diff mbox series

[API-NEXT,v4,3/15] validation: crypto: use unix file format

Message ID 1517331619-18755-4-git-send-email-odpbot@yandex.ru
State New
Headers show
Series [API-NEXT,v4,1/15] api: crypto: add enumeration for AES-CMAC | expand

Commit Message

Github ODP bot Jan. 30, 2018, 5 p.m. UTC
From: Dmitry Eremin-Solenikov <dmitry.ereminsolenikov@linaro.org>


Merge f925f103c90591776f73863d30159357b08bf71e changed EOL to DOS
convention in this file. Change it back.

Fixes: f925f103c90591776f73863d30159357b08bf71e
Signed-off-by: Dmitry Eremin-Solenikov <dmitry.ereminsolenikov@linaro.org>

---
/** Email created from pull request 434 (lumag:crypto-upd)
 ** https://github.com/Linaro/odp/pull/434
 ** Patch: https://github.com/Linaro/odp/pull/434.patch
 ** Base sha: 5718327018debbb02aacb464493504c95fbe57a3
 ** Merge commit sha: c5d9389a8d3b1a532e290aff4508756a920173ee
 **/
 test/validation/api/crypto/odp_crypto_test_inp.c | 2592 +++++++++++-----------
 1 file changed, 1296 insertions(+), 1296 deletions(-)
diff mbox series

Patch

diff --git a/test/validation/api/crypto/odp_crypto_test_inp.c b/test/validation/api/crypto/odp_crypto_test_inp.c
index 1d92c6568..2b0ba1cd9 100644
--- a/test/validation/api/crypto/odp_crypto_test_inp.c
+++ b/test/validation/api/crypto/odp_crypto_test_inp.c
@@ -1,1296 +1,1296 @@ 
-/* Copyright (c) 2014-2018, Linaro Limited
- * All rights reserved.
- *
- * SPDX-License-Identifier:	BSD-3-Clause
- */
-
-#include "config.h"
-
-#include <odp_api.h>
-#include <CUnit/Basic.h>
-#include <odp_cunit_common.h>
-#include "test_vectors.h"
-#include "odp_crypto_test_inp.h"
-#include "crypto.h"
-
-#define MAX_ALG_CAPA 32
-
-struct suite_context_s {
-	odp_bool_t packet;
-	odp_crypto_op_mode_t op_mode;
-	odp_crypto_op_mode_t pref_mode;
-	odp_pool_t pool;
-	odp_queue_t queue;
-};
-
-static struct suite_context_s suite_context;
-
-static int packet_cmp_mem(odp_packet_t pkt, uint32_t offset,
-			  void *s, uint32_t len)
-{
-	uint8_t buf[len];
-
-	odp_packet_copy_to_mem(pkt, offset, len, buf);
-
-	return memcmp(buf, s, len);
-}
-
-static const char *auth_alg_name(odp_auth_alg_t auth)
-{
-	switch (auth) {
-	case ODP_AUTH_ALG_NULL:
-		return "ODP_AUTH_ALG_NULL";
-	case ODP_AUTH_ALG_MD5_HMAC:
-		return "ODP_AUTH_ALG_MD5_HMAC";
-	case ODP_AUTH_ALG_SHA1_HMAC:
-		return "ODP_AUTH_ALG_SHA1_HMAC";
-	case ODP_AUTH_ALG_SHA256_HMAC:
-		return "ODP_AUTH_ALG_SHA256_HMAC";
-	case ODP_AUTH_ALG_SHA512_HMAC:
-		return "ODP_AUTH_ALG_SHA512_HMAC";
-	case ODP_AUTH_ALG_AES_GCM:
-		return "ODP_AUTH_ALG_AES_GCM";
-	case ODP_AUTH_ALG_AES_GMAC:
-		return "ODP_AUTH_ALG_AES_GMAC";
-	default:
-		return "Unknown";
-	}
-}
-
-static const char *cipher_alg_name(odp_cipher_alg_t cipher)
-{
-	switch (cipher) {
-	case ODP_CIPHER_ALG_NULL:
-		return "ODP_CIPHER_ALG_NULL";
-	case ODP_CIPHER_ALG_DES:
-		return "ODP_CIPHER_ALG_DES";
-	case ODP_CIPHER_ALG_3DES_CBC:
-		return "ODP_CIPHER_ALG_3DES_CBC";
-	case ODP_CIPHER_ALG_AES_CBC:
-		return "ODP_CIPHER_ALG_AES_CBC";
-	case ODP_CIPHER_ALG_AES_GCM:
-		return "ODP_CIPHER_ALG_AES_GCM";
-	default:
-		return "Unknown";
-	}
-}
-
-static int alg_op(odp_packet_t pkt,
-		  odp_bool_t *ok,
-		  odp_crypto_session_t session,
-		  uint8_t *cipher_iv_ptr,
-		  uint8_t *auth_iv_ptr,
-		  odp_packet_data_range_t *cipher_range,
-		  odp_packet_data_range_t *auth_range,
-		  uint8_t *aad,
-		  unsigned int plaintext_len)
-{
-	int rc;
-	odp_crypto_op_result_t result;
-	odp_crypto_op_param_t op_params;
-	odp_bool_t posted;
-	odp_event_subtype_t subtype;
-
-	/* Prepare input/output params */
-	memset(&op_params, 0, sizeof(op_params));
-	op_params.session = session;
-	op_params.pkt = pkt;
-	op_params.out_pkt = pkt;
-	op_params.ctx = (void *)0xdeadbeef;
-
-	op_params.cipher_range = *cipher_range;
-	op_params.auth_range = *auth_range;
-	if (cipher_iv_ptr)
-		op_params.cipher_iv_ptr = cipher_iv_ptr;
-	if (auth_iv_ptr)
-		op_params.auth_iv_ptr = auth_iv_ptr;
-
-	op_params.aad_ptr = aad;
-
-	op_params.hash_result_offset = plaintext_len;
-
-	rc = odp_crypto_operation(&op_params, &posted, &result);
-	if (rc < 0) {
-		CU_FAIL("Failed odp_crypto_operation()");
-		return rc;
-	}
-
-	if (posted) {
-		odp_event_t event;
-		odp_crypto_compl_t compl_event;
-
-		/* Poll completion queue for results */
-		do {
-			event = odp_queue_deq(suite_context.queue);
-		} while (event == ODP_EVENT_INVALID);
-
-		CU_ASSERT(ODP_EVENT_CRYPTO_COMPL == odp_event_type(event));
-		CU_ASSERT(ODP_EVENT_NO_SUBTYPE == odp_event_subtype(event));
-		CU_ASSERT(ODP_EVENT_CRYPTO_COMPL ==
-			  odp_event_types(event, &subtype));
-		CU_ASSERT(ODP_EVENT_NO_SUBTYPE == subtype);
-
-		compl_event = odp_crypto_compl_from_event(event);
-		CU_ASSERT(odp_crypto_compl_to_u64(compl_event) ==
-			  odp_crypto_compl_to_u64(
-				  odp_crypto_compl_from_event(event)));
-		odp_crypto_compl_result(compl_event, &result);
-		odp_crypto_compl_free(compl_event);
-	}
-
-	CU_ASSERT(result.pkt == pkt);
-	CU_ASSERT(result.ctx == (void *)0xdeadbeef);
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_type(odp_packet_to_event(result.pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET_BASIC ==
-		  odp_event_subtype(odp_packet_to_event(result.pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_types(odp_packet_to_event(result.pkt), &subtype));
-	CU_ASSERT(ODP_EVENT_PACKET_BASIC == subtype);
-
-	*ok = result.ok;
-
-	return 0;
-}
-
-static int alg_packet_op(odp_packet_t pkt,
-			 odp_bool_t *ok,
-			 odp_crypto_session_t session,
-			 uint8_t *cipher_iv_ptr,
-			 uint8_t *auth_iv_ptr,
-			 odp_packet_data_range_t *cipher_range,
-			 odp_packet_data_range_t *auth_range,
-			 uint8_t *aad,
-			 unsigned int plaintext_len)
-{
-	int rc;
-	odp_crypto_packet_result_t result;
-	odp_crypto_packet_op_param_t op_params;
-	odp_event_subtype_t subtype;
-	odp_packet_t out_pkt = pkt;
-
-	/* Prepare input/output params */
-	memset(&op_params, 0, sizeof(op_params));
-	op_params.session = session;
-
-	op_params.cipher_range = *cipher_range;
-	op_params.auth_range = *auth_range;
-	if (cipher_iv_ptr)
-		op_params.cipher_iv_ptr = cipher_iv_ptr;
-	if (auth_iv_ptr)
-		op_params.auth_iv_ptr = auth_iv_ptr;
-
-	op_params.aad_ptr = aad;
-
-	op_params.hash_result_offset = plaintext_len;
-
-	rc = odp_crypto_op(&pkt, &out_pkt, &op_params, 1);
-	if (rc < 0) {
-		CU_FAIL("Failed odp_crypto_packet_op()");
-		return rc;
-	}
-
-	CU_ASSERT(out_pkt == pkt);
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_type(odp_packet_to_event(pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO ==
-		  odp_event_subtype(odp_packet_to_event(pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_types(odp_packet_to_event(pkt), &subtype));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
-
-	rc = odp_crypto_result(&result, pkt);
-	if (rc < 0) {
-		CU_FAIL("Failed odp_crypto_packet_result()");
-		return rc;
-	}
-
-	if (!result.ok)
-		CU_ASSERT(odp_packet_has_error(pkt));
-
-	*ok = result.ok;
-
-	return 0;
-}
-
-static int alg_packet_op_enq(odp_packet_t pkt,
-			     odp_bool_t *ok,
-			     odp_crypto_session_t session,
-			     uint8_t *cipher_iv_ptr,
-			     uint8_t *auth_iv_ptr,
-			     odp_packet_data_range_t *cipher_range,
-			     odp_packet_data_range_t *auth_range,
-			     uint8_t *aad,
-			     unsigned int plaintext_len)
-{
-	int rc;
-	odp_event_t event;
-	odp_crypto_packet_result_t result;
-	odp_crypto_packet_op_param_t op_params;
-	odp_event_subtype_t subtype;
-	odp_packet_t out_pkt = pkt;
-
-	/* Prepare input/output params */
-	memset(&op_params, 0, sizeof(op_params));
-	op_params.session = session;
-
-	op_params.cipher_range = *cipher_range;
-	op_params.auth_range = *auth_range;
-	if (cipher_iv_ptr)
-		op_params.cipher_iv_ptr = cipher_iv_ptr;
-	if (auth_iv_ptr)
-		op_params.auth_iv_ptr = auth_iv_ptr;
-
-	op_params.aad_ptr = aad;
-
-	op_params.hash_result_offset = plaintext_len;
-
-	rc = odp_crypto_op_enq(&pkt, &pkt, &op_params, 1);
-	if (rc < 0) {
-		CU_FAIL("Failed odp_crypto_op_enq()");
-		return rc;
-	}
-
-	/* Poll completion queue for results */
-	do {
-		event = odp_queue_deq(suite_context.queue);
-	} while (event == ODP_EVENT_INVALID);
-
-	CU_ASSERT(ODP_EVENT_PACKET == odp_event_type(event));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == odp_event_subtype(event));
-	CU_ASSERT(ODP_EVENT_PACKET == odp_event_types(event, &subtype));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
-
-	pkt = odp_crypto_packet_from_event(event);
-
-	CU_ASSERT(out_pkt == pkt);
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_type(odp_packet_to_event(pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO ==
-		  odp_event_subtype(odp_packet_to_event(pkt)));
-	CU_ASSERT(ODP_EVENT_PACKET ==
-		  odp_event_types(odp_packet_to_event(pkt), &subtype));
-	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
-
-	rc = odp_crypto_result(&result, pkt);
-	if (rc < 0) {
-		CU_FAIL("Failed odp_crypto_packet_result()");
-		return rc;
-	}
-
-	CU_ASSERT((!odp_packet_has_error(pkt)) == result.ok);
-
-	*ok = result.ok;
-
-	return 0;
-}
-
-typedef enum crypto_test {
-	NORMAL_TEST = 0,   /**< Plain execution */
-	REPEAT_TEST,       /**< Rerun without reinitializing the session */
-	WRONG_DIGEST_TEST, /**< Check against wrong digest */
-	MAX_TEST,          /**< Final mark */
-} crypto_test;
-
-/* Basic algorithm run function for async inplace mode.
- * Creates a session from input parameters and runs one operation
- * on input_vec. Checks the output of the crypto operation against
- * output_vec. Operation completion event is dequeued polling the
- * session output queue. Completion context pointer is retrieved
- * and checked against the one set before the operation.
- * Completion event can be a separate buffer or the input packet
- * buffer can be used.
- * */
-static void alg_test(odp_crypto_op_t op,
-		     odp_cipher_alg_t cipher_alg,
-		     odp_auth_alg_t auth_alg,
-		     crypto_test_reference_t *ref,
-		     odp_bool_t ovr_iv)
-{
-	odp_crypto_session_t session;
-	int rc;
-	odp_crypto_ses_create_err_t status;
-	odp_bool_t ok = false;
-	int iteration;
-	odp_crypto_session_param_t ses_params;
-	odp_packet_data_range_t cipher_range;
-	odp_packet_data_range_t auth_range;
-	odp_crypto_key_t cipher_key = {
-		.data = ref->cipher_key,
-		.length = ref->cipher_key_length
-	};
-	odp_crypto_key_t auth_key = {
-		.data = ref->auth_key,
-		.length = ref->auth_key_length
-	};
-	odp_crypto_iv_t cipher_iv = {
-		.data = ovr_iv ? NULL : ref->cipher_iv,
-		.length = ref->cipher_iv_length
-	};
-	odp_crypto_iv_t auth_iv = {
-		.data = ovr_iv ? NULL : ref->auth_iv,
-		.length = ref->auth_iv_length
-	};
-
-	/* Create a crypto session */
-	odp_crypto_session_param_init(&ses_params);
-	ses_params.op = op;
-	ses_params.auth_cipher_text = false;
-	ses_params.op_mode = suite_context.op_mode;
-	ses_params.pref_mode = suite_context.pref_mode;
-	ses_params.cipher_alg = cipher_alg;
-	ses_params.auth_alg = auth_alg;
-	ses_params.compl_queue = suite_context.queue;
-	ses_params.output_pool = suite_context.pool;
-	ses_params.cipher_key = cipher_key;
-	ses_params.cipher_iv = cipher_iv;
-	ses_params.auth_iv = auth_iv;
-	ses_params.auth_key = auth_key;
-	ses_params.auth_digest_len = ref->digest_length;
-	ses_params.auth_aad_len = ref->aad_length;
-
-	rc = odp_crypto_session_create(&ses_params, &session, &status);
-	CU_ASSERT_FATAL(!rc);
-	CU_ASSERT(status == ODP_CRYPTO_SES_CREATE_ERR_NONE);
-	CU_ASSERT(odp_crypto_session_to_u64(session) !=
-		  odp_crypto_session_to_u64(ODP_CRYPTO_SESSION_INVALID));
-
-	cipher_range.offset = 0;
-	cipher_range.length = ref->length;
-	auth_range.offset = 0;
-	auth_range.length = ref->length;
-
-	/* Prepare input data */
-	odp_packet_t pkt = odp_packet_alloc(suite_context.pool,
-					    ref->length + ref->digest_length);
-	CU_ASSERT(pkt != ODP_PACKET_INVALID);
-	if (pkt == ODP_PACKET_INVALID)
-		goto cleanup;
-
-	for (iteration = NORMAL_TEST; iteration < MAX_TEST; iteration++) {
-		/* checking against wrong digest is meaningless for NULL digest
-		 * or when generating digest */
-		if (iteration == WRONG_DIGEST_TEST &&
-		    (auth_alg == ODP_AUTH_ALG_NULL ||
-		     op == ODP_CRYPTO_OP_ENCODE))
-			continue;
-
-		if (op == ODP_CRYPTO_OP_ENCODE) {
-			odp_packet_copy_from_mem(pkt, 0, ref->length,
-						 ref->plaintext);
-		} else {
-			odp_packet_copy_from_mem(pkt, 0, ref->length,
-						 ref->ciphertext);
-			odp_packet_copy_from_mem(pkt, ref->length,
-						 ref->digest_length,
-						 ref->digest);
-			if (iteration == WRONG_DIGEST_TEST) {
-				uint8_t byte = ~ref->digest[0];
-
-				odp_packet_copy_from_mem(pkt, ref->length,
-							 1, &byte);
-			}
-		}
-
-		if (!suite_context.packet)
-			rc = alg_op(pkt, &ok, session,
-				    ovr_iv ? ref->cipher_iv : NULL,
-				    ovr_iv ? ref->auth_iv : NULL,
-				    &cipher_range, &auth_range,
-				    ref->aad, ref->length);
-		else if (ODP_CRYPTO_ASYNC == suite_context.op_mode)
-			rc = alg_packet_op_enq(pkt, &ok, session,
-					       ovr_iv ? ref->cipher_iv : NULL,
-					       ovr_iv ? ref->auth_iv : NULL,
-					       &cipher_range, &auth_range,
-					       ref->aad, ref->length);
-		else
-			rc = alg_packet_op(pkt, &ok, session,
-					   ovr_iv ? ref->cipher_iv : NULL,
-					   ovr_iv ? ref->auth_iv : NULL,
-					   &cipher_range, &auth_range,
-					   ref->aad, ref->length);
-		if (rc < 0)
-			break;
-
-		if (iteration == WRONG_DIGEST_TEST) {
-			CU_ASSERT(!ok);
-			continue;
-		}
-
-		CU_ASSERT(ok);
-
-		if (op == ODP_CRYPTO_OP_ENCODE) {
-			CU_ASSERT(!packet_cmp_mem(pkt, 0,
-						  ref->ciphertext,
-						  ref->length));
-			CU_ASSERT(!packet_cmp_mem(pkt, ref->length,
-						  ref->digest,
-						  ref->digest_length));
-		} else {
-			CU_ASSERT(!packet_cmp_mem(pkt, 0,
-						  ref->plaintext,
-						  ref->length));
-		}
-	}
-
-	odp_packet_free(pkt);
-
-cleanup:
-	rc = odp_crypto_session_destroy(session);
-	CU_ASSERT(!rc);
-}
-
-static void check_alg(odp_crypto_op_t op,
-		      odp_cipher_alg_t cipher_alg,
-		      odp_auth_alg_t auth_alg,
-		      crypto_test_reference_t *ref,
-		      size_t count,
-		      odp_bool_t ovr_iv)
-{
-	odp_crypto_capability_t capa;
-	odp_crypto_cipher_capability_t cipher_capa[MAX_ALG_CAPA];
-	odp_crypto_auth_capability_t   auth_capa[MAX_ALG_CAPA];
-	int rc, cipher_num, auth_num, i;
-	odp_bool_t cipher_tested[MAX_ALG_CAPA];
-	odp_bool_t auth_tested[MAX_ALG_CAPA];
-	odp_bool_t cipher_ok = false;
-	odp_bool_t auth_ok = false;
-	size_t idx;
-
-	rc = odp_crypto_capability(&capa);
-	CU_ASSERT(!rc);
-
-	if (cipher_alg == ODP_CIPHER_ALG_3DES_CBC &&
-	    !(capa.ciphers.bit.trides_cbc))
-		rc = -1;
-	if (cipher_alg == ODP_CIPHER_ALG_AES_CBC &&
-	    !(capa.ciphers.bit.aes_cbc))
-		rc = -1;
-	if (cipher_alg == ODP_CIPHER_ALG_AES_CTR &&
-	    !(capa.ciphers.bit.aes_ctr))
-		rc = -1;
-	if (cipher_alg == ODP_CIPHER_ALG_AES_GCM &&
-	    !(capa.ciphers.bit.aes_gcm))
-		rc = -1;
-	if (cipher_alg == ODP_CIPHER_ALG_DES &&
-	    !(capa.ciphers.bit.des))
-		rc = -1;
-	if (cipher_alg == ODP_CIPHER_ALG_NULL &&
-	    !(capa.ciphers.bit.null))
-		rc = -1;
-
-	CU_ASSERT(!rc);
-	CU_ASSERT((~capa.ciphers.all_bits & capa.hw_ciphers.all_bits) == 0);
-
-	if (auth_alg == ODP_AUTH_ALG_AES_GCM &&
-	    !(capa.auths.bit.aes_gcm))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_AES_GMAC &&
-	    !(capa.auths.bit.aes_gmac))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_MD5_HMAC &&
-	    !(capa.auths.bit.md5_hmac))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_NULL &&
-	    !(capa.auths.bit.null))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_SHA1_HMAC &&
-	    !(capa.auths.bit.sha1_hmac))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_SHA256_HMAC &&
-	    !(capa.auths.bit.sha256_hmac))
-		rc = -1;
-	if (auth_alg == ODP_AUTH_ALG_SHA512_HMAC &&
-	    !(capa.auths.bit.sha512_hmac))
-		rc = -1;
-
-	CU_ASSERT(!rc);
-	CU_ASSERT((~capa.auths.all_bits & capa.hw_auths.all_bits) == 0);
-
-	cipher_num = odp_crypto_cipher_capability(cipher_alg, cipher_capa,
-						  MAX_ALG_CAPA);
-
-	CU_ASSERT(cipher_num > 0);
-	CU_ASSERT(cipher_num <= MAX_ALG_CAPA);
-	if (cipher_num > MAX_ALG_CAPA)
-		cipher_num = MAX_ALG_CAPA;
-
-	auth_num = odp_crypto_auth_capability(auth_alg, auth_capa,
-					      MAX_ALG_CAPA);
-
-	CU_ASSERT(auth_num > 0);
-	CU_ASSERT(auth_num <= MAX_ALG_CAPA);
-	if (auth_num > MAX_ALG_CAPA)
-		auth_num = MAX_ALG_CAPA;
-
-	memset(cipher_tested, 0, sizeof(cipher_tested));
-	memset(auth_tested, 0, sizeof(auth_tested));
-
-	for (idx = 0; idx < count; idx++) {
-		int cipher_idx = -1, auth_idx = -1;
-
-		for (i = 0; i < cipher_num; i++) {
-			if (cipher_capa[i].key_len ==
-			    ref[idx].cipher_key_length &&
-			    cipher_capa[i].iv_len ==
-			    ref[idx].cipher_iv_length) {
-				cipher_idx = i;
-				break;
-			}
-		}
-
-		if (cipher_idx < 0) {
-			printf("\n    Unsupported: alg=%s, key_len=%" PRIu32
-			       ", iv_len=%" PRIu32 "\n",
-			       cipher_alg_name(cipher_alg),
-			       ref[idx].cipher_key_length,
-			       ref[idx].cipher_iv_length);
-			continue;
-		}
-
-		for (i = 0; i < auth_num; i++) {
-			if (auth_capa[i].digest_len ==
-			    ref[idx].digest_length &&
-			    auth_capa[i].iv_len ==
-			    ref[idx].auth_iv_length &&
-			    auth_capa[i].key_len ==
-			    ref[idx].auth_key_length) {
-				auth_idx = i;
-				break;
-			}
-		}
-
-		if (auth_idx < 0) {
-			printf("\n    Unsupported: alg=%s, key_len=%" PRIu32
-			       ", iv_len=%" PRIu32 ", digest_len=%" PRIu32 "\n",
-			       auth_alg_name(auth_alg),
-			       ref[idx].auth_key_length,
-			       ref[idx].auth_iv_length,
-			       ref[idx].digest_length);
-			continue;
-		}
-
-		alg_test(op, cipher_alg, auth_alg, &ref[idx], ovr_iv);
-
-		cipher_tested[cipher_idx] = true;
-		auth_tested[auth_idx] = true;
-	}
-
-	for (i = 0; i < cipher_num; i++) {
-		cipher_ok |= cipher_tested[i];
-		if (!cipher_tested[i]) {
-			/* GMAC-related hacks */
-			if (cipher_alg == ODP_CIPHER_ALG_NULL)
-				continue;
-			printf("\n    Untested: alg=%s, key_len=%" PRIu32 ", "
-			       "iv_len=%" PRIu32 "\n",
-			       cipher_alg_name(cipher_alg),
-			       cipher_capa[i].key_len,
-			       cipher_capa[i].iv_len);
-		}
-	}
-
-	for (i = 0; i < auth_num; i++) {
-		auth_ok |= auth_tested[i];
-		if (!auth_tested[i])
-			printf("\n    Untested: alg=%s, key_len=%" PRIu32 ", "
-			       "digest_len=%" PRIu32 "\n",
-			       auth_alg_name(auth_alg),
-			       auth_capa[i].key_len,
-			       auth_capa[i].digest_len);
-	}
-
-	/* Verify that we were able to run at least several tests */
-	CU_ASSERT(cipher_ok);
-	CU_ASSERT(auth_ok);
-}
-
-/**
- * Check if given cipher and authentication algorithms are supported
- *
- * @param cipher      Cipher algorithm
- * @param auth        Authentication algorithm
- *
- * @retval ODP_TEST_ACTIVE when both algorithms are supported
- * @retval ODP_TEST_INACTIVE when either algorithm is not supported
- */
-static int check_alg_support(odp_cipher_alg_t cipher, odp_auth_alg_t auth)
-{
-	odp_crypto_capability_t capability;
-
-	if (odp_crypto_capability(&capability))
-		return ODP_TEST_INACTIVE;
-
-	if (suite_context.packet) {
-		if (suite_context.op_mode == ODP_CRYPTO_SYNC &&
-		    capability.sync_mode == ODP_SUPPORT_NO)
-			return ODP_TEST_INACTIVE;
-		if (suite_context.op_mode == ODP_CRYPTO_ASYNC &&
-		    capability.async_mode == ODP_SUPPORT_NO)
-			return ODP_TEST_INACTIVE;
-	}
-
-	/* Cipher algorithms */
-	switch (cipher) {
-	case ODP_CIPHER_ALG_NULL:
-		if (!capability.ciphers.bit.null)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_CIPHER_ALG_DES:
-		if (!capability.ciphers.bit.des)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_CIPHER_ALG_3DES_CBC:
-		if (!capability.ciphers.bit.trides_cbc)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_CIPHER_ALG_AES_CBC:
-		if (!capability.ciphers.bit.aes_cbc)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_CIPHER_ALG_AES_CTR:
-		if (!capability.ciphers.bit.aes_ctr)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_CIPHER_ALG_AES_GCM:
-		if (!capability.ciphers.bit.aes_gcm)
-			return ODP_TEST_INACTIVE;
-		break;
-	default:
-		fprintf(stderr, "Unsupported cipher algorithm\n");
-		return ODP_TEST_INACTIVE;
-	}
-
-	/* Authentication algorithms */
-	switch (auth) {
-	case ODP_AUTH_ALG_NULL:
-		if (!capability.auths.bit.null)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_MD5_HMAC:
-		if (!capability.auths.bit.md5_hmac)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_SHA1_HMAC:
-		if (!capability.auths.bit.sha1_hmac)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_SHA256_HMAC:
-		if (!capability.auths.bit.sha256_hmac)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_SHA512_HMAC:
-		if (!capability.auths.bit.sha512_hmac)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_AES_GCM:
-		if (!capability.auths.bit.aes_gcm)
-			return ODP_TEST_INACTIVE;
-		break;
-	case ODP_AUTH_ALG_AES_GMAC:
-		if (!capability.auths.bit.aes_gmac)
-			return ODP_TEST_INACTIVE;
-		break;
-	default:
-		fprintf(stderr, "Unsupported authentication algorithm\n");
-		return ODP_TEST_INACTIVE;
-	}
-
-	return ODP_TEST_ACTIVE;
-}
-
-static int check_alg_null(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_NULL);
-}
-
-#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
-static void crypto_test_enc_alg_null(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_NULL,
-		  null_reference,
-		  ARRAY_SIZE(null_reference),
-		  false);
-}
-
-static void crypto_test_dec_alg_null(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_NULL,
-		  null_reference,
-		  ARRAY_SIZE(null_reference),
-		  false);
-}
-
-static int check_alg_3des_cbc(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_3DES_CBC, ODP_AUTH_ALG_NULL);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for 3DES_CBC algorithm. IV for the operation is the session IV.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.*/
-static void crypto_test_enc_alg_3des_cbc(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_3DES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  tdes_cbc_reference,
-		  ARRAY_SIZE(tdes_cbc_reference),
-		  false);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for 3DES_CBC algorithm. IV for the operation is the operation IV.
- * */
-static void crypto_test_enc_alg_3des_cbc_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_3DES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  tdes_cbc_reference,
-		  ARRAY_SIZE(tdes_cbc_reference),
-		  true);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for 3DES_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_3des_cbc(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_3DES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  tdes_cbc_reference,
-		  ARRAY_SIZE(tdes_cbc_reference),
-		  false);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for 3DES_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_3des_cbc_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_3DES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  tdes_cbc_reference,
-		  ARRAY_SIZE(tdes_cbc_reference),
-		  true);
-}
-
-static int check_alg_aes_gcm(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_AES_GCM, ODP_AUTH_ALG_AES_GCM);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_GCM algorithm. IV for the operation is the session IV.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.*/
-static void crypto_test_enc_alg_aes_gcm(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_GCM,
-		  ODP_AUTH_ALG_AES_GCM,
-		  aes_gcm_reference,
-		  ARRAY_SIZE(aes_gcm_reference),
-		  false);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_GCM algorithm. IV for the operation is the session IV.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.*/
-static void crypto_test_enc_alg_aes_gcm_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_GCM,
-		  ODP_AUTH_ALG_AES_GCM,
-		  aes_gcm_reference,
-		  ARRAY_SIZE(aes_gcm_reference),
-		  true);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for 3DES_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_gcm(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_GCM,
-		  ODP_AUTH_ALG_AES_GCM,
-		  aes_gcm_reference,
-		  ARRAY_SIZE(aes_gcm_reference),
-		  false);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for 3DES_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_gcm_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_GCM,
-		  ODP_AUTH_ALG_AES_GCM,
-		  aes_gcm_reference,
-		  ARRAY_SIZE(aes_gcm_reference),
-		  true);
-}
-
-static int check_alg_aes_cbc(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_AES_CBC, ODP_AUTH_ALG_NULL);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_CBC algorithm. IV for the operation is the session IV.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.*/
-static void crypto_test_enc_alg_aes_cbc(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  aes_cbc_reference,
-		  ARRAY_SIZE(aes_cbc_reference),
-		  false);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_CBC algorithm. IV for the operation is the operation IV.
- * */
-static void crypto_test_enc_alg_aes_cbc_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  aes_cbc_reference,
-		  ARRAY_SIZE(aes_cbc_reference),
-		  true);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for AES128_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_cbc(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  aes_cbc_reference,
-		  ARRAY_SIZE(aes_cbc_reference),
-		  false);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for AES128_CBC algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_cbc_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_CBC,
-		  ODP_AUTH_ALG_NULL,
-		  aes_cbc_reference,
-		  ARRAY_SIZE(aes_cbc_reference),
-		  true);
-}
-
-static int check_alg_aes_ctr(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_AES_CTR, ODP_AUTH_ALG_NULL);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_CTR algorithm. IV for the operation is the session IV.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.*/
-static void crypto_test_enc_alg_aes_ctr(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_CTR,
-		  ODP_AUTH_ALG_NULL,
-		  aes_ctr_reference,
-		  ARRAY_SIZE(aes_ctr_reference),
-		  false);
-}
-
-/* This test verifies the correctness of encode (plaintext -> ciphertext)
- * operation for AES128_CTR algorithm. IV for the operation is the operation IV.
- * */
-static void crypto_test_enc_alg_aes_ctr_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_AES_CTR,
-		  ODP_AUTH_ALG_NULL,
-		  aes_ctr_reference,
-		  ARRAY_SIZE(aes_ctr_reference),
-		  true);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for AES128_CTR algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_ctr(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_CTR,
-		  ODP_AUTH_ALG_NULL,
-		  aes_ctr_reference,
-		  ARRAY_SIZE(aes_ctr_reference),
-		  false);
-}
-
-/* This test verifies the correctness of decode (ciphertext -> plaintext)
- * operation for AES128_CTR algorithm. IV for the operation is the session IV
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_dec_alg_aes_ctr_ovr_iv(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_AES_CTR,
-		  ODP_AUTH_ALG_NULL,
-		  aes_ctr_reference,
-		  ARRAY_SIZE(aes_ctr_reference),
-		  true);
-}
-
-static int check_alg_hmac_md5(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_MD5_HMAC);
-}
-
-/* This test verifies the correctness of HMAC_MD5 digest operation.
- * The output check length is truncated to 12 bytes (96 bits) as
- * returned by the crypto operation API call.
- * Note that hash digest is a one-way operation.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_gen_alg_hmac_md5(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_MD5_HMAC,
-		  hmac_md5_reference,
-		  ARRAY_SIZE(hmac_md5_reference),
-		  false);
-}
-
-static void crypto_test_check_alg_hmac_md5(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_MD5_HMAC,
-		  hmac_md5_reference,
-		  ARRAY_SIZE(hmac_md5_reference),
-		  false);
-}
-
-static int check_alg_hmac_sha1(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA1_HMAC);
-}
-
-/* This test verifies the correctness of HMAC_SHA1 digest operation.
- * The output check length is truncated to 12 bytes (96 bits) as
- * returned by the crypto operation API call.
- * Note that hash digest is a one-way operation.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_gen_alg_hmac_sha1(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA1_HMAC,
-		  hmac_sha1_reference,
-		  ARRAY_SIZE(hmac_sha1_reference),
-		  false);
-}
-
-static void crypto_test_check_alg_hmac_sha1(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA1_HMAC,
-		  hmac_sha1_reference,
-		  ARRAY_SIZE(hmac_sha1_reference),
-		  false);
-}
-
-static int check_alg_hmac_sha256(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA256_HMAC);
-}
-
-/* This test verifies the correctness of HMAC_SHA256 digest operation.
- * The output check length is truncated to 16 bytes (128 bits) as
- * returned by the crypto operation API call.
- * Note that hash digest is a one-way operation.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_gen_alg_hmac_sha256(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA256_HMAC,
-		  hmac_sha256_reference,
-		  ARRAY_SIZE(hmac_sha256_reference),
-		  false);
-}
-
-static void crypto_test_check_alg_hmac_sha256(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA256_HMAC,
-		  hmac_sha256_reference,
-		  ARRAY_SIZE(hmac_sha256_reference),
-		  false);
-}
-
-static int check_alg_hmac_sha512(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA512_HMAC);
-}
-
-/* This test verifies the correctness of HMAC_SHA512 digest operation.
- * The output check length is truncated to 32 bytes (256 bits) as
- * returned by the crypto operation API call.
- * Note that hash digest is a one-way operation.
- * In addition the test verifies if the implementation can use the
- * packet buffer as completion event buffer.
- * */
-static void crypto_test_gen_alg_hmac_sha512(void)
-{
-	check_alg(ODP_CRYPTO_OP_ENCODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA512_HMAC,
-		  hmac_sha512_reference,
-		  ARRAY_SIZE(hmac_sha512_reference),
-		  false);
-}
-
-static void crypto_test_check_alg_hmac_sha512(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_SHA512_HMAC,
-		  hmac_sha512_reference,
-		  ARRAY_SIZE(hmac_sha512_reference),
-		  false);
-}
-
-static int check_alg_aes_gmac(void)
-{
-	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_AES_GMAC);
-}
-
-static void crypto_test_gen_alg_aes_gmac(void)
-{
-	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
-				     sizeof(aes_gmac_reference[0]));
-	unsigned int i;
-
-	for (i = 0; i < test_vec_num; i++)
-		check_alg(ODP_CRYPTO_OP_ENCODE,
-			  ODP_CIPHER_ALG_NULL,
-			  ODP_AUTH_ALG_AES_GMAC,
-			  aes_gmac_reference,
-			  ARRAY_SIZE(aes_gmac_reference),
-			  false);
-}
-
-static void crypto_test_gen_alg_aes_gmac_ovr_iv(void)
-{
-	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
-				     sizeof(aes_gmac_reference[0]));
-	unsigned int i;
-
-	for (i = 0; i < test_vec_num; i++)
-		alg_test(ODP_CRYPTO_OP_ENCODE,
-			 ODP_CIPHER_ALG_NULL,
-			 ODP_AUTH_ALG_AES_GMAC,
-			 &aes_gmac_reference[i],
-			 true);
-}
-
-static void crypto_test_check_alg_aes_gmac(void)
-{
-	check_alg(ODP_CRYPTO_OP_DECODE,
-		  ODP_CIPHER_ALG_NULL,
-		  ODP_AUTH_ALG_AES_GMAC,
-		  aes_gmac_reference,
-		  ARRAY_SIZE(aes_gmac_reference),
-		  false);
-}
-
-static void crypto_test_check_alg_aes_gmac_ovr_iv(void)
-{
-	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
-				     sizeof(aes_gmac_reference[0]));
-	unsigned int i;
-
-	for (i = 0; i < test_vec_num; i++)
-		alg_test(ODP_CRYPTO_OP_DECODE,
-			 ODP_CIPHER_ALG_NULL,
-			 ODP_AUTH_ALG_AES_GMAC,
-			 &aes_gmac_reference[i],
-			 true);
-}
-
-int crypto_suite_sync_init(void)
-{
-	suite_context.pool = odp_pool_lookup("packet_pool");
-	if (suite_context.pool == ODP_POOL_INVALID)
-		return -1;
-
-	suite_context.queue = ODP_QUEUE_INVALID;
-	suite_context.pref_mode = ODP_CRYPTO_SYNC;
-	return 0;
-}
-
-int crypto_suite_async_init(void)
-{
-	suite_context.pool = odp_pool_lookup("packet_pool");
-	if (suite_context.pool == ODP_POOL_INVALID)
-		return -1;
-	suite_context.queue = odp_queue_lookup("crypto-out");
-	if (suite_context.queue == ODP_QUEUE_INVALID)
-		return -1;
-
-	suite_context.pref_mode = ODP_CRYPTO_ASYNC;
-	return 0;
-}
-
-int crypto_suite_packet_sync_init(void)
-{
-	suite_context.packet = true;
-	suite_context.op_mode = ODP_CRYPTO_SYNC;
-
-	suite_context.pool = odp_pool_lookup("packet_pool");
-	if (suite_context.pool == ODP_POOL_INVALID)
-		return -1;
-
-	suite_context.queue = ODP_QUEUE_INVALID;
-	return 0;
-}
-
-int crypto_suite_packet_async_init(void)
-{
-	suite_context.packet = true;
-	suite_context.op_mode = ODP_CRYPTO_ASYNC;
-
-	suite_context.pool = odp_pool_lookup("packet_pool");
-	if (suite_context.pool == ODP_POOL_INVALID)
-		return -1;
-
-	suite_context.queue = odp_queue_lookup("crypto-out");
-	if (suite_context.queue == ODP_QUEUE_INVALID)
-		return -1;
-	return 0;
-}
-
-odp_testinfo_t crypto_suite[] = {
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_null,
-				  check_alg_null),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_null,
-				  check_alg_null),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_3des_cbc,
-				  check_alg_3des_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_3des_cbc,
-				  check_alg_3des_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_3des_cbc_ovr_iv,
-				  check_alg_3des_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_3des_cbc_ovr_iv,
-				  check_alg_3des_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_cbc,
-				  check_alg_aes_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_cbc,
-				  check_alg_aes_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_cbc_ovr_iv,
-				  check_alg_aes_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_cbc_ovr_iv,
-				  check_alg_aes_cbc),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_ctr,
-				  check_alg_aes_ctr),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_ctr,
-				  check_alg_aes_ctr),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_ctr_ovr_iv,
-				  check_alg_aes_ctr),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_ctr_ovr_iv,
-				  check_alg_aes_ctr),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_gcm,
-				  check_alg_aes_gcm),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_gcm_ovr_iv,
-				  check_alg_aes_gcm),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_gcm,
-				  check_alg_aes_gcm),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_gcm_ovr_iv,
-				  check_alg_aes_gcm),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_md5,
-				  check_alg_hmac_md5),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_md5,
-				  check_alg_hmac_md5),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha1,
-				  check_alg_hmac_sha1),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha1,
-				  check_alg_hmac_sha1),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha256,
-				  check_alg_hmac_sha256),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha256,
-				  check_alg_hmac_sha256),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha512,
-				  check_alg_hmac_sha512),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha512,
-				  check_alg_hmac_sha512),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_aes_gmac,
-				  check_alg_aes_gmac),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_aes_gmac_ovr_iv,
-				  check_alg_aes_gmac),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_aes_gmac,
-				  check_alg_aes_gmac),
-	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_aes_gmac_ovr_iv,
-				  check_alg_aes_gmac),
-	ODP_TEST_INFO_NULL,
-};
-
-int crypto_suite_term(void)
-{
-	int i;
-	int first = 1;
-
-	for (i = 0; crypto_suite[i].pName; i++) {
-		if (crypto_suite[i].check_active &&
-		    crypto_suite[i].check_active() == ODP_TEST_INACTIVE) {
-			if (first) {
-				first = 0;
-				printf("\n\n  Inactive tests:\n");
-			}
-			printf("    %s\n", crypto_suite[i].pName);
-		}
-	}
-	return 0;
-}
+/* Copyright (c) 2014-2018, Linaro Limited
+ * All rights reserved.
+ *
+ * SPDX-License-Identifier:	BSD-3-Clause
+ */
+
+#include "config.h"
+
+#include <odp_api.h>
+#include <CUnit/Basic.h>
+#include <odp_cunit_common.h>
+#include "test_vectors.h"
+#include "odp_crypto_test_inp.h"
+#include "crypto.h"
+
+#define MAX_ALG_CAPA 32
+
+struct suite_context_s {
+	odp_bool_t packet;
+	odp_crypto_op_mode_t op_mode;
+	odp_crypto_op_mode_t pref_mode;
+	odp_pool_t pool;
+	odp_queue_t queue;
+};
+
+static struct suite_context_s suite_context;
+
+static int packet_cmp_mem(odp_packet_t pkt, uint32_t offset,
+			  void *s, uint32_t len)
+{
+	uint8_t buf[len];
+
+	odp_packet_copy_to_mem(pkt, offset, len, buf);
+
+	return memcmp(buf, s, len);
+}
+
+static const char *auth_alg_name(odp_auth_alg_t auth)
+{
+	switch (auth) {
+	case ODP_AUTH_ALG_NULL:
+		return "ODP_AUTH_ALG_NULL";
+	case ODP_AUTH_ALG_MD5_HMAC:
+		return "ODP_AUTH_ALG_MD5_HMAC";
+	case ODP_AUTH_ALG_SHA1_HMAC:
+		return "ODP_AUTH_ALG_SHA1_HMAC";
+	case ODP_AUTH_ALG_SHA256_HMAC:
+		return "ODP_AUTH_ALG_SHA256_HMAC";
+	case ODP_AUTH_ALG_SHA512_HMAC:
+		return "ODP_AUTH_ALG_SHA512_HMAC";
+	case ODP_AUTH_ALG_AES_GCM:
+		return "ODP_AUTH_ALG_AES_GCM";
+	case ODP_AUTH_ALG_AES_GMAC:
+		return "ODP_AUTH_ALG_AES_GMAC";
+	default:
+		return "Unknown";
+	}
+}
+
+static const char *cipher_alg_name(odp_cipher_alg_t cipher)
+{
+	switch (cipher) {
+	case ODP_CIPHER_ALG_NULL:
+		return "ODP_CIPHER_ALG_NULL";
+	case ODP_CIPHER_ALG_DES:
+		return "ODP_CIPHER_ALG_DES";
+	case ODP_CIPHER_ALG_3DES_CBC:
+		return "ODP_CIPHER_ALG_3DES_CBC";
+	case ODP_CIPHER_ALG_AES_CBC:
+		return "ODP_CIPHER_ALG_AES_CBC";
+	case ODP_CIPHER_ALG_AES_GCM:
+		return "ODP_CIPHER_ALG_AES_GCM";
+	default:
+		return "Unknown";
+	}
+}
+
+static int alg_op(odp_packet_t pkt,
+		  odp_bool_t *ok,
+		  odp_crypto_session_t session,
+		  uint8_t *cipher_iv_ptr,
+		  uint8_t *auth_iv_ptr,
+		  odp_packet_data_range_t *cipher_range,
+		  odp_packet_data_range_t *auth_range,
+		  uint8_t *aad,
+		  unsigned int plaintext_len)
+{
+	int rc;
+	odp_crypto_op_result_t result;
+	odp_crypto_op_param_t op_params;
+	odp_bool_t posted;
+	odp_event_subtype_t subtype;
+
+	/* Prepare input/output params */
+	memset(&op_params, 0, sizeof(op_params));
+	op_params.session = session;
+	op_params.pkt = pkt;
+	op_params.out_pkt = pkt;
+	op_params.ctx = (void *)0xdeadbeef;
+
+	op_params.cipher_range = *cipher_range;
+	op_params.auth_range = *auth_range;
+	if (cipher_iv_ptr)
+		op_params.cipher_iv_ptr = cipher_iv_ptr;
+	if (auth_iv_ptr)
+		op_params.auth_iv_ptr = auth_iv_ptr;
+
+	op_params.aad_ptr = aad;
+
+	op_params.hash_result_offset = plaintext_len;
+
+	rc = odp_crypto_operation(&op_params, &posted, &result);
+	if (rc < 0) {
+		CU_FAIL("Failed odp_crypto_operation()");
+		return rc;
+	}
+
+	if (posted) {
+		odp_event_t event;
+		odp_crypto_compl_t compl_event;
+
+		/* Poll completion queue for results */
+		do {
+			event = odp_queue_deq(suite_context.queue);
+		} while (event == ODP_EVENT_INVALID);
+
+		CU_ASSERT(ODP_EVENT_CRYPTO_COMPL == odp_event_type(event));
+		CU_ASSERT(ODP_EVENT_NO_SUBTYPE == odp_event_subtype(event));
+		CU_ASSERT(ODP_EVENT_CRYPTO_COMPL ==
+			  odp_event_types(event, &subtype));
+		CU_ASSERT(ODP_EVENT_NO_SUBTYPE == subtype);
+
+		compl_event = odp_crypto_compl_from_event(event);
+		CU_ASSERT(odp_crypto_compl_to_u64(compl_event) ==
+			  odp_crypto_compl_to_u64(
+				  odp_crypto_compl_from_event(event)));
+		odp_crypto_compl_result(compl_event, &result);
+		odp_crypto_compl_free(compl_event);
+	}
+
+	CU_ASSERT(result.pkt == pkt);
+	CU_ASSERT(result.ctx == (void *)0xdeadbeef);
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_type(odp_packet_to_event(result.pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET_BASIC ==
+		  odp_event_subtype(odp_packet_to_event(result.pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_types(odp_packet_to_event(result.pkt), &subtype));
+	CU_ASSERT(ODP_EVENT_PACKET_BASIC == subtype);
+
+	*ok = result.ok;
+
+	return 0;
+}
+
+static int alg_packet_op(odp_packet_t pkt,
+			 odp_bool_t *ok,
+			 odp_crypto_session_t session,
+			 uint8_t *cipher_iv_ptr,
+			 uint8_t *auth_iv_ptr,
+			 odp_packet_data_range_t *cipher_range,
+			 odp_packet_data_range_t *auth_range,
+			 uint8_t *aad,
+			 unsigned int plaintext_len)
+{
+	int rc;
+	odp_crypto_packet_result_t result;
+	odp_crypto_packet_op_param_t op_params;
+	odp_event_subtype_t subtype;
+	odp_packet_t out_pkt = pkt;
+
+	/* Prepare input/output params */
+	memset(&op_params, 0, sizeof(op_params));
+	op_params.session = session;
+
+	op_params.cipher_range = *cipher_range;
+	op_params.auth_range = *auth_range;
+	if (cipher_iv_ptr)
+		op_params.cipher_iv_ptr = cipher_iv_ptr;
+	if (auth_iv_ptr)
+		op_params.auth_iv_ptr = auth_iv_ptr;
+
+	op_params.aad_ptr = aad;
+
+	op_params.hash_result_offset = plaintext_len;
+
+	rc = odp_crypto_op(&pkt, &out_pkt, &op_params, 1);
+	if (rc < 0) {
+		CU_FAIL("Failed odp_crypto_packet_op()");
+		return rc;
+	}
+
+	CU_ASSERT(out_pkt == pkt);
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_type(odp_packet_to_event(pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO ==
+		  odp_event_subtype(odp_packet_to_event(pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_types(odp_packet_to_event(pkt), &subtype));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
+
+	rc = odp_crypto_result(&result, pkt);
+	if (rc < 0) {
+		CU_FAIL("Failed odp_crypto_packet_result()");
+		return rc;
+	}
+
+	if (!result.ok)
+		CU_ASSERT(odp_packet_has_error(pkt));
+
+	*ok = result.ok;
+
+	return 0;
+}
+
+static int alg_packet_op_enq(odp_packet_t pkt,
+			     odp_bool_t *ok,
+			     odp_crypto_session_t session,
+			     uint8_t *cipher_iv_ptr,
+			     uint8_t *auth_iv_ptr,
+			     odp_packet_data_range_t *cipher_range,
+			     odp_packet_data_range_t *auth_range,
+			     uint8_t *aad,
+			     unsigned int plaintext_len)
+{
+	int rc;
+	odp_event_t event;
+	odp_crypto_packet_result_t result;
+	odp_crypto_packet_op_param_t op_params;
+	odp_event_subtype_t subtype;
+	odp_packet_t out_pkt = pkt;
+
+	/* Prepare input/output params */
+	memset(&op_params, 0, sizeof(op_params));
+	op_params.session = session;
+
+	op_params.cipher_range = *cipher_range;
+	op_params.auth_range = *auth_range;
+	if (cipher_iv_ptr)
+		op_params.cipher_iv_ptr = cipher_iv_ptr;
+	if (auth_iv_ptr)
+		op_params.auth_iv_ptr = auth_iv_ptr;
+
+	op_params.aad_ptr = aad;
+
+	op_params.hash_result_offset = plaintext_len;
+
+	rc = odp_crypto_op_enq(&pkt, &pkt, &op_params, 1);
+	if (rc < 0) {
+		CU_FAIL("Failed odp_crypto_op_enq()");
+		return rc;
+	}
+
+	/* Poll completion queue for results */
+	do {
+		event = odp_queue_deq(suite_context.queue);
+	} while (event == ODP_EVENT_INVALID);
+
+	CU_ASSERT(ODP_EVENT_PACKET == odp_event_type(event));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == odp_event_subtype(event));
+	CU_ASSERT(ODP_EVENT_PACKET == odp_event_types(event, &subtype));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
+
+	pkt = odp_crypto_packet_from_event(event);
+
+	CU_ASSERT(out_pkt == pkt);
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_type(odp_packet_to_event(pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO ==
+		  odp_event_subtype(odp_packet_to_event(pkt)));
+	CU_ASSERT(ODP_EVENT_PACKET ==
+		  odp_event_types(odp_packet_to_event(pkt), &subtype));
+	CU_ASSERT(ODP_EVENT_PACKET_CRYPTO == subtype);
+
+	rc = odp_crypto_result(&result, pkt);
+	if (rc < 0) {
+		CU_FAIL("Failed odp_crypto_packet_result()");
+		return rc;
+	}
+
+	CU_ASSERT((!odp_packet_has_error(pkt)) == result.ok);
+
+	*ok = result.ok;
+
+	return 0;
+}
+
+typedef enum crypto_test {
+	NORMAL_TEST = 0,   /**< Plain execution */
+	REPEAT_TEST,       /**< Rerun without reinitializing the session */
+	WRONG_DIGEST_TEST, /**< Check against wrong digest */
+	MAX_TEST,          /**< Final mark */
+} crypto_test;
+
+/* Basic algorithm run function for async inplace mode.
+ * Creates a session from input parameters and runs one operation
+ * on input_vec. Checks the output of the crypto operation against
+ * output_vec. Operation completion event is dequeued polling the
+ * session output queue. Completion context pointer is retrieved
+ * and checked against the one set before the operation.
+ * Completion event can be a separate buffer or the input packet
+ * buffer can be used.
+ * */
+static void alg_test(odp_crypto_op_t op,
+		     odp_cipher_alg_t cipher_alg,
+		     odp_auth_alg_t auth_alg,
+		     crypto_test_reference_t *ref,
+		     odp_bool_t ovr_iv)
+{
+	odp_crypto_session_t session;
+	int rc;
+	odp_crypto_ses_create_err_t status;
+	odp_bool_t ok = false;
+	int iteration;
+	odp_crypto_session_param_t ses_params;
+	odp_packet_data_range_t cipher_range;
+	odp_packet_data_range_t auth_range;
+	odp_crypto_key_t cipher_key = {
+		.data = ref->cipher_key,
+		.length = ref->cipher_key_length
+	};
+	odp_crypto_key_t auth_key = {
+		.data = ref->auth_key,
+		.length = ref->auth_key_length
+	};
+	odp_crypto_iv_t cipher_iv = {
+		.data = ovr_iv ? NULL : ref->cipher_iv,
+		.length = ref->cipher_iv_length
+	};
+	odp_crypto_iv_t auth_iv = {
+		.data = ovr_iv ? NULL : ref->auth_iv,
+		.length = ref->auth_iv_length
+	};
+
+	/* Create a crypto session */
+	odp_crypto_session_param_init(&ses_params);
+	ses_params.op = op;
+	ses_params.auth_cipher_text = false;
+	ses_params.op_mode = suite_context.op_mode;
+	ses_params.pref_mode = suite_context.pref_mode;
+	ses_params.cipher_alg = cipher_alg;
+	ses_params.auth_alg = auth_alg;
+	ses_params.compl_queue = suite_context.queue;
+	ses_params.output_pool = suite_context.pool;
+	ses_params.cipher_key = cipher_key;
+	ses_params.cipher_iv = cipher_iv;
+	ses_params.auth_iv = auth_iv;
+	ses_params.auth_key = auth_key;
+	ses_params.auth_digest_len = ref->digest_length;
+	ses_params.auth_aad_len = ref->aad_length;
+
+	rc = odp_crypto_session_create(&ses_params, &session, &status);
+	CU_ASSERT_FATAL(!rc);
+	CU_ASSERT(status == ODP_CRYPTO_SES_CREATE_ERR_NONE);
+	CU_ASSERT(odp_crypto_session_to_u64(session) !=
+		  odp_crypto_session_to_u64(ODP_CRYPTO_SESSION_INVALID));
+
+	cipher_range.offset = 0;
+	cipher_range.length = ref->length;
+	auth_range.offset = 0;
+	auth_range.length = ref->length;
+
+	/* Prepare input data */
+	odp_packet_t pkt = odp_packet_alloc(suite_context.pool,
+					    ref->length + ref->digest_length);
+	CU_ASSERT(pkt != ODP_PACKET_INVALID);
+	if (pkt == ODP_PACKET_INVALID)
+		goto cleanup;
+
+	for (iteration = NORMAL_TEST; iteration < MAX_TEST; iteration++) {
+		/* checking against wrong digest is meaningless for NULL digest
+		 * or when generating digest */
+		if (iteration == WRONG_DIGEST_TEST &&
+		    (auth_alg == ODP_AUTH_ALG_NULL ||
+		     op == ODP_CRYPTO_OP_ENCODE))
+			continue;
+
+		if (op == ODP_CRYPTO_OP_ENCODE) {
+			odp_packet_copy_from_mem(pkt, 0, ref->length,
+						 ref->plaintext);
+		} else {
+			odp_packet_copy_from_mem(pkt, 0, ref->length,
+						 ref->ciphertext);
+			odp_packet_copy_from_mem(pkt, ref->length,
+						 ref->digest_length,
+						 ref->digest);
+			if (iteration == WRONG_DIGEST_TEST) {
+				uint8_t byte = ~ref->digest[0];
+
+				odp_packet_copy_from_mem(pkt, ref->length,
+							 1, &byte);
+			}
+		}
+
+		if (!suite_context.packet)
+			rc = alg_op(pkt, &ok, session,
+				    ovr_iv ? ref->cipher_iv : NULL,
+				    ovr_iv ? ref->auth_iv : NULL,
+				    &cipher_range, &auth_range,
+				    ref->aad, ref->length);
+		else if (ODP_CRYPTO_ASYNC == suite_context.op_mode)
+			rc = alg_packet_op_enq(pkt, &ok, session,
+					       ovr_iv ? ref->cipher_iv : NULL,
+					       ovr_iv ? ref->auth_iv : NULL,
+					       &cipher_range, &auth_range,
+					       ref->aad, ref->length);
+		else
+			rc = alg_packet_op(pkt, &ok, session,
+					   ovr_iv ? ref->cipher_iv : NULL,
+					   ovr_iv ? ref->auth_iv : NULL,
+					   &cipher_range, &auth_range,
+					   ref->aad, ref->length);
+		if (rc < 0)
+			break;
+
+		if (iteration == WRONG_DIGEST_TEST) {
+			CU_ASSERT(!ok);
+			continue;
+		}
+
+		CU_ASSERT(ok);
+
+		if (op == ODP_CRYPTO_OP_ENCODE) {
+			CU_ASSERT(!packet_cmp_mem(pkt, 0,
+						  ref->ciphertext,
+						  ref->length));
+			CU_ASSERT(!packet_cmp_mem(pkt, ref->length,
+						  ref->digest,
+						  ref->digest_length));
+		} else {
+			CU_ASSERT(!packet_cmp_mem(pkt, 0,
+						  ref->plaintext,
+						  ref->length));
+		}
+	}
+
+	odp_packet_free(pkt);
+
+cleanup:
+	rc = odp_crypto_session_destroy(session);
+	CU_ASSERT(!rc);
+}
+
+static void check_alg(odp_crypto_op_t op,
+		      odp_cipher_alg_t cipher_alg,
+		      odp_auth_alg_t auth_alg,
+		      crypto_test_reference_t *ref,
+		      size_t count,
+		      odp_bool_t ovr_iv)
+{
+	odp_crypto_capability_t capa;
+	odp_crypto_cipher_capability_t cipher_capa[MAX_ALG_CAPA];
+	odp_crypto_auth_capability_t   auth_capa[MAX_ALG_CAPA];
+	int rc, cipher_num, auth_num, i;
+	odp_bool_t cipher_tested[MAX_ALG_CAPA];
+	odp_bool_t auth_tested[MAX_ALG_CAPA];
+	odp_bool_t cipher_ok = false;
+	odp_bool_t auth_ok = false;
+	size_t idx;
+
+	rc = odp_crypto_capability(&capa);
+	CU_ASSERT(!rc);
+
+	if (cipher_alg == ODP_CIPHER_ALG_3DES_CBC &&
+	    !(capa.ciphers.bit.trides_cbc))
+		rc = -1;
+	if (cipher_alg == ODP_CIPHER_ALG_AES_CBC &&
+	    !(capa.ciphers.bit.aes_cbc))
+		rc = -1;
+	if (cipher_alg == ODP_CIPHER_ALG_AES_CTR &&
+	    !(capa.ciphers.bit.aes_ctr))
+		rc = -1;
+	if (cipher_alg == ODP_CIPHER_ALG_AES_GCM &&
+	    !(capa.ciphers.bit.aes_gcm))
+		rc = -1;
+	if (cipher_alg == ODP_CIPHER_ALG_DES &&
+	    !(capa.ciphers.bit.des))
+		rc = -1;
+	if (cipher_alg == ODP_CIPHER_ALG_NULL &&
+	    !(capa.ciphers.bit.null))
+		rc = -1;
+
+	CU_ASSERT(!rc);
+	CU_ASSERT((~capa.ciphers.all_bits & capa.hw_ciphers.all_bits) == 0);
+
+	if (auth_alg == ODP_AUTH_ALG_AES_GCM &&
+	    !(capa.auths.bit.aes_gcm))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_AES_GMAC &&
+	    !(capa.auths.bit.aes_gmac))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_MD5_HMAC &&
+	    !(capa.auths.bit.md5_hmac))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_NULL &&
+	    !(capa.auths.bit.null))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_SHA1_HMAC &&
+	    !(capa.auths.bit.sha1_hmac))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_SHA256_HMAC &&
+	    !(capa.auths.bit.sha256_hmac))
+		rc = -1;
+	if (auth_alg == ODP_AUTH_ALG_SHA512_HMAC &&
+	    !(capa.auths.bit.sha512_hmac))
+		rc = -1;
+
+	CU_ASSERT(!rc);
+	CU_ASSERT((~capa.auths.all_bits & capa.hw_auths.all_bits) == 0);
+
+	cipher_num = odp_crypto_cipher_capability(cipher_alg, cipher_capa,
+						  MAX_ALG_CAPA);
+
+	CU_ASSERT(cipher_num > 0);
+	CU_ASSERT(cipher_num <= MAX_ALG_CAPA);
+	if (cipher_num > MAX_ALG_CAPA)
+		cipher_num = MAX_ALG_CAPA;
+
+	auth_num = odp_crypto_auth_capability(auth_alg, auth_capa,
+					      MAX_ALG_CAPA);
+
+	CU_ASSERT(auth_num > 0);
+	CU_ASSERT(auth_num <= MAX_ALG_CAPA);
+	if (auth_num > MAX_ALG_CAPA)
+		auth_num = MAX_ALG_CAPA;
+
+	memset(cipher_tested, 0, sizeof(cipher_tested));
+	memset(auth_tested, 0, sizeof(auth_tested));
+
+	for (idx = 0; idx < count; idx++) {
+		int cipher_idx = -1, auth_idx = -1;
+
+		for (i = 0; i < cipher_num; i++) {
+			if (cipher_capa[i].key_len ==
+			    ref[idx].cipher_key_length &&
+			    cipher_capa[i].iv_len ==
+			    ref[idx].cipher_iv_length) {
+				cipher_idx = i;
+				break;
+			}
+		}
+
+		if (cipher_idx < 0) {
+			printf("\n    Unsupported: alg=%s, key_len=%" PRIu32
+			       ", iv_len=%" PRIu32 "\n",
+			       cipher_alg_name(cipher_alg),
+			       ref[idx].cipher_key_length,
+			       ref[idx].cipher_iv_length);
+			continue;
+		}
+
+		for (i = 0; i < auth_num; i++) {
+			if (auth_capa[i].digest_len ==
+			    ref[idx].digest_length &&
+			    auth_capa[i].iv_len ==
+			    ref[idx].auth_iv_length &&
+			    auth_capa[i].key_len ==
+			    ref[idx].auth_key_length) {
+				auth_idx = i;
+				break;
+			}
+		}
+
+		if (auth_idx < 0) {
+			printf("\n    Unsupported: alg=%s, key_len=%" PRIu32
+			       ", iv_len=%" PRIu32 ", digest_len=%" PRIu32 "\n",
+			       auth_alg_name(auth_alg),
+			       ref[idx].auth_key_length,
+			       ref[idx].auth_iv_length,
+			       ref[idx].digest_length);
+			continue;
+		}
+
+		alg_test(op, cipher_alg, auth_alg, &ref[idx], ovr_iv);
+
+		cipher_tested[cipher_idx] = true;
+		auth_tested[auth_idx] = true;
+	}
+
+	for (i = 0; i < cipher_num; i++) {
+		cipher_ok |= cipher_tested[i];
+		if (!cipher_tested[i]) {
+			/* GMAC-related hacks */
+			if (cipher_alg == ODP_CIPHER_ALG_NULL)
+				continue;
+			printf("\n    Untested: alg=%s, key_len=%" PRIu32 ", "
+			       "iv_len=%" PRIu32 "\n",
+			       cipher_alg_name(cipher_alg),
+			       cipher_capa[i].key_len,
+			       cipher_capa[i].iv_len);
+		}
+	}
+
+	for (i = 0; i < auth_num; i++) {
+		auth_ok |= auth_tested[i];
+		if (!auth_tested[i])
+			printf("\n    Untested: alg=%s, key_len=%" PRIu32 ", "
+			       "digest_len=%" PRIu32 "\n",
+			       auth_alg_name(auth_alg),
+			       auth_capa[i].key_len,
+			       auth_capa[i].digest_len);
+	}
+
+	/* Verify that we were able to run at least several tests */
+	CU_ASSERT(cipher_ok);
+	CU_ASSERT(auth_ok);
+}
+
+/**
+ * Check if given cipher and authentication algorithms are supported
+ *
+ * @param cipher      Cipher algorithm
+ * @param auth        Authentication algorithm
+ *
+ * @retval ODP_TEST_ACTIVE when both algorithms are supported
+ * @retval ODP_TEST_INACTIVE when either algorithm is not supported
+ */
+static int check_alg_support(odp_cipher_alg_t cipher, odp_auth_alg_t auth)
+{
+	odp_crypto_capability_t capability;
+
+	if (odp_crypto_capability(&capability))
+		return ODP_TEST_INACTIVE;
+
+	if (suite_context.packet) {
+		if (suite_context.op_mode == ODP_CRYPTO_SYNC &&
+		    capability.sync_mode == ODP_SUPPORT_NO)
+			return ODP_TEST_INACTIVE;
+		if (suite_context.op_mode == ODP_CRYPTO_ASYNC &&
+		    capability.async_mode == ODP_SUPPORT_NO)
+			return ODP_TEST_INACTIVE;
+	}
+
+	/* Cipher algorithms */
+	switch (cipher) {
+	case ODP_CIPHER_ALG_NULL:
+		if (!capability.ciphers.bit.null)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_CIPHER_ALG_DES:
+		if (!capability.ciphers.bit.des)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_CIPHER_ALG_3DES_CBC:
+		if (!capability.ciphers.bit.trides_cbc)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_CIPHER_ALG_AES_CBC:
+		if (!capability.ciphers.bit.aes_cbc)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_CIPHER_ALG_AES_CTR:
+		if (!capability.ciphers.bit.aes_ctr)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_CIPHER_ALG_AES_GCM:
+		if (!capability.ciphers.bit.aes_gcm)
+			return ODP_TEST_INACTIVE;
+		break;
+	default:
+		fprintf(stderr, "Unsupported cipher algorithm\n");
+		return ODP_TEST_INACTIVE;
+	}
+
+	/* Authentication algorithms */
+	switch (auth) {
+	case ODP_AUTH_ALG_NULL:
+		if (!capability.auths.bit.null)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_MD5_HMAC:
+		if (!capability.auths.bit.md5_hmac)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_SHA1_HMAC:
+		if (!capability.auths.bit.sha1_hmac)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_SHA256_HMAC:
+		if (!capability.auths.bit.sha256_hmac)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_SHA512_HMAC:
+		if (!capability.auths.bit.sha512_hmac)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_AES_GCM:
+		if (!capability.auths.bit.aes_gcm)
+			return ODP_TEST_INACTIVE;
+		break;
+	case ODP_AUTH_ALG_AES_GMAC:
+		if (!capability.auths.bit.aes_gmac)
+			return ODP_TEST_INACTIVE;
+		break;
+	default:
+		fprintf(stderr, "Unsupported authentication algorithm\n");
+		return ODP_TEST_INACTIVE;
+	}
+
+	return ODP_TEST_ACTIVE;
+}
+
+static int check_alg_null(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_NULL);
+}
+
+#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
+static void crypto_test_enc_alg_null(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_NULL,
+		  null_reference,
+		  ARRAY_SIZE(null_reference),
+		  false);
+}
+
+static void crypto_test_dec_alg_null(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_NULL,
+		  null_reference,
+		  ARRAY_SIZE(null_reference),
+		  false);
+}
+
+static int check_alg_3des_cbc(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_3DES_CBC, ODP_AUTH_ALG_NULL);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the session IV.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.*/
+static void crypto_test_enc_alg_3des_cbc(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_3DES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  tdes_cbc_reference,
+		  ARRAY_SIZE(tdes_cbc_reference),
+		  false);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the operation IV.
+ * */
+static void crypto_test_enc_alg_3des_cbc_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_3DES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  tdes_cbc_reference,
+		  ARRAY_SIZE(tdes_cbc_reference),
+		  true);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_3des_cbc(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_3DES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  tdes_cbc_reference,
+		  ARRAY_SIZE(tdes_cbc_reference),
+		  false);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_3des_cbc_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_3DES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  tdes_cbc_reference,
+		  ARRAY_SIZE(tdes_cbc_reference),
+		  true);
+}
+
+static int check_alg_aes_gcm(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_AES_GCM, ODP_AUTH_ALG_AES_GCM);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_GCM algorithm. IV for the operation is the session IV.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.*/
+static void crypto_test_enc_alg_aes_gcm(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_GCM,
+		  ODP_AUTH_ALG_AES_GCM,
+		  aes_gcm_reference,
+		  ARRAY_SIZE(aes_gcm_reference),
+		  false);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_GCM algorithm. IV for the operation is the session IV.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.*/
+static void crypto_test_enc_alg_aes_gcm_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_GCM,
+		  ODP_AUTH_ALG_AES_GCM,
+		  aes_gcm_reference,
+		  ARRAY_SIZE(aes_gcm_reference),
+		  true);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_gcm(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_GCM,
+		  ODP_AUTH_ALG_AES_GCM,
+		  aes_gcm_reference,
+		  ARRAY_SIZE(aes_gcm_reference),
+		  false);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for 3DES_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_gcm_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_GCM,
+		  ODP_AUTH_ALG_AES_GCM,
+		  aes_gcm_reference,
+		  ARRAY_SIZE(aes_gcm_reference),
+		  true);
+}
+
+static int check_alg_aes_cbc(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_AES_CBC, ODP_AUTH_ALG_NULL);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_CBC algorithm. IV for the operation is the session IV.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.*/
+static void crypto_test_enc_alg_aes_cbc(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  aes_cbc_reference,
+		  ARRAY_SIZE(aes_cbc_reference),
+		  false);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_CBC algorithm. IV for the operation is the operation IV.
+ * */
+static void crypto_test_enc_alg_aes_cbc_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  aes_cbc_reference,
+		  ARRAY_SIZE(aes_cbc_reference),
+		  true);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for AES128_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_cbc(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  aes_cbc_reference,
+		  ARRAY_SIZE(aes_cbc_reference),
+		  false);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for AES128_CBC algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_cbc_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_CBC,
+		  ODP_AUTH_ALG_NULL,
+		  aes_cbc_reference,
+		  ARRAY_SIZE(aes_cbc_reference),
+		  true);
+}
+
+static int check_alg_aes_ctr(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_AES_CTR, ODP_AUTH_ALG_NULL);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_CTR algorithm. IV for the operation is the session IV.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.*/
+static void crypto_test_enc_alg_aes_ctr(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_CTR,
+		  ODP_AUTH_ALG_NULL,
+		  aes_ctr_reference,
+		  ARRAY_SIZE(aes_ctr_reference),
+		  false);
+}
+
+/* This test verifies the correctness of encode (plaintext -> ciphertext)
+ * operation for AES128_CTR algorithm. IV for the operation is the operation IV.
+ * */
+static void crypto_test_enc_alg_aes_ctr_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_AES_CTR,
+		  ODP_AUTH_ALG_NULL,
+		  aes_ctr_reference,
+		  ARRAY_SIZE(aes_ctr_reference),
+		  true);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for AES128_CTR algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_ctr(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_CTR,
+		  ODP_AUTH_ALG_NULL,
+		  aes_ctr_reference,
+		  ARRAY_SIZE(aes_ctr_reference),
+		  false);
+}
+
+/* This test verifies the correctness of decode (ciphertext -> plaintext)
+ * operation for AES128_CTR algorithm. IV for the operation is the session IV
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_dec_alg_aes_ctr_ovr_iv(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_AES_CTR,
+		  ODP_AUTH_ALG_NULL,
+		  aes_ctr_reference,
+		  ARRAY_SIZE(aes_ctr_reference),
+		  true);
+}
+
+static int check_alg_hmac_md5(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_MD5_HMAC);
+}
+
+/* This test verifies the correctness of HMAC_MD5 digest operation.
+ * The output check length is truncated to 12 bytes (96 bits) as
+ * returned by the crypto operation API call.
+ * Note that hash digest is a one-way operation.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_gen_alg_hmac_md5(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_MD5_HMAC,
+		  hmac_md5_reference,
+		  ARRAY_SIZE(hmac_md5_reference),
+		  false);
+}
+
+static void crypto_test_check_alg_hmac_md5(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_MD5_HMAC,
+		  hmac_md5_reference,
+		  ARRAY_SIZE(hmac_md5_reference),
+		  false);
+}
+
+static int check_alg_hmac_sha1(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA1_HMAC);
+}
+
+/* This test verifies the correctness of HMAC_SHA1 digest operation.
+ * The output check length is truncated to 12 bytes (96 bits) as
+ * returned by the crypto operation API call.
+ * Note that hash digest is a one-way operation.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_gen_alg_hmac_sha1(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA1_HMAC,
+		  hmac_sha1_reference,
+		  ARRAY_SIZE(hmac_sha1_reference),
+		  false);
+}
+
+static void crypto_test_check_alg_hmac_sha1(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA1_HMAC,
+		  hmac_sha1_reference,
+		  ARRAY_SIZE(hmac_sha1_reference),
+		  false);
+}
+
+static int check_alg_hmac_sha256(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA256_HMAC);
+}
+
+/* This test verifies the correctness of HMAC_SHA256 digest operation.
+ * The output check length is truncated to 16 bytes (128 bits) as
+ * returned by the crypto operation API call.
+ * Note that hash digest is a one-way operation.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_gen_alg_hmac_sha256(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA256_HMAC,
+		  hmac_sha256_reference,
+		  ARRAY_SIZE(hmac_sha256_reference),
+		  false);
+}
+
+static void crypto_test_check_alg_hmac_sha256(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA256_HMAC,
+		  hmac_sha256_reference,
+		  ARRAY_SIZE(hmac_sha256_reference),
+		  false);
+}
+
+static int check_alg_hmac_sha512(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_SHA512_HMAC);
+}
+
+/* This test verifies the correctness of HMAC_SHA512 digest operation.
+ * The output check length is truncated to 32 bytes (256 bits) as
+ * returned by the crypto operation API call.
+ * Note that hash digest is a one-way operation.
+ * In addition the test verifies if the implementation can use the
+ * packet buffer as completion event buffer.
+ * */
+static void crypto_test_gen_alg_hmac_sha512(void)
+{
+	check_alg(ODP_CRYPTO_OP_ENCODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA512_HMAC,
+		  hmac_sha512_reference,
+		  ARRAY_SIZE(hmac_sha512_reference),
+		  false);
+}
+
+static void crypto_test_check_alg_hmac_sha512(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_SHA512_HMAC,
+		  hmac_sha512_reference,
+		  ARRAY_SIZE(hmac_sha512_reference),
+		  false);
+}
+
+static int check_alg_aes_gmac(void)
+{
+	return check_alg_support(ODP_CIPHER_ALG_NULL, ODP_AUTH_ALG_AES_GMAC);
+}
+
+static void crypto_test_gen_alg_aes_gmac(void)
+{
+	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
+				     sizeof(aes_gmac_reference[0]));
+	unsigned int i;
+
+	for (i = 0; i < test_vec_num; i++)
+		check_alg(ODP_CRYPTO_OP_ENCODE,
+			  ODP_CIPHER_ALG_NULL,
+			  ODP_AUTH_ALG_AES_GMAC,
+			  aes_gmac_reference,
+			  ARRAY_SIZE(aes_gmac_reference),
+			  false);
+}
+
+static void crypto_test_gen_alg_aes_gmac_ovr_iv(void)
+{
+	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
+				     sizeof(aes_gmac_reference[0]));
+	unsigned int i;
+
+	for (i = 0; i < test_vec_num; i++)
+		alg_test(ODP_CRYPTO_OP_ENCODE,
+			 ODP_CIPHER_ALG_NULL,
+			 ODP_AUTH_ALG_AES_GMAC,
+			 &aes_gmac_reference[i],
+			 true);
+}
+
+static void crypto_test_check_alg_aes_gmac(void)
+{
+	check_alg(ODP_CRYPTO_OP_DECODE,
+		  ODP_CIPHER_ALG_NULL,
+		  ODP_AUTH_ALG_AES_GMAC,
+		  aes_gmac_reference,
+		  ARRAY_SIZE(aes_gmac_reference),
+		  false);
+}
+
+static void crypto_test_check_alg_aes_gmac_ovr_iv(void)
+{
+	unsigned int test_vec_num = (sizeof(aes_gmac_reference) /
+				     sizeof(aes_gmac_reference[0]));
+	unsigned int i;
+
+	for (i = 0; i < test_vec_num; i++)
+		alg_test(ODP_CRYPTO_OP_DECODE,
+			 ODP_CIPHER_ALG_NULL,
+			 ODP_AUTH_ALG_AES_GMAC,
+			 &aes_gmac_reference[i],
+			 true);
+}
+
+int crypto_suite_sync_init(void)
+{
+	suite_context.pool = odp_pool_lookup("packet_pool");
+	if (suite_context.pool == ODP_POOL_INVALID)
+		return -1;
+
+	suite_context.queue = ODP_QUEUE_INVALID;
+	suite_context.pref_mode = ODP_CRYPTO_SYNC;
+	return 0;
+}
+
+int crypto_suite_async_init(void)
+{
+	suite_context.pool = odp_pool_lookup("packet_pool");
+	if (suite_context.pool == ODP_POOL_INVALID)
+		return -1;
+	suite_context.queue = odp_queue_lookup("crypto-out");
+	if (suite_context.queue == ODP_QUEUE_INVALID)
+		return -1;
+
+	suite_context.pref_mode = ODP_CRYPTO_ASYNC;
+	return 0;
+}
+
+int crypto_suite_packet_sync_init(void)
+{
+	suite_context.packet = true;
+	suite_context.op_mode = ODP_CRYPTO_SYNC;
+
+	suite_context.pool = odp_pool_lookup("packet_pool");
+	if (suite_context.pool == ODP_POOL_INVALID)
+		return -1;
+
+	suite_context.queue = ODP_QUEUE_INVALID;
+	return 0;
+}
+
+int crypto_suite_packet_async_init(void)
+{
+	suite_context.packet = true;
+	suite_context.op_mode = ODP_CRYPTO_ASYNC;
+
+	suite_context.pool = odp_pool_lookup("packet_pool");
+	if (suite_context.pool == ODP_POOL_INVALID)
+		return -1;
+
+	suite_context.queue = odp_queue_lookup("crypto-out");
+	if (suite_context.queue == ODP_QUEUE_INVALID)
+		return -1;
+	return 0;
+}
+
+odp_testinfo_t crypto_suite[] = {
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_null,
+				  check_alg_null),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_null,
+				  check_alg_null),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_3des_cbc,
+				  check_alg_3des_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_3des_cbc,
+				  check_alg_3des_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_3des_cbc_ovr_iv,
+				  check_alg_3des_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_3des_cbc_ovr_iv,
+				  check_alg_3des_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_cbc,
+				  check_alg_aes_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_cbc,
+				  check_alg_aes_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_cbc_ovr_iv,
+				  check_alg_aes_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_cbc_ovr_iv,
+				  check_alg_aes_cbc),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_ctr,
+				  check_alg_aes_ctr),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_ctr,
+				  check_alg_aes_ctr),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_ctr_ovr_iv,
+				  check_alg_aes_ctr),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_ctr_ovr_iv,
+				  check_alg_aes_ctr),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_gcm,
+				  check_alg_aes_gcm),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_enc_alg_aes_gcm_ovr_iv,
+				  check_alg_aes_gcm),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_gcm,
+				  check_alg_aes_gcm),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_dec_alg_aes_gcm_ovr_iv,
+				  check_alg_aes_gcm),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_md5,
+				  check_alg_hmac_md5),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_md5,
+				  check_alg_hmac_md5),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha1,
+				  check_alg_hmac_sha1),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha1,
+				  check_alg_hmac_sha1),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha256,
+				  check_alg_hmac_sha256),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha256,
+				  check_alg_hmac_sha256),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_hmac_sha512,
+				  check_alg_hmac_sha512),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_hmac_sha512,
+				  check_alg_hmac_sha512),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_aes_gmac,
+				  check_alg_aes_gmac),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_gen_alg_aes_gmac_ovr_iv,
+				  check_alg_aes_gmac),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_aes_gmac,
+				  check_alg_aes_gmac),
+	ODP_TEST_INFO_CONDITIONAL(crypto_test_check_alg_aes_gmac_ovr_iv,
+				  check_alg_aes_gmac),
+	ODP_TEST_INFO_NULL,
+};
+
+int crypto_suite_term(void)
+{
+	int i;
+	int first = 1;
+
+	for (i = 0; crypto_suite[i].pName; i++) {
+		if (crypto_suite[i].check_active &&
+		    crypto_suite[i].check_active() == ODP_TEST_INACTIVE) {
+			if (first) {
+				first = 0;
+				printf("\n\n  Inactive tests:\n");
+			}
+			printf("    %s\n", crypto_suite[i].pName);
+		}
+	}
+	return 0;
+}