ref: c8e9a82190fcb8687e3e48c1268f4b888e536f57
dir: /tools/stadium.c/
#define PROGRAM_NAME "stadium" #define USAGE_OPTS "[-h|--help] [-e|--european] pokecrystal.gbc" #include "common.h" void parse_args(int argc, char *argv[], bool *european) { struct option long_options[] = { {"european", no_argument, 0, 'e'}, {"help", no_argument, 0, 'h'}, {0} }; for (int opt; (opt = getopt_long(argc, argv, "eh", long_options)) != -1;) { switch (opt) { case 'e': *european = true; break; case 'h': usage_exit(0); break; default: usage_exit(1); } } } // A matching ROM has 128 banks #define NUM_BANKS 128 // ROM banks are 0x4000 bytes #define BANK_SIZE 0x4000 // A matching ROM is 2 MB #define ROM_SIZE (NUM_BANKS * BANK_SIZE) // The Game Boy cartridge header stores a global checksum at 0x014E-0x014F #define GLOBAL_OFF 0x014E // ASCII "base" header + 2-byte version (Crystal only) uint8_t base10[6] = {'b', 'a', 's', 'e', 1, 0}; // "base" header + version + 2-byte CRC #define BASE_HEADER_SIZE (COUNTOF(base10) + 2) // bit flags per bank indicating if it matches the base ROM's bank #define BASE_DATA_SIZE (NUM_BANKS / 8) // "base" header + version + CRC + bank bit flags #define BASE_TOTAL_SIZE (BASE_HEADER_SIZE + BASE_DATA_SIZE) // The base data is stored before the Stadium data #define BASE_OFF (N64PS3_OFF - BASE_TOTAL_SIZE) // ASCII "N64PS3" header (Stadium G/S was the third Japanese Stadium release for N64) uint8_t n64ps3[6] = {'N', '6', '4', 'P', 'S', '3'}; // "N64PS3" header + 2-byte CRC #define N64PS3_HEADER_SIZE (COUNTOF(n64ps3) + 2) // 2-byte checksums per half-bank #define N64PS3_DATA_SIZE (NUM_BANKS * 2 * 2) // "N64PS3" header + CRC + half-bank checksums #define N64PS3_TOTAL_SIZE (N64PS3_HEADER_SIZE + N64PS3_DATA_SIZE) // The Stadium data is stored at the end of the ROM #define N64PS3_OFF (ROM_SIZE - N64PS3_TOTAL_SIZE) // The CRC polynomial value #define CRC_POLY 0xC387 // The CRC initial value (also used for checksums) #define CRC_INIT 0xFEFE // The CRC initial value for Crystal base data #define CRC_INIT_BASE 0xACDE // The CRC lookup table uint16_t crc_table[256]; #define SET_U16BE(file, v) do { \ (file)[0] = (uint8_t)(((v) & 0xFF00) >> 8); \ (file)[1] = (uint8_t)(((v) & 0x00FF) >> 0); \ } while (0) // CRCs of every bank in the base ROM, crystal_base0.bin uint16_t base0_crcs[NUM_BANKS] = { 0x9650, 0x8039, 0x2D8F, 0xD75A, 0xAC50, 0x5D55, 0xE94B, 0x9886, 0x2A46, 0xB5AC, 0xC3D3, 0x79C4, 0xCE55, 0xA95E, 0xEF78, 0x9B50, 0x82BA, 0x8716, 0x5895, 0xAD33, 0x4EF0, 0xE434, 0xC521, 0xBFB1, 0xB352, 0xA497, 0xCA84, 0xD3F5, 0x3C79, 0xB61A, 0xAE1B, 0xF314, 0x00B3, 0x7C0A, 0x1018, 0x7F6B, 0x1CFF, 0x15AF, 0x4078, 0xE473, 0x081C, 0x4B9D, 0x2FFC, 0xD9D0, 0x2CBA, 0xCD8C, 0x004C, 0x773C, 0xF040, 0x3585, 0xF924, 0x6FD5, 0xC5E4, 0xD918, 0x1228, 0x1C86, 0x21C0, 0x77F3, 0x6206, 0x0110, 0x152F, 0x0F74, 0xCEDF, 0xBBFE, 0xE382, 0x5C15, 0xFD4D, 0x954C, 0xD2D9, 0xCA2F, 0x14B1, 0x9D2F, 0x172C, 0xEA0C, 0x4EAD, 0x604B, 0x0659, 0xF4C5, 0x4168, 0xD151, 0x58C7, 0x99BF, 0x77D3, 0xCDEC, 0x61B5, 0x1A48, 0xD614, 0x7FB0, 0x91D5, 0x812A, 0x812A, 0x82B2, 0xDCE2, 0x9067, 0x6DB3, 0x3DC7, 0xDCB8, 0xA1CE, 0x9C21, 0x4A23, 0xB50F, 0x63E6, 0xE78A, 0x9238, 0x644D, 0x1BD6, 0xB5B6, 0x1AB9, 0x9D07, 0xC849, 0x6992, 0x10CA, 0x4453, 0xA3A1, 0x5A18, 0xAFE0, 0x7F2B, 0xFC38, 0xFC38, 0xBA98, 0x5AEB, 0xFC38, 0xFC38, 0xFC38, 0xFC38, 0xEFAD, 0x6D83, 0xFC38 }; // CRCs of every bank in the European base ROM, crystal_base1.bin uint16_t base1_crcs[NUM_BANKS] = { 0x5416, 0xFD37, 0xC4A4, 0xBC37, 0x9458, 0xB489, 0xE94B, 0x9906, 0x2A46, 0xDEA9, 0x17F4, 0xF447, 0xCE55, 0xD843, 0xC5B2, 0xAE13, 0x4E91, 0x3984, 0xD984, 0xD02F, 0x77B8, 0x4D8D, 0x1F8C, 0x7185, 0xBA34, 0xA497, 0xE813, 0xFF97, 0x245E, 0xB61A, 0xCEF0, 0x8BF4, 0xA786, 0x4CE5, 0xA9B8, 0x1988, 0xEF53, 0x2A24, 0x4588, 0x6084, 0x2609, 0x4B9D, 0x8C33, 0xD9D0, 0x2CBA, 0xCD8C, 0xDA4F, 0xE020, 0xF040, 0x3585, 0x2B21, 0xAEEA, 0xC5E4, 0xD918, 0x1228, 0x1C86, 0x78B3, 0xF4B1, 0x7577, 0x0110, 0x152F, 0x0F74, 0xCCDD, 0x3444, 0x58A8, 0x1FB0, 0xDACE, 0x954C, 0xD2D9, 0xF7CB, 0xEE99, 0xA5F0, 0x172C, 0xEA0C, 0x4EAD, 0x604B, 0x0659, 0xF4C5, 0x4168, 0xD151, 0x58C7, 0x99BF, 0x77D3, 0xCDEC, 0x61B5, 0x1A48, 0xD614, 0x7FB0, 0x91D5, 0x812A, 0x812A, 0x82B2, 0x5C2C, 0x91E6, 0x79C5, 0xF2BF, 0xDCB8, 0xA1CE, 0x9C21, 0x579B, 0x4B59, 0x21F5, 0xB2B6, 0x58AD, 0xC91D, 0xB96F, 0x4DCE, 0xBA03, 0x9D07, 0x7A7E, 0xC77E, 0xB8AA, 0xF7E4, 0xA7A4, 0x22E8, 0xAFE0, 0xE0C8, 0xFC38, 0xFC38, 0x2277, 0x5AEB, 0xFC38, 0xFC38, 0x4314, 0x25B0, 0xCE7B, 0x12FA, 0xDD05 }; uint16_t calculate_checksum(uint16_t checksum, uint8_t *file, size_t size) { for (size_t i = 0; i < size; i++) { checksum += file[i]; } return checksum; } uint16_t calculate_crc(uint16_t crc, uint8_t *file, size_t size) { for (size_t i = 0; i < size; i++) { crc = (crc >> 8) ^ crc_table[(crc & 0xFF) ^ file[i]]; } return crc; } void calculate_checksums(uint8_t *file, bool european) { // Initialize the CRC table for (uint16_t i = 0; i < COUNTOF(crc_table); i++) { uint16_t rem = 0; for (uint16_t y = 0, c = i; y < 8; y++, c >>= 1) { rem = (rem >> 1) ^ ((rem ^ c) & 1 ? CRC_POLY : 0); } crc_table[i] = rem; } // Clear the global checksum SET_U16BE(file + GLOBAL_OFF, 0); // Initialize the base data (this should be free space anyway) memset(file + BASE_OFF, 0, BASE_TOTAL_SIZE); memcpy(file + BASE_OFF, base10, COUNTOF(base10)); // Use the appropriate base CRCs uint16_t *base_crcs = base0_crcs; if (european) { base_crcs = base1_crcs; file[BASE_OFF + COUNTOF(base10) - 1] = 1; } // Calculate the base data bits using bank CRCs // Bits indicate if the bank CRC matches the base one for (size_t i = 0; i < BASE_DATA_SIZE; i++) { uint8_t bits = 0; for (size_t j = 0; j < 8; j++) { size_t bank = i * 8 + j; uint16_t crc = calculate_crc(CRC_INIT, file + bank * BANK_SIZE, BANK_SIZE); bits |= (crc == base_crcs[bank]) << j; } file[BASE_OFF + BASE_HEADER_SIZE + i] = bits; } // Calculate the CRC of the base data uint16_t crc = calculate_crc(CRC_INIT_BASE, file + BASE_OFF, BASE_TOTAL_SIZE); SET_U16BE(file + BASE_OFF + BASE_HEADER_SIZE - 2, crc); // Initialize the Stadium data (this should be free space anyway) memset(file + N64PS3_OFF, 0, N64PS3_TOTAL_SIZE); memcpy(file + N64PS3_OFF, n64ps3, COUNTOF(n64ps3)); // Calculate the half-bank checksums for (size_t i = 0; i < NUM_BANKS * 2; i++) { uint16_t checksum = calculate_checksum(CRC_INIT, file + i * BANK_SIZE / 2, BANK_SIZE / 2); SET_U16BE(file + N64PS3_OFF + N64PS3_HEADER_SIZE + i * 2, checksum); } // Calculate the CRC of the half-bank checksums crc = calculate_crc(CRC_INIT, file + N64PS3_OFF + N64PS3_HEADER_SIZE, N64PS3_DATA_SIZE); SET_U16BE(file + N64PS3_OFF + N64PS3_HEADER_SIZE - 2, crc); // Calculate the global checksum uint16_t globalsum = calculate_checksum(0, file, ROM_SIZE); SET_U16BE(file + GLOBAL_OFF, globalsum); } int main(int argc, char *argv[]) { bool european = false; parse_args(argc, argv, &european); argc -= optind; argv += optind; if (argc < 1) { usage_exit(1); } char *filename = argv[0]; long filesize; uint8_t *file = read_u8(filename, &filesize); if (filesize == ROM_SIZE) { calculate_checksums(file, european); } write_u8(filename, file, filesize); return 0; }