#include #include #include #include #include "Patch.h" #ifdef __GNUC__ #if defined(__APPLE__) || defined (BSD) || defined (__NetBSD__) typedef off_t __off64_t; /* off_t is 64 bits on BSD. */ #define fseeko64 fseeko #define ftello64 ftello #else typedef off64_t __off64_t; #endif /* __APPLE__ || BSD */ #endif /* __GNUC__ */ #ifndef _MSC_VER #define _stricmp strcasecmp #endif // ! _MSC_VER #ifdef _MSC_VER #define fseeko64 _fseeki64 #define ftello64 _ftelli64 typedef __int64 __off64_t; #endif static int readInt2(FILE *f) { int res = 0; int c = fgetc(f); if(c == EOF) return -1; res = c; c = fgetc(f); if(c == EOF) return -1; return c + (res<<8); } static int readInt3(FILE *f) { int res = 0; int c = fgetc(f); if(c == EOF) return -1; res = c; c = fgetc(f); if(c == EOF) return -1; res = c + (res<<8); c = fgetc(f); if(c == EOF) return -1; return c + (res<<8); } static s64 readInt4(FILE *f) { s64 tmp, res = 0; int c; for (int i = 0; i < 4; i++) { c = fgetc(f); if (c == EOF) return -1; tmp = c; res = res + (tmp << (i*8)); } return res; } static s64 readInt8(FILE *f) { s64 tmp, res = 0; int c; for (int i = 0; i < 8; i++) { c = fgetc(f); if (c == EOF) return -1; tmp = c; res = res + (tmp << (i*8)); } return res; } static s64 readVarPtr(FILE *f) { s64 offset = 0, shift = 1; for (;;) { int c = fgetc(f); if (c == EOF) return 0; offset += (c & 0x7F) * shift; if (c & 0x80) break; shift <<= 7; offset += shift; } return offset; } #ifndef MIN #define MIN(a,b) (((a)<(b))?(a):(b)) #endif static uLong computePatchCRC(FILE *f, unsigned int size) { /*Bytef buf[4096]; long readed; uLong crc = crc32(0L, Z_NULL, 0); do { readed = fread(buf, 1, MIN(size, sizeof(buf)), f); crc = crc32(crc, buf, readed); size -= readed; } while (readed > 0); return crc;*/ return 0; } static bool patchApplyIPS(const char *patchname, u8 **r, int *s) { // from the IPS spec at http://zerosoft.zophar.net/ips.htm FILE *f = fopen(patchname, "rb"); if(!f) return false; bool result = false; u8 *rom = *r; int size = *s; if(fgetc(f) == 'P' && fgetc(f) == 'A' && fgetc(f) == 'T' && fgetc(f) == 'C' && fgetc(f) == 'H') { int b; int offset; int len; result = true; for(;;) { // read offset offset = readInt3(f); // if offset == EOF, end of patch if(offset == 0x454f46 || offset == -1) break; // read length len = readInt2(f); if(!len) { // len == 0, RLE block len = readInt2(f); // byte to fill int c = fgetc(f); if(c == -1) break; b = (u8)c; } else b= -1; // check if we need to reallocate our ROM if((offset + len) >= size) { size *= 2; rom = (u8 *)realloc(rom, size); *r = rom; *s = size; } if(b == -1) { // normal block, just read the data if(fread(&rom[offset], 1, len, f) != (size_t)len) break; } else { // fill the region with the given byte while(len--) { rom[offset++] = b; } } } } // close the file fclose(f); return result; } static bool patchApplyUPS(const char *patchname, u8 **rom, int *size) { /*s64 srcCRC, dstCRC, patchCRC; FILE *f = fopen(patchname, "rb"); if (!f) return false; fseeko64(f, 0, SEEK_END); __off64_t patchSize = ftello64(f); if (patchSize < 20) { fclose(f); return false; } fseeko64(f, 0, SEEK_SET); if(fgetc(f) != 'U' || fgetc(f) != 'P' || fgetc(f) != 'S' || fgetc(f) != '1') { fclose(f); return false; } fseeko64(f, -12, SEEK_END); srcCRC = readInt4(f); dstCRC = readInt4(f); patchCRC = readInt4(f); if (srcCRC == -1 || dstCRC == -1 || patchCRC == -1) { fclose(f); return false; } fseeko64(f, 0, SEEK_SET); u32 crc = computePatchCRC(f, patchSize-4); if (crc != patchCRC) { fclose(f); return false; } crc = crc32(0L, Z_NULL, 0); crc = crc32(crc, *rom, *size); fseeko64(f, 4, SEEK_SET); s64 dataSize; s64 srcSize = readVarPtr(f); s64 dstSize = readVarPtr(f); if (crc == srcCRC) { if (srcSize != *size) { fclose(f); return false; } dataSize = dstSize; } else if (crc == dstCRC) { if (dstSize != *size) { fclose(f); return false; } dataSize = srcSize; } else { fclose(f); return false; } if (dataSize > *size) { *rom = (u8*)realloc(*rom, dataSize); memset(*rom + *size, 0, dataSize - *size); *size = dataSize; } s64 relative = 0; u8 *mem; while(ftello64(f) < patchSize - 12) { relative += readVarPtr(f); if (relative > dataSize) continue; mem = *rom + relative; for(s64 i = relative; i < dataSize; i++) { int x = fgetc(f); relative++; if (!x) break; if (i < dataSize) { *mem++ ^= x; } } } fclose(f); return true;*/ return false; } static int ppfVersion(FILE *f) { fseeko64(f, 0, SEEK_SET); if (fgetc(f) != 'P' || fgetc(f) != 'P' || fgetc(f) != 'F') return 0; switch(fgetc(f)){ case '1': return 1; case '2': return 2; case '3': return 3; default: return 0; } } static int ppfFileIdLen(FILE *f, int version) { if (version == 2) { fseeko64(f, -8, SEEK_END); } else { fseeko64(f, -6, SEEK_END); } if (fgetc(f) != '.' || fgetc(f) != 'D' || fgetc(f) != 'I' || fgetc(f) != 'Z') return 0; return (version == 2) ? readInt4(f) : readInt2(f); } static bool patchApplyPPF1(FILE *f, u8 **rom, int *size) { fseek(f, 0, SEEK_END); int count = ftell(f); if (count < 56) return false; count -= 56; fseek(f, 56, SEEK_SET); u8 *mem = *rom; while (count > 0) { int offset = readInt4(f); if (offset == -1) break; int len = fgetc(f); if (len == EOF) break; if (offset+len > *size) break; if (fread(&mem[offset], 1, len, f) != (size_t)len) break; count -= 4 + 1 + len; } return (count == 0); } static bool patchApplyPPF2(FILE *f, u8 **rom, int *size) { fseek(f, 0, SEEK_END); int count = ftell(f); if (count < 56+4+1024) return false; count -= 56+4+1024; fseek(f, 56, SEEK_SET); int datalen = readInt4(f); if (datalen != *size) return false; u8 *mem = *rom; u8 block[1024]; fread(&block, 1, 1024, f); if (memcmp(&mem[0x9320], &block, 1024) != 0) return false; int idlen = ppfFileIdLen(f, 2); if (idlen > 0) count -= 16 + 16 + idlen; fseek(f, 56+4+1024, SEEK_SET); while (count > 0) { int offset = readInt4(f); if (offset == -1) break; int len = fgetc(f); if (len == EOF) break; if (offset+len > *size) break; if (fread(&mem[offset], 1, len, f) != (size_t)len) break; count -= 4 + 1 + len; } return (count == 0); } static bool patchApplyPPF3(FILE *f, u8 **rom, int *size) { fseek(f, 0, SEEK_END); int count = ftell(f); if (count < 56+4+1024) return false; count -= 56+4; fseek(f, 56, SEEK_SET); int imagetype = fgetc(f); int blockcheck = fgetc(f); int undo = fgetc(f); fgetc(f); u8 *mem = *rom; if (blockcheck) { u8 block[1024]; fread(&block, 1, 1024, f); if (memcmp(&mem[(imagetype == 0) ? 0x9320 : 0x80A0], &block, 1024) != 0) return false; count -= 1024; } int idlen = ppfFileIdLen(f, 2); if (idlen > 0) count -= 16 + 16 + idlen; fseek(f, 56+4+(blockcheck ? 1024 : 0), SEEK_SET); while (count > 0) { __off64_t offset = readInt8(f); if (offset == -1) break; int len = fgetc(f); if (len == EOF) break; if (offset+len > *size) break; if (fread(&mem[offset], 1, len, f) != (size_t)len) break; if (undo) fseeko64(f, len, SEEK_CUR); count -= 8 + 1 + len; if (undo) count -= len; } return (count == 0); } static bool patchApplyPPF(const char *patchname, u8 **rom, int *size) { FILE *f = fopen(patchname, "rb"); if (!f) return false; bool res = false; int version = ppfVersion(f); switch (version) { case 1: res = patchApplyPPF1(f, rom, size); break; case 2: res = patchApplyPPF2(f, rom, size); break; case 3: res = patchApplyPPF3(f, rom, size); break; } fclose(f); return res; } bool applyPatch(const char *patchname, u8 **rom, int *size) { if (strlen(patchname) < 5) return false; const char * p = strrchr(patchname, '.'); if (p == NULL) return false; if (_stricmp(p, ".ips") == 0) return patchApplyIPS(patchname, rom, size); if (_stricmp(p, ".ups") == 0) return patchApplyUPS(patchname, rom, size); if (_stricmp(p, ".ppf") == 0) return patchApplyPPF(patchname, rom, size); return false; }