14 // Long options that have no corresponding short option.
21 OPTION_DEFAULT_HDMI_INPUT,
22 OPTION_FAKE_CARDS_AUDIO,
24 OPTION_HTTP_UNCOMPRESSED_VIDEO,
25 OPTION_HTTP_X264_VIDEO,
26 OPTION_HTTP_AV1_VIDEO,
27 OPTION_RECORD_X264_VIDEO,
28 OPTION_SEPARATE_X264_DISK_ENCODE,
31 OPTION_X264_SPEEDCONTROL,
32 OPTION_X264_SPEEDCONTROL_VERBOSE,
35 OPTION_X264_VBV_BUFSIZE,
36 OPTION_X264_VBV_MAX_BITRATE,
38 OPTION_X264_SEPARATE_DISK_PRESET,
39 OPTION_X264_SEPARATE_DISK_TUNE,
40 OPTION_X264_SEPARATE_DISK_BITRATE,
41 OPTION_X264_SEPARATE_DISK_CRF,
42 OPTION_X264_SEPARATE_DISK_PARAM,
48 OPTION_HTTP_COARSE_TIMEBASE,
49 OPTION_HTTP_AUDIO_CODEC,
50 OPTION_HTTP_AUDIO_BITRATE,
54 OPTION_NO_TRANSCODE_VIDEO,
55 OPTION_NO_TRANSCODE_AUDIO,
61 OPTION_DISABLE_GAIN_STAGING_AUTO,
62 OPTION_ENABLE_GAIN_STAGING_AUTO,
63 OPTION_DISABLE_COMPRESSOR,
64 OPTION_ENABLE_COMPRESSOR,
65 OPTION_DISABLE_LIMITER,
66 OPTION_ENABLE_LIMITER,
67 OPTION_DISABLE_MAKEUP_GAIN_AUTO,
68 OPTION_ENABLE_MAKEUP_GAIN_AUTO,
69 OPTION_DISABLE_ALSA_OUTPUT,
71 OPTION_PRINT_VIDEO_LATENCY,
72 OPTION_MAX_INPUT_QUEUE_FRAMES,
73 OPTION_AUDIO_QUEUE_LENGTH_MS,
74 OPTION_OUTPUT_YCBCR_COEFFICIENTS,
75 OPTION_OUTPUT_BUFFER_FRAMES,
76 OPTION_OUTPUT_SLOP_FRAMES,
77 OPTION_OUTPUT_CARD_UNSYNCHRONIZED,
78 OPTION_TIMECODE_STREAM,
79 OPTION_TIMECODE_STDOUT,
80 OPTION_QUICK_CUT_KEYS,
84 OPTION_INPUT_YCBCR_INTERPRETATION,
85 OPTION_MJPEG_EXPORT_CARDS,
88 map<unsigned, unsigned> parse_mjpeg_export_cards(char *optarg)
90 map<unsigned, unsigned> ret;
91 if (optarg[0] == '\0') {
95 unsigned stream_idx = 0;
98 char *end = strchr(start, ',');
103 unsigned range_begin, range_end;
104 if (sscanf(start, "%u-%u", &range_begin, &range_end) != 2) {
105 range_begin = range_end = atoi(start);
107 if (range_end < range_begin) {
108 fprintf(stderr, "ERROR: Invalid range %u-%u in --mjpeg-export-cards=\n", range_begin, range_end);
111 if (range_end >= unsigned(global_flags.max_num_cards)) {
112 // There are situations where we could possibly want to
113 // include FFmpeg inputs (CEF inputs are unlikely),
114 // but they're not necessarily in 4:2:2 Y'CbCr, so it would
115 // require more functionality the the JPEG encoder.
116 fprintf(stderr, "ERROR: Asked for (zero-indexed) card %u in --mjpeg-export-cards=, but there are only %u cards\n",
117 range_end, global_flags.max_num_cards);
120 for (unsigned card_idx = range_begin; card_idx <= range_end; ++card_idx) {
121 if (ret.count(card_idx)) {
122 fprintf(stderr, "ERROR: Card %u was given twice in --mjpeg-export-cards=\n", card_idx);
125 ret[card_idx] = stream_idx++;
127 if (end == nullptr) {
136 void usage(Program program)
138 if (program == PROGRAM_KAERU) {
139 fprintf(stderr, "Usage: kaeru [OPTION]... SOURCE_URL\n");
141 fprintf(stderr, "Usage: nageru [OPTION]...\n");
143 fprintf(stderr, "\n");
144 fprintf(stderr, " --help print usage information\n");
145 if (program == PROGRAM_NAGERU) {
146 fprintf(stderr, " --fullscreen run in full screen, with no decorations\n");
148 fprintf(stderr, " -w, --width output width in pixels (default 1280)\n");
149 fprintf(stderr, " -h, --height output height in pixels (default 720)\n");
150 if (program == PROGRAM_NAGERU) {
151 fprintf(stderr, " -c, --num-cards set minimum number of input cards (default 2)\n");
152 fprintf(stderr, " --max-num-cards set maximum number of input cards (default %d)\n", MAX_VIDEO_CARDS);
153 fprintf(stderr, " -o, --output-card=CARD also output signal to the given card (default none)\n");
154 fprintf(stderr, " -t, --theme=FILE choose theme (default theme.lua)\n");
155 fprintf(stderr, " -I, --theme-dir=DIR search for theme in this directory (can be given multiple times)\n");
156 fprintf(stderr, " -r, --recording-dir=DIR where to store disk recording\n");
157 fprintf(stderr, " -v, --va-display=SPEC VA-API device for H.264 encoding\n");
158 fprintf(stderr, " ($DISPLAY spec or /dev/dri/render* path)\n");
159 fprintf(stderr, " -m, --map-signal=SIGNAL,CARD set a default card mapping (can be given multiple times)\n");
160 fprintf(stderr, " -M, --input-mapping=FILE start with the given audio input mapping (implies --multichannel)\n");
161 fprintf(stderr, " --multichannel start in multichannel audio mapping mode\n");
162 fprintf(stderr, " --midi-mapping=FILE start with the given MIDI controller mapping (implies --multichannel)\n");
163 fprintf(stderr, " --default-hdmi-input default to HDMI over SDI inputs for cards that have both\n");
164 fprintf(stderr, " --fake-cards-audio make fake (disconnected) cards output a simple tone\n");
165 fprintf(stderr, " --v4l-output DEVICE send video (no audio) to V4L2 output/loopback\n");
166 fprintf(stderr, " --http-x264-video send x264-compressed video to HTTP clients\n");
167 fprintf(stderr, " --record-x264-video store x264-compressed video to disk (implies --http-x264-video,\n");
168 fprintf(stderr, " removes the need for working VA-API encoding)\n");
169 fprintf(stderr, " --separate-x264-disk-encode run a different x264 encoder for disk recording\n");
170 fprintf(stderr, " (implies --record-x264-video)\n");
172 fprintf(stderr, " --x264-preset x264 quality preset (default " X264_DEFAULT_PRESET ")\n");
173 fprintf(stderr, " --x264-tune x264 tuning (default " X264_DEFAULT_TUNE ", can be blank)\n");
174 fprintf(stderr, " --x264-speedcontrol try to match x264 preset to available CPU speed\n");
175 fprintf(stderr, " --x264-speedcontrol-verbose output speedcontrol debugging statistics\n");
176 fprintf(stderr, " --x264-bitrate x264 bitrate (in kilobit/sec, default %d)\n",
177 DEFAULT_X264_OUTPUT_BIT_RATE);
178 fprintf(stderr, " --x264-crf=VALUE quality-based VBR (-12 to 51), incompatible with --x264-bitrate and VBV\n");
179 fprintf(stderr, " --x264-param=NAME[,VALUE] set any x264 parameter, for fine tuning\n");
180 if (program == PROGRAM_NAGERU) {
181 fprintf(stderr, " --x264-separate-disk-preset x264 quality preset (default " X264_DEFAULT_PRESET ")\n");
182 fprintf(stderr, " --x264-separate-disk-tune x264 tuning (default " X264_DEFAULT_TUNE ", can be blank)\n");
183 fprintf(stderr, " --x264-separate-disk-bitrate x264 bitrate (in kilobit/sec, default %d)\n",
184 DEFAULT_X264_OUTPUT_BIT_RATE);
185 fprintf(stderr, " --x264-separate-disk-crf=VALUE quality-based VBR (-12 to 51), \n");
186 fprintf(stderr, " incompatible with --x264-separate-disk-bitrate\n");
187 fprintf(stderr, " --x264-separate-disk-param=NAME[,VALUE] set any x264 parameter, for fine tuning\n");
190 fprintf(stderr, " --http-av1-video send AV1-compressed video to HTTP clients\n");
191 fprintf(stderr, " --av1-preset SVT-AV1 quality preset (default %d, from -2 to 13)\n",
193 fprintf(stderr, " --av1-bitrate AV1 bitrate (in kilobit/sec, default %d)\n",
194 DEFAULT_AV1_OUTPUT_BIT_RATE);
195 fprintf(stderr, " --av1-fps=NUM[/DEN] AV1 encoded frame rate (default %d/%d)\n",
196 DEFAULT_AV1_FPS_NUM, DEFAULT_AV1_FPS_DEN);
197 fprintf(stderr, " --av1-param=NAME[,VALUE] set any SVT-AV1 parameter, for fine tuning\n");
199 fprintf(stderr, " --http-mux=NAME mux to use for HTTP streams (default " DEFAULT_STREAM_MUX_NAME ")\n");
200 fprintf(stderr, " --http-audio-codec=NAME audio codec to use for HTTP streams\n");
201 fprintf(stderr, " (default is to use the same as for the recording)\n");
202 fprintf(stderr, " --http-audio-bitrate=KBITS audio codec bit rate to use for HTTP streams\n");
203 fprintf(stderr, " (default is %d, ignored unless --http-audio-codec is set)\n",
204 DEFAULT_AUDIO_OUTPUT_BIT_RATE / 1000);
205 fprintf(stderr, " --http-port=PORT which port to use for the built-in HTTP server\n");
206 fprintf(stderr, " (default is %d)\n", DEFAULT_HTTPD_PORT);
207 fprintf(stderr, " --srt-port=PORT which port to use for receiving SRT streams\n");
208 fprintf(stderr, " (default is %d)\n", DEFAULT_SRT_PORT);
209 fprintf(stderr, " --no-srt disable receiving SRT streams\n");
210 if (program == PROGRAM_KAERU) {
211 fprintf(stderr, " --no-transcode-video copy encoded video raw from the source stream\n");
212 fprintf(stderr, " (experimental, must be H.264)\n");
213 fprintf(stderr, " --no-transcode-audio copy encoded audio raw from the source stream\n");
214 fprintf(stderr, " (requires --http-audio-codec= to be set)\n");
215 fprintf(stderr, " --disable-audio do not include any audio in the stream\n");
217 if (program == PROGRAM_NAGERU) {
218 fprintf(stderr, " --flat-audio start with most audio processing turned off\n");
219 fprintf(stderr, " (can be overridden by e.g. --enable-limiter)\n");
220 fprintf(stderr, " --gain-staging=DB set initial gain staging to the given value\n");
221 fprintf(stderr, " (--disable-gain-staging-auto)\n");
222 fprintf(stderr, " --disable-locut turn off locut filter (also --enable)\n");
223 fprintf(stderr, " --disable-gain-staging-auto turn off automatic gain staging (also --enable)\n");
224 fprintf(stderr, " --disable-compressor turn off regular compressor (also --enable)\n");
225 fprintf(stderr, " --disable-limiter turn off limiter (also --enable)\n");
226 fprintf(stderr, " --disable-makeup-gain-auto turn off auto-adjustment of final makeup gain (also --enable)\n");
227 fprintf(stderr, " --disable-alsa-output disable audio monitoring via ALSA\n");
228 fprintf(stderr, " --print-video-latency print out measurements of video latency on stdout\n");
229 fprintf(stderr, " --max-input-queue-frames=FRAMES never keep more than FRAMES frames for each card\n");
230 fprintf(stderr, " (default 6, minimum 1)\n");
231 fprintf(stderr, " --audio-queue-length-ms=MS length of audio resampling queue (default 100.0)\n");
232 fprintf(stderr, " --output-ycbcr-coefficients={rec601,rec709,auto}\n");
233 fprintf(stderr, " Y'CbCr coefficient standard of output (default auto)\n");
234 fprintf(stderr, " auto is rec601, unless --output-card is used\n");
235 fprintf(stderr, " and a Rec. 709 mode (typically HD modes) is in use\n");
236 fprintf(stderr, " --output-buffer-frames=NUM number of frames in output buffer for --output-card,\n");
237 fprintf(stderr, " can be fractional (default 6.0); note also\n");
238 fprintf(stderr, " the audio queue can't be much longer than this\n");
239 fprintf(stderr, " --output-slop-frames=NUM if more less than this number of frames behind for\n");
240 fprintf(stderr, " --output-card, try to submit anyway instead of\n");
241 fprintf(stderr, " dropping the frame (default 0.5)\n");
242 fprintf(stderr, " --output-card-unsynchronized if --output-card is in use, do _not_ use it as\n");
243 fprintf(stderr, " master clock (may give jittery output and audio breakups)\n");
244 fprintf(stderr, " --timecode-stream show timestamp and timecode in stream\n");
245 fprintf(stderr, " --timecode-stdout show timestamp and timecode on standard output\n");
246 fprintf(stderr, " --quick-cut-keys enable direct cutting by Q, W, E, ... keys\n");
247 fprintf(stderr, " --10-bit use 10-bit color depth\n");
248 fprintf(stderr, " --input-ycbcr-interpretation=CARD,{rec601,rec709,auto}[,{limited,full}]\n");
249 fprintf(stderr, " Y'CbCr coefficient standard of card CARD (default auto)\n");
250 fprintf(stderr, " auto is rec601 for SD, rec709 for HD, always limited\n");
251 fprintf(stderr, " limited means standard 0-240/0-235 input range (for 8-bit)\n");
252 fprintf(stderr, " --mjpeg-export-cards=RANGE[,RANGE...]\n");
253 fprintf(stderr, " export the given cards in MJPEG format to /multicam.mp4,\n");
254 fprintf(stderr, " in the given order (ranges can be either single card indexes\n");
255 fprintf(stderr, " or pairs like 1-3 for camera 1,2,3; default is all cards)\n");
259 void parse_flags(Program program, int argc, char * const argv[])
261 static const option long_options[] = {
262 { "help", no_argument, 0, OPTION_HELP },
263 { "fullscreen", no_argument, 0, OPTION_FULLSCREEN },
264 { "width", required_argument, 0, 'w' },
265 { "height", required_argument, 0, 'h' },
266 { "num-cards", required_argument, 0, 'c' },
267 { "max-num-cards", required_argument, 0, OPTION_MAX_NUM_CARDS },
268 { "output-card", required_argument, 0, 'o' },
269 { "theme", required_argument, 0, 't' },
270 { "theme-dir", required_argument, 0, 'I' },
271 { "recording-dir", required_argument, 0, 'r' },
272 { "map-signal", required_argument, 0, 'm' },
273 { "input-mapping", required_argument, 0, 'M' },
274 { "va-display", required_argument, 0, 'v' },
275 { "multichannel", no_argument, 0, OPTION_MULTICHANNEL },
276 { "midi-mapping", required_argument, 0, OPTION_MIDI_MAPPING },
277 { "default-hdmi-input", no_argument, 0, OPTION_DEFAULT_HDMI_INPUT },
278 { "fake-cards-audio", no_argument, 0, OPTION_FAKE_CARDS_AUDIO },
279 { "v4l-output", required_argument, 0, OPTION_V4L_OUTPUT },
280 { "http-x264-video", no_argument, 0, OPTION_HTTP_X264_VIDEO },
281 { "record-x264-video", no_argument, 0, OPTION_RECORD_X264_VIDEO },
282 { "separate-x264-disk-encode", no_argument, 0, OPTION_SEPARATE_X264_DISK_ENCODE },
283 { "x264-preset", required_argument, 0, OPTION_X264_PRESET },
284 { "x264-tune", required_argument, 0, OPTION_X264_TUNE },
285 { "x264-speedcontrol", no_argument, 0, OPTION_X264_SPEEDCONTROL },
286 { "x264-speedcontrol-verbose", no_argument, 0, OPTION_X264_SPEEDCONTROL_VERBOSE },
287 { "x264-bitrate", required_argument, 0, OPTION_X264_BITRATE },
288 { "x264-crf", required_argument, 0, OPTION_X264_CRF },
289 { "x264-param", required_argument, 0, OPTION_X264_PARAM },
290 { "x264-separate-disk-preset", required_argument, 0, OPTION_X264_SEPARATE_DISK_PRESET },
291 { "x264-separate-disk-tune", required_argument, 0, OPTION_X264_SEPARATE_DISK_TUNE },
292 { "x264-separate-disk-bitrate", required_argument, 0, OPTION_X264_SEPARATE_DISK_BITRATE },
293 { "x264-separate-disk-crf", required_argument, 0, OPTION_X264_SEPARATE_DISK_CRF },
294 { "x264-separate-disk-param", required_argument, 0, OPTION_X264_SEPARATE_DISK_PARAM },
296 { "http-av1-video", no_argument, 0, OPTION_HTTP_AV1_VIDEO },
297 { "av1-preset", required_argument, 0, OPTION_AV1_PRESET },
298 { "av1-bitrate", required_argument, 0, OPTION_AV1_BITRATE },
299 { "av1-fps", required_argument, 0, OPTION_AV1_FPS },
300 { "av1-param", required_argument, 0, OPTION_AV1_PARAM },
302 { "http-mux", required_argument, 0, OPTION_HTTP_MUX },
303 { "http-audio-codec", required_argument, 0, OPTION_HTTP_AUDIO_CODEC },
304 { "http-audio-bitrate", required_argument, 0, OPTION_HTTP_AUDIO_BITRATE },
305 { "http-port", required_argument, 0, OPTION_HTTP_PORT },
306 { "srt-port", required_argument, 0, OPTION_SRT_PORT },
307 { "no-srt", no_argument, 0, OPTION_NO_SRT },
308 { "no-transcode-video", no_argument, 0, OPTION_NO_TRANSCODE_VIDEO },
309 { "no-transcode-audio", no_argument, 0, OPTION_NO_TRANSCODE_AUDIO },
310 { "disable-audio", no_argument, 0, OPTION_DISABLE_AUDIO },
311 { "flat-audio", no_argument, 0, OPTION_FLAT_AUDIO },
312 { "gain-staging", required_argument, 0, OPTION_GAIN_STAGING },
313 { "disable-locut", no_argument, 0, OPTION_DISABLE_LOCUT },
314 { "enable-locut", no_argument, 0, OPTION_ENABLE_LOCUT },
315 { "disable-gain-staging-auto", no_argument, 0, OPTION_DISABLE_GAIN_STAGING_AUTO },
316 { "enable-gain-staging-auto", no_argument, 0, OPTION_ENABLE_GAIN_STAGING_AUTO },
317 { "disable-compressor", no_argument, 0, OPTION_DISABLE_COMPRESSOR },
318 { "enable-compressor", no_argument, 0, OPTION_ENABLE_COMPRESSOR },
319 { "disable-limiter", no_argument, 0, OPTION_DISABLE_LIMITER },
320 { "enable-limiter", no_argument, 0, OPTION_ENABLE_LIMITER },
321 { "disable-makeup-gain-auto", no_argument, 0, OPTION_DISABLE_MAKEUP_GAIN_AUTO },
322 { "enable-makeup-gain-auto", no_argument, 0, OPTION_ENABLE_MAKEUP_GAIN_AUTO },
323 { "disable-alsa-output", no_argument, 0, OPTION_DISABLE_ALSA_OUTPUT },
324 { "print-video-latency", no_argument, 0, OPTION_PRINT_VIDEO_LATENCY },
325 { "max-input-queue-frames", required_argument, 0, OPTION_MAX_INPUT_QUEUE_FRAMES },
326 { "audio-queue-length-ms", required_argument, 0, OPTION_AUDIO_QUEUE_LENGTH_MS },
327 { "output-ycbcr-coefficients", required_argument, 0, OPTION_OUTPUT_YCBCR_COEFFICIENTS },
328 { "output-buffer-frames", required_argument, 0, OPTION_OUTPUT_BUFFER_FRAMES },
329 { "output-slop-frames", required_argument, 0, OPTION_OUTPUT_SLOP_FRAMES },
330 { "output-card-unsynchronized", no_argument, 0, OPTION_OUTPUT_CARD_UNSYNCHRONIZED },
331 { "timecode-stream", no_argument, 0, OPTION_TIMECODE_STREAM },
332 { "timecode-stdout", no_argument, 0, OPTION_TIMECODE_STDOUT },
333 { "quick-cut-keys", no_argument, 0, OPTION_QUICK_CUT_KEYS },
334 { "10-bit", no_argument, 0, OPTION_10_BIT },
335 { "input-ycbcr-interpretation", required_argument, 0, OPTION_INPUT_YCBCR_INTERPRETATION },
336 { "mjpeg-export-cards", required_argument, 0, OPTION_MJPEG_EXPORT_CARDS },
338 // Do not explicitly signal texture data uploads (will give
339 // display corruption, but makes it possible to run with
340 // apitrace in real time). For developers only, so undocumented.
341 { "no-flush-pbos", no_argument, 0, OPTION_NO_FLUSH_PBOS },
343 // Deprecated variants.
344 { "10-bit-input", no_argument, 0, OPTION_10_BIT_INPUT },
345 { "10-bit-output", no_argument, 0, OPTION_10_BIT_OUTPUT },
349 vector<string> theme_dirs;
350 string output_ycbcr_coefficients = "auto";
351 bool card_to_mjpeg_stream_export_set = false;
353 int option_index = 0;
354 int c = getopt_long(argc, argv, "c:o:t:I:r:v:m:M:w:h:", long_options, &option_index);
361 global_flags.width = atoi(optarg);
364 global_flags.height = atoi(optarg);
367 global_flags.min_num_cards = atoi(optarg);
369 case OPTION_MAX_NUM_CARDS:
370 global_flags.max_num_cards = atoi(optarg);
373 global_flags.output_card = atoi(optarg);
376 global_flags.theme_filename = optarg;
379 theme_dirs.push_back(optarg);
382 global_flags.recording_dir = optarg;
385 char *ptr = strchr(optarg, ',');
386 if (ptr == nullptr) {
387 fprintf(stderr, "ERROR: Invalid argument '%s' to --map-signal (needs a signal and a card number, separated by comma)\n", optarg);
391 const int signal_num = atoi(optarg);
392 const int card_num = atoi(ptr + 1);
393 if (global_flags.default_stream_mapping.count(signal_num)) {
394 fprintf(stderr, "ERROR: Signal %d already mapped to card %d\n",
395 signal_num, global_flags.default_stream_mapping[signal_num]);
398 global_flags.default_stream_mapping[signal_num] = card_num;
402 global_flags.input_mapping_filename = optarg;
404 case OPTION_MULTICHANNEL:
405 global_flags.multichannel_mapping_mode = true;
408 global_flags.va_display = optarg;
410 case OPTION_MIDI_MAPPING:
411 global_flags.midi_mapping_filename = optarg;
412 global_flags.multichannel_mapping_mode = true;
414 case OPTION_DEFAULT_HDMI_INPUT:
415 global_flags.default_hdmi_input = true;
417 case OPTION_FAKE_CARDS_AUDIO:
418 global_flags.fake_cards_audio = true;
420 case OPTION_V4L_OUTPUT:
421 global_flags.v4l_output_device = optarg;
423 case OPTION_HTTP_MUX:
424 global_flags.stream_mux_name = optarg;
426 case OPTION_HTTP_AUDIO_CODEC:
427 global_flags.stream_audio_codec_name = optarg;
429 case OPTION_HTTP_AUDIO_BITRATE:
430 global_flags.stream_audio_codec_bitrate = atoi(optarg) * 1000;
432 case OPTION_HTTP_PORT:
433 global_flags.http_port = atoi(optarg);
435 case OPTION_SRT_PORT:
436 global_flags.srt_port = atoi(optarg);
439 global_flags.srt_port = -1;
441 case OPTION_NO_TRANSCODE_VIDEO:
442 global_flags.transcode_video = false;
444 case OPTION_NO_TRANSCODE_AUDIO:
445 global_flags.transcode_audio = false;
447 case OPTION_DISABLE_AUDIO:
448 global_flags.transcode_audio = false;
449 global_flags.enable_audio = false;
451 case OPTION_HTTP_X264_VIDEO:
452 global_flags.x264_video_to_http = true;
454 case OPTION_RECORD_X264_VIDEO:
455 global_flags.x264_video_to_disk = true;
457 case OPTION_SEPARATE_X264_DISK_ENCODE:
458 global_flags.x264_video_to_disk = true;
459 global_flags.x264_video_to_http = true;
460 global_flags.x264_separate_disk_encode = true;
462 case OPTION_HTTP_AV1_VIDEO:
463 global_flags.av1_video_to_http = true;
465 case OPTION_X264_PRESET:
466 global_flags.x264_preset = optarg;
468 case OPTION_X264_TUNE:
469 global_flags.x264_tune = optarg;
471 case OPTION_X264_SPEEDCONTROL:
472 global_flags.x264_speedcontrol = true;
474 case OPTION_X264_SPEEDCONTROL_VERBOSE:
475 global_flags.x264_speedcontrol_verbose = true;
477 case OPTION_X264_BITRATE:
478 global_flags.x264_bitrate = atoi(optarg);
480 case OPTION_X264_CRF:
481 global_flags.x264_crf = atof(optarg);
483 case OPTION_X264_PARAM:
484 global_flags.x264_extra_param.push_back(optarg);
486 case OPTION_X264_SEPARATE_DISK_PRESET:
487 global_flags.x264_separate_disk_preset = optarg;
489 case OPTION_X264_SEPARATE_DISK_TUNE:
490 global_flags.x264_separate_disk_tune = optarg;
492 case OPTION_X264_SEPARATE_DISK_BITRATE:
493 global_flags.x264_separate_disk_bitrate = atoi(optarg);
495 case OPTION_X264_SEPARATE_DISK_CRF:
496 global_flags.x264_separate_disk_crf = atof(optarg);
498 case OPTION_X264_SEPARATE_DISK_PARAM:
499 global_flags.x264_separate_disk_extra_param.push_back(optarg);
501 case OPTION_AV1_PRESET:
502 global_flags.av1_preset = atoi(optarg);
504 case OPTION_AV1_BITRATE:
505 global_flags.av1_bitrate = atoi(optarg);
507 case OPTION_AV1_FPS: {
509 const size_t pos = str.find('/');
510 if (pos == string::npos) {
511 global_flags.av1_fps_num = stoi(str);
512 global_flags.av1_fps_den = 1;
514 const string num = str.substr(0, pos);
515 const string den = str.substr(pos + 1);
516 global_flags.av1_fps_num = stoi(num);
517 global_flags.av1_fps_den = stoi(den);
521 case OPTION_AV1_PARAM:
522 global_flags.av1_extra_param.push_back(optarg);
524 case OPTION_FLAT_AUDIO:
525 // If --flat-audio is given, turn off everything that messes with the sound,
526 // except the final makeup gain.
527 global_flags.locut_enabled = false;
528 global_flags.gain_staging_auto = false;
529 global_flags.compressor_enabled = false;
530 global_flags.limiter_enabled = false;
532 case OPTION_GAIN_STAGING:
533 global_flags.initial_gain_staging_db = atof(optarg);
534 global_flags.gain_staging_auto = false;
536 case OPTION_DISABLE_LOCUT:
537 global_flags.locut_enabled = false;
539 case OPTION_ENABLE_LOCUT:
540 global_flags.locut_enabled = true;
542 case OPTION_DISABLE_GAIN_STAGING_AUTO:
543 global_flags.gain_staging_auto = false;
545 case OPTION_ENABLE_GAIN_STAGING_AUTO:
546 global_flags.gain_staging_auto = true;
548 case OPTION_DISABLE_COMPRESSOR:
549 global_flags.compressor_enabled = false;
551 case OPTION_ENABLE_COMPRESSOR:
552 global_flags.compressor_enabled = true;
554 case OPTION_DISABLE_LIMITER:
555 global_flags.limiter_enabled = false;
557 case OPTION_ENABLE_LIMITER:
558 global_flags.limiter_enabled = true;
560 case OPTION_DISABLE_MAKEUP_GAIN_AUTO:
561 global_flags.final_makeup_gain_auto = false;
563 case OPTION_ENABLE_MAKEUP_GAIN_AUTO:
564 global_flags.final_makeup_gain_auto = true;
566 case OPTION_DISABLE_ALSA_OUTPUT:
567 global_flags.enable_alsa_output = false;
569 case OPTION_NO_FLUSH_PBOS:
570 global_flags.flush_pbos = false;
572 case OPTION_PRINT_VIDEO_LATENCY:
573 global_flags.print_video_latency = true;
575 case OPTION_MAX_INPUT_QUEUE_FRAMES:
576 global_flags.max_input_queue_frames = atoi(optarg);
578 case OPTION_AUDIO_QUEUE_LENGTH_MS:
579 global_flags.audio_queue_length_ms = atof(optarg);
581 case OPTION_OUTPUT_YCBCR_COEFFICIENTS:
582 output_ycbcr_coefficients = optarg;
584 case OPTION_OUTPUT_BUFFER_FRAMES:
585 global_flags.output_buffer_frames = atof(optarg);
587 case OPTION_OUTPUT_SLOP_FRAMES:
588 global_flags.output_slop_frames = atof(optarg);
590 case OPTION_OUTPUT_CARD_UNSYNCHRONIZED:
591 global_flags.output_card_is_master = false;
593 case OPTION_TIMECODE_STREAM:
594 global_flags.display_timecode_in_stream = true;
596 case OPTION_TIMECODE_STDOUT:
597 global_flags.display_timecode_on_stdout = true;
599 case OPTION_QUICK_CUT_KEYS:
600 global_flags.enable_quick_cut_keys = true;
602 case OPTION_10_BIT_INPUT:
603 fprintf(stderr, "NOTE: --10-bit-input is a deprecated alias for --10-bit.\n");
604 global_flags.bit_depth = 10;
606 case OPTION_10_BIT_OUTPUT:
607 fprintf(stderr, "NOTE: --10-bit-output is a deprecated alias for --10-bit.\n");
608 global_flags.bit_depth = 10;
611 global_flags.bit_depth = 10;
613 case OPTION_INPUT_YCBCR_INTERPRETATION: {
614 char *ptr = strchr(optarg, ',');
615 if (ptr == nullptr) {
616 fprintf(stderr, "ERROR: Invalid argument '%s' to --input-ycbcr-interpretation (needs a card and an interpretation, separated by comma)\n", optarg);
620 const int card_num = atoi(optarg);
621 if (card_num < 0 || card_num >= MAX_VIDEO_CARDS) {
622 fprintf(stderr, "ERROR: Invalid card number %d\n", card_num);
626 YCbCrInterpretation interpretation;
627 char *interpretation_str = ptr + 1;
628 ptr = strchr(interpretation_str, ',');
629 if (ptr != nullptr) {
631 const char *range = ptr + 1;
632 if (strcmp(range, "full") == 0) {
633 interpretation.full_range = true;
634 } else if (strcmp(range, "limited") == 0) {
635 interpretation.full_range = false;
637 fprintf(stderr, "ERROR: Invalid Y'CbCr range '%s' (must be “full” or “limited”)\n", range);
642 if (strcmp(interpretation_str, "rec601") == 0) {
643 interpretation.ycbcr_coefficients_auto = false;
644 interpretation.ycbcr_coefficients = movit::YCBCR_REC_601;
645 } else if (strcmp(interpretation_str, "rec709") == 0) {
646 interpretation.ycbcr_coefficients_auto = false;
647 interpretation.ycbcr_coefficients = movit::YCBCR_REC_709;
648 } else if (strcmp(interpretation_str, "auto") == 0) {
649 interpretation.ycbcr_coefficients_auto = true;
650 if (interpretation.full_range) {
651 fprintf(stderr, "ERROR: Cannot use “auto” Y'CbCr coefficients with full range\n");
655 fprintf(stderr, "ERROR: Invalid Y'CbCr coefficients '%s' (must be “rec601”, “rec709” or “auto”)\n", interpretation_str);
658 global_flags.ycbcr_interpretation[card_num] = interpretation;
661 case OPTION_FULLSCREEN:
662 global_flags.fullscreen = true;
664 case OPTION_MJPEG_EXPORT_CARDS: {
665 if (card_to_mjpeg_stream_export_set) {
666 fprintf(stderr, "ERROR: --mjpeg-export-cards given twice\n");
669 global_flags.card_to_mjpeg_stream_export = parse_mjpeg_export_cards(optarg);
670 card_to_mjpeg_stream_export_set = true;
677 fprintf(stderr, "Unknown option '%s'\n", argv[option_index]);
678 fprintf(stderr, "\n");
684 if (global_flags.x264_video_to_http +
685 global_flags.av1_video_to_http > 1) {
686 fprintf(stderr, "ERROR: --http-{x264,av1}-video are mutually incompatible\n");
689 if (global_flags.bit_depth == 10) {
690 global_flags.x264_video_to_disk = true; // No 10-bit Quick Sync support.
691 if (!global_flags.av1_video_to_http) {
692 global_flags.x264_video_to_http = true;
695 if (global_flags.x264_video_to_disk && !global_flags.av1_video_to_http) {
696 global_flags.x264_video_to_http = true; // Quick Sync to HTTP but x264 to disk doesn't make sense.
698 if (global_flags.min_num_cards <= 0) {
699 fprintf(stderr, "ERROR: --num-cards must be at least 1\n");
702 if (global_flags.max_num_cards <= 0) {
703 fprintf(stderr, "ERROR: --max-num-cards must be at least 1\n");
706 if (global_flags.max_num_cards < global_flags.min_num_cards) {
707 fprintf(stderr, "ERROR: --max-num-cards can not be lower than --num-cards\n");
710 if (global_flags.output_card < -1 ||
711 global_flags.output_card >= global_flags.max_num_cards) {
712 fprintf(stderr, "ERROR: --output-card points to a nonexistant card\n");
715 if (global_flags.enable_audio && !global_flags.transcode_audio && global_flags.stream_audio_codec_name.empty()) {
716 fprintf(stderr, "ERROR: If not transcoding audio, you must specify ahead-of-time what audio codec is in use\n");
717 fprintf(stderr, " (using --http-audio-codec).\n");
720 if (global_flags.x264_speedcontrol) {
721 if (!global_flags.x264_preset.empty() && global_flags.x264_preset != "faster") {
722 fprintf(stderr, "WARNING: --x264-preset is overridden by --x264-speedcontrol (implicitly uses \"faster\" as base preset)\n");
724 global_flags.x264_preset = "faster";
725 } else if (global_flags.x264_preset.empty()) {
726 global_flags.x264_preset = X264_DEFAULT_PRESET;
728 if (global_flags.x264_separate_disk_preset.empty()) {
729 global_flags.x264_separate_disk_preset = X264_DEFAULT_PRESET;
731 if (!theme_dirs.empty()) {
732 global_flags.theme_dirs = theme_dirs;
735 // In reality, we could probably do with any even value (we subsample
736 // by two in some places), but it's better to be on the safe side
737 // wrt. video codecs and such. (I'd set 16 if I could, but 1080 isn't
739 if (global_flags.width <= 0 || (global_flags.width % 8) != 0 ||
740 global_flags.height <= 0 || (global_flags.height % 8) != 0) {
741 fprintf(stderr, "ERROR: --width and --height must be positive integers divisible by 8\n");
745 for (pair<int, int> mapping : global_flags.default_stream_mapping) {
746 if (mapping.second >= global_flags.max_num_cards) {
747 fprintf(stderr, "ERROR: Signal %d mapped to card %d, which doesn't exist (try adjusting --max-num-cards)\n",
748 mapping.first, mapping.second);
753 // Rec. 709 would be the sane thing to do, but it seems many players
754 // just default to BT.601 coefficients no matter what. We _do_ set
755 // the right flags, so that a player that works properly doesn't have
756 // to guess, but it's frequently ignored. See discussions
757 // in e.g. https://trac.ffmpeg.org/ticket/4978; the situation with
758 // browsers is complicated and depends on things like hardware acceleration
759 // (https://bugs.chromium.org/p/chromium/issues/detail?id=333619 for
760 // extensive discussion). VLC generally fixed this as part of 3.0.0
761 // (see e.g. https://github.com/videolan/vlc/commit/bc71288b2e38c07d6921472824b92eef1aa85f7e
762 // and https://github.com/videolan/vlc/commit/c3fc2683a9cde1d42674ebf9935dced05733a215),
763 // but earlier versions were pretty random.
765 // On the other hand, HDMI/SDI output typically requires Rec. 709 for
766 // HD resolutions (with no way of signaling anything else), which is
767 // a conflicting demand. In this case, we typically let the HDMI/SDI
768 // output win if it is active, but the user can override this.
769 if (output_ycbcr_coefficients == "auto") {
770 // Essentially: BT.709 if HDMI/SDI output is on, otherwise BT.601.
771 global_flags.ycbcr_rec709_coefficients = false;
772 global_flags.ycbcr_auto_coefficients = true;
773 } else if (output_ycbcr_coefficients == "rec709") {
774 global_flags.ycbcr_rec709_coefficients = true;
775 global_flags.ycbcr_auto_coefficients = false;
776 } else if (output_ycbcr_coefficients == "rec601") {
777 global_flags.ycbcr_rec709_coefficients = false;
778 global_flags.ycbcr_auto_coefficients = false;
780 fprintf(stderr, "ERROR: --output-ycbcr-coefficients must be “rec601”, “rec709” or “auto”\n");
784 if (global_flags.output_buffer_frames < 0.0f) {
785 // Actually, even zero probably won't make sense; there is some internal
786 // delay to the card.
787 fprintf(stderr, "ERROR: --output-buffer-frames can't be negative.\n");
790 if (global_flags.output_slop_frames < 0.0f) {
791 fprintf(stderr, "ERROR: --output-slop-frames can't be negative.\n");
794 if (global_flags.max_input_queue_frames < 1) {
795 fprintf(stderr, "ERROR: --max-input-queue-frames must be at least 1.\n");
798 if (global_flags.max_input_queue_frames > 10) {
799 fprintf(stderr, "WARNING: --max-input-queue-frames has little effect over 10.\n");
802 if (!isinf(global_flags.x264_crf)) { // CRF mode is selected.
803 if (global_flags.x264_bitrate != -1) {
804 fprintf(stderr, "ERROR: --x264-bitrate and --x264-crf are mutually incompatible.\n");
807 } else if (global_flags.x264_bitrate == -1) {
808 global_flags.x264_bitrate = DEFAULT_X264_OUTPUT_BIT_RATE;
811 if (!isinf(global_flags.x264_separate_disk_crf)) { // CRF mode is selected.
812 if (global_flags.x264_separate_disk_bitrate != -1) {
813 fprintf(stderr, "ERROR: --x264-separate-disk-bitrate and --x264-separate-disk-crf are mutually incompatible.\n");
816 } else if (global_flags.x264_separate_disk_bitrate == -1) {
817 global_flags.x264_separate_disk_bitrate = DEFAULT_X264_OUTPUT_BIT_RATE;
820 if (!card_to_mjpeg_stream_export_set) {
821 // Fill in the default mapping (export all cards, in order).
822 for (unsigned card_idx = 0; card_idx < unsigned(global_flags.max_num_cards); ++card_idx) {
823 global_flags.card_to_mjpeg_stream_export[card_idx] = card_idx;