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/*
* Copyright (C) 2005-2009 Martin Willi
* Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*/
#include <gcrypt.h>
#include "gcrypt_rsa_public_key.h"
#include <utils/debug.h>
#include <asn1/oid.h>
#include <asn1/asn1.h>
#include <asn1/asn1_parser.h>
#include <crypto/hashers/hasher.h>
typedef struct private_gcrypt_rsa_public_key_t private_gcrypt_rsa_public_key_t;
/**
* Private data structure with signing context.
*/
struct private_gcrypt_rsa_public_key_t {
/**
* Public interface for this signer.
*/
gcrypt_rsa_public_key_t public;
/**
* gcrypt S-expression representing an public RSA key
*/
gcry_sexp_t key;
/**
* reference counter
*/
refcount_t ref;
};
/**
* Implemented in gcrypt_rsa_private_key.c
*/
chunk_t gcrypt_rsa_find_token(gcry_sexp_t sexp, char *name, gcry_sexp_t key);
/**
* verification of a padded PKCS1 signature without an OID
*/
static bool verify_raw(private_gcrypt_rsa_public_key_t *this,
chunk_t data, chunk_t signature)
{
gcry_sexp_t in, sig;
gcry_error_t err;
chunk_t em;
size_t k;
/* EM = 0x00 || 0x01 || PS || 0x00 || T
* PS = 0xFF padding, with length to fill em
* T = data
*/
k = gcry_pk_get_nbits(this->key) / 8;
if (data.len > k - 3)
{
return FALSE;
}
em = chunk_alloc(k);
memset(em.ptr, 0xFF, em.len);
em.ptr[0] = 0x00;
em.ptr[1] = 0x01;
em.ptr[em.len - data.len - 1] = 0x00;
memcpy(em.ptr + em.len - data.len, data.ptr, data.len);
err = gcry_sexp_build(&in, NULL, "(data(flags raw)(value %b))",
em.len, em.ptr);
chunk_free(&em);
if (err)
{
DBG1(DBG_LIB, "building data S-expression failed: %s",
gpg_strerror(err));
return FALSE;
}
err = gcry_sexp_build(&sig, NULL, "(sig-val(rsa(s %b)))",
signature.len, signature.ptr);
if (err)
{
DBG1(DBG_LIB, "building signature S-expression failed: %s",
gpg_strerror(err));
gcry_sexp_release(in);
return FALSE;
}
err = gcry_pk_verify(sig, in, this->key);
gcry_sexp_release(in);
gcry_sexp_release(sig);
if (err)
{
DBG1(DBG_LIB, "RSA signature verification failed: %s",
gpg_strerror(err));
return FALSE;
}
return TRUE;
}
/**
* Verification of an EMSA PKCS1 signature described in PKCS#1
*/
static bool verify_pkcs1(private_gcrypt_rsa_public_key_t *this,
hash_algorithm_t algorithm, char *hash_name,
chunk_t data, chunk_t signature)
{
hasher_t *hasher;
chunk_t hash;
gcry_error_t err;
gcry_sexp_t in, sig;
hasher = lib->crypto->create_hasher(lib->crypto, algorithm);
if (!hasher || !hasher->allocate_hash(hasher, data, &hash))
{
DESTROY_IF(hasher);
return FALSE;
}
hasher->destroy(hasher);
err = gcry_sexp_build(&in, NULL, "(data(flags pkcs1)(hash %s %b))",
hash_name, hash.len, hash.ptr);
chunk_free(&hash);
if (err)
{
DBG1(DBG_LIB, "building data S-expression failed: %s",
gpg_strerror(err));
return FALSE;
}
err = gcry_sexp_build(&sig, NULL, "(sig-val(rsa(s %b)))",
signature.len, signature.ptr);
if (err)
{
DBG1(DBG_LIB, "building signature S-expression failed: %s",
gpg_strerror(err));
gcry_sexp_release(in);
return FALSE;
}
err = gcry_pk_verify(sig, in, this->key);
gcry_sexp_release(in);
gcry_sexp_release(sig);
if (err)
{
DBG1(DBG_LIB, "RSA signature verification failed: %s",
gpg_strerror(err));
return FALSE;
}
return TRUE;
}
METHOD(public_key_t, get_type, key_type_t,
private_gcrypt_rsa_public_key_t *this)
{
return KEY_RSA;
}
METHOD(public_key_t, verify, bool,
private_gcrypt_rsa_public_key_t *this, signature_scheme_t scheme,
chunk_t data, chunk_t signature)
{
switch (scheme)
{
case SIGN_RSA_EMSA_PKCS1_NULL:
return verify_raw(this, data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA2_224:
return verify_pkcs1(this, HASH_SHA224, "sha224", data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA2_256:
return verify_pkcs1(this, HASH_SHA256, "sha256", data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA2_384:
return verify_pkcs1(this, HASH_SHA384, "sha384", data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA2_512:
return verify_pkcs1(this, HASH_SHA512, "sha512", data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA1:
return verify_pkcs1(this, HASH_SHA1, "sha1", data, signature);
case SIGN_RSA_EMSA_PKCS1_MD5:
return verify_pkcs1(this, HASH_MD5, "md5", data, signature);
default:
DBG1(DBG_LIB, "signature scheme %N not supported in RSA",
signature_scheme_names, scheme);
return FALSE;
}
}
METHOD(public_key_t, encrypt_, bool,
private_gcrypt_rsa_public_key_t *this, encryption_scheme_t scheme,
chunk_t plain, chunk_t *encrypted)
{
gcry_sexp_t in, out;
gcry_error_t err;
if (scheme != ENCRYPT_RSA_PKCS1)
{
DBG1(DBG_LIB, "encryption scheme %N not supported",
encryption_scheme_names, scheme);
return FALSE;
}
/* "pkcs1" uses PKCS 1.5 (section 8.1) block type 2 encryption:
* 00 | 02 | RANDOM | 00 | DATA */
err = gcry_sexp_build(&in, NULL, "(data(flags pkcs1)(value %b))",
plain.len, plain.ptr);
if (err)
{
DBG1(DBG_LIB, "building encryption S-expression failed: %s",
gpg_strerror(err));
return FALSE;
}
err = gcry_pk_encrypt(&out, in, this->key);
gcry_sexp_release(in);
if (err)
{
DBG1(DBG_LIB, "encrypting data using pkcs1 failed: %s",
gpg_strerror(err));
return FALSE;
}
*encrypted = gcrypt_rsa_find_token(out, "a", this->key);
gcry_sexp_release(out);
return !!encrypted->len;
}
METHOD(public_key_t, get_keysize, int,
private_gcrypt_rsa_public_key_t *this)
{
return gcry_pk_get_nbits(this->key);
}
METHOD(public_key_t, get_encoding, bool,
private_gcrypt_rsa_public_key_t *this, cred_encoding_type_t type,
chunk_t *encoding)
{
chunk_t n, e;
bool success;
n = gcrypt_rsa_find_token(this->key, "n", NULL);
e = gcrypt_rsa_find_token(this->key, "e", NULL);
success = lib->encoding->encode(lib->encoding, type, NULL, encoding,
CRED_PART_RSA_MODULUS, n, CRED_PART_RSA_PUB_EXP, e,
CRED_PART_END);
chunk_free(&n);
chunk_free(&e);
return success;
}
METHOD(public_key_t, get_fingerprint, bool,
private_gcrypt_rsa_public_key_t *this, cred_encoding_type_t type,
chunk_t *fp)
{
chunk_t n, e;
bool success;
if (lib->encoding->get_cache(lib->encoding, type, this, fp))
{
return TRUE;
}
n = gcrypt_rsa_find_token(this->key, "n", NULL);
e = gcrypt_rsa_find_token(this->key, "e", NULL);
success = lib->encoding->encode(lib->encoding,
type, this, fp, CRED_PART_RSA_MODULUS, n,
CRED_PART_RSA_PUB_EXP, e, CRED_PART_END);
chunk_free(&n);
chunk_free(&e);
return success;
}
METHOD(public_key_t, get_ref, public_key_t*,
private_gcrypt_rsa_public_key_t *this)
{
ref_get(&this->ref);
return &this->public.key;
}
METHOD(public_key_t, destroy, void,
private_gcrypt_rsa_public_key_t *this)
{
if (ref_put(&this->ref))
{
gcry_sexp_release(this->key);
lib->encoding->clear_cache(lib->encoding, this);
free(this);
}
}
/**
* See header.
*/
gcrypt_rsa_public_key_t *gcrypt_rsa_public_key_load(key_type_t type,
va_list args)
{
private_gcrypt_rsa_public_key_t *this;
gcry_error_t err;
chunk_t n, e;
n = e = chunk_empty;
while (TRUE)
{
switch (va_arg(args, builder_part_t))
{
case BUILD_RSA_MODULUS:
n = va_arg(args, chunk_t);
continue;
case BUILD_RSA_PUB_EXP:
e = va_arg(args, chunk_t);
continue;
case BUILD_END:
break;
default:
return NULL;
}
break;
}
INIT(this,
.public = {
.key = {
.get_type = _get_type,
.verify = _verify,
.encrypt = _encrypt_,
.equals = public_key_equals,
.get_keysize = _get_keysize,
.get_fingerprint = _get_fingerprint,
.has_fingerprint = public_key_has_fingerprint,
.get_encoding = _get_encoding,
.get_ref = _get_ref,
.destroy = _destroy,
},
},
.ref = 1,
);
err = gcry_sexp_build(&this->key, NULL, "(public-key(rsa(n %b)(e %b)))",
n.len, n.ptr, e.len, e.ptr);
if (err)
{
DBG1(DBG_LIB, "loading public key failed: %s", gpg_strerror(err));
free(this);
return NULL;
}
return &this->public;
}
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