/* SPDX-License-Identifier: GPL-2.0 */ #include #include #include #include #include #include #include #include #include #include #include #include "../kselftest.h" #include "cgroup_util.h" #define DEBUG #ifdef DEBUG #define debug(args...) fprintf(stderr, args) #else #define debug(args...) #endif /* * Check if the cgroup is frozen by looking at the cgroup.events::frozen value. */ static int cg_check_frozen(const char *cgroup, bool frozen) { if (frozen) { if (cg_read_strstr(cgroup, "cgroup.events", "frozen 1") != 0) { debug("Cgroup %s isn't frozen\n", cgroup); return -1; } } else { /* * Check the cgroup.events::frozen value. */ if (cg_read_strstr(cgroup, "cgroup.events", "frozen 0") != 0) { debug("Cgroup %s is frozen\n", cgroup); return -1; } } return 0; } /* * Freeze the given cgroup. */ static int cg_freeze_nowait(const char *cgroup, bool freeze) { return cg_write(cgroup, "cgroup.freeze", freeze ? "1" : "0"); } /* * Attach a task to the given cgroup and wait for a cgroup frozen event. * All transient events (e.g. populated) are ignored. */ static int cg_enter_and_wait_for_frozen(const char *cgroup, int pid, bool frozen) { int fd, ret = -1; int attempts; fd = cg_prepare_for_wait(cgroup); if (fd < 0) return fd; ret = cg_enter(cgroup, pid); if (ret) goto out; for (attempts = 0; attempts < 10; attempts++) { ret = cg_wait_for(fd); if (ret) break; ret = cg_check_frozen(cgroup, frozen); if (ret) continue; } out: close(fd); return ret; } /* * Freeze the given cgroup and wait for the inotify signal. * If there are no events in 10 seconds, treat this as an error. * Then check that the cgroup is in the desired state. */ static int cg_freeze_wait(const char *cgroup, bool freeze) { int fd, ret = -1; fd = cg_prepare_for_wait(cgroup); if (fd < 0) return fd; ret = cg_freeze_nowait(cgroup, freeze); if (ret) { debug("Error: cg_freeze_nowait() failed\n"); goto out; } ret = cg_wait_for(fd); if (ret) goto out; ret = cg_check_frozen(cgroup, freeze); out: close(fd); return ret; } /* * A simple process running in a sleep loop until being * re-parented. */ static int child_fn(const char *cgroup, void *arg) { int ppid = getppid(); while (getppid() == ppid) usleep(1000); return getppid() == ppid; } /* * A simple test for the cgroup freezer: populated the cgroup with 100 * running processes and freeze it. Then unfreeze it. Then it kills all * processes and destroys the cgroup. */ static int test_cgfreezer_simple(const char *root) { int ret = KSFT_FAIL; char *cgroup = NULL; int i; cgroup = cg_name(root, "cg_test_simple"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; for (i = 0; i < 100; i++) cg_run_nowait(cgroup, child_fn, NULL); if (cg_wait_for_proc_count(cgroup, 100)) goto cleanup; if (cg_check_frozen(cgroup, false)) goto cleanup; if (cg_freeze_wait(cgroup, true)) goto cleanup; if (cg_freeze_wait(cgroup, false)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } /* * The test creates the following hierarchy: * A * / / \ \ * B E I K * /\ | * C D F * | * G * | * H * * with a process in C, H and 3 processes in K. * Then it tries to freeze and unfreeze the whole tree. */ static int test_cgfreezer_tree(const char *root) { char *cgroup[10] = {0}; int ret = KSFT_FAIL; int i; cgroup[0] = cg_name(root, "cg_test_tree_A"); if (!cgroup[0]) goto cleanup; cgroup[1] = cg_name(cgroup[0], "B"); if (!cgroup[1]) goto cleanup; cgroup[2] = cg_name(cgroup[1], "C"); if (!cgroup[2]) goto cleanup; cgroup[3] = cg_name(cgroup[1], "D"); if (!cgroup[3]) goto cleanup; cgroup[4] = cg_name(cgroup[0], "E"); if (!cgroup[4]) goto cleanup; cgroup[5] = cg_name(cgroup[4], "F"); if (!cgroup[5]) goto cleanup; cgroup[6] = cg_name(cgroup[5], "G"); if (!cgroup[6]) goto cleanup; cgroup[7] = cg_name(cgroup[6], "H"); if (!cgroup[7]) goto cleanup; cgroup[8] = cg_name(cgroup[0], "I"); if (!cgroup[8]) goto cleanup; cgroup[9] = cg_name(cgroup[0], "K"); if (!cgroup[9]) goto cleanup; for (i = 0; i < 10; i++) if (cg_create(cgroup[i])) goto cleanup; cg_run_nowait(cgroup[2], child_fn, NULL); cg_run_nowait(cgroup[7], child_fn, NULL); cg_run_nowait(cgroup[9], child_fn, NULL); cg_run_nowait(cgroup[9], child_fn, NULL); cg_run_nowait(cgroup[9], child_fn, NULL); /* * Wait until all child processes will enter * corresponding cgroups. */ if (cg_wait_for_proc_count(cgroup[2], 1) || cg_wait_for_proc_count(cgroup[7], 1) || cg_wait_for_proc_count(cgroup[9], 3)) goto cleanup; /* * Freeze B. */ if (cg_freeze_wait(cgroup[1], true)) goto cleanup; /* * Freeze F. */ if (cg_freeze_wait(cgroup[5], true)) goto cleanup; /* * Freeze G. */ if (cg_freeze_wait(cgroup[6], true)) goto cleanup; /* * Check that A and E are not frozen. */ if (cg_check_frozen(cgroup[0], false)) goto cleanup; if (cg_check_frozen(cgroup[4], false)) goto cleanup; /* * Freeze A. Check that A, B and E are frozen. */ if (cg_freeze_wait(cgroup[0], true)) goto cleanup; if (cg_check_frozen(cgroup[1], true)) goto cleanup; if (cg_check_frozen(cgroup[4], true)) goto cleanup; /* * Unfreeze B, F and G */ if (cg_freeze_nowait(cgroup[1], false)) goto cleanup; if (cg_freeze_nowait(cgroup[5], false)) goto cleanup; if (cg_freeze_nowait(cgroup[6], false)) goto cleanup; /* * Check that C and H are still frozen. */ if (cg_check_frozen(cgroup[2], true)) goto cleanup; if (cg_check_frozen(cgroup[7], true)) goto cleanup; /* * Unfreeze A. Check that A, C and K are not frozen. */ if (cg_freeze_wait(cgroup[0], false)) goto cleanup; if (cg_check_frozen(cgroup[2], false)) goto cleanup; if (cg_check_frozen(cgroup[9], false)) goto cleanup; ret = KSFT_PASS; cleanup: for (i = 9; i >= 0 && cgroup[i]; i--) { cg_destroy(cgroup[i]); free(cgroup[i]); } return ret; } /* * A fork bomb emulator. */ static int forkbomb_fn(const char *cgroup, void *arg) { int ppid; fork(); fork(); ppid = getppid(); while (getppid() == ppid) usleep(1000); return getppid() == ppid; } /* * The test runs a fork bomb in a cgroup and tries to freeze it. * Then it kills all processes and checks that cgroup isn't populated * anymore. */ static int test_cgfreezer_forkbomb(const char *root) { int ret = KSFT_FAIL; char *cgroup = NULL; cgroup = cg_name(root, "cg_forkbomb_test"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; cg_run_nowait(cgroup, forkbomb_fn, NULL); usleep(100000); if (cg_freeze_wait(cgroup, true)) goto cleanup; if (cg_killall(cgroup)) goto cleanup; if (cg_wait_for_proc_count(cgroup, 0)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } /* * The test creates a cgroups and freezes it. Then it creates a child cgroup * and populates it with a task. After that it checks that the child cgroup * is frozen and the parent cgroup remains frozen too. */ static int test_cgfreezer_mkdir(const char *root) { int ret = KSFT_FAIL; char *parent, *child = NULL; int pid; parent = cg_name(root, "cg_test_mkdir_A"); if (!parent) goto cleanup; child = cg_name(parent, "cg_test_mkdir_B"); if (!child) goto cleanup; if (cg_create(parent)) goto cleanup; if (cg_freeze_wait(parent, true)) goto cleanup; if (cg_create(child)) goto cleanup; pid = cg_run_nowait(child, child_fn, NULL); if (pid < 0) goto cleanup; if (cg_wait_for_proc_count(child, 1)) goto cleanup; if (cg_check_frozen(child, true)) goto cleanup; if (cg_check_frozen(parent, true)) goto cleanup; ret = KSFT_PASS; cleanup: if (child) cg_destroy(child); free(child); if (parent) cg_destroy(parent); free(parent); return ret; } /* * The test creates two nested cgroups, freezes the parent * and removes the child. Then it checks that the parent cgroup * remains frozen and it's possible to create a new child * without unfreezing. The new child is frozen too. */ static int test_cgfreezer_rmdir(const char *root) { int ret = KSFT_FAIL; char *parent, *child = NULL; parent = cg_name(root, "cg_test_rmdir_A"); if (!parent) goto cleanup; child = cg_name(parent, "cg_test_rmdir_B"); if (!child) goto cleanup; if (cg_create(parent)) goto cleanup; if (cg_create(child)) goto cleanup; if (cg_freeze_wait(parent, true)) goto cleanup; if (cg_destroy(child)) goto cleanup; if (cg_check_frozen(parent, true)) goto cleanup; if (cg_create(child)) goto cleanup; if (cg_check_frozen(child, true)) goto cleanup; ret = KSFT_PASS; cleanup: if (child) cg_destroy(child); free(child); if (parent) cg_destroy(parent); free(parent); return ret; } /* * The test creates two cgroups: A and B, runs a process in A * and performs several migrations: * 1) A (running) -> B (frozen) * 2) B (frozen) -> A (running) * 3) A (frozen) -> B (frozen) * * On each step it checks the actual state of both cgroups. */ static int test_cgfreezer_migrate(const char *root) { int ret = KSFT_FAIL; char *cgroup[2] = {0}; int pid; cgroup[0] = cg_name(root, "cg_test_migrate_A"); if (!cgroup[0]) goto cleanup; cgroup[1] = cg_name(root, "cg_test_migrate_B"); if (!cgroup[1]) goto cleanup; if (cg_create(cgroup[0])) goto cleanup; if (cg_create(cgroup[1])) goto cleanup; pid = cg_run_nowait(cgroup[0], child_fn, NULL); if (pid < 0) goto cleanup; if (cg_wait_for_proc_count(cgroup[0], 1)) goto cleanup; /* * Migrate from A (running) to B (frozen) */ if (cg_freeze_wait(cgroup[1], true)) goto cleanup; if (cg_enter_and_wait_for_frozen(cgroup[1], pid, true)) goto cleanup; if (cg_check_frozen(cgroup[0], false)) goto cleanup; /* * Migrate from B (frozen) to A (running) */ if (cg_enter_and_wait_for_frozen(cgroup[0], pid, false)) goto cleanup; if (cg_check_frozen(cgroup[1], true)) goto cleanup; /* * Migrate from A (frozen) to B (frozen) */ if (cg_freeze_wait(cgroup[0], true)) goto cleanup; if (cg_enter_and_wait_for_frozen(cgroup[1], pid, true)) goto cleanup; if (cg_check_frozen(cgroup[0], true)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup[0]) cg_destroy(cgroup[0]); free(cgroup[0]); if (cgroup[1]) cg_destroy(cgroup[1]); free(cgroup[1]); return ret; } /* * The test checks that ptrace works with a tracing process in a frozen cgroup. */ static int test_cgfreezer_ptrace(const char *root) { int ret = KSFT_FAIL; char *cgroup = NULL; siginfo_t siginfo; int pid; cgroup = cg_name(root, "cg_test_ptrace"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; pid = cg_run_nowait(cgroup, child_fn, NULL); if (pid < 0) goto cleanup; if (cg_wait_for_proc_count(cgroup, 1)) goto cleanup; if (cg_freeze_wait(cgroup, true)) goto cleanup; if (ptrace(PTRACE_SEIZE, pid, NULL, NULL)) goto cleanup; if (ptrace(PTRACE_INTERRUPT, pid, NULL, NULL)) goto cleanup; waitpid(pid, NULL, 0); /* * Cgroup has to remain frozen, however the test task * is in traced state. */ if (cg_check_frozen(cgroup, true)) goto cleanup; if (ptrace(PTRACE_GETSIGINFO, pid, NULL, &siginfo)) goto cleanup; if (ptrace(PTRACE_DETACH, pid, NULL, NULL)) goto cleanup; if (cg_check_frozen(cgroup, true)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } /* * Check if the process is stopped. */ static int proc_check_stopped(int pid) { char buf[PAGE_SIZE]; int len; len = proc_read_text(pid, 0, "stat", buf, sizeof(buf)); if (len == -1) { debug("Can't get %d stat\n", pid); return -1; } if (strstr(buf, "(test_freezer) T ") == NULL) { debug("Process %d in the unexpected state: %s\n", pid, buf); return -1; } return 0; } /* * Test that it's possible to freeze a cgroup with a stopped process. */ static int test_cgfreezer_stopped(const char *root) { int pid, ret = KSFT_FAIL; char *cgroup = NULL; cgroup = cg_name(root, "cg_test_stopped"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; pid = cg_run_nowait(cgroup, child_fn, NULL); if (cg_wait_for_proc_count(cgroup, 1)) goto cleanup; if (kill(pid, SIGSTOP)) goto cleanup; if (cg_check_frozen(cgroup, false)) goto cleanup; if (cg_freeze_wait(cgroup, true)) goto cleanup; if (cg_freeze_wait(cgroup, false)) goto cleanup; if (proc_check_stopped(pid)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } /* * Test that it's possible to freeze a cgroup with a ptraced process. */ static int test_cgfreezer_ptraced(const char *root) { int pid, ret = KSFT_FAIL; char *cgroup = NULL; siginfo_t siginfo; cgroup = cg_name(root, "cg_test_ptraced"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; pid = cg_run_nowait(cgroup, child_fn, NULL); if (cg_wait_for_proc_count(cgroup, 1)) goto cleanup; if (ptrace(PTRACE_SEIZE, pid, NULL, NULL)) goto cleanup; if (ptrace(PTRACE_INTERRUPT, pid, NULL, NULL)) goto cleanup; waitpid(pid, NULL, 0); if (cg_check_frozen(cgroup, false)) goto cleanup; if (cg_freeze_wait(cgroup, true)) goto cleanup; /* * cg_check_frozen(cgroup, true) will fail here, * because the task is in the TRACEd state. */ if (cg_freeze_wait(cgroup, false)) goto cleanup; if (ptrace(PTRACE_GETSIGINFO, pid, NULL, &siginfo)) goto cleanup; if (ptrace(PTRACE_DETACH, pid, NULL, NULL)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } static int vfork_fn(const char *cgroup, void *arg) { int pid = vfork(); if (pid == 0) while (true) sleep(1); return pid; } /* * Test that it's possible to freeze a cgroup with a process, * which called vfork() and is waiting for a child. */ static int test_cgfreezer_vfork(const char *root) { int ret = KSFT_FAIL; char *cgroup = NULL; cgroup = cg_name(root, "cg_test_vfork"); if (!cgroup) goto cleanup; if (cg_create(cgroup)) goto cleanup; cg_run_nowait(cgroup, vfork_fn, NULL); if (cg_wait_for_proc_count(cgroup, 2)) goto cleanup; if (cg_freeze_wait(cgroup, true)) goto cleanup; ret = KSFT_PASS; cleanup: if (cgroup) cg_destroy(cgroup); free(cgroup); return ret; } #define T(x) { x, #x } struct cgfreezer_test { int (*fn)(const char *root); const char *name; } tests[] = { T(test_cgfreezer_simple), T(test_cgfreezer_tree), T(test_cgfreezer_forkbomb), T(test_cgfreezer_mkdir), T(test_cgfreezer_rmdir), T(test_cgfreezer_migrate), T(test_cgfreezer_ptrace), T(test_cgfreezer_stopped), T(test_cgfreezer_ptraced), T(test_cgfreezer_vfork), }; #undef T int main(int argc, char *argv[]) { char root[PATH_MAX]; int i, ret = EXIT_SUCCESS; if (cg_find_unified_root(root, sizeof(root))) ksft_exit_skip("cgroup v2 isn't mounted\n"); for (i = 0; i < ARRAY_SIZE(tests); i++) { switch (tests[i].fn(root)) { case KSFT_PASS: ksft_test_result_pass("%s\n", tests[i].name); break; case KSFT_SKIP: ksft_test_result_skip("%s\n", tests[i].name); break; default: ret = EXIT_FAILURE; ksft_test_result_fail("%s\n", tests[i].name); break; } } return ret; }