/* #include #include #if defined(__WIN__) #include #else #include "port.h" #endif #include "cd_sys.h" #include "cd_file.h" #include "lc89510.h" #include "cdda_mp3.h" #include "star_68k.h" #include "rom.h" #include "mem_s68k.h" */ #include #include "cd_file.h" #include "../PicoInt.h" #define cdprintf printf //#define cdprintf(x...) struct _file_track Tracks[100]; char Track_Played; int FILE_Init(void) { // MP3_Init(); // TODO Unload_ISO(); return 0; } void FILE_End(void) { Unload_ISO(); } int Load_ISO(const char *iso_name, int is_bin) { struct stat file_stat; int i, j, num_track, Cur_LBA, index, ret; _scd_track *SCD_TOC_Tracks = Pico_mcd->scd.TOC.Tracks; FILE *tmp_file; char tmp_name[1024], tmp_ext[10]; static char *exts[] = { "%02d.mp3", " %02d.mp3", "-%02d.mp3", "_%02d.mp3", " - %02d.mp3", "%d.mp3", " %d.mp3", "-%d.mp3", "_%d.mp3", " - %d.mp3", /* "%02d.wav", " %02d.wav", "-%02d.wav", "_%02d.wav", " - %02d.wav", "%d.wav", " %d.wav", "-%d.wav", "_%d.wav", " - %2d.wav" */ }; Unload_ISO(); Tracks[0].Type = is_bin ? TYPE_BIN : TYPE_ISO; ret = stat(iso_name, &file_stat); if (ret != 0) return -1; Tracks[0].Lenght = file_stat.st_size; if (Tracks[0].Type == TYPE_ISO) Tracks[0].Lenght >>= 11; // size in sectors else Tracks[0].Lenght /= 2352; // size in sectors Tracks[0].F = fopen(iso_name, "rb"); if (Tracks[0].F == NULL) { Tracks[0].Type = 0; Tracks[0].Lenght = 0; return -1; } if (Tracks[0].Type == TYPE_ISO) fseek(Tracks[0].F, 0x100, SEEK_SET); else fseek(Tracks[0].F, 0x110, SEEK_SET); // fread(buf, 1, 0x200, Tracks[0].F); fseek(Tracks[0].F, 0, SEEK_SET); Pico_mcd->scd.TOC.First_Track = 1; SCD_TOC_Tracks[0].Num = 1; SCD_TOC_Tracks[0].Type = 1; // DATA SCD_TOC_Tracks[0].MSF.M = 0; SCD_TOC_Tracks[0].MSF.S = 2; SCD_TOC_Tracks[0].MSF.F = 0; cdprintf("\nTrack 0 - %02d:%02d:%02d %s\n", SCD_TOC_Tracks[0].MSF.M, SCD_TOC_Tracks[0].MSF.S, SCD_TOC_Tracks[0].MSF.F, SCD_TOC_Tracks[0].Type ? "DATA" : "AUDIO"); Cur_LBA = Tracks[0].Lenght; // Size in sectors strcpy(tmp_name, iso_name); for(num_track = 2, i = 0; i < 100; i++) { if (sizeof(exts)/sizeof(char *) != 10) { printf("eee"); exit(1); } for(j = 0; j < sizeof(exts)/sizeof(char *); j++) { tmp_name[strlen(iso_name) - 4] = 0; sprintf(tmp_ext, exts[j], i); strcat(tmp_name, tmp_ext); tmp_file = fopen(tmp_name, "rb"); if (tmp_file) { float fs; index = num_track - Pico_mcd->scd.TOC.First_Track; stat(tmp_name, &file_stat); fs = (float) file_stat.st_size; // used to calculate lenght Tracks[index].F = tmp_file; SCD_TOC_Tracks[index].Num = num_track; SCD_TOC_Tracks[index].Type = 0; // AUDIO LBA_to_MSF(Cur_LBA, &(SCD_TOC_Tracks[index].MSF)); cdprintf("\nTrack %i - %02d:%02d:%02d %s\n", index, SCD_TOC_Tracks[index].MSF.M, SCD_TOC_Tracks[index].MSF.S, SCD_TOC_Tracks[index].MSF.F, SCD_TOC_Tracks[index].Type ? "DATA" : "AUDIO"); // MP3 File Tracks[index].Type = TYPE_MP3; fs /= (128>>3); // (float) (MP3_Get_Bitrate(Tracks[num_track - 1].F) >> 3); fs *= 75; Tracks[index].Lenght = (int) fs; Cur_LBA += Tracks[index].Lenght; num_track++; break; } } } Pico_mcd->scd.TOC.Last_Track = num_track - 1; index = num_track - Pico_mcd->scd.TOC.First_Track; SCD_TOC_Tracks[index].Num = num_track; SCD_TOC_Tracks[index].Type = 0; LBA_to_MSF(Cur_LBA, &(SCD_TOC_Tracks[index].MSF)); cdprintf("End CD - %02d:%02d:%02d\n\n", SCD_TOC_Tracks[index].MSF.M, SCD_TOC_Tracks[index].MSF.S, SCD_TOC_Tracks[index].MSF.F); return 0; } void Unload_ISO(void) { int i; Track_Played = 99; for(i = 0; i < 100; i++) { if (Tracks[i].F) fclose(Tracks[i].F); Tracks[i].F = NULL; Tracks[i].Lenght = 0; Tracks[i].Type = 0; } } int FILE_Read_One_LBA_CDC(void) { int where_read; static char cp_buf[2560]; if (Pico_mcd->s68k_regs[0x36] & 1) // DATA { if (Tracks[0].F == NULL) return -1; if (Pico_mcd->scd.Cur_LBA < 0) where_read = 0; else if (Pico_mcd->scd.Cur_LBA >= Tracks[0].Lenght) where_read = Tracks[0].Lenght - 1; else where_read = Pico_mcd->scd.Cur_LBA; if (Tracks[0].Type == TYPE_ISO) where_read <<= 11; else where_read = (where_read * 2352 + 16); fseek(Tracks[0].F, where_read, SEEK_SET); fread(cp_buf, 1, 2048, Tracks[0].F); cdprintf("\n\nRead file CDC 1 data sector :\n"); } else // AUDIO { // int rate, channel; if (Tracks[Pico_mcd->scd.Cur_Track - Pico_mcd->scd.TOC.First_Track].Type == TYPE_MP3) { // TODO // MP3_Update(cp_buf, &rate, &channel, 0); // Write_CD_Audio((short *) cp_buf, rate, channel, 588); } cdprintf("\n\nRead file CDC 1 audio sector :\n"); } // Update CDC stuff CDC_Update_Header(); if (Pico_mcd->s68k_regs[0x36] & 1) // DATA track { if (Pico_mcd->cdc.CTRL.B.B0 & 0x80) // DECEN = decoding enable { if (Pico_mcd->cdc.CTRL.B.B0 & 0x04) // WRRQ : this bit enable write to buffer { // CAUTION : lookahead bit not implemented Pico_mcd->scd.Cur_LBA++; Pico_mcd->cdc.WA.N = (Pico_mcd->cdc.WA.N + 2352) & 0x7FFF; // add one sector to WA Pico_mcd->cdc.PT.N = (Pico_mcd->cdc.PT.N + 2352) & 0x7FFF; memcpy(&Pico_mcd->cdc.Buffer[Pico_mcd->cdc.PT.N + 4], cp_buf, 2048); memcpy(&Pico_mcd->cdc.Buffer[Pico_mcd->cdc.PT.N], &Pico_mcd->cdc.HEAD, 4); #ifdef DEBUG_CD cdprintf("\nRead -> WA = %d Buffer[%d] =\n", Pico_mcd->cdc.WA.N, Pico_mcd->cdc.PT.N & 0x3FFF); cdprintf("Header 1 = %.2X %.2X %.2X %.2X\n", Pico_mcd->cdc.HEAD.B.B0, Pico_mcd->cdc.HEAD.B.B1, Pico_mcd->cdc.HEAD.B.B2, Pico_mcd->cdc.HEAD.B.B3); cdprintf("Header 2 = %.2X %.2X %.2X %.2X --- %.2X %.2X\n\n", Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 0) & 0x3FFF], Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 1) & 0x3FFF], Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 2) & 0x3FFF], Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 3) & 0x3FFF], Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 4) & 0x3FFF], Pico_mcd->cdc.Buffer[(Pico_mcd->cdc.PT.N + 5) & 0x3FFF]); #endif } } } else // music track { Pico_mcd->scd.Cur_LBA++; Pico_mcd->cdc.WA.N = (Pico_mcd->cdc.WA.N + 2352) & 0x7FFF; // add one sector to WA Pico_mcd->cdc.PT.N = (Pico_mcd->cdc.PT.N + 2352) & 0x7FFF; if (Pico_mcd->cdc.CTRL.B.B0 & 0x80) // DECEN = decoding enable { if (Pico_mcd->cdc.CTRL.B.B0 & 0x04) // WRRQ : this bit enable write to buffer { // CAUTION : lookahead bit not implemented memcpy(&Pico_mcd->cdc.Buffer[Pico_mcd->cdc.PT.N], cp_buf, 2352); } } } if (Pico_mcd->cdc.CTRL.B.B0 & 0x80) // DECEN = decoding enable { Pico_mcd->cdc.STAT.B.B0 = 0x80; if (Pico_mcd->cdc.CTRL.B.B0 & 0x10) // determine form bit form sub header ? { Pico_mcd->cdc.STAT.B.B2 = Pico_mcd->cdc.CTRL.B.B1 & 0x08; } else { Pico_mcd->cdc.STAT.B.B2 = Pico_mcd->cdc.CTRL.B.B1 & 0x0C; } if (Pico_mcd->cdc.CTRL.B.B0 & 0x02) Pico_mcd->cdc.STAT.B.B3 = 0x20; // ECC done else Pico_mcd->cdc.STAT.B.B3 = 0x00; // ECC not done if (Pico_mcd->cdc.IFCTRL & 0x20) { if (Pico_mcd->s68k_regs[0x33] & (1<<5)) { dprintf("cdc dec irq 5"); SekInterruptS68k(5); } Pico_mcd->cdc.IFSTAT &= ~0x20; // DEC interrupt happen CDC_Decode_Reg_Read = 0; // Reset read after DEC int } } return 0; } int FILE_Play_CD_LBA(void) { int index = Pico_mcd->scd.Cur_Track - Pico_mcd->scd.TOC.First_Track; cdprintf("Play FILE Comp\n"); if (Tracks[index].F == NULL) { return 1; } if (Tracks[index].Type == TYPE_MP3) { int Track_LBA_Pos = Pico_mcd->scd.Cur_LBA - Track_to_LBA(Pico_mcd->scd.Cur_Track); if (Track_LBA_Pos < 0) Track_LBA_Pos = 0; // MP3_Play(index, Track_LBA_Pos); // TODO } else { return 3; } return 0; }