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https://gitlab.com/pulsechaincom/go-pulse.git
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all: use AbsTime.Add instead of conversion (#25417)
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9ad508018e
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029059947a
@ -58,7 +58,7 @@ func (s *Simulated) Run(d time.Duration) {
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s.mu.Lock()
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s.init()
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end := s.now + AbsTime(d)
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end := s.now.Add(d)
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var do []func()
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for len(s.scheduled) > 0 && s.scheduled[0].at <= end {
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ev := heap.Pop(&s.scheduled).(*simTimer)
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@ -134,7 +134,7 @@ func (s *Simulated) AfterFunc(d time.Duration, fn func()) Timer {
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func (s *Simulated) schedule(d time.Duration, fn func()) *simTimer {
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s.init()
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at := s.now + AbsTime(d)
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at := s.now.Add(d)
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ev := &simTimer{do: fn, at: at, s: s}
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heap.Push(&s.scheduled, ev)
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s.cond.Broadcast()
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@ -87,13 +87,13 @@ func (q *LazyQueue) Refresh() {
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// refresh re-evaluates items in the older queue and swaps the two queues
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func (q *LazyQueue) refresh(now mclock.AbsTime) {
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q.maxUntil = now + mclock.AbsTime(q.period)
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q.maxUntil = now.Add(q.period)
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for q.queue[0].Len() != 0 {
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q.Push(heap.Pop(q.queue[0]).(*item).value)
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}
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q.queue[0], q.queue[1] = q.queue[1], q.queue[0]
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q.indexOffset = 1 - q.indexOffset
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q.maxUntil += mclock.AbsTime(q.period)
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q.maxUntil = q.maxUntil.Add(q.period)
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}
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// Push adds an item to the queue
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@ -256,7 +256,7 @@ func (d *requestDistributor) queue(r *distReq) chan distPeer {
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if r.reqOrder == 0 {
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d.lastReqOrder++
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r.reqOrder = d.lastReqOrder
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r.waitForPeers = d.clock.Now() + mclock.AbsTime(waitForPeers)
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r.waitForPeers = d.clock.Now().Add(waitForPeers)
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}
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// Assign the timestamp when the request is queued no matter it's
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// a new one or re-queued one.
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@ -182,7 +182,7 @@ func (node *ClientNode) UpdateParams(params ServerParams) {
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return
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}
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}
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node.updateSchedule = append(node.updateSchedule, scheduledUpdate{time: now + mclock.AbsTime(DecParamDelay), params: params})
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node.updateSchedule = append(node.updateSchedule, scheduledUpdate{time: now.Add(DecParamDelay), params: params})
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}
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}
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@ -37,7 +37,7 @@ func TestUpdateTimer(t *testing.T) {
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if updated := timer.Update(func(diff time.Duration) bool { return true }); !updated {
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t.Fatalf("Doesn't update the clock when reaching the threshold")
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}
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if updated := timer.UpdateAt(sim.Now()+mclock.AbsTime(time.Second), func(diff time.Duration) bool { return true }); !updated {
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if updated := timer.UpdateAt(sim.Now().Add(time.Second), func(diff time.Duration) bool { return true }); !updated {
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t.Fatalf("Doesn't update the clock when reaching the threshold")
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}
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timer = NewUpdateTimer(sim, 0)
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@ -356,7 +356,7 @@ func (n *nodeBalance) estimatePriority(capacity uint64, addBalance int64, future
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b = n.reducedBalance(b, now, future, capacity, avgReqCost)
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}
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if bias > 0 {
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b = n.reducedBalance(b, now+mclock.AbsTime(future), bias, capacity, 0)
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b = n.reducedBalance(b, now.Add(future), bias, capacity, 0)
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}
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pri := n.balanceToPriority(now, b, capacity)
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// Ensure that biased estimates are always lower than actual priorities, even if
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@ -512,7 +512,7 @@ func (n *nodeBalance) scheduleCheck(now mclock.AbsTime) {
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n.updateAfter(0)
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return
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}
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if n.nextUpdate == 0 || n.nextUpdate > now+mclock.AbsTime(d) {
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if n.nextUpdate == 0 || n.nextUpdate > now.Add(d) {
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if d > time.Second {
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// Note: if the scheduled update is not in the very near future then we
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// schedule the update a bit earlier. This way we do need to update a few
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@ -520,7 +520,7 @@ func (n *nodeBalance) scheduleCheck(now mclock.AbsTime) {
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// brings the expected firing time a little bit closer.
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d = ((d - time.Second) * 7 / 8) + time.Second
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}
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n.nextUpdate = now + mclock.AbsTime(d)
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n.nextUpdate = now.Add(d)
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n.updateAfter(d)
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}
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} else {
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@ -629,7 +629,7 @@ func (n *nodeBalance) reducedBalance(b balance, start mclock.AbsTime, dt time.Du
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// since the costs are applied continuously during the dt time period we calculate
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// the expiration offset at the middle of the period
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var (
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at = start + mclock.AbsTime(dt/2)
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at = start.Add(dt / 2)
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dtf = float64(dt)
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)
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if !b.pos.IsZero() {
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