/** * bfd.c: BFD handling routines * * @copyright Copyright (C) 2015 Cumulus Networks, Inc. * * 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 #include "command.h" #include "memory.h" #include "prefix.h" #include "thread.h" #include "stream.h" #include "vrf.h" #include "zclient.h" #include "table.h" #include "vty.h" #include "bfd.h" DEFINE_MTYPE_STATIC(LIB, BFD_INFO, "BFD info"); /** * BFD protocol integration configuration. */ /** Events definitions. */ enum bfd_session_event { /** Remove the BFD session configuration. */ BSE_UNINSTALL, /** Install the BFD session configuration. */ BSE_INSTALL, }; /** * Data structure to do the necessary tricks to hide the BFD protocol * integration internals. */ struct bfd_session_params { /** Contains the session parameters and more. */ struct bfd_session_arg args; /** Contains the session state. */ struct bfd_session_status bss; /** Protocol implementation status update callback. */ bsp_status_update updatecb; /** Protocol implementation custom data pointer. */ void *arg; /** * Next event. * * This variable controls what action to execute when the command batch * finishes. Normally we'd use `thread_add_event` value, however since * that function is going to be called multiple times and the value * might be different we'll use this variable to keep track of it. */ enum bfd_session_event lastev; /** * BFD session configuration event. * * Multiple actions might be asked during a command batch (either via * configuration load or northbound batch), so we'll use this to * install/uninstall the BFD session parameters only once. */ struct thread *installev; /** BFD session installation state. */ bool installed; /** Global BFD paramaters list. */ TAILQ_ENTRY(bfd_session_params) entry; }; struct bfd_sessions_global { /** * Global BFD session parameters list for (re)installation and update * without code duplication among daemons. */ TAILQ_HEAD(bsplist, bfd_session_params) bsplist; /** Pointer to FRR's event manager. */ struct thread_master *tm; /** Pointer to zebra client data structure. */ struct zclient *zc; /** Debugging state. */ bool debugging; /** Is shutting down? */ bool shutting_down; }; /** Global configuration variable. */ static struct bfd_sessions_global bsglobal; /** Global empty address for IPv4/IPv6. */ static const struct in6_addr i6a_zero; /* * bfd_get_peer_info - Extract the Peer information for which the BFD session * went down from the message sent from Zebra to clients. */ static struct interface *bfd_get_peer_info(struct stream *s, struct prefix *dp, struct prefix *sp, int *status, int *remote_cbit, vrf_id_t vrf_id) { unsigned int ifindex; struct interface *ifp = NULL; int plen; int local_remote_cbit; /* * If the ifindex lookup fails the * rest of the data in the stream is * not read. All examples of this function * call immediately use the dp->family which * is not good. Ensure we are not using * random data */ memset(dp, 0, sizeof(*dp)); memset(sp, 0, sizeof(*sp)); /* Get interface index. */ STREAM_GETL(s, ifindex); /* Lookup index. */ if (ifindex != 0) { ifp = if_lookup_by_index(ifindex, vrf_id); if (ifp == NULL) { if (bsglobal.debugging) zlog_debug( "%s: Can't find interface by ifindex: %d ", __func__, ifindex); return NULL; } } /* Fetch destination address. */ STREAM_GETC(s, dp->family); plen = prefix_blen(dp); STREAM_GET(&dp->u.prefix, s, plen); STREAM_GETC(s, dp->prefixlen); /* Get BFD status. */ STREAM_GETL(s, (*status)); STREAM_GETC(s, sp->family); plen = prefix_blen(sp); STREAM_GET(&sp->u.prefix, s, plen); STREAM_GETC(s, sp->prefixlen); STREAM_GETC(s, local_remote_cbit); if (remote_cbit) *remote_cbit = local_remote_cbit; return ifp; stream_failure: /* * Clean dp and sp because caller * will immediately check them valid or not */ memset(dp, 0, sizeof(*dp)); memset(sp, 0, sizeof(*sp)); return NULL; } /* * bfd_get_status_str - Convert BFD status to a display string. */ const char *bfd_get_status_str(int status) { switch (status) { case BFD_STATUS_DOWN: return "Down"; case BFD_STATUS_UP: return "Up"; case BFD_STATUS_ADMIN_DOWN: return "Admin Down"; case BFD_STATUS_UNKNOWN: default: return "Unknown"; } } /* * bfd_last_update - Calculate the last BFD update time and convert it * into a dd:hh:mm:ss display format. */ static void bfd_last_update(time_t last_update, char *buf, size_t len) { time_t curr; time_t diff; struct tm tm; struct timeval tv; /* If no BFD status update has ever been received, print `never'. */ if (last_update == 0) { snprintf(buf, len, "never"); return; } /* Get current time. */ monotime(&tv); curr = tv.tv_sec; diff = curr - last_update; gmtime_r(&diff, &tm); snprintf(buf, len, "%d:%02d:%02d:%02d", tm.tm_yday, tm.tm_hour, tm.tm_min, tm.tm_sec); } /* * bfd_client_sendmsg - Format and send a client register * command to Zebra to be forwarded to BFD */ void bfd_client_sendmsg(struct zclient *zclient, int command, vrf_id_t vrf_id) { struct stream *s; enum zclient_send_status ret; /* Check socket. */ if (!zclient || zclient->sock < 0) { if (bsglobal.debugging) zlog_debug( "%s: Can't send BFD client register, Zebra client not established", __func__); return; } s = zclient->obuf; stream_reset(s); zclient_create_header(s, command, vrf_id); stream_putl(s, getpid()); stream_putw_at(s, 0, stream_get_endp(s)); ret = zclient_send_message(zclient); if (ret == ZCLIENT_SEND_FAILURE) { if (bsglobal.debugging) zlog_debug( "%s: %ld: zclient_send_message() failed", __func__, (long)getpid()); return; } return; } int zclient_bfd_command(struct zclient *zc, struct bfd_session_arg *args) { struct stream *s; size_t addrlen; /* Individual reg/dereg messages are suppressed during shutdown. */ if (bsglobal.shutting_down) { if (bsglobal.debugging) zlog_debug( "%s: Suppressing BFD peer reg/dereg messages", __func__); return -1; } /* Check socket. */ if (!zc || zc->sock < 0) { if (bsglobal.debugging) zlog_debug("%s: zclient unavailable", __func__); return -1; } s = zc->obuf; stream_reset(s); /* Create new message. */ zclient_create_header(s, args->command, args->vrf_id); stream_putl(s, getpid()); /* Encode destination address. */ stream_putw(s, args->family); addrlen = (args->family == AF_INET) ? sizeof(struct in_addr) : sizeof(struct in6_addr); stream_put(s, &args->dst, addrlen); /* * For more BFD integration protocol details, see function * `_ptm_msg_read` in `bfdd/ptm_adapter.c`. */ #if HAVE_BFDD > 0 /* Session timers. */ stream_putl(s, args->min_rx); stream_putl(s, args->min_tx); stream_putc(s, args->detection_multiplier); /* Is multi hop? */ stream_putc(s, args->mhop != 0); /* Source address. */ stream_putw(s, args->family); stream_put(s, &args->src, addrlen); /* Send the expected hops. */ stream_putc(s, args->hops); /* Send interface name if any. */ if (args->mhop) { /* Don't send interface. */ stream_putc(s, 0); if (bsglobal.debugging && args->ifnamelen) zlog_debug("%s: multi hop is configured, not sending interface", __func__); } else { stream_putc(s, args->ifnamelen); if (args->ifnamelen) stream_put(s, args->ifname, args->ifnamelen); } /* Send the C bit indicator. */ stream_putc(s, args->cbit); /* Send profile name if any. */ stream_putc(s, args->profilelen); if (args->profilelen) stream_put(s, args->profile, args->profilelen); #else /* PTM BFD */ /* Encode timers if this is a registration message. */ if (args->command != ZEBRA_BFD_DEST_DEREGISTER) { stream_putl(s, args->min_rx); stream_putl(s, args->min_tx); stream_putc(s, args->detection_multiplier); } if (args->mhop) { /* Multi hop indicator. */ stream_putc(s, 1); /* Multi hop always sends the source address. */ stream_putw(s, args->family); stream_put(s, &args->src, addrlen); /* Send the expected hops. */ stream_putc(s, args->hops); } else { /* Multi hop indicator. */ stream_putc(s, 0); /* Single hop only sends the source address when IPv6. */ if (args->family == AF_INET6) { stream_putw(s, args->family); stream_put(s, &args->src, addrlen); } /* Send interface name if any. */ stream_putc(s, args->ifnamelen); if (args->ifnamelen) stream_put(s, args->ifname, args->ifnamelen); } /* Send the C bit indicator. */ stream_putc(s, args->cbit); #endif /* HAVE_BFDD */ /* Finish the message by writing the size. */ stream_putw_at(s, 0, stream_get_endp(s)); /* Send message to zebra. */ if (zclient_send_message(zc) == ZCLIENT_SEND_FAILURE) { if (bsglobal.debugging) zlog_debug("%s: zclient_send_message failed", __func__); return -1; } return 0; } struct bfd_session_params *bfd_sess_new(bsp_status_update updatecb, void *arg) { struct bfd_session_params *bsp; bsp = XCALLOC(MTYPE_BFD_INFO, sizeof(*bsp)); /* Save application data. */ bsp->updatecb = updatecb; bsp->arg = arg; /* Set defaults. */ bsp->args.detection_multiplier = BFD_DEF_DETECT_MULT; bsp->args.hops = 1; bsp->args.min_rx = BFD_DEF_MIN_RX; bsp->args.min_tx = BFD_DEF_MIN_TX; bsp->args.vrf_id = VRF_DEFAULT; /* Register in global list. */ TAILQ_INSERT_TAIL(&bsglobal.bsplist, bsp, entry); return bsp; } static bool _bfd_sess_valid(const struct bfd_session_params *bsp) { /* Peer/local address not configured. */ if (bsp->args.family == 0) return false; /* Address configured but invalid. */ if (bsp->args.family != AF_INET && bsp->args.family != AF_INET6) { if (bsglobal.debugging) zlog_debug("%s: invalid session family: %d", __func__, bsp->args.family); return false; } /* Invalid address. */ if (memcmp(&bsp->args.dst, &i6a_zero, sizeof(i6a_zero)) == 0) { if (bsglobal.debugging) { if (bsp->args.family == AF_INET) zlog_debug("%s: invalid address: %pI4", __func__, (struct in_addr *)&bsp->args.dst); else zlog_debug("%s: invalid address: %pI6", __func__, &bsp->args.dst); } return false; } /* Multi hop requires local address. */ if (bsp->args.mhop && memcmp(&i6a_zero, &bsp->args.src, sizeof(i6a_zero)) == 0) { if (bsglobal.debugging) zlog_debug( "%s: multi hop but no local address provided", __func__); return false; } /* Check VRF ID. */ if (bsp->args.vrf_id == VRF_UNKNOWN) { if (bsglobal.debugging) zlog_debug("%s: asked for unknown VRF", __func__); return false; } return true; } static void _bfd_sess_send(struct thread *t) { struct bfd_session_params *bsp = THREAD_ARG(t); int rv; /* Validate configuration before trying to send bogus data. */ if (!_bfd_sess_valid(bsp)) return; if (bsp->lastev == BSE_INSTALL) { bsp->args.command = bsp->installed ? ZEBRA_BFD_DEST_UPDATE : ZEBRA_BFD_DEST_REGISTER; } else bsp->args.command = ZEBRA_BFD_DEST_DEREGISTER; /* If not installed and asked for uninstall, do nothing. */ if (!bsp->installed && bsp->args.command == ZEBRA_BFD_DEST_DEREGISTER) return; rv = zclient_bfd_command(bsglobal.zc, &bsp->args); /* Command was sent successfully. */ if (rv == 0) { /* Update installation status. */ if (bsp->args.command == ZEBRA_BFD_DEST_DEREGISTER) bsp->installed = false; else if (bsp->args.command == ZEBRA_BFD_DEST_REGISTER) bsp->installed = true; } else { struct ipaddr src, dst; src.ipa_type = bsp->args.family; src.ipaddr_v6 = bsp->args.src; dst.ipa_type = bsp->args.family; dst.ipaddr_v6 = bsp->args.dst; zlog_err( "%s: BFD session %pIA -> %pIA interface %s VRF %s(%u) was not %s", __func__, &src, &dst, bsp->args.ifnamelen ? bsp->args.ifname : "*", vrf_id_to_name(bsp->args.vrf_id), bsp->args.vrf_id, bsp->lastev == BSE_INSTALL ? "installed" : "uninstalled"); } } static void _bfd_sess_remove(struct bfd_session_params *bsp) { /* Cancel any pending installation request. */ THREAD_OFF(bsp->installev); /* Not installed, nothing to do. */ if (!bsp->installed) return; /* Send request to remove any session. */ bsp->lastev = BSE_UNINSTALL; thread_execute(bsglobal.tm, _bfd_sess_send, bsp, 0); } void bfd_sess_free(struct bfd_session_params **bsp) { if (*bsp == NULL) return; /* Remove any installed session. */ _bfd_sess_remove(*bsp); /* Remove from global list. */ TAILQ_REMOVE(&bsglobal.bsplist, (*bsp), entry); /* Free the memory and point to NULL. */ XFREE(MTYPE_BFD_INFO, (*bsp)); } static bool bfd_sess_address_changed(const struct bfd_session_params *bsp, uint32_t family, const struct in6_addr *src, const struct in6_addr *dst) { size_t addrlen; if (bsp->args.family != family) return true; addrlen = (family == AF_INET) ? sizeof(struct in_addr) : sizeof(struct in6_addr); if ((src == NULL && memcmp(&bsp->args.src, &i6a_zero, addrlen)) || (src && memcmp(src, &bsp->args.src, addrlen)) || memcmp(dst, &bsp->args.dst, addrlen)) return true; return false; } void bfd_sess_set_ipv4_addrs(struct bfd_session_params *bsp, const struct in_addr *src, const struct in_addr *dst) { if (!bfd_sess_address_changed(bsp, AF_INET, (struct in6_addr *)src, (struct in6_addr *)dst)) return; /* If already installed, remove the old setting. */ _bfd_sess_remove(bsp); bsp->args.family = AF_INET; /* Clean memory, set zero value and avoid static analyser warnings. */ memset(&bsp->args.src, 0, sizeof(bsp->args.src)); memset(&bsp->args.dst, 0, sizeof(bsp->args.dst)); /* Copy the equivalent of IPv4 to arguments structure. */ if (src) memcpy(&bsp->args.src, src, sizeof(struct in_addr)); assert(dst); memcpy(&bsp->args.dst, dst, sizeof(struct in_addr)); } void bfd_sess_set_ipv6_addrs(struct bfd_session_params *bsp, const struct in6_addr *src, const struct in6_addr *dst) { if (!bfd_sess_address_changed(bsp, AF_INET6, src, dst)) return; /* If already installed, remove the old setting. */ _bfd_sess_remove(bsp); bsp->args.family = AF_INET6; /* Clean memory, set zero value and avoid static analyser warnings. */ memset(&bsp->args.src, 0, sizeof(bsp->args.src)); if (src) bsp->args.src = *src; assert(dst); bsp->args.dst = *dst; } void bfd_sess_set_interface(struct bfd_session_params *bsp, const char *ifname) { if ((ifname == NULL && bsp->args.ifnamelen == 0) || (ifname && strcmp(bsp->args.ifname, ifname) == 0)) return; /* If already installed, remove the old setting. */ _bfd_sess_remove(bsp); if (ifname == NULL) { bsp->args.ifname[0] = 0; bsp->args.ifnamelen = 0; return; } if (strlcpy(bsp->args.ifname, ifname, sizeof(bsp->args.ifname)) > sizeof(bsp->args.ifname)) zlog_warn("%s: interface name truncated: %s", __func__, ifname); bsp->args.ifnamelen = strlen(bsp->args.ifname); } void bfd_sess_set_profile(struct bfd_session_params *bsp, const char *profile) { if (profile == NULL) { bsp->args.profile[0] = 0; bsp->args.profilelen = 0; return; } if (strlcpy(bsp->args.profile, profile, sizeof(bsp->args.profile)) > sizeof(bsp->args.profile)) zlog_warn("%s: profile name truncated: %s", __func__, profile); bsp->args.profilelen = strlen(bsp->args.profile); } void bfd_sess_set_vrf(struct bfd_session_params *bsp, vrf_id_t vrf_id) { if (bsp->args.vrf_id == vrf_id) return; /* If already installed, remove the old setting. */ _bfd_sess_remove(bsp); bsp->args.vrf_id = vrf_id; } void bfd_sess_set_hop_count(struct bfd_session_params *bsp, uint8_t hops) { if (bsp->args.hops == hops) return; /* If already installed, remove the old setting. */ _bfd_sess_remove(bsp); bsp->args.hops = hops; bsp->args.mhop = (hops > 1); } void bfd_sess_set_cbit(struct bfd_session_params *bsp, bool enable) { bsp->args.cbit = enable; } void bfd_sess_set_timers(struct bfd_session_params *bsp, uint8_t detection_multiplier, uint32_t min_rx, uint32_t min_tx) { bsp->args.detection_multiplier = detection_multiplier; bsp->args.min_rx = min_rx; bsp->args.min_tx = min_tx; } void bfd_sess_install(struct bfd_session_params *bsp) { bsp->lastev = BSE_INSTALL; thread_add_event(bsglobal.tm, _bfd_sess_send, bsp, 0, &bsp->installev); } void bfd_sess_uninstall(struct bfd_session_params *bsp) { bsp->lastev = BSE_UNINSTALL; thread_add_event(bsglobal.tm, _bfd_sess_send, bsp, 0, &bsp->installev); } enum bfd_session_state bfd_sess_status(const struct bfd_session_params *bsp) { return bsp->bss.state; } uint8_t bfd_sess_hop_count(const struct bfd_session_params *bsp) { return bsp->args.hops; } const char *bfd_sess_profile(const struct bfd_session_params *bsp) { return bsp->args.profilelen ? bsp->args.profile : NULL; } void bfd_sess_addresses(const struct bfd_session_params *bsp, int *family, struct in6_addr *src, struct in6_addr *dst) { *family = bsp->args.family; if (src) *src = bsp->args.src; if (dst) *dst = bsp->args.dst; } const char *bfd_sess_interface(const struct bfd_session_params *bsp) { if (bsp->args.ifnamelen) return bsp->args.ifname; return NULL; } const char *bfd_sess_vrf(const struct bfd_session_params *bsp) { return vrf_id_to_name(bsp->args.vrf_id); } vrf_id_t bfd_sess_vrf_id(const struct bfd_session_params *bsp) { return bsp->args.vrf_id; } bool bfd_sess_cbit(const struct bfd_session_params *bsp) { return bsp->args.cbit; } void bfd_sess_timers(const struct bfd_session_params *bsp, uint8_t *detection_multiplier, uint32_t *min_rx, uint32_t *min_tx) { *detection_multiplier = bsp->args.detection_multiplier; *min_rx = bsp->args.min_rx; *min_tx = bsp->args.min_tx; } void bfd_sess_show(struct vty *vty, struct json_object *json, struct bfd_session_params *bsp) { json_object *json_bfd = NULL; char time_buf[64]; if (!bsp) return; /* Show type. */ if (json) { json_bfd = json_object_new_object(); if (bsp->args.mhop) json_object_string_add(json_bfd, "type", "multi hop"); else json_object_string_add(json_bfd, "type", "single hop"); } else vty_out(vty, " BFD: Type: %s\n", bsp->args.mhop ? "multi hop" : "single hop"); /* Show configuration. */ if (json) { json_object_int_add(json_bfd, "detectMultiplier", bsp->args.detection_multiplier); json_object_int_add(json_bfd, "rxMinInterval", bsp->args.min_rx); json_object_int_add(json_bfd, "txMinInterval", bsp->args.min_tx); } else { vty_out(vty, " Detect Multiplier: %d, Min Rx interval: %d, Min Tx interval: %d\n", bsp->args.detection_multiplier, bsp->args.min_rx, bsp->args.min_tx); } bfd_last_update(bsp->bss.last_event, time_buf, sizeof(time_buf)); if (json) { json_object_string_add(json_bfd, "status", bfd_get_status_str(bsp->bss.state)); json_object_string_add(json_bfd, "lastUpdate", time_buf); } else vty_out(vty, " Status: %s, Last update: %s\n", bfd_get_status_str(bsp->bss.state), time_buf); if (json) json_object_object_add(json, "peerBfdInfo", json_bfd); else vty_out(vty, "\n"); } /* * Zebra communication related. */ /** * Callback for reinstallation of all registered BFD sessions. * * Use this as `zclient` `bfd_dest_replay` callback. */ int zclient_bfd_session_replay(ZAPI_CALLBACK_ARGS) { struct bfd_session_params *bsp; if (!zclient->bfd_integration) return 0; /* Do nothing when shutting down. */ if (bsglobal.shutting_down) return 0; if (bsglobal.debugging) zlog_debug("%s: sending all sessions registered", __func__); /* Send the client registration */ bfd_client_sendmsg(zclient, ZEBRA_BFD_CLIENT_REGISTER, vrf_id); /* Replay all activated peers. */ TAILQ_FOREACH (bsp, &bsglobal.bsplist, entry) { /* Skip not installed sessions. */ if (!bsp->installed) continue; /* We are reconnecting, so we must send installation. */ bsp->installed = false; /* Cancel any pending installation request. */ THREAD_OFF(bsp->installev); /* Ask for installation. */ bsp->lastev = BSE_INSTALL; thread_execute(bsglobal.tm, _bfd_sess_send, bsp, 0); } return 0; } int zclient_bfd_session_update(ZAPI_CALLBACK_ARGS) { struct bfd_session_params *bsp, *bspn; size_t sessions_updated = 0; struct interface *ifp; int remote_cbit = false; int state = BFD_STATUS_UNKNOWN; time_t now; size_t addrlen; struct prefix dp; struct prefix sp; char ifstr[128], cbitstr[32]; if (!zclient->bfd_integration) return 0; /* Do nothing when shutting down. */ if (bsglobal.shutting_down) return 0; ifp = bfd_get_peer_info(zclient->ibuf, &dp, &sp, &state, &remote_cbit, vrf_id); /* * When interface lookup fails or an invalid stream is read, we must * not proceed otherwise it will trigger an assertion while checking * family type below. */ if (dp.family == 0 || sp.family == 0) return 0; if (bsglobal.debugging) { ifstr[0] = 0; if (ifp) snprintf(ifstr, sizeof(ifstr), " (interface %s)", ifp->name); snprintf(cbitstr, sizeof(cbitstr), " (CPI bit %s)", remote_cbit ? "yes" : "no"); zlog_debug("%s: %pFX -> %pFX%s VRF %s(%u)%s: %s", __func__, &sp, &dp, ifstr, vrf_id_to_name(vrf_id), vrf_id, cbitstr, bfd_get_status_str(state)); } switch (dp.family) { case AF_INET: addrlen = sizeof(struct in_addr); break; case AF_INET6: addrlen = sizeof(struct in6_addr); break; default: /* Unexpected value. */ assert(0); break; } /* Cache current time to avoid multiple monotime clock calls. */ now = monotime(NULL); /* Notify all matching sessions about update. */ TAILQ_FOREACH_SAFE (bsp, &bsglobal.bsplist, entry, bspn) { /* Skip not installed entries. */ if (!bsp->installed) continue; /* Skip different VRFs. */ if (bsp->args.vrf_id != vrf_id) continue; /* Skip different families. */ if (bsp->args.family != dp.family) continue; /* Skip different interface. */ if (bsp->args.ifnamelen && ifp && strcmp(bsp->args.ifname, ifp->name) != 0) continue; /* Skip non matching destination addresses. */ if (memcmp(&bsp->args.dst, &dp.u, addrlen) != 0) continue; /* * Source comparison test: * We will only compare source if BFD daemon provided the * source address and the protocol set a source address in * the configuration otherwise we'll just skip it. */ if (sp.family && memcmp(&bsp->args.src, &i6a_zero, addrlen) != 0 && memcmp(&sp.u, &i6a_zero, addrlen) != 0 && memcmp(&bsp->args.src, &sp.u, addrlen) != 0) continue; /* No session state change. */ if ((int)bsp->bss.state == state) continue; bsp->bss.last_event = now; bsp->bss.previous_state = bsp->bss.state; bsp->bss.state = state; bsp->bss.remote_cbit = remote_cbit; bsp->updatecb(bsp, &bsp->bss, bsp->arg); sessions_updated++; } if (bsglobal.debugging) zlog_debug("%s: sessions updated: %zu", __func__, sessions_updated); return 0; } void bfd_protocol_integration_init(struct zclient *zc, struct thread_master *tm) { /* Initialize data structure. */ TAILQ_INIT(&bsglobal.bsplist); /* Copy pointers. */ bsglobal.zc = zc; bsglobal.tm = tm; /* Enable BFD callbacks. */ zc->bfd_integration = true; /* Send the client registration */ bfd_client_sendmsg(zc, ZEBRA_BFD_CLIENT_REGISTER, VRF_DEFAULT); } void bfd_protocol_integration_set_debug(bool enable) { bsglobal.debugging = enable; } void bfd_protocol_integration_set_shutdown(bool enable) { bsglobal.shutting_down = enable; } bool bfd_protocol_integration_debug(void) { return bsglobal.debugging; } bool bfd_protocol_integration_shutting_down(void) { return bsglobal.shutting_down; }