X-Git-Url: http://cvs.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/35147d51e3961db75a852368fffa31006da90199..bb522918374599054615270d45b1baeaef6f3d66:/client/loclass/elite_crack.c?ds=sidebyside diff --git a/client/loclass/elite_crack.c b/client/loclass/elite_crack.c index 1a464b6c..ebe82297 100644 --- a/client/loclass/elite_crack.c +++ b/client/loclass/elite_crack.c @@ -1,3 +1,41 @@ +/***************************************************************************** + * WARNING + * + * THIS CODE IS CREATED FOR EXPERIMENTATION AND EDUCATIONAL USE ONLY. + * + * USAGE OF THIS CODE IN OTHER WAYS MAY INFRINGE UPON THE INTELLECTUAL + * PROPERTY OF OTHER PARTIES, SUCH AS INSIDE SECURE AND HID GLOBAL, + * AND MAY EXPOSE YOU TO AN INFRINGEMENT ACTION FROM THOSE PARTIES. + * + * THIS CODE SHOULD NEVER BE USED TO INFRINGE PATENTS OR INTELLECTUAL PROPERTY RIGHTS. + * + ***************************************************************************** + * + * This file is part of loclass. It is a reconstructon of the cipher engine + * used in iClass, and RFID techology. + * + * The implementation is based on the work performed by + * Flavio D. Garcia, Gerhard de Koning Gans, Roel Verdult and + * Milosch Meriac in the paper "Dismantling IClass". + * + * Copyright (C) 2014 Martin Holst Swende + * + * This is free software: you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 as published + * by the Free Software Foundation. + * + * This file 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 General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with loclass. If not, see . + * + * + * + ****************************************************************************/ + #include #include #include @@ -33,7 +71,6 @@ */ void permutekey(uint8_t key[8], uint8_t dest[8]) { - int i; for(i = 0 ; i < 8 ; i++) { @@ -46,7 +83,6 @@ void permutekey(uint8_t key[8], uint8_t dest[8]) (((key[1] & (0x80 >> i)) >> (7-i)) << 1) | (((key[0] & (0x80 >> i)) >> (7-i)) << 0); } - return; } /** @@ -113,14 +149,20 @@ void hash1(uint8_t csn[] , uint8_t k[]) k[0] = csn[0]^csn[1]^csn[2]^csn[3]^csn[4]^csn[5]^csn[6]^csn[7]; k[1] = csn[0]+csn[1]+csn[2]+csn[3]+csn[4]+csn[5]+csn[6]+csn[7]; k[2] = rr(swap( csn[2]+k[1] )); - k[3] = rr(swap( csn[3]+k[0] )); - k[4] = ~rr(swap( csn[4]+k[2] ))+1; - k[5] = ~rr(swap( csn[5]+k[3] ))+1; + k[3] = rl(swap( csn[3]+k[0] )); + k[4] = ~rr( csn[4]+k[2] )+1; + k[5] = ~rl( csn[5]+k[3] )+1; k[6] = rr( csn[6]+(k[4]^0x3c) ); k[7] = rl( csn[7]+(k[5]^0xc3) ); - int i; - for(i = 7; i >=0; i--) - k[i] = k[i] & 0x7F; + + k[7] &= 0x7F; + k[6] &= 0x7F; + k[5] &= 0x7F; + k[4] &= 0x7F; + k[3] &= 0x7F; + k[2] &= 0x7F; + k[1] &= 0x7F; + k[0] &= 0x7F; } /** Definition 14. Define the rotate key function rk : (F 82 ) 8 × N → (F 82 ) 8 as @@ -129,15 +171,12 @@ rk(x [0] . . . x [7] , n + 1) = rk(rl(x [0] ) . . . rl(x [7] ), n) **/ void rk(uint8_t *key, uint8_t n, uint8_t *outp_key) { - memcpy(outp_key, key, 8); - uint8_t j; - - while(n-- > 0) + while(n-- > 0) { for(j=0; j < 8 ; j++) outp_key[j] = rl(outp_key[j]); - + } return; } @@ -186,9 +225,9 @@ void hash2(uint8_t *key64, uint8_t *outp_keytable) uint8_t temp_output[8]={0}; //calculate complement of key int i; - for(i=0;i<8;i++) + for (i=0; i<8; i++) key64_negated[i]= ~key64[i]; - + // Once again, key is on iclass-format desencrypt_iclass(key64, key64_negated, z[0]); @@ -202,26 +241,21 @@ void hash2(uint8_t *key64, uint8_t *outp_keytable) desdecrypt_iclass(z[0], key64_negated, y[0]); printvar("y0 ", y[0],8); - for(i=1; i<8; i++) - { - + for (i=1; i<8; i++) { // z [i] = DES dec (rk(K cus , i), z [i−1] ) rk(key64, i, temp_output); //y [i] = DES enc (rk(K cus , i), y [i−1] ) desdecrypt_iclass(temp_output,z[i-1], z[i]); desencrypt_iclass(temp_output,y[i-1], y[i]); - } - if(outp_keytable != NULL) - { - for(i = 0 ; i < 8 ; i++) - { + + if (outp_keytable != NULL) { + for(i = 0 ; i < 8 ; i++) { memcpy(outp_keytable+i*16,y[i],8); memcpy(outp_keytable+8+i*16,z[i],8); } - }else - { + } else { printarr_human_readable("hash2", outp_keytable,128); } } @@ -247,6 +281,7 @@ int _readFromDump(uint8_t dump[], dumpdata* item, uint8_t i) size_t itemsize = sizeof(dumpdata); //dumpdata item = {0}; memcpy(item,dump+i*itemsize, itemsize); + if(true) { printvar("csn", item->csn,8); @@ -281,7 +316,6 @@ int bruteforceItem(dumpdata item, uint16_t keytable[]) uint8_t key_index[8] = {0}; hash1(item.csn, key_index); - /* * Determine which bytes to retrieve. A hash is typically * 01010000454501 @@ -297,23 +331,21 @@ int bruteforceItem(dumpdata item, uint16_t keytable[]) uint8_t bytes_to_recover[3] = {0}; uint8_t numbytes_to_recover = 0 ; int i; - for(i =0 ; i < 8 ; i++) - { - if(keytable[key_index[i]] & (CRACKED | BEING_CRACKED)) continue; + for (i=0; i<8; i++) { + if (keytable[key_index[i]] & (CRACKED | BEING_CRACKED)) continue; + bytes_to_recover[numbytes_to_recover++] = key_index[i]; keytable[key_index[i]] |= BEING_CRACKED; - if(numbytes_to_recover > 3) - { + if (numbytes_to_recover > 3) { prnlog("The CSN requires > 3 byte bruteforce, not supported"); - printvar("CSN", item.csn,8); - printvar("HASH1", key_index,8); + printvar("CSN", item.csn, 8); + printvar("HASH1", key_index, 8); //Before we exit, reset the 'BEING_CRACKED' to zero keytable[bytes_to_recover[0]] &= ~BEING_CRACKED; keytable[bytes_to_recover[1]] &= ~BEING_CRACKED; keytable[bytes_to_recover[2]] &= ~BEING_CRACKED; - return 1; } } @@ -337,61 +369,57 @@ int bruteforceItem(dumpdata item, uint16_t keytable[]) while(!found && !(brute & endmask)) { - //Update the keytable with the brute-values - for(i =0 ; i < numbytes_to_recover; i++) - { + for (i=0; i < numbytes_to_recover; i++) { keytable[bytes_to_recover[i]] &= 0xFF00; keytable[bytes_to_recover[i]] |= (brute >> (i*8) & 0xFF); } // Piece together the key - key_sel[0] = keytable[key_index[0]] & 0xFF;key_sel[1] = keytable[key_index[1]] & 0xFF; - key_sel[2] = keytable[key_index[2]] & 0xFF;key_sel[3] = keytable[key_index[3]] & 0xFF; - key_sel[4] = keytable[key_index[4]] & 0xFF;key_sel[5] = keytable[key_index[5]] & 0xFF; - key_sel[6] = keytable[key_index[6]] & 0xFF;key_sel[7] = keytable[key_index[7]] & 0xFF; + key_sel[0] = keytable[key_index[0]] & 0xFF; + key_sel[1] = keytable[key_index[1]] & 0xFF; + key_sel[2] = keytable[key_index[2]] & 0xFF; + key_sel[3] = keytable[key_index[3]] & 0xFF; + key_sel[4] = keytable[key_index[4]] & 0xFF; + key_sel[5] = keytable[key_index[5]] & 0xFF; + key_sel[6] = keytable[key_index[6]] & 0xFF; + key_sel[7] = keytable[key_index[7]] & 0xFF; //Permute from iclass format to standard format - permutekey_rev(key_sel,key_sel_p); + permutekey_rev(key_sel, key_sel_p); //Diversify diversifyKey(item.csn, key_sel_p, div_key); //Calc mac - doMAC(item.cc_nr,12, div_key,calculated_MAC); + doMAC(item.cc_nr, div_key, calculated_MAC); - if(memcmp(calculated_MAC, item.mac, 4) == 0) - { + if(memcmp(calculated_MAC, item.mac, 4) == 0) { for(i =0 ; i < numbytes_to_recover; i++) prnlog("=> %d: 0x%02x", bytes_to_recover[i],0xFF & keytable[bytes_to_recover[i]]); found = true; break; } + brute++; - if((brute & 0xFFFF) == 0) - { + if ((brute & 0xFFFF) == 0) { printf("%d",(brute >> 16) & 0xFF); fflush(stdout); } } - if(! found) - { + if (!found) { prnlog("Failed to recover %d bytes using the following CSN",numbytes_to_recover); printvar("CSN",item.csn,8); errors++; + //Before we exit, reset the 'BEING_CRACKED' to zero - for(i =0 ; i < numbytes_to_recover; i++) - { + for (i=0; i < numbytes_to_recover; i++){ keytable[bytes_to_recover[i]] &= 0xFF; keytable[bytes_to_recover[i]] |= CRACK_FAILED; } - - }else - { - for(i =0 ; i < numbytes_to_recover; i++) - { + } else { + for (i=0; i < numbytes_to_recover; i++){ keytable[bytes_to_recover[i]] &= 0xFF; keytable[bytes_to_recover[i]] |= CRACKED; } - } return errors; } @@ -484,8 +512,8 @@ int bruteforceDump(uint8_t dump[], size_t dumpsize, uint16_t keytable[]) errors += bruteforceItem(*attack, keytable); } free(attack); - clock_t t2 = clock(); - float diff = (((float)t2 - (float)t1) / CLOCKS_PER_SEC ); + t1 = clock() - t1; + float diff = ((float)t1 / CLOCKS_PER_SEC ); prnlog("\nPerformed full crack in %f seconds",diff); // Pick out the first 16 bytes of the keytable. @@ -514,9 +542,8 @@ int bruteforceDump(uint8_t dump[], size_t dumpsize, uint16_t keytable[]) */ int bruteforceFile(const char *filename, uint16_t keytable[]) { - FILE *f = fopen(filename, "rb"); - if(!f) { + if (!f) { prnlog("Failed to read from file '%s'", filename); return 1; } @@ -525,15 +552,23 @@ int bruteforceFile(const char *filename, uint16_t keytable[]) long fsize = ftell(f); fseek(f, 0, SEEK_SET); + if (fsize < 0) { + prnlog("Error, when getting filesize"); + if (f) fclose(f); + return 1; + } + uint8_t *dump = malloc(fsize); - size_t bytes_read = fread(dump, fsize, 1, f); + size_t bytes_read = fread(dump, 1, fsize, f); - fclose(f); - if (bytes_read < fsize) - { + if (f) fclose(f); + + if (bytes_read < fsize) { prnlog("Error, could only read %d bytes (should be %d)",bytes_read, fsize ); } - return bruteforceDump(dump,fsize,keytable); + uint8_t res = bruteforceDump(dump,fsize,keytable); + free(dump); + return res; } /** * @@ -577,9 +612,17 @@ int _testBruteforce() **** The 64-bit HS Custom Key Value = 5B7C62C491C11B39 **** **/ uint16_t keytable[128] = {0}; - //save some time... - startvalue = 0x7B0000; - errors |= bruteforceFile("iclass_dump.bin",keytable); + + //Test a few variants + if (fileExists("iclass_dump.bin")){ + errors |= bruteforceFile("iclass_dump.bin",keytable); + } else if (fileExists("loclass/iclass_dump.bin")){ + errors |= bruteforceFile("loclass/iclass_dump.bin",keytable); + } else if (fileExists("client/loclass/iclass_dump.bin")){ + errors |= bruteforceFile("client/loclass/iclass_dump.bin",keytable); + } else { + prnlog("Error: The file iclass_dump.bin was not found!"); + } } return errors; } @@ -593,7 +636,6 @@ int _test_iclass_key_permutation() permutekey(testcase, testcase_output); permutekey_rev(testcase_output, testcase_output_rev); - if(memcmp(testcase_output, testcase_output_correct,8) != 0) { prnlog("Error with iclass key permute!"); @@ -613,6 +655,21 @@ int _test_iclass_key_permutation() prnlog("[+] Iclass key permutation OK!"); return 0; } +int _testHash1() +{ + uint8_t csn[8]= {0x01,0x02,0x03,0x04,0xF7,0xFF,0x12,0xE0}; + uint8_t k[8] = {0}; + hash1(csn, k); + uint8_t expected[8] = {0x7E,0x72,0x2F,0x40,0x2D,0x02,0x51,0x42}; + if(memcmp(k,expected,8) != 0) + { + prnlog("Error with hash1!"); + printarr("calculated", k, 8); + printarr("expected", expected, 8); + return 1; + } + return 0; +} int testElite() { @@ -645,11 +702,13 @@ int testElite() prnlog("[+] Hash2 looks fine..."); } - prnlog("[+] Testing key diversification ..."); - int errors = 0 ; - errors +=_test_iclass_key_permutation(); + prnlog("[+] Testing hash1..."); + errors += _testHash1(); + prnlog("[+] Testing key diversification ..."); + errors +=_test_iclass_key_permutation(); errors += _testBruteforce(); + return errors; }