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tailscale/syncs/shardedint_test.go

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syncs: add ShardedInt expvar.Var type ShardedInt provides an int type expvar.Var that supports more efficient writes at high frequencies (one order of magnigude on an M1 Max, much more on NUMA systems). There are two implementations of ShardValue, one that abuses sync.Pool that will work on current public Go versions, and one that takes a dependency on a runtime.TailscaleP function exposed in Tailscale's Go fork. The sync.Pool variant has about 10x the throughput of a single atomic integer on an M1 Max, and the runtime.TailscaleP variant is about 10x faster than the sync.Pool variant. Neither variant have perfect distribution, or perfectly always avoid cross-CPU sharing, as there is no locking or affinity to ensure that the time of yield is on the same core as the time of core biasing, but in the average case the distributions are enough to provide substantially better performance. See golang/go#18802 for a related upstream proposal. Updates tailscale/go#109 Updates tailscale/corp#25450 Signed-off-by: James Tucker <james@tailscale.com>
2024-12-17 12:22:44 -08:00
// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package syncs
import (
"expvar"
"sync"
"testing"
"tailscale.com/tstest"
)
var (
_ expvar.Var = (*ShardedInt)(nil)
// TODO(raggi): future go version:
// _ encoding.TextAppender = (*ShardedInt)(nil)
)
func BenchmarkShardedInt(b *testing.B) {
b.ReportAllocs()
b.Run("expvar", func(b *testing.B) {
var m expvar.Int
b.RunParallel(func(pb *testing.PB) {
for pb.Next() {
m.Add(1)
}
})
})
b.Run("sharded int", func(b *testing.B) {
m := NewShardedInt()
b.RunParallel(func(pb *testing.PB) {
for pb.Next() {
m.Add(1)
}
})
})
}
func TestShardedInt(t *testing.T) {
t.Run("basics", func(t *testing.T) {
m := NewShardedInt()
if got, want := m.Value(), int64(0); got != want {
t.Errorf("got %v, want %v", got, want)
}
m.Add(1)
if got, want := m.Value(), int64(1); got != want {
t.Errorf("got %v, want %v", got, want)
}
m.Add(2)
if got, want := m.Value(), int64(3); got != want {
t.Errorf("got %v, want %v", got, want)
}
m.Add(-1)
if got, want := m.Value(), int64(2); got != want {
t.Errorf("got %v, want %v", got, want)
}
})
t.Run("high concurrency", func(t *testing.T) {
m := NewShardedInt()
wg := sync.WaitGroup{}
numWorkers := 1000
numIncrements := 1000
wg.Add(numWorkers)
for i := 0; i < numWorkers; i++ {
go func() {
defer wg.Done()
for i := 0; i < numIncrements; i++ {
m.Add(1)
}
}()
}
wg.Wait()
if got, want := m.Value(), int64(numWorkers*numIncrements); got != want {
t.Errorf("got %v, want %v", got, want)
}
for i, shard := range m.GetDistribution() {
t.Logf("shard %d: %d", i, shard)
}
})
t.Run("encoding.TextAppender", func(t *testing.T) {
m := NewShardedInt()
m.Add(1)
b := make([]byte, 0, 10)
b, err := m.AppendText(b)
if err != nil {
t.Fatal(err)
}
if got, want := string(b), "1"; got != want {
t.Errorf("got %v, want %v", got, want)
}
})
t.Run("allocs", func(t *testing.T) {
m := NewShardedInt()
tstest.MinAllocsPerRun(t, 0, func() {
m.Add(1)
_ = m.Value()
})
// TODO(raggi): fix access to expvar's internal append based
// interface, unfortunately it's not currently closed for external
// use, this will alloc when it escapes.
tstest.MinAllocsPerRun(t, 0, func() {
m.Add(1)
_ = m.String()
})
b := make([]byte, 0, 10)
tstest.MinAllocsPerRun(t, 0, func() {
m.Add(1)
m.AppendText(b)
})
})
}
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