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bird/proto/pipe/pipe.c

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/*
* BIRD -- Table-to-Table Routing Protocol a.k.a Pipe
*
* (c) 1999--2000 Martin Mares <mj@ucw.cz>
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*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
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/**
* DOC: Pipe
*
* The Pipe protocol is very simple. It just connects to two routing tables
* using proto_add_announce_hook() and whenever it receives a rt_notify()
* about a change in one of the tables, it converts it to a rte_update()
* in the other one.
*
* To avoid pipe loops, Pipe keeps a `being updated' flag in each routing
* table.
*
* A pipe has two announce hooks, the first connected to the main
* table, the second connected to the peer table. When a new route is
* announced on the main table, it gets checked by an export filter in
* ahook 1, and, after that, it is announced to the peer table via
* rte_update(), an import filter in ahook 2 is called. When a new
* route is announced in the peer table, an export filter in ahook2
* and an import filter in ahook 1 are used. Oviously, there is no
* need in filtering the same route twice, so both import filters are
* set to accept, while user configured 'import' and 'export' filters
* are used as export filters in ahooks 2 and 1. Route limits are
* handled similarly, but on the import side of ahooks.
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*/
#undef LOCAL_DEBUG
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#include "nest/bird.h"
#include "nest/iface.h"
#include "nest/protocol.h"
#include "nest/route.h"
#include "nest/cli.h"
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#include "conf/conf.h"
#include "filter/filter.h"
#include "lib/string.h"
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#include "pipe.h"
static void
pipe_rt_notify(struct proto *P, struct channel *src_ch, net *n, rte *new, rte *old, ea_list *attrs)
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{
struct pipe_proto *p = (void *) P;
struct channel *dst = (src_ch == p->pri) ? p->sec : p->pri;
struct rte_src *src;
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rte *e;
rta *a;
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if (!new && !old)
return;
if (dst->table->pipe_busy)
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{
log(L_ERR "Pipe loop detected when sending %N to table %s",
n->n.addr, dst->table->name);
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return;
}
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if (new)
{
a = alloca(rta_size(new->attrs));
memcpy(a, new->attrs, rta_size(new->attrs));
a->aflags = 0;
a->eattrs = attrs;
a->hostentry = NULL;
e = rte_get_temp(a);
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e->pflags = 0;
/* Copy protocol specific embedded attributes. */
memcpy(&(e->u), &(new->u), sizeof(e->u));
e->pref = new->pref;
e->pflags = new->pflags;
src = a->src;
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}
else
{
e = NULL;
src = old->attrs->src;
}
src_ch->table->pipe_busy = 1;
rte_update2(dst, n->n.addr, e, src);
src_ch->table->pipe_busy = 0;
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}
static int
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pipe_import_control(struct proto *P, rte **ee, ea_list **ea UNUSED, struct linpool *p UNUSED)
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{
struct proto *pp = (*ee)->sender->proto;
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if (pp == P)
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return -1; /* Avoid local loops automatically */
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return 0;
}
static void
pipe_reload_routes(struct channel *C)
{
struct pipe_proto *p = (void *) C->proto;
/* Route reload on one channel is just refeed on the other */
channel_request_feeding((C == p->pri) ? p->sec : p->pri);
}
static void
pipe_postconfig(struct proto_config *CF)
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{
struct pipe_config *cf = (void *) CF;
struct channel_config *cc = proto_cf_main_channel(CF);
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if (!cc->table)
cf_error("Primary routing table not specified");
if (!cf->peer)
cf_error("Secondary routing table not specified");
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if (cc->table == cf->peer)
cf_error("Primary table and peer table must be different");
if (cc->table->addr_type != cf->peer->addr_type)
cf_error("Primary table and peer table must have the same type");
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if (cc->rx_limit.action)
cf_error("Pipe protocol does not support receive limits");
if (cc->in_keep_filtered)
cf_error("Pipe protocol prohibits keeping filtered routes");
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}
static int
pipe_configure_channels(struct pipe_proto *p, struct pipe_config *cf)
{
struct channel_config *cc = proto_cf_main_channel(&cf->c);
struct channel_config pri_cf = {
.name = "pri",
.channel = cc->channel,
.table = cc->table,
.out_filter = cc->out_filter,
.in_limit = cc->in_limit,
.ra_mode = RA_ANY
};
struct channel_config sec_cf = {
.name = "sec",
.channel = cc->channel,
.table = cf->peer,
.out_filter = cc->in_filter,
.in_limit = cc->out_limit,
.ra_mode = RA_ANY
};
return
proto_configure_channel(&p->p, &p->pri, &pri_cf) &&
proto_configure_channel(&p->p, &p->sec, &sec_cf);
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}
static struct proto *
pipe_init(struct proto_config *CF)
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{
struct proto *P = proto_new(CF);
struct pipe_proto *p = (void *) P;
struct pipe_config *cf = (void *) CF;
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P->rt_notify = pipe_rt_notify;
P->import_control = pipe_import_control;
P->reload_routes = pipe_reload_routes;
pipe_configure_channels(p, cf);
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return P;
}
static int
pipe_reconfigure(struct proto *P, struct proto_config *CF)
{
struct pipe_proto *p = (void *) P;
struct pipe_config *cf = (void *) CF;
return pipe_configure_channels(p, cf);
}
static void
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pipe_copy_config(struct proto_config *dest UNUSED, struct proto_config *src UNUSED)
{
/* Just a shallow copy, not many items here */
}
static void
pipe_get_status(struct proto *P, byte *buf)
{
struct pipe_proto *p = (void *) P;
bsprintf(buf, "%s <=> %s", p->pri->table->name, p->sec->table->name);
}
static void
pipe_show_stats(struct pipe_proto *p)
{
struct proto_stats *s1 = &p->pri->stats;
struct proto_stats *s2 = &p->sec->stats;
/*
* Pipe stats (as anything related to pipes) are a bit tricky. There
* are two sets of stats - s1 for ahook to the primary routing and
* s2 for the ahook to the secondary routing table. The user point
* of view is that routes going from the primary routing table to
* the secondary routing table are 'exported', while routes going in
* the other direction are 'imported'.
*
* Each route going through a pipe is, technically, first exported
* to the pipe and then imported from that pipe and such operations
* are counted in one set of stats according to the direction of the
* route propagation. Filtering is done just in the first part
* (export). Therefore, we compose stats for one directon for one
* user direction from both import and export stats, skipping
* immediate and irrelevant steps (exp_updates_accepted,
* imp_updates_received, imp_updates_filtered, ...).
*
* Rule of thumb is that stats s1 have the correct 'polarity'
* (imp/exp), while stats s2 have switched 'polarity'.
*/
cli_msg(-1006, " Routes: %u imported, %u exported",
s1->imp_routes, s2->imp_routes);
cli_msg(-1006, " Route change stats: received rejected filtered ignored accepted");
cli_msg(-1006, " Import updates: %10u %10u %10u %10u %10u",
s2->exp_updates_received, s2->exp_updates_rejected + s1->imp_updates_invalid,
s2->exp_updates_filtered, s1->imp_updates_ignored, s1->imp_updates_accepted);
cli_msg(-1006, " Import withdraws: %10u %10u --- %10u %10u",
s2->exp_withdraws_received, s1->imp_withdraws_invalid,
s1->imp_withdraws_ignored, s1->imp_withdraws_accepted);
cli_msg(-1006, " Export updates: %10u %10u %10u %10u %10u",
s1->exp_updates_received, s1->exp_updates_rejected + s2->imp_updates_invalid,
s1->exp_updates_filtered, s2->imp_updates_ignored, s2->imp_updates_accepted);
cli_msg(-1006, " Export withdraws: %10u %10u --- %10u %10u",
s1->exp_withdraws_received, s2->imp_withdraws_invalid,
s2->imp_withdraws_ignored, s2->imp_withdraws_accepted);
}
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static const char *pipe_feed_state[] = { [ES_DOWN] = "down", [ES_FEEDING] = "feed", [ES_READY] = "up" };
static void
pipe_show_proto_info(struct proto *P)
{
struct pipe_proto *p = (void *) P;
cli_msg(-1006, " Channel %s", "main");
cli_msg(-1006, " Table: %s", p->pri->table->name);
cli_msg(-1006, " Peer table: %s", p->sec->table->name);
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cli_msg(-1006, " Import state: %s", pipe_feed_state[p->sec->export_state]);
cli_msg(-1006, " Export state: %s", pipe_feed_state[p->pri->export_state]);
cli_msg(-1006, " Import filter: %s", filter_name(p->sec->out_filter));
cli_msg(-1006, " Export filter: %s", filter_name(p->pri->out_filter));
channel_show_limit(&p->pri->in_limit, "Import limit:");
channel_show_limit(&p->sec->in_limit, "Export limit:");
if (P->proto_state != PS_DOWN)
pipe_show_stats(p);
}
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struct protocol proto_pipe = {
.name = "Pipe",
.template = "pipe%d",
.proto_size = sizeof(struct pipe_proto),
.config_size = sizeof(struct pipe_config),
.postconfig = pipe_postconfig,
.init = pipe_init,
.reconfigure = pipe_reconfigure,
.copy_config = pipe_copy_config,
.get_status = pipe_get_status,
.show_proto_info = pipe_show_proto_info
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};