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rsa
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rsa_default_keygen.c
(1.35 KB)
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rsa_default_modulus.c
(1.33 KB)
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rsa_default_oaep_decrypt.c
(1.38 KB)
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rsa_default_oaep_encrypt.c
(1.38 KB)
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rsa_default_pkcs1_sign.c
(1.37 KB)
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rsa_default_pkcs1_vrfy.c
(1.37 KB)
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rsa_default_priv.c
(1.35 KB)
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rsa_default_privexp.c
(1.33 KB)
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rsa_default_pss_sign.c
(1.36 KB)
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rsa_default_pss_vrfy.c
(1.36 KB)
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rsa_default_pub.c
(1.35 KB)
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rsa_default_pubexp.c
(1.32 KB)
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rsa_i15_keygen.c
(16.04 KB)
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rsa_i15_modulus.c
(2.48 KB)
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rsa_i15_oaep_decrypt.c
(1.49 KB)
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rsa_i15_oaep_encrypt.c
(1.58 KB)
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rsa_i15_pkcs1_sign.c
(1.44 KB)
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rsa_i15_pkcs1_vrfy.c
(1.57 KB)
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rsa_i15_priv.c
(5.35 KB)
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rsa_i15_privexp.c
(9.75 KB)
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rsa_i15_pss_sign.c
(1.51 KB)
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rsa_i15_pss_vrfy.c
(1.59 KB)
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rsa_i15_pub.c
(2.8 KB)
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rsa_i15_pubexp.c
(4.13 KB)
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rsa_i31_keygen.c
(1.44 KB)
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rsa_i31_keygen_inner.c
(16.94 KB)
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rsa_i31_modulus.c
(2.48 KB)
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rsa_i31_oaep_decrypt.c
(1.49 KB)
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rsa_i31_oaep_encrypt.c
(1.58 KB)
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rsa_i31_pkcs1_sign.c
(1.44 KB)
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rsa_i31_pkcs1_vrfy.c
(1.57 KB)
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rsa_i31_priv.c
(5.26 KB)
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rsa_i31_privexp.c
(9.7 KB)
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rsa_i31_pss_sign.c
(1.51 KB)
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rsa_i31_pss_vrfy.c
(1.59 KB)
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rsa_i31_pub.c
(2.66 KB)
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rsa_i31_pubexp.c
(4.11 KB)
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rsa_i32_oaep_decrypt.c
(1.49 KB)
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rsa_i32_oaep_encrypt.c
(1.58 KB)
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rsa_i32_pkcs1_sign.c
(1.44 KB)
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rsa_i32_pkcs1_vrfy.c
(1.57 KB)
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rsa_i32_priv.c
(4.37 KB)
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rsa_i32_pss_sign.c
(1.51 KB)
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rsa_i32_pss_vrfy.c
(1.59 KB)
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rsa_i32_pub.c
(2.22 KB)
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rsa_i62_keygen.c
(1.65 KB)
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rsa_i62_oaep_decrypt.c
(1.74 KB)
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rsa_i62_oaep_encrypt.c
(1.82 KB)
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rsa_i62_pkcs1_sign.c
(1.68 KB)
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rsa_i62_pkcs1_vrfy.c
(1.81 KB)
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rsa_i62_priv.c
(5.64 KB)
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rsa_i62_pss_sign.c
(1.74 KB)
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rsa_i62_pss_vrfy.c
(1.82 KB)
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rsa_i62_pub.c
(2.88 KB)
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rsa_oaep_pad.c
(3.05 KB)
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rsa_oaep_unpad.c
(4.12 KB)
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rsa_pkcs1_sig_pad.c
(2.87 KB)
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rsa_pkcs1_sig_unpad.c
(3.44 KB)
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rsa_pss_sig_pad.c
(2.99 KB)
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rsa_pss_sig_unpad.c
(3.22 KB)
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rsa_ssl_decrypt.c
(1.71 KB)
Editing: rsa_i15_pubexp.c
/* * Copyright (c) 2018 Thomas Pornin <pornin@bolet.org> * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "inner.h" /* * Recompute public exponent, based on factor p and reduced private * exponent dp. */ static uint32_t get_pubexp(const unsigned char *pbuf, size_t plen, const unsigned char *dpbuf, size_t dplen) { /* * dp is the inverse of e modulo p-1. If p = 3 mod 4, then * p-1 = 2*((p-1)/2). Taken modulo 2, e is odd and has inverse 1; * thus, dp must be odd. * * We compute the inverse of dp modulo (p-1)/2. This requires * first reducing dp modulo (p-1)/2 (this can be done with a * conditional subtract, no need to use the generic modular * reduction function); then, we use moddiv. */ uint16_t tmp[6 * ((BR_MAX_RSA_FACTOR + 29) / 15)]; uint16_t *p, *dp, *x; size_t len; uint32_t e; /* * Compute actual factor length (in bytes) and check that it fits * under our size constraints. */ while (plen > 0 && *pbuf == 0) { pbuf ++; plen --; } if (plen == 0 || plen < 5 || plen > (BR_MAX_RSA_FACTOR / 8)) { return 0; } /* * Compute actual reduced exponent length (in bytes) and check that * it is not longer than p. */ while (dplen > 0 && *dpbuf == 0) { dpbuf ++; dplen --; } if (dplen > plen || dplen == 0 || (dplen == plen && dpbuf[0] > pbuf[0])) { return 0; } /* * Verify that p = 3 mod 4 and that dp is odd. */ if ((pbuf[plen - 1] & 3) != 3 || (dpbuf[dplen - 1] & 1) != 1) { return 0; } /* * Decode p and compute (p-1)/2. */ p = tmp; br_i15_decode(p, pbuf, plen); len = (p[0] + 31) >> 4; br_i15_rshift(p, 1); /* * Decode dp and make sure its announced bit length matches that of * p (we already know that the size of dp, in bits, does not exceed * the size of p, so we just have to copy the header word). */ dp = p + len; memset(dp, 0, len * sizeof *dp); br_i15_decode(dp, dpbuf, dplen); dp[0] = p[0]; /* * Subtract (p-1)/2 from dp if necessary. */ br_i15_sub(dp, p, NOT(br_i15_sub(dp, p, 0))); /* * If another subtraction is needed, then this means that the * value was invalid. We don't care to leak information about * invalid keys. */ if (br_i15_sub(dp, p, 0) == 0) { return 0; } /* * Invert dp modulo (p-1)/2. If the inversion fails, then the * key value was invalid. */ x = dp + len; br_i15_zero(x, p[0]); x[1] = 1; if (br_i15_moddiv(x, dp, p, br_i15_ninv15(p[1]), x + len) == 0) { return 0; } /* * We now have an inverse. We must set it to zero (error) if its * length is greater than 32 bits and/or if it is an even integer. * Take care that the bit_length function returns an encoded * bit length. */ e = (uint32_t)x[1] | ((uint32_t)x[2] << 15) | ((uint32_t)x[3] << 30); e &= -LT(br_i15_bit_length(x + 1, len - 1), 35); e &= -(e & 1); return e; } /* see bearssl_rsa.h */ uint32_t br_rsa_i15_compute_pubexp(const br_rsa_private_key *sk) { /* * Get the public exponent from both p and q. This is the right * exponent if we get twice the same value. */ uint32_t ep, eq; ep = get_pubexp(sk->p, sk->plen, sk->dp, sk->dplen); eq = get_pubexp(sk->q, sk->qlen, sk->dq, sk->dqlen); return ep & -EQ(ep, eq); }
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