mirror of
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da1c088f59
Reviewed-by: Richard Levitte <levitte@openssl.org> Release: yes
529 lines
17 KiB
C
529 lines
17 KiB
C
/*
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* Copyright 2020-2023 The OpenSSL Project Authors. All Rights Reserved.
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*
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* Licensed under the Apache License 2.0 (the "License"). You may not use
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* this file except in compliance with the License. You can obtain a copy
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* in the file LICENSE in the source distribution or at
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* https://www.openssl.org/source/license.html
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <openssl/objects.h>
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#include <openssl/evp.h>
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#include "internal/cryptlib.h"
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#include "internal/provider.h"
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#include "internal/core.h"
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#include "crypto/evp.h"
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#include "evp_local.h"
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static int evp_kem_init(EVP_PKEY_CTX *ctx, int operation,
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const OSSL_PARAM params[], EVP_PKEY *authkey)
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{
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int ret = 0;
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EVP_KEM *kem = NULL;
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EVP_KEYMGMT *tmp_keymgmt = NULL;
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const OSSL_PROVIDER *tmp_prov = NULL;
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void *provkey = NULL, *provauthkey = NULL;
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const char *supported_kem = NULL;
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int iter;
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if (ctx == NULL || ctx->keytype == NULL) {
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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return 0;
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}
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evp_pkey_ctx_free_old_ops(ctx);
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ctx->operation = operation;
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if (ctx->pkey == NULL) {
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ERR_raise(ERR_LIB_EVP, EVP_R_NO_KEY_SET);
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goto err;
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}
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if (authkey != NULL && authkey->type != ctx->pkey->type) {
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ERR_raise(ERR_LIB_EVP, EVP_R_DIFFERENT_KEY_TYPES);
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return 0;
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}
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/*
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* Try to derive the supported kem from |ctx->keymgmt|.
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*/
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if (!ossl_assert(ctx->pkey->keymgmt == NULL
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|| ctx->pkey->keymgmt == ctx->keymgmt)) {
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ERR_raise(ERR_LIB_EVP, ERR_R_INTERNAL_ERROR);
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goto err;
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}
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supported_kem = evp_keymgmt_util_query_operation_name(ctx->keymgmt,
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OSSL_OP_KEM);
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if (supported_kem == NULL) {
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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goto err;
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}
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/*
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* Because we cleared out old ops, we shouldn't need to worry about
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* checking if kem is already there.
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* We perform two iterations:
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*
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* 1. Do the normal kem fetch, using the fetching data given by
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* the EVP_PKEY_CTX.
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* 2. Do the provider specific kem fetch, from the same provider
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* as |ctx->keymgmt|
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*
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* We then try to fetch the keymgmt from the same provider as the
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* kem, and try to export |ctx->pkey| to that keymgmt (when this
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* keymgmt happens to be the same as |ctx->keymgmt|, the export is
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* a no-op, but we call it anyway to not complicate the code even
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* more).
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* If the export call succeeds (returns a non-NULL provider key pointer),
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* we're done and can perform the operation itself. If not, we perform
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* the second iteration, or jump to legacy.
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*/
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for (iter = 1, provkey = NULL; iter < 3 && provkey == NULL; iter++) {
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EVP_KEYMGMT *tmp_keymgmt_tofree = NULL;
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/*
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* If we're on the second iteration, free the results from the first.
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* They are NULL on the first iteration, so no need to check what
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* iteration we're on.
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*/
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EVP_KEM_free(kem);
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EVP_KEYMGMT_free(tmp_keymgmt);
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switch (iter) {
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case 1:
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kem = EVP_KEM_fetch(ctx->libctx, supported_kem, ctx->propquery);
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if (kem != NULL)
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tmp_prov = EVP_KEM_get0_provider(kem);
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break;
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case 2:
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tmp_prov = EVP_KEYMGMT_get0_provider(ctx->keymgmt);
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kem = evp_kem_fetch_from_prov((OSSL_PROVIDER *)tmp_prov,
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supported_kem, ctx->propquery);
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if (kem == NULL) {
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ERR_raise(ERR_LIB_EVP,
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EVP_R_OPERATION_NOT_SUPPORTED_FOR_THIS_KEYTYPE);
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ret = -2;
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goto err;
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}
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}
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if (kem == NULL)
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continue;
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/*
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* Ensure that the key is provided, either natively, or as a cached
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* export. We start by fetching the keymgmt with the same name as
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* |ctx->pkey|, but from the provider of the kem method, using the
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* same property query as when fetching the kem method.
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* With the keymgmt we found (if we did), we try to export |ctx->pkey|
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* to it (evp_pkey_export_to_provider() is smart enough to only actually
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* export it if |tmp_keymgmt| is different from |ctx->pkey|'s keymgmt)
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*/
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tmp_keymgmt_tofree = tmp_keymgmt =
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evp_keymgmt_fetch_from_prov((OSSL_PROVIDER *)tmp_prov,
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EVP_KEYMGMT_get0_name(ctx->keymgmt),
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ctx->propquery);
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if (tmp_keymgmt != NULL) {
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provkey = evp_pkey_export_to_provider(ctx->pkey, ctx->libctx,
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&tmp_keymgmt, ctx->propquery);
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if (provkey != NULL && authkey != NULL) {
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provauthkey = evp_pkey_export_to_provider(authkey, ctx->libctx,
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&tmp_keymgmt,
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ctx->propquery);
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if (provauthkey == NULL) {
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EVP_KEM_free(kem);
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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goto err;
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}
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}
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}
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if (tmp_keymgmt == NULL)
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EVP_KEYMGMT_free(tmp_keymgmt_tofree);
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}
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if (provkey == NULL) {
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EVP_KEM_free(kem);
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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goto err;
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}
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ctx->op.encap.kem = kem;
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ctx->op.encap.algctx = kem->newctx(ossl_provider_ctx(kem->prov));
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if (ctx->op.encap.algctx == NULL) {
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/* The provider key can stay in the cache */
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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goto err;
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}
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switch (operation) {
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case EVP_PKEY_OP_ENCAPSULATE:
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if (provauthkey != NULL && kem->auth_encapsulate_init != NULL) {
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ret = kem->auth_encapsulate_init(ctx->op.encap.algctx, provkey,
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provauthkey, params);
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} else if (provauthkey == NULL && kem->encapsulate_init != NULL) {
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ret = kem->encapsulate_init(ctx->op.encap.algctx, provkey, params);
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} else {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_SUPPORTED_FOR_THIS_KEYTYPE);
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ret = -2;
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goto err;
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}
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break;
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case EVP_PKEY_OP_DECAPSULATE:
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if (provauthkey != NULL && kem->auth_decapsulate_init != NULL) {
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ret = kem->auth_decapsulate_init(ctx->op.encap.algctx, provkey,
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provauthkey, params);
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} else if (provauthkey == NULL && kem->encapsulate_init != NULL) {
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ret = kem->decapsulate_init(ctx->op.encap.algctx, provkey, params);
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} else {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_SUPPORTED_FOR_THIS_KEYTYPE);
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ret = -2;
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goto err;
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}
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break;
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default:
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ERR_raise(ERR_LIB_EVP, EVP_R_INITIALIZATION_ERROR);
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goto err;
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}
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EVP_KEYMGMT_free(tmp_keymgmt);
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tmp_keymgmt = NULL;
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if (ret > 0)
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return 1;
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err:
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if (ret <= 0) {
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evp_pkey_ctx_free_old_ops(ctx);
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ctx->operation = EVP_PKEY_OP_UNDEFINED;
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}
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EVP_KEYMGMT_free(tmp_keymgmt);
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return ret;
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}
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int EVP_PKEY_auth_encapsulate_init(EVP_PKEY_CTX *ctx, EVP_PKEY *authpriv,
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const OSSL_PARAM params[])
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{
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if (authpriv == NULL)
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return 0;
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return evp_kem_init(ctx, EVP_PKEY_OP_ENCAPSULATE, params, authpriv);
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}
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int EVP_PKEY_encapsulate_init(EVP_PKEY_CTX *ctx, const OSSL_PARAM params[])
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{
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return evp_kem_init(ctx, EVP_PKEY_OP_ENCAPSULATE, params, NULL);
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}
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int EVP_PKEY_encapsulate(EVP_PKEY_CTX *ctx,
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unsigned char *out, size_t *outlen,
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unsigned char *secret, size_t *secretlen)
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{
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if (ctx == NULL)
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return 0;
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if (ctx->operation != EVP_PKEY_OP_ENCAPSULATE) {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_INITIALIZED);
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return -1;
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}
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if (ctx->op.encap.algctx == NULL) {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_SUPPORTED_FOR_THIS_KEYTYPE);
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return -2;
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}
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if (out != NULL && secret == NULL)
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return 0;
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return ctx->op.encap.kem->encapsulate(ctx->op.encap.algctx,
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out, outlen, secret, secretlen);
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}
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int EVP_PKEY_decapsulate_init(EVP_PKEY_CTX *ctx, const OSSL_PARAM params[])
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{
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return evp_kem_init(ctx, EVP_PKEY_OP_DECAPSULATE, params, NULL);
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}
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int EVP_PKEY_auth_decapsulate_init(EVP_PKEY_CTX *ctx, EVP_PKEY *authpub,
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const OSSL_PARAM params[])
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{
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if (authpub == NULL)
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return 0;
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return evp_kem_init(ctx, EVP_PKEY_OP_DECAPSULATE, params, authpub);
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}
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int EVP_PKEY_decapsulate(EVP_PKEY_CTX *ctx,
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unsigned char *secret, size_t *secretlen,
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const unsigned char *in, size_t inlen)
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{
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if (ctx == NULL
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|| (in == NULL || inlen == 0)
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|| (secret == NULL && secretlen == NULL))
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return 0;
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if (ctx->operation != EVP_PKEY_OP_DECAPSULATE) {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_INITIALIZED);
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return -1;
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}
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if (ctx->op.encap.algctx == NULL) {
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ERR_raise(ERR_LIB_EVP, EVP_R_OPERATION_NOT_SUPPORTED_FOR_THIS_KEYTYPE);
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return -2;
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}
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return ctx->op.encap.kem->decapsulate(ctx->op.encap.algctx,
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secret, secretlen, in, inlen);
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}
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static EVP_KEM *evp_kem_new(OSSL_PROVIDER *prov)
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{
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EVP_KEM *kem = OPENSSL_zalloc(sizeof(EVP_KEM));
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if (kem == NULL)
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return NULL;
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if (!CRYPTO_NEW_REF(&kem->refcnt, 1)) {
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OPENSSL_free(kem);
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return NULL;
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}
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kem->prov = prov;
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ossl_provider_up_ref(prov);
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return kem;
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}
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static void *evp_kem_from_algorithm(int name_id, const OSSL_ALGORITHM *algodef,
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OSSL_PROVIDER *prov)
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{
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const OSSL_DISPATCH *fns = algodef->implementation;
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EVP_KEM *kem = NULL;
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int ctxfncnt = 0, encfncnt = 0, decfncnt = 0;
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int gparamfncnt = 0, sparamfncnt = 0;
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if ((kem = evp_kem_new(prov)) == NULL) {
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ERR_raise(ERR_LIB_EVP, ERR_R_EVP_LIB);
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goto err;
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}
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kem->name_id = name_id;
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if ((kem->type_name = ossl_algorithm_get1_first_name(algodef)) == NULL)
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goto err;
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kem->description = algodef->algorithm_description;
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for (; fns->function_id != 0; fns++) {
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switch (fns->function_id) {
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case OSSL_FUNC_KEM_NEWCTX:
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if (kem->newctx != NULL)
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break;
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kem->newctx = OSSL_FUNC_kem_newctx(fns);
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ctxfncnt++;
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break;
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case OSSL_FUNC_KEM_ENCAPSULATE_INIT:
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if (kem->encapsulate_init != NULL)
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break;
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kem->encapsulate_init = OSSL_FUNC_kem_encapsulate_init(fns);
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encfncnt++;
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break;
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case OSSL_FUNC_KEM_AUTH_ENCAPSULATE_INIT:
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if (kem->auth_encapsulate_init != NULL)
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break;
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kem->auth_encapsulate_init = OSSL_FUNC_kem_auth_encapsulate_init(fns);
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encfncnt++;
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break;
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case OSSL_FUNC_KEM_ENCAPSULATE:
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if (kem->encapsulate != NULL)
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break;
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kem->encapsulate = OSSL_FUNC_kem_encapsulate(fns);
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encfncnt++;
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break;
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case OSSL_FUNC_KEM_DECAPSULATE_INIT:
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if (kem->decapsulate_init != NULL)
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break;
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kem->decapsulate_init = OSSL_FUNC_kem_decapsulate_init(fns);
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decfncnt++;
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break;
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case OSSL_FUNC_KEM_AUTH_DECAPSULATE_INIT:
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if (kem->auth_decapsulate_init != NULL)
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break;
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kem->auth_decapsulate_init = OSSL_FUNC_kem_auth_decapsulate_init(fns);
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decfncnt++;
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break;
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case OSSL_FUNC_KEM_DECAPSULATE:
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if (kem->decapsulate != NULL)
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break;
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kem->decapsulate = OSSL_FUNC_kem_decapsulate(fns);
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decfncnt++;
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break;
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case OSSL_FUNC_KEM_FREECTX:
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if (kem->freectx != NULL)
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break;
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kem->freectx = OSSL_FUNC_kem_freectx(fns);
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ctxfncnt++;
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break;
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case OSSL_FUNC_KEM_DUPCTX:
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if (kem->dupctx != NULL)
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break;
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kem->dupctx = OSSL_FUNC_kem_dupctx(fns);
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break;
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case OSSL_FUNC_KEM_GET_CTX_PARAMS:
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if (kem->get_ctx_params != NULL)
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break;
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kem->get_ctx_params
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= OSSL_FUNC_kem_get_ctx_params(fns);
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gparamfncnt++;
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break;
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case OSSL_FUNC_KEM_GETTABLE_CTX_PARAMS:
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if (kem->gettable_ctx_params != NULL)
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break;
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kem->gettable_ctx_params
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= OSSL_FUNC_kem_gettable_ctx_params(fns);
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gparamfncnt++;
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break;
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case OSSL_FUNC_KEM_SET_CTX_PARAMS:
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if (kem->set_ctx_params != NULL)
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break;
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kem->set_ctx_params
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= OSSL_FUNC_kem_set_ctx_params(fns);
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sparamfncnt++;
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break;
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case OSSL_FUNC_KEM_SETTABLE_CTX_PARAMS:
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if (kem->settable_ctx_params != NULL)
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break;
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kem->settable_ctx_params
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= OSSL_FUNC_kem_settable_ctx_params(fns);
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sparamfncnt++;
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break;
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}
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}
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if (ctxfncnt != 2
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|| (encfncnt != 0 && encfncnt != 2 && encfncnt != 3)
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|| (decfncnt != 0 && decfncnt != 2 && decfncnt != 3)
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|| (encfncnt != decfncnt)
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|| (gparamfncnt != 0 && gparamfncnt != 2)
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|| (sparamfncnt != 0 && sparamfncnt != 2)) {
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/*
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* In order to be a consistent set of functions we must have at least
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* a set of context functions (newctx and freectx) as well as a pair
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* (or triplet) of "kem" functions:
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* (encapsulate_init, (and/or auth_encapsulate_init), encapsulate) or
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* (decapsulate_init, (and/or auth_decapsulate_init), decapsulate).
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* set_ctx_params and settable_ctx_params are optional, but if one of
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* them is present then the other one must also be present. The same
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* applies to get_ctx_params and gettable_ctx_params.
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* The dupctx function is optional.
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*/
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ERR_raise(ERR_LIB_EVP, EVP_R_INVALID_PROVIDER_FUNCTIONS);
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goto err;
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}
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return kem;
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err:
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EVP_KEM_free(kem);
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return NULL;
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}
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void EVP_KEM_free(EVP_KEM *kem)
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{
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int i;
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if (kem == NULL)
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return;
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CRYPTO_DOWN_REF(&kem->refcnt, &i);
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if (i > 0)
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return;
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OPENSSL_free(kem->type_name);
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ossl_provider_free(kem->prov);
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CRYPTO_FREE_REF(&kem->refcnt);
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OPENSSL_free(kem);
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}
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int EVP_KEM_up_ref(EVP_KEM *kem)
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{
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int ref = 0;
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CRYPTO_UP_REF(&kem->refcnt, &ref);
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return 1;
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}
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OSSL_PROVIDER *EVP_KEM_get0_provider(const EVP_KEM *kem)
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{
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return kem->prov;
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}
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EVP_KEM *EVP_KEM_fetch(OSSL_LIB_CTX *ctx, const char *algorithm,
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const char *properties)
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{
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return evp_generic_fetch(ctx, OSSL_OP_KEM, algorithm, properties,
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evp_kem_from_algorithm,
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(int (*)(void *))EVP_KEM_up_ref,
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(void (*)(void *))EVP_KEM_free);
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}
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EVP_KEM *evp_kem_fetch_from_prov(OSSL_PROVIDER *prov, const char *algorithm,
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const char *properties)
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{
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return evp_generic_fetch_from_prov(prov, OSSL_OP_KEM, algorithm, properties,
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evp_kem_from_algorithm,
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(int (*)(void *))EVP_KEM_up_ref,
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(void (*)(void *))EVP_KEM_free);
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}
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int EVP_KEM_is_a(const EVP_KEM *kem, const char *name)
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{
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return kem != NULL && evp_is_a(kem->prov, kem->name_id, NULL, name);
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}
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int evp_kem_get_number(const EVP_KEM *kem)
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{
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return kem->name_id;
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}
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const char *EVP_KEM_get0_name(const EVP_KEM *kem)
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{
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return kem->type_name;
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}
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const char *EVP_KEM_get0_description(const EVP_KEM *kem)
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{
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return kem->description;
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}
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void EVP_KEM_do_all_provided(OSSL_LIB_CTX *libctx,
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void (*fn)(EVP_KEM *kem, void *arg),
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void *arg)
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{
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evp_generic_do_all(libctx, OSSL_OP_KEM, (void (*)(void *, void *))fn, arg,
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evp_kem_from_algorithm,
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(int (*)(void *))EVP_KEM_up_ref,
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(void (*)(void *))EVP_KEM_free);
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}
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int EVP_KEM_names_do_all(const EVP_KEM *kem,
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void (*fn)(const char *name, void *data),
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void *data)
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{
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if (kem->prov != NULL)
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return evp_names_do_all(kem->prov, kem->name_id, fn, data);
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return 1;
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}
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const OSSL_PARAM *EVP_KEM_gettable_ctx_params(const EVP_KEM *kem)
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{
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void *provctx;
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if (kem == NULL || kem->gettable_ctx_params == NULL)
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return NULL;
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provctx = ossl_provider_ctx(EVP_KEM_get0_provider(kem));
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return kem->gettable_ctx_params(NULL, provctx);
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}
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const OSSL_PARAM *EVP_KEM_settable_ctx_params(const EVP_KEM *kem)
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{
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void *provctx;
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if (kem == NULL || kem->settable_ctx_params == NULL)
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return NULL;
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provctx = ossl_provider_ctx(EVP_KEM_get0_provider(kem));
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return kem->settable_ctx_params(NULL, provctx);
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}
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