/****************************************************************************** Copyright (C) 2014 by Hugh Bailey 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, see . ******************************************************************************/ #include #include #include #include #include "flv-mux.h" #include "obs-output-ver.h" #include "rtmp-helpers.h" /* TODO: FIXME: this is currently hard-coded to h264 and aac! ..not that we'll * use anything else for a long time. */ //#define DEBUG_TIMESTAMPS //#define WRITE_FLV_HEADER #define VIDEO_HEADER_SIZE 5 static inline double encoder_bitrate(obs_encoder_t *encoder) { obs_data_t *settings = obs_encoder_get_settings(encoder); double bitrate = obs_data_get_double(settings, "bitrate"); obs_data_release(settings); return bitrate; } #define FLV_INFO_SIZE_OFFSET 42 void write_file_info(FILE *file, int64_t duration_ms, int64_t size) { char buf[64]; char *enc = buf; char *end = enc + sizeof(buf); fseek(file, FLV_INFO_SIZE_OFFSET, SEEK_SET); enc_num_val(&enc, end, "duration", (double)duration_ms / 1000.0); enc_num_val(&enc, end, "fileSize", (double)size); fwrite(buf, 1, enc - buf, file); } static bool build_flv_meta_data(obs_output_t *context, uint8_t **output, size_t *size, size_t a_idx) { obs_encoder_t *vencoder = obs_output_get_video_encoder(context); obs_encoder_t *aencoder = obs_output_get_audio_encoder(context, a_idx); video_t *video = obs_encoder_video(vencoder); audio_t *audio = obs_encoder_audio(aencoder); char buf[4096]; char *enc = buf; char *end = enc + sizeof(buf); struct dstr encoder_name = {0}; if (a_idx > 0 && !aencoder) return false; enc_str(&enc, end, "onMetaData"); *enc++ = AMF_ECMA_ARRAY; enc = AMF_EncodeInt32(enc, end, a_idx == 0 ? 20 : 15); enc_num_val(&enc, end, "duration", 0.0); enc_num_val(&enc, end, "fileSize", 0.0); if (a_idx == 0) { enc_num_val(&enc, end, "width", (double)obs_encoder_get_width(vencoder)); enc_num_val(&enc, end, "height", (double)obs_encoder_get_height(vencoder)); enc_str_val(&enc, end, "videocodecid", "avc1"); enc_num_val(&enc, end, "videodatarate", encoder_bitrate(vencoder)); enc_num_val(&enc, end, "framerate", video_output_get_frame_rate(video)); } enc_str_val(&enc, end, "audiocodecid", "mp4a"); enc_num_val(&enc, end, "audiodatarate", encoder_bitrate(aencoder)); enc_num_val(&enc, end, "audiosamplerate", (double)obs_encoder_get_sample_rate(aencoder)); enc_num_val(&enc, end, "audiosamplesize", 16.0); enc_num_val(&enc, end, "audiochannels", (double)audio_output_get_channels(audio)); enc_bool_val(&enc, end, "stereo", audio_output_get_channels(audio) == 2); enc_bool_val(&enc, end, "2.1", audio_output_get_channels(audio) == 3); enc_bool_val(&enc, end, "3.1", audio_output_get_channels(audio) == 4); enc_bool_val(&enc, end, "4.0", audio_output_get_channels(audio) == 4); enc_bool_val(&enc, end, "4.1", audio_output_get_channels(audio) == 5); enc_bool_val(&enc, end, "5.1", audio_output_get_channels(audio) == 6); enc_bool_val(&enc, end, "7.1", audio_output_get_channels(audio) == 8); dstr_printf(&encoder_name, "%s (libobs version ", MODULE_NAME); #ifdef HAVE_OBSCONFIG_H dstr_cat(&encoder_name, OBS_VERSION); #else dstr_catf(&encoder_name, "%d.%d.%d", LIBOBS_API_MAJOR_VER, LIBOBS_API_MINOR_VER, LIBOBS_API_PATCH_VER); #endif dstr_cat(&encoder_name, ")"); enc_str_val(&enc, end, "encoder", encoder_name.array); dstr_free(&encoder_name); *enc++ = 0; *enc++ = 0; *enc++ = AMF_OBJECT_END; *size = enc - buf; *output = bmemdup(buf, *size); return true; } bool flv_meta_data(obs_output_t *context, uint8_t **output, size_t *size, bool write_header, size_t audio_idx) { struct array_output_data data; struct serializer s; uint8_t *meta_data = NULL; size_t meta_data_size; uint32_t start_pos; array_output_serializer_init(&s, &data); if (!build_flv_meta_data(context, &meta_data, &meta_data_size, audio_idx)) { bfree(meta_data); return false; } if (write_header) { s_write(&s, "FLV", 3); s_w8(&s, 1); s_w8(&s, 5); s_wb32(&s, 9); s_wb32(&s, 0); } start_pos = serializer_get_pos(&s); s_w8(&s, RTMP_PACKET_TYPE_INFO); s_wb24(&s, (uint32_t)meta_data_size); s_wb32(&s, 0); s_wb24(&s, 0); s_write(&s, meta_data, meta_data_size); s_wb32(&s, (uint32_t)serializer_get_pos(&s) - start_pos - 1); *output = data.bytes.array; *size = data.bytes.num; bfree(meta_data); return true; } #ifdef DEBUG_TIMESTAMPS static int32_t last_time = 0; #endif static void flv_video(struct serializer *s, int32_t dts_offset, struct encoder_packet *packet, bool is_header) { int64_t offset = packet->pts - packet->dts; int32_t time_ms = get_ms_time(packet, packet->dts) - dts_offset; if (!packet->data || !packet->size) return; s_w8(s, RTMP_PACKET_TYPE_VIDEO); #ifdef DEBUG_TIMESTAMPS blog(LOG_DEBUG, "Video: %lu", time_ms); if (last_time > time_ms) blog(LOG_DEBUG, "Non-monotonic"); last_time = time_ms; #endif s_wb24(s, (uint32_t)packet->size + 5); s_wb24(s, time_ms); s_w8(s, (time_ms >> 24) & 0x7F); s_wb24(s, 0); /* these are the 5 extra bytes mentioned above */ s_w8(s, packet->keyframe ? 0x17 : 0x27); s_w8(s, is_header ? 0 : 1); s_wb24(s, get_ms_time(packet, offset)); s_write(s, packet->data, packet->size); /* write tag size (starting byte doesn't count) */ s_wb32(s, (uint32_t)serializer_get_pos(s) - 1); } static void flv_audio(struct serializer *s, int32_t dts_offset, struct encoder_packet *packet, bool is_header) { int32_t time_ms = get_ms_time(packet, packet->dts) - dts_offset; if (!packet->data || !packet->size) return; s_w8(s, RTMP_PACKET_TYPE_AUDIO); #ifdef DEBUG_TIMESTAMPS blog(LOG_DEBUG, "Audio: %lu", time_ms); if (last_time > time_ms) blog(LOG_DEBUG, "Non-monotonic"); last_time = time_ms; #endif s_wb24(s, (uint32_t)packet->size + 2); s_wb24(s, time_ms); s_w8(s, (time_ms >> 24) & 0x7F); s_wb24(s, 0); /* these are the two extra bytes mentioned above */ s_w8(s, 0xaf); s_w8(s, is_header ? 0 : 1); s_write(s, packet->data, packet->size); /* write tag size (starting byte doesn't count) */ s_wb32(s, (uint32_t)serializer_get_pos(s) - 1); } void flv_packet_mux(struct encoder_packet *packet, int32_t dts_offset, uint8_t **output, size_t *size, bool is_header) { struct array_output_data data; struct serializer s; array_output_serializer_init(&s, &data); if (packet->type == OBS_ENCODER_VIDEO) flv_video(&s, dts_offset, packet, is_header); else flv_audio(&s, dts_offset, packet, is_header); *output = data.bytes.array; *size = data.bytes.num; }