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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2016-2017 Intel Corporation
*/
#include <string.h>
#include <rte_common.h>
#include <rte_malloc.h>
#include <rte_cryptodev_pmd.h>
#include "rte_openssl_pmd_private.h"
#include "compat.h"
static const struct rte_cryptodev_capabilities openssl_pmd_capabilities[] = {
{ /* MD5 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_MD5_HMAC,
.block_size = 64,
.key_size = {
.min = 1,
.max = 64,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 16,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* MD5 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_MD5,
.block_size = 64,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 16,
.max = 16,
.increment = 0
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA1 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA1_HMAC,
.block_size = 64,
.key_size = {
.min = 1,
.max = 64,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 20,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA1 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA1,
.block_size = 64,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 20,
.max = 20,
.increment = 0
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA224 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA224_HMAC,
.block_size = 64,
.key_size = {
.min = 1,
.max = 64,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 28,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA224 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA224,
.block_size = 64,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 1,
.max = 28,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA256 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA256_HMAC,
.block_size = 64,
.key_size = {
.min = 1,
.max = 64,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 32,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA256 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA256,
.block_size = 64,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 32,
.max = 32,
.increment = 0
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA384 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA384_HMAC,
.block_size = 128,
.key_size = {
.min = 1,
.max = 128,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 48,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA384 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA384,
.block_size = 128,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 48,
.max = 48,
.increment = 0
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA512 HMAC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA512_HMAC,
.block_size = 128,
.key_size = {
.min = 1,
.max = 128,
.increment = 1
},
.digest_size = {
.min = 1,
.max = 64,
.increment = 1
},
.iv_size = { 0 }
}, }
}, }
},
{ /* SHA512 */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_SHA512,
.block_size = 128,
.key_size = {
.min = 0,
.max = 0,
.increment = 0
},
.digest_size = {
.min = 64,
.max = 64,
.increment = 0
},
.iv_size = { 0 }
}, }
}, }
},
{ /* AES CBC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_AES_CBC,
.block_size = 16,
.key_size = {
.min = 16,
.max = 32,
.increment = 8
},
.iv_size = {
.min = 16,
.max = 16,
.increment = 0
}
}, }
}, }
},
{ /* AES CTR */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_AES_CTR,
.block_size = 16,
.key_size = {
.min = 16,
.max = 32,
.increment = 8
},
.iv_size = {
.min = 16,
.max = 16,
.increment = 0
}
}, }
}, }
},
{ /* AES GCM */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AEAD,
{.aead = {
.algo = RTE_CRYPTO_AEAD_AES_GCM,
.block_size = 16,
.key_size = {
.min = 16,
.max = 32,
.increment = 8
},
.digest_size = {
.min = 16,
.max = 16,
.increment = 0
},
.aad_size = {
.min = 0,
.max = 65535,
.increment = 1
},
.iv_size = {
.min = 12,
.max = 16,
.increment = 4
},
}, }
}, }
},
{ /* AES CCM */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AEAD,
{.aead = {
.algo = RTE_CRYPTO_AEAD_AES_CCM,
.block_size = 16,
.key_size = {
.min = 16,
.max = 32,
.increment = 8
},
.digest_size = {
.min = 4,
.max = 16,
.increment = 2
},
.aad_size = {
.min = 0,
.max = 65535,
.increment = 1
},
.iv_size = {
.min = 7,
.max = 13,
.increment = 1
},
}, }
}, }
},
{ /* AES GMAC (AUTH) */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_AUTH,
{.auth = {
.algo = RTE_CRYPTO_AUTH_AES_GMAC,
.block_size = 16,
.key_size = {
.min = 16,
.max = 32,
.increment = 8
},
.digest_size = {
.min = 16,
.max = 16,
.increment = 0
},
.iv_size = {
.min = 12,
.max = 16,
.increment = 4
}
}, }
}, }
},
{ /* 3DES CBC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_3DES_CBC,
.block_size = 8,
.key_size = {
.min = 8,
.max = 24,
.increment = 8
},
.iv_size = {
.min = 8,
.max = 8,
.increment = 0
}
}, }
}, }
},
{ /* 3DES CTR */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_3DES_CTR,
.block_size = 8,
.key_size = {
.min = 16,
.max = 24,
.increment = 8
},
.iv_size = {
.min = 8,
.max = 8,
.increment = 0
}
}, }
}, }
},
{ /* DES CBC */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_DES_CBC,
.block_size = 8,
.key_size = {
.min = 8,
.max = 8,
.increment = 0
},
.iv_size = {
.min = 8,
.max = 8,
.increment = 0
}
}, }
}, }
},
{ /* DES DOCSIS BPI */
.op = RTE_CRYPTO_OP_TYPE_SYMMETRIC,
{.sym = {
.xform_type = RTE_CRYPTO_SYM_XFORM_CIPHER,
{.cipher = {
.algo = RTE_CRYPTO_CIPHER_DES_DOCSISBPI,
.block_size = 8,
.key_size = {
.min = 8,
.max = 8,
.increment = 0
},
.iv_size = {
.min = 8,
.max = 8,
.increment = 0
}
}, }
}, }
},
{ /* RSA */
.op = RTE_CRYPTO_OP_TYPE_ASYMMETRIC,
{.asym = {
.xform_capa = {
.xform_type = RTE_CRYPTO_ASYM_XFORM_RSA,
.op_types = ((1 << RTE_CRYPTO_ASYM_OP_SIGN) |
(1 << RTE_CRYPTO_ASYM_OP_VERIFY) |
(1 << RTE_CRYPTO_ASYM_OP_ENCRYPT) |
(1 << RTE_CRYPTO_ASYM_OP_DECRYPT)),
{
.modlen = {
/* min length is based on openssl rsa keygen */
.min = 30,
/* value 0 symbolizes no limit on max length */
.max = 0,
.increment = 1
}, }
}
},
}
},
{ /* modexp */
.op = RTE_CRYPTO_OP_TYPE_ASYMMETRIC,
{.asym = {
.xform_capa = {
.xform_type = RTE_CRYPTO_ASYM_XFORM_MODEX,
.op_types = 0,
{
.modlen = {
/* value 0 symbolizes no limit on min length */
.min = 0,
/* value 0 symbolizes no limit on max length */
.max = 0,
.increment = 1
}, }
}
},
}
},
{ /* modinv */
.op = RTE_CRYPTO_OP_TYPE_ASYMMETRIC,
{.asym = {
.xform_capa = {
.xform_type = RTE_CRYPTO_ASYM_XFORM_MODINV,
.op_types = 0,
{
.modlen = {
/* value 0 symbolizes no limit on min length */
.min = 0,
/* value 0 symbolizes no limit on max length */
.max = 0,
.increment = 1
}, }
}
},
}
},
{ /* dh */
.op = RTE_CRYPTO_OP_TYPE_ASYMMETRIC,
{.asym = {
.xform_capa = {
.xform_type = RTE_CRYPTO_ASYM_XFORM_DH,
.op_types =
((1<<RTE_CRYPTO_ASYM_OP_PRIVATE_KEY_GENERATE) |
(1 << RTE_CRYPTO_ASYM_OP_PUBLIC_KEY_GENERATE |
(1 <<
RTE_CRYPTO_ASYM_OP_SHARED_SECRET_COMPUTE))),
{
.modlen = {
/* value 0 symbolizes no limit on min length */
.min = 0,
/* value 0 symbolizes no limit on max length */
.max = 0,
.increment = 1
}, }
}
},
}
},
{ /* dsa */
.op = RTE_CRYPTO_OP_TYPE_ASYMMETRIC,
{.asym = {
.xform_capa = {
.xform_type = RTE_CRYPTO_ASYM_XFORM_DSA,
.op_types =
((1<<RTE_CRYPTO_ASYM_OP_SIGN) |
(1 << RTE_CRYPTO_ASYM_OP_VERIFY)),
{
.modlen = {
/* value 0 symbolizes no limit on min length */
.min = 0,
/* value 0 symbolizes no limit on max length */
.max = 0,
.increment = 1
}, }
}
},
}
},
RTE_CRYPTODEV_END_OF_CAPABILITIES_LIST()
};
/** Configure device */
static int
openssl_pmd_config(__rte_unused struct rte_cryptodev *dev,
__rte_unused struct rte_cryptodev_config *config)
{
return 0;
}
/** Start device */
static int
openssl_pmd_start(__rte_unused struct rte_cryptodev *dev)
{
return 0;
}
/** Stop device */
static void
openssl_pmd_stop(__rte_unused struct rte_cryptodev *dev)
{
}
/** Close device */
static int
openssl_pmd_close(__rte_unused struct rte_cryptodev *dev)
{
return 0;
}
/** Get device statistics */
static void
openssl_pmd_stats_get(struct rte_cryptodev *dev,
struct rte_cryptodev_stats *stats)
{
int qp_id;
for (qp_id = 0; qp_id < dev->data->nb_queue_pairs; qp_id++) {
struct openssl_qp *qp = dev->data->queue_pairs[qp_id];
stats->enqueued_count += qp->stats.enqueued_count;
stats->dequeued_count += qp->stats.dequeued_count;
stats->enqueue_err_count += qp->stats.enqueue_err_count;
stats->dequeue_err_count += qp->stats.dequeue_err_count;
}
}
/** Reset device statistics */
static void
openssl_pmd_stats_reset(struct rte_cryptodev *dev)
{
int qp_id;
for (qp_id = 0; qp_id < dev->data->nb_queue_pairs; qp_id++) {
struct openssl_qp *qp = dev->data->queue_pairs[qp_id];
memset(&qp->stats, 0, sizeof(qp->stats));
}
}
/** Get device info */
static void
openssl_pmd_info_get(struct rte_cryptodev *dev,
struct rte_cryptodev_info *dev_info)
{
struct openssl_private *internals = dev->data->dev_private;
if (dev_info != NULL) {
dev_info->driver_id = dev->driver_id;
dev_info->feature_flags = dev->feature_flags;
dev_info->capabilities = openssl_pmd_capabilities;
dev_info->max_nb_queue_pairs = internals->max_nb_qpairs;
/* No limit of number of sessions */
dev_info->sym.max_nb_sessions = 0;
}
}
/** Release queue pair */
static int
openssl_pmd_qp_release(struct rte_cryptodev *dev, uint16_t qp_id)
{
if (dev->data->queue_pairs[qp_id] != NULL) {
rte_free(dev->data->queue_pairs[qp_id]);
dev->data->queue_pairs[qp_id] = NULL;
}
return 0;
}
/** set a unique name for the queue pair based on it's name, dev_id and qp_id */
static int
openssl_pmd_qp_set_unique_name(struct rte_cryptodev *dev,
struct openssl_qp *qp)
{
unsigned int n = snprintf(qp->name, sizeof(qp->name),
"openssl_pmd_%u_qp_%u",
dev->data->dev_id, qp->id);
if (n >= sizeof(qp->name))
return -1;
return 0;
}
/** Create a ring to place processed operations on */
static struct rte_ring *
openssl_pmd_qp_create_processed_ops_ring(struct openssl_qp *qp,
unsigned int ring_size, int socket_id)
{
struct rte_ring *r;
r = rte_ring_lookup(qp->name);
if (r) {
if (rte_ring_get_size(r) >= ring_size) {
OPENSSL_LOG(INFO,
"Reusing existing ring %s for processed ops",
qp->name);
return r;
}
OPENSSL_LOG(ERR,
"Unable to reuse existing ring %s for processed ops",
qp->name);
return NULL;
}
return rte_ring_create(qp->name, ring_size, socket_id,
RING_F_SP_ENQ | RING_F_SC_DEQ);
}
/** Setup a queue pair */
static int
openssl_pmd_qp_setup(struct rte_cryptodev *dev, uint16_t qp_id,
const struct rte_cryptodev_qp_conf *qp_conf,
int socket_id, struct rte_mempool *session_pool)
{
struct openssl_qp *qp = NULL;
/* Free memory prior to re-allocation if needed. */
if (dev->data->queue_pairs[qp_id] != NULL)
openssl_pmd_qp_release(dev, qp_id);
/* Allocate the queue pair data structure. */
qp = rte_zmalloc_socket("OPENSSL PMD Queue Pair", sizeof(*qp),
RTE_CACHE_LINE_SIZE, socket_id);
if (qp == NULL)
return -ENOMEM;
qp->id = qp_id;
dev->data->queue_pairs[qp_id] = qp;
if (openssl_pmd_qp_set_unique_name(dev, qp))
goto qp_setup_cleanup;
qp->processed_ops = openssl_pmd_qp_create_processed_ops_ring(qp,
qp_conf->nb_descriptors, socket_id);
if (qp->processed_ops == NULL)
goto qp_setup_cleanup;
qp->sess_mp = session_pool;
memset(&qp->stats, 0, sizeof(qp->stats));
return 0;
qp_setup_cleanup:
if (qp)
rte_free(qp);
return -1;
}
/** Return the number of allocated queue pairs */
static uint32_t
openssl_pmd_qp_count(struct rte_cryptodev *dev)
{
return dev->data->nb_queue_pairs;
}
/** Returns the size of the symmetric session structure */
static unsigned
openssl_pmd_sym_session_get_size(struct rte_cryptodev *dev __rte_unused)
{
return sizeof(struct openssl_session);
}
/** Returns the size of the asymmetric session structure */
static unsigned
openssl_pmd_asym_session_get_size(struct rte_cryptodev *dev __rte_unused)
{
return sizeof(struct openssl_asym_session);
}
/** Configure the session from a crypto xform chain */
static int
openssl_pmd_sym_session_configure(struct rte_cryptodev *dev __rte_unused,
struct rte_crypto_sym_xform *xform,
struct rte_cryptodev_sym_session *sess,
struct rte_mempool *mempool)
{
void *sess_private_data;
int ret;
if (unlikely(sess == NULL)) {
OPENSSL_LOG(ERR, "invalid session struct");
return -EINVAL;
}
if (rte_mempool_get(mempool, &sess_private_data)) {
OPENSSL_LOG(ERR,
"Couldn't get object from session mempool");
return -ENOMEM;
}
ret = openssl_set_session_parameters(sess_private_data, xform);
if (ret != 0) {
OPENSSL_LOG(ERR, "failed configure session parameters");
/* Return session to mempool */
rte_mempool_put(mempool, sess_private_data);
return ret;
}
set_sym_session_private_data(sess, dev->driver_id,
sess_private_data);
return 0;
}
static int openssl_set_asym_session_parameters(
struct openssl_asym_session *asym_session,
struct rte_crypto_asym_xform *xform)
{
int ret = 0;
if ((xform->xform_type != RTE_CRYPTO_ASYM_XFORM_DH) &&
(xform->next != NULL)) {
OPENSSL_LOG(ERR, "chained xfrms are not supported on %s",
rte_crypto_asym_xform_strings[xform->xform_type]);
return -1;
}
switch (xform->xform_type) {
case RTE_CRYPTO_ASYM_XFORM_RSA:
{
BIGNUM *n = NULL;
BIGNUM *e = NULL;
BIGNUM *d = NULL;
BIGNUM *p = NULL, *q = NULL, *dmp1 = NULL;
BIGNUM *iqmp = NULL, *dmq1 = NULL;
/* copy xfrm data into rsa struct */
n = BN_bin2bn((const unsigned char *)xform->rsa.n.data,
xform->rsa.n.length, n);
e = BN_bin2bn((const unsigned char *)xform->rsa.e.data,
xform->rsa.e.length, e);
if (!n || !e)
goto err_rsa;
RSA *rsa = RSA_new();
if (rsa == NULL)
goto err_rsa;
if (xform->rsa.key_type == RTE_RSA_KEY_TYPE_EXP) {
d = BN_bin2bn(
(const unsigned char *)xform->rsa.d.data,
xform->rsa.d.length,
d);
if (!d) {
RSA_free(rsa);
goto err_rsa;
}
} else {
p = BN_bin2bn((const unsigned char *)
xform->rsa.qt.p.data,
xform->rsa.qt.p.length,
p);
q = BN_bin2bn((const unsigned char *)
xform->rsa.qt.q.data,
xform->rsa.qt.q.length,
q);
dmp1 = BN_bin2bn((const unsigned char *)
xform->rsa.qt.dP.data,
xform->rsa.qt.dP.length,
dmp1);
dmq1 = BN_bin2bn((const unsigned char *)
xform->rsa.qt.dQ.data,
xform->rsa.qt.dQ.length,
dmq1);
iqmp = BN_bin2bn((const unsigned char *)
xform->rsa.qt.qInv.data,
xform->rsa.qt.qInv.length,
iqmp);
if (!p || !q || !dmp1 || !dmq1 || !iqmp) {
RSA_free(rsa);
goto err_rsa;
}
ret = set_rsa_params(rsa, p, q);
if (ret) {
OPENSSL_LOG(ERR,
"failed to set rsa params\n");
RSA_free(rsa);
goto err_rsa;
}
ret = set_rsa_crt_params(rsa, dmp1, dmq1, iqmp);
if (ret) {
OPENSSL_LOG(ERR,
"failed to set crt params\n");
RSA_free(rsa);
/*
* set already populated params to NULL
* as its freed by call to RSA_free
*/
p = q = NULL;
goto err_rsa;
}
}
ret = set_rsa_keys(rsa, n, e, d);
if (ret) {
OPENSSL_LOG(ERR, "Failed to load rsa keys\n");
RSA_free(rsa);
return -1;
}
asym_session->u.r.rsa = rsa;
asym_session->xfrm_type = RTE_CRYPTO_ASYM_XFORM_RSA;
break;
err_rsa:
if (n)
BN_free(n);
if (e)
BN_free(e);
if (d)
BN_free(d);
if (p)
BN_free(p);
if (q)
BN_free(q);
if (dmp1)
BN_free(dmp1);
if (dmq1)
BN_free(dmq1);
if (iqmp)
BN_free(iqmp);
return -1;
}
case RTE_CRYPTO_ASYM_XFORM_MODEX:
{
struct rte_crypto_modex_xform *xfrm = &(xform->modex);
BN_CTX *ctx = BN_CTX_new();
if (ctx == NULL) {
OPENSSL_LOG(ERR,
" failed to allocate resources\n");
return -1;
}
BN_CTX_start(ctx);
BIGNUM *mod = BN_CTX_get(ctx);
BIGNUM *exp = BN_CTX_get(ctx);
if (mod == NULL || exp == NULL) {
BN_CTX_end(ctx);
BN_CTX_free(ctx);
return -1;
}
mod = BN_bin2bn((const unsigned char *)
xfrm->modulus.data,
xfrm->modulus.length, mod);
exp = BN_bin2bn((const unsigned char *)
xfrm->exponent.data,
xfrm->exponent.length, exp);
asym_session->u.e.ctx = ctx;
asym_session->u.e.mod = mod;
asym_session->u.e.exp = exp;
asym_session->xfrm_type = RTE_CRYPTO_ASYM_XFORM_MODEX;
break;
}
case RTE_CRYPTO_ASYM_XFORM_MODINV:
{
struct rte_crypto_modinv_xform *xfrm = &(xform->modinv);
BN_CTX *ctx = BN_CTX_new();
if (ctx == NULL) {
OPENSSL_LOG(ERR,
" failed to allocate resources\n");
return -1;
}
BN_CTX_start(ctx);
BIGNUM *mod = BN_CTX_get(ctx);
if (mod == NULL) {
BN_CTX_end(ctx);
BN_CTX_free(ctx);
return -1;
}
mod = BN_bin2bn((const unsigned char *)
xfrm->modulus.data,
xfrm->modulus.length,
mod);
asym_session->u.m.ctx = ctx;
asym_session->u.m.modulus = mod;
asym_session->xfrm_type = RTE_CRYPTO_ASYM_XFORM_MODINV;
break;
}
case RTE_CRYPTO_ASYM_XFORM_DH:
{
BIGNUM *p = NULL;
BIGNUM *g = NULL;
p = BN_bin2bn((const unsigned char *)
xform->dh.p.data,
xform->dh.p.length,
p);
g = BN_bin2bn((const unsigned char *)
xform->dh.g.data,
xform->dh.g.length,
g);
if (!p || !g)
goto err_dh;
DH *dh = DH_new();
if (dh == NULL) {
OPENSSL_LOG(ERR,
"failed to allocate resources\n");
goto err_dh;
}
ret = set_dh_params(dh, p, g);
if (ret) {
DH_free(dh);
goto err_dh;
}
/*
* setup xfrom for
* public key generate, or
* DH Priv key generate, or both
* public and private key generate
*/
asym_session->u.dh.key_op = (1 << xform->dh.type);
if (xform->dh.type ==
RTE_CRYPTO_ASYM_OP_PRIVATE_KEY_GENERATE) {
/* check if next is pubkey */
if ((xform->next != NULL) &&
(xform->next->xform_type ==
RTE_CRYPTO_ASYM_XFORM_DH) &&
(xform->next->dh.type ==
RTE_CRYPTO_ASYM_OP_PUBLIC_KEY_GENERATE)
) {
/*
* setup op as pub/priv key
* pair generationi
*/
asym_session->u.dh.key_op |=
(1 <<
RTE_CRYPTO_ASYM_OP_PUBLIC_KEY_GENERATE);
}
}
asym_session->u.dh.dh_key = dh;
asym_session->xfrm_type = RTE_CRYPTO_ASYM_XFORM_DH;
break;
err_dh:
OPENSSL_LOG(ERR, " failed to set dh params\n");
if (p)
BN_free(p);
if (g)
BN_free(g);
return -1;
}
case RTE_CRYPTO_ASYM_XFORM_DSA:
{
BIGNUM *p = NULL, *g = NULL;
BIGNUM *q = NULL, *priv_key = NULL;
BIGNUM *pub_key = BN_new();
BN_zero(pub_key);
p = BN_bin2bn((const unsigned char *)
xform->dsa.p.data,
xform->dsa.p.length,
p);
g = BN_bin2bn((const unsigned char *)
xform->dsa.g.data,
xform->dsa.g.length,
g);
q = BN_bin2bn((const unsigned char *)
xform->dsa.q.data,
xform->dsa.q.length,
q);
if (!p || !q || !g)
goto err_dsa;
priv_key = BN_bin2bn((const unsigned char *)
xform->dsa.x.data,
xform->dsa.x.length,
priv_key);
if (priv_key == NULL)
goto err_dsa;
DSA *dsa = DSA_new();
if (dsa == NULL) {
OPENSSL_LOG(ERR,
" failed to allocate resources\n");
goto err_dsa;
}
ret = set_dsa_params(dsa, p, q, g);
if (ret) {
DSA_free(dsa);
OPENSSL_LOG(ERR, "Failed to dsa params\n");
goto err_dsa;
}
/*
* openssl 1.1.0 mandate that public key can't be
* NULL in very first call. so set a dummy pub key.
* to keep consistency, lets follow same approach for
* both versions
*/
/* just set dummy public for very 1st call */
ret = set_dsa_keys(dsa, pub_key, priv_key);
if (ret) {
DSA_free(dsa);
OPENSSL_LOG(ERR, "Failed to set keys\n");
return -1;
}
asym_session->u.s.dsa = dsa;
asym_session->xfrm_type = RTE_CRYPTO_ASYM_XFORM_DSA;
break;
err_dsa:
if (p)
BN_free(p);
if (q)
BN_free(q);
if (g)
BN_free(g);
if (priv_key)
BN_free(priv_key);
if (pub_key)
BN_free(pub_key);
return -1;
}
default:
return -1;
}
return 0;
}
/** Configure the session from a crypto xform chain */
static int
openssl_pmd_asym_session_configure(struct rte_cryptodev *dev __rte_unused,
struct rte_crypto_asym_xform *xform,
struct rte_cryptodev_asym_session *sess,
struct rte_mempool *mempool)
{
void *asym_sess_private_data;
int ret;
if (unlikely(sess == NULL)) {
OPENSSL_LOG(ERR, "invalid asymmetric session struct");
return -EINVAL;
}
if (rte_mempool_get(mempool, &asym_sess_private_data)) {
CDEV_LOG_ERR(
"Couldn't get object from session mempool");
return -ENOMEM;
}
ret = openssl_set_asym_session_parameters(asym_sess_private_data,
xform);
if (ret != 0) {
OPENSSL_LOG(ERR, "failed configure session parameters");
/* Return session to mempool */
rte_mempool_put(mempool, asym_sess_private_data);
return ret;
}
set_asym_session_private_data(sess, dev->driver_id,
asym_sess_private_data);
return 0;
}
/** Clear the memory of session so it doesn't leave key material behind */
static void
openssl_pmd_sym_session_clear(struct rte_cryptodev *dev,
struct rte_cryptodev_sym_session *sess)
{
uint8_t index = dev->driver_id;
void *sess_priv = get_sym_session_private_data(sess, index);
/* Zero out the whole structure */
if (sess_priv) {
openssl_reset_session(sess_priv);
memset(sess_priv, 0, sizeof(struct openssl_session));
struct rte_mempool *sess_mp = rte_mempool_from_obj(sess_priv);
set_sym_session_private_data(sess, index, NULL);
rte_mempool_put(sess_mp, sess_priv);
}
}
static void openssl_reset_asym_session(struct openssl_asym_session *sess)
{
switch (sess->xfrm_type) {
case RTE_CRYPTO_ASYM_XFORM_RSA:
if (sess->u.r.rsa)
RSA_free(sess->u.r.rsa);
break;
case RTE_CRYPTO_ASYM_XFORM_MODEX:
if (sess->u.e.ctx) {
BN_CTX_end(sess->u.e.ctx);
BN_CTX_free(sess->u.e.ctx);
}
break;
case RTE_CRYPTO_ASYM_XFORM_MODINV:
if (sess->u.m.ctx) {
BN_CTX_end(sess->u.m.ctx);
BN_CTX_free(sess->u.m.ctx);
}
break;
case RTE_CRYPTO_ASYM_XFORM_DH:
if (sess->u.dh.dh_key)
DH_free(sess->u.dh.dh_key);
break;
case RTE_CRYPTO_ASYM_XFORM_DSA:
if (sess->u.s.dsa)
DSA_free(sess->u.s.dsa);
break;
default:
break;
}
}
/** Clear the memory of asymmetric session
* so it doesn't leave key material behind
*/
static void
openssl_pmd_asym_session_clear(struct rte_cryptodev *dev,
struct rte_cryptodev_asym_session *sess)
{
uint8_t index = dev->driver_id;
void *sess_priv = get_asym_session_private_data(sess, index);
/* Zero out the whole structure */
if (sess_priv) {
openssl_reset_asym_session(sess_priv);
memset(sess_priv, 0, sizeof(struct openssl_asym_session));
struct rte_mempool *sess_mp = rte_mempool_from_obj(sess_priv);
set_asym_session_private_data(sess, index, NULL);
rte_mempool_put(sess_mp, sess_priv);
}
}
struct rte_cryptodev_ops openssl_pmd_ops = {
.dev_configure = openssl_pmd_config,
.dev_start = openssl_pmd_start,
.dev_stop = openssl_pmd_stop,
.dev_close = openssl_pmd_close,
.stats_get = openssl_pmd_stats_get,
.stats_reset = openssl_pmd_stats_reset,
.dev_infos_get = openssl_pmd_info_get,
.queue_pair_setup = openssl_pmd_qp_setup,
.queue_pair_release = openssl_pmd_qp_release,
.queue_pair_count = openssl_pmd_qp_count,
.sym_session_get_size = openssl_pmd_sym_session_get_size,
.asym_session_get_size = openssl_pmd_asym_session_get_size,
.sym_session_configure = openssl_pmd_sym_session_configure,
.asym_session_configure = openssl_pmd_asym_session_configure,
.sym_session_clear = openssl_pmd_sym_session_clear,
.asym_session_clear = openssl_pmd_asym_session_clear
};
struct rte_cryptodev_ops *rte_openssl_pmd_ops = &openssl_pmd_ops;
|