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author | Paul E. McKenney <paulmck@linux.vnet.ibm.com> | 2016-01-15 09:30:42 -0800 |
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committer | Paul E. McKenney <paulmck@linux.vnet.ibm.com> | 2016-03-14 15:52:18 -0700 |
commit | c535cc92924baf68e238bd1b5ff8d74883f88b9b (patch) | |
tree | 7659bf6bc6c43ba024700015f89a4b7b77b3b758 /Documentation/memory-barriers.txt | |
parent | 92a84dd210b8263f765882d3ee1a1d5cd348c16a (diff) | |
download | linux-stable-c535cc92924baf68e238bd1b5ff8d74883f88b9b.tar.gz linux-stable-c535cc92924baf68e238bd1b5ff8d74883f88b9b.tar.bz2 linux-stable-c535cc92924baf68e238bd1b5ff8d74883f88b9b.zip |
documentation: Distinguish between local and global transitivity
The introduction of smp_load_acquire() and smp_store_release() had
the side effect of introducing a weaker notion of transitivity:
The transitivity of full smp_mb() barriers is global, but that
of smp_store_release()/smp_load_acquire() chains is local. This
commit therefore introduces the notion of local transitivity and
gives an example.
Reported-by: Peter Zijlstra <peterz@infradead.org>
Reported-by: Will Deacon <will.deacon@arm.com>
Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
Diffstat (limited to 'Documentation/memory-barriers.txt')
-rw-r--r-- | Documentation/memory-barriers.txt | 78 |
1 files changed, 76 insertions, 2 deletions
diff --git a/Documentation/memory-barriers.txt b/Documentation/memory-barriers.txt index e9ebeb3b1077..ae9d306725ba 100644 --- a/Documentation/memory-barriers.txt +++ b/Documentation/memory-barriers.txt @@ -1318,8 +1318,82 @@ or a level of cache, CPU 2 might have early access to CPU 1's writes. General barriers are therefore required to ensure that all CPUs agree on the combined order of CPU 1's and CPU 2's accesses. -To reiterate, if your code requires transitivity, use general barriers -throughout. +General barriers provide "global transitivity", so that all CPUs will +agree on the order of operations. In contrast, a chain of release-acquire +pairs provides only "local transitivity", so that only those CPUs on +the chain are guaranteed to agree on the combined order of the accesses. +For example, switching to C code in deference to Herman Hollerith: + + int u, v, x, y, z; + + void cpu0(void) + { + r0 = smp_load_acquire(&x); + WRITE_ONCE(u, 1); + smp_store_release(&y, 1); + } + + void cpu1(void) + { + r1 = smp_load_acquire(&y); + r4 = READ_ONCE(v); + r5 = READ_ONCE(u); + smp_store_release(&z, 1); + } + + void cpu2(void) + { + r2 = smp_load_acquire(&z); + smp_store_release(&x, 1); + } + + void cpu3(void) + { + WRITE_ONCE(v, 1); + smp_mb(); + r3 = READ_ONCE(u); + } + +Because cpu0(), cpu1(), and cpu2() participate in a local transitive +chain of smp_store_release()/smp_load_acquire() pairs, the following +outcome is prohibited: + + r0 == 1 && r1 == 1 && r2 == 1 + +Furthermore, because of the release-acquire relationship between cpu0() +and cpu1(), cpu1() must see cpu0()'s writes, so that the following +outcome is prohibited: + + r1 == 1 && r5 == 0 + +However, the transitivity of release-acquire is local to the participating +CPUs and does not apply to cpu3(). Therefore, the following outcome +is possible: + + r0 == 0 && r1 == 1 && r2 == 1 && r3 == 0 && r4 == 0 + +Although cpu0(), cpu1(), and cpu2() will see their respective reads and +writes in order, CPUs not involved in the release-acquire chain might +well disagree on the order. This disagreement stems from the fact that +the weak memory-barrier instructions used to implement smp_load_acquire() +and smp_store_release() are not required to order prior stores against +subsequent loads in all cases. This means that cpu3() can see cpu0()'s +store to u as happening -after- cpu1()'s load from v, even though +both cpu0() and cpu1() agree that these two operations occurred in the +intended order. + +However, please keep in mind that smp_load_acquire() is not magic. +In particular, it simply reads from its argument with ordering. It does +-not- ensure that any particular value will be read. Therefore, the +following outcome is possible: + + r0 == 0 && r1 == 0 && r2 == 0 && r5 == 0 + +Note that this outcome can happen even on a mythical sequentially +consistent system where nothing is ever reordered. + +To reiterate, if your code requires global transitivity, use general +barriers throughout. ======================== |