// Modified for Tendermint
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// Originally Copyright (c) 2013-2014 Conformal Systems LLC.
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// https://github.com/conformal/btcd/blob/master/LICENSE
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package p2p
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import (
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"encoding/binary"
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"encoding/json"
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"math"
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"math/rand"
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"net"
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"os"
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"sync"
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"time"
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. "github.com/tendermint/tendermint/common"
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)
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const (
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// addresses under which the address manager will claim to need more addresses.
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needAddressThreshold = 1000
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// interval used to dump the address cache to disk for future use.
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dumpAddressInterval = time.Minute * 2
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// max addresses in each old address bucket.
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oldBucketSize = 64
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// buckets we split old addresses over.
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oldBucketCount = 64
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// max addresses in each new address bucket.
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newBucketSize = 64
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// buckets that we spread new addresses over.
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newBucketCount = 256
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// old buckets over which an address group will be spread.
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oldBucketsPerGroup = 4
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// new buckets over which an source address group will be spread.
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newBucketsPerGroup = 32
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// buckets a frequently seen new address may end up in.
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maxNewBucketsPerAddress = 4
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// days before which we assume an address has vanished
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// if we have not seen it announced in that long.
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numMissingDays = 30
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// tries without a single success before we assume an address is bad.
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numRetries = 3
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// max failures we will accept without a success before considering an address bad.
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maxFailures = 10
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// days since the last success before we will consider evicting an address.
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minBadDays = 7
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// % of total addresses known returned by GetSelection.
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getSelectionPercent = 23
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// min addresses that must be returned by GetSelection. Useful for bootstrapping.
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minGetSelection = 32
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// max addresses returned by GetSelection
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maxGetSelection = 2500
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// current version of the on-disk format.
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serializationVersion = 1
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)
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/* AddrBook - concurrency safe peer address manager */
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type AddrBook struct {
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QuitService
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mtx sync.Mutex
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filePath string
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rand *rand.Rand
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key string
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ourAddrs map[string]*NetAddress
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addrLookup map[string]*knownAddress // new & old
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addrNew []map[string]*knownAddress
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addrOld []map[string]*knownAddress
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wg sync.WaitGroup
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nOld int
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nNew int
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}
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const (
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bucketTypeNew = 0x01
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bucketTypeOld = 0x02
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)
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// Use Start to begin processing asynchronous address updates.
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func NewAddrBook(filePath string) *AddrBook {
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am := &AddrBook{
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rand: rand.New(rand.NewSource(time.Now().UnixNano())),
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ourAddrs: make(map[string]*NetAddress),
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addrLookup: make(map[string]*knownAddress),
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filePath: filePath,
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}
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am.init()
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am.QuitService = *NewQuitService(log, "AddrBook", am)
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return am
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}
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// When modifying this, don't forget to update loadFromFile()
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func (a *AddrBook) init() {
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a.key = CRandHex(24) // 24/2 * 8 = 96 bits
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// New addr buckets
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a.addrNew = make([]map[string]*knownAddress, newBucketCount)
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for i := range a.addrNew {
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a.addrNew[i] = make(map[string]*knownAddress)
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}
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// Old addr buckets
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a.addrOld = make([]map[string]*knownAddress, oldBucketCount)
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for i := range a.addrOld {
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a.addrOld[i] = make(map[string]*knownAddress)
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}
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}
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func (a *AddrBook) OnStart() {
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a.QuitService.OnStart()
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a.loadFromFile(a.filePath)
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a.wg.Add(1)
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go a.saveRoutine()
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}
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func (a *AddrBook) OnStop() {
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a.QuitService.OnStop()
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a.wg.Wait()
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}
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func (a *AddrBook) AddOurAddress(addr *NetAddress) {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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log.Info("Add our address to book", "addr", addr)
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a.ourAddrs[addr.String()] = addr
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}
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func (a *AddrBook) OurAddresses() []*NetAddress {
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addrs := []*NetAddress{}
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for _, addr := range a.ourAddrs {
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addrs = append(addrs, addr)
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}
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return addrs
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}
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func (a *AddrBook) AddAddress(addr *NetAddress, src *NetAddress) {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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log.Info("Add address to book", "addr", addr, "src", src)
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a.addAddress(addr, src)
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}
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func (a *AddrBook) NeedMoreAddrs() bool {
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return a.Size() < needAddressThreshold
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}
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func (a *AddrBook) Size() int {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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return a.size()
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}
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func (a *AddrBook) size() int {
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return a.nNew + a.nOld
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}
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// Pick an address to connect to with new/old bias.
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func (a *AddrBook) PickAddress(newBias int) *NetAddress {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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if a.size() == 0 {
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return nil
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}
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if newBias > 100 {
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newBias = 100
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}
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if newBias < 0 {
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newBias = 0
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}
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// Bias between new and old addresses.
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oldCorrelation := math.Sqrt(float64(a.nOld)) * (100.0 - float64(newBias))
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newCorrelation := math.Sqrt(float64(a.nNew)) * float64(newBias)
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if (newCorrelation+oldCorrelation)*a.rand.Float64() < oldCorrelation {
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// pick random Old bucket.
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var bucket map[string]*knownAddress = nil
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for len(bucket) == 0 {
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bucket = a.addrOld[a.rand.Intn(len(a.addrOld))]
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}
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// pick a random ka from bucket.
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randIndex := a.rand.Intn(len(bucket))
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for _, ka := range bucket {
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if randIndex == 0 {
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return ka.Addr
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}
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randIndex--
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}
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PanicSanity("Should not happen")
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} else {
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// pick random New bucket.
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var bucket map[string]*knownAddress = nil
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for len(bucket) == 0 {
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bucket = a.addrNew[a.rand.Intn(len(a.addrNew))]
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}
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// pick a random ka from bucket.
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randIndex := a.rand.Intn(len(bucket))
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for _, ka := range bucket {
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if randIndex == 0 {
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return ka.Addr
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}
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randIndex--
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}
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PanicSanity("Should not happen")
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}
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return nil
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}
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func (a *AddrBook) MarkGood(addr *NetAddress) {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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ka := a.addrLookup[addr.String()]
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if ka == nil {
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return
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}
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ka.markGood()
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if ka.isNew() {
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a.moveToOld(ka)
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}
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}
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func (a *AddrBook) MarkAttempt(addr *NetAddress) {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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ka := a.addrLookup[addr.String()]
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if ka == nil {
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return
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}
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ka.markAttempt()
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}
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func (a *AddrBook) MarkBad(addr *NetAddress) {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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ka := a.addrLookup[addr.String()]
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if ka == nil {
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return
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}
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// We currently just eject the address.
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// In the future, consider blacklisting.
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a.removeFromAllBuckets(ka)
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}
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/* Peer exchange */
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// GetSelection randomly selects some addresses (old & new). Suitable for peer-exchange protocols.
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func (a *AddrBook) GetSelection() []*NetAddress {
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a.mtx.Lock()
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defer a.mtx.Unlock()
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if a.size() == 0 {
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return nil
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}
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allAddr := make([]*NetAddress, a.size())
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i := 0
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for _, v := range a.addrLookup {
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allAddr[i] = v.Addr
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i++
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}
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numAddresses := MaxInt(
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MinInt(minGetSelection, len(allAddr)),
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len(allAddr)*getSelectionPercent/100)
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numAddresses = MinInt(maxGetSelection, numAddresses)
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// Fisher-Yates shuffle the array. We only need to do the first
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// `numAddresses' since we are throwing the rest.
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for i := 0; i < numAddresses; i++ {
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// pick a number between current index and the end
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j := rand.Intn(len(allAddr)-i) + i
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allAddr[i], allAddr[j] = allAddr[j], allAddr[i]
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}
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// slice off the limit we are willing to share.
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return allAddr[:numAddresses]
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}
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/* Loading & Saving */
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type addrBookJSON struct {
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Key string
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Addrs []*knownAddress
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}
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func (a *AddrBook) saveToFile(filePath string) {
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// Compile Addrs
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addrs := []*knownAddress{}
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for _, ka := range a.addrLookup {
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addrs = append(addrs, ka)
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}
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aJSON := &addrBookJSON{
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Key: a.key,
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Addrs: addrs,
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}
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jsonBytes, err := json.MarshalIndent(aJSON, "", "\t")
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if err != nil {
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log.Error("Failed to save AddrBook to file", "err", err)
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return
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}
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err = WriteFileAtomic(filePath, jsonBytes)
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if err != nil {
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log.Error("Failed to save AddrBook to file", "file", filePath, "error", err)
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}
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}
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// Returns false if file does not exist.
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// Panics if file is corrupt.
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func (a *AddrBook) loadFromFile(filePath string) bool {
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// If doesn't exist, do nothing.
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_, err := os.Stat(filePath)
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if os.IsNotExist(err) {
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return false
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}
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// Load addrBookJSON{}
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r, err := os.Open(filePath)
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if err != nil {
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PanicCrisis(Fmt("Error opening file %s: %v", filePath, err))
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}
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defer r.Close()
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aJSON := &addrBookJSON{}
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dec := json.NewDecoder(r)
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err = dec.Decode(aJSON)
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if err != nil {
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PanicCrisis(Fmt("Error reading file %s: %v", filePath, err))
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}
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// Restore all the fields...
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// Restore the key
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a.key = aJSON.Key
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// Restore .addrNew & .addrOld
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for _, ka := range aJSON.Addrs {
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for _, bucketIndex := range ka.Buckets {
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bucket := a.getBucket(ka.BucketType, bucketIndex)
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bucket[ka.Addr.String()] = ka
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}
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a.addrLookup[ka.Addr.String()] = ka
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if ka.BucketType == bucketTypeNew {
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a.nNew++
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} else {
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a.nOld++
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}
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}
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return true
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}
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/* Private methods */
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func (a *AddrBook) saveRoutine() {
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dumpAddressTicker := time.NewTicker(dumpAddressInterval)
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out:
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for {
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select {
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case <-dumpAddressTicker.C:
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log.Info("Saving AddrBook to file", "size", a.Size())
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a.saveToFile(a.filePath)
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case <-a.Quit:
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break out
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}
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}
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dumpAddressTicker.Stop()
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a.saveToFile(a.filePath)
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a.wg.Done()
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log.Notice("Address handler done")
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}
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func (a *AddrBook) getBucket(bucketType byte, bucketIdx int) map[string]*knownAddress {
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switch bucketType {
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case bucketTypeNew:
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return a.addrNew[bucketIdx]
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case bucketTypeOld:
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return a.addrOld[bucketIdx]
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default:
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PanicSanity("Should not happen")
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return nil
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}
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}
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// Adds ka to new bucket. Returns false if it couldn't do it cuz buckets full.
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// NOTE: currently it always returns true.
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func (a *AddrBook) addToNewBucket(ka *knownAddress, bucketIdx int) bool {
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// Sanity check
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if ka.isOld() {
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log.Warn(Fmt("Cannot add address already in old bucket to a new bucket: %v", ka))
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return false
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}
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addrStr := ka.Addr.String()
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bucket := a.getBucket(bucketTypeNew, bucketIdx)
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// Already exists?
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if _, ok := bucket[addrStr]; ok {
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return true
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}
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// Enforce max addresses.
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if len(bucket) > newBucketSize {
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log.Notice("new bucket is full, expiring old ")
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a.expireNew(bucketIdx)
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}
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// Add to bucket.
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bucket[addrStr] = ka
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if ka.addBucketRef(bucketIdx) == 1 {
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a.nNew++
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}
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// Ensure in addrLookup
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a.addrLookup[addrStr] = ka
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return true
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}
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// Adds ka to old bucket. Returns false if it couldn't do it cuz buckets full.
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func (a *AddrBook) addToOldBucket(ka *knownAddress, bucketIdx int) bool {
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// Sanity check
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if ka.isNew() {
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log.Warn(Fmt("Cannot add new address to old bucket: %v", ka))
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return false
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}
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if len(ka.Buckets) != 0 {
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log.Warn(Fmt("Cannot add already old address to another old bucket: %v", ka))
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return false
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}
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addrStr := ka.Addr.String()
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bucket := a.getBucket(bucketTypeNew, bucketIdx)
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// Already exists?
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if _, ok := bucket[addrStr]; ok {
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return true
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}
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// Enforce max addresses.
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if len(bucket) > oldBucketSize {
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return false
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}
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// Add to bucket.
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bucket[addrStr] = ka
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if ka.addBucketRef(bucketIdx) == 1 {
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a.nOld++
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}
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// Ensure in addrLookup
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a.addrLookup[addrStr] = ka
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return true
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}
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func (a *AddrBook) removeFromBucket(ka *knownAddress, bucketType byte, bucketIdx int) {
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if ka.BucketType != bucketType {
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log.Warn(Fmt("Bucket type mismatch: %v", ka))
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return
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}
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bucket := a.getBucket(bucketType, bucketIdx)
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delete(bucket, ka.Addr.String())
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if ka.removeBucketRef(bucketIdx) == 0 {
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if bucketType == bucketTypeNew {
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a.nNew--
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} else {
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a.nOld--
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}
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delete(a.addrLookup, ka.Addr.String())
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}
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}
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func (a *AddrBook) removeFromAllBuckets(ka *knownAddress) {
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for _, bucketIdx := range ka.Buckets {
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bucket := a.getBucket(ka.BucketType, bucketIdx)
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delete(bucket, ka.Addr.String())
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}
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ka.Buckets = nil
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if ka.BucketType == bucketTypeNew {
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a.nNew--
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} else {
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a.nOld--
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}
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delete(a.addrLookup, ka.Addr.String())
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}
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func (a *AddrBook) pickOldest(bucketType byte, bucketIdx int) *knownAddress {
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bucket := a.getBucket(bucketType, bucketIdx)
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var oldest *knownAddress
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for _, ka := range bucket {
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if oldest == nil || ka.LastAttempt.Before(oldest.LastAttempt) {
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oldest = ka
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}
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}
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return oldest
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}
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|
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func (a *AddrBook) addAddress(addr, src *NetAddress) {
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if !addr.Routable() {
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log.Warn(Fmt("Cannot add non-routable address %v", addr))
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return
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}
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if _, ok := a.ourAddrs[addr.String()]; ok {
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// Ignore our own listener address.
|
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return
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}
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|
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ka := a.addrLookup[addr.String()]
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|
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if ka != nil {
|
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// Already old.
|
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if ka.isOld() {
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return
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}
|
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// Already in max new buckets.
|
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if len(ka.Buckets) == maxNewBucketsPerAddress {
|
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return
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}
|
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// The more entries we have, the less likely we are to add more.
|
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factor := int32(2 * len(ka.Buckets))
|
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if a.rand.Int31n(factor) != 0 {
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return
|
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}
|
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} else {
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ka = newKnownAddress(addr, src)
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}
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|
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bucket := a.calcNewBucket(addr, src)
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a.addToNewBucket(ka, bucket)
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|
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log.Notice("Added new address", "address", addr, "total", a.size())
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}
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|
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// Make space in the new buckets by expiring the really bad entries.
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// If no bad entries are available we remove the oldest.
|
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func (a *AddrBook) expireNew(bucketIdx int) {
|
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for addrStr, ka := range a.addrNew[bucketIdx] {
|
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// If an entry is bad, throw it away
|
|
if ka.isBad() {
|
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log.Notice(Fmt("expiring bad address %v", addrStr))
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a.removeFromBucket(ka, bucketTypeNew, bucketIdx)
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return
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}
|
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}
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|
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// If we haven't thrown out a bad entry, throw out the oldest entry
|
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oldest := a.pickOldest(bucketTypeNew, bucketIdx)
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a.removeFromBucket(oldest, bucketTypeNew, bucketIdx)
|
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}
|
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|
|
// Promotes an address from new to old.
|
|
// TODO: Move to old probabilistically.
|
|
// The better a node is, the less likely it should be evicted from an old bucket.
|
|
func (a *AddrBook) moveToOld(ka *knownAddress) {
|
|
// Sanity check
|
|
if ka.isOld() {
|
|
log.Warn(Fmt("Cannot promote address that is already old %v", ka))
|
|
return
|
|
}
|
|
if len(ka.Buckets) == 0 {
|
|
log.Warn(Fmt("Cannot promote address that isn't in any new buckets %v", ka))
|
|
return
|
|
}
|
|
|
|
// Remember one of the buckets in which ka is in.
|
|
freedBucket := ka.Buckets[0]
|
|
// Remove from all (new) buckets.
|
|
a.removeFromAllBuckets(ka)
|
|
// It's officially old now.
|
|
ka.BucketType = bucketTypeOld
|
|
|
|
// Try to add it to its oldBucket destination.
|
|
oldBucketIdx := a.calcOldBucket(ka.Addr)
|
|
added := a.addToOldBucket(ka, oldBucketIdx)
|
|
if !added {
|
|
// No room, must evict something
|
|
oldest := a.pickOldest(bucketTypeOld, oldBucketIdx)
|
|
a.removeFromBucket(oldest, bucketTypeOld, oldBucketIdx)
|
|
// Find new bucket to put oldest in
|
|
newBucketIdx := a.calcNewBucket(oldest.Addr, oldest.Src)
|
|
added := a.addToNewBucket(oldest, newBucketIdx)
|
|
// No space in newBucket either, just put it in freedBucket from above.
|
|
if !added {
|
|
added := a.addToNewBucket(oldest, freedBucket)
|
|
if !added {
|
|
log.Warn(Fmt("Could not migrate oldest %v to freedBucket %v", oldest, freedBucket))
|
|
}
|
|
}
|
|
// Finally, add to bucket again.
|
|
added = a.addToOldBucket(ka, oldBucketIdx)
|
|
if !added {
|
|
log.Warn(Fmt("Could not re-add ka %v to oldBucketIdx %v", ka, oldBucketIdx))
|
|
}
|
|
}
|
|
}
|
|
|
|
// doublesha256( key + sourcegroup +
|
|
// int64(doublesha256(key + group + sourcegroup))%bucket_per_group ) % num_new_buckets
|
|
func (a *AddrBook) calcNewBucket(addr, src *NetAddress) int {
|
|
data1 := []byte{}
|
|
data1 = append(data1, []byte(a.key)...)
|
|
data1 = append(data1, []byte(groupKey(addr))...)
|
|
data1 = append(data1, []byte(groupKey(src))...)
|
|
hash1 := doubleSha256(data1)
|
|
hash64 := binary.BigEndian.Uint64(hash1)
|
|
hash64 %= newBucketsPerGroup
|
|
var hashbuf [8]byte
|
|
binary.BigEndian.PutUint64(hashbuf[:], hash64)
|
|
data2 := []byte{}
|
|
data2 = append(data2, []byte(a.key)...)
|
|
data2 = append(data2, groupKey(src)...)
|
|
data2 = append(data2, hashbuf[:]...)
|
|
|
|
hash2 := doubleSha256(data2)
|
|
return int(binary.BigEndian.Uint64(hash2) % newBucketCount)
|
|
}
|
|
|
|
// doublesha256( key + group +
|
|
// int64(doublesha256(key + addr))%buckets_per_group ) % num_old_buckets
|
|
func (a *AddrBook) calcOldBucket(addr *NetAddress) int {
|
|
data1 := []byte{}
|
|
data1 = append(data1, []byte(a.key)...)
|
|
data1 = append(data1, []byte(addr.String())...)
|
|
hash1 := doubleSha256(data1)
|
|
hash64 := binary.BigEndian.Uint64(hash1)
|
|
hash64 %= oldBucketsPerGroup
|
|
var hashbuf [8]byte
|
|
binary.BigEndian.PutUint64(hashbuf[:], hash64)
|
|
data2 := []byte{}
|
|
data2 = append(data2, []byte(a.key)...)
|
|
data2 = append(data2, groupKey(addr)...)
|
|
data2 = append(data2, hashbuf[:]...)
|
|
|
|
hash2 := doubleSha256(data2)
|
|
return int(binary.BigEndian.Uint64(hash2) % oldBucketCount)
|
|
}
|
|
|
|
// Return a string representing the network group of this address.
|
|
// This is the /16 for IPv6, the /32 (/36 for he.net) for IPv6, the string
|
|
// "local" for a local address and the string "unroutable for an unroutable
|
|
// address.
|
|
func groupKey(na *NetAddress) string {
|
|
if na.Local() {
|
|
return "local"
|
|
}
|
|
if !na.Routable() {
|
|
return "unroutable"
|
|
}
|
|
|
|
if ipv4 := na.IP.To4(); ipv4 != nil {
|
|
return (&net.IPNet{IP: na.IP, Mask: net.CIDRMask(16, 32)}).String()
|
|
}
|
|
if na.RFC6145() || na.RFC6052() {
|
|
// last four bytes are the ip address
|
|
ip := net.IP(na.IP[12:16])
|
|
return (&net.IPNet{IP: ip, Mask: net.CIDRMask(16, 32)}).String()
|
|
}
|
|
|
|
if na.RFC3964() {
|
|
ip := net.IP(na.IP[2:7])
|
|
return (&net.IPNet{IP: ip, Mask: net.CIDRMask(16, 32)}).String()
|
|
|
|
}
|
|
if na.RFC4380() {
|
|
// teredo tunnels have the last 4 bytes as the v4 address XOR
|
|
// 0xff.
|
|
ip := net.IP(make([]byte, 4))
|
|
for i, byte := range na.IP[12:16] {
|
|
ip[i] = byte ^ 0xff
|
|
}
|
|
return (&net.IPNet{IP: ip, Mask: net.CIDRMask(16, 32)}).String()
|
|
}
|
|
|
|
// OK, so now we know ourselves to be a IPv6 address.
|
|
// bitcoind uses /32 for everything, except for Hurricane Electric's
|
|
// (he.net) IP range, which it uses /36 for.
|
|
bits := 32
|
|
heNet := &net.IPNet{IP: net.ParseIP("2001:470::"),
|
|
Mask: net.CIDRMask(32, 128)}
|
|
if heNet.Contains(na.IP) {
|
|
bits = 36
|
|
}
|
|
|
|
return (&net.IPNet{IP: na.IP, Mask: net.CIDRMask(bits, 128)}).String()
|
|
}
|
|
|
|
//-----------------------------------------------------------------------------
|
|
|
|
/*
|
|
knownAddress
|
|
|
|
tracks information about a known network address that is used
|
|
to determine how viable an address is.
|
|
*/
|
|
type knownAddress struct {
|
|
Addr *NetAddress
|
|
Src *NetAddress
|
|
Attempts int32
|
|
LastAttempt time.Time
|
|
LastSuccess time.Time
|
|
BucketType byte
|
|
Buckets []int
|
|
}
|
|
|
|
func newKnownAddress(addr *NetAddress, src *NetAddress) *knownAddress {
|
|
return &knownAddress{
|
|
Addr: addr,
|
|
Src: src,
|
|
Attempts: 0,
|
|
LastAttempt: time.Now(),
|
|
BucketType: bucketTypeNew,
|
|
Buckets: nil,
|
|
}
|
|
}
|
|
|
|
func (ka *knownAddress) isOld() bool {
|
|
return ka.BucketType == bucketTypeOld
|
|
}
|
|
|
|
func (ka *knownAddress) isNew() bool {
|
|
return ka.BucketType == bucketTypeNew
|
|
}
|
|
|
|
func (ka *knownAddress) markAttempt() {
|
|
now := time.Now()
|
|
ka.LastAttempt = now
|
|
ka.Attempts += 1
|
|
}
|
|
|
|
func (ka *knownAddress) markGood() {
|
|
now := time.Now()
|
|
ka.LastAttempt = now
|
|
ka.Attempts = 0
|
|
ka.LastSuccess = now
|
|
}
|
|
|
|
func (ka *knownAddress) addBucketRef(bucketIdx int) int {
|
|
for _, bucket := range ka.Buckets {
|
|
if bucket == bucketIdx {
|
|
log.Warn(Fmt("Bucket already exists in ka.Buckets: %v", ka))
|
|
return -1
|
|
}
|
|
}
|
|
ka.Buckets = append(ka.Buckets, bucketIdx)
|
|
return len(ka.Buckets)
|
|
}
|
|
|
|
func (ka *knownAddress) removeBucketRef(bucketIdx int) int {
|
|
buckets := []int{}
|
|
for _, bucket := range ka.Buckets {
|
|
if bucket != bucketIdx {
|
|
buckets = append(buckets, bucket)
|
|
}
|
|
}
|
|
if len(buckets) != len(ka.Buckets)-1 {
|
|
log.Warn(Fmt("bucketIdx not found in ka.Buckets: %v", ka))
|
|
return -1
|
|
}
|
|
ka.Buckets = buckets
|
|
return len(ka.Buckets)
|
|
}
|
|
|
|
/*
|
|
An address is bad if the address in question has not been tried in the last
|
|
minute and meets one of the following criteria:
|
|
|
|
1) It claims to be from the future
|
|
2) It hasn't been seen in over a month
|
|
3) It has failed at least three times and never succeeded
|
|
4) It has failed ten times in the last week
|
|
|
|
All addresses that meet these criteria are assumed to be worthless and not
|
|
worth keeping hold of.
|
|
*/
|
|
func (ka *knownAddress) isBad() bool {
|
|
// Has been attempted in the last minute --> good
|
|
if ka.LastAttempt.Before(time.Now().Add(-1 * time.Minute)) {
|
|
return false
|
|
}
|
|
|
|
// Over a month old?
|
|
if ka.LastAttempt.After(time.Now().Add(-1 * numMissingDays * time.Hour * 24)) {
|
|
return true
|
|
}
|
|
|
|
// Never succeeded?
|
|
if ka.LastSuccess.IsZero() && ka.Attempts >= numRetries {
|
|
return true
|
|
}
|
|
|
|
// Hasn't succeeded in too long?
|
|
if ka.LastSuccess.Before(time.Now().Add(-1*minBadDays*time.Hour*24)) &&
|
|
ka.Attempts >= maxFailures {
|
|
return true
|
|
}
|
|
|
|
return false
|
|
}
|