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atomic: introduce smp_mb_acquire and smp_mb_release
Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
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@ -15,7 +15,8 @@ Macros defined by qemu/atomic.h fall in three camps:
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- compiler barriers: barrier();
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- weak atomic access and manual memory barriers: atomic_read(),
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atomic_set(), smp_rmb(), smp_wmb(), smp_mb(), smp_read_barrier_depends();
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atomic_set(), smp_rmb(), smp_wmb(), smp_mb(), smp_mb_acquire(),
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smp_mb_release(), smp_read_barrier_depends();
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- sequentially consistent atomic access: everything else.
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@ -111,8 +112,8 @@ consistent primitives.
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When using this model, variables are accessed with atomic_read() and
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atomic_set(), and restrictions to the ordering of accesses is enforced
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using the smp_rmb(), smp_wmb(), smp_mb() and smp_read_barrier_depends()
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memory barriers.
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using the memory barrier macros: smp_rmb(), smp_wmb(), smp_mb(),
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smp_mb_acquire(), smp_mb_release(), smp_read_barrier_depends().
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atomic_read() and atomic_set() prevents the compiler from using
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optimizations that might otherwise optimize accesses out of existence
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@ -124,7 +125,7 @@ other threads, and which are local to the current thread or protected
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by other, more mundane means.
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Memory barriers control the order of references to shared memory.
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They come in four kinds:
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They come in six kinds:
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- smp_rmb() guarantees that all the LOAD operations specified before
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the barrier will appear to happen before all the LOAD operations
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@ -142,6 +143,16 @@ They come in four kinds:
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In other words, smp_wmb() puts a partial ordering on stores, but is not
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required to have any effect on loads.
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- smp_mb_acquire() guarantees that all the LOAD operations specified before
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the barrier will appear to happen before all the LOAD or STORE operations
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specified after the barrier with respect to the other components of
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the system.
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- smp_mb_release() guarantees that all the STORE operations specified *after*
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the barrier will appear to happen after all the LOAD or STORE operations
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specified *before* the barrier with respect to the other components of
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the system.
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- smp_mb() guarantees that all the LOAD and STORE operations specified
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before the barrier will appear to happen before all the LOAD and
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STORE operations specified after the barrier with respect to the other
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@ -149,8 +160,9 @@ They come in four kinds:
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smp_mb() puts a partial ordering on both loads and stores. It is
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stronger than both a read and a write memory barrier; it implies both
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smp_rmb() and smp_wmb(), but it also prevents STOREs coming before the
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barrier from overtaking LOADs coming after the barrier and vice versa.
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smp_mb_acquire() and smp_mb_release(), but it also prevents STOREs
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coming before the barrier from overtaking LOADs coming after the
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barrier and vice versa.
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- smp_read_barrier_depends() is a weaker kind of read barrier. On
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most processors, whenever two loads are performed such that the
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@ -173,24 +185,21 @@ They come in four kinds:
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This is the set of barriers that is required *between* two atomic_read()
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and atomic_set() operations to achieve sequential consistency:
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| 2nd operation |
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|-----------------------------------------|
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1st operation | (after last) | atomic_read | atomic_set |
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---------------+--------------+-------------+------------|
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(before first) | | none | smp_wmb() |
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---------------+--------------+-------------+------------|
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atomic_read | smp_rmb() | smp_rmb()* | ** |
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---------------+--------------+-------------+------------|
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atomic_set | none | smp_mb()*** | smp_wmb() |
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---------------+--------------+-------------+------------|
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| 2nd operation |
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|-----------------------------------------------|
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1st operation | (after last) | atomic_read | atomic_set |
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---------------+----------------+-------------+----------------|
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(before first) | | none | smp_mb_release |
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---------------+----------------+-------------+----------------|
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atomic_read | smp_mb_acquire | smp_rmb | ** |
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---------------+----------------+-------------+----------------|
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atomic_set | none | smp_mb()*** | smp_wmb() |
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---------------+----------------+-------------+----------------|
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* Or smp_read_barrier_depends().
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** This requires a load-store barrier. How to achieve this varies
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depending on the machine, but in practice smp_rmb()+smp_wmb()
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should have the desired effect. For example, on PowerPC the
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lwsync instruction is a combined load-load, load-store and
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store-store barrier.
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** This requires a load-store barrier. This is achieved by
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either smp_mb_acquire() or smp_mb_release().
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*** This requires a store-load barrier. On most machines, the only
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way to achieve this is a full barrier.
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@ -199,11 +208,11 @@ and atomic_set() operations to achieve sequential consistency:
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You can see that the two possible definitions of atomic_mb_read()
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and atomic_mb_set() are the following:
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1) atomic_mb_read(p) = atomic_read(p); smp_rmb()
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atomic_mb_set(p, v) = smp_wmb(); atomic_set(p, v); smp_mb()
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1) atomic_mb_read(p) = atomic_read(p); smp_mb_acquire()
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atomic_mb_set(p, v) = smp_mb_release(); atomic_set(p, v); smp_mb()
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2) atomic_mb_read(p) = smp_mb() atomic_read(p); smp_rmb()
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atomic_mb_set(p, v) = smp_wmb(); atomic_set(p, v);
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2) atomic_mb_read(p) = smp_mb() atomic_read(p); smp_mb_acquire()
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atomic_mb_set(p, v) = smp_mb_release(); atomic_set(p, v);
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Usually the former is used, because smp_mb() is expensive and a program
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normally has more reads than writes. Therefore it makes more sense to
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@ -222,7 +231,7 @@ place barriers instead:
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thread 1 thread 1
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------------------------- ------------------------
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(other writes)
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smp_wmb()
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smp_mb_release()
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atomic_mb_set(&a, x) atomic_set(&a, x)
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smp_wmb()
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atomic_mb_set(&b, y) atomic_set(&b, y)
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@ -233,7 +242,13 @@ place barriers instead:
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y = atomic_mb_read(&b) y = atomic_read(&b)
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smp_rmb()
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x = atomic_mb_read(&a) x = atomic_read(&a)
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smp_rmb()
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smp_mb_acquire()
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Note that the barrier between the stores in thread 1, and between
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the loads in thread 2, has been optimized here to a write or a
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read memory barrier respectively. On some architectures, notably
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ARMv7, smp_mb_acquire and smp_mb_release are just as expensive as
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smp_mb, but smp_rmb and/or smp_wmb are more efficient.
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- sometimes, a thread is accessing many variables that are otherwise
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unrelated to each other (for example because, apart from the current
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@ -246,12 +261,12 @@ place barriers instead:
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n = 0; n = 0;
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for (i = 0; i < 10; i++) => for (i = 0; i < 10; i++)
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n += atomic_mb_read(&a[i]); n += atomic_read(&a[i]);
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smp_rmb();
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smp_mb_acquire();
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Similarly, atomic_mb_set() can be transformed as follows:
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smp_mb():
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smp_wmb();
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smp_mb_release();
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for (i = 0; i < 10; i++) => for (i = 0; i < 10; i++)
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atomic_mb_set(&a[i], false); atomic_set(&a[i], false);
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smp_mb();
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@ -261,7 +276,7 @@ The two tricks can be combined. In this case, splitting a loop in
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two lets you hoist the barriers out of the loops _and_ eliminate the
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expensive smp_mb():
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smp_wmb();
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smp_mb_release();
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for (i = 0; i < 10; i++) { => for (i = 0; i < 10; i++)
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atomic_mb_set(&a[i], false); atomic_set(&a[i], false);
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atomic_mb_set(&b[i], false); smb_wmb();
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@ -312,8 +327,8 @@ access and for data dependency barriers:
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smp_read_barrier_depends();
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z = b[y];
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smp_wmb() also pairs with atomic_mb_read(), and smp_rmb() also pairs
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with atomic_mb_set().
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smp_wmb() also pairs with atomic_mb_read() and smp_mb_acquire().
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and smp_rmb() also pairs with atomic_mb_set() and smp_mb_release().
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COMPARISON WITH LINUX KERNEL MEMORY BARRIERS
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@ -72,16 +72,16 @@
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* Add one here, and similarly in smp_rmb() and smp_read_barrier_depends().
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*/
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#define smp_mb() ({ barrier(); __atomic_thread_fence(__ATOMIC_SEQ_CST); })
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#define smp_wmb() ({ barrier(); __atomic_thread_fence(__ATOMIC_RELEASE); })
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#define smp_rmb() ({ barrier(); __atomic_thread_fence(__ATOMIC_ACQUIRE); })
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#define smp_mb() ({ barrier(); __atomic_thread_fence(__ATOMIC_SEQ_CST); })
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#define smp_mb_release() ({ barrier(); __atomic_thread_fence(__ATOMIC_RELEASE); })
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#define smp_mb_acquire() ({ barrier(); __atomic_thread_fence(__ATOMIC_ACQUIRE); })
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/* Most compilers currently treat consume and acquire the same, but really
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* no processors except Alpha need a barrier here. Leave it in if
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* using Thread Sanitizer to avoid warnings, otherwise optimize it away.
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*/
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#if defined(__SANITIZE_THREAD__)
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#define smp_read_barrier_depends() ({ barrier(); __atomic_thread_fence(__ATOMIC_CONSUME); })
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#define smp_read_barrier_depends() ({ barrier(); __atomic_thread_fence(__ATOMIC_CONSUME); })
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#elif defined(__alpha__)
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#define smp_read_barrier_depends() asm volatile("mb":::"memory")
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#else
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@ -149,13 +149,13 @@
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QEMU_BUILD_BUG_ON(sizeof(*ptr) > sizeof(void *)); \
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typeof_strip_qual(*ptr) _val; \
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__atomic_load(ptr, &_val, __ATOMIC_RELAXED); \
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smp_rmb(); \
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smp_mb_acquire(); \
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_val; \
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})
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#define atomic_mb_set(ptr, i) do { \
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QEMU_BUILD_BUG_ON(sizeof(*ptr) > sizeof(void *)); \
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smp_wmb(); \
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smp_mb_release(); \
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__atomic_store_n(ptr, i, __ATOMIC_RELAXED); \
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smp_mb(); \
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} while(0)
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@ -238,8 +238,8 @@
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* here (a compiler barrier only). QEMU doesn't do accesses to write-combining
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* qemu memory or non-temporal load/stores from C code.
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*/
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#define smp_wmb() barrier()
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#define smp_rmb() barrier()
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#define smp_mb_release() barrier()
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#define smp_mb_acquire() barrier()
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/*
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* __sync_lock_test_and_set() is documented to be an acquire barrier only,
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@ -263,13 +263,15 @@
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* smp_mb has the same problem as on x86 for not-very-new GCC
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* (http://patchwork.ozlabs.org/patch/126184/, Nov 2011).
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*/
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#define smp_wmb() ({ asm volatile("eieio" ::: "memory"); (void)0; })
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#define smp_wmb() ({ asm volatile("eieio" ::: "memory"); (void)0; })
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#if defined(__powerpc64__)
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#define smp_rmb() ({ asm volatile("lwsync" ::: "memory"); (void)0; })
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#define smp_mb_release() ({ asm volatile("lwsync" ::: "memory"); (void)0; })
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#define smp_mb_acquire() ({ asm volatile("lwsync" ::: "memory"); (void)0; })
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#else
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#define smp_rmb() ({ asm volatile("sync" ::: "memory"); (void)0; })
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#define smp_mb_release() ({ asm volatile("sync" ::: "memory"); (void)0; })
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#define smp_mb_acquire() ({ asm volatile("sync" ::: "memory"); (void)0; })
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#endif
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#define smp_mb() ({ asm volatile("sync" ::: "memory"); (void)0; })
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#define smp_mb() ({ asm volatile("sync" ::: "memory"); (void)0; })
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#endif /* _ARCH_PPC */
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@ -277,18 +279,18 @@
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* For (host) platforms we don't have explicit barrier definitions
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* for, we use the gcc __sync_synchronize() primitive to generate a
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* full barrier. This should be safe on all platforms, though it may
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* be overkill for smp_wmb() and smp_rmb().
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* be overkill for smp_mb_acquire() and smp_mb_release().
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*/
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#ifndef smp_mb
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#define smp_mb() __sync_synchronize()
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#define smp_mb() __sync_synchronize()
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#endif
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#ifndef smp_wmb
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#define smp_wmb() __sync_synchronize()
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#ifndef smp_mb_acquire
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#define smp_mb_acquire() __sync_synchronize()
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#endif
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#ifndef smp_rmb
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#define smp_rmb() __sync_synchronize()
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#ifndef smp_mb_release
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#define smp_mb_release() __sync_synchronize()
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#endif
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#ifndef smp_read_barrier_depends
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@ -365,13 +367,13 @@
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*/
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#define atomic_mb_read(ptr) ({ \
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typeof(*ptr) _val = atomic_read(ptr); \
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smp_rmb(); \
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smp_mb_acquire(); \
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_val; \
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})
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#ifndef atomic_mb_set
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#define atomic_mb_set(ptr, i) do { \
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smp_wmb(); \
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smp_mb_release(); \
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atomic_set(ptr, i); \
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smp_mb(); \
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} while (0)
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@ -404,4 +406,12 @@
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#define atomic_or(ptr, n) ((void) __sync_fetch_and_or(ptr, n))
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#endif /* __ATOMIC_RELAXED */
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#ifndef smp_wmb
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#define smp_wmb() smp_mb_release()
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#endif
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#ifndef smp_rmb
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#define smp_rmb() smp_mb_acquire()
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#endif
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#endif /* QEMU_ATOMIC_H */
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