locking/memory-barriers: De-emphasize smp_read_barrier_depends() some more
This commit makes further changes to memory-barrier.txt to further de-emphasize smp_read_barrier_depends(), but leaving some discussion for historical purposes. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com> Cc: Linus Torvalds <torvalds@linux-foundation.org> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Thomas Gleixner <tglx@linutronix.de> Cc: akiyks@gmail.com Cc: boqun.feng@gmail.com Cc: dhowells@redhat.com Cc: j.alglave@ucl.ac.uk Cc: linux-arch@vger.kernel.org Cc: luc.maranget@inria.fr Cc: npiggin@gmail.com Cc: parri.andrea@gmail.com Cc: stern@rowland.harvard.edu Cc: will.deacon@arm.com Link: http://lkml.kernel.org/r/1520443660-16858-1-git-send-email-paulmck@linux.vnet.ibm.com Signed-off-by: Ingo Molnar <mingo@kernel.org>
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@ -52,7 +52,7 @@ CONTENTS
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- Varieties of memory barrier.
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- What may not be assumed about memory barriers?
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- Data dependency barriers.
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- Data dependency barriers (historical).
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- Control dependencies.
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- SMP barrier pairing.
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- Examples of memory barrier sequences.
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@ -554,8 +554,15 @@ There are certain things that the Linux kernel memory barriers do not guarantee:
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Documentation/DMA-API.txt
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DATA DEPENDENCY BARRIERS
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------------------------
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DATA DEPENDENCY BARRIERS (HISTORICAL)
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-------------------------------------
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As of v4.15 of the Linux kernel, an smp_read_barrier_depends() was
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added to READ_ONCE(), which means that about the only people who
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need to pay attention to this section are those working on DEC Alpha
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architecture-specific code and those working on READ_ONCE() itself.
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For those who need it, and for those who are interested in the history,
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here is the story of data-dependency barriers.
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The usage requirements of data dependency barriers are a little subtle, and
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it's not always obvious that they're needed. To illustrate, consider the
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@ -2843,8 +2850,9 @@ as that committed on CPU 1.
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To intervene, we need to interpolate a data dependency barrier or a read
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barrier between the loads. This will force the cache to commit its coherency
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queue before processing any further requests:
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barrier between the loads (which as of v4.15 is supplied unconditionally
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by the READ_ONCE() macro). This will force the cache to commit its
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coherency queue before processing any further requests:
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CPU 1 CPU 2 COMMENT
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=============== =============== =======================================
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@ -2873,8 +2881,8 @@ Other CPUs may also have split caches, but must coordinate between the various
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cachelets for normal memory accesses. The semantics of the Alpha removes the
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need for hardware coordination in the absence of memory barriers, which
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permitted Alpha to sport higher CPU clock rates back in the day. However,
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please note that smp_read_barrier_depends() should not be used except in
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Alpha arch-specific code and within the READ_ONCE() macro.
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please note that (again, as of v4.15) smp_read_barrier_depends() should not
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be used except in Alpha arch-specific code and within the READ_ONCE() macro.
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CACHE COHERENCY VS DMA
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@ -3039,7 +3047,9 @@ the data dependency barrier really becomes necessary as this synchronises both
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caches with the memory coherence system, thus making it seem like pointer
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changes vs new data occur in the right order.
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The Alpha defines the Linux kernel's memory barrier model.
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The Alpha defines the Linux kernel's memory model, although as of v4.15
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the Linux kernel's addition of smp_read_barrier_depends() to READ_ONCE()
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greatly reduced Alpha's impact on the memory model.
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See the subsection on "Cache Coherency" above.
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