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1#ifndef _CRYPTO1_BS_H
2#define _CRYPTO1_BS_H
3#include <stdbool.h>
4#include <stdint.h>
5#include <stdio.h>
6#include <string.h>
7#include <stdlib.h>
8#include <unistd.h>
9
10// bitslice type
11// while AVX supports 256 bit vector floating point operations, we need integer operations for boolean logic
12// same for AVX2 and 512 bit vectors
13// using larger vectors works but seems to generate more register pressure
14#if defined(__AVX2__)
15#define MAX_BITSLICES 256
16#elif defined(__AVX__)
17#define MAX_BITSLICES 128
18#elif defined(__SSE2__)
19#define MAX_BITSLICES 128
20#else
21#define MAX_BITSLICES 64
22#endif
23
24#define VECTOR_SIZE (MAX_BITSLICES/8)
25typedef unsigned int __attribute__((aligned(VECTOR_SIZE))) __attribute__((vector_size(VECTOR_SIZE))) bitslice_value_t;
26typedef union {
27 bitslice_value_t value;
28 uint64_t bytes64[MAX_BITSLICES/64];
29 uint8_t bytes[MAX_BITSLICES/8];
30} bitslice_t;
31
32// filter function (f20)
33// sourced from ``Wirelessly Pickpocketing a Mifare Classic Card'' by Flavio Garcia, Peter van Rossum, Roel Verdult and Ronny Wichers Schreur
34#define f20a(a,b,c,d) (((a|b)^(a&d))^(c&((a^b)|d)))
35#define f20b(a,b,c,d) (((a&b)|c)^((a^b)&(c|d)))
36#define f20c(a,b,c,d,e) ((a|((b|e)&(d^e)))^((a^(b&d))&((c^d)|(b&e))))
37
38#define crypto1_bs_f20(s) \
39f20c(f20a((s[47- 9].value), (s[47-11].value), (s[47-13].value), (s[47-15].value)), \
40 f20b((s[47-17].value), (s[47-19].value), (s[47-21].value), (s[47-23].value)), \
41 f20b((s[47-25].value), (s[47-27].value), (s[47-29].value), (s[47-31].value)), \
42 f20a((s[47-33].value), (s[47-35].value), (s[47-37].value), (s[47-39].value)), \
43 f20b((s[47-41].value), (s[47-43].value), (s[47-45].value), (s[47-47].value)))
44
45// bit indexing
46#define get_bit(n, word) ((word >> (n)) & 1)
47#define get_vector_bit(slice, value) get_bit(slice&0x3f, value.bytes64[slice>>6])
48
49// constant ones/zeroes
50bitslice_t bs_ones;
51bitslice_t bs_zeroes;
52
53// size of crypto-1 state
54#define STATE_SIZE 48
55// size of nonce to be decrypted
56#define KEYSTREAM_SIZE 32
57// size of first uid^nonce byte to be rolled back to the initial key
58#define ROLLBACK_SIZE 8
59// number of nonces required to test to cover entire 48-bit state
60// I would have said it's 12... but bla goes with 100, so I do too
61#define NONCE_TESTS 100
62
63// state pointer management
64extern __thread bitslice_t states[KEYSTREAM_SIZE+STATE_SIZE];
65extern __thread bitslice_t * restrict state_p;
66
67// rewind to the point a0, at which KEYSTREAM_SIZE more bits can be generated
68#define crypto1_bs_rewind_a0() (state_p = &states[KEYSTREAM_SIZE])
69
70// bitsliced bytewise parity
71#define bitsliced_byte_parity(n) (n[0].value ^ n[1].value ^ n[2].value ^ n[3].value ^ n[4].value ^ n[5].value ^ n[6].value ^ n[7].value)
72
73// 48-bit crypto-1 states are normally represented using 64-bit values
74typedef union {
75 uint64_t value;
76 uint8_t bytes[8];
77} state_t;
78
79// endianness conversion
80#define rev32(word) (((word & 0xff) << 24) | (((word >> 8) & 0xff) << 16) | (((word >> 16) & 0xff) << 8) | (((word >> 24) & 0xff)))
81#define rev64(x) (rev32(x)<<32|(rev32((x>>32))))
82#define rev_state_t rev64
83
84// crypto-1 functions
85const bitslice_value_t crypto1_bs_bit(const bitslice_value_t input, const bool is_encrypted);
86const bitslice_value_t crypto1_bs_lfsr_rollback(const bitslice_value_t input, const bool is_encrypted);
87
88// initialization functions
89void crypto1_bs_init();
90
91// conversion functions
92void crypto1_bs_bitslice_value32(uint32_t value, bitslice_t bitsliced_value[], size_t bit_len);
93void crypto1_bs_convert_states(bitslice_t bitsliced_states[], state_t regular_states[]);
94
95// debug print
96void crypto1_bs_print_states(bitslice_t *bitsliced_states);
97
98#endif // _CRYPTO1_BS_H
99
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