lbry.go/dht/bootstrap.go

189 lines
3.9 KiB
Go

package dht
import (
"math/rand"
"net"
"sync"
"time"
log "github.com/sirupsen/logrus"
)
const (
bootstrapDefaultRefreshDuration = 15 * time.Minute
)
type BootstrapNode struct {
Node
initialPingInterval time.Duration
checkInterval time.Duration
nlock *sync.RWMutex
nodes []peer
nodeKeys map[Bitmap]int
}
// New returns a BootstrapNode pointer.
func NewBootstrapNode(id Bitmap, initialPingInterval, rePingInterval time.Duration) *BootstrapNode {
b := &BootstrapNode{
Node: *NewNode(id),
initialPingInterval: initialPingInterval,
checkInterval: rePingInterval,
nlock: &sync.RWMutex{},
nodes: make([]peer, 0),
nodeKeys: make(map[Bitmap]int),
}
b.requestHandler = b.handleRequest
return b
}
// Add manually adds a contact
func (b *BootstrapNode) Add(c Contact) {
b.upsert(c)
}
// Connect connects to the given connection and starts any background threads necessary
func (b *BootstrapNode) Connect(conn UDPConn) error {
err := b.Node.Connect(conn)
if err != nil {
return err
}
log.Debugf("[%s] bootstrap: node connected", b.id.HexShort())
go func() {
t := time.NewTicker(b.checkInterval / 5)
for {
select {
case <-t.C:
b.check()
case <-b.stop.Chan():
return
}
}
}()
return nil
}
// ypsert adds the contact to the list, or updates the lastPinged time
func (b *BootstrapNode) upsert(c Contact) {
b.nlock.Lock()
defer b.nlock.Unlock()
if i, exists := b.nodeKeys[c.ID]; exists {
log.Debugf("[%s] bootstrap: touching contact %s", b.id.HexShort(), b.nodes[i].Contact.ID.HexShort())
b.nodes[i].Touch()
return
}
log.Debugf("[%s] bootstrap: adding new contact %s", b.id.HexShort(), c.ID.HexShort())
b.nodeKeys[c.ID] = len(b.nodes)
b.nodes = append(b.nodes, peer{c, time.Now(), 0})
}
// remove removes the contact from the list
func (b *BootstrapNode) remove(c Contact) {
b.nlock.Lock()
defer b.nlock.Unlock()
i, exists := b.nodeKeys[c.ID]
if !exists {
return
}
log.Debugf("[%s] bootstrap: removing contact %s", b.id.HexShort(), c.ID.HexShort())
b.nodes = append(b.nodes[:i], b.nodes[i+1:]...)
delete(b.nodeKeys, c.ID)
}
// get returns up to `limit` random contacts from the list
func (b *BootstrapNode) get(limit int) []Contact {
b.nlock.RLock()
defer b.nlock.RUnlock()
if len(b.nodes) < limit {
limit = len(b.nodes)
}
ret := make([]Contact, limit)
for i, k := range randKeys(len(b.nodes))[:limit] {
ret[i] = b.nodes[k].Contact
}
return ret
}
// ping pings a node. if the node responds, it is added to the list. otherwise, it is removed
func (b *BootstrapNode) ping(c Contact) {
b.stopWG.Add(1)
defer b.stopWG.Done()
resCh, cancel := b.SendCancelable(c, Request{Method: pingMethod})
var res *Response
select {
case res = <-resCh:
case <-b.stop.Chan():
cancel()
return
}
if res != nil && res.Data == pingSuccessResponse {
b.upsert(c)
} else {
b.remove(c)
}
}
func (b *BootstrapNode) check() {
b.nlock.RLock()
defer b.nlock.RUnlock()
for i := range b.nodes {
if !b.nodes[i].ActiveInLast(b.checkInterval) {
go b.ping(b.nodes[i].Contact)
}
}
}
// handleRequest handles the requests received from udp.
func (b *BootstrapNode) handleRequest(addr *net.UDPAddr, request Request) {
switch request.Method {
case pingMethod:
b.sendMessage(addr, Response{ID: request.ID, NodeID: b.id, Data: pingSuccessResponse})
case findNodeMethod:
if request.Arg == nil {
log.Errorln("request is missing arg")
return
}
b.sendMessage(addr, Response{
ID: request.ID,
NodeID: b.id,
Contacts: b.get(bucketSize),
})
}
go func() {
log.Debugf("[%s] bootstrap: queuing %s to ping", b.id.HexShort(), request.NodeID.HexShort())
<-time.After(b.initialPingInterval)
b.ping(Contact{ID: request.NodeID, IP: addr.IP, Port: addr.Port})
}()
}
func randKeys(max int) []int {
keys := make([]int, max)
for k := range keys {
keys[k] = k
}
rand.Shuffle(max, func(i, j int) {
keys[i], keys[j] = keys[j], keys[i]
})
return keys
}