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table.go
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table.go
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// package kbucket implements a kademlia 'k-bucket' routing table.
package kbucket
import (
"fmt"
"sort"
"sync"
"time"
peer "github.com/ipfs/go-ipfs/p2p/peer"
logging "github.com/ipfs/go-ipfs/vendor/QmTBXYb6y2ZcJmoXVKk3pf9rzSEjbCg7tQaJW7RSuH14nv/go-log"
)
var log = logging.Logger("table")
// RoutingTable defines the routing table.
type RoutingTable struct {
// ID of the local peer
local ID
// Blanket lock, refine later for better performance
tabLock sync.RWMutex
// latency metrics
metrics peer.Metrics
// Maximum acceptable latency for peers in this cluster
maxLatency time.Duration
// kBuckets define all the fingers to other nodes.
Buckets []*Bucket
bucketsize int
}
// NewRoutingTable creates a new routing table with a given bucketsize, local ID, and latency tolerance.
func NewRoutingTable(bucketsize int, localID ID, latency time.Duration, m peer.Metrics) *RoutingTable {
rt := new(RoutingTable)
rt.Buckets = []*Bucket{newBucket()}
rt.bucketsize = bucketsize
rt.local = localID
rt.maxLatency = latency
rt.metrics = m
return rt
}
// Update adds or moves the given peer to the front of its respective bucket
// If a peer gets removed from a bucket, it is returned
func (rt *RoutingTable) Update(p peer.ID) {
rt.tabLock.Lock()
defer rt.tabLock.Unlock()
peerID := ConvertPeerID(p)
cpl := commonPrefixLen(peerID, rt.local)
bucketID := cpl
if bucketID >= len(rt.Buckets) {
bucketID = len(rt.Buckets) - 1
}
bucket := rt.Buckets[bucketID]
if bucket.Has(p) {
// If the peer is already in the table, move it to the front.
// This signifies that it it "more active" and the less active nodes
// Will as a result tend towards the back of the list
bucket.MoveToFront(p)
return
}
if rt.metrics.LatencyEWMA(p) > rt.maxLatency {
// Connection doesnt meet requirements, skip!
return
}
// New peer, add to bucket
bucket.PushFront(p)
// Are we past the max bucket size?
if bucket.Len() > rt.bucketsize {
// If this bucket is the rightmost bucket, and its full
// we need to split it and create a new bucket
if bucketID == len(rt.Buckets)-1 {
rt.nextBucket()
return
} else {
// If the bucket cant split kick out least active node
bucket.PopBack()
return
}
}
}
// Remove deletes a peer from the routing table. This is to be used
// when we are sure a node has disconnected completely.
func (rt *RoutingTable) Remove(p peer.ID) {
rt.tabLock.Lock()
defer rt.tabLock.Unlock()
peerID := ConvertPeerID(p)
cpl := commonPrefixLen(peerID, rt.local)
bucketID := cpl
if bucketID >= len(rt.Buckets) {
bucketID = len(rt.Buckets) - 1
}
bucket := rt.Buckets[bucketID]
bucket.Remove(p)
}
func (rt *RoutingTable) nextBucket() peer.ID {
bucket := rt.Buckets[len(rt.Buckets)-1]
newBucket := bucket.Split(len(rt.Buckets)-1, rt.local)
rt.Buckets = append(rt.Buckets, newBucket)
if newBucket.Len() > rt.bucketsize {
return rt.nextBucket()
}
// If all elements were on left side of split...
if bucket.Len() > rt.bucketsize {
return bucket.PopBack()
}
return ""
}
// Find a specific peer by ID or return nil
func (rt *RoutingTable) Find(id peer.ID) peer.ID {
srch := rt.NearestPeers(ConvertPeerID(id), 1)
if len(srch) == 0 || srch[0] != id {
return ""
}
return srch[0]
}
// NearestPeer returns a single peer that is nearest to the given ID
func (rt *RoutingTable) NearestPeer(id ID) peer.ID {
peers := rt.NearestPeers(id, 1)
if len(peers) > 0 {
return peers[0]
}
log.Debugf("NearestPeer: Returning nil, table size = %d", rt.Size())
return ""
}
// NearestPeers returns a list of the 'count' closest peers to the given ID
func (rt *RoutingTable) NearestPeers(id ID, count int) []peer.ID {
rt.tabLock.RLock()
defer rt.tabLock.RUnlock()
cpl := commonPrefixLen(id, rt.local)
// Get bucket at cpl index or last bucket
var bucket *Bucket
if cpl >= len(rt.Buckets) {
cpl = len(rt.Buckets) - 1
}
bucket = rt.Buckets[cpl]
var peerArr peerSorterArr
if bucket.Len() == 0 {
// In the case of an unusual split, one bucket may be empty.
// if this happens, search both surrounding buckets for nearest peer
if cpl > 0 {
plist := rt.Buckets[cpl-1].list
peerArr = copyPeersFromList(id, peerArr, plist)
}
if cpl < len(rt.Buckets)-1 {
plist := rt.Buckets[cpl+1].list
peerArr = copyPeersFromList(id, peerArr, plist)
}
} else {
peerArr = copyPeersFromList(id, peerArr, bucket.list)
}
// Sort by distance to local peer
sort.Sort(peerArr)
var out []peer.ID
for i := 0; i < count && i < peerArr.Len(); i++ {
out = append(out, peerArr[i].p)
}
return out
}
// Size returns the total number of peers in the routing table
func (rt *RoutingTable) Size() int {
var tot int
rt.tabLock.RLock()
for _, buck := range rt.Buckets {
tot += buck.Len()
}
rt.tabLock.RUnlock()
return tot
}
// ListPeers takes a RoutingTable and returns a list of all peers from all buckets in the table.
// NOTE: This is potentially unsafe... use at your own risk
func (rt *RoutingTable) ListPeers() []peer.ID {
var peers []peer.ID
rt.tabLock.RLock()
for _, buck := range rt.Buckets {
peers = append(peers, buck.Peers()...)
}
rt.tabLock.RUnlock()
return peers
}
// Print prints a descriptive statement about the provided RoutingTable
func (rt *RoutingTable) Print() {
fmt.Printf("Routing Table, bs = %d, Max latency = %d\n", rt.bucketsize, rt.maxLatency)
rt.tabLock.RLock()
for i, b := range rt.Buckets {
fmt.Printf("\tbucket: %d\n", i)
b.lk.RLock()
for e := b.list.Front(); e != nil; e = e.Next() {
p := e.Value.(peer.ID)
fmt.Printf("\t\t- %s %s\n", p.Pretty(), rt.metrics.LatencyEWMA(p).String())
}
b.lk.RUnlock()
}
rt.tabLock.RUnlock()
}