FreeCalypso > hg > freecalypso-reveng
view miscprog/imeibrute.c @ 392:35009c936a4a
compal/melody-extr: first attempt at actual melody extraction
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 01 Apr 2022 06:03:47 +0000 |
parents | 597143ba1c37 |
children |
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/* * The IMEI "protection" implemented by TI for Calypso (as opposed to Calypso+ * or LoCosto) platforms for those device manufs who desired to obfuscate their * IMEIs (not everyone did - Openmoko opted out, for example), as seen in * g23m/condat/com/src/comlib/cl_imei.c in the Leonardo semi-src by Sotovik, * encrypts the IMEI using plain DES, using a key derived from the Calypso die * ID. However, only 28 effective key bits are used, and the key is then also * encrypted with itself and stored right after the encrypted IMEI, and is used * by the decryption & verification routine. Per TI's source, the 16-byte * encrypted IMEI record is to be stored in FFS in /gsm/imei.enc; the DP-L10 * phone by Pirelli/Foxconn has been found to use the same scheme, but store * the 16-byte record in question in their "factory block" instead, at absolute * address 0x027F0504 as seen by the ARM7 CPU. * * The encryption scheme seems so weak to me (28 effective key bits and an easy * hit detection criterion for a brute force cracker) that I decided to see, * just for fun, how long it would take to crack that encryption by brute force * alone, and using a totally non-optimized program to do that. */ #include <sys/types.h> #include <openssl/des.h> #include <stdio.h> #include <stdlib.h> DES_cblock ciphertext[2], dieid_key, decrypted[2]; DES_key_schedule keysched; read_ciphertext(filename, offset_arg) char *filename, *offset_arg; { FILE *f; u_long offset_val; f = fopen(filename, "r"); if (!f) { perror(filename); exit(1); } if (offset_arg) { offset_val = strtoul(offset_arg, 0, 16); fseek(f, offset_val, 0); } fread(ciphertext, 8, 2, f); fclose(f); } print_des_cblock(msg, blk) char *msg; DES_cblock blk; { printf("%s: %02X %02X %02X %02X %02X %02X %02X %02X\n", msg, blk[0], blk[1], blk[2], blk[3], blk[4], blk[5], blk[6], blk[7]); } try() { DES_set_key_unchecked(&dieid_key, &keysched); DES_ecb_encrypt(&ciphertext[1], &decrypted[1], &keysched, DES_DECRYPT); if (decrypted[1][0] & 0xFE != dieid_key[0]) return; if (decrypted[1][1]) return; if (decrypted[1][2] & 0xFE != dieid_key[2]) return; if (decrypted[1][3]) return; if (decrypted[1][4] & 0xFE != dieid_key[4]) return; if (decrypted[1][5]) return; if (decrypted[1][6] & 0xFE != dieid_key[6]) return; if (decrypted[1][7]) return; print_des_cblock("Hit", &decrypted[1]); DES_ecb_encrypt(&ciphertext[0], &decrypted[0], &keysched, DES_DECRYPT); print_des_cblock("IMEI", &decrypted[0]); } main(argc, argv) char **argv; { if (argc < 2 || argc > 3) { fprintf(stderr, "usage: %s binfile [offset]\n", argv[0]); exit(1); } read_ciphertext(argv[1], argv[2]); dieid_key[1] = 0; dieid_key[3] = 0; dieid_key[5] = 0; dieid_key[7] = 0; for (dieid_key[0] = 0; dieid_key[0] <= 0xFE; dieid_key[0] += 2) for (dieid_key[2] = 0; dieid_key[2] <= 0xFE; dieid_key[2] += 2) for (dieid_key[4] = 0; dieid_key[4] <= 0xFE; dieid_key[4] += 2) for (dieid_key[6] = 0; dieid_key[6] <= 0xFE; dieid_key[6] += 2) try(); exit(0); }