mirror of https://github.com/status-im/op-geth.git
382 lines
11 KiB
Go
382 lines
11 KiB
Go
// Copyright 2019 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package les
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import (
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"sync"
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"time"
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"github.com/ethereum/go-ethereum/common/mclock"
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)
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const (
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balanceCallbackQueue = iota
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balanceCallbackZero
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balanceCallbackCount
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)
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// balanceTracker keeps track of the positive and negative balances of a connected
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// client and calculates actual and projected future priority values required by
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// prque.LazyQueue.
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type balanceTracker struct {
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lock sync.Mutex
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clock mclock.Clock
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stopped bool
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capacity uint64
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balance balance
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timeFactor, requestFactor float64
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negTimeFactor, negRequestFactor float64
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sumReqCost uint64
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lastUpdate, nextUpdate, initTime mclock.AbsTime
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updateEvent mclock.Event
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// since only a limited and fixed number of callbacks are needed, they are
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// stored in a fixed size array ordered by priority threshold.
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callbacks [balanceCallbackCount]balanceCallback
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// callbackIndex maps balanceCallback constants to callbacks array indexes (-1 if not active)
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callbackIndex [balanceCallbackCount]int
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callbackCount int // number of active callbacks
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}
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// balance represents a pair of positive and negative balances
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type balance struct {
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pos, neg uint64
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}
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// balanceCallback represents a single callback that is activated when client priority
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// reaches the given threshold
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type balanceCallback struct {
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id int
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threshold int64
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callback func()
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}
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// init initializes balanceTracker
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func (bt *balanceTracker) init(clock mclock.Clock, capacity uint64) {
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bt.clock = clock
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bt.initTime = clock.Now()
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for i := range bt.callbackIndex {
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bt.callbackIndex[i] = -1
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}
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bt.capacity = capacity
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}
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// stop shuts down the balance tracker
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func (bt *balanceTracker) stop(now mclock.AbsTime) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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bt.stopped = true
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bt.updateBalance(now)
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bt.negTimeFactor = 0
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bt.negRequestFactor = 0
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bt.timeFactor = 0
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bt.requestFactor = 0
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if bt.updateEvent != nil {
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bt.updateEvent.Cancel()
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bt.updateEvent = nil
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}
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}
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// balanceToPriority converts a balance to a priority value. Higher priority means
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// first to disconnect. Positive balance translates to negative priority. If positive
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// balance is zero then negative balance translates to a positive priority.
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func (bt *balanceTracker) balanceToPriority(b balance) int64 {
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if b.pos > 0 {
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return ^int64(b.pos / bt.capacity)
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}
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return int64(b.neg)
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}
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// reducedBalance estimates the reduced balance at a given time in the fututre based
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// on the current balance, the time factor and an estimated average request cost per time ratio
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func (bt *balanceTracker) reducedBalance(at mclock.AbsTime, avgReqCost float64) balance {
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dt := float64(at - bt.lastUpdate)
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b := bt.balance
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if b.pos != 0 {
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factor := bt.timeFactor + bt.requestFactor*avgReqCost
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diff := uint64(dt * factor)
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if diff <= b.pos {
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b.pos -= diff
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dt = 0
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} else {
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dt -= float64(b.pos) / factor
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b.pos = 0
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}
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}
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if dt != 0 {
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factor := bt.negTimeFactor + bt.negRequestFactor*avgReqCost
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b.neg += uint64(dt * factor)
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}
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return b
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}
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// timeUntil calculates the remaining time needed to reach a given priority level
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// assuming that no requests are processed until then. If the given level is never
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// reached then (0, false) is returned.
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// Note: the function assumes that the balance has been recently updated and
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// calculates the time starting from the last update.
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func (bt *balanceTracker) timeUntil(priority int64) (time.Duration, bool) {
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var dt float64
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if bt.balance.pos != 0 {
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if bt.timeFactor < 1e-100 {
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return 0, false
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}
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if priority < 0 {
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newBalance := uint64(^priority) * bt.capacity
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if newBalance > bt.balance.pos {
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return 0, false
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}
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dt = float64(bt.balance.pos-newBalance) / bt.timeFactor
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return time.Duration(dt), true
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} else {
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dt = float64(bt.balance.pos) / bt.timeFactor
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}
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} else {
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if priority < 0 {
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return 0, false
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}
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}
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// if we have a positive balance then dt equals the time needed to get it to zero
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if uint64(priority) > bt.balance.neg {
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if bt.negTimeFactor < 1e-100 {
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return 0, false
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}
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dt += float64(uint64(priority)-bt.balance.neg) / bt.negTimeFactor
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}
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return time.Duration(dt), true
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}
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// getPriority returns the actual priority based on the current balance
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func (bt *balanceTracker) getPriority(now mclock.AbsTime) int64 {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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bt.updateBalance(now)
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return bt.balanceToPriority(bt.balance)
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}
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// estimatedPriority gives an upper estimate for the priority at a given time in the future.
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// If addReqCost is true then an average request cost per time is assumed that is twice the
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// average cost per time in the current session. If false, zero request cost is assumed.
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func (bt *balanceTracker) estimatedPriority(at mclock.AbsTime, addReqCost bool) int64 {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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var avgReqCost float64
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if addReqCost {
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dt := time.Duration(bt.lastUpdate - bt.initTime)
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if dt > time.Second {
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avgReqCost = float64(bt.sumReqCost) * 2 / float64(dt)
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}
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}
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return bt.balanceToPriority(bt.reducedBalance(at, avgReqCost))
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}
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// updateBalance updates balance based on the time factor
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func (bt *balanceTracker) updateBalance(now mclock.AbsTime) {
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if now > bt.lastUpdate {
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bt.balance = bt.reducedBalance(now, 0)
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bt.lastUpdate = now
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}
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}
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// checkCallbacks checks whether the threshold of any of the active callbacks
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// have been reached and calls them if necessary. It also sets up or updates
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// a scheduled event to ensure that is will be called again just after the next
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// threshold has been reached.
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// Note: checkCallbacks assumes that the balance has been recently updated.
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func (bt *balanceTracker) checkCallbacks(now mclock.AbsTime) {
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if bt.callbackCount == 0 {
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return
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}
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pri := bt.balanceToPriority(bt.balance)
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for bt.callbackCount != 0 && bt.callbacks[bt.callbackCount-1].threshold <= pri {
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bt.callbackCount--
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bt.callbackIndex[bt.callbacks[bt.callbackCount].id] = -1
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go bt.callbacks[bt.callbackCount].callback()
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}
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if bt.callbackCount != 0 {
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d, ok := bt.timeUntil(bt.callbacks[bt.callbackCount-1].threshold)
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if !ok {
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bt.nextUpdate = 0
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bt.updateAfter(0)
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return
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}
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if bt.nextUpdate == 0 || bt.nextUpdate > now+mclock.AbsTime(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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// extra times but don't need to reschedule every time a processed request
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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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bt.nextUpdate = now + mclock.AbsTime(d)
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bt.updateAfter(d)
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}
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} else {
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bt.nextUpdate = 0
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bt.updateAfter(0)
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}
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}
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// updateAfter schedules a balance update and callback check in the future
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func (bt *balanceTracker) updateAfter(dt time.Duration) {
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if bt.updateEvent == nil || bt.updateEvent.Cancel() {
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if dt == 0 {
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bt.updateEvent = nil
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} else {
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bt.updateEvent = bt.clock.AfterFunc(dt, func() {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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if bt.callbackCount != 0 {
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now := bt.clock.Now()
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bt.updateBalance(now)
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bt.checkCallbacks(now)
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}
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})
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}
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}
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}
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// requestCost should be called after serving a request for the given peer
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func (bt *balanceTracker) requestCost(cost uint64) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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if bt.stopped {
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return
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}
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now := bt.clock.Now()
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bt.updateBalance(now)
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fcost := float64(cost)
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if bt.balance.pos != 0 {
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if bt.requestFactor != 0 {
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c := uint64(fcost * bt.requestFactor)
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if bt.balance.pos >= c {
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bt.balance.pos -= c
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fcost = 0
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} else {
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fcost *= 1 - float64(bt.balance.pos)/float64(c)
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bt.balance.pos = 0
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}
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bt.checkCallbacks(now)
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} else {
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fcost = 0
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}
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}
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if fcost > 0 {
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if bt.negRequestFactor != 0 {
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bt.balance.neg += uint64(fcost * bt.negRequestFactor)
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bt.checkCallbacks(now)
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}
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}
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bt.sumReqCost += cost
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}
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// getBalance returns the current positive and negative balance
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func (bt *balanceTracker) getBalance(now mclock.AbsTime) (uint64, uint64) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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bt.updateBalance(now)
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return bt.balance.pos, bt.balance.neg
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}
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// setBalance sets the positive and negative balance to the given values
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func (bt *balanceTracker) setBalance(pos, neg uint64) error {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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now := bt.clock.Now()
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bt.updateBalance(now)
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bt.balance.pos = pos
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bt.balance.neg = neg
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bt.checkCallbacks(now)
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return nil
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}
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// setFactors sets the price factors. timeFactor is the price of a nanosecond of
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// connection while requestFactor is the price of a "realCost" unit.
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func (bt *balanceTracker) setFactors(neg bool, timeFactor, requestFactor float64) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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if bt.stopped {
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return
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}
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now := bt.clock.Now()
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bt.updateBalance(now)
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if neg {
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bt.negTimeFactor = timeFactor
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bt.negRequestFactor = requestFactor
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} else {
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bt.timeFactor = timeFactor
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bt.requestFactor = requestFactor
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}
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bt.checkCallbacks(now)
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}
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// setCallback sets up a one-time callback to be called when priority reaches
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// the threshold. If it has already reached the threshold the callback is called
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// immediately.
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func (bt *balanceTracker) addCallback(id int, threshold int64, callback func()) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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bt.removeCb(id)
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idx := 0
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for idx < bt.callbackCount && threshold < bt.callbacks[idx].threshold {
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idx++
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}
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for i := bt.callbackCount - 1; i >= idx; i-- {
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bt.callbackIndex[bt.callbacks[i].id]++
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bt.callbacks[i+1] = bt.callbacks[i]
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}
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bt.callbackCount++
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bt.callbackIndex[id] = idx
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bt.callbacks[idx] = balanceCallback{id, threshold, callback}
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now := bt.clock.Now()
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bt.updateBalance(now)
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bt.checkCallbacks(now)
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}
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// removeCallback removes the given callback and returns true if it was active
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func (bt *balanceTracker) removeCallback(id int) bool {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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return bt.removeCb(id)
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}
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// removeCb removes the given callback and returns true if it was active
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// Note: should be called while bt.lock is held
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func (bt *balanceTracker) removeCb(id int) bool {
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idx := bt.callbackIndex[id]
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if idx == -1 {
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return false
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}
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bt.callbackIndex[id] = -1
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for i := idx; i < bt.callbackCount-1; i++ {
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bt.callbackIndex[bt.callbacks[i+1].id]--
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bt.callbacks[i] = bt.callbacks[i+1]
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}
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bt.callbackCount--
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return true
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}
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