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|
/*
PIM for Quagga
Copyright (C) 2008 Everton da Silva Marques
This program 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 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING; if not, write to the
Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
MA 02110-1301 USA
*/
#include <zebra.h>
#include "zebra/rib.h"
#include "log.h"
#include "zclient.h"
#include "memory.h"
#include "thread.h"
#include "linklist.h"
#include "vty.h"
#include "plist.h"
#include "hash.h"
#include "jhash.h"
#include "wheel.h"
#include "pimd.h"
#include "pim_pim.h"
#include "pim_str.h"
#include "pim_time.h"
#include "pim_iface.h"
#include "pim_join.h"
#include "pim_zlookup.h"
#include "pim_upstream.h"
#include "pim_ifchannel.h"
#include "pim_neighbor.h"
#include "pim_rpf.h"
#include "pim_zebra.h"
#include "pim_oil.h"
#include "pim_macro.h"
#include "pim_rp.h"
#include "pim_br.h"
#include "pim_register.h"
#include "pim_msdp.h"
#include "pim_jp_agg.h"
#include "pim_nht.h"
#include "pim_ssm.h"
struct hash *pim_upstream_hash = NULL;
struct list *pim_upstream_list = NULL;
struct timer_wheel *pim_upstream_sg_wheel = NULL;
static void join_timer_stop(struct pim_upstream *up);
static void pim_upstream_update_assert_tracking_desired(struct pim_upstream *up);
/*
* A (*,G) or a (*,*) is going away
* remove the parent pointer from
* those pointing at us
*/
static void
pim_upstream_remove_children (struct pim_upstream *up)
{
struct pim_upstream *child;
if (!up->sources)
return;
while (!list_isempty (up->sources))
{
child = listnode_head (up->sources);
child->parent = NULL;
listnode_delete (up->sources, child);
}
}
/*
* A (*,G) or a (*,*) is being created
* Find the children that would point
* at us.
*/
static void
pim_upstream_find_new_children (struct pim_upstream *up)
{
struct pim_upstream *child;
struct listnode *ch_node;
if ((up->sg.src.s_addr != INADDR_ANY) &&
(up->sg.grp.s_addr != INADDR_ANY))
return;
if ((up->sg.src.s_addr == INADDR_ANY) &&
(up->sg.grp.s_addr == INADDR_ANY))
return;
for (ALL_LIST_ELEMENTS_RO (pim_upstream_list, ch_node, child))
{
if ((up->sg.grp.s_addr != INADDR_ANY) &&
(child->sg.grp.s_addr == up->sg.grp.s_addr) &&
(child != up))
{
child->parent = up;
listnode_add_sort (up->sources, child);
}
}
}
/*
* If we have a (*,*) || (S,*) there is no parent
* If we have a (S,G), find the (*,G)
* If we have a (*,G), find the (*,*)
*/
static struct pim_upstream *
pim_upstream_find_parent (struct pim_upstream *child)
{
struct prefix_sg any = child->sg;
struct pim_upstream *up = NULL;
// (S,G)
if ((child->sg.src.s_addr != INADDR_ANY) &&
(child->sg.grp.s_addr != INADDR_ANY))
{
any.src.s_addr = INADDR_ANY;
up = pim_upstream_find (&any);
if (up)
listnode_add (up->sources, child);
return up;
}
return NULL;
}
void pim_upstream_free(struct pim_upstream *up)
{
XFREE(MTYPE_PIM_UPSTREAM, up);
up = NULL;
}
static void upstream_channel_oil_detach(struct pim_upstream *up)
{
if (up->channel_oil) {
pim_channel_oil_del(up->channel_oil);
up->channel_oil = NULL;
}
}
struct pim_upstream *
pim_upstream_del(struct pim_upstream *up, const char *name)
{
bool notify_msdp = false;
struct prefix nht_p;
if (PIM_DEBUG_TRACE)
zlog_debug ("%s(%s): Delete %s ref count: %d, flags: %d (Pre decrement)",
__PRETTY_FUNCTION__, name, up->sg_str, up->ref_count, up->flags);
--up->ref_count;
if (up->ref_count >= 1)
return up;
THREAD_OFF(up->t_ka_timer);
THREAD_OFF(up->t_rs_timer);
THREAD_OFF(up->t_msdp_reg_timer);
if (up->join_state == PIM_UPSTREAM_JOINED) {
pim_jp_agg_single_upstream_send (&up->rpf, up, 0);
if (up->sg.src.s_addr == INADDR_ANY) {
/* if a (*, G) entry in the joined state is being deleted we
* need to notify MSDP */
notify_msdp = true;
}
}
join_timer_stop(up);
pim_jp_agg_upstream_verification (up, false);
up->rpf.source_nexthop.interface = NULL;
if (up->sg.src.s_addr != INADDR_ANY) {
wheel_remove_item (pim_upstream_sg_wheel, up);
notify_msdp = true;
}
pim_upstream_remove_children (up);
pim_mroute_del (up->channel_oil, __PRETTY_FUNCTION__);
upstream_channel_oil_detach(up);
if (up->sources)
list_delete (up->sources);
up->sources = NULL;
/*
notice that listnode_delete() can't be moved
into pim_upstream_free() because the later is
called by list_delete_all_node()
*/
if (up->parent)
{
listnode_delete (up->parent->sources, up);
up->parent = NULL;
}
listnode_delete (pim_upstream_list, up);
hash_release (pim_upstream_hash, up);
if (notify_msdp)
{
pim_msdp_up_del (&up->sg);
}
/* Deregister addr with Zebra NHT */
nht_p.family = AF_INET;
nht_p.prefixlen = IPV4_MAX_BITLEN;
nht_p.u.prefix4 = up->upstream_addr;
if (PIM_DEBUG_TRACE)
{
char buf[PREFIX2STR_BUFFER];
prefix2str (&nht_p, buf, sizeof (buf));
zlog_debug ("%s: Deregister upstream %s upstream addr %s with NHT ",
__PRETTY_FUNCTION__, up->sg_str, buf);
}
pim_delete_tracked_nexthop (&nht_p, up, NULL);
pim_upstream_free (up);
return NULL;
}
void
pim_upstream_send_join (struct pim_upstream *up)
{
if (PIM_DEBUG_TRACE) {
char rpf_str[PREFIX_STRLEN];
pim_addr_dump("<rpf?>", &up->rpf.rpf_addr, rpf_str, sizeof(rpf_str));
zlog_debug ("%s: RPF'%s=%s(%s) for Interface %s", __PRETTY_FUNCTION__,
up->sg_str, rpf_str, pim_upstream_state2str (up->join_state),
up->rpf.source_nexthop.interface->name);
if (pim_rpf_addr_is_inaddr_any(&up->rpf)) {
zlog_debug("%s: can't send join upstream: RPF'%s=%s",
__PRETTY_FUNCTION__,
up->sg_str, rpf_str);
/* warning only */
}
}
/* send Join(S,G) to the current upstream neighbor */
pim_jp_agg_single_upstream_send(&up->rpf, up, 1 /* join */);
}
static int on_join_timer(struct thread *t)
{
struct pim_upstream *up;
up = THREAD_ARG(t);
up->t_join_timer = NULL;
/*
* In the case of a HFR we will not ahve anyone to send this to.
*/
if (PIM_UPSTREAM_FLAG_TEST_FHR(up->flags))
return 0;
/*
* Don't send the join if the outgoing interface is a loopback
* But since this might change leave the join timer running
*/
if (up->rpf.source_nexthop.interface &&
!if_is_loopback (up->rpf.source_nexthop.interface))
pim_upstream_send_join (up);
join_timer_start(up);
return 0;
}
static void join_timer_stop(struct pim_upstream *up)
{
struct pim_neighbor *nbr;
THREAD_OFF (up->t_join_timer);
nbr = pim_neighbor_find (up->rpf.source_nexthop.interface,
up->rpf.rpf_addr.u.prefix4);
if (nbr)
pim_jp_agg_remove_group (nbr->upstream_jp_agg, up);
pim_jp_agg_upstream_verification (up, false);
}
void
join_timer_start(struct pim_upstream *up)
{
struct pim_neighbor *nbr = NULL;
if (up->rpf.source_nexthop.interface)
{
nbr = pim_neighbor_find (up->rpf.source_nexthop.interface,
up->rpf.rpf_addr.u.prefix4);
if (PIM_DEBUG_PIM_EVENTS) {
zlog_debug("%s: starting %d sec timer for upstream (S,G)=%s",
__PRETTY_FUNCTION__,
qpim_t_periodic,
up->sg_str);
}
}
if (nbr)
pim_jp_agg_add_group (nbr->upstream_jp_agg, up, 1);
else
{
THREAD_OFF (up->t_join_timer);
THREAD_TIMER_ON(master, up->t_join_timer,
on_join_timer,
up, qpim_t_periodic);
}
pim_jp_agg_upstream_verification (up, true);
}
/*
* This is only called when we are switching the upstream
* J/P from one neighbor to another
*
* As such we need to remove from the old list and
* add to the new list.
*/
void pim_upstream_join_timer_restart(struct pim_upstream *up, struct pim_rpf *old)
{
//THREAD_OFF(up->t_join_timer);
join_timer_start(up);
}
static void pim_upstream_join_timer_restart_msec(struct pim_upstream *up,
int interval_msec)
{
if (PIM_DEBUG_PIM_EVENTS) {
zlog_debug("%s: restarting %d msec timer for upstream (S,G)=%s",
__PRETTY_FUNCTION__,
interval_msec,
up->sg_str);
}
THREAD_OFF(up->t_join_timer);
THREAD_TIMER_MSEC_ON(master, up->t_join_timer,
on_join_timer,
up, interval_msec);
}
void pim_upstream_join_suppress(struct pim_upstream *up,
struct in_addr rpf_addr,
int holdtime)
{
long t_joinsuppress_msec;
long join_timer_remain_msec;
t_joinsuppress_msec = MIN(pim_if_t_suppressed_msec(up->rpf.source_nexthop.interface),
1000 * holdtime);
join_timer_remain_msec = pim_time_timer_remain_msec(up->t_join_timer);
if (PIM_DEBUG_TRACE) {
char rpf_str[INET_ADDRSTRLEN];
pim_inet4_dump("<rpf?>", rpf_addr, rpf_str, sizeof(rpf_str));
zlog_debug("%s %s: detected Join%s to RPF'(S,G)=%s: join_timer=%ld msec t_joinsuppress=%ld msec",
__FILE__, __PRETTY_FUNCTION__,
up->sg_str,
rpf_str,
join_timer_remain_msec, t_joinsuppress_msec);
}
if (join_timer_remain_msec < t_joinsuppress_msec) {
if (PIM_DEBUG_TRACE) {
zlog_debug("%s %s: suppressing Join(S,G)=%s for %ld msec",
__FILE__, __PRETTY_FUNCTION__,
up->sg_str, t_joinsuppress_msec);
}
pim_upstream_join_timer_restart_msec(up, t_joinsuppress_msec);
}
}
void pim_upstream_join_timer_decrease_to_t_override(const char *debug_label,
struct pim_upstream *up)
{
long join_timer_remain_msec;
int t_override_msec;
join_timer_remain_msec = pim_time_timer_remain_msec(up->t_join_timer);
t_override_msec = pim_if_t_override_msec(up->rpf.source_nexthop.interface);
if (PIM_DEBUG_TRACE) {
char rpf_str[INET_ADDRSTRLEN];
pim_inet4_dump("<rpf?>", up->rpf.rpf_addr.u.prefix4, rpf_str, sizeof(rpf_str));
zlog_debug("%s: to RPF'%s=%s: join_timer=%ld msec t_override=%d msec",
debug_label,
up->sg_str, rpf_str,
join_timer_remain_msec, t_override_msec);
}
if (join_timer_remain_msec > t_override_msec) {
if (PIM_DEBUG_TRACE) {
zlog_debug("%s: decreasing (S,G)=%s join timer to t_override=%d msec",
debug_label,
up->sg_str,
t_override_msec);
}
pim_upstream_join_timer_restart_msec(up, t_override_msec);
}
}
static void forward_on(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
/* scan (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
if (pim_macro_chisin_oiflist(ch))
pim_forward_start(ch);
} /* scan iface channel list */
}
static void forward_off(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
/* scan per-interface (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
pim_forward_stop(ch);
} /* scan iface channel list */
}
static int
pim_upstream_could_register (struct pim_upstream *up)
{
struct pim_interface *pim_ifp = up->rpf.source_nexthop.interface->info;
if (pim_ifp && PIM_I_am_DR (pim_ifp) &&
pim_if_connected_to_source (up->rpf.source_nexthop.interface, up->sg.src))
return 1;
return 0;
}
/* Source registration is supressed for SSM groups. When the SSM range changes
* we re-revaluate register setup for existing upstream entries */
void
pim_upstream_register_reevaluate (void)
{
struct listnode *upnode;
struct pim_upstream *up;
for (ALL_LIST_ELEMENTS_RO (pim_upstream_list, upnode, up))
{
/* If FHR is set CouldRegister is True. Also check if the flow
* is actually active; if it is not kat setup will trigger source
* registration whenever the flow becomes active. */
if (!PIM_UPSTREAM_FLAG_TEST_FHR (up->flags) || !up->t_ka_timer)
continue;
if (pim_is_grp_ssm (up->sg.grp))
{
/* clear the register state for SSM groups */
if (up->reg_state != PIM_REG_NOINFO)
{
if (PIM_DEBUG_PIM_EVENTS)
zlog_debug ("Clear register for %s as G is now SSM",
up->sg_str);
/* remove regiface from the OIL if it is there*/
pim_channel_del_oif (up->channel_oil, pim_regiface,
PIM_OIF_FLAG_PROTO_PIM);
up->reg_state = PIM_REG_NOINFO;
}
}
else
{
/* register ASM sources with the RP */
if (up->reg_state == PIM_REG_NOINFO)
{
if (PIM_DEBUG_PIM_EVENTS)
zlog_debug ("Register %s as G is now ASM", up->sg_str);
pim_channel_add_oif (up->channel_oil, pim_regiface,
PIM_OIF_FLAG_PROTO_PIM);
up->reg_state = PIM_REG_JOIN;
}
}
}
}
void
pim_upstream_switch(struct pim_upstream *up,
enum pim_upstream_state new_state)
{
enum pim_upstream_state old_state = up->join_state;
if (PIM_DEBUG_PIM_EVENTS) {
zlog_debug("%s: PIM_UPSTREAM_%s: (S,G) old: %s new: %s",
__PRETTY_FUNCTION__,
up->sg_str,
pim_upstream_state2str (up->join_state),
pim_upstream_state2str (new_state));
}
up->join_state = new_state;
if (old_state != new_state)
up->state_transition = pim_time_monotonic_sec();
pim_upstream_update_assert_tracking_desired(up);
if (new_state == PIM_UPSTREAM_JOINED) {
if (old_state != PIM_UPSTREAM_JOINED)
{
int old_fhr = PIM_UPSTREAM_FLAG_TEST_FHR(up->flags);
forward_on(up);
pim_msdp_up_join_state_changed(up);
if (pim_upstream_could_register (up))
{
PIM_UPSTREAM_FLAG_SET_FHR(up->flags);
if (!old_fhr && PIM_UPSTREAM_FLAG_TEST_SRC_STREAM(up->flags))
{
pim_upstream_keep_alive_timer_start (up, qpim_keep_alive_time);
pim_register_join (up);
}
}
else
{
pim_upstream_send_join (up);
join_timer_start (up);
}
}
else
{
forward_on (up);
}
}
else {
forward_off(up);
if (old_state == PIM_UPSTREAM_JOINED)
pim_msdp_up_join_state_changed(up);
pim_jp_agg_single_upstream_send(&up->rpf, up, 0 /* prune */);
join_timer_stop(up);
}
}
int
pim_upstream_compare (void *arg1, void *arg2)
{
const struct pim_upstream *up1 = (const struct pim_upstream *)arg1;
const struct pim_upstream *up2 = (const struct pim_upstream *)arg2;
if (ntohl(up1->sg.grp.s_addr) < ntohl(up2->sg.grp.s_addr))
return -1;
if (ntohl(up1->sg.grp.s_addr) > ntohl(up2->sg.grp.s_addr))
return 1;
if (ntohl(up1->sg.src.s_addr) < ntohl(up2->sg.src.s_addr))
return -1;
if (ntohl(up1->sg.src.s_addr) > ntohl(up2->sg.src.s_addr))
return 1;
return 0;
}
static struct pim_upstream *
pim_upstream_new (struct prefix_sg *sg,
struct interface *incoming,
int flags)
{
enum pim_rpf_result rpf_result;
struct pim_interface *pim_ifp;
struct pim_upstream *up;
up = XCALLOC(MTYPE_PIM_UPSTREAM, sizeof(*up));
if (!up)
{
zlog_err("%s: PIM XCALLOC(%zu) failure",
__PRETTY_FUNCTION__, sizeof(*up));
return NULL;
}
up->sg = *sg;
pim_str_sg_set (sg, up->sg_str);
up = hash_get (pim_upstream_hash, up, hash_alloc_intern);
if (!pim_rp_set_upstream_addr (&up->upstream_addr, sg->src, sg->grp))
{
if (PIM_DEBUG_TRACE)
zlog_debug("%s: Received a (*,G) with no RP configured", __PRETTY_FUNCTION__);
hash_release (pim_upstream_hash, up);
XFREE (MTYPE_PIM_UPSTREAM, up);
return NULL;
}
up->parent = pim_upstream_find_parent (up);
if (up->sg.src.s_addr == INADDR_ANY)
{
up->sources = list_new ();
up->sources->cmp = pim_upstream_compare;
}
else
up->sources = NULL;
pim_upstream_find_new_children (up);
up->flags = flags;
up->ref_count = 1;
up->t_join_timer = NULL;
up->t_ka_timer = NULL;
up->t_rs_timer = NULL;
up->t_msdp_reg_timer = NULL;
up->join_state = PIM_UPSTREAM_NOTJOINED;
up->reg_state = PIM_REG_NOINFO;
up->state_transition = pim_time_monotonic_sec();
up->channel_oil = NULL;
up->sptbit = PIM_UPSTREAM_SPTBIT_FALSE;
up->rpf.source_nexthop.interface = NULL;
up->rpf.source_nexthop.mrib_nexthop_addr.family = AF_INET;
up->rpf.source_nexthop.mrib_nexthop_addr.u.prefix4.s_addr = PIM_NET_INADDR_ANY;
up->rpf.source_nexthop.mrib_metric_preference = qpim_infinite_assert_metric.metric_preference;
up->rpf.source_nexthop.mrib_route_metric = qpim_infinite_assert_metric.route_metric;
up->rpf.rpf_addr.family = AF_INET;
up->rpf.rpf_addr.u.prefix4.s_addr = PIM_NET_INADDR_ANY;
if (up->sg.src.s_addr != INADDR_ANY)
wheel_add_item (pim_upstream_sg_wheel, up);
rpf_result = pim_rpf_update(up, NULL, 1);
if (rpf_result == PIM_RPF_FAILURE) {
struct prefix nht_p;
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: Attempting to create upstream(%s), Unable to RPF for source", __PRETTY_FUNCTION__,
up->sg_str);
nht_p.family = AF_INET;
nht_p.prefixlen = IPV4_MAX_BITLEN;
nht_p.u.prefix4 = up->upstream_addr;
pim_delete_tracked_nexthop (&nht_p, up, NULL);
if (up->parent)
{
listnode_delete (up->parent->sources, up);
up->parent = NULL;
}
if (up->sg.src.s_addr != INADDR_ANY)
wheel_remove_item (pim_upstream_sg_wheel, up);
pim_upstream_remove_children (up);
if (up->sources)
list_delete (up->sources);
hash_release (pim_upstream_hash, up);
XFREE(MTYPE_PIM_UPSTREAM, up);
return NULL;
}
pim_ifp = up->rpf.source_nexthop.interface->info;
if (pim_ifp)
up->channel_oil = pim_channel_oil_add(&up->sg, pim_ifp->mroute_vif_index);
listnode_add_sort(pim_upstream_list, up);
if (PIM_DEBUG_TRACE)
{
zlog_debug ("%s: Created Upstream %s upstream_addr %s",
__PRETTY_FUNCTION__, up->sg_str,
inet_ntoa (up->upstream_addr));
}
return up;
}
struct pim_upstream *pim_upstream_find(struct prefix_sg *sg)
{
struct pim_upstream lookup;
struct pim_upstream *up = NULL;
lookup.sg = *sg;
up = hash_lookup (pim_upstream_hash, &lookup);
return up;
}
struct pim_upstream *
pim_upstream_find_or_add(struct prefix_sg *sg,
struct interface *incoming,
int flags, const char *name)
{
struct pim_upstream *up;
up = pim_upstream_find(sg);
if (up)
{
if (!(up->flags & flags))
{
up->flags |= flags;
up->ref_count++;
}
}
else
up = pim_upstream_add (sg, incoming, flags, name);
return up;
}
void
pim_upstream_ref(struct pim_upstream *up, int flags)
{
up->flags |= flags;
++up->ref_count;
}
struct pim_upstream *pim_upstream_add(struct prefix_sg *sg,
struct interface *incoming,
int flags, const char *name)
{
struct pim_upstream *up = NULL;
int found = 0;
up = pim_upstream_find(sg);
if (up) {
pim_upstream_ref(up, flags);
found = 1;
}
else {
up = pim_upstream_new(sg, incoming, flags);
}
if (PIM_DEBUG_TRACE)
{
if (up)
zlog_debug("%s(%s): %s, found: %d: ref_count: %d",
__PRETTY_FUNCTION__, name,
up->sg_str, found,
up->ref_count);
else
zlog_debug("%s(%s): (%s) failure to create",
__PRETTY_FUNCTION__, name,
pim_str_sg_dump (sg));
}
return up;
}
int
pim_upstream_evaluate_join_desired_interface (struct pim_upstream *up,
struct pim_ifchannel *ch)
{
struct pim_upstream *parent = up->parent;
if (ch->upstream == up)
{
if (PIM_IF_FLAG_TEST_S_G_RPT(ch->flags))
return 0;
if (!pim_macro_ch_lost_assert(ch) && pim_macro_chisin_joins_or_include(ch))
return 1;
}
/*
* joins (*,G)
*/
if (parent && ch->upstream == parent)
{
struct listnode *ch_node;
struct pim_ifchannel *child;
for (ALL_LIST_ELEMENTS_RO (ch->sources, ch_node, child))
{
if (child->upstream == up)
{
if (PIM_IF_FLAG_TEST_S_G_RPT(child->flags))
return 0;
}
}
if (!pim_macro_ch_lost_assert (ch) && pim_macro_chisin_joins_or_include (ch))
return 1;
}
return 0;
}
/*
Evaluate JoinDesired(S,G):
JoinDesired(S,G) is true if there is a downstream (S,G) interface I
in the set:
inherited_olist(S,G) =
joins(S,G) (+) pim_include(S,G) (-) lost_assert(S,G)
JoinDesired(S,G) may be affected by changes in the following:
pim_ifp->primary_address
pim_ifp->pim_dr_addr
ch->ifassert_winner_metric
ch->ifassert_winner
ch->local_ifmembership
ch->ifjoin_state
ch->upstream->rpf.source_nexthop.mrib_metric_preference
ch->upstream->rpf.source_nexthop.mrib_route_metric
ch->upstream->rpf.source_nexthop.interface
See also pim_upstream_update_join_desired() below.
*/
int pim_upstream_evaluate_join_desired(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
int ret = 0;
/* scan per-interface (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch))
{
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
ret += pim_upstream_evaluate_join_desired_interface (up, ch);
} /* scan iface channel list */
return ret; /* false */
}
/*
See also pim_upstream_evaluate_join_desired() above.
*/
void pim_upstream_update_join_desired(struct pim_upstream *up)
{
int was_join_desired; /* boolean */
int is_join_desired; /* boolean */
was_join_desired = PIM_UPSTREAM_FLAG_TEST_DR_JOIN_DESIRED(up->flags);
is_join_desired = pim_upstream_evaluate_join_desired(up);
if (is_join_desired)
PIM_UPSTREAM_FLAG_SET_DR_JOIN_DESIRED(up->flags);
else
PIM_UPSTREAM_FLAG_UNSET_DR_JOIN_DESIRED(up->flags);
/* switched from false to true */
if (is_join_desired && !was_join_desired) {
pim_upstream_switch(up, PIM_UPSTREAM_JOINED);
return;
}
/* switched from true to false */
if (!is_join_desired && was_join_desired) {
pim_upstream_switch(up, PIM_UPSTREAM_NOTJOINED);
return;
}
}
/*
RFC 4601 4.5.7. Sending (S,G) Join/Prune Messages
Transitions from Joined State
RPF'(S,G) GenID changes
The upstream (S,G) state machine remains in Joined state. If the
Join Timer is set to expire in more than t_override seconds, reset
it so that it expires after t_override seconds.
*/
void pim_upstream_rpf_genid_changed(struct in_addr neigh_addr)
{
struct listnode *up_node;
struct listnode *up_nextnode;
struct pim_upstream *up;
/*
* Scan all (S,G) upstreams searching for RPF'(S,G)=neigh_addr
*/
for (ALL_LIST_ELEMENTS(pim_upstream_list, up_node, up_nextnode, up)) {
if (PIM_DEBUG_TRACE) {
char neigh_str[INET_ADDRSTRLEN];
char rpf_addr_str[PREFIX_STRLEN];
pim_inet4_dump("<neigh?>", neigh_addr, neigh_str, sizeof(neigh_str));
pim_addr_dump("<rpf?>", &up->rpf.rpf_addr, rpf_addr_str, sizeof(rpf_addr_str));
zlog_debug("%s: matching neigh=%s against upstream (S,G)=%s joined=%d rpf_addr=%s",
__PRETTY_FUNCTION__,
neigh_str, up->sg_str,
up->join_state == PIM_UPSTREAM_JOINED,
rpf_addr_str);
}
/* consider only (S,G) upstream in Joined state */
if (up->join_state != PIM_UPSTREAM_JOINED)
continue;
/* match RPF'(S,G)=neigh_addr */
if (up->rpf.rpf_addr.u.prefix4.s_addr != neigh_addr.s_addr)
continue;
pim_upstream_join_timer_decrease_to_t_override("RPF'(S,G) GenID change",
up);
}
}
void pim_upstream_rpf_interface_changed(struct pim_upstream *up,
struct interface *old_rpf_ifp)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_ifchannel *ch;
struct pim_interface *pim_ifp;
/* search all ifchannels */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
if (ch->ifassert_state == PIM_IFASSERT_I_AM_LOSER) {
if (
/* RPF_interface(S) was NOT I */
(old_rpf_ifp == ch->interface)
&&
/* RPF_interface(S) stopped being I */
(ch->upstream->rpf.source_nexthop.interface != ch->interface)
) {
assert_action_a5(ch);
}
} /* PIM_IFASSERT_I_AM_LOSER */
pim_ifchannel_update_assert_tracking_desired(ch);
}
}
void pim_upstream_update_could_assert(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
/* scan per-interface (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
pim_ifchannel_update_could_assert(ch);
} /* scan iface channel list */
}
void pim_upstream_update_my_assert_metric(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
/* scan per-interface (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
pim_ifchannel_update_my_assert_metric(ch);
} /* scan iface channel list */
}
static void pim_upstream_update_assert_tracking_desired(struct pim_upstream *up)
{
struct listnode *chnode;
struct listnode *chnextnode;
struct pim_interface *pim_ifp;
struct pim_ifchannel *ch;
/* scan per-interface (S,G) state */
for (ALL_LIST_ELEMENTS(pim_ifchannel_list, chnode, chnextnode, ch)) {
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (ch->upstream != up)
continue;
pim_ifchannel_update_assert_tracking_desired(ch);
} /* scan iface channel list */
}
/* When kat is stopped CouldRegister goes to false so we need to
* transition the (S, G) on FHR to NI state and remove reg tunnel
* from the OIL */
static void pim_upstream_fhr_kat_expiry(struct pim_upstream *up)
{
if (!PIM_UPSTREAM_FLAG_TEST_FHR(up->flags))
return;
if (PIM_DEBUG_TRACE)
zlog_debug ("kat expired on %s; clear fhr reg state", up->sg_str);
/* stop reg-stop timer */
THREAD_OFF(up->t_rs_timer);
/* remove regiface from the OIL if it is there*/
pim_channel_del_oif (up->channel_oil, pim_regiface, PIM_OIF_FLAG_PROTO_PIM);
/* clear the register state */
up->reg_state = PIM_REG_NOINFO;
PIM_UPSTREAM_FLAG_UNSET_FHR(up->flags);
}
/* When kat is started CouldRegister can go to true. And if it does we
* need to transition the (S, G) on FHR to JOINED state and add reg tunnel
* to the OIL */
static void pim_upstream_fhr_kat_start(struct pim_upstream *up)
{
if (pim_upstream_could_register(up)) {
if (PIM_DEBUG_TRACE)
zlog_debug ("kat started on %s; set fhr reg state to joined", up->sg_str);
PIM_UPSTREAM_FLAG_SET_FHR(up->flags);
if (up->reg_state == PIM_REG_NOINFO)
pim_register_join (up);
}
}
/*
* On an RP, the PMBR value must be cleared when the
* Keepalive Timer expires
* KAT expiry indicates that flow is inactive. If the flow was created or
* maintained by activity now is the time to deref it.
*/
static int
pim_upstream_keep_alive_timer (struct thread *t)
{
struct pim_upstream *up;
up = THREAD_ARG(t);
up->t_ka_timer = NULL;
if (I_am_RP (up->sg.grp))
{
pim_br_clear_pmbr (&up->sg);
/*
* We need to do more here :)
* But this is the start.
*/
}
/* source is no longer active - pull the SA from MSDP's cache */
pim_msdp_sa_local_del(&up->sg);
/* if entry was created because of activity we need to deref it */
if (PIM_UPSTREAM_FLAG_TEST_SRC_STREAM(up->flags))
{
pim_upstream_fhr_kat_expiry(up);
if (PIM_DEBUG_TRACE)
zlog_debug ("kat expired on %s; remove stream reference", up->sg_str);
PIM_UPSTREAM_FLAG_UNSET_SRC_STREAM(up->flags);
pim_upstream_del(up, __PRETTY_FUNCTION__);
}
return 0;
}
void
pim_upstream_keep_alive_timer_start (struct pim_upstream *up,
uint32_t time)
{
if (!PIM_UPSTREAM_FLAG_TEST_SRC_STREAM(up->flags)) {
if (PIM_DEBUG_TRACE)
zlog_debug ("kat start on %s with no stream reference", up->sg_str);
}
THREAD_OFF (up->t_ka_timer);
THREAD_TIMER_ON (master,
up->t_ka_timer,
pim_upstream_keep_alive_timer,
up, time);
/* any time keepalive is started against a SG we will have to
* re-evaluate our active source database */
pim_msdp_sa_local_update(up);
}
/* MSDP on RP needs to know if a source is registerable to this RP */
static int
pim_upstream_msdp_reg_timer(struct thread *t)
{
struct pim_upstream *up;
up = THREAD_ARG(t);
up->t_msdp_reg_timer = NULL;
/* source is no longer active - pull the SA from MSDP's cache */
pim_msdp_sa_local_del(&up->sg);
return 1;
}
void
pim_upstream_msdp_reg_timer_start(struct pim_upstream *up)
{
THREAD_OFF(up->t_msdp_reg_timer);
THREAD_TIMER_ON(master, up->t_msdp_reg_timer,
pim_upstream_msdp_reg_timer, up, PIM_MSDP_REG_RXED_PERIOD);
pim_msdp_sa_local_update(up);
}
/*
* 4.2.1 Last-Hop Switchover to the SPT
*
* In Sparse-Mode PIM, last-hop routers join the shared tree towards the
* RP. Once traffic from sources to joined groups arrives at a last-hop
* router, it has the option of switching to receive the traffic on a
* shortest path tree (SPT).
*
* The decision for a router to switch to the SPT is controlled as
* follows:
*
* void
* CheckSwitchToSpt(S,G) {
* if ( ( pim_include(*,G) (-) pim_exclude(S,G)
* (+) pim_include(S,G) != NULL )
* AND SwitchToSptDesired(S,G) ) {
* # Note: Restarting the KAT will result in the SPT switch
* set KeepaliveTimer(S,G) to Keepalive_Period
* }
* }
*
* SwitchToSptDesired(S,G) is a policy function that is implementation
* defined. An "infinite threshold" policy can be implemented by making
* SwitchToSptDesired(S,G) return false all the time. A "switch on
* first packet" policy can be implemented by making
* SwitchToSptDesired(S,G) return true once a single packet has been
* received for the source and group.
*/
int
pim_upstream_switch_to_spt_desired (struct prefix_sg *sg)
{
if (I_am_RP (sg->grp))
return 1;
return 0;
}
int
pim_upstream_is_sg_rpt (struct pim_upstream *up)
{
struct listnode *chnode;
struct pim_ifchannel *ch;
for (ALL_LIST_ELEMENTS_RO(pim_ifchannel_list, chnode, ch))
{
if ((ch->upstream == up) &&
(PIM_IF_FLAG_TEST_S_G_RPT(ch->flags)))
return 1;
}
return 0;
}
/*
* After receiving a packet set SPTbit:
* void
* Update_SPTbit(S,G,iif) {
* if ( iif == RPF_interface(S)
* AND JoinDesired(S,G) == TRUE
* AND ( DirectlyConnected(S) == TRUE
* OR RPF_interface(S) != RPF_interface(RP(G))
* OR inherited_olist(S,G,rpt) == NULL
* OR ( ( RPF'(S,G) == RPF'(*,G) ) AND
* ( RPF'(S,G) != NULL ) )
* OR ( I_Am_Assert_Loser(S,G,iif) ) {
* Set SPTbit(S,G) to TRUE
* }
* }
*/
void
pim_upstream_set_sptbit (struct pim_upstream *up, struct interface *incoming)
{
struct pim_rpf *grpf = NULL;
// iif == RPF_interfvace(S)
if (up->rpf.source_nexthop.interface != incoming)
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: Incoming Interface: %s is different than RPF_interface(S) %s",
__PRETTY_FUNCTION__, incoming->name, up->rpf.source_nexthop.interface->name);
return;
}
// AND JoinDesired(S,G) == TRUE
// FIXME
// DirectlyConnected(S) == TRUE
if (pim_if_connected_to_source (up->rpf.source_nexthop.interface, up->sg.src))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: %s is directly connected to the source", __PRETTY_FUNCTION__,
up->sg_str);
up->sptbit = PIM_UPSTREAM_SPTBIT_TRUE;
return;
}
// OR RPF_interface(S) != RPF_interface(RP(G))
grpf = RP(up->sg.grp);
if (!grpf || up->rpf.source_nexthop.interface != grpf->source_nexthop.interface)
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: %s RPF_interface(S) != RPF_interface(RP(G))",
__PRETTY_FUNCTION__, up->sg_str);
up->sptbit = PIM_UPSTREAM_SPTBIT_TRUE;
return;
}
// OR inherited_olist(S,G,rpt) == NULL
if (pim_upstream_is_sg_rpt(up) && pim_upstream_empty_inherited_olist(up))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: %s OR inherited_olist(S,G,rpt) == NULL", __PRETTY_FUNCTION__,
up->sg_str);
up->sptbit = PIM_UPSTREAM_SPTBIT_TRUE;
return;
}
// OR ( ( RPF'(S,G) == RPF'(*,G) ) AND
// ( RPF'(S,G) != NULL ) )
if (up->parent && pim_rpf_is_same (&up->rpf, &up->parent->rpf))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: %s RPF'(S,G) is the same as RPF'(*,G)", __PRETTY_FUNCTION__,
up->sg_str);
up->sptbit = PIM_UPSTREAM_SPTBIT_TRUE;
return;
}
return;
}
const char *
pim_upstream_state2str (enum pim_upstream_state join_state)
{
switch (join_state)
{
case PIM_UPSTREAM_NOTJOINED:
return "NotJoined";
break;
case PIM_UPSTREAM_JOINED:
return "Joined";
break;
}
return "Unknown";
}
const char *
pim_reg_state2str (enum pim_reg_state reg_state, char *state_str)
{
switch (reg_state)
{
case PIM_REG_NOINFO:
strcpy (state_str, "RegNoInfo");
break;
case PIM_REG_JOIN:
strcpy (state_str, "RegJoined");
break;
case PIM_REG_JOIN_PENDING:
strcpy (state_str, "RegJoinPend");
break;
case PIM_REG_PRUNE:
strcpy (state_str, "RegPrune");
break;
default:
strcpy (state_str, "RegUnknown");
}
return state_str;
}
static int
pim_upstream_register_stop_timer (struct thread *t)
{
struct pim_interface *pim_ifp;
struct pim_upstream *up;
struct pim_rpf *rpg;
struct ip ip_hdr;
up = THREAD_ARG (t);
up->t_rs_timer = NULL;
if (PIM_DEBUG_TRACE)
{
char state_str[PIM_REG_STATE_STR_LEN];
zlog_debug ("%s: (S,G)=%s upstream register stop timer %s",
__PRETTY_FUNCTION__, up->sg_str,
pim_reg_state2str(up->reg_state, state_str));
}
switch (up->reg_state)
{
case PIM_REG_JOIN_PENDING:
up->reg_state = PIM_REG_JOIN;
pim_channel_add_oif (up->channel_oil, pim_regiface, PIM_OIF_FLAG_PROTO_PIM);
break;
case PIM_REG_JOIN:
break;
case PIM_REG_PRUNE:
pim_ifp = up->rpf.source_nexthop.interface->info;
if (!pim_ifp)
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: Interface: %s is not configured for pim",
__PRETTY_FUNCTION__, up->rpf.source_nexthop.interface->name);
return 0;
}
up->reg_state = PIM_REG_JOIN_PENDING;
pim_upstream_start_register_stop_timer (up, 1);
if (((up->channel_oil->cc.lastused/100) > PIM_KEEPALIVE_PERIOD) &&
(I_am_RP (up->sg.grp)))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: Stop sending the register, because I am the RP and we haven't seen a packet in a while", __PRETTY_FUNCTION__);
return 0;
}
rpg = RP (up->sg.grp);
memset (&ip_hdr, 0, sizeof (struct ip));
ip_hdr.ip_p = PIM_IP_PROTO_PIM;
ip_hdr.ip_hl = 5;
ip_hdr.ip_v = 4;
ip_hdr.ip_src = up->sg.src;
ip_hdr.ip_dst = up->sg.grp;
ip_hdr.ip_len = htons (20);
// checksum is broken
pim_register_send ((uint8_t *)&ip_hdr, sizeof (struct ip),
pim_ifp->primary_address, rpg, 1, up);
break;
default:
break;
}
return 0;
}
void
pim_upstream_start_register_stop_timer (struct pim_upstream *up, int null_register)
{
uint32_t time;
if (up->t_rs_timer)
{
THREAD_TIMER_OFF (up->t_rs_timer);
up->t_rs_timer = NULL;
}
if (!null_register)
{
uint32_t lower = (0.5 * PIM_REGISTER_SUPPRESSION_PERIOD);
uint32_t upper = (1.5 * PIM_REGISTER_SUPPRESSION_PERIOD);
time = lower + (random () % (upper - lower + 1)) - PIM_REGISTER_PROBE_PERIOD;
}
else
time = PIM_REGISTER_PROBE_PERIOD;
if (PIM_DEBUG_TRACE)
{
zlog_debug ("%s: (S,G)=%s Starting upstream register stop timer %d",
__PRETTY_FUNCTION__, up->sg_str, time);
}
THREAD_TIMER_ON (master, up->t_rs_timer,
pim_upstream_register_stop_timer,
up, time);
}
int
pim_upstream_inherited_olist_decide (struct pim_upstream *up)
{
struct pim_interface *pim_ifp;
struct listnode *chnextnode;
struct pim_ifchannel *ch;
struct listnode *chnode;
int output_intf = 0;
pim_ifp = up->rpf.source_nexthop.interface->info;
if (pim_ifp && !up->channel_oil)
up->channel_oil = pim_channel_oil_add (&up->sg, pim_ifp->mroute_vif_index);
for (ALL_LIST_ELEMENTS (pim_ifchannel_list, chnode, chnextnode, ch))
{
pim_ifp = ch->interface->info;
if (!pim_ifp)
continue;
if (pim_upstream_evaluate_join_desired_interface (up, ch))
{
int flag = PIM_OIF_FLAG_PROTO_PIM;
if (ch->sg.src.s_addr == INADDR_ANY && ch->upstream != up)
flag = PIM_OIF_FLAG_PROTO_STAR;
pim_channel_add_oif (up->channel_oil, ch->interface, flag);
output_intf++;
}
}
return output_intf;
}
/*
* For a given upstream, determine the inherited_olist
* and apply it.
*
* inherited_olist(S,G,rpt) =
* ( joins(*,*,RP(G)) (+) joins(*,G) (-) prunes(S,G,rpt) )
* (+) ( pim_include(*,G) (-) pim_exclude(S,G))
* (-) ( lost_assert(*,G) (+) lost_assert(S,G,rpt) )
*
* inherited_olist(S,G) =
* inherited_olist(S,G,rpt) (+)
* joins(S,G) (+) pim_include(S,G) (-) lost_assert(S,G)
*
* return 1 if there are any output interfaces
* return 0 if there are not any output interfaces
*/
int
pim_upstream_inherited_olist (struct pim_upstream *up)
{
int output_intf = pim_upstream_inherited_olist_decide (up);
/*
* If we have output_intf switch state to Join and work like normal
* If we don't have an output_intf that means we are probably a
* switch on a stick so turn on forwarding to just accept the
* incoming packets so we don't bother the other stuff!
*/
if (output_intf)
pim_upstream_switch (up, PIM_UPSTREAM_JOINED);
else
forward_on (up);
return output_intf;
}
int
pim_upstream_empty_inherited_olist (struct pim_upstream *up)
{
return pim_channel_oil_empty (up->channel_oil);
}
/*
* When we have a new neighbor,
* find upstreams that don't have their rpf_addr
* set and see if the new neighbor allows
* the join to be sent
*/
void
pim_upstream_find_new_rpf (void)
{
struct listnode *up_node;
struct listnode *up_nextnode;
struct pim_upstream *up;
/*
* Scan all (S,G) upstreams searching for RPF'(S,G)=neigh_addr
*/
for (ALL_LIST_ELEMENTS(pim_upstream_list, up_node, up_nextnode, up))
{
if (pim_rpf_addr_is_inaddr_any(&up->rpf))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("Upstream %s without a path to send join, checking",
up->sg_str);
pim_rpf_update (up, NULL, 1);
}
}
}
static unsigned int
pim_upstream_hash_key (void *arg)
{
struct pim_upstream *up = (struct pim_upstream *)arg;
return jhash_2words (up->sg.src.s_addr, up->sg.grp.s_addr, 0);
}
void pim_upstream_terminate (void)
{
if (pim_upstream_list)
list_delete (pim_upstream_list);
pim_upstream_list = NULL;
if (pim_upstream_hash)
hash_free (pim_upstream_hash);
pim_upstream_hash = NULL;
}
static int
pim_upstream_equal (const void *arg1, const void *arg2)
{
const struct pim_upstream *up1 = (const struct pim_upstream *)arg1;
const struct pim_upstream *up2 = (const struct pim_upstream *)arg2;
if ((up1->sg.grp.s_addr == up2->sg.grp.s_addr) &&
(up1->sg.src.s_addr == up2->sg.src.s_addr))
return 1;
return 0;
}
/* rfc4601:section-4.2:"Data Packet Forwarding Rules" defines
* the cases where kat has to be restarted on rxing traffic -
*
* if( DirectlyConnected(S) == TRUE AND iif == RPF_interface(S) ) {
* set KeepaliveTimer(S,G) to Keepalive_Period
* # Note: a register state transition or UpstreamJPState(S,G)
* # transition may happen as a result of restarting
* # KeepaliveTimer, and must be dealt with here.
* }
* if( iif == RPF_interface(S) AND UpstreamJPState(S,G) == Joined AND
* inherited_olist(S,G) != NULL ) {
* set KeepaliveTimer(S,G) to Keepalive_Period
* }
*/
static bool pim_upstream_kat_start_ok(struct pim_upstream *up)
{
/* "iif == RPF_interface(S)" check has to be done by the kernel or hw
* so we will skip that here */
if (pim_if_connected_to_source(up->rpf.source_nexthop.interface,
up->sg.src)) {
return true;
}
if ((up->join_state == PIM_UPSTREAM_JOINED) &&
!pim_upstream_empty_inherited_olist(up)) {
/* XXX: I have added this RP check just for 3.2 and it's a digression from
* what rfc-4601 says. Till now we were only running KAT on FHR and RP and
* there is some angst around making the change to run it all routers that
* maintain the (S, G) state. This is tracked via CM-13601 and MUST be
* removed to handle spt turn-arounds correctly in a 3-tier clos */
if (I_am_RP (up->sg.grp))
return true;
}
return false;
}
/*
* Code to check and see if we've received packets on a S,G mroute
* and if so to set the SPT bit appropriately
*/
static void
pim_upstream_sg_running (void *arg)
{
struct pim_upstream *up = (struct pim_upstream *)arg;
// No packet can have arrived here if this is the case
if (!up->channel_oil || !up->channel_oil->installed)
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: %s is not installed in mroute",
__PRETTY_FUNCTION__, up->sg_str);
return;
}
/*
* This is a bit of a hack
* We've noted that we should rescan but
* we've missed the window for doing so in
* pim_zebra.c for some reason. I am
* only doing this at this point in time
* to get us up and working for the moment
*/
if (up->channel_oil->oil_inherited_rescan)
{
if (PIM_DEBUG_TRACE)
zlog_debug ("%s: Handling unscanned inherited_olist for %s", __PRETTY_FUNCTION__, up->sg_str);
pim_upstream_inherited_olist_decide (up);
up->channel_oil->oil_inherited_rescan = 0;
}
pim_mroute_update_counters (up->channel_oil);
// Have we seen packets?
if ((up->channel_oil->cc.oldpktcnt >= up->channel_oil->cc.pktcnt) &&
(up->channel_oil->cc.lastused/100 > 30))
{
if (PIM_DEBUG_TRACE)
{
zlog_debug ("%s: %s old packet count is equal or lastused is greater than 30, (%ld,%ld,%lld)",
__PRETTY_FUNCTION__, up->sg_str,
up->channel_oil->cc.oldpktcnt,
up->channel_oil->cc.pktcnt,
up->channel_oil->cc.lastused/100);
}
return;
}
if (pim_upstream_kat_start_ok(up)) {
/* Add a source reference to the stream if
* one doesn't already exist */
if (!PIM_UPSTREAM_FLAG_TEST_SRC_STREAM(up->flags))
{
if (PIM_DEBUG_TRACE)
zlog_debug ("source reference created on kat restart %s", up->sg_str);
pim_upstream_ref(up, PIM_UPSTREAM_FLAG_MASK_SRC_STREAM);
PIM_UPSTREAM_FLAG_SET_SRC_STREAM(up->flags);
pim_upstream_fhr_kat_start(up);
}
pim_upstream_keep_alive_timer_start(up, qpim_keep_alive_time);
}
if (up->sptbit != PIM_UPSTREAM_SPTBIT_TRUE)
{
pim_upstream_set_sptbit(up, up->rpf.source_nexthop.interface);
}
return;
}
void
pim_upstream_init (void)
{
pim_upstream_sg_wheel = wheel_init (master, 31000, 100,
pim_upstream_hash_key,
pim_upstream_sg_running);
pim_upstream_hash = hash_create_size (8192, pim_upstream_hash_key,
pim_upstream_equal);
pim_upstream_list = list_new ();
pim_upstream_list->del = (void (*)(void *)) pim_upstream_free;
pim_upstream_list->cmp = pim_upstream_compare;
}
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