Loading src/lock_tree/tests/test_footprint_point_write.c +4 −4 Original line number Diff line number Diff line Loading @@ -24,10 +24,10 @@ struct my_ltm_status { static void my_ltm_get_status(toku_ltm *ltm, struct my_ltm_status *my_status) { LTM_STATUS_S status; toku_ltm_get_status(ltm, &status); my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value; my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value.num; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value.num; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value.num; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value.num; } static void *my_malloc(size_t s) { Loading src/lock_tree/tests/test_footprint_range_write.c +4 −4 Original line number Diff line number Diff line Loading @@ -24,10 +24,10 @@ struct my_ltm_status { static void my_ltm_get_status(toku_ltm *ltm, struct my_ltm_status *my_status) { LTM_STATUS_S status; toku_ltm_get_status(ltm, &status); my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value; my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value.num; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value.num; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value.num; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value.num; } static void *my_malloc(size_t s) { Loading src/lock_tree/tests/test_ltm_get_status.c +4 −4 Original line number Diff line number Diff line Loading @@ -7,10 +7,10 @@ enum { MAX_LOCKS = 1000, MAX_LOCK_MEMORY = MAX_LOCKS * 64 }; static void do_ltm_status(toku_ltm *ltm) { LTM_STATUS_S s; toku_ltm_get_status(ltm, &s); assert(s.status[LTM_LOCKS_LIMIT].value == MAX_LOCKS); assert(s.status[LTM_LOCKS_CURR].value == 0); assert(s.status[LTM_LOCK_MEMORY_LIMIT].value == MAX_LOCK_MEMORY); assert(s.status[LTM_LOCK_MEMORY_CURR].value == 0); assert(s.status[LTM_LOCKS_LIMIT].value.num == MAX_LOCKS); assert(s.status[LTM_LOCKS_CURR].value.num == 0); assert(s.status[LTM_LOCK_MEMORY_LIMIT].value.num == MAX_LOCK_MEMORY); assert(s.status[LTM_LOCK_MEMORY_CURR].value.num == 0); } int main(int argc, const char *argv[]) { Loading Loading
src/lock_tree/tests/test_footprint_point_write.c +4 −4 Original line number Diff line number Diff line Loading @@ -24,10 +24,10 @@ struct my_ltm_status { static void my_ltm_get_status(toku_ltm *ltm, struct my_ltm_status *my_status) { LTM_STATUS_S status; toku_ltm_get_status(ltm, &status); my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value; my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value.num; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value.num; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value.num; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value.num; } static void *my_malloc(size_t s) { Loading
src/lock_tree/tests/test_footprint_range_write.c +4 −4 Original line number Diff line number Diff line Loading @@ -24,10 +24,10 @@ struct my_ltm_status { static void my_ltm_get_status(toku_ltm *ltm, struct my_ltm_status *my_status) { LTM_STATUS_S status; toku_ltm_get_status(ltm, &status); my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value; my_status->max_locks = status.status[LTM_LOCKS_LIMIT].value.num; my_status->curr_locks = status.status[LTM_LOCKS_CURR].value.num; my_status->max_lock_memory = status.status[LTM_LOCK_MEMORY_LIMIT].value.num; my_status->curr_lock_memory = status.status[LTM_LOCK_MEMORY_CURR].value.num; } static void *my_malloc(size_t s) { Loading
src/lock_tree/tests/test_ltm_get_status.c +4 −4 Original line number Diff line number Diff line Loading @@ -7,10 +7,10 @@ enum { MAX_LOCKS = 1000, MAX_LOCK_MEMORY = MAX_LOCKS * 64 }; static void do_ltm_status(toku_ltm *ltm) { LTM_STATUS_S s; toku_ltm_get_status(ltm, &s); assert(s.status[LTM_LOCKS_LIMIT].value == MAX_LOCKS); assert(s.status[LTM_LOCKS_CURR].value == 0); assert(s.status[LTM_LOCK_MEMORY_LIMIT].value == MAX_LOCK_MEMORY); assert(s.status[LTM_LOCK_MEMORY_CURR].value == 0); assert(s.status[LTM_LOCKS_LIMIT].value.num == MAX_LOCKS); assert(s.status[LTM_LOCKS_CURR].value.num == 0); assert(s.status[LTM_LOCK_MEMORY_LIMIT].value.num == MAX_LOCK_MEMORY); assert(s.status[LTM_LOCK_MEMORY_CURR].value.num == 0); } int main(int argc, const char *argv[]) { Loading
