/* simple XXTEA en/decrypt utility * * BSD Licence * * btea function is from * * * (c) by Sec 6/2011 */ #include #include #include #include #include #include // default block size void btea(uint32_t *v, int n, uint32_t const k[4]); void hexkey(char *string, uint32_t k[4]); int main(int argc, char *argv[]) { FILE *fp; FILE *ofp; char *prog; char c; /* for getopt */ uint32_t k[4]; /* key */ uint32_t *buf; /* Default values */ char verbose=0; // be silent k[0]=0; k[1]=0; k[2]=0; k[3]=0; char block=16; char *outfile=NULL; // outfile == infile int decrypt=0; /* init section */ prog=argv[0]; if(!prog)prog="xxtea"; if(strrchr(prog,'/')){ prog=strrchr(argv[0],'/'); prog++; } /* The big getopt loop */ while ((c = getopt(argc, argv, "vhdk:b:o:")) != EOF) switch (c) { case 'v': verbose++; break; case 'd': decrypt=1; break; case 'k': hexkey(optarg, k); break; case 'b': block=atoi(optarg); break; case 'o': outfile=optarg; break; case 'h': default: fprintf(stderr, "Usage: %s [options] filename\n\n" "This program en/decrypts a file with the XXTEA algorithm\n" "\n\n" "-v Be verbose (-v -v = even more)\n" "-d Decrypt (instead of encrypt)\n" "-o file Output to . (Default: overwrite input file)\n" "-k key 128bit hex key.\n" "-b block Set blocksize. (Default: file size)\n" "-h This help\n\n" "\n",prog); exit(255); } argc -= optind; argv += optind; if (argc !=1){ fprintf(stderr,"Error: No filename given!\n"); exit(254); }; if(outfile){ if ((fp = fopen(argv[0],"rb")) == NULL){ fprintf(stderr,"Error: Can't open file %s\n",argv[0]); exit(253); } if ((ofp = fopen(outfile,"wb")) == NULL){ fprintf(stderr,"Error: Can't open file %s\n",argv[0]); exit(253); } }else{ if ((fp = fopen(argv[0],"r+b")) == NULL){ fprintf(stderr,"Error: Can't open file %s\n",argv[0]); exit(253); } ofp=fp; }; if(block==0){ fseek(fp, 0L, SEEK_END); block = ftell(fp)/sizeof(*buf); // XXX: padding! fseek(fp, 0L, SEEK_SET); }; buf=malloc(sizeof(*buf)*block); if(!buf){ fprintf(stderr,"Error: malloc() failed.\n"); }; if (verbose) fprintf(stderr,"Key: %08x %08x %08x %08x\n",k[0],k[1],k[2],k[3]); int cnt; if (verbose) fprintf(stderr,"Encrypting: "); do{ cnt=fread(buf,sizeof(*buf),block,fp); // XXX: deal with non-block-sized? if(cnt<0){ fprintf(stderr, "Error: read failed\n"); exit(253); }; if(verbose) fprintf(stderr,"cnt=%d:",cnt); /* if(cnt%sizeof(*buf)!=0){ fprintf(stderr,"Whoops. needs padding: cnt=%d, mod=%d\n",cnt,cnt%sizeof(*buf)); }; */ btea(buf, decrypt?-cnt:cnt, k); if(!outfile) // in-place crypting... if (fseek(fp,-cnt*sizeof(*buf),SEEK_CUR) != 0){ fprintf(stderr, "Error: Seek failed\n"); exit(253); } if (fwrite(buf,sizeof(*buf),cnt,ofp) != cnt){ fprintf(stderr, "Error: CRC write failed\n"); exit(253); } if(verbose) fprintf(stderr,".\n"); }while(cnt==block); if(verbose) fprintf(stderr,"done\n"); fclose(fp); if(outfile) fclose(ofp); return 0; } #define DELTA 0x9e3779b9 #define MX (((z>>5^y<<2) + (y>>3^z<<4)) ^ ((sum^y) + (k[(p&3)^e] ^ z))) void btea(uint32_t *v, int n, uint32_t const k[4]) { uint32_t y, z, sum; unsigned p, rounds, e; if (n > 1) { /* Coding Part */ rounds = 6 + 52/n; sum = 0; z = v[n-1]; do { sum += DELTA; e = (sum >> 2) & 3; for (p=0; p> 2) & 3; for (p=n-1; p>0; p--) { z = v[p-1]; y = v[p] -= MX; } z = v[n-1]; y = v[0] -= MX; } while ((sum -= DELTA) != 0); } } void hexkey(char *string, uint32_t k[4]){ int idx=0; int kidx=0; int kctr=0; int value; char ch; while ((ch=string[idx++])!=0){ if(ch == ' ') continue; if(ch == '\t') continue; if (ch >= '0' && ch <= '9') value = (ch - '0'); else if (ch >= 'A' && ch <= 'F') value = (ch - 'A' + 10); else if (ch >= 'a' && ch <= 'f') value = (ch - 'a' + 10); else continue; k[kidx]=(k[kidx]<<4)+value; kctr++; if(kctr>=8){ kctr=0; kidx++; if(kidx>4) return; }; }; }