X-Git-Url: https://git.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/7ac59a82ab5d244407254febf5dc9b7be892d2ad..817611f5651d4e99e13f091baf098d8385c69cb8:/common/crapto1/crapto1.c?ds=sidebyside diff --git a/common/crapto1/crapto1.c b/common/crapto1/crapto1.c index 01351731..1edfca1b 100644 --- a/common/crapto1/crapto1.c +++ b/common/crapto1/crapto1.c @@ -18,7 +18,9 @@ Copyright (C) 2008-2014 bla */ #include "crapto1.h" + #include +#include "parity.h" #if !defined LOWMEM && defined __GNUC__ static uint8_t filterlut[1 << 20]; @@ -97,7 +99,7 @@ static void bucket_sort_intersect(uint32_t* const estart, uint32_t* const estop, /** binsearch * Binary search for the first occurence of *stop's MSB in sorted [start,stop] */ -static inline uint32_t* binsearch(uint32_t *start, uint32_t *stop) +/* static inline uint32_t* binsearch(uint32_t *start, uint32_t *stop) { uint32_t mid, val = *stop & 0xff000000; while(start != stop) @@ -108,7 +110,7 @@ static inline uint32_t* binsearch(uint32_t *start, uint32_t *stop) return start; } - + */ /** update_contribution * helper, calculates the partial linear feedback contributions and puts in MSB */ @@ -117,8 +119,8 @@ update_contribution(uint32_t *item, const uint32_t mask1, const uint32_t mask2) { uint32_t p = *item >> 25; - p = p << 1 | parity(*item & mask1); - p = p << 1 | parity(*item & mask2); + p = p << 1 | evenparity32(*item & mask1); + p = p << 1 | evenparity32(*item & mask2); *item = p << 24 | (*item & 0xffffff); } @@ -174,10 +176,10 @@ recover(uint32_t *o_head, uint32_t *o_tail, uint32_t oks, if(rem == -1) { for(e = e_head; e <= e_tail; ++e) { - *e = *e << 1 ^ parity(*e & LF_POLY_EVEN) ^ !!(in & 4); + *e = *e << 1 ^ evenparity32(*e & LF_POLY_EVEN) ^ !!(in & 4); for(o = o_head; o <= o_tail; ++o, ++sl) { sl->even = *o; - sl->odd = *e ^ parity(*o & LF_POLY_ODD); + sl->odd = *e ^ evenparity32(*o & LF_POLY_ODD); sl[1].odd = sl[1].even = 0; } } @@ -329,30 +331,30 @@ struct Crypto1State* lfsr_recovery64(uint32_t ks2, uint32_t ks3) continue; for(j = 0; j < 19; ++j) - low = low << 1 | parity(i & S1[j]); + low = low << 1 | evenparity32(i & S1[j]); for(j = 0; j < 32; ++j) - hi[j] = parity(i & T1[j]); + hi[j] = evenparity32(i & T1[j]); for(; tail >= table; --tail) { for(j = 0; j < 3; ++j) { *tail = *tail << 1; - *tail |= parity((i & C1[j]) ^ (*tail & C2[j])); + *tail |= evenparity32((i & C1[j]) ^ (*tail & C2[j])); if(filter(*tail) != oks[29 + j]) goto continue2; } for(j = 0; j < 19; ++j) - win = win << 1 | parity(*tail & S2[j]); + win = win << 1 | evenparity32(*tail & S2[j]); win ^= low; for(j = 0; j < 32; ++j) { - win = win << 1 ^ hi[j] ^ parity(*tail & T2[j]); + win = win << 1 ^ hi[j] ^ evenparity32(*tail & T2[j]); if(filter(win) != eks[j]) goto continue2; } - *tail = *tail << 1 | parity(LF_POLY_EVEN & *tail); - sl->odd = *tail ^ parity(LF_POLY_ODD & win); + *tail = *tail << 1 | evenparity32(LF_POLY_EVEN & *tail); + sl->odd = *tail ^ evenparity32(LF_POLY_ODD & win); sl->even = win; ++sl; sl->odd = sl->even = 0; @@ -380,7 +382,7 @@ uint8_t lfsr_rollback_bit(struct Crypto1State *s, uint32_t in, int fb) out ^= !!in; out ^= (ret = filter(s->odd)) & !!fb; - s->even |= parity(out) << 23; + s->even |= evenparity32(out) << 23; return ret; } /** lfsr_rollback_byte @@ -424,7 +426,6 @@ int nonce_distance(uint32_t from, uint32_t to) return (65535 + dist[to >> 16] - dist[from >> 16]) % 65535; } - static uint32_t fastfwd[2][8] = { { 0, 0x4BC53, 0xECB1, 0x450E2, 0x25E29, 0x6E27A, 0x2B298, 0x60ECB}, { 0, 0x1D962, 0x4BC53, 0x56531, 0xECB1, 0x135D3, 0x450E2, 0x58980}}; @@ -486,11 +487,11 @@ check_pfx_parity(uint32_t prefix, uint32_t rresp, uint8_t parities[8][8], nr = ks1 ^ (prefix | c << 5); rr = ks2 ^ rresp; - good &= parity(nr & 0x000000ff) ^ parities[c][3] ^ BIT(ks2, 24); - good &= parity(rr & 0xff000000) ^ parities[c][4] ^ BIT(ks2, 16); - good &= parity(rr & 0x00ff0000) ^ parities[c][5] ^ BIT(ks2, 8); - good &= parity(rr & 0x0000ff00) ^ parities[c][6] ^ BIT(ks2, 0); - good &= parity(rr & 0x000000ff) ^ parities[c][7] ^ ks3; + good &= evenparity32(nr & 0x000000ff) ^ parities[c][3] ^ BIT(ks2, 24); + good &= evenparity32(rr & 0xff000000) ^ parities[c][4] ^ BIT(ks2, 16); + good &= evenparity32(rr & 0x00ff0000) ^ parities[c][5] ^ BIT(ks2, 8); + good &= evenparity32(rr & 0x0000ff00) ^ parities[c][6] ^ BIT(ks2, 0); + good &= evenparity32(rr & 0x000000ff) ^ parities[c][7] ^ ks3; } return sl + good;