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|
/*
* Code for encoding/decoding FPM messages that are in netlink format.
*
* Copyright (C) 1997, 98, 99 Kunihiro Ishiguro
* Copyright (C) 2012 by Open Source Routing.
* Copyright (C) 2012 by Internet Systems Consortium, Inc. ("ISC")
*
* This file is part of GNU Zebra.
*
* GNU Zebra is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* GNU Zebra is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; see the file COPYING; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <zebra.h>
#ifdef HAVE_NETLINK
#include "log.h"
#include "rib.h"
#include "vty.h"
#include "prefix.h"
#include "zebra/zserv.h"
#include "zebra/zebra_router.h"
#include "zebra/zebra_dplane.h"
#include "zebra/zebra_ns.h"
#include "zebra/zebra_vrf.h"
#include "zebra/kernel_netlink.h"
#include "zebra/rt_netlink.h"
#include "nexthop.h"
#include "zebra/zebra_fpm_private.h"
#include "zebra/zebra_vxlan_private.h"
#include "zebra/interface.h"
/*
* af_addr_size
*
* The size of an address in a given address family.
*/
static size_t af_addr_size(uint8_t af)
{
switch (af) {
case AF_INET:
return 4;
case AF_INET6:
return 16;
default:
assert(0);
return 16;
}
}
/*
* We plan to use RTA_ENCAP_TYPE attribute for VxLAN encap as well.
* Currently, values 0 to 8 for this attribute are used by lwtunnel_encap_types
* So, we cannot use these values for VxLAN encap.
*/
enum fpm_nh_encap_type_t {
FPM_NH_ENCAP_NONE = 0,
FPM_NH_ENCAP_VXLAN = 100,
FPM_NH_ENCAP_MAX,
};
/*
* fpm_nh_encap_type_to_str
*/
static const char *fpm_nh_encap_type_to_str(enum fpm_nh_encap_type_t encap_type)
{
switch (encap_type) {
case FPM_NH_ENCAP_NONE:
return "none";
case FPM_NH_ENCAP_VXLAN:
return "VxLAN";
case FPM_NH_ENCAP_MAX:
return "invalid";
}
return "invalid";
}
struct vxlan_encap_info_t {
vni_t vni;
};
enum vxlan_encap_info_type_t {
VXLAN_VNI = 0,
};
struct fpm_nh_encap_info_t {
enum fpm_nh_encap_type_t encap_type;
union {
struct vxlan_encap_info_t vxlan_encap;
};
};
/*
* netlink_nh_info
*
* Holds information about a single nexthop for netlink. These info
* structures are transient and may contain pointers into rib
* data structures for convenience.
*/
struct netlink_nh_info {
/* Weight of the nexthop ( for unequal cost ECMP ) */
uint8_t weight;
uint32_t if_index;
union g_addr *gateway;
/*
* Information from the struct nexthop from which this nh was
* derived. For debug purposes only.
*/
int recursive;
enum nexthop_types_t type;
struct fpm_nh_encap_info_t encap_info;
};
/*
* netlink_route_info
*
* A structure for holding information for a netlink route message.
*/
struct netlink_route_info {
uint32_t nlmsg_pid;
uint16_t nlmsg_type;
uint8_t rtm_type;
uint32_t rtm_table;
uint8_t rtm_protocol;
uint8_t af;
struct prefix *prefix;
uint32_t *metric;
unsigned int num_nhs;
/*
* Nexthop structures
*/
struct netlink_nh_info nhs[MULTIPATH_NUM];
union g_addr *pref_src;
};
/*
* netlink_route_info_add_nh
*
* Add information about the given nexthop to the given route info
* structure.
*
* Returns true if a nexthop was added, false otherwise.
*/
static int netlink_route_info_add_nh(struct netlink_route_info *ri,
struct nexthop *nexthop,
struct route_entry *re)
{
struct netlink_nh_info nhi;
union g_addr *src;
struct zebra_vrf *zvrf = NULL;
struct interface *ifp = NULL, *link_if = NULL;
struct zebra_if *zif = NULL;
vni_t vni = 0;
memset(&nhi, 0, sizeof(nhi));
src = NULL;
if (ri->num_nhs >= (int)array_size(ri->nhs))
return 0;
nhi.recursive = nexthop->rparent ? 1 : 0;
nhi.type = nexthop->type;
nhi.if_index = nexthop->ifindex;
nhi.weight = nexthop->weight;
if (nexthop->type == NEXTHOP_TYPE_IPV4
|| nexthop->type == NEXTHOP_TYPE_IPV4_IFINDEX) {
nhi.gateway = &nexthop->gate;
if (nexthop->src.ipv4.s_addr != INADDR_ANY)
src = &nexthop->src;
}
if (nexthop->type == NEXTHOP_TYPE_IPV6
|| nexthop->type == NEXTHOP_TYPE_IPV6_IFINDEX) {
/* Special handling for IPv4 route with IPv6 Link Local next hop
*/
if (ri->af == AF_INET)
nhi.gateway = &ipv4ll_gateway;
else
nhi.gateway = &nexthop->gate;
}
if (nexthop->type == NEXTHOP_TYPE_IFINDEX) {
if (nexthop->src.ipv4.s_addr != INADDR_ANY)
src = &nexthop->src;
}
if (!nhi.gateway && nhi.if_index == 0)
return 0;
if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_EVPN)) {
nhi.encap_info.encap_type = FPM_NH_ENCAP_VXLAN;
/* Extract VNI id for the nexthop SVI interface */
zvrf = zebra_vrf_lookup_by_id(nexthop->vrf_id);
if (zvrf) {
ifp = if_lookup_by_index_per_ns(zvrf->zns,
nexthop->ifindex);
if (ifp) {
zif = (struct zebra_if *)ifp->info;
if (zif) {
if (IS_ZEBRA_IF_BRIDGE(ifp))
link_if = ifp;
else if (IS_ZEBRA_IF_VLAN(ifp))
link_if =
if_lookup_by_index_per_ns(
zvrf->zns,
zif->link_ifindex);
if (link_if)
vni = vni_id_from_svi(ifp,
link_if);
}
}
}
nhi.encap_info.vxlan_encap.vni = vni;
}
/*
* We have a valid nhi. Copy the structure over to the route_info.
*/
ri->nhs[ri->num_nhs] = nhi;
ri->num_nhs++;
if (src && !ri->pref_src)
ri->pref_src = src;
return 1;
}
/*
* netlink_proto_from_route_type
*/
static uint8_t netlink_proto_from_route_type(int type)
{
return zebra2proto(type);
}
/*
* netlink_route_info_fill
*
* Fill out the route information object from the given route.
*
* Returns true on success and false on failure.
*/
static int netlink_route_info_fill(struct netlink_route_info *ri, int cmd,
rib_dest_t *dest, struct route_entry *re)
{
struct nexthop *nexthop;
struct rib_table_info *table_info =
rib_table_info(rib_dest_table(dest));
struct zebra_vrf *zvrf = table_info->zvrf;
memset(ri, 0, sizeof(*ri));
ri->prefix = rib_dest_prefix(dest);
ri->af = rib_dest_af(dest);
if (zvrf && zvrf->zns)
ri->nlmsg_pid = zvrf->zns->netlink_dplane_out.snl.nl_pid;
ri->nlmsg_type = cmd;
ri->rtm_table = table_info->table_id;
ri->rtm_protocol = RTPROT_UNSPEC;
/*
* An RTM_DELROUTE need not be accompanied by any nexthops,
* particularly in our communication with the FPM.
*/
if (cmd == RTM_DELROUTE && !re)
return 1;
if (!re) {
zfpm_debug("%s: Expected non-NULL re pointer", __func__);
return 0;
}
ri->rtm_protocol = netlink_proto_from_route_type(re->type);
ri->rtm_type = RTN_UNICAST;
ri->metric = &re->metric;
for (ALL_NEXTHOPS(re->nhe->nhg, nexthop)) {
if (ri->num_nhs >= zrouter.multipath_num)
break;
if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_RECURSIVE))
continue;
if (nexthop->type == NEXTHOP_TYPE_BLACKHOLE) {
switch (nexthop->bh_type) {
case BLACKHOLE_ADMINPROHIB:
ri->rtm_type = RTN_PROHIBIT;
break;
case BLACKHOLE_REJECT:
ri->rtm_type = RTN_UNREACHABLE;
break;
case BLACKHOLE_NULL:
default:
ri->rtm_type = RTN_BLACKHOLE;
break;
}
}
if ((cmd == RTM_NEWROUTE
&& CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE))
|| (cmd == RTM_DELROUTE
&& CHECK_FLAG(re->status, ROUTE_ENTRY_INSTALLED))) {
netlink_route_info_add_nh(ri, nexthop, re);
}
}
if (ri->num_nhs == 0) {
switch (ri->rtm_type) {
case RTN_PROHIBIT:
case RTN_UNREACHABLE:
case RTN_BLACKHOLE:
break;
default:
/* If there is no useful nexthop then return. */
zfpm_debug(
"netlink_encode_route(): No useful nexthop.");
return 0;
}
}
return 1;
}
/*
* netlink_route_info_encode
*
* Returns the number of bytes written to the buffer. 0 or a negative
* value indicates an error.
*/
static int netlink_route_info_encode(struct netlink_route_info *ri,
char *in_buf, size_t in_buf_len)
{
size_t bytelen;
unsigned int nexthop_num = 0;
size_t buf_offset;
struct netlink_nh_info *nhi;
enum fpm_nh_encap_type_t encap;
struct rtattr *nest, *inner_nest;
struct rtnexthop *rtnh;
struct vxlan_encap_info_t *vxlan;
struct in6_addr ipv6;
struct {
struct nlmsghdr n;
struct rtmsg r;
char buf[1];
} * req;
req = (void *)in_buf;
buf_offset = ((char *)req->buf) - ((char *)req);
if (in_buf_len < buf_offset) {
assert(0);
return 0;
}
memset(req, 0, buf_offset);
bytelen = af_addr_size(ri->af);
req->n.nlmsg_len = NLMSG_LENGTH(sizeof(struct rtmsg));
req->n.nlmsg_flags = NLM_F_CREATE | NLM_F_REQUEST;
req->n.nlmsg_pid = ri->nlmsg_pid;
req->n.nlmsg_type = ri->nlmsg_type;
req->r.rtm_family = ri->af;
/*
* rtm_table field is a uchar field which can accommodate table_id less
* than 256.
* To support table id greater than 255, if the table_id is greater than
* 255, set rtm_table to RT_TABLE_UNSPEC and add RTA_TABLE attribute
* with 32 bit value as the table_id.
*/
if (ri->rtm_table < 256)
req->r.rtm_table = ri->rtm_table;
else {
req->r.rtm_table = RT_TABLE_UNSPEC;
nl_attr_put32(&req->n, in_buf_len, RTA_TABLE, ri->rtm_table);
}
req->r.rtm_dst_len = ri->prefix->prefixlen;
req->r.rtm_protocol = ri->rtm_protocol;
req->r.rtm_scope = RT_SCOPE_UNIVERSE;
nl_attr_put(&req->n, in_buf_len, RTA_DST, &ri->prefix->u.prefix,
bytelen);
req->r.rtm_type = ri->rtm_type;
/* Metric. */
if (ri->metric)
nl_attr_put32(&req->n, in_buf_len, RTA_PRIORITY, *ri->metric);
if (ri->num_nhs == 0)
goto done;
if (ri->num_nhs == 1) {
nhi = &ri->nhs[0];
if (nhi->gateway) {
if (nhi->type == NEXTHOP_TYPE_IPV4_IFINDEX
&& ri->af == AF_INET6) {
ipv4_to_ipv4_mapped_ipv6(&ipv6,
nhi->gateway->ipv4);
nl_attr_put(&req->n, in_buf_len, RTA_GATEWAY,
&ipv6, bytelen);
} else
nl_attr_put(&req->n, in_buf_len, RTA_GATEWAY,
nhi->gateway, bytelen);
}
if (nhi->if_index) {
nl_attr_put32(&req->n, in_buf_len, RTA_OIF,
nhi->if_index);
}
encap = nhi->encap_info.encap_type;
switch (encap) {
case FPM_NH_ENCAP_NONE:
case FPM_NH_ENCAP_MAX:
break;
case FPM_NH_ENCAP_VXLAN:
nl_attr_put16(&req->n, in_buf_len, RTA_ENCAP_TYPE,
encap);
vxlan = &nhi->encap_info.vxlan_encap;
nest = nl_attr_nest(&req->n, in_buf_len, RTA_ENCAP);
nl_attr_put32(&req->n, in_buf_len, VXLAN_VNI,
vxlan->vni);
nl_attr_nest_end(&req->n, nest);
break;
}
goto done;
}
/*
* Multipath case.
*/
nest = nl_attr_nest(&req->n, in_buf_len, RTA_MULTIPATH);
for (nexthop_num = 0; nexthop_num < ri->num_nhs; nexthop_num++) {
rtnh = nl_attr_rtnh(&req->n, in_buf_len);
nhi = &ri->nhs[nexthop_num];
if (nhi->gateway)
nl_attr_put(&req->n, in_buf_len, RTA_GATEWAY,
nhi->gateway, bytelen);
if (nhi->if_index) {
rtnh->rtnh_ifindex = nhi->if_index;
}
rtnh->rtnh_hops = nhi->weight;
encap = nhi->encap_info.encap_type;
switch (encap) {
case FPM_NH_ENCAP_NONE:
case FPM_NH_ENCAP_MAX:
break;
case FPM_NH_ENCAP_VXLAN:
nl_attr_put16(&req->n, in_buf_len, RTA_ENCAP_TYPE,
encap);
vxlan = &nhi->encap_info.vxlan_encap;
inner_nest =
nl_attr_nest(&req->n, in_buf_len, RTA_ENCAP);
nl_attr_put32(&req->n, in_buf_len, VXLAN_VNI,
vxlan->vni);
nl_attr_nest_end(&req->n, inner_nest);
break;
}
nl_attr_rtnh_end(&req->n, rtnh);
}
nl_attr_nest_end(&req->n, nest);
assert(nest->rta_len > RTA_LENGTH(0));
done:
if (ri->pref_src) {
nl_attr_put(&req->n, in_buf_len, RTA_PREFSRC, ri->pref_src,
bytelen);
}
assert(req->n.nlmsg_len < in_buf_len);
return req->n.nlmsg_len;
}
/*
* zfpm_log_route_info
*
* Helper function to log the information in a route_info structure.
*/
static void zfpm_log_route_info(struct netlink_route_info *ri,
const char *label)
{
struct netlink_nh_info *nhi;
unsigned int i;
char buf[PREFIX_STRLEN];
zfpm_debug("%s : %s %pFX, Proto: %s, Metric: %u", label,
nl_msg_type_to_str(ri->nlmsg_type), ri->prefix,
nl_rtproto_to_str(ri->rtm_protocol),
ri->metric ? *ri->metric : 0);
for (i = 0; i < ri->num_nhs; i++) {
nhi = &ri->nhs[i];
if (nhi->gateway) {
if (ri->af == AF_INET)
inet_ntop(AF_INET, nhi->gateway, buf,
sizeof(buf));
else
inet_ntop(AF_INET6, nhi->gateway, buf,
sizeof(buf));
} else
strlcpy(buf, "none", sizeof(buf));
zfpm_debug(" Intf: %u, Gateway: %s, Recursive: %s, Type: %s, Encap type: %s",
nhi->if_index, buf, nhi->recursive ? "yes" : "no",
nexthop_type_to_str(nhi->type),
fpm_nh_encap_type_to_str(nhi->encap_info.encap_type)
);
}
}
/*
* zfpm_netlink_encode_route
*
* Create a netlink message corresponding to the given route in the
* given buffer space.
*
* Returns the number of bytes written to the buffer. 0 or a negative
* value indicates an error.
*/
int zfpm_netlink_encode_route(int cmd, rib_dest_t *dest, struct route_entry *re,
char *in_buf, size_t in_buf_len)
{
struct netlink_route_info ri_space, *ri;
ri = &ri_space;
if (!netlink_route_info_fill(ri, cmd, dest, re))
return 0;
zfpm_log_route_info(ri, __func__);
return netlink_route_info_encode(ri, in_buf, in_buf_len);
}
/*
* zfpm_netlink_encode_mac
*
* Create a netlink message corresponding to the given MAC.
*
* Returns the number of bytes written to the buffer. 0 or a negative
* value indicates an error.
*/
int zfpm_netlink_encode_mac(struct fpm_mac_info_t *mac, char *in_buf,
size_t in_buf_len)
{
size_t buf_offset;
struct macmsg {
struct nlmsghdr hdr;
struct ndmsg ndm;
char buf[0];
} *req;
req = (void *)in_buf;
buf_offset = offsetof(struct macmsg, buf);
if (in_buf_len < buf_offset)
return 0;
memset(req, 0, buf_offset);
/* Construct nlmsg header */
req->hdr.nlmsg_len = NLMSG_LENGTH(sizeof(struct ndmsg));
req->hdr.nlmsg_type = CHECK_FLAG(mac->fpm_flags, ZEBRA_MAC_DELETE_FPM) ?
RTM_DELNEIGH : RTM_NEWNEIGH;
req->hdr.nlmsg_flags = NLM_F_REQUEST;
if (req->hdr.nlmsg_type == RTM_NEWNEIGH)
req->hdr.nlmsg_flags |= (NLM_F_CREATE | NLM_F_REPLACE);
/* Construct ndmsg */
req->ndm.ndm_family = AF_BRIDGE;
req->ndm.ndm_ifindex = mac->vxlan_if;
req->ndm.ndm_state = NUD_REACHABLE;
req->ndm.ndm_flags |= NTF_SELF | NTF_MASTER;
if (CHECK_FLAG(mac->zebra_flags,
(ZEBRA_MAC_STICKY | ZEBRA_MAC_REMOTE_DEF_GW)))
req->ndm.ndm_state |= NUD_NOARP;
else
req->ndm.ndm_flags |= NTF_EXT_LEARNED;
/* Add attributes */
nl_attr_put(&req->hdr, in_buf_len, NDA_LLADDR, &mac->macaddr, 6);
nl_attr_put(&req->hdr, in_buf_len, NDA_DST, &mac->r_vtep_ip, 4);
nl_attr_put32(&req->hdr, in_buf_len, NDA_MASTER, mac->svi_if);
nl_attr_put32(&req->hdr, in_buf_len, NDA_VNI, mac->vni);
assert(req->hdr.nlmsg_len < in_buf_len);
zfpm_debug("Tx %s family %s ifindex %u MAC %pEA DEST %pI4",
nl_msg_type_to_str(req->hdr.nlmsg_type),
nl_family_to_str(req->ndm.ndm_family), req->ndm.ndm_ifindex,
&mac->macaddr, &mac->r_vtep_ip);
return req->hdr.nlmsg_len;
}
#endif /* HAVE_NETLINK */
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