} bucket_info[2][0x100];\r
uint32_t numbuckets;\r
} bucket_info_t;\r
- \r
+\r
\r
static void bucket_sort_intersect(uint32_t* const estart, uint32_t* const estop,\r
uint32_t* const ostart, uint32_t* const ostop,\r
uint32_t *p1, *p2;\r
uint32_t *start[2];\r
uint32_t *stop[2];\r
- \r
+\r
start[0] = estart;\r
stop[0] = estop;\r
start[1] = ostart;\r
stop[1] = ostop;\r
- \r
+\r
// init buckets to be empty\r
for (uint32_t i = 0; i < 2; i++) {\r
for (uint32_t j = 0x00; j <= 0xff; j++) {\r
bucket[i][j].bp = bucket[i][j].head;\r
}\r
}\r
- \r
+\r
// sort the lists into the buckets based on the MSB (contribution bits)\r
- for (uint32_t i = 0; i < 2; i++) { \r
+ for (uint32_t i = 0; i < 2; i++) {\r
for (p1 = start[i]; p1 <= stop[i]; p1++) {\r
uint32_t bucket_index = (*p1 & 0xff000000) >> 24;\r
*(bucket[i][bucket_index].bp++) = *p1;\r
}\r
}\r
\r
- \r
+\r
// write back intersecting buckets as sorted list.\r
// fill in bucket_info with head and tail of the bucket contents in the list and number of non-empty buckets.\r
uint32_t nonempty_bucket;\r
*p ^= in;\r
} else { // drop\r
*p-- = *(*end)--;\r
- } \r
}\r
- \r
+ }\r
+\r
}\r
\r
\r
static inline void\r
extend_table_simple(uint32_t *tbl, uint32_t **end, int bit)\r
{\r
- for(*tbl <<= 1; tbl <= *end; *++tbl <<= 1) \r
+ for(*tbl <<= 1; tbl <= *end; *++tbl <<= 1)\r
if(filter(*tbl) ^ filter(*tbl | 1)) { // replace\r
*tbl |= filter(*tbl) ^ bit;\r
} else if(filter(*tbl) == bit) { // insert\r
}\r
\r
bucket_sort_intersect(e_head, e_tail, o_head, o_tail, &bucket_info, bucket);\r
- \r
+\r
for (int i = bucket_info.numbuckets - 1; i >= 0; i--) {\r
sl = recover(bucket_info.bucket_info[1][i].head, bucket_info.bucket_info[1][i].tail, oks,\r
bucket_info.bucket_info[0][i].head, bucket_info.bucket_info[0][i].tail, eks,\r
rem, sl, in, bucket);\r
}\r
- \r
+\r
return sl;\r
}\r
/** lfsr_recovery\r
}\r
}\r
\r
- \r
+\r
// initialize statelists: add all possible states which would result into the rightmost 2 bits of the keystream\r
for(i = 1 << 20; i >= 0; --i) {\r
if(filter(i) == (oks & 1))\r
for (uint32_t i = 0; i < 2; i++)\r
for (uint32_t j = 0; j <= 0xff; j++)\r
free(bucket[i][j].head);\r
- \r
+\r
return statelist;\r
}\r
\r
void lfsr_rollback_bit(struct Crypto1State *s, uint32_t in, int fb)\r
{\r
int out;\r
+ uint32_t tmp;\r
\r
s->odd &= 0xffffff;\r
- s->odd ^= (s->odd ^= s->even, s->even ^= s->odd);\r
+ tmp = s->odd;\r
+ s->odd = s->even;\r
+ s->even = tmp;\r
\r
out = s->even & 1;\r
out ^= LF_POLY_EVEN & (s->even >>= 1);\r
for(c = 0; c < 8; ++c) {\r
s.odd = odd ^ fastfwd[1][c];\r
s.even = even ^ fastfwd[0][c];\r
- \r
+\r
lfsr_rollback_bit(&s, 0, 0);\r
lfsr_rollback_bit(&s, 0, 0);\r
lfsr_rollback_bit(&s, 0, 0);\r
- \r
+\r
lfsr_rollback_word(&s, 0, 0);\r
lfsr_rollback_word(&s, prefix | c << 5, 1);\r
- \r
+\r
sl->odd = s.odd;\r
sl->even = s.even;\r
- \r
+\r
if (no_chk)\r
break;\r
- \r
+\r
ks1 = crypto1_word(&s, prefix | c << 5, 1);\r
ks2 = crypto1_word(&s,0,0);\r
ks3 = crypto1_word(&s, 0,0);\r
}\r
\r
return ++sl;\r
-} \r
+}\r
\r
\r
/** lfsr_common_prefix\r
odd = lfsr_prefix_ks(ks, 1);\r
even = lfsr_prefix_ks(ks, 0);\r
\r
- statelist = malloc((sizeof *statelist) << 21); //how large should be? \r
+ statelist = malloc((sizeof *statelist) << 21); //how large should be?\r
if(!statelist || !odd || !even)\r
{\r
free(statelist);\r
free(odd);\r
free(even);\r
- return 0;\r
+ return 0;\r
}\r
\r
s = statelist;\r
s = brute_top(pfx, rr, par, *o, *e, s, no_par);\r
}\r
\r
- s->odd = s->even = -1; \r
+ s->odd = s->even = -1;\r
//printf("state count = %d\n",s-statelist);\r
\r
free(odd);\r