#include "mpeg_decoder.h" #ifdef VGM_USE_MPEG /** * Utils to parse EALayer3, an MP3 variant. EALayer3 frames have custom headers (removing unneded bits) * with regular MPEG data and optional PCM blocks. We transform EA-frames to MPEG-frames on the fly * and manually fill the sample PCM sample buffer. * * Layer III MPEG1 uses two granules (data chunks) per frame, while MPEG2/2.5 ("LSF mode") only one. * EA-frames contain one granule, so to reconstruct one MPEG-frame we need two EA-frames (MPEG1) or * one (MPEG2). This is only for our decoder, real EALayer3 would decode EA-frames directly. * EALayer v1 and v2 differ in part of the header, but are mostly the same. * * Reverse engineering by Zench: https://bitbucket.org/Zenchreal/ealayer3 (ealayer3.exe decoder) * Reference: https://www.mp3-tech.org/programmer/docs/mp3_theory.pdf * https://github.com/FFmpeg/FFmpeg/blob/master/libavcodec/mpegaudiodec_template.c#L1306 */ /* **************************************************************************** */ /* DEFS */ /* **************************************************************************** */ #define EALAYER3_EA_FRAME_BUFFER_SIZE 0x1000*4 /* enough for one EA-frame */ #define EALAYER3_MAX_GRANULES 2 #define EALAYER3_MAX_CHANNELS 2 /* helper to simulate a bitstream */ typedef struct { uint8_t * buf; /* buffer to read/write*/ size_t bufsize; /* max size of the buffer */ off_t b_off; /* current offset in bits inside the buffer */ off_t info_offset; /* for logs */ } ealayer3_bitstream; /* parsed info from a single EALayer3 frame */ typedef struct { /* EALayer3 v1 header */ uint32_t v1_pcm_flag; uint32_t v1_pcm_decode_discard; uint32_t v1_pcm_number; uint32_t v1_pcm_unknown; /* EALayer3 v2 header */ uint32_t v2_extended_flag; uint32_t v2_stereo_flag; uint32_t v2_unknown; /* unused? */ uint32_t v2_frame_size; /* full size including headers and pcm block */ uint32_t v2_mode; /* discard mode */ uint32_t v2_mode_value; /* samples to use depending on mode */ uint32_t v2_pcm_number; uint32_t v2_common_size; /* common header+data size; can be zero */ /* EALayer3 common header + side info */ uint32_t version_index; uint32_t sample_rate_index; uint32_t channel_mode; uint32_t mode_extension; uint32_t granule_index; /* 0 = first, 1 = second (for MPEG1, that needs pairs) */ uint32_t scfsi[EALAYER3_MAX_CHANNELS]; /* SCaleFactor Selection Info */ uint32_t main_data_size[EALAYER3_MAX_CHANNELS]; /* AKA part2_3_length */ uint32_t others_1[EALAYER3_MAX_CHANNELS]; /* rest of the side info as-is, divided in 2 */ uint32_t others_2[EALAYER3_MAX_CHANNELS]; /* derived from the above */ uint32_t data_offset_b; /* start of the MPEG data */ uint32_t pre_size; /* size of the V1/V2 part */ uint32_t base_size_b; /* size (bits) of the header+side info, up to data_size */ uint32_t data_size_b; /* size (bits) of the main MPEG data up to pcm block; can be zero */ uint32_t padding_size_b; /* size (bits) of the padding after base+data */ uint32_t common_size; /* size of the common part (base+data+padding) */ uint32_t pcm_size; /* size of the pcm block */ uint32_t eaframe_size; /* size of all of the above, for convenience */ int mpeg1; /* flag, as MPEG2/2.5 ("low sample frequency" mode) has some differences */ int version; int channels; int sample_rate; } ealayer3_frame_info; static int ealayer3_parse_frame(mpeg_codec_data *data, ealayer3_bitstream *is, ealayer3_frame_info * eaf); static int ealayer3_parse_frame_v1(ealayer3_bitstream *is, ealayer3_frame_info * eaf, int channels_per_frame, int is_v1b); static int ealayer3_parse_frame_v2(ealayer3_bitstream *is, ealayer3_frame_info * eaf); static int ealayer3_parse_frame_common(ealayer3_bitstream *is, ealayer3_frame_info * eaf); static int ealayer3_rebuild_mpeg_frame(ealayer3_bitstream* is_0, ealayer3_frame_info* eaf_0, ealayer3_bitstream* is_1, ealayer3_frame_info* eaf_1, ealayer3_bitstream* os); static int ealayer3_write_pcm_block(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream, ealayer3_frame_info * eaf); static int ealayer3_skip_data(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream, int at_start, size_t last_eaframe_size); static int r_bits(ealayer3_bitstream * iw, int num_bits, uint32_t * value); static int w_bits(ealayer3_bitstream * ow, int num_bits, uint32_t value); /* **************************************************************************** */ /* EXTERNAL API */ /* **************************************************************************** */ /* init codec from an EALayer3 frame */ int mpeg_custom_setup_init_ealayer3(STREAMFILE *streamFile, off_t start_offset, mpeg_codec_data *data, coding_t *coding_type) { int ok; ealayer3_frame_info eaf; ealayer3_bitstream is = {0}; uint8_t ibuf[EALAYER3_EA_FRAME_BUFFER_SIZE]; /* get first frame for info */ { is.buf = ibuf; is.bufsize = read_streamfile(ibuf,start_offset,EALAYER3_EA_FRAME_BUFFER_SIZE, streamFile); /* reads less at EOF */; is.b_off = 0; ok = ealayer3_parse_frame(data, &is, &eaf); if (!ok) goto fail; } VGM_ASSERT(!eaf.mpeg1, "MPEG EAL3: mpeg2 found at 0x%lx\n", start_offset); /* untested */ *coding_type = coding_MPEG_ealayer3; data->channels_per_frame = eaf.channels; data->samples_per_frame = eaf.mpeg1 ? 1152 : 576; /* extra checks */ if (!data->channels_per_frame || data->config.channels != data->channels_per_frame){ VGM_LOG("MPEG EAL3: unknown %i multichannel layout\n", data->config.channels); goto fail; /* to be fixed */ } /* encoder delay: EALayer3 handles this while decoding (skips samples as writes PCM blocks) */ return 1; fail: return 0; } /* writes data to the buffer and moves offsets, transforming EALayer3 frames */ int mpeg_custom_parse_frame_ealayer3(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream) { int ok, granule_found; off_t info_offset = stream->offset; ealayer3_frame_info eaf_0, eaf_1; ealayer3_bitstream is_0 = {0}, is_1 = {0}, os = {0}; uint8_t ibuf_0[EALAYER3_EA_FRAME_BUFFER_SIZE], ibuf_1[EALAYER3_EA_FRAME_BUFFER_SIZE]; /* read first frame/granule, or PCM-only frame (found alone at the end of SCHl streams) */ { if (!ealayer3_skip_data(stream, data, num_stream, 1, 0)) goto fail; is_0.buf = ibuf_0; is_0.bufsize = read_streamfile(ibuf_0,stream->offset,EALAYER3_EA_FRAME_BUFFER_SIZE, stream->streamfile); /* reads less at EOF */ is_0.b_off = 0; ok = ealayer3_parse_frame(data, &is_0, &eaf_0); if (!ok) goto fail; ok = ealayer3_write_pcm_block(stream, data, num_stream, &eaf_0); if (!ok) goto fail; stream->offset += eaf_0.eaframe_size; if (!ealayer3_skip_data(stream, data, num_stream, 0, eaf_0.eaframe_size)) goto fail; } /* get second frame/granule (MPEG1 only) if first granule was found */ granule_found = 0; while (eaf_0.common_size && eaf_0.mpeg1 && !granule_found) { if (!ealayer3_skip_data(stream, data, num_stream, 1, 0)) goto fail; is_1.buf = ibuf_1; is_1.bufsize = read_streamfile(ibuf_1,stream->offset,EALAYER3_EA_FRAME_BUFFER_SIZE, stream->streamfile); /* reads less at EOF */ is_1.b_off = 0; ok = ealayer3_parse_frame(data, &is_1, &eaf_1); if (!ok) goto fail; ok = ealayer3_write_pcm_block(stream, data, num_stream, &eaf_1); if (!ok) goto fail; stream->offset += eaf_1.eaframe_size; if (!ealayer3_skip_data(stream, data, num_stream, 0, eaf_1.eaframe_size)) goto fail; /* in V1a there may be PCM-only frames between granules so read until next one (or parse fails) */ if (eaf_1.common_size > 0) granule_found = 1; } /* rebuild EALayer frame to MPEG frame */ { os.buf = data->buffer; os.bufsize = data->buffer_size; os.b_off = 0; os.info_offset = info_offset; ok = ealayer3_rebuild_mpeg_frame(&is_0, &eaf_0, &is_1, &eaf_1, &os); if (!ok) goto fail; data->bytes_in_buffer = os.b_off / 8; /* wrote full MPEG frame, hopefully */ } return 1; fail: return 0; } /* **************************************************************************** */ /* INTERNAL HELPERS */ /* **************************************************************************** */ static int ealayer3_parse_frame(mpeg_codec_data *data, ealayer3_bitstream *is, ealayer3_frame_info * eaf) { int ok; /* make sure as there is re-parsing in loops */ memset(eaf, 0, sizeof(ealayer3_frame_info)); switch(data->type) { case MPEG_EAL31: ok = ealayer3_parse_frame_v1(is, eaf, data->channels_per_frame, 0); break; case MPEG_EAL31b: ok = ealayer3_parse_frame_v1(is, eaf, data->channels_per_frame, 1); break; case MPEG_EAL32P: case MPEG_EAL32S: ok = ealayer3_parse_frame_v2(is, eaf); break; default: goto fail; } if (!ok) goto fail; return 1; fail: return 0; } /* read V1"a" (in SCHl) and V1"b" (in SNS) EALayer3 frame */ static int ealayer3_parse_frame_v1(ealayer3_bitstream *is, ealayer3_frame_info * eaf, int channels_per_frame, int is_v1b) { int ok; /* read EA-frame V1 header */ r_bits(is, 8,&eaf->v1_pcm_flag); eaf->pre_size = 1; /* 8b */ if (eaf->v1_pcm_flag != 0x00 && eaf->v1_pcm_flag != 0xEE) { VGM_LOG("MPEG EAL3 v1: header not 0x00 or 0xEE\n"); goto fail; /* wrong offset? */ } if (eaf->v1_pcm_flag == 0xEE && !channels_per_frame) { VGM_LOG("MPEG EAL3 v1: PCM block in first frame\n"); goto fail; /* must know from a prev frame */ } /* read EA-frame common header (v1a PCM blocks don't have EA-frames, while v1b do) */ if (is_v1b || eaf->v1_pcm_flag == 0x00) { ok = ealayer3_parse_frame_common(is, eaf); if (!ok) goto fail; } /* check PCM block */ if (eaf->v1_pcm_flag == 0xEE) { r_bits(is, 16,&eaf->v1_pcm_decode_discard); /* samples to discard of the next decoded (not PCM block) samples */ r_bits(is, 16,&eaf->v1_pcm_number); /* number of PCM samples, can be 0 */ eaf->pre_size += 2+2; /* 16b+16b */ eaf->pcm_size = (2*eaf->v1_pcm_number * channels_per_frame); if (is_v1b) { /* extra 32b in v1b */ r_bits(is, 32,&eaf->v1_pcm_unknown); eaf->pre_size += 4; /* 32b */ VGM_ASSERT(eaf->v1_pcm_unknown != 0, "EA EAL3 v1: v1_pcm_unknown not 0\n"); } } eaf->eaframe_size = eaf->pre_size + eaf->common_size + eaf->pcm_size; return 1; fail: return 0; } /* read V2"PCM" and V2"Spike" EALayer3 frame (exactly the same but V2P seems to have bigger * PCM blocks and maybe smaller frames) */ static int ealayer3_parse_frame_v2(ealayer3_bitstream *is, ealayer3_frame_info * eaf) { int ok; /* read EA-frame V2 header */ r_bits(is, 1,&eaf->v2_extended_flag); r_bits(is, 1,&eaf->v2_stereo_flag); r_bits(is, 2,&eaf->v2_unknown); r_bits(is, 12,&eaf->v2_frame_size); eaf->pre_size = 2; /* 16b */ if (eaf->v2_extended_flag) { r_bits(is, 2,&eaf->v2_mode); r_bits(is, 10,&eaf->v2_mode_value); r_bits(is, 10,&eaf->v2_pcm_number); r_bits(is, 10,&eaf->v2_common_size); eaf->pre_size += 4; /* 32b */ } /* read EA-frame common header */ if (!eaf->v2_extended_flag || (eaf->v2_extended_flag && eaf->v2_common_size)) { ok = ealayer3_parse_frame_common(is, eaf); if (!ok) goto fail; } VGM_ASSERT(eaf->v2_extended_flag && eaf->v2_common_size == 0, "EA EAL3: v2 empty frame\n"); /* seen in V2S */ VGM_ASSERT(eaf->v2_extended_flag && eaf->v2_mode_value > 0, "EA EAL3: v2_mode=%x with 0x%x\n", eaf->v2_mode, eaf->v2_mode_value); //VGM_ASSERT(eaf->v2_pcm_number > 0, "EA EAL3: v2_pcm_number 0x%x\n", eaf->v2_pcm_number); eaf->pcm_size = (2*eaf->v2_pcm_number * eaf->channels); eaf->eaframe_size = eaf->pre_size + eaf->common_size + eaf->pcm_size; if (eaf->v2_frame_size != eaf->eaframe_size) { VGM_LOG("MPEG EAL3: different v2 frame size vs calculated (0x%x vs 0x%x)\n", eaf->v2_frame_size, eaf->eaframe_size); goto fail; } return 1; fail: return 0; } /* parses an EALayer3 frame (common part) */ static int ealayer3_parse_frame_common(ealayer3_bitstream *is, ealayer3_frame_info * eaf) { /* index tables */ static const int versions[4] = { /* MPEG 2.5 */ 3, /* reserved */ -1, /* MPEG 2 */ 2, /* MPEG 1 */ 1 }; static const int sample_rates[4][4] = { /* [version_index][sample rate index] */ { 11025, 12000, 8000, -1}, /* MPEG2.5 */ { -1, -1, -1, -1}, /* reserved */ { 22050, 24000, 16000, -1}, /* MPEG2 */ { 44100, 48000, 32000, -1}, /* MPEG1 */ }; static const int channels[4] = { 2,2,2, 1 }; /* [channel_mode] */ off_t start_b_off = is->b_off; int i; /* read main header */ r_bits(is, 2,&eaf->version_index); r_bits(is, 2,&eaf->sample_rate_index); r_bits(is, 2,&eaf->channel_mode); r_bits(is, 2,&eaf->mode_extension); /* check empty frame */ if (eaf->version_index == 0 && eaf->sample_rate_index == 0 && eaf->channel_mode == 0 && eaf->mode_extension == 0) { VGM_LOG("MPEG EAL3: empty frame\n"); goto fail; } /* derived */ eaf->version = versions[eaf->version_index]; eaf->channels = channels[eaf->channel_mode]; eaf->sample_rate = sample_rates[eaf->version_index][eaf->sample_rate_index]; eaf->mpeg1 = (eaf->version == 1); if (eaf->version == -1 || eaf->sample_rate == -1) { VGM_LOG("MPEG EAL3: illegal header values\n"); goto fail; } /* read side info */ r_bits(is, 1,&eaf->granule_index); if (eaf->mpeg1 && eaf->granule_index == 1) { for (i = 0; i < eaf->channels; i++) { r_bits(is, 4,&eaf->scfsi[i]); } } for (i = 0; i < eaf->channels; i++) { int others_2_bits = eaf->mpeg1 ? 47-32 : 51-32; r_bits(is, 12,&eaf->main_data_size[i]); /* divided in 47b=32+15 (MPEG1) or 51b=32+19 (MPEG2), arbitrarily */ r_bits(is, 32,&eaf->others_1[i]); r_bits(is, others_2_bits,&eaf->others_2[i]); } /* derived */ eaf->data_offset_b = is->b_off; eaf->base_size_b = (is->b_off - start_b_off); /* header + size info size */ for (i = 0; i < eaf->channels; i++) { /* data size (can be 0, meaning a micro EA-frame) */ eaf->data_size_b += eaf->main_data_size[i]; } is->b_off += eaf->data_size_b; if ((eaf->base_size_b+eaf->data_size_b) % 8) /* aligned to closest 8b */ eaf->padding_size_b = 8 - ((eaf->base_size_b+eaf->data_size_b) % 8); is->b_off += eaf->padding_size_b; eaf->common_size = (eaf->base_size_b + eaf->data_size_b + eaf->padding_size_b)/8; return 1; fail: return 0; } /* converts an EALAYER3 frame to a standard MPEG frame from pre-parsed info */ static int ealayer3_rebuild_mpeg_frame(ealayer3_bitstream* is_0, ealayer3_frame_info* eaf_0, ealayer3_bitstream* is_1, ealayer3_frame_info* eaf_1, ealayer3_bitstream* os) { uint32_t c = 0; int i,j; int expected_bitrate_index, expected_frame_size; /* ignore PCM-only frames */ if (!eaf_0->common_size) return 1; /* extra checks */ if (eaf_0->mpeg1 && (!eaf_1 || eaf_0->mpeg1 != eaf_1->mpeg1 || eaf_0->version != eaf_1->version || eaf_0->granule_index == eaf_1->granule_index || !eaf_0->common_size || !eaf_1->common_size)) { VGM_LOG("MPEG EAL3: EA-frames for MPEG1 don't match at 0x%lx\n", os->info_offset); goto fail; } #if 0 //todo broken free format detection for some MP3 in mpg123 < 1.25.8 /* get bitrate: use "free format" (bigger bitrate) to avoid the need of bit reservoir * this feature is in the spec but some decoders may not support it */ expected_bitrate_index = 0x00; if (eaf_0->mpeg1) { expected_frame_size = 144l * (320*2) * 1000l / eaf_0->sample_rate; } else { expected_frame_size = 72l * (160*2) * 1000l / eaf_0->sample_rate; } #else /* this uses max official bitrate (320/160) but some frames need more = complex bit reservoir */ expected_bitrate_index = 0x0E; if (eaf_0->mpeg1) { /* 320: 44100=0x414, 48000=0x3C0, 32000=0x5A0 */ expected_frame_size = 144l * 320 * 1000l / eaf_0->sample_rate; } else { /* 160: 22050=0x20A, 24000=0x1E0, 16000=0x2D0, 11025=0x414, 12000=0x3C0, 8000=0x5A0 */ expected_frame_size = 72l * 160 * 1000l / eaf_0->sample_rate; } #endif /* write MPEG1/2 frame header */ w_bits(os, 11, 0x7FF); /* sync */ w_bits(os, 2, eaf_0->version_index); w_bits(os, 2, 0x01); /* layer III index */ w_bits(os, 1, 1); /* "no CRC" flag */ w_bits(os, 4, expected_bitrate_index); w_bits(os, 2, eaf_0->sample_rate_index); w_bits(os, 1, 0); /* padding */ w_bits(os, 1, 0); /* private */ w_bits(os, 2, eaf_0->channel_mode); w_bits(os, 2, eaf_0->mode_extension); w_bits(os, 1, 1); /* copyrighted */ w_bits(os, 1, 1); /* original */ w_bits(os, 2, 0); /* emphasis */ if (eaf_0->mpeg1) { int private_bits = (eaf_0->channels==1 ? 5 : 3); /* write MPEG1 side info */ w_bits(os, 9, 0); /* main data start (no bit reservoir) */ w_bits(os, private_bits, 0); for (i = 0; i < eaf_1->channels; i++) { w_bits(os, 4, eaf_1->scfsi[i]); /* saved in granule1 only */ } for (i = 0; i < eaf_0->channels; i++) { /* granule0 */ w_bits(os, 12, eaf_0->main_data_size[i]); w_bits(os, 32, eaf_0->others_1[i]); w_bits(os, 47-32, eaf_0->others_2[i]); } for (i = 0; i < eaf_1->channels; i++) { /* granule1 */ w_bits(os, 12, eaf_1->main_data_size[i]); w_bits(os, 32, eaf_1->others_1[i]); w_bits(os, 47-32, eaf_1->others_2[i]); } /* write MPEG1 main data */ is_0->b_off = eaf_0->data_offset_b; for (i = 0; i < eaf_0->channels; i++) { /* granule0 */ for (j = 0; j < eaf_0->main_data_size[i]; j++) { uint32_t c = 0; r_bits(is_0, 1, &c); w_bits(os, 1, c); } } is_1->b_off = eaf_1->data_offset_b; for (i = 0; i < eaf_1->channels; i++) { /* granule1 */ for (j = 0; j < eaf_1->main_data_size[i]; j++) { r_bits(is_1, 1, &c); w_bits(os, 1, c); } } } else { int private_bits = (eaf_0->channels==1 ? 1 : 2); /* write MPEG2 side info */ w_bits(os, 8, 0); /* main data start (no bit reservoir) */ w_bits(os, private_bits, 0); for (i = 0; i < eaf_0->channels; i++) { w_bits(os, 12, eaf_0->main_data_size[i]); w_bits(os, 32, eaf_0->others_1[i]); w_bits(os, 51-32, eaf_0->others_2[i]); } /* write MPEG2 main data */ is_0->b_off = eaf_0->data_offset_b; for (i = 0; i < eaf_0->channels; i++) { for (j = 0; j < eaf_0->main_data_size[i]; j++) { r_bits(is_0, 1, &c); w_bits(os, 1, c); } } } /* align to closest 8b */ if (os->b_off % 8) { int align_bits = 8 - (os->b_off % 8); w_bits(os, align_bits, 0); } if (os->b_off/8 > expected_frame_size) { /* bit reservoir! shouldn't happen with free bitrate, otherwise it's hard to fix as needs complex buffering/calcs */ VGM_LOG("MPEG EAL3: written 0x%lx but expected less than 0x%x at 0x%lx\n", os->b_off/8, expected_frame_size, os->info_offset); } else { /* fill ancillary data (ignored) */ memset(os->buf + os->b_off/8, 0x77, expected_frame_size - os->b_off/8); } os->b_off = expected_frame_size*8; return 1; fail: return 0; } /* write PCM block directly to sample buffer and setup decode discard (EALayer3 seems to use this as a prefetch of sorts). * Meant to be written inmediatedly, as those PCM are parts that can be found after 1 decoded frame. * (ex. EA-frame_gr0, PCM-frame_0, EA-frame_gr1, PCM-frame_1 actually writes PCM-frame_0+1, decode of EA-frame_gr0+1 + discard part */ static int ealayer3_write_pcm_block(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream, ealayer3_frame_info * eaf) { mpeg_custom_stream *ms = data->streams[num_stream]; size_t bytes_filled; int i; if (!eaf->pcm_size) return 1; bytes_filled = sizeof(sample)*ms->samples_filled*data->channels_per_frame; if (bytes_filled + eaf->pcm_size > ms->output_buffer_size) { VGM_LOG("MPEG EAL3: can't fill the sample buffer with 0x%x\n", eaf->pcm_size); goto fail; } if (eaf->v1_pcm_number) { VGM_ASSERT(eaf->v1_pcm_decode_discard > 576, "MPEG EAL3: big discard %i at 0x%lx\n", eaf->v1_pcm_decode_discard, stream->offset); VGM_ASSERT(eaf->v1_pcm_number > 0x100, "MPEG EAL3: big samples %i at 0x%lx\n", eaf->v1_pcm_number, stream->offset); /* read + write PCM block samples (always BE) */ for (i = 0; i < eaf->v1_pcm_number * data->channels_per_frame; i++) { off_t pcm_offset = stream->offset + eaf->pre_size + eaf->common_size + sizeof(sample)*i; int16_t pcm_sample = read_16bitBE(pcm_offset,stream->streamfile); put_16bitLE(ms->output_buffer + bytes_filled + sizeof(sample)*i, pcm_sample); } ms->samples_filled += eaf->v1_pcm_number; /* skip decoded samples as PCM block 'overwrites' them */ { size_t decode_to_discard = eaf->v1_pcm_decode_discard; //todo should also discard v1_pcm_number, but block layout samples may be exhausted and won't move (maybe new block if offset = new offset detected) /* special meanings */ if (data->type == MPEG_EAL31) { if (decode_to_discard == 576) decode_to_discard = data->samples_per_frame;//+ eaf->v1_pcm_number; } else { if (decode_to_discard == 0) /* seems ok? */ decode_to_discard += data->samples_per_frame;//+ eaf->v1_pcm_number; else if (decode_to_discard == 576) /* untested */ decode_to_discard = data->samples_per_frame;//+ eaf->v1_pcm_number; } ms->decode_to_discard += decode_to_discard; } } if (eaf->v2_extended_flag) { if (eaf->v2_pcm_number) { /* read + write PCM block samples (always BE) */ for (i = 0; i < eaf->v2_pcm_number * data->channels_per_frame; i++) { off_t pcm_offset = stream->offset + eaf->pre_size + eaf->common_size + sizeof(sample)*i; int16_t pcm_sample = read_16bitBE(pcm_offset,stream->streamfile); put_16bitLE(ms->output_buffer + bytes_filled + sizeof(sample)*i, pcm_sample); } ms->samples_filled += eaf->v2_pcm_number; } #if 0 /* todo supposed skip modes: * * AB00CCCC CCCCCCCC if A is set: DDEEEEEE EEEEFFFF FFFFFFGG GGGGGGGG * D = BLOCKOFFSETMODE: IGNORE = 0x0, PRESERVE = 0x1, MUTE = 0x2, MAX = 0x3 * E = samples to discard (mode == 0) or skip (mode == 1 or 2) before outputting the uncompressed samples * (when mode == 3 this is ignored) * F = number of uncompressed sample frames (pcm block) * G = MPEG granule size (can be zero) * * if 0: 576 - E if G == 0 then F * if 1: 576 if G == 0 then F * if 2: 576 if G == 0 then F * 2 * if 3: 576 */ /* modify decoded samples depending on flag */ if (eaf->v2_mode == 0x00) { size_t decode_to_discard = eaf->v2_mode_value; if (decode_to_discard == 576) decode_to_discard = data->samples_per_frame;//+ eaf->v2_pcm_number; ms->decode_to_discard += decode_to_discard; } #endif } return 1; fail: return 0; } /* Skip EA-frames from other streams for multichannel (interleaved 1 EA-frame per stream). * Due to EALayer3 being in blocks and other complexities (we can't go past a block) all * streams's offsets should start in the first stream's EA-frame. * * So to properly read one MPEG-frame from a stream we need to: * - skip one EA-frame per previous streams until offset is in current stream's EA-frame * (ie. 1st stream skips 0, 2nd stream skips 1, 3rd stream skips 2) * - read EA-frame (granule0) * - skip one EA-frame per following streams until offset is in first stream's EA-frame * (ie. 1st stream skips 2, 2nd stream skips 1, 3rd stream skips 0) * - repeat again for granule1 */ static int ealayer3_skip_data(VGMSTREAMCHANNEL *stream, mpeg_codec_data *data, int num_stream, int at_start, size_t last_eaframe_size) { int ok, i; ealayer3_frame_info eaf; ealayer3_bitstream is = {0}; uint8_t ibuf[EALAYER3_EA_FRAME_BUFFER_SIZE]; int skips = at_start ? num_stream : data->streams_size - 1 - num_stream; for (i = 0; i < skips; i++) { is.buf = ibuf; is.bufsize = read_streamfile(ibuf,stream->offset,EALAYER3_EA_FRAME_BUFFER_SIZE, stream->streamfile); /* reads less at EOF */ is.b_off = 0; ok = ealayer3_parse_frame(data, &is, &eaf); if (!ok) goto fail; stream->offset += eaf.eaframe_size; } return 1; fail: return 0; } /* ********************************************* */ /* Read bits (max 32) from buf and update the bit offset. Order is BE (MSF). */ static int r_bits(ealayer3_bitstream * is, int num_bits, uint32_t * value) { off_t off, pos; int i, bit_buf, bit_val; if (num_bits == 0) return 1; if (num_bits > 32 || num_bits < 0 || is->b_off + num_bits > is->bufsize*8) goto fail; *value = 0; /* set all bits to 0 */ off = is->b_off / 8; /* byte offset */ pos = is->b_off % 8; /* bit sub-offset */ for (i = 0; i < num_bits; i++) { bit_buf = (1U << (8-1-pos)) & 0xFF; /* bit check for buf */ bit_val = (1U << (num_bits-1-i)); /* bit to set in value */ if (is->buf[off] & bit_buf) /* is bit in buf set? */ *value |= bit_val; /* set bit */ pos++; if (pos%8 == 0) { /* new byte starts */ pos = 0; off++; } } is->b_off += num_bits; return 1; fail: return 0; } /* Write bits (max 32) to buf and update the bit offset. Order is BE (MSF). */ static int w_bits(ealayer3_bitstream * os, int num_bits, uint32_t value) { off_t off, pos; int i, bit_val, bit_buf; if (num_bits == 0) return 1; if (num_bits > 32 || num_bits < 0 || os->b_off + num_bits > os->bufsize*8) goto fail; off = os->b_off / 8; /* byte offset */ pos = os->b_off % 8; /* bit sub-offset */ for (i = 0; i < num_bits; i++) { bit_val = (1U << (num_bits-1-i)); /* bit check for value */ bit_buf = (1U << (8-1-pos)) & 0xFF; /* bit to set in buf */ if (value & bit_val) /* is bit in val set? */ os->buf[off] |= bit_buf; /* set bit */ else os->buf[off] &= ~bit_buf; /* unset bit */ pos++; if (pos%8 == 0) { /* new byte starts */ pos = 0; off++; } } os->b_off += num_bits; return 1; fail: return 0; } #endif