// SPDX-License-Identifier: LGPL-2.1 /* * Copyright (C) 2020, VMware, Tzvetomir Stoyanov * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "tracefs.h" #define TRACEFS_SUITE "tracefs library" #define TEST_INSTANCE_NAME "cunit_test_iter" #define TEST_TRACE_DIR "/tmp/trace_utest.XXXXXX" #define TEST_ARRAY_SIZE 5000 #define ALL_TRACERS "available_tracers" #define CUR_TRACER "current_tracer" #define PER_CPU "per_cpu" #define TRACE_ON "tracing_on" #define TRACE_CLOCK "trace_clock" #define SQL_1_EVENT "wakeup_1" #define SQL_1_SQL "select sched_switch.next_pid as woke_pid, sched_waking.common_pid as waking_pid from sched_waking join sched_switch on sched_switch.next_pid = sched_waking.pid" #define SQL_2_EVENT "wakeup_2" #define SQL_2_SQL "select woke.next_pid as woke_pid, wake.common_pid as waking_pid from sched_waking as wake join sched_switch as woke on woke.next_pid = wake.pid" #define SQL_3_EVENT "wakeup_lat" #define SQL_3_SQL "select sched_switch.next_prio as prio, end.prev_prio as pprio, (sched.sched_waking.common_timestamp.usecs - end.TIMESTAMP_USECS) as lat from sched_waking as start join sched_switch as end on start.pid = end.next_pid" #define SQL_4_EVENT "wakeup_lat_2" #define SQL_4_SQL "select start.pid, end.next_prio as prio, (end.TIMESTAMP_USECS - start.TIMESTAMP_USECS) as lat from sched_waking as start join sched_switch as end on start.pid = end.next_pid where (start.prio >= 1 && start.prio < 100) || !(start.pid >= 0 && start.pid <= 1) && end.prev_pid != 0" #define SQL_5_EVENT "irq_lat" #define SQL_5_SQL "select end.common_pid as pid, (end.common_timestamp.usecs - start.common_timestamp.usecs) as irq_lat from irq_disable as start join irq_enable as end on start.common_pid = end.common_pid, start.parent_offs == end.parent_offs where start.common_pid != 0" #define SQL_5_START "irq_disable" #define DEBUGFS_DEFAULT_PATH "/sys/kernel/debug" #define TRACEFS_DEFAULT_PATH "/sys/kernel/tracing" #define TRACEFS_DEFAULT2_PATH "/sys/kernel/debug/tracing" static struct tracefs_instance *test_instance; static struct tep_handle *test_tep; struct test_sample { int cpu; int value; }; static struct test_sample test_array[TEST_ARRAY_SIZE]; static int test_found; static unsigned long long last_ts; static int test_callback(struct tep_event *event, struct tep_record *record, int cpu, void *context) { struct tep_format_field *field; struct test_sample *sample; int *cpu_test = (int *)context; int i; CU_TEST(last_ts <= record->ts); last_ts = record->ts; if (cpu_test && *cpu_test >= 0) { CU_TEST(*cpu_test == cpu); } CU_TEST(cpu == record->cpu); field = tep_find_field(event, "buf"); if (field) { sample = ((struct test_sample *)(record->data + field->offset)); for (i = 0; i < TEST_ARRAY_SIZE; i++) { if (test_array[i].value == sample->value && test_array[i].cpu == cpu) { test_array[i].value = 0; test_found++; break; } } } return 0; } static cpu_set_t *cpuset_save; static cpu_set_t *cpuset; static int cpu_size; static void save_affinity(void) { int cpus; cpus = sysconf(_SC_NPROCESSORS_CONF); cpuset_save = CPU_ALLOC(cpus); cpuset = CPU_ALLOC(cpus); cpu_size = CPU_ALLOC_SIZE(cpus); CU_TEST(cpuset_save != NULL && cpuset != NULL); CU_TEST(sched_getaffinity(0, cpu_size, cpuset_save) == 0); } static void thread_affinity(void) { sched_setaffinity(0, cpu_size, cpuset_save); } static void reset_affinity(void) { sched_setaffinity(0, cpu_size, cpuset_save); CPU_FREE(cpuset_save); CPU_FREE(cpuset); } static void set_affinity(int cpu) { CPU_ZERO_S(cpu_size, cpuset); CPU_SET_S(cpu, cpu_size, cpuset); CU_TEST(sched_setaffinity(0, cpu_size, cpuset) == 0); sched_yield(); /* Force schedule */ } static void test_iter_write(struct tracefs_instance *instance) { char *path; int i, fd; int cpus; int ret; cpus = sysconf(_SC_NPROCESSORS_CONF); save_affinity(); path = tracefs_instance_get_file(instance, "trace_marker"); CU_TEST(path != NULL); fd = open(path, O_WRONLY); tracefs_put_tracing_file(path); CU_TEST(fd >= 0); for (i = 0; i < TEST_ARRAY_SIZE; i++) { test_array[i].cpu = rand() % cpus; test_array[i].value = random(); if (!test_array[i].value) test_array[i].value++; CU_TEST(test_array[i].cpu < cpus); set_affinity(test_array[i].cpu); ret = write(fd, test_array + i, sizeof(struct test_sample)); CU_TEST(ret == sizeof(struct test_sample)); } reset_affinity(); close(fd); } static void iter_raw_events_on_cpu(struct tracefs_instance *instance, int cpu) { int cpus = sysconf(_SC_NPROCESSORS_CONF); cpu_set_t *cpuset = NULL; int cpu_size = 0; int check = 0; int ret; int i; if (cpu >= 0) { cpuset = CPU_ALLOC(cpus); cpu_size = CPU_ALLOC_SIZE(cpus); CPU_ZERO_S(cpu_size, cpuset); CPU_SET(cpu, cpuset); } test_found = 0; last_ts = 0; test_iter_write(instance); ret = tracefs_iterate_raw_events(test_tep, instance, cpuset, cpu_size, test_callback, &cpu); CU_TEST(ret == 0); if (cpu < 0) { CU_TEST(test_found == TEST_ARRAY_SIZE); } else { for (i = 0; i < TEST_ARRAY_SIZE; i++) { if (test_array[i].cpu == cpu) { check++; CU_TEST(test_array[i].value == 0) } else { CU_TEST(test_array[i].value != 0) } } CU_TEST(test_found == check); } if (cpuset) CPU_FREE(cpuset); } static void test_instance_iter_raw_events(struct tracefs_instance *instance) { int cpus = sysconf(_SC_NPROCESSORS_CONF); int ret; int i; ret = tracefs_iterate_raw_events(NULL, instance, NULL, 0, test_callback, NULL); CU_TEST(ret < 0); last_ts = 0; ret = tracefs_iterate_raw_events(test_tep, NULL, NULL, 0, test_callback, NULL); CU_TEST(ret == 0); ret = tracefs_iterate_raw_events(test_tep, instance, NULL, 0, NULL, NULL); CU_TEST(ret < 0); iter_raw_events_on_cpu(instance, -1); for (i = 0; i < cpus; i++) iter_raw_events_on_cpu(instance, i); } static void test_iter_raw_events(void) { test_instance_iter_raw_events(test_instance); } #define RAND_STR_SIZE 20 #define RAND_ASCII "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789" static const char *get_rand_str(void) { static char str[RAND_STR_SIZE]; static char sym[] = RAND_ASCII; struct timespec clk; int i; clock_gettime(CLOCK_REALTIME, &clk); srand(clk.tv_nsec); for (i = 0; i < RAND_STR_SIZE; i++) str[i] = sym[rand() % (sizeof(sym) - 1)]; str[RAND_STR_SIZE - 1] = 0; return str; } struct marker_find { int data_offset; int event_id; int count; int len; void *data; }; static int test_marker_callback(struct tep_event *event, struct tep_record *record, int cpu, void *context) { struct marker_find *walk = context; if (!walk) return -1; if (event->id != walk->event_id) return 0; if (record->size < (walk->data_offset + walk->len)) return 0; if (memcmp(walk->data, record->data + walk->data_offset, walk->len) == 0) walk->count++; return 0; } static bool find_test_marker(struct tracefs_instance *instance, void *data, int len, int expected, bool raw) { struct tep_format_field *field; struct tep_event *event; struct marker_find walk; int ret; if (raw) { event = tep_find_event_by_name(test_tep, "ftrace", "raw_data"); if (event) field = tep_find_field(event, "id"); } else { event = tep_find_event_by_name(test_tep, "ftrace", "print"); if (event) field = tep_find_field(event, "buf"); } if (!event || !field) return false; walk.data = data; walk.len = len; walk.count = 0; walk.event_id = event->id; walk.data_offset = field->offset; ret = tracefs_iterate_raw_events(test_tep, instance, NULL, 0, test_marker_callback, &walk); CU_TEST(ret == 0); return walk.count == expected; } static int marker_vprint(struct tracefs_instance *instance, char *fmt, ...) { va_list ap; int ret; va_start(ap, fmt); ret = tracefs_vprintf(instance, fmt, ap); va_end(ap); return ret; } #define MARKERS_WRITE_COUNT 100 static void test_instance_ftrace_marker(struct tracefs_instance *instance) { const char *string = get_rand_str(); unsigned int data = 0xdeadbeef; char *str; int i; CU_TEST(tracefs_print_init(instance) == 0); tracefs_print_close(instance); CU_TEST(tracefs_binary_init(instance) == 0); tracefs_binary_close(instance); for (i = 0; i < MARKERS_WRITE_COUNT; i++) { CU_TEST(tracefs_binary_write(instance, &data, sizeof(data)) == 0); } CU_TEST(find_test_marker(instance, &data, sizeof(data), MARKERS_WRITE_COUNT, true)); for (i = 0; i < MARKERS_WRITE_COUNT; i++) { CU_TEST(tracefs_printf(instance, "Test marker: %s 0x%X", string, data) == 0); } asprintf(&str, "Test marker: %s 0x%X", string, data); CU_TEST(find_test_marker(instance, str, strlen(str), MARKERS_WRITE_COUNT, false)); free(str); for (i = 0; i < MARKERS_WRITE_COUNT; i++) { CU_TEST(marker_vprint(instance, "Test marker V: %s 0x%X", string, data) == 0); } asprintf(&str, "Test marker V: %s 0x%X", string, data); CU_TEST(find_test_marker(instance, str, strlen(str), MARKERS_WRITE_COUNT, false)); free(str); tracefs_print_close(instance); tracefs_binary_close(instance); } static void test_ftrace_marker(void) { test_instance_ftrace_marker(test_instance); } static void test_instance_trace_sql(struct tracefs_instance *instance) { struct tracefs_synth *synth; struct trace_seq seq; struct tep_handle *tep; struct tep_event *event; int ret; tep = tracefs_local_events(NULL); CU_TEST(tep != NULL); trace_seq_init(&seq); synth = tracefs_sql(tep, SQL_1_EVENT, SQL_1_SQL, NULL); CU_TEST(synth != NULL); ret = tracefs_synth_echo_cmd(&seq, synth); CU_TEST(ret == 0); tracefs_synth_free(synth); trace_seq_reset(&seq); synth = tracefs_sql(tep, SQL_2_EVENT, SQL_2_SQL, NULL); CU_TEST(synth != NULL); ret = tracefs_synth_echo_cmd(&seq, synth); CU_TEST(ret == 0); tracefs_synth_free(synth); trace_seq_reset(&seq); synth = tracefs_sql(tep, SQL_3_EVENT, SQL_3_SQL, NULL); CU_TEST(synth != NULL); ret = tracefs_synth_echo_cmd(&seq, synth); CU_TEST(ret == 0); tracefs_synth_free(synth); trace_seq_reset(&seq); synth = tracefs_sql(tep, SQL_4_EVENT, SQL_4_SQL, NULL); CU_TEST(synth != NULL); ret = tracefs_synth_echo_cmd(&seq, synth); CU_TEST(ret == 0); tracefs_synth_free(synth); trace_seq_reset(&seq); event = tep_find_event_by_name(tep, NULL, SQL_5_START); if (event) { synth = tracefs_sql(tep, SQL_5_EVENT, SQL_5_SQL, NULL); CU_TEST(synth != NULL); ret = tracefs_synth_echo_cmd(&seq, synth); CU_TEST(ret == 0); tracefs_synth_free(synth); trace_seq_reset(&seq); } tep_free(tep); trace_seq_destroy(&seq); } static void test_trace_sql(void) { test_instance_trace_sql(test_instance); } struct test_cpu_data { struct tracefs_instance *instance; struct tracefs_cpu *tcpu; struct kbuffer *kbuf; struct tep_handle *tep; unsigned long long missed_events; void *buf; int events_per_buf; int bufsize; int data_size; int this_pid; int fd; bool done; }; static void cleanup_trace_cpu(struct test_cpu_data *data) { close(data->fd); tep_free(data->tep); tracefs_cpu_close(data->tcpu); free(data->buf); kbuffer_free(data->kbuf); } #define EVENT_SYSTEM "syscalls" #define EVENT_NAME "sys_enter_getppid" static int setup_trace_cpu(struct tracefs_instance *instance, struct test_cpu_data *data) { struct tep_format_field **fields; struct tep_event *event; char tmpfile[] = "/tmp/utest-libtracefsXXXXXX"; int max = 0; int ret; int i; /* Make sure tracing is on */ tracefs_trace_on(instance); memset (data, 0, sizeof(*data)); data->instance = instance; data->fd = mkstemp(tmpfile); CU_TEST(data->fd >= 0); unlink(tmpfile); if (data->fd < 0) return -1; data->tep = tracefs_local_events(NULL); CU_TEST(data->tep != NULL); if (!data->tep) goto fail; data->tcpu = tracefs_cpu_open(instance, 0, true); CU_TEST(data->tcpu != NULL); if (!data->tcpu) goto fail; data->bufsize = tracefs_cpu_read_size(data->tcpu); data->buf = calloc(1, data->bufsize); CU_TEST(data->buf != NULL); if (!data->buf) goto fail; data->kbuf = kbuffer_alloc(sizeof(long) == 8, !tep_is_bigendian()); CU_TEST(data->kbuf != NULL); if (!data->kbuf) goto fail; data->data_size = data->bufsize - kbuffer_start_of_data(data->kbuf); tracefs_instance_file_clear(instance, "trace"); event = tep_find_event_by_name(data->tep, EVENT_SYSTEM, EVENT_NAME); CU_TEST(event != NULL); if (!event) goto fail; fields = tep_event_fields(event); CU_TEST(fields != NULL); if (!fields) goto fail; for (i = 0; fields[i]; i++) { int end = fields[i]->offset + fields[i]->size; if (end > max) max = end; } free(fields); CU_TEST(max != 0); if (!max) goto fail; data->events_per_buf = data->data_size / max; data->this_pid = getpid(); ret = tracefs_event_enable(instance, EVENT_SYSTEM, EVENT_NAME); CU_TEST(ret == 0); if (ret) goto fail; save_affinity(); set_affinity(0); return 0; fail: cleanup_trace_cpu(data); return -1; } static void shutdown_trace_cpu(struct test_cpu_data *data) { struct tracefs_instance *instance = data->instance; int ret; reset_affinity(); ret = tracefs_event_disable(instance, EVENT_SYSTEM, EVENT_NAME); CU_TEST(ret == 0); cleanup_trace_cpu(data); } static void call_getppid(int cnt) { int i; for (i = 0; i < cnt; i++) getppid(); } static void test_cpu_read(struct test_cpu_data *data, int expect) { struct tracefs_cpu *tcpu = data->tcpu; struct kbuffer *kbuf = data->kbuf; struct tep_record record; void *buf = data->buf; unsigned long long ts; bool first = true; int pid; int ret; int cnt = 0; call_getppid(expect); for (;;) { ret = tracefs_cpu_read(tcpu, buf, false); CU_TEST(ret > 0 || !first); if (ret <= 0) break; first = false; ret = kbuffer_load_subbuffer(kbuf, buf); CU_TEST(ret == 0); for (;;) { record.data = kbuffer_read_event(kbuf, &ts); if (!record.data) break; record.ts = ts; pid = tep_data_pid(data->tep, &record); if (pid == data->this_pid) cnt++; kbuffer_next_event(kbuf, NULL); } } CU_TEST(cnt == expect); } static void test_instance_trace_cpu_read(struct tracefs_instance *instance) { struct test_cpu_data data; if (setup_trace_cpu(instance, &data)) return; test_cpu_read(&data, 1); test_cpu_read(&data, data.events_per_buf / 2); test_cpu_read(&data, data.events_per_buf); test_cpu_read(&data, data.events_per_buf + 1); test_cpu_read(&data, data.events_per_buf * 50); shutdown_trace_cpu(&data); } static void test_trace_cpu_read(void) { test_instance_trace_cpu_read(NULL); test_instance_trace_cpu_read(test_instance); } struct follow_data { struct tep_event *sched_switch; struct tep_event *sched_waking; struct tep_event *function; int missed; }; static int switch_callback(struct tep_event *event, struct tep_record *record, int cpu, void *data) { struct follow_data *fdata = data; CU_TEST(cpu == record->cpu); CU_TEST(event->id == fdata->sched_switch->id); return 0; } static int waking_callback(struct tep_event *event, struct tep_record *record, int cpu, void *data) { struct follow_data *fdata = data; CU_TEST(cpu == record->cpu); CU_TEST(event->id == fdata->sched_waking->id); return 0; } static int function_callback(struct tep_event *event, struct tep_record *record, int cpu, void *data) { struct follow_data *fdata = data; CU_TEST(cpu == record->cpu); CU_TEST(event->id == fdata->function->id); return 0; } static int missed_callback(struct tep_event *event, struct tep_record *record, int cpu, void *data) { struct follow_data *fdata = data; fdata->missed = record->missed_events; return 0; } static int all_callback(struct tep_event *event, struct tep_record *record, int cpu, void *data) { struct follow_data *fdata = data; CU_TEST(fdata->missed == record->missed_events); fdata->missed = 0; return 0; } static void *stop_thread(void *arg) { struct tracefs_instance *instance = arg; sleep(1); tracefs_iterate_stop(instance); return NULL; } static void test_instance_follow_events(struct tracefs_instance *instance) { struct follow_data fdata; struct tep_handle *tep; pthread_t thread; int ret; memset(&fdata, 0, sizeof(fdata)); tep = tracefs_local_events(NULL); CU_TEST(tep != NULL); if (!tep) return; fdata.sched_switch = tep_find_event_by_name(tep, "sched", "sched_switch"); CU_TEST(fdata.sched_switch != NULL); if (!fdata.sched_switch) return; fdata.sched_waking = tep_find_event_by_name(tep, "sched", "sched_waking"); CU_TEST(fdata.sched_waking != NULL); if (!fdata.sched_waking) return; fdata.function = tep_find_event_by_name(tep, "ftrace", "function"); CU_TEST(fdata.function != NULL); if (!fdata.function) return; ret = tracefs_follow_event(tep, instance, "sched", "sched_switch", switch_callback, &fdata); CU_TEST(ret == 0); ret = tracefs_follow_event(tep, instance, "sched", "sched_waking", waking_callback, &fdata); CU_TEST(ret == 0); ret = tracefs_follow_event(tep, instance, "ftrace", "function", function_callback, &fdata); CU_TEST(ret == 0); ret = tracefs_follow_missed_events(instance, missed_callback, &fdata); CU_TEST(ret == 0); ret = tracefs_event_enable(instance, "sched", "sched_switch"); CU_TEST(ret == 0); ret = tracefs_event_enable(instance, "sched", "sched_waking"); CU_TEST(ret == 0); ret = tracefs_tracer_set(instance, TRACEFS_TRACER_FUNCTION); CU_TEST(ret == 0); pthread_create(&thread, NULL, stop_thread, instance); ret = tracefs_iterate_raw_events(tep, instance, NULL, 0, all_callback, &fdata); CU_TEST(ret == 0); pthread_join(thread, NULL); tracefs_tracer_clear(instance); tracefs_event_disable(instance, NULL, NULL); } static void test_follow_events(void) { test_instance_follow_events(NULL); test_instance_follow_events(test_instance); } extern char *find_tracing_dir(bool debugfs, bool mount); static void test_mounting(void) { const char *tracing_dir; const char *debug_dir; struct stat st; char *save_tracing = NULL; char *save_debug = NULL; char *path; char *dir; int ret; /* First, unmount all instances of debugfs */ do { dir = find_tracing_dir(true, false); if (dir) { ret = umount(dir); CU_TEST(ret == 0); if (ret < 0) return; /* Save the first instance that's not /sys/kernel/debug */ if (!save_debug && strcmp(dir, DEBUGFS_DEFAULT_PATH) != 0) save_debug = dir; else free(dir); } } while (dir); /* Next, unmount all instances of tracefs */ do { dir = find_tracing_dir(false, false); if (dir) { ret = umount(dir); CU_TEST(ret == 0); if (ret < 0) return; /* Save the first instance that's not in /sys/kernel/ */ if (!save_tracing && strncmp(dir, "/sys/kernel/", 12) != 0) save_tracing = dir; else free(dir); } } while (dir); /* Mount first the tracing dir (which should mount at /sys/kernel/tracing */ tracing_dir = tracefs_tracing_dir(); CU_TEST(tracing_dir != NULL); if (tracing_dir != NULL) { CU_TEST(strcmp(tracing_dir, TRACEFS_DEFAULT_PATH) == 0 || strcmp(tracing_dir, TRACEFS_DEFAULT2_PATH) == 0); if (strncmp(tracing_dir, "/sys/kernel/", 12) != 0) printf("Tracing directory mounted at '%s'\n", tracing_dir); /* Make sure the directory has content.*/ asprintf(&path, "%s/trace", tracing_dir); CU_TEST(stat(path, &st) == 0); free(path); } /* Now mount debugfs dir, which should mount at /sys/kernel/debug */ debug_dir = tracefs_debug_dir(); CU_TEST(debug_dir != NULL); if (debug_dir != NULL) { CU_TEST(strcmp(debug_dir, DEBUGFS_DEFAULT_PATH) == 0); if (strcmp(debug_dir, DEBUGFS_DEFAULT_PATH) != 0) printf("debug directory mounted at '%s'\n", debug_dir); /* Make sure the directory has content.*/ asprintf(&path, "%s/tracing", debug_dir); CU_TEST(stat(path, &st) == 0); free(path); } if (save_debug) mount("debugfs", save_debug, "debugfs", 0, NULL); if (save_tracing && (!save_debug || strncmp(save_debug, save_tracing, strlen(save_debug)) != 0)) mount("tracefs", save_tracing, "tracefs", 0, NULL); free(save_debug); free(save_tracing); } static int read_trace_cpu_file(struct test_cpu_data *data) { unsigned long long ts; struct tep_record record; struct kbuffer *kbuf = data->kbuf; void *buf = data->buf; bool first = true; int bufsize = data->bufsize; int fd = data->fd; int missed; int pid; int ret; int cnt = 0; ret = lseek64(fd, 0, SEEK_SET); CU_TEST(ret == 0); if (ret) return -1; for (;;) { ret = read(fd, buf, bufsize); CU_TEST(ret > 0 || !first); if (ret <= 0) break; first = false; ret = kbuffer_load_subbuffer(kbuf, buf); CU_TEST(ret == 0); missed = kbuffer_missed_events(kbuf); if (missed) printf("missed events %d\n", missed); for (;;) { record.data = kbuffer_read_event(kbuf, &ts); if (!record.data) break; record.ts = ts; pid = tep_data_pid(data->tep, &record); if (pid == data->this_pid) cnt++; kbuffer_next_event(kbuf, NULL); } } return ret == 0 ? cnt : ret; } static void *trace_cpu_thread(void *arg) { struct test_cpu_data *data = arg; struct tracefs_cpu *tcpu = data->tcpu; int fd = data->fd; long ret = 0; thread_affinity(); while (!data->done && ret >= 0) { ret = tracefs_cpu_write(tcpu, fd, false); if (ret < 0 && errno == EAGAIN) ret = 0; } if (ret >= 0 || errno == EAGAIN) { do { ret = tracefs_cpu_flush_write(tcpu, fd); } while (ret > 0); } return (void *)ret; } static void test_cpu_pipe(struct test_cpu_data *data, int expect) { pthread_t thread; void *retval; long ret; int cnt; tracefs_instance_file_clear(data->instance, "trace"); ftruncate(data->fd, 0); data->done = false; pthread_create(&thread, NULL, trace_cpu_thread, data); sleep(1); call_getppid(expect); data->done = true; tracefs_cpu_stop(data->tcpu); pthread_join(thread, &retval); ret = (long)retval; CU_TEST(ret >= 0); cnt = read_trace_cpu_file(data); CU_TEST(cnt == expect); } static void test_instance_trace_cpu_pipe(struct tracefs_instance *instance) { struct test_cpu_data data; if (setup_trace_cpu(instance, &data)) return; test_cpu_pipe(&data, 1); test_cpu_pipe(&data, data.events_per_buf / 2); test_cpu_pipe(&data, data.events_per_buf); test_cpu_pipe(&data, data.events_per_buf + 1); test_cpu_pipe(&data, data.events_per_buf * 1000); shutdown_trace_cpu(&data); } static void test_trace_cpu_pipe(void) { test_instance_trace_cpu_pipe(NULL); test_instance_trace_cpu_pipe(test_instance); } static struct tracefs_dynevent **get_dynevents_check(enum tracefs_dynevent_type types, int count) { struct tracefs_dynevent **devents; int i; devents = tracefs_dynevent_get_all(types, NULL); if (count) { CU_TEST(devents != NULL); if (!devents) return NULL; i = 0; while (devents[i]) i++; CU_TEST(i == count); } else { CU_TEST(devents == NULL); } return devents; } struct test_synth { char *name; char *start_system; char *start_event; char *end_system; char *end_event; char *start_match_field; char *end_match_field; char *match_name; }; static void test_synth_compare(struct test_synth *synth, struct tracefs_dynevent **devents) { enum tracefs_dynevent_type stype; char *format; char *event; int i; for (i = 0; devents && devents[i]; i++) { stype = tracefs_dynevent_info(devents[i], NULL, &event, NULL, NULL, &format); CU_TEST(stype == TRACEFS_DYNEVENT_SYNTH); CU_TEST(strcmp(event, synth[i].name) == 0); if (synth[i].match_name) { CU_TEST(strstr(format, synth[i].match_name) != NULL); } free(event); free(format); } CU_TEST(devents == NULL || devents[i] == NULL); } static void test_instance_synthetic(struct tracefs_instance *instance) { struct test_synth sevents[] = { {"synth_1", "sched", "sched_waking", "sched", "sched_switch", "pid", "next_pid", "pid_match"}, {"synth_2", "syscalls", "sys_enter_openat2", "syscalls", "sys_exit_openat2", "__syscall_nr", "__syscall_nr", "nr_match"}, }; int sevents_count = sizeof(sevents) / sizeof((sevents)[0]); struct tracefs_dynevent **devents; struct tracefs_synth **synth; struct tep_handle *tep; int ret; int i; synth = calloc(sevents_count + 1, sizeof(*synth)); tep = tracefs_local_events(NULL); CU_TEST(tep != NULL); /* kprobes APIs */ ret = tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_SYNTH, true); CU_TEST(ret == 0); get_dynevents_check(TRACEFS_DYNEVENT_SYNTH, 0); for (i = 0; i < sevents_count; i++) { synth[i] = tracefs_synth_alloc(tep, sevents[i].name, sevents[i].start_system, sevents[i].start_event, sevents[i].end_system, sevents[i].end_event, sevents[i].start_match_field, sevents[i].end_match_field, sevents[i].match_name); CU_TEST(synth[i] != NULL); } get_dynevents_check(TRACEFS_DYNEVENT_SYNTH, 0); for (i = 0; i < sevents_count; i++) { ret = tracefs_synth_create(synth[i]); CU_TEST(ret == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_SYNTH, sevents_count); CU_TEST(devents != NULL); test_synth_compare(sevents, devents); tracefs_dynevent_list_free(devents); for (i = 0; i < sevents_count; i++) { ret = tracefs_synth_destroy(synth[i]); CU_TEST(ret == 0); } get_dynevents_check(TRACEFS_DYNEVENT_SYNTH, 0); for (i = 0; i < sevents_count; i++) tracefs_synth_free(synth[i]); tep_free(tep); free(synth); } static void test_synthetic(void) { test_instance_synthetic(test_instance); } static void test_trace_file(void) { const char *tmp = get_rand_str(); const char *tdir; struct stat st; char *file; tdir = tracefs_tracing_dir(); CU_TEST(tdir != NULL); CU_TEST(stat(tdir, &st) == 0); CU_TEST(S_ISDIR(st.st_mode)); file = tracefs_get_tracing_file(NULL); CU_TEST(file == NULL); file = tracefs_get_tracing_file(tmp); CU_TEST(file != NULL); CU_TEST(stat(file, &st) != 0); tracefs_put_tracing_file(file); file = tracefs_get_tracing_file("trace"); CU_TEST(file != NULL); CU_TEST(stat(file, &st) == 0); tracefs_put_tracing_file(file); } static void test_instance_file_read(struct tracefs_instance *inst, const char *fname) { const char *tdir = tracefs_tracing_dir(); char buf[BUFSIZ]; char *fpath; char *file; size_t fsize = 0; int size = 0; int fd; if (inst) { CU_TEST(asprintf(&fpath, "%s/instances/%s/%s", tdir, tracefs_instance_get_name(inst), fname) > 0); } else { CU_TEST(asprintf(&fpath, "%s/%s", tdir, fname) > 0); } memset(buf, 0, BUFSIZ); fd = open(fpath, O_RDONLY); CU_TEST(fd >= 0); fsize = read(fd, buf, BUFSIZ); CU_TEST(fsize >= 0); close(fd); buf[BUFSIZ - 1] = 0; file = tracefs_instance_file_read(inst, fname, &size); CU_TEST(file != NULL); CU_TEST(size == fsize); CU_TEST(strcmp(file, buf) == 0); free(fpath); free(file); } struct probe_test { enum tracefs_dynevent_type type; char *prefix; char *system; char *event; char *address; char *format; }; static bool check_probes(struct probe_test *probes, int count, struct tracefs_dynevent **devents, bool in_system, struct tracefs_instance *instance, struct tep_handle *tep) { enum tracefs_dynevent_type type; struct tep_event *tevent; char *ename; char *address; char *event; char *system; char *format; char *prefix; int found = 0; int ret; int i, j; for (i = 0; devents && devents[i]; i++) { type = tracefs_dynevent_info(devents[i], &system, &event, &prefix, &address, &format); for (j = 0; j < count; j++) { if (type != probes[j].type) continue; if (probes[j].event) ename = probes[j].event; else ename = probes[j].address; if (strcmp(ename, event)) continue; if (probes[j].system) { CU_TEST(strcmp(probes[j].system, system) == 0); } CU_TEST(strcmp(probes[j].address, address) == 0); if (probes[j].format) { CU_TEST(strcmp(probes[j].format, format) == 0); } if (probes[j].prefix) { CU_TEST(strcmp(probes[j].prefix, prefix) == 0); } ret = tracefs_event_enable(instance, system, event); if (in_system) { CU_TEST(ret == 0); } else { CU_TEST(ret != 0); } ret = tracefs_event_disable(instance, system, event); if (in_system) { CU_TEST(ret == 0); } else { CU_TEST(ret != 0); } tevent = tracefs_dynevent_get_event(tep, devents[i]); if (in_system) { CU_TEST(tevent != NULL); if (tevent) { CU_TEST(strcmp(tevent->name, event) == 0); CU_TEST(strcmp(tevent->system, system) == 0); } } else { CU_TEST(tevent == NULL); } found++; break; } free(system); free(event); free(prefix); free(address); free(format); } CU_TEST(found == count); if (found != count) return false; return true; } static void test_kprobes_instance(struct tracefs_instance *instance) { struct probe_test ktests[] = { { TRACEFS_DYNEVENT_KPROBE, "p", NULL, "mkdir", "do_mkdirat", "path=+u0($arg2):ustring" }, { TRACEFS_DYNEVENT_KPROBE, "p", NULL, "close", "close_fd", NULL }, { TRACEFS_DYNEVENT_KPROBE, "p", "ptest", "open2", "do_sys_openat2", "file=+u0($arg2):ustring flags=+0($arg3):x64" }, }; struct probe_test kretests[] = { { TRACEFS_DYNEVENT_KRETPROBE, NULL, NULL, "retopen", "do_sys_openat2", "ret=$retval" }, { TRACEFS_DYNEVENT_KRETPROBE, NULL, NULL, NULL, "do_sys_open", "ret=$retval" }, }; int kretprobe_count = sizeof(kretests) / sizeof((kretests)[0]); int kprobe_count = sizeof(ktests) / sizeof((ktests)[0]); struct tracefs_dynevent **dkretprobe; struct tracefs_dynevent **dkprobe; struct tracefs_dynevent **devents; struct tep_handle *tep; char *tmp; int ret; int i; tep = tep_alloc(); CU_TEST(tep != NULL); dkprobe = calloc(kprobe_count + 1, sizeof(*dkprobe)); dkretprobe = calloc(kretprobe_count + 1, sizeof(*dkretprobe)); /* Invalid parameters */ CU_TEST(tracefs_kprobe_alloc("test", NULL, NULL, "test") == NULL); CU_TEST(tracefs_kretprobe_alloc("test", NULL, NULL, "test", 0) == NULL); CU_TEST(tracefs_dynevent_create(NULL) != 0); CU_TEST(tracefs_dynevent_info(NULL, &tmp, &tmp, &tmp, &tmp, &tmp) == TRACEFS_DYNEVENT_UNKNOWN); CU_TEST(tracefs_kprobe_raw("test", "test", NULL, "test") != 0); CU_TEST(tracefs_kretprobe_raw("test", "test", NULL, "test") != 0); /* kprobes APIs */ ret = tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, true); CU_TEST(ret == 0); get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); for (i = 0; i < kprobe_count; i++) { dkprobe[i] = tracefs_kprobe_alloc(ktests[i].system, ktests[i].event, ktests[i].address, ktests[i].format); CU_TEST(dkprobe[i] != NULL); } dkprobe[i] = NULL; get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); CU_TEST(check_probes(ktests, kprobe_count, dkprobe, false, instance, tep)); for (i = 0; i < kretprobe_count; i++) { dkretprobe[i] = tracefs_kretprobe_alloc(kretests[i].system, kretests[i].event, kretests[i].address, kretests[i].format, 0); CU_TEST(dkretprobe[i] != NULL); } dkretprobe[i] = NULL; get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); CU_TEST(check_probes(kretests, kretprobe_count, dkretprobe, false, instance, tep)); for (i = 0; i < kprobe_count; i++) { CU_TEST(tracefs_dynevent_create(dkprobe[i]) == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, kprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); CU_TEST(check_probes(kretests, kretprobe_count, dkretprobe, false, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < kretprobe_count; i++) { CU_TEST(tracefs_dynevent_create(dkretprobe[i]) == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, kprobe_count + kretprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); CU_TEST(check_probes(kretests, kretprobe_count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < kretprobe_count; i++) { CU_TEST(tracefs_dynevent_destroy(dkretprobe[i], false) == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, kprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); CU_TEST(check_probes(kretests, kretprobe_count, dkretprobe, false, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < kprobe_count; i++) { CU_TEST(tracefs_dynevent_destroy(dkprobe[i], false) == 0); } get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); CU_TEST(check_probes(ktests, kprobe_count, dkprobe, false, instance, tep)); CU_TEST(check_probes(kretests, kretprobe_count, dkretprobe, false, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < kprobe_count; i++) tracefs_dynevent_free(dkprobe[i]); for (i = 0; i < kretprobe_count; i++) tracefs_dynevent_free(dkretprobe[i]); /* kprobes raw APIs */ ret = tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, true); CU_TEST(ret == 0); get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); for (i = 0; i < kprobe_count; i++) { ret = tracefs_kprobe_raw(ktests[i].system, ktests[i].event, ktests[i].address, ktests[i].format); CU_TEST(ret == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, kprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < kretprobe_count; i++) { ret = tracefs_kretprobe_raw(kretests[i].system, kretests[i].event, kretests[i].address, kretests[i].format); CU_TEST(ret == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE, kprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; devents = get_dynevents_check(TRACEFS_DYNEVENT_KRETPROBE, kretprobe_count); CU_TEST(check_probes(kretests, kretprobe_count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; devents = get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, kprobe_count + kretprobe_count); CU_TEST(check_probes(ktests, kprobe_count, devents, true, instance, tep)); CU_TEST(check_probes(kretests, kretprobe_count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; ret = tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, true); CU_TEST(ret == 0); get_dynevents_check(TRACEFS_DYNEVENT_KPROBE | TRACEFS_DYNEVENT_KRETPROBE, 0); free(dkretprobe); free(dkprobe); tep_free(tep); } static void test_kprobes(void) { test_kprobes_instance(test_instance); } static void test_eprobes_instance(struct tracefs_instance *instance) { struct probe_test etests[] = { { TRACEFS_DYNEVENT_EPROBE, "e", NULL, "sopen_in", "syscalls.sys_enter_openat", "file=+0($filename):ustring" }, { TRACEFS_DYNEVENT_EPROBE, "e", "etest", "sopen_out", "syscalls.sys_exit_openat", "res=$ret:u64" }, }; int count = sizeof(etests) / sizeof((etests)[0]); struct tracefs_dynevent **deprobes; struct tracefs_dynevent **devents; struct tep_handle *tep; char *tsys, *tevent; char *tmp, *sav; int ret; int i; tep = tep_alloc(); CU_TEST(tep != NULL); deprobes = calloc(count + 1, sizeof(*deprobes)); /* Invalid parameters */ CU_TEST(tracefs_eprobe_alloc("test", NULL, "test", "test", "test") == NULL); CU_TEST(tracefs_eprobe_alloc("test", "test", NULL, "test", "test") == NULL); CU_TEST(tracefs_eprobe_alloc("test", "test", "test", NULL, "test") == NULL); ret = tracefs_dynevent_destroy_all(TRACEFS_DYNEVENT_EPROBE, true); CU_TEST(ret == 0); get_dynevents_check(TRACEFS_DYNEVENT_EPROBE, 0); for (i = 0; i < count; i++) { tmp = strdup(etests[i].address); tsys = strtok_r(tmp, "./", &sav); tevent = strtok_r(NULL, "", &sav); deprobes[i] = tracefs_eprobe_alloc(etests[i].system, etests[i].event, tsys, tevent, etests[i].format); free(tmp); CU_TEST(deprobes[i] != NULL); } deprobes[i] = NULL; get_dynevents_check(TRACEFS_DYNEVENT_EPROBE, 0); CU_TEST(check_probes(etests, count, deprobes, false, instance, tep)); for (i = 0; i < count; i++) { CU_TEST(tracefs_dynevent_create(deprobes[i]) == 0); } devents = get_dynevents_check(TRACEFS_DYNEVENT_EPROBE, count); CU_TEST(check_probes(etests, count, devents, true, instance, tep)); tracefs_dynevent_list_free(devents); devents = NULL; for (i = 0; i < count; i++) { CU_TEST(tracefs_dynevent_destroy(deprobes[i], false) == 0); } get_dynevents_check(TRACEFS_DYNEVENT_EPROBE, 0); CU_TEST(check_probes(etests, count, deprobes, false, instance, tep)); for (i = 0; i < count; i++) tracefs_dynevent_free(deprobes[i]); free(deprobes); tep_free(tep); } static void test_eprobes(void) { test_eprobes_instance(test_instance); } #define FOFFSET 1000ll static void test_uprobes_instance(struct tracefs_instance *instance) { struct probe_test utests[] = { { TRACEFS_DYNEVENT_UPROBE, "p", "utest", "utest_u", NULL, "arg1=$stack2" }, { TRACEFS_DYNEVENT_URETPROBE, "r", "utest", "utest_r", NULL, "arg1=$retval" }, }; int count = sizeof(utests) / sizeof((utests)[0]); struct tracefs_dynevent **duprobes; struct tracefs_dynevent **duvents; char self[PATH_MAX] = { 0 }; struct tep_handle *tep; char *target = NULL; int i; tep = tep_alloc(); CU_TEST(tep != NULL); duprobes = calloc(count + 1, sizeof(*duvents)); CU_TEST(duprobes != NULL); CU_TEST(readlink("/proc/self/exe", self, sizeof(self)) > 0); CU_TEST(asprintf(&target, "%s:0x%0*llx", self, (int)(sizeof(void *) * 2), FOFFSET) > 0); for (i = 0; i < count; i++) utests[i].address = target; /* Invalid parameters */ CU_TEST(tracefs_uprobe_alloc(NULL, NULL, self, 0, NULL) == NULL); CU_TEST(tracefs_uprobe_alloc(NULL, "test", NULL, 0, NULL) == NULL); CU_TEST(tracefs_uretprobe_alloc(NULL, NULL, self, 0, NULL) == NULL); CU_TEST(tracefs_uretprobe_alloc(NULL, "test", NULL, 0, NULL) == NULL); for (i = 0; i < count; i++) { if (utests[i].type == TRACEFS_DYNEVENT_UPROBE) duprobes[i] = tracefs_uprobe_alloc(utests[i].system, utests[i].event, self, FOFFSET, utests[i].format); else duprobes[i] = tracefs_uretprobe_alloc(utests[i].system, utests[i].event, self, FOFFSET, utests[i].format); CU_TEST(duprobes[i] != NULL); } duprobes[i] = NULL; get_dynevents_check(TRACEFS_DYNEVENT_UPROBE | TRACEFS_DYNEVENT_URETPROBE, 0); CU_TEST(check_probes(utests, count, duprobes, false, instance, tep)); for (i = 0; i < count; i++) { CU_TEST(tracefs_dynevent_create(duprobes[i]) == 0); } duvents = get_dynevents_check(TRACEFS_DYNEVENT_UPROBE | TRACEFS_DYNEVENT_URETPROBE, count); CU_TEST(check_probes(utests, count, duvents, true, instance, tep)); tracefs_dynevent_list_free(duvents); for (i = 0; i < count; i++) { CU_TEST(tracefs_dynevent_destroy(duprobes[i], false) == 0); } get_dynevents_check(TRACEFS_DYNEVENT_UPROBE | TRACEFS_DYNEVENT_URETPROBE, 0); CU_TEST(check_probes(utests, count, duprobes, false, instance, tep)); for (i = 0; i < count; i++) tracefs_dynevent_free(duprobes[i]); free(duprobes); free(target); tep_free(tep); } static void test_uprobes(void) { test_uprobes_instance(test_instance); } static void test_instance_file(void) { struct tracefs_instance *instance = NULL; struct tracefs_instance *second = NULL; const char *name = get_rand_str(); const char *inst_name = NULL; const char *tdir; char *inst_file; char *inst_dir; struct stat st; char *file1; char *file2; char *tracer; char *fname; int size; int ret; tdir = tracefs_tracing_dir(); CU_TEST(tdir != NULL); CU_TEST(asprintf(&inst_dir, "%s/instances/%s", tdir, name) > 0); CU_TEST(stat(inst_dir, &st) != 0); CU_TEST(tracefs_instance_exists(name) == false); instance = tracefs_instance_create(name); CU_TEST(instance != NULL); CU_TEST(tracefs_instance_is_new(instance)); second = tracefs_instance_create(name); CU_TEST(second != NULL); CU_TEST(!tracefs_instance_is_new(second)); tracefs_instance_free(second); CU_TEST(tracefs_instance_exists(name) == true); CU_TEST(stat(inst_dir, &st) == 0); CU_TEST(S_ISDIR(st.st_mode)); inst_name = tracefs_instance_get_name(instance); CU_TEST(inst_name != NULL); CU_TEST(strcmp(inst_name, name) == 0); fname = tracefs_instance_get_dir(NULL); CU_TEST(fname != NULL); CU_TEST(strcmp(fname, tdir) == 0); free(fname); fname = tracefs_instance_get_dir(instance); CU_TEST(fname != NULL); CU_TEST(strcmp(fname, inst_dir) == 0); free(fname); CU_TEST(asprintf(&fname, "%s/"ALL_TRACERS, tdir) > 0); CU_TEST(fname != NULL); inst_file = tracefs_instance_get_file(NULL, ALL_TRACERS); CU_TEST(inst_file != NULL); CU_TEST(strcmp(fname, inst_file) == 0); tracefs_put_tracing_file(inst_file); free(fname); CU_TEST(asprintf(&fname, "%s/instances/%s/"ALL_TRACERS, tdir, name) > 0); CU_TEST(fname != NULL); CU_TEST(stat(fname, &st) == 0); inst_file = tracefs_instance_get_file(instance, ALL_TRACERS); CU_TEST(inst_file != NULL); CU_TEST(strcmp(fname, inst_file) == 0); test_instance_file_read(NULL, ALL_TRACERS); test_instance_file_read(instance, ALL_TRACERS); file1 = tracefs_instance_file_read(instance, ALL_TRACERS, NULL); CU_TEST(file1 != NULL); tracer = strtok(file1, " "); CU_TEST(tracer != NULL); ret = tracefs_instance_file_write(instance, CUR_TRACER, tracer); CU_TEST(ret == strlen(tracer)); file2 = tracefs_instance_file_read(instance, CUR_TRACER, &size); CU_TEST(file2 != NULL); CU_TEST(size >= strlen(tracer)); CU_TEST(strncmp(file2, tracer, strlen(tracer)) == 0); free(file1); free(file2); tracefs_put_tracing_file(inst_file); free(fname); CU_TEST(tracefs_file_exists(NULL, (char *)name) == false); CU_TEST(tracefs_dir_exists(NULL, (char *)name) == false); CU_TEST(tracefs_file_exists(instance, (char *)name) == false); CU_TEST(tracefs_dir_exists(instance, (char *)name) == false); CU_TEST(tracefs_file_exists(NULL, CUR_TRACER) == true); CU_TEST(tracefs_dir_exists(NULL, CUR_TRACER) == false); CU_TEST(tracefs_file_exists(instance, CUR_TRACER) == true); CU_TEST(tracefs_dir_exists(instance, CUR_TRACER) == false); CU_TEST(tracefs_file_exists(NULL, PER_CPU) == false); CU_TEST(tracefs_dir_exists(NULL, PER_CPU) == true); CU_TEST(tracefs_file_exists(instance, PER_CPU) == false); CU_TEST(tracefs_dir_exists(instance, PER_CPU) == true); CU_TEST(tracefs_instance_destroy(NULL) != 0); CU_TEST(tracefs_instance_destroy(instance) == 0); CU_TEST(tracefs_instance_destroy(instance) != 0); tracefs_instance_free(instance); CU_TEST(stat(inst_dir, &st) != 0); free(inst_dir); } static bool check_fd_name(int fd, const char *dir, const char *name) { char link[PATH_MAX + 1]; char path[PATH_MAX + 1]; struct stat st; char *file; int ret; snprintf(link, PATH_MAX, "/proc/self/fd/%d", fd); ret = lstat(link, &st); CU_TEST(ret == 0); if (ret < 0) return false; CU_TEST(S_ISLNK(st.st_mode)); if (!S_ISLNK(st.st_mode)) return false; ret = readlink(link, path, PATH_MAX); CU_TEST(ret > 0); if (ret > PATH_MAX || ret < 0) return false; path[ret] = 0; ret = strncmp(dir, path, strlen(dir)); CU_TEST(ret == 0); if (ret) return false; file = basename(path); CU_TEST(file != NULL); if (!file) return false; ret = strcmp(file, name); CU_TEST(ret == 0); if (ret) return false; return true; } #define FLAGS_STR "flags:" static bool check_fd_mode(int fd, int mode) { char path[PATH_MAX + 1]; long fmode = -1; char *line = NULL; struct stat st; size_t len = 0; ssize_t size; FILE *file; int ret; snprintf(path, PATH_MAX, "/proc/self/fdinfo/%d", fd); ret = stat(path, &st); CU_TEST(ret == 0); if (ret < 0) return false; file = fopen(path, "r"); if (!file) return false; while ((size = getline(&line, &len, file)) > 0) { if (strncmp(line, FLAGS_STR, strlen(FLAGS_STR))) continue; fmode = strtol(line + strlen(FLAGS_STR), NULL, 8); break; } free(line); fclose(file); if (fmode < 0 || (O_ACCMODE & fmode) != (O_ACCMODE & mode)) return false; return true; } static void test_instance_file_fd(struct tracefs_instance *instance) { const char *name = get_rand_str(); const char *tdir = tracefs_instance_get_trace_dir(instance); long long res = -1; char rd[2]; int fd; CU_TEST(tdir != NULL); fd = tracefs_instance_file_open(instance, name, -1); CU_TEST(fd == -1); fd = tracefs_instance_file_open(instance, TRACE_ON, O_RDONLY); CU_TEST(fd >= 0); CU_TEST(check_fd_name(fd, tdir, TRACE_ON)); CU_TEST(check_fd_mode(fd, O_RDONLY)); CU_TEST(tracefs_instance_file_read_number(instance, ALL_TRACERS, &res) != 0); CU_TEST(tracefs_instance_file_read_number(instance, name, &res) != 0); CU_TEST(tracefs_instance_file_read_number(instance, TRACE_ON, &res) == 0); CU_TEST((res == 0 || res == 1)); CU_TEST(read(fd, &rd, 1) == 1); rd[1] = 0; CU_TEST(res == atoi(rd)); close(fd); } static void test_file_fd(void) { test_instance_file_fd(test_instance); } static void test_instance_tracing_onoff(struct tracefs_instance *instance) { const char *tdir = tracefs_instance_get_trace_dir(instance); long long res = -1; int fd; CU_TEST(tdir != NULL); fd = tracefs_trace_on_get_fd(instance); CU_TEST(fd >= 0); CU_TEST(check_fd_name(fd, tdir, TRACE_ON)); CU_TEST(check_fd_mode(fd, O_RDWR)); CU_TEST(tracefs_instance_file_read_number(instance, TRACE_ON, &res) == 0); if (res == 1) { CU_TEST(tracefs_trace_is_on(instance) == 1); CU_TEST(tracefs_trace_off(instance) == 0); CU_TEST(tracefs_trace_is_on(instance) == 0); CU_TEST(tracefs_trace_on(instance) == 0); CU_TEST(tracefs_trace_is_on(instance) == 1); CU_TEST(tracefs_trace_off_fd(fd) == 0); CU_TEST(tracefs_trace_is_on(instance) == 0); CU_TEST(tracefs_trace_on_fd(fd) == 0); CU_TEST(tracefs_trace_is_on(instance) == 1); } else { CU_TEST(tracefs_trace_is_on(instance) == 0); CU_TEST(tracefs_trace_on(instance) == 0); CU_TEST(tracefs_trace_is_on(instance) == 1); CU_TEST(tracefs_trace_off(instance) == 0); CU_TEST(tracefs_trace_is_on(instance) == 0); CU_TEST(tracefs_trace_on_fd(fd) == 0); CU_TEST(tracefs_trace_is_on(instance) == 1); CU_TEST(tracefs_trace_off_fd(fd) == 0); CU_TEST(tracefs_trace_is_on(instance) == 0); } if (fd >= 0) close(fd); } static void test_tracing_onoff(void) { test_instance_tracing_onoff(test_instance); } static bool check_option(struct tracefs_instance *instance, enum tracefs_option_id id, bool exist, int enabled) { const char *name = tracefs_option_name(id); char file[PATH_MAX]; char *path = NULL; bool ret = false; bool supported; struct stat st; char buf[10]; int fd = 0; int r; int rstat; CU_TEST(name != NULL); supported = tracefs_option_is_supported(instance, id); CU_TEST(supported == exist); if (supported != exist) goto out; snprintf(file, PATH_MAX, "options/%s", name); path = tracefs_instance_get_file(instance, file); CU_TEST(path != NULL); rstat = stat(path, &st); if (exist) { CU_TEST(rstat == 0); if (rstat != 0) goto out; } else { CU_TEST(stat(path, &st) == -1); if (rstat != -1) goto out; } fd = open(path, O_RDONLY); if (exist) { CU_TEST(fd >= 0); if (fd < 0) goto out; } else { CU_TEST(fd < 0); if (fd >= 0) goto out; } if (exist && enabled >= 0) { int val = enabled ? '1' : '0'; r = read(fd, buf, 10); CU_TEST(r >= 1); CU_TEST(buf[0] == val); if (buf[0] != val) goto out; } ret = true; out: tracefs_put_tracing_file(path); if (fd >= 0) close(fd); return ret; } static void test_instance_tracing_options(struct tracefs_instance *instance) { const struct tracefs_options_mask *enabled; const struct tracefs_options_mask *all_copy; const struct tracefs_options_mask *all; enum tracefs_option_id i = 1; char file[PATH_MAX]; const char *name; all = tracefs_options_get_supported(instance); all_copy = tracefs_options_get_supported(instance); enabled = tracefs_options_get_enabled(instance); CU_TEST(all != NULL); /* Invalid parameters test */ CU_TEST(!tracefs_option_is_supported(instance, TRACEFS_OPTION_INVALID)); CU_TEST(!tracefs_option_is_enabled(instance, TRACEFS_OPTION_INVALID)); CU_TEST(tracefs_option_enable(instance, TRACEFS_OPTION_INVALID) == -1); CU_TEST(tracefs_option_disable(instance, TRACEFS_OPTION_INVALID) == -1); name = tracefs_option_name(TRACEFS_OPTION_INVALID); CU_TEST(!strcmp(name, "unknown")); /* Test all valid options */ for (i = 1; i < TRACEFS_OPTION_MAX; i++) { name = tracefs_option_name(i); CU_TEST(name != NULL); CU_TEST(strcmp(name, "unknown")); snprintf(file, PATH_MAX, "options/%s", name); if (tracefs_option_mask_is_set(all, i)) { CU_TEST(check_option(instance, i, true, -1)); CU_TEST(tracefs_option_is_supported(instance, i)); } else { CU_TEST(check_option(instance, i, false, -1)); CU_TEST(!tracefs_option_is_supported(instance, i)); } if (tracefs_option_mask_is_set(enabled, i)) { CU_TEST(check_option(instance, i, true, 1)); CU_TEST(tracefs_option_is_supported(instance, i)); CU_TEST(tracefs_option_is_enabled(instance, i)); CU_TEST(tracefs_option_disable(instance, i) == 0); CU_TEST(check_option(instance, i, true, 0)); CU_TEST(tracefs_option_enable(instance, i) == 0); CU_TEST(check_option(instance, i, true, 1)); } else if (tracefs_option_mask_is_set(all_copy, i)) { CU_TEST(check_option(instance, i, true, 0)); CU_TEST(tracefs_option_is_supported(instance, i)); CU_TEST(!tracefs_option_is_enabled(instance, i)); CU_TEST(tracefs_option_enable(instance, i) == 0); CU_TEST(check_option(instance, i, true, 1)); CU_TEST(tracefs_option_disable(instance, i) == 0); CU_TEST(check_option(instance, i, true, 0)); } } } static void test_tracing_options(void) { test_instance_tracing_options(test_instance); } static void exclude_string(char **strings, char *name) { int i; for (i = 0; strings[i]; i++) { if (strcmp(strings[i], name) == 0) { free(strings[i]); strings[i] = strdup("/"); return; } } } static void test_check_files(const char *fdir, char **files) { struct dirent *dent; DIR *dir; int i; dir = opendir(fdir); CU_TEST(dir != NULL); while ((dent = readdir(dir))) exclude_string(files, dent->d_name); closedir(dir); for (i = 0; files[i]; i++) CU_TEST(files[i][0] == '/'); } static void system_event(const char *tdir) { char **systems; char **events; char *sdir = NULL; systems = tracefs_event_systems(tdir); CU_TEST(systems != NULL); events = tracefs_system_events(tdir, systems[0]); CU_TEST(events != NULL); asprintf(&sdir, "%s/events/%s", tdir, systems[0]); CU_TEST(sdir != NULL); test_check_files(sdir, events); free(sdir); sdir = NULL; asprintf(&sdir, "%s/events", tdir); CU_TEST(sdir != NULL); test_check_files(sdir, systems); tracefs_list_free(systems); tracefs_list_free(events); free(sdir); } static void test_system_event(void) { const char *tdir; tdir = tracefs_tracing_dir(); CU_TEST(tdir != NULL); system_event(tdir); } static void test_instance_tracers(struct tracefs_instance *instance) { const char *tdir; char **tracers; char *tfile; char *tracer; int i; tdir = tracefs_instance_get_trace_dir(instance); CU_TEST(tdir != NULL); tracers = tracefs_tracers(tdir); CU_TEST(tracers != NULL); for (i = 0; tracers[i]; i++) CU_TEST(tracefs_tracer_available(tdir, tracers[i])); tfile = tracefs_instance_file_read(NULL, ALL_TRACERS, NULL); tracer = strtok(tfile, " "); while (tracer) { exclude_string(tracers, tracer); tracer = strtok(NULL, " "); } for (i = 0; tracers[i]; i++) CU_TEST(tracers[i][0] == '/'); tracefs_list_free(tracers); free(tfile); } static void test_tracers(void) { test_instance_tracers(test_instance); } static void test_check_events(struct tep_handle *tep, char *system, bool exist) { struct dirent *dent; char file[PATH_MAX]; char buf[1024]; char *edir = NULL; const char *tdir; DIR *dir; int fd; tdir = tracefs_tracing_dir(); CU_TEST(tdir != NULL); asprintf(&edir, "%s/events/%s", tdir, system); dir = opendir(edir); CU_TEST(dir != NULL); while ((dent = readdir(dir))) { if (dent->d_name[0] == '.') continue; sprintf(file, "%s/%s/id", edir, dent->d_name); fd = open(file, O_RDONLY); if (fd < 0) continue; CU_TEST(read(fd, buf, 1024) > 0); if (exist) { CU_TEST(tep_find_event(tep, atoi(buf)) != NULL); } else { CU_TEST(tep_find_event(tep, atoi(buf)) == NULL); } close(fd); } closedir(dir); free(edir); } static void local_events(const char *tdir) { struct tep_handle *tep; char **systems; char *lsystems[3]; int i; tep = tracefs_local_events(tdir); CU_TEST(tep != NULL); systems = tracefs_event_systems(tdir); CU_TEST(systems != NULL); for (i = 0; systems[i]; i++) test_check_events(tep, systems[i], true); tep_free(tep); memset(lsystems, 0, sizeof(lsystems)); for (i = 0; systems[i]; i++) { if (!lsystems[0]) lsystems[0] = systems[i]; else if (!lsystems[2]) lsystems[2] = systems[i]; else break; } if (lsystems[0] && lsystems[2]) { tep = tracefs_local_events_system(tdir, (const char * const *)lsystems); CU_TEST(tep != NULL); test_check_events(tep, lsystems[0], true); test_check_events(tep, lsystems[2], false); } tep_free(tep); tep = tep_alloc(); CU_TEST(tep != NULL); CU_TEST(tracefs_fill_local_events(tdir, tep, NULL) == 0); for (i = 0; systems[i]; i++) test_check_events(tep, systems[i], true); tep_free(tep); tracefs_list_free(systems); } static void test_local_events(void) { const char *tdir; tdir = tracefs_tracing_dir(); CU_TEST(tdir != NULL); local_events(tdir); } struct test_walk_instance { struct tracefs_instance *instance; bool found; }; #define WALK_COUNT 10 int test_instances_walk_cb(const char *name, void *data) { struct test_walk_instance *instances = (struct test_walk_instance *)data; int i; CU_TEST(instances != NULL); CU_TEST(name != NULL); for (i = 0; i < WALK_COUNT; i++) { if (!strcmp(name, tracefs_instance_get_name(instances[i].instance))) { instances[i].found = true; break; } } return 0; } static void test_instances_walk(void) { struct test_walk_instance instances[WALK_COUNT]; int i; memset(instances, 0, WALK_COUNT * sizeof(struct test_walk_instance)); for (i = 0; i < WALK_COUNT; i++) { instances[i].instance = tracefs_instance_create(get_rand_str()); CU_TEST(instances[i].instance != NULL); } CU_TEST(tracefs_instances_walk(test_instances_walk_cb, instances) == 0); for (i = 0; i < WALK_COUNT; i++) { CU_TEST(instances[i].found); tracefs_instance_destroy(instances[i].instance); instances[i].found = false; } CU_TEST(tracefs_instances_walk(test_instances_walk_cb, instances) == 0); for (i = 0; i < WALK_COUNT; i++) { CU_TEST(!instances[i].found); tracefs_instance_free(instances[i].instance); } } static void current_clock_check(struct tracefs_instance *instance, const char *clock) { int size = 0; char *clocks; char *str; clocks = tracefs_instance_file_read(instance, TRACE_CLOCK, &size); CU_TEST_FATAL(clocks != NULL); CU_TEST(size > strlen(clock)); str = strstr(clocks, clock); CU_TEST(str != NULL); CU_TEST(str != clocks); CU_TEST(*(str - 1) == '['); CU_TEST(*(str + strlen(clock)) == ']'); free(clocks); } static void test_instance_get_clock(struct tracefs_instance *instance) { const char *clock; clock = tracefs_get_clock(instance); CU_TEST_FATAL(clock != NULL); current_clock_check(instance, clock); free((char *)clock); } static void test_get_clock(void) { test_instance_get_clock(test_instance); } static void copy_trace_file(const char *from, char *to) { int fd_from = -1; int fd_to = -1; char buf[512]; int ret; fd_from = open(from, O_RDONLY); if (fd_from < 0) goto out; fd_to = open(to, O_WRONLY | O_TRUNC | O_CREAT, S_IRWXU | S_IRWXG); if (fd_to < 0) goto out; while ((ret = read(fd_from, buf, 512)) > 0) { if (write(fd_to, buf, ret) == -1) break; } out: if (fd_to >= 0) close(fd_to); if (fd_from >= 0) close(fd_from); } static int trace_dir_base; static char *trace_tmp_dir; static int copy_trace_walk(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { char path[PATH_MAX]; sprintf(path, "%s%s", trace_tmp_dir, fpath + trace_dir_base); switch (typeflag) { case FTW_D: mkdir(path, 0750); break; case FTW_F: copy_trace_file(fpath, path); break; default: break; } return 0; } static void dup_trace_dir(char *to, char *dir) { const char *trace_dir = tracefs_tracing_dir(); char file_from[PATH_MAX]; char file_to[PATH_MAX]; sprintf(file_from, "%s/%s", trace_dir, dir); sprintf(file_to, "%s/%s", to, dir); trace_tmp_dir = file_to; trace_dir_base = strlen(file_from); nftw(file_from, copy_trace_walk, 20, 0); } static void dup_trace_file(char *to, char *file) { const char *trace_dir = tracefs_tracing_dir(); char file_from[PATH_MAX]; char file_to[PATH_MAX]; sprintf(file_from, "%s/%s", trace_dir, file); sprintf(file_to, "%s/%s", to, file); copy_trace_file(file_from, file_to); } static char *copy_trace_dir(void) { char template[] = TEST_TRACE_DIR; char *dname = mkdtemp(template); dup_trace_dir(dname, "events"); dup_trace_dir(dname, "options"); dup_trace_file(dname, TRACE_ON); dup_trace_file(dname, CUR_TRACER); dup_trace_file(dname, TRACE_CLOCK); dup_trace_file(dname, ALL_TRACERS); return strdup(dname); } static int del_trace_walk(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { remove(fpath); return 0; } void del_trace_dir(char *dir) { nftw(dir, del_trace_walk, 20, FTW_DEPTH); } static void test_custom_trace_dir(void) { char *tdir = "/tmp/custom_tracefs"; struct tracefs_instance *instance; char *dname = copy_trace_dir(); const char *trace_dir; char *tfile; instance = tracefs_instance_alloc(dname, NULL); CU_TEST(instance != NULL); system_event(dname); local_events(dname); test_instance_tracing_options(instance); test_instance_get_clock(instance); test_instance_file_fd(instance); test_instance_tracers(instance); tracefs_instance_free(instance); del_trace_dir(dname); free(dname); trace_dir = tracefs_tracing_dir(); CU_TEST(trace_dir != NULL); CU_TEST(tracefs_set_tracing_dir(tdir) == 0); CU_TEST(strcmp(tdir, tracefs_tracing_dir()) == 0); tfile = tracefs_get_tracing_file("trace"); CU_TEST(tfile != NULL); CU_TEST(strcmp(tdir, dirname(tfile)) == 0); free(tfile); CU_TEST(tracefs_set_tracing_dir(NULL) == 0); CU_TEST(strcmp(trace_dir, tracefs_tracing_dir()) == 0); tfile = tracefs_get_tracing_file("trace"); CU_TEST(tfile != NULL); CU_TEST(strcmp(trace_dir, dirname(tfile)) == 0); free(tfile); } static int test_suite_destroy(void) { tracefs_instance_destroy(test_instance); tracefs_instance_free(test_instance); tep_free(test_tep); return 0; } static int test_suite_init(void) { const char *systems[] = {"ftrace", NULL}; test_tep = tracefs_local_events_system(NULL, systems); if (test_tep == NULL) return 1; test_instance = tracefs_instance_create(TEST_INSTANCE_NAME); if (!test_instance) return 1; return 0; } void test_tracefs_lib(void) { CU_pSuite suite = NULL; suite = CU_add_suite(TRACEFS_SUITE, test_suite_init, test_suite_destroy); if (suite == NULL) { fprintf(stderr, "Suite \"%s\" cannot be ceated\n", TRACEFS_SUITE); return; } CU_add_test(suite, "Test tracefs/debugfs mounting", test_mounting); CU_add_test(suite, "trace cpu read", test_trace_cpu_read); CU_add_test(suite, "trace cpu pipe", test_trace_cpu_pipe); CU_add_test(suite, "trace sql", test_trace_sql); CU_add_test(suite, "tracing file / directory APIs", test_trace_file); CU_add_test(suite, "instance file / directory APIs", test_file_fd); CU_add_test(suite, "instance file descriptor", test_instance_file); CU_add_test(suite, "systems and events APIs", test_system_event); CU_add_test(suite, "tracefs_iterate_raw_events API", test_iter_raw_events); /* Follow events test must be after the iterate raw events above */ CU_add_test(suite, "Follow events", test_follow_events); CU_add_test(suite, "tracefs_tracers API", test_tracers); CU_add_test(suite, "tracefs_local events API", test_local_events); CU_add_test(suite, "tracefs_instances_walk API", test_instances_walk); CU_add_test(suite, "tracefs_get_clock API", test_get_clock); CU_add_test(suite, "tracing on / off", test_tracing_onoff); CU_add_test(suite, "tracing options", test_tracing_options); CU_add_test(suite, "custom system directory", test_custom_trace_dir); CU_add_test(suite, "ftrace marker", test_ftrace_marker); CU_add_test(suite, "kprobes", test_kprobes); CU_add_test(suite, "synthetic events", test_synthetic); CU_add_test(suite, "eprobes", test_eprobes); CU_add_test(suite, "uprobes", test_uprobes); }