// // HCDecoder.m // HighlyComplete // // Created by Christopher Snowhill on 9/30/13. // Copyright 2013 __NoWork, Inc__. All rights reserved. // #import "HCDecoder.h" #import "hebios.h" #import #import #import #import #import #import #import #import #import #import #import #import #include #import #import #import #import #include #include #import "PlaylistController.h" #include // #define USF_LOG @interface psf_file_container : NSObject { NSLock * lock; NSMutableDictionary * list; } + (psf_file_container *)instance; - (void)add_hint:(NSString *)path source:(id)source; - (void)remove_hint:(NSString *)path; - (BOOL)try_hint:(NSString *)path source:(id*)source; @end @implementation psf_file_container + (psf_file_container *)instance { static psf_file_container * instance; @synchronized(self) { if (!instance) { instance = [[self alloc] init]; } } return instance; } - (psf_file_container *)init { if ((self = [super init])) { lock = [[NSLock alloc] init]; list = [[NSMutableDictionary alloc] initWithCapacity:0]; } return self; } - (void)add_hint:(NSString *)path source:(id)source { [lock lock]; [list setObject:source forKey:path]; [lock unlock]; } - (void)remove_hint:(NSString *)path { [lock lock]; [list removeObjectForKey:path]; [lock unlock]; } - (BOOL)try_hint:(NSString *)path source:(id *)source { [lock lock]; *source = [list objectForKey:path]; [lock unlock]; if ( *source ) { [ *source seek:0 whence:0 ]; return YES; } else { return NO; } } @end void * source_fopen(const char * path) { id source; if ( ![[psf_file_container instance] try_hint:[NSString stringWithUTF8String:path] source:&source] ) { NSString * urlString = [NSString stringWithUTF8String:path]; NSURL * url = [NSURL URLWithString:[urlString stringByAddingPercentEscapesUsingEncoding:NSUTF8StringEncoding]]; id audioSourceClass = NSClassFromString(@"AudioSource"); source = [audioSourceClass audioSourceForURL:url]; if (![source open:url]) return 0; if (![source seekable]) return 0; } return (void*)CFBridgingRetain(source); } size_t source_fread(void * buffer, size_t size, size_t count, void * handle) { NSObject* _handle = (__bridge NSObject *)(handle); id __unsafe_unretained source = (id) _handle; return [source read:buffer amount:(size * count)] / size; } int source_fseek(void * handle, int64_t offset, int whence) { NSObject* _handle = (__bridge NSObject *)(handle); id __unsafe_unretained source = (id) _handle; return [source seek:(long)offset whence:whence] ? 0 : -1; } int source_fclose(void * handle) { CFBridgingRelease(handle); return 0; } long source_ftell(void * handle) { NSObject* _handle = (__bridge NSObject *)(handle); id __unsafe_unretained source = (id) _handle; return [source tell]; } static psf_file_callbacks source_callbacks = { "/|\\", source_fopen, source_fread, source_fseek, source_fclose, source_ftell }; @implementation HCDecoder + (void)initialize { if (self == [HCDecoder class]) { bios_set_image(hebios, HEBIOS_SIZE); psx_init(); sega_init(); qsound_init(); mLogSetDefaultLogger(&gsf_logger); } } - (id)init { self = [super init]; if (self) { hintAdded = NO; type = 0; emulatorCore = NULL; emulatorExtra = NULL; } return self; } - (NSDictionary *)metadata { return metadataList; } - (long)retrieveFrameCount:(long)ms { return ms * (sampleRate / 100) / 10; } struct psf_info_meta_state { NSMutableDictionary * info; bool utf8; int tag_length_ms; int tag_fade_ms; float albumGain; float albumPeak; float trackGain; float trackPeak; float volume; }; static int parse_time_crap(NSString * value) { NSArray *crapFix = [value componentsSeparatedByString:@"\n"]; NSArray *components = [[crapFix objectAtIndex:0] componentsSeparatedByString:@":"]; float totalSeconds = 0; float multiplier = 1000; bool first = YES; for (id component in [components reverseObjectEnumerator]) { if (first) { first = NO; totalSeconds += [component floatValue] * multiplier; } else { totalSeconds += [component integerValue] * multiplier; } multiplier *= 60; } return totalSeconds; } static int psf_info_meta(void * context, const char * name, const char * value) { struct psf_info_meta_state * state = ( struct psf_info_meta_state * ) context; NSString * tag = [NSString stringWithUTF8String:name]; NSString * taglc = [tag lowercaseString]; NSString * svalue = [NSString stringWithUTF8String:value]; if ( svalue == nil ) return 0; if ([taglc isEqualToString:@"game"]) { taglc = @"album"; } else if ([taglc isEqualToString:@"date"]) { taglc = @"year"; } if ([taglc hasPrefix:@"replaygain_"]) { if ([taglc hasPrefix:@"replaygain_album_"]) { if ([taglc hasSuffix:@"gain"]) state->albumGain = [svalue floatValue]; else if ([taglc hasSuffix:@"peak"]) state->albumPeak = [svalue floatValue]; } else if ([taglc hasPrefix:@"replaygain_track_"]) { if ([taglc hasSuffix:@"gain"]) state->trackGain = [svalue floatValue]; else if ([taglc hasSuffix:@"peak"]) state->trackPeak = [svalue floatValue]; } } else if ([taglc isEqualToString:@"volume"]) { state->volume = [svalue floatValue]; } else if ([taglc isEqualToString:@"length"]) { state->tag_length_ms = parse_time_crap(svalue); } else if ([taglc isEqualToString:@"fade"]) { state->tag_fade_ms = parse_time_crap(svalue); } else if ([taglc isEqualToString:@"utf8"]) { state->utf8 = true; } else if ([taglc isEqualToString:@"title"] || [taglc isEqualToString:@"artist"] || [taglc isEqualToString:@"album"] || [taglc isEqualToString:@"year"] || [taglc isEqualToString:@"genre"] || [taglc isEqualToString:@"track"]) { [state->info setObject:svalue forKey:taglc]; } return 0; } struct psf1_load_state { void * emu; bool first; unsigned refresh; }; typedef struct { uint32_t pc0; uint32_t gp0; uint32_t t_addr; uint32_t t_size; uint32_t d_addr; uint32_t d_size; uint32_t b_addr; uint32_t b_size; uint32_t s_ptr; uint32_t s_size; uint32_t sp,fp,gp,ret,base; } exec_header_t; typedef struct { char key[8]; uint32_t text; uint32_t data; exec_header_t exec; char title[60]; } psxexe_hdr_t; static int psf1_info(void * context, const char * name, const char * value) { struct psf1_load_state * state = ( struct psf1_load_state * ) context; NSString * sname = [[NSString stringWithUTF8String:name] lowercaseString]; NSString * svalue = [NSString stringWithUTF8String:value]; if ( !state->refresh && [sname isEqualToString:@"_refresh"] ) { state->refresh = [svalue intValue]; } return 0; } unsigned get_be16( void const* p ) { return (unsigned) ((unsigned char const*) p) [0] << 8 | (unsigned) ((unsigned char const*) p) [1]; } unsigned get_le32( void const* p ) { return (unsigned) ((unsigned char const*) p) [3] << 24 | (unsigned) ((unsigned char const*) p) [2] << 16 | (unsigned) ((unsigned char const*) p) [1] << 8 | (unsigned) ((unsigned char const*) p) [0]; } unsigned get_be32( void const* p ) { return (unsigned) ((unsigned char const*) p) [0] << 24 | (unsigned) ((unsigned char const*) p) [1] << 16 | (unsigned) ((unsigned char const*) p) [2] << 8 | (unsigned) ((unsigned char const*) p) [3]; } void set_le32( void* p, unsigned n ) { ((unsigned char*) p) [0] = (unsigned char) n; ((unsigned char*) p) [1] = (unsigned char) (n >> 8); ((unsigned char*) p) [2] = (unsigned char) (n >> 16); ((unsigned char*) p) [3] = (unsigned char) (n >> 24); } int psf1_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { struct psf1_load_state * state = ( struct psf1_load_state * ) context; psxexe_hdr_t *psx = (psxexe_hdr_t *) exe; if ( exe_size < 0x800 ) return -1; if ( exe_size > UINT_MAX ) return -1; uint32_t addr = get_le32( &psx->exec.t_addr ); uint32_t size = (uint32_t)exe_size - 0x800; addr &= 0x1fffff; if ( ( addr < 0x10000 ) || ( size > 0x1f0000 ) || ( addr + size > 0x200000 ) ) return -1; void * pIOP = psx_get_iop_state( state->emu ); iop_upload_to_ram( pIOP, addr, exe + 0x800, size ); if ( !state->refresh ) { if (!strncasecmp((const char *) exe + 113, "Japan", 5)) state->refresh = 60; else if (!strncasecmp((const char *) exe + 113, "Europe", 6)) state->refresh = 50; else if (!strncasecmp((const char *) exe + 113, "North America", 13)) state->refresh = 60; } if ( state->first ) { void * pR3000 = iop_get_r3000_state( pIOP ); r3000_setreg(pR3000, R3000_REG_PC, get_le32( &psx->exec.pc0 ) ); r3000_setreg(pR3000, R3000_REG_GEN+29, get_le32( &psx->exec.s_ptr ) ); state->first = false; } return 0; } static int EMU_CALL virtual_readfile(void *context, const char *path, int offset, char *buffer, int length) { return psf2fs_virtual_readfile(context, path, offset, buffer, length); } struct sdsf_loader_state { uint8_t * data; size_t data_size; }; int sdsf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { if ( exe_size < 4 ) return -1; struct sdsf_loader_state * state = ( struct sdsf_loader_state * ) context; uint8_t * dst = state->data; if ( state->data_size < 4 ) { state->data = dst = ( uint8_t * ) malloc( exe_size ); state->data_size = exe_size; memcpy( dst, exe, exe_size ); return 0; } uint32_t dst_start = get_le32( dst ); uint32_t src_start = get_le32( exe ); dst_start &= 0x7fffff; src_start &= 0x7fffff; size_t dst_len = state->data_size - 4; size_t src_len = exe_size - 4; if ( dst_len > 0x800000 ) dst_len = 0x800000; if ( src_len > 0x800000 ) src_len = 0x800000; if ( src_start < dst_start ) { uint32_t diff = dst_start - src_start; state->data_size = dst_len + 4 + diff; state->data = dst = ( uint8_t * ) realloc( dst, state->data_size ); memmove( dst + 4 + diff, dst + 4, dst_len ); memset( dst + 4, 0, diff ); dst_len += diff; dst_start = src_start; set_le32( dst, dst_start ); } if ( ( src_start + src_len ) > ( dst_start + dst_len ) ) { size_t diff = ( src_start + src_len ) - ( dst_start + dst_len ); state->data_size = dst_len + 4 + diff; state->data = dst = ( uint8_t * ) realloc( dst, state->data_size ); memset( dst + 4 + dst_len, 0, diff ); } memcpy( dst + 4 + ( src_start - dst_start ), exe + 4, src_len ); return 0; } struct qsf_loader_state { uint8_t * key; uint32_t key_size; uint8_t * z80_rom; uint32_t z80_size; uint8_t * sample_rom; uint32_t sample_size; }; static int upload_qsf_section( struct qsf_loader_state * state, const char * section, uint32_t start, const uint8_t * data, uint32_t size ) { uint8_t ** array = NULL; uint32_t * array_size = NULL; uint32_t max_size = 0x7fffffff; if ( !strcmp( section, "KEY" ) ) { array = &state->key; array_size = &state->key_size; max_size = 11; } else if ( !strcmp( section, "Z80" ) ) { array = &state->z80_rom; array_size = &state->z80_size; } else if ( !strcmp( section, "SMP" ) ) { array = &state->sample_rom; array_size = &state->sample_size; } else return -1; if ( ( start + size ) < start ) return -1; uint32_t new_size = start + size; uint32_t old_size = *array_size; if ( new_size > max_size ) return -1; if ( new_size > old_size ) { *array = ( uint8_t * ) realloc( *array, new_size ); *array_size = new_size; memset( (*array) + old_size, 0, new_size - old_size ); } memcpy( (*array) + start, data, size ); return 0; } static int qsf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { struct qsf_loader_state * state = ( struct qsf_loader_state * ) context; for (;;) { char s[4]; if ( exe_size < 11 ) break; memcpy( s, exe, 3 ); exe += 3; exe_size -= 3; s [3] = 0; uint32_t dataofs = get_le32( exe ); exe += 4; exe_size -= 4; uint32_t datasize = get_le32( exe ); exe += 4; exe_size -= 4; if ( datasize > exe_size ) return -1; if ( upload_qsf_section( state, s, dataofs, exe, datasize ) < 0 ) return -1; exe += datasize; exe_size -= datasize; } return 0; } struct gsf_loader_state { int entry_set; uint32_t entry; uint8_t * data; size_t data_size; }; static int gsf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { if ( exe_size < 12 ) return -1; struct gsf_loader_state * state = ( struct gsf_loader_state * ) context; unsigned char *iptr; size_t isize; unsigned char *xptr; unsigned xentry = get_le32(exe + 0); unsigned xsize = get_le32(exe + 8); unsigned xofs = get_le32(exe + 4) & 0x1ffffff; if ( xsize < exe_size - 12 ) return -1; if (!state->entry_set) { state->entry = xentry; state->entry_set = 1; } { iptr = state->data; isize = state->data_size; state->data = 0; state->data_size = 0; } if (!iptr) { size_t rsize = xofs + xsize; { rsize -= 1; rsize |= rsize >> 1; rsize |= rsize >> 2; rsize |= rsize >> 4; rsize |= rsize >> 8; rsize |= rsize >> 16; rsize += 1; } iptr = (unsigned char *) malloc(rsize + 10); if (!iptr) return -1; memset(iptr, 0, rsize + 10); isize = rsize; } else if (isize < xofs + xsize) { size_t rsize = xofs + xsize; { rsize -= 1; rsize |= rsize >> 1; rsize |= rsize >> 2; rsize |= rsize >> 4; rsize |= rsize >> 8; rsize |= rsize >> 16; rsize += 1; } xptr = (unsigned char *) realloc(iptr, xofs + rsize + 10); if (!xptr) { free(iptr); return -1; } iptr = xptr; isize = rsize; } memcpy(iptr + xofs, exe + 12, xsize); { state->data = iptr; state->data_size = isize; } return 0; } struct gsf_running_state { struct mAVStream stream; void * rom; int16_t samples[2048 * 2]; int buffered; }; static void _gsf_postAudioBuffer(struct mAVStream * stream, blip_t * left, blip_t * right) { struct gsf_running_state * state = ( struct gsf_running_state * ) stream; blip_read_samples(left, state->samples, 2048, true); blip_read_samples(right, state->samples + 1, 2048, true); state->buffered = 2048; } void GSFLogger(struct mLogger* logger, int category, enum mLogLevel level, const char* format, va_list args) { (void)logger; (void)category; (void)level; (void)format; (void)args; } static struct mLogger gsf_logger = { .log = GSFLogger, }; struct ncsf_loader_state { uint32_t sseq; std::vector sdatData; std::unique_ptr sdat; std::vector outputBuffer; ncsf_loader_state() : sseq( 0 ) { } }; static int ncsf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { struct ncsf_loader_state * state = ( struct ncsf_loader_state * ) context; if ( reserved_size >= 4 ) { state->sseq = get_le32( reserved ); } if ( exe_size >= 12 ) { uint32_t sdat_size = get_le32( exe + 8 ); if ( sdat_size > exe_size ) return -1; if ( state->sdatData.empty() ) state->sdatData.resize( sdat_size, 0 ); else if ( state->sdatData.size() < sdat_size ) state->sdatData.resize( sdat_size ); memcpy( &state->sdatData[0], exe, sdat_size ); } return 0; } struct twosf_loader_state { uint8_t * rom; uint8_t * state; size_t rom_size; size_t state_size; int initial_frames; int sync_type; int clockdown; int arm9_clockdown_level; int arm7_clockdown_level; }; static int load_twosf_map(struct twosf_loader_state *state, int issave, const unsigned char *udata, unsigned usize) { if (usize < 8) return -1; unsigned char *iptr; size_t isize; unsigned char *xptr; unsigned xsize = get_le32(udata + 4); unsigned xofs = get_le32(udata + 0); if (issave) { iptr = state->state; isize = state->state_size; state->state = 0; state->state_size = 0; } else { iptr = state->rom; isize = state->rom_size; state->rom = 0; state->rom_size = 0; } if (!iptr) { size_t rsize = xofs + xsize; if (!issave) { rsize -= 1; rsize |= rsize >> 1; rsize |= rsize >> 2; rsize |= rsize >> 4; rsize |= rsize >> 8; rsize |= rsize >> 16; rsize += 1; } iptr = (unsigned char *) malloc(rsize + 10); if (!iptr) return -1; memset(iptr, 0, rsize + 10); isize = rsize; } else if (isize < xofs + xsize) { size_t rsize = xofs + xsize; if (!issave) { rsize -= 1; rsize |= rsize >> 1; rsize |= rsize >> 2; rsize |= rsize >> 4; rsize |= rsize >> 8; rsize |= rsize >> 16; rsize += 1; } xptr = (unsigned char *) realloc(iptr, xofs + rsize + 10); if (!xptr) { free(iptr); return -1; } iptr = xptr; isize = rsize; } memcpy(iptr + xofs, udata + 8, xsize); if (issave) { state->state = iptr; state->state_size = isize; } else { state->rom = iptr; state->rom_size = isize; } return 0; } static int load_twosf_mapz(struct twosf_loader_state *state, int issave, const unsigned char *zdata, unsigned zsize, unsigned zcrc) { int ret; int zerr; uLongf usize = 8; uLongf rsize = usize; unsigned char *udata; unsigned char *rdata; udata = (unsigned char *) malloc(usize); if (!udata) return -1; while (Z_OK != (zerr = uncompress(udata, &usize, zdata, zsize))) { if (Z_MEM_ERROR != zerr && Z_BUF_ERROR != zerr) { free(udata); return -1; } if (usize >= 8) { usize = get_le32(udata + 4) + 8; if (usize < rsize) { rsize += rsize; usize = rsize; } else rsize = usize; } else { rsize += rsize; usize = rsize; } rdata = (unsigned char *) realloc(udata, usize); if (!rdata) { free(udata); return -1; } udata = rdata; } rdata = (unsigned char *) realloc(udata, usize); if (!rdata) { free(udata); return -1; } { uLong ccrc = crc32(crc32(0L, Z_NULL, 0), rdata, (uInt) usize); if (ccrc != zcrc) return -1; } ret = load_twosf_map(state, issave, rdata, (unsigned) usize); free(rdata); return ret; } static int twosf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { struct twosf_loader_state * state = ( struct twosf_loader_state * ) context; if ( exe_size >= 8 ) { if ( load_twosf_map(state, 0, exe, (unsigned) exe_size) ) return -1; } if ( reserved_size ) { size_t resv_pos = 0; if ( reserved_size < 16 ) return -1; while ( resv_pos + 12 < reserved_size ) { unsigned save_size = get_le32(reserved + resv_pos + 4); unsigned save_crc = get_le32(reserved + resv_pos + 8); if (get_le32(reserved + resv_pos + 0) == 0x45564153) { if (resv_pos + 12 + save_size > reserved_size) return -1; if (load_twosf_mapz(state, 1, reserved + resv_pos + 12, save_size, save_crc)) return -1; } resv_pos += 12 + save_size; } } return 0; } static int twosf_info(void * context, const char * name, const char * value) { struct twosf_loader_state * state = ( struct twosf_loader_state * ) context; NSString * sname = [[NSString stringWithUTF8String:name] lowercaseString]; NSString * svalue = [NSString stringWithUTF8String:value]; if ( [sname isEqualToString:@"_frames"] ) { state->initial_frames = [svalue intValue]; } else if ( [sname isEqualToString:@"_clockdown"] ) { state->clockdown = [svalue intValue]; } else if ( [sname isEqualToString:@"_vio2sf_sync_type"] ) { state->sync_type = [svalue intValue]; } else if ( [sname isEqualToString:@"_vio2sf_arm9_clockdown_level"] ) { state->arm9_clockdown_level = [svalue intValue]; } else if ( [sname isEqualToString:@"_vio2sf_arm7_clockdown_level"] ) { state->arm7_clockdown_level = [svalue intValue]; } return 0; } struct usf_loader_state { uint32_t enablecompare; uint32_t enablefifofull; void * emu_state; }; static int usf_loader(void * context, const uint8_t * exe, size_t exe_size, const uint8_t * reserved, size_t reserved_size) { struct usf_loader_state * uUsf = ( struct usf_loader_state * ) context; if ( exe && exe_size > 0 ) return -1; return usf_upload_section( uUsf->emu_state, reserved, reserved_size ); } static int usf_info(void * context, const char * name, const char * value) { struct usf_loader_state * uUsf = ( struct usf_loader_state * ) context; NSString * sname = [[NSString stringWithUTF8String:name] lowercaseString]; NSString * svalue = [NSString stringWithUTF8String:value]; if ( [sname isEqualToString:@"_enablecompare"] && [svalue length] ) uUsf->enablecompare = 1; else if ( [sname isEqualToString:@"_enablefifofull"] && [svalue length] ) uUsf->enablefifofull = 1; return 0; } - (BOOL)initializeDecoder { unsigned int silence_seconds = 5; usfRemoveSilence = NO; if ( type == 1 ) { emulatorCore = ( uint8_t * ) malloc( psx_get_state_size( 1 ) ); psx_clear_state( emulatorCore, 1 ); struct psf1_load_state state; state.emu = emulatorCore; state.first = true; state.refresh = 0; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 1, psf1_loader, &state, psf1_info, &state, 1 ) <= 0 ) return NO; if ( state.refresh ) psx_set_refresh( emulatorCore, state.refresh ); silence_seconds = 30; } else if ( type == 2 ) { emulatorExtra = psf2fs_create(); struct psf1_load_state state; state.refresh = 0; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 2, psf2fs_load_callback, emulatorExtra, psf1_info, &state, 1 ) <= 0 ) return NO; emulatorCore = ( uint8_t * ) malloc( psx_get_state_size( 2 ) ); psx_clear_state( emulatorCore, 2 ); if ( state.refresh ) psx_set_refresh( emulatorCore, state.refresh ); psx_set_readfile( emulatorCore, virtual_readfile, emulatorExtra ); silence_seconds = 30; } else if ( type == 0x11 || type == 0x12 ) { struct sdsf_loader_state state; memset( &state, 0, sizeof(state) ); if ( psf_load( [currentUrl UTF8String], &source_callbacks, type, sdsf_loader, &state, 0, 0, 0 ) <= 0 ) return NO; emulatorCore = ( uint8_t * ) malloc( sega_get_state_size( type - 0x10 ) ); sega_clear_state( emulatorCore, type - 0x10 ); sega_enable_dry( emulatorCore, 1 ); sega_enable_dsp( emulatorCore, 1 ); sega_enable_dsp_dynarec( emulatorCore, 0 ); uint32_t start = *(uint32_t*) state.data; size_t length = state.data_size; const size_t max_length = ( type == 0x12 ) ? 0x800000 : 0x80000; if ( ( start + ( length - 4 ) ) > max_length ) { length = max_length - start + 4; } sega_upload_program( emulatorCore, state.data, (uint32_t)length ); free( state.data ); } else if ( type == 0x21 ) { struct usf_loader_state state; memset( &state, 0, sizeof(state) ); state.emu_state = malloc( usf_get_state_size() ); if ( !state.emu_state ) return NO; usf_clear( state.emu_state ); usf_set_hle_audio( state.emu_state, 1 ); emulatorCore = ( uint8_t * ) state.emu_state; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 0x21, usf_loader, &state, usf_info, &state, 1 ) <= 0 ) return NO; usf_set_compare( state.emu_state, state.enablecompare ); usf_set_fifo_full( state.emu_state, state.enablefifofull ); usfRemoveSilence = YES; silence_seconds = 10; } else if ( type == 0x22 ) { struct gsf_loader_state state; memset( &state, 0, sizeof(state) ); if ( psf_load( [currentUrl UTF8String], &source_callbacks, 0x22, gsf_loader, &state, 0, 0, 0 ) <= 0 ) return NO; if ( state.data_size > UINT_MAX ) return NO; /*FILE * f = fopen("/tmp/rom.gba", "wb"); fwrite(state.data, 1, state.data_size, f); fclose(f);*/ struct VFile * rom = VFileFromConstMemory(state.data, state.data_size); if ( !rom ) { free(state.data); return NO; } struct mCore * core = mCoreFindVF(rom); if ( !core ) { free(state.data); return NO; } struct gsf_running_state * rstate = (struct gsf_running_state *) calloc(1, sizeof(*rstate)); if ( !rstate ) { core->deinit(core); free(state.data); return NO; } rstate->rom = state.data; rstate->stream.postAudioBuffer = _gsf_postAudioBuffer; core->init(core); core->setAVStream(core, &rstate->stream); mCoreInitConfig(core, NULL); core->setAudioBufferSize(core, 2048); blip_set_rates(core->getAudioChannel(core, 0), core->frequency(core), 44100); blip_set_rates(core->getAudioChannel(core, 1), core->frequency(core), 44100); struct mCoreOptions opts = { .useBios = false, .skipBios = true, .volume = 0x100, .sampleRate = 44100, }; mCoreConfigLoadDefaults(&core->config, &opts); core->loadROM(core, rom); core->reset(core); emulatorCore = ( uint8_t * ) core; emulatorExtra = rstate; } else if ( type == 0x24 ) { struct twosf_loader_state state; memset( &state, 0, sizeof(state) ); state.initial_frames = -1; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 0x24, twosf_loader, &state, twosf_info, &state, 1 ) <= 0 ) { if (state.rom) free(state.rom); if (state.state) free(state.state); return NO; } if ( state.rom_size > UINT_MAX || state.state_size > UINT_MAX ) { if (state.rom) free(state.rom); if (state.state) free(state.state); return NO; } NDS_state * core = ( NDS_state * ) calloc(1, sizeof(NDS_state)); if (!core) { if (state.rom) free(state.rom); if (state.state) free(state.state); return NO; } if ( state_init(core) ) { state_deinit(core); if (state.rom) free(state.rom); if (state.state) free(state.state); return NO; } int resampling_int = -1; NSString * resampling = [[NSUserDefaults standardUserDefaults] stringForKey:@"resampling"]; if ([resampling isEqualToString:@"zoh"]) resampling_int = 0; else if ([resampling isEqualToString:@"blep"]) resampling_int = 1; else if ([resampling isEqualToString:@"linear"]) resampling_int = 2; else if ([resampling isEqualToString:@"blam"]) resampling_int = 3; else if ([resampling isEqualToString:@"cubic"]) resampling_int = 4; else if ([resampling isEqualToString:@"sinc"]) resampling_int = 5; core->dwInterpolation = resampling_int; core->dwChannelMute = 0; if (!state.arm7_clockdown_level) state.arm7_clockdown_level = state.clockdown; if (!state.arm9_clockdown_level) state.arm9_clockdown_level = state.clockdown; core->initial_frames = state.initial_frames; core->sync_type = state.sync_type; core->arm7_clockdown_level = state.arm7_clockdown_level; core->arm9_clockdown_level = state.arm9_clockdown_level; emulatorCore = ( uint8_t * ) core; emulatorExtra = state.rom; if ( state.rom ) state_setrom(core, state.rom, (u32) state.rom_size, 0 ); state_loadstate(core, state.state, (u32) state.state_size); if (state.state) free(state.state); } else if ( type == 0x25 ) { struct ncsf_loader_state * state = new struct ncsf_loader_state; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 0x25, ncsf_loader, state, 0, 0, 0 ) <= 0 ) { delete state; return NO; } Player * player = new Player; player->interpolation = INTERPOLATION_SINC; PseudoFile file; file.data = &state->sdatData; state->sdat.reset(new SDAT(file, state->sseq)); auto * sseqToPlay = state->sdat->sseq.get(); player->sampleRate = 44100; player->Setup( sseqToPlay ); player->Timer(); state->outputBuffer.resize( 1024 * sizeof(int16_t) * 2 ); emulatorCore = ( uint8_t * ) player; emulatorExtra = state; } else if ( type == 0x41 ) { struct qsf_loader_state * state = ( struct qsf_loader_state * ) calloc( 1, sizeof( *state ) ); emulatorExtra = state; if ( psf_load( [currentUrl UTF8String], &source_callbacks, 0x41, qsf_loader, state, 0, 0, 0 ) <= 0 ) return NO; emulatorCore = ( uint8_t * ) malloc( qsound_get_state_size() ); qsound_clear_state( emulatorCore ); if(state->key_size == 11) { uint8_t * ptr = state->key; uint32_t swap_key1 = get_be32( ptr + 0 ); uint32_t swap_key2 = get_be32( ptr + 4 ); uint32_t addr_key = get_be16( ptr + 8 ); uint8_t xor_key = *( ptr + 10 ); qsound_set_kabuki_key( emulatorCore, swap_key1, swap_key2, addr_key, xor_key ); } else { qsound_set_kabuki_key( emulatorCore, 0, 0, 0, 0 ); } qsound_set_z80_rom( emulatorCore, state->z80_rom, state->z80_size ); qsound_set_sample_rom( emulatorCore, state->sample_rom, state->sample_size ); } else return NO; framesRead = 0; silence_test_buffer.resize( sampleRate * silence_seconds * 2 ); if (![self fillBuffer]) return NO; silence_test_buffer.remove_leading_silence(); return YES; } - (BOOL)open:(id)source { if (![source seekable]) { return NO; } currentSource = source; struct psf_info_meta_state info; info.info = [NSMutableDictionary dictionary]; info.utf8 = false; info.tag_length_ms = 0; info.tag_fade_ms = 0; info.albumGain = 0; info.albumPeak = 0; info.trackGain = 0; info.trackPeak = 0; info.volume = 1; currentUrl = [[[source url] absoluteString] stringByReplacingPercentEscapesUsingEncoding:NSUTF8StringEncoding]; [[psf_file_container instance] add_hint:currentUrl source:currentSource]; hintAdded = YES; type = psf_load( [currentUrl UTF8String], &source_callbacks, 0, 0, 0, psf_info_meta, &info, 0 ); if (type <= 0) return NO; emulatorCore = nil; emulatorExtra = nil; sampleRate = 44100; if ( type == 2 ) sampleRate = 48000; else if ( type == 0x41 ) sampleRate = 24038; tagLengthMs = info.tag_length_ms; tagFadeMs = info.tag_fade_ms; if (!tagLengthMs) { tagLengthMs = ( 2 * 60 + 30 ) * 1000; tagFadeMs = 8000; } replayGainAlbumGain = info.albumGain; replayGainAlbumPeak = info.albumPeak; replayGainTrackGain = info.trackGain; replayGainTrackPeak = info.trackPeak; volume = info.volume; metadataList = info.info; framesLength = [self retrieveFrameCount:tagLengthMs]; totalFrames = [self retrieveFrameCount:tagLengthMs + tagFadeMs]; [self willChangeValueForKey:@"properties"]; [self didChangeValueForKey:@"properties"]; return YES; } - (BOOL)fillBuffer { long frames_left = totalFrames - framesRead - silence_test_buffer.data_available() / 2; long free_space = silence_test_buffer.free_space() / 2; if ( IsRepeatOneSet() ) frames_left = free_space; if ( free_space > frames_left ) free_space = frames_left; while ( free_space > 0 ) { unsigned long samples_to_write = 0; int16_t * buf = silence_test_buffer.get_write_ptr( samples_to_write ); int samples_read = [self readAudioInternal:buf frames:(UInt32)samples_to_write / 2]; if ( !samples_read ) break; silence_test_buffer.samples_written( samples_read * 2 ); free_space -= samples_read; } return !silence_test_buffer.test_silence(); } - (int)readAudioInternal:(void *)buf frames:(UInt32)frames { if ( type == 1 || type == 2 ) { uint32_t howmany = frames; psx_execute( emulatorCore, 0x7fffffff, ( int16_t * ) buf, &howmany, 0 ); frames = howmany; } else if ( type == 0x11 || type == 0x12 ) { uint32_t howmany = frames; sega_execute( emulatorCore, 0x7fffffff, ( int16_t * ) buf, &howmany ); frames = howmany; } else if ( type == 0x21 ) { const char * err; if ( (err = usf_render_resampled( emulatorCore, (int16_t*) buf, frames, sampleRate )) != 0 ) { fprintf(stderr, "%s\n", err); return 0; } } else if ( type == 0x22 ) { struct mCore * core = ( struct mCore * ) emulatorCore; struct gsf_running_state * rstate = ( struct gsf_running_state * ) emulatorExtra; unsigned long frames_to_render = frames; do { unsigned long frames_rendered = rstate->buffered; if ( frames_rendered >= frames_to_render ) { memcpy( buf, rstate->samples, frames_to_render * 4 ); frames_rendered -= frames_to_render; memcpy( rstate->samples, rstate->samples + frames_to_render * 2, frames_rendered * 4 ); frames_to_render = 0; } else { memcpy( buf, rstate->samples, frames_rendered * 4 ); buf = ((uint8_t *) buf) + frames_rendered * 4; frames_to_render -= frames_rendered; frames_rendered = 0; } rstate->buffered = (int) frames_rendered; if ( frames_to_render ) { while ( !rstate->buffered ) core->runFrame(core); } } while ( frames_to_render ); } else if ( type == 0x24 ) { NDS_state * state = ( NDS_state * ) emulatorCore; state_render(state, (s16*) buf, frames); } else if ( type == 0x25 ) { Player * player = ( Player * ) emulatorCore; ncsf_loader_state * state = ( ncsf_loader_state * ) emulatorExtra; std::vector & buffer = state->outputBuffer; unsigned long frames_to_do = frames; while ( frames_to_do ) { unsigned frames_this_run = 1024; if ( frames_this_run > frames_to_do ) frames_this_run = (unsigned int) frames_to_do; player->GenerateSamples(buffer, 0, frames_this_run); memcpy( buf, &buffer[0], frames_this_run * sizeof(int16_t) * 2 ); buf = ((uint8_t *)buf) + frames_this_run * sizeof(int16_t) * 2; frames_to_do -= frames_this_run; } } else if ( type == 0x41 ) { uint32_t howmany = frames; qsound_execute( emulatorCore, 0x7fffffff, ( int16_t * ) buf, &howmany); frames = howmany; } return frames; } - (int)readAudio:(void *)buf frames:(UInt32)frames { if ( !emulatorCore ) { if (![self initializeDecoder]) return 0; } else if ( ![self fillBuffer] ) return 0; if ( usfRemoveSilence ) { silence_test_buffer.remove_leading_silence(); usfRemoveSilence = NO; } unsigned long written = silence_test_buffer.data_available() / 2; if ( written > frames ) written = frames; if ( !IsRepeatOneSet() && written > totalFrames - framesRead ) written = totalFrames - framesRead; if ( written == 0 ) return 0; silence_test_buffer.read( (int16_t *) buf, written * 2 ); if ( !IsRepeatOneSet() && framesRead + written > framesLength ) { long fadeStart = (framesLength > framesRead) ? framesLength : framesRead; long fadeEnd = framesRead + written; long fadeTotal = totalFrames - framesLength; long fadePos; int16_t * buf16 = ( int16_t * ) buf; for (fadePos = fadeStart; fadePos < fadeEnd; ++fadePos) { long scale = totalFrames - fadePos; buf16[ 0 ] = buf16[ 0 ] * scale / fadeTotal; buf16[ 1 ] = buf16[ 1 ] * scale / fadeTotal; buf16 += 2; } } framesRead += written; return (int) written; } - (void)closeDecoder { if ( emulatorCore ) { if ( type == 0x21 ) { usf_shutdown( emulatorCore ); free( emulatorCore ); } else if ( type == 0x22 ) { struct mCore * core = ( struct mCore * ) emulatorCore; core->deinit(core); } else if ( type == 0x24 ) { NDS_state * state = ( NDS_state * ) emulatorCore; state_deinit(state); free(state); } else if ( type == 0x25 ) { Player * player = ( Player * ) emulatorCore; delete player; } else { free( emulatorCore ); } emulatorCore = nil; } if ( type == 2 && emulatorExtra ) { psf2fs_delete( emulatorExtra ); emulatorExtra = nil; } else if ( type == 0x22 && emulatorExtra ) { struct gsf_running_state * rstate = ( struct gsf_running_state * ) emulatorExtra; free( rstate->rom ); free( rstate ); emulatorExtra = nil; } else if ( type == 0x24 && emulatorExtra ) { free( emulatorExtra ); emulatorExtra = nil; } else if ( type == 0x25 && emulatorExtra ) { struct ncsf_loader_state * state = ( struct ncsf_loader_state * ) emulatorExtra; delete state; emulatorExtra = nil; } else if ( type == 0x41 && emulatorExtra ) { struct qsf_loader_state * state = ( struct qsf_loader_state * ) emulatorExtra; free( state->key ); free( state->z80_rom ); free( state->sample_rom ); free( state ); emulatorExtra = nil; } } - (void)close { [self closeDecoder]; currentSource = nil; if (hintAdded) { [[psf_file_container instance] remove_hint:currentUrl]; hintAdded = NO; } currentUrl = nil; } - (void)dealloc { [self close]; } - (long)seek:(long)frame { if (frame < framesRead || emulatorCore == NULL) { [self closeDecoder]; if (![self initializeDecoder]) return -1; if (usfRemoveSilence) { silence_test_buffer.remove_leading_silence(); usfRemoveSilence = NO; } } unsigned long buffered_samples = silence_test_buffer.data_available() / 2; if ( buffered_samples >= ( frame - framesRead ) ) { frame -= framesRead; silence_test_buffer.read( NULL, frame * 2 ); framesRead += frame; return framesRead; } else if ( buffered_samples ) { silence_test_buffer.read( NULL, buffered_samples * 2 ); framesRead += buffered_samples; } if ( type == 1 || type == 2 ) { do { uint32_t howmany = (uint32_t)(frame - framesRead); if ( psx_execute( emulatorCore, 0x7fffffff, 0, &howmany, 0 ) < 0 ) break; framesRead += howmany; } while (framesRead < frame); } else if ( type == 0x11 || type == 0x12 ) { do { uint32_t howmany = (uint32_t)(frame - framesRead); if ( sega_execute( emulatorCore, 0x7fffffff, 0, &howmany ) < 0 ) break; framesRead += howmany; } while (framesRead < frame); } else if ( type == 0x21 ) { do { ssize_t howmany = frame - framesRead; if (howmany > 1024) howmany = 1024; if ( usf_render_resampled(emulatorCore, NULL, howmany, sampleRate) != 0 ) return -1; framesRead += howmany; } while (framesRead < frame); } else if ( type == 0x22 ) { struct mCore * core = ( struct mCore * ) emulatorCore; struct gsf_running_state * rstate = ( struct gsf_running_state * ) emulatorExtra; long frames_to_run = frame - framesRead; do { if ( frames_to_run >= rstate->buffered ) { frames_to_run -= rstate->buffered; rstate->buffered = 0; } else { rstate->buffered -= frames_to_run; memcpy( rstate->samples, rstate->samples + frames_to_run * 4, rstate->buffered * 4 ); frames_to_run = 0; } if ( frames_to_run ) { while ( !rstate->buffered ) core->runFrame( core ); } } while ( frames_to_run ); framesRead = frame; } else if ( type == 0x24 ) { NDS_state * state = ( NDS_state * ) emulatorCore; s16 temp[2048]; long frames_to_run = frame - framesRead; while ( frames_to_run ) { unsigned frames_this_run = 1024; if ( frames_this_run > frames_to_run ) frames_this_run = (unsigned) frames_to_run; state_render(state, temp, frames_this_run); frames_to_run -= frames_this_run; } framesRead = frame; } else if ( type == 0x25 ) { Player * player = ( Player * ) emulatorCore; ncsf_loader_state * state = ( ncsf_loader_state * ) emulatorExtra; std::vector & buffer = state->outputBuffer; long frames_to_run = frame - framesRead; while ( frames_to_run ) { int frames_to_render = 1024; if ( frames_to_render > frames_to_run ) frames_to_render = (int)frames_to_run; player->GenerateSamples(buffer, 0, frames_to_render); frames_to_run -= frames_to_render; } framesRead = frame; } else if ( type == 0x41 ) { do { uint32_t howmany = (uint32_t)(frame - framesRead); if ( qsound_execute( emulatorCore, 0x7fffffff, 0, &howmany ) < 0 ) break; framesRead += howmany; } while ( framesRead < frame ); } return framesRead; } - (NSDictionary *)properties { return [NSDictionary dictionaryWithObjectsAndKeys: [NSNumber numberWithInt:2], @"channels", [NSNumber numberWithInt:16], @"bitsPerSample", [NSNumber numberWithFloat:sampleRate], @"sampleRate", [NSNumber numberWithInteger:totalFrames], @"totalFrames", [NSNumber numberWithInt:0], @"bitrate", [NSNumber numberWithBool:YES], @"seekable", [NSNumber numberWithFloat:replayGainAlbumGain], @"replayGainAlbumGain", [NSNumber numberWithFloat:replayGainAlbumPeak], @"replayGainAlbumPeak", [NSNumber numberWithFloat:replayGainTrackGain], @"replayGainTrackGain", [NSNumber numberWithFloat:replayGainTrackPeak], @"replayGainTrackPeak", [NSNumber numberWithFloat:volume], @"volume", @"host", @"endian", nil]; } + (NSDictionary *)metadataForURL:(NSURL *)url { struct psf_info_meta_state info; info.info = [NSMutableDictionary dictionary]; info.utf8 = false; info.tag_length_ms = 0; info.tag_fade_ms = 0; NSString * decodedUrl = [[url absoluteString] stringByReplacingPercentEscapesUsingEncoding:NSUTF8StringEncoding]; psf_load( [decodedUrl UTF8String], &source_callbacks, 0, 0, 0, psf_info_meta, &info, 0 ); return info.info; } + (NSArray *)fileTypes { return [NSArray arrayWithObjects:@"psf",@"minipsf",@"psf2", @"minipsf2", @"ssf", @"minissf", @"dsf", @"minidsf", @"qsf", @"miniqsf", @"gsf", @"minigsf", @"ncsf", @"minincsf", @"2sf", @"mini2sf", @"usf", @"miniusf", nil]; } + (NSArray *)mimeTypes { return [NSArray arrayWithObjects:@"audio/x-psf", nil]; } + (float)priority { return 1.0; } @end