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author | Paul E. McKenney <paulmck@linux.vnet.ibm.com> | 2015-02-17 19:00:06 +0100 |
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committer | Paul E. McKenney <paulmck@linux.vnet.ibm.com> | 2015-02-26 20:57:32 +0100 |
commit | ff382810590e7182a1482a225965d6943e61699c (patch) | |
tree | ae5066e255ea457d4c9d402d7f56666039484235 /Documentation/memory-barriers.txt | |
parent | documentation: Clarify memory-barrier semantics of atomic operations (diff) | |
download | linux-ff382810590e7182a1482a225965d6943e61699c.tar.xz linux-ff382810590e7182a1482a225965d6943e61699c.zip |
documentation: Clarify control-dependency pairing
This commit explicitly states that control dependencies pair normally
with other barriers, and gives an example of such pairing.
Reported-by: Peter Zijlstra <peterz@infradead.org>
Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
Acked-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Diffstat (limited to 'Documentation/memory-barriers.txt')
-rw-r--r-- | Documentation/memory-barriers.txt | 42 |
1 files changed, 29 insertions, 13 deletions
diff --git a/Documentation/memory-barriers.txt b/Documentation/memory-barriers.txt index ca2387ef27ab..6974f1c2b4e1 100644 --- a/Documentation/memory-barriers.txt +++ b/Documentation/memory-barriers.txt @@ -592,9 +592,9 @@ See also the subsection on "Cache Coherency" for a more thorough example. CONTROL DEPENDENCIES -------------------- -A control dependency requires a full read memory barrier, not simply a data -dependency barrier to make it work correctly. Consider the following bit of -code: +A load-load control dependency requires a full read memory barrier, not +simply a data dependency barrier to make it work correctly. Consider the +following bit of code: q = ACCESS_ONCE(a); if (q) { @@ -615,14 +615,15 @@ case what's actually required is: } However, stores are not speculated. This means that ordering -is- provided -in the following example: +for load-store control dependencies, as in the following example: q = ACCESS_ONCE(a); if (q) { ACCESS_ONCE(b) = p; } -Please note that ACCESS_ONCE() is not optional! Without the +Control dependencies pair normally with other types of barriers. +That said, please note that ACCESS_ONCE() is not optional! Without the ACCESS_ONCE(), might combine the load from 'a' with other loads from 'a', and the store to 'b' with other stores to 'b', with possible highly counterintuitive effects on ordering. @@ -813,6 +814,8 @@ In summary: barrier() can help to preserve your control dependency. Please see the Compiler Barrier section for more information. + (*) Control dependencies pair normally with other types of barriers. + (*) Control dependencies do -not- provide transitivity. If you need transitivity, use smp_mb(). @@ -823,14 +826,14 @@ SMP BARRIER PAIRING When dealing with CPU-CPU interactions, certain types of memory barrier should always be paired. A lack of appropriate pairing is almost certainly an error. -General barriers pair with each other, though they also pair with -most other types of barriers, albeit without transitivity. An acquire -barrier pairs with a release barrier, but both may also pair with other -barriers, including of course general barriers. A write barrier pairs -with a data dependency barrier, an acquire barrier, a release barrier, -a read barrier, or a general barrier. Similarly a read barrier or a -data dependency barrier pairs with a write barrier, an acquire barrier, -a release barrier, or a general barrier: +General barriers pair with each other, though they also pair with most +other types of barriers, albeit without transitivity. An acquire barrier +pairs with a release barrier, but both may also pair with other barriers, +including of course general barriers. A write barrier pairs with a data +dependency barrier, a control dependency, an acquire barrier, a release +barrier, a read barrier, or a general barrier. Similarly a read barrier, +control dependency, or a data dependency barrier pairs with a write +barrier, an acquire barrier, a release barrier, or a general barrier: CPU 1 CPU 2 =============== =============== @@ -850,6 +853,19 @@ Or: <data dependency barrier> y = *x; +Or even: + + CPU 1 CPU 2 + =============== =============================== + r1 = ACCESS_ONCE(y); + <general barrier> + ACCESS_ONCE(y) = 1; if (r2 = ACCESS_ONCE(x)) { + <implicit control dependency> + ACCESS_ONCE(y) = 1; + } + + assert(r1 == 0 || r2 == 0); + Basically, the read barrier always has to be there, even though it can be of the "weaker" type. |