2008-02-28 02:34:43 +01:00
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/*
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* RSA
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* Copyright (c) 2006, Jouni Malinen <j@w1.fi>
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*
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2012-02-11 15:46:35 +01:00
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* This software may be distributed under the terms of the BSD license.
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* See README for more details.
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2008-02-28 02:34:43 +01:00
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*/
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#include "includes.h"
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#include "common.h"
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#include "asn1.h"
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#include "bignum.h"
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#include "rsa.h"
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struct crypto_rsa_key {
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int private_key; /* whether private key is set */
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struct bignum *n; /* modulus (p * q) */
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struct bignum *e; /* public exponent */
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/* The following parameters are available only if private_key is set */
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struct bignum *d; /* private exponent */
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struct bignum *p; /* prime p (factor of n) */
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struct bignum *q; /* prime q (factor of n) */
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struct bignum *dmp1; /* d mod (p - 1); CRT exponent */
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struct bignum *dmq1; /* d mod (q - 1); CRT exponent */
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struct bignum *iqmp; /* 1 / q mod p; CRT coefficient */
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};
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static const u8 * crypto_rsa_parse_integer(const u8 *pos, const u8 *end,
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struct bignum *num)
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{
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struct asn1_hdr hdr;
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if (pos == NULL)
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return NULL;
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if (asn1_get_next(pos, end - pos, &hdr) < 0 ||
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hdr.class != ASN1_CLASS_UNIVERSAL || hdr.tag != ASN1_TAG_INTEGER) {
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wpa_printf(MSG_DEBUG, "RSA: Expected INTEGER - found class %d "
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"tag 0x%x", hdr.class, hdr.tag);
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return NULL;
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}
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if (bignum_set_unsigned_bin(num, hdr.payload, hdr.length) < 0) {
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wpa_printf(MSG_DEBUG, "RSA: Failed to parse INTEGER");
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return NULL;
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}
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return hdr.payload + hdr.length;
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}
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/**
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* crypto_rsa_import_public_key - Import an RSA public key
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* @buf: Key buffer (DER encoded RSA public key)
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* @len: Key buffer length in bytes
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* Returns: Pointer to the public key or %NULL on failure
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*/
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struct crypto_rsa_key *
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crypto_rsa_import_public_key(const u8 *buf, size_t len)
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{
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struct crypto_rsa_key *key;
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struct asn1_hdr hdr;
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const u8 *pos, *end;
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key = os_zalloc(sizeof(*key));
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if (key == NULL)
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return NULL;
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key->n = bignum_init();
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key->e = bignum_init();
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if (key->n == NULL || key->e == NULL) {
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crypto_rsa_free(key);
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return NULL;
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}
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/*
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* PKCS #1, 7.1:
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* RSAPublicKey ::= SEQUENCE {
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* modulus INTEGER, -- n
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* publicExponent INTEGER -- e
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* }
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*/
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if (asn1_get_next(buf, len, &hdr) < 0 ||
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hdr.class != ASN1_CLASS_UNIVERSAL ||
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hdr.tag != ASN1_TAG_SEQUENCE) {
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wpa_printf(MSG_DEBUG, "RSA: Expected SEQUENCE "
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"(public key) - found class %d tag 0x%x",
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hdr.class, hdr.tag);
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goto error;
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}
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pos = hdr.payload;
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end = pos + hdr.length;
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pos = crypto_rsa_parse_integer(pos, end, key->n);
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pos = crypto_rsa_parse_integer(pos, end, key->e);
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if (pos == NULL)
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goto error;
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if (pos != end) {
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wpa_hexdump(MSG_DEBUG,
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"RSA: Extra data in public key SEQUENCE",
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pos, end - pos);
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goto error;
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}
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return key;
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error:
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crypto_rsa_free(key);
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return NULL;
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}
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/**
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* crypto_rsa_import_private_key - Import an RSA private key
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* @buf: Key buffer (DER encoded RSA private key)
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* @len: Key buffer length in bytes
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* Returns: Pointer to the private key or %NULL on failure
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*/
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struct crypto_rsa_key *
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crypto_rsa_import_private_key(const u8 *buf, size_t len)
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{
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struct crypto_rsa_key *key;
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struct bignum *zero;
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struct asn1_hdr hdr;
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const u8 *pos, *end;
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key = os_zalloc(sizeof(*key));
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if (key == NULL)
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return NULL;
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key->private_key = 1;
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key->n = bignum_init();
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key->e = bignum_init();
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key->d = bignum_init();
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key->p = bignum_init();
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key->q = bignum_init();
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key->dmp1 = bignum_init();
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key->dmq1 = bignum_init();
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key->iqmp = bignum_init();
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if (key->n == NULL || key->e == NULL || key->d == NULL ||
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key->p == NULL || key->q == NULL || key->dmp1 == NULL ||
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key->dmq1 == NULL || key->iqmp == NULL) {
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crypto_rsa_free(key);
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return NULL;
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}
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/*
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* PKCS #1, 7.2:
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* RSAPrivateKey ::= SEQUENCE {
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* version Version,
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* modulus INTEGER, -- n
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* publicExponent INTEGER, -- e
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* privateExponent INTEGER, -- d
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* prime1 INTEGER, -- p
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* prime2 INTEGER, -- q
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* exponent1 INTEGER, -- d mod (p-1)
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* exponent2 INTEGER, -- d mod (q-1)
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* coefficient INTEGER -- (inverse of q) mod p
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* }
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*
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* Version ::= INTEGER -- shall be 0 for this version of the standard
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*/
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if (asn1_get_next(buf, len, &hdr) < 0 ||
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hdr.class != ASN1_CLASS_UNIVERSAL ||
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hdr.tag != ASN1_TAG_SEQUENCE) {
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wpa_printf(MSG_DEBUG, "RSA: Expected SEQUENCE "
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"(public key) - found class %d tag 0x%x",
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hdr.class, hdr.tag);
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goto error;
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}
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pos = hdr.payload;
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end = pos + hdr.length;
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zero = bignum_init();
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if (zero == NULL)
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goto error;
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pos = crypto_rsa_parse_integer(pos, end, zero);
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if (pos == NULL || bignum_cmp_d(zero, 0) != 0) {
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wpa_printf(MSG_DEBUG, "RSA: Expected zero INTEGER in the "
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"beginning of private key; not found");
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bignum_deinit(zero);
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goto error;
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}
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bignum_deinit(zero);
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pos = crypto_rsa_parse_integer(pos, end, key->n);
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pos = crypto_rsa_parse_integer(pos, end, key->e);
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pos = crypto_rsa_parse_integer(pos, end, key->d);
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pos = crypto_rsa_parse_integer(pos, end, key->p);
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pos = crypto_rsa_parse_integer(pos, end, key->q);
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pos = crypto_rsa_parse_integer(pos, end, key->dmp1);
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pos = crypto_rsa_parse_integer(pos, end, key->dmq1);
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pos = crypto_rsa_parse_integer(pos, end, key->iqmp);
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if (pos == NULL)
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goto error;
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if (pos != end) {
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wpa_hexdump(MSG_DEBUG,
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"RSA: Extra data in public key SEQUENCE",
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pos, end - pos);
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goto error;
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}
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return key;
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error:
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crypto_rsa_free(key);
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return NULL;
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}
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/**
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* crypto_rsa_get_modulus_len - Get the modulus length of the RSA key
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* @key: RSA key
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* Returns: Modulus length of the key
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*/
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size_t crypto_rsa_get_modulus_len(struct crypto_rsa_key *key)
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{
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return bignum_get_unsigned_bin_len(key->n);
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}
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/**
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* crypto_rsa_exptmod - RSA modular exponentiation
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* @in: Input data
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* @inlen: Input data length
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* @out: Buffer for output data
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* @outlen: Maximum size of the output buffer and used size on success
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* @key: RSA key
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* @use_private: 1 = Use RSA private key, 0 = Use RSA public key
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* Returns: 0 on success, -1 on failure
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*/
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int crypto_rsa_exptmod(const u8 *in, size_t inlen, u8 *out, size_t *outlen,
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struct crypto_rsa_key *key, int use_private)
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{
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struct bignum *tmp, *a = NULL, *b = NULL;
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int ret = -1;
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size_t modlen;
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if (use_private && !key->private_key)
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return -1;
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tmp = bignum_init();
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if (tmp == NULL)
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return -1;
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if (bignum_set_unsigned_bin(tmp, in, inlen) < 0)
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goto error;
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if (bignum_cmp(key->n, tmp) < 0) {
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/* Too large input value for the RSA key modulus */
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goto error;
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}
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if (use_private) {
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/*
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* Decrypt (or sign) using Chinese remainer theorem to speed
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* up calculation. This is equivalent to tmp = tmp^d mod n
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* (which would require more CPU to calculate directly).
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*
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* dmp1 = (1/e) mod (p-1)
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* dmq1 = (1/e) mod (q-1)
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* iqmp = (1/q) mod p, where p > q
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* m1 = c^dmp1 mod p
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* m2 = c^dmq1 mod q
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* h = q^-1 (m1 - m2) mod p
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* m = m2 + hq
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*/
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a = bignum_init();
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b = bignum_init();
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if (a == NULL || b == NULL)
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goto error;
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/* a = tmp^dmp1 mod p */
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if (bignum_exptmod(tmp, key->dmp1, key->p, a) < 0)
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goto error;
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/* b = tmp^dmq1 mod q */
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if (bignum_exptmod(tmp, key->dmq1, key->q, b) < 0)
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goto error;
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/* tmp = (a - b) * (1/q mod p) (mod p) */
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if (bignum_sub(a, b, tmp) < 0 ||
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bignum_mulmod(tmp, key->iqmp, key->p, tmp) < 0)
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goto error;
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/* tmp = b + q * tmp */
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if (bignum_mul(tmp, key->q, tmp) < 0 ||
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bignum_add(tmp, b, tmp) < 0)
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goto error;
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} else {
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/* Encrypt (or verify signature) */
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/* tmp = tmp^e mod N */
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if (bignum_exptmod(tmp, key->e, key->n, tmp) < 0)
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goto error;
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}
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modlen = crypto_rsa_get_modulus_len(key);
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if (modlen > *outlen) {
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*outlen = modlen;
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goto error;
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}
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if (bignum_get_unsigned_bin_len(tmp) > modlen)
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goto error; /* should never happen */
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*outlen = modlen;
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os_memset(out, 0, modlen);
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if (bignum_get_unsigned_bin(
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tmp, out +
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(modlen - bignum_get_unsigned_bin_len(tmp)), NULL) < 0)
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goto error;
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ret = 0;
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error:
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bignum_deinit(tmp);
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bignum_deinit(a);
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bignum_deinit(b);
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return ret;
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}
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/**
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* crypto_rsa_free - Free RSA key
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* @key: RSA key to be freed
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*
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* This function frees an RSA key imported with either
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* crypto_rsa_import_public_key() or crypto_rsa_import_private_key().
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*/
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void crypto_rsa_free(struct crypto_rsa_key *key)
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{
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if (key) {
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bignum_deinit(key->n);
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bignum_deinit(key->e);
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bignum_deinit(key->d);
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bignum_deinit(key->p);
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bignum_deinit(key->q);
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bignum_deinit(key->dmp1);
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bignum_deinit(key->dmq1);
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bignum_deinit(key->iqmp);
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os_free(key);
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}
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}
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