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|
/*
* Copyright (c) 2002 Bob Beck <beck@openbsd.org>
* Copyright (c) 2002 Theo de Raadt
* Copyright (c) 2002 Markus Friedl
* 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 author nor the names of contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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 <sys/types.h>
#include <sys/param.h>
#include <crypto/cryptodev.h>
#include <sys/ioctl.h>
#include <errno.h>
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <syslog.h>
#include <stdarg.h>
#include <ssl/objects.h>
#include <ssl/engine.h>
#include <ssl/evp.h>
#include <errno.h>
#include <string.h>
struct dev_crypto_state {
struct session_op d_sess;
int d_fd;
};
static u_int32_t cryptodev_asymfeat = 0;
static int get_asym_dev_crypto(void);
static int open_dev_crypto(void);
static int get_dev_crypto(void);
static int cryptodev_max_iv(int cipher);
static int cryptodev_key_length_valid(int cipher, int len);
static int cipher_nid_to_cryptodev(int nid);
static int get_cryptodev_ciphers(const int **cnids);
static int get_cryptodev_digests(const int **cnids);
static int cryptodev_usable_ciphers(const int **nids);
static int cryptodev_usable_digests(const int **nids);
static int cryptodev_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
const unsigned char *in, unsigned int inl);
static int cryptodev_init_key(EVP_CIPHER_CTX *ctx, const unsigned char *key,
const unsigned char *iv, int enc);
static int cryptodev_cleanup(EVP_CIPHER_CTX *ctx);
static int cryptodev_engine_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
const int **nids, int nid);
static int cryptodev_engine_digests(ENGINE *e, const EVP_MD **digest,
const int **nids, int nid);
static int bn2crparam(const BIGNUM *a, struct crparam *crp);
static int crparam2bn(struct crparam *crp, BIGNUM *a);
static void zapparams(struct crypt_kop *kop);
static int cryptodev_asym(struct crypt_kop *kop, int rlen, BIGNUM *r,
int slen, BIGNUM *s);
static int cryptodev_bn_mod_exp(BIGNUM *r, const BIGNUM *a,
const BIGNUM *p, const BIGNUM *m, BN_CTX *ctx, BN_MONT_CTX *m_ctx);
static int cryptodev_rsa_nocrt_mod_exp(BIGNUM *r0, const BIGNUM *I,
RSA *rsa);
static int cryptodev_rsa_mod_exp(BIGNUM *r0, const BIGNUM *I, RSA *rsa);
static int cryptodev_dsa_bn_mod_exp(DSA *dsa, BIGNUM *r, BIGNUM *a,
const BIGNUM *p, const BIGNUM *m, BN_CTX *ctx, BN_MONT_CTX *m_ctx);
static int cryptodev_dsa_dsa_mod_exp(DSA *dsa, BIGNUM *t1, BIGNUM *g,
BIGNUM *u1, BIGNUM *pub_key, BIGNUM *u2, BIGNUM *p,
BN_CTX *ctx, BN_MONT_CTX *mont);
static DSA_SIG *cryptodev_dsa_do_sign(const unsigned char *dgst,
int dlen, DSA *dsa);
static int cryptodev_dsa_verify(const unsigned char *dgst, int dgst_len,
DSA_SIG *sig, DSA *dsa);
static int cryptodev_mod_exp_dh(const DH *dh, BIGNUM *r, const BIGNUM *a,
const BIGNUM *p, const BIGNUM *m, BN_CTX *ctx,
BN_MONT_CTX *m_ctx);
static int cryptodev_dh_compute_key(unsigned char *key,
const BIGNUM *pub_key, DH *dh);
static int cryptodev_ctrl(ENGINE *e, int cmd, long i, void *p,
void (*f)());
void ENGINE_load_cryptodev(void);
static const ENGINE_CMD_DEFN cryptodev_defns[] = {
{ENGINE_CMD_BASE,
"SO_PATH",
"Specifies the path to the some stupid shared library",
ENGINE_CMD_FLAG_STRING},
{ 0, NULL, NULL, 0 }
};
static struct {
int id;
int nid;
int ivmax;
int keylen;
} ciphers[] = {
{ CRYPTO_DES_CBC, NID_des_cbc, 8, 8, },
{ CRYPTO_3DES_CBC, NID_des_ede3_cbc, 8, 24, },
{ CRYPTO_AES_CBC, NID_aes_128_cbc, 16, 16, },
{ CRYPTO_BLF_CBC, NID_bf_cbc, 8, 16, },
{ CRYPTO_CAST_CBC, NID_cast5_cbc, 8, 16, },
{ CRYPTO_SKIPJACK_CBC, NID_undef, 0, 0, },
{ CRYPTO_ARC4, NID_rc4, 8, 16, },
{ 0, NID_undef, 0, 0, },
};
static struct {
int id;
int nid;
} digests[] = {
{ CRYPTO_SHA1_HMAC, NID_hmacWithSHA1, },
{ CRYPTO_RIPEMD160_HMAC, NID_ripemd160, },
{ CRYPTO_MD5_KPDK, NID_undef, },
{ CRYPTO_SHA1_KPDK, NID_undef, },
{ CRYPTO_MD5, NID_md5, },
{ CRYPTO_SHA1, NID_undef, },
{ 0, NID_undef, },
};
/*
* Return a fd if /dev/crypto seems usable, 0 otherwise.
*/
static int
open_dev_crypto(void)
{
static int fd = -1;
if (fd == -1) {
if ((fd = open("/dev/crypto", O_RDWR, 0)) == -1)
return (-1);
/* close on exec */
if (fcntl(fd, F_SETFD, 1) == -1) {
close(fd);
fd = -1;
return (-1);
}
}
return (fd);
}
static int
get_dev_crypto(void)
{
int fd, retfd;
if ((fd = open_dev_crypto()) == -1)
return (-1);
if (ioctl(fd, CRIOGET, &retfd) == -1)
return (-1);
/* close on exec */
if (fcntl(retfd, F_SETFD, 1) == -1) {
close(retfd);
return (-1);
}
return (retfd);
}
/* Caching version for asym operations */
static int
get_asym_dev_crypto(void)
{
static int fd = -1;
if (fd == -1)
fd = get_dev_crypto();
return fd;
}
/*
* XXXX this needs to be set for each alg - and determined from
* a running card.
*/
static int
cryptodev_max_iv(int cipher)
{
int i;
for (i = 0; ciphers[i].id; i++)
if (ciphers[i].id == cipher)
return (ciphers[i].ivmax);
return (0);
}
/*
* XXXX this needs to be set for each alg - and determined from
* a running card. For now, fake it out - but most of these
* for real devices should return 1 for the supported key
* sizes the device can handle.
*/
static int
cryptodev_key_length_valid(int cipher, int len)
{
int i;
for (i = 0; ciphers[i].id; i++)
if (ciphers[i].id == cipher)
return (ciphers[i].keylen == len);
return (0);
}
/* convert libcrypto nids to cryptodev */
static int
cipher_nid_to_cryptodev(int nid)
{
int i;
for (i = 0; ciphers[i].id; i++)
if (ciphers[i].nid == nid)
return (ciphers[i].id);
return (0);
}
/*
* Find out what ciphers /dev/crypto will let us have a session for.
* XXX note, that some of these openssl doesn't deal with yet!
* returning them here is harmless, as long as we return NULL
* when asked for a handler in the cryptodev_engine_ciphers routine
*/
static int
get_cryptodev_ciphers(const int **cnids)
{
static int nids[CRYPTO_ALGORITHM_MAX];
struct session_op sess;
int fd, i, count = 0;
if ((fd = get_dev_crypto()) < 0) {
*nids = NULL;
return (0);
}
memset(&sess, 0, sizeof(sess));
sess.key = (caddr_t)"123456781234567812345678";
for (i = 0; ciphers[i].id && count < CRYPTO_ALGORITHM_MAX; i++) {
if (ciphers[i].nid == NID_undef)
continue;
sess.cipher = ciphers[i].id;
sess.keylen = ciphers[i].keylen;
sess.mac = 0;
if (ioctl(fd, CIOCGSESSION, &sess) != -1 &&
ioctl(fd, CIOCFSESSION, &sess.ses) != -1)
nids[count++] = ciphers[i].nid;
}
close(fd);
if (count > 0)
*cnids = nids;
else
*cnids = NULL;
return (count);
}
/*
* Find out what digests /dev/crypto will let us have a session for.
* XXX note, that some of these openssl doesn't deal with yet!
* returning them here is harmless, as long as we return NULL
* when asked for a handler in the cryptodev_engine_digests routine
*/
static int
get_cryptodev_digests(const int **cnids)
{
static int nids[CRYPTO_ALGORITHM_MAX];
struct session_op sess;
int fd, i, count = 0;
if ((fd = get_dev_crypto()) < 0) {
*nids = NULL;
return (0);
}
memset(&sess, 0, sizeof(sess));
for (i = 0; digests[i].id && count < CRYPTO_ALGORITHM_MAX; i++) {
if (digests[i].nid == NID_undef)
continue;
sess.mac = digests[i].id;
sess.cipher = 0;
if (ioctl(fd, CIOCGSESSION, &sess) != -1 &&
ioctl(fd, CIOCFSESSION, &sess.ses) != -1)
nids[count++] = digests[i].nid;
}
close(fd);
if (count > 0)
*cnids = nids;
else
*cnids = NULL;
return (count);
}
/*
* Find the useable ciphers|digests from dev/crypto - this is the first
* thing called by the engine init crud which determines what it
* can use for ciphers from this engine. We want to return
* only what we can do, anythine else is handled by software.
*
* If we can't initialize the device to do anything useful for
* any reason, we want to return a NULL array, and 0 length,
* which forces everything to be done is software. By putting
* the initalization of the device in here, we ensure we can
* use this engine as the default, and if for whatever reason
* /dev/crypto won't do what we want it will just be done in
* software
*
* This can (should) be greatly expanded to perhaps take into
* account speed of the device, and what we want to do.
* (although the disabling of particular alg's could be controlled
* by the device driver with sysctl's.) - this is where we
* want most of the decisions made about what we actually want
* to use from /dev/crypto.
*/
static int
cryptodev_usable_ciphers(const int **nids)
{
return (get_cryptodev_ciphers(nids));
}
static int
cryptodev_usable_digests(const int **nids)
{
/*
* XXXX just disable all digests for now, because it sucks.
* we need a better way to decide this - i.e. I may not
* want digests on slow cards like hifn on fast machines,
* but might want them on slow or loaded machines, etc.
* will also want them when using crypto cards that don't
* suck moose gonads - would be nice to be able to decide something
* as reasonable default without having hackery that's card dependent.
* of course, the default should probably be just do everything,
* with perhaps a sysctl to turn algoritms off (or have them off
* by default) on cards that generally suck like the hifn.
*/
*nids = NULL;
return (0);
}
static int
cryptodev_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out,
const unsigned char *in, unsigned int inl)
{
struct crypt_op cryp;
struct dev_crypto_state *state = ctx->cipher_data;
struct session_op *sess = &state->d_sess;
void *iiv;
unsigned char save_iv[EVP_MAX_IV_LENGTH];
struct syslog_data sd = SYSLOG_DATA_INIT;
if (state->d_fd < 0)
return (0);
if (!inl)
return (1);
if ((inl % ctx->cipher->block_size) != 0)
return (0);
memset(&cryp, 0, sizeof(cryp));
cryp.ses = sess->ses;
cryp.flags = 0;
cryp.len = inl;
cryp.src = (caddr_t) in;
cryp.dst = (caddr_t) out;
cryp.mac = 0;
cryp.op = ctx->encrypt ? COP_ENCRYPT : COP_DECRYPT;
if (ctx->cipher->iv_len) {
cryp.iv = (caddr_t) ctx->iv;
if (!ctx->encrypt) {
iiv = (void *) in + inl - ctx->cipher->iv_len;
memcpy(save_iv, iiv, ctx->cipher->iv_len);
}
} else
cryp.iv = NULL;
if (ioctl(state->d_fd, CIOCCRYPT, &cryp) == -1) {
/* XXX need better errror handling
* this can fail for a number of different reasons.
*/
syslog_r(LOG_ERR, &sd, "CIOCCRYPT failed (%m)");
return (0);
}
if (ctx->cipher->iv_len) {
if (ctx->encrypt)
iiv = (void *) out + inl - ctx->cipher->iv_len;
else
iiv = save_iv;
memcpy(ctx->iv, iiv, ctx->cipher->iv_len);
}
return (1);
}
static int
cryptodev_init_key(EVP_CIPHER_CTX *ctx, const unsigned char *key,
const unsigned char *iv, int enc)
{
struct dev_crypto_state *state = ctx->cipher_data;
struct session_op *sess = &state->d_sess;
struct syslog_data sd = SYSLOG_DATA_INIT;
int cipher;
if ((cipher = cipher_nid_to_cryptodev(ctx->cipher->nid)) == NID_undef)
return (0);
if (ctx->cipher->iv_len > cryptodev_max_iv(cipher))
return (0);
if (!cryptodev_key_length_valid(cipher, ctx->key_len))
return (0);
memset(sess, 0, sizeof(struct session_op));
if ((state->d_fd = get_dev_crypto()) < 0)
return (0);
sess->key = (unsigned char *)key;
sess->keylen = ctx->key_len;
sess->cipher = cipher;
if (ioctl(state->d_fd, CIOCGSESSION, sess) == -1) {
syslog_r(LOG_ERR, &sd, "CIOCGSESSION failed (%m)");
close(state->d_fd);
state->d_fd = -1;
return (0);
}
return (1);
}
/*
* free anything we allocated earlier when initting a
* session, and close the session.
*/
static int
cryptodev_cleanup(EVP_CIPHER_CTX *ctx)
{
int ret = 0;
struct dev_crypto_state *state = ctx->cipher_data;
struct session_op *sess = &state->d_sess;
struct syslog_data sd = SYSLOG_DATA_INIT;
if (state->d_fd < 0)
return (0);
/* XXX if this ioctl fails, someting's wrong. the invoker
* may have called us with a bogus ctx, or we could
* have a device that for whatever reason just doesn't
* want to play ball - it's not clear what's right
* here - should this be an error? should it just
* increase a counter, hmm. For right now, we return
* 0 - I don't believe that to be "right". we could
* call the gorpy openssl lib error handlers that
* print messages to users of the library. hmm..
*/
if (ioctl(state->d_fd, CIOCFSESSION, &sess->ses) == -1) {
syslog_r(LOG_ERR, &sd, "CIOCFSESSION failed (%m)");
ret = 0;
} else {
ret = 1;
}
close(state->d_fd);
state->d_fd = -1;
return (ret);
}
/*
* libcrypto EVP stuff - this is how we get wired to EVP so the engine
* gets called when libcrypto requests a cipher NID.
*/
/* ARC4 (16 byte key) */
const EVP_CIPHER cryptodev_arc4_cipher = {
NID_rc4,
1, 16, 0,
EVP_CIPH_VARIABLE_LENGTH,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
NULL,
NULL,
NULL
};
/* DES CBC EVP */
const EVP_CIPHER cryptodev_des_cbc = {
NID_des_cbc,
8, 8, 8,
EVP_CIPH_CBC_MODE,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
EVP_CIPHER_set_asn1_iv,
EVP_CIPHER_get_asn1_iv,
NULL
};
/* 3DES CBC EVP */
const EVP_CIPHER cryptodev_3des_cbc = {
NID_des_ede3_cbc,
8, 24, 8,
EVP_CIPH_CBC_MODE,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
EVP_CIPHER_set_asn1_iv,
EVP_CIPHER_get_asn1_iv,
NULL
};
const EVP_CIPHER cryptodev_bf_cbc = {
NID_bf_cbc,
8, 16, 8,
EVP_CIPH_CBC_MODE,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
EVP_CIPHER_set_asn1_iv,
EVP_CIPHER_get_asn1_iv,
NULL
};
const EVP_CIPHER cryptodev_cast_cbc = {
NID_cast5_cbc,
8, 16, 8,
EVP_CIPH_CBC_MODE,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
EVP_CIPHER_set_asn1_iv,
EVP_CIPHER_get_asn1_iv,
NULL
};
const EVP_CIPHER cryptodev_aes_cbc = {
NID_aes_128_cbc,
16, 16, 16,
EVP_CIPH_CBC_MODE,
cryptodev_init_key,
cryptodev_cipher,
cryptodev_cleanup,
sizeof(struct dev_crypto_state),
EVP_CIPHER_set_asn1_iv,
EVP_CIPHER_get_asn1_iv,
NULL
};
/*
* Registered by the ENGINE when used to find out how to deal with
* a particular NID in the ENGINE. this says what we'll do at the
* top level - note, that list is restricted by what we answer with
*/
static int
cryptodev_engine_ciphers(ENGINE *e, const EVP_CIPHER **cipher,
const int **nids, int nid)
{
if (!cipher)
return (cryptodev_usable_ciphers(nids));
switch (nid) {
case NID_rc4:
*cipher = &cryptodev_arc4_cipher;
break;
case NID_des_ede3_cbc:
*cipher = &cryptodev_3des_cbc;
break;
case NID_des_cbc:
*cipher = &cryptodev_des_cbc;
break;
case NID_bf_cbc:
*cipher = &cryptodev_bf_cbc;
break;
case NID_cast5_cbc:
*cipher = &cryptodev_cast_cbc;
break;
case NID_aes_128_cbc:
*cipher = &cryptodev_aes_cbc;
break;
default:
*cipher = NULL;
break;
}
return (*cipher != NULL);
}
static int
cryptodev_engine_digests(ENGINE *e, const EVP_MD **digest,
const int **nids, int nid)
{
if (!digest)
return (cryptodev_usable_digests(nids));
switch (nid) {
case NID_md5:
*digest = NULL; /* need to make a clean md5 critter */
break;
default:
*digest = NULL;
break;
}
return (*digest != NULL);
}
/*
* Convert a BIGNUM to the representation that /dev/crypto needs.
* Upon completion of use, the caller is responsible for freeing
* crp->crp_p.
*/
static int
bn2crparam(const BIGNUM *a, struct crparam *crp)
{
int i, j, k;
ssize_t words, bytes, bits;
u_char *b;
crp->crp_p = NULL;
crp->crp_nbits = 0;
bits = BN_num_bits(a);
bytes = (bits + 7) / 8;
b = malloc(bytes);
if (b == NULL)
return (1);
crp->crp_p = b;
crp->crp_nbits = bits;
for (i = 0, j = 0; i < a->top; i++) {
for (k = 0; k < BN_BITS2 / 8; k++) {
if ((j + k) >= bytes)
return (0);
b[j + k] = a->d[i] >> (k * 8);
}
j += BN_BITS2 / 8;
}
return (0);
}
/* Convert a /dev/crypto parameter to a BIGNUM */
static int
crparam2bn(struct crparam *crp, BIGNUM *a)
{
u_int8_t *pd;
int i, bytes;
bytes = (crp->crp_nbits + 7) / 8;
if (bytes == 0)
return (-1);
if ((pd = (u_int8_t *) malloc(bytes)) == NULL)
return (-1);
for (i = 0; i < bytes; i++)
pd[i] = crp->crp_p[bytes - i - 1];
BN_bin2bn(pd, bytes, a);
free(pd);
return (0);
}
static void
zapparams(struct crypt_kop *kop)
{
int i;
for (i = 0; i <= kop->crk_iparams + kop->crk_oparams; i++) {
if (kop->crk_param[i].crp_p)
free(kop->crk_param[i].crp_p);
kop->crk_param[i].crp_p = NULL;
kop->crk_param[i].crp_nbits = 0;
}
}
static int
cryptodev_asym(struct crypt_kop *kop, int rlen, BIGNUM *r, int slen, BIGNUM *s)
{
int fd, ret = -1;
if ((fd = get_asym_dev_crypto()) < 0)
return (ret);
if (r) {
kop->crk_param[kop->crk_iparams].crp_p = calloc(rlen, sizeof(char));
kop->crk_param[kop->crk_iparams].crp_nbits = rlen * 8;
kop->crk_oparams++;
}
if (s) {
kop->crk_param[kop->crk_iparams+1].crp_p = calloc(slen, sizeof(char));
kop->crk_param[kop->crk_iparams+1].crp_nbits = slen * 8;
kop->crk_oparams++;
}
if (ioctl(fd, CIOCKEY, kop) == 0) {
if (r)
crparam2bn(&kop->crk_param[kop->crk_iparams], r);
if (s)
crparam2bn(&kop->crk_param[kop->crk_iparams+1], s);
ret = 0;
}
return (ret);
}
static int
cryptodev_bn_mod_exp(BIGNUM *r, const BIGNUM *a, const BIGNUM *p,
const BIGNUM *m, BN_CTX *ctx, BN_MONT_CTX *in_mont)
{
struct crypt_kop kop;
int ret = 1;
/* Currently, we know we can do mod exp iff we can do any
* asymmetric operations at all.
*/
if (cryptodev_asymfeat == 0) {
ret = BN_mod_exp(r, a, p, m, ctx);
return (ret);
}
memset(&kop, 0, sizeof kop);
kop.crk_op = CRK_MOD_EXP;
/* inputs: a^p % m */
if (bn2crparam(a, &kop.crk_param[0]))
goto err;
if (bn2crparam(p, &kop.crk_param[1]))
goto err;
if (bn2crparam(m, &kop.crk_param[2]))
goto err;
kop.crk_iparams = 3;
if (cryptodev_asym(&kop, BN_num_bytes(m), r, 0, NULL) == -1) {
const RSA_METHOD *meth = RSA_PKCS1_SSLeay();
ret = meth->bn_mod_exp(r, a, p, m, ctx, in_mont);
}
err:
zapparams(&kop);
return (ret);
}
static int
cryptodev_rsa_nocrt_mod_exp(BIGNUM *r0, const BIGNUM *I, RSA *rsa)
{
int r;
BN_CTX *ctx;
ctx = BN_CTX_new();
r = cryptodev_bn_mod_exp(r0, I, rsa->d, rsa->n, ctx, NULL);
BN_CTX_free(ctx);
return (r);
}
static int
cryptodev_rsa_mod_exp(BIGNUM *r0, const BIGNUM *I, RSA *rsa)
{
struct crypt_kop kop;
int ret = 1;
if (!rsa->p || !rsa->q || !rsa->dmp1 || !rsa->dmq1 || !rsa->iqmp) {
/* XXX 0 means failure?? */
return (0);
}
memset(&kop, 0, sizeof kop);
kop.crk_op = CRK_MOD_EXP_CRT;
/* inputs: rsa->p rsa->q I rsa->dmp1 rsa->dmq1 rsa->iqmp */
if (bn2crparam(rsa->p, &kop.crk_param[0]))
goto err;
if (bn2crparam(rsa->q, &kop.crk_param[1]))
goto err;
if (bn2crparam(I, &kop.crk_param[2]))
goto err;
if (bn2crparam(rsa->dmp1, &kop.crk_param[3]))
goto err;
if (bn2crparam(rsa->dmq1, &kop.crk_param[4]))
goto err;
if (bn2crparam(rsa->iqmp, &kop.crk_param[5]))
goto err;
kop.crk_iparams = 6;
if (cryptodev_asym(&kop, BN_num_bytes(rsa->n), r0, 0, NULL) == -1) {
const RSA_METHOD *meth = RSA_PKCS1_SSLeay();
ret = (*meth->rsa_mod_exp)(r0, I, rsa);
}
err:
zapparams(&kop);
return (ret);
}
static RSA_METHOD cryptodev_rsa = {
"cryptodev RSA method",
NULL, /* rsa_pub_enc */
NULL, /* rsa_pub_dec */
NULL, /* rsa_priv_enc */
NULL, /* rsa_priv_dec */
NULL,
NULL,
NULL, /* init */
NULL, /* finish */
0, /* flags */
NULL, /* app_data */
NULL, /* rsa_sign */
NULL /* rsa_verify */
};
static int
cryptodev_dsa_bn_mod_exp(DSA *dsa, BIGNUM *r, BIGNUM *a, const BIGNUM *p,
const BIGNUM *m, BN_CTX *ctx, BN_MONT_CTX *m_ctx)
{
return (cryptodev_bn_mod_exp(r, a, p, m, ctx, m_ctx));
}
static int
cryptodev_dsa_dsa_mod_exp(DSA *dsa, BIGNUM *t1, BIGNUM *g,
BIGNUM *u1, BIGNUM *pub_key, BIGNUM *u2, BIGNUM *p,
BN_CTX *ctx, BN_MONT_CTX *mont)
{
BIGNUM t2;
int ret = 0;
BN_init(&t2);
/* v = ( g^u1 * y^u2 mod p ) mod q */
/* let t1 = g ^ u1 mod p */
ret = 0;
if (!dsa->meth->bn_mod_exp(dsa,t1,dsa->g,u1,dsa->p,ctx,mont))
goto err;
/* let t2 = y ^ u2 mod p */
if (!dsa->meth->bn_mod_exp(dsa,&t2,dsa->pub_key,u2,dsa->p,ctx,mont))
goto err;
/* let u1 = t1 * t2 mod p */
if (!BN_mod_mul(u1,t1,&t2,dsa->p,ctx))
goto err;
BN_copy(t1,u1);
ret = 1;
err:
BN_free(&t2);
return(ret);
}
static DSA_SIG *
cryptodev_dsa_do_sign(const unsigned char *dgst, int dlen, DSA *dsa)
{
struct crypt_kop kop;
BIGNUM *r = NULL, *s = NULL;
DSA_SIG *dsaret = NULL;
if ((r = BN_new()) == NULL)
goto err;
if ((s = BN_new()) == NULL) {
BN_free(r);
goto err;
}
printf("bar\n");
memset(&kop, 0, sizeof kop);
kop.crk_op = CRK_DSA_SIGN;
/* inputs: dgst dsa->p dsa->q dsa->g dsa->priv_key */
kop.crk_param[0].crp_p = (caddr_t)dgst;
kop.crk_param[0].crp_nbits = dlen * 8;
if (bn2crparam(dsa->p, &kop.crk_param[1]))
goto err;
if (bn2crparam(dsa->q, &kop.crk_param[2]))
goto err;
if (bn2crparam(dsa->g, &kop.crk_param[3]))
goto err;
if (bn2crparam(dsa->priv_key, &kop.crk_param[4]))
goto err;
kop.crk_iparams = 5;
if (cryptodev_asym(&kop, BN_num_bytes(dsa->q), r,
BN_num_bytes(dsa->q), s) == 0) {
dsaret = DSA_SIG_new();
dsaret->r = r;
dsaret->s = s;
} else {
const DSA_METHOD *meth = DSA_OpenSSL();
BN_free(r);
BN_free(s);
dsaret = (meth->dsa_do_sign)(dgst, dlen, dsa);
}
err:
kop.crk_param[0].crp_p = NULL;
zapparams(&kop);
return (dsaret);
}
static int
cryptodev_dsa_verify(const unsigned char *dgst, int dlen,
DSA_SIG *sig, DSA *dsa)
{
struct crypt_kop kop;
int dsaret = 1;
memset(&kop, 0, sizeof kop);
kop.crk_op = CRK_DSA_VERIFY;
/* inputs: dgst dsa->p dsa->q dsa->g dsa->pub_key sig->r sig->s */
kop.crk_param[0].crp_p = (caddr_t)dgst;
kop.crk_param[0].crp_nbits = dlen * 8;
if (bn2crparam(dsa->p, &kop.crk_param[1]))
goto err;
if (bn2crparam(dsa->q, &kop.crk_param[2]))
goto err;
if (bn2crparam(dsa->g, &kop.crk_param[3]))
goto err;
if (bn2crparam(dsa->pub_key, &kop.crk_param[4]))
goto err;
if (bn2crparam(sig->r, &kop.crk_param[5]))
goto err;
if (bn2crparam(sig->s, &kop.crk_param[6]))
goto err;
kop.crk_iparams = 7;
if (cryptodev_asym(&kop, 0, NULL, 0, NULL) == 0) {
dsaret = kop.crk_status;
} else {
const DSA_METHOD *meth = DSA_OpenSSL();
dsaret = (meth->dsa_do_verify)(dgst, dlen, sig, dsa);
}
err:
kop.crk_param[0].crp_p = NULL;
zapparams(&kop);
return (dsaret);
}
static DSA_METHOD cryptodev_dsa = {
"cryptodev DSA method",
NULL,
NULL, /* dsa_sign_setup */
NULL,
NULL, /* dsa_mod_exp */
NULL,
NULL, /* init */
NULL, /* finish */
0, /* flags */
NULL /* app_data */
};
static int
cryptodev_mod_exp_dh(const DH *dh, BIGNUM *r, const BIGNUM *a,
const BIGNUM *p, const BIGNUM *m, BN_CTX *ctx,
BN_MONT_CTX *m_ctx)
{
return (cryptodev_bn_mod_exp(r, a, p, m, ctx, m_ctx));
}
static int
cryptodev_dh_compute_key(unsigned char *key, const BIGNUM *pub_key, DH *dh)
{
struct crypt_kop kop;
int dhret = 1;
int fd, keylen;
if ((fd = get_asym_dev_crypto()) < 0) {
const DH_METHOD *meth = DH_OpenSSL();
return ((meth->compute_key)(key, pub_key, dh));
}
keylen = BN_num_bits(dh->p);
memset(&kop, 0, sizeof kop);
kop.crk_op = CRK_DH_COMPUTE_KEY;
/* inputs: dh->priv_key pub_key dh->p key */
if (bn2crparam(dh->priv_key, &kop.crk_param[0]))
goto err;
if (bn2crparam(pub_key, &kop.crk_param[1]))
goto err;
if (bn2crparam(dh->p, &kop.crk_param[2]))
goto err;
kop.crk_iparams = 3;
kop.crk_param[3].crp_p = key;
kop.crk_param[3].crp_nbits = keylen * 8;
kop.crk_oparams = 1;
if (ioctl(fd, CIOCKEY, &kop) == -1) {
const DH_METHOD *meth = DH_OpenSSL();
dhret = (meth->compute_key)(key, pub_key, dh);
}
err:
kop.crk_param[3].crp_p = NULL;
zapparams(&kop);
return (dhret);
}
static DH_METHOD cryptodev_dh = {
"cryptodev DH method",
NULL, /* cryptodev_dh_generate_key */
NULL,
NULL,
NULL,
NULL,
0, /* flags */
NULL /* app_data */
};
/*
* ctrl right now is just a wrapper that doesn't do much
* but I expect we'll want some options soon.
*/
static int
cryptodev_ctrl(ENGINE *e, int cmd, long i, void *p, void (*f)())
{
struct syslog_data sd = SYSLOG_DATA_INIT;
switch (cmd) {
default:
syslog_r(LOG_ERR, &sd,
"cryptodev_ctrl: unknown command %d", cmd);
break;
}
return (1);
}
void
ENGINE_load_cryptodev(void)
{
ENGINE *engine = ENGINE_new();
struct syslog_data sd = SYSLOG_DATA_INIT;
int fd;
if (engine == NULL)
return;
if ((fd = get_dev_crypto()) < 0)
return;
/*
* find out what asymmetric crypto algorithms we support
*/
if (ioctl(fd, CIOCASYMFEAT, &cryptodev_asymfeat) == -1) {
syslog_r(LOG_ERR, &sd, "CIOCASYMFEAT failed (%m)");
close(fd);
return;
}
close(fd);
if (!ENGINE_set_id(engine, "cryptodev") ||
!ENGINE_set_name(engine, "OpenBSD cryptodev engine") ||
!ENGINE_set_ciphers(engine, cryptodev_engine_ciphers) ||
!ENGINE_set_digests(engine, cryptodev_engine_digests) ||
!ENGINE_set_ctrl_function(engine, cryptodev_ctrl) ||
!ENGINE_set_cmd_defns(engine, cryptodev_defns)) {
ENGINE_free(engine);
return;
}
if (ENGINE_set_RSA(engine, &cryptodev_rsa)) {
const RSA_METHOD *rsa_meth = RSA_PKCS1_SSLeay();
cryptodev_rsa.bn_mod_exp = rsa_meth->bn_mod_exp;
cryptodev_rsa.rsa_mod_exp = rsa_meth->rsa_mod_exp;
cryptodev_rsa.rsa_pub_enc = rsa_meth->rsa_pub_enc;
cryptodev_rsa.rsa_pub_dec = rsa_meth->rsa_pub_dec;
cryptodev_rsa.rsa_priv_enc = rsa_meth->rsa_priv_enc;
cryptodev_rsa.rsa_priv_dec = rsa_meth->rsa_priv_dec;
if (cryptodev_asymfeat & CRF_MOD_EXP) {
cryptodev_rsa.bn_mod_exp = cryptodev_bn_mod_exp;
if (cryptodev_asymfeat & CRF_MOD_EXP_CRT)
cryptodev_rsa.rsa_mod_exp =
cryptodev_rsa_mod_exp;
else
cryptodev_rsa.rsa_mod_exp =
cryptodev_rsa_nocrt_mod_exp;
}
}
if (ENGINE_set_DSA(engine, &cryptodev_dsa)) {
const DSA_METHOD *meth = DSA_OpenSSL();
memcpy(&cryptodev_dsa, meth, sizeof(DSA_METHOD));
if (cryptodev_asymfeat & CRF_DSA_SIGN)
cryptodev_dsa.dsa_do_sign = cryptodev_dsa_do_sign;
if (cryptodev_asymfeat & CRF_MOD_EXP) {
cryptodev_dsa.bn_mod_exp = cryptodev_dsa_bn_mod_exp;
cryptodev_dsa.dsa_mod_exp = cryptodev_dsa_dsa_mod_exp;
}
if (cryptodev_asymfeat & CRF_DSA_VERIFY)
cryptodev_dsa.dsa_do_verify = cryptodev_dsa_verify;
}
if (ENGINE_set_DH(engine, &cryptodev_dh)){
const DH_METHOD *dh_meth = DH_OpenSSL();
cryptodev_dh.generate_key = dh_meth->generate_key;
cryptodev_dh.compute_key = dh_meth->compute_key;
cryptodev_dh.bn_mod_exp = dh_meth->bn_mod_exp;
if (cryptodev_asymfeat & CRF_MOD_EXP) {
cryptodev_dh.bn_mod_exp = cryptodev_mod_exp_dh;
if (cryptodev_asymfeat & CRF_DH_COMPUTE_KEY)
cryptodev_dh.compute_key =
cryptodev_dh_compute_key;
}
}
ENGINE_add(engine);
ENGINE_free(engine);
ERR_clear_error();
}
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