/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include "alloc-util.h" #include "cgroup-setup.h" #include "cgroup-util.h" #include "fileio.h" #include "fs-util.h" #include "oomd-util.h" #include "parse-util.h" #include "path-util.h" #include "string-util.h" #include "strv.h" #include "tests.h" static int fork_and_sleep(unsigned sleep_min) { usec_t n, timeout, ts; pid_t pid = fork(); assert_se(pid >= 0); if (pid == 0) { timeout = sleep_min * USEC_PER_MINUTE; ts = now(CLOCK_MONOTONIC); for (;;) { n = now(CLOCK_MONOTONIC); if (ts + timeout < n) { log_error("Child timed out waiting to be killed"); abort(); } sleep(1); } } return pid; } static void test_oomd_cgroup_kill(void) { _cleanup_free_ char *cgroup_root = NULL, *cgroup = NULL; int pid[2]; int r; if (geteuid() != 0) return (void) log_tests_skipped("not root"); if (cg_all_unified() <= 0) return (void) log_tests_skipped("cgroups are not running in unified mode"); assert_se(cg_pid_get_path(NULL, 0, &cgroup_root) >= 0); /* Create another cgroup below this one for the pids we forked off. We need this to be managed * by the test so that pid1 doesn't delete it before we can read the xattrs. */ cgroup = path_join(cgroup_root, "oomdkilltest"); assert(cgroup); assert_se(cg_create(SYSTEMD_CGROUP_CONTROLLER, cgroup) >= 0); /* If we don't have permissions to set xattrs we're likely in a userns or missing capabilities */ r = cg_set_xattr(SYSTEMD_CGROUP_CONTROLLER, cgroup, "user.oomd_test", "test", 4, 0); if (ERRNO_IS_PRIVILEGE(r) || ERRNO_IS_NOT_SUPPORTED(r)) return (void) log_tests_skipped("Cannot set user xattrs"); /* Do this twice to also check the increment behavior on the xattrs */ for (int i = 0; i < 2; i++) { _cleanup_free_ char *v = NULL; for (int j = 0; j < 2; j++) { pid[j] = fork_and_sleep(5); assert_se(cg_attach(SYSTEMD_CGROUP_CONTROLLER, cgroup, pid[j]) >= 0); } r = oomd_cgroup_kill(cgroup, false /* recurse */, false /* dry run */); if (r <= 0) { log_debug_errno(r, "Failed to kill processes under %s: %m", cgroup); abort(); } /* Wait a bit since processes may take some time to be cleaned up. */ sleep(2); assert_se(cg_is_empty(SYSTEMD_CGROUP_CONTROLLER, cgroup) == true); assert_se(cg_get_xattr_malloc(SYSTEMD_CGROUP_CONTROLLER, cgroup, "user.systemd_oomd_kill", &v) >= 0); assert_se(memcmp(v, i == 0 ? "2" : "4", 2) == 0); } } static void test_oomd_cgroup_context_acquire_and_insert(void) { _cleanup_hashmap_free_ Hashmap *h1 = NULL, *h2 = NULL; _cleanup_(oomd_cgroup_context_freep) OomdCGroupContext *ctx = NULL; _cleanup_free_ char *cgroup = NULL; OomdCGroupContext *c1, *c2; if (geteuid() != 0) return (void) log_tests_skipped("not root"); if (!is_pressure_supported()) return (void) log_tests_skipped("system does not support pressure"); if (cg_all_unified() <= 0) return (void) log_tests_skipped("cgroups are not running in unified mode"); assert_se(cg_pid_get_path(NULL, 0, &cgroup) >= 0); assert_se(oomd_cgroup_context_acquire(cgroup, &ctx) == 0); assert_se(streq(ctx->path, cgroup)); assert_se(ctx->current_memory_usage > 0); assert_se(ctx->memory_min == 0); assert_se(ctx->memory_low == 0); assert_se(ctx->swap_usage == 0); assert_se(ctx->last_pgscan == 0); assert_se(ctx->pgscan == 0); ctx = oomd_cgroup_context_free(ctx); /* Test the root cgroup */ assert_se(oomd_cgroup_context_acquire("", &ctx) == 0); assert_se(streq(ctx->path, "/")); assert_se(ctx->current_memory_usage > 0); /* Test hashmap inserts */ assert_se(h1 = hashmap_new(&oomd_cgroup_ctx_hash_ops)); assert_se(oomd_insert_cgroup_context(NULL, h1, cgroup) == 0); c1 = hashmap_get(h1, cgroup); assert_se(c1); /* make sure certain values from h1 get updated in h2 */ c1->pgscan = 5555; c1->mem_pressure_limit = 6789; c1->last_hit_mem_pressure_limit = 42; assert_se(h2 = hashmap_new(&oomd_cgroup_ctx_hash_ops)); assert_se(oomd_insert_cgroup_context(h1, h2, cgroup) == 0); c1 = hashmap_get(h1, cgroup); c2 = hashmap_get(h2, cgroup); assert_se(c1); assert_se(c2); assert_se(c1 != c2); assert_se(c2->last_pgscan == 5555); assert_se(c2->mem_pressure_limit == 6789); assert_se(c2->last_hit_mem_pressure_limit == 42); } static void test_oomd_system_context_acquire(void) { _cleanup_(unlink_tempfilep) char path[] = "/oomdgetsysctxtestXXXXXX"; OomdSystemContext ctx; if (geteuid() != 0) return (void) log_tests_skipped("not root"); assert_se(mkstemp(path)); assert_se(oomd_system_context_acquire("/verylikelynonexistentpath", &ctx) == -ENOENT); assert_se(oomd_system_context_acquire(path, &ctx) == 0); assert_se(ctx.swap_total == 0); assert_se(ctx.swap_used == 0); assert_se(write_string_file(path, "some\nwords\nacross\nmultiple\nlines", WRITE_STRING_FILE_CREATE) == 0); assert_se(oomd_system_context_acquire(path, &ctx) == 0); assert_se(ctx.swap_total == 0); assert_se(ctx.swap_used == 0); assert_se(write_string_file(path, "Filename Type Size Used Priority", WRITE_STRING_FILE_CREATE) == 0); assert_se(oomd_system_context_acquire(path, &ctx) == 0); assert_se(ctx.swap_total == 0); assert_se(ctx.swap_used == 0); assert_se(write_string_file(path, "Filename Type Size Used Priority\n" "/swapvol/swapfile file 18971644 0 -3\n" "/dev/vda2 partition 1999868 993780 -2", WRITE_STRING_FILE_CREATE) == 0); assert_se(oomd_system_context_acquire(path, &ctx) == 0); assert_se(ctx.swap_total == 21474828288); assert_se(ctx.swap_used == 1017630720); } static void test_oomd_pressure_above(void) { _cleanup_hashmap_free_ Hashmap *h1 = NULL, *h2 = NULL; _cleanup_set_free_ Set *t1 = NULL, *t2 = NULL, *t3 = NULL; OomdCGroupContext ctx[2], *c; loadavg_t threshold; assert_se(store_loadavg_fixed_point(80, 0, &threshold) == 0); /* /herp.slice */ assert_se(store_loadavg_fixed_point(99, 99, &(ctx[0].memory_pressure.avg10)) == 0); assert_se(store_loadavg_fixed_point(99, 99, &(ctx[0].memory_pressure.avg60)) == 0); assert_se(store_loadavg_fixed_point(99, 99, &(ctx[0].memory_pressure.avg300)) == 0); ctx[0].mem_pressure_limit = threshold; /* /derp.slice */ assert_se(store_loadavg_fixed_point(1, 11, &(ctx[1].memory_pressure.avg10)) == 0); assert_se(store_loadavg_fixed_point(1, 11, &(ctx[1].memory_pressure.avg60)) == 0); assert_se(store_loadavg_fixed_point(1, 11, &(ctx[1].memory_pressure.avg300)) == 0); ctx[1].mem_pressure_limit = threshold; /* High memory pressure */ assert_se(h1 = hashmap_new(&string_hash_ops)); assert_se(hashmap_put(h1, "/herp.slice", &ctx[0]) >= 0); assert_se(oomd_pressure_above(h1, 0 /* duration */, &t1) == 1); assert_se(set_contains(t1, &ctx[0]) == true); assert_se(c = hashmap_get(h1, "/herp.slice")); assert_se(c->last_hit_mem_pressure_limit > 0); /* Low memory pressure */ assert_se(h2 = hashmap_new(&string_hash_ops)); assert_se(hashmap_put(h2, "/derp.slice", &ctx[1]) >= 0); assert_se(oomd_pressure_above(h2, 0 /* duration */, &t2) == 0); assert_se(t2 == NULL); assert_se(c = hashmap_get(h2, "/derp.slice")); assert_se(c->last_hit_mem_pressure_limit == 0); /* High memory pressure w/ multiple cgroups */ assert_se(hashmap_put(h1, "/derp.slice", &ctx[1]) >= 0); assert_se(oomd_pressure_above(h1, 0 /* duration */, &t3) == 1); assert_se(set_contains(t3, &ctx[0]) == true); assert_se(set_size(t3) == 1); assert_se(c = hashmap_get(h1, "/herp.slice")); assert_se(c->last_hit_mem_pressure_limit > 0); assert_se(c = hashmap_get(h1, "/derp.slice")); assert_se(c->last_hit_mem_pressure_limit == 0); } static void test_oomd_memory_reclaim(void) { _cleanup_hashmap_free_ Hashmap *h1 = NULL; char **paths = STRV_MAKE("/0.slice", "/1.slice", "/2.slice", "/3.slice", "/4.slice"); OomdCGroupContext ctx[5] = { { .path = paths[0], .last_pgscan = 100, .pgscan = 100 }, { .path = paths[1], .last_pgscan = 100, .pgscan = 100 }, { .path = paths[2], .last_pgscan = 77, .pgscan = 33 }, { .path = paths[3], .last_pgscan = UINT64_MAX, .pgscan = 100 }, { .path = paths[4], .last_pgscan = 100, .pgscan = UINT64_MAX }, }; assert_se(h1 = hashmap_new(&string_hash_ops)); assert_se(hashmap_put(h1, paths[0], &ctx[0]) >= 0); assert_se(hashmap_put(h1, paths[1], &ctx[1]) >= 0); assert_se(oomd_memory_reclaim(h1) == false); assert_se(hashmap_put(h1, paths[2], &ctx[2]) >= 0); assert_se(oomd_memory_reclaim(h1) == false); assert_se(hashmap_put(h1, paths[4], &ctx[4]) >= 0); assert_se(oomd_memory_reclaim(h1) == true); assert_se(hashmap_put(h1, paths[3], &ctx[3]) >= 0); assert_se(oomd_memory_reclaim(h1) == false); } static void test_oomd_swap_free_below(void) { OomdSystemContext ctx = (OomdSystemContext) { .swap_total = 20971512 * 1024U, .swap_used = 20971440 * 1024U, }; assert_se(oomd_swap_free_below(&ctx, 20) == true); ctx = (OomdSystemContext) { .swap_total = 20971512 * 1024U, .swap_used = 3310136 * 1024U, }; assert_se(oomd_swap_free_below(&ctx, 20) == false); ctx = (OomdSystemContext) { .swap_total = 0, .swap_used = 0, }; assert_se(oomd_swap_free_below(&ctx, 20) == false); } static void test_oomd_sort_cgroups(void) { _cleanup_hashmap_free_ Hashmap *h = NULL; _cleanup_free_ OomdCGroupContext **sorted_cgroups; char **paths = STRV_MAKE("/herp.slice", "/herp.slice/derp.scope", "/herp.slice/derp.scope/sheep.service", "/zupa.slice"); OomdCGroupContext ctx[4] = { { .path = paths[0], .swap_usage = 20, .pgscan = 60 }, { .path = paths[1], .swap_usage = 60, .pgscan = 40 }, { .path = paths[2], .swap_usage = 40, .pgscan = 20 }, { .path = paths[3], .swap_usage = 10, .pgscan = 80 }, }; assert_se(h = hashmap_new(&string_hash_ops)); assert_se(hashmap_put(h, "/herp.slice", &ctx[0]) >= 0); assert_se(hashmap_put(h, "/herp.slice/derp.scope", &ctx[1]) >= 0); assert_se(hashmap_put(h, "/herp.slice/derp.scope/sheep.service", &ctx[2]) >= 0); assert_se(hashmap_put(h, "/zupa.slice", &ctx[3]) >= 0); assert_se(oomd_sort_cgroup_contexts(h, compare_swap_usage, NULL, &sorted_cgroups) == 4); assert_se(sorted_cgroups[0] == &ctx[1]); assert_se(sorted_cgroups[1] == &ctx[2]); assert_se(sorted_cgroups[2] == &ctx[0]); assert_se(sorted_cgroups[3] == &ctx[3]); sorted_cgroups = mfree(sorted_cgroups); assert_se(oomd_sort_cgroup_contexts(h, compare_pgscan, NULL, &sorted_cgroups) == 4); assert_se(sorted_cgroups[0] == &ctx[3]); assert_se(sorted_cgroups[1] == &ctx[0]); assert_se(sorted_cgroups[2] == &ctx[1]); assert_se(sorted_cgroups[3] == &ctx[2]); sorted_cgroups = mfree(sorted_cgroups); assert_se(oomd_sort_cgroup_contexts(h, compare_pgscan, "/herp.slice/derp.scope", &sorted_cgroups) == 2); assert_se(sorted_cgroups[0] == &ctx[1]); assert_se(sorted_cgroups[1] == &ctx[2]); assert_se(sorted_cgroups[2] == 0); assert_se(sorted_cgroups[3] == 0); sorted_cgroups = mfree(sorted_cgroups); } int main(void) { int r; test_setup_logging(LOG_DEBUG); test_oomd_system_context_acquire(); test_oomd_pressure_above(); test_oomd_memory_reclaim(); test_oomd_swap_free_below(); test_oomd_sort_cgroups(); /* The following tests operate on live cgroups */ r = enter_cgroup_root(NULL); if (r < 0) return log_tests_skipped_errno(r, "failed to enter a test cgroup scope"); test_oomd_cgroup_kill(); test_oomd_cgroup_context_acquire_and_insert(); return 0; }