bf5c6b29fa
This PR implements the LES server RPC API. Methods for server capacity, client balance and client priority management are provided.
390 lines
11 KiB
Go
390 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.Timer
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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, bt.lastUpdate = clock.Now(), clock.Now() // Init timestamps
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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.Stop()
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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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// setCapacity updates the capacity value used for priority calculation
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func (bt *balanceTracker) setCapacity(capacity uint64) {
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bt.lock.Lock()
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defer bt.lock.Unlock()
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bt.capacity = capacity
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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.Stop() {
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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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