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|
/*
* Copyright 2001-2018 The OpenSSL Project Authors. All Rights Reserved.
* Copyright (c) 2002, Oracle and/or its affiliates. All rights reserved
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
/*
* RC4 low level APIs are deprecated for public use, but still ok for internal
* use.
*/
#include "internal/deprecated.h"
#include <stdio.h>
#include <openssl/crypto.h>
#include "internal/cryptlib.h"
#include "crypto/engine.h"
#include <openssl/pem.h>
#include <openssl/evp.h>
#include <openssl/rand.h>
#include <openssl/rsa.h>
#include <openssl/dsa.h>
#include <openssl/dh.h>
#include <openssl/hmac.h>
#include <openssl/x509v3.h>
/*
* This testing gunk is implemented (and explained) lower down. It also
* assumes the application explicitly calls "ENGINE_load_openssl()" because
* this is no longer automatic in ENGINE_load_builtin_engines().
*/
#define TEST_ENG_OPENSSL_RC4
#ifndef OPENSSL_NO_STDIO
# define TEST_ENG_OPENSSL_PKEY
#endif
/* #define TEST_ENG_OPENSSL_HMAC */
/* #define TEST_ENG_OPENSSL_HMAC_INIT */
/* #define TEST_ENG_OPENSSL_RC4_OTHERS */
#ifndef OPENSSL_NO_STDIO
# define TEST_ENG_OPENSSL_RC4_P_INIT
#endif
/* #define TEST_ENG_OPENSSL_RC4_P_CIPHER */
#define TEST_ENG_OPENSSL_SHA
/* #define TEST_ENG_OPENSSL_SHA_OTHERS */
/* #define TEST_ENG_OPENSSL_SHA_P_INIT */
/* #define TEST_ENG_OPENSSL_SHA_P_UPDATE */
/* #define TEST_ENG_OPENSSL_SHA_P_FINAL */
/* Now check what of those algorithms are actually enabled */
#ifdef OPENSSL_NO_RC4
# undef TEST_ENG_OPENSSL_RC4
# undef TEST_ENG_OPENSSL_RC4_OTHERS
# undef TEST_ENG_OPENSSL_RC4_P_INIT
# undef TEST_ENG_OPENSSL_RC4_P_CIPHER
#endif
static int openssl_destroy(ENGINE *e);
#ifdef TEST_ENG_OPENSSL_RC4
static int openssl_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
const int **nids, int nid);
#endif
#ifdef TEST_ENG_OPENSSL_SHA
static int openssl_digests(ENGINE *e, const EVP_MD **digest,
const int **nids, int nid);
#endif
#ifdef TEST_ENG_OPENSSL_PKEY
static EVP_PKEY *openssl_load_privkey(ENGINE *eng, const char *key_id,
UI_METHOD *ui_method,
void *callback_data);
#endif
#ifdef TEST_ENG_OPENSSL_HMAC
static int ossl_register_hmac_meth(void);
static int ossl_pkey_meths(ENGINE *e, EVP_PKEY_METHOD **pmeth,
const int **nids, int nid);
#endif
/* The constants used when creating the ENGINE */
static const char *engine_openssl_id = "openssl";
static const char *engine_openssl_name = "Software engine support";
/*
* This internal function is used by ENGINE_openssl() and possibly by the
* "dynamic" ENGINE support too
*/
static int bind_helper(ENGINE *e)
{
if (!ENGINE_set_id(e, engine_openssl_id)
|| !ENGINE_set_name(e, engine_openssl_name)
|| !ENGINE_set_destroy_function(e, openssl_destroy)
#ifndef TEST_ENG_OPENSSL_NO_ALGORITHMS
# ifndef OPENSSL_NO_RSA
|| !ENGINE_set_RSA(e, RSA_get_default_method())
# endif
# ifndef OPENSSL_NO_DSA
|| !ENGINE_set_DSA(e, DSA_get_default_method())
# endif
# ifndef OPENSSL_NO_EC
|| !ENGINE_set_EC(e, EC_KEY_OpenSSL())
# endif
# ifndef OPENSSL_NO_DH
|| !ENGINE_set_DH(e, DH_get_default_method())
# endif
|| !ENGINE_set_RAND(e, RAND_OpenSSL())
# ifdef TEST_ENG_OPENSSL_RC4
|| !ENGINE_set_ciphers(e, openssl_ciphers)
# endif
# ifdef TEST_ENG_OPENSSL_SHA
|| !ENGINE_set_digests(e, openssl_digests)
# endif
#endif
#ifdef TEST_ENG_OPENSSL_PKEY
|| !ENGINE_set_load_privkey_function(e, openssl_load_privkey)
#endif
#ifdef TEST_ENG_OPENSSL_HMAC
|| !ossl_register_hmac_meth()
|| !ENGINE_set_pkey_meths(e, ossl_pkey_meths)
#endif
)
return 0;
/*
* If we add errors to this ENGINE, ensure the error handling is setup
* here
*/
/* openssl_load_error_strings(); */
return 1;
}
static ENGINE *engine_openssl(void)
{
ENGINE *ret = ENGINE_new();
if (ret == NULL)
return NULL;
if (!bind_helper(ret)) {
ENGINE_free(ret);
return NULL;
}
return ret;
}
void engine_load_openssl_int(void)
{
ENGINE *toadd = engine_openssl();
if (!toadd)
return;
ENGINE_add(toadd);
/*
* If the "add" worked, it gets a structural reference. So either way, we
* release our just-created reference.
*/
ENGINE_free(toadd);
ERR_clear_error();
}
/*
* This stuff is needed if this ENGINE is being compiled into a
* self-contained shared-library.
*/
#ifdef ENGINE_DYNAMIC_SUPPORT
static int bind_fn(ENGINE *e, const char *id)
{
if (id && (strcmp(id, engine_openssl_id) != 0))
return 0;
if (!bind_helper(e))
return 0;
return 1;
}
IMPLEMENT_DYNAMIC_CHECK_FN()
IMPLEMENT_DYNAMIC_BIND_FN(bind_fn)
#endif /* ENGINE_DYNAMIC_SUPPORT */
#ifdef TEST_ENG_OPENSSL_RC4
/*-
* This section of code compiles an "alternative implementation" of two modes of
* RC4 into this ENGINE. The result is that EVP_CIPHER operation for "rc4"
* should under normal circumstances go via this support rather than the default
* EVP support. There are other symbols to tweak the testing;
* TEST_ENC_OPENSSL_RC4_OTHERS - print a one line message to stderr each time
* we're asked for a cipher we don't support (should not happen).
* TEST_ENG_OPENSSL_RC4_P_INIT - print a one line message to stderr each time
* the "init_key" handler is called.
* TEST_ENG_OPENSSL_RC4_P_CIPHER - ditto for the "cipher" handler.
*/
# include <openssl/rc4.h>
# define TEST_RC4_KEY_SIZE 16
typedef struct {
unsigned char key[TEST_RC4_KEY_SIZE];
RC4_KEY ks;
} TEST_RC4_KEY;
# define test(ctx) ((TEST_RC4_KEY *)EVP_CIPHER_CTX_get_cipher_data(ctx))
static int test_rc4_init_key(EVP_CIPHER_CTX *ctx, const unsigned char *key,
const unsigned char *iv, int enc)
{
const int n = EVP_CIPHER_CTX_key_length(ctx);
# ifdef TEST_ENG_OPENSSL_RC4_P_INIT
fprintf(stderr, "(TEST_ENG_OPENSSL_RC4) test_init_key() called\n");
# endif
if (n <= 0)
return n;
memcpy(&test(ctx)->key[0], key, n);
RC4_set_key(&test(ctx)->ks, n, test(ctx)->key);
return 1;
}
static int test_rc4_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
const unsigned char *in, size_t inl)
{
# ifdef TEST_ENG_OPENSSL_RC4_P_CIPHER
fprintf(stderr, "(TEST_ENG_OPENSSL_RC4) test_cipher() called\n");
# endif
RC4(&test(ctx)->ks, inl, in, out);
return 1;
}
static EVP_CIPHER *r4_cipher = NULL;
static const EVP_CIPHER *test_r4_cipher(void)
{
if (r4_cipher == NULL) {
EVP_CIPHER *cipher;
if ((cipher = EVP_CIPHER_meth_new(NID_rc4, 1, TEST_RC4_KEY_SIZE)) == NULL
|| !EVP_CIPHER_meth_set_iv_length(cipher, 0)
|| !EVP_CIPHER_meth_set_flags(cipher, EVP_CIPH_VARIABLE_LENGTH)
|| !EVP_CIPHER_meth_set_init(cipher, test_rc4_init_key)
|| !EVP_CIPHER_meth_set_do_cipher(cipher, test_rc4_cipher)
|| !EVP_CIPHER_meth_set_impl_ctx_size(cipher, sizeof(TEST_RC4_KEY))) {
EVP_CIPHER_meth_free(cipher);
cipher = NULL;
}
r4_cipher = cipher;
}
return r4_cipher;
}
static void test_r4_cipher_destroy(void)
{
EVP_CIPHER_meth_free(r4_cipher);
r4_cipher = NULL;
}
static EVP_CIPHER *r4_40_cipher = NULL;
static const EVP_CIPHER *test_r4_40_cipher(void)
{
if (r4_40_cipher == NULL) {
EVP_CIPHER *cipher;
if ((cipher = EVP_CIPHER_meth_new(NID_rc4, 1, 5 /* 40 bits */)) == NULL
|| !EVP_CIPHER_meth_set_iv_length(cipher, 0)
|| !EVP_CIPHER_meth_set_flags(cipher, EVP_CIPH_VARIABLE_LENGTH)
|| !EVP_CIPHER_meth_set_init(cipher, test_rc4_init_key)
|| !EVP_CIPHER_meth_set_do_cipher(cipher, test_rc4_cipher)
|| !EVP_CIPHER_meth_set_impl_ctx_size(cipher, sizeof(TEST_RC4_KEY))) {
EVP_CIPHER_meth_free(cipher);
cipher = NULL;
}
r4_40_cipher = cipher;
}
return r4_40_cipher;
}
static void test_r4_40_cipher_destroy(void)
{
EVP_CIPHER_meth_free(r4_40_cipher);
r4_40_cipher = NULL;
}
static int test_cipher_nids(const int **nids)
{
static int cipher_nids[4] = { 0, 0, 0, 0 };
static int pos = 0;
static int init = 0;
if (!init) {
const EVP_CIPHER *cipher;
if ((cipher = test_r4_cipher()) != NULL)
cipher_nids[pos++] = EVP_CIPHER_nid(cipher);
if ((cipher = test_r4_40_cipher()) != NULL)
cipher_nids[pos++] = EVP_CIPHER_nid(cipher);
cipher_nids[pos] = 0;
init = 1;
}
*nids = cipher_nids;
return pos;
}
static int openssl_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
const int **nids, int nid)
{
if (!cipher) {
/* We are returning a list of supported nids */
return test_cipher_nids(nids);
}
/* We are being asked for a specific cipher */
if (nid == NID_rc4)
*cipher = test_r4_cipher();
else if (nid == NID_rc4_40)
*cipher = test_r4_40_cipher();
else {
# ifdef TEST_ENG_OPENSSL_RC4_OTHERS
fprintf(stderr, "(TEST_ENG_OPENSSL_RC4) returning NULL for "
"nid %d\n", nid);
# endif
*cipher = NULL;
return 0;
}
return 1;
}
#endif
#ifdef TEST_ENG_OPENSSL_SHA
/* Much the same sort of comment as for TEST_ENG_OPENSSL_RC4 */
# include <openssl/sha.h>
static int test_sha1_init(EVP_MD_CTX *ctx)
{
# ifdef TEST_ENG_OPENSSL_SHA_P_INIT
fprintf(stderr, "(TEST_ENG_OPENSSL_SHA) test_sha1_init() called\n");
# endif
return SHA1_Init(EVP_MD_CTX_md_data(ctx));
}
static int test_sha1_update(EVP_MD_CTX *ctx, const void *data, size_t count)
{
# ifdef TEST_ENG_OPENSSL_SHA_P_UPDATE
fprintf(stderr, "(TEST_ENG_OPENSSL_SHA) test_sha1_update() called\n");
# endif
return SHA1_Update(EVP_MD_CTX_md_data(ctx), data, count);
}
static int test_sha1_final(EVP_MD_CTX *ctx, unsigned char *md)
{
# ifdef TEST_ENG_OPENSSL_SHA_P_FINAL
fprintf(stderr, "(TEST_ENG_OPENSSL_SHA) test_sha1_final() called\n");
# endif
return SHA1_Final(md, EVP_MD_CTX_md_data(ctx));
}
static EVP_MD *sha1_md = NULL;
static const EVP_MD *test_sha_md(void)
{
if (sha1_md == NULL) {
EVP_MD *md;
if ((md = EVP_MD_meth_new(NID_sha1, NID_sha1WithRSAEncryption)) == NULL
|| !EVP_MD_meth_set_result_size(md, SHA_DIGEST_LENGTH)
|| !EVP_MD_meth_set_input_blocksize(md, SHA_CBLOCK)
|| !EVP_MD_meth_set_app_datasize(md,
sizeof(EVP_MD *) + sizeof(SHA_CTX))
|| !EVP_MD_meth_set_flags(md, 0)
|| !EVP_MD_meth_set_init(md, test_sha1_init)
|| !EVP_MD_meth_set_update(md, test_sha1_update)
|| !EVP_MD_meth_set_final(md, test_sha1_final)) {
EVP_MD_meth_free(md);
md = NULL;
}
sha1_md = md;
}
return sha1_md;
}
static void test_sha_md_destroy(void)
{
EVP_MD_meth_free(sha1_md);
sha1_md = NULL;
}
static int test_digest_nids(const int **nids)
{
static int digest_nids[2] = { 0, 0 };
static int pos = 0;
static int init = 0;
if (!init) {
const EVP_MD *md;
if ((md = test_sha_md()) != NULL)
digest_nids[pos++] = EVP_MD_type(md);
digest_nids[pos] = 0;
init = 1;
}
*nids = digest_nids;
return pos;
}
static int openssl_digests(ENGINE *e, const EVP_MD **digest,
const int **nids, int nid)
{
if (!digest) {
/* We are returning a list of supported nids */
return test_digest_nids(nids);
}
/* We are being asked for a specific digest */
if (nid == NID_sha1)
*digest = test_sha_md();
else {
# ifdef TEST_ENG_OPENSSL_SHA_OTHERS
fprintf(stderr, "(TEST_ENG_OPENSSL_SHA) returning NULL for "
"nid %d\n", nid);
# endif
*digest = NULL;
return 0;
}
return 1;
}
#endif
#ifdef TEST_ENG_OPENSSL_PKEY
static EVP_PKEY *openssl_load_privkey(ENGINE *eng, const char *key_id,
UI_METHOD *ui_method,
void *callback_data)
{
BIO *in;
EVP_PKEY *key;
fprintf(stderr, "(TEST_ENG_OPENSSL_PKEY)Loading Private key %s\n",
key_id);
in = BIO_new_file(key_id, "r");
if (!in)
return NULL;
key = PEM_read_bio_PrivateKey(in, NULL, 0, NULL);
BIO_free(in);
return key;
}
#endif
#ifdef TEST_ENG_OPENSSL_HMAC
/*
* Experimental HMAC redirection implementation: mainly copied from
* hm_pmeth.c
*/
/* HMAC pkey context structure */
typedef struct {
const EVP_MD *md; /* MD for HMAC use */
ASN1_OCTET_STRING ktmp; /* Temp storage for key */
HMAC_CTX *ctx;
} OSSL_HMAC_PKEY_CTX;
static int ossl_hmac_init(EVP_PKEY_CTX *ctx)
{
OSSL_HMAC_PKEY_CTX *hctx;
if ((hctx = OPENSSL_zalloc(sizeof(*hctx))) == NULL) {
ENGINEerr(ENGINE_F_OSSL_HMAC_INIT, ERR_R_MALLOC_FAILURE);
return 0;
}
hctx->ktmp.type = V_ASN1_OCTET_STRING;
hctx->ctx = HMAC_CTX_new();
if (hctx->ctx == NULL) {
OPENSSL_free(hctx);
return 0;
}
EVP_PKEY_CTX_set_data(ctx, hctx);
EVP_PKEY_CTX_set0_keygen_info(ctx, NULL, 0);
# ifdef TEST_ENG_OPENSSL_HMAC_INIT
fprintf(stderr, "(TEST_ENG_OPENSSL_HMAC) ossl_hmac_init() called\n");
# endif
return 1;
}
static void ossl_hmac_cleanup(EVP_PKEY_CTX *ctx);
static int ossl_hmac_copy(EVP_PKEY_CTX *dst, EVP_PKEY_CTX *src)
{
OSSL_HMAC_PKEY_CTX *sctx, *dctx;
/* allocate memory for dst->data and a new HMAC_CTX in dst->data->ctx */
if (!ossl_hmac_init(dst))
return 0;
sctx = EVP_PKEY_CTX_get_data(src);
dctx = EVP_PKEY_CTX_get_data(dst);
dctx->md = sctx->md;
if (!HMAC_CTX_copy(dctx->ctx, sctx->ctx))
goto err;
if (sctx->ktmp.data) {
if (!ASN1_OCTET_STRING_set(&dctx->ktmp,
sctx->ktmp.data, sctx->ktmp.length))
goto err;
}
return 1;
err:
/* release HMAC_CTX in dst->data->ctx and memory allocated for dst->data */
ossl_hmac_cleanup(dst);
return 0;
}
static void ossl_hmac_cleanup(EVP_PKEY_CTX *ctx)
{
OSSL_HMAC_PKEY_CTX *hctx = EVP_PKEY_CTX_get_data(ctx);
if (hctx) {
HMAC_CTX_free(hctx->ctx);
OPENSSL_clear_free(hctx->ktmp.data, hctx->ktmp.length);
OPENSSL_free(hctx);
EVP_PKEY_CTX_set_data(ctx, NULL);
}
}
static int ossl_hmac_keygen(EVP_PKEY_CTX *ctx, EVP_PKEY *pkey)
{
ASN1_OCTET_STRING *hkey = NULL;
OSSL_HMAC_PKEY_CTX *hctx = EVP_PKEY_CTX_get_data(ctx);
if (!hctx->ktmp.data)
return 0;
hkey = ASN1_OCTET_STRING_dup(&hctx->ktmp);
if (!hkey)
return 0;
EVP_PKEY_assign(pkey, EVP_PKEY_HMAC, hkey);
return 1;
}
static int ossl_int_update(EVP_MD_CTX *ctx, const void *data, size_t count)
{
OSSL_HMAC_PKEY_CTX *hctx = EVP_PKEY_CTX_get_data(EVP_MD_CTX_pkey_ctx(ctx));
if (!HMAC_Update(hctx->ctx, data, count))
return 0;
return 1;
}
static int ossl_hmac_signctx_init(EVP_PKEY_CTX *ctx, EVP_MD_CTX *mctx)
{
EVP_MD_CTX_set_flags(mctx, EVP_MD_CTX_FLAG_NO_INIT);
EVP_MD_CTX_set_update_fn(mctx, ossl_int_update);
return 1;
}
static int ossl_hmac_signctx(EVP_PKEY_CTX *ctx, unsigned char *sig,
size_t *siglen, EVP_MD_CTX *mctx)
{
unsigned int hlen;
OSSL_HMAC_PKEY_CTX *hctx = EVP_PKEY_CTX_get_data(ctx);
int l = EVP_MD_CTX_size(mctx);
if (l < 0)
return 0;
*siglen = l;
if (!sig)
return 1;
if (!HMAC_Final(hctx->ctx, sig, &hlen))
return 0;
*siglen = (size_t)hlen;
return 1;
}
static int ossl_hmac_ctrl(EVP_PKEY_CTX *ctx, int type, int p1, void *p2)
{
OSSL_HMAC_PKEY_CTX *hctx = EVP_PKEY_CTX_get_data(ctx);
EVP_PKEY *pk;
ASN1_OCTET_STRING *key;
switch (type) {
case EVP_PKEY_CTRL_SET_MAC_KEY:
if ((!p2 && p1 > 0) || (p1 < -1))
return 0;
if (!ASN1_OCTET_STRING_set(&hctx->ktmp, p2, p1))
return 0;
break;
case EVP_PKEY_CTRL_MD:
hctx->md = p2;
break;
case EVP_PKEY_CTRL_DIGESTINIT:
pk = EVP_PKEY_CTX_get0_pkey(ctx);
key = EVP_PKEY_get0(pk);
if (!HMAC_Init_ex(hctx->ctx, key->data, key->length, hctx->md, NULL))
return 0;
break;
default:
return -2;
}
return 1;
}
static int ossl_hmac_ctrl_str(EVP_PKEY_CTX *ctx,
const char *type, const char *value)
{
if (!value) {
return 0;
}
if (strcmp(type, "key") == 0) {
void *p = (void *)value;
return ossl_hmac_ctrl(ctx, EVP_PKEY_CTRL_SET_MAC_KEY, -1, p);
}
if (strcmp(type, "hexkey") == 0) {
unsigned char *key;
int r;
long keylen;
key = OPENSSL_hexstr2buf(value, &keylen);
if (!key)
return 0;
r = ossl_hmac_ctrl(ctx, EVP_PKEY_CTRL_SET_MAC_KEY, keylen, key);
OPENSSL_free(key);
return r;
}
return -2;
}
static EVP_PKEY_METHOD *ossl_hmac_meth;
static int ossl_register_hmac_meth(void)
{
EVP_PKEY_METHOD *meth;
meth = EVP_PKEY_meth_new(EVP_PKEY_HMAC, 0);
if (meth == NULL)
return 0;
EVP_PKEY_meth_set_init(meth, ossl_hmac_init);
EVP_PKEY_meth_set_copy(meth, ossl_hmac_copy);
EVP_PKEY_meth_set_cleanup(meth, ossl_hmac_cleanup);
EVP_PKEY_meth_set_keygen(meth, 0, ossl_hmac_keygen);
EVP_PKEY_meth_set_signctx(meth, ossl_hmac_signctx_init,
ossl_hmac_signctx);
EVP_PKEY_meth_set_ctrl(meth, ossl_hmac_ctrl, ossl_hmac_ctrl_str);
ossl_hmac_meth = meth;
return 1;
}
static int ossl_pkey_meths(ENGINE *e, EVP_PKEY_METHOD **pmeth,
const int **nids, int nid)
{
static int ossl_pkey_nids[] = {
EVP_PKEY_HMAC,
0
};
if (pmeth == NULL) {
*nids = ossl_pkey_nids;
return 1;
}
if (nid == EVP_PKEY_HMAC) {
*pmeth = ossl_hmac_meth;
return 1;
}
*pmeth = NULL;
return 0;
}
#endif
int openssl_destroy(ENGINE *e)
{
test_sha_md_destroy();
#ifdef TEST_ENG_OPENSSL_RC4
test_r4_cipher_destroy();
test_r4_40_cipher_destroy();
#endif
return 1;
}
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