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Re: [PATCH 1/8] qatomic: add smp_mb__before/after_rmw()


From: David Hildenbrand
Subject: Re: [PATCH 1/8] qatomic: add smp_mb__before/after_rmw()
Date: Mon, 6 Mar 2023 14:22:38 +0100
User-agent: Mozilla/5.0 (X11; Linux x86_64; rv:102.0) Gecko/20100101 Thunderbird/102.8.0

On 06.03.23 14:21, David Hildenbrand wrote:
On 03.03.23 18:19, Paolo Bonzini wrote:
On ARM, seqcst loads and stores (which QEMU does not use) are compiled
respectively as LDAR and STLR instructions.  Even though STLR is also
used for store-release operations, STLR followed by LDAR provides
store-against-load ordering, which is stronger than a store-release.
Compare this to ARMv7, where store-release is DMB+STR and store-seqcst
is DMB+STR+DMB.

This means that on ARM a sequence of

    qatomic_store_release(&y, ...);         // STLR
    a = qatomic_load_acquire(&x);           // LDAR

provides stronger ordering at the processor level than the two MOV
instructions you'd get on x86.

Likewise, on ARM sequentially consistent read-modify-write operations only
need to use LDAXR and STLXR respectively for the load and the store, which
is weaker than the LOCK prefix used on x86.

In a strange twist of events, however, the _stronger_ semantics
of the ARM instructions can end up causing bugs on ARM, not on x86.
The problems occur when seqcst atomics are mixed with relaxed atomics.

QEMU's atomics try to bridge the Linux API (that most of the developers
are familiar with) and the C11 API, and the two have a substantial
difference:

- in Linux, strongly-ordered atomics such as atomic_add_return() affect
    the global ordering of _all_ memory operations, including for example
    READ_ONCE()/WRITE_ONCE()

- in C11, sequentially consistent atomics (except for seq-cst fences)
    only affect the ordering of sequentially consistent operations.
    In particular, since relaxed loads are done with LDR on ARM, they are
    not ordered against seqcst stores (which are done with STLR).

QEMU implements high-level synchronization primitives with the idea that
the primitives contain the necessary memory barriers, and the callers can
use relaxed atomics (qatomic_read/qatomic_set) or even regular accesses.
This is very much incompatible with the C11 view that seqcst accesses
are only ordered against other seqcst accesses, and requires using seqcst
fences as in the following example:

     qatomic_set(&y, 1);            qatomic_set(&x, 1);
     smp_mb();                      smp_mb();
     ... qatomic_read(&x) ...       ... qatomic_read(&y) ...

When a qatomic_*() read-modify write operation is used instead of one
or both stores, developers that are more familiar with the Linux API may
be tempted to omit the smp_mb(), which will work on x86 but not on ARM.

This nasty difference between Linux and C11 read-modify-write operations
has already caused issues in util/async.c and more are being found.
Provide something similar to Linux smp_mb__before/after_atomic(); this
has the double function of documenting clearly why there is a memory
barrier, and avoiding a double barrier on x86 and s390x systems.


Right, just like smp_mb__before_atomic()/smp_mb__after_atomic().


The new macro can already be put to use in qatomic_mb_set().

Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
---
   docs/devel/atomics.rst | 26 +++++++++++++++++++++-----
   include/qemu/atomic.h  | 17 ++++++++++++++++-
   2 files changed, 37 insertions(+), 6 deletions(-)

diff --git a/docs/devel/atomics.rst b/docs/devel/atomics.rst
index 7957310071d9..898f5393c07a 100644
--- a/docs/devel/atomics.rst
+++ b/docs/devel/atomics.rst
@@ -27,7 +27,8 @@ provides macros that fall in three camps:
- weak atomic access and manual memory barriers: ``qatomic_read()``,
     ``qatomic_set()``, ``smp_rmb()``, ``smp_wmb()``, ``smp_mb()``,
-  ``smp_mb_acquire()``, ``smp_mb_release()``, ``smp_read_barrier_depends()``;
+  ``smp_mb_acquire()``, ``smp_mb_release()``, ``smp_read_barrier_depends()``,
+  ``smp_mb__before_rmw()``, ``smp_mb__after_rmw()``;
- sequentially consistent atomic access: everything else. @@ -472,7 +473,7 @@ and memory barriers, and the equivalents in QEMU:
     sequential consistency.
- in QEMU, ``qatomic_read()`` and ``qatomic_set()`` do not participate in
-  the total ordering enforced by sequentially-consistent operations.
+  the ordering enforced by read-modify-write operations.
     This is because QEMU uses the C11 memory model.  The following example
     is correct in Linux but not in QEMU:
@@ -488,9 +489,24 @@ and memory barriers, and the equivalents in QEMU:
     because the read of ``y`` can be moved (by either the processor or the
     compiler) before the write of ``x``.
- Fixing this requires an ``smp_mb()`` memory barrier between the write
-  of ``x`` and the read of ``y``.  In the common case where only one thread
-  writes ``x``, it is also possible to write it like this:
+  Fixing this requires a full memory barrier between the write of ``x`` and
+  the read of ``y``.  QEMU provides ``smp_mb__before_rmw()`` and
+  ``smp_mb__after_rmw()``; they act both as an optimization,
+  avoiding the memory barrier on processors where it is unnecessary,
+  and as a clarification of this corner case of the C11 memory model:
+
+      +--------------------------------+
+      | QEMU (incorrect)               |

Just double-checking: shouldn't this be "QEMU (correct)" ?

Or am I confused? :)


Oh, noticed Richard also pointed that out. With that fixed LGTM

Reviewed-by: David Hildenbrand <david@redhat.com>

--
Thanks,

David / dhildenb




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