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/*
* Copyright (c) 2008-2009 Patrick McHardy <kaber@trash.net>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* Development of this code funded by Astaro AG (http://www.astaro.com/)
*/
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/module.h>
#include <linux/list.h>
#include <linux/rbtree.h>
#include <linux/netlink.h>
#include <linux/netfilter.h>
#include <linux/netfilter/nf_tables.h>
#include <net/netfilter/nf_tables.h>
static DEFINE_SPINLOCK(nft_rbtree_lock);
struct nft_rbtree {
struct rb_root root;
};
struct nft_rbtree_elem {
struct rb_node node;
struct nft_set_ext ext;
};
static bool nft_rbtree_interval_end(const struct nft_rbtree_elem *rbe)
{
return nft_set_ext_exists(&rbe->ext, NFT_SET_EXT_FLAGS) &&
(*nft_set_ext_flags(&rbe->ext) & NFT_SET_ELEM_INTERVAL_END);
}
static bool nft_rbtree_equal(const struct nft_set *set, const void *this,
const struct nft_rbtree_elem *interval)
{
return memcmp(this, nft_set_ext_key(&interval->ext), set->klen) == 0;
}
static bool nft_rbtree_lookup(const struct net *net, const struct nft_set *set,
const u32 *key, const struct nft_set_ext **ext)
{
const struct nft_rbtree *priv = nft_set_priv(set);
const struct nft_rbtree_elem *rbe, *interval = NULL;
u8 genmask = nft_genmask_cur(net);
const struct rb_node *parent;
const void *this;
int d;
spin_lock_bh(&nft_rbtree_lock);
parent = priv->root.rb_node;
while (parent != NULL) {
rbe = rb_entry(parent, struct nft_rbtree_elem, node);
this = nft_set_ext_key(&rbe->ext);
d = memcmp(this, key, set->klen);
if (d < 0) {
parent = parent->rb_left;
/* In case of adjacent ranges, we always see the high
* part of the range in first place, before the low one.
* So don't update interval if the keys are equal.
*/
if (interval && nft_rbtree_equal(set, this, interval))
continue;
interval = rbe;
} else if (d > 0)
parent = parent->rb_right;
else {
if (!nft_set_elem_active(&rbe->ext, genmask)) {
parent = parent->rb_left;
continue;
}
if (nft_rbtree_interval_end(rbe))
goto out;
spin_unlock_bh(&nft_rbtree_lock);
*ext = &rbe->ext;
return true;
}
}
if (set->flags & NFT_SET_INTERVAL && interval != NULL &&
nft_set_elem_active(&interval->ext, genmask) &&
!nft_rbtree_interval_end(interval)) {
spin_unlock_bh(&nft_rbtree_lock);
*ext = &interval->ext;
return true;
}
out:
spin_unlock_bh(&nft_rbtree_lock);
return false;
}
static int __nft_rbtree_insert(const struct net *net, const struct nft_set *set,
struct nft_rbtree_elem *new)
{
struct nft_rbtree *priv = nft_set_priv(set);
u8 genmask = nft_genmask_next(net);
struct nft_rbtree_elem *rbe;
struct rb_node *parent, **p;
int d;
parent = NULL;
p = &priv->root.rb_node;
while (*p != NULL) {
parent = *p;
rbe = rb_entry(parent, struct nft_rbtree_elem, node);
d = memcmp(nft_set_ext_key(&rbe->ext),
nft_set_ext_key(&new->ext),
set->klen);
if (d < 0)
p = &parent->rb_left;
else if (d > 0)
p = &parent->rb_right;
else {
if (nft_set_elem_active(&rbe->ext, genmask)) {
if (nft_rbtree_interval_end(rbe) &&
!nft_rbtree_interval_end(new))
p = &parent->rb_left;
else if (!nft_rbtree_interval_end(rbe) &&
nft_rbtree_interval_end(new))
p = &parent->rb_right;
else
return -EEXIST;
}
}
}
rb_link_node(&new->node, parent, p);
rb_insert_color(&new->node, &priv->root);
return 0;
}
static int nft_rbtree_insert(const struct net *net, const struct nft_set *set,
const struct nft_set_elem *elem)
{
struct nft_rbtree_elem *rbe = elem->priv;
int err;
spin_lock_bh(&nft_rbtree_lock);
err = __nft_rbtree_insert(net, set, rbe);
spin_unlock_bh(&nft_rbtree_lock);
return err;
}
static void nft_rbtree_remove(const struct nft_set *set,
const struct nft_set_elem *elem)
{
struct nft_rbtree *priv = nft_set_priv(set);
struct nft_rbtree_elem *rbe = elem->priv;
spin_lock_bh(&nft_rbtree_lock);
rb_erase(&rbe->node, &priv->root);
spin_unlock_bh(&nft_rbtree_lock);
}
static void nft_rbtree_activate(const struct net *net,
const struct nft_set *set,
const struct nft_set_elem *elem)
{
struct nft_rbtree_elem *rbe = elem->priv;
nft_set_elem_change_active(net, set, &rbe->ext);
}
static void *nft_rbtree_deactivate(const struct net *net,
const struct nft_set *set,
const struct nft_set_elem *elem)
{
const struct nft_rbtree *priv = nft_set_priv(set);
const struct rb_node *parent = priv->root.rb_node;
struct nft_rbtree_elem *rbe, *this = elem->priv;
u8 genmask = nft_genmask_next(net);
int d;
while (parent != NULL) {
rbe = rb_entry(parent, struct nft_rbtree_elem, node);
d = memcmp(nft_set_ext_key(&rbe->ext), &elem->key.val,
set->klen);
if (d < 0)
parent = parent->rb_left;
else if (d > 0)
parent = parent->rb_right;
else {
if (!nft_set_elem_active(&rbe->ext, genmask)) {
parent = parent->rb_left;
continue;
}
if (nft_rbtree_interval_end(rbe) &&
!nft_rbtree_interval_end(this)) {
parent = parent->rb_left;
continue;
} else if (!nft_rbtree_interval_end(rbe) &&
nft_rbtree_interval_end(this)) {
parent = parent->rb_right;
continue;
}
nft_set_elem_change_active(net, set, &rbe->ext);
return rbe;
}
}
return NULL;
}
static void nft_rbtree_walk(const struct nft_ctx *ctx,
const struct nft_set *set,
struct nft_set_iter *iter)
{
const struct nft_rbtree *priv = nft_set_priv(set);
struct nft_rbtree_elem *rbe;
struct nft_set_elem elem;
struct rb_node *node;
spin_lock_bh(&nft_rbtree_lock);
for (node = rb_first(&priv->root); node != NULL; node = rb_next(node)) {
rbe = rb_entry(node, struct nft_rbtree_elem, node);
if (iter->count < iter->skip)
goto cont;
if (!nft_set_elem_active(&rbe->ext, iter->genmask))
goto cont;
elem.priv = rbe;
iter->err = iter->fn(ctx, set, iter, &elem);
if (iter->err < 0) {
spin_unlock_bh(&nft_rbtree_lock);
return;
}
cont:
iter->count++;
}
spin_unlock_bh(&nft_rbtree_lock);
}
static unsigned int nft_rbtree_privsize(const struct nlattr * const nla[])
{
return sizeof(struct nft_rbtree);
}
static int nft_rbtree_init(const struct nft_set *set,
const struct nft_set_desc *desc,
const struct nlattr * const nla[])
{
struct nft_rbtree *priv = nft_set_priv(set);
priv->root = RB_ROOT;
return 0;
}
static void nft_rbtree_destroy(const struct nft_set *set)
{
struct nft_rbtree *priv = nft_set_priv(set);
struct nft_rbtree_elem *rbe;
struct rb_node *node;
while ((node = priv->root.rb_node) != NULL) {
rb_erase(node, &priv->root);
rbe = rb_entry(node, struct nft_rbtree_elem, node);
nft_set_elem_destroy(set, rbe);
}
}
static bool nft_rbtree_estimate(const struct nft_set_desc *desc, u32 features,
struct nft_set_estimate *est)
{
unsigned int nsize;
nsize = sizeof(struct nft_rbtree_elem);
if (desc->size)
est->size = sizeof(struct nft_rbtree) + desc->size * nsize;
else
est->size = nsize;
est->class = NFT_SET_CLASS_O_LOG_N;
return true;
}
static struct nft_set_ops nft_rbtree_ops __read_mostly = {
.privsize = nft_rbtree_privsize,
.elemsize = offsetof(struct nft_rbtree_elem, ext),
.estimate = nft_rbtree_estimate,
.init = nft_rbtree_init,
.destroy = nft_rbtree_destroy,
.insert = nft_rbtree_insert,
.remove = nft_rbtree_remove,
.deactivate = nft_rbtree_deactivate,
.activate = nft_rbtree_activate,
.lookup = nft_rbtree_lookup,
.walk = nft_rbtree_walk,
.features = NFT_SET_INTERVAL | NFT_SET_MAP,
.owner = THIS_MODULE,
};
static int __init nft_rbtree_module_init(void)
{
return nft_register_set(&nft_rbtree_ops);
}
static void __exit nft_rbtree_module_exit(void)
{
nft_unregister_set(&nft_rbtree_ops);
}
module_init(nft_rbtree_module_init);
module_exit(nft_rbtree_module_exit);
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Patrick McHardy <kaber@trash.net>");
MODULE_ALIAS_NFT_SET();
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