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sec_api_utest_main.cpp
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1487 lines (1362 loc) · 97.3 KB
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/**
* Copyright 2020-2022 Comcast Cable Communications Management, LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "sec_api_utest_main.h" // NOLINT
#include "bundle.h"
#include "cert.h"
#include "cipher.h"
#include "concurrent.h"
#include "digest.h"
#include "exchange.h"
#include "jtype.h"
#include "key.h"
#include "keyctrl.h"
#include "mac.h"
#include "processor.h"
#include "random.h"
#include "sec_security.h"
#include "sign.h"
#include "svp.h"
#include "test_creds.h"
#include "test_ctx.h"
#include "wrapped.h"
#include <cstdlib>
#include <openssl/engine.h>
#ifdef SEC_PLATFORM_OPENSSL
#include "sec_adapter_openssl.h"
#endif
void runProcessorTests(SuiteCtx* suite) {
RUN_TEST(suite, testProcessorPrintInfo())
RUN_TEST(suite, testProcessorGetInfo())
RUN_TEST(suite, testProcessorGetDeviceId())
RUN_TEST(suite, testProcessorGetKeyLadderMinMaxDepth(SEC_KEYLADDERROOT_UNIQUE))
RUN_TEST(suite, testProcessorGetKeyLadderMinMaxDepth(SEC_KEYLADDERROOT_SHARED))
RUN_TEST(suite, testProcessorNativeMallocFree())
RUN_TEST(suite, testProcessorInitReleaseInit())
}
void runBundleTests(SuiteCtx* suite) {
RUN_TEST(suite, testBundleProvision(SEC_OBJECTID_USER_BASE, SEC_STORAGELOC_RAM, 256))
RUN_TEST(suite, testBundleProvision(SEC_OBJECTID_USER_BASE, SEC_STORAGELOC_FILE, 256))
RUN_TEST(suite, testBundleProvisionNoAppDir(SEC_OBJECTID_USER_BASE, 256))
RUN_TEST(suite, testBundleProvisionNoSha(SEC_OBJECTID_USER_BASE))
}
#define CERT_TESTS_LOC(suite, cert, loc) \
do { \
RUN_TEST(suite, testCertProvision(SEC_OBJECTID_USER_BASE, cert, loc)); \
RUN_TEST(suite, testCertExport(SEC_OBJECTID_USER_BASE, cert, loc)); \
RUN_TEST(suite, testCertExportNoSha(SEC_OBJECTID_USER_BASE, cert)); \
} while (0)
#define CERT_TESTS(suite, cert, pub_key) \
do { \
CERT_TESTS_LOC(suite, cert, SEC_STORAGELOC_RAM); \
CERT_TESTS_LOC(suite, cert, SEC_STORAGELOC_FILE); \
RUN_TEST(suite, testCertVerify(SEC_OBJECTID_USER_BASE, cert, SEC_OBJECTID_USER_BASE + 1, pub_key, \
SEC_STORAGELOC_RAM)); \
RUN_TEST(suite, testCertVerify(SEC_OBJECTID_USER_BASE, cert, SEC_OBJECTID_USER_BASE + 1, pub_key, \
SEC_STORAGELOC_RAM_SOFT_WRAPPED)); \
} while (0)
void runCertTests(SuiteCtx* suite) { // NOLINT
if (TestCreds::supports(CAPABILITY_RSA_1024)) {
CERT_TESTS(suite, TESTCERT_RSA1024, TESTKEY_RSA1024_SGN_PUB);
}
CERT_TESTS(suite, TESTCERT_RSA2048, TESTKEY_RSA2048_SGN_PUB);
CERT_TESTS(suite, TESTCERT_EC, TESTKEY_EC_PUB);
RUN_TEST(suite, testCertSignWithPkcs7(SEC_OBJECTID_USER_BASE, TESTCERT_RSA2048, SEC_OBJECTID_USER_BASE + 1,
TESTKEY_RSA2048_SGN_PRIV, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
}
#define KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, encKc, macKey, version, alg) \
do { \
RUN_TEST(suite, testExportKey(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, SEC_CIPHERALGORITHM_AES_CTR, \
20, version, alg)); \
RUN_TEST(suite, testExportKey(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, 32, version, alg)); \
RUN_TEST(suite, testExportKey(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, 20, version, alg)); \
RUN_TEST(suite, testExportKey(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, 32, version, alg)); \
RUN_TEST(suite, testExportKey(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, 20, version, alg)); \
} while (0)
#define JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, encKc, macKey, version, alg) \
do { \
RUN_TEST(suite, testDecryptJType(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, 256, version, alg)); \
RUN_TEST(suite, testDecryptJType(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_CTR, 256, version, alg)); \
RUN_TEST(suite, testDecryptJType(contentKey, encryptionKey, encKc, macKey, TESTKC_RAW, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, 256, version, alg)); \
} while (0)
#define JTYPE_TESTS(suite, contentKey, encryptionKey, macKey, version) \
do { \
if ((version) == 1) { \
if (TestCreds::supports(CAPABILITY_LOAD_SYM_SOC_KC)) { \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, TESTKC_RAW, 1, \
"aesEcbNone")); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 1, "aesEcbNone"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 1, "aesEcbNone"); \
} \
if (TestCreds::supports(CAPABILITY_CLEAR_JTYPE_WRAPPING)) { \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_RAW, macKey, TESTKC_RAW, 1, \
"aesEcbNone")); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 1, "aesEcbNone"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 1, "aesEcbNone"); \
} \
} else if ((version) == 2) { \
if (TestCreds::supports(CAPABILITY_LOAD_SYM_SOC_KC)) { \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, TESTKC_RAW, 2, \
"aesEcbNone")); \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, TESTKC_RAW, 2, \
"aesEcbPkcs5")); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 2, "aesEcbNone"); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 2, "aesEcbPkcs5"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 2, "aesEcbNone"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_CONDITIONAL, macKey, 2, "aesEcbPkcs5"); \
} \
if (TestCreds::supports(CAPABILITY_CLEAR_JTYPE_WRAPPING)) { \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_RAW, macKey, TESTKC_RAW, 2, \
"aesEcbNone")); \
RUN_TEST(suite, testProvisionJType(contentKey, encryptionKey, TESTKC_RAW, macKey, TESTKC_RAW, 2, \
"aesEcbPkcs5")); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 2, "aesEcbNone"); \
KEY_EXPORT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 2, "aesEcbPkcs5"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 2, "aesEcbNone"); \
JTYPE_DECRYPT_TESTS(suite, contentKey, encryptionKey, TESTKC_RAW, macKey, 2, "aesEcbPkcs5"); \
} \
} \
} while (0)
void runProvisionedKeyExportTest(SuiteCtx* suite) {
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES128, TESTKC_RAW))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES256, TESTKC_RAW))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC128, TESTKC_RAW))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC160, TESTKC_RAW))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC256, TESTKC_RAW))
if (TestCreds::supports(CAPABILITY_LOAD_SYM_SOC_KC)) {
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES128, TESTKC_CONDITIONAL))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES256, TESTKC_CONDITIONAL))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC128, TESTKC_CONDITIONAL))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC160, TESTKC_CONDITIONAL))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_HMAC256, TESTKC_CONDITIONAL))
if (TestCreds::supports(CAPABILITY_EXPORT_RSA) && TestCreds::supports(CAPABILITY_RSA_1024)) {
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_RSA1024_SGN_PRIV, TESTKC_CONDITIONAL))
}
if (TestCreds::supports(CAPABILITY_EXPORT_RSA)) {
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_RSA2048_SGN_PRIV, TESTKC_CONDITIONAL))
}
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_EC_PRIV, TESTKC_CONDITIONAL))
}
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES128, TESTKC_GENERATED))
RUN_TEST(suite, testExportProvisionedKey(TESTKEY_AES256, TESTKC_GENERATED))
}
void runKeyTests(SuiteCtx* suite) { // NOLINT
RUN_TEST(suite, testStore(SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testStore(SEC_TRUE, SEC_FALSE))
RUN_TEST(suite, testStore(SEC_FALSE, SEC_TRUE))
RUN_TEST(suite, testStore(SEC_FALSE, SEC_FALSE))
RUN_TEST(suite, testStoreProvision(SEC_OBJECTID_USER_BASE, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testStoreProvision(SEC_OBJECTID_USER_BASE, SEC_TRUE, SEC_FALSE))
RUN_TEST(suite, testStoreProvision(SEC_OBJECTID_USER_BASE, SEC_FALSE, SEC_TRUE))
RUN_TEST(suite, testStoreProvision(SEC_OBJECTID_USER_BASE, SEC_FALSE, SEC_FALSE))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_FILE))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW,
SEC_STORAGELOC_FILE_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvisionDouble(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED, TESTKEY_AES128, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
JTYPE_TESTS(suite, TESTKEY_AES128, TESTKEY_AES128, TESTKEY_HMAC160, 1);
JTYPE_TESTS(suite, TESTKEY_AES128, TESTKEY_AES128, TESTKEY_HMAC160, 2);
JTYPE_TESTS(suite, TESTKEY_AES256, TESTKEY_AES128, TESTKEY_HMAC160, 2);
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyNoSha(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_FALSE))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_HMAC_160, SEC_STORAGELOC_RAM, SEC_FALSE))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_FALSE))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_ECC_NISTP256, SEC_STORAGELOC_RAM, SEC_FALSE))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_GENERATED, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_HMAC_SHA1, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_HMAC_SHA1, SEC_TRUE, SEC_FALSE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_HMAC_SHA256, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_HMAC_SHA256, SEC_TRUE, SEC_FALSE))
if (TestCreds::supports(CAPABILITY_HKDF_CMAC)) {
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_CMAC_AES_128, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_MACALGORITHM_CMAC_AES_128, SEC_TRUE, SEC_FALSE))
}
RUN_TEST(suite, testKeyDeriveConcatKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_DIGESTALGORITHM_SHA1, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveConcatKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_DIGESTALGORITHM_SHA256, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA1, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA1, SEC_TRUE, SEC_FALSE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA256, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA256, SEC_TRUE, SEC_FALSE))
if (TestCreds::supports(CAPABILITY_HKDF_CMAC)) {
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_CMAC_AES_128, SEC_TRUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveHKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_CMAC_AES_128, SEC_TRUE, SEC_FALSE))
}
RUN_TEST(suite, testKeyDeriveConcatKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_DIGESTALGORITHM_SHA1, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveConcatKDF(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_DIGESTALGORITHM_SHA256, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveVendorAes128(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA1, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveVendorAes128(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_MACALGORITHM_HMAC_SHA256, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveKeyLadderAes128(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_KEYLADDERROOT_UNIQUE, SEC_TRUE))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 1, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 2, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 3, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 4, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_GENERATED,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 1, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_GENERATED,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 2, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_GENERATED,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 3, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_GENERATED,
SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_TRUE, 4, 512))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_TRUE, 1, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_TRUE, 2, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_TRUE, 3, 512))
}
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_FALSE, 1, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_FALSE, 2, 256))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_FALSE, 3, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_FALSE, 4, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_FALSE, 1, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_FALSE, 2, 512))
RUN_TEST(suite, testKeyDeriveCMACAES128(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKC_CONDITIONAL,
SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_FALSE, 3, 512))
RUN_TEST(suite, testKeyDeriveBaseKey(SEC_OBJECTID_USER_BASE, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA1))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA1))
}
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA1))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_160, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA1))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA1))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA256))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite,
testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA256))
}
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA256))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_160, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA256))
RUN_TEST(suite, testKeyDeriveHKDFBaseKey(SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_MACALGORITHM_HMAC_SHA256))
RUN_TEST(suite, testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite,
testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1))
}
RUN_TEST(suite, testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1))
RUN_TEST(suite, testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_160, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1))
RUN_TEST(suite, testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1))
RUN_TEST(suite, testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite,
testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256))
}
RUN_TEST(suite,
testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_128, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256))
RUN_TEST(suite,
testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_160, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256))
RUN_TEST(suite,
testKeyDeriveConcatKDFBaseKey(SEC_KEYTYPE_HMAC_256, SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256))
if (TestCreds::supports(CAPABILITY_AES256)) {
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM, SEC_TRUE))
RUN_TEST(suite,
testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyGenerate(SEC_OBJECTID_USER_BASE, SEC_KEYTYPE_AES_256, SEC_STORAGELOC_RAM_SOFT_WRAPPED,
SEC_TRUE))
}
if (TestCreds::supports(CAPABILITY_RSA_1024)) {
RUN_TEST(suite,
testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PRIV, TESTKC_CONDITIONAL,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA1024_SGN_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
}
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite,
testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PUB, TESTKC_RAW,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PRIV, TESTKC_CONDITIONAL,
SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite,
testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_RSA2048_SGN_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite,
testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PUB, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_CONDITIONAL, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyProvision(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_GENERATED, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyGetKeyInfo(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_GENERATED, SEC_STORAGELOC_RAM))
RUN_TEST(suite,
testKeyExtractPublicKey(SEC_OBJECTID_USER_BASE, TESTKEY_EC_PRIV, TESTKC_GENERATED, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyComputeBaseKeyDigest(SEC_OBJECTID_USER_BASE, SEC_DIGESTALGORITHM_SHA1))
RUN_TEST(suite, testKeyComputeBaseKeyDigest(SEC_OBJECTID_USER_BASE, SEC_DIGESTALGORITHM_SHA256))
RUN_TEST(suite, testKeyECDHKeyAgreementWithKDF(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKEY_EC_PRIV,
TESTKC_CONDITIONAL, TESTKEY_EC_PUB, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_DIGESTALGORITHM_SHA1, SEC_TRUE))
RUN_TEST(suite, testKeyECDHKeyAgreementWithKDF(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKEY_EC_PRIV,
TESTKC_CONDITIONAL, TESTKEY_EC_PUB, SEC_KEYTYPE_AES_128, SEC_STORAGELOC_RAM,
SEC_DIGESTALGORITHM_SHA256, SEC_TRUE))
RUN_TEST(suite, testKeyECDHKeyAgreementWithKDF(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKEY_EC_PRIV,
TESTKC_GENERATED, TESTKEY_EC_PUB, SEC_KEYTYPE_AES_128,
SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA1, SEC_TRUE))
RUN_TEST(suite, testKeyECDHKeyAgreementWithKDF(SEC_OBJECTID_USER_BASE, SEC_OBJECTID_USER_BASE + 1, TESTKEY_EC_PRIV,
TESTKC_GENERATED, TESTKEY_EC_PUB, SEC_KEYTYPE_AES_128,
SEC_STORAGELOC_RAM, SEC_DIGESTALGORITHM_SHA256, SEC_TRUE))
runProvisionedKeyExportTest(suite);
}
void runKeyCtrlTests(SuiteCtx* suite) { // NOLINT
RUN_TEST(suite, testKeyCtrlExportUnCachable(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlKeyOnlyUsage(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlKeyExpired(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlKeyNotYetAvail(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlProvision32bit2038(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlExpectedJTypeProperties(1, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExpectedJTypeProperties(2, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExpectedJTypeProperties(2, "aesEcbNone", TESTKEY_AES256))
RUN_TEST(suite, testKeyCtrlExpectedExportedProperties(1, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExpectedExportedProperties(2, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExpectedExportedProperties(2, "aesEcbNone", TESTKEY_AES256))
RUN_TEST(suite, testKeyCtrlUnwrapWithKeyUsage(1, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlUnwrapWithKeyUsage(2, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlUnwrapWithKeyUsage(2, "aesEcbNone", TESTKEY_AES256))
RUN_TEST(suite, testKeyCtrlUnwrapWithDataUsage(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlBadB64Jtype(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlExportDerived())
RUN_TEST(suite, testKeyCtrlExportProvisionExport(1, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExportProvisionExport(2, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlExportProvisionExport(2, "aesEcbNone", TESTKEY_AES256))
RUN_TEST(suite, testKeyCtrlKeyExportGetSize(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlKeyExportGetSize(2, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlExportAes(TESTKEY_AES128, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyCtrlExportAes(TESTKEY_AES256, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyCtrlExportAes(TESTKEY_AES128, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyCtrlExportAes(TESTKEY_AES256, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyCtrlKeyExportHmac(TESTKEY_HMAC128, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyCtrlKeyExportHmac(TESTKEY_HMAC160, SEC_STORAGELOC_RAM_SOFT_WRAPPED))
RUN_TEST(suite, testKeyCtrlKeyExportHmac(TESTKEY_HMAC128, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testKeyCtrlKeyExportHmac(TESTKEY_HMAC160, SEC_STORAGELOC_RAM))
if (TestCreds::supports(CAPABILITY_SVP)) {
RUN_TEST(suite, testKeyCtrlCipherFailsSvpNonOpaque(1, "aesEcbNone", SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(1, "aesEcbNone", TESTKEY_AES128, SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(2, "aesEcbNone", TESTKEY_AES128, SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(2, "aesEcbNone", TESTKEY_AES256, SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING))
RUN_TEST(suite, testKeyCtrlCipherSvpDataShiftOpaque(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlSvpCheckOpaque(1, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlSvpCheckOpaque(2, "aesEcbNone", TESTKEY_AES128))
RUN_TEST(suite, testKeyCtrlSvpCheckOpaque(2, "aesEcbNone", TESTKEY_AES256))
RUN_TEST(suite, testKeyCtrlProcessCtrDataShiftFailsSvpNonOpaque(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlCipherFailsSvpNonOpaque(1, "aesEcbNone", SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(1, "aesEcbNone", TESTKEY_AES128, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(2, "aesEcbNone", TESTKEY_AES128, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING))
RUN_TEST(suite,
testKeyCtrlCipherSvpOpaque(2, "aesEcbNone", TESTKEY_AES256, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING))
RUN_TEST(suite, testKeyCtrlCipherSvpDataShiftOpaque(1, "aesEcbNone"))
RUN_TEST(suite, testKeyCtrlProcessCtrDataShiftFailsSvpNonOpaque(1, "aesEcbNone"))
}
RUN_TEST(suite, testKeyCtrlExportEcc(TESTKC_CONDITIONAL))
RUN_TEST(suite, testKeyCtrlKeyExportSmallBuffer())
}
#define DIGEST_TESTS(suite, alg) \
do { \
RUN_TEST(suite, testDigestSingle(alg, 0)); \
RUN_TEST(suite, testDigestSingle(alg, 256)); \
RUN_TEST(suite, testDigestSingle(alg, 259)); \
\
SEC_SIZE inputSizes[] = {16, 16, 8, 0, 3, 16}; \
RUN_TEST(suite, testDigestMult(alg, std::vector<SEC_SIZE>(inputSizes, inputSizes + sizeof(inputSizes) / sizeof(SEC_SIZE)))); \
\
RUN_TEST(suite, testDigestOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, SEC_STORAGELOC_RAM)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testDigestOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, SEC_STORAGELOC_RAM)); \
} \
RUN_TEST(suite, testDigestOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, SEC_STORAGELOC_RAM)); \
RUN_TEST(suite, testDigestOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, SEC_STORAGELOC_RAM)); \
RUN_TEST(suite, testDigestOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, SEC_STORAGELOC_RAM)); \
} while (0)
#define MAC_TESTS(suite, key, kc, loc, alg) \
do { \
RUN_TEST(suite, testMacSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, alg, 256)); \
RUN_TEST(suite, testMacSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, alg, 259)); \
\
SEC_SIZE inputSizes[] = {16, 16, 8, 0, 3, 16}; \
RUN_TEST(suite, testMacMult(SEC_OBJECTID_USER_BASE, key, kc, loc, alg, \
std::vector<SEC_SIZE>(inputSizes, inputSizes + sizeof(inputSizes) / sizeof(SEC_SIZE)))); \
\
if ((alg) != SEC_MACALGORITHM_CMAC_AES_128) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES128, loc)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES256, loc)); \
} \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC128, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC160, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC256, loc)); \
\
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES128, loc)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, \
\
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES256, loc)); \
} \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC128, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC160, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC160, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC256, loc)); \
\
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES128, loc)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES256, loc)); \
} \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC128, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC160, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_HMAC256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC256, loc)); \
} else { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES128, loc)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES256, loc)); \
} \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC128, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC160, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC256, loc)); \
\
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES128, loc)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_AES256, loc)); \
} \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC128, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC160, loc)); \
RUN_TEST(suite, testMacOverKey(alg, SEC_OBJECTID_USER_BASE, TESTKEY_AES256, TESTKC_RAW, \
SEC_OBJECTID_USER_BASE + 1, TESTKEY_HMAC256, loc)); \
} \
} \
} while (0);
#define AESCTR_SPECIFIC_TESTS(suite, key, kc, loc, mode, inplace) \
do { \
if ((kc) != TESTKC_GENERATED) { \
RUN_TEST(suite, testProcessCtrWithDataShift(SEC_OBJECTID_USER_BASE, key, kc, loc, mode, inplace)); \
RUN_TEST(suite, testCtrRollover(SEC_OBJECTID_USER_BASE, key, kc, loc, mode, 256, inplace)); \
} \
} while (0)
#define AESCTR_INPLACE_TESTS(suite, key, kc, loc, mode) \
do { \
AESCTR_SPECIFIC_TESTS(suite, key, kc, loc, mode, SEC_TRUE); \
AESCTR_SPECIFIC_TESTS(suite, key, kc, loc, mode, SEC_FALSE); \
} while (0)
#define AESCTR_MODE_TESTS(suite, key, kc, loc) \
do { \
AESCTR_INPLACE_TESTS(suite, key, kc, loc, SEC_CIPHERMODE_ENCRYPT); \
AESCTR_INPLACE_TESTS(suite, key, kc, loc, SEC_CIPHERMODE_DECRYPT); \
} while (0)
#define AESCTR_LOC_TESTS(suite, key, kc) \
do { \
AESCTR_MODE_TESTS(suite, key, kc, SEC_STORAGELOC_RAM); \
if ((kc) == TESTKC_RAW) { \
AESCTR_MODE_TESTS(suite, key, kc, SEC_STORAGELOC_RAM_SOFT_WRAPPED); \
} \
} while (0)
#define AESCTR_KC_TESTS(suite, key) \
do { \
AESCTR_LOC_TESTS(suite, key, TESTKC_RAW); \
if (TestCreds::supports(CAPABILITY_LOAD_SYM_SOC_KC)) { \
AESCTR_LOC_TESTS(suite, key, TESTKC_CONDITIONAL); \
} \
AESCTR_LOC_TESTS(suite, key, TESTKC_GENERATED); \
} while (0)
#define AESCTR_TESTS(suite) \
do { \
AESCTR_KC_TESTS(suite, TESTKEY_AES128); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
AESCTR_KC_TESTS(suite, TESTKEY_AES256); \
} \
} while (0)
#define AES_TESTS(suite, key, kc, loc) \
do { \
SEC_SIZE inputSizesBlock[] = {0, 16, 32, 64, 128}; \
SEC_SIZE inputSizes[] = {0, 16, 32, 64, 128, 5}; \
SEC_SIZE inputSizesStream[] = {0, 6, 16, 17, 32, 128, 3}; \
std::vector<SEC_SIZE> blocked(inputSizesBlock, inputSizesBlock + sizeof(inputSizesBlock) / sizeof(SEC_SIZE)); \
std::vector<SEC_SIZE> unaligned(inputSizes, inputSizes + sizeof(inputSizes) / sizeof(SEC_SIZE)); \
\
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, blocked, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, blocked, SEC_TRUE)); \
RUN_TEST(suite, testCipherUpdateIV(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2, SEC_FALSE)); \
RUN_TEST(suite, testCipherUpdateIV(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, \
SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2, SEC_FALSE)); \
\
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2 + 8)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2 + 8)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, unaligned, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, unaligned, SEC_TRUE)); \
\
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_ENCRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_DECRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_ENCRYPT, blocked, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, SEC_CIPHERMODE_DECRYPT, blocked, SEC_TRUE)); \
\
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2 + 8)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2 + 8)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_ENCRYPT, unaligned, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_ECB_PKCS7_PADDING, SEC_CIPHERMODE_DECRYPT, unaligned, SEC_TRUE)); \
\
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE + 1)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE + 1, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE + 1)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE + 1, SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, blocked)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, unaligned)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, blocked, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, unaligned, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, blocked, SEC_TRUE)); \
RUN_TEST(suite, testCipherMult(SEC_OBJECTID_USER_BASE, key, kc, loc, \
SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, unaligned, SEC_TRUE)); \
RUN_TEST(suite, testCipherUpdateIV(SEC_OBJECTID_USER_BASE, key, kc, \
loc, SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE * 2, SEC_FALSE)); \
RUN_TEST(suite, testCipherUpdateIV(SEC_OBJECTID_USER_BASE, key, kc, \
loc, SEC_CIPHERALGORITHM_AES_CTR, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE * 2, SEC_FALSE)); \
} while (0)
#define RSA_ENCRYPT_TESTS(suite, pub, priv, kc) \
do { \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, \
SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_OAEP_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_OAEP_PADDING, SEC_CIPHERMODE_ENCRYPT, SEC_AES_BLOCK_SIZE, \
SEC_TRUE)); \
} while (0)
#define RSA_DECRYPT_TESTS(suite, pub, priv, kc) \
do { \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, \
SEC_TRUE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_OAEP_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE)); \
RUN_TEST(suite, testCipherSingle(SEC_OBJECTID_USER_BASE, pub, priv, kc, SEC_STORAGELOC_RAM, \
SEC_CIPHERALGORITHM_RSA_OAEP_PADDING, SEC_CIPHERMODE_DECRYPT, SEC_AES_BLOCK_SIZE, \
SEC_TRUE)); \
} while (0)
void runRandomTests(SuiteCtx* suite) {
RUN_TEST(suite, testRandom(SEC_RANDOMALGORITHM_TRUE, 17))
RUN_TEST(suite, testRandom(SEC_RANDOMALGORITHM_PRNG, 17))
}
void runSVPTests(SuiteCtx* suite) {
if (TestCreds::supports(CAPABILITY_SVP)) {
RUN_TEST(suite, testOpaqueMalloc())
RUN_TEST(suite, testCopyOpaque())
RUN_TEST(suite, testSecureBootEnabled())
RUN_TEST(suite, testSetTime())
RUN_TEST(suite, testKeycheckOpaque(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testProcessOpaque(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM,
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, 256))
RUN_TEST(suite, testProcessOpaque(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM,
SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING, 256))
RUN_TEST(suite, testProcessOpaque(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM,
SEC_CIPHERALGORITHM_AES_CTR, 498))
RUN_TEST(suite,
testProcessDataShiftOpaque(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM))
RUN_TEST(suite, testOpaqueMultiProcHandle(SEC_OBJECTID_USER_BASE, TESTKEY_AES128, TESTKC_RAW, SEC_STORAGELOC_RAM,
SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING, 256))
}
}
#define RSAAESRSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, ck_sym_alg, wkfv) \
do { \
TestKey key = (sym_type) == SEC_KEYTYPE_AES_128 ? TESTKEY_AES128 : TESTKEY_AES256; \
RUN_TEST(suite, testWrappedCipherSingleRsaAesRsaAesAes(key, TESTKC_SOC, rsa_type, rsa_alg, sym_type, \
sym_alg, ck_sym_alg, wkfv)); \
} while (0)
#define RSAAESRSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, ck_sym_alg) \
do { \
RSAAESRSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, ck_sym_alg, WKFV_V2); \
if (TestCreds::supports(CAPABILITY_WRAPPED_KEY_FORMAT_V3)) { \
RSAAESRSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, ck_sym_alg, WKFV_V3); \
} \
} while (0)
#define RSAAESRSAAESAES_CKSYMALG_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg) \
do { \
if (TestCreds::supports(CAPABILITY_RSA_AESCBC_AES)) { \
RSAAESRSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING); \
RSAAESRSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING); \
} \
RSAAESRSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING); \
if (TestCreds::supports(CAPABILITY_RSA_AESCTR_AES)) { \
RSAAESRSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, SEC_CIPHERALGORITHM_AES_CTR); \
} \
} while (0)
#define RSAAESRSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, sym_type) \
do { \
RSAAESRSAAESAES_CKSYMALG_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING); \
if (TestCreds::supports(CAPABILITY_RSA_AESCTR_RSA)) { \
RSAAESRSAAESAES_CKSYMALG_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_CTR); \
} \
} while (0)
#define RSAAESRSAAESAES_SYMTYPE_TESTS(suite, rsa_type, rsa_alg) \
do { \
RSAAESRSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, SEC_KEYTYPE_AES_128); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RSAAESRSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, SEC_KEYTYPE_AES_256); \
} \
} while (0)
#define RSAAESRSAAESAES_ASYMALG_TESTS(suite, rsa_type) \
do { \
RSAAESRSAAESAES_SYMTYPE_TESTS(suite, rsa_type, SEC_CIPHERALGORITHM_RSA_OAEP_PADDING); \
RSAAESRSAAESAES_SYMTYPE_TESTS(suite, rsa_type, SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING); \
} while (0)
#define RSAAESRSAAESAES_ASYMTYPE_TESTS(suite) \
do { \
if (TestCreds::supports(CAPABILITY_RSA_1024)) { \
RSAAESRSAAESAES_ASYMALG_TESTS(suite, SEC_KEYTYPE_RSA_1024); \
} \
RSAAESRSAAESAES_ASYMALG_TESTS(suite, SEC_KEYTYPE_RSA_2048); \
} while (0)
#define RSAAES_SPECIFIC_TESTS(suite, con_key, rsa_type, rsa_alg, wkfv) \
do { \
RUN_TEST(suite, testWrappedCipherSingleRsaAes(con_key, TESTKC_SOC, rsa_type, rsa_alg, wkfv)); \
} while (0)
#define RSAAES_WKFV_TESTS(suite, con_key, rsa_type, rsa_alg) \
do { \
RSAAES_SPECIFIC_TESTS(suite, con_key, rsa_type, rsa_alg, WKFV_V2); \
if (TestCreds::supports(CAPABILITY_WRAPPED_KEY_FORMAT_V3)) { \
RSAAES_SPECIFIC_TESTS(suite, con_key, rsa_type, rsa_alg, WKFV_V3); \
} \
} while (0)
#define RSAAES_ASYMALG_TESTS(suite, con_key, rsa_type) \
do { \
RSAAES_WKFV_TESTS(suite, con_key, rsa_type, SEC_CIPHERALGORITHM_RSA_OAEP_PADDING); \
RSAAES_WKFV_TESTS(suite, con_key, rsa_type, SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING); \
} while (0)
#define RSAAES_ASYTYPE_TESTS(suite, con_key) \
do { \
if (TestCreds::supports(CAPABILITY_RSA_1024)) { \
RSAAES_ASYMALG_TESTS(suite, con_key, SEC_KEYTYPE_RSA_1024); \
} \
RSAAES_ASYMALG_TESTS(suite, con_key, SEC_KEYTYPE_RSA_2048); \
} while (0)
#define RSAAES_TESTS(suite) \
do { \
if (TestCreds::supports(CAPABILITY_RSA_AES_M2M)) { \
RSAAES_ASYTYPE_TESTS(suite, TESTKEY_AES128); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RSAAES_ASYTYPE_TESTS(suite, TESTKEY_AES256); \
} \
} \
} while (0)
#define RSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, wkfv) \
do { \
TestKey key = (sym_type) == SEC_KEYTYPE_AES_128 ? TESTKEY_AES128 : TESTKEY_AES256; \
RUN_TEST(suite, testWrappedCipherSingleRsaAesAes(key, TESTKC_SOC, rsa_type, rsa_alg, sym_type, sym_alg, wkfv)); \
RUN_TEST(suite, testExportWrappedRsaAesAes(key, TESTKC_SOC, rsa_type, rsa_alg, sym_type, sym_alg, wkfv)); \
} while (0)
#define RSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg) \
do { \
RSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, WKFV_V2); \
if (TestCreds::supports(CAPABILITY_WRAPPED_KEY_FORMAT_V3)) { \
RSAAESAES_SPECIFIC_TESTS(suite, rsa_type, rsa_alg, sym_type, sym_alg, WKFV_V3); \
} \
} while (0)
#define RSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, sym_type) \
do { \
RSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_ECB_NO_PADDING); \
if (TestCreds::supports(CAPABILITY_RSA_AESCBC_AES)) { \
RSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_CBC_NO_PADDING); \
RSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_CBC_PKCS7_PADDING); \
} \
if (TestCreds::supports(CAPABILITY_RSA_AESCTR_AES)) { \
RSAAESAES_WKFV_TESTS(suite, rsa_type, rsa_alg, sym_type, SEC_CIPHERALGORITHM_AES_CTR); \
} \
} while (0)
#define RSAAESAES_SYMTYPE_TESTS(suite, rsa_type, rsa_alg) \
do { \
RSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, SEC_KEYTYPE_AES_128); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RSAAESAES_SYMALG_TESTS(suite, rsa_type, rsa_alg, SEC_KEYTYPE_AES_256); \
} \
} while (0)
#define RSAAESAES_ASYMALG_TESTS(suite, rsa_type) \
do { \
RSAAESAES_SYMTYPE_TESTS(suite, rsa_type, SEC_CIPHERALGORITHM_RSA_OAEP_PADDING); \
RSAAESAES_SYMTYPE_TESTS(suite, rsa_type, SEC_CIPHERALGORITHM_RSA_PKCS1_PADDING); \
} while (0)
#define RSAAESAES_TESTS(suite) \
do { \
if (TestCreds::supports(CAPABILITY_RSA_1024)) { \
RSAAESAES_ASYMALG_TESTS(suite, SEC_KEYTYPE_RSA_1024); \
} \
RSAAESAES_ASYMALG_TESTS(suite, SEC_KEYTYPE_RSA_2048); \
} while (0)
#define ECAESAES_SPECIFIC_TESTS(suite, con_key, asym_alg, sym_alg, wkfv) \
do { \
RUN_TEST(suite, testWrappedCipherSingleEcAesAes(con_key, TESTKC_SOC, SEC_KEYTYPE_AES_128, asym_alg, sym_alg, \
wkfv)); \
RUN_TEST(suite, testExportWrappedEccAesAes(con_key, TESTKC_SOC, asym_alg, SEC_KEYTYPE_AES_128, sym_alg, \
wkfv)); \
RUN_TEST(suite, testExportWrappedGeneratedEccAesAes(con_key, asym_alg, SEC_KEYTYPE_AES_128, sym_alg, wkfv)); \
if (TestCreds::supports(CAPABILITY_AES256)) { \
RUN_TEST(suite, testWrappedCipherSingleEcAesAes(con_key, TESTKC_SOC, SEC_KEYTYPE_AES_256, asym_alg, \
sym_alg, wkfv)); \
RUN_TEST(suite, testExportWrappedEccAesAes(con_key, TESTKC_SOC, asym_alg, SEC_KEYTYPE_AES_256, sym_alg, \
wkfv)); \
RUN_TEST(suite, testExportWrappedGeneratedEccAesAes(con_key, asym_alg, SEC_KEYTYPE_AES_256, sym_alg, \
wkfv)); \
} \
} while (0)