/* SPDX-License-Identifier: BSD-2 */ /******************************************************************************* * Copyright 2017-2018, Fraunhofer SIT sponsored by Infineon Technologies AG * All rights reserved. *******************************************************************************/ #include #include #include #include #include #include #include "tss2_esys.h" #include "tss2-esys/esys_iutil.h" #define LOGMODULE tests #include "util/log.h" #include "util/aux_util.h" /* * Tests whether all ESAPI finish calls handle wrong internal states with the correct * error response TSS2_ESYS_RC_BAD_SEQUENCE. */ static TSS2_RC tcti_failure_transmit(TSS2_TCTI_CONTEXT * tctiContext, size_t size, const uint8_t * buffer) { (void)(tctiContext); (void)(size); (void)(buffer); return TSS2_RC_SUCCESS; } const uint8_t failure_response[] = { 0x80, 0x01, /* TPM_ST_NO_SESSION */ 0x00, 0x00, 0x00, 0x0A, /* Response Size 10 */ 0x00, 0x00, 0x01, 0x01 /* TPM_RC_FAILURE */ }; static TSS2_RC tcti_failure_receive(TSS2_TCTI_CONTEXT * tctiContext, size_t * response_size, uint8_t * response_buffer, int32_t timeout) { *response_size = sizeof(failure_response); if (response_buffer != NULL) memcpy(response_buffer, &failure_response[0], sizeof(failure_response)); return TSS2_RC_SUCCESS; } /** * Prepare ESAPI context with a reference to SAPI and TCTI context. */ static int esys_unit_setup(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context; /* This is a fake tcti context */ TSS2_TCTI_CONTEXT_COMMON_V1 *tcti = calloc(1, sizeof(TSS2_TCTI_CONTEXT_COMMON_V1)); tcti->version = 1; TSS2_TCTI_TRANSMIT (tcti) = tcti_failure_transmit; TSS2_TCTI_RECEIVE (tcti) = tcti_failure_receive; r = Esys_Initialize(&esys_context, (TSS2_TCTI_CONTEXT *) tcti, NULL); assert_int_equal(r, TSS2_RC_SUCCESS); *state = (void *)esys_context; return 0; } /** * Free ESAPI, SAPI and TCTI context. */ static int esys_unit_teardown(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; TSS2_TCTI_CONTEXT *tcti; r = Esys_GetTcti(esys_context, &tcti); assert_int_equal(r, TSS2_RC_SUCCESS); Esys_Finalize(&esys_context); free(tcti); return 0; } void check_Startup(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Startup_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Shutdown(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Shutdown_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SelfTest(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SelfTest_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_IncrementalSelfTest(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPML_ALG *toDoList; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_IncrementalSelfTest_Finish(esys_context, &toDoList); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetTestResult(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_MAX_BUFFER *outData; TPM2_RC testResult; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetTestResult_Finish(esys_context, &outData, &testResult); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_StartAuthSession(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR sessionHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_StartAuthSession_Finish(esys_context, &sessionHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyRestart(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyRestart_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Create(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PRIVATE *outPrivate; TPM2B_PUBLIC *outPublic; TPM2B_CREATION_DATA *creationData; TPM2B_DIGEST *creationHash; TPMT_TK_CREATION *creationTicket; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Create_Finish(esys_context, &outPrivate, &outPublic, &creationData, &creationHash, &creationTicket); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Load(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR objectHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Load_Finish(esys_context, &objectHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_LoadExternal(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR objectHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_LoadExternal_Finish(esys_context, &objectHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ReadPublic(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PUBLIC *outPublic; TPM2B_NAME *name; TPM2B_NAME *qualifiedName; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ReadPublic_Finish(esys_context, &outPublic, &name, &qualifiedName); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ActivateCredential(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *certInfo; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ActivateCredential_Finish(esys_context, &certInfo); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_MakeCredential(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ID_OBJECT *credentialBlob; TPM2B_ENCRYPTED_SECRET *secret; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_MakeCredential_Finish(esys_context, &credentialBlob, &secret); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Unseal(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_SENSITIVE_DATA *outData; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Unseal_Finish(esys_context, &outData); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ObjectChangeAuth(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PRIVATE *outPrivate; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ObjectChangeAuth_Finish(esys_context, &outPrivate); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_CreateLoaded(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR objectHandle_handle; TPM2B_PRIVATE *outPrivate; TPM2B_PUBLIC *outPublic; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_CreateLoaded_Finish(esys_context, &objectHandle_handle, &outPrivate, &outPublic); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Duplicate(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DATA *encryptionKeyOut; TPM2B_PRIVATE *duplicate; TPM2B_ENCRYPTED_SECRET *outSymSeed; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Duplicate_Finish(esys_context, &encryptionKeyOut, &duplicate, &outSymSeed); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Rewrap(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PRIVATE *outDuplicate; TPM2B_ENCRYPTED_SECRET *outSymSeed; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Rewrap_Finish(esys_context, &outDuplicate, &outSymSeed); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Import(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PRIVATE *outPrivate; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Import_Finish(esys_context, &outPrivate); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_RSA_Encrypt(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PUBLIC_KEY_RSA *outData; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_RSA_Encrypt_Finish(esys_context, &outData); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_RSA_Decrypt(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_PUBLIC_KEY_RSA *message; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_RSA_Decrypt_Finish(esys_context, &message); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ECDH_KeyGen(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ECC_POINT *zPoint; TPM2B_ECC_POINT *pubPoint; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ECDH_KeyGen_Finish(esys_context, &zPoint, &pubPoint); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ECDH_ZGen(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ECC_POINT *outPoint; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ECDH_ZGen_Finish(esys_context, &outPoint); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ECC_Parameters(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMS_ALGORITHM_DETAIL_ECC *parameters; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ECC_Parameters_Finish(esys_context, ¶meters); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ZGen_2Phase(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ECC_POINT *outZ1; TPM2B_ECC_POINT *outZ2; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ZGen_2Phase_Finish(esys_context, &outZ1, &outZ2); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_EncryptDecrypt(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_MAX_BUFFER *outData; TPM2B_IV *ivOut; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_EncryptDecrypt_Finish(esys_context, &outData, &ivOut); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_EncryptDecrypt2(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_MAX_BUFFER *outData; TPM2B_IV *ivOut; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_EncryptDecrypt2_Finish(esys_context, &outData, &ivOut); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Hash(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *outHash; TPMT_TK_HASHCHECK *validation; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Hash_Finish(esys_context, &outHash, &validation); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_HMAC(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *outHMAC; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_HMAC_Finish(esys_context, &outHMAC); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetRandom(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *randomBytes; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetRandom_Finish(esys_context, &randomBytes); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_StirRandom(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_StirRandom_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_HMAC_Start(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR sequenceHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_HMAC_Start_Finish(esys_context, &sequenceHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_HashSequenceStart(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR sequenceHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_HashSequenceStart_Finish(esys_context, &sequenceHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SequenceUpdate(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SequenceUpdate_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SequenceComplete(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *result; TPMT_TK_HASHCHECK *validation; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SequenceComplete_Finish(esys_context, &result, &validation); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_EventSequenceComplete(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPML_DIGEST_VALUES *results; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_EventSequenceComplete_Finish(esys_context, &results); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Certify(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *certifyInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Certify_Finish(esys_context, &certifyInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_CertifyCreation(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *certifyInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_CertifyCreation_Finish(esys_context, &certifyInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Quote(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *quoted; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Quote_Finish(esys_context, "ed, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetSessionAuditDigest(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *auditInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetSessionAuditDigest_Finish(esys_context, &auditInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetCommandAuditDigest(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *auditInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetCommandAuditDigest_Finish(esys_context, &auditInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetTime(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *timeInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetTime_Finish(esys_context, &timeInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Commit(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ECC_POINT *K; TPM2B_ECC_POINT *L; TPM2B_ECC_POINT *E; UINT16 counter; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Commit_Finish(esys_context, &K, &L, &E, &counter); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_EC_Ephemeral(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ECC_POINT *Q; UINT16 counter; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_EC_Ephemeral_Finish(esys_context, &Q, &counter); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_VerifySignature(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMT_TK_VERIFIED *validation; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_VerifySignature_Finish(esys_context, &validation); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Sign(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Sign_Finish(esys_context, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SetCommandCodeAuditStatus(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SetCommandCodeAuditStatus_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_Extend(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_Extend_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_Event(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPML_DIGEST_VALUES *digests; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_Event_Finish(esys_context, &digests); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_Read(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPML_PCR_SELECTION *pcrSelectionOut; TPML_DIGEST *pcrValues; UINT32 pcrUpdateCounter; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_Read_Finish(esys_context, &pcrUpdateCounter, &pcrSelectionOut, &pcrValues); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_Allocate(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMI_YES_NO allocationSuccess; UINT32 maxPCR; UINT32 sizeNeeded; UINT32 sizeAvailable; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_Allocate_Finish(esys_context, &allocationSuccess, &maxPCR, &sizeNeeded, &sizeAvailable); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_SetAuthPolicy(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_SetAuthPolicy_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_SetAuthValue(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_SetAuthValue_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PCR_Reset(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PCR_Reset_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicySigned(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_TIMEOUT *timeout; TPMT_TK_AUTH *policyTicket; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicySigned_Finish(esys_context, &timeout, &policyTicket); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicySecret(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_TIMEOUT *timeout; TPMT_TK_AUTH *policyTicket; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicySecret_Finish(esys_context, &timeout, &policyTicket); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyTicket(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyTicket_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyOR(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyOR_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyPCR(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyPCR_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyLocality(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyLocality_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyNV(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyNV_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyCounterTimer(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyCounterTimer_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyCommandCode(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyCommandCode_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyPhysicalPresence(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyPhysicalPresence_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyCpHash(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyCpHash_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyNameHash(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyNameHash_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyDuplicationSelect(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyDuplicationSelect_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyAuthorize(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyAuthorize_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyAuthValue(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyAuthValue_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyPassword(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyPassword_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyGetDigest(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DIGEST *policyDigest; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyGetDigest_Finish(esys_context, &policyDigest); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyNvWritten(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyNvWritten_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyTemplate(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyTemplate_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PolicyAuthorizeNV(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PolicyAuthorizeNV_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_CreatePrimary(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR objectHandle_handle; TPM2B_PUBLIC *outPublic; TPM2B_CREATION_DATA *creationData; TPM2B_DIGEST *creationHash; TPMT_TK_CREATION *creationTicket; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_CreatePrimary_Finish(esys_context, &objectHandle_handle, &outPublic, &creationData, &creationHash, &creationTicket); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_HierarchyControl(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_HierarchyControl_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SetPrimaryPolicy(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SetPrimaryPolicy_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ChangePPS(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ChangePPS_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ChangeEPS(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ChangeEPS_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Clear(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Clear_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ClearControl(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ClearControl_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_HierarchyChangeAuth(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_HierarchyChangeAuth_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_DictionaryAttackLockReset(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_DictionaryAttackLockReset_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_DictionaryAttackParameters(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_DictionaryAttackParameters_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_PP_Commands(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_PP_Commands_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_SetAlgorithmSet(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_SetAlgorithmSet_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_FieldUpgradeStart(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_FieldUpgradeStart_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_FieldUpgradeData(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMT_HA *nextDigest; TPMT_HA *firstDigest; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_FieldUpgradeData_Finish(esys_context, &nextDigest, &firstDigest); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_FirmwareRead(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_MAX_BUFFER *fuData; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_FirmwareRead_Finish(esys_context, &fuData); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ContextSave(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMS_CONTEXT *context; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ContextSave_Finish(esys_context, &context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ContextLoad(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR loadedHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ContextLoad_Finish(esys_context, &loadedHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_FlushContext(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_FlushContext_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_EvictControl(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR newObjectHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_EvictControl_Finish(esys_context, &newObjectHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ReadClock(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMS_TIME_INFO *currentTime; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ReadClock_Finish(esys_context, ¤tTime); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ClockSet(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ClockSet_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_ClockRateAdjust(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_ClockRateAdjust_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_GetCapability(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPMS_CAPABILITY_DATA *capabilityData; TPMI_YES_NO moreData; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_GetCapability_Finish(esys_context, &moreData, &capabilityData); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_TestParms(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_TestParms_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_DefineSpace(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; ESYS_TR nvHandle_handle; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_DefineSpace_Finish(esys_context, &nvHandle_handle); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_UndefineSpace(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_UndefineSpace_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_UndefineSpaceSpecial(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_UndefineSpaceSpecial_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_ReadPublic(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_NV_PUBLIC *nvPublic; TPM2B_NAME *nvName; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_ReadPublic_Finish(esys_context, &nvPublic, &nvName); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_Write(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_Write_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_Increment(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_Increment_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_Extend(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_Extend_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_SetBits(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_SetBits_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_WriteLock(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_WriteLock_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_GlobalWriteLock(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_GlobalWriteLock_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_Read(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_MAX_NV_BUFFER *data; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_Read_Finish(esys_context, &data); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_ReadLock(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_ReadLock_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_ChangeAuth(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_ChangeAuth_Finish(esys_context); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_NV_Certify(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_ATTEST *certifyInfo; TPMT_SIGNATURE *signature; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_NV_Certify_Finish(esys_context, &certifyInfo, &signature); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } void check_Vendor_TCG_Test(void **state) { TSS2_RC r; ESYS_CONTEXT *esys_context = (ESYS_CONTEXT *) * state; enum _ESYS_STATE esys_states[3] = { _ESYS_STATE_INIT, _ESYS_STATE_RESUBMISSION, _ESYS_STATE_INTERNALERROR }; TPM2B_DATA *outputData; for (size_t i = 0; i < sizeof(esys_states) / sizeof(esys_states[0]); i++) { esys_context->state = esys_states[i]; r = Esys_Vendor_TCG_Test_Finish(esys_context, &outputData); assert_int_equal(r, TSS2_ESYS_RC_BAD_SEQUENCE); } } int main(void) { const struct CMUnitTest tests[] = { cmocka_unit_test_setup_teardown(check_Startup, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Shutdown, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SelfTest, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_IncrementalSelfTest, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetTestResult, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_StartAuthSession, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyRestart, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Create, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Load, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_LoadExternal, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ReadPublic, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ActivateCredential, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_MakeCredential, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Unseal, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ObjectChangeAuth, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_CreateLoaded, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Duplicate, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Rewrap, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Import, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_RSA_Encrypt, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_RSA_Decrypt, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ECDH_KeyGen, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ECDH_ZGen, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ECC_Parameters, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ZGen_2Phase, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_EncryptDecrypt, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_EncryptDecrypt2, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Hash, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_HMAC, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetRandom, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_StirRandom, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_HMAC_Start, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_HashSequenceStart, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SequenceUpdate, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SequenceComplete, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_EventSequenceComplete, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Certify, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_CertifyCreation, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Quote, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetSessionAuditDigest, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetCommandAuditDigest, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetTime, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Commit, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_EC_Ephemeral, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_VerifySignature, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Sign, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SetCommandCodeAuditStatus, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_Extend, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_Event, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_Read, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_Allocate, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_SetAuthPolicy, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_SetAuthValue, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PCR_Reset, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicySigned, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicySecret, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyTicket, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyOR, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyPCR, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyLocality, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyNV, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyCounterTimer, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyCommandCode, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyPhysicalPresence, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyCpHash, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyNameHash, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyDuplicationSelect, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyAuthorize, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyAuthValue, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyPassword, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyGetDigest, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyNvWritten, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyTemplate, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PolicyAuthorizeNV, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_CreatePrimary, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_HierarchyControl, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SetPrimaryPolicy, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ChangePPS, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ChangeEPS, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Clear, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ClearControl, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_HierarchyChangeAuth, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_DictionaryAttackLockReset, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_DictionaryAttackParameters, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_PP_Commands, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_SetAlgorithmSet, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_FieldUpgradeStart, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_FieldUpgradeData, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_FirmwareRead, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ContextSave, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ContextLoad, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_FlushContext, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_EvictControl, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ReadClock, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ClockSet, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_ClockRateAdjust, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_GetCapability, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_TestParms, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_DefineSpace, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_UndefineSpace, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_UndefineSpaceSpecial, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_ReadPublic, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_Write, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_Increment, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_Extend, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_SetBits, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_WriteLock, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_GlobalWriteLock, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_Read, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_ReadLock, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_ChangeAuth, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_NV_Certify, esys_unit_setup, esys_unit_teardown), cmocka_unit_test_setup_teardown(check_Vendor_TCG_Test, esys_unit_setup, esys_unit_teardown), }; return cmocka_run_group_tests(tests, NULL, NULL); }