Exemplo n.º 1
0
oval_agent_session_t * oval_agent_new_session(struct oval_definition_model *model, const char * name) {
	oval_agent_session_t *ag_sess;
	struct oval_sysinfo *sysinfo;
	struct oval_generator *generator;
	int ret;

	dI("Started new OVAL agent.", name);

        /* Optimalization */
        oval_definition_model_optimize_by_filter_propagation(model);

	ag_sess = oscap_talloc(oval_agent_session_t);
        ag_sess->filename = oscap_strdup(name);
	ag_sess->def_model = model;
	ag_sess->cur_var_model = NULL;
	ag_sess->sys_model = oval_syschar_model_new(model);
#if defined(OVAL_PROBES_ENABLED)
	ag_sess->psess     = oval_probe_session_new(ag_sess->sys_model);
#endif

#if defined(OVAL_PROBES_ENABLED)
	/* probe sysinfo */
	ret = oval_probe_query_sysinfo(ag_sess->psess, &sysinfo);
	if (ret != 0) {
		oval_probe_session_destroy(ag_sess->psess);
		oval_syschar_model_free(ag_sess->sys_model);
		oscap_free(ag_sess);
		return NULL;
	}
#else
	/* TODO */
	sysinfo = oval_sysinfo_new(ag_sess->sys_model);
#endif /* OVAL_PROBES_ENABLED */
	oval_syschar_model_set_sysinfo(ag_sess->sys_model, sysinfo);
	oval_sysinfo_free(sysinfo);

	/* one system only */
	ag_sess->sys_models[0] = ag_sess->sys_model;
	ag_sess->sys_models[1] = NULL;
#if defined(OVAL_PROBES_ENABLED)
	ag_sess->res_model = oval_results_model_new_with_probe_session(
			model, ag_sess->sys_models, ag_sess->psess);
	generator = oval_results_model_get_generator(ag_sess->res_model);
	oval_generator_set_product_version(generator, oscap_get_version());
#endif

	ag_sess->product_name = NULL;

	return ag_sess;
}
Exemplo n.º 2
0
static int app_analyse_oval(const struct oscap_action *action) {
	struct oval_definition_model	*def_model = NULL;
	struct oval_syschar_model	*sys_model = NULL;
	struct oval_results_model	*res_model = NULL;
	struct oval_variable_model	*var_model = NULL;
	struct oval_directives_model	*dir_model = NULL;
 	struct oval_syschar_model	*sys_models[2];
	struct oval_generator		*generator = NULL;
	int ret = OSCAP_ERROR;

	/* Turn on verbosity */
	if (!oscap_set_verbose(action->verbosity_level, action->f_verbose_log, false)) {
		goto cleanup;
	}

	/* validate inputs */
	if (action->validate) {
		if (!valid_inputs(action)) {
			goto cleanup;
		}
	}

	/* load defnitions */
	struct oscap_source *source = oscap_source_new_from_file(action->f_oval);
	def_model = oval_definition_model_import_source(source);
	oscap_source_free(source);
        if (def_model == NULL) {
                fprintf(stderr, "Failed to import the OVAL Definitions from '%s'.\n", action->f_oval);
		goto cleanup;
        }

	/* bind external variables */
	if(action->f_variables) {
		struct oscap_source *var_source = oscap_source_new_from_file(action->f_variables);
		var_model = oval_variable_model_import_source(var_source);
		oscap_source_free(var_source);
		if (var_model == NULL) {
			fprintf(stderr, "Failed to import the OVAL Variables from '%s'.\n", action->f_variables);
			goto cleanup;
		}

		if (oval_definition_model_bind_variable_model(def_model, var_model)) {
			fprintf(stderr, "Failed to bind Variables to Definitions\n");
			goto cleanup;
		}
	}

	/* load system characteristics */
	sys_model = oval_syschar_model_new(def_model);
	source = oscap_source_new_from_file(action->f_syschar);
	if (oval_syschar_model_import_source(sys_model, source) ==  -1 ) {
                fprintf(stderr, "Failed to import the System Characteristics from '%s'.\n", action->f_syschar);
		oscap_source_free(source);
                goto cleanup;
        }
	oscap_source_free(source);

	/* evaluate */
	sys_models[0] = sys_model;
	sys_models[1] = NULL;
	res_model = oval_results_model_new(def_model, sys_models);

	/* set product name */
        generator = oval_results_model_get_generator(res_model);
        oval_generator_set_product_name(generator, OSCAP_PRODUCTNAME);
	oval_generator_set_product_version(generator, oscap_get_version());

	oval_results_model_eval(res_model);

	/* export results */
	if (action->f_results != NULL) {
		/* import directives */
		if (action->f_directives != NULL) {
			dir_model = oval_directives_model_new();
			struct oscap_source *dir_source = oscap_source_new_from_file(action->f_directives);
			oval_directives_model_import_source(dir_model, dir_source);
			oscap_source_free(dir_source);
		}

		/* export result model to XML */
		oval_results_model_export(res_model, dir_model, action->f_results);

		const char* full_validation = getenv("OSCAP_FULL_VALIDATION");

		/* validate OVAL Results */
		if (action->validate && full_validation) {
			struct oscap_source *result_source = oscap_source_new_from_file(action->f_results);
			if (oscap_source_validate(result_source, reporter, (void *) action)) {
				oscap_source_free(result_source);
				goto cleanup;
			}
			fprintf(stdout, "OVAL Results are exported correctly.\n");
			oscap_source_free(result_source);
		}
	}

	ret = OSCAP_OK;

	/* clean up */
cleanup:
	if(oscap_err())
		fprintf(stderr, "%s %s\n", OSCAP_ERR_MSG, oscap_err_desc());

	if(res_model) oval_results_model_free(res_model);
	if(sys_model) oval_syschar_model_free(sys_model);
	if(def_model) oval_definition_model_free(def_model);
	if(dir_model) oval_directives_model_free(dir_model);

	return ret;
}
Exemplo n.º 3
0
int app_collect_oval(const struct oscap_action *action)
{
	struct oval_definition_model	*def_model = NULL;
	struct oval_variable_model	*var_model = NULL;
	struct oval_syschar_model	*sys_model = NULL;
	struct oval_sysinfo		*sysinfo   = NULL;
	struct oval_probe_session	*pb_sess   = NULL;
	struct oval_generator		*generator = NULL;
	int ret = OSCAP_ERROR;

	/* Turn on verbosity */
	if (!oscap_set_verbose(action->verbosity_level, action->f_verbose_log, false)) {
		goto cleanup;
	}

	/* validate inputs */
	if (action->validate) {
		if (!valid_inputs(action)) {
			goto cleanup;
		}
	}

	/* import definitions */
	struct oscap_source *source = oscap_source_new_from_file(action->f_oval);
	def_model = oval_definition_model_import_source(source);
	oscap_source_free(source);
	if (def_model == NULL) {
		fprintf(stderr, "Failed to import the OVAL Definitions from '%s'.\n", action->f_oval);
		goto cleanup;
	}

	/* bind external variables */
	if(action->f_variables) {
		struct oscap_source *var_source = oscap_source_new_from_file(action->f_variables);
		var_model = oval_variable_model_import_source(var_source);
		oscap_source_free(var_source);
		if (var_model == NULL) {
			fprintf(stderr, "Failed to import the OVAL Variables from '%s'.\n", action->f_variables);
			goto cleanup;
		}

		if (oval_definition_model_bind_variable_model(def_model, var_model)) {
			fprintf(stderr, "Failed to bind Variables to Definitions\n");
			goto cleanup;
		}
	}

	/* create empty syschar model */
	sys_model = oval_syschar_model_new(def_model);

	/* set product name */
	generator = oval_syschar_model_get_generator(sys_model);
	oval_generator_set_product_name(generator, OSCAP_PRODUCTNAME);

	/* create probe session */
	pb_sess = oval_probe_session_new(sys_model);

	/* query sysinfo */
	ret = oval_probe_query_sysinfo(pb_sess, &sysinfo);
	if (ret != 0) {
		fprintf(stderr, "Failed to query sysinfo\n");
		goto cleanup;
	}
	oval_syschar_model_set_sysinfo(sys_model, sysinfo);

	/* query objects */
	struct oval_object *object;
	struct oval_syschar *syschar;
	oval_syschar_collection_flag_t sc_flg;
	if (action->id) {
		object = oval_definition_model_get_object(def_model, action->id);
		if (!object) {
			fprintf(stderr, "Object ID(%s) does not exist in '%s'.\n", action->id, action->f_oval);
			goto cleanup;
		}
		printf("Collected: \"%s\" : ", oval_object_get_id(object));
		oval_probe_query_object(pb_sess, object, 0, &syschar);
		sc_flg = oval_syschar_get_flag(syschar);
		printf("%s\n", oval_syschar_collection_flag_get_text(sc_flg));
	}
	else {
	        struct oval_object_iterator *objects = oval_definition_model_get_objects(def_model);
		while (oval_object_iterator_has_more(objects)) {
			object = oval_object_iterator_next(objects);
			printf("Collected: \"%s\" : ", oval_object_get_id(object));
			oval_probe_query_object(pb_sess, object, 0, &syschar);
			sc_flg = oval_syschar_get_flag(syschar);
			printf("%s\n", oval_syschar_collection_flag_get_text(sc_flg));
		}
		oval_object_iterator_free(objects);
	}

	const char* full_validation = getenv("OSCAP_FULL_VALIDATION");

	/* output */
	if (action->f_syschar != NULL) {
		/* export OVAL System Characteristics */
		oval_syschar_model_export(sys_model, action->f_syschar);

		/* validate OVAL System Characteristics */
		if (action->validate && full_validation) {
			struct oscap_source *syschar_source = oscap_source_new_from_file(action->f_syschar);
			if (oscap_source_validate(syschar_source, reporter, (void *)action)) {
				oscap_source_free(syschar_source);
				goto cleanup;
			}
			fprintf(stdout, "OVAL System Characteristics are exported correctly.\n");
			oscap_source_free(syschar_source);
		}
	}

	ret = OSCAP_OK;

cleanup:
	if(oscap_err())
		fprintf(stderr, "%s %s\n", OSCAP_ERR_MSG, oscap_err_desc());

	if (sysinfo) oval_sysinfo_free(sysinfo);
	if (pb_sess) oval_probe_session_destroy(pb_sess);
	if (sys_model) oval_syschar_model_free(sys_model);
	if (def_model) oval_definition_model_free(def_model);

	return ret;
}
Exemplo n.º 4
0
int main (void)
{
  struct oval_sysinfo *info;

  /*
   *  Create empty models
   */
  struct oval_definition_model *def_model = oval_definition_model_new();
	oscap_assert(def_model != NULL);

  struct oval_syschar_model *sys_model = oval_syschar_model_new(def_model);
	oscap_assert(sys_model != NULL);

  /*
   *  Create probe session
   */
  oval_probe_session_t *sess = oval_probe_session_new(sys_model);
	oscap_assert(sess != NULL);

  /*
   *  Call the sysinfo probe.
   */
	oscap_assert(oval_probe_query_sysinfo(sess, &info) == 0);
	oscap_assert(info != NULL);

  if (info != NULL) {
    char *a, *b, *c, *d;

    printf ("          os_name: %s\n"
	    "       os_version: %s\n"
	    "  os_architecture: %s\n"
	    "primary_host_name: %s\n",

	    a = oval_sysinfo_get_os_name (info),
	    b = oval_sysinfo_get_os_version (info),
	    c = oval_sysinfo_get_os_architecture (info),
	    d = oval_sysinfo_get_primary_host_name (info));

		oscap_assert(a != NULL);
		oscap_assert(b != NULL);
		oscap_assert(c != NULL);
		oscap_assert(d != NULL);

    struct oval_sysint_iterator *ifit = oval_sysinfo_get_interfaces (info);

    if (ifit != NULL) {
      printf ("Interfaces:\n");

      while (oval_sysint_iterator_has_more (ifit)) {
	struct oval_sysint *ife = oval_sysint_iterator_next (ifit);
				oscap_assert(ife != NULL);

	printf ("%s %s %s\n",
		oval_sysint_get_name (ife),
		oval_sysint_get_ip_address (ife),
		oval_sysint_get_mac_address (ife));

	/* oval_sysint_free (ife); */
      }

      oval_sysint_iterator_free (ifit);
    }

    oval_sysinfo_free (info);
    oval_probe_session_destroy(sess);

    return (0);
  }

  /*
   *  Free the probe context. This also terminates
   *  all running probes executed under this context.
   */
  oval_probe_session_destroy(sess);

  return (1);
}
Exemplo n.º 5
0
static int app_info(const struct oscap_action *action)
{
        int result = OSCAP_ERROR;

	struct oscap_source *source = oscap_source_new_from_file(action->file);

	switch (oscap_source_get_scap_type(source)) {
	case OSCAP_DOCUMENT_OVAL_DEFINITIONS: {
		printf("Document type: OVAL Definitions\n");
		struct oval_definition_model *def_model = oval_definition_model_import_source(source);
		if(!def_model)
			goto cleanup;
		struct oval_generator *gen = oval_definition_model_get_generator(def_model);
		printf("OVAL version: %s\n", oval_generator_get_core_schema_version(gen));
		printf("Generated: %s\n", oval_generator_get_timestamp(gen));
		print_time(action->file);
		oval_definition_model_free(def_model);
	}
	break;
	case OSCAP_DOCUMENT_OVAL_VARIABLES: {
		printf("Document type: OVAL Variables\n");
		struct oval_variable_model *var_model = oval_variable_model_import_source(source);
		if(!var_model)
			goto cleanup;
		struct oval_generator *gen = oval_variable_model_get_generator(var_model);
		printf("OVAL version: %s\n", oval_generator_get_core_schema_version(gen));
		printf("Generated: %s\n", oval_generator_get_timestamp(gen));
		print_time(action->file);
		oval_variable_model_free(var_model);
	}
	break;
	case OSCAP_DOCUMENT_OVAL_DIRECTIVES: {
		printf("Document type: OVAL Directives\n");
		struct oval_directives_model *dir_model = oval_directives_model_new();
		int ret = oval_directives_model_import_source(dir_model, source);
		if(ret)
			goto cleanup;
		struct oval_generator *gen = oval_directives_model_get_generator(dir_model);
		printf("OVAL version: %s\n", oval_generator_get_core_schema_version(gen));
		printf("Generated: %s\n", oval_generator_get_timestamp(gen));
		print_time(action->file);
		oval_directives_model_free(dir_model);
	}
	break;
	case OSCAP_DOCUMENT_OVAL_SYSCHAR: {
		printf("Document type: OVAL System Characteristics\n");
		struct oval_definition_model * def_model = oval_definition_model_new();
		struct oval_syschar_model * sys_model = oval_syschar_model_new(def_model);
		int ret = oval_syschar_model_import_source(sys_model, source);
		if(ret)
			goto cleanup;
		struct oval_generator *gen = oval_syschar_model_get_generator(sys_model);
		printf("OVAL version: %s\n", oval_generator_get_core_schema_version(gen));
		printf("Generated: %s\n", oval_generator_get_timestamp(gen));
		print_time(action->file);
		oval_syschar_model_free(sys_model);
		oval_definition_model_free(def_model);
	}
	break;
	case OSCAP_DOCUMENT_OVAL_RESULTS: {
		printf("Document type: OVAL Results\n");
		struct oval_definition_model * def_model=oval_definition_model_new();
		struct oval_results_model * res_model = oval_results_model_new(def_model,NULL);
		int ret = oval_results_model_import_source(res_model, source);
		if(ret)
			goto cleanup;
		struct oval_generator *gen = oval_results_model_get_generator(res_model);
		printf("OVAL version: %s\n", oval_generator_get_core_schema_version(gen));
		printf("Generated: %s\n", oval_generator_get_timestamp(gen));
		print_time(action->file);
		oval_results_model_free(res_model);
		oval_definition_model_free(def_model);
	}
	break;
	case OSCAP_DOCUMENT_XCCDF: {
		printf("Document type: XCCDF Checklist\n");
		struct xccdf_benchmark* bench = xccdf_benchmark_import_source(source);
		if(!bench)
			goto cleanup;
		printf("Checklist version: %s\n", oscap_source_get_schema_version(source));
		print_time(action->file);

		_print_xccdf_benchmark(bench, "");
	}
	break;
	case OSCAP_DOCUMENT_CPE_LANGUAGE: {
		printf("Document type: CPE Language\n");
		print_time(action->file);
	}
	break;
	case OSCAP_DOCUMENT_CPE_DICTIONARY: {
		printf("Document type: CPE Dictionary\n");
		struct cpe_dict_model *dict_model = cpe_dict_model_import_source(source);
		if (!dict_model)
			goto cleanup;
		struct cpe_generator *gen = cpe_dict_model_get_generator(dict_model);
		if (gen != NULL) {
			printf("CPE version: %s\n", cpe_generator_get_schema_version(gen));
			printf("Generated: %s\n", cpe_generator_get_timestamp(gen));
		}
		print_time(action->file);
		cpe_dict_model_free(dict_model);
	}
	break;
	case OSCAP_DOCUMENT_SDS: {
		printf("Document type: Source Data Stream\n");
		print_time(action->file);
		struct ds_sds_session *session = ds_sds_session_new_from_source(source);
		if (session == NULL) {
			goto cleanup;
		}
		/* get collection */
		struct ds_sds_index *sds = ds_sds_session_get_sds_idx(session);
		if (!sds) {
			ds_sds_session_free(session);
			goto cleanup;
		}
		/* iterate over streams */
		struct ds_stream_index_iterator* sds_it = ds_sds_index_get_streams(sds);
		while (ds_stream_index_iterator_has_more(sds_it)) {
			struct ds_stream_index * stream = ds_stream_index_iterator_next(sds_it);

			printf("\nStream: %s\n", ds_stream_index_get_id(stream));
			printf("Generated: %s\n", ds_stream_index_get_timestamp(stream));
			printf("Version: %s\n", ds_stream_index_get_version(stream));

			printf("Checklists:\n");
			struct oscap_string_iterator* checklist_it = ds_stream_index_get_checklists(stream);
			while (oscap_string_iterator_has_more(checklist_it)) {
				const char * id = oscap_string_iterator_next(checklist_it);
				printf("\tRef-Id: %s\n", id);

				/* decompose */
				struct oscap_source *xccdf_source = ds_sds_session_select_checklist(session, ds_stream_index_get_id(stream), id, NULL);
				if (xccdf_source == NULL) {
					oscap_string_iterator_free(checklist_it);
					ds_stream_index_iterator_free(sds_it);
					ds_sds_session_free(session);
					goto cleanup;
				}

				const char *prefix = "\t\t";
				if (oscap_source_get_scap_type(xccdf_source) == OSCAP_DOCUMENT_XCCDF) {
					struct xccdf_benchmark* bench = xccdf_benchmark_import_source(xccdf_source);
					if(!bench) {
						oscap_string_iterator_free(checklist_it);
						ds_stream_index_iterator_free(sds_it);
						ds_sds_session_free(session);
						goto cleanup;
					}
					_print_xccdf_benchmark(bench, prefix);
				} else if (oscap_source_get_scap_type(xccdf_source) == OSCAP_DOCUMENT_XCCDF_TAILORING) {
					_print_xccdf_tailoring(xccdf_source, prefix);
				}
				ds_sds_session_reset(session);
			}
			oscap_string_iterator_free(checklist_it);

			printf("Checks:\n");
			struct oscap_string_iterator* checks_it = ds_stream_index_get_checks(stream);
			while (oscap_string_iterator_has_more(checks_it)) {
				const char * id = oscap_string_iterator_next(checks_it);
				printf("\tRef-Id: %s\n", id);
			}
			oscap_string_iterator_free(checks_it);

			struct oscap_string_iterator* dict_it = ds_stream_index_get_dictionaries(stream);
			if (oscap_string_iterator_has_more(dict_it))
				printf("Dictionaries:\n");
			else
				printf("No dictionaries.\n");
			while (oscap_string_iterator_has_more(dict_it)) {
				const char * id = oscap_string_iterator_next(dict_it);
				printf("\tRef-Id: %s\n", id);
			}
			oscap_string_iterator_free(dict_it);
		}
		ds_stream_index_iterator_free(sds_it);
		ds_sds_session_free(session);
	}
	break;
	case OSCAP_DOCUMENT_ARF: {
		printf("Document type: Result Data Stream\n");
		struct ds_rds_session *session = ds_rds_session_new_from_source(source);
		if (session == NULL) {
			goto cleanup;
		}
		struct rds_index *rds = ds_rds_session_get_rds_idx(session);
		if (!rds) {
			ds_rds_session_free(session);
			goto cleanup;
		}

		struct rds_asset_index_iterator* asset_it = rds_index_get_assets(rds);
		while (rds_asset_index_iterator_has_more(asset_it)) {
			struct rds_asset_index* asset = rds_asset_index_iterator_next(asset_it);
			printf("\nAsset: %s\n", rds_asset_index_get_id(asset));

			struct rds_report_index_iterator* report_it = rds_asset_index_get_reports(asset);
			while (rds_report_index_iterator_has_more(report_it)) {
				struct rds_report_index* report = rds_report_index_iterator_next(report_it);
				struct rds_report_request_index* request = rds_report_index_get_request(report);

				printf(" - %s -> %s\n",
					rds_report_request_index_get_id(request),
					rds_report_index_get_id(report));
			}
			rds_report_index_iterator_free(report_it);
		}
		rds_asset_index_iterator_free(asset_it);
		ds_rds_session_free(session);
	}
	break;
	case OSCAP_DOCUMENT_XCCDF_TAILORING:
		printf("Document type: XCCDF Tailoring\n");
		print_time(action->file);
		_print_xccdf_tailoring(source, "");
	break;
	case OSCAP_DOCUMENT_CVE_FEED:
		printf("Document type: CVE Feed\n");
		// TODO: Provide more info about CVE feeds
	break;
	case OSCAP_DOCUMENT_SCE_RESULT:
		printf("Document type: SCE Result File\n");
		// Currently, we do not have any SCE result file parsing capabilities.
	break;
	default:
		printf("Could not determine document type\n");
		goto cleanup;
		break;
	}

	result=OSCAP_OK;

cleanup:
	oscap_source_free(source);
	oscap_print_error();

	return result;
}