[PATCH] Corrections to memory barrier doc
Apply some small corrections to the memory barrier document, as contributed by: Christoph Lameter <clameter@sgi.com> Kirill Smelkov <kirr@mns.spb.ru> Randy Dunlap <rdunlap@xenotime.net> Signed-off-by: David Howells <dhowells@redhat.com> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
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@ -287,7 +287,7 @@ Memory barriers come in four basic varieties:
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A write barrier is a partial ordering on stores only; it is not required
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to have any effect on loads.
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A CPU can be viewed as as commiting a sequence of store operations to the
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A CPU can be viewed as committing a sequence of store operations to the
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memory system as time progresses. All stores before a write barrier will
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occur in the sequence _before_ all the stores after the write barrier.
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@ -418,7 +418,7 @@ There are certain things that the Linux kernel memory barriers do not guarantee:
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indirect effect will be the order in which the second CPU sees the effects
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of the first CPU's accesses occur, but see the next point:
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(*) There is no guarantee that the a CPU will see the correct order of effects
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(*) There is no guarantee that a CPU will see the correct order of effects
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from a second CPU's accesses, even _if_ the second CPU uses a memory
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barrier, unless the first CPU _also_ uses a matching memory barrier (see
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the subsection on "SMP Barrier Pairing").
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@ -489,7 +489,7 @@ lines. The pointer P might be stored in an odd-numbered cache line, and the
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variable B might be stored in an even-numbered cache line. Then, if the
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even-numbered bank of the reading CPU's cache is extremely busy while the
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odd-numbered bank is idle, one can see the new value of the pointer P (&B),
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but the old value of the variable B (1).
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but the old value of the variable B (2).
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Another example of where data dependency barriers might by required is where a
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@ -749,7 +749,7 @@ some effectively random order, despite the write barrier issued by CPU 1:
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: :
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If, however, a read barrier were to be placed between the load of E and the
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If, however, a read barrier were to be placed between the load of B and the
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load of A on CPU 2:
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CPU 1 CPU 2
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@ -1466,9 +1466,8 @@ instruction itself is complete.
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On a UP system - where this wouldn't be a problem - the smp_mb() is just a
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compiler barrier, thus making sure the compiler emits the instructions in the
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right order without actually intervening in the CPU. Since there there's only
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one CPU, that CPU's dependency ordering logic will take care of everything
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else.
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right order without actually intervening in the CPU. Since there's only one
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CPU, that CPU's dependency ordering logic will take care of everything else.
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ATOMIC OPERATIONS
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@ -1645,9 +1644,9 @@ functions:
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The PCI bus, amongst others, defines an I/O space concept - which on such
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CPUs as i386 and x86_64 cpus readily maps to the CPU's concept of I/O
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space. However, it may also mapped as a virtual I/O space in the CPU's
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memory map, particularly on those CPUs that don't support alternate
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I/O spaces.
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space. However, it may also be mapped as a virtual I/O space in the CPU's
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memory map, particularly on those CPUs that don't support alternate I/O
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spaces.
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Accesses to this space may be fully synchronous (as on i386), but
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intermediary bridges (such as the PCI host bridge) may not fully honour
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