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More aggsum optimizations
- Avoid atomic_add() when updating as_lower_bound/as_upper_bound. Previous code was excessively strong on 64bit systems while not strong enough on 32bit ones. Instead introduce and use real atomic_load() and atomic_store() operations, just an assignments on 64bit machines, but using proper atomics on 32bit ones to avoid torn reads/writes. - Reduce number of buckets on large systems. Extra buckets not as much improve add speed, as hurt reads. Unlike wmsum for aggsum reads are still important. Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> Reviewed-by: Ryan Moeller <ryan@iXsystems.com> Signed-off-by: Alexander Motin <mav@FreeBSD.org> Sponsored-By: iXsystems, Inc. Closes #12145
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@ -48,6 +48,8 @@
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#define atomic_sub_32_nv(v, i) atomic_sub_return((i), (atomic_t *)(v))
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#define atomic_cas_32(v, x, y) atomic_cmpxchg((atomic_t *)(v), x, y)
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#define atomic_swap_32(v, x) atomic_xchg((atomic_t *)(v), x)
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#define atomic_load_32(v) atomic_read((atomic_t *)(v))
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#define atomic_store_32(v, x) atomic_set((atomic_t *)(v), x)
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#define atomic_inc_64(v) atomic64_inc((atomic64_t *)(v))
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#define atomic_dec_64(v) atomic64_dec((atomic64_t *)(v))
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#define atomic_add_64(v, i) atomic64_add((i), (atomic64_t *)(v))
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@ -58,6 +60,8 @@
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#define atomic_sub_64_nv(v, i) atomic64_sub_return((i), (atomic64_t *)(v))
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#define atomic_cas_64(v, x, y) atomic64_cmpxchg((atomic64_t *)(v), x, y)
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#define atomic_swap_64(v, x) atomic64_xchg((atomic64_t *)(v), x)
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#define atomic_load_64(v) atomic64_read((atomic64_t *)(v))
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#define atomic_store_64(v, x) atomic64_set((atomic64_t *)(v), x)
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#ifdef _LP64
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static __inline__ void *
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@ -39,15 +39,16 @@ struct aggsum_bucket {
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typedef struct aggsum {
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kmutex_t as_lock;
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int64_t as_lower_bound;
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int64_t as_upper_bound;
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uint64_t as_upper_bound;
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aggsum_bucket_t *as_buckets ____cacheline_aligned;
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uint_t as_numbuckets;
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aggsum_bucket_t *as_buckets;
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uint_t as_bucketshift;
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} aggsum_t;
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void aggsum_init(aggsum_t *, uint64_t);
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void aggsum_fini(aggsum_t *);
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int64_t aggsum_lower_bound(aggsum_t *);
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int64_t aggsum_upper_bound(aggsum_t *);
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uint64_t aggsum_upper_bound(aggsum_t *);
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int aggsum_compare(aggsum_t *, uint64_t);
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uint64_t aggsum_value(aggsum_t *);
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void aggsum_add(aggsum_t *, int64_t);
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@ -390,6 +390,19 @@ atomic_swap_ptr(volatile void *target, void *bits)
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return (old);
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}
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#ifndef _LP64
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uint64_t
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atomic_load_64(volatile uint64_t *target)
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{
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return (__atomic_load_n(target, __ATOMIC_RELAXED));
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}
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void
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atomic_store_64(volatile uint64_t *target, uint64_t bits)
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{
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return (__atomic_store_n(target, bits, __ATOMIC_RELAXED));
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}
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#endif
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int
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atomic_set_long_excl(volatile ulong_t *target, uint_t value)
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@ -245,6 +245,49 @@ extern ulong_t atomic_swap_ulong(volatile ulong_t *, ulong_t);
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extern uint64_t atomic_swap_64(volatile uint64_t *, uint64_t);
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#endif
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/*
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* Atomically read variable.
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*/
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#define atomic_load_char(p) (*(volatile uchar_t *)(p))
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#define atomic_load_short(p) (*(volatile ushort_t *)(p))
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#define atomic_load_int(p) (*(volatile uint_t *)(p))
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#define atomic_load_long(p) (*(volatile ulong_t *)(p))
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#define atomic_load_ptr(p) (*(volatile __typeof(*p) *)(p))
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#define atomic_load_8(p) (*(volatile uint8_t *)(p))
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#define atomic_load_16(p) (*(volatile uint16_t *)(p))
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#define atomic_load_32(p) (*(volatile uint32_t *)(p))
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#ifdef _LP64
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#define atomic_load_64(p) (*(volatile uint64_t *)(p))
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#elif defined(_INT64_TYPE)
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extern uint64_t atomic_load_64(volatile uint64_t *);
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#endif
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/*
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* Atomically write variable.
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*/
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#define atomic_store_char(p, v) \
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(*(volatile uchar_t *)(p) = (uchar_t)(v))
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#define atomic_store_short(p, v) \
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(*(volatile ushort_t *)(p) = (ushort_t)(v))
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#define atomic_store_int(p, v) \
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(*(volatile uint_t *)(p) = (uint_t)(v))
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#define atomic_store_long(p, v) \
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(*(volatile ulong_t *)(p) = (ulong_t)(v))
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#define atomic_store_ptr(p, v) \
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(*(volatile __typeof(*p) *)(p) = (v))
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#define atomic_store_8(p, v) \
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(*(volatile uint8_t *)(p) = (uint8_t)(v))
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#define atomic_store_16(p, v) \
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(*(volatile uint16_t *)(p) = (uint16_t)(v))
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#define atomic_store_32(p, v) \
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(*(volatile uint32_t *)(p) = (uint32_t)(v))
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#ifdef _LP64
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#define atomic_store_64(p, v) \
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(*(volatile uint64_t *)(p) = (uint64_t)(v))
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#elif defined(_INT64_TYPE)
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extern void atomic_store_64(volatile uint64_t *, uint64_t);
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#endif
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/*
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* Perform an exclusive atomic bit set/clear on a target.
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* Returns 0 if bit was successfully set/cleared, or -1
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@ -78,11 +78,11 @@
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*/
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/*
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* We will borrow aggsum_borrow_multiplier times the current request, so we will
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* have to get the as_lock approximately every aggsum_borrow_multiplier calls to
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* aggsum_delta().
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* We will borrow 2^aggsum_borrow_shift times the current request, so we will
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* have to get the as_lock approximately every 2^aggsum_borrow_shift calls to
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* aggsum_add().
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*/
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static uint_t aggsum_borrow_multiplier = 10;
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static uint_t aggsum_borrow_shift = 4;
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void
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aggsum_init(aggsum_t *as, uint64_t value)
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@ -90,9 +90,14 @@ aggsum_init(aggsum_t *as, uint64_t value)
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bzero(as, sizeof (*as));
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as->as_lower_bound = as->as_upper_bound = value;
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mutex_init(&as->as_lock, NULL, MUTEX_DEFAULT, NULL);
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as->as_numbuckets = boot_ncpus;
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as->as_buckets = kmem_zalloc(boot_ncpus * sizeof (aggsum_bucket_t),
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KM_SLEEP);
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/*
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* Too many buckets may hurt read performance without improving
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* write. From 12 CPUs use bucket per 2 CPUs, from 48 per 4, etc.
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*/
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as->as_bucketshift = highbit64(boot_ncpus / 6) / 2;
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as->as_numbuckets = ((boot_ncpus - 1) >> as->as_bucketshift) + 1;
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as->as_buckets = kmem_zalloc(as->as_numbuckets *
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sizeof (aggsum_bucket_t), KM_SLEEP);
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for (int i = 0; i < as->as_numbuckets; i++) {
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mutex_init(&as->as_buckets[i].asc_lock,
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NULL, MUTEX_DEFAULT, NULL);
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@ -111,59 +116,49 @@ aggsum_fini(aggsum_t *as)
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int64_t
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aggsum_lower_bound(aggsum_t *as)
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{
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return (as->as_lower_bound);
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return (atomic_load_64((volatile uint64_t *)&as->as_lower_bound));
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}
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int64_t
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uint64_t
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aggsum_upper_bound(aggsum_t *as)
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{
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return (as->as_upper_bound);
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}
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static void
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aggsum_flush_bucket(aggsum_t *as, struct aggsum_bucket *asb)
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{
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ASSERT(MUTEX_HELD(&as->as_lock));
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ASSERT(MUTEX_HELD(&asb->asc_lock));
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/*
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* We use atomic instructions for this because we read the upper and
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* lower bounds without the lock, so we need stores to be atomic.
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*/
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atomic_add_64((volatile uint64_t *)&as->as_lower_bound,
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asb->asc_delta + asb->asc_borrowed);
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atomic_add_64((volatile uint64_t *)&as->as_upper_bound,
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asb->asc_delta - asb->asc_borrowed);
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asb->asc_delta = 0;
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asb->asc_borrowed = 0;
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return (atomic_load_64(&as->as_upper_bound));
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}
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uint64_t
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aggsum_value(aggsum_t *as)
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{
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int64_t rv;
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int64_t lb;
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uint64_t ub;
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mutex_enter(&as->as_lock);
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if (as->as_lower_bound == as->as_upper_bound) {
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rv = as->as_lower_bound;
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lb = as->as_lower_bound;
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ub = as->as_upper_bound;
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if (lb == ub) {
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for (int i = 0; i < as->as_numbuckets; i++) {
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ASSERT0(as->as_buckets[i].asc_delta);
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ASSERT0(as->as_buckets[i].asc_borrowed);
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}
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mutex_exit(&as->as_lock);
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return (rv);
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return (lb);
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}
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for (int i = 0; i < as->as_numbuckets; i++) {
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struct aggsum_bucket *asb = &as->as_buckets[i];
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if (asb->asc_borrowed == 0)
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continue;
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mutex_enter(&asb->asc_lock);
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aggsum_flush_bucket(as, asb);
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lb += asb->asc_delta + asb->asc_borrowed;
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ub += asb->asc_delta - asb->asc_borrowed;
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asb->asc_delta = 0;
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asb->asc_borrowed = 0;
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mutex_exit(&asb->asc_lock);
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}
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VERIFY3U(as->as_lower_bound, ==, as->as_upper_bound);
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rv = as->as_lower_bound;
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ASSERT3U(lb, ==, ub);
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atomic_store_64((volatile uint64_t *)&as->as_lower_bound, lb);
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atomic_store_64(&as->as_upper_bound, lb);
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mutex_exit(&as->as_lock);
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return (rv);
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return (lb);
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}
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void
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@ -172,7 +167,8 @@ aggsum_add(aggsum_t *as, int64_t delta)
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struct aggsum_bucket *asb;
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int64_t borrow;
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asb = &as->as_buckets[CPU_SEQID_UNSTABLE % as->as_numbuckets];
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asb = &as->as_buckets[(CPU_SEQID_UNSTABLE >> as->as_bucketshift) %
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as->as_numbuckets];
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/* Try fast path if we already borrowed enough before. */
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mutex_enter(&asb->asc_lock);
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@ -188,21 +184,22 @@ aggsum_add(aggsum_t *as, int64_t delta)
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* We haven't borrowed enough. Take the global lock and borrow
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* considering what is requested now and what we borrowed before.
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*/
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borrow = (delta < 0 ? -delta : delta) * aggsum_borrow_multiplier;
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borrow = (delta < 0 ? -delta : delta);
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borrow <<= aggsum_borrow_shift + as->as_bucketshift;
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mutex_enter(&as->as_lock);
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mutex_enter(&asb->asc_lock);
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delta += asb->asc_delta;
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asb->asc_delta = 0;
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if (borrow >= asb->asc_borrowed)
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borrow -= asb->asc_borrowed;
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else
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borrow = (borrow - (int64_t)asb->asc_borrowed) / 4;
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mutex_enter(&asb->asc_lock);
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delta += asb->asc_delta;
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asb->asc_delta = 0;
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asb->asc_borrowed += borrow;
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atomic_add_64((volatile uint64_t *)&as->as_lower_bound,
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delta - borrow);
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atomic_add_64((volatile uint64_t *)&as->as_upper_bound,
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delta + borrow);
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mutex_exit(&asb->asc_lock);
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atomic_store_64((volatile uint64_t *)&as->as_lower_bound,
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as->as_lower_bound + delta - borrow);
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atomic_store_64(&as->as_upper_bound,
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as->as_upper_bound + delta + borrow);
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mutex_exit(&as->as_lock);
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}
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@ -214,27 +211,35 @@ aggsum_add(aggsum_t *as, int64_t delta)
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int
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aggsum_compare(aggsum_t *as, uint64_t target)
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{
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if (as->as_upper_bound < target)
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int64_t lb;
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uint64_t ub;
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int i;
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if (atomic_load_64(&as->as_upper_bound) < target)
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return (-1);
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if (as->as_lower_bound > target)
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lb = atomic_load_64((volatile uint64_t *)&as->as_lower_bound);
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if (lb > 0 && (uint64_t)lb > target)
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return (1);
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mutex_enter(&as->as_lock);
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for (int i = 0; i < as->as_numbuckets; i++) {
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lb = as->as_lower_bound;
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ub = as->as_upper_bound;
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for (i = 0; i < as->as_numbuckets; i++) {
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struct aggsum_bucket *asb = &as->as_buckets[i];
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if (asb->asc_borrowed == 0)
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continue;
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mutex_enter(&asb->asc_lock);
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aggsum_flush_bucket(as, asb);
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lb += asb->asc_delta + asb->asc_borrowed;
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ub += asb->asc_delta - asb->asc_borrowed;
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asb->asc_delta = 0;
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asb->asc_borrowed = 0;
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mutex_exit(&asb->asc_lock);
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if (as->as_upper_bound < target) {
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mutex_exit(&as->as_lock);
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return (-1);
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}
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if (as->as_lower_bound > target) {
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mutex_exit(&as->as_lock);
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return (1);
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}
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if (ub < target || (lb > 0 && (uint64_t)lb > target))
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break;
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}
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VERIFY3U(as->as_lower_bound, ==, as->as_upper_bound);
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ASSERT3U(as->as_lower_bound, ==, target);
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if (i >= as->as_numbuckets)
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ASSERT3U(lb, ==, ub);
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atomic_store_64((volatile uint64_t *)&as->as_lower_bound, lb);
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atomic_store_64(&as->as_upper_bound, ub);
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mutex_exit(&as->as_lock);
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return (0);
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return (ub < target ? -1 : (uint64_t)lb > target ? 1 : 0);
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}
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