// // ZoneMinder Ffmpeg Camera Class Implementation, $Date: 2009-01-16 12:18:50 +0000 (Fri, 16 Jan 2009) $, $Revision: 2713 $ // 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // #include "zm.h" #if HAVE_LIBAVFORMAT #include "zm_ffmpeg_camera.h" #ifndef AV_ERROR_MAX_STRING_SIZE #define AV_ERROR_MAX_STRING_SIZE 64 #endif FfmpegCamera::FfmpegCamera( int p_id, const std::string &p_path, const std::string &p_method, const std::string &p_options, int p_width, int p_height, int p_colours, int p_brightness, int p_contrast, int p_hue, int p_colour, bool p_capture ) : Camera( p_id, FFMPEG_SRC, p_width, p_height, p_colours, ZM_SUBPIX_ORDER_DEFAULT_FOR_COLOUR(p_colours), p_brightness, p_contrast, p_hue, p_colour, p_capture ), mPath( p_path ), mMethod( p_method ), mOptions( p_options ) { if ( capture ) { Initialise(); } mFormatContext = NULL; mVideoStreamId = -1; mCodecContext = NULL; mCodec = NULL; mRawFrame = NULL; mFrame = NULL; frameCount = 0; mIsOpening = false; mCanCapture = false; mOpenStart = 0; mReopenThread = 0; #if HAVE_LIBSWSCALE mConvertContext = NULL; #endif /* Has to be located inside the constructor so other components such as zma will receive correct colours and subpixel order */ if(colours == ZM_COLOUR_RGB32) { subpixelorder = ZM_SUBPIX_ORDER_RGBA; imagePixFormat = PIX_FMT_RGBA; } else if(colours == ZM_COLOUR_RGB24) { subpixelorder = ZM_SUBPIX_ORDER_RGB; imagePixFormat = PIX_FMT_RGB24; } else if(colours == ZM_COLOUR_GRAY8) { subpixelorder = ZM_SUBPIX_ORDER_NONE; imagePixFormat = PIX_FMT_GRAY8; } else { Panic("Unexpected colours: %d",colours); } } FfmpegCamera::~FfmpegCamera() { CloseFfmpeg(); if ( capture ) { Terminate(); } } void FfmpegCamera::Initialise() { if ( logDebugging() ) av_log_set_level( AV_LOG_DEBUG ); else av_log_set_level( AV_LOG_QUIET ); av_register_all(); } void FfmpegCamera::Terminate() { } int FfmpegCamera::PrimeCapture() { Info( "Priming capture from %s", mPath.c_str() ); if (OpenFfmpeg() != 0){ ReopenFfmpeg(); } return 0; } int FfmpegCamera::PreCapture() { // Nothing to do here return( 0 ); } int FfmpegCamera::Capture( Image &image ) { if (!mCanCapture){ return -1; } // If the reopen thread has a value, but mCanCapture != 0, then we have just reopened the connection to the ffmpeg device, and we can clean up the thread. if (mReopenThread != 0) { void *retval = 0; int ret; ret = pthread_join(mReopenThread, &retval); if (ret != 0){ Error("Could not join reopen thread."); } Info( "Successfully reopened stream." ); mReopenThread = 0; } AVPacket packet; uint8_t* directbuffer; /* Request a writeable buffer of the target image */ directbuffer = image.WriteBuffer(width, height, colours, subpixelorder); if(directbuffer == NULL) { Error("Failed requesting writeable buffer for the captured image."); return (-1); } int frameComplete = false; while ( !frameComplete ) { int avResult = av_read_frame( mFormatContext, &packet ); if ( avResult < 0 ) { char errbuf[AV_ERROR_MAX_STRING_SIZE]; av_strerror(avResult, errbuf, AV_ERROR_MAX_STRING_SIZE); if ( // Check if EOF. (avResult == AVERROR_EOF || (mFormatContext->pb && mFormatContext->pb->eof_reached)) || // Check for Connection failure. (avResult == -110) ) { Info( "av_read_frame returned \"%s\". Reopening stream.", errbuf); ReopenFfmpeg(); } Error( "Unable to read packet from stream %d: error %d \"%s\".", packet.stream_index, avResult, errbuf ); return( -1 ); } Debug( 5, "Got packet from stream %d", packet.stream_index ); if ( packet.stream_index == mVideoStreamId ) { #if LIBAVCODEC_VERSION_INT >= AV_VERSION_INT(52, 25, 0) if ( avcodec_decode_video2( mCodecContext, mRawFrame, &frameComplete, &packet ) < 0 ) #else if ( avcodec_decode_video( mCodecContext, mRawFrame, &frameComplete, packet.data, packet.size ) < 0 ) #endif Fatal( "Unable to decode frame at frame %d", frameCount ); Debug( 4, "Decoded video packet at frame %d", frameCount ); if ( frameComplete ) { Debug( 3, "Got frame %d", frameCount ); avpicture_fill( (AVPicture *)mFrame, directbuffer, imagePixFormat, width, height); #if HAVE_LIBSWSCALE if(mConvertContext == NULL) { if(config.cpu_extensions && sseversion >= 20) { mConvertContext = sws_getContext( mCodecContext->width, mCodecContext->height, mCodecContext->pix_fmt, width, height, imagePixFormat, SWS_BICUBIC | SWS_CPU_CAPS_SSE2, NULL, NULL, NULL ); } else { mConvertContext = sws_getContext( mCodecContext->width, mCodecContext->height, mCodecContext->pix_fmt, width, height, imagePixFormat, SWS_BICUBIC, NULL, NULL, NULL ); } if(mConvertContext == NULL) Fatal( "Unable to create conversion context for %s", mPath.c_str() ); } if ( sws_scale( mConvertContext, mRawFrame->data, mRawFrame->linesize, 0, mCodecContext->height, mFrame->data, mFrame->linesize ) < 0 ) Fatal( "Unable to convert raw format %u to target format %u at frame %d", mCodecContext->pix_fmt, imagePixFormat, frameCount ); #else // HAVE_LIBSWSCALE Fatal( "You must compile ffmpeg with the --enable-swscale option to use ffmpeg cameras" ); #endif // HAVE_LIBSWSCALE frameCount++; } } av_free_packet( &packet ); } return (0); } int FfmpegCamera::PostCapture() { // Nothing to do here return( 0 ); } int FfmpegCamera::OpenFfmpeg() { Debug ( 2, "OpenFfmpeg called." ); mOpenStart = time(NULL); mIsOpening = true; // Open the input, not necessarily a file #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(53, 4, 0) Debug ( 1, "Calling av_open_input_file" ); if ( av_open_input_file( &mFormatContext, mPath.c_str(), NULL, 0, NULL ) !=0 ) #else // Handle options AVDictionary *opts = 0; StringVector opVect = split(Options(), ","); // Set transport method as specified by method field, rtpUni is default if ( Method() == "rtpMulti" ) opVect.push_back("rtsp_transport=udp_multicast"); else if ( Method() == "rtpRtsp" ) opVect.push_back("rtsp_transport=tcp"); else if ( Method() == "rtpRtspHttp" ) opVect.push_back("rtsp_transport=http"); Debug(2, "Number of Options: %d",opVect.size()); for (size_t i=0; i 1) { parts[0] = trimSpaces(parts[0]); parts[1] = trimSpaces(parts[1]); if ( av_dict_set(&opts, parts[0].c_str(), parts[1].c_str(), 0) == 0 ) { Debug(2, "set option %d '%s' to '%s'", i, parts[0].c_str(), parts[1].c_str()); } else { Warning( "Error trying to set option %d '%s' to '%s'", i, parts[0].c_str(), parts[1].c_str() ); } } } Debug ( 1, "Calling avformat_open_input" ); mFormatContext = avformat_alloc_context( ); mFormatContext->interrupt_callback.callback = FfmpegInterruptCallback; mFormatContext->interrupt_callback.opaque = this; if ( avformat_open_input( &mFormatContext, mPath.c_str(), NULL, &opts ) !=0 ) #endif { mIsOpening = false; Error( "Unable to open input %s due to: %s", mPath.c_str(), strerror(errno) ); return -1; } mIsOpening = false; Debug ( 1, "Opened input" ); // Locate stream info from avformat_open_input #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(53, 4, 0) Debug ( 1, "Calling av_find_stream_info" ); if ( av_find_stream_info( mFormatContext ) < 0 ) #else Debug ( 1, "Calling avformat_find_stream_info" ); if ( avformat_find_stream_info( mFormatContext, 0 ) < 0 ) #endif Fatal( "Unable to find stream info from %s due to: %s", mPath.c_str(), strerror(errno) ); Debug ( 1, "Got stream info" ); // Find first video stream present mVideoStreamId = -1; for (unsigned int i=0; i < mFormatContext->nb_streams; i++ ) { #if LIBAVUTIL_VERSION_INT >= AV_VERSION_INT(51,2,1) if ( mFormatContext->streams[i]->codec->codec_type == AVMEDIA_TYPE_VIDEO ) #else if ( mFormatContext->streams[i]->codec->codec_type == CODEC_TYPE_VIDEO ) #endif { mVideoStreamId = i; break; } } if ( mVideoStreamId == -1 ) Fatal( "Unable to locate video stream in %s", mPath.c_str() ); Debug ( 1, "Found video stream" ); mCodecContext = mFormatContext->streams[mVideoStreamId]->codec; // Try and get the codec from the codec context if ( (mCodec = avcodec_find_decoder( mCodecContext->codec_id )) == NULL ) Fatal( "Can't find codec for video stream from %s", mPath.c_str() ); Debug ( 1, "Found decoder" ); // Open the codec #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(53, 7, 0) Debug ( 1, "Calling avcodec_open" ); if ( avcodec_open( mCodecContext, mCodec ) < 0 ) #else Debug ( 1, "Calling avcodec_open2" ); if ( avcodec_open2( mCodecContext, mCodec, 0 ) < 0 ) #endif Fatal( "Unable to open codec for video stream from %s", mPath.c_str() ); Debug ( 1, "Opened codec" ); // Allocate space for the native video frame mRawFrame = avcodec_alloc_frame(); // Allocate space for the converted video frame mFrame = avcodec_alloc_frame(); if(mRawFrame == NULL || mFrame == NULL) Fatal( "Unable to allocate frame for %s", mPath.c_str() ); Debug ( 1, "Allocated frames" ); int pSize = avpicture_get_size( imagePixFormat, width, height ); if( (unsigned int)pSize != imagesize) { Fatal("Image size mismatch. Required: %d Available: %d",pSize,imagesize); } Debug ( 1, "Validated imagesize" ); #if HAVE_LIBSWSCALE Debug ( 1, "Calling sws_isSupportedInput" ); if(!sws_isSupportedInput(mCodecContext->pix_fmt)) { Fatal("swscale does not support the codec format: %c%c%c%c",(mCodecContext->pix_fmt)&0xff,((mCodecContext->pix_fmt>>8)&0xff),((mCodecContext->pix_fmt>>16)&0xff),((mCodecContext->pix_fmt>>24)&0xff)); } if(!sws_isSupportedOutput(imagePixFormat)) { Fatal("swscale does not support the target format: %c%c%c%c",(imagePixFormat)&0xff,((imagePixFormat>>8)&0xff),((imagePixFormat>>16)&0xff),((imagePixFormat>>24)&0xff)); } #else // HAVE_LIBSWSCALE Fatal( "You must compile ffmpeg with the --enable-swscale option to use ffmpeg cameras" ); #endif // HAVE_LIBSWSCALE mCanCapture = true; return 0; } int FfmpegCamera::ReopenFfmpeg() { Debug(2, "ReopenFfmpeg called."); mCanCapture = false; if (pthread_create( &mReopenThread, NULL, ReopenFfmpegThreadCallback, (void*) this) != 0){ // Log a fatal error and exit the process. Fatal( "ReopenFfmpeg failed to create worker thread." ); } return 0; } int FfmpegCamera::CloseFfmpeg(){ Debug(2, "CloseFfmpeg called."); mCanCapture = false; av_freep( &mFrame ); av_freep( &mRawFrame ); #if HAVE_LIBSWSCALE if ( mConvertContext ) { sws_freeContext( mConvertContext ); mConvertContext = NULL; } #endif if ( mCodecContext ) { avcodec_close( mCodecContext ); mCodecContext = NULL; // Freed by av_close_input_file } if ( mFormatContext ) { #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(53, 4, 0) av_close_input_file( mFormatContext ); #else avformat_close_input( &mFormatContext ); #endif mFormatContext = NULL; } return 0; } int FfmpegCamera::FfmpegInterruptCallback(void *ctx) { FfmpegCamera* camera = reinterpret_cast(ctx); if (camera->mIsOpening){ int now = time(NULL); if ((now - camera->mOpenStart) > config.ffmpeg_open_timeout) { Error ( "Open video took more than %d seconds.", config.ffmpeg_open_timeout ); return 1; } } return 0; } void *FfmpegCamera::ReopenFfmpegThreadCallback(void *ctx){ if (ctx == NULL) return NULL; FfmpegCamera* camera = reinterpret_cast(ctx); while (1){ // Close current stream. camera->CloseFfmpeg(); // Sleep if neccessary to not reconnect too fast. int wait = config.ffmpeg_open_timeout - (time(NULL) - camera->mOpenStart); wait = wait < 0 ? 0 : wait; if (wait > 0){ Debug( 1, "Sleeping %d seconds before reopening stream.", wait ); sleep(wait); } if (camera->OpenFfmpeg() == 0){ return NULL; } } } #endif // HAVE_LIBAVFORMAT