*
*/
-#include <stddef.h>
+#include <lttng/lttng.h>
+
#include <stdbool.h>
+#include <stddef.h>
#include <tap/tap.h>
-#include <lttng/lttng.h>
-
#define NUM_TESTS 26
#define SIZE_THRESHOLD_BYTES 1024
-#define PERIODIC_TIME_US 1000000
+#define PERIODIC_TIME_US 1000000
const char *session_name;
-static
-bool schedules_equal(const struct lttng_rotation_schedule *a,
- const struct lttng_rotation_schedule *b)
+static bool schedules_equal(const struct lttng_rotation_schedule *a,
+ const struct lttng_rotation_schedule *b)
{
bool equal = false;
enum lttng_rotation_schedule_type a_type, b_type;
a_type = lttng_rotation_schedule_get_type(a);
b_type = lttng_rotation_schedule_get_type(b);
if (a_type != b_type) {
- diag("Schedules are not of the same type (%i != %i)",
- a_type, b_type);
+ diag("Schedules are not of the same type (%i != %i)", a_type, b_type);
goto end;
}
switch (a_type) {
case LTTNG_ROTATION_SCHEDULE_TYPE_SIZE_THRESHOLD:
{
- status = lttng_rotation_schedule_size_threshold_get_threshold(a,
- &a_value);
+ status = lttng_rotation_schedule_size_threshold_get_threshold(a, &a_value);
if (status != LTTNG_ROTATION_STATUS_OK) {
diag("Failed to retrieve size threshold of schedule 'a'");
goto end;
}
- status = lttng_rotation_schedule_size_threshold_get_threshold(b,
- &b_value);
+ status = lttng_rotation_schedule_size_threshold_get_threshold(b, &b_value);
if (status != LTTNG_ROTATION_STATUS_OK) {
diag("Failed to retrieve size threshold of schedule 'b'");
goto end;
}
case LTTNG_ROTATION_SCHEDULE_TYPE_PERIODIC:
{
- status = lttng_rotation_schedule_periodic_get_period(a,
- &a_value);
+ status = lttng_rotation_schedule_periodic_get_period(a, &a_value);
if (status != LTTNG_ROTATION_STATUS_OK) {
diag("Failed to retrieve period of schedule 'a'");
goto end;
}
- status = lttng_rotation_schedule_periodic_get_period(b,
- &b_value);
+ status = lttng_rotation_schedule_periodic_get_period(b, &b_value);
if (status != LTTNG_ROTATION_STATUS_OK) {
diag("Failed to retrieve period of schedule 'b'");
goto end;
return equal;
}
-static
-void test_add_null_session(void)
+static void test_add_null_session(void)
{
enum lttng_rotation_status status;
struct lttng_rotation_schedule *size_schedule = NULL;
status = lttng_session_add_rotation_schedule(NULL, size_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "NULL session name rejected by lttng_session_add_rotation_schedule()");
+ "NULL session name rejected by lttng_session_add_rotation_schedule()");
lttng_rotation_schedule_destroy(size_schedule);
}
-static
-void test_add_null_schedule(void)
+static void test_add_null_schedule(void)
{
enum lttng_rotation_status status;
status = lttng_session_add_rotation_schedule(session_name, NULL);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "NULL schedule rejected by lttng_session_add_rotation_schedule()");
+ "NULL schedule rejected by lttng_session_add_rotation_schedule()");
}
-static
-void test_add_uninitialized_schedule(void)
+static void test_add_uninitialized_schedule(void)
{
enum lttng_rotation_status status;
- struct lttng_rotation_schedule *size_schedule = NULL,
- *periodic_schedule = NULL;
+ struct lttng_rotation_schedule *size_schedule = NULL, *periodic_schedule = NULL;
size_schedule = lttng_rotation_schedule_size_threshold_create();
ok(size_schedule, "Created a size threshold session rotation schedule");
- status = lttng_session_add_rotation_schedule(session_name,
- size_schedule);
+ status = lttng_session_add_rotation_schedule(session_name, size_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "Uninitialized size schedule rejected by lttng_session_add_rotation_schedule()");
+ "Uninitialized size schedule rejected by lttng_session_add_rotation_schedule()");
periodic_schedule = lttng_rotation_schedule_periodic_create();
ok(periodic_schedule, "Created a periodic session rotation schedule");
- status = lttng_session_add_rotation_schedule(session_name,
- periodic_schedule);
+ status = lttng_session_add_rotation_schedule(session_name, periodic_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "Uninitialized periodic schedule rejected by lttng_session_add_rotation_schedule()");
+ "Uninitialized periodic schedule rejected by lttng_session_add_rotation_schedule()");
lttng_rotation_schedule_destroy(size_schedule);
lttng_rotation_schedule_destroy(periodic_schedule);
}
-static
-void test_remove_null_session(void)
+static void test_remove_null_session(void)
{
enum lttng_rotation_status status;
struct lttng_rotation_schedule *size_schedule = NULL;
status = lttng_session_remove_rotation_schedule(NULL, size_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "NULL session name rejected by lttng_session_remove_rotation_schedule()");
+ "NULL session name rejected by lttng_session_remove_rotation_schedule()");
lttng_rotation_schedule_destroy(size_schedule);
}
-static
-void test_remove_null_schedule(void)
+static void test_remove_null_schedule(void)
{
enum lttng_rotation_status status;
status = lttng_session_remove_rotation_schedule(session_name, NULL);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "NULL schedule rejected by lttng_session_remove_rotation_schedule()");
+ "NULL schedule rejected by lttng_session_remove_rotation_schedule()");
}
-static
-void test_remove_uninitialized_schedule(void)
+static void test_remove_uninitialized_schedule(void)
{
enum lttng_rotation_status status;
- struct lttng_rotation_schedule *size_schedule = NULL,
- *periodic_schedule = NULL;
+ struct lttng_rotation_schedule *size_schedule = NULL, *periodic_schedule = NULL;
size_schedule = lttng_rotation_schedule_size_threshold_create();
- status = lttng_session_remove_rotation_schedule(session_name,
- size_schedule);
+ status = lttng_session_remove_rotation_schedule(session_name, size_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "Uninitialized size schedule rejected by lttng_session_remove_rotation_schedule()");
+ "Uninitialized size schedule rejected by lttng_session_remove_rotation_schedule()");
periodic_schedule = lttng_rotation_schedule_periodic_create();
- status = lttng_session_remove_rotation_schedule(session_name,
- periodic_schedule);
+ status = lttng_session_remove_rotation_schedule(session_name, periodic_schedule);
ok(status == LTTNG_ROTATION_STATUS_INVALID,
- "Uninitialized periodic schedule rejected by lttng_session_remove_rotation_schedule()");
+ "Uninitialized periodic schedule rejected by lttng_session_remove_rotation_schedule()");
lttng_rotation_schedule_destroy(size_schedule);
lttng_rotation_schedule_destroy(periodic_schedule);
}
-static
-void test_uninitialized_schedule_get(void)
+static void test_uninitialized_schedule_get(void)
{
uint64_t value;
enum lttng_rotation_status status;
- struct lttng_rotation_schedule *size_schedule = NULL,
- *periodic_schedule = NULL;
+ struct lttng_rotation_schedule *size_schedule = NULL, *periodic_schedule = NULL;
size_schedule = lttng_rotation_schedule_size_threshold_create();
periodic_schedule = lttng_rotation_schedule_periodic_create();
- status = lttng_rotation_schedule_size_threshold_get_threshold(
- size_schedule, &value);
+ status = lttng_rotation_schedule_size_threshold_get_threshold(size_schedule, &value);
ok(status == LTTNG_ROTATION_STATUS_UNAVAILABLE,
- "Getter on size threshold rotation schedule returns LTTNG_ROTATION_STATUS_UNAVAILABLE by default");
- status = lttng_rotation_schedule_periodic_get_period(periodic_schedule,
- &value);
+ "Getter on size threshold rotation schedule returns LTTNG_ROTATION_STATUS_UNAVAILABLE by default");
+ status = lttng_rotation_schedule_periodic_get_period(periodic_schedule, &value);
ok(status == LTTNG_ROTATION_STATUS_UNAVAILABLE,
- "Getter on periodic rotation schedule returns LTTNG_ROTATION_STATUS_UNAVAILABLE by default");
+ "Getter on periodic rotation schedule returns LTTNG_ROTATION_STATUS_UNAVAILABLE by default");
lttng_rotation_schedule_destroy(size_schedule);
lttng_rotation_schedule_destroy(periodic_schedule);
-
}
-static
-void test_add_list_remove_schedule(
- const struct lttng_rotation_schedule *original_schedule)
+static void test_add_list_remove_schedule(const struct lttng_rotation_schedule *original_schedule)
{
int ret;
unsigned int schedules_count = 0;
const struct lttng_rotation_schedule *list_schedule;
struct lttng_rotation_schedules *list_schedules;
- status = lttng_session_add_rotation_schedule(session_name,
- original_schedule);
+ status = lttng_session_add_rotation_schedule(session_name, original_schedule);
ok(status == LTTNG_ROTATION_STATUS_OK,
- "Add a rotation schedule to session \'%s\'",
- session_name);
+ "Add a rotation schedule to session \'%s\'",
+ session_name);
- ret = lttng_session_list_rotation_schedules(session_name,
- &list_schedules);
+ ret = lttng_session_list_rotation_schedules(session_name, &list_schedules);
ok(ret == LTTNG_OK && list_schedules,
- "List rotation schedules of session \'%s\'",
- session_name);
+ "List rotation schedules of session \'%s\'",
+ session_name);
- status = lttng_rotation_schedules_get_count(list_schedules,
- &schedules_count);
+ status = lttng_rotation_schedules_get_count(list_schedules, &schedules_count);
ok(status == LTTNG_ROTATION_STATUS_OK && schedules_count == 1,
- "Listing returned 1 rotation schedule");
+ "Listing returned 1 rotation schedule");
- list_schedule = lttng_rotation_schedules_get_at_index(list_schedules,
- 0);
- ok(list_schedule,
- "Obtain the first schedule of a schedules list");
+ list_schedule = lttng_rotation_schedules_get_at_index(list_schedules, 0);
+ ok(list_schedule, "Obtain the first schedule of a schedules list");
ok(schedules_equal(original_schedule, list_schedule),
- "Schedule returned by the listing is equal to the reference schedule that was added");
+ "Schedule returned by the listing is equal to the reference schedule that was added");
- status = lttng_session_remove_rotation_schedule(session_name,
- list_schedule);
+ status = lttng_session_remove_rotation_schedule(session_name, list_schedule);
ok(status == LTTNG_ROTATION_STATUS_OK,
- "Remove rotation schedule returned by the schedules listing");
+ "Remove rotation schedule returned by the schedules listing");
lttng_rotation_schedules_destroy(list_schedules);
- (void) lttng_session_list_rotation_schedules(session_name,
- &list_schedules);
- status = lttng_rotation_schedules_get_count(list_schedules,
- &schedules_count);
+ (void) lttng_session_list_rotation_schedules(session_name, &list_schedules);
+ status = lttng_rotation_schedules_get_count(list_schedules, &schedules_count);
ok(status == LTTNG_ROTATION_STATUS_OK && schedules_count == 0,
- "Listing returned 0 rotation schedules after removal");
+ "Listing returned 0 rotation schedules after removal");
lttng_rotation_schedules_destroy(list_schedules);
}
-static
-void test_add_list_remove_size_schedule(void)
+static void test_add_list_remove_size_schedule(void)
{
struct lttng_rotation_schedule *size_schedule;
diag("Add, list, and remove a size threshold rotation schedule");
size_schedule = lttng_rotation_schedule_size_threshold_create();
- (void) lttng_rotation_schedule_size_threshold_set_threshold(
- size_schedule, SIZE_THRESHOLD_BYTES);
+ (void) lttng_rotation_schedule_size_threshold_set_threshold(size_schedule,
+ SIZE_THRESHOLD_BYTES);
test_add_list_remove_schedule(size_schedule);
lttng_rotation_schedule_destroy(size_schedule);
}
-static
-void test_add_list_remove_periodic_schedule(void)
+static void test_add_list_remove_periodic_schedule(void)
{
struct lttng_rotation_schedule *periodic_schedule;
diag("Add, list, and remove a periodic rotation schedule");
periodic_schedule = lttng_rotation_schedule_periodic_create();
- (void) lttng_rotation_schedule_periodic_set_period(
- periodic_schedule, PERIODIC_TIME_US);
+ (void) lttng_rotation_schedule_periodic_set_period(periodic_schedule, PERIODIC_TIME_US);
test_add_list_remove_schedule(periodic_schedule);
lttng_rotation_schedule_destroy(periodic_schedule);
}