forked from cerc-io/plugeth
be65b47645
The Go authors updated golang/x/ext to change the function signature of the slices sort method. It's an entire shitshow now because x/ext is not tagged, so everyone's codebase just picked a new version that some other dep depends on, causing our code to fail building. This PR updates the dep on our code too and does all the refactorings to follow upstream...
399 lines
12 KiB
Go
399 lines
12 KiB
Go
// Copyright 2021 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 utils
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import (
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"sync"
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"github.com/ethereum/go-ethereum/p2p/enode"
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"golang.org/x/exp/slices"
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)
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const maxSelectionWeight = 1000000000 // maximum selection weight of each individual node/address group
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// Limiter protects a network request serving mechanism from denial-of-service attacks.
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// It limits the total amount of resources used for serving requests while ensuring that
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// the most valuable connections always have a reasonable chance of being served.
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type Limiter struct {
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lock sync.Mutex
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cond *sync.Cond
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quit bool
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nodes map[enode.ID]*nodeQueue
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addresses map[string]*addressGroup
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addressSelect, valueSelect *WeightedRandomSelect
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maxValue float64
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maxCost, sumCost, sumCostLimit uint
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selectAddressNext bool
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}
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// nodeQueue represents queued requests coming from a single node ID
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type nodeQueue struct {
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queue []request // always nil if penaltyCost != 0
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id enode.ID
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address string
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value float64
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flatWeight, valueWeight uint64 // current selection weights in the address/value selectors
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sumCost uint // summed cost of requests queued by the node
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penaltyCost uint // cumulative cost of dropped requests since last processed request
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groupIndex int
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}
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// addressGroup is a group of node IDs that have sent their last requests from the same
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// network address
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type addressGroup struct {
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nodes []*nodeQueue
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nodeSelect *WeightedRandomSelect
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sumFlatWeight, groupWeight uint64
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}
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// request represents an incoming request scheduled for processing
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type request struct {
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process chan chan struct{}
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cost uint
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}
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// flatWeight distributes weights equally between each active network address
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func flatWeight(item interface{}) uint64 { return item.(*nodeQueue).flatWeight }
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// add adds the node queue to the address group. It is the caller's responsibility to
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// add the address group to the address map and the address selector if it wasn't
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// there before.
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func (ag *addressGroup) add(nq *nodeQueue) {
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if nq.groupIndex != -1 {
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panic("added node queue is already in an address group")
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}
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l := len(ag.nodes)
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nq.groupIndex = l
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ag.nodes = append(ag.nodes, nq)
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ag.sumFlatWeight += nq.flatWeight
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ag.groupWeight = ag.sumFlatWeight / uint64(l+1)
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ag.nodeSelect.Update(ag.nodes[l])
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}
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// update updates the selection weight of the node queue inside the address group.
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// It is the caller's responsibility to update the group's selection weight in the
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// address selector.
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func (ag *addressGroup) update(nq *nodeQueue, weight uint64) {
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if nq.groupIndex == -1 || nq.groupIndex >= len(ag.nodes) || ag.nodes[nq.groupIndex] != nq {
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panic("updated node queue is not in this address group")
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}
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ag.sumFlatWeight += weight - nq.flatWeight
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nq.flatWeight = weight
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ag.groupWeight = ag.sumFlatWeight / uint64(len(ag.nodes))
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ag.nodeSelect.Update(nq)
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}
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// remove removes the node queue from the address group. It is the caller's responsibility
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// to remove the address group from the address map if it is empty.
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func (ag *addressGroup) remove(nq *nodeQueue) {
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if nq.groupIndex == -1 || nq.groupIndex >= len(ag.nodes) || ag.nodes[nq.groupIndex] != nq {
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panic("removed node queue is not in this address group")
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}
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l := len(ag.nodes) - 1
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if nq.groupIndex != l {
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ag.nodes[nq.groupIndex] = ag.nodes[l]
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ag.nodes[nq.groupIndex].groupIndex = nq.groupIndex
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}
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nq.groupIndex = -1
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ag.nodes = ag.nodes[:l]
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ag.sumFlatWeight -= nq.flatWeight
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if l >= 1 {
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ag.groupWeight = ag.sumFlatWeight / uint64(l)
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} else {
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ag.groupWeight = 0
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}
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ag.nodeSelect.Remove(nq)
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}
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// choose selects one of the node queues belonging to the address group
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func (ag *addressGroup) choose() *nodeQueue {
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return ag.nodeSelect.Choose().(*nodeQueue)
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}
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// NewLimiter creates a new Limiter
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func NewLimiter(sumCostLimit uint) *Limiter {
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l := &Limiter{
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addressSelect: NewWeightedRandomSelect(func(item interface{}) uint64 { return item.(*addressGroup).groupWeight }),
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valueSelect: NewWeightedRandomSelect(func(item interface{}) uint64 { return item.(*nodeQueue).valueWeight }),
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nodes: make(map[enode.ID]*nodeQueue),
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addresses: make(map[string]*addressGroup),
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sumCostLimit: sumCostLimit,
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}
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l.cond = sync.NewCond(&l.lock)
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go l.processLoop()
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return l
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}
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// selectionWeights calculates the selection weights of a node for both the address and
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// the value selector. The selection weight depends on the next request cost or the
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// summed cost of recently dropped requests.
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func (l *Limiter) selectionWeights(reqCost uint, value float64) (flatWeight, valueWeight uint64) {
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if value > l.maxValue {
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l.maxValue = value
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}
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if value > 0 {
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// normalize value to <= 1
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value /= l.maxValue
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}
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if reqCost > l.maxCost {
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l.maxCost = reqCost
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}
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relCost := float64(reqCost) / float64(l.maxCost)
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var f float64
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if relCost <= 0.001 {
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f = 1
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} else {
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f = 0.001 / relCost
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}
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f *= maxSelectionWeight
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flatWeight, valueWeight = uint64(f), uint64(f*value)
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if flatWeight == 0 {
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flatWeight = 1
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}
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return
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}
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// Add adds a new request to the node queue belonging to the given id. Value belongs
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// to the requesting node. A higher value gives the request a higher chance of being
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// served quickly in case of heavy load or a DDoS attack. Cost is a rough estimate
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// of the serving cost of the request. A lower cost also gives the request a
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// better chance.
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func (l *Limiter) Add(id enode.ID, address string, value float64, reqCost uint) chan chan struct{} {
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l.lock.Lock()
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defer l.lock.Unlock()
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process := make(chan chan struct{}, 1)
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if l.quit {
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close(process)
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return process
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}
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if reqCost == 0 {
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reqCost = 1
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}
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if nq, ok := l.nodes[id]; ok {
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if nq.queue != nil {
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nq.queue = append(nq.queue, request{process, reqCost})
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nq.sumCost += reqCost
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nq.value = value
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if address != nq.address {
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// known id sending request from a new address, move to different address group
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l.removeFromGroup(nq)
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l.addToGroup(nq, address)
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}
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} else {
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// already waiting on a penalty, just add to the penalty cost and drop the request
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nq.penaltyCost += reqCost
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l.update(nq)
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close(process)
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return process
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}
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} else {
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nq := &nodeQueue{
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queue: []request{{process, reqCost}},
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id: id,
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value: value,
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sumCost: reqCost,
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groupIndex: -1,
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}
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nq.flatWeight, nq.valueWeight = l.selectionWeights(reqCost, value)
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if len(l.nodes) == 0 {
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l.cond.Signal()
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}
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l.nodes[id] = nq
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if nq.valueWeight != 0 {
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l.valueSelect.Update(nq)
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}
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l.addToGroup(nq, address)
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}
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l.sumCost += reqCost
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if l.sumCost > l.sumCostLimit {
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l.dropRequests()
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}
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return process
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}
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// update updates the selection weights of the node queue
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func (l *Limiter) update(nq *nodeQueue) {
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var cost uint
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if nq.queue != nil {
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cost = nq.queue[0].cost
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} else {
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cost = nq.penaltyCost
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}
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flatWeight, valueWeight := l.selectionWeights(cost, nq.value)
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ag := l.addresses[nq.address]
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ag.update(nq, flatWeight)
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l.addressSelect.Update(ag)
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nq.valueWeight = valueWeight
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l.valueSelect.Update(nq)
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}
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// addToGroup adds the node queue to the given address group. The group is created if
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// it does not exist yet.
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func (l *Limiter) addToGroup(nq *nodeQueue, address string) {
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nq.address = address
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ag := l.addresses[address]
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if ag == nil {
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ag = &addressGroup{nodeSelect: NewWeightedRandomSelect(flatWeight)}
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l.addresses[address] = ag
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}
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ag.add(nq)
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l.addressSelect.Update(ag)
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}
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// removeFromGroup removes the node queue from its address group
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func (l *Limiter) removeFromGroup(nq *nodeQueue) {
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ag := l.addresses[nq.address]
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ag.remove(nq)
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if len(ag.nodes) == 0 {
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delete(l.addresses, nq.address)
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}
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l.addressSelect.Update(ag)
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}
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// remove removes the node queue from its address group, the nodes map and the value
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// selector
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func (l *Limiter) remove(nq *nodeQueue) {
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l.removeFromGroup(nq)
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if nq.valueWeight != 0 {
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l.valueSelect.Remove(nq)
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}
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delete(l.nodes, nq.id)
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}
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// choose selects the next node queue to process.
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func (l *Limiter) choose() *nodeQueue {
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if l.valueSelect.IsEmpty() || l.selectAddressNext {
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if ag, ok := l.addressSelect.Choose().(*addressGroup); ok {
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l.selectAddressNext = false
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return ag.choose()
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}
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}
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nq, _ := l.valueSelect.Choose().(*nodeQueue)
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l.selectAddressNext = true
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return nq
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}
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// processLoop processes requests sequentially
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func (l *Limiter) processLoop() {
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l.lock.Lock()
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defer l.lock.Unlock()
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for {
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if l.quit {
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for _, nq := range l.nodes {
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for _, request := range nq.queue {
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close(request.process)
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}
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}
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return
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}
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nq := l.choose()
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if nq == nil {
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l.cond.Wait()
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continue
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}
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if nq.queue != nil {
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request := nq.queue[0]
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nq.queue = nq.queue[1:]
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nq.sumCost -= request.cost
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l.sumCost -= request.cost
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l.lock.Unlock()
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ch := make(chan struct{})
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request.process <- ch
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<-ch
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l.lock.Lock()
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if len(nq.queue) > 0 {
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l.update(nq)
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} else {
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l.remove(nq)
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}
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} else {
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// penalized queue removed, next request will be added to a clean queue
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l.remove(nq)
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}
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}
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}
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// Stop stops the processing loop. All queued and future requests are rejected.
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func (l *Limiter) Stop() {
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l.lock.Lock()
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defer l.lock.Unlock()
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l.quit = true
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l.cond.Signal()
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}
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type dropListItem struct {
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nq *nodeQueue
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priority float64
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}
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// dropRequests selects the nodes with the highest queued request cost to selection
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// weight ratio and drops their queued request. The empty node queues stay in the
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// selectors with a low selection weight in order to penalize these nodes.
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func (l *Limiter) dropRequests() {
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var (
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sumValue float64
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list []dropListItem
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)
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for _, nq := range l.nodes {
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sumValue += nq.value
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}
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for _, nq := range l.nodes {
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if nq.sumCost == 0 {
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continue
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}
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w := 1 / float64(len(l.addresses)*len(l.addresses[nq.address].nodes))
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if sumValue > 0 {
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w += nq.value / sumValue
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}
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list = append(list, dropListItem{
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nq: nq,
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priority: w / float64(nq.sumCost),
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})
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}
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slices.SortFunc(list, func(a, b dropListItem) int {
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if a.priority < b.priority {
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return -1
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}
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if a.priority < b.priority {
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return 1
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}
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return 0
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})
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for _, item := range list {
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for _, request := range item.nq.queue {
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close(request.process)
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}
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// make the queue penalized; no more requests are accepted until the node is
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// selected based on the penalty cost which is the cumulative cost of all dropped
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// requests. This ensures that sending excess requests is always penalized
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// and incentivizes the sender to stop for a while if no replies are received.
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item.nq.queue = nil
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item.nq.penaltyCost = item.nq.sumCost
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l.sumCost -= item.nq.sumCost // penalty costs are not counted in sumCost
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item.nq.sumCost = 0
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l.update(item.nq)
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if l.sumCost <= l.sumCostLimit/2 {
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return
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}
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}
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}
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