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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* This is an implementation of RFC 5187 Graceful Restart.
*
* Copyright 2021 NetDEF (c), All rights reserved.
*/
#include <zebra.h>
#include "memory.h"
#include "command.h"
#include "table.h"
#include "vty.h"
#include "log.h"
#include "hook.h"
#include "printfrr.h"
#include "lib_errors.h"
#include "ospf6d/ospf6_lsa.h"
#include "ospf6d/ospf6_lsdb.h"
#include "ospf6d/ospf6_route.h"
#include "ospf6d/ospf6_area.h"
#include "ospf6d/ospf6_interface.h"
#include "ospf6d/ospf6d.h"
#include "ospf6d/ospf6_asbr.h"
#include "ospf6d/ospf6_zebra.h"
#include "ospf6d/ospf6_message.h"
#include "ospf6d/ospf6_neighbor.h"
#include "ospf6d/ospf6_network.h"
#include "ospf6d/ospf6_flood.h"
#include "ospf6d/ospf6_intra.h"
#include "ospf6d/ospf6_spf.h"
#include "ospf6d/ospf6_gr.h"
#include "ospf6d/ospf6_gr_clippy.c"
static void ospf6_gr_grace_period_expired(struct event *thread);
/* Originate and install Grace-LSA for a given interface. */
static int ospf6_gr_lsa_originate(struct ospf6_interface *oi,
enum ospf6_gr_restart_reason reason)
{
struct ospf6 *ospf6 = oi->area->ospf6;
struct ospf6_gr_info *gr_info = &ospf6->gr_info;
struct ospf6_lsa_header *lsa_header;
struct ospf6_grace_lsa *grace_lsa;
struct ospf6_lsa *lsa;
uint16_t lsa_length;
char buffer[OSPF6_MAX_LSASIZE];
if (IS_OSPF6_DEBUG_ORIGINATE(LINK))
zlog_debug("Originate Grace-LSA for Interface %s",
oi->interface->name);
/* prepare buffer */
memset(buffer, 0, sizeof(buffer));
lsa_header = (struct ospf6_lsa_header *)buffer;
grace_lsa =
(struct ospf6_grace_lsa *)((caddr_t)lsa_header
+ sizeof(struct ospf6_lsa_header));
/* Put grace period. */
grace_lsa->tlv_period.header.type = htons(GRACE_PERIOD_TYPE);
grace_lsa->tlv_period.header.length = htons(GRACE_PERIOD_LENGTH);
grace_lsa->tlv_period.interval = htonl(gr_info->grace_period);
/* Put restart reason. */
grace_lsa->tlv_reason.header.type = htons(RESTART_REASON_TYPE);
grace_lsa->tlv_reason.header.length = htons(RESTART_REASON_LENGTH);
grace_lsa->tlv_reason.reason = reason;
/* Fill LSA Header */
lsa_length = sizeof(*lsa_header) + sizeof(*grace_lsa);
lsa_header->age = 0;
lsa_header->type = htons(OSPF6_LSTYPE_GRACE_LSA);
lsa_header->id = htonl(oi->interface->ifindex);
lsa_header->adv_router = ospf6->router_id;
lsa_header->seqnum =
ospf6_new_ls_seqnum(lsa_header->type, lsa_header->id,
lsa_header->adv_router, oi->lsdb);
lsa_header->length = htons(lsa_length);
/* LSA checksum */
ospf6_lsa_checksum(lsa_header);
if (reason == OSPF6_GR_UNKNOWN_RESTART) {
struct ospf6_header *oh;
uint32_t *uv32;
int n;
uint16_t length = OSPF6_HEADER_SIZE + 4 + lsa_length;
struct iovec iovector[2] = {};
/* Reserve space for OSPFv3 header. */
memmove(&buffer[OSPF6_HEADER_SIZE + 4], buffer, lsa_length);
/* Fill in the OSPFv3 header. */
oh = (struct ospf6_header *)buffer;
oh->version = OSPFV3_VERSION;
oh->type = OSPF6_MESSAGE_TYPE_LSUPDATE;
oh->router_id = oi->area->ospf6->router_id;
oh->area_id = oi->area->area_id;
oh->instance_id = oi->instance_id;
oh->reserved = 0;
oh->length = htons(length);
/* Fill LSA header. */
uv32 = (uint32_t *)&buffer[sizeof(*oh)];
*uv32 = htonl(1);
/* Send packet. */
iovector[0].iov_base = lsa_header;
iovector[0].iov_len = length;
n = ospf6_sendmsg(oi->linklocal_addr, &allspfrouters6,
oi->interface->ifindex, iovector, ospf6->fd);
if (n != length)
flog_err(EC_LIB_DEVELOPMENT,
"%s: could not send entire message", __func__);
} else {
/* Create and install LSA. */
lsa = ospf6_lsa_create(lsa_header);
ospf6_lsa_originate_interface(lsa, oi);
}
return 0;
}
/* Flush all self-originated Grace-LSAs. */
static void ospf6_gr_flush_grace_lsas(struct ospf6 *ospf6)
{
struct ospf6_area *area;
struct listnode *anode;
for (ALL_LIST_ELEMENTS_RO(ospf6->area_list, anode, area)) {
struct ospf6_lsa *lsa;
struct ospf6_interface *oi;
struct listnode *inode;
if (IS_DEBUG_OSPF6_GR)
zlog_debug(
"GR: flushing self-originated Grace-LSAs [area %pI4]",
&area->area_id);
for (ALL_LIST_ELEMENTS_RO(area->if_list, inode, oi)) {
lsa = ospf6_lsdb_lookup(htons(OSPF6_LSTYPE_GRACE_LSA),
htonl(oi->interface->ifindex),
oi->area->ospf6->router_id,
oi->lsdb);
if (!lsa) {
zlog_warn(
"%s: Grace-LSA not found [interface %s] [area %pI4]",
__func__, oi->interface->name,
&area->area_id);
continue;
}
ospf6_lsa_purge(lsa);
}
}
}
/* Exit from the Graceful Restart mode. */
static void ospf6_gr_restart_exit(struct ospf6 *ospf6, const char *reason)
{
struct ospf6_area *area;
struct listnode *onode, *anode;
struct ospf6_route *route;
if (IS_DEBUG_OSPF6_GR)
zlog_debug("GR: exiting graceful restart: %s", reason);
ospf6->gr_info.restart_in_progress = false;
ospf6->gr_info.finishing_restart = true;
XFREE(MTYPE_TMP, ospf6->gr_info.exit_reason);
ospf6->gr_info.exit_reason = XSTRDUP(MTYPE_TMP, reason);
EVENT_OFF(ospf6->gr_info.t_grace_period);
for (ALL_LIST_ELEMENTS_RO(ospf6->area_list, onode, area)) {
struct ospf6_interface *oi;
/*
* 1) The router should reoriginate its router-LSAs for all
* attached areas in order to make sure they have the correct
* contents.
*/
OSPF6_ROUTER_LSA_EXECUTE(area);
/*
* Force reorigination of intra-area-prefix-LSAs to handle
* areas without any full adjacency.
*/
OSPF6_INTRA_PREFIX_LSA_SCHEDULE_STUB(area);
for (ALL_LIST_ELEMENTS_RO(area->if_list, anode, oi)) {
/* Disable hello delay. */
if (oi->gr.hello_delay.t_grace_send) {
oi->gr.hello_delay.elapsed_seconds = 0;
EVENT_OFF(oi->gr.hello_delay.t_grace_send);
event_add_event(master, ospf6_hello_send, oi, 0,
&oi->thread_send_hello);
}
/* Reoriginate Link-LSA. */
if (oi->type != OSPF_IFTYPE_VIRTUALLINK)
OSPF6_LINK_LSA_EXECUTE(oi);
/*
* 2) The router should reoriginate network-LSAs on all
* segments where it is the Designated Router.
*/
if (oi->state == OSPF6_INTERFACE_DR)
OSPF6_NETWORK_LSA_EXECUTE(oi);
}
}
/*
* While all self-originated NSSA and AS-external LSAs were already
* learned from the helping neighbors, we need to reoriginate them in
* order to ensure they will be refreshed periodically.
*/
for (route = ospf6_route_head(ospf6->external_table); route;
route = ospf6_route_next(route))
ospf6_handle_external_lsa_origination(ospf6, route,
&route->prefix);
/*
* 3) The router reruns its OSPF routing calculations, this time
* installing the results into the system forwarding table, and
* originating summary-LSAs, Type-7 LSAs and AS-external-LSAs as
* necessary.
*
* 4) Any remnant entries in the system forwarding table that were
* installed before the restart, but that are no longer valid,
* should be removed.
*/
ospf6_spf_schedule(ospf6, OSPF6_SPF_FLAGS_GR_FINISH);
/* 6) Any grace-LSAs that the router originated should be flushed. */
ospf6_gr_flush_grace_lsas(ospf6);
}
/* Enter the Graceful Restart mode. */
void ospf6_gr_restart_enter(struct ospf6 *ospf6,
enum ospf6_gr_restart_reason reason,
time_t timestamp)
{
unsigned long remaining_time;
ospf6->gr_info.restart_in_progress = true;
ospf6->gr_info.reason = reason;
/* Schedule grace period timeout. */
remaining_time = timestamp - time(NULL);
if (IS_DEBUG_OSPF6_GR)
zlog_debug(
"GR: remaining time until grace period expires: %lu(s)",
remaining_time);
event_add_timer(master, ospf6_gr_grace_period_expired, ospf6,
remaining_time, &ospf6->gr_info.t_grace_period);
}
#define RTR_LSA_MISSING 0
#define RTR_LSA_ADJ_FOUND 1
#define RTR_LSA_ADJ_NOT_FOUND 2
/* Check if a Router-LSA exists and if it contains a given link. */
static int ospf6_router_lsa_contains_adj(struct ospf6_area *area,
in_addr_t adv_router,
in_addr_t neighbor_router_id)
{
uint16_t type;
struct ospf6_lsa *lsa;
bool empty = true;
type = ntohs(OSPF6_LSTYPE_ROUTER);
for (ALL_LSDB_TYPED_ADVRTR(area->lsdb, type, adv_router, lsa)) {
struct ospf6_router_lsa *router_lsa;
char *start, *end, *current;
empty = false;
router_lsa = (struct ospf6_router_lsa
*)((char *)lsa->header
+ sizeof(struct ospf6_lsa_header));
/* Iterate over all interfaces in the Router-LSA. */
start = (char *)router_lsa + sizeof(struct ospf6_router_lsa);
end = (char *)lsa->header + ntohs(lsa->header->length);
for (current = start;
current + sizeof(struct ospf6_router_lsdesc) <= end;
current += sizeof(struct ospf6_router_lsdesc)) {
struct ospf6_router_lsdesc *lsdesc;
lsdesc = (struct ospf6_router_lsdesc *)current;
if (lsdesc->type != OSPF6_ROUTER_LSDESC_POINTTOPOINT)
continue;
if (lsdesc->neighbor_router_id == neighbor_router_id) {
ospf6_lsa_unlock(&lsa);
return RTR_LSA_ADJ_FOUND;
}
}
}
if (empty)
return RTR_LSA_MISSING;
return RTR_LSA_ADJ_NOT_FOUND;
}
static bool ospf6_gr_check_router_lsa_consistency(struct ospf6 *ospf6,
struct ospf6_area *area,
struct ospf6_lsa *lsa)
{
if (lsa->header->adv_router == ospf6->router_id) {
struct ospf6_router_lsa *router_lsa;
char *start, *end, *current;
router_lsa = (struct ospf6_router_lsa
*)((char *)lsa->header
+ sizeof(struct ospf6_lsa_header));
/* Iterate over all interfaces in the Router-LSA. */
start = (char *)router_lsa + sizeof(struct ospf6_router_lsa);
end = (char *)lsa->header + ntohs(lsa->header->length);
for (current = start;
current + sizeof(struct ospf6_router_lsdesc) <= end;
current += sizeof(struct ospf6_router_lsdesc)) {
struct ospf6_router_lsdesc *lsdesc;
lsdesc = (struct ospf6_router_lsdesc *)current;
if (lsdesc->type != OSPF6_ROUTER_LSDESC_POINTTOPOINT)
continue;
if (ospf6_router_lsa_contains_adj(
area, lsdesc->neighbor_router_id,
ospf6->router_id)
== RTR_LSA_ADJ_NOT_FOUND)
return false;
}
} else {
int adj1, adj2;
adj1 = ospf6_router_lsa_contains_adj(area, ospf6->router_id,
lsa->header->adv_router);
adj2 = ospf6_router_lsa_contains_adj(
area, lsa->header->adv_router, ospf6->router_id);
if ((adj1 == RTR_LSA_ADJ_FOUND && adj2 == RTR_LSA_ADJ_NOT_FOUND)
|| (adj1 == RTR_LSA_ADJ_NOT_FOUND
&& adj2 == RTR_LSA_ADJ_FOUND))
return false;
}
return true;
}
/*
* Check for LSAs that are inconsistent with the pre-restart LSAs, and abort the
* ongoing graceful restart when that's the case.
*/
void ospf6_gr_check_lsdb_consistency(struct ospf6 *ospf6,
struct ospf6_area *area)
{
uint16_t type;
struct ospf6_lsa *lsa;
type = ntohs(OSPF6_LSTYPE_ROUTER);
for (ALL_LSDB_TYPED(area->lsdb, type, lsa)) {
if (!ospf6_gr_check_router_lsa_consistency(ospf6, area, lsa)) {
char reason[256];
snprintfrr(reason, sizeof(reason),
"detected inconsistent LSA %s [area %pI4]",
lsa->name, &area->area_id);
ospf6_gr_restart_exit(ospf6, reason);
return;
}
}
}
/* Check if there's a fully formed adjacency with the given neighbor ID. */
static bool ospf6_gr_check_adj_id(struct ospf6_area *area,
in_addr_t neighbor_router_id)
{
struct ospf6_neighbor *nbr;
nbr = ospf6_area_neighbor_lookup(area, neighbor_router_id);
if (!nbr || nbr->state < OSPF6_NEIGHBOR_FULL) {
if (IS_DEBUG_OSPF6_GR)
zlog_debug("GR: missing adjacency to router %pI4",
&neighbor_router_id);
return false;
}
return true;
}
static bool ospf6_gr_check_adjs_lsa_transit(struct ospf6_area *area,
in_addr_t neighbor_router_id,
uint32_t neighbor_interface_id)
{
struct ospf6 *ospf6 = area->ospf6;
/* Check if we are the DR. */
if (neighbor_router_id == ospf6->router_id) {
struct ospf6_lsa *lsa;
char *start, *end, *current;
struct ospf6_network_lsa *network_lsa;
struct ospf6_network_lsdesc *lsdesc;
/* Lookup Network LSA corresponding to this interface. */
lsa = ospf6_lsdb_lookup(htons(OSPF6_LSTYPE_NETWORK),
neighbor_interface_id,
neighbor_router_id, area->lsdb);
if (!lsa)
return false;
/* Iterate over all routers present in the network. */
network_lsa = (struct ospf6_network_lsa
*)((char *)lsa->header
+ sizeof(struct ospf6_lsa_header));
start = (char *)network_lsa + sizeof(struct ospf6_network_lsa);
end = (char *)lsa->header + ntohs(lsa->header->length);
for (current = start;
current + sizeof(struct ospf6_network_lsdesc) <= end;
current += sizeof(struct ospf6_network_lsdesc)) {
lsdesc = (struct ospf6_network_lsdesc *)current;
/* Skip self in the pseudonode. */
if (lsdesc->router_id == ospf6->router_id)
continue;
/*
* Check if there's a fully formed adjacency with this
* router.
*/
if (!ospf6_gr_check_adj_id(area, lsdesc->router_id))
return false;
}
} else {
struct ospf6_neighbor *nbr;
/* Check if there's a fully formed adjacency with the DR. */
nbr = ospf6_area_neighbor_lookup(area, neighbor_router_id);
if (!nbr || nbr->state < OSPF6_NEIGHBOR_FULL) {
if (IS_DEBUG_OSPF6_GR)
zlog_debug(
"GR: missing adjacency to DR router %pI4",
&neighbor_router_id);
return false;
}
}
return true;
}
static bool ospf6_gr_check_adjs_lsa(struct ospf6_area *area,
struct ospf6_lsa *lsa)
{
struct ospf6_router_lsa *router_lsa;
char *start, *end, *current;
router_lsa =
(struct ospf6_router_lsa *)((char *)lsa->header
+ sizeof(struct ospf6_lsa_header));
/* Iterate over all interfaces in the Router-LSA. */
start = (char *)router_lsa + sizeof(struct ospf6_router_lsa);
end = (char *)lsa->header + ntohs(lsa->header->length);
for (current = start;
current + sizeof(struct ospf6_router_lsdesc) <= end;
current += sizeof(struct ospf6_router_lsdesc)) {
struct ospf6_router_lsdesc *lsdesc;
lsdesc = (struct ospf6_router_lsdesc *)current;
switch (lsdesc->type) {
case OSPF6_ROUTER_LSDESC_POINTTOPOINT:
if (!ospf6_gr_check_adj_id(area,
lsdesc->neighbor_router_id))
return false;
break;
case OSPF6_ROUTER_LSDESC_TRANSIT_NETWORK:
if (!ospf6_gr_check_adjs_lsa_transit(
area, lsdesc->neighbor_router_id,
lsdesc->neighbor_interface_id))
return false;
break;
default:
break;
}
}
return true;
}
/*
* Check if all adjacencies prior to the restart were reestablished.
*
* This is done using pre-restart Router LSAs and pre-restart Network LSAs
* received from the helping neighbors.
*/
static bool ospf6_gr_check_adjs(struct ospf6 *ospf6)
{
struct ospf6_area *area;
struct listnode *node;
for (ALL_LIST_ELEMENTS_RO(ospf6->area_list, node, area)) {
uint16_t type;
uint32_t router;
struct ospf6_lsa *lsa_self;
bool found = false;
type = ntohs(OSPF6_LSTYPE_ROUTER);
router = ospf6->router_id;
for (ALL_LSDB_TYPED_ADVRTR(area->lsdb, type, router,
lsa_self)) {
found = true;
if (!ospf6_gr_check_adjs_lsa(area, lsa_self)) {
ospf6_lsa_unlock(&lsa_self);
return false;
}
}
if (!found)
return false;
}
return true;
}
/* Handling of grace period expiry. */
static void ospf6_gr_grace_period_expired(struct event *thread)
{
struct ospf6 *ospf6 = EVENT_ARG(thread);
ospf6_gr_restart_exit(ospf6, "grace period has expired");
}
/* Send extra Grace-LSA out the interface (unplanned outages only). */
void ospf6_gr_iface_send_grace_lsa(struct event *thread)
{
struct ospf6_interface *oi = EVENT_ARG(thread);
ospf6_gr_lsa_originate(oi, oi->area->ospf6->gr_info.reason);
if (++oi->gr.hello_delay.elapsed_seconds < oi->gr.hello_delay.interval)
event_add_timer(master, ospf6_gr_iface_send_grace_lsa, oi, 1,
&oi->gr.hello_delay.t_grace_send);
else
event_add_event(master, ospf6_hello_send, oi, 0,
&oi->thread_send_hello);
}
/*
* Record in non-volatile memory that the given OSPF instance is attempting to
* perform a graceful restart.
*/
static void ospf6_gr_nvm_update(struct ospf6 *ospf6, bool prepare)
{
const char *inst_name;
json_object *json;
json_object *json_instances;
json_object *json_instance;
inst_name = ospf6->name ? ospf6->name : VRF_DEFAULT_NAME;
json = frr_daemon_state_load();
json_object_object_get_ex(json, "instances", &json_instances);
if (!json_instances) {
json_instances = json_object_new_object();
json_object_object_add(json, "instances", json_instances);
}
json_object_object_get_ex(json_instances, inst_name, &json_instance);
if (!json_instance) {
json_instance = json_object_new_object();
json_object_object_add(json_instances, inst_name,
json_instance);
}
json_object_int_add(json_instance, "gracePeriod",
ospf6->gr_info.grace_period);
/*
* Record not only the grace period, but also a UNIX timestamp
* corresponding to the end of that period. That way, once ospf6d is
* restarted, it will be possible to take into account the time that
* passed while ospf6d wasn't running.
*/
if (prepare)
json_object_int_add(json_instance, "timestamp",
time(NULL) + ospf6->gr_info.grace_period);
frr_daemon_state_save(&json);
}
/*
* Delete GR status information about the given OSPF instance from non-volatile
* memory.
*/
void ospf6_gr_nvm_delete(struct ospf6 *ospf6)
{
const char *inst_name;
json_object *json;
json_object *json_instances;
inst_name = ospf6->name ? ospf6->name : VRF_DEFAULT_NAME;
json = frr_daemon_state_load();
json_object_object_get_ex(json, "instances", &json_instances);
if (!json_instances) {
json_instances = json_object_new_object();
json_object_object_add(json, "instances", json_instances);
}
json_object_object_del(json_instances, inst_name);
frr_daemon_state_save(&json);
}
/*
* Fetch from non-volatile memory whether the given OSPF instance is performing
* a graceful shutdown or not.
*/
void ospf6_gr_nvm_read(struct ospf6 *ospf6)
{
const char *inst_name;
json_object *json;
json_object *json_instances;
json_object *json_instance;
json_object *json_timestamp;
json_object *json_grace_period;
time_t timestamp = 0;
inst_name = ospf6->name ? ospf6->name : VRF_DEFAULT_NAME;
json = frr_daemon_state_load();
json_object_object_get_ex(json, "instances", &json_instances);
if (!json_instances) {
json_instances = json_object_new_object();
json_object_object_add(json, "instances", json_instances);
}
json_object_object_get_ex(json_instances, inst_name, &json_instance);
if (!json_instance) {
json_instance = json_object_new_object();
json_object_object_add(json_instances, inst_name,
json_instance);
}
json_object_object_get_ex(json_instance, "gracePeriod",
&json_grace_period);
json_object_object_get_ex(json_instance, "timestamp", &json_timestamp);
if (json_timestamp) {
time_t now;
/* Planned GR: check if the grace period has already expired. */
now = time(NULL);
timestamp = json_object_get_int(json_timestamp);
if (now > timestamp) {
ospf6_gr_restart_exit(
ospf6, "grace period has expired already");
} else
ospf6_gr_restart_enter(ospf6, OSPF6_GR_SW_RESTART,
timestamp);
} else if (json_grace_period) {
uint32_t grace_period;
/*
* Unplanned GR: the Grace-LSAs will be sent later as soon as
* the interfaces are operational.
*/
grace_period = json_object_get_int(json_grace_period);
ospf6->gr_info.grace_period = grace_period;
ospf6_gr_restart_enter(ospf6, OSPF6_GR_UNKNOWN_RESTART,
time(NULL) +
ospf6->gr_info.grace_period);
}
json_object_object_del(json_instance, "gracePeriod");
json_object_object_del(json_instance, "timestamp");
frr_daemon_state_save(&json);
}
void ospf6_gr_unplanned_start_interface(struct ospf6_interface *oi)
{
/*
* Can't check OSPF interface state as the OSPF instance might not be
* enabled yet.
*/
if (!if_is_operative(oi->interface) || if_is_loopback(oi->interface))
return;
/* Send Grace-LSA. */
ospf6_gr_lsa_originate(oi, oi->area->ospf6->gr_info.reason);
/* Start GR hello-delay interval. */
oi->gr.hello_delay.elapsed_seconds = 0;
event_add_timer(master, ospf6_gr_iface_send_grace_lsa, oi, 1,
&oi->gr.hello_delay.t_grace_send);
}
/* Prepare to start a Graceful Restart. */
static void ospf6_gr_prepare(void)
{
struct ospf6 *ospf6;
struct ospf6_interface *oi;
struct listnode *onode, *anode, *inode;
for (ALL_LIST_ELEMENTS_RO(om6->ospf6, onode, ospf6)) {
struct ospf6_area *area;
if (!ospf6->gr_info.restart_support
|| ospf6->gr_info.prepare_in_progress)
continue;
if (IS_DEBUG_OSPF6_GR)
zlog_debug(
"GR: preparing to perform a graceful restart [period %u second(s)] [vrf %s]",
ospf6->gr_info.grace_period,
ospf6_vrf_id_to_name(ospf6->vrf_id));
/* Send a Grace-LSA to all neighbors. */
for (ALL_LIST_ELEMENTS_RO(ospf6->area_list, anode, area)) {
for (ALL_LIST_ELEMENTS_RO(area->if_list, inode, oi)) {
if (oi->state < OSPF6_INTERFACE_POINTTOPOINT)
continue;
ospf6_gr_lsa_originate(oi, OSPF6_GR_SW_RESTART);
}
}
/* Record end of the grace period in non-volatile memory. */
ospf6_gr_nvm_update(ospf6, true);
/*
* Mark that a Graceful Restart preparation is in progress, to
* prevent ospf6d from flushing its self-originated LSAs on
* exit.
*/
ospf6->gr_info.prepare_in_progress = true;
}
}
static int ospf6_gr_neighbor_change(struct ospf6_neighbor *on, int next_state,
int prev_state)
{
struct ospf6 *ospf6 = on->ospf6_if->area->ospf6;
if (next_state == OSPF6_NEIGHBOR_FULL
&& ospf6->gr_info.restart_in_progress) {
if (ospf6_gr_check_adjs(ospf6)) {
ospf6_gr_restart_exit(
ospf6, "all adjacencies were reestablished");
} else {
if (IS_DEBUG_OSPF6_GR)
zlog_debug(
"GR: not all adjacencies were reestablished yet");
}
}
return 0;
}
int config_write_ospf6_gr(struct vty *vty, struct ospf6 *ospf6)
{
if (!ospf6->gr_info.restart_support)
return 0;
if (ospf6->gr_info.grace_period == OSPF6_DFLT_GRACE_INTERVAL)
vty_out(vty, " graceful-restart\n");
else
vty_out(vty, " graceful-restart grace-period %u\n",
ospf6->gr_info.grace_period);
return 0;
}
DEFPY(ospf6_graceful_restart_prepare, ospf6_graceful_restart_prepare_cmd,
"graceful-restart prepare ipv6 ospf",
"Graceful Restart commands\n"
"Prepare upcoming graceful restart\n" IPV6_STR
"Prepare to restart the OSPFv3 process\n")
{
ospf6_gr_prepare();
return CMD_SUCCESS;
}
DEFPY(ospf6_graceful_restart, ospf6_graceful_restart_cmd,
"graceful-restart [grace-period (1-1800)$grace_period]",
OSPF_GR_STR
"Maximum length of the 'grace period'\n"
"Maximum length of the 'grace period' in seconds\n")
{
VTY_DECLVAR_INSTANCE_CONTEXT(ospf6, ospf6);
/* Check and get restart period if present. */
if (!grace_period_str)
grace_period = OSPF6_DFLT_GRACE_INTERVAL;
ospf6->gr_info.restart_support = true;
ospf6->gr_info.grace_period = grace_period;
/* Freeze OSPF routes in the RIB. */
(void)ospf6_zebra_gr_enable(ospf6, ospf6->gr_info.grace_period);
/* Record that GR is enabled in non-volatile memory. */
ospf6_gr_nvm_update(ospf6, false);
return CMD_SUCCESS;
}
DEFPY(ospf6_no_graceful_restart, ospf6_no_graceful_restart_cmd,
"no graceful-restart [period (1-1800)]",
NO_STR OSPF_GR_STR
"Maximum length of the 'grace period'\n"
"Maximum length of the 'grace period' in seconds\n")
{
VTY_DECLVAR_INSTANCE_CONTEXT(ospf6, ospf6);
if (!ospf6->gr_info.restart_support)
return CMD_SUCCESS;
if (ospf6->gr_info.prepare_in_progress) {
vty_out(vty,
"%% Error: Graceful Restart preparation in progress\n");
return CMD_WARNING;
}
ospf6->gr_info.restart_support = false;
ospf6->gr_info.grace_period = OSPF6_DFLT_GRACE_INTERVAL;
ospf6_gr_nvm_delete(ospf6);
ospf6_zebra_gr_disable(ospf6);
return CMD_SUCCESS;
}
void ospf6_gr_init(void)
{
hook_register(ospf6_neighbor_change, ospf6_gr_neighbor_change);
install_element(ENABLE_NODE, &ospf6_graceful_restart_prepare_cmd);
install_element(OSPF6_NODE, &ospf6_graceful_restart_cmd);
install_element(OSPF6_NODE, &ospf6_no_graceful_restart_cmd);
}
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