doc: Describe choice of rcu_dereference() APIs and __rcu usage
Reported-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Paul E. McKenney <paulmck@linux.ibm.com>hifive-unleashed-5.2
Paul E. McKenney
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0fa201d161
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@ -351,3 +351,106 @@ garbage values.
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In short, rcu_dereference() is -not- optional when you are going to
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dereference the resulting pointer.
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WHICH MEMBER OF THE rcu_dereference() FAMILY SHOULD YOU USE?
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First, please avoid using rcu_dereference_raw() and also please avoid
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using rcu_dereference_check() and rcu_dereference_protected() with a
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second argument with a constant value of 1 (or true, for that matter).
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With that caution out of the way, here is some guidance for which
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member of the rcu_dereference() to use in various situations:
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1. If the access needs to be within an RCU read-side critical
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section, use rcu_dereference(). With the new consolidated
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RCU flavors, an RCU read-side critical section is entered
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using rcu_read_lock(), anything that disables bottom halves,
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anything that disables interrupts, or anything that disables
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preemption.
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2. If the access might be within an RCU read-side critical section
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on the one hand, or protected by (say) my_lock on the other,
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use rcu_dereference_check(), for example:
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p1 = rcu_dereference_check(p->rcu_protected_pointer,
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lockdep_is_held(&my_lock));
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3. If the access might be within an RCU read-side critical section
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on the one hand, or protected by either my_lock or your_lock on
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the other, again use rcu_dereference_check(), for example:
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p1 = rcu_dereference_check(p->rcu_protected_pointer,
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lockdep_is_held(&my_lock) ||
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lockdep_is_held(&your_lock));
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4. If the access is on the update side, so that it is always protected
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by my_lock, use rcu_dereference_protected():
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p1 = rcu_dereference_protected(p->rcu_protected_pointer,
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lockdep_is_held(&my_lock));
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This can be extended to handle multiple locks as in #3 above,
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and both can be extended to check other conditions as well.
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5. If the protection is supplied by the caller, and is thus unknown
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to this code, that is the rare case when rcu_dereference_raw()
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is appropriate. In addition, rcu_dereference_raw() might be
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appropriate when the lockdep expression would be excessively
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complex, except that a better approach in that case might be to
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take a long hard look at your synchronization design. Still,
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there are data-locking cases where any one of a very large number
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of locks or reference counters suffices to protect the pointer,
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so rcu_dereference_raw() does have its place.
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However, its place is probably quite a bit smaller than one
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might expect given the number of uses in the current kernel.
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Ditto for its synonym, rcu_dereference_check( ... , 1), and
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its close relative, rcu_dereference_protected(... , 1).
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SPARSE CHECKING OF RCU-PROTECTED POINTERS
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The sparse static-analysis tool checks for direct access to RCU-protected
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pointers, which can result in "interesting" bugs due to compiler
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optimizations involving invented loads and perhaps also load tearing.
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For example, suppose someone mistakenly does something like this:
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p = q->rcu_protected_pointer;
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do_something_with(p->a);
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do_something_else_with(p->b);
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If register pressure is high, the compiler might optimize "p" out
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of existence, transforming the code to something like this:
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do_something_with(q->rcu_protected_pointer->a);
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do_something_else_with(q->rcu_protected_pointer->b);
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This could fatally disappoint your code if q->rcu_protected_pointer
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changed in the meantime. Nor is this a theoretical problem: Exactly
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this sort of bug cost Paul E. McKenney (and several of his innocent
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colleagues) a three-day weekend back in the early 1990s.
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Load tearing could of course result in dereferencing a mashup of a pair
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of pointers, which also might fatally disappoint your code.
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These problems could have been avoided simply by making the code instead
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read as follows:
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p = rcu_dereference(q->rcu_protected_pointer);
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do_something_with(p->a);
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do_something_else_with(p->b);
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Unfortunately, these sorts of bugs can be extremely hard to spot during
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review. This is where the sparse tool comes into play, along with the
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"__rcu" marker. If you mark a pointer declaration, whether in a structure
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or as a formal parameter, with "__rcu", which tells sparse to complain if
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this pointer is accessed directly. It will also cause sparse to complain
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if a pointer not marked with "__rcu" is accessed using rcu_dereference()
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and friends. For example, ->rcu_protected_pointer might be declared as
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follows:
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struct foo __rcu *rcu_protected_pointer;
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Use of "__rcu" is opt-in. If you choose not to use it, then you should
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ignore the sparse warnings.
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