#include "mpeg_decoder.h" #ifdef VGM_USE_MPEG /* init config and validate per type */ int mpeg_custom_setup_init_default(STREAMFILE *streamFile, off_t start_offset, mpeg_codec_data *data, coding_t *coding_type) { mpeg_frame_info info; /* get frame info at offset */ if ( !mpeg_get_frame_info(streamFile, start_offset, &info)) goto fail; switch(info.layer) { case 1: *coding_type = coding_MPEG_layer1; break; case 2: *coding_type = coding_MPEG_layer2; break; case 3: *coding_type = coding_MPEG_layer3; break; default: goto fail; } data->channels_per_frame = info.channels; data->samples_per_frame = info.frame_samples; data->bitrate_per_frame = info.bit_rate; data->sample_rate_per_frame = info.sample_rate; /* extra checks per type */ switch(data->type) { case MPEG_XVAG: if (data->config.chunk_size <= 0 || data->config.interleave <= 0) goto fail; /* needs external fixed size */ break; case MPEG_FSB: if (data->config.fsb_padding != 0 && data->config.fsb_padding != 2 && data->config.fsb_padding != 4 && data->config.fsb_padding != 16) goto fail; /* aligned to closest 0/2/4/16 bytes */ /* get find interleave to stream offsets are set up externally */ { int current_data_size = info.frame_size; int current_padding = 0; /* FSB padding for Layer III or multichannel Layer II */ if ((info.layer == 3 && data->config.fsb_padding) || data->config.fsb_padding == 16) { current_padding = (current_data_size % data->config.fsb_padding) ? data->config.fsb_padding - (current_data_size % data->config.fsb_padding) : 0; } data->config.interleave = current_data_size + current_padding; /* should be constant for all stream */ } break; case MPEG_P3D: case MPEG_SCD: if (data->config.interleave <= 0) goto fail; /* needs external fixed size */ break; case MPEG_LYN: goto fail; /* not fully implemented */ case MPEG_STANDARD: case MPEG_AHX: case MPEG_EA: if (info.channels != data->config.channels) goto fail; /* no multichannel expected */ break; default: break; /* nothing special needed */ } //todo: test more: this improves the output, but seems formats aren't usually prepared // (and/or the num_samples includes all possible samples in file, so by discarding some it'll reach EOF) // FSBs (with FMOD DLLs) don't seem to need it, even when files contain garbage at the beginning #if 0 /* set encoder delay (samples to skip at the beginning of a stream) if needed, which varies with encoder used */ switch(data->type) { case MPEG_AHX: data->skip_samples = 480; break; /* observed default */ case MPEG_P3D: data->skip_samples = info.frame_samples; break; /* matches Radical ADPCM (PC) output */ default: break; } data->samples_to_discard = data->skip_samples; #endif return 1; fail: return 0; } /* writes data to the buffer and moves offsets */ int mpeg_custom_parse_frame_default(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream) { mpeg_custom_stream *ms = data->streams[num_stream]; mpeg_frame_info info; size_t current_data_size = 0; size_t current_padding = 0; size_t current_interleave_pre = 0; /* interleaved data size before current stream */ size_t current_interleave_post = 0; /* interleaved data size after current stream */ size_t current_interleave = 0; /* interleave in this block (usually this + pre + post = interleave*streams = block) */ /* Get data size to give to the decoder, per stream. Usually 1 frame at a time, * but doesn't really need to be a full frame (decoder would request more data). */ switch(data->type) { case MPEG_XVAG: /* frames of fixed size (though we could read frame info too) */ current_interleave = data->config.interleave; /* big interleave */ current_interleave_pre = current_interleave*num_stream; current_interleave_post = current_interleave*(data->streams_size-1) - current_interleave_pre; current_data_size = data->config.chunk_size; break; case MPEG_FSB: /* frames with padding + interleave */ current_interleave = data->config.interleave; /* constant for multi-stream FSbs (1 frame + padding) */ current_interleave_pre = current_interleave*num_stream; current_interleave_post = current_interleave*(data->streams_size-1) - current_interleave_pre; if ( !mpeg_get_frame_info(stream->streamfile, stream->offset, &info) ) goto fail; current_data_size = info.frame_size; /* get FSB padding for Layer III or multichannel Layer II (Layer I doesn't seem to be supported) * Padding sometimes contains garbage like the next frame header so we can't feed it to mpg123 or it gets confused. */ if ((info.layer == 3 && data->config.fsb_padding) || data->config.fsb_padding == 16) { current_padding = (current_data_size % data->config.fsb_padding) ? data->config.fsb_padding - (current_data_size % data->config.fsb_padding) : 0; } VGM_ASSERT(data->streams_size > 1 && current_interleave != current_data_size+current_padding, "MPEG FSB: %i streams with non-constant interleave found @ 0x%08lx\n", data->streams_size, stream->offset); break; case MPEG_P3D: /* fixed interleave, not frame-aligned (ie. blocks may end/start in part of a frame) */ case MPEG_SCD: current_interleave = data->config.interleave; #if 1 /* check if current interleave block is short */ { off_t block_offset = stream->offset - stream->channel_start_offset; size_t next_block = data->streams_size*data->config.interleave; if (data->config.data_size && block_offset + next_block >= data->config.data_size) current_interleave = (data->config.data_size % next_block) / data->streams_size; /* short_interleave*/ } #endif current_interleave_pre = current_interleave*num_stream; current_interleave_post = current_interleave*(data->streams_size-1) - current_interleave_pre; current_data_size = current_interleave; break; default: /* standard frames (CBR or VBR) */ if ( !mpeg_get_frame_info(stream->streamfile, stream->offset, &info) ) goto fail; current_data_size = info.frame_size; break; } if (!current_data_size || current_data_size > ms->buffer_size) { VGM_LOG("MPEG: incorrect data_size 0x%x\n", current_data_size); goto fail; } /* This assumes all streams' offsets start in the first stream, and advances * the 'full interleaved block' at once, ex: * start at s0=0x00, s1=0x00, interleave=0x40 (block = 0x40*2=0x80) * @0x00 read 0x40 of s0, skip 0x40 of s1 (block of 0x80 done) > new offset = 0x80 * @0x00 skip 0x40 of s0, read 0x40 of s1 (block of 0x80 done) > new offset = 0x800 */ /* read chunk (skipping other interleaves if needed) */ ms->bytes_in_buffer = read_streamfile(ms->buffer,stream->offset + current_interleave_pre, current_data_size, stream->streamfile); /* update offsets and skip other streams */ stream->offset += current_data_size + current_padding; /* skip rest of block (interleave per stream) once this stream's interleaved data is done, if defined */ if (current_interleave && ((stream->offset - stream->channel_start_offset + current_interleave_pre + current_interleave_post) % current_interleave == 0)) { stream->offset += current_interleave_pre + current_interleave_post; } return 1; fail: return 0; } /*****************/ /* FRAME HELPERS */ /*****************/ /** * Gets info from a MPEG frame header at offset. Normally you would use mpg123_info but somehow * it's wrong at times (maybe because we use an ancient version) so here we do our thing. */ int mpeg_get_frame_info(STREAMFILE *streamfile, off_t offset, mpeg_frame_info * info) { /* index tables */ static const int versions[4] = { /* MPEG 2.5 */ 3, /* reserved */ -1, /* MPEG 2 */ 2, /* MPEG 1 */ 1 }; static const int layers[4] = { -1,3,2,1 }; static const int bit_rates[5][16] = { /* [version index ][bit rate index] (0=free, -1=bad) */ { 0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, -1 }, /* MPEG1 Layer I */ { 0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, -1 }, /* MPEG1 Layer II */ { 0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, -1 }, /* MPEG1 Layer III */ { 0, 32, 48, 56, 64, 80, 96, 112, 128, 144, 160, 176, 192, 224, 256, -1 }, /* MPEG2/2.5 Layer I */ { 0, 8, 16, 24, 32, 40, 48, 56, 64, 80, 96, 112, 128, 144, 160, -1 }, /* MPEG2/2.5 Layer II/III */ }; static const int sample_rates[4][4] = { /* [version][sample rate index] */ { 44100, 48000, 32000, -1}, /* MPEG1 */ { 22050, 24000, 16000, -1}, /* MPEG2 */ { 11025, 12000, 8000, -1}, /* MPEG2.5 */ }; static const int channels[4] = { 2,2,2, 1 }; /* [channel] */ static const int frame_samples[3][3] = { /* [version][layer] */ { 384, 1152, 1152 }, /* MPEG1 */ { 384, 1152, 576 }, /* MPEG2 */ { 384, 1152, 576 } /* MPEG2.5 */ }; uint32_t header; int idx, padding; memset(info, 0, sizeof(*info)); header = read_32bitBE(offset, streamfile); if ((header >> 21) != 0x7FF) /* 31-21: sync */ goto fail; info->version = versions[(header >> 19) & 0x3]; /* 20,19: version */ if (info->version <= 0) goto fail; info->layer = layers[(header >> 17) & 0x3]; /* 18,17: layer */ if (info->layer <= 0 || info->layer > 3) goto fail; //crc = (header >> 16) & 0x1; /* 16: protected by crc? */ idx = (info->version==1 ? info->layer-1 : (3 + (info->layer==1 ? 0 : 1))); info->bit_rate = bit_rates[idx][(header >> 12) & 0xf]; /* 15-12: bit rate */ if (info->bit_rate <= 0) goto fail; info->sample_rate = sample_rates[info->version-1][(header >> 10) & 0x3]; /* 11-10: sampling rate */ if (info->sample_rate <= 0) goto fail; padding = (header >> 9) & 0x1; /* 9: padding? */ //private = (header >> 8) & 0x1; /* 8: private bit */ info->channels = channels[(header >> 6) & 0x3]; /* 7,6: channel mode */ //js_mode = (header >> 4) & 0x3; /* 5,4: mode extension for joint stereo */ //copyright = (header >> 3) & 0x1; /* 3: copyrighted */ //original = (header >> 2) & 0x1; /* 2: original */ //emphasis = (header >> 0) & 0x3; /* 1,0: emphasis */ info->frame_samples = frame_samples[info->version-1][info->layer-1]; /* calculate frame length (from hcs's fsb_mpeg) */ switch (info->frame_samples) { case 384: info->frame_size = (12l * info->bit_rate * 1000l / info->sample_rate + padding) * 4; break; case 576: info->frame_size = (72l * info->bit_rate * 1000l / info->sample_rate + padding); break; case 1152: info->frame_size = (144l * info->bit_rate * 1000l / info->sample_rate + padding); break; default: goto fail; } return 1; fail: return 0; } #endif