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/*
* Copyright (c) 2006 - 2008 Kungliga Tekniska Högskolan
* (Royal Institute of Technology, Stockholm, Sweden).
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the Institute nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <krb5-types.h>
#include <rfc2459_asn1.h>
#include <der.h>
#include <rsa.h>
#include "common.h"
#include <roken.h>
/**
* @page page_rsa RSA - public-key cryptography
*
* RSA is named by its inventors (Ron Rivest, Adi Shamir, and Leonard
* Adleman) (published in 1977), patented expired in 21 September 2000.
*
*
* Speed for RSA in seconds
* no key blinding
* 1000 iteration,
* same rsa key
* operation performed each eteration sign, verify, encrypt, decrypt on a random bit pattern
*
* gmp: 0.733615
* tfm: 2.450173
* ltm: 3.79 (default in hcrypto)
* openssl: 4.04
* cdsa: 15.89
* imath: 40.62
*
* See the library functions here: @ref hcrypto_rsa
*/
/**
* Same as RSA_new_method() using NULL as engine.
*
* @return a newly allocated RSA object. Free with RSA_free().
*
* @ingroup hcrypto_rsa
*/
RSA *
RSA_new(void)
{
return RSA_new_method(NULL);
}
/**
* Allocate a new RSA object using the engine, if NULL is specified as
* the engine, use the default RSA engine as returned by
* ENGINE_get_default_RSA().
*
* @param engine Specific what ENGINE RSA provider should be used.
*
* @return a newly allocated RSA object. Free with RSA_free().
*
* @ingroup hcrypto_rsa
*/
RSA *
RSA_new_method(ENGINE *engine)
{
RSA *rsa;
rsa = calloc(1, sizeof(*rsa));
if (rsa == NULL)
return NULL;
rsa->references = 1;
if (engine) {
ENGINE_up_ref(engine);
rsa->engine = engine;
} else {
rsa->engine = ENGINE_get_default_RSA();
}
if (rsa->engine) {
rsa->meth = ENGINE_get_RSA(rsa->engine);
if (rsa->meth == NULL) {
ENGINE_finish(engine);
free(rsa);
return 0;
}
}
if (rsa->meth == NULL)
rsa->meth = rk_UNCONST(RSA_get_default_method());
(*rsa->meth->init)(rsa);
return rsa;
}
/**
* Free an allocation RSA object.
*
* @param rsa the RSA object to free.
* @ingroup hcrypto_rsa
*/
void
RSA_free(RSA *rsa)
{
if (rsa->references <= 0)
abort();
if (--rsa->references > 0)
return;
(*rsa->meth->finish)(rsa);
if (rsa->engine)
ENGINE_finish(rsa->engine);
#define free_if(f) if (f) { BN_free(f); }
free_if(rsa->n);
free_if(rsa->e);
free_if(rsa->d);
free_if(rsa->p);
free_if(rsa->q);
free_if(rsa->dmp1);
free_if(rsa->dmq1);
free_if(rsa->iqmp);
#undef free_if
memset(rsa, 0, sizeof(*rsa));
free(rsa);
}
/**
* Add an extra reference to the RSA object. The object should be free
* with RSA_free() to drop the reference.
*
* @param rsa the object to add reference counting too.
*
* @return the current reference count, can't safely be used except
* for debug printing.
*
* @ingroup hcrypto_rsa
*/
int
RSA_up_ref(RSA *rsa)
{
return ++rsa->references;
}
/**
* Return the RSA_METHOD used for this RSA object.
*
* @param rsa the object to get the method from.
*
* @return the method used for this RSA object.
*
* @ingroup hcrypto_rsa
*/
const RSA_METHOD *
RSA_get_method(const RSA *rsa)
{
return rsa->meth;
}
/**
* Set a new method for the RSA keypair.
*
* @param rsa rsa parameter.
* @param method the new method for the RSA parameter.
*
* @return 1 on success.
*
* @ingroup hcrypto_rsa
*/
int
RSA_set_method(RSA *rsa, const RSA_METHOD *method)
{
(*rsa->meth->finish)(rsa);
if (rsa->engine) {
ENGINE_finish(rsa->engine);
rsa->engine = NULL;
}
rsa->meth = method;
(*rsa->meth->init)(rsa);
return 1;
}
/**
* Set the application data for the RSA object.
*
* @param rsa the rsa object to set the parameter for
* @param arg the data object to store
*
* @return 1 on success.
*
* @ingroup hcrypto_rsa
*/
int
RSA_set_app_data(RSA *rsa, void *arg)
{
rsa->ex_data.sk = arg;
return 1;
}
/**
* Get the application data for the RSA object.
*
* @param rsa the rsa object to get the parameter for
*
* @return the data object
*
* @ingroup hcrypto_rsa
*/
void *
RSA_get_app_data(const RSA *rsa)
{
return rsa->ex_data.sk;
}
int
RSA_check_key(const RSA *key)
{
static const unsigned char inbuf[] = "hello, world!";
RSA *rsa = rk_UNCONST(key);
void *buffer;
int ret;
/*
* XXX I have no clue how to implement this w/o a bignum library.
* Well, when we have a RSA key pair, we can try to encrypt/sign
* and then decrypt/verify.
*/
if ((rsa->d == NULL || rsa->n == NULL) &&
(rsa->p == NULL || rsa->q || rsa->dmp1 == NULL || rsa->dmq1 == NULL || rsa->iqmp == NULL))
return 0;
buffer = malloc(RSA_size(rsa));
if (buffer == NULL)
return 0;
ret = RSA_private_encrypt(sizeof(inbuf), inbuf, buffer,
rsa, RSA_PKCS1_PADDING);
if (ret == -1) {
free(buffer);
return 0;
}
ret = RSA_public_decrypt(ret, buffer, buffer,
rsa, RSA_PKCS1_PADDING);
if (ret == -1) {
free(buffer);
return 0;
}
if (ret == sizeof(inbuf) && ct_memcmp(buffer, inbuf, sizeof(inbuf)) == 0) {
free(buffer);
return 1;
}
free(buffer);
return 0;
}
int
RSA_size(const RSA *rsa)
{
return BN_num_bytes(rsa->n);
}
#define RSAFUNC(name, body) \
int \
name(int flen,const unsigned char* f, unsigned char* t, RSA* r, int p){\
return body; \
}
RSAFUNC(RSA_public_encrypt, (r)->meth->rsa_pub_enc(flen, f, t, r, p))
RSAFUNC(RSA_public_decrypt, (r)->meth->rsa_pub_dec(flen, f, t, r, p))
RSAFUNC(RSA_private_encrypt, (r)->meth->rsa_priv_enc(flen, f, t, r, p))
RSAFUNC(RSA_private_decrypt, (r)->meth->rsa_priv_dec(flen, f, t, r, p))
static const heim_octet_string null_entry_oid = { 2, rk_UNCONST("\x05\x00") };
static const unsigned sha1_oid_tree[] = { 1, 3, 14, 3, 2, 26 };
static const AlgorithmIdentifier _signature_sha1_data = {
{ 6, rk_UNCONST(sha1_oid_tree) }, rk_UNCONST(&null_entry_oid)
};
static const unsigned sha256_oid_tree[] = { 2, 16, 840, 1, 101, 3, 4, 2, 1 };
static const AlgorithmIdentifier _signature_sha256_data = {
{ 9, rk_UNCONST(sha256_oid_tree) }, rk_UNCONST(&null_entry_oid)
};
static const unsigned md5_oid_tree[] = { 1, 2, 840, 113549, 2, 5 };
static const AlgorithmIdentifier _signature_md5_data = {
{ 6, rk_UNCONST(md5_oid_tree) }, rk_UNCONST(&null_entry_oid)
};
int
RSA_sign(int type, const unsigned char *from, unsigned int flen,
unsigned char *to, unsigned int *tlen, RSA *rsa)
{
if (rsa->meth->rsa_sign)
return rsa->meth->rsa_sign(type, from, flen, to, tlen, rsa);
if (rsa->meth->rsa_priv_enc) {
heim_octet_string indata;
DigestInfo di;
size_t size;
int ret;
memset(&di, 0, sizeof(di));
if (type == NID_sha1) {
di.digestAlgorithm = _signature_sha1_data;
} else if (type == NID_md5) {
di.digestAlgorithm = _signature_md5_data;
} else if (type == NID_sha256) {
di.digestAlgorithm = _signature_sha256_data;
} else
return -1;
di.digest.data = rk_UNCONST(from);
di.digest.length = flen;
ASN1_MALLOC_ENCODE(DigestInfo,
indata.data,
indata.length,
&di,
&size,
ret);
if (ret)
return ret;
if (indata.length != size)
abort();
ret = rsa->meth->rsa_priv_enc(indata.length, indata.data, to,
rsa, RSA_PKCS1_PADDING);
free(indata.data);
if (ret > 0) {
*tlen = ret;
ret = 1;
} else
ret = 0;
return ret;
}
return 0;
}
int
RSA_verify(int type, const unsigned char *from, unsigned int flen,
unsigned char *sigbuf, unsigned int siglen, RSA *rsa)
{
if (rsa->meth->rsa_verify)
return rsa->meth->rsa_verify(type, from, flen, sigbuf, siglen, rsa);
if (rsa->meth->rsa_pub_dec) {
const AlgorithmIdentifier *digest_alg;
void *data;
DigestInfo di;
size_t size;
int ret, ret2;
data = malloc(RSA_size(rsa));
if (data == NULL)
return -1;
memset(&di, 0, sizeof(di));
ret = rsa->meth->rsa_pub_dec(siglen, sigbuf, data, rsa, RSA_PKCS1_PADDING);
if (ret <= 0) {
free(data);
return -2;
}
ret2 = decode_DigestInfo(data, ret, &di, &size);
free(data);
if (ret2 != 0)
return -3;
if (ret != size) {
free_DigestInfo(&di);
return -4;
}
if (flen != di.digest.length || memcmp(di.digest.data, from, flen) != 0) {
free_DigestInfo(&di);
return -5;
}
if (type == NID_sha1) {
digest_alg = &_signature_sha1_data;
} else if (type == NID_md5) {
digest_alg = &_signature_md5_data;
} else if (type == NID_sha256) {
digest_alg = &_signature_sha256_data;
} else {
free_DigestInfo(&di);
return -1;
}
ret = der_heim_oid_cmp(&digest_alg->algorithm,
&di.digestAlgorithm.algorithm);
free_DigestInfo(&di);
if (ret != 0)
return 0;
return 1;
}
return 0;
}
/*
* A NULL RSA_METHOD that returns failure for all operations. This is
* used as the default RSA method if we don't have any native
* support.
*/
static RSAFUNC(null_rsa_public_encrypt, -1)
static RSAFUNC(null_rsa_public_decrypt, -1)
static RSAFUNC(null_rsa_private_encrypt, -1)
static RSAFUNC(null_rsa_private_decrypt, -1)
/*
*
*/
int
RSA_generate_key_ex(RSA *r, int bits, BIGNUM *e, BN_GENCB *cb)
{
if (r->meth->rsa_keygen)
return (*r->meth->rsa_keygen)(r, bits, e, cb);
return 0;
}
/*
*
*/
static int
null_rsa_init(RSA *rsa)
{
return 1;
}
static int
null_rsa_finish(RSA *rsa)
{
return 1;
}
static const RSA_METHOD rsa_null_method = {
"hcrypto null RSA",
null_rsa_public_encrypt,
null_rsa_public_decrypt,
null_rsa_private_encrypt,
null_rsa_private_decrypt,
NULL,
NULL,
null_rsa_init,
null_rsa_finish,
0,
NULL,
NULL,
NULL
};
const RSA_METHOD *
RSA_null_method(void)
{
return &rsa_null_method;
}
extern const RSA_METHOD hc_rsa_gmp_method;
extern const RSA_METHOD hc_rsa_imath_method;
extern const RSA_METHOD hc_rsa_tfm_method;
extern const RSA_METHOD hc_rsa_ltm_method;
static const RSA_METHOD *default_rsa_method = &hc_rsa_ltm_method;
const RSA_METHOD *
RSA_get_default_method(void)
{
return default_rsa_method;
}
void
RSA_set_default_method(const RSA_METHOD *meth)
{
default_rsa_method = meth;
}
/*
*
*/
RSA *
d2i_RSAPrivateKey(RSA *rsa, const unsigned char **pp, size_t len)
{
RSAPrivateKey data;
RSA *k = rsa;
size_t size;
int ret;
ret = decode_RSAPrivateKey(*pp, len, &data, &size);
if (ret)
return NULL;
*pp += size;
if (k == NULL) {
k = RSA_new();
if (k == NULL) {
free_RSAPrivateKey(&data);
return NULL;
}
}
k->n = _hc_integer_to_BN(&data.modulus, NULL);
k->e = _hc_integer_to_BN(&data.publicExponent, NULL);
k->d = _hc_integer_to_BN(&data.privateExponent, NULL);
k->p = _hc_integer_to_BN(&data.prime1, NULL);
k->q = _hc_integer_to_BN(&data.prime2, NULL);
k->dmp1 = _hc_integer_to_BN(&data.exponent1, NULL);
k->dmq1 = _hc_integer_to_BN(&data.exponent2, NULL);
k->iqmp = _hc_integer_to_BN(&data.coefficient, NULL);
free_RSAPrivateKey(&data);
if (k->n == NULL || k->e == NULL || k->d == NULL || k->p == NULL ||
k->q == NULL || k->dmp1 == NULL || k->dmq1 == NULL || k->iqmp == NULL)
{
RSA_free(k);
return NULL;
}
return k;
}
int
i2d_RSAPrivateKey(RSA *rsa, unsigned char **pp)
{
RSAPrivateKey data;
size_t size;
int ret;
if (rsa->n == NULL || rsa->e == NULL || rsa->d == NULL || rsa->p == NULL ||
rsa->q == NULL || rsa->dmp1 == NULL || rsa->dmq1 == NULL ||
rsa->iqmp == NULL)
return -1;
memset(&data, 0, sizeof(data));
ret = _hc_BN_to_integer(rsa->n, &data.modulus);
ret |= _hc_BN_to_integer(rsa->e, &data.publicExponent);
ret |= _hc_BN_to_integer(rsa->d, &data.privateExponent);
ret |= _hc_BN_to_integer(rsa->p, &data.prime1);
ret |= _hc_BN_to_integer(rsa->q, &data.prime2);
ret |= _hc_BN_to_integer(rsa->dmp1, &data.exponent1);
ret |= _hc_BN_to_integer(rsa->dmq1, &data.exponent2);
ret |= _hc_BN_to_integer(rsa->iqmp, &data.coefficient);
if (ret) {
free_RSAPrivateKey(&data);
return -1;
}
if (pp == NULL) {
size = length_RSAPrivateKey(&data);
free_RSAPrivateKey(&data);
} else {
void *p;
size_t len;
ASN1_MALLOC_ENCODE(RSAPrivateKey, p, len, &data, &size, ret);
free_RSAPrivateKey(&data);
if (ret)
return -1;
if (len != size)
abort();
memcpy(*pp, p, size);
free(p);
*pp += size;
}
return size;
}
int
i2d_RSAPublicKey(RSA *rsa, unsigned char **pp)
{
RSAPublicKey data;
size_t size;
int ret;
memset(&data, 0, sizeof(data));
if (_hc_BN_to_integer(rsa->n, &data.modulus) ||
_hc_BN_to_integer(rsa->e, &data.publicExponent))
{
free_RSAPublicKey(&data);
return -1;
}
if (pp == NULL) {
size = length_RSAPublicKey(&data);
free_RSAPublicKey(&data);
} else {
void *p;
size_t len;
ASN1_MALLOC_ENCODE(RSAPublicKey, p, len, &data, &size, ret);
free_RSAPublicKey(&data);
if (ret)
return -1;
if (len != size)
abort();
memcpy(*pp, p, size);
free(p);
*pp += size;
}
return size;
}
RSA *
d2i_RSAPublicKey(RSA *rsa, const unsigned char **pp, size_t len)
{
RSAPublicKey data;
RSA *k = rsa;
size_t size;
int ret;
ret = decode_RSAPublicKey(*pp, len, &data, &size);
if (ret)
return NULL;
*pp += size;
if (k == NULL) {
k = RSA_new();
if (k == NULL) {
free_RSAPublicKey(&data);
return NULL;
}
}
k->n = _hc_integer_to_BN(&data.modulus, NULL);
k->e = _hc_integer_to_BN(&data.publicExponent, NULL);
free_RSAPublicKey(&data);
if (k->n == NULL || k->e == NULL) {
RSA_free(k);
return NULL;
}
return k;
}
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