/*
* BIRD -- Multi-Threaded Routing Toolkit (MRT) Protocol
*
* (c) 2017--2018 Ondrej Zajicek <santiago@crfreenet.org>
* (c) 2017--2018 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: Multi-Threaded Routing Toolkit (MRT) protocol
*
* The MRT protocol is implemented in just one file: |mrt.c|. It contains of
* several parts: Generic functions for preparing MRT messages in a buffer,
* functions for MRT table dump (called from timer or CLI), functions for MRT
* BGP4MP dump (called from BGP), and the usual protocol glue. For the MRT table
* dump, the key structure is struct mrt_table_dump_state, which contains all
* necessary data and created when the MRT dump cycle is started for the
* duration of the MRT dump. The MBGP4MP dump is currently not bound to MRT
* protocol instance and uses the config->mrtdump_file fd.
*
* The protocol is simple, just periodically scans routing table and export it
* to a file. It does not use the regular update mechanism, but a direct access
* in order to handle iteration through multiple routing tables. The table dump
* needs to dump all peers first and then use indexes to address the peers, we
* use a hash table (@peer_hash) to find peer index based on BGP protocol key
* attributes.
*
* One thing worth documenting is the locking. During processing, the currently
* processed table (@table field in the state structure) is locked and also the
* explicitly named table is locked (@table_ptr field in the state structure) if
* specified. Between dumps no table is locked. Also the current config is
* locked (by config_add_obstacle()) during table dumps as some data (strings,
* filters) are shared from the config and the running table dump may be
* interrupted by reconfiguration.
*
* Supported standards:
* - RFC 6396 - MRT format standard
* - RFC 8050 - ADD_PATH extension
*/
#include <unistd.h>
#include <limits.h>
#include <errno.h>
#include "mrt.h"
#include "nest/cli.h"
#include "filter/filter.h"
#include "proto/bgp/bgp.h"
#include "sysdep/unix/unix.h"
#ifdef PATH_MAX
#define BIRD_PATH_MAX PATH_MAX
#else
#define BIRD_PATH_MAX 4096
#endif
#define mrt_log(s, msg, args...) \
({ \
if (s->cli) \
cli_printf(s->cli, -8009, msg, ## args); \
if (s->proto) \
log(L_ERR "%s: " msg, s->proto->p.name, ## args); \
})
/*
* MRT buffer code
*/
static void
mrt_buffer_init(buffer *b, pool *pool, size_t n)
{
b->start = mb_alloc(pool, n);
b->pos = b->start;
b->end = b->start + n;
}
static void
mrt_buffer_grow(buffer *b, size_t n)
{
size_t used = b->pos - b->start;
size_t size = b->end - b->start;
size_t req = used + n;
while (size < req)
size = size * 3 / 2;
b->start = mb_realloc(b->start, size);
b->pos = b->start + used;
b->end = b->start + size;
}
static inline void
mrt_buffer_need(buffer *b, size_t n)
{
if (b->pos + n > b->end)
mrt_buffer_grow(b, n);
}
static inline uint
mrt_buffer_pos(buffer *b)
{
return b->pos - b->start;
}
static inline void
mrt_buffer_flush(buffer *b)
{
b->pos = b->start;
}
#define MRT_DEFINE_TYPE(S, T) \
static inline void mrt_put_##S##_(buffer *b, T x) \
{ \
put_##S(b->pos, x); \
b->pos += sizeof(T); \
} \
\
static inline void mrt_put_##S(buffer *b, T x) \
{ \
mrt_buffer_need(b, sizeof(T)); \
put_##S(b->pos, x); \
b->pos += sizeof(T); \
}
MRT_DEFINE_TYPE(u8, u8)
MRT_DEFINE_TYPE(u16, u16)
MRT_DEFINE_TYPE(u32, u32)
MRT_DEFINE_TYPE(u64, u64)
MRT_DEFINE_TYPE(ip4, ip4_addr)
MRT_DEFINE_TYPE(ip6, ip6_addr)
static inline void
mrt_put_ipa(buffer *b, ip_addr x)
{
if (ipa_is_ip4(x))
mrt_put_ip4(b, ipa_to_ip4(x));
else
mrt_put_ip6(b, ipa_to_ip6(x));
}
static inline void
mrt_put_data(buffer *b, const void *src, size_t n)
{
if (!n)
return;
mrt_buffer_need(b, n);
memcpy(b->pos, src, n);
b->pos += n;
}
static void
mrt_init_message(buffer *b, u16 type, u16 subtype)
{
/* Reset buffer */
mrt_buffer_flush(b);
mrt_buffer_need(b, MRT_HDR_LENGTH);
/* Prepare header */
mrt_put_u32_(b, now_real);
mrt_put_u16_(b, type);
mrt_put_u16_(b, subtype);
/* Message length, will be fixed later */
mrt_put_u32_(b, 0);
}
static void
mrt_dump_message(buffer *b, int fd)
{
uint len = mrt_buffer_pos(b);
/* Fix message length */
ASSERT(len >= MRT_HDR_LENGTH);
put_u32(b->start + 8, len - MRT_HDR_LENGTH);
if (fd < 0)
return;
if (write(fd, b->start, len) < 0)
log(L_ERR "Write to MRT file failed: %m"); /* TODO: name of file */
}
static int
bstrsub(char *dst, size_t n, const char *src, const char *key, const char *val)
{
const char *last, *next;
char *pos = dst;
size_t step, klen = strlen(key), vlen = strlen(val);
for (last = src; next = strstr(last, key); last = next + klen)
{
step = next - last;
if (n <= step + vlen)
return 0;
memcpy(pos, last, step);
ADVANCE(pos, n, step);
memcpy(pos, val, vlen);
ADVANCE(pos, n, vlen);
}
step = strlen(last);
if (n <= step)
return 0;
memcpy(pos, last, step);
ADVANCE(pos, n, step);
pos[0] = 0;
return 1;
}
static inline rtable *
mrt_next_table_(rtable *tab, rtable *tab_ptr, const char *pattern)
{
/* Handle explicit table, return it in the first pass */
if (tab_ptr)
return !tab ? tab_ptr : NULL;
/* Walk routing_tables list, starting after tab (if non-NULL) */
for (tab = !tab ? HEAD(routing_tables) : NODE_NEXT(tab);
NODE_VALID(tab);
tab = NODE_NEXT(tab))
if (patmatch(pattern, tab->name))
return tab;
return NULL;
}
static rtable *
mrt_next_table(struct mrt_table_dump_state *s)
{
rtable *tab = mrt_next_table_(s->table, s->table_ptr, s->table_expr);
if (s->table)
rt_unlock_table(s->table);
s->table = tab;
if (s->table)
rt_lock_table(s->table);
return s->table;
}
static int
mrt_open_file(struct mrt_table_dump_state *s)
{
char fmt1[BIRD_PATH_MAX];
char name[BIRD_PATH_MAX];
if (!bstrsub(fmt1, sizeof(fmt1), s->filename, "%N", s->table->name) ||
!tm_format_real_time(name, sizeof(name), fmt1, now_real))
{
mrt_log(s, "Invalid filename '%s'", s->filename);
return 0;
}
s->file = rf_open(s->pool, name, "a");
if (!s->file)
{
mrt_log(s, "Unable to open MRT file '%s': %m", name);
return 0;
}
s->fd = rf_fileno(s->file);
s->time_offset = now_real - now;
return 1;
}
static void
mrt_close_file(struct mrt_table_dump_state *s)
{
rfree(s->file);
s->file = NULL;
s->fd = -1;
}
/*
* MRT Table Dump: Peer Index Table
*/
#define PEER_KEY(n) n->peer_id, n->peer_as, n->peer_ip
#define PEER_NEXT(n) n->next
#define PEER_EQ(id1,as1,ip1,id2,as2,ip2) \
id1 == id2 && as1 == as2 && ipa_equal(ip1, ip2)
#define PEER_FN(id,as,ip) ipa_hash(ip)
static void
mrt_peer_table_header(struct mrt_table_dump_state *s, u32 router_id, const char *name)
{
buffer *b = &s->buf;
/* Collector BGP ID */
mrt_put_u32(b, router_id);
/* View Name */
uint name_length = name ? strlen(name) : 0;
name_length = MIN(name_length, 65535);
mrt_put_u16(b, name_length);
mrt_put_data(b, name, name_length);
/* Peer Count, will be fixed later */
s->peer_count = 0;
s->peer_count_offset = mrt_buffer_pos(b);
mrt_put_u16(b, 0);
HASH_INIT(s->peer_hash, s->pool, 10);
}
static void
mrt_peer_table_entry(struct mrt_table_dump_state *s, u32 peer_id, u32 peer_as, ip_addr peer_ip)
{
buffer *b = &s->buf;
uint type = MRT_PEER_TYPE_32BIT_ASN;
if (ipa_is_ip6(peer_ip))
type |= MRT_PEER_TYPE_IPV6;
/* Dump peer to buffer */
mrt_put_u8(b, type);
mrt_put_u32(b, peer_id);
mrt_put_ipa(b, peer_ip);
mrt_put_u32(b, peer_as);
/* Add peer to hash table */
struct mrt_peer_entry *n = lp_allocz(s->peer_lp, sizeof(struct mrt_peer_entry));
n->peer_id = peer_id;
n->peer_as = peer_as;
n->peer_ip = peer_ip;
n->index = s->peer_count++;
HASH_INSERT(s->peer_hash, PEER, n);
}
static void
mrt_peer_table_dump(struct mrt_table_dump_state *s)
{
mrt_init_message(&s->buf, MRT_TABLE_DUMP_V2, MRT_PEER_INDEX_TABLE);
mrt_peer_table_header(s, config->router_id, s->table->name);
/* 0 is fake peer for non-BGP routes */
mrt_peer_table_entry(s, 0, 0, IPA_NONE);
#ifdef CONFIG_BGP
struct proto *P;
WALK_LIST(P, active_proto_list)
if (P->proto == &proto_bgp)
{
struct bgp_proto *p = (void *) P;
mrt_peer_table_entry(s, p->remote_id, p->remote_as, p->cf->remote_ip);
}
#endif
/* Fix Peer Count */
put_u16(s->buf.start + s->peer_count_offset, s->peer_count);
mrt_dump_message(&s->buf, s->fd);
}
static void
mrt_peer_table_flush(struct mrt_table_dump_state *s)
{
lp_flush(s->peer_lp);
HASH_FREE(s->peer_hash);
}
/*
* MRT Table Dump: RIB Table
*/
static void
mrt_rib_table_header(struct mrt_table_dump_state *s, net *n)
{
buffer *b = &s->buf;
/* Sequence Number */
mrt_put_u32(b, s->seqnum);
/* Network Prefix */
ip_addr a = n->n.prefix;
ipa_hton(a);
mrt_put_u8(b, n->n.pxlen);
mrt_put_data(b, &a, BYTES(n->n.pxlen));
/* Entry Count, will be fixed later */
s->entry_count = 0;
s->entry_count_offset = mrt_buffer_pos(b);
mrt_put_u16(b, 0);
}
static void
mrt_rib_table_entry(struct mrt_table_dump_state *s, rte *r, struct ea_list *tmpa)
{
buffer *b = &s->buf;
uint peer = 0;
#ifdef CONFIG_BGP
/* Find peer index */
if (r->attrs->src->proto->proto == &proto_bgp)
{
struct bgp_proto *p = (void *) r->attrs->src->proto;
struct mrt_peer_entry *n =
HASH_FIND(s->peer_hash, PEER, p->remote_id, p->remote_as, p->cf->remote_ip);
peer = n ? n->index : 0;
}
#endif
/* Peer Index and Originated Time */
mrt_put_u16(b, peer);
mrt_put_u32(b, r->lastmod + s->time_offset);
/* Path Identifier */
if (s->add_path)
mrt_put_u32(b, r->attrs->src->private_id);
/* Route Attributes */
mrt_put_u16(b, 0);
#ifdef CONFIG_BGP
if (r->attrs->eattrs || tmpa)
{
struct ea_list *eattrs = r->attrs->eattrs;
if (!rta_is_cached(r->attrs) || tmpa)
{
/* Attributes must be merged and sorted for bgp_encode_attrs() */
tmpa = ea_append(tmpa, eattrs);
eattrs = alloca(ea_scan(tmpa));
ea_merge(tmpa, eattrs);
ea_sort(eattrs);
}
mrt_buffer_need(b, MRT_ATTR_BUFFER_SIZE);
int alen = bgp_encode_attrs(NULL, b->pos, eattrs, MRT_ATTR_BUFFER_SIZE);
if (alen < 0)
{
mrt_log(s, "Attribute list too long for %I/%d",
r->net->n.prefix, r->net->n.pxlen);
alen = 0;
}
put_u16(b->pos - 2, alen);
b->pos += alen;
}
#endif
s->entry_count++;
}
static void
mrt_rib_table_dump(struct mrt_table_dump_state *s, net *n, int add_path)
{
rte *rt, *rt0;
int subtype;
s->add_path = add_path;
#ifndef IPV6
subtype = !add_path ? MRT_RIB_IPV4_UNICAST : MRT_RIB_IPV4_UNICAST_ADDPATH;
#else
subtype = !add_path ? MRT_RIB_IPV6_UNICAST : MRT_RIB_IPV6_UNICAST_ADDPATH;
#endif
mrt_init_message(&s->buf, MRT_TABLE_DUMP_V2, subtype);
mrt_rib_table_header(s, n);
for (rt0 = n->routes; rt = rt0; rt0 = rt0->next)
{
if (rte_is_filtered(rt))
continue;
/* Skip routes that should be reported in the other phase */
if (!s->always_add_path && (!rt->attrs->src->private_id != !s->add_path))
{
s->want_add_path = 1;
continue;
}
struct ea_list *tmp_attrs = rte_make_tmp_attrs(rt, s->linpool);
if (f_run(s->filter, &rt, &tmp_attrs, s->linpool, 0) <= F_ACCEPT)
mrt_rib_table_entry(s, rt, tmp_attrs);
if (rt != rt0)
rte_free(rt);
lp_flush(s->linpool);
}
/* Fix Entry Count */
put_u16(s->buf.start + s->entry_count_offset, s->entry_count);
/* Update max counter */
s->max -= 1 + s->entry_count;
/* Skip empty entries */
if (!s->entry_count)
return;
s->seqnum++;
mrt_dump_message(&s->buf, s->fd);
}
/*
* MRT Table Dump: main logic
*/
static struct mrt_table_dump_state *
mrt_table_dump_init(pool *pp)
{
pool *pool = rp_new(pp, "MRT Table Dump");
struct mrt_table_dump_state *s = mb_allocz(pool, sizeof(struct mrt_table_dump_state));
s->pool = pool;
s->linpool = lp_new(pool, 4080);
s->peer_lp = lp_new(pool, 4080);
mrt_buffer_init(&s->buf, pool, 2 * MRT_ATTR_BUFFER_SIZE);
/* We lock the current config as we may reference it indirectly by filter */
s->config = config;
config_add_obstacle(s->config);
s->fd = -1;
return s;
}
static void
mrt_table_dump_free(struct mrt_table_dump_state *s)
{
if (s->table_open)
FIB_ITERATE_UNLINK(&s->fit, &s->table->fib);
if (s->table)
rt_unlock_table(s->table);
if (s->table_ptr)
rt_unlock_table(s->table_ptr);
config_del_obstacle(s->config);
rfree(s->pool);
}
static int
mrt_table_dump_step(struct mrt_table_dump_state *s)
{
s->max = 2048;
if (s->table_open)
goto step;
while (mrt_next_table(s))
{
if (!mrt_open_file(s))
continue;
mrt_peer_table_dump(s);
FIB_ITERATE_INIT(&s->fit, &s->table->fib);
s->table_open = 1;
step:
FIB_ITERATE_START(&s->table->fib, &s->fit, fn)
{
if (s->max < 0)
{
FIB_ITERATE_PUT(&s->fit, fn);
return 0;
}
/* With Always ADD_PATH option, we jump directly to second phase */
s->want_add_path = s->always_add_path;
if (s->want_add_path == 0)
mrt_rib_table_dump(s, (net *) fn, 0);
if (s->want_add_path == 1)
mrt_rib_table_dump(s, (net *) fn, 1);
}
FIB_ITERATE_END(fn);
s->table_open = 0;
mrt_close_file(s);
mrt_peer_table_flush(s);
}
return 1;
}
static void
mrt_timer(timer *t)
{
struct mrt_proto *p = t->data;
struct mrt_config *cf = (void *) (p->p.cf);
if (p->table_dump)
{
log(L_WARN "%s: Earlier RIB table dump still not finished, skipping next one", p->p.name);
return;
}
TRACE(D_EVENTS, "RIB table dump started");
struct mrt_table_dump_state *s = mrt_table_dump_init(p->p.pool);
s->proto = p;
s->table_expr = cf->table_expr;
s->table_ptr = cf->table_cf ? cf->table_cf->table : NULL;
s->filter = cf->filter;
s->filename = cf->filename;
s->always_add_path = cf->always_add_path;
if (s->table_ptr)
rt_lock_table(s->table_ptr);
p->table_dump = s;
ev_schedule(p->event);
}
static void
mrt_event(void *P)
{
struct mrt_proto *p = P;
if (!p->table_dump)
return;
if (!mrt_table_dump_step(p->table_dump))
{
ev_schedule(p->event);
return;
}
mrt_table_dump_free(p->table_dump);
p->table_dump = NULL;
TRACE(D_EVENTS, "RIB table dump done");
if (p->p.proto_state == PS_STOP)
proto_notify_state(&p->p, PS_DOWN);
}
/*
* MRT Table Dump: CLI command
*/
static void
mrt_dump_cont(struct cli *c)
{
if (!mrt_table_dump_step(c->rover))
return;
cli_printf(c, 0, "");
mrt_table_dump_free(c->rover);
c->cont = c->cleanup = c->rover = NULL;
}
static void
mrt_dump_cleanup(struct cli *c)
{
mrt_table_dump_free(c->rover);
c->rover = NULL;
}
void
mrt_dump_cmd(struct mrt_dump_data *d)
{
if (cli_access_restricted())
return;
if (!d->table_expr && !d->table_ptr)
cf_error("Table not specified");
if (!d->filename)
cf_error("File not specified");
struct mrt_table_dump_state *s = mrt_table_dump_init(this_cli->pool);
s->cli = this_cli;
s->table_expr = d->table_expr;
s->table_ptr = d->table_ptr;
s->filter = d->filter;
s->filename = d->filename;
if (s->table_ptr)
rt_lock_table(s->table_ptr);
this_cli->cont = mrt_dump_cont;
this_cli->cleanup = mrt_dump_cleanup;
this_cli->rover = s;
}
/*
* MRT BGP4MP dump
*/
static buffer *
mrt_bgp_buffer(void)
{
/* Static buffer for BGP4MP dump, TODO: change to use MRT protocol */
static buffer b;
if (!b.start)
mrt_buffer_init(&b, &root_pool, 1024);
return &b;
}
static void
mrt_bgp_header(buffer *b, struct mrt_bgp_data *d)
{
if (d->as4)
{
mrt_put_u32(b, d->peer_as);
mrt_put_u32(b, d->local_as);
}
else
{
mrt_put_u16(b, (d->peer_as <= 0xFFFF) ? d->peer_as : AS_TRANS);
mrt_put_u16(b, (d->local_as <= 0xFFFF) ? d->local_as : AS_TRANS);
}
mrt_put_u16(b, (d->index <= 0xFFFF) ? d->index : 0);
mrt_put_u16(b, d->af);
if (d->af == BGP_AF_IPV4)
{
mrt_put_ip4(b, ipa_to_ip4(d->peer_ip));
mrt_put_ip4(b, ipa_to_ip4(d->local_ip));
}
else
{
mrt_put_ip6(b, ipa_to_ip6(d->peer_ip));
mrt_put_ip6(b, ipa_to_ip6(d->local_ip));
}
}
void
mrt_dump_bgp_message(struct mrt_bgp_data *d)
{
const u16 subtypes[] = {
MRT_BGP4MP_MESSAGE, MRT_BGP4MP_MESSAGE_AS4,
MRT_BGP4MP_MESSAGE_LOCAL, MRT_BGP4MP_MESSAGE_AS4_LOCAL,
MRT_BGP4MP_MESSAGE_ADDPATH, MRT_BGP4MP_MESSAGE_AS4_ADDPATH,
MRT_BGP4MP_MESSAGE_LOCAL_ADDPATH, MRT_BGP4MP_MESSAGE_AS4_LOCAL_ADDPATH,
};
buffer *b = mrt_bgp_buffer();
mrt_init_message(b, MRT_BGP4MP, subtypes[d->as4 + 4*d->add_path]);
mrt_bgp_header(b, d);
mrt_put_data(b, d->message, d->msg_len);
mrt_dump_message(b, config->mrtdump_file);
}
void
mrt_dump_bgp_state_change(struct mrt_bgp_data *d)
{
/* Convert state from our BS_* values to values used in MRTDump */
const u16 states[BS_MAX] = {1, 2, 3, 4, 5, 6, 1};
if (states[d->old_state] == states[d->new_state])
return;
/* Always use AS4 mode for STATE_CHANGE */
d->as4 = 1;
buffer *b = mrt_bgp_buffer();
mrt_init_message(b, MRT_BGP4MP, MRT_BGP4MP_STATE_CHANGE_AS4);
mrt_bgp_header(b, d);
mrt_put_u16(b, states[d->old_state]);
mrt_put_u16(b, states[d->new_state]);
mrt_dump_message(b, config->mrtdump_file);
}
/*
* MRT protocol glue
*/
void
mrt_check_config(struct proto_config *C)
{
struct mrt_config *cf = (void *) C;
/* c.table must be always defined, but it is relevant only if table_expr is not set */
if (!cf->table_expr)
cf->table_cf = cf->c.table;
if (!cf->table_expr && !cf->table_cf)
cf_error("Table not specified");
if (!cf->filename)
cf_error("File not specified");
if (!cf->period)
cf_error("Period not specified");
}
static struct proto *
mrt_init(struct proto_config *C)
{
struct proto *P = proto_new(C, sizeof(struct mrt_proto));
return P;
}
static int
mrt_start(struct proto *P)
{
struct mrt_proto *p = (void *) P;
struct mrt_config *cf = (void *) (P->cf);
p->timer = tm_new_set(P->pool, mrt_timer, p, 0, cf->period);
p->event = ev_new_set(P->pool, mrt_event, p);
tm_start(p->timer, cf->period);
return PS_UP;
}
static int
mrt_shutdown(struct proto *P)
{
struct mrt_proto *p = (void *) P;
return p->table_dump ? PS_STOP : PS_DOWN;
}
static int
mrt_reconfigure(struct proto *P, struct proto_config *CF)
{
struct mrt_proto *p = (void *) P;
struct mrt_config *old = (void *) (P->cf);
struct mrt_config *new = (void *) CF;
if (new->period != old->period)
{
TRACE(D_EVENTS, "Changing period from %d to %d s", old->period, new->period);
bird_clock_t new_time = p->timer->expires - old->period + new->period;
tm_start(p->timer, (new_time > now) ? (new_time - now) : 0);
p->timer->recurrent = new->period;
}
return 1;
}
static void
mrt_copy_config(struct proto_config *dest, struct proto_config *src)
{
/* Just a shallow copy, not many items here */
proto_copy_rest(dest, src, sizeof(struct mrt_config));
}
struct protocol proto_mrt = {
.name = "MRT",
.template = "mrt%d",
.config_size = sizeof(struct mrt_config),
.init = mrt_init,
.start = mrt_start,
.shutdown = mrt_shutdown,
.reconfigure = mrt_reconfigure,
.copy_config = mrt_copy_config,
};
FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>
![[BACK]](/icons/cvsweb/back.gif){kind=icon}
Return to mrt.c CVS log ![[TXT]](/icons/cvsweb/text.gif){kind=icon}
![[DIR]](/icons/cvsweb/dir.gif){kind=icon}
Up to [ELWIX - Embedded LightWeight unIX -] / embedaddon / bird / proto / mrt