return ret;
}
-struct bt_ctf_clock_class *bt_clock_class_priority_map_get_clock_class_by_index(
+struct bt_clock_class *bt_clock_class_priority_map_get_clock_class_by_index(
struct bt_clock_class_priority_map *cc_prio_map,
uint64_t index)
{
- struct bt_ctf_clock_class *clock_class = NULL;
+ struct bt_clock_class *clock_class = NULL;
if (!cc_prio_map) {
BT_LOGW_STR("Invalid parameter: clock class priority map is NULL.");
return clock_class;
}
-struct bt_ctf_clock_class *bt_clock_class_priority_map_get_clock_class_by_name(
+struct bt_clock_class *bt_clock_class_priority_map_get_clock_class_by_name(
struct bt_clock_class_priority_map *cc_prio_map,
const char *name)
{
size_t i;
- struct bt_ctf_clock_class *clock_class = NULL;
+ struct bt_clock_class *clock_class = NULL;
if (!cc_prio_map) {
BT_LOGW_STR("Invalid parameter: clock class priority map is NULL.");
}
for (i = 0; i < cc_prio_map->entries->len; i++) {
- struct bt_ctf_clock_class *cur_cc =
+ struct bt_clock_class *cur_cc =
g_ptr_array_index(cc_prio_map->entries, i);
const char *cur_cc_name =
- bt_ctf_clock_class_get_name(cur_cc);
+ bt_clock_class_get_name(cur_cc);
assert(cur_cc_name);
struct clock_class_prio {
uint64_t prio;
- struct bt_ctf_clock_class *clock_class;
+ struct bt_clock_class *clock_class;
};
static
}
static
-struct clock_class_prio bt_ctf_clock_class_priority_map_current_highest_prio(
+struct clock_class_prio bt_clock_class_priority_map_current_highest_prio(
struct bt_clock_class_priority_map *cc_prio_map)
{
struct clock_class_prio func_data = {
return func_data;
}
-struct bt_ctf_clock_class *
+struct bt_clock_class *
bt_clock_class_priority_map_get_highest_priority_clock_class(
struct bt_clock_class_priority_map *cc_prio_map)
{
- struct bt_ctf_clock_class *clock_class = NULL;
+ struct bt_clock_class *clock_class = NULL;
if (!cc_prio_map) {
BT_LOGW_STR("Invalid parameter: clock class priority map is NULL.");
int bt_clock_class_priority_map_get_clock_class_priority(
struct bt_clock_class_priority_map *cc_prio_map,
- struct bt_ctf_clock_class *clock_class, uint64_t *priority)
+ struct bt_clock_class *clock_class, uint64_t *priority)
{
int ret = 0;
uint64_t *prio;
"cc-prio-map-addr=%p, clock-class-addr=%p, "
"clock-class-name=\"%s\"",
cc_prio_map, clock_class,
- bt_ctf_clock_class_get_name(clock_class));
+ bt_clock_class_get_name(clock_class));
ret = -1;
goto end;
}
int bt_clock_class_priority_map_add_clock_class(
struct bt_clock_class_priority_map *cc_prio_map,
- struct bt_ctf_clock_class *clock_class, uint64_t priority)
+ struct bt_clock_class *clock_class, uint64_t priority)
{
int ret = 0;
uint64_t *prio_ptr = NULL;
struct clock_class_prio cc_prio;
// FIXME when available: check
- // bt_ctf_clock_class_is_valid(clock_class)
+ // bt_clock_class_is_valid(clock_class)
if (!cc_prio_map) {
BT_LOGW_STR("Invalid parameter: clock class priority map is NULL.");
ret = -1;
prio_ptr = NULL;
set_highest_prio:
- cc_prio = bt_ctf_clock_class_priority_map_current_highest_prio(
+ cc_prio = bt_clock_class_priority_map_current_highest_prio(
cc_prio_map);
assert(cc_prio.clock_class);
cc_prio_map->highest_prio_cc = cc_prio.clock_class;
"highest-prio-clock-class-addr=%p, "
"highest-prio-clock-class-name=\"%s\"",
cc_prio_map, clock_class,
- bt_ctf_clock_class_get_name(clock_class),
+ bt_clock_class_get_name(clock_class),
cc_prio.clock_class,
- bt_ctf_clock_class_get_name(cc_prio.clock_class));
+ bt_clock_class_get_name(cc_prio.clock_class));
end:
g_free(prio_ptr);
}
for (i = 0; i < orig_cc_prio_map->entries->len; i++) {
- struct bt_ctf_clock_class *clock_class =
+ struct bt_clock_class *clock_class =
g_ptr_array_index(orig_cc_prio_map->entries, i);
uint64_t *prio = g_hash_table_lookup(orig_cc_prio_map->prios,
clock_class);
"cc-prio-map-copy-addr=%p, clock-class-addr=%p, "
"clock-class-name=\"%s\"",
cc_prio_map, clock_class,
- bt_ctf_clock_class_get_name(clock_class));
+ bt_clock_class_get_name(clock_class));
goto error;
}
}