mirror_zfs/module/icp/api/kcf_digest.c

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/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2007 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <sys/zfs_context.h>
#include <sys/crypto/common.h>
#include <sys/crypto/impl.h>
#include <sys/crypto/api.h>
#include <sys/crypto/spi.h>
#include <sys/crypto/sched_impl.h>
#define CRYPTO_OPS_OFFSET(f) offsetof(crypto_ops_t, co_##f)
#define CRYPTO_DIGEST_OFFSET(f) offsetof(crypto_digest_ops_t, f)
/*
* Message digest routines
*/
/*
* The following are the possible returned values common to all the routines
* below. The applicability of some of these return values depends on the
* presence of the arguments.
*
* CRYPTO_SUCCESS: The operation completed successfully.
* CRYPTO_QUEUED: A request was submitted successfully. The callback
* routine will be called when the operation is done.
* CRYPTO_MECHANISM_INVALID or CRYPTO_INVALID_MECH_PARAM
* for problems with the 'mech'.
* CRYPTO_INVALID_DATA for bogus 'data'
* CRYPTO_HOST_MEMORY for failure to allocate memory to handle this work.
* CRYPTO_INVALID_CONTEXT: Not a valid context.
* CRYPTO_BUSY: Cannot process the request now. Schedule a
* crypto_bufcall(), or try later.
* CRYPTO_NOT_SUPPORTED and CRYPTO_MECH_NOT_SUPPORTED:
* No provider is capable of a function or a mechanism.
*/
/*
* crypto_digest_prov()
*
* Arguments:
* pd: pointer to the descriptor of the provider to use for this
* operation.
* sid: provider session id.
* mech: crypto_mechanism_t pointer.
* mech_type is a valid value previously returned by
* crypto_mech2id();
* When the mech's parameter is not NULL, its definition depends
* on the standard definition of the mechanism.
* data: The message to be digested.
* digest: Storage for the digest. The length needed depends on the
* mechanism.
* cr: crypto_call_req_t calling conditions and call back info.
*
* Description:
* Asynchronously submits a request for, or synchronously performs the
* digesting operation of 'data' on the specified
* provider with the specified session.
* When complete and successful, 'digest' will contain the digest value.
* The caller should hold a reference on the specified provider
* descriptor before calling this function.
*
* Context:
* Process or interrupt, according to the semantics dictated by the 'cr'.
*
* Returns:
* See comment in the beginning of the file.
*/
int
crypto_digest_prov(crypto_provider_t provider, crypto_session_id_t sid,
crypto_mechanism_t *mech, crypto_data_t *data, crypto_data_t *digest,
crypto_call_req_t *crq)
{
kcf_req_params_t params;
kcf_provider_desc_t *pd = provider;
kcf_provider_desc_t *real_provider = pd;
int rv;
ASSERT(KCF_PROV_REFHELD(pd));
if (pd->pd_prov_type == CRYPTO_LOGICAL_PROVIDER) {
rv = kcf_get_hardware_provider(mech->cm_type,
CRYPTO_MECH_INVALID, CHECK_RESTRICT(crq),
pd, &real_provider, CRYPTO_FG_DIGEST_ATOMIC);
if (rv != CRYPTO_SUCCESS)
return (rv);
}
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_ATOMIC, sid, mech, NULL,
data, digest);
/* no crypto context to carry between multiple parts. */
rv = kcf_submit_request(real_provider, NULL, crq, &params, B_FALSE);
if (pd->pd_prov_type == CRYPTO_LOGICAL_PROVIDER)
KCF_PROV_REFRELE(real_provider);
return (rv);
}
/*
* Same as crypto_digest_prov(), but relies on the KCF scheduler to
* choose a provider. See crypto_digest_prov() comments for more information.
*/
int
crypto_digest(crypto_mechanism_t *mech, crypto_data_t *data,
crypto_data_t *digest, crypto_call_req_t *crq)
{
int error;
kcf_provider_desc_t *pd;
kcf_req_params_t params;
kcf_prov_tried_t *list = NULL;
retry:
/* The pd is returned held */
if ((pd = kcf_get_mech_provider(mech->cm_type, NULL, &error, list,
CRYPTO_FG_DIGEST_ATOMIC, CHECK_RESTRICT(crq),
data->cd_length)) == NULL) {
if (list != NULL)
kcf_free_triedlist(list);
return (error);
}
/* The fast path for SW providers. */
if (CHECK_FASTPATH(crq, pd)) {
crypto_mechanism_t lmech;
lmech = *mech;
KCF_SET_PROVIDER_MECHNUM(mech->cm_type, pd, &lmech);
error = KCF_PROV_DIGEST_ATOMIC(pd, pd->pd_sid, &lmech, data,
digest, KCF_SWFP_RHNDL(crq));
KCF_PROV_INCRSTATS(pd, error);
} else {
if (pd->pd_prov_type == CRYPTO_HW_PROVIDER &&
(pd->pd_flags & CRYPTO_HASH_NO_UPDATE) &&
(data->cd_length > pd->pd_hash_limit)) {
error = CRYPTO_BUFFER_TOO_BIG;
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_ATOMIC,
pd->pd_sid, mech, NULL, data, digest);
/* no crypto context to carry between multiple parts. */
error = kcf_submit_request(pd, NULL, crq, &params,
B_FALSE);
}
}
if (error != CRYPTO_SUCCESS && error != CRYPTO_QUEUED &&
IS_RECOVERABLE(error)) {
/* Add pd to the linked list of providers tried. */
if (kcf_insert_triedlist(&list, pd, KCF_KMFLAG(crq)) != NULL)
goto retry;
}
if (list != NULL)
kcf_free_triedlist(list);
KCF_PROV_REFRELE(pd);
return (error);
}
/*
* crypto_digest_init_prov()
*
* pd: pointer to the descriptor of the provider to use for this
* operation.
* sid: provider session id.
* mech: crypto_mechanism_t pointer.
* mech_type is a valid value previously returned by
* crypto_mech2id();
* When the mech's parameter is not NULL, its definition depends
* on the standard definition of the mechanism.
* ctxp: Pointer to a crypto_context_t.
* cr: crypto_call_req_t calling conditions and call back info.
*
* Description:
* Asynchronously submits a request for, or synchronously performs the
* initialization of a message digest operation on the specified
* provider with the specified session.
* When complete and successful, 'ctxp' will contain a crypto_context_t
* valid for later calls to digest_update() and digest_final().
* The caller should hold a reference on the specified provider
* descriptor before calling this function.
*/
int
crypto_digest_init_prov(crypto_provider_t provider, crypto_session_id_t sid,
crypto_mechanism_t *mech, crypto_context_t *ctxp, crypto_call_req_t *crq)
{
int error;
crypto_ctx_t *ctx;
kcf_req_params_t params;
kcf_provider_desc_t *pd = provider;
kcf_provider_desc_t *real_provider = pd;
ASSERT(KCF_PROV_REFHELD(pd));
if (pd->pd_prov_type == CRYPTO_LOGICAL_PROVIDER) {
error = kcf_get_hardware_provider(mech->cm_type,
CRYPTO_MECH_INVALID, CHECK_RESTRICT(crq), pd,
&real_provider, CRYPTO_FG_DIGEST);
if (error != CRYPTO_SUCCESS)
return (error);
}
/* Allocate and initialize the canonical context */
if ((ctx = kcf_new_ctx(crq, real_provider, sid)) == NULL) {
if (pd->pd_prov_type == CRYPTO_LOGICAL_PROVIDER)
KCF_PROV_REFRELE(real_provider);
return (CRYPTO_HOST_MEMORY);
}
/* The fast path for SW providers. */
if (CHECK_FASTPATH(crq, pd)) {
crypto_mechanism_t lmech;
lmech = *mech;
KCF_SET_PROVIDER_MECHNUM(mech->cm_type, real_provider, &lmech);
error = KCF_PROV_DIGEST_INIT(real_provider, ctx, &lmech,
KCF_SWFP_RHNDL(crq));
KCF_PROV_INCRSTATS(pd, error);
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_INIT, sid,
mech, NULL, NULL, NULL);
error = kcf_submit_request(real_provider, ctx, crq, &params,
B_FALSE);
}
if (pd->pd_prov_type == CRYPTO_LOGICAL_PROVIDER)
KCF_PROV_REFRELE(real_provider);
if ((error == CRYPTO_SUCCESS) || (error == CRYPTO_QUEUED))
*ctxp = (crypto_context_t)ctx;
else {
/* Release the hold done in kcf_new_ctx(). */
KCF_CONTEXT_REFRELE((kcf_context_t *)ctx->cc_framework_private);
}
return (error);
}
/*
* Same as crypto_digest_init_prov(), but relies on the KCF scheduler
* to choose a provider. See crypto_digest_init_prov() comments for
* more information.
*/
int
crypto_digest_init(crypto_mechanism_t *mech, crypto_context_t *ctxp,
crypto_call_req_t *crq)
{
int error;
kcf_provider_desc_t *pd;
kcf_prov_tried_t *list = NULL;
retry:
/* The pd is returned held */
if ((pd = kcf_get_mech_provider(mech->cm_type, NULL, &error,
list, CRYPTO_FG_DIGEST, CHECK_RESTRICT(crq), 0)) == NULL) {
if (list != NULL)
kcf_free_triedlist(list);
return (error);
}
if (pd->pd_prov_type == CRYPTO_HW_PROVIDER &&
(pd->pd_flags & CRYPTO_HASH_NO_UPDATE)) {
/*
* The hardware provider has limited digest support.
* So, we fallback early here to using a software provider.
*
* XXX - need to enhance to do the fallback later in
* crypto_digest_update() if the size of accumulated input data
* exceeds the maximum size digestable by hardware provider.
*/
error = CRYPTO_BUFFER_TOO_BIG;
} else {
error = crypto_digest_init_prov(pd, pd->pd_sid,
mech, ctxp, crq);
}
if (error != CRYPTO_SUCCESS && error != CRYPTO_QUEUED &&
IS_RECOVERABLE(error)) {
/* Add pd to the linked list of providers tried. */
if (kcf_insert_triedlist(&list, pd, KCF_KMFLAG(crq)) != NULL)
goto retry;
}
if (list != NULL)
kcf_free_triedlist(list);
KCF_PROV_REFRELE(pd);
return (error);
}
/*
* crypto_digest_update()
*
* Arguments:
* context: A crypto_context_t initialized by digest_init().
* data: The part of message to be digested.
* cr: crypto_call_req_t calling conditions and call back info.
*
* Description:
* Asynchronously submits a request for, or synchronously performs a
* part of a message digest operation.
*
* Context:
* Process or interrupt, according to the semantics dictated by the 'cr'.
*
* Returns:
* See comment in the beginning of the file.
*/
int
crypto_digest_update(crypto_context_t context, crypto_data_t *data,
crypto_call_req_t *cr)
{
crypto_ctx_t *ctx = (crypto_ctx_t *)context;
kcf_context_t *kcf_ctx;
kcf_provider_desc_t *pd;
int error;
kcf_req_params_t params;
if ((ctx == NULL) ||
((kcf_ctx = (kcf_context_t *)ctx->cc_framework_private) == NULL) ||
((pd = kcf_ctx->kc_prov_desc) == NULL)) {
return (CRYPTO_INVALID_CONTEXT);
}
ASSERT(pd->pd_prov_type != CRYPTO_LOGICAL_PROVIDER);
/* The fast path for SW providers. */
if (CHECK_FASTPATH(cr, pd)) {
error = KCF_PROV_DIGEST_UPDATE(pd, ctx, data, NULL);
KCF_PROV_INCRSTATS(pd, error);
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_UPDATE,
ctx->cc_session, NULL, NULL, data, NULL);
error = kcf_submit_request(pd, ctx, cr, &params, B_FALSE);
}
return (error);
}
/*
* crypto_digest_final()
*
* Arguments:
* context: A crypto_context_t initialized by digest_init().
* digest: The storage for the digest.
* cr: crypto_call_req_t calling conditions and call back info.
*
* Description:
* Asynchronously submits a request for, or synchronously performs the
* final part of a message digest operation.
*
* Context:
* Process or interrupt, according to the semantics dictated by the 'cr'.
*
* Returns:
* See comment in the beginning of the file.
*/
int
crypto_digest_final(crypto_context_t context, crypto_data_t *digest,
crypto_call_req_t *cr)
{
crypto_ctx_t *ctx = (crypto_ctx_t *)context;
kcf_context_t *kcf_ctx;
kcf_provider_desc_t *pd;
int error;
kcf_req_params_t params;
if ((ctx == NULL) ||
((kcf_ctx = (kcf_context_t *)ctx->cc_framework_private) == NULL) ||
((pd = kcf_ctx->kc_prov_desc) == NULL)) {
return (CRYPTO_INVALID_CONTEXT);
}
ASSERT(pd->pd_prov_type != CRYPTO_LOGICAL_PROVIDER);
/* The fast path for SW providers. */
if (CHECK_FASTPATH(cr, pd)) {
error = KCF_PROV_DIGEST_FINAL(pd, ctx, digest, NULL);
KCF_PROV_INCRSTATS(pd, error);
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_FINAL,
ctx->cc_session, NULL, NULL, NULL, digest);
error = kcf_submit_request(pd, ctx, cr, &params, B_FALSE);
}
/* Release the hold done in kcf_new_ctx() during init step. */
KCF_CONTEXT_COND_RELEASE(error, kcf_ctx);
return (error);
}
/*
* Performs a digest update on the specified key. Note that there is
* no k-API crypto_digest_key() equivalent of this function.
*/
int
crypto_digest_key_prov(crypto_context_t context, crypto_key_t *key,
crypto_call_req_t *cr)
{
crypto_ctx_t *ctx = (crypto_ctx_t *)context;
kcf_context_t *kcf_ctx;
kcf_provider_desc_t *pd;
int error;
kcf_req_params_t params;
if ((ctx == NULL) ||
((kcf_ctx = (kcf_context_t *)ctx->cc_framework_private) == NULL) ||
((pd = kcf_ctx->kc_prov_desc) == NULL)) {
return (CRYPTO_INVALID_CONTEXT);
}
ASSERT(pd->pd_prov_type != CRYPTO_LOGICAL_PROVIDER);
/* The fast path for SW providers. */
if (CHECK_FASTPATH(cr, pd)) {
error = KCF_PROV_DIGEST_KEY(pd, ctx, key, NULL);
KCF_PROV_INCRSTATS(pd, error);
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_DIGEST_KEY,
ctx->cc_session, NULL, key, NULL, NULL);
error = kcf_submit_request(pd, ctx, cr, &params, B_FALSE);
}
return (error);
}
/*
* See comments for crypto_digest_update() and crypto_digest_final().
*/
int
crypto_digest_single(crypto_context_t context, crypto_data_t *data,
crypto_data_t *digest, crypto_call_req_t *cr)
{
crypto_ctx_t *ctx = (crypto_ctx_t *)context;
kcf_context_t *kcf_ctx;
kcf_provider_desc_t *pd;
int error;
kcf_req_params_t params;
if ((ctx == NULL) ||
((kcf_ctx = (kcf_context_t *)ctx->cc_framework_private) == NULL) ||
((pd = kcf_ctx->kc_prov_desc) == NULL)) {
return (CRYPTO_INVALID_CONTEXT);
}
/* The fast path for SW providers. */
if (CHECK_FASTPATH(cr, pd)) {
error = KCF_PROV_DIGEST(pd, ctx, data, digest, NULL);
KCF_PROV_INCRSTATS(pd, error);
} else {
KCF_WRAP_DIGEST_OPS_PARAMS(&params, KCF_OP_SINGLE, pd->pd_sid,
NULL, NULL, data, digest);
error = kcf_submit_request(pd, ctx, cr, &params, B_FALSE);
}
/* Release the hold done in kcf_new_ctx() during init step. */
KCF_CONTEXT_COND_RELEASE(error, kcf_ctx);
return (error);
}
#if defined(_KERNEL) && defined(HAVE_SPL)
EXPORT_SYMBOL(crypto_digest_prov);
EXPORT_SYMBOL(crypto_digest);
EXPORT_SYMBOL(crypto_digest_init_prov);
EXPORT_SYMBOL(crypto_digest_init);
EXPORT_SYMBOL(crypto_digest_update);
EXPORT_SYMBOL(crypto_digest_final);
EXPORT_SYMBOL(crypto_digest_key_prov);
EXPORT_SYMBOL(crypto_digest_single);
#endif