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path: root/nest/rt-table.c
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/*
 *	BIRD -- Routing Tables
 *
 *	(c) 1998--2000 Martin Mares <mj@ucw.cz>
 *
 *	Can be freely distributed and used under the terms of the GNU GPL.
 */

/**
 * DOC: Routing tables
 *
 * Routing tables are probably the most important structures BIRD uses. They
 * hold all the information about known networks, the associated routes and
 * their attributes.
 *
 * There are multiple routing tables (a primary one together with any
 * number of secondary ones if requested by the configuration). Each table
 * is basically a FIB containing entries describing the individual
 * destination networks. For each network (represented by structure &net),
 * there is a one-way linked list of route entries (&rte), the first entry
 * on the list being the best one (i.e., the one we currently use
 * for routing), the order of the other ones is undetermined.
 *
 * The &rte contains information specific to the route (preference, protocol
 * metrics, time of last modification etc.) and a pointer to a &rta structure
 * (see the route attribute module for a precise explanation) holding the
 * remaining route attributes which are expected to be shared by multiple
 * routes in order to conserve memory.
 */

#undef LOCAL_DEBUG

#include "nest/bird.h"
#include "nest/route.h"
#include "nest/protocol.h"
#include "nest/cli.h"
#include "nest/iface.h"
#include "lib/resource.h"
#include "lib/event.h"
#include "lib/string.h"
#include "conf/conf.h"
#include "filter/filter.h"
#include "lib/string.h"
#include "alloca.h"

static slab *rte_slab;
static linpool *rte_update_pool;

static pool *rt_table_pool;
static list routing_tables;

static void rt_format_via(rte *e, byte *via);

static void
rte_init(struct fib_node *N)
{
  net *n = (net *) N;

  N->flags = 0;
  n->routes = NULL;
}

/**
 * rte_find - find a route
 * @net: network node
 * @p: protocol
 *
 * The rte_find() function returns a route for destination @net
 * which belongs has been defined by protocol @p.
 */
rte *
rte_find(net *net, struct proto *p)
{
  rte *e = net->routes;

  while (e && e->attrs->proto != p)
    e = e->next;
  return e;
}

/**
 * rte_get_temp - get a temporary &rte
 * @a: attributes to assign to the new route (a &rta; in case it's
 * un-cached, rte_update() will create a cached copy automatically)
 *
 * Create a temporary &rte and bind it with the attributes @a.
 * Also set route preference to the default preference set for
 * the protocol.
 */
rte *
rte_get_temp(rta *a)
{
  rte *e = sl_alloc(rte_slab);

  e->attrs = a;
  e->flags = 0;
  e->pref = a->proto->preference;
  return e;
}

rte *
rte_do_cow(rte *r)
{
  rte *e = sl_alloc(rte_slab);

  memcpy(e, r, sizeof(rte));
  e->attrs = rta_clone(r->attrs);
  e->flags = 0;
  return e;
}

static int				/* Actually better or at least as good as */
rte_better(rte *new, rte *old)
{
  int (*better)(rte *, rte *);

  if (!old)
    return 1;
  if (new->pref > old->pref)
    return 1;
  if (new->pref < old->pref)
    return 0;
  if (new->attrs->proto->proto != old->attrs->proto->proto)
    {
      /*
       *  If the user has configured protocol preferences, so that two different protocols
       *  have the same preference, try to break the tie by comparing addresses. Not too
       *  useful, but keeps the ordering of routes unambiguous.
       */
      return new->attrs->proto->proto > old->attrs->proto->proto;
    }
  if (better = new->attrs->proto->rte_better)
    return better(new, old);
  return 0;
}

static void
rte_trace(struct proto *p, rte *e, int dir, char *msg)
{
  byte via[STD_ADDRESS_P_LENGTH+32];

  rt_format_via(e, via);
  log(L_TRACE "%s %c %s %I/%d %s", p->name, dir, msg, e->net->n.prefix, e->net->n.pxlen, via);
}

static inline void
rte_trace_in(unsigned int flag, struct proto *p, rte *e, char *msg)
{
  if (p->debug & flag)
    rte_trace(p, e, '>', msg);
}

static inline void
rte_trace_out(unsigned int flag, struct proto *p, rte *e, char *msg)
{
  if (p->debug & flag)
    rte_trace(p, e, '<', msg);
}

static inline void
do_rte_announce(struct announce_hook *a, net *net, rte *new, rte *old, ea_list *tmpa, int class)
{
  struct proto *p = a->proto;
  rte *new0 = new;
  rte *old0 = old;
  int ok;

  if (new)
    {
      char *drop_reason = NULL;
      if ((class & IADDR_SCOPE_MASK) < p->min_scope)
	drop_reason = "out of scope";
      else if ((ok = p->import_control ? p->import_control(p, &new, &tmpa, rte_update_pool) : 0) < 0)
	drop_reason = "rejected by protocol";
      else if (ok)
	rte_trace_out(D_FILTERS, p, new, "forced accept by protocol");
      else if (p->out_filter == FILTER_REJECT ||
	       p->out_filter && f_run(p->out_filter, &new, &tmpa, rte_update_pool, FF_FORCE_TMPATTR) > F_ACCEPT)
	drop_reason = "filtered out";
      if (drop_reason)
	{
	  rte_trace_out(D_FILTERS, p, new, drop_reason);
	  if (new != new0)
	    rte_free(new);
	  new = NULL;
	}
    }
  if (old && p->out_filter)
    {
      if (p->out_filter == FILTER_REJECT)
	old = NULL;
      else
	{
	  ea_list *tmpb = p->make_tmp_attrs ? p->make_tmp_attrs(old, rte_update_pool) : NULL;
	  ok = p->import_control ? p->import_control(p, &old, &tmpb, rte_update_pool) : 0;
	  if (ok < 0 || (!ok && f_run(p->out_filter, &old, &tmpb, rte_update_pool, FF_FORCE_TMPATTR) > F_ACCEPT))
	    {
	      if (old != old0)
		rte_free(old);
	      old = NULL;
	    }
	}
    }
  if (p->debug & D_ROUTES)
    {
      if (new && old)
	rte_trace_out(D_ROUTES, p, new, "replaced");
      else if (new)
	rte_trace_out(D_ROUTES, p, new, "added");
      else if (old)
	rte_trace_out(D_ROUTES, p, old, "removed");
    }
  if (!new && !old)
    return;
  if (!new)
    p->rt_notify(p, net, NULL, old, NULL);
  else if (tmpa)
    {
      ea_list *t = tmpa;
      while (t->next)
	t = t->next;
      t->next = new->attrs->eattrs;
      p->rt_notify(p, net, new, old, tmpa);
      t->next = NULL;
    }
  else
    p->rt_notify(p, net, new, old, new->attrs->eattrs);
  if (new && new != new0)	/* Discard temporary rte's */
    rte_free(new);
  if (old && old != old0)
    rte_free(old);
}

/**
 * rte_announce - announce a routing table change
 * @tab: table the route has been added to
 * @net: network in question
 * @new: the new route to be announced
 * @old: previous optimal route for the same network
 * @tmpa: a list of temporary attributes belonging to the new route
 *
 * This function gets a routing table update and announces it
 * to all protocols connected to the same table by their announcement hooks.
 *
 * For each such protocol, we first call its import_control() hook which
 * performs basic checks on the route (each protocol has a right to veto
 * or force accept of the route before any filter is asked) and adds default
 * values of attributes specific to the new protocol (metrics, tags etc.).
 * Then it consults the protocol's export filter and if it accepts the
 * route, the rt_notify() hook of the protocol gets called.
 */
static void
rte_announce(rtable *tab, net *net, rte *new, rte *old, ea_list *tmpa)
{
  struct announce_hook *a;
  int class = ipa_classify(net->n.prefix);

  WALK_LIST(a, tab->hooks)
    {
      ASSERT(a->proto->core_state == FS_HAPPY || a->proto->core_state == FS_FEEDING);
      do_rte_announce(a, net, new, old, tmpa, class);
    }
}

static inline int
rte_validate(rte *e)
{
  int c;
  net *n = e->net;

  if (ipa_nonzero(ipa_and(n->n.prefix, ipa_not(ipa_mkmask(n->n.pxlen)))))
    {
      log(L_BUG "Ignoring bogus prefix %I/%d received via %s",
	  n->n.prefix, n->n.pxlen, e->attrs->proto->name);
      return 0;
    }
  if (n->n.pxlen)
    {
      c = ipa_classify(n->n.prefix);
      if (c < 0 || !(c & IADDR_HOST))
	{
	  if (!ipa_nonzero(n->n.prefix))
	    {
	      /* Various default routes */
#ifdef IPV6
	      if (n->n.pxlen == 96)
#else
	      if (n->n.pxlen <= 1)
#endif
		return 1;
	    }
	  log(L_WARN "Ignoring bogus route %I/%d received via %s",
	      n->n.prefix, n->n.pxlen, e->attrs->proto->name);
	  return 0;
	}
      if ((c & IADDR_SCOPE_MASK) < e->attrs->proto->min_scope)
	{
	  log(L_WARN "Ignoring %s scope route %I/%d received from %I via %s",
	      ip_scope_text(c & IADDR_SCOPE_MASK),
	      n->n.prefix, n->n.pxlen, e->attrs->from, e->attrs->proto->name);
	  return 0;
	}
    }
  return 1;
}

/**
 * rte_free - delete a &rte
 * @e: &rte to be deleted
 *
 * rte_free() deletes the given &rte from the routing table it's linked to.
 */
void
rte_free(rte *e)
{
  if (e->attrs->aflags & RTAF_CACHED)
    rta_free(e->attrs);
  sl_free(rte_slab, e);
}

static inline void
rte_free_quick(rte *e)
{
  rta_free(e->attrs);
  sl_free(rte_slab, e);
}

static int
rte_same(rte *x, rte *y)
{
  return
    x->attrs == y->attrs &&
    x->flags == y->flags &&
    x->pflags == y->pflags &&
    x->pref == y->pref &&
    (!x->attrs->proto->rte_same || x->attrs->proto->rte_same(x, y));
}

static void
rte_recalculate(rtable *table, net *net, struct proto *p, rte *new, ea_list *tmpa)
{
  rte *old_best = net->routes;
  rte *old = NULL;
  rte **k, *r, *s;

  k = &net->routes;			/* Find and remove original route from the same protocol */
  while (old = *k)
    {
      if (old->attrs->proto == p)
	{
	  if (new && rte_same(old, new))
	    {
	      /* No changes, ignore the new route */
	      rte_trace_in(D_ROUTES, p, new, "ignored");
	      rte_free_quick(new);
	      old->lastmod = now;
	      return;
	    }
	  *k = old->next;
	  break;
	}
      k = &old->next;
    }

  if (new && rte_better(new, old_best))	/* It's a new optimal route => announce and relink it */
    {
      rte_trace_in(D_ROUTES, p, new, "added [best]");
      rte_announce(table, net, new, old_best, tmpa);
      new->next = net->routes;
      net->routes = new;
    }
  else
    {
      if (old == old_best)		/* It has _replaced_ the old optimal route */
	{
	  r = new;			/* Find new optimal route and announce it */
	  for(s=net->routes; s; s=s->next)
	    if (rte_better(s, r))
	      r = s;
	  rte_announce(table, net, r, old_best, tmpa);
	  if (r)			/* Re-link the new optimal route */
	    {
	      k = &net->routes;
	      while (s = *k)
		{
		  if (s == r)
		    {
		      *k = r->next;
		      break;
		    }
		  k = &s->next;
		}
	      r->next = net->routes;
	      net->routes = r;
	    }
	  else if (table->gc_counter++ >= table->config->gc_max_ops &&
		   table->gc_time + table->config->gc_min_time <= now)
	    ev_schedule(table->gc_event);
	}
      if (new)				/* Link in the new non-optimal route */
	{
	  new->next = old_best->next;
	  old_best->next = new;
	  rte_trace_in(D_ROUTES, p, new, "added");
	}
      else if (old && (p->debug & D_ROUTES))
	{
	  if (old != old_best)
	    rte_trace_in(D_ROUTES, p, old, "removed");
	  else if (net->routes)
	    rte_trace_in(D_ROUTES, p, old, "removed [replaced]");
	  else
	    rte_trace_in(D_ROUTES, p, old, "removed [sole]");
	}
    }
  if (old)
    {
      if (p->rte_remove)
	p->rte_remove(net, old);
      rte_free_quick(old);
    }
  if (new)
    {
      new->lastmod = now;
      if (p->rte_insert)
	p->rte_insert(net, new);
    }
}

static int rte_update_nest_cnt;		/* Nesting counter to allow recursive updates */

static inline void
rte_update_lock(void)
{
  rte_update_nest_cnt++;
}

static inline void
rte_update_unlock(void)
{
  if (!--rte_update_nest_cnt)
    lp_flush(rte_update_pool);
}

/**
 * rte_update - enter a new update to a routing table
 * @table: table to be updated
 * @net: network node
 * @p: protocol submitting the update
 * @new: a &rte representing the new route or %NULL for route removal.
 *
 * This function is called by the routing protocols whenever they discover
 * a new route or wish to update/remove an existing route. The right announcement
 * sequence is to build route attributes first (either un-cached with @aflags set
 * to zero or a cached one using rta_lookup(); in this case please note that
 * you need to increase the use count of the attributes yourself by calling
 * rta_clone()), call rte_get_temp() to obtain a temporary &rte, fill in all
 * the appropriate data and finally submit the new &rte by calling rte_update().
 *
 * When rte_update() gets any route, it automatically validates it (checks,
 * whether the network and next hop address are valid IP addresses and also
 * whether a normal routing protocol doesn't try to smuggle a host or link
 * scope route to the table), converts all protocol dependent attributes stored
 * in the &rte to temporary extended attributes, consults import filters of the
 * protocol to see if the route should be accepted and/or its attributes modified,
 * stores the temporary attributes back to the &rte.
 *
 * Now, having a "public" version of the route, we
 * automatically find any old route defined by the protocol @p
 * for network @n, replace it by the new one (or removing it if @new is %NULL),
 * recalculate the optimal route for this destination and finally broadcast
 * the change (if any) to all routing protocols by calling rte_announce().
 *
 * All memory used for attribute lists and other temporary allocations is taken
 * from a special linear pool @rte_update_pool and freed when rte_update()
 * finishes.
 */
void
rte_update(rtable *table, net *net, struct proto *p, rte *new)
{
  ea_list *tmpa = NULL;

  rte_update_lock();
  if (new)
    {
      if (!rte_validate(new))
	{
	  rte_trace_in(D_FILTERS, p, new, "invalid");
	  goto drop;
	}
      if (p->in_filter == FILTER_REJECT)
	{
	  rte_trace_in(D_FILTERS, p, new, "filtered out");
	  goto drop;
	}
      if (p->make_tmp_attrs)
	tmpa = p->make_tmp_attrs(new, rte_update_pool);
      if (p->in_filter)
	{
	  ea_list *old_tmpa = tmpa;
	  int fr = f_run(p->in_filter, &new, &tmpa, rte_update_pool, 0);
	  if (fr > F_ACCEPT)
	    {
	      rte_trace_in(D_FILTERS, p, new, "filtered out");
	      goto drop;
	    }
	  if (tmpa != old_tmpa && p->store_tmp_attrs)
	    p->store_tmp_attrs(new, tmpa);
	}
      if (!(new->attrs->aflags & RTAF_CACHED)) /* Need to copy attributes */
	new->attrs = rta_lookup(new->attrs);
      new->flags |= REF_COW;
    }
  rte_recalculate(table, net, p, new, tmpa);
  rte_update_unlock();
  return;

drop:
  rte_free(new);
  rte_update_unlock();
}

void
rte_discard(rtable *t, rte *old)	/* Non-filtered route deletion, used during garbage collection */
{
  net *n = old->net;
  struct proto *p = old->attrs->proto;

  rte_update_lock();
  rte_recalculate(t, n, p, NULL, NULL);
  rte_update_unlock();
}

/**
 * rte_dump - dump a route
 * @e: &rte to be dumped
 *
 * This functions dumps contents of a &rte to debug output.
 */
void
rte_dump(rte *e)
{
  net *n = e->net;
  if (n)
    debug("%-1I/%2d ", n->n.prefix, n->n.pxlen);
  else
    debug("??? ");
  debug("KF=%02x PF=%02x pref=%d lm=%d ", n->n.flags, e->pflags, e->pref, now-e->lastmod);
  rta_dump(e->attrs);
  if (e->attrs->proto->proto->dump_attrs)
    e->attrs->proto->proto->dump_attrs(e);
  debug("\n");
}

/**
 * rt_dump - dump a routing table
 * @t: routing table to be dumped
 *
 * This function dumps contents of a given routing table to debug output.
 */
void
rt_dump(rtable *t)
{
  rte *e;
  net *n;
  struct announce_hook *a;

  debug("Dump of routing table <%s>\n", t->name);
#ifdef DEBUGGING
  fib_check(&t->fib);
#endif
  FIB_WALK(&t->fib, fn)
    {
      n = (net *) fn;
      for(e=n->routes; e; e=e->next)
	rte_dump(e);
    }
  FIB_WALK_END;
  WALK_LIST(a, t->hooks)
    debug("\tAnnounces routes to protocol %s\n", a->proto->name);
  debug("\n");
}

/**
 * rt_dump_all - dump all routing tables
 *
 * This function dumps contents of all routing tables to debug output.
 */
void
rt_dump_all(void)
{
  rtable *t;

  WALK_LIST(t, routing_tables)
    rt_dump(t);
}

static void
rt_gc(void *tab)
{
  rtable *t = tab;

  DBG("Entered routing table garbage collector for %s after %d seconds and %d deletes\n",
      t->name, (int)(now - t->gc_time), t->gc_counter);
  rt_prune(t);
}

void
rt_setup(pool *p, rtable *t, char *name, struct rtable_config *cf)
{
  bzero(t, sizeof(*t));
  fib_init(&t->fib, p, sizeof(net), 0, rte_init);
  t->name = name;
  t->config = cf;
  init_list(&t->hooks);
  if (cf)
    {
      t->gc_event = ev_new(p);
      t->gc_event->hook = rt_gc;
      t->gc_event->data = t;
      t->gc_time = now;
    }
}

/**
 * rt_init - initialize routing tables
 *
 * This function is called during BIRD startup. It initializes the
 * routing table module.
 */
void
rt_init(void)
{
  rta_init();
  rt_table_pool = rp_new(&root_pool, "Routing tables");
  rte_update_pool = lp_new(rt_table_pool, 4080);
  rte_slab = sl_new(rt_table_pool, sizeof(rte));
  init_list(&routing_tables);
}

/**
 * rt_prune - prune a routing table
 * @tab: routing table to be pruned
 *
 * This function is called whenever a protocol shuts down. It scans
 * the routing table and removes all routes belonging to inactive
 * protocols and also stale network entries.
 */
void
rt_prune(rtable *tab)
{
  struct fib_iterator fit;
  int rcnt = 0, rdel = 0, ncnt = 0, ndel = 0;

  DBG("Pruning route table %s\n", tab->name);
#ifdef DEBUGGING
  fib_check(&tab->fib);
#endif
  FIB_ITERATE_INIT(&fit, &tab->fib);
again:
  FIB_ITERATE_START(&tab->fib, &fit, f)
    {
      net *n = (net *) f;
      rte *e;
      ncnt++;
    rescan:
      for (e=n->routes; e; e=e->next, rcnt++)
	if (e->attrs->proto->core_state != FS_HAPPY &&
	    e->attrs->proto->core_state != FS_FEEDING)
	  {
	    rte_discard(tab, e);
	    rdel++;
	    goto rescan;
	  }
      if (!n->routes)		/* Orphaned FIB entry? */
	{
	  FIB_ITERATE_PUT(&fit, f);
	  fib_delete(&tab->fib, f);
	  ndel++;
	  goto again;
	}
    }
  FIB_ITERATE_END(f);
  DBG("Pruned %d of %d routes and %d of %d networks\n", rdel, rcnt, ndel, ncnt);
#ifdef DEBUGGING
  fib_check(&tab->fib);
#endif
  tab->gc_counter = 0;
  tab->gc_time = now;
}

/**
 * rt_prune_all - prune all routing tables
 *
 * This function calls rt_prune() for all known routing tables.
 */
void
rt_prune_all(void)
{
  rtable *t;

  WALK_LIST(t, routing_tables)
    rt_prune(t);
}

struct rtable_config *
rt_new_table(struct symbol *s)
{
  struct rtable_config *c = cfg_allocz(sizeof(struct rtable_config));

  cf_define_symbol(s, SYM_TABLE, c);
  c->name = s->name;
  add_tail(&new_config->tables, &c->n);
  c->gc_max_ops = 1000;
  c->gc_min_time = 5;
  return c;
}

void
rt_preconfig(struct config *c)
{
  struct symbol *s = cf_find_symbol("master");

  init_list(&c->tables);
  c->master_rtc = rt_new_table(s);
}

/**
 * rt_lock_table - lock a routing table
 * @r: routing table to be locked
 *
 * Lock a routing table, because it's in use by a protocol,
 * preventing it from being freed when it gets undefined in a new
 * configuration.
 */
void
rt_lock_table(rtable *r)
{
  r->use_count++;
}

/**
 * rt_unlock_table - unlock a routing table
 * @r: routing table to be unlocked
 *
 * Unlock a routing table formerly locked by rt_lock_table(),
 * that is decrease its use count and delete it if it's scheduled
 * for deletion by configuration changes.
 */
void
rt_unlock_table(rtable *r)
{
  if (!--r->use_count && r->deleted)
    {
      struct config *conf = r->deleted;
      DBG("Deleting routing table %s\n", r->name);
      rem_node(&r->n);
      fib_free(&r->fib);
      mb_free(r);
      config_del_obstacle(conf);
    }
}

/**
 * rt_commit - commit new routing table configuration
 * @new: new configuration
 * @old: original configuration or %NULL if it's boot time config
 *
 * Scan differences between @old and @new configuration and modify
 * the routing tables according to these changes. If @new defines a
 * previously unknown table, create it, if it omits a table existing
 * in @old, schedule it for deletion (it gets deleted when all protocols
 * disconnect from it by calling rt_unlock_table()), if it exists
 * in both configurations, leave it unchanged.
 */
void
rt_commit(struct config *new, struct config *old)
{
  struct rtable_config *o, *r;

  DBG("rt_commit:\n");
  if (old)
    {
      WALK_LIST(o, old->tables)
	{
	  rtable *ot = o->table;
	  if (!ot->deleted)
	    {
	      struct symbol *sym = cf_find_symbol(o->name);
	      if (sym && sym->class == SYM_TABLE && !new->shutdown)
		{
		  DBG("\t%s: same\n", o->name);
		  r = sym->def;
		  r->table = ot;
		  ot->name = r->name;
		  ot->config = r;
		}
	      else
		{
		  DBG("\t%s: deleted\n", o->name);
		  ot->deleted = old;
		  config_add_obstacle(old);
		  rt_lock_table(ot);
		  rt_unlock_table(ot);
		}
	    }
	}
    }

  WALK_LIST(r, new->tables)
    if (!r->table)
      {
	rtable *t = mb_alloc(rt_table_pool, sizeof(struct rtable));
	DBG("\t%s: created\n", r->name);
	rt_setup(rt_table_pool, t, r->name, r);
	add_tail(&routing_tables, &t->n);
	r->table = t;
      }
  DBG("\tdone\n");
}

/**
 * rt_feed_baby - advertise routes to a new protocol
 * @p: protocol to be fed
 *
 * This function performs one pass of advertisement of routes to a newly
 * initialized protocol. It's called by the protocol code as long as it
 * has something to do. (We avoid transferring all the routes in single
 * pass in order not to monopolize CPU time.)
 */
int
rt_feed_baby(struct proto *p)
{
  struct announce_hook *h;
  struct fib_iterator *fit;
  int max_feed = 256;

  if (!p->feed_ahook)			/* Need to initialize first */
    {
      if (!p->ahooks)
	return 1;
      DBG("Announcing routes to new protocol %s\n", p->name);
      p->feed_ahook = p->ahooks;
      fit = p->feed_iterator = mb_alloc(p->pool, sizeof(struct fib_iterator));
      goto next_hook;
    }
  fit = p->feed_iterator;

again:
  h = p->feed_ahook;
  FIB_ITERATE_START(&h->table->fib, fit, fn)
    {
      net *n = (net *) fn;
      rte *e;
      if (max_feed <= 0)
	{
	  FIB_ITERATE_PUT(fit, fn);
	  return 0;
	}
      for(e=n->routes; e; e=e->next)
	{
	  struct proto *q = e->attrs->proto;
	  ea_list *tmpa;

	  if (p->core_state != FS_FEEDING)
	    return 1;  /* In the meantime, the protocol fell down. */
	  rte_update_lock();
	  tmpa = q->make_tmp_attrs ? q->make_tmp_attrs(e, rte_update_pool) : NULL;
	  do_rte_announce(h, n, e, NULL, tmpa, ipa_classify(n->n.prefix));
	  rte_update_unlock();
	  max_feed--;
	}
    }
  FIB_ITERATE_END(fn);
  p->feed_ahook = h->next;
  if (!p->feed_ahook)
    {
      mb_free(p->feed_iterator);
      p->feed_iterator = NULL;
      return 1;
    }

next_hook:
  h = p->feed_ahook;
  FIB_ITERATE_INIT(fit, &h->table->fib);
  goto again;
}

/**
 * rt_feed_baby_abort - abort protocol feeding
 * @p: protocol
 *
 * This function is called by the protocol code when the protocol
 * stops or ceases to exist before the last iteration of rt_feed_baby()
 * has finished.
 */
void
rt_feed_baby_abort(struct proto *p)
{
  if (p->feed_ahook)
    {
      /* Unlink the iterator and exit */
      fit_get(&p->feed_ahook->table->fib, p->feed_iterator);
      p->feed_ahook = NULL;
    }
}

/*
 *  CLI commands
 */

static void
rt_format_via(rte *e, byte *via)
{
  rta *a = e->attrs;

  switch (a->dest)
    {
    case RTD_ROUTER:	bsprintf(via, "via %I on %s", a->gw, a->iface->name); break;
    case RTD_DEVICE:	bsprintf(via, "dev %s", a->iface->name); break;
    case RTD_BLACKHOLE:	bsprintf(via, "blackhole"); break;
    case RTD_UNREACHABLE:	bsprintf(via, "unreachable"); break;
    case RTD_PROHIBIT:	bsprintf(via, "prohibited"); break;
    default:		bsprintf(via, "???");
    }
}

static void
rt_show_rte(struct cli *c, byte *ia, rte *e, struct rt_show_data *d, ea_list *tmpa)
{
  byte via[STD_ADDRESS_P_LENGTH+32], from[STD_ADDRESS_P_LENGTH+6];
  byte tm[TM_RELTIME_BUFFER_SIZE], info[256];
  rta *a = e->attrs;

  rt_format_via(e, via);
  tm_format_reltime(tm, e->lastmod);
  if (ipa_nonzero(a->from) && !ipa_equal(a->from, a->gw))
    bsprintf(from, " from %I", a->from);
  else
    from[0] = 0;
  if (a->proto->proto->get_route_info || d->verbose)
    {
      /* Need to normalize the extended attributes */
      ea_list *t = tmpa;
      t = ea_append(t, a->eattrs);
      tmpa = alloca(ea_scan(t));
      ea_merge(t, tmpa);
      ea_sort(tmpa);
    }
  if (a->proto->proto->get_route_info)
    a->proto->proto->get_route_info(e, info, tmpa);
  else
    bsprintf(info, " (%d)", e->pref);
  cli_printf(c, -1007, "%-18s %s [%s %s%s]%s", ia, via, a->proto->name, tm, from, info);
  if (d->verbose)
    rta_show(c, a, tmpa);
}

static void
rt_show_net(struct cli *c, net *n, struct rt_show_data *d)
{
  rte *e, *ee;
  byte ia[STD_ADDRESS_P_LENGTH+8];
  int ok;

  bsprintf(ia, "%I/%d", n->n.prefix, n->n.pxlen);
  if (n->routes)
    d->net_counter++;
  for(e=n->routes; e; e=e->next)
    {
      struct ea_list *tmpa, *old_tmpa;
      struct proto *p0 = e->attrs->proto;
      struct proto *p1 = d->import_protocol;
      d->rt_counter++;
      ee = e;
      rte_update_lock();		/* We use the update buffer for filtering */
      old_tmpa = tmpa = p0->make_tmp_attrs ? p0->make_tmp_attrs(e, rte_update_pool) : NULL;
      ok = (d->filter == FILTER_ACCEPT || f_run(d->filter, &e, &tmpa, rte_update_pool, FF_FORCE_TMPATTR) <= F_ACCEPT);
      if (ok && d->import_mode)
	{
	  int ic = (p1->import_control ? p1->import_control(p1, &e, &tmpa, rte_update_pool) : 0);
	  if (ic < 0)
	    ok = 0;
	  else if (!ic && d->import_mode > 1)
	    {
	      if (p1->out_filter == FILTER_REJECT ||
		  p1->out_filter && f_run(p1->out_filter, &e, &tmpa, rte_update_pool, FF_FORCE_TMPATTR) > F_ACCEPT)
		ok = 0;
	    }
	}
      if (ok)
	{
	  d->show_counter++;
	  if (d->stats < 2)
	    rt_show_rte(c, ia, e, d, tmpa);
	  ia[0] = 0;
	}
      if (e != ee)
	rte_free(ee);
      rte_update_unlock();
      if (d->primary_only)
	break;
    }
}

static void
rt_show_cont(struct cli *c)
{
  struct rt_show_data *d = c->rover;
#ifdef DEBUGGING
  unsigned max = 4;
#else
  unsigned max = 64;
#endif
  struct fib *fib = &d->table->fib;
  struct fib_iterator *it = &d->fit;

  FIB_ITERATE_START(fib, it, f)
    {
      net *n = (net *) f;
      if (d->running_on_config && d->running_on_config != config)
	{
	  cli_printf(c, 8004, "Stopped due to reconfiguration");
	  goto done;
	}
      if (d->import_protocol &&
	  d->import_protocol->core_state != FS_HAPPY &&
	  d->import_protocol->core_state != FS_FEEDING)
	{
	  cli_printf(c, 8005, "Protocol is down");
	  goto done;
	}
      if (!max--)
	{
	  FIB_ITERATE_PUT(it, f);
	  return;
	}
      rt_show_net(c, n, d);
    }
  FIB_ITERATE_END(f);
  if (d->stats)
    cli_printf(c, 14, "%d of %d routes for %d networks", d->show_counter, d->rt_counter, d->net_counter);
  else
    cli_printf(c, 0, "");
done:
  c->cont = c->cleanup = NULL;
}

static void
rt_show_cleanup(struct cli *c)
{
  struct rt_show_data *d = c->rover;

  /* Unlink the iterator */
  fit_get(&d->table->fib, &d->fit);
}

void
rt_show(struct rt_show_data *d)
{
  net *n;

  if (d->pxlen == 256)
    {
      FIB_ITERATE_INIT(&d->fit, &d->table->fib);
      this_cli->cont = rt_show_cont;
      this_cli->cleanup = rt_show_cleanup;
      this_cli->rover = d;
    }
  else
    {
      if (d->show_for)
	n = fib_route(&d->table->fib, d->prefix, d->pxlen);
      else
	n = fib_find(&d->table->fib, &d->prefix, d->pxlen);
      if (n)
	{
	  rt_show_net(this_cli, n, d);
	  cli_msg(0, "");
	}
      else
	cli_msg(8001, "Network not in table");
    }
}

/*
 *  Documentation for functions declared inline in route.h
 */
#if 0

/**
 * net_find - find a network entry
 * @tab: a routing table
 * @addr: address of the network
 * @len: length of the network prefix
 *
 * net_find() looks up the given network in routing table @tab and
 * returns a pointer to its &net entry or %NULL if no such network
 * exists.
 */
static inline net *net_find(rtable *tab, ip_addr addr, unsigned len)
{ DUMMY; }

/**
 * net_get - obtain a network entry
 * @tab: a routing table
 * @addr: address of the network
 * @len: length of the network prefix
 *
 * net_get() looks up the given network in routing table @tab and
 * returns a pointer to its &net entry. If no such entry exists, it's
 * created.
 */
static inline net *net_get(rtable *tab, ip_addr addr, unsigned len)
{ DUMMY; }

/**
 * rte_cow - copy a route for writing
 * @r: a route entry to be copied
 *
 * rte_cow() takes a &rte and prepares it for modification. The exact action
 * taken depends on the flags of the &rte -- if it's a temporary entry, it's
 * just returned unchanged, else a new temporary entry with the same contents
 * is created.
 *
 * The primary use of this function is inside the filter machinery -- when
 * a filter wants to modify &rte contents (to change the preference or to
 * attach another set of attributes), it must ensure that the &rte is not
 * shared with anyone else (and especially that it isn't stored in any routing
 * table).
 *
 * Result: a pointer to the new writable &rte.
 */
static inline rte * rte_cow(rte *r)
{ DUMMY; }

#endif