#include "meta.h" #include "../coding/coding.h" /* Headerless PS-ADPCM * Guesses interleave/channels/loops by testing data and using the file extension for sample rate. * This is an ugly crutch for older sets, use TXTH to properly play headerless data instead. */ VGMSTREAM * init_vgmstream_ps_headerless(STREAMFILE *streamFile) { VGMSTREAM * vgmstream = NULL; off_t start_offset = 0x00; char filename[PATH_LIMIT]; uint8_t mibBuffer[0x10]; uint8_t testBuffer[0x10]; size_t fileLength; off_t loopStart = 0; off_t loopEnd = 0; off_t interleave = 0; off_t readOffset = 0; off_t loopStartPoints[0x10] = {0}; int loopStartPointsCount=0; off_t loopEndPoints[0x10] = {0}; int loopEndPointsCount=0; int loopToEnd=0; int forceNoLoop=0; int gotEmptyLine=0; int i, channel_count=0; /* checks * .mib: common, but many ext-less files are renamed to this. * .mi4: fake .mib to force another sample rate */ streamFile->get_name(streamFile,filename,sizeof(filename)); if (strcasecmp("mib",filename_extension(filename)) && strcasecmp("mi4",filename_extension(filename))) goto fail; /* test if raw PS-ADPCM */ if (!ps_check_format(streamFile, 0x00, 0x2000)) goto fail; fileLength = get_streamfile_size(streamFile); /* Search for interleave value (checking channel starts) and loop points (using PS-ADPCM flags). * Channel start will by 0x0000, 0x0002, 0x0006 followed by 12 zero values. * Interleave value is the offset where those repeat, and channels the number of times. * Loop flags in second byte are: 0x06 = start, 0x03 = end (per channel). * Interleave can be large (up to 0x20000 found so far) and is always a 0x10 multiple value. */ readOffset+=(off_t)read_streamfile(mibBuffer,0,0x10,streamFile); mibBuffer[0]=0; { uint8_t doChannelUpdate=1; uint8_t bDoUpdateInterleave=1; readOffset=0; do { readOffset+=(off_t)read_streamfile(testBuffer,readOffset,0x10,streamFile); // be sure to point to an interleave value if(readOffset<(int32_t)(fileLength*0.5)) { if(memcmp(testBuffer+2, mibBuffer+2,0x0e)) { if(doChannelUpdate) { doChannelUpdate=0; channel_count++; } if(channel_count<2) bDoUpdateInterleave=1; } testBuffer[0]=0; if(!memcmp(testBuffer,mibBuffer,0x10)) { gotEmptyLine=1; if(bDoUpdateInterleave) { bDoUpdateInterleave=0; interleave=readOffset-0x10; } if(readOffset-0x10 == channel_count*interleave) { doChannelUpdate=1; } } } // Loop Start ... if(testBuffer[0x01]==0x06) { if(loopStartPointsCount<0x10) { loopStartPoints[loopStartPointsCount] = readOffset-0x10; loopStartPointsCount++; } } // Loop End ... if(testBuffer[0x01]==0x03 && testBuffer[0x03]!=0x77) { if(loopEndPointsCount<0x10) { loopEndPoints[loopEndPointsCount] = readOffset; loopEndPointsCount++; } } if(testBuffer[0x01]==0x04) { // 0x04 loop points flag can't be with a 0x03 loop points flag if(loopStartPointsCount<0x10) { loopStartPoints[loopStartPointsCount] = readOffset-0x10; loopStartPointsCount++; // Loop end value is not set by flags ... // go until end of file loopToEnd=1; } } } while (readOffset<((int32_t)fileLength)); } if(testBuffer[0]==0x0c && testBuffer[1]==0) forceNoLoop=1; if(channel_count==0) channel_count=1; // Calc Loop Points & Interleave ... if(loopStartPointsCount>=2) { // can't get more then 0x10 loop point ! if(loopStartPointsCount<=0x0F) { // Always took the first 2 loop points interleave=loopStartPoints[1]-loopStartPoints[0]; loopStart=loopStartPoints[1]; // Can't be one channel .mib with interleave values if(interleave>0 && channel_count==1) channel_count=2; } else { loopStart=0; } } if(loopEndPointsCount>=2) { // can't get more then 0x10 loop point ! if(loopEndPointsCount<=0x0F) { // No need to recalculate interleave value ... loopEnd=loopEndPoints[loopEndPointsCount-1]; // Can't be one channel .mib with interleave values if(channel_count==1) channel_count=2; } else { loopToEnd=0; loopEnd=0; } } if (loopToEnd) loopEnd=fileLength; if(forceNoLoop) loopEnd=0; if(interleave>0x10 && channel_count==1) channel_count=2; if(interleave==0) interleave=0x10; // further check on channel_count ... if(gotEmptyLine) { int newChannelCount = 0; readOffset=0; /* count empty lines at interleave = channels */ do { newChannelCount++; read_streamfile(testBuffer,readOffset,0x10,streamFile); readOffset+=interleave; } while(!memcmp(testBuffer,mibBuffer,16)); newChannelCount--; if(newChannelCount>channel_count) channel_count=newChannelCount; } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(channel_count,(loopEnd!=0)); if (!vgmstream) goto fail; vgmstream->coding_type = coding_PSX; vgmstream->layout_type = (channel_count == 1) ? layout_none : layout_interleave; vgmstream->interleave_block_size = interleave; if(!strcasecmp("mib",filename_extension(filename))) vgmstream->sample_rate = 44100; if(!strcasecmp("mi4",filename_extension(filename))) vgmstream->sample_rate = 48000; vgmstream->num_samples = (int32_t)(fileLength/16/channel_count*28); if(loopEnd!=0) { if(vgmstream->channels==1) { vgmstream->loop_start_sample = loopStart/16*18; //todo 18 instead of 28 probably a bug vgmstream->loop_end_sample = loopEnd/16*28; } else { vgmstream->loop_start_sample = ((((loopStart/vgmstream->interleave_block_size)-1)*vgmstream->interleave_block_size)/16*14*channel_count)/channel_count; if(loopStart%vgmstream->interleave_block_size) { vgmstream->loop_start_sample += (((loopStart%vgmstream->interleave_block_size)-1)/16*14*channel_count); } if(loopEnd==fileLength) { vgmstream->loop_end_sample=(loopEnd/16*28)/channel_count; } else { vgmstream->loop_end_sample = ((((loopEnd/vgmstream->interleave_block_size)-1)*vgmstream->interleave_block_size)/16*14*channel_count)/channel_count; if(loopEnd%vgmstream->interleave_block_size) { vgmstream->loop_end_sample += (((loopEnd%vgmstream->interleave_block_size)-1)/16*14*channel_count); } } } } if(loopToEnd) { // try to find if there's no empty line ... int emptySamples=0; for(i=0; i<16;i++) { mibBuffer[i]=0; //memset } readOffset=fileLength-0x10; do { read_streamfile(testBuffer,readOffset,0x10,streamFile); if(!memcmp(mibBuffer,testBuffer,16)) { emptySamples+=28; } readOffset-=0x10; } while(!memcmp(testBuffer,mibBuffer,16)); vgmstream->loop_end_sample-=(emptySamples*channel_count); } vgmstream->meta_type = meta_PS_HEADERLESS; vgmstream->allow_dual_stereo = 1; if (!vgmstream_open_stream(vgmstream,streamFile,start_offset)) goto fail; return vgmstream; fail: close_vgmstream(vgmstream); return NULL; }