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| author | Kévin Le Gouguec <kevin.legouguec@airbus.com> | 2018-12-12 08:54:57 +0100 |
|---|---|---|
| committer | Kévin Le Gouguec <kevin.legouguec@airbus.com> | 2018-12-12 08:54:57 +0100 |
| commit | f403a3a70574c1cfe80efbba39f09fe4853e2ab9 (patch) | |
| tree | dd0a30497b5c854dc7cb42763d1fde8ac4c93a2b | |
| parent | 5f68828c1bdde0b4add40db939c880aaa21c4373 (diff) | |
| download | lilliput-ae-implem-f403a3a70574c1cfe80efbba39f09fe4853e2ab9.tar.xz | |
Ajout d'une version alternative du key schedule
Dans cette version, les multiplications par Mⁱ (resp. MRⁱ) sont faites
en appliquant M (resp. MR) i fois, plutôt qu'en utilisant les
expressions données dans la spécification.
| -rw-r--r-- | src/tweakey-unrolled-multiplications.c | 127 |
1 files changed, 127 insertions, 0 deletions
diff --git a/src/tweakey-unrolled-multiplications.c b/src/tweakey-unrolled-multiplications.c new file mode 100644 index 0000000..54b3036 --- /dev/null +++ b/src/tweakey-unrolled-multiplications.c @@ -0,0 +1,127 @@ +#include <stdint.h> +#include <string.h> + +#include "parameters.h" +#include "tweakey.h" + + +#define LANE_BITS 64 +#define LANE_BYTES (LANE_BITS/8) +#define LANES_NB (TWEAKEY_BYTES/LANE_BYTES) + + +void tweakey_state_init( + uint8_t TK[TWEAKEY_BYTES], + const uint8_t key[KEY_BYTES], + const uint8_t tweak[TWEAK_BYTES] +) +{ + memcpy(TK, tweak, TWEAK_BYTES); + memcpy(TK+TWEAK_BYTES, key, KEY_BYTES); +} + + +void tweakey_state_extract( + const uint8_t TK[TWEAKEY_BYTES], + uint8_t round_constant, + uint8_t round_tweakey[ROUND_TWEAKEY_BYTES] +) +{ + memset(round_tweakey, 0, ROUND_TWEAKEY_BYTES); + + for (size_t j=0; j<LANES_NB; j++) + { + const uint8_t *TKj = TK + j*LANE_BYTES; + + for (size_t k=0; k<LANE_BYTES; k++) + { + round_tweakey[k] ^= TKj[k]; + } + } + + round_tweakey[0] ^= round_constant; +} + + +static void _multiply_M(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + Y[7] = X[6]; + Y[6] = X[5]; + Y[5] = X[5]<<3 ^ X[4]; + Y[4] = X[4]>>3 ^ X[3]; + Y[3] = X[2]; + Y[2] = X[6]<<2 ^ X[1]; + Y[1] = X[0]; + Y[0] = X[7]; +} + +static void _multiply_M2(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + uint8_t M_X[LANE_BYTES]; + _multiply_M(X, M_X); + _multiply_M(M_X, Y); +} + +static void _multiply_M3(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + uint8_t M_X[LANE_BYTES]; + uint8_t M2_X[LANE_BYTES]; + _multiply_M(X, M_X); + _multiply_M(M_X, M2_X); + _multiply_M(M2_X, Y); +} + +static void _multiply_MR(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + Y[0] = X[1]; + Y[1] = X[2]; + Y[2] = X[3] ^ X[4]>>3; + Y[3] = X[4]; + Y[4] = X[5] ^ X[6]<<3; + Y[5] = X[3]<<2 ^ X[6]; + Y[6] = X[7]; + Y[7] = X[0]; +} + +static void _multiply_MR2(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + uint8_t MR_X[LANE_BYTES]; + _multiply_MR(X, MR_X); + _multiply_MR(MR_X, Y); +} + +static void _multiply_MR3(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]) +{ + uint8_t MR_X[LANE_BYTES]; + uint8_t MR2_X[LANE_BYTES]; + _multiply_MR(X, MR_X); + _multiply_MR(MR_X, MR2_X); + _multiply_MR(MR2_X, Y); +} + +typedef void (*matrix_multiplication)(const uint8_t X[LANE_BYTES], uint8_t Y[LANE_BYTES]); + +static const matrix_multiplication ALPHAS[6] = { + _multiply_M, + _multiply_M2, + _multiply_M3, + _multiply_MR, + _multiply_MR2, + _multiply_MR3 +}; + + +void tweakey_state_update(uint8_t TK[TWEAKEY_BYTES]) +{ + /* Skip lane 0, as it is multiplied by the identity matrix. */ + + for (size_t j=1; j<LANES_NB; j++) + { + uint8_t *TKj = TK + j*LANE_BYTES; + + uint8_t TKj_old[LANE_BYTES]; + memcpy(TKj_old, TKj, LANE_BYTES); + + ALPHAS[j-1](TKj_old, TKj); + } +} |