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netfilter: nft_set_rbtree: Detect partial overlaps on insertion
...and return -ENOTEMPTY to the front-end in this case, instead of proceeding. Currently, nft takes care of checking for these cases and not sending them to the kernel, but if we drop the set_overlap() call in nft we can end up in situations like: # nft add table t # nft add set t s '{ type inet_service ; flags interval ; }' # nft add element t s '{ 1 - 5 }' # nft add element t s '{ 6 - 10 }' # nft add element t s '{ 4 - 7 }' # nft list set t s table ip t { set s { type inet_service flags interval elements = { 1-3, 4-5, 6-7 } } } This change has the primary purpose of making the behaviour consistent with nft_set_pipapo, but is also functional to avoid inconsistent behaviour if userspace sends overlapping elements for any reason. v2: When we meet the same key data in the tree, as start element while inserting an end element, or as end element while inserting a start element, actually check that the existing element is active, before resetting the overlap flag (Pablo Neira Ayuso) Signed-off-by: Stefano Brivio <sbrivio@redhat.com> Signed-off-by: Pablo Neira Ayuso <pablo@netfilter.org>
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@ -213,8 +213,43 @@ static int __nft_rbtree_insert(const struct net *net, const struct nft_set *set,
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u8 genmask = nft_genmask_next(net);
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struct nft_rbtree_elem *rbe;
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struct rb_node *parent, **p;
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bool overlap = false;
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int d;
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/* Detect overlaps as we descend the tree. Set the flag in these cases:
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*
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* a1. |__ _ _? >|__ _ _ (insert start after existing start)
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* a2. _ _ __>| ?_ _ __| (insert end before existing end)
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* a3. _ _ ___| ?_ _ _>| (insert end after existing end)
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* a4. >|__ _ _ _ _ __| (insert start before existing end)
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*
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* and clear it later on, as we eventually reach the points indicated by
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* '?' above, in the cases described below. We'll always meet these
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* later, locally, due to tree ordering, and overlaps for the intervals
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* that are the closest together are always evaluated last.
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*
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* b1. |__ _ _! >|__ _ _ (insert start after existing end)
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* b2. _ _ __>| !_ _ __| (insert end before existing start)
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* b3. !_____>| (insert end after existing start)
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*
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* Case a4. resolves to b1.:
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* - if the inserted start element is the leftmost, because the '0'
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* element in the tree serves as end element
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* - otherwise, if an existing end is found. Note that end elements are
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* always inserted after corresponding start elements.
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*
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* For a new, rightmost pair of elements, we'll hit cases b1. and b3.,
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* in that order.
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*
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* The flag is also cleared in two special cases:
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*
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* b4. |__ _ _!|<_ _ _ (insert start right before existing end)
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* b5. |__ _ >|!__ _ _ (insert end right after existing start)
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*
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* which always happen as last step and imply that no further
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* overlapping is possible.
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*/
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parent = NULL;
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p = &priv->root.rb_node;
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while (*p != NULL) {
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@ -223,17 +258,42 @@ static int __nft_rbtree_insert(const struct net *net, const struct nft_set *set,
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d = memcmp(nft_set_ext_key(&rbe->ext),
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nft_set_ext_key(&new->ext),
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set->klen);
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if (d < 0)
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if (d < 0) {
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p = &parent->rb_left;
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else if (d > 0)
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if (nft_rbtree_interval_start(new)) {
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overlap = nft_rbtree_interval_start(rbe) &&
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nft_set_elem_active(&rbe->ext,
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genmask);
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} else {
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overlap = nft_rbtree_interval_end(rbe) &&
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nft_set_elem_active(&rbe->ext,
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genmask);
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}
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} else if (d > 0) {
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p = &parent->rb_right;
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else {
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if (nft_rbtree_interval_end(new)) {
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overlap = nft_rbtree_interval_end(rbe) &&
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nft_set_elem_active(&rbe->ext,
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genmask);
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} else if (nft_rbtree_interval_end(rbe) &&
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nft_set_elem_active(&rbe->ext, genmask)) {
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overlap = true;
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}
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} else {
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if (nft_rbtree_interval_end(rbe) &&
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nft_rbtree_interval_start(new)) {
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p = &parent->rb_left;
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if (nft_set_elem_active(&rbe->ext, genmask))
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overlap = false;
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} else if (nft_rbtree_interval_start(rbe) &&
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nft_rbtree_interval_end(new)) {
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p = &parent->rb_right;
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if (nft_set_elem_active(&rbe->ext, genmask))
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overlap = false;
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} else if (nft_set_elem_active(&rbe->ext, genmask)) {
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*ext = &rbe->ext;
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return -EEXIST;
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@ -242,6 +302,10 @@ static int __nft_rbtree_insert(const struct net *net, const struct nft_set *set,
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}
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}
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}
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if (overlap)
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return -ENOTEMPTY;
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rb_link_node_rcu(&new->node, parent, p);
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rb_insert_color(&new->node, &priv->root);
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return 0;
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