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The approach for mixing RCU and reference counting listed in the RCU documentation only describes one possible approach. This approach can result in failure on the read side, which is nice if you want fresh data, but not so good if you want simple code. This commit therefore adds two additional approaches that feature unconditional reference-count acquisition by RCU readers. These approaches are very similar to that used in the security code. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
124 lines
3.9 KiB
Plaintext
124 lines
3.9 KiB
Plaintext
Reference-count design for elements of lists/arrays protected by RCU.
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Reference counting on elements of lists which are protected by traditional
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reader/writer spinlocks or semaphores are straightforward:
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1. 2.
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add() search_and_reference()
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{ {
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alloc_object read_lock(&list_lock);
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... search_for_element
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atomic_set(&el->rc, 1); atomic_inc(&el->rc);
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write_lock(&list_lock); ...
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add_element read_unlock(&list_lock);
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... ...
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write_unlock(&list_lock); }
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}
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3. 4.
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release_referenced() delete()
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{ {
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... write_lock(&list_lock);
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atomic_dec(&el->rc, relfunc) ...
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... remove_element
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} write_unlock(&list_lock);
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...
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if (atomic_dec_and_test(&el->rc))
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kfree(el);
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...
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}
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If this list/array is made lock free using RCU as in changing the
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write_lock() in add() and delete() to spin_lock() and changing read_lock()
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in search_and_reference() to rcu_read_lock(), the atomic_inc() in
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search_and_reference() could potentially hold reference to an element which
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has already been deleted from the list/array. Use atomic_inc_not_zero()
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in this scenario as follows:
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1. 2.
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add() search_and_reference()
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{ {
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alloc_object rcu_read_lock();
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... search_for_element
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atomic_set(&el->rc, 1); if (!atomic_inc_not_zero(&el->rc)) {
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spin_lock(&list_lock); rcu_read_unlock();
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return FAIL;
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add_element }
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... ...
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spin_unlock(&list_lock); rcu_read_unlock();
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} }
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3. 4.
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release_referenced() delete()
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{ {
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... spin_lock(&list_lock);
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if (atomic_dec_and_test(&el->rc)) ...
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call_rcu(&el->head, el_free); remove_element
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... spin_unlock(&list_lock);
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} ...
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if (atomic_dec_and_test(&el->rc))
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call_rcu(&el->head, el_free);
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...
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}
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Sometimes, a reference to the element needs to be obtained in the
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update (write) stream. In such cases, atomic_inc_not_zero() might be
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overkill, since we hold the update-side spinlock. One might instead
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use atomic_inc() in such cases.
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It is not always convenient to deal with "FAIL" in the
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search_and_reference() code path. In such cases, the
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atomic_dec_and_test() may be moved from delete() to el_free()
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as follows:
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1. 2.
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add() search_and_reference()
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{ {
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alloc_object rcu_read_lock();
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... search_for_element
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atomic_set(&el->rc, 1); atomic_inc(&el->rc);
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spin_lock(&list_lock); ...
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add_element rcu_read_unlock();
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... }
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spin_unlock(&list_lock); 4.
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} delete()
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3. {
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release_referenced() spin_lock(&list_lock);
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{ ...
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... remove_element
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if (atomic_dec_and_test(&el->rc)) spin_unlock(&list_lock);
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kfree(el); ...
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... call_rcu(&el->head, el_free);
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} ...
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5. }
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void el_free(struct rcu_head *rhp)
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{
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release_referenced();
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}
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The key point is that the initial reference added by add() is not removed
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until after a grace period has elapsed following removal. This means that
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search_and_reference() cannot find this element, which means that the value
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of el->rc cannot increase. Thus, once it reaches zero, there are no
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readers that can or ever will be able to reference the element. The
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element can therefore safely be freed. This in turn guarantees that if
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any reader finds the element, that reader may safely acquire a reference
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without checking the value of the reference counter.
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In cases where delete() can sleep, synchronize_rcu() can be called from
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delete(), so that el_free() can be subsumed into delete as follows:
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4.
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delete()
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{
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spin_lock(&list_lock);
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...
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remove_element
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spin_unlock(&list_lock);
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...
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synchronize_rcu();
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if (atomic_dec_and_test(&el->rc))
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kfree(el);
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...
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}
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