// Copyright 2016 The go-ethereum Authors // This file is part of the go-ethereum library. // // The go-ethereum library is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // The go-ethereum library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with the go-ethereum library. If not, see . // Package flowcontrol implements a client side flow control mechanism package flowcontrol import ( "sync" "time" "github.com/ethereum/go-ethereum/common/mclock" ) const rcConst = 1000000 type cmNode struct { node *ClientNode lastUpdate mclock.AbsTime serving, recharging bool rcWeight uint64 rcValue, rcDelta, startValue int64 finishRecharge mclock.AbsTime } func (node *cmNode) update(time mclock.AbsTime) { dt := int64(time - node.lastUpdate) node.rcValue += node.rcDelta * dt / rcConst node.lastUpdate = time if node.recharging && time >= node.finishRecharge { node.recharging = false node.rcDelta = 0 node.rcValue = 0 } } func (node *cmNode) set(serving bool, simReqCnt, sumWeight uint64) { if node.serving && !serving { node.recharging = true sumWeight += node.rcWeight } node.serving = serving if node.recharging && serving { node.recharging = false sumWeight -= node.rcWeight } node.rcDelta = 0 if serving { node.rcDelta = int64(rcConst / simReqCnt) } if node.recharging { node.rcDelta = -int64(node.node.cm.rcRecharge * node.rcWeight / sumWeight) node.finishRecharge = node.lastUpdate + mclock.AbsTime(node.rcValue*rcConst/(-node.rcDelta)) } } type ClientManager struct { lock sync.Mutex nodes map[*cmNode]struct{} simReqCnt, sumWeight, rcSumValue uint64 maxSimReq, maxRcSum uint64 rcRecharge uint64 resumeQueue chan chan bool time mclock.AbsTime } func NewClientManager(rcTarget, maxSimReq, maxRcSum uint64) *ClientManager { cm := &ClientManager{ nodes: make(map[*cmNode]struct{}), resumeQueue: make(chan chan bool), rcRecharge: rcConst * rcConst / (100*rcConst/rcTarget - rcConst), maxSimReq: maxSimReq, maxRcSum: maxRcSum, } go cm.queueProc() return cm } func (self *ClientManager) Stop() { self.lock.Lock() defer self.lock.Unlock() // signal any waiting accept routines to return false self.nodes = make(map[*cmNode]struct{}) close(self.resumeQueue) } func (self *ClientManager) addNode(cnode *ClientNode) *cmNode { time := mclock.Now() node := &cmNode{ node: cnode, lastUpdate: time, finishRecharge: time, rcWeight: 1, } self.lock.Lock() defer self.lock.Unlock() self.nodes[node] = struct{}{} self.update(mclock.Now()) return node } func (self *ClientManager) removeNode(node *cmNode) { self.lock.Lock() defer self.lock.Unlock() time := mclock.Now() self.stop(node, time) delete(self.nodes, node) self.update(time) } // recalc sumWeight func (self *ClientManager) updateNodes(time mclock.AbsTime) (rce bool) { var sumWeight, rcSum uint64 for node, _ := range self.nodes { rc := node.recharging node.update(time) if rc && !node.recharging { rce = true } if node.recharging { sumWeight += node.rcWeight } rcSum += uint64(node.rcValue) } self.sumWeight = sumWeight self.rcSumValue = rcSum return } func (self *ClientManager) update(time mclock.AbsTime) { for { firstTime := time for node, _ := range self.nodes { if node.recharging && node.finishRecharge < firstTime { firstTime = node.finishRecharge } } if self.updateNodes(firstTime) { for node, _ := range self.nodes { if node.recharging { node.set(node.serving, self.simReqCnt, self.sumWeight) } } } else { self.time = time return } } } func (self *ClientManager) canStartReq() bool { return self.simReqCnt < self.maxSimReq && self.rcSumValue < self.maxRcSum } func (self *ClientManager) queueProc() { for rc := range self.resumeQueue { for { time.Sleep(time.Millisecond * 10) self.lock.Lock() self.update(mclock.Now()) cs := self.canStartReq() self.lock.Unlock() if cs { break } } close(rc) } } func (self *ClientManager) accept(node *cmNode, time mclock.AbsTime) bool { self.lock.Lock() defer self.lock.Unlock() self.update(time) if !self.canStartReq() { resume := make(chan bool) self.lock.Unlock() self.resumeQueue <- resume <-resume self.lock.Lock() if _, ok := self.nodes[node]; !ok { return false // reject if node has been removed or manager has been stopped } } self.simReqCnt++ node.set(true, self.simReqCnt, self.sumWeight) node.startValue = node.rcValue self.update(self.time) return true } func (self *ClientManager) stop(node *cmNode, time mclock.AbsTime) { if node.serving { self.update(time) self.simReqCnt-- node.set(false, self.simReqCnt, self.sumWeight) self.update(time) } } func (self *ClientManager) processed(node *cmNode, time mclock.AbsTime) (rcValue, rcCost uint64) { self.lock.Lock() defer self.lock.Unlock() self.stop(node, time) return uint64(node.rcValue), uint64(node.rcValue - node.startValue) }