tests/modules/t_modctl.c

1.9    jruoho /*	$NetBSD: t_modctl.c,v 1.9 2012/04/17 06:23:52 jruoho Exp $	*/
1.1      jmmv /*
1.1      jmmv  * Copyright (c) 2008 The NetBSD Foundation, Inc.
1.1      jmmv  * All rights reserved.
1.1      jmmv  *
1.1      jmmv  * Redistribution and use in source and binary forms, with or without
1.1      jmmv  * modification, are permitted provided that the following conditions
1.1      jmmv  * are met:
1.1      jmmv  * 1. Redistributions of source code must retain the above copyright
1.1      jmmv  *    notice, this list of conditions and the following disclaimer.
1.1      jmmv  * 2. Redistributions in binary form must reproduce the above copyright
1.1      jmmv  *    notice, this list of conditions and the following disclaimer in the
1.1      jmmv  *    documentation and/or other materials provided with the distribution.
1.1      jmmv  *
1.1      jmmv  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND
1.1      jmmv  * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
1.1      jmmv  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
1.1      jmmv  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1      jmmv  * IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS BE LIABLE FOR ANY
1.1      jmmv  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1      jmmv  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
1.1      jmmv  * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1      jmmv  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
1.1      jmmv  * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
1.1      jmmv  * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
1.1      jmmv  * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1      jmmv  */
1.1      jmmv
1.1      jmmv #include <sys/cdefs.h>
1.9    jruoho __KERNEL_RCSID(0, "$NetBSD: t_modctl.c,v 1.9 2012/04/17 06:23:52 jruoho Exp $");
1.1      jmmv
1.1      jmmv #include <sys/module.h>
1.1      jmmv #include <sys/sysctl.h>
1.1      jmmv
1.1      jmmv #include <assert.h>
1.1      jmmv #include <errno.h>
1.1      jmmv #include <stdarg.h>
1.1      jmmv #include <stdbool.h>
1.1      jmmv #include <stdio.h>
1.1      jmmv #include <stdlib.h>
1.1      jmmv #include <string.h>
1.1      jmmv
1.1      jmmv #include <prop/proplib.h>
1.1      jmmv
1.1      jmmv #include <atf-c.h>
1.1      jmmv
1.7    jruoho enum presence_check { both_checks, stat_check, sysctl_check };
1.1      jmmv
1.7    jruoho static bool	skip_nonmodular(void);
1.7    jruoho static bool	get_modstat_info(const char *, modstat_t *);
1.7    jruoho static bool	get_sysctl(const char *, void *buf, const size_t);
1.7    jruoho static bool	k_helper_is_present_stat(void);
1.7    jruoho static bool	k_helper_is_present_sysctl(void);
1.7    jruoho static bool	k_helper_is_present(enum presence_check);
1.7    jruoho static int	load(prop_dictionary_t, bool, const char *, ...);
1.7    jruoho static int	unload(const char *, bool);
1.7    jruoho static void	unload_cleanup(const char *);
1.1      jmmv
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv /* Auxiliary functions                                                   */
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv
1.1      jmmv /*
1.7    jruoho  * A function that is called if the kernel is detected to be non-MODULAR.
1.1      jmmv  */
1.7    jruoho static bool
1.7    jruoho skip_nonmodular(void)
1.1      jmmv {
1.7    jruoho 	atf_tc_skip("Kernel does not have 'options MODULAR'.");
1.1      jmmv }
1.1      jmmv
1.7    jruoho static bool
1.1      jmmv get_modstat_info(const char *name, modstat_t *msdest)
1.1      jmmv {
1.1      jmmv 	bool found;
1.1      jmmv 	size_t len;
1.1      jmmv 	struct iovec iov;
1.1      jmmv 	modstat_t *ms;
1.1      jmmv
1.1      jmmv 	for (len = 4096; ;) {
1.1      jmmv 		iov.iov_base = malloc(len);
1.1      jmmv 		iov.iov_len = len;
1.7    jruoho
1.7    jruoho 		errno = 0;
1.7    jruoho
1.1      jmmv 		if (modctl(MODCTL_STAT, &iov) != 0) {
1.7    jruoho
1.7    jruoho 			if (errno == ENOSYS)
1.7    jruoho 				skip_nonmodular();
1.7    jruoho
1.1      jmmv 			int err = errno;
1.1      jmmv 			fprintf(stderr, "modctl(MODCTL_STAT) failed: %s\n",
1.1      jmmv 			    strerror(err));
1.1      jmmv 			atf_tc_fail("Failed to query module status");
1.1      jmmv 		}
1.1      jmmv 		if (len >= iov.iov_len)
1.1      jmmv 			break;
1.1      jmmv 		free(iov.iov_base);
1.1      jmmv 		len = iov.iov_len;
1.1      jmmv 	}
1.1      jmmv
1.1      jmmv 	found = false;
1.1      jmmv 	len = iov.iov_len / sizeof(modstat_t);
1.1      jmmv 	for (ms = (modstat_t *)iov.iov_base; len != 0 && !found;
1.1      jmmv 	    ms++, len--) {
1.1      jmmv 		if (strcmp(ms->ms_name, name) == 0) {
1.1      jmmv 			if (msdest != NULL)
1.1      jmmv 				*msdest = *ms;
1.1      jmmv 			found = true;
1.1      jmmv 		}
1.1      jmmv 	}
1.1      jmmv
1.1      jmmv 	free(iov.iov_base);
1.1      jmmv
1.1      jmmv 	return found;
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Queries a sysctl property.
1.1      jmmv  */
1.7    jruoho static bool
1.1      jmmv get_sysctl(const char *name, void *buf, const size_t len)
1.1      jmmv {
1.1      jmmv 	size_t len2 = len;
1.1      jmmv 	printf("Querying sysctl variable: %s\n", name);
1.1      jmmv 	int ret = sysctlbyname(name, buf, &len2, NULL, 0);
1.1      jmmv 	if (ret == -1 && errno != ENOENT) {
1.1      jmmv 		fprintf(stderr, "sysctlbyname(2) failed: %s\n",
1.1      jmmv 		    strerror(errno));
1.1      jmmv 		atf_tc_fail("Failed to query %s", name);
1.1      jmmv 	}
1.1      jmmv 	return ret != -1;
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Returns a boolean indicating if the k_helper module was loaded
1.1      jmmv  * successfully.  This implementation uses modctl(2)'s MODCTL_STAT
1.1      jmmv  * subcommand to do the check.
1.1      jmmv  */
1.7    jruoho static bool
1.1      jmmv k_helper_is_present_stat(void)
1.1      jmmv {
1.1      jmmv
1.1      jmmv 	return get_modstat_info("k_helper", NULL);
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Returns a boolean indicating if the k_helper module was loaded
1.1      jmmv  * successfully.  This implementation uses the module's sysctl
1.1      jmmv  * installed node to do the check.
1.1      jmmv  */
1.7    jruoho static bool
1.1      jmmv k_helper_is_present_sysctl(void)
1.1      jmmv {
1.1      jmmv 	size_t present;
1.1      jmmv
1.1      jmmv 	return get_sysctl("vendor.k_helper.present", &present,
1.1      jmmv 	    sizeof(present));
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Returns a boolean indicating if the k_helper module was loaded
1.1      jmmv  * successfully.  The 'how' parameter specifies the implementation to
1.1      jmmv  * use to do the check.
1.1      jmmv  */
1.7    jruoho static bool
1.1      jmmv k_helper_is_present(enum presence_check how)
1.1      jmmv {
1.1      jmmv 	bool found;
1.1      jmmv
1.1      jmmv 	switch (how) {
1.1      jmmv 	case both_checks:
1.1      jmmv 		found = k_helper_is_present_stat();
1.1      jmmv 		ATF_CHECK(k_helper_is_present_sysctl() == found);
1.1      jmmv 		break;
1.1      jmmv
1.1      jmmv 	case stat_check:
1.1      jmmv 		found = k_helper_is_present_stat();
1.1      jmmv 		break;
1.1      jmmv
1.1      jmmv 	case sysctl_check:
1.1      jmmv 		found = k_helper_is_present_sysctl();
1.1      jmmv 		break;
1.1      jmmv
1.1      jmmv 	default:
1.5  christos 		found = false;
1.5  christos 		assert(found);
1.1      jmmv 	}
1.1      jmmv
1.1      jmmv 	return found;
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Loads the specified module from a file.  If fatal is set and an error
1.1      jmmv  * occurs when loading the module, an error message is printed and the
1.1      jmmv  * test case is aborted.
1.1      jmmv  */
1.8     joerg static __printflike(3, 4) int
1.1      jmmv load(prop_dictionary_t props, bool fatal, const char *fmt, ...)
1.1      jmmv {
1.1      jmmv 	int err;
1.1      jmmv 	va_list ap;
1.1      jmmv 	char filename[MAXPATHLEN], *propsstr;
1.1      jmmv 	modctl_load_t ml;
1.1      jmmv
1.1      jmmv 	if (props == NULL) {
1.1      jmmv 		props = prop_dictionary_create();
1.1      jmmv 		propsstr = prop_dictionary_externalize(props);
1.1      jmmv 		ATF_CHECK(propsstr != NULL);
1.1      jmmv 		prop_object_release(props);
1.1      jmmv 	} else {
1.1      jmmv 		propsstr = prop_dictionary_externalize(props);
1.1      jmmv 		ATF_CHECK(propsstr != NULL);
1.1      jmmv 	}
1.1      jmmv
1.1      jmmv 	va_start(ap, fmt);
1.1      jmmv 	vsnprintf(filename, sizeof(filename), fmt, ap);
1.1      jmmv 	va_end(ap);
1.1      jmmv
1.1      jmmv 	ml.ml_filename = filename;
1.1      jmmv 	ml.ml_flags = 0;
1.1      jmmv 	ml.ml_props = propsstr;
1.1      jmmv 	ml.ml_propslen = strlen(propsstr);
1.1      jmmv
1.1      jmmv 	printf("Loading module %s\n", filename);
1.7    jruoho 	errno = err = 0;
1.7    jruoho
1.1      jmmv 	if (modctl(MODCTL_LOAD, &ml) == -1) {
1.7    jruoho
1.7    jruoho 		if (errno == ENOSYS)
1.7    jruoho 			skip_nonmodular();
1.7    jruoho
1.1      jmmv 		err = errno;
1.1      jmmv 		fprintf(stderr, "modctl(MODCTL_LOAD, %s), failed: %s\n",
1.1      jmmv 		    filename, strerror(err));
1.1      jmmv 		if (fatal)
1.1      jmmv 			atf_tc_fail("Module load failed");
1.1      jmmv 	}
1.1      jmmv
1.1      jmmv 	free(propsstr);
1.1      jmmv
1.1      jmmv 	return err;
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * Unloads the specified module.  If silent is true, nothing will be
1.1      jmmv  * printed and no errors will be raised if the unload was unsuccessful.
1.1      jmmv  */
1.7    jruoho static int
1.1      jmmv unload(const char *name, bool fatal)
1.1      jmmv {
1.1      jmmv 	int err;
1.1      jmmv
1.1      jmmv 	printf("Unloading module %s\n", name);
1.7    jruoho 	errno = err = 0;
1.7    jruoho
1.1      jmmv 	if (modctl(MODCTL_UNLOAD, __UNCONST(name)) == -1) {
1.7    jruoho
1.7    jruoho 		if (errno == ENOSYS)
1.7    jruoho 			skip_nonmodular();
1.7    jruoho
1.1      jmmv 		err = errno;
1.1      jmmv 		fprintf(stderr, "modctl(MODCTL_UNLOAD, %s) failed: %s\n",
1.1      jmmv 		    name, strerror(err));
1.1      jmmv 		if (fatal)
1.1      jmmv 			atf_tc_fail("Module unload failed");
1.1      jmmv 	}
1.1      jmmv 	return err;
1.1      jmmv }
1.1      jmmv
1.1      jmmv /*
1.1      jmmv  * A silent version of unload, to be called as part of the cleanup
1.1      jmmv  * process only.
1.1      jmmv  */
1.7    jruoho static void
1.1      jmmv unload_cleanup(const char *name)
1.1      jmmv {
1.1      jmmv
1.1      jmmv 	(void)modctl(MODCTL_UNLOAD, __UNCONST(name));
1.1      jmmv }
1.1      jmmv
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv /* Test cases                                                            */
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv
1.1      jmmv ATF_TC_WITH_CLEANUP(cmd_load);
1.1      jmmv ATF_TC_HEAD(cmd_load, tc)
1.1      jmmv {
1.1      jmmv 	atf_tc_set_md_var(tc, "descr", "Tests for the MODCTL_LOAD command");
1.1      jmmv 	atf_tc_set_md_var(tc, "require.user", "root");
1.1      jmmv }
1.1      jmmv ATF_TC_BODY(cmd_load, tc)
1.1      jmmv {
1.1      jmmv 	char longname[MAXPATHLEN];
1.1      jmmv 	size_t i;
1.1      jmmv
1.9    jruoho 	ATF_CHECK(load(NULL, false, " ") == ENOENT);
1.1      jmmv 	ATF_CHECK(load(NULL, false, "non-existent.o") == ENOENT);
1.1      jmmv
1.1      jmmv 	for (i = 0; i < MAXPATHLEN - 1; i++)
1.1      jmmv 		longname[i] = 'a';
1.1      jmmv 	longname[MAXPATHLEN - 1] = '\0';
1.8     joerg 	ATF_CHECK(load(NULL, false, "%s", longname) == ENAMETOOLONG);
1.1      jmmv
1.1      jmmv 	ATF_CHECK(!k_helper_is_present(stat_check));
1.3      jmmv 	load(NULL, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv 	printf("Checking if load was successful\n");
1.1      jmmv 	ATF_CHECK(k_helper_is_present(stat_check));
1.1      jmmv }
1.1      jmmv ATF_TC_CLEANUP(cmd_load, tc)
1.1      jmmv {
1.1      jmmv 	unload_cleanup("k_helper");
1.1      jmmv }
1.1      jmmv
1.1      jmmv ATF_TC_WITH_CLEANUP(cmd_load_props);
1.1      jmmv ATF_TC_HEAD(cmd_load_props, tc)
1.1      jmmv {
1.1      jmmv 	atf_tc_set_md_var(tc, "descr", "Tests for the MODCTL_LOAD command, "
1.1      jmmv 	    "providing extra load-time properties");
1.1      jmmv 	atf_tc_set_md_var(tc, "require.user", "root");
1.1      jmmv }
1.1      jmmv ATF_TC_BODY(cmd_load_props, tc)
1.1      jmmv {
1.1      jmmv 	prop_dictionary_t props;
1.1      jmmv
1.1      jmmv 	printf("Loading module without properties\n");
1.1      jmmv 	props = prop_dictionary_create();
1.3      jmmv 	load(props, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv 	prop_object_release(props);
1.1      jmmv 	{
1.1      jmmv 		int ok;
1.1      jmmv 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_str_ok",
1.1      jmmv 		    &ok, sizeof(ok)));
1.1      jmmv 		ATF_CHECK(!ok);
1.1      jmmv 	}
1.1      jmmv 	unload("k_helper", true);
1.1      jmmv
1.1      jmmv 	printf("Loading module with a string property\n");
1.1      jmmv 	props = prop_dictionary_create();
1.1      jmmv 	prop_dictionary_set(props, "prop_str",
1.1      jmmv 	    prop_string_create_cstring("1st string"));
1.3      jmmv 	load(props, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv 	prop_object_release(props);
1.1      jmmv 	{
1.1      jmmv 		int ok;
1.1      jmmv 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_str_ok",
1.1      jmmv 		    &ok, sizeof(ok)));
1.1      jmmv 		ATF_CHECK(ok);
1.1      jmmv
1.1      jmmv 		char val[128];
1.1      jmmv 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_str_val",
1.1      jmmv 		    &val, sizeof(val)));
1.1      jmmv 		ATF_CHECK(strcmp(val, "1st string") == 0);
1.1      jmmv 	}
1.1      jmmv 	unload("k_helper", true);
1.1      jmmv
1.1      jmmv 	printf("Loading module with a different string property\n");
1.1      jmmv 	props = prop_dictionary_create();
1.1      jmmv 	prop_dictionary_set(props, "prop_str",
1.1      jmmv 	    prop_string_create_cstring("2nd string"));
1.3      jmmv 	load(props, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv 	prop_object_release(props);
1.1      jmmv 	{
1.1      jmmv 		int ok;
1.1      jmmv 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_str_ok",
1.1      jmmv 		    &ok, sizeof(ok)));
1.1      jmmv 		ATF_CHECK(ok);
1.1      jmmv
1.1      jmmv 		char val[128];
1.1      jmmv 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_str_val",
1.1      jmmv 		    &val, sizeof(val)));
1.1      jmmv 		ATF_CHECK(strcmp(val, "2nd string") == 0);
1.1      jmmv 	}
1.1      jmmv 	unload("k_helper", true);
1.1      jmmv }
1.1      jmmv ATF_TC_CLEANUP(cmd_load_props, tc)
1.1      jmmv {
1.1      jmmv 	unload_cleanup("k_helper");
1.1      jmmv }
1.1      jmmv
1.4  pgoyette ATF_TC_WITH_CLEANUP(cmd_load_recurse);
1.4  pgoyette ATF_TC_HEAD(cmd_load_recurse, tc)
1.4  pgoyette {
1.4  pgoyette 	atf_tc_set_md_var(tc, "descr", "Tests for the MODCTL_LOAD command, "
1.4  pgoyette 	    "with recursive module_load()");
1.4  pgoyette 	atf_tc_set_md_var(tc, "require.user", "root");
1.4  pgoyette }
1.4  pgoyette ATF_TC_BODY(cmd_load_recurse, tc)
1.4  pgoyette {
1.4  pgoyette 	prop_dictionary_t props;
1.4  pgoyette 	char filename[MAXPATHLEN];
1.4  pgoyette
1.4  pgoyette 	printf("Loading module with request to load another module\n");
1.4  pgoyette 	props = prop_dictionary_create();
1.4  pgoyette 	snprintf(filename, sizeof(filename), "%s/k_helper2/k_helper2.kmod",
1.4  pgoyette 	    atf_tc_get_config_var(tc, "srcdir"));
1.4  pgoyette 	prop_dictionary_set(props, "prop_recurse",
1.4  pgoyette 	    prop_string_create_cstring(filename));
1.4  pgoyette 	load(props, true, "%s/k_helper/k_helper.kmod",
1.4  pgoyette 	    atf_tc_get_config_var(tc, "srcdir"));
1.4  pgoyette 	{
1.4  pgoyette 		int ok;
1.4  pgoyette 		ATF_CHECK(get_sysctl("vendor.k_helper.prop_int_load",
1.4  pgoyette 		    &ok, sizeof(ok)));
1.4  pgoyette 		ATF_CHECK(ok == 0);
1.4  pgoyette 		ATF_CHECK(get_sysctl("vendor.k_helper2.present",
1.4  pgoyette 		    &ok, sizeof(ok)));
1.4  pgoyette 		ATF_CHECK(ok);
1.4  pgoyette 	}
1.4  pgoyette 	unload("k_helper", true);
1.4  pgoyette 	unload("k_helper2", true);
1.4  pgoyette }
1.4  pgoyette ATF_TC_CLEANUP(cmd_load_recurse, tc)
1.4  pgoyette {
1.4  pgoyette 	unload_cleanup("k_helper");
1.4  pgoyette 	unload_cleanup("k_helper2");
1.4  pgoyette }
1.4  pgoyette
1.1      jmmv ATF_TC_WITH_CLEANUP(cmd_stat);
1.1      jmmv ATF_TC_HEAD(cmd_stat, tc)
1.1      jmmv {
1.1      jmmv 	atf_tc_set_md_var(tc, "descr", "Tests for the MODCTL_STAT command");
1.1      jmmv 	atf_tc_set_md_var(tc, "require.user", "root");
1.1      jmmv }
1.1      jmmv ATF_TC_BODY(cmd_stat, tc)
1.1      jmmv {
1.1      jmmv 	ATF_CHECK(!k_helper_is_present(both_checks));
1.1      jmmv
1.3      jmmv 	load(NULL, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv 	ATF_CHECK(k_helper_is_present(both_checks));
1.1      jmmv 	{
1.1      jmmv 		modstat_t ms;
1.1      jmmv 		ATF_CHECK(get_modstat_info("k_helper", &ms));
1.1      jmmv
1.1      jmmv 		ATF_CHECK(ms.ms_class == MODULE_CLASS_MISC);
1.1      jmmv 		ATF_CHECK(ms.ms_source == MODULE_SOURCE_FILESYS);
1.1      jmmv 		ATF_CHECK(ms.ms_refcnt == 0);
1.1      jmmv 	}
1.1      jmmv 	unload("k_helper", true);
1.1      jmmv
1.1      jmmv 	ATF_CHECK(!k_helper_is_present(both_checks));
1.1      jmmv }
1.1      jmmv ATF_TC_CLEANUP(cmd_stat, tc)
1.1      jmmv {
1.1      jmmv 	unload_cleanup("k_helper");
1.1      jmmv }
1.1      jmmv
1.1      jmmv ATF_TC_WITH_CLEANUP(cmd_unload);
1.1      jmmv ATF_TC_HEAD(cmd_unload, tc)
1.1      jmmv {
1.1      jmmv 	atf_tc_set_md_var(tc, "descr", "Tests for the MODCTL_UNLOAD command");
1.1      jmmv 	atf_tc_set_md_var(tc, "require.user", "root");
1.1      jmmv }
1.1      jmmv ATF_TC_BODY(cmd_unload, tc)
1.1      jmmv {
1.3      jmmv 	load(NULL, true, "%s/k_helper/k_helper.kmod",
1.3      jmmv 	    atf_tc_get_config_var(tc, "srcdir"));
1.1      jmmv
1.1      jmmv 	ATF_CHECK(unload("", false) == ENOENT);
1.2        ad 	ATF_CHECK(unload("non-existent.kmod", false) == ENOENT);
1.2        ad 	ATF_CHECK(unload("k_helper.kmod", false) == ENOENT);
1.1      jmmv
1.1      jmmv 	ATF_CHECK(k_helper_is_present(stat_check));
1.1      jmmv 	unload("k_helper", true);
1.1      jmmv 	printf("Checking if unload was successful\n");
1.1      jmmv 	ATF_CHECK(!k_helper_is_present(stat_check));
1.1      jmmv }
1.1      jmmv ATF_TC_CLEANUP(cmd_unload, tc)
1.1      jmmv {
1.1      jmmv 	unload_cleanup("k_helper");
1.1      jmmv }
1.1      jmmv
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv /* Main                                                                  */
1.1      jmmv /* --------------------------------------------------------------------- */
1.1      jmmv
1.1      jmmv ATF_TP_ADD_TCS(tp)
1.1      jmmv {
1.1      jmmv
1.1      jmmv 	ATF_TP_ADD_TC(tp, cmd_load);
1.1      jmmv 	ATF_TP_ADD_TC(tp, cmd_load_props);
1.1      jmmv 	ATF_TP_ADD_TC(tp, cmd_stat);
1.4  pgoyette 	ATF_TP_ADD_TC(tp, cmd_load_recurse);
1.1      jmmv 	ATF_TP_ADD_TC(tp, cmd_unload);
1.1      jmmv
1.1      jmmv 	return atf_no_error();
1.1      jmmv }