#include #include "coding.h" #ifdef VGM_USE_FFMPEG #include #include #include /* opaque struct */ struct ffmpeg_codec_data { /*** IO internals ***/ STREAMFILE* sf; uint64_t start; // absolute start within the streamfile uint64_t offset; // absolute offset within the streamfile uint64_t size; // max size within the streamfile uint64_t logical_offset; // computed offset FFmpeg sees (including fake header) uint64_t logical_size; // computed size FFmpeg sees (including fake header) uint64_t header_size; // fake header (parseable by FFmpeg) prepended on reads uint8_t* header_block; // fake header data (ie. RIFF) /*** internal state ***/ // config int stream_count; /* FFmpeg audio streams (ignores video/etc) */ int stream_index; int64_t total_samples; /* may be 0 and innacurate */ int64_t skip_samples; /* number of start samples that will be skipped (encoder delay) */ int channel_remap_set; int channel_remap[32]; /* map of channel > new position */ int invert_floats_set; int skip_samples_set; /* flag to know skip samples were manually added from vgmstream */ int force_seek; /* flags for special seeking in faulty formats */ int bad_init; // FFmpeg context used for metadata AVCodec* codec; /* FFmpeg decoder state */ unsigned char* buffer; AVIOContext* ioCtx; AVFormatContext* formatCtx; AVCodecContext* codecCtx; AVFrame* frame; /* last decoded frame */ AVPacket* packet; /* last read data packet */ int read_packet; int end_of_stream; int end_of_audio; /* sample state */ int32_t samples_discard; int32_t samples_consumed; int32_t samples_filled; }; #define FFMPEG_DEFAULT_IO_BUFFER_SIZE STREAMFILE_DEFAULT_BUFFER_SIZE static volatile int g_ffmpeg_initialized = 0; static void free_ffmpeg_config(ffmpeg_codec_data* data); static int init_ffmpeg_config(ffmpeg_codec_data* data, int target_subsong, int reset); /* ******************************************** */ /* INTERNAL UTILS */ /* ******************************************** */ /* Global FFmpeg init */ static void g_init_ffmpeg(void) { if (g_ffmpeg_initialized == 1) { while (g_ffmpeg_initialized < 2); /* active wait for lack of a better way */ } else if (g_ffmpeg_initialized == 0) { g_ffmpeg_initialized = 1; av_log_set_flags(AV_LOG_SKIP_REPEATED); av_log_set_level(AV_LOG_ERROR); //#if LIBAVCODEC_VERSION_INT < AV_VERSION_INT(58, 18, 100) // av_register_all(); /* not needed in newer versions */ //#endif g_ffmpeg_initialized = 2; } } static void remap_audio(sample_t* outbuf, int sample_count, int channels, int* channel_mappings) { int ch_from,ch_to,s; sample_t temp; for (s = 0; s < sample_count; s++) { for (ch_from = 0; ch_from < channels; ch_from++) { if (ch_from > 32) continue; ch_to = channel_mappings[ch_from]; if (ch_to < 1 || ch_to > 32 || ch_to > channels-1 || ch_from == ch_to) continue; temp = outbuf[s*channels + ch_from]; outbuf[s*channels + ch_from] = outbuf[s*channels + ch_to]; outbuf[s*channels + ch_to] = temp; } } } /** * Special patching for FFmpeg's buggy seek code. * * To seek with avformat_seek_file/av_seek_frame, FFmpeg's demuxers can implement read_seek2 (newest API) * or read_seek (older API), with various search modes. If none are available it will use seek_frame_generic, * which manually reads frame by frame until the selected timestamp. However, the prev frame will be consumed * (so after seeking to 0 next av_read_frame will actually give the second frame and so on). * * Fortunately seek_frame_generic can use an index to find the correct position. This function reads the * first frame/packet and sets up index to timestamp 0. This ensures faulty demuxers will seek to 0 correctly. * Some formats may not seek to 0 even with this, though. */ static int init_seek(ffmpeg_codec_data* data) { int ret, ts_index, packet_count = 0; int64_t ts = 0; /* seek timestamp */ int64_t pos = 0; /* data offset */ int size = 0; /* data size (block align) */ int distance = 0; /* always 0 ("duration") */ AVStream* stream = data->formatCtx->streams[data->stream_index]; AVPacket* pkt = data->packet; /* read_seek shouldn't need this index, but direct access to FFmpeg's internals is no good */ /* if (data->formatCtx->iformat->read_seek || data->formatCtx->iformat->read_seek2) return 0; */ /* A few formats may have a proper index (e.g. CAF/MP4/MPC/ASF/WAV/XWMA/FLAC/MP3), but some don't * work with our custom index (CAF/MPC/MP4) and must skip it. Most formats need flag AVSEEK_FLAG_ANY, * while XWMA (with index 0 not pointing to ts 0) needs AVSEEK_FLAG_BACKWARD to seek properly, but it * makes OGG use the index and seek wrong instead. So for XWMA we forcefully remove the index on it's own meta. */ ts_index = av_index_search_timestamp(stream, 0, /*AVSEEK_FLAG_BACKWARD |*/ AVSEEK_FLAG_ANY); if (ts_index >= 0) { VGM_LOG("FFMPEG: index found for init_seek\n"); goto test_seek; } /* find the first + second packets to get pos/size */ packet_count = 0; while (1) { av_packet_unref(pkt); ret = av_read_frame(data->formatCtx, pkt); if (ret < 0) break; if (pkt->stream_index != data->stream_index) continue; /* ignore non-selected streams */ //;VGM_LOG("FFMPEG: packet %i, ret=%i, pos=%i, dts=%i\n", packet_count, ret, (int32_t)pkt->pos, (int32_t)pkt->dts); packet_count++; if (packet_count == 1) { pos = pkt->pos; ts = pkt->dts; continue; } else { /* second found */ size = pkt->pos - pos; /* coded, pkt->size is decoded size */ break; } } if (packet_count == 0) goto fail; /* happens in unseekable formats where FFmpeg doesn't even know its own position */ if (pos < 0) goto fail; /* in rare cases there is only one packet */ //if (size == 0) size = data_end - pos; /* no easy way to know, ignore (most formats don's need size) */ /* some formats don't seem to have packet.dts, pretend it's 0 */ if (ts == INT64_MIN) ts = 0; /* Some streams start with negative DTS (OGG/OPUS). For Ogg seeking to negative or 0 doesn't seem different. * It does seem seeking before decoding alters a bunch of (inaudible) +-1 lower bytes though. * Output looks correct (encoder delay, num_samples, etc) compared to libvorbis's output. */ VGM_ASSERT(ts != 0, "FFMPEG: negative start_ts (%li)\n", (long)ts); if (ts != 0) ts = 0; /* add index 0 */ ret = av_add_index_entry(stream, pos, ts, size, distance, AVINDEX_KEYFRAME); if ( ret < 0 ) return ret; test_seek: /* seek to 0 test + move back to beginning, since we just consumed packets */ ret = avformat_seek_file(data->formatCtx, data->stream_index, ts, ts, ts, AVSEEK_FLAG_ANY); if ( ret < 0 ) { //char test[1000] = {0}; av_strerror(ret, test, 1000); VGM_LOG("FFMPEG: ret=%i %s\n", ret, test); return ret; /* we can't even reset_vgmstream the file */ } avcodec_flush_buffers(data->codecCtx); return 0; fail: return -1; } /* ******************************************** */ /* AVIO CALLBACKS */ /* ******************************************** */ /* AVIO callback: read stream, handling custom data */ static int ffmpeg_read(void* opaque, uint8_t* buf, int read_size) { ffmpeg_codec_data* data = opaque; int bytes = 0; int max_to_copy = 0; /* clamp reads */ if (data->logical_offset + read_size > data->logical_size) read_size = data->logical_size - data->logical_offset; if (read_size == 0) return AVERROR_EOF; /* handle reads on inserted header */ if (data->header_size && data->logical_offset < data->header_size) { max_to_copy = (int)(data->header_size - data->logical_offset); if (max_to_copy > read_size) max_to_copy = read_size; memcpy(buf, data->header_block + data->logical_offset, max_to_copy); buf += max_to_copy; read_size -= max_to_copy; data->logical_offset += max_to_copy; if (read_size == 0) { return max_to_copy ? max_to_copy : AVERROR_EOF; /* offset still in header */ } } /* main read */ bytes = read_streamfile(buf, data->offset, read_size, data->sf); data->logical_offset += bytes; data->offset += bytes; return bytes + max_to_copy; } /* AVIO callback: seek stream, handling custom data */ static int64_t ffmpeg_seek(void* opaque, int64_t offset, int whence) { ffmpeg_codec_data* data = opaque; int ret = 0; /* get cache'd size */ if (whence & AVSEEK_SIZE) { return data->logical_size; } whence &= ~(AVSEEK_SIZE | AVSEEK_FORCE); /* find the final offset FFmpeg sees (within fake header + virtual size) */ switch (whence) { case SEEK_SET: /* absolute */ break; case SEEK_CUR: /* relative to current */ offset += data->logical_offset; break; case SEEK_END: /* relative to file end (should be negative) */ offset += data->logical_size; break; default: break; } /* clamp offset; fseek does this too */ if (offset > data->logical_size) offset = data->logical_size; else if (offset < 0) offset = 0; /* seeks inside fake header */ if (offset < data->header_size) { data->logical_offset = offset; data->offset = data->start; return ret; } /* main seek */ data->logical_offset = offset; data->offset = data->start + (offset - data->header_size); return ret; } /* ******************************************** */ /* MAIN INIT/DECODER */ /* ******************************************** */ ffmpeg_codec_data* init_ffmpeg_offset(STREAMFILE* sf, uint64_t start, uint64_t size) { return init_ffmpeg_header_offset(sf, NULL,0, start,size); } ffmpeg_codec_data* init_ffmpeg_header_offset(STREAMFILE* sf, uint8_t* header, uint64_t header_size, uint64_t start, uint64_t size) { return init_ffmpeg_header_offset_subsong(sf, header, header_size, start, size, 0); } /** * Manually init FFmpeg, from a fake header / offset. * * Takes a fake header, to trick FFmpeg into demuxing/decoding the stream. * This header will be seamlessly inserted before 'start' offset, and total filesize will be 'header_size' + 'size'. * The header buffer will be copied and memory-managed internally. * NULL header can used given if the stream has internal data recognized by FFmpeg at offset. * Stream index can be passed if the file has multiple audio streams that FFmpeg can demux (1=first). */ ffmpeg_codec_data* init_ffmpeg_header_offset_subsong(STREAMFILE* sf, uint8_t* header, uint64_t header_size, uint64_t start, uint64_t size, int target_subsong) { ffmpeg_codec_data* data = NULL; int errcode; /* check values */ if ((header && !header_size) || (!header && header_size)) goto fail; if (size == 0 || start + size > get_streamfile_size(sf)) { vgm_asserti(size != 0, "FFMPEG: wrong start+size found: %x + %x > %x \n", (uint32_t)start, (uint32_t)size, (uint32_t)get_streamfile_size(sf)); size = get_streamfile_size(sf) - start; } /* initial FFmpeg setup */ g_init_ffmpeg(); /* basic setup */ data = calloc(1, sizeof(ffmpeg_codec_data)); if (!data) return NULL; data->sf = reopen_streamfile(sf, 0); if (!data->sf) goto fail; /* fake header to trick FFmpeg into demuxing/decoding the stream */ if (header_size > 0) { data->header_size = header_size; data->header_block = av_memdup(header, header_size); if (!data->header_block) goto fail; } data->start = start; data->offset = data->start; data->size = size; data->logical_offset = 0; data->logical_size = data->header_size + data->size; /* setup FFmpeg's internals, attempt to autodetect format and gather some info */ errcode = init_ffmpeg_config(data, target_subsong, 0); if (errcode < 0) goto fail; /* reset non-zero values */ data->read_packet = 1; /* setup other values */ { AVStream* stream = data->formatCtx->streams[data->stream_index]; AVRational tb = {0}; tb.num = 1; tb.den = data->codecCtx->sample_rate; #if 0 /* derive info */ data->sampleRate = data->codecCtx->sample_rate; data->channels = data->codecCtx->channels; data->bitrate = (int)(data->codecCtx->bit_rate); data->blockAlign = data->codecCtx->block_align; data->frameSize = data->codecCtx->frame_size; if(data->frameSize == 0) /* some formats don't set frame_size but can get on request, and vice versa */ data->frameSize = av_get_audio_frame_duration(data->codecCtx,0); #endif /* try to guess frames/samples (duration isn't always set) */ data->total_samples = av_rescale_q(stream->duration, stream->time_base, tb); if (data->total_samples < 0) data->total_samples = 0; /* read start samples to be skipped (encoder delay), info only. * Not too reliable though, see ffmpeg_set_skip_samples */ if (stream->start_time && stream->start_time != AV_NOPTS_VALUE) data->skip_samples = av_rescale_q(stream->start_time, stream->time_base, tb); if (data->skip_samples < 0) data->skip_samples = 0; #if 0 //LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(58, 64, 100) /* exposed before but not too reliable either */ else if (stream->start_skip_samples) /* samples to skip in the first packet */ data->skip_samples = stream->start_skip_samples; else if (stream->skip_samples) /* samples to skip in any packet (first in this case), used sometimes instead (ex. AAC) */ data->skip_samples = stream->skip_samples; #endif /* check ways to skip encoder delay/padding, for debugging purposes (some may be old/unused/encoder only/etc) */ //VGM_ASSERT(data->codecCtx->internal->skip_samples > 0, ...); /* for codec use, not accessible */ VGM_ASSERT(data->codecCtx->delay > 0, "FFMPEG: delay %i\n", (int)data->codecCtx->delay);//delay: OPUS VGM_ASSERT(stream->codecpar->initial_padding > 0, "FFMPEG: initial_padding %i\n", (int)stream->codecpar->initial_padding);//delay: OPUS VGM_ASSERT(stream->codecpar->trailing_padding > 0, "FFMPEG: trailing_padding %i\n", (int)stream->codecpar->trailing_padding); VGM_ASSERT(stream->codecpar->seek_preroll > 0, "FFMPEG: seek_preroll %i\n", (int)stream->codecpar->seek_preroll);//seek delay: OPUS VGM_ASSERT(stream->start_time > 0, "FFMPEG: start_time %i\n", (int)stream->start_time); //delay #if 0 //LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(58, 64, 100) VGM_ASSERT(stream->first_discard_sample > 0, "FFMPEG: first_discard_sample %i\n", (int)stream->first_discard_sample); //padding: MP3 VGM_ASSERT(stream->last_discard_sample > 0, "FFMPEG: last_discard_sample %i\n", (int)stream->last_discard_sample); //padding: MP3 VGM_ASSERT(stream->skip_samples > 0, "FFMPEG: skip_samples %i\n", (int)stream->skip_samples); //delay: MP4 VGM_ASSERT(stream->start_skip_samples > 0, "FFMPEG: start_skip_samples %i\n", (int)stream->start_skip_samples); //delay: MP3 #endif /* also negative timestamp for formats like OGG/OPUS */ /* not using it: BINK, FLAC, ATRAC3, XMA, MPC, WMA (may use internal skip samples) */ } /* setup decent seeking for faulty formats */ errcode = init_seek(data); if (errcode < 0) { VGM_LOG("FFMPEG: can't init_seek, error=%i (using force_seek)\n", errcode); ffmpeg_set_force_seek(data); } return data; fail: free_ffmpeg(data); return NULL; } static int init_ffmpeg_config(ffmpeg_codec_data* data, int target_subsong, int reset) { int errcode = 0; /* basic IO/format setup */ data->buffer = av_malloc(FFMPEG_DEFAULT_IO_BUFFER_SIZE); if (!data->buffer) goto fail; data->ioCtx = avio_alloc_context(data->buffer, FFMPEG_DEFAULT_IO_BUFFER_SIZE, 0, data, ffmpeg_read, 0, ffmpeg_seek); if (!data->ioCtx) goto fail; data->formatCtx = avformat_alloc_context(); if (!data->formatCtx) goto fail; data->formatCtx->pb = data->ioCtx; //data->inputFormatCtx = av_find_input_format("h264"); /* set directly? */ /* on reset could use AVFormatContext.iformat to reload old format too */ errcode = avformat_open_input(&data->formatCtx, NULL /*""*/, NULL, NULL); if (errcode < 0) goto fail; errcode = avformat_find_stream_info(data->formatCtx, NULL); if (errcode < 0) goto fail; /* find valid audio stream and set other streams to discard */ { int i, stream_index, stream_count; stream_index = -1; stream_count = 0; if (reset) stream_index = data->stream_index; for (i = 0; i < data->formatCtx->nb_streams; ++i) { AVStream* stream = data->formatCtx->streams[i]; if (stream->codecpar && stream->codecpar->codec_type == AVMEDIA_TYPE_AUDIO) { stream_count++; /* select Nth audio stream if specified, or first one */ if (stream_index < 0 || (target_subsong > 0 && stream_count == target_subsong)) { stream_index = i; } } if (i != stream_index) stream->discard = AVDISCARD_ALL; /* disable demuxing for other streams */ } if (stream_count < target_subsong) goto fail; if (stream_index < 0) goto fail; data->stream_index = stream_index; data->stream_count = stream_count; } /* setup codec with stream info */ data->codecCtx = avcodec_alloc_context3(NULL); if (!data->codecCtx) goto fail; errcode = avcodec_parameters_to_context(data->codecCtx, data->formatCtx->streams[data->stream_index]->codecpar); if (errcode < 0) goto fail; /* deprecated and seemingly not needed */ //av_codec_set_pkt_timebase(data->codecCtx, stream->time_base); /* not useddeprecated and seemingly not needed */ data->codec = avcodec_find_decoder(data->codecCtx->codec_id); if (!data->codec) goto fail; errcode = avcodec_open2(data->codecCtx, data->codec, NULL); if (errcode < 0) goto fail; /* prepare codec and frame/packet buffers */ data->packet = av_malloc(sizeof(AVPacket)); /* av_packet_alloc? */ if (!data->packet) goto fail; av_new_packet(data->packet, 0); //av_packet_unref? data->frame = av_frame_alloc(); if (!data->frame) goto fail; av_frame_unref(data->frame); return 0; fail: if (errcode < 0) return errcode; return -1; } /* decodes a new frame to internal data */ static int decode_ffmpeg_frame(ffmpeg_codec_data* data) { int errcode; int frame_error = 0; if (data->bad_init) { goto fail; } /* ignore once file is done (but not on EOF as FFmpeg can output samples until end_of_audio) */ if (/*data->end_of_stream ||*/ data->end_of_audio) { VGM_LOG("FFMPEG: decode after end of audio\n"); goto fail; } /* read data packets until valid is found */ while (data->read_packet && !data->end_of_audio) { if (!data->end_of_stream) { /* reset old packet */ av_packet_unref(data->packet); /* read encoded data from demuxer into packet */ errcode = av_read_frame(data->formatCtx, data->packet); if (errcode < 0) { if (errcode == AVERROR_EOF) { data->end_of_stream = 1; /* no more data to read (but may "drain" samples) */ } else { VGM_LOG("FFMPEG: av_read_frame errcode=%i\n", errcode); frame_error = 1; //goto fail; } if (data->formatCtx->pb && data->formatCtx->pb->error) { VGM_LOG("FFMPEG: pb error=%i\n", data->formatCtx->pb->error); frame_error = 1; //goto fail; } } /* ignore non-selected streams */ if (data->packet->stream_index != data->stream_index) continue; } /* send encoded data to frame decoder (NULL at EOF to "drain" samples below) */ errcode = avcodec_send_packet(data->codecCtx, data->end_of_stream ? NULL : data->packet); if (errcode < 0) { if (errcode != AVERROR(EAGAIN)) { VGM_LOG("FFMPEG: avcodec_send_packet errcode=%i\n", errcode); frame_error = 1; //goto fail; } } data->read_packet = 0; /* got data */ } /* decode frame samples from sent packet or "drain" samples*/ if (!frame_error) { /* receive uncompressed sample data from decoded frame */ errcode = avcodec_receive_frame(data->codecCtx, data->frame); if (errcode < 0) { if (errcode == AVERROR_EOF) { data->end_of_audio = 1; /* no more audio, file is fully decoded */ } else if (errcode == AVERROR(EAGAIN)) { data->read_packet = 1; /* 0 samples, request more encoded data */ } else { VGM_LOG("FFMPEG: avcodec_receive_frame errcode=%i\n", errcode); frame_error = 1;//goto fail; } } } /* on frame_error simply uses current frame (possibly with nb_samples=0), which mirrors ffmpeg's output * (ex. BlazBlue X360 022_btl_az.xwb) */ data->samples_consumed = 0; data->samples_filled = data->frame->nb_samples; return 1; fail: return 0; } /* When casting float to int value is simply truncated: * - 0.0000518798828125 * 32768.0f = 1.7f, (int)1.7 = 1, (int)-1.7 = -1 * (instead of 1.7 = 2, -1.7 = -2) * * Alts for more accurate rounding could be: * - (int)floor(f32 * 32768.0) //not quite ok negatives * - (int)floor(f32 * 32768.0f + 0.5f) //Xiph Vorbis style * - (int)(f32 < 0 ? f32 - 0.5f : f + 0.5f) * - (((int) (f1 + 32768.5)) - 32768) * - etc * but since +-1 isn't really audible we'll just cast as it's the fastest. * * Regular C float-to-int casting ("int i = (int)f") is somewhat slow due to IEEE * float requirements, but C99 adds some faster-but-less-precise casting functions * we try to use (returning "long", though). They work ok without "fast float math" compiler * flags, but probably should be enabled anyway to ensure no extra IEEE checks are needed. * MSVC added this in VS2015 (_MSC_VER 1900) but don't seem correctly optimized and is very slow. */ static inline int float_to_int(float val) { #if defined(_MSC_VER) return (int)val; #else return lrintf(val); #endif } static inline int double_to_int(double val) { #if defined(_MSC_VER) return (int)val; #else return lrint(val); /* returns long tho */ #endif } /* sample copy helpers, using different functions to minimize branches. * * in theory, small optimizations like *outbuf++ vs outbuf[i] or alt clamping * would matter for performance, but in practice aren't very noticeable; * keep it simple for now until more tests are done. * * in normal (interleaved) formats samples are laid out straight * (ibuf[s*chs+ch], ex. 4ch with 4s: 0 1 2 3 0 1 2 3 0 1 2 3 0 1 2 3) * in "p" (planar) formats samples are in planes per channel * (ibuf[ch][s], ex. 4ch with 4s: 0 0 0 0 1 1 1 1 2 2 2 2 3 3 3 3) * * alt float clamping: * clamp_float(f32) * int s16 = (int)(f32 * 32768.0f); * if ((unsigned)(s16 + 0x8000) & 0xFFFF0000) * s16 = (s16 >> 31) ^ 0x7FFF; */ static void samples_silence_s16(sample_t* obuf, int ochs, int samples) { int s, total_samples = samples * ochs; for (s = 0; s < total_samples; s++) { obuf[s] = 0; /* memset'd */ } } static void samples_u8_to_s16(sample_t* obuf, uint8_t* ibuf, int ichs, int samples, int skip) { int s, total_samples = samples * ichs; for (s = 0; s < total_samples; s++) { obuf[s] = ((int)ibuf[skip*ichs + s] - 0x80) << 8; } } static void samples_u8p_to_s16(sample_t* obuf, uint8_t** ibuf, int ichs, int samples, int skip) { int s, ch; for (ch = 0; ch < ichs; ch++) { for (s = 0; s < samples; s++) { obuf[s*ichs + ch] = ((int)ibuf[ch][skip + s] - 0x80) << 8; } } } static void samples_s16_to_s16(sample_t* obuf, int16_t* ibuf, int ichs, int samples, int skip) { int s, total_samples = samples * ichs; for (s = 0; s < total_samples; s++) { obuf[s] = ibuf[skip*ichs + s]; /* maybe should mempcy */ } } static void samples_s16p_to_s16(sample_t* obuf, int16_t** ibuf, int ichs, int samples, int skip) { int s, ch; for (ch = 0; ch < ichs; ch++) { for (s = 0; s < samples; s++) { obuf[s*ichs + ch] = ibuf[ch][skip + s]; } } } static void samples_s32_to_s16(sample_t* obuf, int32_t* ibuf, int ichs, int samples, int skip) { int s, total_samples = samples * ichs; for (s = 0; s < total_samples; s++) { obuf[s] = ibuf[skip*ichs + s] >> 16; } } static void samples_s32p_to_s16(sample_t* obuf, int32_t** ibuf, int ichs, int samples, int skip) { int s, ch; for (ch = 0; ch < ichs; ch++) { for (s = 0; s < samples; s++) { obuf[s*ichs + ch] = ibuf[ch][skip + s] >> 16; } } } static void samples_flt_to_s16(sample_t* obuf, float* ibuf, int ichs, int samples, int skip, int invert) { int s, total_samples = samples * ichs; float scale = invert ? -32768.0f : 32768.0f; for (s = 0; s < total_samples; s++) { obuf[s] = clamp16(float_to_int(ibuf[skip*ichs + s] * scale)); } } static void samples_fltp_to_s16(sample_t* obuf, float** ibuf, int ichs, int samples, int skip, int invert) { int s, ch; float scale = invert ? -32768.0f : 32768.0f; for (ch = 0; ch < ichs; ch++) { for (s = 0; s < samples; s++) { obuf[s*ichs + ch] = clamp16(float_to_int(ibuf[ch][skip + s] * scale)); } } } static void samples_dbl_to_s16(sample_t* obuf, double* ibuf, int ichs, int samples, int skip) { int s, total_samples = samples * ichs; for (s = 0; s < total_samples; s++) { obuf[s] = clamp16(double_to_int(ibuf[skip*ichs + s] * 32768.0)); } } static void samples_dblp_to_s16(sample_t* obuf, double** inbuf, int ichs, int samples, int skip) { int s, ch; for (ch = 0; ch < ichs; ch++) { for (s = 0; s < samples; s++) { obuf[s*ichs + ch] = clamp16(double_to_int(inbuf[ch][skip + s] * 32768.0)); } } } static void copy_samples(ffmpeg_codec_data* data, sample_t* outbuf, int samples_to_do) { int channels = data->codecCtx->channels; int is_planar = av_sample_fmt_is_planar(data->codecCtx->sample_fmt) && (channels > 1); void* ibuf; if (is_planar) { ibuf = data->frame->extended_data; } else { ibuf = data->frame->data[0]; } switch (data->codecCtx->sample_fmt) { /* unused? */ case AV_SAMPLE_FMT_U8P: if (is_planar) { samples_u8p_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; } case AV_SAMPLE_FMT_U8: samples_u8_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; /* common */ case AV_SAMPLE_FMT_S16P: if (is_planar) { samples_s16p_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; } case AV_SAMPLE_FMT_S16: samples_s16_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; /* possibly FLAC and other lossless codecs */ case AV_SAMPLE_FMT_S32P: if (is_planar) { samples_s32p_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; } case AV_SAMPLE_FMT_S32: samples_s32_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; /* mainly MDCT-like codecs (Ogg, AAC, etc) */ case AV_SAMPLE_FMT_FLTP: if (is_planar) { samples_fltp_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed, data->invert_floats_set); break; } case AV_SAMPLE_FMT_FLT: samples_flt_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed, data->invert_floats_set); break; /* possibly PCM64 only (not enabled) */ case AV_SAMPLE_FMT_DBLP: if (is_planar) { samples_dblp_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; } case AV_SAMPLE_FMT_DBL: samples_dbl_to_s16(outbuf, ibuf, channels, samples_to_do, data->samples_consumed); break; default: break; } if (data->channel_remap_set) remap_audio(outbuf, samples_to_do, channels, data->channel_remap); } /* decode samples of any kind of FFmpeg format */ void decode_ffmpeg(VGMSTREAM* vgmstream, sample_t* outbuf, int32_t samples_to_do, int channels) { ffmpeg_codec_data* data = vgmstream->codec_data; while (samples_to_do > 0) { if (data->samples_consumed < data->samples_filled) { /* consume samples */ int samples_to_get = (data->samples_filled - data->samples_consumed); if (data->samples_discard) { /* discard samples for looping */ if (samples_to_get > data->samples_discard) samples_to_get = data->samples_discard; data->samples_discard -= samples_to_get; } else { /* get max samples and copy */ if (samples_to_get > samples_to_do) samples_to_get = samples_to_do; copy_samples(data, outbuf, samples_to_get); samples_to_do -= samples_to_get; outbuf += samples_to_get * channels; } /* mark consumed samples */ data->samples_consumed += samples_to_get; } else { int ok = decode_ffmpeg_frame(data); if (!ok) goto decode_fail; } } return; decode_fail: VGM_LOG("FFMPEG: decode fail, missing %i samples\n", samples_to_do); samples_silence_s16(outbuf, channels, samples_to_do); } /* ******************************************** */ /* UTILS */ /* ******************************************** */ void reset_ffmpeg(ffmpeg_codec_data* data) { seek_ffmpeg(data, 0); } void seek_ffmpeg(ffmpeg_codec_data* data, int32_t num_sample) { if (!data) return; /* Start from 0 and discard samples until sample (slower but not too noticeable). * Due to many FFmpeg quirks seeking to a sample is erratic at best in most formats. */ if (data->force_seek) { int errcode; /* kill+redo everything to allow seeking for extra-buggy formats, * kinda horrid but seems fast enough and very few formats need this */ free_ffmpeg_config(data); data->offset = data->start; data->logical_offset = 0; errcode = init_ffmpeg_config(data, 0, 1); if (errcode < 0) goto fail; } else { avformat_seek_file(data->formatCtx, data->stream_index, 0, 0, 0, AVSEEK_FLAG_ANY); avcodec_flush_buffers(data->codecCtx); } data->samples_consumed = 0; data->samples_filled = 0; data->samples_discard = num_sample; data->read_packet = 1; data->end_of_stream = 0; data->end_of_audio = 0; /* consider skip samples (encoder delay), if manually set */ if (data->skip_samples_set) { data->samples_discard += data->skip_samples; /* internally FFmpeg may skip (skip_samples/start_skip_samples) too */ } return; fail: VGM_LOG("FFMPEG: error during force_seek\n"); data->bad_init = 1; /* internals were probably free'd */ } static void free_ffmpeg_config(ffmpeg_codec_data* data) { if (data == NULL) return; if (data->packet) { av_packet_unref(data->packet); av_free(data->packet); data->packet = NULL; } if (data->frame) { av_frame_unref(data->frame); av_free(data->frame); data->frame = NULL; } if (data->codecCtx) { avcodec_close(data->codecCtx); avcodec_free_context(&data->codecCtx); data->codecCtx = NULL; } if (data->formatCtx) { avformat_close_input(&data->formatCtx); //avformat_free_context(data->formatCtx); /* done in close_input */ data->formatCtx = NULL; } if (data->ioCtx) { /* buffer passed in is occasionally freed and replaced. * the replacement must be free'd as well (below) */ data->buffer = data->ioCtx->buffer; avio_context_free(&data->ioCtx); //av_free(data->ioCtx); /* done in context_free (same thing) */ data->ioCtx = NULL; } if (data->buffer) { av_free(data->buffer); data->buffer = NULL; } //todo avformat_find_stream_info may cause some Win Handle leaks? related to certain option } void free_ffmpeg(ffmpeg_codec_data* data) { if (data == NULL) return; free_ffmpeg_config(data); if (data->header_block) { av_free(data->header_block); data->header_block = NULL; } close_streamfile(data->sf); free(data); } /** * Sets the number of samples to skip at the beginning of the stream (encoder delay), needed by some "gapless" formats. * - should be used at the beginning of the stream * - should use only if/when FFmpeg's format is known to botch encoder delay. * * encoder delay in FFmpeg is handled in multiple ways: * - avstream/internal->start_skip_samples: skip in the first packet *if* pts=0 (set in MP3 only?) * - avstream/internal->skip_samples: skip in any packet (set in AAC encoded by libfaac, OPUS, MP3 in SWF, MOV/MP4) * - avstream->start_time: usually set same as skip_samples but in pts, info only (most of the above but OPUS) * - codecCtx->delay: seems equivalent to skip_samples, info only (OPUS) * - negative timestamp: Xiph style (Ogg Vorbis/Opus only?). * First two are only exposed in FFmpeg v4.4<, meaning you can't override buggy values after that. * But since FFmpeg only does encoder delay for a handful of formats, shouldn't matter much. * May need to detect exact versions if they start fixing formats. */ void ffmpeg_set_skip_samples(ffmpeg_codec_data* data, int skip_samples) { if (!data || !data->formatCtx || !skip_samples) return; /* let FFmpeg handle (may need an option to force override?) */ if (data->skip_samples) { VGM_ASSERT(data->skip_samples != skip_samples, "FMPEG: ignored skip_samples %i, already set %i\n", skip_samples, (int)data->skip_samples); return; } #if 0 { AVStream* stream = data->formatCtx->streams[data->stream_index]; #if LIBAVFORMAT_VERSION_INT < AV_VERSION_INT(58, 64, 100) stream->start_skip_samples = 0; stream->skip_samples = 0; #else //stream->start_time = 0; /* info only = useless */ #endif } #endif /* set skip samples with our internal discard */ data->skip_samples_set = 1; data->samples_discard = skip_samples; data->skip_samples = skip_samples; } /* returns channel layout if set */ uint32_t ffmpeg_get_channel_layout(ffmpeg_codec_data* data) { if (!data || !data->codecCtx) return 0; return (uint32_t)data->codecCtx->channel_layout; /* uint64 but there ain't so many speaker mappings */ } /* yet another hack to fix codecs that encode channels in different order and reorder on decoder * but FFmpeg doesn't do it automatically * (maybe should be done via mixing, but could clash with other stuff?) */ void ffmpeg_set_channel_remapping(ffmpeg_codec_data* data, int *channel_remap) { int i; if (data->codecCtx->channels > 32) return; for (i = 0; i < data->codecCtx->channels; i++) { data->channel_remap[i] = channel_remap[i]; } data->channel_remap_set = 1; } const char* ffmpeg_get_codec_name(ffmpeg_codec_data* data) { if (!data || !data->codec) return NULL; if (data->codec->long_name) return data->codec->long_name; if (data->codec->name) return data->codec->name; return NULL; } void ffmpeg_set_force_seek(ffmpeg_codec_data* data) { if (!data) return; /* some formats like Smacker are so buggy that any seeking is impossible (even on video players), * or MPC with an incorrectly parsed seek table (using as 0 some non-0 seek offset). * whatever, we'll just kill and reconstruct FFmpeg's config every time */ data->force_seek = 1; reset_ffmpeg(data); /* reset state from trying to seek */ //stream = data->formatCtx->streams[data->stream_index]; } void ffmpeg_set_invert_floats(ffmpeg_codec_data* data) { if (!data) return; data->invert_floats_set = 1; } const char* ffmpeg_get_metadata_value(ffmpeg_codec_data* data, const char* key) { AVDictionary* avd; AVDictionaryEntry* avde = NULL; if (!data || !data->codec) return NULL; avd = data->formatCtx->streams[data->stream_index]->metadata; /* per stream (like Ogg) */ if (!avd) avd = data->formatCtx->metadata; /* per format (like Flac) */ if (!avd) return NULL; avde = av_dict_get(avd, key, NULL, AV_DICT_IGNORE_SUFFIX); if (!avde) return NULL; return avde->value; } int32_t ffmpeg_get_samples(ffmpeg_codec_data* data) { if (!data) return 0; return (int32_t)data->total_samples; } int ffmpeg_get_sample_rate(ffmpeg_codec_data* data) { if (!data || !data->codecCtx) return 0; return data->codecCtx->sample_rate; } int ffmpeg_get_channels(ffmpeg_codec_data* data) { if (!data || !data->codecCtx) return 0; return data->codecCtx->channels; } int ffmpeg_get_subsong_count(ffmpeg_codec_data* data) { if (!data) return 0; return data->stream_count; } STREAMFILE* ffmpeg_get_streamfile(ffmpeg_codec_data* data) { if (!data) return NULL; return data->sf; } #endif