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Further marginal hacking on generic atomic ops.

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In the generic atomic ops that rely on a loop around a CAS primitive,
there's no need to force the initial read of the "old" value to be atomic.
In the typically-rare case that we get a torn value, that simply means
that the first CAS attempt will fail; but it will update "old" to the
atomically-read value, so the next attempt has a chance of succeeding.
It was already being done that way in pg_atomic_exchange_u64_impl(),
but let's duplicate the approach in the rest.

(Given the current coding of the pg_atomic_read functions, this change
is a no-op anyway on popular platforms; it only makes a difference where
pg_atomic_read_u64_impl() is implemented as a CAS.)

In passing, also remove unnecessary take-a-pointer-and-dereference-it
coding in the pg_atomic_read functions.  That seems to have been based
on a misunderstanding of what the C standard requires.  What actually
matters is that the pointer be declared as pointing to volatile, which
it is.

I don't believe this will change the assembly code at all on x86
platforms (even ignoring the likelihood that these implementations
get overridden by others); but it may help on less-mainstream CPUs.

Discussion: https://postgr.es/m/13707.1504718238@sss.pgh.pa.us
This commit is contained in:
Tom Lane 2017-09-07 08:50:01 -04:00
parent f06588a8e6
commit bfea92563c
1 changed files with 14 additions and 16 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

30
src/include/port/atomics/generic.h
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@ -45,7 +45,7 @@ typedef pg_atomic_uint32 pg_atomic_flag;
static inline uint32
pg_atomic_read_u32_impl(volatile pg_atomic_uint32 *ptr)
{
return *(&ptr->value);
return ptr->value;
}
#endif
@ -170,7 +170,7 @@ static inline uint32
pg_atomic_exchange_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 xchg_)
{
uint32 old;
old = pg_atomic_read_u32_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u32_impl(ptr, &old, xchg_))
/* skip */;
return old;
@ -183,7 +183,7 @@ static inline uint32
pg_atomic_fetch_add_u32_impl(volatile pg_atomic_uint32 *ptr, int32 add_)
{
uint32 old;
old = pg_atomic_read_u32_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u32_impl(ptr, &old, old + add_))
/* skip */;
return old;
@ -205,7 +205,7 @@ static inline uint32
pg_atomic_fetch_and_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 and_)
{
uint32 old;
old = pg_atomic_read_u32_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u32_impl(ptr, &old, old & and_))
/* skip */;
return old;
@ -218,7 +218,7 @@ static inline uint32
pg_atomic_fetch_or_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 or_)
{
uint32 old;
old = pg_atomic_read_u32_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u32_impl(ptr, &old, old | or_))
/* skip */;
return old;
@ -249,7 +249,7 @@ static inline uint64
pg_atomic_exchange_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 xchg_)
{
uint64 old;
old = ptr->value;
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u64_impl(ptr, &old, xchg_))
/* skip */;
return old;
@ -299,12 +299,10 @@ static inline uint64
pg_atomic_read_u64_impl(volatile pg_atomic_uint64 *ptr)
{
/*
* On this platform aligned 64bit reads are guaranteed to be atomic,
* except if using the fallback implementation, where can't guarantee the
* required alignment.
* On this platform aligned 64-bit reads are guaranteed to be atomic.
*/
AssertPointerAlignment(ptr, 8);
return *(&ptr->value);
return ptr->value;
}
#else
@ -315,10 +313,10 @@ pg_atomic_read_u64_impl(volatile pg_atomic_uint64 *ptr)
uint64 old = 0;
/*
* 64 bit reads aren't safe on all platforms. In the generic
* 64-bit reads aren't atomic on all platforms. In the generic
* implementation implement them as a compare/exchange with 0. That'll
* fail or succeed, but always return the old value. Possible might store
* a 0, but only if the prev. value also was a 0 - i.e. harmless.
* fail or succeed, but always return the old value. Possibly might store
* a 0, but only if the previous value also was a 0 - i.e. harmless.
*/
pg_atomic_compare_exchange_u64_impl(ptr, &old, 0);
@ -342,7 +340,7 @@ static inline uint64
pg_atomic_fetch_add_u64_impl(volatile pg_atomic_uint64 *ptr, int64 add_)
{
uint64 old;
old = pg_atomic_read_u64_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u64_impl(ptr, &old, old + add_))
/* skip */;
return old;
@ -364,7 +362,7 @@ static inline uint64
pg_atomic_fetch_and_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 and_)
{
uint64 old;
old = pg_atomic_read_u64_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u64_impl(ptr, &old, old & and_))
/* skip */;
return old;
@ -377,7 +375,7 @@ static inline uint64
pg_atomic_fetch_or_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 or_)
{
uint64 old;
old = pg_atomic_read_u64_impl(ptr);
old = ptr->value; /* ok if read is not atomic */
while (!pg_atomic_compare_exchange_u64_impl(ptr, &old, old | or_))
/* skip */;
return old;