diff options
| author | Rob Austein <sra@hactrn.net> | 2017-09-13 20:20:55 -0400 |
|---|---|---|
| committer | Rob Austein <sra@hactrn.net> | 2017-09-13 20:20:55 -0400 |
| commit | 410e0cf1d22c67585f0a5346e62f60aa4e90fe05 (patch) | |
| tree | 4650beec709d2128e6a03a5b09645e295c7a2797 /rsa.c | |
| parent | 5522df4f68bfa66b9b4446fdfb92783694586f70 (diff) | |
Preliminary support for parallel core RSA CRT.
Diffstat (limited to 'rsa.c')
| -rw-r--r-- | rsa.c | 138 |
1 files changed, 119 insertions, 19 deletions
@@ -233,16 +233,20 @@ static hal_error_t modexp(hal_core_t *core, uint8_t modbuf[mod_len]; uint8_t resbuf[mod_len]; + hal_modexp_arg_t args = { + .core = core, + .msg = msgbuf, .msg_len = sizeof(msgbuf), + .exp = expbuf, .exp_len = sizeof(expbuf), + .mod = modbuf, .mod_len = sizeof(modbuf), + .result = resbuf, .result_len = sizeof(resbuf), + .coeff = coeff, .coeff_len = coeff_len, + .mont = mont, .mont_len = mont_len + }; + if ((err = unpack_fp(msg, msgbuf, sizeof(msgbuf))) != HAL_OK || (err = unpack_fp(exp, expbuf, sizeof(expbuf))) != HAL_OK || (err = unpack_fp(mod, modbuf, sizeof(modbuf))) != HAL_OK || - (err = hal_modexp(core, precalc, - msgbuf, sizeof(msgbuf), - expbuf, sizeof(expbuf), - modbuf, sizeof(modbuf), - resbuf, sizeof(resbuf), - coeff, coeff_len, - mont, mont_len)) != HAL_OK) + (err = hal_modexp(precalc, &args)) != HAL_OK) goto fail; fp_read_unsigned_bin(res, resbuf, sizeof(resbuf)); @@ -252,6 +256,83 @@ static hal_error_t modexp(hal_core_t *core, memset(expbuf, 0, sizeof(expbuf)); memset(modbuf, 0, sizeof(modbuf)); memset(resbuf, 0, sizeof(resbuf)); + memset(&args, 0, sizeof(args)); + return err; +} + +static hal_error_t modexp2(const int precalc, + const fp_int * const msg, + hal_core_t *core1, + const fp_int * const exp1, + const fp_int * const mod1, + fp_int * res1, + uint8_t *coeff1, const size_t coeff1_len, + uint8_t *mont1, const size_t mont1_len, + hal_core_t *core2, + const fp_int * const exp2, + const fp_int * const mod2, + fp_int * res2, + uint8_t *coeff2, const size_t coeff2_len, + uint8_t *mont2, const size_t mont2_len) +{ + hal_error_t err = HAL_OK; + + if (msg == NULL || + exp1 == NULL || mod1 == NULL || res1 == NULL || coeff1 == NULL || mont1 == NULL || + exp2 == NULL || mod2 == NULL || res2 == NULL || coeff2 == NULL || mont2 == NULL) + return HAL_ERROR_IMPOSSIBLE; + + const size_t msg_len = (fp_unsigned_bin_size(unconst_fp_int(msg)) + 3) & ~3; + const size_t exp1_len = (fp_unsigned_bin_size(unconst_fp_int(exp1)) + 3) & ~3; + const size_t mod1_len = (fp_unsigned_bin_size(unconst_fp_int(mod1)) + 3) & ~3; + const size_t exp2_len = (fp_unsigned_bin_size(unconst_fp_int(exp2)) + 3) & ~3; + const size_t mod2_len = (fp_unsigned_bin_size(unconst_fp_int(mod2)) + 3) & ~3; + + uint8_t msgbuf[msg_len]; + uint8_t expbuf1[exp1_len], modbuf1[mod1_len], resbuf1[mod1_len]; + uint8_t expbuf2[exp2_len], modbuf2[mod2_len], resbuf2[mod2_len]; + + hal_modexp_arg_t args1 = { + .core = core1, + .msg = msgbuf, .msg_len = sizeof(msgbuf), + .exp = expbuf1, .exp_len = sizeof(expbuf1), + .mod = modbuf1, .mod_len = sizeof(modbuf1), + .result = resbuf1, .result_len = sizeof(resbuf1), + .coeff = coeff1, .coeff_len = coeff1_len, + .mont = mont1, .mont_len = mont1_len + }; + + hal_modexp_arg_t args2 = { + .core = core2, + .msg = msgbuf, .msg_len = sizeof(msgbuf), + .exp = expbuf2, .exp_len = sizeof(expbuf2), + .mod = modbuf2, .mod_len = sizeof(modbuf2), + .result = resbuf2, .result_len = sizeof(resbuf2), + .coeff = coeff2, .coeff_len = coeff2_len, + .mont = mont2, .mont_len = mont2_len + }; + + if ((err = unpack_fp(msg, msgbuf, sizeof(msgbuf))) != HAL_OK || + (err = unpack_fp(exp1, expbuf1, sizeof(expbuf1))) != HAL_OK || + (err = unpack_fp(mod1, modbuf1, sizeof(modbuf1))) != HAL_OK || + (err = unpack_fp(exp2, expbuf2, sizeof(expbuf2))) != HAL_OK || + (err = unpack_fp(mod2, modbuf2, sizeof(modbuf2))) != HAL_OK || + (err = hal_modexp2(precalc, &args1, &args2)) != HAL_OK) + goto fail; + + fp_read_unsigned_bin(res1, resbuf1, sizeof(resbuf1)); + fp_read_unsigned_bin(res2, resbuf2, sizeof(resbuf2)); + + fail: + memset(msgbuf, 0, sizeof(msgbuf)); + memset(expbuf1, 0, sizeof(expbuf1)); + memset(modbuf1, 0, sizeof(modbuf1)); + memset(resbuf1, 0, sizeof(resbuf1)); + memset(&args1, 0, sizeof(args1)); + memset(expbuf2, 0, sizeof(expbuf2)); + memset(modbuf2, 0, sizeof(modbuf2)); + memset(resbuf2, 0, sizeof(resbuf2)); + memset(&args2, 0, sizeof(args2)); return err; } @@ -280,6 +361,28 @@ static hal_error_t modexp(const hal_core_t *core, /* ignored */ return err; } +static hal_error_t modexp2(const int precalc, /* ignored */ + const fp_int * const msg, + hal_core_t *core1, /* ignored */ + const fp_int * const exp1, + const fp_int * const mod1, + fp_int * res1, + uint8_t *coeff1, const size_t coeff1_len, /* ignored */ + uint8_t *mont1, const size_t mont1_len, /* ignored */ + hal_core_t *core2, /* ignored */ + const fp_int * const exp2, + const fp_int * const mod2, + fp_int * res2, + uint8_t *coeff2, const size_t coeff2_len, /* ignored */ + uint8_t *mont2, const size_t mont2_len) /* ignored */ +{ + hal_error_t err = HAL_OK; + FP_CHECK(fp_exptmod(unconst_fp_int(msg), unconst_fp_int(exp1), unconst_fp_int(mod1), res1)); + FP_CHECK(fp_exptmod(unconst_fp_int(msg), unconst_fp_int(exp2), unconst_fp_int(mod2), res2)); + fail: + return err; +} + #endif /* HAL_RSA_SIGN_USE_MODEXP */ /* @@ -351,7 +454,7 @@ static hal_error_t create_blinding_factors(hal_core_t *core, hal_rsa_key_t *key, * RSA decryption via Chinese Remainder Theorem (Garner's formula). */ -static hal_error_t rsa_crt(hal_core_t *core, hal_rsa_key_t *key, fp_int *msg, fp_int *sig) +static hal_error_t rsa_crt(hal_core_t *core1, hal_core_t *core2, hal_rsa_key_t *key, fp_int *msg, fp_int *sig) { if (key == NULL || msg == NULL || sig == NULL) return HAL_ERROR_IMPOSSIBLE; @@ -368,7 +471,7 @@ static hal_error_t rsa_crt(hal_core_t *core, hal_rsa_key_t *key, fp_int *msg, fp * Handle blinding if requested. */ if (blinding) { - if ((err = create_blinding_factors(core, key, bf, ubf)) != HAL_OK) + if ((err = create_blinding_factors(core1, key, bf, ubf)) != HAL_OK) goto fail; FP_CHECK(fp_mulmod(msg, bf, unconst_fp_int(key->n), msg)); } @@ -376,14 +479,10 @@ static hal_error_t rsa_crt(hal_core_t *core, hal_rsa_key_t *key, fp_int *msg, fp /* * m1 = msg ** dP mod p * m2 = msg ** dQ mod q - * - * This is just crying out to be done with parallel cores, but get - * the boring version working before jumping off that cliff. */ - if ((err = modexp(core, precalc, msg, key->dP, key->p, m1, - key->pC, sizeof(key->pC), key->pF, sizeof(key->pF))) != HAL_OK || - (err = modexp(core, precalc, msg, key->dQ, key->q, m2, - key->qC, sizeof(key->qC), key->qF, sizeof(key->qF))) != HAL_OK) + if ((err = modexp2(precalc, msg, + core1, key->dP, key->p, m1, key->pC, sizeof(key->pC), key->pF, sizeof(key->pF), + core2, key->dQ, key->q, m2, key->qC, sizeof(key->qC), key->qF, sizeof(key->qF))) != HAL_OK) goto fail; if (precalc) @@ -462,7 +561,8 @@ hal_error_t hal_rsa_encrypt(hal_core_t *core, return err; } -hal_error_t hal_rsa_decrypt(hal_core_t *core, +hal_error_t hal_rsa_decrypt(hal_core_t *core1, + hal_core_t *core2, hal_rsa_key_t *key, const uint8_t * const input, const size_t input_len, uint8_t * output, const size_t output_len) @@ -484,11 +584,11 @@ hal_error_t hal_rsa_decrypt(hal_core_t *core, if (!fp_iszero(key->p) && !fp_iszero(key->q) && !fp_iszero(key->u) && !fp_iszero(key->dP) && !fp_iszero(key->dQ)) - err = rsa_crt(core, key, i, o); + err = rsa_crt(core1, core2, key, i, o); else { const int precalc = !(key->flags & RSA_FLAG_PRECALC_N_DONE); - err = modexp(core, precalc, i, key->d, key->n, o, key->nC, sizeof(key->nC), + err = modexp(core1, precalc, i, key->d, key->n, o, key->nC, sizeof(key->nC), key->nF, sizeof(key->nF)); if (err == HAL_OK && precalc) key->flags |= RSA_FLAG_PRECALC_N_DONE | RSA_FLAG_NEEDS_SAVING; |