void
ne_addr_destroy (ne_sock_addr *addr)
{
if (addr->last)
mate_vfs_address_free (addr->last);
if (addr->handle)
mate_vfs_resolve_free (addr->handle);
g_free (addr);
}
/**
* mate_vfs_resolve_free:
* @handle: a #MateVFSResolveHandle.
*
* Use this function to free a #MateVFSResolveHandle returned by
* mate_vfs_resolve().
*
* Since: 2.8
*/
void
mate_vfs_resolve_free (MateVFSResolveHandle *handle)
{
#ifdef HAVE_GETADDRINFO
if (handle->result != NULL)
freeaddrinfo (handle->result);
#else
for (handle->current = handle->result; handle->current != NULL;
handle->current = handle->current->next) {
mate_vfs_address_free (handle->current->data);
}
g_list_free (handle->result);
#endif
g_free (handle);
}
const ne_inet_addr *
ne_addr_next (ne_sock_addr *addr)
{
MateVFSAddress *address;
if (! mate_vfs_resolve_next_address (addr->handle, &address)) {
return NULL;
}
if (addr->last != NULL) {
mate_vfs_address_free (addr->last);
}
addr->last = address;
return (ne_inet_addr *) address;
}
int
main (int argc, char **argv)
{
MateVFSAddress *v4_a;
MateVFSAddress *v4_b;
guint32 v4_numeric;
gboolean equal;
#ifdef ENABLE_IPV6
MateVFSAddress *v6_a;
MateVFSAddress *v6_b;
#endif
fprintf (stderr, "Testing MateVFSAddress\n");
mate_vfs_init ();
/* v4 test cases */
v4_a = mate_vfs_address_new_from_string ("127.3.2.1");
/* generate a numeric 127.0.0.1 */
v4_numeric = g_htonl (2130706433U);
v4_b = mate_vfs_address_new_from_ipv4 (v4_numeric);
g_assert (v4_a && v4_b);
g_assert (mate_vfs_address_get_family_type (v4_a) == AF_INET);
g_assert (mate_vfs_address_get_family_type (v4_b) == AF_INET);
g_assert (mate_vfs_address_get_ipv4 (v4_b) == v4_numeric);
/* compare the whole address for now */
equal = mate_vfs_address_match (v4_a, v4_b, 32);
g_assert (equal == FALSE);
equal = mate_vfs_address_match (v4_a, v4_b, 24);
g_assert (equal == FALSE);
equal = mate_vfs_address_match (v4_a, v4_b, 16);
g_assert (equal == FALSE);
equal = mate_vfs_address_match (v4_a, v4_b, 8);
g_assert (equal == TRUE);
equal = mate_vfs_address_match (v4_a, v4_b, 0);
g_assert (equal == FALSE);
mate_vfs_address_free (v4_a);
v4_a = mate_vfs_address_new_from_string ("127.0.0.1");
equal = mate_vfs_address_match (v4_a, v4_b, 32);
g_assert (equal == TRUE);
mate_vfs_address_free (v4_b);
v4_b = mate_vfs_address_dup (v4_a);
equal = mate_vfs_address_equal (v4_a, v4_b);
g_assert (equal == TRUE);
equal = mate_vfs_address_match (v4_a, v4_b, 32);
g_assert (equal == TRUE);
#ifdef INADDR_LOOPBACK
v4_numeric = mate_vfs_address_get_ipv4 (v4_a);
g_assert (INADDR_LOOPBACK == g_ntohl (v4_numeric));
#endif
#ifdef ENABLE_IPV6
/* Mapped v4 test cases */
v6_a = mate_vfs_address_new_from_string ("::ffff:127.0.0.1");
g_assert (v6_a);
g_assert (mate_vfs_address_get_family_type (v6_a) == AF_INET6);
/* v4 mapped in v6 test (v4_a still is 127.0.0.1) */
equal = mate_vfs_address_match (v4_a, v6_a, 32);
g_assert (equal == TRUE);
mate_vfs_address_free (v6_a);
v6_a = mate_vfs_address_new_from_string ("fe80::dead:babe");
v6_b = mate_vfs_address_new_from_string ("fe80::dead:beef");
g_assert (v6_a && v6_b);
g_assert (mate_vfs_address_get_family_type (v6_a) == AF_INET6);
g_assert (mate_vfs_address_get_family_type (v6_b) == AF_INET6);
equal = mate_vfs_address_match (v6_a, v6_b, 128);
g_assert (equal == FALSE);
/* fe80::dead:bx* */
equal = mate_vfs_address_match (v6_a, v6_b, 120);
g_assert (equal == FALSE);
/* fe80::dead:b* */
/* both address are equal from this mask on */
equal = mate_vfs_address_match (v6_a, v6_b, 116);
g_assert (equal == TRUE);
/* fe80::dead:* */
equal = mate_vfs_address_match (v6_a, v6_b, 112);
g_assert (equal == TRUE);
/* fe80::* */
equal = mate_vfs_address_match (v6_a, v6_b, 64);
g_assert (equal == TRUE);
/* _dup test for v6 */
mate_vfs_address_free (v6_b);
v6_b = mate_vfs_address_dup (v6_a);
equal = mate_vfs_address_equal (v6_a, v6_b);
g_assert (equal == TRUE);
mate_vfs_address_free (v6_a);
mate_vfs_address_free (v6_b);
#endif
mate_vfs_address_free (v4_a);
mate_vfs_address_free (v4_b);
return 0;
}
void ne_iaddr_free (ne_inet_addr *addr)
{
mate_vfs_address_free ((MateVFSAddress *) addr);
}
