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|
/* Zebra daemon server routine.
* Copyright (C) 1997, 98, 99 Kunihiro Ishiguro
*
* 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 GNU Zebra; see the file COPYING. If not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <zebra.h>
#include "prefix.h"
#include "command.h"
#include "if.h"
#include "thread.h"
#include "stream.h"
#include "memory.h"
#include "zebra_memory.h"
#include "table.h"
#include "rib.h"
#include "network.h"
#include "sockunion.h"
#include "log.h"
#include "zclient.h"
#include "privs.h"
#include "network.h"
#include "buffer.h"
#include "nexthop.h"
#include "vrf.h"
#include "zebra/zserv.h"
#include "zebra/zebra_ns.h"
#include "zebra/zebra_vrf.h"
#include "zebra/router-id.h"
#include "zebra/redistribute.h"
#include "zebra/debug.h"
#include "zebra/ipforward.h"
#include "zebra/zebra_rnh.h"
#include "zebra/rt_netlink.h"
#include "zebra/interface.h"
#include "zebra/zebra_ptm.h"
#include "zebra/rtadv.h"
#include "zebra/zebra_mpls.h"
#include "zebra/zebra_fpm.h"
/* Event list of zebra. */
enum event { ZEBRA_SERV, ZEBRA_READ, ZEBRA_WRITE };
static void zebra_event (enum event event, int sock, struct zserv *client);
extern struct zebra_privs_t zserv_privs;
static void zebra_client_close (struct zserv *client);
static int
zserv_delayed_close(struct thread *thread)
{
struct zserv *client = THREAD_ARG(thread);
client->t_suicide = NULL;
zebra_client_close(client);
return 0;
}
static int
zserv_flush_data(struct thread *thread)
{
struct zserv *client = THREAD_ARG(thread);
client->t_write = NULL;
if (client->t_suicide)
{
zebra_client_close(client);
return -1;
}
switch (buffer_flush_available(client->wb, client->sock))
{
case BUFFER_ERROR:
zlog_warn("%s: buffer_flush_available failed on zserv client fd %d, "
"closing", __func__, client->sock);
zebra_client_close(client);
break;
case BUFFER_PENDING:
client->t_write = thread_add_write(zebrad.master, zserv_flush_data,
client, client->sock);
break;
case BUFFER_EMPTY:
break;
}
client->last_write_time = quagga_monotime();
return 0;
}
int
zebra_server_send_message(struct zserv *client)
{
if (client->t_suicide)
return -1;
stream_set_getp(client->obuf, 0);
client->last_write_cmd = stream_getw_from(client->obuf, 6);
switch (buffer_write(client->wb, client->sock, STREAM_DATA(client->obuf),
stream_get_endp(client->obuf)))
{
case BUFFER_ERROR:
zlog_warn("%s: buffer_write failed to zserv client fd %d, closing",
__func__, client->sock);
/* Schedule a delayed close since many of the functions that call this
one do not check the return code. They do not allow for the
possibility that an I/O error may have caused the client to be
deleted. */
client->t_suicide = thread_add_event(zebrad.master, zserv_delayed_close,
client, 0);
return -1;
case BUFFER_EMPTY:
THREAD_OFF(client->t_write);
break;
case BUFFER_PENDING:
THREAD_WRITE_ON(zebrad.master, client->t_write,
zserv_flush_data, client, client->sock);
break;
}
client->last_write_time = quagga_monotime();
return 0;
}
void
zserv_create_header (struct stream *s, uint16_t cmd, vrf_id_t vrf_id)
{
/* length placeholder, caller can update */
stream_putw (s, ZEBRA_HEADER_SIZE);
stream_putc (s, ZEBRA_HEADER_MARKER);
stream_putc (s, ZSERV_VERSION);
stream_putw (s, vrf_id);
stream_putw (s, cmd);
}
static void
zserv_encode_interface (struct stream *s, struct interface *ifp)
{
/* Interface information. */
stream_put (s, ifp->name, INTERFACE_NAMSIZ);
stream_putl (s, ifp->ifindex);
stream_putc (s, ifp->status);
stream_putq (s, ifp->flags);
stream_putc (s, ifp->ptm_enable);
stream_putc (s, ifp->ptm_status);
stream_putl (s, ifp->metric);
stream_putl (s, ifp->mtu);
stream_putl (s, ifp->mtu6);
stream_putl (s, ifp->bandwidth);
stream_putl (s, ifp->ll_type);
stream_putl (s, ifp->hw_addr_len);
if (ifp->hw_addr_len)
stream_put (s, ifp->hw_addr, ifp->hw_addr_len);
/* Then, Traffic Engineering parameters if any */
if (HAS_LINK_PARAMS(ifp) && IS_LINK_PARAMS_SET(ifp->link_params))
{
stream_putc (s, 1);
zebra_interface_link_params_write (s, ifp);
}
else
stream_putc (s, 0);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
}
static void
zserv_encode_vrf (struct stream *s, struct zebra_vrf *zvrf)
{
/* Interface information. */
stream_put (s, zvrf_name (zvrf), VRF_NAMSIZ);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
}
/* Interface is added. Send ZEBRA_INTERFACE_ADD to client. */
/*
* This function is called in the following situations:
* - in response to a 3-byte ZEBRA_INTERFACE_ADD request
* from the client.
* - at startup, when zebra figures out the available interfaces
* - when an interface is added (where support for
* RTM_IFANNOUNCE or AF_NETLINK sockets is available), or when
* an interface is marked IFF_UP (i.e., an RTM_IFINFO message is
* received)
*/
int
zsend_interface_add (struct zserv *client, struct interface *ifp)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_INTERFACE_ADD, ifp->vrf_id);
zserv_encode_interface (s, ifp);
client->ifadd_cnt++;
return zebra_server_send_message(client);
}
/* Interface deletion from zebra daemon. */
int
zsend_interface_delete (struct zserv *client, struct interface *ifp)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_INTERFACE_DELETE, ifp->vrf_id);
zserv_encode_interface (s, ifp);
client->ifdel_cnt++;
return zebra_server_send_message (client);
}
int
zsend_vrf_add (struct zserv *client, struct zebra_vrf *zvrf)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_VRF_ADD, zvrf_id (zvrf));
zserv_encode_vrf (s, zvrf);
client->vrfadd_cnt++;
return zebra_server_send_message(client);
}
/* VRF deletion from zebra daemon. */
int
zsend_vrf_delete (struct zserv *client, struct zebra_vrf *zvrf)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_VRF_DELETE, zvrf_id (zvrf));
zserv_encode_vrf (s, zvrf);
client->vrfdel_cnt++;
return zebra_server_send_message (client);
}
int
zsend_interface_link_params (struct zserv *client, struct interface *ifp)
{
struct stream *s;
/* Check this client need interface information. */
if (! client->ifinfo)
return 0;
if (!ifp->link_params)
return 0;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_INTERFACE_LINK_PARAMS, ifp->vrf_id);
/* Add Interface Index */
stream_putl (s, ifp->ifindex);
/* Then TE Link Parameters */
if (zebra_interface_link_params_write (s, ifp) == 0)
return 0;
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
return zebra_server_send_message (client);
}
/* Interface address is added/deleted. Send ZEBRA_INTERFACE_ADDRESS_ADD or
* ZEBRA_INTERFACE_ADDRESS_DELETE to the client.
*
* A ZEBRA_INTERFACE_ADDRESS_ADD is sent in the following situations:
* - in response to a 3-byte ZEBRA_INTERFACE_ADD request
* from the client, after the ZEBRA_INTERFACE_ADD has been
* sent from zebra to the client
* - redistribute new address info to all clients in the following situations
* - at startup, when zebra figures out the available interfaces
* - when an interface is added (where support for
* RTM_IFANNOUNCE or AF_NETLINK sockets is available), or when
* an interface is marked IFF_UP (i.e., an RTM_IFINFO message is
* received)
* - for the vty commands "ip address A.B.C.D/M [<secondary>|<label LINE>]"
* and "no bandwidth <1-10000000>", "ipv6 address X:X::X:X/M"
* - when an RTM_NEWADDR message is received from the kernel,
*
* The call tree that triggers ZEBRA_INTERFACE_ADDRESS_DELETE:
*
* zsend_interface_address(DELETE)
* ^
* |
* zebra_interface_address_delete_update
* ^ ^ ^
* | | if_delete_update
* | |
* ip_address_uninstall connected_delete_ipv4
* [ipv6_addresss_uninstall] [connected_delete_ipv6]
* ^ ^
* | |
* | RTM_NEWADDR on routing/netlink socket
* |
* vty commands:
* "no ip address A.B.C.D/M [label LINE]"
* "no ip address A.B.C.D/M secondary"
* ["no ipv6 address X:X::X:X/M"]
*
*/
int
zsend_interface_address (int cmd, struct zserv *client,
struct interface *ifp, struct connected *ifc)
{
int blen;
struct stream *s;
struct prefix *p;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, cmd, ifp->vrf_id);
stream_putl (s, ifp->ifindex);
/* Interface address flag. */
stream_putc (s, ifc->flags);
/* Prefix information. */
p = ifc->address;
stream_putc (s, p->family);
blen = prefix_blen (p);
stream_put (s, &p->u.prefix, blen);
/*
* XXX gnu version does not send prefixlen for ZEBRA_INTERFACE_ADDRESS_DELETE
* but zebra_interface_address_delete_read() in the gnu version
* expects to find it
*/
stream_putc (s, p->prefixlen);
/* Destination. */
p = ifc->destination;
if (p)
stream_put (s, &p->u.prefix, blen);
else
stream_put (s, NULL, blen);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
client->connected_rt_add_cnt++;
return zebra_server_send_message(client);
}
static int
zsend_interface_nbr_address (int cmd, struct zserv *client,
struct interface *ifp, struct nbr_connected *ifc)
{
int blen;
struct stream *s;
struct prefix *p;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, cmd, ifp->vrf_id);
stream_putl (s, ifp->ifindex);
/* Prefix information. */
p = ifc->address;
stream_putc (s, p->family);
blen = prefix_blen (p);
stream_put (s, &p->u.prefix, blen);
/*
* XXX gnu version does not send prefixlen for ZEBRA_INTERFACE_ADDRESS_DELETE
* but zebra_interface_address_delete_read() in the gnu version
* expects to find it
*/
stream_putc (s, p->prefixlen);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
return zebra_server_send_message(client);
}
/* Interface address addition. */
static void
zebra_interface_nbr_address_add_update (struct interface *ifp,
struct nbr_connected *ifc)
{
struct listnode *node, *nnode;
struct zserv *client;
struct prefix *p;
if (IS_ZEBRA_DEBUG_EVENT)
{
char buf[INET6_ADDRSTRLEN];
p = ifc->address;
zlog_debug ("MESSAGE: ZEBRA_INTERFACE_NBR_ADDRESS_ADD %s/%d on %s",
inet_ntop (p->family, &p->u.prefix, buf, INET6_ADDRSTRLEN),
p->prefixlen, ifc->ifp->name);
}
for (ALL_LIST_ELEMENTS (zebrad.client_list, node, nnode, client))
zsend_interface_nbr_address (ZEBRA_INTERFACE_NBR_ADDRESS_ADD, client, ifp, ifc);
}
/* Interface address deletion. */
static void
zebra_interface_nbr_address_delete_update (struct interface *ifp,
struct nbr_connected *ifc)
{
struct listnode *node, *nnode;
struct zserv *client;
struct prefix *p;
if (IS_ZEBRA_DEBUG_EVENT)
{
char buf[INET6_ADDRSTRLEN];
p = ifc->address;
zlog_debug ("MESSAGE: ZEBRA_INTERFACE_NBR_ADDRESS_DELETE %s/%d on %s",
inet_ntop (p->family, &p->u.prefix, buf, INET6_ADDRSTRLEN),
p->prefixlen, ifc->ifp->name);
}
for (ALL_LIST_ELEMENTS (zebrad.client_list, node, nnode, client))
zsend_interface_nbr_address (ZEBRA_INTERFACE_NBR_ADDRESS_DELETE, client, ifp, ifc);
}
/* Send addresses on interface to client */
int
zsend_interface_addresses (struct zserv *client, struct interface *ifp)
{
struct listnode *cnode, *cnnode;
struct connected *c;
struct nbr_connected *nc;
/* Send interface addresses. */
for (ALL_LIST_ELEMENTS (ifp->connected, cnode, cnnode, c))
{
if (!CHECK_FLAG (c->conf, ZEBRA_IFC_REAL))
continue;
if (zsend_interface_address (ZEBRA_INTERFACE_ADDRESS_ADD, client,
ifp, c) < 0)
return -1;
}
/* Send interface neighbors. */
for (ALL_LIST_ELEMENTS (ifp->nbr_connected, cnode, cnnode, nc))
{
if (zsend_interface_nbr_address (ZEBRA_INTERFACE_NBR_ADDRESS_ADD,
client, ifp, nc) < 0)
return -1;
}
return 0;
}
/* Notify client about interface moving from one VRF to another.
* Whether client is interested in old and new VRF is checked by caller.
*/
int
zsend_interface_vrf_update (struct zserv *client, struct interface *ifp,
vrf_id_t vrf_id)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, ZEBRA_INTERFACE_VRF_UPDATE, ifp->vrf_id);
/* Fill in the ifIndex of the interface and its new VRF (id) */
stream_putl (s, ifp->ifindex);
stream_putw (s, vrf_id);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
client->if_vrfchg_cnt++;
return zebra_server_send_message(client);
}
/* Add new nbr connected IPv6 address */
void
nbr_connected_add_ipv6 (struct interface *ifp, struct in6_addr *address)
{
struct nbr_connected *ifc;
struct prefix p;
p.family = AF_INET6;
IPV6_ADDR_COPY (&p.u.prefix, address);
p.prefixlen = IPV6_MAX_PREFIXLEN;
if (!(ifc = listnode_head(ifp->nbr_connected)))
{
/* new addition */
ifc = nbr_connected_new ();
ifc->address = prefix_new();
ifc->ifp = ifp;
listnode_add (ifp->nbr_connected, ifc);
}
prefix_copy(ifc->address, &p);
zebra_interface_nbr_address_add_update (ifp, ifc);
if_nbr_ipv6ll_to_ipv4ll_neigh_update (ifp, address, 1);
}
void
nbr_connected_delete_ipv6 (struct interface *ifp, struct in6_addr *address)
{
struct nbr_connected *ifc;
struct prefix p;
p.family = AF_INET6;
IPV6_ADDR_COPY (&p.u.prefix, address);
p.prefixlen = IPV6_MAX_PREFIXLEN;
ifc = nbr_connected_check(ifp, &p);
if (!ifc)
return;
listnode_delete (ifp->nbr_connected, ifc);
zebra_interface_nbr_address_delete_update (ifp, ifc);
if_nbr_ipv6ll_to_ipv4ll_neigh_update (ifp, address, 0);
nbr_connected_free (ifc);
}
/*
* The cmd passed to zsend_interface_update may be ZEBRA_INTERFACE_UP or
* ZEBRA_INTERFACE_DOWN.
*
* The ZEBRA_INTERFACE_UP message is sent from the zebra server to
* the clients in one of 2 situations:
* - an if_up is detected e.g., as a result of an RTM_IFINFO message
* - a vty command modifying the bandwidth of an interface is received.
* The ZEBRA_INTERFACE_DOWN message is sent when an if_down is detected.
*/
int
zsend_interface_update (int cmd, struct zserv *client, struct interface *ifp)
{
struct stream *s;
s = client->obuf;
stream_reset (s);
zserv_create_header (s, cmd, ifp->vrf_id);
zserv_encode_interface (s, ifp);
if (cmd == ZEBRA_INTERFACE_UP)
client->ifup_cnt++;
else
client->ifdown_cnt++;
return zebra_server_send_message(client);
}
/*
* This is the new function to announce and withdraw redistributed routes, used
* by Zebra. This is the old zsend_route_multipath() function. That function
* was duplicating code to send a lot of information that was essentially thrown
* away or ignored by the receiver. This is the leaner function that is not a
* duplicate of the zapi_ipv4_route_add/del.
*
* The primary difference is that this function merely sends a single NH instead of
* all the nexthops.
*/
int
zsend_redistribute_route (int add, struct zserv *client, struct prefix *p,
struct rib *rib)
{
afi_t afi;
int cmd;
int psize;
struct stream *s;
struct nexthop *nexthop;
unsigned long nhnummark = 0, messmark = 0;
int nhnum = 0;
u_char zapi_flags = 0;
struct nexthop dummy_nh;
afi = family2afi (p->family);
if (add)
{
switch (afi)
{
case AFI_IP:
cmd = ZEBRA_REDISTRIBUTE_IPV4_ADD;
client->redist_v4_add_cnt++;
break;
case AFI_IP6:
cmd = ZEBRA_REDISTRIBUTE_IPV6_ADD;
client->redist_v6_add_cnt++;
break;
default:
return -1;
}
}
else
{
switch (afi)
{
case AFI_IP:
cmd = ZEBRA_REDISTRIBUTE_IPV4_DEL;
client->redist_v4_del_cnt++;
break;
case AFI_IP6:
cmd = ZEBRA_REDISTRIBUTE_IPV6_DEL;
client->redist_v6_del_cnt++;
break;
default:
return -1;
}
}
s = client->obuf;
stream_reset (s);
memset(&dummy_nh, 0, sizeof(struct nexthop));
zserv_create_header (s, cmd, rib->vrf_id);
/* Put type and nexthop. */
stream_putc (s, rib->type);
stream_putw (s, rib->instance);
stream_putl (s, rib->flags);
/* marker for message flags field */
messmark = stream_get_endp (s);
stream_putc (s, 0);
/* Prefix. */
psize = PSIZE (p->prefixlen);
stream_putc (s, p->prefixlen);
stream_write (s, (u_char *) & p->u.prefix, psize);
for (nexthop = rib->nexthop; nexthop; nexthop = nexthop->next)
{
/* We don't send any nexthops when there's a multipath */
if (rib->nexthop_active_num > 1 && client->proto != ZEBRA_ROUTE_LDP)
{
SET_FLAG (zapi_flags, ZAPI_MESSAGE_NEXTHOP);
SET_FLAG (zapi_flags, ZAPI_MESSAGE_IFINDEX);
stream_putc(s, 1);
if (p->family == AF_INET)
{
stream_put_in_addr (s, &dummy_nh.gate.ipv4);
}
else if (p->family == AF_INET6)
{
stream_write (s, (u_char *) &dummy_nh.gate.ipv6, 16);
}
else
{
/* We don't handle anything else now, abort */
zlog_err("%s: Unable to redistribute route of unknown family, %d\n",
__func__, p->family);
return -1;
}
stream_putc (s, 1);
stream_putl (s, 0); /* dummy ifindex */
break;
}
if (CHECK_FLAG(nexthop->flags, NEXTHOP_FLAG_ACTIVE))
{
SET_FLAG (zapi_flags, ZAPI_MESSAGE_NEXTHOP);
SET_FLAG (zapi_flags, ZAPI_MESSAGE_IFINDEX);
if (nhnummark == 0)
{
nhnummark = stream_get_endp (s);
stream_putc (s, 1); /* placeholder */
}
nhnum++;
switch(nexthop->type)
{
case NEXTHOP_TYPE_IPV4:
case NEXTHOP_TYPE_IPV4_IFINDEX:
stream_put_in_addr (s, &nexthop->gate.ipv4);
break;
case NEXTHOP_TYPE_IPV6:
case NEXTHOP_TYPE_IPV6_IFINDEX:
/* Only BGP supports IPv4 prefix with IPv6 NH, so kill this */
if (p->family == AF_INET)
stream_put_in_addr(s, &dummy_nh.gate.ipv4);
else
stream_write (s, (u_char *) &nexthop->gate.ipv6, 16);
break;
default:
if (cmd == ZEBRA_REDISTRIBUTE_IPV4_ADD
|| cmd == ZEBRA_REDISTRIBUTE_IPV4_DEL)
{
struct in_addr empty;
memset (&empty, 0, sizeof (struct in_addr));
stream_write (s, (u_char *) &empty, IPV4_MAX_BYTELEN);
}
else
{
struct in6_addr empty;
memset (&empty, 0, sizeof (struct in6_addr));
stream_write (s, (u_char *) &empty, IPV6_MAX_BYTELEN);
}
}
/* Interface index. */
stream_putc (s, 1);
stream_putl (s, nexthop->ifindex);
/* ldpd needs all nexthops */
if (client->proto != ZEBRA_ROUTE_LDP)
break;
}
}
/* Distance */
SET_FLAG (zapi_flags, ZAPI_MESSAGE_DISTANCE);
stream_putc (s, rib->distance);
/* Metric */
SET_FLAG (zapi_flags, ZAPI_MESSAGE_METRIC);
stream_putl (s, rib->metric);
/* Tag */
if (rib->tag)
{
SET_FLAG(zapi_flags, ZAPI_MESSAGE_TAG);
stream_putl(s, rib->tag);
}
/* MTU */
SET_FLAG (zapi_flags, ZAPI_MESSAGE_MTU);
stream_putl (s, rib->mtu);
/* write real message flags value */
stream_putc_at (s, messmark, zapi_flags);
/* Write next-hop number */
if (nhnummark)
stream_putc_at (s, nhnummark, nhnum);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
return zebra_server_send_message(client);
}
static int
zsend_write_nexthop (struct stream *s, struct nexthop *nexthop)
{
stream_putc (s, nexthop->type);
switch (nexthop->type)
{
case NEXTHOP_TYPE_IPV4:
stream_put_in_addr (s, &nexthop->gate.ipv4);
break;
case NEXTHOP_TYPE_IPV4_IFINDEX:
stream_put_in_addr (s, &nexthop->gate.ipv4);
stream_putl (s, nexthop->ifindex);
break;
case NEXTHOP_TYPE_IPV6:
stream_put (s, &nexthop->gate.ipv6, 16);
break;
case NEXTHOP_TYPE_IPV6_IFINDEX:
stream_put (s, &nexthop->gate.ipv6, 16);
stream_putl (s, nexthop->ifindex);
break;
case NEXTHOP_TYPE_IFINDEX:
stream_putl (s, nexthop->ifindex);
break;
default:
/* do nothing */
break;
}
return 1;
}
/* Nexthop register */
static int
zserv_rnh_register (struct zserv *client, int sock, u_short length,
rnh_type_t type, struct zebra_vrf *zvrf)
{
struct rnh *rnh;
struct stream *s;
struct prefix p;
u_short l = 0;
u_char flags = 0;
if (IS_ZEBRA_DEBUG_NHT)
zlog_debug("rnh_register msg from client %s: length=%d, type=%s\n",
zebra_route_string(client->proto), length,
(type == RNH_NEXTHOP_TYPE) ? "nexthop" : "route");
s = client->ibuf;
client->nh_reg_time = quagga_monotime();
while (l < length)
{
flags = stream_getc(s);
p.family = stream_getw(s);
p.prefixlen = stream_getc(s);
l += 4;
if (p.family == AF_INET)
{
p.u.prefix4.s_addr = stream_get_ipv4(s);
l += IPV4_MAX_BYTELEN;
}
else if (p.family == AF_INET6)
{
stream_get(&p.u.prefix6, s, IPV6_MAX_BYTELEN);
l += IPV6_MAX_BYTELEN;
}
else
{
zlog_err("rnh_register: Received unknown family type %d\n",
p.family);
return -1;
}
rnh = zebra_add_rnh(&p, zvrf_id (zvrf), type);
if (type == RNH_NEXTHOP_TYPE)
{
if (flags && !CHECK_FLAG(rnh->flags, ZEBRA_NHT_CONNECTED))
SET_FLAG(rnh->flags, ZEBRA_NHT_CONNECTED);
else if (!flags && CHECK_FLAG(rnh->flags, ZEBRA_NHT_CONNECTED))
UNSET_FLAG(rnh->flags, ZEBRA_NHT_CONNECTED);
}
else if (type == RNH_IMPORT_CHECK_TYPE)
{
if (flags && !CHECK_FLAG(rnh->flags, ZEBRA_NHT_EXACT_MATCH))
SET_FLAG(rnh->flags, ZEBRA_NHT_EXACT_MATCH);
else if (!flags && CHECK_FLAG(rnh->flags, ZEBRA_NHT_EXACT_MATCH))
UNSET_FLAG(rnh->flags, ZEBRA_NHT_EXACT_MATCH);
}
zebra_add_rnh_client(rnh, client, type, zvrf_id (zvrf));
/* Anything not AF_INET/INET6 has been filtered out above */
zebra_evaluate_rnh(zvrf_id (zvrf), p.family, 1, type, &p);
}
return 0;
}
/* Nexthop register */
static int
zserv_rnh_unregister (struct zserv *client, int sock, u_short length,
rnh_type_t type, struct zebra_vrf *zvrf)
{
struct rnh *rnh;
struct stream *s;
struct prefix p;
u_short l = 0;
if (IS_ZEBRA_DEBUG_NHT)
zlog_debug("rnh_unregister msg from client %s: length=%d\n",
zebra_route_string(client->proto), length);
s = client->ibuf;
while (l < length)
{
(void)stream_getc(s); //Connected or not. Not used in this function
p.family = stream_getw(s);
p.prefixlen = stream_getc(s);
l += 4;
if (p.family == AF_INET)
{
p.u.prefix4.s_addr = stream_get_ipv4(s);
l += IPV4_MAX_BYTELEN;
}
else if (p.family == AF_INET6)
{
stream_get(&p.u.prefix6, s, IPV6_MAX_BYTELEN);
l += IPV6_MAX_BYTELEN;
}
else
{
zlog_err("rnh_register: Received unknown family type %d\n",
p.family);
return -1;
}
rnh = zebra_lookup_rnh(&p, zvrf_id (zvrf), type);
if (rnh)
{
client->nh_dereg_time = quagga_monotime();
zebra_remove_rnh_client(rnh, client, type);
}
}
return 0;
}
/*
Modified version of zsend_ipv4_nexthop_lookup():
Query unicast rib if nexthop is not found on mrib.
Returns both route metric and protocol distance.
*/
static int
zsend_ipv4_nexthop_lookup_mrib (struct zserv *client, struct in_addr addr, struct rib *rib, struct zebra_vrf *zvrf)
{
struct stream *s;
unsigned long nump;
u_char num;
struct nexthop *nexthop;
/* Get output stream. */
s = client->obuf;
stream_reset (s);
/* Fill in result. */
zserv_create_header (s, ZEBRA_IPV4_NEXTHOP_LOOKUP_MRIB, zvrf_id (zvrf));
stream_put_in_addr (s, &addr);
if (rib)
{
stream_putc (s, rib->distance);
stream_putl (s, rib->metric);
num = 0;
nump = stream_get_endp(s); /* remember position for nexthop_num */
stream_putc (s, 0); /* reserve room for nexthop_num */
/* Only non-recursive routes are elegible to resolve the nexthop we
* are looking up. Therefore, we will just iterate over the top
* chain of nexthops. */
for (nexthop = rib->nexthop; nexthop; nexthop = nexthop->next)
if (CHECK_FLAG (nexthop->flags, NEXTHOP_FLAG_ACTIVE))
num += zsend_write_nexthop (s, nexthop);
stream_putc_at (s, nump, num); /* store nexthop_num */
}
else
{
stream_putc (s, 0); /* distance */
stream_putl (s, 0); /* metric */
stream_putc (s, 0); /* nexthop_num */
}
stream_putw_at (s, 0, stream_get_endp (s));
return zebra_server_send_message(client);
}
/* Router-id is updated. Send ZEBRA_ROUTER_ID_ADD to client. */
int
zsend_router_id_update (struct zserv *client, struct prefix *p,
vrf_id_t vrf_id)
{
struct stream *s;
int blen;
/* Check this client need interface information. */
if (! vrf_bitmap_check (client->ridinfo, vrf_id))
return 0;
s = client->obuf;
stream_reset (s);
/* Message type. */
zserv_create_header (s, ZEBRA_ROUTER_ID_UPDATE, vrf_id);
/* Prefix information. */
stream_putc (s, p->family);
blen = prefix_blen (p);
stream_put (s, &p->u.prefix, blen);
stream_putc (s, p->prefixlen);
/* Write packet size. */
stream_putw_at (s, 0, stream_get_endp (s));
return zebra_server_send_message(client);
}
/* Register zebra server interface information. Send current all
interface and address information. */
static int
zread_interface_add (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
struct vrf *vrf;
struct listnode *ifnode, *ifnnode;
struct interface *ifp;
/* Interface information is needed. */
vrf_bitmap_set (client->ifinfo, zvrf_id (zvrf));
RB_FOREACH (vrf, vrf_id_head, &vrfs_by_id)
{
for (ALL_LIST_ELEMENTS (vrf->iflist, ifnode, ifnnode, ifp))
{
/* Skip pseudo interface. */
if (! CHECK_FLAG (ifp->status, ZEBRA_INTERFACE_ACTIVE))
continue;
if (zsend_interface_add (client, ifp) < 0)
return -1;
if (zsend_interface_addresses (client, ifp) < 0)
return -1;
}
}
return 0;
}
/* Unregister zebra server interface information. */
static int
zread_interface_delete (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
vrf_bitmap_unset (client->ifinfo, zvrf_id (zvrf));
return 0;
}
void
zserv_nexthop_num_warn (const char *caller, const struct prefix *p, const unsigned int nexthop_num)
{
if (nexthop_num > MULTIPATH_NUM)
{
char buff[PREFIX2STR_BUFFER];
prefix2str(p, buff, sizeof (buff));
zlog_warn("%s: Prefix %s has %d nexthops, but we can only use the first %d",
caller, buff, nexthop_num, MULTIPATH_NUM);
}
}
/* This function support multiple nexthop. */
/*
* Parse the ZEBRA_IPV4_ROUTE_ADD sent from client. Update rib and
* add kernel route.
*/
static int
zread_ipv4_add (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
struct rib *rib;
struct prefix p;
u_char message;
struct in_addr nexthop;
u_char nexthop_num;
u_char nexthop_type;
struct stream *s;
ifindex_t ifindex;
safi_t safi;
int ret;
/* Get input stream. */
s = client->ibuf;
/* Allocate new rib. */
rib = XCALLOC (MTYPE_RIB, sizeof (struct rib));
/* Type, flags, message. */
rib->type = stream_getc (s);
rib->instance = stream_getw (s);
rib->flags = stream_getl (s);
message = stream_getc (s);
safi = stream_getw (s);
rib->uptime = time (NULL);
/* IPv4 prefix. */
memset (&p, 0, sizeof (struct prefix_ipv4));
p.family = AF_INET;
p.prefixlen = stream_getc (s);
stream_get (&p.u.prefix4, s, PSIZE (p.prefixlen));
/* VRF ID */
rib->vrf_id = zvrf_id (zvrf);
/* Nexthop parse. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_NEXTHOP))
{
nexthop_num = stream_getc (s);
zserv_nexthop_num_warn(__func__, (const struct prefix *)&p, nexthop_num);
for (i = 0; i < nexthop_num; i++)
{
nexthop_type = stream_getc (s);
switch (nexthop_type)
{
case NEXTHOP_TYPE_IFINDEX:
ifindex = stream_getl (s);
rib_nexthop_ifindex_add (rib, ifindex);
break;
case NEXTHOP_TYPE_IPV4:
nexthop.s_addr = stream_get_ipv4 (s);
rib_nexthop_ipv4_add (rib, &nexthop, NULL);
break;
case NEXTHOP_TYPE_IPV4_IFINDEX:
nexthop.s_addr = stream_get_ipv4 (s);
ifindex = stream_getl (s);
rib_nexthop_ipv4_ifindex_add (rib, &nexthop, NULL, ifindex);
break;
case NEXTHOP_TYPE_IPV6:
stream_forward_getp (s, IPV6_MAX_BYTELEN);
break;
case NEXTHOP_TYPE_BLACKHOLE:
rib_nexthop_blackhole_add (rib);
break;
}
}
}
/* Distance. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_DISTANCE))
rib->distance = stream_getc (s);
/* Metric. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_METRIC))
rib->metric = stream_getl (s);
/* Tag */
if (CHECK_FLAG (message, ZAPI_MESSAGE_TAG))
rib->tag = stream_getl (s);
else
rib->tag = 0;
if (CHECK_FLAG (message, ZAPI_MESSAGE_MTU))
rib->mtu = stream_getl (s);
else
rib->mtu = 0;
/* Table */
rib->table = zvrf->table_id;
ret = rib_add_multipath (AFI_IP, safi, &p, rib);
/* Stats */
if (ret > 0)
client->v4_route_add_cnt++;
else if (ret < 0)
client->v4_route_upd8_cnt++;
return 0;
}
/* Zebra server IPv4 prefix delete function. */
static int
zread_ipv4_delete (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
struct stream *s;
struct zapi_ipv4 api;
struct in_addr nexthop;
union g_addr *nexthop_p;
unsigned long ifindex;
struct prefix p;
u_char nexthop_num;
u_char nexthop_type;
u_int32_t table_id;
s = client->ibuf;
ifindex = 0;
nexthop.s_addr = 0;
nexthop_p = NULL;
/* Type, flags, message. */
api.type = stream_getc (s);
api.instance = stream_getw (s);
api.flags = stream_getl (s);
api.message = stream_getc (s);
api.safi = stream_getw (s);
/* IPv4 prefix. */
memset (&p, 0, sizeof (struct prefix_ipv4));
p.family = AF_INET;
p.prefixlen = stream_getc (s);
stream_get (&p.u.prefix4, s, PSIZE (p.prefixlen));
/* Nexthop, ifindex, distance, metric. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_NEXTHOP))
{
nexthop_num = stream_getc (s);
for (i = 0; i < nexthop_num; i++)
{
nexthop_type = stream_getc (s);
switch (nexthop_type)
{
case NEXTHOP_TYPE_IFINDEX:
ifindex = stream_getl (s);
break;
case NEXTHOP_TYPE_IPV4:
nexthop.s_addr = stream_get_ipv4 (s);
nexthop_p = (union g_addr *)&nexthop;
break;
case NEXTHOP_TYPE_IPV4_IFINDEX:
nexthop.s_addr = stream_get_ipv4 (s);
nexthop_p = (union g_addr *)&nexthop;
ifindex = stream_getl (s);
break;
case NEXTHOP_TYPE_IPV6:
stream_forward_getp (s, IPV6_MAX_BYTELEN);
break;
}
}
}
/* Distance. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_DISTANCE))
api.distance = stream_getc (s);
else
api.distance = 0;
/* Metric. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_METRIC))
api.metric = stream_getl (s);
else
api.metric = 0;
/* tag */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_TAG))
api.tag = stream_getl (s);
else
api.tag = 0;
table_id = zvrf->table_id;
rib_delete (AFI_IP, api.safi, zvrf_id (zvrf), api.type, api.instance,
api.flags, &p, nexthop_p, ifindex, table_id);
client->v4_route_del_cnt++;
return 0;
}
/* MRIB Nexthop lookup for IPv4. */
static int
zread_ipv4_nexthop_lookup_mrib (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
struct in_addr addr;
struct rib *rib;
addr.s_addr = stream_get_ipv4 (client->ibuf);
rib = rib_match_ipv4_multicast (zvrf_id (zvrf), addr, NULL);
return zsend_ipv4_nexthop_lookup_mrib (client, addr, rib, zvrf);
}
/* Zebra server IPv6 prefix add function. */
static int
zread_ipv4_route_ipv6_nexthop_add (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
struct stream *s;
struct in6_addr nexthop;
struct rib *rib;
u_char message;
u_char nexthop_num;
u_char nexthop_type;
struct prefix p;
safi_t safi;
static struct in6_addr nexthops[MULTIPATH_NUM];
static unsigned int ifindices[MULTIPATH_NUM];
int ret;
/* Get input stream. */
s = client->ibuf;
memset (&nexthop, 0, sizeof (struct in6_addr));
/* Allocate new rib. */
rib = XCALLOC (MTYPE_RIB, sizeof (struct rib));
/* Type, flags, message. */
rib->type = stream_getc (s);
rib->instance = stream_getw (s);
rib->flags = stream_getl (s);
message = stream_getc (s);
safi = stream_getw (s);
rib->uptime = time (NULL);
/* IPv4 prefix. */
memset (&p, 0, sizeof (struct prefix_ipv4));
p.family = AF_INET;
p.prefixlen = stream_getc (s);
stream_get (&p.u.prefix4, s, PSIZE (p.prefixlen));
/* VRF ID */
rib->vrf_id = zvrf_id (zvrf);
/* We need to give nh-addr, nh-ifindex with the same next-hop object
* to the rib to ensure that IPv6 multipathing works; need to coalesce
* these. Clients should send the same number of paired set of
* next-hop-addr/next-hop-ifindices. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_NEXTHOP))
{
int nh_count = 0;
int if_count = 0;
int max_nh_if = 0;
nexthop_num = stream_getc (s);
zserv_nexthop_num_warn(__func__, (const struct prefix *)&p, nexthop_num);
for (i = 0; i < nexthop_num; i++)
{
nexthop_type = stream_getc (s);
switch (nexthop_type)
{
case NEXTHOP_TYPE_IPV6:
stream_get (&nexthop, s, 16);
if (nh_count < MULTIPATH_NUM) {
nexthops[nh_count++] = nexthop;
}
break;
case NEXTHOP_TYPE_IFINDEX:
if (if_count < MULTIPATH_NUM) {
ifindices[if_count++] = stream_getl (s);
}
break;
case NEXTHOP_TYPE_BLACKHOLE:
rib_nexthop_blackhole_add (rib);
break;
}
}
max_nh_if = (nh_count > if_count) ? nh_count : if_count;
for (i = 0; i < max_nh_if; i++)
{
if ((i < nh_count) && !IN6_IS_ADDR_UNSPECIFIED (&nexthops[i])) {
if ((i < if_count) && ifindices[i]) {
rib_nexthop_ipv6_ifindex_add (rib, &nexthops[i], ifindices[i]);
}
else {
rib_nexthop_ipv6_add (rib, &nexthops[i]);
}
}
else {
if ((i < if_count) && ifindices[i]) {
rib_nexthop_ifindex_add (rib, ifindices[i]);
}
}
}
}
/* Distance. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_DISTANCE))
rib->distance = stream_getc (s);
/* Metric. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_METRIC))
rib->metric = stream_getl (s);
/* Tag */
if (CHECK_FLAG (message, ZAPI_MESSAGE_TAG))
rib->tag = stream_getl (s);
else
rib->tag = 0;
if (CHECK_FLAG (message, ZAPI_MESSAGE_MTU))
rib->mtu = stream_getl (s);
else
rib->mtu = 0;
/* Table */
rib->table = zvrf->table_id;
ret = rib_add_multipath (AFI_IP6, safi, &p, rib);
/* Stats */
if (ret > 0)
client->v4_route_add_cnt++;
else if (ret < 0)
client->v4_route_upd8_cnt++;
return 0;
}
static int
zread_ipv6_add (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
struct stream *s;
struct in6_addr nexthop;
struct rib *rib;
u_char message;
u_char nexthop_num;
u_char nexthop_type;
struct prefix p;
safi_t safi;
static struct in6_addr nexthops[MULTIPATH_NUM];
static unsigned int ifindices[MULTIPATH_NUM];
int ret;
/* Get input stream. */
s = client->ibuf;
memset (&nexthop, 0, sizeof (struct in6_addr));
/* Allocate new rib. */
rib = XCALLOC (MTYPE_RIB, sizeof (struct rib));
/* Type, flags, message. */
rib->type = stream_getc (s);
rib->instance = stream_getw (s);
rib->flags = stream_getl (s);
message = stream_getc (s);
safi = stream_getw (s);
rib->uptime = time (NULL);
/* IPv6 prefix. */
memset (&p, 0, sizeof (struct prefix_ipv6));
p.family = AF_INET6;
p.prefixlen = stream_getc (s);
stream_get (&p.u.prefix6, s, PSIZE (p.prefixlen));
/* We need to give nh-addr, nh-ifindex with the same next-hop object
* to the rib to ensure that IPv6 multipathing works; need to coalesce
* these. Clients should send the same number of paired set of
* next-hop-addr/next-hop-ifindices. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_NEXTHOP))
{
int nh_count = 0;
int if_count = 0;
int max_nh_if = 0;
nexthop_num = stream_getc (s);
zserv_nexthop_num_warn(__func__, (const struct prefix *)&p, nexthop_num);
for (i = 0; i < nexthop_num; i++)
{
nexthop_type = stream_getc (s);
switch (nexthop_type)
{
case NEXTHOP_TYPE_IPV6:
stream_get (&nexthop, s, 16);
if (nh_count < MULTIPATH_NUM) {
nexthops[nh_count++] = nexthop;
}
break;
case NEXTHOP_TYPE_IFINDEX:
if (if_count < MULTIPATH_NUM) {
ifindices[if_count++] = stream_getl (s);
}
break;
case NEXTHOP_TYPE_BLACKHOLE:
rib_nexthop_blackhole_add (rib);
break;
}
}
max_nh_if = (nh_count > if_count) ? nh_count : if_count;
for (i = 0; i < max_nh_if; i++)
{
if ((i < nh_count) && !IN6_IS_ADDR_UNSPECIFIED (&nexthops[i])) {
if ((i < if_count) && ifindices[i])
rib_nexthop_ipv6_ifindex_add (rib, &nexthops[i], ifindices[i]);
else
rib_nexthop_ipv6_add (rib, &nexthops[i]);
}
else {
if ((i < if_count) && ifindices[i])
rib_nexthop_ifindex_add (rib, ifindices[i]);
}
}
}
/* Distance. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_DISTANCE))
rib->distance = stream_getc (s);
/* Metric. */
if (CHECK_FLAG (message, ZAPI_MESSAGE_METRIC))
rib->metric = stream_getl (s);
/* Tag */
if (CHECK_FLAG (message, ZAPI_MESSAGE_TAG))
rib->tag = stream_getl (s);
else
rib->tag = 0;
if (CHECK_FLAG (message, ZAPI_MESSAGE_MTU))
rib->mtu = stream_getl (s);
else
rib->mtu = 0;
/* VRF ID */
rib->vrf_id = zvrf_id (zvrf);
rib->table = zvrf->table_id;
ret = rib_add_multipath (AFI_IP6, safi, &p, rib);
/* Stats */
if (ret > 0)
client->v6_route_add_cnt++;
else if (ret < 0)
client->v6_route_upd8_cnt++;
return 0;
}
/* Zebra server IPv6 prefix delete function. */
static int
zread_ipv6_delete (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
struct stream *s;
struct zapi_ipv6 api;
struct in6_addr nexthop;
union g_addr *pnexthop;
unsigned long ifindex;
struct prefix p;
s = client->ibuf;
ifindex = 0;
memset (&nexthop, 0, sizeof (struct in6_addr));
/* Type, flags, message. */
api.type = stream_getc (s);
api.instance = stream_getw (s);
api.flags = stream_getl (s);
api.message = stream_getc (s);
api.safi = stream_getw (s);
/* IPv4 prefix. */
memset (&p, 0, sizeof (struct prefix_ipv6));
p.family = AF_INET6;
p.prefixlen = stream_getc (s);
stream_get (&p.u.prefix6, s, PSIZE (p.prefixlen));
/* Nexthop, ifindex, distance, metric. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_NEXTHOP))
{
u_char nexthop_type;
api.nexthop_num = stream_getc (s);
for (i = 0; i < api.nexthop_num; i++)
{
nexthop_type = stream_getc (s);
switch (nexthop_type)
{
case NEXTHOP_TYPE_IPV6:
stream_get (&nexthop, s, 16);
pnexthop = (union g_addr *)&nexthop;
break;
case NEXTHOP_TYPE_IFINDEX:
ifindex = stream_getl (s);
break;
}
}
}
/* Distance. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_DISTANCE))
api.distance = stream_getc (s);
else
api.distance = 0;
/* Metric. */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_METRIC))
api.metric = stream_getl (s);
else
api.metric = 0;
/* tag */
if (CHECK_FLAG (api.message, ZAPI_MESSAGE_TAG))
api.tag = stream_getl (s);
else
api.tag = 0;
if (IN6_IS_ADDR_UNSPECIFIED (&nexthop))
rib_delete (AFI_IP6, api.safi, zvrf_id (zvrf), api.type, api.instance,
api.flags, &p, NULL, ifindex, client->rtm_table);
else
rib_delete (AFI_IP6, api.safi, zvrf_id (zvrf), api.type, api.instance,
api.flags, &p, pnexthop, ifindex, client->rtm_table);
client->v6_route_del_cnt++;
return 0;
}
/* Register zebra server router-id information. Send current router-id */
static int
zread_router_id_add (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
struct prefix p;
/* Router-id information is needed. */
vrf_bitmap_set (client->ridinfo, zvrf_id (zvrf));
router_id_get (&p, zvrf_id (zvrf));
return zsend_router_id_update (client, &p, zvrf_id (zvrf));
}
/* Unregister zebra server router-id information. */
static int
zread_router_id_delete (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
vrf_bitmap_unset (client->ridinfo, zvrf_id (zvrf));
return 0;
}
/* Tie up route-type and client->sock */
static void
zread_hello (struct zserv *client)
{
/* type of protocol (lib/zebra.h) */
u_char proto;
u_short instance;
proto = stream_getc (client->ibuf);
instance = stream_getw (client->ibuf);
/* accept only dynamic routing protocols */
if ((proto < ZEBRA_ROUTE_MAX)
&& (proto > ZEBRA_ROUTE_STATIC))
{
zlog_notice ("client %d says hello and bids fair to announce only %s routes",
client->sock, zebra_route_string(proto));
if (instance)
zlog_notice ("client protocol instance %d", instance);
client->proto = proto;
client->instance = instance;
}
}
/* Unregister all information in a VRF. */
static int
zread_vrf_unregister (struct zserv *client, u_short length, struct zebra_vrf *zvrf)
{
int i;
afi_t afi;
for (afi = AFI_IP; afi < AFI_MAX; afi++)
for (i = 0; i < ZEBRA_ROUTE_MAX; i++)
vrf_bitmap_unset (client->redist[afi][i], zvrf_id (zvrf));
vrf_bitmap_unset (client->redist_default, zvrf_id (zvrf));
vrf_bitmap_unset (client->ifinfo, zvrf_id (zvrf));
vrf_bitmap_unset (client->ridinfo, zvrf_id (zvrf));
return 0;
}
static void
zread_mpls_labels (int command, struct zserv *client, u_short length,
vrf_id_t vrf_id)
{
struct stream *s;
enum lsp_types_t type;
struct prefix prefix;
enum nexthop_types_t gtype;
union g_addr gate;
mpls_label_t in_label, out_label;
u_int8_t distance;
struct zebra_vrf *zvrf;
zvrf = vrf_info_lookup (vrf_id);
if (!zvrf)
return;
/* Get input stream. */
s = client->ibuf;
/* Get data. */
type = stream_getc (s);
prefix.family = stream_getl (s);
switch (prefix.family)
{
case AF_INET:
prefix.u.prefix4.s_addr = stream_get_ipv4 (s);
prefix.prefixlen = stream_getc (s);
gtype = NEXTHOP_TYPE_IPV4;
gate.ipv4.s_addr = stream_get_ipv4 (s);
break;
case AF_INET6:
stream_get (&prefix.u.prefix6, s, 16);
prefix.prefixlen = stream_getc (s);
gtype = NEXTHOP_TYPE_IPV6;
stream_get (&gate.ipv6, s, 16);
break;
default:
return;
}
distance = stream_getc (s);
in_label = stream_getl (s);
out_label = stream_getl (s);
if (! mpls_enabled)
return;
if (command == ZEBRA_MPLS_LABELS_ADD)
{
mpls_lsp_install (zvrf, type, in_label, out_label, gtype, &gate,
NULL, 0);
if (out_label != MPLS_IMP_NULL_LABEL)
mpls_ftn_update (1, zvrf, type, &prefix, &gate, distance, out_label);
}
else if (command == ZEBRA_MPLS_LABELS_DELETE)
{
mpls_lsp_uninstall (zvrf, type, in_label, gtype, &gate, NULL, 0);
if (out_label != MPLS_IMP_NULL_LABEL)
mpls_ftn_update (0, zvrf, type, &prefix, &gate, distance, out_label);
}
}
/* Cleanup registered nexthops (across VRFs) upon client disconnect. */
static void
zebra_client_close_cleanup_rnh (struct zserv *client)
{
struct vrf *vrf;
struct zebra_vrf *zvrf;
RB_FOREACH (vrf, vrf_id_head, &vrfs_by_id)
{
if ((zvrf = vrf->info) != NULL)
{
zebra_cleanup_rnh_client(zvrf_id (zvrf), AF_INET, client, RNH_NEXTHOP_TYPE);
zebra_cleanup_rnh_client(zvrf_id (zvrf), AF_INET6, client, RNH_NEXTHOP_TYPE);
zebra_cleanup_rnh_client(zvrf_id (zvrf), AF_INET, client, RNH_IMPORT_CHECK_TYPE);
zebra_cleanup_rnh_client(zvrf_id (zvrf), AF_INET6, client, RNH_IMPORT_CHECK_TYPE);
if (client->proto == ZEBRA_ROUTE_LDP)
{
hash_iterate(zvrf->lsp_table, mpls_ldp_lsp_uninstall_all,
zvrf->lsp_table);
mpls_ldp_ftn_uninstall_all (zvrf, AFI_IP);
mpls_ldp_ftn_uninstall_all (zvrf, AFI_IP6);
}
}
}
}
/* Close zebra client. */
static void
zebra_client_close (struct zserv *client)
{
/* Send client de-registration to BFD */
zebra_ptm_bfd_client_deregister(client->proto);
/* Cleanup any registered nexthops - across all VRFs. */
zebra_client_close_cleanup_rnh (client);
/* Close file descriptor. */
if (client->sock)
{
unsigned long nroutes;
close (client->sock);
nroutes = rib_score_proto (client->proto, client->instance);
zlog_notice ("client %d disconnected. %lu %s routes removed from the rib",
client->sock, nroutes, zebra_route_string (client->proto));
client->sock = -1;
}
/* Free stream buffers. */
if (client->ibuf)
stream_free (client->ibuf);
if (client->obuf)
stream_free (client->obuf);
if (client->wb)
buffer_free(client->wb);
/* Release threads. */
if (client->t_read)
thread_cancel (client->t_read);
if (client->t_write)
thread_cancel (client->t_write);
if (client->t_suicide)
thread_cancel (client->t_suicide);
/* Free client structure. */
listnode_delete (zebrad.client_list, client);
XFREE (MTYPE_TMP, client);
}
/* Make new client. */
static void
zebra_client_create (int sock)
{
struct zserv *client;
int i;
afi_t afi;
client = XCALLOC (MTYPE_TMP, sizeof (struct zserv));
/* Make client input/output buffer. */
client->sock = sock;
client->ibuf = stream_new (ZEBRA_MAX_PACKET_SIZ);
client->obuf = stream_new (ZEBRA_MAX_PACKET_SIZ);
client->wb = buffer_new(0);
/* Set table number. */
client->rtm_table = zebrad.rtm_table_default;
client->connect_time = quagga_monotime();
/* Initialize flags */
for (afi = AFI_IP; afi < AFI_MAX; afi++)
for (i = 0; i < ZEBRA_ROUTE_MAX; i++)
client->redist[afi][i] = vrf_bitmap_init ();
client->redist_default = vrf_bitmap_init ();
client->ifinfo = vrf_bitmap_init ();
client->ridinfo = vrf_bitmap_init ();
/* Add this client to linked list. */
listnode_add (zebrad.client_list, client);
/* Make new read thread. */
zebra_event (ZEBRA_READ, sock, client);
zebra_vrf_update_all (client);
}
/* Handler of zebra service request. */
static int
zebra_client_read (struct thread *thread)
{
int sock;
struct zserv *client;
size_t already;
uint16_t length, command;
uint8_t marker, version;
vrf_id_t vrf_id;
struct zebra_vrf *zvrf;
/* Get thread data. Reset reading thread because I'm running. */
sock = THREAD_FD (thread);
client = THREAD_ARG (thread);
client->t_read = NULL;
if (client->t_suicide)
{
zebra_client_close(client);
return -1;
}
/* Read length and command (if we don't have it already). */
if ((already = stream_get_endp(client->ibuf)) < ZEBRA_HEADER_SIZE)
{
ssize_t nbyte;
if (((nbyte = stream_read_try (client->ibuf, sock,
ZEBRA_HEADER_SIZE-already)) == 0) ||
(nbyte == -1))
{
if (IS_ZEBRA_DEBUG_EVENT)
zlog_debug ("connection closed socket [%d]", sock);
zebra_client_close (client);
return -1;
}
if (nbyte != (ssize_t)(ZEBRA_HEADER_SIZE-already))
{
/* Try again later. */
zebra_event (ZEBRA_READ, sock, client);
return 0;
}
already = ZEBRA_HEADER_SIZE;
}
/* Reset to read from the beginning of the incoming packet. */
stream_set_getp(client->ibuf, 0);
/* Fetch header values */
length = stream_getw (client->ibuf);
marker = stream_getc (client->ibuf);
version = stream_getc (client->ibuf);
vrf_id = stream_getw (client->ibuf);
command = stream_getw (client->ibuf);
if (marker != ZEBRA_HEADER_MARKER || version != ZSERV_VERSION)
{
zlog_err("%s: socket %d version mismatch, marker %d, version %d",
__func__, sock, marker, version);
zebra_client_close (client);
return -1;
}
if (length < ZEBRA_HEADER_SIZE)
{
zlog_warn("%s: socket %d message length %u is less than header size %d",
__func__, sock, length, ZEBRA_HEADER_SIZE);
zebra_client_close (client);
return -1;
}
if (length > STREAM_SIZE(client->ibuf))
{
zlog_warn("%s: socket %d message length %u exceeds buffer size %lu",
__func__, sock, length, (u_long)STREAM_SIZE(client->ibuf));
zebra_client_close (client);
return -1;
}
/* Read rest of data. */
if (already < length)
{
ssize_t nbyte;
if (((nbyte = stream_read_try (client->ibuf, sock,
length-already)) == 0) ||
(nbyte == -1))
{
if (IS_ZEBRA_DEBUG_EVENT)
zlog_debug ("connection closed [%d] when reading zebra data", sock);
zebra_client_close (client);
return -1;
}
if (nbyte != (ssize_t)(length-already))
{
/* Try again later. */
zebra_event (ZEBRA_READ, sock, client);
return 0;
}
}
length -= ZEBRA_HEADER_SIZE;
/* Debug packet information. */
if (IS_ZEBRA_DEBUG_EVENT)
zlog_debug ("zebra message comes from socket [%d]", sock);
if (IS_ZEBRA_DEBUG_PACKET && IS_ZEBRA_DEBUG_RECV)
zlog_debug ("zebra message received [%s] %d in VRF %u",
zserv_command_string (command), length, vrf_id);
client->last_read_time = quagga_monotime();
client->last_read_cmd = command;
zvrf = zebra_vrf_lookup_by_id (vrf_id);
if (!zvrf)
{
if (IS_ZEBRA_DEBUG_PACKET && IS_ZEBRA_DEBUG_RECV)
zlog_debug ("zebra received unknown VRF[%u]", vrf_id);
goto zclient_read_out;
}
switch (command)
{
case ZEBRA_ROUTER_ID_ADD:
zread_router_id_add (client, length, zvrf);
break;
case ZEBRA_ROUTER_ID_DELETE:
zread_router_id_delete (client, length, zvrf);
break;
case ZEBRA_INTERFACE_ADD:
zread_interface_add (client, length, zvrf);
break;
case ZEBRA_INTERFACE_DELETE:
zread_interface_delete (client, length, zvrf);
break;
case ZEBRA_IPV4_ROUTE_ADD:
zread_ipv4_add (client, length, zvrf);
break;
case ZEBRA_IPV4_ROUTE_DELETE:
zread_ipv4_delete (client, length, zvrf);
break;
case ZEBRA_IPV4_ROUTE_IPV6_NEXTHOP_ADD:
zread_ipv4_route_ipv6_nexthop_add (client, length, zvrf);
break;
case ZEBRA_IPV4_NEXTHOP_ADD:
zread_ipv4_add(client, length, zvrf); /* LB: r1.0 merge - id was 1 */
break;
case ZEBRA_IPV4_NEXTHOP_DELETE:
zread_ipv4_delete(client, length, zvrf); /* LB: r1.0 merge - id was 1 */
break;
case ZEBRA_IPV6_ROUTE_ADD:
zread_ipv6_add (client, length, zvrf);
break;
case ZEBRA_IPV6_ROUTE_DELETE:
zread_ipv6_delete (client, length, zvrf);
break;
case ZEBRA_REDISTRIBUTE_ADD:
zebra_redistribute_add (command, client, length, zvrf);
break;
case ZEBRA_REDISTRIBUTE_DELETE:
zebra_redistribute_delete (command, client, length, zvrf);
break;
case ZEBRA_REDISTRIBUTE_DEFAULT_ADD:
zebra_redistribute_default_add (command, client, length, zvrf);
break;
case ZEBRA_REDISTRIBUTE_DEFAULT_DELETE:
zebra_redistribute_default_delete (command, client, length, zvrf);
break;
case ZEBRA_IPV4_NEXTHOP_LOOKUP_MRIB:
zread_ipv4_nexthop_lookup_mrib (client, length, zvrf);
break;
case ZEBRA_HELLO:
zread_hello (client);
break;
case ZEBRA_NEXTHOP_REGISTER:
zserv_rnh_register(client, sock, length, RNH_NEXTHOP_TYPE, zvrf);
break;
case ZEBRA_NEXTHOP_UNREGISTER:
zserv_rnh_unregister(client, sock, length, RNH_NEXTHOP_TYPE, zvrf);
break;
case ZEBRA_IMPORT_ROUTE_REGISTER:
zserv_rnh_register(client, sock, length, RNH_IMPORT_CHECK_TYPE, zvrf);
break;
case ZEBRA_IMPORT_ROUTE_UNREGISTER:
zserv_rnh_unregister(client, sock, length, RNH_IMPORT_CHECK_TYPE, zvrf);
break;
case ZEBRA_BFD_DEST_UPDATE:
case ZEBRA_BFD_DEST_REGISTER:
zebra_ptm_bfd_dst_register(client, sock, length, command, zvrf);
break;
case ZEBRA_BFD_DEST_DEREGISTER:
zebra_ptm_bfd_dst_deregister(client, sock, length, zvrf);
break;
case ZEBRA_VRF_UNREGISTER:
zread_vrf_unregister (client, length, zvrf);
break;
case ZEBRA_BFD_CLIENT_REGISTER:
zebra_ptm_bfd_client_register(client, sock, length);
break;
case ZEBRA_INTERFACE_ENABLE_RADV:
zebra_interface_radv_set (client, sock, length, zvrf, 1);
break;
case ZEBRA_INTERFACE_DISABLE_RADV:
zebra_interface_radv_set (client, sock, length, zvrf, 0);
break;
case ZEBRA_MPLS_LABELS_ADD:
case ZEBRA_MPLS_LABELS_DELETE:
zread_mpls_labels (command, client, length, vrf_id);
break;
default:
zlog_info ("Zebra received unknown command %d", command);
break;
}
if (client->t_suicide)
{
/* No need to wait for thread callback, just kill immediately. */
zebra_client_close(client);
return -1;
}
zclient_read_out:
stream_reset (client->ibuf);
zebra_event (ZEBRA_READ, sock, client);
return 0;
}
/* Accept code of zebra server socket. */
static int
zebra_accept (struct thread *thread)
{
int accept_sock;
int client_sock;
struct sockaddr_in client;
socklen_t len;
accept_sock = THREAD_FD (thread);
/* Reregister myself. */
zebra_event (ZEBRA_SERV, accept_sock, NULL);
len = sizeof (struct sockaddr_in);
client_sock = accept (accept_sock, (struct sockaddr *) &client, &len);
if (client_sock < 0)
{
zlog_warn ("Can't accept zebra socket: %s", safe_strerror (errno));
return -1;
}
/* Make client socket non-blocking. */
set_nonblocking(client_sock);
/* Create new zebra client. */
zebra_client_create (client_sock);
return 0;
}
#ifdef HAVE_TCP_ZEBRA
/* Make zebra's server socket. */
static void
zebra_serv ()
{
int ret;
int accept_sock;
struct sockaddr_in addr;
accept_sock = socket (AF_INET, SOCK_STREAM, 0);
if (accept_sock < 0)
{
zlog_warn ("Can't create zserv stream socket: %s",
safe_strerror (errno));
zlog_warn ("zebra can't provice full functionality due to above error");
return;
}
memset (&addr, 0, sizeof (struct sockaddr_in));
addr.sin_family = AF_INET;
addr.sin_port = htons (ZEBRA_PORT);
#ifdef HAVE_STRUCT_SOCKADDR_IN_SIN_LEN
addr.sin_len = sizeof (struct sockaddr_in);
#endif /* HAVE_STRUCT_SOCKADDR_IN_SIN_LEN */
addr.sin_addr.s_addr = htonl (INADDR_LOOPBACK);
sockopt_reuseaddr (accept_sock);
sockopt_reuseport (accept_sock);
if ( zserv_privs.change(ZPRIVS_RAISE) )
zlog (NULL, LOG_ERR, "Can't raise privileges");
ret = bind (accept_sock, (struct sockaddr *)&addr,
sizeof (struct sockaddr_in));
if (ret < 0)
{
zlog_warn ("Can't bind to stream socket: %s",
safe_strerror (errno));
zlog_warn ("zebra can't provice full functionality due to above error");
close (accept_sock); /* Avoid sd leak. */
return;
}
if ( zserv_privs.change(ZPRIVS_LOWER) )
zlog (NULL, LOG_ERR, "Can't lower privileges");
ret = listen (accept_sock, 1);
if (ret < 0)
{
zlog_warn ("Can't listen to stream socket: %s",
safe_strerror (errno));
zlog_warn ("zebra can't provice full functionality due to above error");
close (accept_sock); /* Avoid sd leak. */
return;
}
zebra_event (ZEBRA_SERV, accept_sock, NULL);
}
#else /* HAVE_TCP_ZEBRA */
/* For sockaddr_un. */
#include <sys/un.h>
/* zebra server UNIX domain socket. */
static void
zebra_serv_un (const char *path)
{
int ret;
int sock, len;
struct sockaddr_un serv;
mode_t old_mask;
/* First of all, unlink existing socket */
unlink (path);
/* Set umask */
old_mask = umask (0077);
/* Make UNIX domain socket. */
sock = socket (AF_UNIX, SOCK_STREAM, 0);
if (sock < 0)
{
zlog_warn ("Can't create zserv unix socket: %s",
safe_strerror (errno));
zlog_warn ("zebra can't provide full functionality due to above error");
return;
}
/* Make server socket. */
memset (&serv, 0, sizeof (struct sockaddr_un));
serv.sun_family = AF_UNIX;
strncpy (serv.sun_path, path, strlen (path));
#ifdef HAVE_STRUCT_SOCKADDR_UN_SUN_LEN
len = serv.sun_len = SUN_LEN(&serv);
#else
len = sizeof (serv.sun_family) + strlen (serv.sun_path);
#endif /* HAVE_STRUCT_SOCKADDR_UN_SUN_LEN */
ret = bind (sock, (struct sockaddr *) &serv, len);
if (ret < 0)
{
zlog_warn ("Can't bind to unix socket %s: %s",
path, safe_strerror (errno));
zlog_warn ("zebra can't provide full functionality due to above error");
close (sock);
return;
}
ret = listen (sock, 5);
if (ret < 0)
{
zlog_warn ("Can't listen to unix socket %s: %s",
path, safe_strerror (errno));
zlog_warn ("zebra can't provide full functionality due to above error");
close (sock);
return;
}
umask (old_mask);
zebra_event (ZEBRA_SERV, sock, NULL);
}
#endif /* HAVE_TCP_ZEBRA */
static void
zebra_event (enum event event, int sock, struct zserv *client)
{
switch (event)
{
case ZEBRA_SERV:
thread_add_read (zebrad.master, zebra_accept, client, sock);
break;
case ZEBRA_READ:
client->t_read =
thread_add_read (zebrad.master, zebra_client_read, client, sock);
break;
case ZEBRA_WRITE:
/**/
break;
}
}
#define ZEBRA_TIME_BUF 32
static char *
zserv_time_buf(time_t *time1, char *buf, int buflen)
{
struct tm *tm;
time_t now;
assert (buf != NULL);
assert (buflen >= ZEBRA_TIME_BUF);
assert (time1 != NULL);
if (!*time1)
{
snprintf(buf, buflen, "never ");
return (buf);
}
now = quagga_monotime();
now -= *time1;
tm = gmtime(&now);
/* Making formatted timer strings. */
#define ONE_DAY_SECOND 60*60*24
#define ONE_WEEK_SECOND 60*60*24*7
if (now < ONE_DAY_SECOND)
snprintf (buf, buflen, "%02d:%02d:%02d",
tm->tm_hour, tm->tm_min, tm->tm_sec);
else if (now < ONE_WEEK_SECOND)
snprintf (buf, buflen, "%dd%02dh%02dm",
tm->tm_yday, tm->tm_hour, tm->tm_min);
else
snprintf (buf, buflen, "%02dw%dd%02dh",
tm->tm_yday/7, tm->tm_yday - ((tm->tm_yday/7) * 7), tm->tm_hour);
return buf;
}
static void
zebra_show_client_detail (struct vty *vty, struct zserv *client)
{
char cbuf[ZEBRA_TIME_BUF], rbuf[ZEBRA_TIME_BUF];
char wbuf[ZEBRA_TIME_BUF], nhbuf[ZEBRA_TIME_BUF], mbuf[ZEBRA_TIME_BUF];
vty_out (vty, "Client: %s", zebra_route_string(client->proto));
if (client->instance)
vty_out (vty, " Instance: %d", client->instance);
vty_out (vty, "%s", VTY_NEWLINE);
vty_out (vty, "------------------------ %s", VTY_NEWLINE);
vty_out (vty, "FD: %d %s", client->sock, VTY_NEWLINE);
vty_out (vty, "Route Table ID: %d %s", client->rtm_table, VTY_NEWLINE);
vty_out (vty, "Connect Time: %s %s",
zserv_time_buf(&client->connect_time, cbuf, ZEBRA_TIME_BUF),
VTY_NEWLINE);
if (client->nh_reg_time)
{
vty_out (vty, "Nexthop Registry Time: %s %s",
zserv_time_buf(&client->nh_reg_time, nhbuf, ZEBRA_TIME_BUF),
VTY_NEWLINE);
if (client->nh_last_upd_time)
vty_out (vty, "Nexthop Last Update Time: %s %s",
zserv_time_buf(&client->nh_last_upd_time, mbuf, ZEBRA_TIME_BUF),
VTY_NEWLINE);
else
vty_out (vty, "No Nexthop Update sent%s", VTY_NEWLINE);
}
else
vty_out (vty, "Not registered for Nexthop Updates%s", VTY_NEWLINE);
vty_out (vty, "Last Msg Rx Time: %s %s",
zserv_time_buf(&client->last_read_time, rbuf, ZEBRA_TIME_BUF),
VTY_NEWLINE);
vty_out (vty, "Last Msg Tx Time: %s %s",
zserv_time_buf(&client->last_write_time, wbuf, ZEBRA_TIME_BUF),
VTY_NEWLINE);
if (client->last_read_time)
vty_out (vty, "Last Rcvd Cmd: %s %s",
zserv_command_string(client->last_read_cmd), VTY_NEWLINE);
if (client->last_write_time)
vty_out (vty, "Last Sent Cmd: %s %s",
zserv_command_string(client->last_write_cmd), VTY_NEWLINE);
vty_out (vty, "%s", VTY_NEWLINE);
vty_out (vty, "Type Add Update Del %s", VTY_NEWLINE);
vty_out (vty, "================================================== %s", VTY_NEWLINE);
vty_out (vty, "IPv4 %-12d%-12d%-12d%s", client->v4_route_add_cnt,
client->v4_route_upd8_cnt, client->v4_route_del_cnt, VTY_NEWLINE);
vty_out (vty, "IPv6 %-12d%-12d%-12d%s", client->v6_route_add_cnt,
client->v6_route_upd8_cnt, client->v6_route_del_cnt, VTY_NEWLINE);
vty_out (vty, "Redist:v4 %-12d%-12d%-12d%s", client->redist_v4_add_cnt, 0,
client->redist_v4_del_cnt, VTY_NEWLINE);
vty_out (vty, "Redist:v6 %-12d%-12d%-12d%s", client->redist_v6_add_cnt, 0,
client->redist_v6_del_cnt, VTY_NEWLINE);
vty_out (vty, "Connected %-12d%-12d%-12d%s", client->ifadd_cnt, 0,
client->ifdel_cnt, VTY_NEWLINE);
vty_out (vty, "BFD peer %-12d%-12d%-12d%s", client->bfd_peer_add_cnt,
client->bfd_peer_upd8_cnt, client->bfd_peer_del_cnt, VTY_NEWLINE);
vty_out (vty, "Interface Up Notifications: %d%s", client->ifup_cnt,
VTY_NEWLINE);
vty_out (vty, "Interface Down Notifications: %d%s", client->ifdown_cnt,
VTY_NEWLINE);
vty_out (vty, "%s", VTY_NEWLINE);
return;
}
static void
zebra_show_client_brief (struct vty *vty, struct zserv *client)
{
char cbuf[ZEBRA_TIME_BUF], rbuf[ZEBRA_TIME_BUF];
char wbuf[ZEBRA_TIME_BUF];
vty_out (vty, "%-8s%12s %12s%12s%8d/%-8d%8d/%-8d%s",
zebra_route_string(client->proto),
zserv_time_buf(&client->connect_time, cbuf, ZEBRA_TIME_BUF),
zserv_time_buf(&client->last_read_time, rbuf, ZEBRA_TIME_BUF),
zserv_time_buf(&client->last_write_time, wbuf, ZEBRA_TIME_BUF),
client->v4_route_add_cnt+client->v4_route_upd8_cnt,
client->v4_route_del_cnt,
client->v6_route_add_cnt+client->v6_route_upd8_cnt,
client->v6_route_del_cnt, VTY_NEWLINE);
}
/* Display default rtm_table for all clients. */
DEFUN (show_table,
show_table_cmd,
"show table",
SHOW_STR
"default routing table to use for all clients\n")
{
vty_out (vty, "table %d%s", zebrad.rtm_table_default,
VTY_NEWLINE);
return CMD_SUCCESS;
}
DEFUN (config_table,
config_table_cmd,
"table TABLENO",
"Configure target kernel routing table\n"
"TABLE integer\n")
{
zebrad.rtm_table_default = strtol (argv[1]->arg, (char**)0, 10);
return CMD_SUCCESS;
}
DEFUN (no_config_table,
no_config_table_cmd,
"no table [TABLENO]",
NO_STR
"Configure target kernel routing table\n"
"TABLE integer\n")
{
zebrad.rtm_table_default = 0;
return CMD_SUCCESS;
}
DEFUN (ip_forwarding,
ip_forwarding_cmd,
"ip forwarding",
IP_STR
"Turn on IP forwarding")
{
int ret;
ret = ipforward ();
if (ret == 0)
ret = ipforward_on ();
if (ret == 0)
{
vty_out (vty, "Can't turn on IP forwarding%s", VTY_NEWLINE);
return CMD_WARNING;
}
return CMD_SUCCESS;
}
DEFUN (no_ip_forwarding,
no_ip_forwarding_cmd,
"no ip forwarding",
NO_STR
IP_STR
"Turn off IP forwarding")
{
int ret;
ret = ipforward ();
if (ret != 0)
ret = ipforward_off ();
if (ret != 0)
{
vty_out (vty, "Can't turn off IP forwarding%s", VTY_NEWLINE);
return CMD_WARNING;
}
return CMD_SUCCESS;
}
/* This command is for debugging purpose. */
DEFUN (show_zebra_client,
show_zebra_client_cmd,
"show zebra client",
SHOW_STR
"Zebra information\n"
"Client information")
{
struct listnode *node;
struct zserv *client;
for (ALL_LIST_ELEMENTS_RO (zebrad.client_list, node, client))
zebra_show_client_detail(vty, client);
return CMD_SUCCESS;
}
/* This command is for debugging purpose. */
DEFUN (show_zebra_client_summary,
show_zebra_client_summary_cmd,
"show zebra client summary",
SHOW_STR
"Zebra information brief"
"Client information brief")
{
struct listnode *node;
struct zserv *client;
vty_out (vty, "Name Connect Time Last Read Last Write IPv4 Routes IPv6 Routes %s",
VTY_NEWLINE);
vty_out (vty,"--------------------------------------------------------------------------------%s",
VTY_NEWLINE);
for (ALL_LIST_ELEMENTS_RO (zebrad.client_list, node, client))
zebra_show_client_brief(vty, client);
vty_out (vty, "Routes column shows (added+updated)/deleted%s", VTY_NEWLINE);
return CMD_SUCCESS;
}
/* Table configuration write function. */
static int
config_write_table (struct vty *vty)
{
if (zebrad.rtm_table_default)
vty_out (vty, "table %d%s", zebrad.rtm_table_default,
VTY_NEWLINE);
return 0;
}
/* table node for routing tables. */
static struct cmd_node table_node =
{
TABLE_NODE,
"", /* This node has no interface. */
1
};
/* Only display ip forwarding is enabled or not. */
DEFUN (show_ip_forwarding,
show_ip_forwarding_cmd,
"show ip forwarding",
SHOW_STR
IP_STR
"IP forwarding status\n")
{
int ret;
ret = ipforward ();
if (ret == 0)
vty_out (vty, "IP forwarding is off%s", VTY_NEWLINE);
else
vty_out (vty, "IP forwarding is on%s", VTY_NEWLINE);
return CMD_SUCCESS;
}
#ifdef HAVE_IPV6
/* Only display ipv6 forwarding is enabled or not. */
DEFUN (show_ipv6_forwarding,
show_ipv6_forwarding_cmd,
"show ipv6 forwarding",
SHOW_STR
"IPv6 information\n"
"Forwarding status\n")
{
int ret;
ret = ipforward_ipv6 ();
switch (ret)
{
case -1:
vty_out (vty, "ipv6 forwarding is unknown%s", VTY_NEWLINE);
break;
case 0:
vty_out (vty, "ipv6 forwarding is %s%s", "off", VTY_NEWLINE);
break;
case 1:
vty_out (vty, "ipv6 forwarding is %s%s", "on", VTY_NEWLINE);
break;
default:
vty_out (vty, "ipv6 forwarding is %s%s", "off", VTY_NEWLINE);
break;
}
return CMD_SUCCESS;
}
DEFUN (ipv6_forwarding,
ipv6_forwarding_cmd,
"ipv6 forwarding",
IPV6_STR
"Turn on IPv6 forwarding")
{
int ret;
ret = ipforward_ipv6 ();
if (ret == 0)
ret = ipforward_ipv6_on ();
if (ret == 0)
{
vty_out (vty, "Can't turn on IPv6 forwarding%s", VTY_NEWLINE);
return CMD_WARNING;
}
return CMD_SUCCESS;
}
DEFUN (no_ipv6_forwarding,
no_ipv6_forwarding_cmd,
"no ipv6 forwarding",
NO_STR
IPV6_STR
"Turn off IPv6 forwarding")
{
int ret;
ret = ipforward_ipv6 ();
if (ret != 0)
ret = ipforward_ipv6_off ();
if (ret != 0)
{
vty_out (vty, "Can't turn off IPv6 forwarding%s", VTY_NEWLINE);
return CMD_WARNING;
}
return CMD_SUCCESS;
}
#endif /* HAVE_IPV6 */
/* IPForwarding configuration write function. */
static int
config_write_forwarding (struct vty *vty)
{
/* FIXME: Find better place for that. */
router_id_write (vty);
if (!ipforward ())
vty_out (vty, "no ip forwarding%s", VTY_NEWLINE);
#ifdef HAVE_IPV6
if (!ipforward_ipv6 ())
vty_out (vty, "no ipv6 forwarding%s", VTY_NEWLINE);
#endif /* HAVE_IPV6 */
vty_out (vty, "!%s", VTY_NEWLINE);
return 0;
}
/* table node for routing tables. */
static struct cmd_node forwarding_node =
{
FORWARDING_NODE,
"", /* This node has no interface. */
1
};
#ifdef HAVE_FPM
/* function to write the fpm config info */
static int
config_write_fpm (struct vty *vty)
{
return
fpm_remote_srv_write (vty);
}
/* Zebra node */
static struct cmd_node zebra_node =
{
ZEBRA_NODE,
"",
1
};
#endif
/* Initialisation of zebra and installation of commands. */
void
zebra_init (void)
{
/* Client list init. */
zebrad.client_list = list_new ();
/* Install configuration write function. */
install_node (&table_node, config_write_table);
install_node (&forwarding_node, config_write_forwarding);
#ifdef HAVE_FPM
install_node (&zebra_node, config_write_fpm);
#endif
install_element (VIEW_NODE, &show_ip_forwarding_cmd);
install_element (CONFIG_NODE, &ip_forwarding_cmd);
install_element (CONFIG_NODE, &no_ip_forwarding_cmd);
install_element (ENABLE_NODE, &show_zebra_client_cmd);
install_element (ENABLE_NODE, &show_zebra_client_summary_cmd);
#ifdef HAVE_NETLINK
install_element (VIEW_NODE, &show_table_cmd);
install_element (CONFIG_NODE, &config_table_cmd);
install_element (CONFIG_NODE, &no_config_table_cmd);
#endif /* HAVE_NETLINK */
#ifdef HAVE_IPV6
install_element (VIEW_NODE, &show_ipv6_forwarding_cmd);
install_element (CONFIG_NODE, &ipv6_forwarding_cmd);
install_element (CONFIG_NODE, &no_ipv6_forwarding_cmd);
#endif /* HAVE_IPV6 */
/* Route-map */
zebra_route_map_init ();
}
/* Make zebra server socket, wiping any existing one (see bug #403). */
void
zebra_zserv_socket_init (char *path)
{
#ifdef HAVE_TCP_ZEBRA
zebra_serv ();
#else
zebra_serv_un (path ? path : ZEBRA_SERV_PATH);
#endif /* HAVE_TCP_ZEBRA */
}
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