X-Git-Url: https://git.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/2e350b19f7f107a8d7d7d0f12753072be1e991a3..5a08545794cefc9fd9450707e739784c8c84839e:/client/cmdhfmfhard.c?ds=sidebyside diff --git a/client/cmdhfmfhard.c b/client/cmdhfmfhard.c index 0df1f157..acdea715 100644 --- a/client/cmdhfmfhard.c +++ b/client/cmdhfmfhard.c @@ -30,14 +30,16 @@ #ifdef __WIN32 #include #endif -#include +// don't include for APPLE/mac which has malloc stuff elsewhere. +#ifndef __APPLE__ + #include +#endif #include -// uint32_t test_state_odd = 0; -// uint32_t test_state_even = 0; - #define CONFIDENCE_THRESHOLD 0.95 // Collect nonces until we are certain enough that the following brute force is successfull -#define GOOD_BYTES_REQUIRED 28 +#define GOOD_BYTES_REQUIRED 13 // default 28, could be smaller == faster + +#define END_OF_LIST_MARKER 0xFFFFFFFF static const float p_K[257] = { // the probability that a random nonce has a Sum Property == K 0.0290, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, @@ -73,7 +75,6 @@ static const float p_K[257] = { // the probability that a random nonce has a Su 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0000, 0.0290 }; - typedef struct noncelistentry { uint32_t nonce_enc; @@ -92,7 +93,6 @@ typedef struct noncelist { float score1, score2; } noncelist_t; - static size_t nonces_to_bruteforce = 0; static noncelistentry_t *brute_force_nonces[256]; static uint32_t cuid = 0; @@ -130,10 +130,8 @@ typedef struct { static partial_indexed_statelist_t partial_statelist[17]; static partial_indexed_statelist_t statelist_bitflip; - static statelist_t *candidates = NULL; - static int add_nonce(uint32_t nonce_enc, uint8_t par_enc) { uint8_t first_byte = nonce_enc >> 24; @@ -203,7 +201,6 @@ static void init_nonce_memory(void) num_good_first_bytes = 0; } - static void free_nonce_list(noncelistentry_t *p) { if (p == NULL) { @@ -448,32 +445,31 @@ static void Tests() // crypto1_destroy(pcs); - // printf("\nTests: number of states with BitFlipProperty: %d, (= %1.3f%% of total states)\n", statelist_bitflip.len[0], 100.0 * statelist_bitflip.len[0] / (1<<20)); - printf("\nTests: Actual BitFlipProperties odd/even:\n"); - for (uint16_t i = 0; i < 256; i++) { - printf("[%02x]:%c ", i, nonces[i].BitFlip[ODD_STATE]?'o':nonces[i].BitFlip[EVEN_STATE]?'e':' '); - if (i % 8 == 7) { - printf("\n"); - } - } + // printf("\nTests: Actual BitFlipProperties odd/even:\n"); + // for (uint16_t i = 0; i < 256; i++) { + // printf("[%02x]:%c ", i, nonces[i].BitFlip[ODD_STATE]?'o':nonces[i].BitFlip[EVEN_STATE]?'e':' '); + // if (i % 8 == 7) { + // printf("\n"); + // } + // } - printf("\nTests: Sorted First Bytes:\n"); - for (uint16_t i = 0; i < 256; i++) { - uint8_t best_byte = best_first_bytes[i]; - printf("#%03d Byte: %02x, n = %3d, k = %3d, Sum(a8): %3d, Confidence: %5.1f%%, Bitflip: %c\n", - //printf("#%03d Byte: %02x, n = %3d, k = %3d, Sum(a8): %3d, Confidence: %5.1f%%, Bitflip: %c, score1: %1.5f, score2: %1.0f\n", - i, best_byte, - nonces[best_byte].num, - nonces[best_byte].Sum, - nonces[best_byte].Sum8_guess, - nonces[best_byte].Sum8_prob * 100, - nonces[best_byte].BitFlip[ODD_STATE]?'o':nonces[best_byte].BitFlip[EVEN_STATE]?'e':' ' - //nonces[best_byte].score1, - //nonces[best_byte].score2 - ); - } + // printf("\nTests: Sorted First Bytes:\n"); + // for (uint16_t i = 0; i < 256; i++) { + // uint8_t best_byte = best_first_bytes[i]; + // printf("#%03d Byte: %02x, n = %3d, k = %3d, Sum(a8): %3d, Confidence: %5.1f%%, Bitflip: %c\n", + // //printf("#%03d Byte: %02x, n = %3d, k = %3d, Sum(a8): %3d, Confidence: %5.1f%%, Bitflip: %c, score1: %1.5f, score2: %1.0f\n", + // i, best_byte, + // nonces[best_byte].num, + // nonces[best_byte].Sum, + // nonces[best_byte].Sum8_guess, + // nonces[best_byte].Sum8_prob * 100, + // nonces[best_byte].BitFlip[ODD_STATE]?'o':nonces[best_byte].BitFlip[EVEN_STATE]?'e':' ' + // //nonces[best_byte].score1, + // //nonces[best_byte].score2 + // ); + // } // printf("\nTests: parity performance\n"); // time_t time1p = clock(); @@ -613,11 +609,11 @@ static uint16_t estimate_second_byte_sum(void) static int read_nonce_file(void) { FILE *fnonces = NULL; - uint8_t trgBlockNo; - uint8_t trgKeyType; + uint8_t trgBlockNo = 0; + uint8_t trgKeyType = 0; uint8_t read_buf[9]; - uint32_t nt_enc1, nt_enc2; - uint8_t par_enc; + uint32_t nt_enc1 = 0, nt_enc2 = 0; + uint8_t par_enc = 0; int total_num_nonces = 0; if ((fnonces = fopen("nonces.bin","rb")) == NULL) { @@ -648,7 +644,6 @@ static int read_nonce_file(void) } fclose(fnonces); PrintAndLog("Read %d nonces from file. cuid=%08x, Block=%d, Keytype=%c", total_num_nonces, cuid, trgBlockNo, trgKeyType==0?'A':'B'); - return 0; } @@ -822,7 +817,6 @@ static int acquire_nonces(uint8_t blockNo, uint8_t keyType, uint8_t *key, uint8_ //printf("Encrypted nonce: %08x, encrypted_parity: %02x\n", nt_enc2, par_enc & 0x0f); total_added_nonces += add_nonce(nt_enc2, par_enc & 0x0f); - if (nonce_file_write) { fwrite(bufp, 1, 9, fnonces); } @@ -875,10 +869,10 @@ static int acquire_nonces(uint8_t blockNo, uint8_t keyType, uint8_t *key, uint8_ time1 = clock() - time1; if ( time1 > 0 ) { - PrintAndLog("Acquired a total of %d nonces in %1.1f seconds (%0.0f nonces/minute)", - total_num_nonces, - ((float)time1)/CLOCKS_PER_SEC, - total_num_nonces * 60.0 * CLOCKS_PER_SEC/(float)time1 + PrintAndLog("Acquired a total of %d nonces in %1.1f seconds (%0.0f nonces/minute)", + total_num_nonces, + ((float)time1)/CLOCKS_PER_SEC, + total_num_nonces * 60.0 * CLOCKS_PER_SEC/(float)time1 ); } return 0; @@ -927,7 +921,7 @@ static int init_partial_statelists(void) for (uint16_t i = 0; i <= 16; i += 2) { uint32_t *p = partial_statelist[i].states[odd_even]; p += partial_statelist[i].len[odd_even]; - *p = 0xffffffff; + *p = END_OF_LIST_MARKER; } } @@ -953,7 +947,7 @@ static void init_BitFlip_statelist(void) } // set len and add End Of List marker statelist_bitflip.len[0] = p - statelist_bitflip.states[0]; - *p = 0xffffffff; + *p = END_OF_LIST_MARKER; statelist_bitflip.states[0] = realloc(statelist_bitflip.states[0], sizeof(uint32_t) * (statelist_bitflip.len[0] + 1)); } @@ -963,7 +957,7 @@ static inline uint32_t *find_first_state(uint32_t state, uint32_t mask, partial_ if (p == NULL) return NULL; while (*p < (state & mask)) p++; - if (*p == 0xffffffff) return NULL; // reached end of list, no match + if (*p == END_OF_LIST_MARKER) return NULL; // reached end of list, no match if ((*p & mask) == (state & mask)) return p; // found a match. return NULL; // no match } @@ -1041,7 +1035,7 @@ static bool all_other_first_bytes_match(uint32_t state, odd_even_t odd_even) uint16_t part_sum_a8 = (odd_even == ODD_STATE) ? r : s; uint32_t *p = find_first_state(state, mask, &partial_statelist[part_sum_a8], odd_even); if (p != NULL) { - while ((state & mask) == (*p & mask) && (*p != 0xffffffff)) { + while ((state & mask) == (*p & mask) && (*p != END_OF_LIST_MARKER)) { if (remaining_bits_match(j, bytes_diff, state, (state&0x00fffff0) | *p, odd_even)) { found_match = true; // if ((odd_even == ODD_STATE && state == test_state_odd) @@ -1099,7 +1093,7 @@ static bool all_bit_flips_match(uint32_t state, odd_even_t odd_even) bool found_match = false; uint32_t *p = find_first_state(state, mask, &statelist_bitflip, 0); if (p != NULL) { - while ((state & mask) == (*p & mask) && (*p != 0xffffffff)) { + while ((state & mask) == (*p & mask) && (*p != END_OF_LIST_MARKER)) { if (remaining_bits_match(j, bytes_diff, state, (state&0x00fffff0) | *p, odd_even)) { found_match = true; // if ((odd_even == ODD_STATE && state == test_state_odd) @@ -1172,11 +1166,11 @@ static int add_matching_states(statelist_t *candidates, uint16_t part_sum_a0, ui return 4; } uint32_t *add_p = candidates->states[odd_even]; - for (uint32_t *p1 = partial_statelist[part_sum_a0].states[odd_even]; *p1 != 0xffffffff; p1++) { + for (uint32_t *p1 = partial_statelist[part_sum_a0].states[odd_even]; *p1 != END_OF_LIST_MARKER; p1++) { uint32_t search_mask = 0x000ffff0; uint32_t *p2 = find_first_state((*p1 << 4), search_mask, &partial_statelist[part_sum_a8], odd_even); if (p2 != NULL) { - while (((*p1 << 4) & search_mask) == (*p2 & search_mask) && *p2 != 0xffffffff) { + while (((*p1 << 4) & search_mask) == (*p2 & search_mask) && *p2 != END_OF_LIST_MARKER) { if ((nonces[best_first_bytes[0]].BitFlip[odd_even] && find_first_state((*p1 << 4) | *p2, 0x000fffff, &statelist_bitflip, 0)) || !nonces[best_first_bytes[0]].BitFlip[odd_even]) { if (all_other_first_bytes_match((*p1 << 4) | *p2, odd_even)) { @@ -1191,7 +1185,7 @@ static int add_matching_states(statelist_t *candidates, uint16_t part_sum_a0, ui } // set end of list marker and len - *add_p = 0xffffffff; + *add_p = END_OF_LIST_MARKER; candidates->len[odd_even] = add_p - candidates->states[odd_even]; candidates->states[odd_even] = realloc(candidates->states[odd_even], sizeof(uint32_t) * (candidates->len[odd_even] + 1)); @@ -1237,14 +1231,14 @@ static void TestIfKeyExists(uint64_t key) bool found_even = false; uint32_t *p_odd = p->states[ODD_STATE]; uint32_t *p_even = p->states[EVEN_STATE]; - while (*p_odd != 0xffffffff) { + while (*p_odd != END_OF_LIST_MARKER) { if ((*p_odd & 0x00ffffff) == state_odd) { found_odd = true; break; } p_odd++; } - while (*p_even != 0xffffffff) { + while (*p_even != END_OF_LIST_MARKER) { if ((*p_even & 0x00ffffff) == state_even) { found_even = true; } @@ -1252,10 +1246,12 @@ static void TestIfKeyExists(uint64_t key) } count += (p_odd - p->states[ODD_STATE]) * (p_even - p->states[EVEN_STATE]); if (found_odd && found_even) { - PrintAndLog("Key Found after testing %lld (2^%1.1f) out of %lld (2^%1.1f) keys. A brute force would have taken approx %lld minutes.", - count, log(count)/log(2), - maximum_states, log(maximum_states)/log(2), - (count>>23)/60); + PrintAndLog("Key Found after testing %lld (2^%1.1f) out of %lld (2^%1.1f) keys. ", + count, + log(count)/log(2), + maximum_states, + log(maximum_states)/log(2) + ); if (write_stats) { fprintf(fstats, "1\n"); } @@ -1308,7 +1304,7 @@ static void generate_candidates(uint16_t sum_a0, uint16_t sum_a8) } else { current_candidates->len[EVEN_STATE] = 0; uint32_t *p = current_candidates->states[EVEN_STATE] = malloc(sizeof(uint32_t)); - *p = 0xffffffff; + *p = END_OF_LIST_MARKER; } } else { add_matching_states(current_candidates, q, s, EVEN_STATE); @@ -1317,11 +1313,11 @@ static void generate_candidates(uint16_t sum_a0, uint16_t sum_a8) } else { current_candidates->len[ODD_STATE] = 0; uint32_t *p = current_candidates->states[ODD_STATE] = malloc(sizeof(uint32_t)); - *p = 0xffffffff; + *p = END_OF_LIST_MARKER; } } - printf("Odd state candidates: %6d (2^%0.1f)\n", current_candidates->len[ODD_STATE], log(current_candidates->len[ODD_STATE])/log(2)); - printf("Even state candidates: %6d (2^%0.1f)\n", current_candidates->len[EVEN_STATE], log(current_candidates->len[EVEN_STATE])/log(2)); + //printf("Odd state candidates: %6d (2^%0.1f)\n", current_candidates->len[ODD_STATE], log(current_candidates->len[ODD_STATE])/log(2)); + //printf("Even state candidates: %6d (2^%0.1f)\n", current_candidates->len[EVEN_STATE], log(current_candidates->len[EVEN_STATE])/log(2)); } } } @@ -1365,6 +1361,7 @@ static void free_statelist_cache(void) } } +uint64_t foundkey = 0; size_t keys_found = 0; size_t bucket_count = 0; statelist_t* buckets[128]; @@ -1407,7 +1404,11 @@ static const uint64_t crack_states_bitsliced(statelist_t *p){ bitslice_t * restrict lstate_p = _aligned_malloc((STATE_SIZE+ROLLBACK_SIZE) * bSize, bSize); #endif #else + #ifdef __APPLE__ + bitslice_t * restrict lstate_p = malloc((STATE_SIZE+ROLLBACK_SIZE) * bSize); + #else bitslice_t * restrict lstate_p = memalign(bSize, (STATE_SIZE+ROLLBACK_SIZE) * bSize); + #endif #endif if ( !lstate_p ) { @@ -1614,8 +1615,8 @@ static void* crack_states_thread(void* x){ if(bucket){ const uint64_t key = crack_states_bitsliced(bucket); if(key != -1){ - printf("\nFound key: %012"PRIx64"\n", key); __sync_fetch_and_add(&keys_found, 1); + __sync_fetch_and_add(&foundkey, key); break; } else if(keys_found){ break; @@ -1628,7 +1629,7 @@ static void* crack_states_thread(void* x){ } return NULL; } -#define _USE_32BIT_TIME_T + static void brute_force(void) { if (known_target_key != -1) { @@ -1639,14 +1640,15 @@ static void brute_force(void) time_t start, end; time(&start); keys_found = 0; - + foundkey = 0; + crypto1_bs_init(); PrintAndLog("Using %u-bit bitslices", MAX_BITSLICES); PrintAndLog("Bitslicing best_first_byte^uid[3] (rollback byte): %02x...", best_first_bytes[0]^(cuid>>24)); // convert to 32 bit little-endian - crypto1_bs_bitslice_value32(rev32((best_first_bytes[0]^(cuid>>24))), bitsliced_rollback_byte, 8); - + crypto1_bs_bitslice_value32((best_first_bytes[0]<<24)^cuid, bitsliced_rollback_byte, 8); + PrintAndLog("Bitslicing nonces..."); for(size_t tests = 0; tests < NONCE_TESTS; tests++){ uint32_t test_nonce = brute_force_nonces[tests]->nonce_enc; @@ -1655,7 +1657,7 @@ static void brute_force(void) crypto1_bs_bitslice_value32(cuid^test_nonce, bitsliced_encrypted_nonces[tests], 32); // convert to 32 bit little-endian crypto1_bs_bitslice_value32(rev32( ~(test_parity ^ ~(parity(cuid>>24 & 0xff)<<3 | parity(cuid>>16 & 0xff)<<2 | parity(cuid>>8 & 0xff)<<1 | parity(cuid&0xff)))), bitsliced_encrypted_parity_bits[tests], 4); - } + } total_states_tested = 0; // count number of states to go @@ -1667,11 +1669,14 @@ static void brute_force(void) #ifndef __WIN32 thread_count = sysconf(_SC_NPROCESSORS_CONF); + if ( thread_count < 1) + thread_count = 1; #endif /* _WIN32 */ + pthread_t threads[thread_count]; // enumerate states using all hardware threads, each thread handles one bucket - PrintAndLog("Starting %u cracking threads to search %u buckets containing a total of %"PRIu32" states...", thread_count, bucket_count, maximum_states); + PrintAndLog("Starting %u cracking threads to search %u buckets containing a total of %"PRIu64" states...", thread_count, bucket_count, maximum_states); for(size_t i = 0; i < thread_count; i++){ pthread_create(&threads[i], NULL, crack_states_thread, (void*) i); @@ -1680,12 +1685,15 @@ static void brute_force(void) pthread_join(threads[i], 0); } - time(&end); - unsigned long elapsed_time = difftime(end, start); - PrintAndLog("Tested %"PRIu32" states, found %u keys after %u seconds", total_states_tested, keys_found, elapsed_time); - if(!keys_found){ - assert(total_states_tested == maximum_states); - } + time(&end); + double elapsed_time = difftime(end, start); + + if(keys_found){ + PrintAndLog("Success! Tested %"PRIu32" states, found %u keys after %.f seconds", total_states_tested, keys_found, elapsed_time); + PrintAndLog("\nFound key: %012"PRIx64"\n", foundkey); + } else { + PrintAndLog("Fail! Tested %"PRIu32" states, in %.f seconds", total_states_tested, elapsed_time); + } // reset this counter for the next call nonces_to_bruteforce = 0; } @@ -1744,10 +1752,10 @@ int mfnestedhard(uint8_t blockNo, uint8_t keyType, uint8_t *key, uint8_t trgBloc } } - Tests(); + //Tests(); - PrintAndLog(""); - PrintAndLog("Sum(a0) = %d", first_byte_Sum); + //PrintAndLog(""); + //PrintAndLog("Sum(a0) = %d", first_byte_Sum); // PrintAndLog("Best 10 first bytes: %02x, %02x, %02x, %02x, %02x, %02x, %02x, %02x, %02x, %02x", // best_first_bytes[0], // best_first_bytes[1], @@ -1768,6 +1776,7 @@ int mfnestedhard(uint8_t blockNo, uint8_t keyType, uint8_t *key, uint8_t trgBloc PrintAndLog("Time for generating key candidates list: %1.0f seconds", ((float)time1)/CLOCKS_PER_SEC); brute_force(); + free_nonces_memory(); free_statelist_cache(); free_candidates_memory(candidates);