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/*
* Copyright (C) 2008 Tobias Brunner
* 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.
*
* $Id: openssl_rsa_private_key.c 4317 2008-09-02 11:00:13Z martin $
*/
#include "openssl_rsa_private_key.h"
#include "openssl_rsa_public_key.h"
#include <debug.h>
#include <openssl/evp.h>
#include <openssl/rsa.h>
/**
* Public exponent to use for key generation.
*/
#define PUBLIC_EXPONENT 0x10001
typedef struct private_openssl_rsa_private_key_t private_openssl_rsa_private_key_t;
/**
* Private data of a openssl_rsa_private_key_t object.
*/
struct private_openssl_rsa_private_key_t {
/**
* Public interface for this signer.
*/
openssl_rsa_private_key_t public;
/**
* RSA object from OpenSSL
*/
RSA *rsa;
/**
* Keyid formed as a SHA-1 hash of a privateKey object
*/
identification_t* keyid;
/**
* Keyid formed as a SHA-1 hash of a privateKeyInfo object
*/
identification_t* keyid_info;
/**
* reference count
*/
refcount_t ref;
};
/**
* shared functions, implemented in openssl_rsa_public_key.c
*/
bool openssl_rsa_public_key_build_id(RSA *rsa, identification_t **keyid,
identification_t **keyid_info);
openssl_rsa_public_key_t *openssl_rsa_public_key_create_from_n_e(BIGNUM *n, BIGNUM *e);
/**
* Build an EMPSA PKCS1 signature described in PKCS#1
*/
static bool build_emsa_pkcs1_signature(private_openssl_rsa_private_key_t *this,
int type, chunk_t data, chunk_t *signature)
{
bool success = FALSE;
const EVP_MD *hasher = EVP_get_digestbynid(type);
if (!hasher)
{
return FALSE;
}
EVP_MD_CTX *ctx = EVP_MD_CTX_create();
EVP_PKEY *key = EVP_PKEY_new();
if (!ctx || !key)
{
goto error;
}
if (!EVP_PKEY_set1_RSA(key, this->rsa))
{
goto error;
}
if (!EVP_SignInit_ex(ctx, hasher, NULL))
{
goto error;
}
if (!EVP_SignUpdate(ctx, data.ptr, data.len))
{
goto error;
}
*signature = chunk_alloc(RSA_size(this->rsa));
if (!EVP_SignFinal(ctx, signature->ptr, &signature->len, key))
{
goto error;
}
success = TRUE;
error:
if (key)
{
EVP_PKEY_free(key);
}
if (ctx)
{
EVP_MD_CTX_destroy(ctx);
}
return success;
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static key_type_t get_type(private_openssl_rsa_private_key_t *this)
{
return KEY_RSA;
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static bool sign(private_openssl_rsa_private_key_t *this, signature_scheme_t scheme,
chunk_t data, chunk_t *signature)
{
switch (scheme)
{
case SIGN_DEFAULT:
/* default is EMSA-PKCS1 using SHA1 */
case SIGN_RSA_EMSA_PKCS1_SHA1:
return build_emsa_pkcs1_signature(this, NID_sha1, data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA256:
return build_emsa_pkcs1_signature(this, NID_sha256, data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA384:
return build_emsa_pkcs1_signature(this, NID_sha384, data, signature);
case SIGN_RSA_EMSA_PKCS1_SHA512:
return build_emsa_pkcs1_signature(this, NID_sha512, data, signature);
case SIGN_RSA_EMSA_PKCS1_MD5:
return build_emsa_pkcs1_signature(this, NID_md5, data, signature);
default:
DBG1("signature scheme %N not supported in RSA",
signature_scheme_names, scheme);
return FALSE;
}
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static bool decrypt(private_openssl_rsa_private_key_t *this,
chunk_t crypto, chunk_t *plain)
{
DBG1("RSA private key decryption not implemented");
return FALSE;
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static size_t get_keysize(private_openssl_rsa_private_key_t *this)
{
return RSA_size(this->rsa);
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static identification_t* get_id(private_openssl_rsa_private_key_t *this,
id_type_t type)
{
switch (type)
{
case ID_PUBKEY_INFO_SHA1:
return this->keyid_info;
case ID_PUBKEY_SHA1:
return this->keyid;
default:
return NULL;
}
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static openssl_rsa_public_key_t* get_public_key(private_openssl_rsa_private_key_t *this)
{
return openssl_rsa_public_key_create_from_n_e(this->rsa->n, this->rsa->e);
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static bool belongs_to(private_openssl_rsa_private_key_t *this, public_key_t *public)
{
identification_t *keyid;
if (public->get_type(public) != KEY_RSA)
{
return FALSE;
}
keyid = public->get_id(public, ID_PUBKEY_SHA1);
if (keyid && keyid->equals(keyid, this->keyid))
{
return TRUE;
}
keyid = public->get_id(public, ID_PUBKEY_INFO_SHA1);
if (keyid && keyid->equals(keyid, this->keyid_info))
{
return TRUE;
}
return FALSE;
}
/**
* Implementation of private_key_t.get_encoding.
*/
static chunk_t get_encoding(private_openssl_rsa_private_key_t *this)
{
chunk_t enc = chunk_alloc(i2d_RSAPrivateKey(this->rsa, NULL));
u_char *p = enc.ptr;
i2d_RSAPrivateKey(this->rsa, &p);
return enc;
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static private_openssl_rsa_private_key_t* get_ref(private_openssl_rsa_private_key_t *this)
{
ref_get(&this->ref);
return this;
}
/**
* Implementation of openssl_rsa_private_key.destroy.
*/
static void destroy(private_openssl_rsa_private_key_t *this)
{
if (ref_put(&this->ref))
{
if (this->rsa)
{
RSA_free(this->rsa);
}
DESTROY_IF(this->keyid);
DESTROY_IF(this->keyid_info);
free(this);
}
}
/**
* Internal generic constructor
*/
static private_openssl_rsa_private_key_t *openssl_rsa_private_key_create_empty(void)
{
private_openssl_rsa_private_key_t *this = malloc_thing(private_openssl_rsa_private_key_t);
this->public.interface.get_type = (key_type_t (*)(private_key_t *this))get_type;
this->public.interface.sign = (bool (*)(private_key_t *this, signature_scheme_t scheme, chunk_t data, chunk_t *signature))sign;
this->public.interface.decrypt = (bool (*)(private_key_t *this, chunk_t crypto, chunk_t *plain))decrypt;
this->public.interface.get_keysize = (size_t (*) (private_key_t *this))get_keysize;
this->public.interface.get_id = (identification_t* (*) (private_key_t *this,id_type_t))get_id;
this->public.interface.get_public_key = (public_key_t* (*)(private_key_t *this))get_public_key;
this->public.interface.belongs_to = (bool (*) (private_key_t *this, public_key_t *public))belongs_to;
this->public.interface.get_encoding = (chunk_t(*)(private_key_t*))get_encoding;
this->public.interface.get_ref = (private_key_t* (*)(private_key_t *this))get_ref;
this->public.interface.destroy = (void (*)(private_key_t *this))destroy;
this->keyid = NULL;
this->keyid_info = NULL;
this->ref = 1;
return this;
}
/**
* Generate an RSA key of specified key size
*/
static openssl_rsa_private_key_t *generate(size_t key_size)
{
private_openssl_rsa_private_key_t *this = openssl_rsa_private_key_create_empty();
this->rsa = RSA_generate_key(key_size, PUBLIC_EXPONENT, NULL, NULL);
if (!openssl_rsa_public_key_build_id(this->rsa, &this->keyid, &this->keyid_info))
{
destroy(this);
return NULL;
}
return &this->public;
}
/**
* load private key from an ASN1 encoded blob
*/
static openssl_rsa_private_key_t *load(chunk_t blob)
{
u_char *p = blob.ptr;
private_openssl_rsa_private_key_t *this = openssl_rsa_private_key_create_empty();
this->rsa = d2i_RSAPrivateKey(NULL, (const u_char**)&p, blob.len);
chunk_clear(&blob);
if (!this->rsa)
{
destroy(this);
return NULL;
}
if (!openssl_rsa_public_key_build_id(this->rsa, &this->keyid, &this->keyid_info))
{
destroy(this);
return NULL;
}
if (!RSA_check_key(this->rsa))
{
destroy(this);
return NULL;
}
return &this->public;
}
typedef struct private_builder_t private_builder_t;
/**
* Builder implementation for key loading/generation
*/
struct private_builder_t {
/** implements the builder interface */
builder_t public;
/** loaded/generated private key */
openssl_rsa_private_key_t *key;
};
/**
* Implementation of builder_t.build
*/
static openssl_rsa_private_key_t *build(private_builder_t *this)
{
openssl_rsa_private_key_t *key = this->key;
free(this);
return key;
}
/**
* Implementation of builder_t.add
*/
static void add(private_builder_t *this, builder_part_t part, ...)
{
if (!this->key)
{
va_list args;
chunk_t chunk;
switch (part)
{
case BUILD_BLOB_ASN1_DER:
{
va_start(args, part);
chunk = va_arg(args, chunk_t);
this->key = load(chunk_clone(chunk));
va_end(args);
return;
}
case BUILD_KEY_SIZE:
{
va_start(args, part);
this->key = generate(va_arg(args, u_int));
va_end(args);
return;
}
default:
break;
}
}
if (this->key)
{
destroy((private_openssl_rsa_private_key_t*)this->key);
}
builder_cancel(&this->public);
}
/**
* Builder construction function
*/
builder_t *openssl_rsa_private_key_builder(key_type_t type)
{
private_builder_t *this;
if (type != KEY_RSA)
{
return NULL;
}
this = malloc_thing(private_builder_t);
this->key = NULL;
this->public.add = (void(*)(builder_t *this, builder_part_t part, ...))add;
this->public.build = (void*(*)(builder_t *this))build;
return &this->public;
}
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