;
if(stream->pcm_sent == 0)
fprintf(stderr, "No memory for EC %d\n", stream->pcm_sent);
#if !AEC_BIS
}
#endif /* AEC_BIS */
stream->aec_mutex = g_mutex_new();
stream->synclock = g_mutex_new();
stream->sync_cond = g_cond_new();
stream->pcm_need_resync = 1;
stream->bytes_to_throw = 0;
# endif /* !DO_ECHO_CAN */
stream->dtmfg_lock = g_mutex_new();
stream->dtmfq_cnt = 0;
stream->dtmfg_phase = DTMF_IDLE;
stream->audio_in_thread = osip_thread_create(20000,
ph_audio_in_thread, stream);
stream->audio_out_thread = osip_thread_create(20000,
ph_audio_out_thread, stream);
return 0;
}
