/* * Copyright (C) 2013-2014 Tim Mayberry * Copyright (C) 2013-2017 Paul Davis * Copyright (C) 2013-2019 Robin Gareus * Copyright (C) 2013 John Emmas * * 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 #include #include #include #include #include "pbd/convert.h" #include "pbd/error.h" #include "pbd/file_utils.h" #include "ardour/filesystem_paths.h" #include "gui_thread.h" #include "transcode_ffmpeg.h" #include "utils_videotl.h" #include "pbd/i18n.h" using namespace PBD; using namespace VideoUtils; TranscodeFfmpeg::TranscodeFfmpeg (std::string f) : infile (f) { probeok = false; ffexecok = false; m_duration = 0; m_avoffset = m_lead_in = m_lead_out = 0; m_width = m_height = 0; m_aspect = m_fps = 0; m_sar = ""; debug_enable = false; if (!ARDOUR::ArdourVideoToolPaths::transcoder_exe (ffmpeg_exe, ffprobe_exe)) { warning << string_compose (_("ffmpeg installation was not found on this system.\n" "%1 requires ffmpeg and ffprobe from ffmpeg.org - version 1.1 or newer.\n" "Video import and export is not possible until you install tools.\n" "\n" "The tools are included with the %1 releases from ardour.org " "and also available with the video-server at http://x42.github.com/harvid/\n" "\n" "Important: the files need to be installed in $PATH and named ffmpeg_harvid and ffprobe_harvid.\n" "If you already have a suitable ffmpeg installation on your system, we recommend creating " "symbolic links from ffmpeg to ffmpeg_harvid and from ffprobe to ffprobe_harvid.\n" "\n" "see also http://manual.ardour.org/video-timeline/setup/"), PROGRAM_NAME) << endmsg; return; } ffexecok = true; if (infile.empty () || !probe ()) { return; } probeok = true; } bool TranscodeFfmpeg::probe () { ffoutput = ""; char** argp; argp = (char**)calloc (7, sizeof (char*)); argp[0] = strdup (ffprobe_exe.c_str ()); argp[1] = strdup ("-print_format"); argp[2] = strdup ("csv=nk=0"); argp[3] = strdup ("-show_format"); argp[4] = strdup ("-show_streams"); argp[5] = strdup (infile.c_str ()); argp[6] = 0; ffcmd = new ARDOUR::SystemExec (ffprobe_exe, argp, true); ffcmd->ReadStdout.connect_same_thread (*this, std::bind (&TranscodeFfmpeg::ffprobeparse, this, _1, _2)); ffcmd->Terminated.connect (*this, invalidator (*this), std::bind (&TranscodeFfmpeg::ffexit, this), gui_context ()); if (ffcmd->start (SystemExec::IgnoreAndClose)) { ffexit (); return false; } /* wait for ffprobe process to exit */ ffcmd->wait (); /* wait for interposer thread to copy all data. * SystemExec::Terminated is emitted and ffcmd set to NULL */ int timeout = 300; // 1.5 sec while (ffcmd && --timeout > 0) { Glib::usleep (5000); ARDOUR::GUIIdle (); } if (timeout == 0 || ffoutput.empty ()) { return false; } /* parse */ std::vector> lines; ParseCSV (ffoutput, lines); double timebase = 0; m_width = m_height = 0; m_fps = m_aspect = 0; m_duration = 0; m_sar.clear (); m_codec.clear (); m_audio.clear (); /* clang-format off */ #define PARSE_FRACTIONAL_FPS(VAR) \ { \ std::string::size_type pos; \ VAR = atof (value); \ pos = value.find_first_of ('/'); \ if (pos != std::string::npos) { \ VAR = atof (value.substr (0, pos)) / atof (value.substr (pos + 1)); \ } \ } /* clang-format on */ std::string duration_from_format; for (std::vector>::iterator i = lines.begin (); i != lines.end (); ++i) { if (i->at (0) == X_("format")) { /* format,filename,#streams,format-name,format-long-name,start-time,duration,size,bitrate */ for (std::vector::iterator kv = i->begin (); kv != i->end (); ++kv) { const size_t kvsep = kv->find ('='); if (kvsep == std::string::npos) { continue; } std::string key = kv->substr (0, kvsep); std::string value = kv->substr (kvsep + 1); if (key == X_("duration")) { duration_from_format = value; } } } else if (i->at (0) == X_("stream")) { if (i->at (5) == X_("codec_type=video") && m_width == 0) { for (std::vector::iterator kv = i->begin (); kv != i->end (); ++kv) { const size_t kvsep = kv->find ('='); if (kvsep == std::string::npos) continue; std::string key = kv->substr (0, kvsep); std::string value = kv->substr (kvsep + 1); if (key == X_("index")) { m_videoidx = atoi (value); } else if (key == X_("width")) { m_width = atoi (value); } else if (key == X_("height")) { m_height = atoi (value); } else if (key == X_("codec_name")) { if (!m_codec.empty ()) { m_codec += " "; } m_codec += value; } else if (key == X_("codec_long_name")) { if (!m_codec.empty ()) { m_codec += " "; } m_codec += "[" + value + "]"; } else if (key == X_("codec_tag_string")) { if (!m_codec.empty ()) { m_codec += " "; } m_codec += "(" + value + ")"; } else if (key == X_("r_frame_rate")) { m_fps_str = value; PARSE_FRACTIONAL_FPS (m_fps) } else if (key == X_("avg_frame_rate") && m_fps == 0) { m_fps_str = value; PARSE_FRACTIONAL_FPS (m_fps) } else if (key == X_("time_base")) { PARSE_FRACTIONAL_FPS (timebase) } else if (key == X_("timecode") && m_duration == 0 && m_fps > 0) { int h, m, s; char f[33]; if (sscanf (i->at (16).c_str (), "%d:%d:%d:%32s", &h, &m, &s, f) == 4) { m_duration = (ARDOUR::samplecnt_t)floor (m_fps * (h * 3600.0 + m * 60.0 + s * 1.0 + atoi (f) / pow ((double)10, (int)strlen (f)))); } } else if (key == X_("duration_ts") && m_fps == 0 && timebase != 0) { m_duration = atof (value) * m_fps * timebase; } else if (key == X_("duration") && m_fps != 0 && m_duration == 0) { m_duration = atof (value) * m_fps; } else if (key == X_("sample_aspect_ratio")) { std::string::size_type pos; pos = value.find_first_of (':'); if (pos != std::string::npos && atof (value.substr (pos + 1)) != 0) { m_sar = value; m_sar.replace (pos, 1, "/"); } } else if (key == X_("display_aspect_ratio")) { std::string::size_type pos; pos = value.find_first_of (':'); if (pos != std::string::npos && atof (value.substr (pos + 1)) != 0) { m_aspect = atof (value.substr (0, pos)) / atof (value.substr (pos + 1)); } } } if (m_aspect == 0) { m_aspect = (double)m_width / (double)m_height; } } else if (i->at (5) == X_("codec_type=audio")) { /* new ffprobe */ FFAudioStream as; for (std::vector::iterator kv = i->begin (); kv != i->end (); ++kv) { const size_t kvsep = kv->find ('='); if (kvsep == std::string::npos) { continue; } std::string key = kv->substr (0, kvsep); std::string value = kv->substr (kvsep + 1); if (key == X_("channels")) { as.channels = atoi (value); } else if (key == X_("index")) { as.stream_id = value; } else if (key == X_("codec_long_name")) { if (!as.name.empty ()) { as.name += " "; } as.name += value; } else if (key == X_("codec_name")) { if (!as.name.empty ()) { as.name += " "; } as.name += value; } else if (key == X_("sample_fmt")) { if (!as.name.empty ()) { as.name += " "; } as.name += "FMT:" + value; } else if (key == X_("sample_rate")) { if (!as.name.empty ()) { as.name += " "; } as.name += "SR:" + value; } } m_audio.push_back (as); } } } /* end parse */ if (m_duration == 0 && !duration_from_format.empty () && m_fps > 0) { warning << "using video-duration from format (container)." << endmsg; m_duration = atof (duration_from_format) * m_fps; } #if 0 /* DEBUG */ printf ("FPS: %f\n", m_fps); printf ("Duration: %lu frames\n", (unsigned long)m_duration); printf ("W/H: %ix%i\n", m_width, m_height); printf ("aspect: %f\n", m_aspect); printf ("codec: %s\n", m_codec.c_str()); if (m_audio.size() > 0) { for (AudioStreams::iterator it = m_audio.begin(); it < m_audio.end(); ++it) { printf ("audio: %s - %i channels\n",(*it).stream_id.c_str(), (*it).channels); } } else { printf ("audio: no audio streams in file.\n"); } #endif return true; } TranscodeFfmpeg::FFSettings TranscodeFfmpeg::default_encoder_settings () { TranscodeFfmpeg::FFSettings ffs; ffs.clear (); ffs["-vcodec"] = "mpeg4"; ffs["-acodec"] = "ac3"; ffs["-b:v"] = "5000k"; ffs["-b:a"] = "160k"; return ffs; } TranscodeFfmpeg::FFSettings TranscodeFfmpeg::default_meta_data () { TranscodeFfmpeg::FFSettings ffm; ffm.clear (); ffm["comment"] = "Created with " PROGRAM_NAME; return ffm; } bool TranscodeFfmpeg::encode (std::string outfile, std::string inf_a, std::string inf_v, TranscodeFfmpeg::FFSettings ffs, TranscodeFfmpeg::FFSettings meta, bool map) { #define MAX_FFMPEG_ENCODER_ARGS (100) int a = 0; char** argp = (char**)calloc (MAX_FFMPEG_ENCODER_ARGS, sizeof (char*)); argp[a++] = strdup (ffmpeg_exe.c_str ()); if (m_avoffset < 0 || m_avoffset > 0) { argp[a++] = strdup ("-accurate_seek"); std::ostringstream osstream; osstream << m_avoffset; argp[a++] = strdup ("-itsoffset"); argp[a++] = strdup (osstream.str ().c_str ()); argp[a++] = strdup ("-ss"); argp[a++] = strdup ("0"); } argp[a++] = strdup ("-i"); argp[a++] = strdup (inf_v.c_str ()); argp[a++] = strdup ("-i"); argp[a++] = strdup (inf_a.c_str ()); for (TranscodeFfmpeg::FFSettings::const_iterator it = ffs.begin (); it != ffs.end (); ++it) { argp[a++] = strdup (it->first.c_str ()); argp[a++] = strdup (it->second.c_str ()); } for (TranscodeFfmpeg::FFSettings::const_iterator it = meta.begin (); it != meta.end (); ++it) { argp[a++] = strdup ("-metadata"); argp[a++] = SystemExec::format_key_value_parameter (it->first.c_str (), it->second.c_str ()); } if (m_fps > 0 && !m_fps_str.empty ()) { m_lead_in = rint (m_lead_in * m_fps) / m_fps; m_lead_out = rint (m_lead_out * m_fps) / m_fps; } if (m_lead_in != 0 && m_lead_out != 0) { std::ostringstream osstream; argp[a++] = strdup ("-vf"); osstream << "color=c=black:s=" << m_width << "x" << m_height << ":r=" << m_fps_str << ":d=" << m_lead_in; if (!m_sar.empty ()) { osstream << ":sar=" << m_sar; } osstream << " [pre]; "; osstream << "color=c=black:s=" << m_width << "x" << m_height << ":r=" << m_fps_str << ":d=" << m_lead_out; if (!m_sar.empty ()) { osstream << ":sar=" << m_sar; } osstream << " [post]; "; osstream << "[pre] [in] [post] concat=n=3"; argp[a++] = strdup (osstream.str ().c_str ()); } else if (m_lead_in != 0) { std::ostringstream osstream; argp[a++] = strdup ("-vf"); osstream << "color=c=black:s=" << m_width << "x" << m_height << ":r=" << m_fps_str << ":d=" << m_lead_in; if (!m_sar.empty ()) { osstream << ":sar=" << m_sar; } osstream << " [pre]; "; osstream << "[pre] [in] concat=n=2"; argp[a++] = strdup (osstream.str ().c_str ()); } else if (m_lead_out != 0) { std::ostringstream osstream; argp[a++] = strdup ("-vf"); osstream << "color=c=black:s=" << m_width << "x" << m_height << ":r=" << m_fps_str << ":d=" << m_lead_out; if (!m_sar.empty ()) { osstream << ":sar=" << m_sar; } osstream << " [post]; "; osstream << "[in] [post] concat=n=2"; argp[a++] = strdup (osstream.str ().c_str ()); } if (map) { std::ostringstream osstream; argp[a++] = strdup ("-map"); osstream << X_("0:") << m_videoidx; argp[a++] = strdup (osstream.str ().c_str ()); argp[a++] = strdup ("-map"); argp[a++] = strdup ("1:0"); } argp[a++] = strdup ("-y"); argp[a++] = strdup (outfile.c_str ()); argp[a] = (char*)0; assert (a < MAX_FFMPEG_ENCODER_ARGS); /* Note: these are free()d in ~SystemExec */ if (debug_enable) { printf ("EXPORT ENCODE:\n"); for (int i = 0; i < a; ++i) { printf ("%s ", argp[i]); } printf ("\n"); } ffcmd = new ARDOUR::SystemExec (ffmpeg_exe, argp, true); ffcmd->ReadStdout.connect_same_thread (*this, std::bind (&TranscodeFfmpeg::ffmpegparse_v, this, _1, _2)); ffcmd->Terminated.connect (*this, invalidator (*this), std::bind (&TranscodeFfmpeg::ffexit, this), gui_context ()); if (ffcmd->start (SystemExec::MergeWithStdin)) { ffexit (); return false; } return true; } bool TranscodeFfmpeg::extract_audio (std::string outfile, ARDOUR::samplecnt_t /*samplerate*/, unsigned int stream) { if (!probeok || stream >= m_audio.size ()) { return false; } char** argp; int i = 0; argp = (char**)calloc (15, sizeof (char*)); argp[i++] = strdup (ffmpeg_exe.c_str ()); argp[i++] = strdup ("-i"); argp[i++] = strdup (infile.c_str ()); #if 0 /* ffmpeg write original samplerate, use a3/SRC to resample */ argp[i++] = strdup("-ar"); argp[i] = (char*) calloc(7,sizeof(char)); snprintf(argp[i++], 7, "%"PRId64, samplerate); #endif argp[i++] = strdup ("-ac"); argp[i] = (char*)calloc (3, sizeof (char)); snprintf (argp[i++], 3, "%i", m_audio.at (stream).channels); argp[i++] = strdup ("-map"); argp[i] = (char*)calloc (8, sizeof (char)); snprintf (argp[i++], 8, "0:%s", m_audio.at (stream).stream_id.c_str ()); argp[i++] = strdup ("-vn"); argp[i++] = strdup ("-acodec"); #if G_BYTE_ORDER == G_LITTLE_ENDIAN argp[i++] = strdup ("pcm_f32le"); #else argp[i++] = strdup ("pcm_f32be"); #endif argp[i++] = strdup ("-y"); argp[i++] = strdup (outfile.c_str ()); argp[i++] = (char*)0; /* Note: argp is free()d in ~SystemExec */ if (debug_enable) { printf ("EXTRACT AUDIO:\n"); for (int i = 0; i < 14 && argp[i]; ++i) { printf ("%s ", argp[i]); } printf ("\n"); } ffcmd = new ARDOUR::SystemExec (ffmpeg_exe, argp, true); ffcmd->ReadStdout.connect_same_thread (*this, std::bind (&TranscodeFfmpeg::ffmpegparse_a, this, _1, _2)); ffcmd->Terminated.connect (*this, invalidator (*this), std::bind (&TranscodeFfmpeg::ffexit, this), gui_context ()); if (ffcmd->start (SystemExec::MergeWithStdin)) { ffexit (); return false; } return true; } bool TranscodeFfmpeg::transcode (std::string outfile, const int outw, const int outh, const int kbitps) { if (!probeok) { return false; } char** argp; int bitrate = kbitps; int width = outw; int height = outh; if (width < 1 || width > m_width) { width = m_width; } /* don't allow upscaling */ if (height < 1 || height > m_height) { height = floor (width / m_aspect); } if (bitrate == 0) { const double bitperpixel = .7; /* avg quality */ bitrate = floor (m_fps * width * height * bitperpixel / 10000.0); } else { bitrate = bitrate / 10; } if (bitrate < 10) { bitrate = 10; } if (bitrate > 1000) { bitrate = 1000; } argp = (char**)calloc (15, sizeof (char*)); argp[0] = strdup (ffmpeg_exe.c_str ()); argp[1] = strdup ("-i"); argp[2] = strdup (infile.c_str ()); argp[3] = strdup ("-b:v"); argp[4] = (char*)calloc (7, sizeof (char)); snprintf (argp[4], 7, "%i0k", bitrate); argp[5] = strdup ("-s"); argp[6] = (char*)calloc (10, sizeof (char)); snprintf (argp[6], 10, "%ix%i", width, height); argp[7] = strdup ("-y"); argp[8] = strdup ("-vcodec"); argp[9] = strdup ("mjpeg"); argp[10] = strdup ("-an"); argp[11] = strdup ("-g"); argp[12] = strdup ("0"); argp[13] = strdup (outfile.c_str ()); argp[14] = (char*)0; /* Note: these are free()d in ~SystemExec */ if (debug_enable) { printf ("TRANSCODE VIDEO:\n"); for (int i = 0; i < 15 && argp[i]; ++i) { printf ("%s ", argp[i]); } printf ("\n"); } ffcmd = new ARDOUR::SystemExec (ffmpeg_exe, argp, true); ffcmd->ReadStdout.connect_same_thread (*this, std::bind (&TranscodeFfmpeg::ffmpegparse_v, this, _1, _2)); ffcmd->Terminated.connect (*this, invalidator (*this), std::bind (&TranscodeFfmpeg::ffexit, this), gui_context ()); if (ffcmd->start (SystemExec::MergeWithStdin)) { ffexit (); return false; } return true; } void TranscodeFfmpeg::cancel () { if (!ffcmd || !ffcmd->is_running ()) { return; } ffcmd->write_to_stdin ("q"); Glib::usleep (1000000); /* 1 sec */ if (ffcmd) { ffcmd->terminate (); } } void TranscodeFfmpeg::ffexit () { int rv = ffcmd->wait (); delete ffcmd; ffcmd = 0; Finished (rv); /* EMIT SIGNAL */ } void TranscodeFfmpeg::ffprobeparse (std::string d, size_t /* s */) { ffoutput += d; } void TranscodeFfmpeg::ffmpegparse_a (std::string d, size_t /* s */) { const char* t; int h, m, s; char f[7]; if (!(t = strstr (d.c_str (), "time="))) { Progress (0, 0); /* EMIT SIGNAL */ return; } if (sscanf (t + 5, "%d:%d:%d.%s", &h, &m, &s, f) == 4) { ARDOUR::samplecnt_t p; p = (ARDOUR::samplecnt_t)floor (100.0 * (h * 3600.0 + m * 60.0 + s * 1.0 + atoi (f) / pow (10.0, (int)strlen (f)))); p = p * m_fps / 100.0; if (p > m_duration) { p = m_duration; } Progress (p, m_duration); /* EMIT SIGNAL */ } else { Progress (0, 0); /* EMIT SIGNAL */ } } void TranscodeFfmpeg::ffmpegparse_v (std::string d, size_t /* s */) { /* see ffmpeg-src/doc/errno.txt * Not all error messages are forwarded to ardour's log, * but exit-code other than 0 shows a popup window. */ if (strstr (d.c_str (), "No space left on device") || strstr (d.c_str (), "File too large")) { error << "ffmpeg-error: " << d << endmsg; return; } if (strstr (d.c_str (), "ERROR") || strstr (d.c_str (), "Error") || strstr (d.c_str (), "error")) { error << "ffmpeg-error: " << d << endmsg; return; } if (strstr (d.c_str (), "Unrecognized option") || strstr (d.c_str (), "Missing argument") || strstr (d.c_str (), "Invalid argument")) { error << "ffmpeg-error: " << d << endmsg; return; } if (strncmp (d.c_str (), "frame=", 6)) { if (debug_enable) { d.erase (d.find_last_not_of (" \t\r\n") + 1); printf ("ffmpeg: '%s'\n", d.c_str ()); } Progress (0, 0); /* EMIT SIGNAL */ return; } ARDOUR::samplecnt_t f = atol (d.substr (6)); if (f == 0) { Progress (0, 0); /* EMIT SIGNAL */ } else { Progress (f, m_duration); /* EMIT SIGNAL */ } }