#include <vnet/lisp-cp/lisp_types.h>
+static u16 gid_address_put_no_vni (u8 * b, gid_address_t * gid);
+static u16 gid_address_size_to_put_no_vni (gid_address_t * gid);
+
typedef u16 (*size_to_write_fct)(void *);
typedef void * (*cast_fct)(gid_address_t *);
typedef u16 (*serdes_fct)(u8 *, void *);
int no_addr_cmp (void * a1, void * a2);
size_to_write_fct size_to_write_fcts[GID_ADDR_TYPES] =
- { ip_prefix_size_to_write, lcaf_size_to_write };
+ { ip_prefix_size_to_write, lcaf_size_to_write, mac_size_to_write };
serdes_fct write_fcts[GID_ADDR_TYPES] =
- { ip_prefix_write, lcaf_write };
+ { ip_prefix_write, lcaf_write, mac_write };
cast_fct cast_fcts[GID_ADDR_TYPES] =
- { ip_prefix_cast, lcaf_cast };
+ { ip_prefix_cast, lcaf_cast, mac_cast };
addr_len_fct addr_len_fcts[GID_ADDR_TYPES] =
- { ip_prefix_length, lcaf_prefix_length };
+ { ip_prefix_length, lcaf_length, mac_length };
copy_fct copy_fcts[GID_ADDR_TYPES] =
- { ip_prefix_copy, lcaf_copy };
+ { ip_prefix_copy, lcaf_copy, mac_copy };
cmp_fct lcaf_cmp_fcts[LCAF_TYPES] =
{
switch (type)
{
case GID_ADDR_IP_PREFIX:
- return format (s, "%U", format_ip_prefix, &gid_address_ippref(a));
+ return format (s, "[%d] %U", gid_address_vni(a), format_ip_prefix,
+ &gid_address_ippref(a));
+ case GID_ADDR_SRC_DST:
+ return format (s, "[%d] %U|%U", gid_address_vni(a),
+ format_ip_prefix, &gid_address_sd_source_pref(a),
+ format_ip_prefix, &gid_address_sd_dest_pref(a));
default:
clib_warning("Can't format gid type %d", type);
return 0;
u16
vni_parse (u8 * p, void * a)
{
- vni_t * v = a;
+ lcaf_t * lcaf = a;
+ gid_address_t * g = a;
u16 size = 0;
- vni_vni (v) = clib_net_to_host_u32 ( *(u32 *) p);
- size += sizeof (u32);
- vni_gid (v) = clib_mem_alloc (sizeof (gid_address_t));
- gid_address_t * gid = vni_gid (v);
- memset (gid, 0, sizeof (gid[0]));
+ gid_address_vni (g) = clib_net_to_host_u32 ( *(u32 *) p);
+ size += sizeof (u32);
+ gid_address_vni_mask (g) = lcaf_vni_len (lcaf);
- size += gid_address_parse (p + size, gid);
+ /* nested LCAFs are not supported - it is expected that nested AFI type is
+ IP address */
+ size += gid_address_parse (p + size, g);
return size;
}
clib_memcpy (dst, src, ip_address_size(src));
}
+void
+ip_address_set(ip_address_t * dst, void * src, u8 version)
+{
+ clib_memcpy(dst, src, ip_version_to_size(version));
+ ip_addr_version(dst) = version;
+}
+
void *
ip_prefix_cast (gid_address_t * a)
{
}
u16
-ip_prefix_write (u8 * p, void * pref)
+ip_prefix_write (u8 * p, void * gid)
{
- ip_prefix_t *a = (ip_prefix_t *) pref;
+ gid_address_t * g = gid;
+ ip_prefix_t *a = &gid_address_ippref (g);
+
switch (ip_prefix_version (a))
{
case IP4:
clib_memcpy (dst, src, sizeof (ip_prefix_t));
}
+void
+mac_copy (void * dst , void * src)
+{
+ clib_memcpy (dst, src, 6);
+}
+
int
ip_prefix_cmp(ip_prefix_t * p1, ip_prefix_t * p2)
{
}
u8
-lcaf_prefix_length (void *a)
+lcaf_length (void *a)
+{
+ return 0;
+}
+
+u8
+mac_length (void *a)
{
return 0;
}
return &gid_address_lcaf (a);
}
+void *
+mac_cast (gid_address_t * a)
+{
+ return &gid_address_mac (a);
+}
+
u16
no_addr_length (void * a)
{
u16 lcaf_len = (*lcaf_body_length_fcts[type])(lcaf);
LCAF_LENGTH (h) = clib_host_to_net_u16 (lcaf_len);
- if (LCAF_INSTANCE_ID == type)
- LCAF_RES2 (h) = lcaf_vni_len(lcaf);
-
clib_memcpy (p + size, h, sizeof (h[0]));
size += sizeof (h[0]);
len = (*lcaf_write_fcts[type])(p + size, lcaf);
return size + len;
}
+u16
+mac_write (u8 * p, void * a)
+{
+ *(u16 *)p = clib_host_to_net_u16 (LISP_AFI_MAC);
+ clib_memcpy(p + sizeof (u16), a, 6);
+ return mac_size_to_write (a);
+}
+
u16
vni_write (u8 * p, void * a)
{
- vni_t * v = a;
+ lcaf_hdr_t _h, *h = &_h;
+ gid_address_t * g = a;
u16 size = 0, len;
- *(u32 *)p = clib_host_to_net_u32 (vni_vni (v));
+ /* put lcaf header */
+ *(u16 *) p = clib_host_to_net_u16 (LISP_AFI_LCAF);
+ size += sizeof (u16);
+ memset (h, 0, sizeof (h[0]));
+ LCAF_TYPE (h) = LCAF_INSTANCE_ID;
+ u16 lcaf_len = sizeof (u32) /* Instance ID size */
+ + gid_address_size_to_put_no_vni (g);
+ LCAF_LENGTH (h) = clib_host_to_net_u16 (lcaf_len);
+ LCAF_RES2 (h) = gid_address_vni_mask (g);
+
+ /* put vni header */
+ clib_memcpy (p + size, h, sizeof (h[0]));
+ size += sizeof (h[0]);
+
+ u32 * afip = (u32 *)(p + size);
+ afip[0] = clib_host_to_net_u32 (gid_address_vni (g));
size += sizeof (u32);
- len = gid_address_put (p + size, vni_gid (v));
+
+ /* write the actual address */
+ len = gid_address_put_no_vni (p + size, g);
if ((u16)~0 == len)
return ~0;
u16
vni_size_to_write (void * a)
{
- vni_t * v = a;
- u16 size = sizeof (vni_vni (v));
-
- gid_address_t * gid = vni_gid (v);
- return (size + sizeof (lcaf_hdr_t)
- + gid_address_size_to_put (gid));
+ gid_address_t * g = a;
+ return (sizeof (u32) /* vni size */
+ + sizeof (u16) /* LCAF AFI field size */
+ + sizeof (lcaf_hdr_t)
+ + gid_address_size_to_put_no_vni (g));
}
u16
return size + len;
}
+u16
+mac_size_to_write (void * a)
+{
+ return sizeof (u16) + 6;
+}
+
u8
gid_address_len (gid_address_t *a)
{
return (*addr_len_fcts[type])((*cast_fcts[type])(a));
}
-u16
-gid_address_put (u8 * b, gid_address_t * gid)
+static u16
+gid_address_put_no_vni (u8 * b, gid_address_t * gid)
{
gid_address_type_t type = gid_address_type (gid);
return (*write_fcts[type])(b, (*cast_fcts[type])(gid));
}
u16
-gid_address_size_to_put (gid_address_t * gid)
+gid_address_put (u8 * b, gid_address_t * gid)
+{
+ if (0 != gid_address_vni (gid))
+ return vni_write (b, gid);
+
+ return gid_address_put_no_vni (b, gid);
+}
+
+static u16
+gid_address_size_to_put_no_vni (gid_address_t * gid)
{
gid_address_type_t type = gid_address_type (gid);
return (*size_to_write_fcts[type])((*cast_fcts[type])(gid));
}
+u16
+gid_address_size_to_put (gid_address_t * gid)
+{
+ if (0 != gid_address_vni (gid))
+ return vni_size_to_write (gid);
+
+ return gid_address_size_to_put_no_vni (gid);
+}
+
void *
gid_address_cast (gid_address_t * gid, gid_address_type_t type)
{
gid_address_type_t type = gid_address_type(src);
(*copy_fcts[type])((*cast_fcts[type])(dst), (*cast_fcts[type])(src));
gid_address_type(dst) = type;
+ gid_address_vni(dst) = gid_address_vni(src);
+ gid_address_vni_mask(dst) = gid_address_vni_mask(src);
+}
+
+u32
+mac_parse (u8 * offset, gid_address_t * a)
+{
+ /* skip AFI field */
+ offset += sizeof (u16);
+
+ memcpy (gid_address_mac (a), offset, sizeof (gid_address_mac (a)));
+ return (sizeof (u16) + sizeof (gid_address_mac (a)));
}
u32
gid_address_ippref_len(a) = 128;
break;
case LISP_AFI_LCAF:
- len = lcaf_parse (offset, a);
gid_address_type(a) = GID_ADDR_LCAF;
+ len = lcaf_parse (offset, a);
+ break;
+ case LISP_AFI_MAC:
+ len = mac_parse (offset, a);
+ gid_address_type(a) = GID_ADDR_MAC;
break;
default:
clib_warning("LISP AFI %d not supported!", afi);
return -1;
if (gid_address_type(a1) != gid_address_type(a2))
return -1;
+ if (gid_address_vni(a1) != gid_address_vni(a2))
+ return -1;
+ if (gid_address_vni_mask(a1) != gid_address_vni_mask(a2))
+ return -1;
switch (gid_address_type(a1))
{
if (lcaf_type (lcaf1) == lcaf_type (lcaf2))
cmp = (*lcaf_cmp_fcts[lcaf_type (lcaf1)])(lcaf1, lcaf2);
break;
+ case GID_ADDR_MAC:
+ cmp = memcmp (gid_address_mac (a1), gid_address_mac (a2),
+ sizeof (gid_address_mac (a1)));
+ break;
default:
break;
}
Code Review / vpp.git / blobdiff