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bird/nest/mpls.c

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/*
* BIRD Internet Routing Daemon -- MPLS Structures
*
* (c) 2022 Ondrej Zajicek <santiago@crfreenet.org>
* (c) 2022 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: MPLS
*
* The MPLS subsystem manages MPLS labels and handles their allocation to
* MPLS-aware routing protocols. These labels are then attached to IP or VPN
* routes representing label switched paths -- LSPs. MPLS labels are also used
* in special MPLS routes (which use labels as network address) that are
* exported to MPLS routing table in kernel. The MPLS subsystem consists of MPLS
* domains (struct &mpls_domain), MPLS channels (struct &mpls_channel) and FEC
* maps (struct &mpls_fec_map).
*
* The MPLS domain represents one MPLS label address space, implements the label
* allocator, and handles associated configuration and management. The domain is
* declared in the configuration (struct &mpls_domain_config). There might be
* multiple MPLS domains representing separate label spaces, but in most cases
* one domain is enough. MPLS-aware protocols and routing tables are associated
* with a specific MPLS domain.
*
* The MPLS domain has configurable label ranges (struct &mpls_range), by
* default it has two ranges: static (16-1000) and dynamic (1000-10000). When
* a protocol wants to allocate labels, it first acquires a handle (struct
* &mpls_handle) for a specific range using mpls_new_handle(), and then it
* allocates labels from that with mpls_new_label(). When not needed, labels are
* freed by mpls_free_label() and the handle is released by mpls_free_handle().
* Note that all labels and handles must be freed manually.
*
* Both MPLS domain and MPLS range are reference counted, so when deconfigured
* they could be freed just after all labels and ranges are freed. Users are
* expected to hold a reference to a MPLS domain for whole time they use
* something from that domain (e.g. &mpls_handle), but releasing reference to
* a range while holding associated handle is OK.
*
* The MPLS channel is subclass of a generic protocol channel. It has two
* distinct purposes - to handle per-protocol MPLS configuration (e.g. which
* MPLS domain is associated with the protocol, which label range is used by the
* protocol), and to announce MPLS routes to a routing table (as a regular
* protocol channel).
*
* The FEC map is a helper structure that maps forwarding equivalent classes
* (FECs) to MPLS labels. It is an internal matter of a routing protocol how to
* assign meaning to allocated labels, announce LSP routes and associated MPLS
* routes (i.e. ILM entries). But the common behavior is implemented in the FEC
* map, which can be used by the protocols that work with IP-prefix-based FECs.
*
* The FEC map keeps hash tables of FECs (struct &mpls_fec) based on network
* prefix, next hop eattr and assigned label. It has three general labeling policies:
* static assignment (%MPLS_POLICY_STATIC), per-prefix policy (%MPLS_POLICY_PREFIX),
* and aggregating policy (%MPLS_POLICY_AGGREGATE). In per-prefix policy, each
* distinct LSP is a separate FEC and uses a separate label, which is kept even
* if the next hop of the LSP changes. In aggregating policy, LSPs with a same
* next hop form one FEC and use one label, but when a next hop (or remote
* label) of such LSP changes then the LSP must be moved to a different FEC and
* assigned a different label. There is also a special VRF policy (%MPLS_POLICY_VRF)
* applicable for L3VPN protocols, which uses one label for all routes from a VRF,
* while replacing the original next hop with lookup in the VRF.
*
* The overall process works this way: A protocol wants to announce a LSP route,
* it does that by announcing e.g. IP route with %EA_MPLS_POLICY attribute.
* After the route is accepted by filters (which may also change the policy
* attribute or set a static label), the mpls_handle_rte() is called from
* rte_update2(), which applies selected labeling policy, finds existing FEC or
* creates a new FEC (which includes allocating new label and announcing related
* MPLS route by mpls_announce_fec()), and attach FEC label to the LSP route.
* After that, the LSP route is stored in routing table by rte_recalculate().
* Changes in routing tables trigger mpls_rte_insert() and mpls_rte_remove()
* hooks, which refcount FEC structures and possibly trigger removal of FECs
* and withdrawal of MPLS routes.
*
* TODO:
* - special handling of reserved labels
*/
#include <stdlib.h>
#include "nest/bird.h"
#include "nest/route.h"
2023-11-23 10:41:49 +00:00
#include "nest/mpls-internal.h"
#include "nest/cli.h"
static struct mpls_range *mpls_new_range(struct mpls_domain *m, struct mpls_range_config *cf);
static struct mpls_range *mpls_find_range_(list *l, const char *name);
static int mpls_reconfigure_range(struct mpls_domain *m, struct mpls_range *r, struct mpls_range_config *cf);
static void mpls_remove_range(struct mpls_range *r);
static void mpls_cleanup_ranges(void *_domain);
static void mpls_free_fec(struct mpls_fec_map *m, struct mpls_fec *fec);
static void mpls_fec_map_cleanup(void *_m);
/*
* MPLS domain
*/
#define MPLS_GLOBAL_PUBLIC \
DOMAIN(the_bird) lock; \
struct mpls_global_private {
struct { MPLS_GLOBAL_PUBLIC; };
list domains;
};
union mpls_global_public {
struct { MPLS_GLOBAL_PUBLIC; };
struct mpls_global_private priv;
} mpls_global;
#define MPLS_GLOBAL LOBJ_PRIV(&mpls_global, the_bird)
void
mpls_init(void)
{
mpls_global.lock = the_bird_domain;
init_list(&MPLS_GLOBAL->domains);
}
struct mpls_domain_config *
mpls_domain_config_new(struct symbol *s)
{
struct mpls_domain_config *mc = cfg_allocz(sizeof(struct mpls_domain_config));
struct mpls_range_config *rc;
cf_define_symbol(new_config, s, SYM_MPLS_DOMAIN, mpls_domain, mc);
mc->name = s->name;
init_list(&mc->ranges);
/* Predefined static range */
rc = mpls_range_config_new(mc, NULL);
rc->name = "static";
rc->start = 16;
rc->length = 984;
rc->implicit = 1;
mc->static_range = rc;
/* Predefined dynamic range */
rc = mpls_range_config_new(mc, NULL);
rc->name = "dynamic";
rc->start = 1000;
rc->length = 9000;
rc->implicit = 1;
mc->dynamic_range = rc;
add_tail(&new_config->mpls_domains, &mc->n);
return mc;
}
static int
mpls_compare_range_configs(const void *r1_, const void *r2_)
{
const struct mpls_range_config * const *r1 = r1_;
const struct mpls_range_config * const *r2 = r2_;
return uint_cmp((*r1)->start, (*r2)->start);
}
void
mpls_domain_postconfig(struct mpls_domain_config *cf UNUSED)
{
/* Label range non-intersection check */
int num_ranges = list_length(&cf->ranges);
struct mpls_range_config **ranges = tmp_alloc(num_ranges * sizeof(struct mpls_range_config *));
{
int i = 0;
struct mpls_range_config *r;
WALK_LIST(r, cf->ranges)
ranges[i++] = r;
}
qsort(ranges, num_ranges, sizeof(struct mpls_range_config *), mpls_compare_range_configs);
struct mpls_range_config *max_range = NULL;
uint max_hi = 0;
for (int i = 0; i < num_ranges; i++)
{
struct mpls_range_config *r = ranges[i];
uint hi = r->start + r->length;
if (r->implicit)
continue;
if (r->start < max_hi)
cf_warn("MPLS label ranges %s and %s intersect", max_range->name, r->name);
if (hi > max_hi)
{
max_range = r;
max_hi = hi;
}
}
}
static struct mpls_domain_pub *
mpls_new_domain(struct mpls_domain_config *cf)
{
ASSERT_THE_BIRD_LOCKED;
DOMAIN(attrs) dom = DOMAIN_NEW(attrs);
LOCK_DOMAIN(attrs, dom);
struct pool *p = rp_newf(&root_pool, dom.attrs, "MPLS domain %s", cf->name);
struct mpls_domain_pub *mpub = mb_allocz(p, sizeof(struct mpls_domain_pub));
mpub->lock = dom;
struct mpls_domain *m = LOBJ_PRIV(mpub, attrs);
m->cf = cf;
m->name = cf->name;
m->pool = p;
lmap_init(&m->labels, p);
lmap_set(&m->labels, 0);
init_list(&m->ranges);
struct mpls_range_config *rc;
WALK_LIST(rc, cf->ranges)
{
struct mpls_range *r = mpls_new_range(m, rc);
if (rc == cf->static_range)
m->static_range = r;
}
m->range_cleanup = (event) { .hook = mpls_cleanup_ranges, .data = m };
add_tail(&MPLS_GLOBAL->domains, &m->n);
mpls_lock_domain(m);
UNLOCK_DOMAIN(attrs, dom);
cf->domain = mpub;
return mpub;
}
static struct mpls_domain_pub *
mpls_find_domain_(list *l, const char *name)
{
struct mpls_domain_pub *m;
WALK_LIST(m, *l)
if (!strcmp(m->name, name))
return m;
return NULL;
}
static int
mpls_reconfigure_domain(struct mpls_domain_pub *mpub, struct mpls_domain_config *cf)
{
cf->domain = mpub;
MPLS_DOMAIN_LOCK(mpub, m);
m->cf->domain = NULL;
m->cf = cf;
m->name = cf->name;
/* Reconfigure label ranges */
list old_ranges;
init_list(&old_ranges);
add_tail_list(&old_ranges, &m->ranges);
init_list(&m->ranges);
struct mpls_range_config *rc;
WALK_LIST(rc, cf->ranges)
{
struct mpls_range *r = mpls_find_range_(&old_ranges, rc->name);
if (r && mpls_reconfigure_range(m, r, rc))
{
rem_node(&r->n);
add_tail(&m->ranges, &r->n);
continue;
}
mpls_new_range(m, rc);
}
struct mpls_range *r, *r2;
WALK_LIST_DELSAFE(r, r2, old_ranges)
if (!r->removed)
mpls_remove_range(r);
add_tail_list(&m->ranges, &old_ranges);
return 1;
}
static void
mpls_free_domain(void *_m)
{
ASSERT_THE_BIRD_LOCKED;
struct mpls_domain *m = _m;
DOMAIN(attrs) dom = m->lock;
LOCK_DOMAIN(attrs, dom);
ASSERT(m->use_count == 0);
ASSERT(m->label_count == 0);
ASSERT(EMPTY_LIST(m->ranges));
struct config *cfg = m->removed;
m->cf->domain = NULL;
rem_node(&m->n);
rfree(m->pool);
UNLOCK_DOMAIN(attrs, dom);
config_del_obstacle(cfg);
}
static void
mpls_remove_domain(struct mpls_domain *m, struct config *cfg)
{
m->removed = cfg;
config_add_obstacle(cfg);
struct mpls_range *r, *rnext;
WALK_LIST_DELSAFE(r, rnext, m->ranges)
if (!r->removed)
mpls_remove_range(r);
mpls_unlock_domain(m);
}
void
mpls_lock_domain(struct mpls_domain *m)
{
m->use_count++;
}
void
mpls_unlock_domain(struct mpls_domain *m)
{
ASSERT(m->use_count > 0);
m->use_count--;
if (!m->use_count && m->removed)
ev_new_send(&main_birdloop, m->pool, mpls_free_domain, m);
}
void
mpls_preconfig(struct config *c)
{
init_list(&c->mpls_domains);
}
void
mpls_commit(struct config *new, struct config *old)
{
list old_domains;
init_list(&old_domains);
add_tail_list(&old_domains, &MPLS_GLOBAL->domains);
init_list(&MPLS_GLOBAL->domains);
struct mpls_domain_config *mc;
WALK_LIST(mc, new->mpls_domains)
{
struct mpls_domain_pub *m = mpls_find_domain_(&old_domains, mc->name);
if (m && mpls_reconfigure_domain(m, mc))
{
rem_node(&m->n);
add_tail(&MPLS_GLOBAL->domains, &m->n);
continue;
}
mpls_new_domain(mc);
}
struct mpls_domain *m, *m2;
WALK_LIST_DELSAFE(m, m2, old_domains)
mpls_remove_domain(m, old);
add_tail_list(&MPLS_GLOBAL->domains, &old_domains);
}
/*
* MPLS range
*/
struct mpls_range_config *
mpls_range_config_new(struct mpls_domain_config *mc, struct symbol *s)
{
struct mpls_range_config *rc = cfg_allocz(sizeof(struct mpls_range_config));
if (s)
cf_define_symbol(new_config, s, SYM_MPLS_RANGE, mpls_range, rc);
rc->domain = mc;
rc->name = s ? s->name : NULL;
rc->start = (uint) -1;
rc->length = (uint) -1;
add_tail(&mc->ranges, &rc->n);
return rc;
}
static struct mpls_range *
mpls_new_range(struct mpls_domain *m, struct mpls_range_config *cf)
{
struct mpls_range_pub *rpub = mb_allocz(m->pool, sizeof(struct mpls_range_pub));
rpub->lock = m->lock;
struct mpls_range *r = LOBJ_PRIV(rpub, attrs);
r->domain = m;
mpls_lock_domain(m);
r->cf = cf;
r->name = cf->name;
r->lo = cf->start;
r->hi = cf->start + cf->length;
init_list(&r->handles);
add_tail(&m->ranges, &r->n);
cf->range = rpub;
DBGL("Lock range %p (new)", r);
mpls_lock_range(r);
return r;
}
static struct mpls_range *
mpls_find_range_(list *l, const char *name)
{
struct mpls_range *r;
WALK_LIST(r, *l)
if (!strcmp(r->name, name) && !r->removed)
return r;
return NULL;
}
static int
mpls_reconfigure_range(struct mpls_domain *m, struct mpls_range *r, struct mpls_range_config *cf)
{
uint last = lmap_last_one_in_range(&m->labels, r->lo, r->hi);
if (last == r->hi) last = 0;
if ((cf->start > r->lo) || (cf->start + cf->length <= last))
return 0;
cf->range = MPLS_RANGE_PUB(r);
r->cf->range = NULL;
r->cf = cf;
r->name = cf->name;
r->lo = cf->start;
r->hi = cf->start + cf->length;
return 1;
}
static void
mpls_free_range(struct mpls_range *r)
{
/* Must always run in an asynchronous context from main loop */
ASSERT_THE_BIRD_LOCKED;
ASSERT(r->use_count == 0);
ASSERT(r->label_count == 0);
mpls_unlock_domain(r->domain);
rem_node(&r->n);
mb_free(r);
}
static void mpls_cleanup_ranges(void *_domain)
{
MPLS_DOMAIN_LOCK((struct mpls_domain_pub *) _domain, m);
struct mpls_range *r, *rnext;
WALK_LIST_BACKWARDS_DELSAFE(r, rnext, m->ranges)
if (!r->removed)
return;
else if (!r->use_count)
mpls_free_range(r);
}
static void
mpls_remove_range(struct mpls_range *r)
{
ASSERT(!r->removed);
r->removed = 1;
r->cf->range = NULL;
r->cf = NULL;
DBGL("Unlock range %p (remove)", r);
mpls_unlock_range(r);
}
void
mpls_lock_range(struct mpls_range *r)
{
r->use_count++;
}
void
mpls_unlock_range(struct mpls_range *r)
{
ASSERT(r->use_count > 0);
r->use_count--;
if (!r->use_count && r->removed)
ev_send_loop(&main_birdloop, &r->domain->range_cleanup);
}
/*
* MPLS handle
*/
struct mpls_handle *
mpls_new_handle(struct mpls_range *r)
{
struct mpls_domain *m = r->domain;
struct mpls_handle *h = mb_allocz(m->pool, sizeof(struct mpls_handle));
h->lock = m->lock;
DBGL("Lock range %p (new handle %p)", r, h);
mpls_lock_range(r);
h->range = r;
add_tail(&r->handles, &h->n);
return h;
}
void
mpls_free_handle(struct mpls_handle *h)
{
ASSERT(h->label_count == 0);
DBGL("Unlock range %p (free handle %p)", h->range, h);
mpls_unlock_range(h->range);
rem_node(&h->n);
mb_free(h);
}
/*
* MPLS label
*/
uint
mpls_new_label(struct mpls_handle *h, uint n)
{
struct mpls_range *r = h->range;
struct mpls_domain *m = r->domain;
if (!n)
n = lmap_first_zero_in_range(&m->labels, r->lo, r->hi);
if ((n < r->lo) || (n >= r->hi) || lmap_test(&m->labels, n))
return 0;
m->label_count++;
r->label_count++;
h->label_count++;
lmap_set(&m->labels, n);
return n;
}
void
mpls_free_label(struct mpls_handle *h, uint n)
{
struct mpls_range *r = h->range;
struct mpls_domain *m = r->domain;
ASSERT(lmap_test(&m->labels, n));
lmap_clear(&m->labels, n);
ASSERT(m->label_count);
m->label_count--;
ASSERT(r->label_count);
r->label_count--;
ASSERT(h->label_count);
h->label_count--;
}
void
mpls_move_label(struct mpls_handle *fh, struct mpls_handle *th, uint n)
{
struct mpls_range *fr = fh->range;
struct mpls_domain *m = fr->domain;
struct mpls_range *tr = th->range;
ASSERT_DIE(tr->domain == m);
ASSERT(lmap_test(&m->labels, n));
ASSERT((n >= fr->lo) && (n < fr->hi));
ASSERT((n >= tr->lo) && (n < tr->hi));
ASSERT(fr->label_count);
fr->label_count--;
ASSERT(fh->label_count);
fh->label_count--;
tr->label_count++;
th->label_count++;
}
/*
* MPLS channel
*/
static void
mpls_channel_init(struct channel *C, struct channel_config *CC)
{
struct mpls_channel *c = (void *) C;
struct mpls_channel_config *cc = (void *) CC;
if (cc->rts)
{
c->domain = cc->domain->domain;
c->range = cc->range->range;
c->label_policy = cc->label_policy;
c->rts = cc->rts;
}
}
static int
mpls_channel_start(struct channel *C)
{
struct mpls_channel *c = (void *) C;
if (!c->rts)
return 0;
c->mpls_map = mpls_fec_map_new(C->proto->pool, C->proto->loop, C, c->rts);
c->mpls_map->vrf_iface = C->proto->vrf;
return 0;
}
static void
mpls_channel_shutdown(struct channel *C)
{
struct mpls_channel *c = (void *) C;
if (!c->rts)
return;
ev_send_loop(c->mpls_map->loop, c->mpls_map->cleanup_event);
}
static void
mpls_channel_cleanup(struct channel *C)
{
struct mpls_channel *c = (void *) C;
if (!c->rts)
return;
mpls_fec_map_free(c->mpls_map);
c->mpls_map = NULL;
}
static int
mpls_channel_reconfigure(struct channel *C, struct channel_config *CC, int *import_changed, int *export_changed UNUSED)
{
struct mpls_channel *c = (void *) C;
struct mpls_channel_config *new = (void *) CC;
if (new->domain->domain != c->domain)
return 0;
if (new->range->range != c->range)
{
if (c->c.channel_state != CS_DOWN)
MPLS_RANGE_LOCKED(c->range, r)
{
DBGL("Unlock range %p (channel %p)", r, c);
mpls_unlock_range(r);
}
c->range = new->range->range;
*import_changed = 1;
if (c->c.channel_state != CS_DOWN)
MPLS_RANGE_LOCKED(c->range, r)
{
DBGL("Lock range %p (channel %p)", r, c);
mpls_lock_range(r);
}
}
if (new->label_policy != c->label_policy)
{
c->label_policy = new->label_policy;
*import_changed = 1;
}
mpls_fec_map_reconfigure(c->mpls_map, C);
return 1;
}
void
mpls_channel_postconfig(struct channel_config *CC)
{
struct mpls_channel_config *cc = (void *) CC;
if (!cc->domain)
cf_error("MPLS domain not specified");
if (!cc->range)
cc->range = cc->domain->dynamic_range;
if (cc->range->domain != cc->domain)
cf_error("MPLS label range from different MPLS domain");
if (!cc->c.table)
cf_error("Routing table not specified");
}
struct channel_class channel_mpls = {
.channel_size = sizeof(struct mpls_channel),
.config_size = sizeof(struct mpls_channel_config),
.init = mpls_channel_init,
.start = mpls_channel_start,
.shutdown = mpls_channel_shutdown,
.cleanup = mpls_channel_cleanup,
.reconfigure = mpls_channel_reconfigure,
};
/*
* MPLS FEC map
*/
#define NET_KEY(fec) fec->net, fec->path_id, fec->hash
#define NET_NEXT(fec) fec->next_k
#define NET_EQ(n1,i1,h1,n2,i2,h2) h1 == h2 && i1 == i2 && net_equal(n1, n2)
#define NET_FN(n,i,h) h
#define NET_REHASH mpls_net_rehash
#define NET_PARAMS /8, *2, 2, 2, 8, 24
#define RTA_KEY(fec) fec->rta
#define RTA_NEXT(fec) fec->next_k
#define RTA_EQ(r1,r2) r1 == r2
#define RTA_FN(r) r->hash_key
#define RTA_REHASH mpls_rta_rehash
#define RTA_PARAMS /8, *2, 2, 2, 8, 24
#define LABEL_KEY(fec) fec->label
#define LABEL_NEXT(fec) fec->next_l
#define LABEL_EQ(l1,l2) l1 == l2
#define LABEL_FN(l) u32_hash(l)
#define LABEL_REHASH mpls_label_rehash
#define LABEL_PARAMS /8, *2, 2, 2, 8, 24
HASH_DEFINE_REHASH_FN(NET, struct mpls_fec)
HASH_DEFINE_REHASH_FN(RTA, struct mpls_fec)
HASH_DEFINE_REHASH_FN(LABEL, struct mpls_fec)
static void mpls_unlink_fec(struct mpls_fec_map *m, struct mpls_fec *fec);
static void mpls_withdraw_fec(struct mpls_fec_map *m, struct mpls_fec *fec);
static struct ea_storage * mpls_get_key_attrs(struct mpls_fec_map *m, ea_list *src);
struct mpls_fec_map *
mpls_fec_map_new(pool *pp, struct birdloop *loop, struct channel *C, uint rts)
{
struct pool *p = rp_new(pp, pp->domain, "MPLS FEC map");
struct mpls_fec_map *m = mb_allocz(p, sizeof(struct mpls_fec_map));
struct mpls_channel *c = (void *) C;
DBGL("New FEC Map %p", m);
m->pool = p;
m->loop = loop;
m->cleanup_event = ev_new_init(p, mpls_fec_map_cleanup, m);
m->channel = C;
channel_add_obstacle(C);
m->domain = c->domain;
MPLS_RANGE_LOCKED(c->range, r)
m->handle = MPLS_HANDLE_PUB(mpls_new_handle(r));
/* net_hash and rta_hash are initialized on-demand */
HASH_INIT(m->label_hash, m->pool, 4);
m->mpls_rts = rts;
return m;
}
void
mpls_fec_map_reconfigure(struct mpls_fec_map *m, struct channel *C)
{
struct mpls_channel *c = (void *) C;
MPLS_DOMAIN_LOCK(m->domain, domain);
struct mpls_handle *dh = MPLS_HANDLE_PRIV(m->handle);
struct mpls_handle *sh = m->static_handle ? MPLS_HANDLE_PRIV(m->static_handle) : NULL;
struct mpls_range *new_range = MPLS_RANGE_PRIV(c->range);
struct mpls_handle *old_d = NULL;
struct mpls_handle *old_s = NULL;
/* Reallocate dynamic handle */
if (dh->range != new_range)
{
old_d = dh;
m->handle = MPLS_HANDLE_PUB(mpls_new_handle(new_range));
}
/* Reallocate static handle */
if (sh && (sh->range != domain->static_range))
{
old_s = sh;
m->static_handle = MPLS_HANDLE_PUB(mpls_new_handle(domain->static_range));
}
/* Skip rest if there is no change */
if (!old_d && !old_s)
return;
/* Process existing FECs */
HASH_WALK(m->label_hash, next_l, fec)
{
/* Skip already dead FECs */
if (fec->policy == MPLS_POLICY_NONE)
continue;
/* Skip FECs with valid handle */
if ((fec->handle == m->handle) || (fec->handle == m->static_handle))
continue;
/* Try new handle for the FEC */
struct mpls_handle_pub *new_pub = (fec->policy != MPLS_POLICY_STATIC) ? m->handle : m->static_handle;
struct mpls_handle *new = MPLS_HANDLE_PRIV(new_pub);
struct mpls_handle *old = MPLS_HANDLE_PRIV(fec->handle);
if ((fec->label >= new->range->lo) && (fec->label < new->range->hi))
{
mpls_move_label(old, new, fec->label);
fec->handle = new_pub;
continue;
}
/* Unlink the FEC while keep it in the label hash */
mpls_unlink_fec(m, fec);
fec->policy = MPLS_POLICY_NONE;
}
HASH_WALK_END;
/* Remove old unused handles */
if (old_d && !old_d->label_count)
mpls_free_handle(old_d);
if (old_s && !old_s->label_count)
mpls_free_handle(old_s);
}
static void
mpls_fec_map_cleanup(void *_m)
{
struct mpls_fec_map *m = _m;
_Bool finished = (m->channel->channel_state == CS_STOP);
HASH_WALK_DELSAFE(m->label_hash, next_l, fec)
if (lfuc_finished(&fec->uc))
mpls_free_fec(m, fec);
else
finished = 0;
HASH_WALK_DELSAFE_END;
DBGL("FEC Map %p Cleanup: %sfinished", m, finished ? "" : "not ");
if (finished)
{
ev_postpone(m->cleanup_event);
channel_del_obstacle(m->channel);
}
}
void
mpls_fec_map_free(struct mpls_fec_map *m)
{
DBGL("Free Whole FEC Map %p", m);
/* Free stored rtas */
if (m->attrs_hash.data)
{
HASH_WALK(m->attrs_hash, next_k, fec)
{
ea_free(fec->rta->l);
fec->rta = NULL;
}
HASH_WALK_END;
}
MPLS_DOMAIN_LOCK(m->domain, domain);
/* Free allocated labels */
HASH_WALK(m->label_hash, next_l, fec)
{
struct mpls_handle *h = MPLS_HANDLE_PRIV(fec->handle);
mpls_free_label(h, fec->label);
DBGL("Handle %p policy %d label count %d", fec->policy, h->label_count);
if (!fec->policy && !h->label_count)
mpls_free_handle(h);
}
HASH_WALK_END;
if (m->static_handle)
mpls_free_handle(MPLS_HANDLE_PRIV(m->static_handle));
mpls_free_handle(MPLS_HANDLE_PRIV(m->handle));
rfree(m->pool);
}
static slab *
mpls_slab(struct mpls_fec_map *m, uint type)
{
ASSERT(type <= NET_VPN6);
int pos = type ? (type - 1) : 0;
if (!m->slabs[pos])
m->slabs[pos] = sl_new(m->pool, sizeof(struct mpls_fec) + net_addr_length[pos + 1]);
return m->slabs[pos];
}
struct mpls_fec *
mpls_find_fec_by_label(struct mpls_fec_map *m, u32 label)
{
return HASH_FIND(m->label_hash, LABEL, label);
}
struct mpls_fec *
mpls_new_fec(struct mpls_fec_map *m, u8 net_type, u32 label)
{
struct mpls_fec *fec = sl_allocz(mpls_slab(m, net_type));
fec->map = m;
fec->label = label;
HASH_INSERT2(m->label_hash, LABEL, m->pool, fec);
/* Temporarily lock FEC */
lfuc_init(&fec->uc);
return fec;
}
struct mpls_fec *
mpls_get_fec_by_label(struct mpls_fec_map *m, u32 label)
{
struct mpls_fec *fec = HASH_FIND(m->label_hash, LABEL, label);
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if (fec)
{
DBGL("FEC %p found for lab %u in %p, policy %u", fec, label, m, fec->policy);
if (fec->policy != MPLS_POLICY_STATIC)
return NULL;
mpls_revive_fec(fec);
return fec;
}
MPLS_DOMAIN_LOCKED(m->domain, domain)
{
struct mpls_handle *h;
if (m->static_handle)
h = MPLS_HANDLE_PRIV(m->static_handle);
else
m->static_handle = MPLS_HANDLE_PUB(h = mpls_new_handle(domain->static_range));
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label = mpls_new_label(h, label);
if (!label)
return NULL;
}
fec = mpls_new_fec(m, 0, label);
fec->policy = MPLS_POLICY_STATIC;
fec->handle = m->static_handle;
DBGL("New FEC lab %u map %p", fec->label, m);
return fec;
}
struct mpls_fec *
mpls_get_fec_by_net(struct mpls_fec_map *m, const net_addr *net, u64 path_id)
{
if (!m->net_hash.data)
HASH_INIT(m->net_hash, m->pool, 4);
u32 hash = net_hash(net) ^ u64_hash(path_id);
struct mpls_fec *fec = HASH_FIND(m->net_hash, NET, net, path_id, hash);
if (fec)
{
mpls_revive_fec(fec);
return fec;
}
u32 label = 0;
MPLS_HANDLE_LOCKED(m->handle, h)
label = mpls_new_label(h, 0);
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if (!label)
return NULL;
fec = mpls_new_fec(m, net->type, label);
fec->hash = hash;
fec->path_id = path_id;
net_copy(fec->net, net);
fec->policy = MPLS_POLICY_PREFIX;
fec->handle = m->handle;
DBGL("New FEC net %u map %p", fec->label, m);
HASH_INSERT2(m->net_hash, NET, m->pool, fec);
return fec;
}
struct mpls_fec *
mpls_get_fec_by_destination(struct mpls_fec_map *m, ea_list *dest)
{
if (!m->attrs_hash.data)
HASH_INIT(m->attrs_hash, m->pool, 4);
struct ea_storage *rta = mpls_get_key_attrs(m, dest);
u32 hash = rta->hash_key;
struct mpls_fec *fec = HASH_FIND(m->attrs_hash, RTA, rta);
if (fec)
{
ea_free(rta->l);
mpls_revive_fec(fec);
return fec;
}
u32 label = 0;
MPLS_HANDLE_LOCKED(m->handle, h)
label = mpls_new_label(h, 0);
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if (!label)
{
ea_free(rta->l);
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return NULL;
}
fec = mpls_new_fec(m, 0, label);
fec->hash = hash;
fec->rta = rta;
fec->policy = MPLS_POLICY_AGGREGATE;
fec->handle = m->handle;
DBGL("New FEC rta %u map %p", fec->label, m);
HASH_INSERT2(m->attrs_hash, RTA, m->pool, fec);
return fec;
}
struct mpls_fec *
mpls_get_fec_for_vrf(struct mpls_fec_map *m)
{
struct mpls_fec *fec = m->vrf_fec;
if (fec)
{
mpls_revive_fec(fec);
return fec;
}
u32 label = 0;
MPLS_HANDLE_LOCKED(m->handle, h)
label = mpls_new_label(h, 0);
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if (!label)
return NULL;
fec = mpls_new_fec(m, 0, label);
fec->policy = MPLS_POLICY_VRF;
fec->handle = m->handle;
fec->iface = m->vrf_iface;
DBGL("New FEC vrf %u map %p", fec->label, m);
m->vrf_fec = fec;
return fec;
}
static void
mpls_unlink_fec(struct mpls_fec_map *m, struct mpls_fec *fec)
{
switch (fec->policy)
{
case MPLS_POLICY_NONE:
case MPLS_POLICY_STATIC:
break;
case MPLS_POLICY_PREFIX:
DBGL("Unlink FEC %p %u from net_hash");
HASH_REMOVE2(m->net_hash, NET, m->pool, fec);
break;
case MPLS_POLICY_AGGREGATE:
DBGL("Unlink FEC %p %u from attrs_hash (%d) at %p", fec, fec->label, m->attrs_hash.count, m);
HASH_REMOVE2(m->attrs_hash, RTA, m->pool, fec);
ea_free(fec->rta->l);
break;
case MPLS_POLICY_VRF:
ASSERT(m->vrf_fec == fec);
m->vrf_fec = NULL;
break;
default:
bug("Unknown fec type");
}
}
static void
mpls_free_fec(struct mpls_fec_map *m, struct mpls_fec *fec)
{
if (fec->state != MPLS_FEC_DOWN)
mpls_withdraw_fec(m, fec);
DBGL("Free FEC %p %u of map %p, handle %p", fec, fec->label, m, fec->handle);
MPLS_DOMAIN_LOCKED(m->domain, domain)
{
struct mpls_handle *h = MPLS_HANDLE_PRIV(fec->handle);
mpls_free_label(h, fec->label);
DBGL("Handle %p policy %d label count %d", fec->handle, fec->policy, h->label_count);
if (!fec->policy && !h->label_count)
mpls_free_handle(h);
}
HASH_REMOVE2(m->label_hash, LABEL, m->pool, fec);
mpls_unlink_fec(m, fec);
sl_free(fec);
}
inline void mpls_revive_fec(struct mpls_fec *fec)
{
UNUSED u64 s = lfuc_lock_revive(&fec->uc);
DBGL("Locked FEC %p %u, was %lu (i)", fec, fec->label, s);
}
inline void mpls_lock_fec(struct mpls_fec *fec)
{
UNUSED u64 s = lfuc_lock(&fec->uc);
DBGL("Locked FEC %p %u, was %lu", fec, fec->label, s);
}
inline void mpls_unlock_fec(struct mpls_fec *fec)
{
lfuc_unlock(&fec->uc, birdloop_event_list(fec->map->loop), fec->map->cleanup_event);
DBGL("Unlocked FEC %p %u (deferred)", fec, fec->label);
}
static inline void
mpls_damage_fec(struct mpls_fec_map *m UNUSED, struct mpls_fec *fec)
{
if (fec->state == MPLS_FEC_CLEAN)
fec->state = MPLS_FEC_DIRTY;
}
static struct ea_storage *
mpls_get_key_attrs(struct mpls_fec_map *m, ea_list *src)
{
EA_LOCAL_LIST(4) ea = {};
uint last_id = 0;
#define PUT_ATTR(cls) do { \
ASSERT_DIE(last_id < (cls)->id); \
last_id = (cls)->id; \
eattr *a = ea_find_by_class(src, (cls)); \
if (a) ea.a[ea.l.count++] = *a; \
} while (0)
PUT_ATTR(&ea_gen_nexthop);
PUT_ATTR(&ea_gen_hostentry);
ea.a[ea.l.count++] = EA_LITERAL_EMBEDDED(&ea_gen_source, 0, m->mpls_rts);
PUT_ATTR(&ea_gen_mpls_class);
return ea_get_storage(ea_lookup(&ea.l, 0, EALS_KEY));
}
static void
mpls_announce_fec(struct mpls_fec_map *m, struct mpls_fec *fec, ea_list *src)
{
rte e = {
.src = m->channel->proto->main_source,
};
ea_set_attr_u32(&e.attrs, &ea_gen_source, 0, m->mpls_rts);
/* Check existence of hostentry */
const struct eattr *heea = ea_find_by_class(src, &ea_gen_hostentry);
if (heea) {
/* The same hostentry, but different dependent table */
SKIP_BACK_DECLARE(struct hostentry_adata, head, ad, heea->u.ad);
struct hostentry *he = head->he;
ea_set_hostentry(&e.attrs, m->channel->table, he->owner, he->addr, he->link,
HOSTENTRY_LABEL_COUNT(head), head->labels);
}
else
{
const struct eattr *nhea = ea_find_by_class(src, &ea_gen_nexthop);
if (!nhea)
bug("FEC has neither a hostentry, nor a nexthop");
ea_set_attr(&e.attrs, *nhea);
}
net_addr_mpls n = NET_ADDR_MPLS(fec->label);
fec->state = MPLS_FEC_CLEAN;
rte_update(m->channel, (net_addr *) &n, &e, m->channel->proto->main_source);
}
static void
mpls_withdraw_fec(struct mpls_fec_map *m, struct mpls_fec *fec)
{
/* The MPLS channel is already stopping */
if (m->channel->channel_state != CS_UP)
return;
net_addr_mpls n = NET_ADDR_MPLS(fec->label);
fec->state = MPLS_FEC_DOWN;
rte_update(m->channel, (net_addr *) &n, NULL, m->channel->proto->main_source);
}
static void
mpls_apply_fec(rte *r, struct mpls_fec *fec)
{
ea_set_attr_u32(&r->attrs, &ea_gen_mpls_label, 0, fec->label);
ea_set_attr_u32(&r->attrs, &ea_gen_mpls_policy, 0, fec->policy);
if (fec->policy == MPLS_POLICY_VRF)
{
ea_unset_attr(&r->attrs, 0, &ea_gen_hostentry);
struct nexthop_adata nhad = {
.nh.iface = fec->iface,
.ad.length = sizeof nhad - sizeof nhad.ad,
};
ea_set_attr_data(&r->attrs, &ea_gen_nexthop, 0, nhad.ad.data, nhad.ad.length);
}
}
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int
mpls_handle_rte(struct channel *c, const net_addr *n, rte *r, struct mpls_fec **fecp)
{
SKIP_BACK_DECLARE(struct mpls_channel, mc, c, c->proto->mpls_channel);
struct mpls_fec_map *m = mc->mpls_map;
struct mpls_fec *fec = *fecp = NULL;
/* Select FEC for route */
uint policy = ea_get_int(r->attrs, &ea_gen_mpls_policy, 0);
switch (policy)
{
case MPLS_POLICY_NONE:
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return 0;
case MPLS_POLICY_STATIC:;
uint label = ea_get_int(r->attrs, &ea_gen_mpls_label, 0);
if (label < 16)
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return 0;
fec = mpls_get_fec_by_label(m, label);
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if (!fec)
{
log(L_WARN "Static label %u failed for %N from %s",
label, n, r->sender->req->name);
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return -1;
}
mpls_damage_fec(m, fec);
break;
case MPLS_POLICY_PREFIX:
fec = mpls_get_fec_by_net(m, n, r->src->private_id);
mpls_damage_fec(m, fec);
break;
case MPLS_POLICY_AGGREGATE:
fec = mpls_get_fec_by_destination(m, r->attrs);
break;
case MPLS_POLICY_VRF:
if (!m->vrf_iface)
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return 0;
fec = mpls_get_fec_for_vrf(m);
break;
default:
log(L_WARN "Route %N has invalid MPLS policy %u", n, policy);
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return -1;
}
/* Label allocation failure */
if (!fec)
{
log(L_WARN "Label allocation in range %s failed for %N from %s",
m->handle->name, n, r->sender->req->name);
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return -1;
}
/* Apply FEC label to route */
mpls_apply_fec(r, fec);
/* Announce MPLS rule for new/updated FEC */
if (fec->state != MPLS_FEC_CLEAN)
mpls_announce_fec(m, fec, r->attrs);
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/* Store the returned FEC for later unlock */
*fecp = fec;
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return 0;
}
static inline struct mpls_fec *
mpls_rte_get_fec(const rte *r)
{
struct channel *c = SKIP_BACK(struct proto, sources, r->src->owner)->mpls_channel;
if (!c)
return NULL;
uint label = ea_get_int(r->attrs, &ea_gen_mpls_label, 0);
if (label < 16)
return NULL;
return mpls_find_fec_by_label(SKIP_BACK(struct mpls_channel, c, c)->mpls_map, label);
}
void
mpls_rte_preimport(rte *new, const rte *old)
{
struct mpls_fec *new_fec = new ? mpls_rte_get_fec(new) : NULL;
struct mpls_fec *old_fec = old ? mpls_rte_get_fec(old) : NULL;
if (new_fec == old_fec)
return;
if (new_fec)
{
DBGL("Lock FEC %p (preimport %p)", new_fec, new);
mpls_lock_fec(new_fec);
}
if (old_fec)
{
mpls_unlock_fec(old_fec);
DBGL("Unlock FEC %p (preimport %p)", old_fec, old);
}
}
static void
mpls_show_ranges_rng(struct mpls_show_ranges_cmd *cmd UNUSED, struct mpls_range *r)
{
uint last = lmap_last_one_in_range(&r->domain->labels, r->lo, r->hi);
if (last == r->hi) last = 0;
cli_msg(-1026, "%-11s %7u %7u %7u %7u %7u",
r->name, r->lo, r->hi - r->lo, r->hi, r->label_count, last);
}
void
mpls_show_ranges_dom(struct mpls_show_ranges_cmd *cmd, struct mpls_domain_pub *mpub)
{
MPLS_DOMAIN_LOCK(mpub, m);
cli_msg(-1026, "MPLS domain %s:", m->name);
cli_msg(-1026, "%-11s %7s %7s %7s %7s %7s",
"Range", "Start", "Length", "End", "Labels", "Last");
if (cmd->range)
mpls_show_ranges_rng(cmd, MPLS_RANGE_PRIV(cmd->range->range));
else
{
struct mpls_range *r;
WALK_LIST(r, m->ranges)
if (!r->removed)
mpls_show_ranges_rng(cmd, r);
}
}
void
mpls_show_ranges(struct mpls_show_ranges_cmd *cmd)
{
if (cmd->domain)
mpls_show_ranges_dom(cmd, cmd->domain->domain);
else
{
struct mpls_domain_pub *m;
_Bool first = 1;
WALK_LIST(m, MPLS_GLOBAL->domains)
{
if (first)
first = 0;
else
cli_msg(-1026, "");
mpls_show_ranges_dom(cmd, m);
}
}
cli_msg(0, "");
}
struct ea_class ea_gen_mpls_policy = {
.name = "mpls_policy",
.type = T_ENUM_MPLS_POLICY,
};
struct ea_class ea_gen_mpls_class = {
.name = "mpls_class",
.type = T_INT,
};
struct ea_class ea_gen_mpls_label = {
.name = "mpls_label",
.type = T_INT,
};