}
freq = bt_clock_class_get_frequency(
- bt_clock_class_borrow_from_private(clock));
- bt_clock_class_get_offset(bt_clock_class_borrow_from_private(clock),
+ bt_private_clock_class_borrow_clock_class(clock));
+ bt_clock_class_get_offset(bt_private_clock_class_borrow_clock_class(clock),
&cur_offset_s, &cur_offset_cycles);
/* Apply offsets */
}
clock_class_name = bt_clock_class_get_name(
- bt_clock_class_borrow_from_private(clock));
+ bt_private_clock_class_borrow_clock_class(clock));
BT_ASSERT(clock_class_name);
if (ctx->is_lttng && strcmp(clock_class_name, "monotonic") == 0) {
/*
* frequency (move to the part in seconds).
*/
freq = bt_clock_class_get_frequency(
- bt_clock_class_borrow_from_private(clock));
+ bt_private_clock_class_borrow_clock_class(clock));
calibrate_clock_class_offsets(&offset_seconds, &offset_cycles, freq);
BT_ASSERT(offset_cycles < bt_clock_class_get_frequency(
- bt_clock_class_borrow_from_private(clock)));
+ bt_private_clock_class_borrow_clock_class(clock)));
ret = bt_private_clock_class_set_offset(clock, offset_seconds, offset_cycles);
BT_ASSERT(ret == 0);
apply_clock_class_offset(ctx, clock);