/* SPDX-License-Identifier: LGPL-2.1+ */ #include #include #include #include #include "sd-id128.h" #include "alloc-util.h" #include "apparmor-util.h" #include "architecture.h" #include "audit-util.h" #include "cgroup-util.h" #include "condition.h" #include "cpu-set-util.h" #include "efivars.h" #include "hostname-util.h" #include "id128-util.h" #include "ima-util.h" #include "limits-util.h" #include "log.h" #include "macro.h" #include "nulstr-util.h" #include "process-util.h" #include "selinux-util.h" #include "set.h" #include "smack-util.h" #include "string-util.h" #include "strv.h" #include "tests.h" #include "tomoyo-util.h" #include "user-util.h" #include "virt.h" static void test_condition_test_path(void) { Condition *condition; condition = condition_new(CONDITION_PATH_EXISTS, "/bin/sh", false, false); assert_se(condition); assert_se(condition_test(condition)); condition_free(condition); condition = condition_new(CONDITION_PATH_EXISTS, "/bin/s?", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_PATH_EXISTS_GLOB, "/bin/s?", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_PATH_EXISTS_GLOB, "/bin/s?", false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_PATH_EXISTS, "/thiscertainlywontexist", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_PATH_EXISTS, "/thiscertainlywontexist", false, true); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_DIRECTORY, "/bin", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_DIRECTORY_NOT_EMPTY, "/bin", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_FILE_NOT_EMPTY, "/bin/sh", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_FILE_IS_EXECUTABLE, "/bin/sh", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_FILE_IS_EXECUTABLE, "/etc/passwd", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_MOUNT_POINT, "/proc", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_MOUNT_POINT, "/", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_MOUNT_POINT, "/bin", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_READ_WRITE, "/tmp", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_PATH_IS_SYMBOLIC_LINK, "/dev/stdout", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); } static void test_condition_test_control_group_controller(void) { Condition *condition; CGroupMask system_mask; CGroupController controller; _cleanup_free_ char *controller_name = NULL; int r; r = cg_unified_flush(); if (r < 0) { log_notice_errno(r, "Skipping ConditionControlGroupController tests: %m"); return; } /* Invalid controllers are ignored */ condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, "thisisnotarealcontroller", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, "thisisnotarealcontroller", false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); assert_se(cg_mask_supported(&system_mask) >= 0); /* Individual valid controllers one by one */ for (controller = 0; controller < _CGROUP_CONTROLLER_MAX; controller++) { const char *local_controller_name = cgroup_controller_to_string(controller); log_info("chosen controller is '%s'", local_controller_name); if (system_mask & CGROUP_CONTROLLER_TO_MASK(controller)) { log_info("this controller is available"); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, local_controller_name, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, local_controller_name, false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } else { log_info("this controller is unavailable"); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, local_controller_name, false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, local_controller_name, false, true); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); } } /* Multiple valid controllers at the same time */ assert_se(cg_mask_to_string(system_mask, &controller_name) >= 0); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, strempty(controller_name), false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_CONTROL_GROUP_CONTROLLER, strempty(controller_name), false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } static void test_condition_test_ac_power(void) { Condition *condition; condition = condition_new(CONDITION_AC_POWER, "true", false, false); assert_se(condition); assert_se(condition_test(condition) == on_ac_power()); condition_free(condition); condition = condition_new(CONDITION_AC_POWER, "false", false, false); assert_se(condition); assert_se(condition_test(condition) != on_ac_power()); condition_free(condition); condition = condition_new(CONDITION_AC_POWER, "false", false, true); assert_se(condition); assert_se(condition_test(condition) == on_ac_power()); condition_free(condition); } static void test_condition_test_host(void) { _cleanup_free_ char *hostname = NULL; char sid[SD_ID128_STRING_MAX]; Condition *condition; sd_id128_t id; int r; r = sd_id128_get_machine(&id); assert_se(r >= 0); assert_se(sd_id128_to_string(id, sid)); condition = condition_new(CONDITION_HOST, sid, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_HOST, "garbage value jjjjjjjjjjjjjj", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_HOST, sid, false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); hostname = gethostname_malloc(); assert_se(hostname); /* if hostname looks like an id128 then skip testing it */ if (id128_is_valid(hostname)) log_notice("hostname is an id128, skipping test"); else { condition = condition_new(CONDITION_HOST, hostname, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); } } static void test_condition_test_architecture(void) { Condition *condition; const char *sa; int a; a = uname_architecture(); assert_se(a >= 0); sa = architecture_to_string(a); assert_se(sa); condition = condition_new(CONDITION_ARCHITECTURE, sa, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_ARCHITECTURE, "garbage value", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_ARCHITECTURE, sa, false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } static void test_condition_test_kernel_command_line(void) { Condition *condition; condition = condition_new(CONDITION_KERNEL_COMMAND_LINE, "thisreallyshouldntbeonthekernelcommandline", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_COMMAND_LINE, "andthis=neither", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } static void test_condition_test_kernel_version(void) { Condition *condition; struct utsname u; const char *v; condition = condition_new(CONDITION_KERNEL_VERSION, "*thisreallyshouldntbeinthekernelversion*", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "*", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); /* An artificially empty condition. It evaluates to true, but normally * such condition cannot be created, because the condition list is reset instead. */ condition = condition_new(CONDITION_KERNEL_VERSION, "", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); assert_se(uname(&u) >= 0); condition = condition_new(CONDITION_KERNEL_VERSION, u.release, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); strshorten(u.release, 4); strcpy(strchr(u.release, 0), "*"); condition = condition_new(CONDITION_KERNEL_VERSION, u.release, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); /* 0.1.2 would be a very very very old kernel */ condition = condition_new(CONDITION_KERNEL_VERSION, "> 0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, ">0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "'>0.1.2' '<9.0.0'", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "> 0.1.2 < 9.0.0", false, false); assert_se(condition); assert_se(condition_test(condition) == -EINVAL); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, ">", false, false); assert_se(condition); assert_se(condition_test(condition) == -EINVAL); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, ">= 0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "< 0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "<= 0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "= 0.1.2", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); /* 4711.8.15 is a very very very future kernel */ condition = condition_new(CONDITION_KERNEL_VERSION, "< 4711.8.15", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "<= 4711.8.15", false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "= 4711.8.15", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, "> 4711.8.15", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_KERNEL_VERSION, ">= 4711.8.15", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); assert_se(uname(&u) >= 0); v = strjoina(">=", u.release); condition = condition_new(CONDITION_KERNEL_VERSION, v, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); v = strjoina("= ", u.release); condition = condition_new(CONDITION_KERNEL_VERSION, v, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); v = strjoina("<=", u.release); condition = condition_new(CONDITION_KERNEL_VERSION, v, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); v = strjoina("> ", u.release); condition = condition_new(CONDITION_KERNEL_VERSION, v, false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); v = strjoina("< ", u.release); condition = condition_new(CONDITION_KERNEL_VERSION, v, false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } static void test_condition_test_null(void) { Condition *condition; condition = condition_new(CONDITION_NULL, NULL, false, false); assert_se(condition); assert_se(condition_test(condition) > 0); condition_free(condition); condition = condition_new(CONDITION_NULL, NULL, false, true); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); } static void test_condition_test_security(void) { Condition *condition; condition = condition_new(CONDITION_SECURITY, "garbage oifdsjfoidsjoj", false, false); assert_se(condition); assert_se(condition_test(condition) == 0); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "selinux", false, true); assert_se(condition); assert_se(condition_test(condition) != mac_selinux_use()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "apparmor", false, false); assert_se(condition); assert_se(condition_test(condition) == mac_apparmor_use()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "tomoyo", false, false); assert_se(condition); assert_se(condition_test(condition) == mac_tomoyo_use()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "ima", false, false); assert_se(condition); assert_se(condition_test(condition) == use_ima()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "smack", false, false); assert_se(condition); assert_se(condition_test(condition) == mac_smack_use()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "audit", false, false); assert_se(condition); assert_se(condition_test(condition) == use_audit()); condition_free(condition); condition = condition_new(CONDITION_SECURITY, "uefi-secureboot", false, false); assert_se(condition); assert_se(condition_test(condition) == is_efi_secure_boot()); condition_free(condition); } static void print_securities(void) { log_info("------ enabled security technologies ------"); log_info("SELinux: %s", yes_no(mac_selinux_use())); log_info("AppArmor: %s", yes_no(mac_apparmor_use())); log_info("Tomoyo: %s", yes_no(mac_tomoyo_use())); log_info("IMA: %s", yes_no(use_ima())); log_info("SMACK: %s", yes_no(mac_smack_use())); log_info("Audit: %s", yes_no(use_audit())); log_info("UEFI secure boot: %s", yes_no(is_efi_secure_boot())); log_info("-------------------------------------------"); } static void test_condition_test_virtualization(void) { Condition *condition; const char *virt; int r; condition = condition_new(CONDITION_VIRTUALIZATION, "garbage oifdsjfoidsjoj", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionVirtualization=garbage → %i", r); assert_se(r == 0); condition_free(condition); condition = condition_new(CONDITION_VIRTUALIZATION, "container", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionVirtualization=container → %i", r); assert_se(r == !!detect_container()); condition_free(condition); condition = condition_new(CONDITION_VIRTUALIZATION, "vm", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionVirtualization=vm → %i", r); assert_se(r == (detect_vm() && !detect_container())); condition_free(condition); condition = condition_new(CONDITION_VIRTUALIZATION, "private-users", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionVirtualization=private-users → %i", r); assert_se(r == !!running_in_userns()); condition_free(condition); NULSTR_FOREACH(virt, "kvm\0" "qemu\0" "bochs\0" "xen\0" "uml\0" "vmware\0" "oracle\0" "microsoft\0" "zvm\0" "parallels\0" "bhyve\0" "vm_other\0") { condition = condition_new(CONDITION_VIRTUALIZATION, virt, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionVirtualization=%s → %i", virt, r); assert_se(r >= 0); condition_free(condition); } } static void test_condition_test_user(void) { Condition *condition; char* uid; char* username; int r; condition = condition_new(CONDITION_USER, "garbage oifdsjfoidsjoj", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=garbage → %i", r); assert_se(r == 0); condition_free(condition); assert_se(asprintf(&uid, "%"PRIu32, UINT32_C(0xFFFF)) > 0); condition = condition_new(CONDITION_USER, uid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=%s → %i", uid, r); assert_se(r == 0); condition_free(condition); free(uid); assert_se(asprintf(&uid, "%u", (unsigned)getuid()) > 0); condition = condition_new(CONDITION_USER, uid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=%s → %i", uid, r); assert_se(r > 0); condition_free(condition); free(uid); assert_se(asprintf(&uid, "%u", (unsigned)getuid()+1) > 0); condition = condition_new(CONDITION_USER, uid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=%s → %i", uid, r); assert_se(r == 0); condition_free(condition); free(uid); username = getusername_malloc(); assert_se(username); condition = condition_new(CONDITION_USER, username, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=%s → %i", username, r); assert_se(r > 0); condition_free(condition); free(username); username = (char*)(geteuid() == 0 ? NOBODY_USER_NAME : "root"); condition = condition_new(CONDITION_USER, username, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=%s → %i", username, r); assert_se(r == 0); condition_free(condition); condition = condition_new(CONDITION_USER, "@system", false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionUser=@system → %i", r); if (uid_is_system(getuid()) || uid_is_system(geteuid())) assert_se(r > 0); else assert_se(r == 0); condition_free(condition); } static void test_condition_test_group(void) { Condition *condition; char* gid; char* groupname; gid_t *gids, max_gid; int ngroups_max, ngroups, r, i; assert_se(0 < asprintf(&gid, "%u", UINT32_C(0xFFFF))); condition = condition_new(CONDITION_GROUP, gid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", gid, r); assert_se(r == 0); condition_free(condition); free(gid); assert_se(0 < asprintf(&gid, "%u", getgid())); condition = condition_new(CONDITION_GROUP, gid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", gid, r); assert_se(r > 0); condition_free(condition); free(gid); ngroups_max = sysconf(_SC_NGROUPS_MAX); assert(ngroups_max > 0); gids = newa(gid_t, ngroups_max); ngroups = getgroups(ngroups_max, gids); assert(ngroups >= 0); max_gid = getgid(); for (i = 0; i < ngroups; i++) { assert_se(0 < asprintf(&gid, "%u", gids[i])); condition = condition_new(CONDITION_GROUP, gid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", gid, r); assert_se(r > 0); condition_free(condition); free(gid); max_gid = gids[i] > max_gid ? gids[i] : max_gid; groupname = gid_to_name(gids[i]); assert_se(groupname); condition = condition_new(CONDITION_GROUP, groupname, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", groupname, r); assert_se(r > 0); condition_free(condition); free(groupname); max_gid = gids[i] > max_gid ? gids[i] : max_gid; } assert_se(0 < asprintf(&gid, "%u", max_gid+1)); condition = condition_new(CONDITION_GROUP, gid, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", gid, r); assert_se(r == 0); condition_free(condition); free(gid); groupname = (char*)(geteuid() == 0 ? NOBODY_GROUP_NAME : "root"); condition = condition_new(CONDITION_GROUP, groupname, false, false); assert_se(condition); r = condition_test(condition); log_info("ConditionGroup=%s → %i", groupname, r); assert_se(r == 0); condition_free(condition); } static void test_condition_test_cpus_one(const char *s, bool result) { Condition *condition; int r; log_debug("%s=%s", condition_type_to_string(CONDITION_CPUS), s); condition = condition_new(CONDITION_CPUS, s, false, false); assert_se(condition); r = condition_test(condition); assert_se(r >= 0); assert_se(r == result); condition_free(condition); } static void test_condition_test_cpus(void) { _cleanup_free_ char *t = NULL; int cpus; cpus = cpus_in_affinity_mask(); assert_se(cpus >= 0); test_condition_test_cpus_one("> 0", true); test_condition_test_cpus_one(">= 0", true); test_condition_test_cpus_one("!= 0", true); test_condition_test_cpus_one("<= 0", false); test_condition_test_cpus_one("< 0", false); test_condition_test_cpus_one("= 0", false); test_condition_test_cpus_one("> 100000", false); test_condition_test_cpus_one("= 100000", false); test_condition_test_cpus_one(">= 100000", false); test_condition_test_cpus_one("< 100000", true); test_condition_test_cpus_one("!= 100000", true); test_condition_test_cpus_one("<= 100000", true); assert_se(asprintf(&t, "= %i", cpus) >= 0); test_condition_test_cpus_one(t, true); t = mfree(t); assert_se(asprintf(&t, "<= %i", cpus) >= 0); test_condition_test_cpus_one(t, true); t = mfree(t); assert_se(asprintf(&t, ">= %i", cpus) >= 0); test_condition_test_cpus_one(t, true); t = mfree(t); assert_se(asprintf(&t, "!= %i", cpus) >= 0); test_condition_test_cpus_one(t, false); t = mfree(t); assert_se(asprintf(&t, "< %i", cpus) >= 0); test_condition_test_cpus_one(t, false); t = mfree(t); assert_se(asprintf(&t, "> %i", cpus) >= 0); test_condition_test_cpus_one(t, false); t = mfree(t); } static void test_condition_test_memory_one(const char *s, bool result) { Condition *condition; int r; log_debug("%s=%s", condition_type_to_string(CONDITION_MEMORY), s); condition = condition_new(CONDITION_MEMORY, s, false, false); assert_se(condition); r = condition_test(condition); assert_se(r >= 0); assert_se(r == result); condition_free(condition); } static void test_condition_test_memory(void) { _cleanup_free_ char *t = NULL; uint64_t memory; memory = physical_memory(); test_condition_test_memory_one("> 0", true); test_condition_test_memory_one(">= 0", true); test_condition_test_memory_one("!= 0", true); test_condition_test_memory_one("<= 0", false); test_condition_test_memory_one("< 0", false); test_condition_test_memory_one("= 0", false); test_condition_test_memory_one("> 18446744073709547520", false); test_condition_test_memory_one("= 18446744073709547520", false); test_condition_test_memory_one(">= 18446744073709547520", false); test_condition_test_memory_one("< 18446744073709547520", true); test_condition_test_memory_one("!= 18446744073709547520", true); test_condition_test_memory_one("<= 18446744073709547520", true); assert_se(asprintf(&t, "= %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, true); t = mfree(t); assert_se(asprintf(&t, "<= %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, true); t = mfree(t); assert_se(asprintf(&t, ">= %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, true); t = mfree(t); assert_se(asprintf(&t, "!= %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, false); t = mfree(t); assert_se(asprintf(&t, "< %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, false); t = mfree(t); assert_se(asprintf(&t, "> %" PRIu64, memory) >= 0); test_condition_test_memory_one(t, false); t = mfree(t); } int main(int argc, char *argv[]) { test_setup_logging(LOG_DEBUG); test_condition_test_path(); test_condition_test_ac_power(); test_condition_test_host(); test_condition_test_architecture(); test_condition_test_kernel_command_line(); test_condition_test_kernel_version(); test_condition_test_null(); test_condition_test_security(); print_securities(); test_condition_test_virtualization(); test_condition_test_user(); test_condition_test_group(); test_condition_test_control_group_controller(); test_condition_test_cpus(); test_condition_test_memory(); return 0; }