// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/ #include "nsf_emu.h" #include "blargg_endian.h" #include /* Copyright (C) 2005-2006 Shay Green. This module is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This module is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this module; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "blargg_source.h" void Info_init( struct Nsfe_Info* this ) { this->playlist_disabled = false; } void Info_unload( struct Nsfe_Info* this ) { memset(this->playlist, 0, 256); memset(this->track_times, 0, 256 * sizeof(int32_t)); this->playlist_size = 0; this->track_times_size = 0; } // TODO: if no playlist, treat as if there is a playlist that is just 1,2,3,4,5... ? void Info_disable_playlist( struct Nsfe_Info* this, bool b ) { this->playlist_disabled = b; this->track_count = this->playlist_size; if ( !this->track_count || this->playlist_disabled ) this->track_count = this->actual_track_count_; } int Info_remap_track( struct Nsfe_Info* this, int track ) { if ( !this->playlist_disabled && (unsigned) track < (unsigned) this->playlist_size ) track = this->playlist [track]; return track; } const char eof_error [] = "Unexpected end of file"; // Read n bytes from memory buffer static blargg_err_t in_read( void* dst, long bytes, void* data, long* offset, long size ) { if ((*offset + bytes) > size) return eof_error; memcpy(dst, (char*) data + *offset, bytes); *offset += bytes; return 0; } static blargg_err_t in_skip( long bytes, long *offset, long size ) { if ((*offset + bytes) > size) return eof_error; *offset += bytes; return 0; } // Skip n bytes from memory buffer // Read multiple strings and separate into individual strings static int read_strs( void* data, long bytes, long* offset, long size, const char* strs [4] ) { char* chars = (char*) data + *offset; chars [bytes - 1] = 0; // in case last string doesn't have terminator if ( in_skip( bytes, offset, size) ) return -1; int count = 0, i; for ( i = 0; i < bytes; i++ ) { strs [count] = &chars [i]; while ( i < bytes && chars [i] ) i++; count++; if (count >= 4) break; } return count; } struct nsfe_info_t { byte load_addr [2]; byte init_addr [2]; byte play_addr [2]; byte speed_flags; byte chip_flags; byte track_count; byte first_track; byte unused [6]; }; blargg_err_t Info_load( struct Nsfe_Info* this, void* data, long size, struct Nsf_Emu* nsf_emu ) { long offset = 0; int const nsfe_info_size = 16; assert( offsetof (struct nsfe_info_t,unused [6]) == nsfe_info_size ); // check header byte signature [4]; blargg_err_t err = in_read( signature, sizeof signature, data, &offset, size ); if ( err ) return (err == eof_error ? gme_wrong_file_type : err); if ( memcmp( signature, "NSFE", 4 ) ) { } // free previous info /* TODO: clear track_names */ memset(this->playlist, 0, 256); memset(this->track_times, 0, 256 * sizeof(int32_t)); this->playlist_size = 0; this->track_times_size = 0; // default nsf header static const struct header_t base_header = { {'N','E','S','M','\x1A'},// tag 1, // version 1, 1, // track count, first track {0,0},{0,0},{0,0}, // addresses "","","", // strings {0x1A, 0x41}, // NTSC rate {0,0,0,0,0,0,0,0}, // banks {0x20, 0x4E}, // PAL rate 0, 0, // flags {0,0,0,0} // unused }; memcpy( &nsf_emu->header, &base_header, sizeof base_header ); // parse tags int phase = 0; while ( phase != 3 ) { // read size and tag byte block_header [2] [4]; RETURN_ERR( in_read( block_header, sizeof block_header, data, &offset, size ) ); int chunk_size = get_le32( block_header [0] ); int tag = get_le32( block_header [1] ); switch ( tag ) { case BLARGG_4CHAR('O','F','N','I'): { check( phase == 0 ); if ( chunk_size < 8 ) return "Corrupt file"; struct nsfe_info_t finfo; finfo.track_count = 1; finfo.first_track = 0; RETURN_ERR( in_read( &finfo, min( chunk_size, nsfe_info_size ), (char*) data, &offset, size ) ); if ( chunk_size > nsfe_info_size ) RETURN_ERR( in_skip( chunk_size - nsfe_info_size, &offset, size ) ); phase = 1; nsf_emu->header.speed_flags = finfo.speed_flags; nsf_emu->header.chip_flags = finfo.chip_flags; nsf_emu->header.track_count = finfo.track_count; this->actual_track_count_ = finfo.track_count; nsf_emu->header.first_track = finfo.first_track; memcpy( nsf_emu->header.load_addr, finfo.load_addr, 2 * 3 ); break; } case BLARGG_4CHAR('K','N','A','B'): if ( chunk_size > (int) sizeof nsf_emu->header.banks ) return "Corrupt file"; RETURN_ERR( in_read( nsf_emu->header.banks, chunk_size, data, &offset, size ) ); break; case BLARGG_4CHAR('h','t','u','a'): { const char* strs [4]; int n = read_strs( data, chunk_size, &offset, size, strs ); if ( n < 0 ) return eof_error; break; } case BLARGG_4CHAR('e','m','i','t'): this->track_times_size = chunk_size / 4; RETURN_ERR( in_read( this->track_times, this->track_times_size * 4, data, &offset, size ) ); break; case BLARGG_4CHAR('l','b','l','t'): RETURN_ERR( in_skip( chunk_size, &offset, size ) ); break; case BLARGG_4CHAR('t','s','l','p'): this->playlist_size = chunk_size; RETURN_ERR( in_read( &this->playlist [0], chunk_size, data, &offset, size ) ); break; case BLARGG_4CHAR('A','T','A','D'): { check( phase == 1 ); phase = 2; if ( !nsf_emu ) { RETURN_ERR( in_skip( chunk_size, &offset, size ) ); } else { // Avoid unexpected end of file if ( (offset + chunk_size) > size ) return eof_error; RETURN_ERR( Rom_load( &nsf_emu->rom, (char*) data + offset, chunk_size, 0, 0, 0 ) ); RETURN_ERR( Nsf_post_load( nsf_emu ) ); offset += chunk_size; } break; } case BLARGG_4CHAR('D','N','E','N'): check( phase == 2 ); phase = 3; break; default: // tags that can be skipped start with a lowercase character check( islower( (tag >> 24) & 0xFF ) ); RETURN_ERR( in_skip( chunk_size, &offset, size ) ); break; } } return 0; } int Track_length( struct Nsf_Emu* this, int n ) { int length = 0; if ( (this->m3u.size > 0) && (n < this->m3u.size) ) { struct entry_t* entry = &this->m3u.entries [n]; length = entry->length; } else if ( (this->info.playlist_size > 0) && (n < this->info.playlist_size) ) { int remapped = Info_remap_track( &this->info, n ); if ( (unsigned) remapped < (unsigned) this->info.track_times_size ) length = (int32_t) get_le32( &this->info.track_times [remapped] ); } else if( (unsigned) n < (unsigned) this->info.track_times_size ) length = (int32_t) get_le32( &this->info.track_times [n] ); /* Length will be 2,30 minutes for one track songs, and 1,45 minutes for multitrack songs */ if ( length <= 0 ) length = (this->track_count > 1 ? 105 : 150) * 1000; return length; }