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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* BFD PTM adapter code
* Copyright (C) 2018 Network Device Education Foundation, Inc. ("NetDEF")
*/
#include <zebra.h>
#include "lib/libfrr.h"
#include "lib/queue.h"
#include "lib/stream.h"
#include "lib/zclient.h"
#include "lib/printfrr.h"
#include "lib/bfd.h"
#include "bfd.h"
/*
* Data structures
*/
struct ptm_client_notification {
struct bfd_session *pcn_bs;
struct ptm_client *pcn_pc;
TAILQ_ENTRY(ptm_client_notification) pcn_entry;
};
TAILQ_HEAD(pcnqueue, ptm_client_notification);
struct ptm_client {
uint32_t pc_pid;
struct pcnqueue pc_pcnqueue;
TAILQ_ENTRY(ptm_client) pc_entry;
};
TAILQ_HEAD(pcqueue, ptm_client);
static struct pcqueue pcqueue;
static struct zclient *zclient;
/*
* Prototypes
*/
static int _ptm_msg_address(struct stream *msg, int family, const void *addr);
static void _ptm_msg_read_address(struct stream *msg, struct sockaddr_any *sa);
static int _ptm_msg_read(struct stream *msg, int command, vrf_id_t vrf_id,
struct bfd_peer_cfg *bpc, struct ptm_client **pc);
static struct ptm_client *pc_lookup(uint32_t pid);
static struct ptm_client *pc_new(uint32_t pid);
static void pc_free(struct ptm_client *pc);
static void pc_free_all(void);
static struct ptm_client_notification *pcn_new(struct ptm_client *pc,
struct bfd_session *bs);
static struct ptm_client_notification *pcn_lookup(struct ptm_client *pc,
struct bfd_session *bs);
static void pcn_free(struct ptm_client_notification *pcn);
static void bfdd_dest_register(struct stream *msg, vrf_id_t vrf_id);
static void bfdd_dest_deregister(struct stream *msg, vrf_id_t vrf_id);
static void bfdd_client_register(struct stream *msg);
static void bfdd_client_deregister(struct stream *msg);
/*
* Functions
*/
PRINTFRR(2, 3)
static void debug_printbpc(const struct bfd_peer_cfg *bpc, const char *fmt, ...)
{
char timers[3][128] = {};
char minttl_str[32] = {};
char addr[3][128] = {};
char profile[128] = {};
char cbit_str[32];
char msgbuf[512];
va_list vl;
/* Avoid debug calculations if it's disabled. */
if (bglobal.debug_zebra == false)
return;
snprintf(addr[0], sizeof(addr[0]), "peer:%s", satostr(&bpc->bpc_peer));
if (bpc->bpc_local.sa_sin.sin_family)
snprintf(addr[1], sizeof(addr[1]), " local:%s",
satostr(&bpc->bpc_local));
if (bpc->bpc_has_localif)
snprintf(addr[2], sizeof(addr[2]), " ifname:%s",
bpc->bpc_localif);
if (bpc->bpc_has_vrfname)
snprintf(addr[2], sizeof(addr[2]), " vrf:%s", bpc->bpc_vrfname);
if (bpc->bpc_has_recvinterval)
snprintfrr(timers[0], sizeof(timers[0]), " rx:%" PRIu64,
bpc->bpc_recvinterval);
if (bpc->bpc_has_txinterval)
snprintfrr(timers[1], sizeof(timers[1]), " tx:%" PRIu64,
bpc->bpc_recvinterval);
if (bpc->bpc_has_detectmultiplier)
snprintf(timers[2], sizeof(timers[2]), " detect-multiplier:%d",
bpc->bpc_detectmultiplier);
snprintf(cbit_str, sizeof(cbit_str), " cbit:0x%02x", bpc->bpc_cbit);
if (bpc->bpc_has_minimum_ttl)
snprintf(minttl_str, sizeof(minttl_str), " minimum-ttl:%d",
bpc->bpc_minimum_ttl);
if (bpc->bpc_has_profile)
snprintf(profile, sizeof(profile), " profile:%s",
bpc->bpc_profile);
va_start(vl, fmt);
vsnprintf(msgbuf, sizeof(msgbuf), fmt, vl);
va_end(vl);
zlog_debug("%s [mhop:%s %s%s%s%s%s%s%s%s%s]", msgbuf,
bpc->bpc_mhop ? "yes" : "no", addr[0], addr[1], addr[2],
timers[0], timers[1], timers[2], cbit_str, minttl_str,
profile);
}
static void _ptm_bfd_session_del(struct bfd_session *bs, uint8_t diag)
{
if (bglobal.debug_peer_event)
zlog_debug("session-delete: %s", bs_to_string(bs));
/* Change state and notify peer. */
bs->ses_state = PTM_BFD_DOWN;
bs->local_diag = diag;
ptm_bfd_snd(bs, 0);
/* Session reached refcount == 0, lets delete it. */
if (bs->refcount == 0) {
/*
* Sanity check: if there is a refcount bug, we can't delete
* the session a user configured manually. Lets leave a
* message here so we can catch the bug if it exists.
*/
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_CONFIG)) {
zlog_err(
"ptm-del-session: [%s] session refcount is zero but it was configured by CLI",
bs_to_string(bs));
} else {
control_notify_config(BCM_NOTIFY_CONFIG_DELETE, bs);
bfd_session_free(bs);
}
}
}
static int _ptm_msg_address(struct stream *msg, int family, const void *addr)
{
stream_putc(msg, family);
switch (family) {
case AF_INET:
stream_put(msg, addr, sizeof(struct in_addr));
stream_putc(msg, 32);
break;
case AF_INET6:
stream_put(msg, addr, sizeof(struct in6_addr));
stream_putc(msg, 128);
break;
default:
assert(0);
break;
}
return 0;
}
int ptm_bfd_notify(struct bfd_session *bs, uint8_t notify_state)
{
struct stream *msg;
bs->stats.znotification++;
/*
* Message format:
* - header: command, vrf
* - l: interface index
* - c: family
* - AF_INET:
* - 4 bytes: ipv4
* - AF_INET6:
* - 16 bytes: ipv6
* - c: prefix length
* - l: bfd status
* - c: family
* - AF_INET:
* - 4 bytes: ipv4
* - AF_INET6:
* - 16 bytes: ipv6
* - c: prefix length
* - c: cbit
*
* Commands: ZEBRA_BFD_DEST_REPLAY
*
* q(64), l(32), w(16), c(8)
*/
msg = zclient->obuf;
stream_reset(msg);
/* TODO: VRF handling */
if (bs->vrf)
zclient_create_header(msg, ZEBRA_BFD_DEST_REPLAY, bs->vrf->vrf_id);
else
zclient_create_header(msg, ZEBRA_BFD_DEST_REPLAY, VRF_DEFAULT);
/* This header will be handled by `zebra_ptm.c`. */
stream_putl(msg, ZEBRA_INTERFACE_BFD_DEST_UPDATE);
/* NOTE: Interface is a shortcut to avoid comparing source address. */
if (!CHECK_FLAG(bs->flags, BFD_SESS_FLAG_MH) && bs->ifp != NULL)
stream_putl(msg, bs->ifp->ifindex);
else
stream_putl(msg, IFINDEX_INTERNAL);
/* BFD destination prefix information. */
_ptm_msg_address(msg, bs->key.family, &bs->key.peer);
/* BFD status */
switch (notify_state) {
case PTM_BFD_UP:
stream_putl(msg, BFD_STATUS_UP);
break;
case PTM_BFD_ADM_DOWN:
stream_putl(msg, BFD_STATUS_ADMIN_DOWN);
break;
case PTM_BFD_DOWN:
case PTM_BFD_INIT:
stream_putl(msg, BFD_STATUS_DOWN);
break;
default:
stream_putl(msg, BFD_STATUS_UNKNOWN);
break;
}
/* BFD source prefix information. */
_ptm_msg_address(msg, bs->key.family, &bs->key.local);
stream_putc(msg, bs->remote_cbit);
/* Write packet size. */
stream_putw_at(msg, 0, stream_get_endp(msg));
return zclient_send_message(zclient);
}
static void _ptm_msg_read_address(struct stream *msg, struct sockaddr_any *sa)
{
uint16_t family;
STREAM_GETW(msg, family);
switch (family) {
case AF_INET:
sa->sa_sin.sin_family = family;
STREAM_GET(&sa->sa_sin.sin_addr, msg,
sizeof(sa->sa_sin.sin_addr));
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
sa->sa_sin.sin_len = sizeof(sa->sa_sin);
#endif /* HAVE_STRUCT_SOCKADDR_SA_LEN */
return;
case AF_INET6:
sa->sa_sin6.sin6_family = family;
STREAM_GET(&sa->sa_sin6.sin6_addr, msg,
sizeof(sa->sa_sin6.sin6_addr));
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
sa->sa_sin6.sin6_len = sizeof(sa->sa_sin6);
#endif /* HAVE_STRUCT_SOCKADDR_SA_LEN */
return;
default:
zlog_warn("ptm-read-address: invalid family: %d", family);
break;
}
stream_failure:
memset(sa, 0, sizeof(*sa));
}
static int _ptm_msg_read(struct stream *msg, int command, vrf_id_t vrf_id,
struct bfd_peer_cfg *bpc, struct ptm_client **pc)
{
uint32_t pid;
size_t ifnamelen;
/*
* Register/Deregister/Update Message format:
*
* Old format (being used by PTM BFD).
* - header: Command, VRF
* - l: pid
* - w: family
* - AF_INET:
* - l: destination ipv4
* - AF_INET6:
* - 16 bytes: destination IPv6
* - command != ZEBRA_BFD_DEST_DEREGISTER
* - l: min_rx
* - l: min_tx
* - c: detect multiplier
* - c: is_multihop?
* - multihop:
* - w: family
* - AF_INET:
* - l: source IPv4 address
* - AF_INET6:
* - 16 bytes: source IPv6 address
* - c: ttl
* - no multihop
* - AF_INET6:
* - w: family
* - 16 bytes: source IPv6 address
* - c: ifname length
* - X bytes: interface name
*
* New format:
* - header: Command, VRF
* - l: pid
* - w: family
* - AF_INET:
* - l: destination IPv4 address
* - AF_INET6:
* - 16 bytes: destination IPv6 address
* - l: min_rx
* - l: min_tx
* - c: detect multiplier
* - c: is_multihop?
* - w: family
* - AF_INET:
* - l: source IPv4 address
* - AF_INET6:
* - 16 bytes: source IPv6 address
* - c: ttl
* - c: ifname length
* - X bytes: interface name
* - c: bfd_cbit
* - c: profile name length.
* - X bytes: profile name.
*
* q(64), l(32), w(16), c(8)
*/
/* Initialize parameters return values. */
memset(bpc, 0, sizeof(*bpc));
*pc = NULL;
/* Find or allocate process context data. */
STREAM_GETL(msg, pid);
*pc = pc_new(pid);
/* Register/update peer information. */
_ptm_msg_read_address(msg, &bpc->bpc_peer);
/* Determine IP type from peer destination. */
bpc->bpc_ipv4 = (bpc->bpc_peer.sa_sin.sin_family == AF_INET);
/* Get peer configuration. */
STREAM_GETL(msg, bpc->bpc_recvinterval);
bpc->bpc_has_recvinterval =
(bpc->bpc_recvinterval != BPC_DEF_RECEIVEINTERVAL);
STREAM_GETL(msg, bpc->bpc_txinterval);
bpc->bpc_has_txinterval =
(bpc->bpc_txinterval != BPC_DEF_TRANSMITINTERVAL);
STREAM_GETC(msg, bpc->bpc_detectmultiplier);
bpc->bpc_has_detectmultiplier =
(bpc->bpc_detectmultiplier != BPC_DEF_DETECTMULTIPLIER);
/* Read (single|multi)hop and its options. */
STREAM_GETC(msg, bpc->bpc_mhop);
/* Read multihop source address and TTL. */
_ptm_msg_read_address(msg, &bpc->bpc_local);
/* Read the minimum TTL (0 means unset or invalid). */
STREAM_GETC(msg, bpc->bpc_minimum_ttl);
if (bpc->bpc_minimum_ttl == 0) {
bpc->bpc_minimum_ttl = BFD_DEF_MHOP_TTL;
bpc->bpc_has_minimum_ttl = false;
} else {
bpc->bpc_minimum_ttl = (BFD_TTL_VAL + 1) - bpc->bpc_minimum_ttl;
bpc->bpc_has_minimum_ttl = true;
}
/*
* Read interface name and make sure it fits our data
* structure, otherwise fail.
*/
STREAM_GETC(msg, ifnamelen);
if (ifnamelen >= sizeof(bpc->bpc_localif)) {
zlog_err("ptm-read: interface name is too big");
return -1;
}
bpc->bpc_has_localif = ifnamelen > 0;
if (bpc->bpc_has_localif) {
STREAM_GET(bpc->bpc_localif, msg, ifnamelen);
bpc->bpc_localif[ifnamelen] = 0;
}
if (vrf_id != VRF_DEFAULT) {
struct vrf *vrf;
vrf = vrf_lookup_by_id(vrf_id);
if (vrf) {
bpc->bpc_has_vrfname = true;
strlcpy(bpc->bpc_vrfname, vrf->name, sizeof(bpc->bpc_vrfname));
} else {
zlog_err("ptm-read: vrf id %u could not be identified",
vrf_id);
return -1;
}
} else {
bpc->bpc_has_vrfname = true;
strlcpy(bpc->bpc_vrfname, VRF_DEFAULT_NAME, sizeof(bpc->bpc_vrfname));
}
/* Read control plane independant configuration. */
STREAM_GETC(msg, bpc->bpc_cbit);
/* Handle profile names. */
STREAM_GETC(msg, ifnamelen);
bpc->bpc_has_profile = ifnamelen > 0;
if (bpc->bpc_has_profile) {
STREAM_GET(bpc->bpc_profile, msg, ifnamelen);
bpc->bpc_profile[ifnamelen] = 0;
}
/* Sanity check: peer and local address must match IP types. */
if (bpc->bpc_local.sa_sin.sin_family != AF_UNSPEC
&& (bpc->bpc_local.sa_sin.sin_family
!= bpc->bpc_peer.sa_sin.sin_family)) {
zlog_warn("ptm-read: peer family doesn't match local type");
return -1;
}
return 0;
stream_failure:
return -1;
}
static void bfdd_dest_register(struct stream *msg, vrf_id_t vrf_id)
{
struct ptm_client *pc;
struct bfd_session *bs;
struct bfd_peer_cfg bpc;
/* Read the client context and peer data. */
if (_ptm_msg_read(msg, ZEBRA_BFD_DEST_REGISTER, vrf_id, &bpc, &pc) == -1)
return;
debug_printbpc(&bpc, "ptm-add-dest: register peer");
/* Find or start new BFD session. */
bs = bs_peer_find(&bpc);
if (bs == NULL) {
bs = ptm_bfd_sess_new(&bpc);
if (bs == NULL) {
if (bglobal.debug_zebra)
zlog_debug(
"ptm-add-dest: failed to create BFD session");
return;
}
} else {
/*
* BFD session was already created, we are just updating the
* current peer.
*
* `ptm-bfd` (or `HAVE_BFDD == 0`) is the only implementation
* that allow users to set peer specific timers via protocol.
* BFD daemon (this code) on the other hand only supports
* changing peer configuration manually (through `peer` node)
* or via profiles.
*/
if (bpc.bpc_has_profile)
bfd_profile_apply(bpc.bpc_profile, bs);
}
/* Create client peer notification register. */
pcn_new(pc, bs);
ptm_bfd_notify(bs, bs->ses_state);
}
static void bfdd_dest_deregister(struct stream *msg, vrf_id_t vrf_id)
{
struct ptm_client *pc;
struct ptm_client_notification *pcn;
struct bfd_session *bs;
struct bfd_peer_cfg bpc;
/* Read the client context and peer data. */
if (_ptm_msg_read(msg, ZEBRA_BFD_DEST_DEREGISTER, vrf_id, &bpc, &pc) == -1)
return;
debug_printbpc(&bpc, "ptm-del-dest: deregister peer");
/* Find or start new BFD session. */
bs = bs_peer_find(&bpc);
if (bs == NULL) {
if (bglobal.debug_zebra)
zlog_debug("ptm-del-dest: failed to find BFD session");
return;
}
/* Unregister client peer notification. */
pcn = pcn_lookup(pc, bs);
if (pcn != NULL) {
pcn_free(pcn);
return;
}
if (bglobal.debug_zebra)
zlog_debug("ptm-del-dest: failed to find BFD session");
/*
* XXX: We either got a double deregistration or the daemon who
* created this is no longer around. Lets try to delete it anyway
* and the worst case is the refcount will detain us.
*/
_ptm_bfd_session_del(bs, BD_NEIGHBOR_DOWN);
}
/*
* header: command, VRF
* l: pid
*/
static void bfdd_client_register(struct stream *msg)
{
uint32_t pid;
/* Find or allocate process context data. */
STREAM_GETL(msg, pid);
pc_new(pid);
return;
stream_failure:
zlog_err("ptm-add-client: failed to register client");
}
/*
* header: command, VRF
* l: pid
*/
static void bfdd_client_deregister(struct stream *msg)
{
struct ptm_client *pc;
uint32_t pid;
/* Find or allocate process context data. */
STREAM_GETL(msg, pid);
pc = pc_lookup(pid);
if (pc == NULL) {
if (bglobal.debug_zebra)
zlog_debug("ptm-del-client: failed to find client: %u",
pid);
return;
}
if (bglobal.debug_zebra)
zlog_debug("ptm-del-client: client pid %u", pid);
pc_free(pc);
return;
stream_failure:
zlog_err("ptm-del-client: failed to deregister client");
}
static int bfdd_replay(ZAPI_CALLBACK_ARGS)
{
struct stream *msg = zclient->ibuf;
uint32_t rcmd;
STREAM_GETL(msg, rcmd);
switch (rcmd) {
case ZEBRA_BFD_DEST_REGISTER:
case ZEBRA_BFD_DEST_UPDATE:
bfdd_dest_register(msg, vrf_id);
break;
case ZEBRA_BFD_DEST_DEREGISTER:
bfdd_dest_deregister(msg, vrf_id);
break;
case ZEBRA_BFD_CLIENT_REGISTER:
bfdd_client_register(msg);
break;
case ZEBRA_BFD_CLIENT_DEREGISTER:
bfdd_client_deregister(msg);
break;
default:
if (bglobal.debug_zebra)
zlog_debug("ptm-replay: invalid message type %u", rcmd);
return -1;
}
return 0;
stream_failure:
zlog_err("ptm-replay: failed to find command");
return -1;
}
static void bfdd_zebra_connected(struct zclient *zc)
{
struct stream *msg = zc->obuf;
/* Clean-up and free ptm clients data memory. */
pc_free_all();
/*
* The replay is an empty message just to trigger client daemons
* configuration replay.
*/
stream_reset(msg);
zclient_create_header(msg, ZEBRA_BFD_DEST_REPLAY, VRF_DEFAULT);
stream_putl(msg, ZEBRA_BFD_DEST_REPLAY);
stream_putw_at(msg, 0, stream_get_endp(msg));
/* Ask for interfaces information. */
zclient_create_header(msg, ZEBRA_INTERFACE_ADD, VRF_DEFAULT);
/* Send requests. */
zclient_send_message(zclient);
}
static void bfdd_sessions_enable_interface(struct interface *ifp)
{
struct bfd_session_observer *bso;
struct bfd_session *bs;
struct vrf *vrf;
vrf = ifp->vrf;
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
bs = bso->bso_bs;
/* check vrf name */
if (bs->key.vrfname[0] &&
strcmp(vrf->name, bs->key.vrfname))
continue;
/* If Interface matches vrfname, then bypass iface check */
if (vrf_is_backend_netns() || strcmp(ifp->name, vrf->name)) {
/* Interface name mismatch. */
if (bs->key.ifname[0] &&
strcmp(ifp->name, bs->key.ifname))
continue;
}
/* Skip enabled sessions. */
if (bs->sock != -1)
continue;
/* Try to enable it. */
bfd_session_enable(bs);
}
}
static void bfdd_sessions_disable_interface(struct interface *ifp)
{
struct bfd_session_observer *bso;
struct bfd_session *bs;
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
bs = bso->bso_bs;
if (bs->ifp != ifp)
continue;
/* Skip disabled sessions. */
if (bs->sock == -1) {
bs->ifp = NULL;
continue;
}
bfd_session_disable(bs);
bs->ifp = NULL;
}
}
void bfdd_sessions_enable_vrf(struct vrf *vrf)
{
struct bfd_session_observer *bso;
struct bfd_session *bs;
/* it may affect configs without interfaces */
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
bs = bso->bso_bs;
if (bs->vrf)
continue;
if (bs->key.vrfname[0] &&
strcmp(vrf->name, bs->key.vrfname))
continue;
/* need to update the vrf information on
* bs so that callbacks are handled
*/
bs->vrf = vrf;
/* Skip enabled sessions. */
if (bs->sock != -1)
continue;
/* Try to enable it. */
bfd_session_enable(bs);
}
}
void bfdd_sessions_disable_vrf(struct vrf *vrf)
{
struct bfd_session_observer *bso;
struct bfd_session *bs;
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
bs = bso->bso_bs;
if (bs->key.vrfname[0] &&
strcmp(vrf->name, bs->key.vrfname))
continue;
/* Skip disabled sessions. */
if (bs->sock == -1)
continue;
bfd_session_disable(bs);
bs->vrf = NULL;
}
}
static int bfd_ifp_destroy(struct interface *ifp)
{
if (bglobal.debug_zebra)
zlog_debug("zclient: delete interface %s (VRF %s(%u))",
ifp->name, ifp->vrf->name, ifp->vrf->vrf_id);
bfdd_sessions_disable_interface(ifp);
return 0;
}
static int bfdd_interface_vrf_update(ZAPI_CALLBACK_ARGS)
{
struct interface *ifp;
vrf_id_t nvrfid;
ifp = zebra_interface_vrf_update_read(zclient->ibuf, vrf_id, &nvrfid);
if (ifp == NULL)
return 0;
if_update_to_new_vrf(ifp, nvrfid);
return 0;
}
static void bfdd_sessions_enable_address(struct connected *ifc)
{
struct bfd_session_observer *bso;
struct bfd_session *bs;
struct prefix prefix;
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
/* Skip enabled sessions. */
bs = bso->bso_bs;
if (bs->sock != -1)
continue;
/* Check address. */
prefix = bso->bso_addr;
prefix.prefixlen = ifc->address->prefixlen;
if (prefix_cmp(&prefix, ifc->address))
continue;
/* Try to enable it. */
bfd_session_enable(bs);
}
}
static int bfdd_interface_address_update(ZAPI_CALLBACK_ARGS)
{
struct connected *ifc;
ifc = zebra_interface_address_read(cmd, zclient->ibuf, vrf_id);
if (ifc == NULL)
return 0;
if (bglobal.debug_zebra)
zlog_debug("zclient: %s local address %pFX (VRF %u)",
cmd == ZEBRA_INTERFACE_ADDRESS_ADD ? "add"
: "delete",
ifc->address, vrf_id);
if (cmd == ZEBRA_INTERFACE_ADDRESS_ADD)
bfdd_sessions_enable_address(ifc);
else
connected_free(&ifc);
return 0;
}
static int bfd_ifp_create(struct interface *ifp)
{
if (bglobal.debug_zebra)
zlog_debug("zclient: add interface %s (VRF %s(%u))", ifp->name,
ifp->vrf->name, ifp->vrf->vrf_id);
bfdd_sessions_enable_interface(ifp);
return 0;
}
static zclient_handler *const bfd_handlers[] = {
/*
* We'll receive all messages through replay, however it will
* contain a special field with the real command inside so we
* avoid having to create too many handlers.
*/
[ZEBRA_BFD_DEST_REPLAY] = bfdd_replay,
/* Learn about interface VRF. */
[ZEBRA_INTERFACE_VRF_UPDATE] = bfdd_interface_vrf_update,
/* Learn about new addresses being registered. */
[ZEBRA_INTERFACE_ADDRESS_ADD] = bfdd_interface_address_update,
[ZEBRA_INTERFACE_ADDRESS_DELETE] = bfdd_interface_address_update,
};
void bfdd_zclient_init(struct zebra_privs_t *bfdd_priv)
{
if_zapi_callbacks(bfd_ifp_create, NULL, NULL, bfd_ifp_destroy);
zclient = zclient_new(master, &zclient_options_default, bfd_handlers,
array_size(bfd_handlers));
assert(zclient != NULL);
zclient_init(zclient, ZEBRA_ROUTE_BFD, 0, bfdd_priv);
/* Send replay request on zebra connect. */
zclient->zebra_connected = bfdd_zebra_connected;
}
void bfdd_zclient_register(vrf_id_t vrf_id)
{
if (!zclient || zclient->sock < 0)
return;
zclient_send_reg_requests(zclient, vrf_id);
}
void bfdd_zclient_unregister(vrf_id_t vrf_id)
{
if (!zclient || zclient->sock < 0)
return;
zclient_send_dereg_requests(zclient, vrf_id);
}
void bfdd_zclient_stop(void)
{
zclient_stop(zclient);
/* Clean-up and free ptm clients data memory. */
pc_free_all();
}
/*
* Client handling.
*/
static struct ptm_client *pc_lookup(uint32_t pid)
{
struct ptm_client *pc;
TAILQ_FOREACH (pc, &pcqueue, pc_entry) {
if (pc->pc_pid != pid)
continue;
break;
}
return pc;
}
static struct ptm_client *pc_new(uint32_t pid)
{
struct ptm_client *pc;
/* Look up first, if not found create the client. */
pc = pc_lookup(pid);
if (pc != NULL)
return pc;
/* Allocate the client data and save it. */
pc = XCALLOC(MTYPE_BFDD_CONTROL, sizeof(*pc));
pc->pc_pid = pid;
TAILQ_INSERT_HEAD(&pcqueue, pc, pc_entry);
return pc;
}
static void pc_free(struct ptm_client *pc)
{
struct ptm_client_notification *pcn;
TAILQ_REMOVE(&pcqueue, pc, pc_entry);
while (!TAILQ_EMPTY(&pc->pc_pcnqueue)) {
pcn = TAILQ_FIRST(&pc->pc_pcnqueue);
pcn_free(pcn);
}
XFREE(MTYPE_BFDD_CONTROL, pc);
}
static void pc_free_all(void)
{
struct ptm_client *pc;
while (!TAILQ_EMPTY(&pcqueue)) {
pc = TAILQ_FIRST(&pcqueue);
pc_free(pc);
}
}
static struct ptm_client_notification *pcn_new(struct ptm_client *pc,
struct bfd_session *bs)
{
struct ptm_client_notification *pcn;
/* Try to find an existing pcn fist. */
pcn = pcn_lookup(pc, bs);
if (pcn != NULL)
return pcn;
/* Save the client notification data. */
pcn = XCALLOC(MTYPE_BFDD_NOTIFICATION, sizeof(*pcn));
TAILQ_INSERT_HEAD(&pc->pc_pcnqueue, pcn, pcn_entry);
pcn->pcn_pc = pc;
pcn->pcn_bs = bs;
bs->refcount++;
return pcn;
}
static struct ptm_client_notification *pcn_lookup(struct ptm_client *pc,
struct bfd_session *bs)
{
struct ptm_client_notification *pcn;
TAILQ_FOREACH (pcn, &pc->pc_pcnqueue, pcn_entry) {
if (pcn->pcn_bs != bs)
continue;
break;
}
return pcn;
}
static void pcn_free(struct ptm_client_notification *pcn)
{
struct ptm_client *pc;
struct bfd_session *bs;
/* Handle session de-registration. */
bs = pcn->pcn_bs;
pcn->pcn_bs = NULL;
bs->refcount--;
/* Log modification to users. */
if (bglobal.debug_zebra)
zlog_debug("ptm-del-session: [%s] refcount=%" PRIu64,
bs_to_string(bs), bs->refcount);
/* Set session down. */
_ptm_bfd_session_del(bs, BD_NEIGHBOR_DOWN);
/* Handle ptm_client deregistration. */
pc = pcn->pcn_pc;
pcn->pcn_pc = NULL;
TAILQ_REMOVE(&pc->pc_pcnqueue, pcn, pcn_entry);
XFREE(MTYPE_BFDD_NOTIFICATION, pcn);
}
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