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bird/proto/ospf/ospf.c

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/*
* BIRD -- OSPF
*
* (c) 1999--2004 Ondrej Filip <feela@network.cz>
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* (c) 2009--2014 Ondrej Zajicek <santiago@crfreenet.org>
* (c) 2009--2014 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
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/**
* DOC: Open Shortest Path First (OSPF)
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*
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* The OSPF protocol is quite complicated and its complex implemenation is split
* to many files. In |ospf.c|, you will find mainly the interface for
* communication with the core (e.g., reconfiguration hooks, shutdown and
* initialisation and so on). File |iface.c| contains the interface state
* machine and functions for allocation and deallocation of OSPF's interface
* data structures. Source |neighbor.c| includes the neighbor state machine and
* functions for election of Designated Router and Backup Designated router. In
* |packet.c|, you will find various functions for sending and receiving generic
* OSPF packets. There are also routines for authentication and checksumming.
* In |hello.c|, there are routines for sending and receiving of hello packets
* as well as functions for maintaining wait times and the inactivity timer.
* Files |lsreq.c|, |lsack.c|, |dbdes.c| contain functions for sending and
* receiving of link-state requests, link-state acknowledgements and database
* descriptions respectively. In |lsupd.c|, there are functions for sending and
* receiving of link-state updates and also the flooding algorithm. Source
* |topology.c| is a place where routines for searching LSAs in the link-state
* database, adding and deleting them reside, there also are functions for
* originating of various types of LSAs (router LSA, net LSA, external LSA).
* File |rt.c| contains routines for calculating the routing table. |lsalib.c|
* is a set of various functions for working with the LSAs (endianity
* conversions, calculation of checksum etc.).
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*
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* One instance of the protocol is able to hold LSA databases for multiple OSPF
* areas, to exchange routing information between multiple neighbors and to
* calculate the routing tables. The core structure is &ospf_proto to which
* multiple &ospf_area and &ospf_iface structures are connected. &ospf_proto is
* also connected to &top_hash_graph which is a dynamic hashing structure that
* describes the link-state database. It allows fast search, addition and
* deletion. Each LSA is kept in two pieces: header and body. Both of them are
* kept in the endianity of the CPU.
*
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* In OSPFv2 specification, it is implied that there is one IP prefix for each
* physical network/interface (unless it is an ptp link). But in modern systems,
* there might be more independent IP prefixes associated with an interface. To
* handle this situation, we have one &ospf_iface for each active IP prefix
* (instead for each active iface); This behaves like virtual interface for the
* purpose of OSPF. If we receive packet, we associate it with a proper virtual
* interface mainly according to its source address.
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*
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* OSPF keeps one socket per &ospf_iface. This allows us (compared to one socket
* approach) to evade problems with a limit of multicast groups per socket and
* with sending multicast packets to appropriate interface in a portable way.
* The socket is associated with underlying physical iface and should not
* receive packets received on other ifaces (unfortunately, this is not true on
* BSD). Generally, one packet can be received by more sockets (for example, if
* there are more &ospf_iface on one physical iface), therefore we explicitly
* filter received packets according to src/dst IP address and received iface.
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*
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* Vlinks are implemented using particularly degenerate form of &ospf_iface,
* which has several exceptions: it does not have its iface or socket (it copies
* these from 'parent' &ospf_iface) and it is present in iface list even when
* down (it is not freed in ospf_iface_down()).
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*
* The heart beat of ospf is ospf_disp(). It is called at regular intervals
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* (&ospf_proto->tick). It is responsible for aging and flushing of LSAs in the
* database, updating topology information in LSAs and for routing table
* calculation.
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*
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* To every &ospf_iface, we connect one or more &ospf_neighbor's -- a structure
* containing many timers and queues for building adjacency and for exchange of
* routing messages.
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*
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* BIRD's OSPF implementation respects RFC2328 in every detail, but some of
* internal algorithms do differ. The RFC recommends making a snapshot of the
* link-state database when a new adjacency is forming and sending the database
* description packets based on the information in this snapshot. The database
* can be quite large in some networks, so rather we walk through a &slist
* structure which allows us to continue even if the actual LSA we were working
* with is deleted. New LSAs are added at the tail of this &slist.
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*
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* We also do not keep a separate OSPF routing table, because the core helps us
* by being able to recognize when a route is updated to an identical one and it
* suppresses the update automatically. Due to this, we can flush all the routes
* we have recalculated and also those we have deleted to the core's routing
* table and the core will take care of the rest. This simplifies the process
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* and conserves memory.
*
* Supported standards:
* - RFC 2328 - main OSPFv2 standard
* - RFC 5340 - main OSPFv3 standard
* - RFC 3101 - OSPFv2 NSSA areas
* - RFC 3623 - OSPFv2 Graceful Restart
* - RFC 4576 - OSPFv2 VPN loop prevention
* - RFC 5187 - OSPFv3 Graceful Restart
* - RFC 5250 - OSPFv2 Opaque LSAs
* - RFC 5709 - OSPFv2 HMAC-SHA Cryptographic Authentication
* - RFC 5838 - OSPFv3 Support of Address Families
* - RFC 6549 - OSPFv2 Multi-Instance Extensions
* - RFC 6987 - OSPF Stub Router Advertisement
* - RFC 7166 - OSPFv3 Authentication Trailer
* - RFC 7770 - OSPF Router Information LSA
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*/
#include <stdlib.h>
#include "ospf.h"
#include "lib/macro.h"
static int ospf_preexport(struct channel *C, rte *new);
static void ospf_reload_routes(struct channel *C);
static int ospf_rte_better(struct rte *new, struct rte *old);
static u32 ospf_rte_igp_metric(const rte *rt);
static void ospf_disp(timer *timer);
static void
add_area_nets(struct ospf_area *oa, struct ospf_area_config *ac)
{
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struct ospf_proto *p = oa->po;
struct area_net_config *anc;
struct area_net *an;
fib_init(&oa->net_fib, p->p.pool, ospf_get_af(p),
sizeof(struct area_net), OFFSETOF(struct area_net, fn), 0, NULL);
fib_init(&oa->enet_fib, p->p.pool, ospf_get_af(p),
sizeof(struct area_net), OFFSETOF(struct area_net, fn), 0, NULL);
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WALK_LIST(anc, ac->net_list)
{
an = fib_get(&oa->net_fib, &anc->prefix);
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an->hidden = anc->hidden;
}
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WALK_LIST(anc, ac->enet_list)
{
an = fib_get(&oa->enet_fib, &anc->prefix);
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an->hidden = anc->hidden;
an->tag = anc->tag;
}
}
static inline uint
ospf_opts(struct ospf_proto *p)
{
if (ospf_is_v2(p))
return OPT_O;
return ((ospf_is_ip6(p) && !p->af_mc) ? OPT_V6 : 0) |
(!p->stub_router ? OPT_R : 0) | (p->af_ext ? OPT_AF : 0);
}
static void
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ospf_area_add(struct ospf_proto *p, struct ospf_area_config *ac)
{
struct ospf_area *oa;
OSPF_TRACE(D_EVENTS, "Adding area %R", ac->areaid);
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oa = mb_allocz(p->p.pool, sizeof(struct ospf_area));
add_tail(&p->area_list, NODE oa);
p->areano++;
oa->ac = ac;
oa->areaid = ac->areaid;
oa->rt = NULL;
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oa->po = p;
fib_init(&oa->rtr, p->p.pool, NET_IP4, sizeof(ort), OFFSETOF(ort, fn), 0, NULL);
add_area_nets(oa, ac);
if (oa->areaid == 0)
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p->backbone = oa;
oa->options = ac->type | ospf_opts(p);
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ospf_notify_rt_lsa(oa);
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}
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static void
ospf_flush_area(struct ospf_proto *p, u32 areaid)
{
struct top_hash_entry *en;
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WALK_SLIST(en, p->lsal)
if ((LSA_SCOPE(en->lsa_type) == LSA_SCOPE_AREA) && (en->domain == areaid))
ospf_flush_lsa(p, en);
}
static void
ospf_area_remove(struct ospf_area *oa)
{
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struct ospf_proto *p = oa->po;
OSPF_TRACE(D_EVENTS, "Removing area %R", oa->areaid);
/* We suppose that interfaces are already removed */
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ospf_flush_area(p, oa->areaid);
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fib_free(&oa->rtr);
fib_free(&oa->net_fib);
fib_free(&oa->enet_fib);
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if (oa->translator_timer)
rfree(oa->translator_timer);
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p->areano--;
rem_node(NODE oa);
mb_free(oa);
}
struct ospf_area *
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ospf_find_area(struct ospf_proto *p, u32 aid)
{
struct ospf_area *oa;
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WALK_LIST(oa, p->area_list)
if (((struct ospf_area *) oa)->areaid == aid)
return oa;
return NULL;
}
static struct ospf_iface *
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ospf_find_vlink(struct ospf_proto *p, u32 voa, u32 vid)
{
struct ospf_iface *ifa;
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WALK_LIST(ifa, p->iface_list)
if ((ifa->type == OSPF_IT_VLINK) && (ifa->voa->areaid == voa) && (ifa->vid == vid))
return ifa;
return NULL;
}
static void
ospf_start_gr_recovery(struct ospf_proto *p)
{
OSPF_TRACE(D_EVENTS, "Graceful restart started");
p->gr_recovery = 1;
p->gr_timeout = current_time() + (p->gr_time S);
channel_graceful_restart_lock(p->p.main_channel);
p->p.main_channel->gr_wait = 1;
/* NOTE: We should get end of grace period from non-volatile storage */
}
void
ospf_stop_gr_recovery(struct ospf_proto *p)
{
p->gr_recovery = 0;
p->gr_cleanup = 1;
p->gr_timeout = 0;
/* Reorigination of router/network LSAs is already scheduled */
/* Rest is done in ospf_cleanup_gr_recovery() */
}
static void
ospf_cleanup_gr_recovery(struct ospf_proto *p)
{
struct top_hash_entry *en;
/* Flush dirty LSAa except external ones, these will be handled by feed */
WALK_SLIST(en, p->lsal)
if (en->gr_dirty)
{
if ((en->lsa_type == LSA_T_EXT) || (en->lsa_type == LSA_T_NSSA))
en->mode = LSA_M_EXPORT;
else
ospf_flush_lsa(p, en);
}
/* End graceful restart on channel, will also schedule feed */
channel_graceful_restart_unlock(p->p.main_channel);
p->gr_cleanup = 0;
}
static int
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ospf_start(struct proto *P)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
struct ospf_config *c = (struct ospf_config *) (P->cf);
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struct ospf_area_config *ac;
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p->router_id = proto_get_router_id(P->cf);
p->ospf2 = c->ospf2;
p->af_ext = c->af_ext;
p->af_mc = c->af_mc;
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p->rfc1583 = c->rfc1583;
p->stub_router = c->stub_router;
p->merge_external = c->merge_external;
p->instance_id = c->instance_id;
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p->asbr = c->asbr;
p->vpn_pe = c->vpn_pe;
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p->ecmp = c->ecmp;
p->gr_mode = c->gr_mode;
p->gr_time = c->gr_time;
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p->tick = c->tick;
p->disp_timer = tm_new_init(P->pool, ospf_disp, p, p->tick S, 0);
tm_start(p->disp_timer, 100 MS);
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p->lsab_size = 256;
p->lsab_used = 0;
p->lsab = mb_alloc(P->pool, p->lsab_size);
p->nhpool = lp_new(P->pool);
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init_list(&(p->iface_list));
init_list(&(p->area_list));
fib_init(&p->rtf, P->pool, ospf_get_af(p), sizeof(ort), OFFSETOF(ort, fn), 0, NULL);
if (ospf_is_v3(p))
idm_init(&p->idm, P->pool, 16);
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p->areano = 0;
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p->gr = ospf_top_new(p, P->pool);
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s_init_list(&(p->lsal));
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p->flood_event = ev_new_init(P->pool, ospf_flood_event, p);
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p->log_pkt_tbf = (struct tbf){ .rate = 1, .burst = 5 };
p->log_lsa_tbf = (struct tbf){ .rate = 4, .burst = 20 };
/* Lock the channel when in GR recovery mode */
if (p->p.gr_recovery && (p->gr_mode == OSPF_GR_ABLE))
ospf_start_gr_recovery(p);
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WALK_LIST(ac, c->area_list)
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ospf_area_add(p, ac);
if (c->abr)
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ospf_open_vlink_sk(p);
/* Add all virtual links */
struct ospf_iface_patt *ic;
WALK_LIST(ic, c->vlink_list)
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ospf_iface_new_vlink(p, ic);
return PS_UP;
}
static void
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ospf_dump(struct proto *P)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
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struct ospf_iface *ifa;
struct ospf_neighbor *n;
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OSPF_TRACE(D_EVENTS, "Area number: %d", p->areano);
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WALK_LIST(ifa, p->iface_list)
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{
OSPF_TRACE(D_EVENTS, "Interface: %s", ifa->ifname);
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OSPF_TRACE(D_EVENTS, "state: %u", ifa->state);
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OSPF_TRACE(D_EVENTS, "DR: %R", ifa->drid);
OSPF_TRACE(D_EVENTS, "BDR: %R", ifa->bdrid);
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WALK_LIST(n, ifa->neigh_list)
{
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OSPF_TRACE(D_EVENTS, " neighbor %R in state %u", n->rid, n->state);
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}
}
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/*
OSPF_TRACE(D_EVENTS, "LSA graph dump start:");
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ospf_top_dump(p->gr, p);
OSPF_TRACE(D_EVENTS, "LSA graph dump finished");
*/
neigh_dump_all();
}
static struct proto *
ospf_init(struct proto_config *CF)
{
struct ospf_config *cf = (struct ospf_config *) CF;
struct proto *P = proto_new(CF);
P->main_channel = proto_add_channel(P, proto_cf_main_channel(CF));
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P->rt_notify = ospf_rt_notify;
P->if_notify = ospf_if_notify;
P->ifa_notify = cf->ospf2 ? ospf_ifa_notify2 : ospf_ifa_notify3;
Terminology cleanup: The import_control hook is now called preexport. Once upon a time, far far away, there were the old Bird developers discussing what direction of route flow shall be called import and export. They decided to say "import to protocol" and "export to table" when speaking about a protocol. When speaking about a table, they spoke about "importing to table" and "exporting to protocol". The latter terminology was adopted in configuration, then also the bird CLI in commit ea2ae6dd0 started to use it (in year 2009). Now it's 2018 and the terminology is the latter. Import is from protocol to table, export is from table to protocol. Anyway, there was still an import_control hook which executed right before route export. One thing is funny. There are two commits in April 1999 with just two minutes between them. The older announces the final settlement on config terminology, the newer uses the other definition. Let's see their commit messages as the git-log tool shows them (the newer first): commit 9e0e485e50ea74c4f1c5cb65bdfe6ce819c2cee2 Author: Martin Mares <mj@ucw.cz> Date: Mon Apr 5 20:17:59 1999 +0000 Added some new protocol hooks (look at the comments for better explanation): make_tmp_attrs Convert inline attributes to ea_list store_tmp_attrs Convert ea_list to inline attributes import_control Pre-import decisions commit 5056c559c4eb253a4eee10cf35b694faec5265eb Author: Martin Mares <mj@ucw.cz> Date: Mon Apr 5 20:15:31 1999 +0000 Changed syntax of attaching filters to protocols to hopefully the final version: EXPORT <filter-spec> for outbound routes (i.e., those announced by BIRD to the rest of the world). IMPORT <filter-spec> for inbound routes (i.e., those imported by BIRD from the rest of the world). where <filter-spec> is one of: ALL pass all routes NONE drop all routes FILTER <name> use named filter FILTER { <filter> } use explicitly defined filter For all protocols, the default is IMPORT ALL, EXPORT NONE. This includes the kernel protocol, so that you need to add EXPORT ALL to get the previous configuration of kernel syncer (as usually, see doc/bird.conf.example for a bird.conf example :)). Let's say RIP to this almost 19-years-old inconsistency. For now, if you import a route, it is always from protocol to table. If you export a route, it is always from table to protocol. And they lived happily ever after.
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P->preexport = ospf_preexport;
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P->reload_routes = ospf_reload_routes;
P->feed_begin = ospf_feed_begin;
P->feed_end = ospf_feed_end;
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P->rte_better = ospf_rte_better;
P->rte_igp_metric = ospf_rte_igp_metric;
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return P;
}
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/* If new is better return 1 */
static int
ospf_rte_better(struct rte *new, struct rte *old)
{
u32 new_metric1 = ea_get_int(new->attrs, &ea_ospf_metric1, LSINFINITY);
if (new_metric1 == LSINFINITY)
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return 0;
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u32 ns = rt_get_source_attr(new);
u32 os = rt_get_source_attr(old);
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if (ns < os) return 1;
if (ns > os) return 0;
if (ns == RTS_OSPF_EXT2)
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{
u32 old_metric2 = ea_get_int(old->attrs, &ea_ospf_metric2, LSINFINITY);
u32 new_metric2 = ea_get_int(new->attrs, &ea_ospf_metric2, LSINFINITY);
if (new_metric2 < old_metric2) return 1;
if (new_metric2 > old_metric2) return 0;
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}
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u32 old_metric1 = ea_get_int(old->attrs, &ea_ospf_metric1, LSINFINITY);
if (new_metric1 < old_metric1)
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return 1;
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return 0; /* Old is shorter or same */
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}
static u32
ospf_rte_igp_metric(const rte *rt)
{
if (rt_get_source_attr(rt) == RTS_OSPF_EXT2)
return IGP_METRIC_UNKNOWN;
return ea_get_int(rt->attrs, &ea_ospf_metric1, LSINFINITY);
}
void
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ospf_schedule_rtcalc(struct ospf_proto *p)
{
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if (p->calcrt)
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return;
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OSPF_TRACE(D_EVENTS, "Scheduling routing table calculation");
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p->calcrt = 1;
}
static void
ospf_reload_routes(struct channel *C)
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{
struct ospf_proto *p = (struct ospf_proto *) C->proto;
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if (p->calcrt == 2)
return;
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OSPF_TRACE(D_EVENTS, "Scheduling routing table calculation with route reload");
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p->calcrt = 2;
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}
/**
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* ospf_disp - invokes routing table calculation, aging and also area_disp()
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* @timer: timer usually called every @ospf_proto->tick second, @timer->data
* point to @ospf_proto
*/
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static void
ospf_disp(timer * timer)
{
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struct ospf_proto *p = timer->data;
/* Check for end of graceful restart */
if (p->gr_recovery)
ospf_update_gr_recovery(p);
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/* Originate or flush local topology LSAs */
ospf_update_topology(p);
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/* Process LSA DB */
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ospf_update_lsadb(p);
/* Calculate routing table */
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if (p->calcrt)
ospf_rt_spf(p);
/* Cleanup after graceful restart */
if (p->gr_cleanup)
ospf_cleanup_gr_recovery(p);
}
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/**
Terminology cleanup: The import_control hook is now called preexport. Once upon a time, far far away, there were the old Bird developers discussing what direction of route flow shall be called import and export. They decided to say "import to protocol" and "export to table" when speaking about a protocol. When speaking about a table, they spoke about "importing to table" and "exporting to protocol". The latter terminology was adopted in configuration, then also the bird CLI in commit ea2ae6dd0 started to use it (in year 2009). Now it's 2018 and the terminology is the latter. Import is from protocol to table, export is from table to protocol. Anyway, there was still an import_control hook which executed right before route export. One thing is funny. There are two commits in April 1999 with just two minutes between them. The older announces the final settlement on config terminology, the newer uses the other definition. Let's see their commit messages as the git-log tool shows them (the newer first): commit 9e0e485e50ea74c4f1c5cb65bdfe6ce819c2cee2 Author: Martin Mares <mj@ucw.cz> Date: Mon Apr 5 20:17:59 1999 +0000 Added some new protocol hooks (look at the comments for better explanation): make_tmp_attrs Convert inline attributes to ea_list store_tmp_attrs Convert ea_list to inline attributes import_control Pre-import decisions commit 5056c559c4eb253a4eee10cf35b694faec5265eb Author: Martin Mares <mj@ucw.cz> Date: Mon Apr 5 20:15:31 1999 +0000 Changed syntax of attaching filters to protocols to hopefully the final version: EXPORT <filter-spec> for outbound routes (i.e., those announced by BIRD to the rest of the world). IMPORT <filter-spec> for inbound routes (i.e., those imported by BIRD from the rest of the world). where <filter-spec> is one of: ALL pass all routes NONE drop all routes FILTER <name> use named filter FILTER { <filter> } use explicitly defined filter For all protocols, the default is IMPORT ALL, EXPORT NONE. This includes the kernel protocol, so that you need to add EXPORT ALL to get the previous configuration of kernel syncer (as usually, see doc/bird.conf.example for a bird.conf example :)). Let's say RIP to this almost 19-years-old inconsistency. For now, if you import a route, it is always from protocol to table. If you export a route, it is always from table to protocol. And they lived happily ever after.
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* ospf_preexport - accept or reject new route from nest's routing table
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* @P: OSPF protocol instance
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* @new: the new route
* @attrs: list of attributes
* @pool: pool for allocation of attributes
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*
* Its quite simple. It does not accept our own routes and leaves the decision on
* import to the filters.
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*/
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static int
ospf_preexport(struct channel *c, rte *e)
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{
struct ospf_proto *p = (struct ospf_proto *) c->proto;
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struct ospf_area *oa = ospf_main_area(p);
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/* Reject our own routes */
if (e->src->proto == c->proto)
return -1;
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/* Do not export routes to stub areas */
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if (oa_is_stub(oa))
return -1;
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return 0;
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}
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/**
* ospf_shutdown - Finish of OSPF instance
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* @P: OSPF protocol instance
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*
* RFC does not define any action that should be taken before router
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* shutdown. To make my neighbors react as fast as possible, I send
* them hello packet with empty neighbor list. They should start
* their neighbor state machine with event %NEIGHBOR_1WAY.
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*/
static int
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ospf_shutdown(struct proto *P)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
struct ospf_iface *ifa;
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OSPF_TRACE(D_EVENTS, "Shutdown requested");
if ((P->down_code == PDC_CMD_GR_DOWN) && (p->gr_mode == OSPF_GR_ABLE))
{
/* Originate Grace LSAs */
WALK_LIST(ifa, p->iface_list)
ospf_originate_gr_lsa(p, ifa);
}
else
{
/* Send to all my neighbors 1WAY */
WALK_LIST(ifa, p->iface_list)
ospf_iface_shutdown(ifa);
}
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/* Cleanup locked rta entries */
FIB_WALK(&p->rtf, ort, nf)
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{
ea_free(nf->old_ea);
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}
FIB_WALK_END;
if (tm_active(p->disp_timer))
tm_stop(p->disp_timer);
return PS_DOWN;
}
static void
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ospf_get_status(struct proto *P, byte * buf)
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{
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struct ospf_proto *p = (struct ospf_proto *) P;
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if (p->p.proto_state == PS_DOWN)
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buf[0] = 0;
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else
{
struct ospf_iface *ifa;
struct ospf_neighbor *n;
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int adj = 0;
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WALK_LIST(ifa, p->iface_list)
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WALK_LIST(n, ifa->neigh_list) if (n->state == NEIGHBOR_FULL)
adj = 1;
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if (adj == 0)
strcpy(buf, "Alone");
else
strcpy(buf, "Running");
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}
}
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static void
ospf_get_route_info(rte * rte, byte * buf)
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{
char *type = "<bug>";
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uint source = rt_get_source_attr(rte);
switch (source)
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{
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case RTS_OSPF:
type = "I";
break;
case RTS_OSPF_IA:
type = "IA";
break;
case RTS_OSPF_EXT1:
type = "E1";
break;
case RTS_OSPF_EXT2:
type = "E2";
break;
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}
buf += bsprintf(buf, " %s", type);
buf += bsprintf(buf, " (%d/%d", rt_get_preference(rte), ea_get_int(rte->attrs, &ea_ospf_metric1, LSINFINITY));
if (source == RTS_OSPF_EXT2)
buf += bsprintf(buf, "/%d", ea_get_int(rte->attrs, &ea_ospf_metric2, LSINFINITY));
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buf += bsprintf(buf, ")");
if (source == RTS_OSPF_EXT1 || source == RTS_OSPF_EXT2)
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{
eattr *ea = ea_find(rte->attrs, &ea_ospf_tag);
if (ea && (ea->u.data > 0))
buf += bsprintf(buf, " [%x]", ea->u.data);
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}
eattr *ea = ea_find(rte->attrs, &ea_ospf_router_id);
if (ea)
buf += bsprintf(buf, " [%R]", ea->u.data);
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}
static void
ospf_tag_format(const eattr * a, byte * buf, uint buflen)
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{
bsnprintf(buf, buflen, "0x%08x", a->u.data);
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}
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static void
ospf_area_reconfigure(struct ospf_area *oa, struct ospf_area_config *nac)
{
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struct ospf_proto *p = oa->po;
struct ospf_area_config *oac = oa->ac;
struct ospf_iface *ifa, *ifx;
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oa->ac = nac;
oa->options = nac->type | ospf_opts(p);
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if (nac->type != oac->type)
{
log(L_INFO "%s: Restarting area %R", p->p.name, oa->areaid);
/* Remove area interfaces, will be re-added later */
WALK_LIST_DELSAFE(ifa, ifx, p->iface_list)
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if (ifa->oa == oa)
{
ospf_iface_shutdown(ifa);
ospf_iface_remove(ifa);
}
/* Flush area LSAs */
ospf_flush_area(p, oa->areaid);
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}
/* Handle net_list */
fib_free(&oa->net_fib);
fib_free(&oa->enet_fib);
add_area_nets(oa, nac);
/* No need to handle stubnet_list */
oa->marked = 0;
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ospf_notify_rt_lsa(oa);
}
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/**
* ospf_reconfigure - reconfiguration hook
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* @P: current instance of protocol (with old configuration)
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* @c: new configuration requested by user
*
* This hook tries to be a little bit intelligent. Instance of OSPF
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* will survive change of many constants like hello interval,
* password change, addition or deletion of some neighbor on
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* nonbroadcast network, cost of interface, etc.
*/
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static int
ospf_reconfigure(struct proto *P, struct proto_config *CF)
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{
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struct ospf_proto *p = (struct ospf_proto *) P;
struct ospf_config *old = (struct ospf_config *) (P->cf);
struct ospf_config *new = (struct ospf_config *) CF;
struct ospf_area_config *oac, *nac;
struct ospf_area *oa, *oax;
struct ospf_iface *ifa, *ifx;
struct ospf_iface_patt *ip;
if (proto_get_router_id(CF) != p->router_id)
return 0;
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if (p->ospf2 != new->ospf2)
return 0;
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if (p->rfc1583 != new->rfc1583)
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return 0;
if (p->instance_id != new->instance_id)
return 0;
if (old->abr != new->abr)
return 0;
if (p->areano == 1)
{
oac = HEAD(old->area_list);
nac = HEAD(new->area_list);
if (oac->type != nac->type)
return 0;
}
if (old->vpn_pe != new->vpn_pe)
return 0;
if ((p->af_ext != new->af_ext) || (p->af_mc != new->af_mc))
return 0;
if (!proto_configure_channel(P, &P->main_channel, proto_cf_main_channel(CF)))
return 0;
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p->stub_router = new->stub_router;
p->merge_external = new->merge_external;
p->asbr = new->asbr;
p->ecmp = new->ecmp;
p->gr_mode = new->gr_mode;
p->gr_time = new->gr_time;
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p->tick = new->tick;
p->disp_timer->recurrent = p->tick S;
tm_start(p->disp_timer, 10 MS);
/* Mark all areas and ifaces */
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WALK_LIST(oa, p->area_list)
oa->marked = 1;
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WALK_LIST(ifa, p->iface_list)
ifa->marked = 1;
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/* Add and update areas */
WALK_LIST(nac, new->area_list)
{
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oa = ospf_find_area(p, nac->areaid);
if (oa)
ospf_area_reconfigure(oa, nac);
else
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ospf_area_add(p, nac);
}
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/* Add and update interfaces */
ospf_reconfigure_ifaces(p);
/* Add and update vlinks */
WALK_LIST(ip, new->vlink_list)
{
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ifa = ospf_find_vlink(p, ip->voa, ip->vid);
if (ifa)
ospf_iface_reconfigure(ifa, ip);
else
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ospf_iface_new_vlink(p, ip);
}
/* Delete remaining ifaces and areas */
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WALK_LIST_DELSAFE(ifa, ifx, p->iface_list)
if (ifa->marked)
{
ospf_iface_shutdown(ifa);
ospf_iface_remove(ifa);
}
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WALK_LIST_DELSAFE(oa, oax, p->area_list)
if (oa->marked)
ospf_area_remove(oa);
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ospf_schedule_rtcalc(p);
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return 1;
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}
void
ospf_sh_neigh(struct proto *P, const char *iff)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
struct ospf_iface *ifa = NULL;
struct ospf_neighbor *n;
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if (p->p.proto_state != PS_UP)
{
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cli_msg(-1013, "%s: is not up", p->p.name);
return;
}
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cli_msg(-1013, "%s:", p->p.name);
cli_msg(-1013, "%-12s\t%3s\t%-15s\t%-5s\t%-10s %s", "Router ID", "Pri",
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" State", "DTime", "Interface", "Router IP");
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WALK_LIST(ifa, p->iface_list)
if ((iff == NULL) || patmatch(iff, ifa->ifname))
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WALK_LIST(n, ifa->neigh_list)
ospf_sh_neigh_info(n);
}
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void
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ospf_sh(struct proto *P)
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{
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struct ospf_proto *p = (struct ospf_proto *) P;
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struct ospf_area *oa;
struct ospf_iface *ifa;
struct ospf_neighbor *n;
int ifano, nno, adjno, firstfib;
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if (p->p.proto_state != PS_UP)
{
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cli_msg(-1014, "%s: is not up", p->p.name);
return;
}
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cli_msg(-1014, "%s:", p->p.name);
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cli_msg(-1014, "RFC1583 compatibility: %s", (p->rfc1583 ? "enabled" : "disabled"));
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cli_msg(-1014, "Stub router: %s", (p->stub_router ? "Yes" : "No"));
cli_msg(-1014, "RT scheduler tick: %d", p->tick);
cli_msg(-1014, "Number of areas: %u", p->areano);
cli_msg(-1014, "Number of LSAs in DB:\t%u", p->gr->hash_entries);
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WALK_LIST(oa, p->area_list)
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{
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cli_msg(-1014, "\tArea: %R (%u) %s", oa->areaid, oa->areaid,
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oa->areaid == 0 ? "[BACKBONE]" : "");
ifano = 0;
nno = 0;
adjno = 0;
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WALK_LIST(ifa, p->iface_list)
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{
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if (oa == ifa->oa)
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{
ifano++;
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WALK_LIST(n, ifa->neigh_list)
{
nno++;
if (n->state == NEIGHBOR_FULL)
adjno++;
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}
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}
}
cli_msg(-1014, "\t\tStub:\t%s", oa_is_stub(oa) ? "Yes" : "No");
cli_msg(-1014, "\t\tNSSA:\t%s", oa_is_nssa(oa) ? "Yes" : "No");
cli_msg(-1014, "\t\tTransit:\t%s", oa->trcap ? "Yes" : "No");
if (oa_is_nssa(oa))
cli_msg(-1014, "\t\tNSSA translation:\t%s%s", oa->translate ? "Yes" : "No",
oa->translate == TRANS_WAIT ? " (run down)" : "");
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cli_msg(-1014, "\t\tNumber of interfaces:\t%u", ifano);
cli_msg(-1014, "\t\tNumber of neighbors:\t%u", nno);
cli_msg(-1014, "\t\tNumber of adjacent neighbors:\t%u", adjno);
firstfib = 1;
FIB_WALK(&oa->net_fib, struct area_net, anet)
{
if(firstfib)
{
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cli_msg(-1014, "\t\tArea networks:");
firstfib = 0;
}
cli_msg(-1014, "\t\t\t%1N\t%s\t%s", anet->fn.addr,
anet->hidden ? "Hidden" : "Advertise", anet->active ? "Active" : "");
}
FIB_WALK_END;
firstfib = 1;
FIB_WALK(&oa->enet_fib, struct area_net, anet)
{
if(firstfib)
{
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cli_msg(-1014, "\t\tArea external networks:");
firstfib = 0;
}
cli_msg(-1014, "\t\t\t%1N\t%s\t%s", anet->fn.addr,
anet->hidden ? "Hidden" : "Advertise", anet->active ? "Active" : "");
}
FIB_WALK_END;
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}
}
void
ospf_sh_iface(struct proto *P, const char *iff)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
struct ospf_iface *ifa = NULL;
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if (p->p.proto_state != PS_UP)
{
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cli_msg(-1015, "%s: is not up", p->p.name);
return;
}
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cli_msg(-1015, "%s:", p->p.name);
WALK_LIST(ifa, p->iface_list)
if ((iff == NULL) || patmatch(iff, ifa->ifname))
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ospf_iface_info(ifa);
}
/* lsa_compare_for_state() - Compare function for 'show ospf state'
*
* First we want to separate network-LSAs and other LSAs (because network-LSAs
* will be presented as network nodes and other LSAs together as router nodes)
* Network-LSAs are sorted according to network prefix, other LSAs are sorted
* according to originating router id (to get all LSA needed to represent one
* router node together). Then, according to LSA type, ID and age.
*
* For OSPFv3, we have to handle also Prefix-LSAs. We would like to put each
* immediately after the referenced LSA. We will make faked LSA based on ref_
* values
*/
static struct ospf_lsa_header *
fake_lsa_from_prefix_lsa(struct ospf_lsa_header *dst, struct ospf_lsa_header *src,
struct ospf_lsa_prefix *px)
{
dst->age = src->age;
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dst->type_raw = px->ref_type;
dst->id = px->ref_id;
dst->rt = px->ref_rt;
dst->sn = src->sn;
return dst;
}
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static int lsa_compare_ospf3;
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static int
lsa_compare_for_state(const void *p1, const void *p2)
{
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struct top_hash_entry *he1 = * (struct top_hash_entry **) p1;
struct top_hash_entry *he2 = * (struct top_hash_entry **) p2;
struct ospf_lsa_header *lsa1 = &(he1->lsa);
struct ospf_lsa_header *lsa2 = &(he2->lsa);
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struct ospf_lsa_header lsatmp1, lsatmp2;
u16 lsa1_type = he1->lsa_type;
u16 lsa2_type = he2->lsa_type;
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if (he1->domain < he2->domain)
return -1;
if (he1->domain > he2->domain)
return 1;
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/* px1 or px2 assumes OSPFv3 */
int px1 = (lsa1_type == LSA_T_PREFIX);
int px2 = (lsa2_type == LSA_T_PREFIX);
if (px1)
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{
lsa1 = fake_lsa_from_prefix_lsa(&lsatmp1, lsa1, he1->lsa_body);
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lsa1_type = lsa1->type_raw; /* FIXME: handle unknown ref_type */
}
if (px2)
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{
lsa2 = fake_lsa_from_prefix_lsa(&lsatmp2, lsa2, he2->lsa_body);
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lsa2_type = lsa2->type_raw;
}
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int nt1 = (lsa1_type == LSA_T_NET);
int nt2 = (lsa2_type == LSA_T_NET);
if (nt1 != nt2)
return nt1 - nt2;
if (nt1)
{
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/* In OSPFv3, networks are named based on ID of DR */
if (lsa_compare_ospf3)
{
if (lsa1->rt < lsa2->rt)
return -1;
if (lsa1->rt > lsa2->rt)
return 1;
}
/* For OSPFv2, this is IP of the network,
for OSPFv3, this is interface ID */
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if (lsa1->id < lsa2->id)
return -1;
if (lsa1->id > lsa2->id)
return 1;
if (px1 != px2)
return px1 - px2;
return lsa1->sn - lsa2->sn;
}
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else
{
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if (lsa1->rt < lsa2->rt)
return -1;
if (lsa1->rt > lsa2->rt)
return 1;
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if (lsa1_type < lsa2_type)
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return -1;
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if (lsa1_type > lsa2_type)
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return 1;
if (lsa1->id < lsa2->id)
return -1;
if (lsa1->id > lsa2->id)
return 1;
if (px1 != px2)
return px1 - px2;
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return lsa1->sn - lsa2->sn;
}
}
static int
ext_compare_for_state(const void *p1, const void *p2)
{
struct top_hash_entry * he1 = * (struct top_hash_entry **) p1;
struct top_hash_entry * he2 = * (struct top_hash_entry **) p2;
struct ospf_lsa_header *lsa1 = &(he1->lsa);
struct ospf_lsa_header *lsa2 = &(he2->lsa);
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if (lsa1->rt < lsa2->rt)
return -1;
if (lsa1->rt > lsa2->rt)
return 1;
if (lsa1->id < lsa2->id)
return -1;
if (lsa1->id > lsa2->id)
return 1;
return lsa1->sn - lsa2->sn;
}
static inline void
show_lsa_distance(struct top_hash_entry *he)
{
if (he->color == INSPF)
cli_msg(-1016, "\t\tdistance %u", he->dist);
else
cli_msg(-1016, "\t\tunreachable");
}
static inline void
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show_lsa_router(struct ospf_proto *p, struct top_hash_entry *he, int verbose)
{
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struct ospf_lsa_rt_walk rtl;
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cli_msg(-1016, "");
cli_msg(-1016, "\trouter %R", he->lsa.rt);
show_lsa_distance(he);
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lsa_walk_rt_init(p, he, &rtl);
while (lsa_walk_rt(&rtl))
if (rtl.type == LSART_VLNK)
cli_msg(-1016, "\t\tvlink %R metric %u", rtl.id, rtl.metric);
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lsa_walk_rt_init(p, he, &rtl);
while (lsa_walk_rt(&rtl))
if (rtl.type == LSART_PTP)
cli_msg(-1016, "\t\trouter %R metric %u", rtl.id, rtl.metric);
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lsa_walk_rt_init(p, he, &rtl);
while (lsa_walk_rt(&rtl))
if (rtl.type == LSART_NET)
{
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if (ospf_is_v2(p))
{
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/* In OSPFv2, we try to find network-LSA to get prefix/pxlen */
struct top_hash_entry *net_he = ospf_hash_find_net2(p->gr, he->domain, rtl.id);
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if (net_he && (net_he->lsa.age < LSA_MAXAGE))
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{
struct ospf_lsa_header *net_lsa = &(net_he->lsa);
struct ospf_lsa_net *net_ln = net_he->lsa_body;
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cli_msg(-1016, "\t\tnetwork %I/%d metric %u",
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ipa_from_u32(net_lsa->id & net_ln->optx),
u32_masklen(net_ln->optx), rtl.metric);
}
else
cli_msg(-1016, "\t\tnetwork [%R] metric %u", rtl.id, rtl.metric);
}
else
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cli_msg(-1016, "\t\tnetwork [%R-%u] metric %u", rtl.id, rtl.nif, rtl.metric);
}
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if (ospf_is_v2(p) && verbose)
{
lsa_walk_rt_init(p, he, &rtl);
while (lsa_walk_rt(&rtl))
if (rtl.type == LSART_STUB)
cli_msg(-1016, "\t\tstubnet %I/%d metric %u",
ipa_from_u32(rtl.id), u32_masklen(rtl.data), rtl.metric);
}
}
static inline void
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show_lsa_network(struct top_hash_entry *he, int ospf2)
{
struct ospf_lsa_header *lsa = &(he->lsa);
struct ospf_lsa_net *ln = he->lsa_body;
u32 i;
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if (ospf2)
{
cli_msg(-1016, "");
cli_msg(-1016, "\tnetwork %I/%d", ipa_from_u32(lsa->id & ln->optx), u32_masklen(ln->optx));
cli_msg(-1016, "\t\tdr %R", lsa->rt);
}
else
{
cli_msg(-1016, "");
cli_msg(-1016, "\tnetwork [%R-%u]", lsa->rt, lsa->id);
}
show_lsa_distance(he);
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for (i = 0; i < lsa_net_count(lsa); i++)
cli_msg(-1016, "\t\trouter %R", ln->routers[i]);
}
static inline void
show_lsa_sum_net(struct top_hash_entry *he, int ospf2, int af)
{
net_addr net;
u8 pxopts;
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u32 metric;
lsa_parse_sum_net(he, ospf2, af, &net, &pxopts, &metric);
cli_msg(-1016, "\t\txnetwork %N metric %u", &net, metric);
}
static inline void
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show_lsa_sum_rt(struct top_hash_entry *he, int ospf2)
{
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u32 metric;
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u32 dst_rid;
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u32 options;
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lsa_parse_sum_rt(he, ospf2, &dst_rid, &metric, &options);
cli_msg(-1016, "\t\txrouter %R metric %u", dst_rid, metric);
}
static inline void
show_lsa_external(struct top_hash_entry *he, int ospf2, int af)
{
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struct ospf_lsa_ext_local rt;
char str_via[IPA_MAX_TEXT_LENGTH + 8] = "";
char str_tag[16] = "";
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if (he->lsa_type == LSA_T_EXT)
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he->domain = 0; /* Unmark the LSA */
lsa_parse_ext(he, ospf2, af, &rt);
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if (rt.fbit)
bsprintf(str_via, " via %I", rt.fwaddr);
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if (rt.tag)
bsprintf(str_tag, " tag %08x", rt.tag);
cli_msg(-1016, "\t\t%s %N metric%s %u%s%s",
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(he->lsa_type == LSA_T_NSSA) ? "nssa-ext" : "external",
&rt.net, rt.ebit ? "2" : "", rt.metric, str_via, str_tag);
}
static inline void
show_lsa_prefix(struct top_hash_entry *he, struct top_hash_entry *cnode, int af)
{
struct ospf_lsa_prefix *px = he->lsa_body;
u32 *buf;
int i;
/* We check whether given prefix-LSA is related to the current node */
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if ((px->ref_type != cnode->lsa.type_raw) || (px->ref_rt != cnode->lsa.rt))
return;
if ((px->ref_type == LSA_T_RT) && (px->ref_id != 0))
return;
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if ((px->ref_type == LSA_T_NET) && (px->ref_id != cnode->lsa.id))
return;
buf = px->rest;
for (i = 0; i < px->pxcount; i++)
{
net_addr net;
u8 pxopts;
u16 metric;
buf = ospf3_get_prefix(buf, af, &net, &pxopts, &metric);
if (px->ref_type == LSA_T_RT)
cli_msg(-1016, "\t\tstubnet %N metric %u", &net, metric);
else
cli_msg(-1016, "\t\taddress %N", &net);
}
}
void
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ospf_sh_state(struct proto *P, int verbose, int reachable)
{
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struct ospf_proto *p = (struct ospf_proto *) P;
int ospf2 = ospf_is_v2(p);
int af = ospf_get_af(p);
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uint i, ix, j1, jx;
u32 last_area = 0xFFFFFFFF;
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if (p->p.proto_state != PS_UP)
{
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cli_msg(-1016, "%s: is not up", p->p.name);
cli_msg(0, "");
return;
}
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/* We store interesting area-scoped LSAs in array hea and
global-scoped (LSA_T_EXT) LSAs in array hex */
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uint num = p->gr->hash_entries;
struct top_hash_entry *hea[num];
struct top_hash_entry **hex = verbose ? alloca(num * sizeof(struct top_hash_entry *)) : NULL;
struct top_hash_entry *he;
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struct top_hash_entry *cnode = NULL;
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j1 = jx = 0;
WALK_SLIST(he, p->lsal)
{
int accept;
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if (he->lsa.age == LSA_MAXAGE)
continue;
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switch (he->lsa_type)
{
case LSA_T_RT:
case LSA_T_NET:
accept = 1;
break;
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case LSA_T_SUM_NET:
case LSA_T_SUM_RT:
case LSA_T_NSSA:
case LSA_T_PREFIX:
accept = verbose;
break;
case LSA_T_EXT:
if (verbose)
{
he->domain = 1; /* Abuse domain field to mark the LSA */
hex[jx++] = he;
}
/* fallthrough */
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default:
accept = 0;
}
if (accept)
hea[j1++] = he;
}
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ASSERT(j1 <= num && jx <= num);
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lsa_compare_ospf3 = !ospf2;
qsort(hea, j1, sizeof(struct top_hash_entry *), lsa_compare_for_state);
if (verbose)
qsort(hex, jx, sizeof(struct top_hash_entry *), ext_compare_for_state);
/*
* This code is a bit tricky, we have a primary LSAs (router and
* network) that are presented as a node, and secondary LSAs that
* are presented as a part of a primary node. cnode represents an
* currently opened node (whose header was presented). The LSAs are
* sorted to get secondary LSAs just after related primary LSA (if
* available). We present secondary LSAs only when related primary
* LSA is opened.
*
* AS-external LSAs are stored separately as they might be presented
* several times (for each area when related ASBR is opened). When
* the node is closed, related external routes are presented. We
* also have to take into account that in OSPFv3, there might be
* more router-LSAs and only the first should be considered as a
* primary. This is handled by not closing old router-LSA when next
* one is processed (which is not opened because there is already
* one opened).
*/
ix = 0;
for (i = 0; i < j1; i++)
{
he = hea[i];
/* If there is no opened node, we open the LSA (if appropriate) or skip to the next one */
if (!cnode)
{
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if (((he->lsa_type == LSA_T_RT) || (he->lsa_type == LSA_T_NET))
&& ((he->color == INSPF) || !reachable))
{
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cnode = he;
if (he->domain != last_area)
{
cli_msg(-1016, "");
cli_msg(-1016, "area %R", he->domain);
last_area = he->domain;
ix = 0;
}
}
else
continue;
}
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ASSERT(cnode && (he->domain == last_area) && (he->lsa.rt == cnode->lsa.rt));
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switch (he->lsa_type)
{
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case LSA_T_RT:
if (he->lsa.id == cnode->lsa.id)
show_lsa_router(p, he, verbose);
break;
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case LSA_T_NET:
show_lsa_network(he, ospf2);
break;
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case LSA_T_SUM_NET:
if (cnode->lsa_type == LSA_T_RT)
show_lsa_sum_net(he, ospf2, af);
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break;
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case LSA_T_SUM_RT:
if (cnode->lsa_type == LSA_T_RT)
show_lsa_sum_rt(he, ospf2);
break;
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case LSA_T_EXT:
case LSA_T_NSSA:
show_lsa_external(he, ospf2, af);
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break;
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case LSA_T_PREFIX:
show_lsa_prefix(he, cnode, af);
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break;
}
/* In these cases, we close the current node */
if ((i+1 == j1)
|| (hea[i+1]->domain != last_area)
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|| (hea[i+1]->lsa.rt != cnode->lsa.rt)
|| (hea[i+1]->lsa_type == LSA_T_NET))
{
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while ((ix < jx) && (hex[ix]->lsa.rt < cnode->lsa.rt))
ix++;
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while ((ix < jx) && (hex[ix]->lsa.rt == cnode->lsa.rt))
show_lsa_external(hex[ix++], ospf2, af);
cnode = NULL;
}
}
int hdr = 0;
u32 last_rt = 0xFFFFFFFF;
for (ix = 0; ix < jx; ix++)
{
he = hex[ix];
/* If it is still marked, we show it now. */
if (he->domain)
{
he->domain = 0;
if ((he->color != INSPF) && reachable)
continue;
if (!hdr)
{
cli_msg(-1016, "");
cli_msg(-1016, "other ASBRs");
hdr = 1;
}
if (he->lsa.rt != last_rt)
{
cli_msg(-1016, "");
cli_msg(-1016, "\trouter %R", he->lsa.rt);
last_rt = he->lsa.rt;
}
show_lsa_external(he, ospf2, af);
}
}
cli_msg(0, "");
}
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static int
lsa_compare_for_lsadb(const void *p1, const void *p2)
{
struct top_hash_entry * he1 = * (struct top_hash_entry **) p1;
struct top_hash_entry * he2 = * (struct top_hash_entry **) p2;
struct ospf_lsa_header *lsa1 = &(he1->lsa);
struct ospf_lsa_header *lsa2 = &(he2->lsa);
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int sc1 = LSA_SCOPE(he1->lsa_type);
int sc2 = LSA_SCOPE(he2->lsa_type);
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if (sc1 != sc2)
return sc2 - sc1;
if (he1->domain != he2->domain)
return he1->domain - he2->domain;
if (lsa1->rt != lsa2->rt)
return lsa1->rt - lsa2->rt;
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if (lsa1->id != lsa2->id)
return lsa1->id - lsa2->id;
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if (he1->lsa_type != he2->lsa_type)
return he1->lsa_type - he2->lsa_type;
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return lsa1->sn - lsa2->sn;
}
void
ospf_sh_lsadb(struct lsadb_show_data *ld)
2009-10-15 09:57:25 +00:00
{
struct ospf_proto *p = ld->proto;
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uint num = p->gr->hash_entries;
uint i, j;
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int last_dscope = -1;
u32 last_domain = 0;
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u16 type_mask = ospf_is_v2(p) ? 0x00ff : 0xffff; /* see lsa_etype() */
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if (p->p.proto_state != PS_UP)
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{
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cli_msg(-1017, "%s: is not up", p->p.name);
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cli_msg(0, "");
return;
}
if (ld->router == SH_ROUTER_SELF)
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ld->router = p->router_id;
struct top_hash_entry *hea[num];
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struct top_hash_entry *he;
j = 0;
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WALK_SLIST(he, p->lsal)
if (he->lsa_body)
hea[j++] = he;
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ASSERT(j <= num);
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qsort(hea, j, sizeof(struct top_hash_entry *), lsa_compare_for_lsadb);
for (i = 0; i < j; i++)
{
struct ospf_lsa_header *lsa = &(hea[i]->lsa);
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u16 lsa_type = lsa->type_raw & type_mask;
u16 dscope = LSA_SCOPE(hea[i]->lsa_type);
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/* Hack: 1 is used for LSA_SCOPE_LINK, fixed by & 0xf000 */
if (ld->scope && (dscope != (ld->scope & 0xf000)))
continue;
if ((ld->scope == LSA_SCOPE_AREA) && (hea[i]->domain != ld->area))
continue;
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/* For user convenience ignore high nibble */
if (ld->type && ((lsa_type & 0x0fff) != (ld->type & 0x0fff)))
continue;
if (ld->lsid && (lsa->id != ld->lsid))
continue;
if (ld->router && (lsa->rt != ld->router))
continue;
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2009-10-15 09:57:25 +00:00
if ((dscope != last_dscope) || (hea[i]->domain != last_domain))
{
cli_msg(-1017, "");
switch (dscope)
{
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case LSA_SCOPE_AS:
cli_msg(-1017, "Global");
break;
case LSA_SCOPE_AREA:
cli_msg(-1017, "Area %R", hea[i]->domain);
break;
case LSA_SCOPE_LINK:
{
struct iface *ifa = if_find_by_index(hea[i]->domain);
cli_msg(-1017, "Link %s", (ifa != NULL) ? ifa->name : "?");
}
break;
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}
cli_msg(-1017, "");
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cli_msg(-1017," Type LS ID Router Sequence Age Checksum");
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last_dscope = dscope;
last_domain = hea[i]->domain;
}
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cli_msg(-1017," %04x %-15R %-15R %08x %5u %04x",
lsa_type, lsa->id, lsa->rt, lsa->sn, lsa->age, lsa->checksum);
2009-10-15 09:57:25 +00:00
}
cli_msg(0, "");
}
2000-06-06 00:52:35 +00:00
struct protocol proto_ospf = {
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.name = "OSPF",
.template = "ospf%d",
.preference = DEF_PREF_OSPF,
.channel_mask = NB_IP,
.proto_size = sizeof(struct ospf_proto),
.config_size = sizeof(struct ospf_config),
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.init = ospf_init,
.dump = ospf_dump,
.start = ospf_start,
.shutdown = ospf_shutdown,
.reconfigure = ospf_reconfigure,
.get_status = ospf_get_status,
.get_route_info = ospf_get_route_info
2000-06-06 00:52:35 +00:00
};
struct ea_class ea_ospf_metric1 = {
.name = "ospf_metric1",
.type = T_INT,
};
struct ea_class ea_ospf_metric2 = {
.name = "ospf_metric2",
.type = T_INT,
};
struct ea_class ea_ospf_tag = {
.name = "ospf_tag",
.type = T_INT,
.format = ospf_tag_format,
};
struct ea_class ea_ospf_router_id = {
.name = "ospf_router_id",
.type = T_QUAD,
};
void
ospf_build(void)
{
proto_build(&proto_ospf);
EA_REGISTER_ALL(
&ea_ospf_metric1,
&ea_ospf_metric2,
&ea_ospf_tag,
&ea_ospf_router_id
);
}