#include "meta.h" #include "../coding/coding.h" #include "cri_utf.h" /* ACB (Atom Cue sheet Binary) - CRI container of memory audio, often together with a .awb wave bank */ VGMSTREAM* init_vgmstream_acb(STREAMFILE* sf) { VGMSTREAM* vgmstream = NULL; STREAMFILE* temp_sf = NULL; off_t subfile_offset; size_t subfile_size; utf_context *utf = NULL; /* checks */ if (!check_extensions(sf, "acb")) goto fail; if (read_32bitBE(0x00,sf) != 0x40555446) /* "@UTF" */ goto fail; /* .acb is a cue sheet that uses @UTF (CRI's generic table format) to store row/columns * with complex info (cues, sequences, spatial info, etc). it can store a memory .awb * (our target here), or reference external/streamed .awb (loaded elsewhere) * we only want .awb with actual waves but may use .acb to get names */ { int rows; const char* name; uint32_t offset = 0, size = 0; uint32_t table_offset = 0x00; utf = utf_open(sf, table_offset, &rows, &name); if (!utf) goto fail; if (rows != 1 || strcmp(name, "Header") != 0) goto fail; //todo acb+cpk is also possible if (!utf_query_data(utf, 0, "AwbFile", &offset, &size)) goto fail; subfile_offset = table_offset + offset; subfile_size = size; /* column exists but can be empty */ if (subfile_size == 0) goto fail; } //;VGM_LOG("ACB: subfile offset=%lx + %x\n", subfile_offset, subfile_size); temp_sf = setup_subfile_streamfile(sf, subfile_offset,subfile_size, "awb"); if (!temp_sf) goto fail; vgmstream = init_vgmstream_awb_memory(temp_sf, sf); if (!vgmstream) goto fail; /* name-loading for this for memory .awb will be called from init_vgmstream_awb_memory */ utf_close(utf); close_streamfile(temp_sf); return vgmstream; fail: utf_close(utf); close_streamfile(temp_sf); close_vgmstream(vgmstream); return NULL; } /* ************************************** */ //todo maybe use reopen sf? since internal buffer is going to be read #define ACB_TABLE_BUFFER_SIZE 0x4000 STREAMFILE* setup_acb_streamfile(STREAMFILE* sf, size_t buffer_size) { STREAMFILE* new_sf = NULL; new_sf = open_wrap_streamfile(sf); new_sf = open_buffer_streamfile_f(new_sf, buffer_size); return new_sf; } typedef struct { STREAMFILE* acbFile; /* original reference, don't close */ /* keep track of these tables so they can be closed when done */ utf_context *Header; utf_context *CueNameTable; utf_context *CueTable; utf_context *BlockTable; utf_context *SequenceTable; utf_context *TrackTable; utf_context *TrackCommandTable; utf_context *SynthTable; utf_context *WaveformTable; STREAMFILE* CueNameSf; STREAMFILE* CueSf; STREAMFILE* BlockSf; STREAMFILE* SequenceSf; STREAMFILE* TrackSf; STREAMFILE* TrackCommandSf; STREAMFILE* SynthSf; STREAMFILE* WaveformSf; /* config */ int is_memory; int target_waveid; int has_TrackEventTable; int has_CommandTable; /* to avoid infinite/circular references (AtomViewer crashes otherwise) */ int synth_depth; int sequence_depth; /* name stuff */ int16_t cuename_index; const char * cuename_name; int awbname_count; int16_t awbname_list[255]; char name[1024]; } acb_header; static int open_utf_subtable(acb_header* acb, STREAMFILE* *TableSf, utf_context* *Table, const char* TableName, int* rows) { uint32_t offset = 0; /* already loaded */ if (*Table != NULL) return 1; if (!utf_query_data(acb->Header, 0, TableName, &offset, NULL)) goto fail; /* open a buffered streamfile to avoid so much IO back and forth between all the tables */ *TableSf = setup_acb_streamfile(acb->acbFile, ACB_TABLE_BUFFER_SIZE); if (!*TableSf) goto fail; *Table = utf_open(*TableSf, offset, rows, NULL); if (!*Table) goto fail; //;VGM_LOG("ACB: loaded table %s\n", TableName); return 1; fail: return 0; } static void add_acb_name(acb_header* acb, int8_t Waveform_Streaming) { //todo safe string ops /* ignore name repeats */ if (acb->awbname_count) { int i; for (i = 0; i < acb->awbname_count; i++) { if (acb->awbname_list[i] == acb->cuename_index) return; } } /* since waveforms can be reused by cues multiple names are a thing */ if (acb->awbname_count) { strcat(acb->name, "; "); strcat(acb->name, acb->cuename_name); } else { strcpy(acb->name, acb->cuename_name); } if (Waveform_Streaming == 2 && acb->is_memory) { strcat(acb->name, " [pre]"); } acb->awbname_list[acb->awbname_count] = acb->cuename_index; acb->awbname_count++; if (acb->awbname_count >= 254) acb->awbname_count = 254; /* ??? */ //;VGM_LOG("ACB: found cue for waveid=%i: %s\n", acb->target_waveid, acb->cuename_name); } static int load_acb_waveform(acb_header* acb, int16_t Index) { uint16_t Waveform_Id; uint8_t Waveform_Streaming; /* read Waveform[Index] */ if (!open_utf_subtable(acb, &acb->WaveformSf, &acb->WaveformTable, "WaveformTable", NULL)) goto fail; if (!utf_query_u16(acb->WaveformTable, Index, "Id", &Waveform_Id)) { /* older versions use Id */ if (acb->is_memory) { if (!utf_query_u16(acb->WaveformTable, Index, "MemoryAwbId", &Waveform_Id)) goto fail; } else { if (!utf_query_u16(acb->WaveformTable, Index, "StreamAwbId", &Waveform_Id)) goto fail; } } if (!utf_query_u8(acb->WaveformTable, Index, "Streaming", &Waveform_Streaming)) goto fail; //;VGM_LOG("ACB: Waveform[%i]: Id=%i, Streaming=%i\n", Index, Waveform_Id, Waveform_Streaming); /* not found but valid */ if (Waveform_Id != acb->target_waveid) return 1; /* must match our target's (0=memory, 1=streaming, 2=memory (prefetch)+stream) */ if ((acb->is_memory && Waveform_Streaming == 1) || (!acb->is_memory && Waveform_Streaming == 0)) return 1; /* aaand finally get name (phew) */ add_acb_name(acb, Waveform_Streaming); return 1; fail: return 0; } /* define here for Synths pointing to Sequences */ static int load_acb_sequence(acb_header* acb, int16_t Index); static int load_acb_synth(acb_header* acb, int16_t Index) { int i, count; uint8_t Synth_Type; uint32_t Synth_ReferenceItems_offset; uint32_t Synth_ReferenceItems_size; /* read Synth[Index] */ if (!open_utf_subtable(acb, &acb->SynthSf, &acb->SynthTable, "SynthTable", NULL)) goto fail; if (!utf_query_u8(acb->SynthTable, Index, "Type", &Synth_Type)) goto fail; if (!utf_query_data(acb->SynthTable, Index, "ReferenceItems", &Synth_ReferenceItems_offset, &Synth_ReferenceItems_size)) goto fail; //;VGM_LOG("ACB: Synth[%i]: Type=%x, ReferenceItems={%x,%x}\n", Index, Synth_Type, Synth_ReferenceItems_offset, Synth_ReferenceItems_size); acb->synth_depth++; if (acb->synth_depth > 2) { VGM_LOG("ACB: Synth depth too high\n"); goto fail; /* max Synth > Synth > Waveform (ex. Yakuza 6) */ } /* Cue.ReferenceType 2 uses Synth.Type, while 3 always sets it to 0 and uses Sequence.Type instead * Both look the same and probably affect which item in the ReferenceItems list is picked: * - 0: polyphonic (1 item) * - 1: sequential (1 to N?) * - 2: shuffle (1 from N?) * - 3: random (1 from N?) * - 4: random no repeat * - 5: switch game variable * - 6: combo sequential * - 7: switch selector * - 8: track transition by selector * - other: undefined? * Since we want to find all possible Waveforms that could match our id, we ignore Type and just parse all ReferenceItems. */ count = Synth_ReferenceItems_size / 0x04; for (i = 0; i < count; i++) { uint16_t Synth_ReferenceItem_type = read_u16be(Synth_ReferenceItems_offset + i*0x04 + 0x00, acb->SynthSf); uint16_t Synth_ReferenceItem_index = read_u16be(Synth_ReferenceItems_offset + i*0x04 + 0x02, acb->SynthSf); //;VGM_LOG("ACB: Synth.ReferenceItem: type=%x, index=%x\n", Synth_ReferenceItem_type, Synth_ReferenceItem_index); switch(Synth_ReferenceItem_type) { case 0x00: /* no reference */ count = 0; break; case 0x01: /* Waveform (most common) */ if (!load_acb_waveform(acb, Synth_ReferenceItem_index)) goto fail; break; case 0x02: /* Synth, possibly random (rare, found in Sonic Lost World with ReferenceType 2) */ if (!load_acb_synth(acb, Synth_ReferenceItem_index)) goto fail; break; case 0x03: /* Sequence of Synths w/ % in Synth.TrackValues (rare, found in Sonic Lost World with ReferenceType 2) */ if (!load_acb_sequence(acb, Synth_ReferenceItem_index)) goto fail; break; case 0x06: /* this seems to point to Synth but results don't make sense (rare, from Sonic Lost World) */ default: /* undefined/crashes AtomViewer */ VGM_LOG("ACB: unknown Synth.ReferenceItem type %x at %x + %x\n", Synth_ReferenceItem_type, Synth_ReferenceItems_offset, Synth_ReferenceItems_size); count = 0; /* force end without failing */ break; } } acb->synth_depth--; return 1; fail: return 0; } static int load_acb_track_event_command(acb_header* acb, int16_t Index) { uint16_t Track_EventIndex; uint32_t Track_Command_offset; uint32_t Track_Command_size; /* read Track[Index] */ if (!open_utf_subtable(acb, &acb->TrackSf, &acb->TrackTable, "TrackTable", NULL)) goto fail; if (!utf_query_u16(acb->TrackTable, Index, "EventIndex", &Track_EventIndex)) goto fail; //;VGM_LOG("ACB: Track[%i]: EventIndex=%i\n", Index, Track_EventIndex); /* next link varies with version, check by table existence */ if (acb->has_CommandTable) { /* <=v1.27 */ /* read Command[EventIndex] */ if (!open_utf_subtable(acb, &acb->TrackCommandSf, &acb->TrackCommandTable, "CommandTable", NULL)) goto fail; if (!utf_query_data(acb->TrackCommandTable, Track_EventIndex, "Command", &Track_Command_offset, &Track_Command_size)) goto fail; //;VGM_LOG("ACB: Command[%i]: Command={%x,%x}\n", Track_EventIndex, Track_Command_offset,Track_Command_size); } else if (acb->has_TrackEventTable) { /* >=v1.28 */ /* read TrackEvent[EventIndex] */ if (!open_utf_subtable(acb, &acb->TrackCommandSf, &acb->TrackCommandTable, "TrackEventTable", NULL)) goto fail; if (!utf_query_data(acb->TrackCommandTable, Track_EventIndex, "Command", &Track_Command_offset, &Track_Command_size)) goto fail; //;VGM_LOG("ACB: TrackEvent[%i]: Command={%x,%x}\n", Track_EventIndex, Track_Command_offset,Track_Command_size); } else { VGM_LOG("ACB: unknown command table\n"); goto fail; } /* read Command (some kind of multiple TLVs, this seems ok) */ { uint32_t offset = Track_Command_offset; uint32_t max_offset = Track_Command_offset + Track_Command_size; uint16_t tlv_code, tlv_type, tlv_index; uint8_t tlv_size; while (offset < max_offset) { tlv_code = read_u16be(offset + 0x00, acb->TrackCommandSf); tlv_size = read_u8 (offset + 0x02, acb->TrackCommandSf); offset += 0x03; if (tlv_code == 0x07D0) { if (tlv_size < 0x04) { VGM_LOG("ACB: TLV with unknown size\n"); break; } tlv_type = read_u16be(offset + 0x00, acb->TrackCommandSf); tlv_index = read_u16be(offset + 0x02, acb->TrackCommandSf); //;VGM_LOG("ACB: TLV at %x: type %x, index=%x\n", offset, tlv_type, tlv_index); /* probably same as Synth_ReferenceItem_type */ switch(tlv_type) { case 0x02: /* Synth (common) */ if (!load_acb_synth(acb, tlv_index)) goto fail; break; case 0x03: /* Sequence of Synths (common, ex. Yakuza 6, Yakuza Kiwami 2) */ if (!load_acb_sequence(acb, tlv_index)) goto fail; break; /* possible values? (from debug): * - sequence * - track * - synth * - trackEvent * - seqParameterPallet, * - trackParameterPallet, * - synthParameterPallet, */ default: VGM_LOG("ACB: unknown TLV type %x at %x + %x\n", tlv_type, offset, tlv_size); max_offset = 0; /* force end without failing */ break; } } /* 0x07D1 comes suspiciously often paired with 0x07D0 too */ offset += tlv_size; } } return 1; fail: return 0; } static int load_acb_sequence(acb_header* acb, int16_t Index) { int i; uint16_t Sequence_NumTracks; uint32_t Sequence_TrackIndex_offset; uint32_t Sequence_TrackIndex_size; /* read Sequence[Index] */ if (!open_utf_subtable(acb, &acb->SequenceSf, &acb->SequenceTable, "SequenceTable", NULL)) goto fail; if (!utf_query_u16(acb->SequenceTable, Index, "NumTracks", &Sequence_NumTracks)) goto fail; if (!utf_query_data(acb->SequenceTable, Index, "TrackIndex", &Sequence_TrackIndex_offset, &Sequence_TrackIndex_size)) goto fail; //;VGM_LOG("ACB: Sequence[%i]: NumTracks=%i, TrackIndex={%x, %x}\n", Index, Sequence_NumTracks, Sequence_TrackIndex_offset,Sequence_TrackIndex_size); acb->sequence_depth++; if (acb->sequence_depth > 3) { VGM_LOG("ACB: Sequence depth too high\n"); goto fail; /* max Sequence > Sequence > Sequence > Synth > Waveform (ex. Yakuza 6) */ } if (Sequence_NumTracks * 0x02 > Sequence_TrackIndex_size) { /* padding may exist */ VGM_LOG("ACB: wrong Sequence.TrackIndex size\n"); goto fail; } /* read Tracks inside Sequence */ for (i = 0; i < Sequence_NumTracks; i++) { int16_t Sequence_TrackIndex_index = read_s16be(Sequence_TrackIndex_offset + i*0x02, acb->SequenceSf); if (!load_acb_track_event_command(acb, Sequence_TrackIndex_index)) goto fail; } acb->sequence_depth--; return 1; fail: return 0; } static int load_acb_block(acb_header* acb, int16_t Index) { int i; uint16_t Block_NumTracks; uint32_t Block_TrackIndex_offset; uint32_t Block_TrackIndex_size; /* read Block[Index] */ if (!open_utf_subtable(acb, &acb->BlockSf, &acb->BlockTable, "BlockTable", NULL)) goto fail; if (!utf_query_u16(acb->BlockTable, Index, "NumTracks", &Block_NumTracks)) goto fail; if (!utf_query_data(acb->BlockTable, Index, "TrackIndex", &Block_TrackIndex_offset, &Block_TrackIndex_size)) goto fail; //;VGM_LOG("ACB: Block[%i]: NumTracks=%i, TrackIndex={%x, %x}\n", Index, Block_NumTracks, Block_TrackIndex_offset,Block_TrackIndex_size); if (Block_NumTracks * 0x02 > Block_TrackIndex_size) { /* padding may exist */ VGM_LOG("ACB: wrong Block.TrackIndex size\n"); goto fail; } /* read Tracks inside Block */ for (i = 0; i < Block_NumTracks; i++) { int16_t Block_TrackIndex_index = read_s16be(Block_TrackIndex_offset + i*0x02, acb->BlockSf); if (!load_acb_track_event_command(acb, Block_TrackIndex_index)) goto fail; } return 1; fail: return 0; } static int load_acb_cue(acb_header* acb, int16_t Index) { uint8_t Cue_ReferenceType; uint16_t Cue_ReferenceIndex; /* read Cue[Index] */ if (!open_utf_subtable(acb, &acb->CueSf, &acb->CueTable, "CueTable", NULL)) goto fail; if (!utf_query_u8(acb->CueTable, Index, "ReferenceType", &Cue_ReferenceType)) goto fail; if (!utf_query_u16(acb->CueTable, Index, "ReferenceIndex", &Cue_ReferenceIndex)) goto fail; //;VGM_LOG("ACB: Cue[%i]: ReferenceType=%i, ReferenceIndex=%i\n", Index, Cue_ReferenceType, Cue_ReferenceIndex); /* usually older games use older references but not necessarily */ switch(Cue_ReferenceType) { case 0x01: /* Cue > Waveform (ex. PES 2015) */ if (!load_acb_waveform(acb, Cue_ReferenceIndex)) goto fail; break; case 0x02: /* Cue > Synth > Waveform (ex. Ukiyo no Roushi) */ if (!load_acb_synth(acb, Cue_ReferenceIndex)) goto fail; break; case 0x03: /* Cue > Sequence > Track > Command > Synth > Waveform (ex. Valkyrie Profile anatomia, Yakuza Kiwami 2) */ if (!load_acb_sequence(acb, Cue_ReferenceIndex)) goto fail; break; //todo "blockSequence"? case 0x08: /* Cue > Block > Track > Command > Synth > Waveform (ex. Sonic Lost World, rare) */ if (!load_acb_block(acb, Cue_ReferenceIndex)) goto fail; break; case 0x00: /* none */ case 0x04: /* "track" */ case 0x05: /* "outsideLink" */ case 0x06: /* "insideLinkSynth" (ex. PES 2014) */ case 0x07: /* "insideLinkSequence" (ex. PES 2014) */ case 0x09: /* "insideLinkBlockSequence" */ case 0x0a: /* "eventCue_UnUse" */ case 0x0b: /* "soundGenerator" */ default: VGM_LOG("ACB: unknown Cue.ReferenceType=%x, Cue.ReferenceIndex=%x\n", Cue_ReferenceType, Cue_ReferenceIndex); break; /* ignore and continue */ } return 1; fail: return 0; } static int load_acb_cuename(acb_header* acb, int16_t Index) { uint16_t CueName_CueIndex; const char* CueName_CueName; /* read CueName[Index] */ if (!open_utf_subtable(acb, &acb->CueNameSf, &acb->CueNameTable, "CueNameTable", NULL)) goto fail; if (!utf_query_u16(acb->CueNameTable, Index, "CueIndex", &CueName_CueIndex)) goto fail; if (!utf_query_string(acb->CueNameTable, Index, "CueName", &CueName_CueName)) goto fail; //;VGM_LOG("ACB: CueName[%i]: CueIndex=%i, CueName=%s\n", Index, CueName_CueIndex, CueName_CueName); /* save as will be needed if references waveform */ acb->cuename_index = Index; acb->cuename_name = CueName_CueName; if (!load_acb_cue(acb, CueName_CueIndex)) goto fail; return 1; fail: return 0; } void load_acb_wave_name(STREAMFILE* sf, VGMSTREAM* vgmstream, int waveid, int is_memory) { acb_header acb = {0}; int i, CueName_rows; if (!sf || !vgmstream || waveid < 0) return; /* Normally games load a .acb + .awb, and asks the .acb to play a cue by name or index. * Since we only care for actual waves, to get its name we need to find which cue uses our wave. * Multiple cues can use the same wave (meaning multiple names), and one cue may use multiple waves. * There is no easy way to map cue name <> wave name so basically we parse the whole thing. * * .acb are created in CRI Atom Craft, where user defines N Cues with CueName each, then link somehow * to a Waveform (.awb=streamed or memory .acb=internal, data 'material' encoded in some format), * depending on reference types. Typical links are: * - CueName > Cue > Waveform (type 1) * - CueName > Cue > Synth > Waveform (type 2) * - CueName > Cue > Sequence > Track > Command > Synth > Waveform (type 3, <=v1.27) * - CueName > Cue > Sequence > Track > Command > Synth > Synth > Waveform (type 3, <=v1.27) * - CueName > Cue > Sequence > Track > TrackEvent > Command > Synth > Waveform (type 3, >=v1.28) * - CueName > Cue > Sequence > Track > TrackEvent > Command > Synth > Synth > Waveform (type 3, >=v1.28) * - CueName > Cue > Sequence > Track > TrackEvent > Command > Sequence > (...) > Synth > Waveform (type 3, >=v1.28) * - CueName > Cue > Block > Track > Command > Synth > Synth > Waveform (type 8) * - others should be possible but haven't been observed * Atom Craft may only target certain .acb versions so some links are later removed * Not all cues to point to though Waveforms, as some are just config events/commands. * .acb link to .awb by name (loaded manually), though they have a checksum/hash to validate. */ //;VGM_LOG("ACB: find waveid=%i\n", waveid); acb.acbFile = sf; acb.Header = utf_open(acb.acbFile, 0x00, NULL, NULL); if (!acb.Header) goto fail; acb.target_waveid = waveid; acb.is_memory = is_memory; acb.has_TrackEventTable = utf_query_data(acb.Header, 0, "TrackEventTable", NULL,NULL); acb.has_CommandTable = utf_query_data(acb.Header, 0, "CommandTable", NULL,NULL); /* read all possible cue names and find which waveids are referenced by it */ if (!open_utf_subtable(&acb, &acb.CueNameSf, &acb.CueNameTable, "CueNameTable", &CueName_rows)) goto fail; for (i = 0; i < CueName_rows; i++) { if (!load_acb_cuename(&acb, i)) goto fail; } /* meh copy */ if (acb.awbname_count > 0) { strncpy(vgmstream->stream_name, acb.name, STREAM_NAME_SIZE); vgmstream->stream_name[STREAM_NAME_SIZE - 1] = '\0'; } fail: utf_close(acb.Header); utf_close(acb.CueNameTable); utf_close(acb.CueTable); utf_close(acb.SequenceTable); utf_close(acb.TrackTable); utf_close(acb.TrackCommandTable); utf_close(acb.SynthTable); utf_close(acb.WaveformTable); close_streamfile(acb.CueNameSf); close_streamfile(acb.CueSf); close_streamfile(acb.SequenceSf); close_streamfile(acb.TrackSf); close_streamfile(acb.TrackCommandSf); close_streamfile(acb.SynthSf); close_streamfile(acb.WaveformSf); }