#include "meta.h" #include "../layout/layout.h" #include "../util.h" /* Audio Interchange File Format AIFF-C */ /* also plain AIFF, for good measure */ /* Included primarily for 3DO */ /* for reading integers inexplicably packed into 80 bit floats */ uint32_t read80bitSANE(off_t offset, STREAMFILE *streamFile) { uint8_t buf[10]; int32_t exponent; int32_t mantissa; int i; if (read_streamfile(buf,offset,10,streamFile) != 10) return 0; exponent = ((buf[0]<<8)|(buf[1]))&0x7fff; exponent -= 16383; mantissa = 0; for (i=0;i<8;i++) { int32_t shift = exponent-7-i*8; if (shift >= 0) mantissa |= buf[i+2] << shift; else if (shift > -8) mantissa |= buf[i+2] >> -shift; } return mantissa*((buf[0]&0x80)?-1:1); } uint32_t find_marker(STREAMFILE *streamFile, off_t MarkerChunkOffset, int marker_id) { uint16_t marker_count; int i; off_t marker_offset; marker_count = read_16bitBE(MarkerChunkOffset+8,streamFile); marker_offset = MarkerChunkOffset+10; for (i=0;iget_name(streamFile,filename,sizeof(filename)); if (!strcasecmp("aifc",filename_extension(filename)) || !strcasecmp("afc",filename_extension(filename)) || !strcasecmp("aifcl",filename_extension(filename)) || !strcasecmp("cbd2",filename_extension(filename))) { AIFCext = 1; } else if (!strcasecmp("aiff",filename_extension(filename)) || !strcasecmp("aif",filename_extension(filename)) || !strcasecmp("aiffl",filename_extension(filename))) { AIFFext = 1; } else goto fail; /* check header */ if ((uint32_t)read_32bitBE(0,streamFile)==0x464F524D && /* "FORM" */ /* check that file = header (8) + data */ (uint32_t)read_32bitBE(4,streamFile)+8==get_streamfile_size(streamFile)) { if ((uint32_t)read_32bitBE(8,streamFile)==0x41494643) /* "AIFC" */ { if (!AIFCext) goto fail; AIFC = 1; } else if ((uint32_t)read_32bitBE(8,streamFile)==0x41494646) /* "AIFF" */ { if (!AIFFext) goto fail; AIFF = 1; } else goto fail; } else goto fail; file_size = get_streamfile_size(streamFile); /* read through chunks to verify format and find metadata */ { off_t current_chunk = 0xc; /* start with first chunk within FORM */ while (current_chunk < file_size) { uint32_t chunk_type = read_32bitBE(current_chunk,streamFile); off_t chunk_size = read_32bitBE(current_chunk+4,streamFile); /* chunks must be padded to an even number of bytes but chunk * size does not include that padding */ if (chunk_size % 2) chunk_size++; if (current_chunk+8+chunk_size > file_size) goto fail; switch(chunk_type) { case 0x46564552: /* FVER */ /* only one per file */ if (FormatVersionChunkFound) goto fail; /* plain AIFF shouldn't have */ if (AIFF) goto fail; FormatVersionChunkFound = 1; /* specific size */ if (chunk_size != 4) goto fail; /* Version 1 of AIFF-C spec timestamp */ if ((uint32_t)read_32bitBE(current_chunk+8,streamFile) != 0xA2805140) goto fail; break; case 0x434F4D4D: /* COMM */ /* only one per file */ if (CommonChunkFound) goto fail; CommonChunkFound = 1; channel_count = read_16bitBE(current_chunk+8,streamFile); if (channel_count <= 0) goto fail; sample_count = (uint32_t)read_32bitBE(current_chunk+0xa,streamFile); sample_size = read_16bitBE(current_chunk+0xe,streamFile); sample_rate = read80bitSANE(current_chunk+0x10,streamFile); if (AIFC) { switch (read_32bitBE(current_chunk+0x1a,streamFile)) { case 0x53445832: /* SDX2 */ coding_type = coding_SDX2; interleave = 1; break; case 0x43424432: /* CBD2 */ coding_type = coding_CBD2; interleave = 1; break; case 0x41445034: /* ADP4 */ coding_type = coding_DVI_IMA; /* don't know how stereo DVI is laid out */ if (channel_count != 1) break; break; default: /* we should probably support uncompressed here */ goto fail; } } else if (AIFF) { switch (sample_size) { case 8: coding_type = coding_PCM8; interleave = 1; break; case 16: coding_type = coding_PCM16BE; interleave = 2; break; /* 32 is a possibility, but we don't see it and I * don't have a reader for it yet */ default: goto fail; } } /* we don't check the human-readable portion of AIFF-C*/ break; case 0x53534E44: /* SSND */ /* at most one per file */ if (SoundDataChunkFound) goto fail; SoundDataChunkFound = 1; start_offset = current_chunk + 16 + read_32bitBE(current_chunk+8,streamFile); break; case 0x4D41524B: /* MARK */ if (MarkerChunkFound) goto fail; MarkerChunkFound = 1; MarkerChunkOffset = current_chunk; break; case 0x494E5354: /* INST */ if (InstrumentChunkFound) goto fail; InstrumentChunkFound = 1; InstrumentChunkOffset = current_chunk; break; default: /* spec says we can skip unrecognized chunks */ break; } current_chunk += 8+chunk_size; } } if (AIFC) { if (!FormatVersionChunkFound || !CommonChunkFound || !SoundDataChunkFound) goto fail; } else if (AIFF) { if (!CommonChunkFound || !SoundDataChunkFound) goto fail; } /* read loop points */ if (InstrumentChunkFound && MarkerChunkFound) { int start_marker; int end_marker; /* use the sustain loop */ /* if playMode=ForwardLooping */ if (read_16bitBE(InstrumentChunkOffset+16,streamFile) == 1) { start_marker = read_16bitBE(InstrumentChunkOffset+18,streamFile); end_marker = read_16bitBE(InstrumentChunkOffset+20,streamFile); /* check for sustain markers != 0 (invalid marker no) */ if (start_marker && end_marker) { /* find start marker */ loop_start = find_marker(streamFile,MarkerChunkOffset,start_marker); loop_end = find_marker(streamFile,MarkerChunkOffset,end_marker); /* find_marker is type uint32_t as the spec says that's the type * of the position value, but it returns a -1 on error, and the * loop_start and loop_end variables are int32_t, so the error * will become apparent. * We shouldn't have a loop point that overflows an int32_t * anyway. */ loop_flag = 1; if (loop_start==loop_end) loop_flag = 0; } } } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(channel_count,loop_flag); if (!vgmstream) goto fail; /* fill in the vital statistics */ vgmstream->num_samples = sample_count; vgmstream->sample_rate = sample_rate; vgmstream->coding_type = coding_type; if (channel_count > 1) vgmstream->layout_type = layout_interleave; else vgmstream->layout_type = layout_none; vgmstream->interleave_block_size = interleave; vgmstream->loop_start_sample = loop_start; vgmstream->loop_end_sample = loop_end; if (AIFC) vgmstream->meta_type = meta_AIFC; else if (AIFF) vgmstream->meta_type = meta_AIFF; /* open the file, set up each channel */ { int i; vgmstream->ch[0].streamfile = streamFile->open(streamFile,filename, STREAMFILE_DEFAULT_BUFFER_SIZE); if (!vgmstream->ch[0].streamfile) goto fail; for (i=0;ich[i].streamfile = vgmstream->ch[0].streamfile; vgmstream->ch[i].offset = vgmstream->ch[i].channel_start_offset = start_offset+i*interleave; } } return vgmstream; /* clean up anything we may have opened */ fail: if (vgmstream) close_vgmstream(vgmstream); return NULL; }