prefix->___fp___pad = 0;
}
+void
+ip_address_to_prefix (const ip_address_t *addr, ip_prefix_t *prefix)
+{
+ prefix->len = (addr->version == AF_IP4 ? 32 : 128);
+ clib_memcpy (&prefix->addr, addr, sizeof (prefix->addr));
+}
+
void
ip_address_increment (ip_address_t * ip)
{
}
int
-ip_prefix_cmp (ip_prefix_t * p1, ip_prefix_t * p2)
+ip_prefix_cmp (const ip_prefix_t *ipp1, const ip_prefix_t *ipp2)
{
+ ip_prefix_t p1 = *ipp1, p2 = *ipp2;
int cmp = 0;
- ip_prefix_normalize (p1);
- ip_prefix_normalize (p2);
+ ip_prefix_normalize (&p1);
+ ip_prefix_normalize (&p2);
- cmp = ip_address_cmp (&ip_prefix_addr (p1), &ip_prefix_addr (p2));
+ cmp = ip_address_cmp (&ip_prefix_addr (&p1), &ip_prefix_addr (&p2));
if (cmp == 0)
{
- if (ip_prefix_len (p1) < ip_prefix_len (p2))
+ if (ip_prefix_len (&p1) < ip_prefix_len (&p2))
{
cmp = 1;
}
else
{
- if (ip_prefix_len (p1) > ip_prefix_len (p2))
+ if (ip_prefix_len (&p1) > ip_prefix_len (&p2))
cmp = 2;
}
}