frostfs-node/pkg/innerring/timers/block.go

package timers

import (
	"sync"
)

// BlockMeter calculates block time interval dynamically.
type BlockMeter func() (uint32, error)

// BlockTickHandler is a callback of a certain block advance.
type BlockTickHandler func()

// BlockTimer represents block timer.
//
// It can tick the blocks and perform certain actions
// on block time intervals.
type BlockTimer struct {
	mtx *sync.Mutex

	dur BlockMeter

	mul, div uint32

	cur, tgt uint32

	h BlockTickHandler

	ps []BlockTimer
}

// StaticBlockMeter returns BlockMeters that always returns (d, nil).
func StaticBlockMeter(d uint32) BlockMeter {
	return func() (uint32, error) {
		return d, nil
	}
}

// NewBlockTimer creates a new BlockTimer.
//
// Reset should be called before timer ticking.
func NewBlockTimer(dur BlockMeter, h BlockTickHandler) *BlockTimer {
	return &BlockTimer{
		mtx: new(sync.Mutex),
		dur: dur,
		mul: 1,
		div: 1,
		h:   h,
	}
}

// OnDelta registers handler which is executed every (mul / div * BlockMeter()) block.
func (t *BlockTimer) OnDelta(mul, div uint32, h BlockTickHandler) {
	t.ps = append(t.ps, BlockTimer{
		mul: mul,
		div: div,
		h:   h,
	})
}

// Reset resets previous ticks of the BlockTimer.
//
// Returns BlockMeter's error upon occurrence.
func (t *BlockTimer) Reset() error {
	d, err := t.dur()
	if err != nil {
		return err
	}

	t.mtx.Lock()
	t.reset(d)
	t.mtx.Unlock()

	return nil
}

func (t *BlockTimer) reset(dur uint32) {
	delta := t.mul * dur / t.div
	if delta == 0 {
		delta = 1
	}

	t.tgt = delta
	t.cur = 0

	for i := range t.ps {
		t.ps[i].reset(dur)
	}
}

// Tick ticks one block in the BlockTimer.
//
// Executes all callbacks which are awaiting execution at the new block.
func (t *BlockTimer) Tick() {
	t.mtx.Lock()
	t.tick()
	t.mtx.Unlock()
}

func (t *BlockTimer) tick() {
	t.cur++

	if t.cur == t.tgt {
		t.cur = 0

		// it would be advisable to optimize such execution, for example:
		//   1. push handler to worker pool t.wp.Submit(h);
		//   2. call t.tickH(h)
		t.h()
	}

	for i := range t.ps {
		t.ps[i].tick()
	}
}
[#324] ir/timers: Implement chain block timer Implement a timer that can tick chain blocks and perform actions at time intervals in the blocks. Signed-off-by: Leonard Lyubich <leonard@nspcc.ru> 2021-01-21 16:32:41 +00:00			`package timers`

			`import (`
			`"sync"`
			`)`

			`// BlockMeter calculates block time interval dynamically.`
			`type BlockMeter func() (uint32, error)`

			`// BlockTickHandler is a callback of a certain block advance.`
			`type BlockTickHandler func()`

			`// BlockTimer represents block timer.`
			`//`
			`// It can tick the blocks and perform certain actions`
			`// on block time intervals.`
			`type BlockTimer struct {`
			`mtx *sync.Mutex`

			`dur BlockMeter`

			`mul, div uint32`

			`cur, tgt uint32`

			`h BlockTickHandler`

			`ps []BlockTimer`
			`}`

			`// StaticBlockMeter returns BlockMeters that always returns (d, nil).`
			`func StaticBlockMeter(d uint32) BlockMeter {`
			`return func() (uint32, error) {`
			`return d, nil`
			`}`
			`}`

			`// NewBlockTimer creates a new BlockTimer.`
			`//`
			`// Reset should be called before timer ticking.`
			`func NewBlockTimer(dur BlockMeter, h BlockTickHandler) *BlockTimer {`
			`return &BlockTimer{`
			`mtx: new(sync.Mutex),`
			`dur: dur,`
			`mul: 1,`
			`div: 1,`
			`h: h,`
			`}`
			`}`

			`// OnDelta registers handler which is executed every (mul / div * BlockMeter()) block.`
			`func (t *BlockTimer) OnDelta(mul, div uint32, h BlockTickHandler) {`
			`t.ps = append(t.ps, BlockTimer{`
			`mul: mul,`
			`div: div,`
			`h: h,`
			`})`
			`}`

			`// Reset resets previous ticks of the BlockTimer.`
			`//`
			`// Returns BlockMeter's error upon occurrence.`
			`func (t *BlockTimer) Reset() error {`
			`d, err := t.dur()`
			`if err != nil {`
			`return err`
			`}`

			`t.mtx.Lock()`
			`t.reset(d)`
			`t.mtx.Unlock()`

			`return nil`
			`}`

			`func (t *BlockTimer) reset(dur uint32) {`
			`delta := t.mul * dur / t.div`
			`if delta == 0 {`
			`delta = 1`
			`}`

			`t.tgt = delta`
			`t.cur = 0`

			`for i := range t.ps {`
			`t.ps[i].reset(dur)`
			`}`
			`}`

			`// Tick ticks one block in the BlockTimer.`
			`//`
			`// Executes all callbacks which are awaiting execution at the new block.`
			`func (t *BlockTimer) Tick() {`
			`t.mtx.Lock()`
			`t.tick()`
			`t.mtx.Unlock()`
			`}`

			`func (t *BlockTimer) tick() {`
			`t.cur++`

			`if t.cur == t.tgt {`
			`t.cur = 0`

			`// it would be advisable to optimize such execution, for example:`
			`// 1. push handler to worker pool t.wp.Submit(h);`
			`// 2. call t.tickH(h)`
			`t.h()`
			`}`

			`for i := range t.ps {`
			`t.ps[i].tick()`
			`}`
			`}`