/* * This function sets up all required test data with a Tpm2Response * object that has attributes indicating the response has a handle * in it. */ static void tpm2_response_setup_with_handle (void **state) { test_data_t *data; TPMA_CC attributes = { .val = 1 << 28, }; tpm2_response_setup_base (state); data = (test_data_t*)*state; data->response = tpm2_response_new (data->connection, data->buffer, attributes); set_response_size (data->buffer, TPM_HEADER_SIZE + sizeof (TPM_HANDLE)); data->buffer [TPM_RESPONSE_HEADER_SIZE] = 0xde; data->buffer [TPM_RESPONSE_HEADER_SIZE + 1] = 0xad; data->buffer [TPM_RESPONSE_HEADER_SIZE + 2] = 0xbe; data->buffer [TPM_RESPONSE_HEADER_SIZE + 3] = 0xef; } /** * Tear down all of the data from the setup function. We don't have to * free the data buffer (data->buffer) since the Tpm2Response frees it as * part of its finalize function. */ static void tpm2_response_teardown (void **state) { test_data_t *data = (test_data_t*)*state; g_object_unref (data->connection); g_object_unref (data->response); free (data); }
//----------------------------------------------------------------------------- void dcl_message< msgEnqueueReadBuffer >::parse_request( const void* payload_ptr ) { const void* enqueue_ptr = enqueue_message::parse_enqueue_request( payload_ptr ); const msgEnqueueReadBuffer_request* request_ptr = reinterpret_cast< const msgEnqueueReadBuffer_request* >( enqueue_ptr ); remote_id_ = network_to_host( request_ptr->id_ ); size_ = network_to_host( request_ptr->size_ ); offset_ = network_to_host( request_ptr->offset_ ); // std::cerr << "read remote message id: " << remote_id_ << std::endl; set_response_size( size_ + sizeof(msgEnqueueReadBuffer_response) - 1 ); }