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When a slab cache uses SLAB_DESTROY_BY_RCU, we must be careful when allocating objects, since slab allocator could give a freed object still used by lockless readers. In particular, nf_conntrack RCU lookups rely on ct->tuplehash[xxx].hnnode.next being always valid (ie containing a valid 'nulls' value, or a valid pointer to next object in hash chain.) kmem_cache_zalloc() setups object with NULL values, but a NULL value is not valid for ct->tuplehash[xxx].hnnode.next. Fix is to call kmem_cache_alloc() and do the zeroing ourself. As spotted by Patrick, we also need to make sure lookup keys are committed to memory before setting refcount to 1, or a lockless reader could get a reference on the old version of the object. Its key re-check could then pass the barrier. Signed-off-by: Eric Dumazet <eric.dumazet@gmail.com> Signed-off-by: Patrick McHardy <kaber@trash.net>
173 lines
5.1 KiB
Plaintext
173 lines
5.1 KiB
Plaintext
Using hlist_nulls to protect read-mostly linked lists and
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objects using SLAB_DESTROY_BY_RCU allocations.
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Please read the basics in Documentation/RCU/listRCU.txt
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Using special makers (called 'nulls') is a convenient way
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to solve following problem :
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A typical RCU linked list managing objects which are
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allocated with SLAB_DESTROY_BY_RCU kmem_cache can
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use following algos :
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1) Lookup algo
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--------------
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rcu_read_lock()
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begin:
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obj = lockless_lookup(key);
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if (obj) {
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if (!try_get_ref(obj)) // might fail for free objects
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goto begin;
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/*
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* Because a writer could delete object, and a writer could
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* reuse these object before the RCU grace period, we
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* must check key after getting the reference on object
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*/
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if (obj->key != key) { // not the object we expected
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put_ref(obj);
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goto begin;
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}
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}
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rcu_read_unlock();
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Beware that lockless_lookup(key) cannot use traditional hlist_for_each_entry_rcu()
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but a version with an additional memory barrier (smp_rmb())
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lockless_lookup(key)
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{
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struct hlist_node *node, *next;
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for (pos = rcu_dereference((head)->first);
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pos && ({ next = pos->next; smp_rmb(); prefetch(next); 1; }) &&
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({ tpos = hlist_entry(pos, typeof(*tpos), member); 1; });
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pos = rcu_dereference(next))
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if (obj->key == key)
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return obj;
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return NULL;
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And note the traditional hlist_for_each_entry_rcu() misses this smp_rmb() :
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struct hlist_node *node;
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for (pos = rcu_dereference((head)->first);
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pos && ({ prefetch(pos->next); 1; }) &&
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({ tpos = hlist_entry(pos, typeof(*tpos), member); 1; });
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pos = rcu_dereference(pos->next))
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if (obj->key == key)
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return obj;
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return NULL;
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}
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Quoting Corey Minyard :
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"If the object is moved from one list to another list in-between the
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time the hash is calculated and the next field is accessed, and the
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object has moved to the end of a new list, the traversal will not
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complete properly on the list it should have, since the object will
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be on the end of the new list and there's not a way to tell it's on a
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new list and restart the list traversal. I think that this can be
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solved by pre-fetching the "next" field (with proper barriers) before
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checking the key."
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2) Insert algo :
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----------------
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We need to make sure a reader cannot read the new 'obj->obj_next' value
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and previous value of 'obj->key'. Or else, an item could be deleted
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from a chain, and inserted into another chain. If new chain was empty
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before the move, 'next' pointer is NULL, and lockless reader can
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not detect it missed following items in original chain.
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/*
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* Please note that new inserts are done at the head of list,
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* not in the middle or end.
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*/
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obj = kmem_cache_alloc(...);
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lock_chain(); // typically a spin_lock()
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obj->key = key;
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/*
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* we need to make sure obj->key is updated before obj->next
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* or obj->refcnt
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*/
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smp_wmb();
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atomic_set(&obj->refcnt, 1);
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hlist_add_head_rcu(&obj->obj_node, list);
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unlock_chain(); // typically a spin_unlock()
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3) Remove algo
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--------------
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Nothing special here, we can use a standard RCU hlist deletion.
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But thanks to SLAB_DESTROY_BY_RCU, beware a deleted object can be reused
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very very fast (before the end of RCU grace period)
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if (put_last_reference_on(obj) {
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lock_chain(); // typically a spin_lock()
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hlist_del_init_rcu(&obj->obj_node);
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unlock_chain(); // typically a spin_unlock()
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kmem_cache_free(cachep, obj);
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}
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--------------------------------------------------------------------------
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With hlist_nulls we can avoid extra smp_rmb() in lockless_lookup()
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and extra smp_wmb() in insert function.
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For example, if we choose to store the slot number as the 'nulls'
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end-of-list marker for each slot of the hash table, we can detect
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a race (some writer did a delete and/or a move of an object
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to another chain) checking the final 'nulls' value if
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the lookup met the end of chain. If final 'nulls' value
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is not the slot number, then we must restart the lookup at
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the beginning. If the object was moved to the same chain,
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then the reader doesn't care : It might eventually
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scan the list again without harm.
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1) lookup algo
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head = &table[slot];
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rcu_read_lock();
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begin:
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hlist_nulls_for_each_entry_rcu(obj, node, head, member) {
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if (obj->key == key) {
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if (!try_get_ref(obj)) // might fail for free objects
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goto begin;
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if (obj->key != key) { // not the object we expected
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put_ref(obj);
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goto begin;
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}
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goto out;
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}
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/*
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* if the nulls value we got at the end of this lookup is
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* not the expected one, we must restart lookup.
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* We probably met an item that was moved to another chain.
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*/
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if (get_nulls_value(node) != slot)
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goto begin;
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obj = NULL;
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out:
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rcu_read_unlock();
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2) Insert function :
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--------------------
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/*
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* Please note that new inserts are done at the head of list,
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* not in the middle or end.
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*/
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obj = kmem_cache_alloc(cachep);
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lock_chain(); // typically a spin_lock()
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obj->key = key;
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/*
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* changes to obj->key must be visible before refcnt one
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*/
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smp_wmb();
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atomic_set(&obj->refcnt, 1);
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/*
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* insert obj in RCU way (readers might be traversing chain)
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*/
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hlist_nulls_add_head_rcu(&obj->obj_node, list);
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unlock_chain(); // typically a spin_unlock()
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