mirror of
https://gitlab.nic.cz/labs/bird.git
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223 lines
5.4 KiB
C
223 lines
5.4 KiB
C
/*
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* BIRD Internet Routing Daemon -- Semi-global index of nets
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*
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* (c) 2023 Maria Matejka <mq@jmq.cz>
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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#include "lib/birdlib.h"
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#include "lib/netindex_private.h"
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#define NETINDEX_KEY(n) (n)->hash, (n)->addr
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#define NETINDEX_NEXT(n) (n)->next
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#define NETINDEX_EQ(h,n,i,o) ((h == i) && net_equal(n,o))
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#define NETINDEX_FN(h,n) (h)
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#define NETINDEX_ORDER 4 /* Initial */
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#define NETINDEX_REHASH netindex_rehash
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#define NETINDEX_PARAMS /8, *1, 2, 2, 4, 28
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HASH_DEFINE_REHASH_FN(NETINDEX, struct netindex);
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static void netindex_hash_cleanup(void *netindex_hash);
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/*
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* Handle for persistent or semipersistent usage
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*/
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struct netindex_handle {
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resource r;
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struct netindex *index;
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netindex_hash *h;
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};
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static void
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net_unlock_index_persistent(resource *r)
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{
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struct netindex_handle *nh = SKIP_BACK(struct netindex_handle, r, r);
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net_unlock_index(nh->h, nh->index);
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}
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static void
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netindex_handle_dump(resource *r, unsigned indent UNUSED)
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{
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struct netindex_handle *nh = SKIP_BACK(struct netindex_handle, r, r);
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debug("index=%u, net=%N", nh->index->index, nh->index->addr);
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}
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static struct resclass netindex_handle_class = {
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.name = "Netindex handle",
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.size = sizeof(struct netindex_handle),
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.free = net_unlock_index_persistent,
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.dump = netindex_handle_dump,
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};
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static struct netindex *
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net_lock_index_persistent(struct netindex_hash_private *hp, struct netindex *ni, pool *p)
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{
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if (!ni)
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return NULL;
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struct netindex_handle *nh = ralloc(p, &netindex_handle_class);
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// log(L_TRACE "Revive index %p", ni);
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lfuc_lock_revive(&ni->uc);
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nh->index = ni;
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nh->h = SKIP_BACK(netindex_hash, priv, hp);
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return ni;
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}
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/*
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* Index initialization
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*/
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netindex_hash *
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netindex_hash_new(pool *sp)
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{
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DOMAIN(attrs) dom = DOMAIN_NEW(attrs);
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LOCK_DOMAIN(attrs, dom);
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pool *p = rp_new(sp, dom.attrs, "Network index");
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struct netindex_hash_private *nh = mb_allocz(p, sizeof *nh);
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nh->lock = dom;
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nh->pool = p;
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nh->cleanup_list = &global_event_list;
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nh->cleanup_event = (event) { .hook = netindex_hash_cleanup, nh };
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UNLOCK_DOMAIN(attrs, dom);
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return SKIP_BACK(netindex_hash, priv, nh);
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}
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static void
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netindex_hash_cleanup(void *_nh)
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{
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NH_LOCK((netindex_hash *) _nh, nh);
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for (uint t = 0; t < NET_MAX; t++)
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{
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if (!nh->net[t].hash.data)
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continue;
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HASH_WALK_FILTER(nh->net[t].hash, next, i, ii)
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if (lfuc_finished(&i->uc))
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{
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HASH_DO_REMOVE(nh->net[t].hash, NETINDEX, ii);
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hmap_clear(&nh->net[t].id_map, i->index);
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if (nh->net[t].slab)
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sl_free(i);
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else
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mb_free(i);
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}
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HASH_WALK_DELSAFE_END;
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}
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}
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static void
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netindex_hash_init(struct netindex_hash_private *hp, u8 type)
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{
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ASSERT_DIE(hp->net[type].block == NULL);
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hp->net[type].slab = net_addr_length[type] ? sl_new(hp->pool, sizeof (struct netindex) + net_addr_length[type]) : NULL;
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HASH_INIT(hp->net[type].hash, hp->pool, NETINDEX_ORDER);
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hp->net[type].block_size = 128;
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hp->net[type].block = mb_allocz(hp->pool, hp->net[type].block_size * sizeof (struct netindex *));
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hmap_init(&hp->net[type].id_map, hp->pool, 128);
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};
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/*
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* Private index manipulation
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*/
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struct netindex *
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net_find_index_fragile_chain(struct netindex_hash_private *hp, const net_addr *n)
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{
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ASSERT_DIE(n->type < NET_MAX);
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if (!hp->net[n->type].block)
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return NULL;
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u32 h = net_hash(n);
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return HASH_FIND_CHAIN(hp->net[n->type].hash, NETINDEX, h, n);
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}
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struct netindex *
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net_find_index_fragile(struct netindex_hash_private *hp, const net_addr *n)
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{
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ASSERT_DIE(n->type < NET_MAX);
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if (!hp->net[n->type].block)
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return NULL;
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u32 h = net_hash(n);
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return HASH_FIND(hp->net[n->type].hash, NETINDEX, h, n);
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}
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static struct netindex *
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net_find_index_locked(struct netindex_hash_private *hp, const net_addr *n, pool *p)
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{
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struct netindex *ni = net_find_index_fragile(hp, n);
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return ni ? net_lock_index_persistent(hp, ni, p) : NULL;
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}
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static struct netindex *
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net_new_index_locked(struct netindex_hash_private *hp, const net_addr *n, pool *p)
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{
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if (!hp->net[n->type].block)
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netindex_hash_init(hp, n->type);
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u32 i = hmap_first_zero(&hp->net[n->type].id_map);
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hmap_set(&hp->net[n->type].id_map, i);
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struct netindex *ni = hp->net[n->type].slab ?
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sl_alloc(hp->net[n->type].slab) :
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mb_alloc(hp->pool, n->length + sizeof *ni);
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*ni = (struct netindex) {
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.hash = net_hash(n),
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.index = i,
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};
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net_copy(ni->addr, n);
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HASH_INSERT2(hp->net[n->type].hash, NETINDEX, hp->pool, ni);
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return net_lock_index_persistent(hp, ni, p);
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}
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/*
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* Public entry points
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*/
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void net_lock_index(netindex_hash *h UNUSED, struct netindex *i)
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{
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// log(L_TRACE "Lock index %p", i);
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lfuc_lock(&i->uc);
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}
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void net_unlock_index(netindex_hash *h, struct netindex *i)
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{
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// log(L_TRACE "Unlock index %p", i);
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lfuc_unlock(&i->uc, h->cleanup_list, &h->cleanup_event);
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}
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struct netindex *
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net_find_index_persistent(netindex_hash *h, const net_addr *n, pool *p)
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{
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NH_LOCK(h, hp);
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return net_find_index_locked(hp, n, p);
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}
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struct netindex *
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net_get_index_persistent(netindex_hash *h, const net_addr *n, pool *p)
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{
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NH_LOCK(h, hp);
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return
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net_find_index_locked(hp, n, p) ?:
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net_new_index_locked(hp, n, p);
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}
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struct netindex *
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net_resolve_index_persistent(netindex_hash *h, u8 net_type, u32 i, pool *p)
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{
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NH_LOCK(h, hp);
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return net_lock_index_persistent(hp, hp->net[net_type].block_size > i ? hp->net[net_type].block[i] : NULL, p);
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}
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