[IA64] Spinlock optimizations
1. Nontemporal store for spin unlock. A nontemporal store will not update the LRU setting for the cacheline. The cacheline with the lock may therefore be evicted faster from the cpu caches. Doing so may be useful since it increases the chance that the exclusive cache line has been evicted when another cpu is trying to acquire the lock. The time between dropping and reacquiring a lock on the same cpu is typically very small so the danger of the cacheline being evicted is negligible. 2. Avoid semaphore operation in write_unlock and use nontemporal store write_lock uses a cmpxchg like the regular spin_lock but write_unlock uses clear_bit which requires a load and then a loop over a cmpxchg. The following patch makes write_unlock simply use a nontemporal store to clear the highest 8 bits. We will then still have the lower 3 bytes (24 bits) left to count the readers. Doing the byte store will reduce the number of possible readers from 2^31 to 2^24 = 16 million. These patches were discussed already: http://marc.theaimsgroup.com/?t=111472054400001&r=1&w=2 http://marc.theaimsgroup.com/?l=linux-ia64&m=111401837707849&w=2 The nontemporal stores will only work using GCC. If a compiler is used that does not support inline asm then fallback C code is used. This will preserve the byte store but not be able to do the nontemporal stores. Signed-off-by: Christoph Lameter <clameter@sgi.com> Signed-off-by: Tony Luck <tony.luck@intel.com>
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@ -93,7 +93,15 @@ _raw_spin_lock_flags (spinlock_t *lock, unsigned long flags)
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# endif /* CONFIG_MCKINLEY */
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# endif /* CONFIG_MCKINLEY */
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#endif
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#endif
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}
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}
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#define _raw_spin_lock(lock) _raw_spin_lock_flags(lock, 0)
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#define _raw_spin_lock(lock) _raw_spin_lock_flags(lock, 0)
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/* Unlock by doing an ordered store and releasing the cacheline with nta */
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static inline void _raw_spin_unlock(spinlock_t *x) {
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barrier();
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asm volatile ("st4.rel.nta [%0] = r0\n\t" :: "r"(x));
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}
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#else /* !ASM_SUPPORTED */
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#else /* !ASM_SUPPORTED */
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#define _raw_spin_lock_flags(lock, flags) _raw_spin_lock(lock)
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#define _raw_spin_lock_flags(lock, flags) _raw_spin_lock(lock)
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# define _raw_spin_lock(x) \
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# define _raw_spin_lock(x) \
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@ -109,16 +117,16 @@ do { \
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} while (ia64_spinlock_val); \
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} while (ia64_spinlock_val); \
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} \
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} \
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} while (0)
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} while (0)
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#define _raw_spin_unlock(x) do { barrier(); ((spinlock_t *) x)->lock = 0; } while (0)
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#endif /* !ASM_SUPPORTED */
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#endif /* !ASM_SUPPORTED */
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#define spin_is_locked(x) ((x)->lock != 0)
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#define spin_is_locked(x) ((x)->lock != 0)
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#define _raw_spin_unlock(x) do { barrier(); ((spinlock_t *) x)->lock = 0; } while (0)
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#define _raw_spin_trylock(x) (cmpxchg_acq(&(x)->lock, 0, 1) == 0)
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#define _raw_spin_trylock(x) (cmpxchg_acq(&(x)->lock, 0, 1) == 0)
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#define spin_unlock_wait(x) do { barrier(); } while ((x)->lock)
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#define spin_unlock_wait(x) do { barrier(); } while ((x)->lock)
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typedef struct {
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typedef struct {
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volatile unsigned int read_counter : 31;
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volatile unsigned int read_counter : 24;
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volatile unsigned int write_lock : 1;
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volatile unsigned int write_lock : 8;
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#ifdef CONFIG_PREEMPT
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#ifdef CONFIG_PREEMPT
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unsigned int break_lock;
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unsigned int break_lock;
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#endif
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#endif
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@ -174,6 +182,13 @@ do { \
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(result == 0); \
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(result == 0); \
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})
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})
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static inline void _raw_write_unlock(rwlock_t *x)
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{
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u8 *y = (u8 *)x;
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barrier();
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asm volatile ("st1.rel.nta [%0] = r0\n\t" :: "r"(y+3) : "memory" );
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}
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#else /* !ASM_SUPPORTED */
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#else /* !ASM_SUPPORTED */
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#define _raw_write_lock(l) \
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#define _raw_write_lock(l) \
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@ -195,14 +210,14 @@ do { \
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(ia64_val == 0); \
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(ia64_val == 0); \
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})
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})
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static inline void _raw_write_unlock(rwlock_t *x)
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{
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barrier();
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x->write_lock = 0;
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}
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#endif /* !ASM_SUPPORTED */
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#endif /* !ASM_SUPPORTED */
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#define _raw_read_trylock(lock) generic_raw_read_trylock(lock)
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#define _raw_read_trylock(lock) generic_raw_read_trylock(lock)
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#define _raw_write_unlock(x) \
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({ \
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smp_mb__before_clear_bit(); /* need barrier before releasing lock... */ \
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clear_bit(31, (x)); \
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})
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#endif /* _ASM_IA64_SPINLOCK_H */
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#endif /* _ASM_IA64_SPINLOCK_H */
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