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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*********************************************************************
* Copyright 2013 Cumulus Networks, LLC. All rights reserved.
* Copyright 2014,2015,2016,2017 Cumulus Networks, Inc. All rights reserved.
*
* bfd.c: implements the BFD protocol.
*
* Authors
* -------
* Shrijeet Mukherjee [shm@cumulusnetworks.com]
* Kanna Rajagopal [kanna@cumulusnetworks.com]
* Radhika Mahankali [Radhika@cumulusnetworks.com]
*/
#include <zebra.h>
#include "lib/jhash.h"
#include "lib/network.h"
#include "bfd.h"
DEFINE_MTYPE_STATIC(BFDD, BFDD_CONFIG, "long-lived configuration memory");
DEFINE_MTYPE_STATIC(BFDD, BFDD_PROFILE, "long-lived profile memory");
DEFINE_MTYPE_STATIC(BFDD, BFDD_SESSION_OBSERVER, "Session observer");
DEFINE_MTYPE_STATIC(BFDD, BFDD_VRF, "BFD VRF");
/*
* Prototypes
*/
static uint32_t ptm_bfd_gen_ID(void);
static void ptm_bfd_echo_xmt_TO(struct bfd_session *bfd);
static struct bfd_session *bfd_find_disc(struct sockaddr_any *sa,
uint32_t ldisc);
static int bfd_session_update(struct bfd_session *bs, struct bfd_peer_cfg *bpc);
static const char *get_diag_str(int diag);
static void bs_admin_down_handler(struct bfd_session *bs, int nstate);
static void bs_down_handler(struct bfd_session *bs, int nstate);
static void bs_init_handler(struct bfd_session *bs, int nstate);
static void bs_up_handler(struct bfd_session *bs, int nstate);
/**
* Remove BFD profile from all BFD sessions so we don't leave dangling
* pointers.
*/
static void bfd_profile_detach(struct bfd_profile *bp);
/* Zeroed array with the size of an IPv6 address. */
struct in6_addr zero_addr;
/** BFD profiles list. */
struct bfdproflist bplist;
/*
* Functions
*/
struct bfd_profile *bfd_profile_lookup(const char *name)
{
struct bfd_profile *bp;
TAILQ_FOREACH (bp, &bplist, entry) {
if (strcmp(name, bp->name))
continue;
return bp;
}
return NULL;
}
static void bfd_profile_set_default(struct bfd_profile *bp)
{
bp->admin_shutdown = false;
bp->detection_multiplier = BFD_DEFDETECTMULT;
bp->echo_mode = false;
bp->passive = false;
bp->minimum_ttl = BFD_DEF_MHOP_TTL;
bp->min_echo_rx = BFD_DEF_REQ_MIN_ECHO_RX;
bp->min_echo_tx = BFD_DEF_DES_MIN_ECHO_TX;
bp->min_rx = BFD_DEFREQUIREDMINRX;
bp->min_tx = BFD_DEFDESIREDMINTX;
}
struct bfd_profile *bfd_profile_new(const char *name)
{
struct bfd_profile *bp;
/* Search for duplicates. */
if (bfd_profile_lookup(name) != NULL)
return NULL;
/* Allocate, name it and put into list. */
bp = XCALLOC(MTYPE_BFDD_PROFILE, sizeof(*bp));
strlcpy(bp->name, name, sizeof(bp->name));
TAILQ_INSERT_TAIL(&bplist, bp, entry);
/* Set default values. */
bfd_profile_set_default(bp);
return bp;
}
void bfd_profile_free(struct bfd_profile *bp)
{
/* Detach from any session. */
if (bglobal.bg_shutdown == false)
bfd_profile_detach(bp);
/* Remove from global list. */
TAILQ_REMOVE(&bplist, bp, entry);
XFREE(MTYPE_BFDD_PROFILE, bp);
}
void bfd_profile_apply(const char *profname, struct bfd_session *bs)
{
struct bfd_profile *bp;
/* Remove previous profile if any. */
if (bs->profile_name) {
/* We are changing profiles. */
if (strcmp(bs->profile_name, profname)) {
XFREE(MTYPE_BFDD_PROFILE, bs->profile_name);
bs->profile_name =
XSTRDUP(MTYPE_BFDD_PROFILE, profname);
}
} else /* Save the current profile name (in case it doesn't exist). */
bs->profile_name = XSTRDUP(MTYPE_BFDD_PROFILE, profname);
/* Look up new profile to apply. */
bp = bfd_profile_lookup(profname);
/* Point to profile if it exists. */
bs->profile = bp;
/* Apply configuration. */
bfd_session_apply(bs);
}
void bfd_session_apply(struct bfd_session *bs)
{
struct bfd_profile *bp;
uint32_t min_tx = bs->timers.desired_min_tx;
uint32_t min_rx = bs->timers.required_min_rx;
/* Pick the source of configuration. */
bp = bs->profile ? bs->profile : &bs->peer_profile;
/* Set multiplier if not the default. */
if (bs->peer_profile.detection_multiplier == BFD_DEFDETECTMULT)
bs->detect_mult = bp->detection_multiplier;
else
bs->detect_mult = bs->peer_profile.detection_multiplier;
/* Set timers if not the default. */
if (bs->peer_profile.min_tx == BFD_DEFDESIREDMINTX)
bs->timers.desired_min_tx = bp->min_tx;
else
bs->timers.desired_min_tx = bs->peer_profile.min_tx;
if (bs->peer_profile.min_rx == BFD_DEFREQUIREDMINRX)
bs->timers.required_min_rx = bp->min_rx;
else
bs->timers.required_min_rx = bs->peer_profile.min_rx;
/* We can only apply echo options on single hop sessions. */
if (!CHECK_FLAG(bs->flags, BFD_SESS_FLAG_MH)) {
/* Configure echo timers if they were default. */
if (bs->peer_profile.min_echo_rx == BFD_DEF_REQ_MIN_ECHO_RX)
bs->timers.required_min_echo_rx = bp->min_echo_rx;
else
bs->timers.required_min_echo_rx =
bs->peer_profile.min_echo_rx;
if (bs->peer_profile.min_echo_tx == BFD_DEF_DES_MIN_ECHO_TX)
bs->timers.desired_min_echo_tx = bp->min_echo_tx;
else
bs->timers.desired_min_echo_tx =
bs->peer_profile.min_echo_tx;
/* Toggle echo if default value. */
if (bs->peer_profile.echo_mode == false)
bfd_set_echo(bs, bp->echo_mode);
else
bfd_set_echo(bs, bs->peer_profile.echo_mode);
} else {
/* Configure the TTL packet filter. */
if (bs->peer_profile.minimum_ttl == BFD_DEF_MHOP_TTL)
bs->mh_ttl = bp->minimum_ttl;
else
bs->mh_ttl = bs->peer_profile.minimum_ttl;
}
/* Toggle 'passive-mode' if default value. */
if (bs->peer_profile.passive == false)
bfd_set_passive_mode(bs, bp->passive);
else
bfd_set_passive_mode(bs, bs->peer_profile.passive);
/* Toggle 'no shutdown' if default value. */
if (bs->peer_profile.admin_shutdown == false)
bfd_set_shutdown(bs, bp->admin_shutdown);
else
bfd_set_shutdown(bs, bs->peer_profile.admin_shutdown);
/* If session interval changed negotiate new timers. */
if (bs->ses_state == PTM_BFD_UP
&& (bs->timers.desired_min_tx != min_tx
|| bs->timers.required_min_rx != min_rx))
bfd_set_polling(bs);
/* Send updated information to data plane. */
bfd_dplane_update_session(bs);
}
void bfd_profile_remove(struct bfd_session *bs)
{
/* Remove any previous set profile name. */
XFREE(MTYPE_BFDD_PROFILE, bs->profile_name);
bs->profile = NULL;
bfd_session_apply(bs);
}
void gen_bfd_key(struct bfd_key *key, struct sockaddr_any *peer,
struct sockaddr_any *local, bool mhop, const char *ifname,
const char *vrfname)
{
memset(key, 0, sizeof(*key));
switch (peer->sa_sin.sin_family) {
case AF_INET:
key->family = AF_INET;
memcpy(&key->peer, &peer->sa_sin.sin_addr,
sizeof(peer->sa_sin.sin_addr));
memcpy(&key->local, &local->sa_sin.sin_addr,
sizeof(local->sa_sin.sin_addr));
break;
case AF_INET6:
key->family = AF_INET6;
memcpy(&key->peer, &peer->sa_sin6.sin6_addr,
sizeof(peer->sa_sin6.sin6_addr));
memcpy(&key->local, &local->sa_sin6.sin6_addr,
sizeof(local->sa_sin6.sin6_addr));
break;
}
key->mhop = mhop;
if (ifname && ifname[0])
strlcpy(key->ifname, ifname, sizeof(key->ifname));
if (vrfname && vrfname[0])
strlcpy(key->vrfname, vrfname, sizeof(key->vrfname));
else
strlcpy(key->vrfname, VRF_DEFAULT_NAME, sizeof(key->vrfname));
}
struct bfd_session *bs_peer_find(struct bfd_peer_cfg *bpc)
{
struct bfd_session *bs;
struct peer_label *pl;
struct bfd_key key;
/* Try to find label first. */
if (bpc->bpc_has_label) {
pl = pl_find(bpc->bpc_label);
if (pl != NULL) {
bs = pl->pl_bs;
return bs;
}
}
/* Otherwise fallback to peer/local hash lookup. */
gen_bfd_key(&key, &bpc->bpc_peer, &bpc->bpc_local, bpc->bpc_mhop,
bpc->bpc_localif, bpc->bpc_vrfname);
return bfd_key_lookup(key);
}
/*
* Starts a disabled BFD session.
*
* A session is disabled when the specified interface/VRF doesn't exist
* yet. It might happen on FRR boot or with virtual interfaces.
*/
int bfd_session_enable(struct bfd_session *bs)
{
struct interface *ifp = NULL;
struct vrf *vrf = NULL;
int psock;
/* We are using data plane, we don't need software. */
if (bs->bdc)
return 0;
/*
* If the interface or VRF doesn't exist, then we must register
* the session but delay its start.
*/
if (bs->key.vrfname[0]) {
vrf = vrf_lookup_by_name(bs->key.vrfname);
if (vrf == NULL) {
zlog_err(
"session-enable: specified VRF %s doesn't exists.",
bs->key.vrfname);
return 0;
}
} else {
vrf = vrf_lookup_by_id(VRF_DEFAULT);
}
assert(vrf);
if (bs->key.ifname[0]) {
ifp = if_lookup_by_name(bs->key.ifname, vrf->vrf_id);
if (ifp == NULL) {
zlog_err(
"session-enable: specified interface %s (VRF %s) doesn't exist.",
bs->key.ifname, vrf->name);
return 0;
}
}
/* Assign interface/VRF pointers. */
bs->vrf = vrf;
/* Assign interface pointer (if any). */
bs->ifp = ifp;
/* Attempt to use data plane. */
if (bglobal.bg_use_dplane && bfd_dplane_add_session(bs) == 0) {
control_notify_config(BCM_NOTIFY_CONFIG_ADD, bs);
return 0;
}
/* Sanity check: don't leak open sockets. */
if (bs->sock != -1) {
if (bglobal.debug_peer_event)
zlog_debug("%s: previous socket open", __func__);
close(bs->sock);
bs->sock = -1;
}
/*
* Get socket for transmitting control packets. Note that if we
* could use the destination port (3784) for the source
* port we wouldn't need a socket per session.
*/
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_IPV6) == 0) {
psock = bp_peer_socket(bs);
if (psock == -1)
return 0;
} else {
psock = bp_peer_socketv6(bs);
if (psock == -1)
return 0;
}
/*
* We've got a valid socket, lets start the timers and the
* protocol.
*/
bs->sock = psock;
/* Only start timers if we are using active mode. */
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_PASSIVE) == 0) {
bfd_recvtimer_update(bs);
ptm_bfd_start_xmt_timer(bs, false);
}
/* initialize RTT */
bfd_rtt_init(bs);
return 0;
}
/*
* Disabled a running BFD session.
*
* A session is disabled when the specified interface/VRF gets removed
* (e.g. virtual interfaces).
*/
void bfd_session_disable(struct bfd_session *bs)
{
/* We are using data plane, we don't need software. */
if (bs->bdc)
return;
/* Free up socket resources. */
if (bs->sock != -1) {
close(bs->sock);
bs->sock = -1;
}
/* Disable all timers. */
bfd_recvtimer_delete(bs);
bfd_xmttimer_delete(bs);
ptm_bfd_echo_stop(bs);
/* Set session down so it doesn't report UP and disabled. */
ptm_bfd_sess_dn(bs, BD_PATH_DOWN);
}
static uint32_t ptm_bfd_gen_ID(void)
{
uint32_t session_id;
/*
* RFC 5880, Section 6.8.1. recommends that we should generate
* random session identification numbers.
*/
do {
session_id = ((frr_weak_random() << 16) & 0xFFFF0000)
| (frr_weak_random() & 0x0000FFFF);
} while (session_id == 0 || bfd_id_lookup(session_id) != NULL);
return session_id;
}
void ptm_bfd_start_xmt_timer(struct bfd_session *bfd, bool is_echo)
{
uint64_t jitter, xmt_TO;
int maxpercent;
xmt_TO = is_echo ? bfd->echo_xmt_TO : bfd->xmt_TO;
/*
* From section 6.5.2: trasmit interval should be randomly jittered
* between
* 75% and 100% of nominal value, unless detect_mult is 1, then should
* be
* between 75% and 90%.
*/
maxpercent = (bfd->detect_mult == 1) ? 16 : 26;
jitter = (xmt_TO * (75 + (frr_weak_random() % maxpercent))) / 100;
/* XXX remove that division above */
if (is_echo)
bfd_echo_xmttimer_update(bfd, jitter);
else
bfd_xmttimer_update(bfd, jitter);
}
static void ptm_bfd_echo_xmt_TO(struct bfd_session *bfd)
{
/* Send the scheduled echo packet */
/* if ipv4 use the new echo implementation that causes
* the packet to be looped in forwarding plane of peer
*/
if (CHECK_FLAG(bfd->flags, BFD_SESS_FLAG_IPV6) == 0)
#ifdef BFD_LINUX
ptm_bfd_echo_fp_snd(bfd);
#else
ptm_bfd_echo_snd(bfd);
#endif
else
ptm_bfd_echo_snd(bfd);
/* Restart the timer for next time */
ptm_bfd_start_xmt_timer(bfd, true);
}
void ptm_bfd_xmt_TO(struct bfd_session *bfd, int fbit)
{
/* Send the scheduled control packet */
ptm_bfd_snd(bfd, fbit);
/* Restart the timer for next time */
ptm_bfd_start_xmt_timer(bfd, false);
}
void ptm_bfd_echo_stop(struct bfd_session *bfd)
{
bfd->echo_xmt_TO = 0;
bfd->echo_detect_TO = 0;
UNSET_FLAG(bfd->flags, BFD_SESS_FLAG_ECHO_ACTIVE);
bfd_echo_xmttimer_delete(bfd);
bfd_echo_recvtimer_delete(bfd);
}
void ptm_bfd_echo_start(struct bfd_session *bfd)
{
bfd->echo_detect_TO = (bfd->remote_detect_mult * bfd->echo_xmt_TO);
if (bfd->echo_detect_TO > 0) {
bfd_echo_recvtimer_update(bfd);
ptm_bfd_echo_xmt_TO(bfd);
}
}
void ptm_bfd_sess_up(struct bfd_session *bfd)
{
int old_state = bfd->ses_state;
bfd->local_diag = 0;
bfd->ses_state = PTM_BFD_UP;
monotime(&bfd->uptime);
/* Connection is up, lets negotiate timers. */
bfd_set_polling(bfd);
/* Start sending control packets with poll bit immediately. */
ptm_bfd_snd(bfd, 0);
control_notify(bfd, bfd->ses_state);
if (old_state != bfd->ses_state) {
bfd->stats.session_up++;
if (bglobal.debug_peer_event)
zlog_debug("state-change: [%s] %s -> %s",
bs_to_string(bfd), state_list[old_state].str,
state_list[bfd->ses_state].str);
}
}
void ptm_bfd_sess_dn(struct bfd_session *bfd, uint8_t diag)
{
int old_state = bfd->ses_state;
bfd->local_diag = diag;
bfd->discrs.remote_discr = 0;
bfd->ses_state = PTM_BFD_DOWN;
bfd->polling = 0;
bfd->demand_mode = 0;
monotime(&bfd->downtime);
/*
* Only attempt to send if we have a valid socket:
* this function might be called by session disablers and in
* this case we won't have a valid socket (i.e. interface was
* removed or VRF doesn't exist anymore).
*/
if (bfd->sock != -1)
ptm_bfd_snd(bfd, 0);
/* Slow down the control packets, the connection is down. */
bs_set_slow_timers(bfd);
/* only signal clients when going from up->down state */
if (old_state == PTM_BFD_UP)
control_notify(bfd, PTM_BFD_DOWN);
/* Stop echo packet transmission if they are active */
if (CHECK_FLAG(bfd->flags, BFD_SESS_FLAG_ECHO_ACTIVE))
ptm_bfd_echo_stop(bfd);
/* Stop attempting to transmit or expect control packets if passive. */
if (CHECK_FLAG(bfd->flags, BFD_SESS_FLAG_PASSIVE)) {
bfd_recvtimer_delete(bfd);
bfd_xmttimer_delete(bfd);
}
if (old_state != bfd->ses_state) {
bfd->stats.session_down++;
if (bglobal.debug_peer_event)
zlog_debug("state-change: [%s] %s -> %s reason:%s",
bs_to_string(bfd), state_list[old_state].str,
state_list[bfd->ses_state].str,
get_diag_str(bfd->local_diag));
}
/* clear peer's mac address */
UNSET_FLAG(bfd->flags, BFD_SESS_FLAG_MAC_SET);
memset(bfd->peer_hw_addr, 0, sizeof(bfd->peer_hw_addr));
/* reset local address ,it might has been be changed after bfd is up*/
memset(&bfd->local_address, 0, sizeof(bfd->local_address));
/* reset RTT */
bfd_rtt_init(bfd);
}
static struct bfd_session *bfd_find_disc(struct sockaddr_any *sa,
uint32_t ldisc)
{
struct bfd_session *bs;
bs = bfd_id_lookup(ldisc);
if (bs == NULL)
return NULL;
switch (bs->key.family) {
case AF_INET:
if (memcmp(&sa->sa_sin.sin_addr, &bs->key.peer,
sizeof(sa->sa_sin.sin_addr)))
return NULL;
break;
case AF_INET6:
if (memcmp(&sa->sa_sin6.sin6_addr, &bs->key.peer,
sizeof(sa->sa_sin6.sin6_addr)))
return NULL;
break;
}
return bs;
}
struct bfd_session *ptm_bfd_sess_find(struct bfd_pkt *cp,
struct sockaddr_any *peer,
struct sockaddr_any *local,
struct interface *ifp,
vrf_id_t vrfid,
bool is_mhop)
{
struct vrf *vrf;
struct bfd_key key;
/* Find our session using the ID signaled by the remote end. */
if (cp->discrs.remote_discr)
return bfd_find_disc(peer, ntohl(cp->discrs.remote_discr));
/* Search for session without using discriminator. */
vrf = vrf_lookup_by_id(vrfid);
gen_bfd_key(&key, peer, local, is_mhop, ifp ? ifp->name : NULL,
vrf ? vrf->name : VRF_DEFAULT_NAME);
/* XXX maybe remoteDiscr should be checked for remoteHeard cases. */
return bfd_key_lookup(key);
}
void bfd_xmt_cb(struct event *t)
{
struct bfd_session *bs = EVENT_ARG(t);
ptm_bfd_xmt_TO(bs, 0);
}
void bfd_echo_xmt_cb(struct event *t)
{
struct bfd_session *bs = EVENT_ARG(t);
if (bs->echo_xmt_TO > 0)
ptm_bfd_echo_xmt_TO(bs);
}
/* Was ptm_bfd_detect_TO() */
void bfd_recvtimer_cb(struct event *t)
{
struct bfd_session *bs = EVENT_ARG(t);
switch (bs->ses_state) {
case PTM_BFD_INIT:
case PTM_BFD_UP:
ptm_bfd_sess_dn(bs, BD_CONTROL_EXPIRED);
break;
}
}
/* Was ptm_bfd_echo_detect_TO() */
void bfd_echo_recvtimer_cb(struct event *t)
{
struct bfd_session *bs = EVENT_ARG(t);
switch (bs->ses_state) {
case PTM_BFD_INIT:
case PTM_BFD_UP:
ptm_bfd_sess_dn(bs, BD_ECHO_FAILED);
break;
}
}
struct bfd_session *bfd_session_new(void)
{
struct bfd_session *bs;
bs = XCALLOC(MTYPE_BFDD_CONFIG, sizeof(*bs));
/* Set peer session defaults. */
bfd_profile_set_default(&bs->peer_profile);
bs->timers.desired_min_tx = BFD_DEFDESIREDMINTX;
bs->timers.required_min_rx = BFD_DEFREQUIREDMINRX;
bs->timers.required_min_echo_rx = BFD_DEF_REQ_MIN_ECHO_RX;
bs->timers.desired_min_echo_tx = BFD_DEF_DES_MIN_ECHO_TX;
bs->detect_mult = BFD_DEFDETECTMULT;
bs->mh_ttl = BFD_DEF_MHOP_TTL;
bs->ses_state = PTM_BFD_DOWN;
/* Initiate connection with slow timers. */
bs_set_slow_timers(bs);
/* Initiate remote settings as well. */
bs->remote_timers = bs->cur_timers;
bs->remote_detect_mult = BFD_DEFDETECTMULT;
bs->sock = -1;
monotime(&bs->uptime);
bs->downtime = bs->uptime;
return bs;
}
int bfd_session_update_label(struct bfd_session *bs, const char *nlabel)
{
/* New label treatment:
* - Check if the label is taken;
* - Try to allocate the memory for it and register;
*/
if (bs->pl == NULL) {
if (pl_find(nlabel) != NULL) {
/* Someone is already using it. */
return -1;
}
pl_new(nlabel, bs);
return 0;
}
/*
* Test label change consistency:
* - Do nothing if it's the same label;
* - Check if the future label is already taken;
* - Change label;
*/
if (strcmp(nlabel, bs->pl->pl_label) == 0)
return -1;
if (pl_find(nlabel) != NULL)
return -1;
strlcpy(bs->pl->pl_label, nlabel, sizeof(bs->pl->pl_label));
return 0;
}
static void _bfd_session_update(struct bfd_session *bs,
struct bfd_peer_cfg *bpc)
{
if (bpc->bpc_has_txinterval) {
bs->timers.desired_min_tx = bpc->bpc_txinterval * 1000;
bs->peer_profile.min_tx = bs->timers.desired_min_tx;
}
if (bpc->bpc_has_recvinterval) {
bs->timers.required_min_rx = bpc->bpc_recvinterval * 1000;
bs->peer_profile.min_rx = bs->timers.required_min_rx;
}
if (bpc->bpc_has_detectmultiplier) {
bs->detect_mult = bpc->bpc_detectmultiplier;
bs->peer_profile.detection_multiplier = bs->detect_mult;
}
if (bpc->bpc_has_echorecvinterval) {
bs->timers.required_min_echo_rx = bpc->bpc_echorecvinterval * 1000;
bs->peer_profile.min_echo_rx = bs->timers.required_min_echo_rx;
}
if (bpc->bpc_has_echotxinterval) {
bs->timers.desired_min_echo_tx = bpc->bpc_echotxinterval * 1000;
bs->peer_profile.min_echo_tx = bs->timers.desired_min_echo_tx;
}
if (bpc->bpc_has_label)
bfd_session_update_label(bs, bpc->bpc_label);
if (bpc->bpc_cbit)
SET_FLAG(bs->flags, BFD_SESS_FLAG_CBIT);
else
UNSET_FLAG(bs->flags, BFD_SESS_FLAG_CBIT);
if (bpc->bpc_has_minimum_ttl) {
bs->mh_ttl = bpc->bpc_minimum_ttl;
bs->peer_profile.minimum_ttl = bpc->bpc_minimum_ttl;
}
bs->peer_profile.echo_mode = bpc->bpc_echo;
bfd_set_echo(bs, bpc->bpc_echo);
/*
* Shutdown needs to be the last in order to avoid timers enable when
* the session is disabled.
*/
bs->peer_profile.admin_shutdown = bpc->bpc_shutdown;
bfd_set_passive_mode(bs, bpc->bpc_passive);
bfd_set_shutdown(bs, bpc->bpc_shutdown);
/*
* Apply profile last: it also calls `bfd_set_shutdown`.
*
* There is no problem calling `shutdown` twice if the value doesn't
* change or if it is overridden by peer specific configuration.
*/
if (bpc->bpc_has_profile)
bfd_profile_apply(bpc->bpc_profile, bs);
}
static int bfd_session_update(struct bfd_session *bs, struct bfd_peer_cfg *bpc)
{
/* User didn't want to update, return failure. */
if (bpc->bpc_createonly)
return -1;
_bfd_session_update(bs, bpc);
control_notify_config(BCM_NOTIFY_CONFIG_UPDATE, bs);
return 0;
}
void bfd_session_free(struct bfd_session *bs)
{
struct bfd_session_observer *bso;
bfd_session_disable(bs);
/* Remove session from data plane if any. */
bfd_dplane_delete_session(bs);
bfd_key_delete(bs->key);
bfd_id_delete(bs->discrs.my_discr);
/* Remove observer if any. */
TAILQ_FOREACH(bso, &bglobal.bg_obslist, bso_entry) {
if (bso->bso_bs != bs)
continue;
break;
}
if (bso != NULL)
bs_observer_del(bso);
pl_free(bs->pl);
XFREE(MTYPE_BFDD_PROFILE, bs->profile_name);
XFREE(MTYPE_BFDD_CONFIG, bs);
}
struct bfd_session *ptm_bfd_sess_new(struct bfd_peer_cfg *bpc)
{
struct bfd_session *bfd, *l_bfd;
/* check to see if this needs a new session */
l_bfd = bs_peer_find(bpc);
if (l_bfd) {
/* Requesting a duplicated peer means update configuration. */
if (bfd_session_update(l_bfd, bpc) == 0)
return l_bfd;
else
return NULL;
}
/* Get BFD session storage with its defaults. */
bfd = bfd_session_new();
/*
* Store interface/VRF name in case we need to delay session
* start. See `bfd_session_enable` for more information.
*/
if (bpc->bpc_has_localif)
strlcpy(bfd->key.ifname, bpc->bpc_localif,
sizeof(bfd->key.ifname));
if (bpc->bpc_has_vrfname)
strlcpy(bfd->key.vrfname, bpc->bpc_vrfname,
sizeof(bfd->key.vrfname));
else
strlcpy(bfd->key.vrfname, VRF_DEFAULT_NAME,
sizeof(bfd->key.vrfname));
/* Copy remaining data. */
if (bpc->bpc_ipv4 == false)
SET_FLAG(bfd->flags, BFD_SESS_FLAG_IPV6);
bfd->key.family = (bpc->bpc_ipv4) ? AF_INET : AF_INET6;
switch (bfd->key.family) {
case AF_INET:
memcpy(&bfd->key.peer, &bpc->bpc_peer.sa_sin.sin_addr,
sizeof(bpc->bpc_peer.sa_sin.sin_addr));
memcpy(&bfd->key.local, &bpc->bpc_local.sa_sin.sin_addr,
sizeof(bpc->bpc_local.sa_sin.sin_addr));
break;
case AF_INET6:
memcpy(&bfd->key.peer, &bpc->bpc_peer.sa_sin6.sin6_addr,
sizeof(bpc->bpc_peer.sa_sin6.sin6_addr));
memcpy(&bfd->key.local, &bpc->bpc_local.sa_sin6.sin6_addr,
sizeof(bpc->bpc_local.sa_sin6.sin6_addr));
break;
default:
assert(1);
break;
}
if (bpc->bpc_mhop)
SET_FLAG(bfd->flags, BFD_SESS_FLAG_MH);
bfd->key.mhop = bpc->bpc_mhop;
if (bs_registrate(bfd) == NULL)
return NULL;
/* Apply other configurations. */
_bfd_session_update(bfd, bpc);
return bfd;
}
struct bfd_session *bs_registrate(struct bfd_session *bfd)
{
/* Registrate session into data structures. */
bfd_key_insert(bfd);
bfd->discrs.my_discr = ptm_bfd_gen_ID();
bfd_id_insert(bfd);
/* Try to enable session and schedule for packet receive/send. */
if (bfd_session_enable(bfd) == -1) {
/* Unrecoverable failure, remove the session/peer. */
bfd_session_free(bfd);
return NULL;
}
/* Add observer if we have moving parts. */
if (bfd->key.ifname[0] || bfd->key.vrfname[0] || bfd->sock == -1)
bs_observer_add(bfd);
if (bglobal.debug_peer_event)
zlog_debug("session-new: %s", bs_to_string(bfd));
control_notify_config(BCM_NOTIFY_CONFIG_ADD, bfd);
return bfd;
}
int ptm_bfd_sess_del(struct bfd_peer_cfg *bpc)
{
struct bfd_session *bs;
/* Find session and call free(). */
bs = bs_peer_find(bpc);
if (bs == NULL)
return -1;
/* This pointer is being referenced, don't let it be deleted. */
if (bs->refcount > 0) {
zlog_err("session-delete: refcount failure: %" PRIu64" references",
bs->refcount);
return -1;
}
if (bglobal.debug_peer_event)
zlog_debug("%s: %s", __func__, bs_to_string(bs));
control_notify_config(BCM_NOTIFY_CONFIG_DELETE, bs);
bfd_session_free(bs);
return 0;
}
void bfd_set_polling(struct bfd_session *bs)
{
/*
* Start polling procedure: the only timers that require polling
* to change value without losing connection are:
*
* - Desired minimum transmission interval;
* - Required minimum receive interval;
*
* RFC 5880, Section 6.8.3.
*/
bs->polling = 1;
}
/*
* bs_<state>_handler() functions implement the BFD state machine
* transition mechanism. `<state>` is the current session state and
* the parameter `nstate` is the peer new state.
*/
static void bs_admin_down_handler(struct bfd_session *bs
__attribute__((__unused__)),
int nstate __attribute__((__unused__)))
{
/*
* We are administratively down, there is no state machine
* handling.
*/
}
static void bs_down_handler(struct bfd_session *bs, int nstate)
{
switch (nstate) {
case PTM_BFD_ADM_DOWN:
/*
* Remote peer doesn't want to talk, so lets keep the
* connection down.
*/
case PTM_BFD_UP:
/* Peer can't be up yet, wait it go to 'init' or 'down'. */
break;
case PTM_BFD_DOWN:
/*
* Remote peer agreed that the path is down, lets try to
* bring it up.
*/
bs->ses_state = PTM_BFD_INIT;
/*
* RFC 5880, Section 6.1.
* A system taking the Passive role MUST NOT begin
* sending BFD packets for a particular session until
* it has received a BFD packet for that session, and thus
* has learned the remote system's discriminator value.
*
* Now we can start transmission timer in passive mode.
*/
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_PASSIVE))
ptm_bfd_xmt_TO(bs, 0);
break;
case PTM_BFD_INIT:
/*
* Remote peer told us his path is up, lets turn
* activate the session.
*/
ptm_bfd_sess_up(bs);
break;
default:
if (bglobal.debug_peer_event)
zlog_debug("state-change: unhandled neighbor state: %d",
nstate);
break;
}
}
static void bs_init_handler(struct bfd_session *bs, int nstate)
{
switch (nstate) {
case PTM_BFD_ADM_DOWN:
/*
* Remote peer doesn't want to talk, so lets make the
* connection down.
*/
ptm_bfd_sess_dn(bs, BD_NEIGHBOR_DOWN);
break;
case PTM_BFD_DOWN:
/* Remote peer hasn't moved to first stage yet. */
break;
case PTM_BFD_INIT:
case PTM_BFD_UP:
/* We agreed on the settings and the path is up. */
ptm_bfd_sess_up(bs);
break;
default:
if (bglobal.debug_peer_event)
zlog_debug("state-change: unhandled neighbor state: %d",
nstate);
break;
}
}
static void bs_up_handler(struct bfd_session *bs, int nstate)
{
switch (nstate) {
case PTM_BFD_ADM_DOWN:
case PTM_BFD_DOWN:
/* Peer lost or asked to shutdown connection. */
ptm_bfd_sess_dn(bs, BD_NEIGHBOR_DOWN);
break;
case PTM_BFD_INIT:
case PTM_BFD_UP:
/* Path is up and working. */
break;
default:
if (bglobal.debug_peer_event)
zlog_debug("state-change: unhandled neighbor state: %d",
nstate);
break;
}
}
void bs_state_handler(struct bfd_session *bs, int nstate)
{
switch (bs->ses_state) {
case PTM_BFD_ADM_DOWN:
bs_admin_down_handler(bs, nstate);
break;
case PTM_BFD_DOWN:
bs_down_handler(bs, nstate);
break;
case PTM_BFD_INIT:
bs_init_handler(bs, nstate);
break;
case PTM_BFD_UP:
bs_up_handler(bs, nstate);
break;
default:
if (bglobal.debug_peer_event)
zlog_debug("state-change: [%s] is in invalid state: %d",
bs_to_string(bs), nstate);
break;
}
}
/*
* Handles echo timer manipulation after updating timer.
*/
void bs_echo_timer_handler(struct bfd_session *bs)
{
uint32_t old_timer;
/*
* Before doing any echo handling, check if it is possible to
* use it.
*
* - Check for `echo-mode` configuration.
* - Check that we are not using multi hop (RFC 5883,
* Section 3).
* - Check that we are already at the up state.
*/
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_ECHO) == 0
|| CHECK_FLAG(bs->flags, BFD_SESS_FLAG_MH)
|| bs->ses_state != PTM_BFD_UP)
return;
/* Remote peer asked to stop echo. */
if (bs->remote_timers.required_min_echo == 0) {
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_ECHO_ACTIVE))
ptm_bfd_echo_stop(bs);
return;
}
/*
* Calculate the echo transmission timer: we must not send
* echo packets faster than the minimum required time
* announced by the remote system.
*
* RFC 5880, Section 6.8.9.
*/
old_timer = bs->echo_xmt_TO;
if (bs->remote_timers.required_min_echo > bs->timers.desired_min_echo_tx)
bs->echo_xmt_TO = bs->remote_timers.required_min_echo;
else
bs->echo_xmt_TO = bs->timers.desired_min_echo_tx;
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_ECHO_ACTIVE) == 0
|| old_timer != bs->echo_xmt_TO)
ptm_bfd_echo_start(bs);
}
/*
* RFC 5880 Section 6.5.
*
* When a BFD control packet with the final bit is received, we must
* update the session parameters.
*/
void bs_final_handler(struct bfd_session *bs)
{
/* Start using our new timers. */
bs->cur_timers.desired_min_tx = bs->timers.desired_min_tx;
bs->cur_timers.required_min_rx = bs->timers.required_min_rx;
/*
* TODO: demand mode. See RFC 5880 Section 6.1.
*
* When using demand mode we must disable the detection timer
* for lost control packets.
*/
if (bs->demand_mode) {
/* Notify watchers about changed timers. */
control_notify_config(BCM_NOTIFY_CONFIG_UPDATE, bs);
return;
}
/*
* Calculate transmission time based on new timers.
*
* Transmission calculation:
* Unless specified by exceptions at the end of Section 6.8.7, the
* transmission time will be determined by the system with the
* slowest rate.
*
* RFC 5880, Section 6.8.7.
*/
if (bs->timers.desired_min_tx > bs->remote_timers.required_min_rx)
bs->xmt_TO = bs->timers.desired_min_tx;
else
bs->xmt_TO = bs->remote_timers.required_min_rx;
/* Apply new transmission timer immediately. */
ptm_bfd_start_xmt_timer(bs, false);
/* Notify watchers about changed timers. */
control_notify_config(BCM_NOTIFY_CONFIG_UPDATE, bs);
}
void bs_set_slow_timers(struct bfd_session *bs)
{
/*
* BFD connection must use slow timers before going up or after
* losing connectivity to avoid wasting bandwidth.
*
* RFC 5880, Section 6.8.3.
*/
bs->cur_timers.desired_min_tx = BFD_DEF_SLOWTX;
bs->cur_timers.required_min_rx = BFD_DEF_SLOWTX;
bs->cur_timers.required_min_echo = 0;
/* Set the appropriated timeouts for slow connection. */
bs->detect_TO = (BFD_DEFDETECTMULT * BFD_DEF_SLOWTX);
bs->xmt_TO = BFD_DEF_SLOWTX;
}
void bfd_set_echo(struct bfd_session *bs, bool echo)
{
if (echo) {
/* Check if echo mode is already active. */
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_ECHO))
return;
SET_FLAG(bs->flags, BFD_SESS_FLAG_ECHO);
/* Activate/update echo receive timeout timer. */
if (bs->bdc == NULL)
bs_echo_timer_handler(bs);
} else {
/* Check if echo mode is already disabled. */
if (!CHECK_FLAG(bs->flags, BFD_SESS_FLAG_ECHO))
return;
UNSET_FLAG(bs->flags, BFD_SESS_FLAG_ECHO);
/* Deactivate timeout timer. */
if (bs->bdc == NULL)
ptm_bfd_echo_stop(bs);
}
}
void bfd_set_shutdown(struct bfd_session *bs, bool shutdown)
{
bool is_shutdown;
/*
* Special case: we are batching changes and the previous state was
* not shutdown. Instead of potentially disconnect a running peer,
* we'll get the current status to validate we were really down.
*/
if (bs->ses_state == PTM_BFD_UP)
is_shutdown = false;
else
is_shutdown = CHECK_FLAG(bs->flags, BFD_SESS_FLAG_SHUTDOWN);
if (shutdown) {
/* Already shutdown. */
if (is_shutdown)
return;
SET_FLAG(bs->flags, BFD_SESS_FLAG_SHUTDOWN);
/* Handle data plane shutdown case. */
if (bs->bdc) {
bs->ses_state = PTM_BFD_ADM_DOWN;
bfd_dplane_update_session(bs);
control_notify(bs, bs->ses_state);
return;
}
/* Disable all events. */
bfd_recvtimer_delete(bs);
bfd_echo_recvtimer_delete(bs);
bfd_xmttimer_delete(bs);
bfd_echo_xmttimer_delete(bs);
/* Change and notify state change. */
bs->ses_state = PTM_BFD_ADM_DOWN;
control_notify(bs, bs->ses_state);
/* Don't try to send packets with a disabled session. */
if (bs->sock != -1)
ptm_bfd_snd(bs, 0);
} else {
/* Already working. */
if (!is_shutdown)
return;
UNSET_FLAG(bs->flags, BFD_SESS_FLAG_SHUTDOWN);
/* Handle data plane shutdown case. */
if (bs->bdc) {
bs->ses_state = PTM_BFD_DOWN;
bfd_dplane_update_session(bs);
control_notify(bs, bs->ses_state);
return;
}
/* Change and notify state change. */
bs->ses_state = PTM_BFD_DOWN;
control_notify(bs, bs->ses_state);
/* Enable timers if non passive, otherwise stop them. */
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_PASSIVE)) {
bfd_recvtimer_delete(bs);
bfd_xmttimer_delete(bs);
} else {
bfd_recvtimer_update(bs);
bfd_xmttimer_update(bs, bs->xmt_TO);
}
}
}
void bfd_set_passive_mode(struct bfd_session *bs, bool passive)
{
if (passive) {
SET_FLAG(bs->flags, BFD_SESS_FLAG_PASSIVE);
/* Session is already up and running, nothing to do now. */
if (bs->ses_state != PTM_BFD_DOWN)
return;
/* Lets disable the timers since we are now passive. */
bfd_recvtimer_delete(bs);
bfd_xmttimer_delete(bs);
} else {
UNSET_FLAG(bs->flags, BFD_SESS_FLAG_PASSIVE);
/* Session is already up and running, nothing to do now. */
if (bs->ses_state != PTM_BFD_DOWN)
return;
/* Session is down, let it attempt to start the connection. */
bfd_xmttimer_update(bs, bs->xmt_TO);
bfd_recvtimer_update(bs);
}
}
/*
* Helper functions.
*/
static const char *get_diag_str(int diag)
{
for (int i = 0; diag_list[i].str; i++) {
if (diag_list[i].type == diag)
return diag_list[i].str;
}
return "N/A";
}
const char *satostr(const struct sockaddr_any *sa)
{
#define INETSTR_BUFCOUNT 8
static char buf[INETSTR_BUFCOUNT][INET6_ADDRSTRLEN];
static int bufidx;
const struct sockaddr_in *sin = &sa->sa_sin;
const struct sockaddr_in6 *sin6 = &sa->sa_sin6;
bufidx += (bufidx + 1) % INETSTR_BUFCOUNT;
buf[bufidx][0] = 0;
switch (sin->sin_family) {
case AF_INET:
inet_ntop(AF_INET, &sin->sin_addr, buf[bufidx],
sizeof(buf[bufidx]));
break;
case AF_INET6:
inet_ntop(AF_INET6, &sin6->sin6_addr, buf[bufidx],
sizeof(buf[bufidx]));
break;
default:
strlcpy(buf[bufidx], "unknown", sizeof(buf[bufidx]));
break;
}
return buf[bufidx];
}
const char *diag2str(uint8_t diag)
{
switch (diag) {
case 0:
return "ok";
case 1:
return "control detection time expired";
case 2:
return "echo function failed";
case 3:
return "neighbor signaled session down";
case 4:
return "forwarding plane reset";
case 5:
return "path down";
case 6:
return "concatenated path down";
case 7:
return "administratively down";
case 8:
return "reverse concatenated path down";
default:
return "unknown";
}
}
int strtosa(const char *addr, struct sockaddr_any *sa)
{
memset(sa, 0, sizeof(*sa));
if (inet_pton(AF_INET, addr, &sa->sa_sin.sin_addr) == 1) {
sa->sa_sin.sin_family = AF_INET;
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
sa->sa_sin.sin_len = sizeof(sa->sa_sin);
#endif /* HAVE_STRUCT_SOCKADDR_SA_LEN */
return 0;
}
if (inet_pton(AF_INET6, addr, &sa->sa_sin6.sin6_addr) == 1) {
sa->sa_sin6.sin6_family = AF_INET6;
#ifdef HAVE_STRUCT_SOCKADDR_SA_LEN
sa->sa_sin6.sin6_len = sizeof(sa->sa_sin6);
#endif /* HAVE_STRUCT_SOCKADDR_SA_LEN */
return 0;
}
return -1;
}
void integer2timestr(uint64_t time, char *buf, size_t buflen)
{
uint64_t year, month, day, hour, minute, second;
int rv;
#define MINUTES (60)
#define HOURS (60 * MINUTES)
#define DAYS (24 * HOURS)
#define MONTHS (30 * DAYS)
#define YEARS (12 * MONTHS)
if (time >= YEARS) {
year = time / YEARS;
time -= year * YEARS;
rv = snprintfrr(buf, buflen, "%" PRIu64 " year(s), ", year);
buf += rv;
buflen -= rv;
}
if (time >= MONTHS) {
month = time / MONTHS;
time -= month * MONTHS;
rv = snprintfrr(buf, buflen, "%" PRIu64 " month(s), ", month);
buf += rv;
buflen -= rv;
}
if (time >= DAYS) {
day = time / DAYS;
time -= day * DAYS;
rv = snprintfrr(buf, buflen, "%" PRIu64 " day(s), ", day);
buf += rv;
buflen -= rv;
}
if (time >= HOURS) {
hour = time / HOURS;
time -= hour * HOURS;
rv = snprintfrr(buf, buflen, "%" PRIu64 " hour(s), ", hour);
buf += rv;
buflen -= rv;
}
if (time >= MINUTES) {
minute = time / MINUTES;
time -= minute * MINUTES;
rv = snprintfrr(buf, buflen, "%" PRIu64 " minute(s), ", minute);
buf += rv;
buflen -= rv;
}
second = time % MINUTES;
snprintfrr(buf, buflen, "%" PRIu64 " second(s)", second);
}
const char *bs_to_string(const struct bfd_session *bs)
{
static char buf[256];
char addr_buf[INET6_ADDRSTRLEN];
int pos;
bool is_mhop = CHECK_FLAG(bs->flags, BFD_SESS_FLAG_MH);
pos = snprintf(buf, sizeof(buf), "mhop:%s", is_mhop ? "yes" : "no");
pos += snprintf(buf + pos, sizeof(buf) - pos, " peer:%s",
inet_ntop(bs->key.family, &bs->key.peer, addr_buf,
sizeof(addr_buf)));
pos += snprintf(buf + pos, sizeof(buf) - pos, " local:%s",
inet_ntop(bs->key.family, &bs->key.local, addr_buf,
sizeof(addr_buf)));
if (bs->key.vrfname[0])
pos += snprintf(buf + pos, sizeof(buf) - pos, " vrf:%s",
bs->key.vrfname);
if (bs->key.ifname[0])
pos += snprintf(buf + pos, sizeof(buf) - pos, " ifname:%s",
bs->key.ifname);
(void)pos;
return buf;
}
int bs_observer_add(struct bfd_session *bs)
{
struct bfd_session_observer *bso;
bso = XCALLOC(MTYPE_BFDD_SESSION_OBSERVER, sizeof(*bso));
bso->bso_bs = bs;
bso->bso_addr.family = bs->key.family;
memcpy(&bso->bso_addr.u.prefix, &bs->key.local,
sizeof(bs->key.local));
TAILQ_INSERT_TAIL(&bglobal.bg_obslist, bso, bso_entry);
return 0;
}
void bs_observer_del(struct bfd_session_observer *bso)
{
TAILQ_REMOVE(&bglobal.bg_obslist, bso, bso_entry);
XFREE(MTYPE_BFDD_SESSION_OBSERVER, bso);
}
void bs_to_bpc(struct bfd_session *bs, struct bfd_peer_cfg *bpc)
{
memset(bpc, 0, sizeof(*bpc));
bpc->bpc_ipv4 = (bs->key.family == AF_INET);
bpc->bpc_mhop = bs->key.mhop;
switch (bs->key.family) {
case AF_INET:
bpc->bpc_peer.sa_sin.sin_family = AF_INET;
memcpy(&bpc->bpc_peer.sa_sin.sin_addr, &bs->key.peer,
sizeof(bpc->bpc_peer.sa_sin.sin_addr));
if (memcmp(&bs->key.local, &zero_addr, sizeof(bs->key.local))) {
bpc->bpc_local.sa_sin.sin_family = AF_INET6;
memcpy(&bpc->bpc_local.sa_sin.sin_addr, &bs->key.local,
sizeof(bpc->bpc_local.sa_sin.sin_addr));
}
break;
case AF_INET6:
bpc->bpc_peer.sa_sin.sin_family = AF_INET6;
memcpy(&bpc->bpc_peer.sa_sin6.sin6_addr, &bs->key.peer,
sizeof(bpc->bpc_peer.sa_sin6.sin6_addr));
bpc->bpc_local.sa_sin6.sin6_family = AF_INET6;
memcpy(&bpc->bpc_local.sa_sin6.sin6_addr, &bs->key.local,
sizeof(bpc->bpc_local.sa_sin6.sin6_addr));
break;
}
if (bs->key.ifname[0]) {
bpc->bpc_has_localif = true;
strlcpy(bpc->bpc_localif, bs->key.ifname,
sizeof(bpc->bpc_localif));
}
if (bs->key.vrfname[0]) {
bpc->bpc_has_vrfname = true;
strlcpy(bpc->bpc_vrfname, bs->key.vrfname,
sizeof(bpc->bpc_vrfname));
}
}
/*
* BFD hash data structures to find sessions.
*/
static struct hash *bfd_id_hash;
static struct hash *bfd_key_hash;
static unsigned int bfd_id_hash_do(const void *p);
static unsigned int bfd_key_hash_do(const void *p);
static void _bfd_free(struct hash_bucket *hb,
void *arg __attribute__((__unused__)));
/* BFD hash for our discriminator. */
static unsigned int bfd_id_hash_do(const void *p)
{
const struct bfd_session *bs = p;
return jhash_1word(bs->discrs.my_discr, 0);
}
static bool bfd_id_hash_cmp(const void *n1, const void *n2)
{
const struct bfd_session *bs1 = n1, *bs2 = n2;
return bs1->discrs.my_discr == bs2->discrs.my_discr;
}
/* BFD hash for single hop. */
static unsigned int bfd_key_hash_do(const void *p)
{
const struct bfd_session *bs = p;
struct bfd_key key = bs->key;
/*
* Local address and interface name are optional and
* can be filled any time after session creation.
* Hash key should not depend on these fields.
*/
memset(&key.local, 0, sizeof(key.local));
memset(key.ifname, 0, sizeof(key.ifname));
return jhash(&key, sizeof(key), 0);
}
static bool bfd_key_hash_cmp(const void *n1, const void *n2)
{
const struct bfd_session *bs1 = n1, *bs2 = n2;
if (bs1->key.family != bs2->key.family)
return false;
if (bs1->key.mhop != bs2->key.mhop)
return false;
if (memcmp(&bs1->key.peer, &bs2->key.peer, sizeof(bs1->key.peer)))
return false;
if (memcmp(bs1->key.vrfname, bs2->key.vrfname,
sizeof(bs1->key.vrfname)))
return false;
/*
* Local address is optional and can be empty.
* If both addresses are not empty and different,
* then the keys are different.
*/
if (memcmp(&bs1->key.local, &zero_addr, sizeof(bs1->key.local))
&& memcmp(&bs2->key.local, &zero_addr, sizeof(bs2->key.local))
&& memcmp(&bs1->key.local, &bs2->key.local, sizeof(bs1->key.local)))
return false;
/*
* Interface name is optional and can be empty.
* If both names are not empty and different,
* then the keys are different.
*/
if (bs1->key.ifname[0] && bs2->key.ifname[0]
&& memcmp(bs1->key.ifname, bs2->key.ifname,
sizeof(bs1->key.ifname)))
return false;
return true;
}
/*
* Hash public interface / exported functions.
*/
/* Lookup functions. */
struct bfd_session *bfd_id_lookup(uint32_t id)
{
struct bfd_session bs;
bs.discrs.my_discr = id;
return hash_lookup(bfd_id_hash, &bs);
}
struct bfd_session *bfd_key_lookup(struct bfd_key key)
{
struct bfd_session bs;
bs.key = key;
return hash_lookup(bfd_key_hash, &bs);
}
/*
* Delete functions.
*
* Delete functions searches and remove the item from the hash and
* returns a pointer to the removed item data. If the item was not found
* then it returns NULL.
*
* The data stored inside the hash is not free()ed, so you must do it
* manually after getting the pointer back.
*/
struct bfd_session *bfd_id_delete(uint32_t id)
{
struct bfd_session bs;
bs.discrs.my_discr = id;
return hash_release(bfd_id_hash, &bs);
}
struct bfd_session *bfd_key_delete(struct bfd_key key)
{
struct bfd_session bs;
bs.key = key;
return hash_release(bfd_key_hash, &bs);
}
/* Iteration functions. */
void bfd_id_iterate(hash_iter_func hif, void *arg)
{
hash_iterate(bfd_id_hash, hif, arg);
}
void bfd_key_iterate(hash_iter_func hif, void *arg)
{
hash_iterate(bfd_key_hash, hif, arg);
}
/*
* Insert functions.
*
* Inserts session into hash and returns `true` on success, otherwise
* `false`.
*/
bool bfd_id_insert(struct bfd_session *bs)
{
return (hash_get(bfd_id_hash, bs, hash_alloc_intern) == bs);
}
bool bfd_key_insert(struct bfd_session *bs)
{
return (hash_get(bfd_key_hash, bs, hash_alloc_intern) == bs);
}
void bfd_initialize(void)
{
bfd_id_hash = hash_create(bfd_id_hash_do, bfd_id_hash_cmp,
"BFD session discriminator hash");
bfd_key_hash = hash_create(bfd_key_hash_do, bfd_key_hash_cmp,
"BFD session hash");
TAILQ_INIT(&bplist);
}
static void _bfd_free(struct hash_bucket *hb,
void *arg __attribute__((__unused__)))
{
struct bfd_session *bs = hb->data;
bfd_session_free(bs);
}
void bfd_shutdown(void)
{
struct bfd_profile *bp;
/*
* Close and free all BFD sessions.
*
* _bfd_free() will call bfd_session_free() which will take care
* of removing the session from all hashes, so we just run an
* assert() here to make sure it really happened.
*/
bfd_id_iterate(_bfd_free, NULL);
assert(bfd_key_hash->count == 0);
/* Now free the hashes themselves. */
hash_free(bfd_id_hash);
hash_free(bfd_key_hash);
/* Free all profile allocations. */
while ((bp = TAILQ_FIRST(&bplist)) != NULL)
bfd_profile_free(bp);
}
struct bfd_session_iterator {
int bsi_stop;
bool bsi_mhop;
const struct bfd_session *bsi_bs;
};
static int _bfd_session_next(struct hash_bucket *hb, void *arg)
{
struct bfd_session_iterator *bsi = arg;
struct bfd_session *bs = hb->data;
/* Previous entry signaled stop. */
if (bsi->bsi_stop == 1) {
/* Match the single/multi hop sessions. */
if (bs->key.mhop != bsi->bsi_mhop)
return HASHWALK_CONTINUE;
bsi->bsi_bs = bs;
return HASHWALK_ABORT;
}
/* We found the current item, stop in the next one. */
if (bsi->bsi_bs == hb->data) {
bsi->bsi_stop = 1;
/* Set entry to NULL to signal end of list. */
bsi->bsi_bs = NULL;
} else if (bsi->bsi_bs == NULL && bsi->bsi_mhop == bs->key.mhop) {
/* We want the first list item. */
bsi->bsi_stop = 1;
bsi->bsi_bs = hb->data;
return HASHWALK_ABORT;
}
return HASHWALK_CONTINUE;
}
/*
* bfd_session_next: uses the current session to find the next.
*
* `bs` might point to NULL to get the first item of the data structure.
*/
const struct bfd_session *bfd_session_next(const struct bfd_session *bs,
bool mhop)
{
struct bfd_session_iterator bsi;
bsi.bsi_stop = 0;
bsi.bsi_bs = bs;
bsi.bsi_mhop = mhop;
hash_walk(bfd_key_hash, _bfd_session_next, &bsi);
if (bsi.bsi_stop == 0)
return NULL;
return bsi.bsi_bs;
}
static void _bfd_session_remove_manual(struct hash_bucket *hb,
void *arg __attribute__((__unused__)))
{
struct bfd_session *bs = hb->data;
/* Delete only manually configured sessions. */
if (CHECK_FLAG(bs->flags, BFD_SESS_FLAG_CONFIG) == 0)
return;
bs->refcount--;
UNSET_FLAG(bs->flags, BFD_SESS_FLAG_CONFIG);
/* Don't delete sessions still in use. */
if (bs->refcount != 0)
return;
bfd_session_free(bs);
}
/*
* bfd_sessions_remove_manual: remove all manually configured sessions.
*
* NOTE: this function doesn't remove automatically created sessions.
*/
void bfd_sessions_remove_manual(void)
{
hash_iterate(bfd_key_hash, _bfd_session_remove_manual, NULL);
}
void bfd_profiles_remove(void)
{
struct bfd_profile *bp;
while ((bp = TAILQ_FIRST(&bplist)) != NULL)
bfd_profile_free(bp);
}
/*
* Profile related hash functions.
*/
static void _bfd_profile_update(struct hash_bucket *hb, void *arg)
{
struct bfd_profile *bp = arg;
struct bfd_session *bs = hb->data;
/* This session is not using the profile. */
if (bs->profile_name == NULL || strcmp(bs->profile_name, bp->name) != 0)
return;
bfd_profile_apply(bp->name, bs);
}
void bfd_profile_update(struct bfd_profile *bp)
{
hash_iterate(bfd_key_hash, _bfd_profile_update, bp);
}
static void _bfd_profile_detach(struct hash_bucket *hb, void *arg)
{
struct bfd_profile *bp = arg;
struct bfd_session *bs = hb->data;
/* This session is not using the profile. */
if (bs->profile_name == NULL || strcmp(bs->profile_name, bp->name) != 0)
return;
bfd_profile_remove(bs);
}
static void bfd_profile_detach(struct bfd_profile *bp)
{
hash_iterate(bfd_key_hash, _bfd_profile_detach, bp);
}
/*
* VRF related functions.
*/
static int bfd_vrf_new(struct vrf *vrf)
{
if (bglobal.debug_zebra)
zlog_debug("VRF Created: %s(%u)", vrf->name, vrf->vrf_id);
return 0;
}
static int bfd_vrf_delete(struct vrf *vrf)
{
if (bglobal.debug_zebra)
zlog_debug("VRF Deletion: %s(%u)", vrf->name, vrf->vrf_id);
return 0;
}
static int bfd_vrf_enable(struct vrf *vrf)
{
struct bfd_vrf_global *bvrf;
/* a different name */
if (!vrf->info) {
bvrf = XCALLOC(MTYPE_BFDD_VRF, sizeof(struct bfd_vrf_global));
bvrf->vrf = vrf;
vrf->info = (void *)bvrf;
/* Disable sockets if using data plane. */
if (bglobal.bg_use_dplane) {
bvrf->bg_shop = -1;
bvrf->bg_mhop = -1;
bvrf->bg_shop6 = -1;
bvrf->bg_mhop6 = -1;
bvrf->bg_echo = -1;
bvrf->bg_echov6 = -1;
}
} else
bvrf = vrf->info;
if (bglobal.debug_zebra)
zlog_debug("VRF enable add %s id %u", vrf->name, vrf->vrf_id);
if (!bvrf->bg_shop)
bvrf->bg_shop = bp_udp_shop(vrf);
if (!bvrf->bg_mhop)
bvrf->bg_mhop = bp_udp_mhop(vrf);
if (!bvrf->bg_shop6)
bvrf->bg_shop6 = bp_udp6_shop(vrf);
if (!bvrf->bg_mhop6)
bvrf->bg_mhop6 = bp_udp6_mhop(vrf);
if (!bvrf->bg_echo)
bvrf->bg_echo = bp_echo_socket(vrf);
if (!bvrf->bg_echov6)
bvrf->bg_echov6 = bp_echov6_socket(vrf);
if (!bvrf->bg_ev[0] && bvrf->bg_shop != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_shop,
&bvrf->bg_ev[0]);
if (!bvrf->bg_ev[1] && bvrf->bg_mhop != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_mhop,
&bvrf->bg_ev[1]);
if (!bvrf->bg_ev[2] && bvrf->bg_shop6 != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_shop6,
&bvrf->bg_ev[2]);
if (!bvrf->bg_ev[3] && bvrf->bg_mhop6 != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_mhop6,
&bvrf->bg_ev[3]);
if (!bvrf->bg_ev[4] && bvrf->bg_echo != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_echo,
&bvrf->bg_ev[4]);
if (!bvrf->bg_ev[5] && bvrf->bg_echov6 != -1)
event_add_read(master, bfd_recv_cb, bvrf, bvrf->bg_echov6,
&bvrf->bg_ev[5]);
if (vrf->vrf_id != VRF_DEFAULT) {
bfdd_zclient_register(vrf->vrf_id);
bfdd_sessions_enable_vrf(vrf);
}
return 0;
}
static int bfd_vrf_disable(struct vrf *vrf)
{
struct bfd_vrf_global *bvrf;
if (!vrf->info)
return 0;
bvrf = vrf->info;
if (vrf->vrf_id != VRF_DEFAULT) {
bfdd_sessions_disable_vrf(vrf);
bfdd_zclient_unregister(vrf->vrf_id);
}
if (bglobal.debug_zebra)
zlog_debug("VRF disable %s id %d", vrf->name, vrf->vrf_id);
/* Disable read/write poll triggering. */
EVENT_OFF(bvrf->bg_ev[0]);
EVENT_OFF(bvrf->bg_ev[1]);
EVENT_OFF(bvrf->bg_ev[2]);
EVENT_OFF(bvrf->bg_ev[3]);
EVENT_OFF(bvrf->bg_ev[4]);
EVENT_OFF(bvrf->bg_ev[5]);
/* Close all descriptors. */
socket_close(&bvrf->bg_echo);
socket_close(&bvrf->bg_shop);
socket_close(&bvrf->bg_mhop);
if (bvrf->bg_shop6 != -1)
socket_close(&bvrf->bg_shop6);
if (bvrf->bg_mhop6 != -1)
socket_close(&bvrf->bg_mhop6);
socket_close(&bvrf->bg_echo);
if (bvrf->bg_echov6 != -1)
socket_close(&bvrf->bg_echov6);
/* free context */
XFREE(MTYPE_BFDD_VRF, bvrf);
vrf->info = NULL;
return 0;
}
void bfd_vrf_init(void)
{
vrf_init(bfd_vrf_new, bfd_vrf_enable, bfd_vrf_disable, bfd_vrf_delete);
}
void bfd_vrf_terminate(void)
{
vrf_terminate();
}
struct bfd_vrf_global *bfd_vrf_look_by_session(struct bfd_session *bfd)
{
struct vrf *vrf;
if (!vrf_is_backend_netns()) {
vrf = vrf_lookup_by_id(VRF_DEFAULT);
if (vrf)
return (struct bfd_vrf_global *)vrf->info;
return NULL;
}
if (!bfd)
return NULL;
if (!bfd->vrf)
return NULL;
return bfd->vrf->info;
}
unsigned long bfd_get_session_count(void)
{
return bfd_key_hash->count;
}
void bfd_rtt_init(struct bfd_session *bfd)
{
uint8_t i;
/* initialize RTT */
bfd->rtt_valid = 0;
bfd->rtt_index = 0;
for (i = 0; i < BFD_RTT_SAMPLE; i++)
bfd->rtt[i] = 0;
}
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