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[#324] ir/timers: Complicate the logic of fractional block intervals

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Call handler of the fractional block interval once between base interval
ticks by default. Add option to call handler of fractional block interval
multiple times (N times if fractional interval == BASE_INTERVAL / N).

Signed-off-by: Leonard Lyubich <leonard@nspcc.ru>
This commit is contained in:
Leonard Lyubich 2021-01-21 22:16:43 +03:00 committed by Alex Vanin
parent 476349dd1c
commit b5dc28f79c
2 changed files with 95 additions and 10 deletions
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75
pkg/innerring/timers/block.go
View file

@ -15,10 +15,14 @@ type BlockTickHandler func()
// It can tick the blocks and perform certain actions // It can tick the blocks and perform certain actions
// on block time intervals. // on block time intervals.
type BlockTimer struct { type BlockTimer struct {
rolledBack bool
mtx *sync.Mutex mtx *sync.Mutex
dur BlockMeter dur BlockMeter
baseDur uint32
mul, div uint32 mul, div uint32
cur, tgt uint32 cur, tgt uint32
@ -26,6 +30,23 @@ type BlockTimer struct {
h BlockTickHandler h BlockTickHandler
ps []BlockTimer ps []BlockTimer
deltaCfg
}
// DeltaOption is an option of delta-interval handler.
type DeltaOption func(*deltaCfg)
type deltaCfg struct {
pulse bool
}
// WithPulse returns option to call delta-interval handler multiple
// times
func WithPulse() DeltaOption {
return func(c *deltaCfg) {
c.pulse = true
}
} }
// StaticBlockMeter returns BlockMeters that always returns (d, nil). // StaticBlockMeter returns BlockMeters that always returns (d, nil).
@ -45,15 +66,32 @@ func NewBlockTimer(dur BlockMeter, h BlockTickHandler) *BlockTimer {
mul: 1, mul: 1,
div: 1, div: 1,
h: h, h: h,
deltaCfg: deltaCfg{
pulse: true,
},
} }
} }
// OnDelta registers handler which is executed every (mul / div * BlockMeter()) block. // OnDelta registers handler which is executed on (mul / div * BlockMeter()) block
func (t *BlockTimer) OnDelta(mul, div uint32, h BlockTickHandler) { // after basic interval reset.
//
// If WithPulse option is provided, handler is executed (mul / div * BlockMeter()) block
// during base interval.
func (t *BlockTimer) OnDelta(mul, div uint32, h BlockTickHandler, opts ...DeltaOption) {
c := deltaCfg{
pulse: false,
}
for i := range opts {
opts[i](&c)
}
t.ps = append(t.ps, BlockTimer{ t.ps = append(t.ps, BlockTimer{
mul: mul, mul: mul,
div: div, div: div,
h: h, h: h,
deltaCfg: c,
}) })
} }
@ -67,23 +105,40 @@ func (t *BlockTimer) Reset() error {
} }
t.mtx.Lock() t.mtx.Lock()
t.reset(d)
t.resetWithBaseInterval(d)
for i := range t.ps {
t.ps[i].resetWithBaseInterval(d)
}
t.mtx.Unlock() t.mtx.Unlock()
return nil return nil
} }
func (t *BlockTimer) reset(dur uint32) { func (t *BlockTimer) resetWithBaseInterval(d uint32) {
delta := t.mul * dur / t.div t.rolledBack = false
t.baseDur = d
t.reset()
}
func (t *BlockTimer) reset() {
mul, div := t.mul, t.div
if !t.pulse && t.rolledBack && mul < div {
mul, div = 1, 1
}
delta := mul * t.baseDur / div
if delta == 0 { if delta == 0 {
delta = 1 delta = 1
} }
t.tgt = delta t.tgt = delta
t.cur = 0
for i := range t.ps { for i := range t.ps {
t.ps[i].reset(dur) t.ps[i].reset()
} }
} }
@ -100,12 +155,14 @@ func (t *BlockTimer) tick() {
t.cur++ t.cur++
if t.cur == t.tgt { if t.cur == t.tgt {
t.cur = 0
// it would be advisable to optimize such execution, for example: // it would be advisable to optimize such execution, for example:
// 1. push handler to worker pool t.wp.Submit(h); // 1. push handler to worker pool t.wp.Submit(h);
// 2. call t.tickH(h) // 2. call t.tickH(h)
t.h() t.h()
t.cur = 0
t.rolledBack = true
t.reset()
} }
for i := range t.ps { for i := range t.ps {

30
pkg/innerring/timers/block_test.go
View file

@ -1,6 +1,7 @@
package timers_test package timers_test
import ( import (
"fmt"
"testing" "testing"
"github.com/nspcc-dev/neofs-node/pkg/innerring/timers" "github.com/nspcc-dev/neofs-node/pkg/innerring/timers"
@ -50,7 +51,34 @@ func TestBlockTimer(t *testing.T) {
tickN(bt, intervalNum*blockDur) tickN(bt, intervalNum*blockDur)
require.Equal(t, intervalNum*2, uint32(halfCallCounter)) require.Equal(t, intervalNum, uint32(halfCallCounter))
require.Equal(t, intervalNum, uint32(baseCallCounter)) require.Equal(t, intervalNum, uint32(baseCallCounter))
require.Equal(t, intervalNum/2, uint32(doubleCallCounter)) require.Equal(t, intervalNum/2, uint32(doubleCallCounter))
} }
func TestDeltaPulse(t *testing.T) {
blockDur := uint32(9)
baseCallCounter := uint32(0)
bt := timers.NewBlockTimer(timers.StaticBlockMeter(blockDur), func() {
baseCallCounter++
})
deltaCallCounter := uint32(0)
div := uint32(3)
bt.OnDelta(1, div, func() {
deltaCallCounter++
}, timers.WithPulse())
require.NoError(t, bt.Reset())
intervalNum := uint32(7)
tickN(bt, intervalNum*blockDur)
fmt.Println(baseCallCounter, deltaCallCounter)
require.Equal(t, intervalNum, uint32(baseCallCounter))
require.Equal(t, intervalNum*div, uint32(deltaCallCounter))
}