documentation: Clarify memory-barrier semantics of atomic operations
All value-returning atomic read-modify-write operations must provide full memory-barrier semantics on both sides of the operation. This commit clarifies the documentation to make it clear that these memory-barrier semantics are provided by the operations themselves, not by their callers. Reported-by: Peter Hurley <peter@hurleysoftware.com> Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>hifive-unleashed-5.1
Paul E. McKenney
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f1360570f4
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daf1aab9ac
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@ -201,11 +201,11 @@ These routines add 1 and subtract 1, respectively, from the given
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atomic_t and return the new counter value after the operation is
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performed.
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Unlike the above routines, it is required that explicit memory
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barriers are performed before and after the operation. It must be
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done such that all memory operations before and after the atomic
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operation calls are strongly ordered with respect to the atomic
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operation itself.
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Unlike the above routines, it is required that these primitives
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include explicit memory barriers that are performed before and after
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the operation. It must be done such that all memory operations before
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and after the atomic operation calls are strongly ordered with respect
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to the atomic operation itself.
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For example, it should behave as if a smp_mb() call existed both
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before and after the atomic operation.
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@ -233,21 +233,21 @@ These two routines increment and decrement by 1, respectively, the
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given atomic counter. They return a boolean indicating whether the
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resulting counter value was zero or not.
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It requires explicit memory barrier semantics around the operation as
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above.
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Again, these primitives provide explicit memory barrier semantics around
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the atomic operation.
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int atomic_sub_and_test(int i, atomic_t *v);
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This is identical to atomic_dec_and_test() except that an explicit
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decrement is given instead of the implicit "1". It requires explicit
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memory barrier semantics around the operation.
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decrement is given instead of the implicit "1". This primitive must
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provide explicit memory barrier semantics around the operation.
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int atomic_add_negative(int i, atomic_t *v);
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The given increment is added to the given atomic counter value. A
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boolean is return which indicates whether the resulting counter value
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is negative. It requires explicit memory barrier semantics around the
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operation.
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The given increment is added to the given atomic counter value. A boolean
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is return which indicates whether the resulting counter value is negative.
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This primitive must provide explicit memory barrier semantics around
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the operation.
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Then:
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@ -257,7 +257,7 @@ This performs an atomic exchange operation on the atomic variable v, setting
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the given new value. It returns the old value that the atomic variable v had
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just before the operation.
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atomic_xchg requires explicit memory barriers around the operation.
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atomic_xchg must provide explicit memory barriers around the operation.
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int atomic_cmpxchg(atomic_t *v, int old, int new);
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@ -266,7 +266,7 @@ with the given old and new values. Like all atomic_xxx operations,
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atomic_cmpxchg will only satisfy its atomicity semantics as long as all
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other accesses of *v are performed through atomic_xxx operations.
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atomic_cmpxchg requires explicit memory barriers around the operation.
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atomic_cmpxchg must provide explicit memory barriers around the operation.
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The semantics for atomic_cmpxchg are the same as those defined for 'cas'
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below.
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@ -279,8 +279,8 @@ If the atomic value v is not equal to u, this function adds a to v, and
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returns non zero. If v is equal to u then it returns zero. This is done as
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an atomic operation.
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atomic_add_unless requires explicit memory barriers around the operation
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unless it fails (returns 0).
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atomic_add_unless must provide explicit memory barriers around the
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operation unless it fails (returns 0).
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atomic_inc_not_zero, equivalent to atomic_add_unless(v, 1, 0)
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@ -460,9 +460,9 @@ the return value into an int. There are other places where things
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like this occur as well.
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These routines, like the atomic_t counter operations returning values,
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require explicit memory barrier semantics around their execution. All
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memory operations before the atomic bit operation call must be made
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visible globally before the atomic bit operation is made visible.
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must provide explicit memory barrier semantics around their execution.
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All memory operations before the atomic bit operation call must be
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made visible globally before the atomic bit operation is made visible.
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Likewise, the atomic bit operation must be visible globally before any
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subsequent memory operation is made visible. For example:
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@ -536,8 +536,9 @@ except that two underscores are prefixed to the interface name.
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These non-atomic variants also do not require any special memory
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barrier semantics.
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The routines xchg() and cmpxchg() need the same exact memory barriers
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as the atomic and bit operations returning values.
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The routines xchg() and cmpxchg() must provide the same exact
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memory-barrier semantics as the atomic and bit operations returning
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values.
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Spinlocks and rwlocks have memory barrier expectations as well.
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The rule to follow is simple:
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