Just thought I'd make it clear that this code is GPLv2 licensed here -- Aram Verstegen GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The licenses for most software are designed to take away your freedom to share and change it. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change free software--to make sure the software is free for all its users. This General Public License applies to most of the Free Software Foundation's software and to any other program whose authors commit to using it. (Some other Free Software Foundation software is covered by the GNU Lesser General Public License instead.) You can apply it to your programs, too. 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END OF TERMS AND CONDITIONS diff --git a/client/Makefile b/client/Makefile index 91e595d..dc3557f 100644 --- a/client/Makefile +++ b/client/Makefile @@ -107,6 +107,7 @@ CMDSRCS = nonce2key/crapto1.c\ aes.c\ protocols.c\ sha1.c\ + crypto1_bs.c \ ZLIBSRCS = deflate.c adler32.c trees.c zutil.c inflate.c inffast.c inftrees.c ZLIB_FLAGS = -DZ_SOLO -DZ_PREFIX -DNO_GZIP -DZLIB_PM3_TUNED diff --git a/client/cmdhfmfhard.c b/client/cmdhfmfhard.c index b3893ea..bf71a08 100644 --- a/client/cmdhfmfhard.c +++ b/client/cmdhfmfhard.c @@ -20,12 +20,15 @@ #include #include #include +#include +#include #include "proxmark3.h" #include "cmdmain.h" #include "ui.h" #include "util.h" #include "nonce2key/crapto1.h" #include "parity.h" +#include "crypto1_bs.h" // uint32_t test_state_odd = 0; // uint32_t test_state_even = 0; @@ -88,6 +91,8 @@ typedef struct noncelist { } noncelist_t; +static size_t nonces_to_bruteforce = 0; +static noncelistentry_t *brute_force_nonces[256]; static uint32_t cuid; static noncelist_t nonces[256]; static uint8_t best_first_bytes[256]; @@ -169,6 +174,11 @@ static int add_nonce(uint32_t nonce_enc, uint8_t par_enc) p2->nonce_enc = nonce_enc; p2->par_enc = par_enc; + if(nonces_to_bruteforce < 256){ + brute_force_nonces[nonces_to_bruteforce] = p2; + nonces_to_bruteforce++; + } + nonces[first_byte].num++; nonces[first_byte].Sum += evenparity32((nonce_enc & 0x00ff0000) | (par_enc & 0x04)); nonces[first_byte].updated = true; // indicates that we need to recalculate the Sum(a8) probability for this first byte @@ -1376,6 +1386,236 @@ static void free_statelist_cache(void) } } +size_t keys_found = 0; +size_t bucket_count = 0; +statelist_t* buckets[128]; +size_t total_states_tested = 0; +size_t thread_count = 4; + +// these bitsliced states will hold identical states in all slices +bitslice_t bitsliced_rollback_byte[ROLLBACK_SIZE]; + +// arrays of bitsliced states with identical values in all slices +bitslice_t bitsliced_encrypted_nonces[NONCE_TESTS][STATE_SIZE]; +bitslice_t bitsliced_encrypted_parity_bits[NONCE_TESTS][ROLLBACK_SIZE]; + +#define EXACT_COUNT + +static const uint64_t crack_states_bitsliced(statelist_t *p){ + // the idea to roll back the half-states before combining them was suggested/explained to me by bla + // first we pre-bitslice all the even state bits and roll them back, then bitslice the odd bits and combine the two in the inner loop + uint64_t key = -1; +#ifdef EXACT_COUNT + size_t bucket_states_tested = 0; + size_t bucket_size[p->len[EVEN_STATE]/MAX_BITSLICES]; +#else + const size_t bucket_states_tested = (p->len[EVEN_STATE])*(p->len[ODD_STATE]); +#endif + bitslice_t *bitsliced_even_states[p->len[EVEN_STATE]/MAX_BITSLICES]; + size_t bitsliced_blocks = 0; + uint32_t const * restrict even_end = p->states[EVEN_STATE]+p->len[EVEN_STATE]; + // bitslice all the even states + for(uint32_t * restrict p_even = p->states[EVEN_STATE]; p_even < even_end; p_even+=MAX_BITSLICES){ + bitslice_t * restrict lstate_p = memalign(sizeof(bitslice_t), (STATE_SIZE+ROLLBACK_SIZE)*sizeof(bitslice_t)); + memset(lstate_p+1, 0x0, (STATE_SIZE-1)*sizeof(bitslice_t)); // zero even bits + // bitslice even half-states + const size_t max_slices = (even_end-p_even) < MAX_BITSLICES ? even_end-p_even : MAX_BITSLICES; +#ifdef EXACT_COUNT + bucket_size[bitsliced_blocks] = max_slices; +#endif + for(size_t slice_idx = 0; slice_idx < max_slices; ++slice_idx){ + uint32_t e = *(p_even+slice_idx); + for(size_t bit_idx = 1; bit_idx < STATE_SIZE; bit_idx+=2, e >>= 1){ + // set even bits + if(e&1){ + lstate_p[bit_idx].bytes64[slice_idx>>6] |= 1ull << (slice_idx&63); + } + } + } + // compute the rollback bits + for(size_t rollback = 0; rollback < ROLLBACK_SIZE; ++rollback){ + // inlined crypto1_bs_lfsr_rollback + const bitslice_value_t feedout = lstate_p[0].value; + ++lstate_p; + const bitslice_value_t ks_bits = crypto1_bs_f20(lstate_p); + const bitslice_value_t feedback = (feedout ^ ks_bits ^ lstate_p[47- 5].value ^ lstate_p[47- 9].value ^ + lstate_p[47-10].value ^ lstate_p[47-12].value ^ lstate_p[47-14].value ^ + lstate_p[47-15].value ^ lstate_p[47-17].value ^ lstate_p[47-19].value ^ + lstate_p[47-24].value ^ lstate_p[47-25].value ^ lstate_p[47-27].value ^ + lstate_p[47-29].value ^ lstate_p[47-35].value ^ lstate_p[47-39].value ^ + lstate_p[47-41].value ^ lstate_p[47-42].value ^ lstate_p[47-43].value); + lstate_p[47].value = feedback ^ bitsliced_rollback_byte[rollback].value; + } + bitsliced_even_states[bitsliced_blocks++] = lstate_p; + } + // bitslice every odd state to every block of even half-states with half-finished rollback + for(uint32_t const * restrict p_odd = p->states[ODD_STATE]; p_odd < p->states[ODD_STATE]+p->len[ODD_STATE]; ++p_odd){ + // early abort + if(keys_found){ + goto out; + } + + // set the odd bits and compute rollback + uint64_t o = (uint64_t) *p_odd; + lfsr_rollback_byte((struct Crypto1State*) &o, 0, 1); + // pre-compute part of the odd feedback bits (minus rollback) + bool odd_feedback_bit = parity(o&0x9ce5c); + + crypto1_bs_rewind_a0(); + // set odd bits + for(size_t state_idx = 0; state_idx < STATE_SIZE-ROLLBACK_SIZE; o >>= 1, state_idx+=2){ + if(o & 1){ + state_p[state_idx] = bs_ones; + } else { + state_p[state_idx] = bs_zeroes; + } + } + const bitslice_value_t odd_feedback = odd_feedback_bit ? bs_ones.value : bs_zeroes.value; + + for(size_t block_idx = 0; block_idx < bitsliced_blocks; ++block_idx){ + const bitslice_t const * restrict bitsliced_even_state = bitsliced_even_states[block_idx]; + size_t state_idx; + // set even bits + for(state_idx = 0; state_idx < STATE_SIZE-ROLLBACK_SIZE; state_idx+=2){ + state_p[1+state_idx] = bitsliced_even_state[1+state_idx]; + } + // set rollback bits + uint64_t lo = o; + for(; state_idx < STATE_SIZE; lo >>= 1, state_idx+=2){ + // set the odd bits and take in the odd rollback bits from the even states + if(lo & 1){ + state_p[state_idx].value = ~bitsliced_even_state[state_idx].value; + } else { + state_p[state_idx] = bitsliced_even_state[state_idx]; + } + + // set the even bits and take in the even rollback bits from the odd states + if((lo >> 32) & 1){ + state_p[1+state_idx].value = ~bitsliced_even_state[1+state_idx].value; + } else { + state_p[1+state_idx] = bitsliced_even_state[1+state_idx]; + } + } + +#ifdef EXACT_COUNT + bucket_states_tested += bucket_size[block_idx]; +#endif + // pre-compute first keystream and feedback bit vectors + const bitslice_value_t ksb = crypto1_bs_f20(state_p); + const bitslice_value_t fbb = (odd_feedback ^ state_p[47- 0].value ^ state_p[47- 5].value ^ // take in the even and rollback bits + state_p[47-10].value ^ state_p[47-12].value ^ state_p[47-14].value ^ + state_p[47-24].value ^ state_p[47-42].value); + + // vector to contain test results (1 = passed, 0 = failed) + bitslice_t results = bs_ones; + + for(size_t tests = 0; tests < NONCE_TESTS; ++tests){ + size_t parity_bit_idx = 0; + bitslice_value_t fb_bits = fbb; + bitslice_value_t ks_bits = ksb; + state_p = &states[KEYSTREAM_SIZE-1]; + bitslice_value_t parity_bit_vector = bs_zeroes.value; + + // highest bit is transmitted/received first + for(int32_t ks_idx = KEYSTREAM_SIZE-1; ks_idx >= 0; --ks_idx, --state_p){ + // decrypt nonce bits + const bitslice_value_t encrypted_nonce_bit_vector = bitsliced_encrypted_nonces[tests][ks_idx].value; + const bitslice_value_t decrypted_nonce_bit_vector = (encrypted_nonce_bit_vector ^ ks_bits); + + // compute real parity bits on the fly + parity_bit_vector ^= decrypted_nonce_bit_vector; + + // update state + state_p[0].value = (fb_bits ^ decrypted_nonce_bit_vector); + + // compute next keystream bit + ks_bits = crypto1_bs_f20(state_p); + + // for each byte: + if((ks_idx&7) == 0){ + // get encrypted parity bits + const bitslice_value_t encrypted_parity_bit_vector = bitsliced_encrypted_parity_bits[tests][parity_bit_idx++].value; + + // decrypt parity bits + const bitslice_value_t decrypted_parity_bit_vector = (encrypted_parity_bit_vector ^ ks_bits); + + // compare actual parity bits with decrypted parity bits and take count in results vector + results.value &= (parity_bit_vector ^ decrypted_parity_bit_vector); + + // make sure we still have a match in our set + // if(memcmp(&results, &bs_zeroes, sizeof(bitslice_t)) == 0){ + + // this is much faster on my gcc, because somehow a memcmp needlessly spills/fills all the xmm registers to/from the stack - ??? + // the short-circuiting also helps + if(results.bytes64[0] == 0 +#if MAX_BITSLICES > 64 + && results.bytes64[1] == 0 +#endif +#if MAX_BITSLICES > 128 + && results.bytes64[2] == 0 + && results.bytes64[3] == 0 +#endif + ){ + goto stop_tests; + } + // this is about as fast but less portable (requires -std=gnu99) + // asm goto ("ptest %1, %0\n\t" + // "jz %l2" :: "xm" (results.value), "xm" (bs_ones.value) : "cc" : stop_tests); + parity_bit_vector = bs_zeroes.value; + } + // compute next feedback bit vector + fb_bits = (state_p[47- 0].value ^ state_p[47- 5].value ^ state_p[47- 9].value ^ + state_p[47-10].value ^ state_p[47-12].value ^ state_p[47-14].value ^ + state_p[47-15].value ^ state_p[47-17].value ^ state_p[47-19].value ^ + state_p[47-24].value ^ state_p[47-25].value ^ state_p[47-27].value ^ + state_p[47-29].value ^ state_p[47-35].value ^ state_p[47-39].value ^ + state_p[47-41].value ^ state_p[47-42].value ^ state_p[47-43].value); + } + } + // all nonce tests were successful: we've found the key in this block! + state_t keys[MAX_BITSLICES]; + crypto1_bs_convert_states(&states[KEYSTREAM_SIZE], keys); + for(size_t results_idx = 0; results_idx < MAX_BITSLICES; ++results_idx){ + if(get_vector_bit(results_idx, results)){ + key = keys[results_idx].value; + goto out; + } + } +stop_tests: + // prepare to set new states + crypto1_bs_rewind_a0(); + continue; + } + } +out: + for(size_t block_idx = 0; block_idx < bitsliced_blocks; ++block_idx){ + free(bitsliced_even_states[block_idx]-ROLLBACK_SIZE); + } + __sync_fetch_and_add(&total_states_tested, bucket_states_tested); + return key; +} + +static void* crack_states_thread(void* x){ + const size_t thread_id = (size_t)x; + size_t current_bucket = thread_id; + while(current_bucket < bucket_count){ + statelist_t * bucket = buckets[current_bucket]; + if(bucket){ + const uint64_t key = crack_states_bitsliced(bucket); + if(key != -1){ + printf("Found key: %012lx\n", key); + __sync_fetch_and_add(&keys_found, 1); + break; + } else if(keys_found){ + break; + } else { + printf("Cracking... %6.02f%%\n", (100.0*total_states_tested/(maximum_states))); + } + } + current_bucket += thread_count; + } + return NULL; +} static void brute_force(void) { @@ -1383,7 +1623,56 @@ static void brute_force(void) PrintAndLog("Looking for known target key in remaining key space..."); TestIfKeyExists(known_target_key); } else { - PrintAndLog("Brute Force phase is not implemented."); + PrintAndLog("Brute force phase starting."); + time_t start, end; + time(&start); + keys_found = 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((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; + uint8_t test_parity = brute_force_nonces[tests]->par_enc; + // pre-xor the uid into the decrypted nonces, and also pre-xor the cuid parity into the encrypted parity bits - otherwise an exta xor is required in the decryption routine + 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 + bucket_count = 0; + for (statelist_t *p = candidates; p != NULL; p = p->next) { + buckets[bucket_count] = p; + bucket_count++; + } + + // enumerate states using all hardware threads, each thread handles one bucket + thread_count = sysconf(_SC_NPROCESSORS_CONF); + PrintAndLog("Starting %u cracking threads to search %u buckets containing a total of %lu states...", thread_count, bucket_count, maximum_states); + pthread_t threads[thread_count]; + for(size_t i = 0; i < thread_count; i++){ + pthread_create(&threads[i], NULL, crack_states_thread, (void*) i); + } + for(size_t i = 0; i < thread_count; i++){ + pthread_join(threads[i], 0); + } + + time(&end); + unsigned long elapsed_time = difftime(end, start); + PrintAndLog("Tested %lu states, found %u keys after %u seconds", total_states_tested, keys_found, elapsed_time); + if(!keys_found){ + assert(total_states_tested == maximum_states); + } + // reset this counter for the next call + + nonces_to_bruteforce = 0; } }