bool MonitorStream::sendFrame(const char *filepath, struct timeval *timestamp) {
bool send_raw = ((scale>=ZM_SCALE_BASE)&&(zoom==ZM_SCALE_BASE));
if ( type != STREAM_JPEG )
send_raw = false;
if ( !config.timestamp_on_capture && timestamp )
send_raw = false;
if ( !send_raw ) {
Image temp_image(filepath);
return sendFrame(&temp_image, timestamp);
} else {
int img_buffer_size = 0;
static unsigned char img_buffer[ZM_MAX_IMAGE_SIZE];
FILE *fdj = NULL;
if ( (fdj = fopen(filepath, "r")) ) {
img_buffer_size = fread(img_buffer, 1, sizeof(img_buffer), fdj);
fclose(fdj);
} else {
Error("Can't open %s: %s", filepath, strerror(errno));
return false;
}
// Calculate how long it takes to actually send the frame
struct timeval frameStartTime;
gettimeofday(&frameStartTime, NULL);
fputs("--ZoneMinderFrame\r\nContent-Type: image/jpeg\r\n\r\n", stdout );
fprintf(stdout, "Content-Length: %d\r\n", img_buffer_size);
if ( fwrite(img_buffer, img_buffer_size, 1, stdout) != 1 ) {
if ( ! zm_terminate )
Warning("Unable to send stream frame: %s", strerror(errno));
return false;
}
fputs("\r\n\r\n", stdout);
fflush(stdout);
struct timeval frameEndTime;
gettimeofday(&frameEndTime, NULL);
int frameSendTime = tvDiffMsec(frameStartTime, frameEndTime);
if ( frameSendTime > 1000/maxfps ) {
maxfps /= 2;
Info("Frame send time %d msec too slow, throttling maxfps to %.2f", frameSendTime, maxfps);
}
last_frame_sent = TV_2_FLOAT(now);
return true;
}
return false;
} // end bool MonitorStream::sendFrame(const char *filepath, struct timeval *timestamp)
bool StreamBase::sendTextFrame( const char *frame_text )
{
Debug( 2, "Sending text frame '%s'", frame_text );
Image image( monitor->Width(), monitor->Height(), monitor->Colours(), monitor->SubpixelOrder() );
image.Annotate( frame_text, image.centreCoord( frame_text ) );
if ( scale != 100 )
{
image.Scale( scale );
}
#if HAVE_LIBAVCODEC
if ( type == STREAM_MPEG )
{
if ( !vid_stream )
{
vid_stream = new VideoStream( "pipe:", format, bitrate, effective_fps, image.Colours(), image.SubpixelOrder(), image.Width(), image.Height() );
fprintf( stdout, "Content-type: %s\r\n\r\n", vid_stream->MimeType() );
vid_stream->OpenStream();
}
/* double pts = */ vid_stream->EncodeFrame( image.Buffer(), image.Size() );
}
else
#endif // HAVE_LIBAVCODEC
{
static unsigned char buffer[ZM_MAX_IMAGE_SIZE];
int n_bytes = 0;
image.EncodeJpeg( buffer, &n_bytes );
fprintf( stdout, "--ZoneMinderFrame\r\n" );
fprintf( stdout, "Content-Length: %d\r\n", n_bytes );
fprintf( stdout, "Content-Type: image/jpeg\r\n\r\n" );
if ( fwrite( buffer, n_bytes, 1, stdout ) != 1 )
{
Error( "Unable to send stream text frame: %s", strerror(errno) );
return( false );
}
fprintf( stdout, "\r\n\r\n" );
fflush( stdout );
}
last_frame_sent = TV_2_FLOAT( now );
return( true );
}
void MonitorStream::processCommand(const CmdMsg *msg) {
Debug( 2, "Got message, type %d, msg %d", msg->msg_type, msg->msg_data[0] );
// Check for incoming command
switch( (MsgCommand)msg->msg_data[0] ) {
case CMD_PAUSE :
Debug(1, "Got PAUSE command");
paused = true;
delayed = true;
last_frame_sent = TV_2_FLOAT(now);
break;
case CMD_PLAY :
Debug(1, "Got PLAY command");
if ( paused ) {
paused = false;
delayed = true;
}
replay_rate = ZM_RATE_BASE;
break;
case CMD_VARPLAY :
Debug(1, "Got VARPLAY command");
if ( paused ) {
paused = false;
delayed = true;
}
replay_rate = ntohs(((unsigned char)msg->msg_data[2]<<8)|(unsigned char)msg->msg_data[1])-32768;
break;
case CMD_STOP :
Debug(1, "Got STOP command");
paused = false;
delayed = false;
break;
case CMD_FASTFWD :
Debug(1, "Got FAST FWD command");
if ( paused ) {
paused = false;
delayed = true;
}
// Set play rate
switch ( replay_rate ) {
case 2 * ZM_RATE_BASE :
replay_rate = 5 * ZM_RATE_BASE;
break;
case 5 * ZM_RATE_BASE :
replay_rate = 10 * ZM_RATE_BASE;
break;
case 10 * ZM_RATE_BASE :
replay_rate = 25 * ZM_RATE_BASE;
break;
case 25 * ZM_RATE_BASE :
case 50 * ZM_RATE_BASE :
replay_rate = 50 * ZM_RATE_BASE;
break;
default :
replay_rate = 2 * ZM_RATE_BASE;
break;
}
break;
case CMD_SLOWFWD :
Debug( 1, "Got SLOW FWD command" );
paused = true;
delayed = true;
replay_rate = ZM_RATE_BASE;
step = 1;
break;
case CMD_SLOWREV :
Debug( 1, "Got SLOW REV command" );
paused = true;
delayed = true;
replay_rate = ZM_RATE_BASE;
step = -1;
break;
case CMD_FASTREV :
Debug( 1, "Got FAST REV command" );
if ( paused ) {
paused = false;
delayed = true;
}
// Set play rate
switch ( replay_rate ) {
case -2 * ZM_RATE_BASE :
replay_rate = -5 * ZM_RATE_BASE;
break;
case -5 * ZM_RATE_BASE :
replay_rate = -10 * ZM_RATE_BASE;
break;
case -10 * ZM_RATE_BASE :
replay_rate = -25 * ZM_RATE_BASE;
break;
case -25 * ZM_RATE_BASE :
case -50 * ZM_RATE_BASE :
replay_rate = -50 * ZM_RATE_BASE;
break;
default :
replay_rate = -2 * ZM_RATE_BASE;
break;
}
break;
case CMD_ZOOMIN :
x = ((unsigned char)msg->msg_data[1]<<8)|(unsigned char)msg->msg_data[2];
y = ((unsigned char)msg->msg_data[3]<<8)|(unsigned char)msg->msg_data[4];
Debug( 1, "Got ZOOM IN command, to %d,%d", x, y );
switch ( zoom ) {
case 100:
zoom = 150;
break;
case 150:
zoom = 200;
break;
case 200:
zoom = 300;
break;
case 300:
zoom = 400;
break;
case 400:
default :
zoom = 500;
break;
}
break;
case CMD_ZOOMOUT :
Debug( 1, "Got ZOOM OUT command" );
switch ( zoom ) {
case 500:
zoom = 400;
break;
case 400:
zoom = 300;
break;
case 300:
zoom = 200;
break;
case 200:
zoom = 150;
break;
case 150:
default :
zoom = 100;
break;
}
break;
case CMD_PAN :
x = ((unsigned char)msg->msg_data[1]<<8)|(unsigned char)msg->msg_data[2];
y = ((unsigned char)msg->msg_data[3]<<8)|(unsigned char)msg->msg_data[4];
Debug(1, "Got PAN command, to %d,%d", x, y);
break;
case CMD_SCALE :
scale = ((unsigned char)msg->msg_data[1]<<8)|(unsigned char)msg->msg_data[2];
Debug(1, "Got SCALE command, to %d", scale);
break;
case CMD_QUIT :
Info("User initiated exit - CMD_QUIT");
break;
case CMD_QUERY :
Debug(1, "Got QUERY command, sending STATUS");
break;
default :
Error("Got unexpected command %d", msg->msg_data[0]);
break;
} // end switch command
struct {
int id;
int state;
double fps;
int buffer_level;
int rate;
double delay;
int zoom;
bool delayed;
bool paused;
bool enabled;
bool forced;
} status_data;
status_data.id = monitor->Id();
status_data.fps = monitor->GetFPS();
status_data.state = monitor->shared_data->state;
if ( playback_buffer > 0 )
status_data.buffer_level = (MOD_ADD( (temp_write_index-temp_read_index), 0, temp_image_buffer_count )*100)/temp_image_buffer_count;
else
status_data.buffer_level = 0;
status_data.delayed = delayed;
status_data.paused = paused;
status_data.rate = replay_rate;
status_data.delay = TV_2_FLOAT( now ) - TV_2_FLOAT( last_frame_timestamp );
status_data.zoom = zoom;
//status_data.enabled = monitor->shared_data->active;
status_data.enabled = monitor->trigger_data->trigger_state!=Monitor::TRIGGER_OFF;
status_data.forced = monitor->trigger_data->trigger_state==Monitor::TRIGGER_ON;
Debug(2, "Buffer Level:%d, Delayed:%d, Paused:%d, Rate:%d, delay:%.3f, Zoom:%d, Enabled:%d Forced:%d",
status_data.buffer_level,
status_data.delayed,
status_data.paused,
status_data.rate,
status_data.delay,
status_data.zoom,
status_data.enabled,
status_data.forced
);
DataMsg status_msg;
status_msg.msg_type = MSG_DATA_WATCH;
memcpy(&status_msg.msg_data, &status_data, sizeof(status_data));
int nbytes = 0;
if ( (nbytes = sendto(sd, &status_msg, sizeof(status_msg), MSG_DONTWAIT, (sockaddr *)&rem_addr, sizeof(rem_addr))) < 0 ) {
//if ( errno != EAGAIN )
{
Error( "Can't sendto on sd %d: %s", sd, strerror(errno) );
//exit( -1 );
}
}
Debug(2, "Number of bytes sent to (%s): (%d)", rem_addr.sun_path, nbytes);
// quit after sending a status, if this was a quit request
if ( (MsgCommand)msg->msg_data[0]==CMD_QUIT ) {
Debug(2,"Quitting");
exit(0);
}
Debug(2,"Updating framerate");
updateFrameRate(monitor->GetFPS());
} // end void MonitorStream::processCommand(const CmdMsg *msg)
void MonitorStream::runStream() {
if ( type == STREAM_SINGLE ) {
// Not yet migrated over to stream class
SingleImage(scale);
return;
}
openComms();
if ( !checkInitialised() ) {
Error("Not initialized");
return;
}
updateFrameRate(monitor->GetFPS());
if ( type == STREAM_JPEG )
fputs("Content-Type: multipart/x-mixed-replace;boundary=ZoneMinderFrame\r\n\r\n", stdout);
// point to end which is theoretically not a valid value because all indexes are % image_buffer_count
unsigned int last_read_index = monitor->image_buffer_count;
time_t stream_start_time;
time(&stream_start_time);
frame_count = 0;
temp_image_buffer = 0;
temp_image_buffer_count = playback_buffer;
temp_read_index = temp_image_buffer_count;
temp_write_index = temp_image_buffer_count;
std::string swap_path;
bool buffered_playback = false;
// Last image and timestamp when paused, will be resent occasionally to prevent timeout
Image *paused_image = NULL;
struct timeval paused_timestamp;
// 15 is the max length for the swap path suffix, /zmswap-whatever, assuming max 6 digits for monitor id
const int max_swap_len_suffix = 15;
int swap_path_length = staticConfig.PATH_SWAP.length() + 1; // +1 for NULL terminator
int subfolder1_length = snprintf(NULL, 0, "/zmswap-m%d", monitor->Id()) + 1;
int subfolder2_length = snprintf(NULL, 0, "/zmswap-q%06d", connkey) + 1;
int total_swap_path_length = swap_path_length + subfolder1_length + subfolder2_length;
if ( connkey && ( playback_buffer > 0 ) ) {
if ( total_swap_path_length + max_swap_len_suffix > PATH_MAX ) {
Error("Swap Path is too long. %d > %d ", total_swap_path_length+max_swap_len_suffix, PATH_MAX);
} else {
swap_path = staticConfig.PATH_SWAP;
Debug( 3, "Checking swap path folder: %s", swap_path.c_str() );
if ( checkSwapPath(swap_path.c_str(), true) ) {
swap_path += stringtf("/zmswap-m%d", monitor->Id());
Debug(4, "Checking swap path subfolder: %s", swap_path.c_str());
if ( checkSwapPath(swap_path.c_str(), true) ) {
swap_path += stringtf("/zmswap-q%06d", connkey);
Debug(4, "Checking swap path subfolder: %s", swap_path.c_str());
if ( checkSwapPath(swap_path.c_str(), true) ) {
buffered_playback = true;
}
}
}
if ( !buffered_playback ) {
Error("Unable to validate swap image path, disabling buffered playback");
} else {
Debug(2, "Assigning temporary buffer");
temp_image_buffer = new SwapImage[temp_image_buffer_count];
memset( temp_image_buffer, 0, sizeof(*temp_image_buffer)*temp_image_buffer_count );
Debug( 2, "Assigned temporary buffer" );
}
}
} else {
Debug(2, "Not using playback_buffer");
} // end if connkey & playback_buffer
float max_secs_since_last_sent_frame = 10.0; //should be > keep alive amount (5 secs)
while ( !zm_terminate ) {
bool got_command = false;
if ( feof(stdout) ) {
Debug(2,"feof stdout");
break;
} else if ( ferror(stdout) ) {
Debug(2,"ferror stdout");
break;
} else if ( !monitor->ShmValid() ) {
Debug(2,"monitor not valid.... maybe we should wait until it comes back.");
break;
}
gettimeofday(&now, NULL);
bool was_paused = paused;
if ( connkey ) {
while(checkCommandQueue()) {
Debug(2, "Have checking command Queue for connkey: %d", connkey );
got_command = true;
}
// Update modified time of the socket .lock file so that we can tell which ones are stale.
if ( now.tv_sec - last_comm_update.tv_sec > 3600 ) {
touch(sock_path_lock);
last_comm_update = now;
}
}
if ( paused ) {
if ( !was_paused ) {
int index = monitor->shared_data->last_write_index % monitor->image_buffer_count;
Debug(1,"Saving paused image from index %d",index);
paused_image = new Image( *monitor->image_buffer[index].image );
paused_timestamp = *(monitor->image_buffer[index].timestamp);
}
} else if ( paused_image ) {
Debug(1,"Clearing paused_image");
delete paused_image;
paused_image = NULL;
}
if ( buffered_playback && delayed ) {
if ( temp_read_index == temp_write_index ) {
// Go back to live viewing
Debug( 1, "Exceeded temporary streaming buffer" );
// Clear paused flag
paused = false;
// Clear delayed_play flag
delayed = false;
replay_rate = ZM_RATE_BASE;
} else {
if ( !paused ) {
int temp_index = MOD_ADD(temp_read_index, 0, temp_image_buffer_count);
//Debug( 3, "tri: %d, ti: %d", temp_read_index, temp_index );
SwapImage *swap_image = &temp_image_buffer[temp_index];
if ( !swap_image->valid ) {
paused = true;
delayed = true;
temp_read_index = MOD_ADD(temp_read_index, (replay_rate>=0?-1:1), temp_image_buffer_count);
} else {
//Debug( 3, "siT: %f, lfT: %f", TV_2_FLOAT( swap_image->timestamp ), TV_2_FLOAT( last_frame_timestamp ) );
double expected_delta_time = ((TV_2_FLOAT( swap_image->timestamp ) - TV_2_FLOAT( last_frame_timestamp )) * ZM_RATE_BASE)/replay_rate;
double actual_delta_time = TV_2_FLOAT( now ) - last_frame_sent;
//Debug( 3, "eDT: %.3lf, aDT: %.3f, lFS:%.3f, NOW:%.3f", expected_delta_time, actual_delta_time, last_frame_sent, TV_2_FLOAT( now ) );
// If the next frame is due
if ( actual_delta_time > expected_delta_time ) {
//Debug( 2, "eDT: %.3lf, aDT: %.3f", expected_delta_time, actual_delta_time );
if ( temp_index%frame_mod == 0 ) {
Debug( 2, "Sending delayed frame %d", temp_index );
// Send the next frame
if ( ! sendFrame(temp_image_buffer[temp_index].file_name, &temp_image_buffer[temp_index].timestamp) )
zm_terminate = true;
memcpy(&last_frame_timestamp, &(swap_image->timestamp), sizeof(last_frame_timestamp));
//frame_sent = true;
}
temp_read_index = MOD_ADD(temp_read_index, (replay_rate>0?1:-1), temp_image_buffer_count);
}
}
} else if ( step != 0 ) {
temp_read_index = MOD_ADD( temp_read_index, (step>0?1:-1), temp_image_buffer_count );
SwapImage *swap_image = &temp_image_buffer[temp_read_index];
// Send the next frame
if ( !sendFrame( temp_image_buffer[temp_read_index].file_name, &temp_image_buffer[temp_read_index].timestamp ) )
zm_terminate = true;
memcpy( &last_frame_timestamp, &(swap_image->timestamp), sizeof(last_frame_timestamp) );
//frame_sent = true;
step = 0;
} else {
//paused?
int temp_index = MOD_ADD(temp_read_index, 0, temp_image_buffer_count);
double actual_delta_time = TV_2_FLOAT( now ) - last_frame_sent;
if ( got_command || actual_delta_time > 5 ) {
// Send keepalive
Debug( 2, "Sending keepalive frame %d", temp_index );
// Send the next frame
if ( !sendFrame( temp_image_buffer[temp_index].file_name, &temp_image_buffer[temp_index].timestamp ) )
zm_terminate = true;
//frame_sent = true;
}
} // end if (!paused) or step or paused
} // end if have exceeded buffer or not
if ( temp_read_index == temp_write_index ) {
// Go back to live viewing
Warning( "Rewound over write index, resuming live play" );
// Clear paused flag
paused = false;
// Clear delayed_play flag
delayed = false;
replay_rate = ZM_RATE_BASE;
}
} // end if ( buffered_playback && delayed )
if ( last_read_index != monitor->shared_data->last_write_index ) {
// have a new image to send
int index = monitor->shared_data->last_write_index % monitor->image_buffer_count; // % shouldn't be neccessary
last_read_index = monitor->shared_data->last_write_index;
Debug( 2, "index: %d: frame_mod: %d frame count: %d paused(%d) delayed(%d)", index, frame_mod, frame_count, paused, delayed );
if ( (frame_mod == 1) || ((frame_count%frame_mod) == 0) ) {
if ( !paused && !delayed ) {
// Send the next frame
Monitor::Snapshot *snap = &monitor->image_buffer[index];
Debug(2, "sending Frame.");
if ( !sendFrame(snap->image, snap->timestamp) ) {
Debug(2, "sendFrame failed, quiting.");
zm_terminate = true;
}
// Perhaps we should use NOW instead.
memcpy(&last_frame_timestamp, snap->timestamp, sizeof(last_frame_timestamp));
//frame_sent = true;
temp_read_index = temp_write_index;
} else {
double actual_delta_time = TV_2_FLOAT(now) - last_frame_sent;
if ( actual_delta_time > 5 ) {
if ( paused_image ) {
// Send keepalive
Debug(2, "Sending keepalive frame ");
// Send the next frame
if ( !sendFrame(paused_image, &paused_timestamp) )
zm_terminate = true;
} else {
Debug(2, "Would have sent keepalive frame, but had no paused_image ");
}
}
}
} // end if should send frame
if ( buffered_playback && !paused ) {
if ( monitor->shared_data->valid ) {
if ( monitor->image_buffer[index].timestamp->tv_sec ) {
int temp_index = temp_write_index%temp_image_buffer_count;
Debug(2, "Storing frame %d", temp_index);
if ( !temp_image_buffer[temp_index].valid ) {
snprintf( temp_image_buffer[temp_index].file_name, sizeof(temp_image_buffer[0].file_name), "%s/zmswap-i%05d.jpg", swap_path.c_str(), temp_index );
temp_image_buffer[temp_index].valid = true;
}
memcpy( &(temp_image_buffer[temp_index].timestamp), monitor->image_buffer[index].timestamp, sizeof(temp_image_buffer[0].timestamp) );
monitor->image_buffer[index].image->WriteJpeg( temp_image_buffer[temp_index].file_name, config.jpeg_file_quality );
temp_write_index = MOD_ADD( temp_write_index, 1, temp_image_buffer_count );
if ( temp_write_index == temp_read_index ) {
// Go back to live viewing
Warning( "Exceeded temporary buffer, resuming live play" );
paused = false;
delayed = false;
replay_rate = ZM_RATE_BASE;
}
} else {
Warning( "Unable to store frame as timestamp invalid" );
}
} else {
Warning( "Unable to store frame as shared memory invalid" );
}
} // end if buffered playback
frame_count++;
} else {
Debug(4,"Waiting for capture last_write_index=%u", monitor->shared_data->last_write_index);
} // end if ( (unsigned int)last_read_index != monitor->shared_data->last_write_index )
unsigned long sleep_time = (unsigned long)((1000000 * ZM_RATE_BASE)/((base_fps?base_fps:1)*abs(replay_rate*2)));
Debug(4, "Sleeping for (%d)", sleep_time);
usleep(sleep_time);
if ( ttl ) {
if ( (now.tv_sec - stream_start_time) > ttl ) {
Debug(2, "now(%d) - start(%d) > ttl(%d) break", now.tv_sec, stream_start_time, ttl);
break;
}
}
if ( ! last_frame_sent ) {
// If we didn't capture above, because frame_mod was bad? Then last_frame_sent will not have a value.
last_frame_sent = now.tv_sec;
Warning( "no last_frame_sent. Shouldn't happen. frame_mod was (%d) frame_count (%d) ", frame_mod, frame_count );
} else if ( (!paused) && ( (TV_2_FLOAT( now ) - last_frame_sent) > max_secs_since_last_sent_frame ) ) {
Error( "Terminating, last frame sent time %f secs more than maximum of %f", TV_2_FLOAT( now ) - last_frame_sent, max_secs_since_last_sent_frame );
break;
}
} // end while
if ( buffered_playback ) {
Debug(1, "Cleaning swap files from %s", swap_path.c_str());
struct stat stat_buf;
if ( stat(swap_path.c_str(), &stat_buf) < 0 ) {
if ( errno != ENOENT ) {
Error("Can't stat '%s': %s", swap_path.c_str(), strerror(errno));
}
} else if ( !S_ISDIR(stat_buf.st_mode) ) {
Error("Swap image path '%s' is not a directory", swap_path.c_str());
} else {
char glob_pattern[PATH_MAX] = "";
snprintf(glob_pattern, sizeof(glob_pattern), "%s/*.*", swap_path.c_str());
glob_t pglob;
int glob_status = glob(glob_pattern, 0, 0, &pglob);
if ( glob_status != 0 ) {
if ( glob_status < 0 ) {
Error("Can't glob '%s': %s", glob_pattern, strerror(errno));
} else {
Debug(1, "Can't glob '%s': %d", glob_pattern, glob_status);
}
} else {
for ( unsigned int i = 0; i < pglob.gl_pathc; i++ ) {
if ( unlink(pglob.gl_pathv[i]) < 0 ) {
Error("Can't unlink '%s': %s", pglob.gl_pathv[i], strerror(errno));
}
}
}
globfree( &pglob );
if ( rmdir(swap_path.c_str()) < 0 ) {
Error( "Can't rmdir '%s': %s", swap_path.c_str(), strerror(errno) );
}
} // end if checking for swap_path
} // end if buffered_playback
closeComms();
} // end MonitorStream::runStream
bool MonitorStream::sendFrame(Image *image, struct timeval *timestamp) {
Image *send_image = prepareImage(image);
if ( !config.timestamp_on_capture && timestamp )
monitor->TimestampImage(send_image, timestamp);
#if HAVE_LIBAVCODEC
if ( type == STREAM_MPEG ) {
if ( !vid_stream ) {
vid_stream = new VideoStream("pipe:", format, bitrate, effective_fps, send_image->Colours(), send_image->SubpixelOrder(), send_image->Width(), send_image->Height());
fprintf(stdout, "Content-type: %s\r\n\r\n", vid_stream->MimeType());
vid_stream->OpenStream();
}
static struct timeval base_time;
struct DeltaTimeval delta_time;
if ( !frame_count )
base_time = *timestamp;
DELTA_TIMEVAL(delta_time, *timestamp, base_time, DT_PREC_3);
/* double pts = */ vid_stream->EncodeFrame(send_image->Buffer(), send_image->Size(), config.mpeg_timed_frames, delta_time.delta);
} else
#endif // HAVE_LIBAVCODEC
{
static unsigned char temp_img_buffer[ZM_MAX_IMAGE_SIZE];
int img_buffer_size = 0;
unsigned char *img_buffer = temp_img_buffer;
// Calculate how long it takes to actually send the frame
struct timeval frameStartTime;
gettimeofday(&frameStartTime, NULL);
fputs("--ZoneMinderFrame\r\n", stdout);
switch( type ) {
case STREAM_JPEG :
send_image->EncodeJpeg(img_buffer, &img_buffer_size);
fputs("Content-Type: image/jpeg\r\n", stdout);
break;
case STREAM_RAW :
fputs("Content-Type: image/x-rgb\r\n", stdout);
img_buffer = (uint8_t*)send_image->Buffer();
img_buffer_size = send_image->Size();
break;
case STREAM_ZIP :
fputs("Content-Type: image/x-rgbz\r\n",stdout);
unsigned long zip_buffer_size;
send_image->Zip(img_buffer, &zip_buffer_size);
img_buffer_size = zip_buffer_size;
break;
default :
Error("Unexpected frame type %d", type);
return false;
}
fprintf(stdout, "Content-Length: %d\r\n\r\n", img_buffer_size);
if ( fwrite(img_buffer, img_buffer_size, 1, stdout) != 1 ) {
if ( !zm_terminate ){
// If the pipe was closed, we will get signalled SIGPIPE to exit, which will set zm_terminate
Warning("Unable to send stream frame: %s", strerror(errno));
}
return false;
}
fputs("\r\n\r\n",stdout);
fflush( stdout );
struct timeval frameEndTime;
gettimeofday( &frameEndTime, NULL );
int frameSendTime = tvDiffMsec( frameStartTime, frameEndTime );
if ( frameSendTime > 1000/maxfps ) {
maxfps /= 1.5;
Error( "Frame send time %d msec too slow, throttling maxfps to %.2f", frameSendTime, maxfps );
}
}
last_frame_sent = TV_2_FLOAT( now );
return( true );
} // end bool MonitorStream::sendFrame( Image *image, struct timeval *timestamp )