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authorPaul E. McKenney <paulmck@linux.vnet.ibm.com>2016-01-14 14:17:04 -0800
committerPaul E. McKenney <paulmck@linux.vnet.ibm.com>2016-03-14 15:52:17 -0700
commit92a84dd210b8263f765882d3ee1a1d5cd348c16a (patch)
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parent0e4bd2aba3d0ae5caeb0d1a2b71f6fe6147c4d56 (diff)
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documentation: Subsequent writes ordered by rcu_dereference()
The current memory-barriers.txt does not address the possibility of a write to a dereferenced pointer. This should be rare, but when it happens, we need that write -not- to be clobbered by the initialization. This commit therefore adds an example showing a data dependency ordering a later data-dependent write. Reported-by: Leonid Yegoshin <Leonid.Yegoshin@imgtec.com> Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
Diffstat (limited to 'Documentation')
-rw-r--r--Documentation/memory-barriers.txt24
1 files changed, 24 insertions, 0 deletions
diff --git a/Documentation/memory-barriers.txt b/Documentation/memory-barriers.txt
index 6bee0a2c43ab..e9ebeb3b1077 100644
--- a/Documentation/memory-barriers.txt
+++ b/Documentation/memory-barriers.txt
@@ -555,6 +555,30 @@ between the address load and the data load:
This enforces the occurrence of one of the two implications, and prevents the
third possibility from arising.
+A data-dependency barrier must also order against dependent writes:
+
+ CPU 1 CPU 2
+ =============== ===============
+ { A == 1, B == 2, C = 3, P == &A, Q == &C }
+ B = 4;
+ <write barrier>
+ WRITE_ONCE(P, &B);
+ Q = READ_ONCE(P);
+ <data dependency barrier>
+ *Q = 5;
+
+The data-dependency barrier must order the read into Q with the store
+into *Q. This prohibits this outcome:
+
+ (Q == B) && (B == 4)
+
+Please note that this pattern should be rare. After all, the whole point
+of dependency ordering is to -prevent- writes to the data structure, along
+with the expensive cache misses associated with those writes. This pattern
+can be used to record rare error conditions and the like, and the ordering
+prevents such records from being lost.
+
+
[!] Note that this extremely counterintuitive situation arises most easily on
machines with split caches, so that, for example, one cache bank processes
even-numbered cache lines and the other bank processes odd-numbered cache