/**
* Deallocates a global ID for server data slots.
* dbus_server_get_data() and dbus_server_set_data()
* may no longer be used with this slot.
* Existing data stored on existing DBusServer objects
* will be freed when the server is finalized,
* but may not be retrieved (and may only be replaced
* if someone else reallocates the slot).
*
* @param slot_p address of the slot to deallocate
*/
void
dbus_server_free_data_slot (dbus_int32_t *slot_p)
{
_dbus_return_if_fail (*slot_p >= 0);
_dbus_data_slot_allocator_free (&slot_allocator, slot_p);
}
/**
* Deallocates a global ID for #DBusPendingCall data slots.
* dbus_pending_call_get_data() and dbus_pending_call_set_data() may
* no longer be used with this slot. Existing data stored on existing
* DBusPendingCall objects will be freed when the #DBusPendingCall is
* finalized, but may not be retrieved (and may only be replaced if
* someone else reallocates the slot). When the refcount on the
* passed-in slot reaches 0, it is set to -1.
*
* @param slot_p address storing the slot to deallocate
*/
void
dbus_pending_call_free_data_slot (dbus_int32_t *slot_p)
{
_dbus_return_if_fail (slot_p != NULL);
_dbus_return_if_fail (*slot_p >= 0);
_dbus_data_slot_allocator_free (&slot_allocator, slot_p);
}
dbus_bool_t
_dbus_data_slot_test (void)
{
DBusDataSlotAllocator allocator;
DBusDataSlotList list;
int i;
DBusFreeFunction old_free_func;
void *old_data;
DBusMutex *mutex;
if (!_dbus_data_slot_allocator_init (&allocator))
_dbus_assert_not_reached ("no memory for allocator");
_dbus_data_slot_list_init (&list);
_dbus_mutex_new_at_location (&mutex);
if (mutex == NULL)
_dbus_assert_not_reached ("failed to alloc mutex");
#define N_SLOTS 100
i = 0;
while (i < N_SLOTS)
{
/* we don't really want apps to rely on this ordered
* allocation, but it simplifies things to rely on it
* here.
*/
dbus_int32_t tmp = -1;
_dbus_data_slot_allocator_alloc (&allocator, &mutex, &tmp);
if (tmp != i)
_dbus_assert_not_reached ("did not allocate slots in numeric order\n");
++i;
}
i = 0;
while (i < N_SLOTS)
{
if (!_dbus_data_slot_list_set (&allocator, &list,
i,
_DBUS_INT_TO_POINTER (i),
test_free_slot_data_func,
&old_free_func, &old_data))
_dbus_assert_not_reached ("no memory to set data");
_dbus_assert (old_free_func == NULL);
_dbus_assert (old_data == NULL);
_dbus_assert (_dbus_data_slot_list_get (&allocator, &list, i) ==
_DBUS_INT_TO_POINTER (i));
++i;
}
free_counter = 0;
i = 0;
while (i < N_SLOTS)
{
if (!_dbus_data_slot_list_set (&allocator, &list,
i,
_DBUS_INT_TO_POINTER (i),
test_free_slot_data_func,
&old_free_func, &old_data))
_dbus_assert_not_reached ("no memory to set data");
_dbus_assert (old_free_func == test_free_slot_data_func);
_dbus_assert (_DBUS_POINTER_TO_INT (old_data) == i);
(* old_free_func) (old_data);
_dbus_assert (i == (free_counter - 1));
_dbus_assert (_dbus_data_slot_list_get (&allocator, &list, i) ==
_DBUS_INT_TO_POINTER (i));
++i;
}
free_counter = 0;
_dbus_data_slot_list_free (&list);
_dbus_assert (N_SLOTS == free_counter);
i = 0;
while (i < N_SLOTS)
{
dbus_int32_t tmp = i;
_dbus_data_slot_allocator_free (&allocator, &tmp);
_dbus_assert (tmp == -1);
++i;
}
_dbus_mutex_free_at_location (&mutex);
return TRUE;
}
