package dht
import (
"sync"
"time"
"encoding/json"
peer "github.com/jbenet/go-ipfs/peer"
swarm "github.com/jbenet/go-ipfs/swarm"
u "github.com/jbenet/go-ipfs/util"
identify "github.com/jbenet/go-ipfs/identify"
ma "github.com/jbenet/go-multiaddr"
ds "github.com/jbenet/datastore.go"
"code.google.com/p/goprotobuf/proto"
)
// TODO. SEE https://github.com/jbenet/node-ipfs/blob/master/submodules/ipfs-dht/index.js
// IpfsDHT is an implementation of Kademlia with Coral and S/Kademlia modifications.
// It is used to implement the base IpfsRouting module.
type IpfsDHT struct {
routes *RoutingTable
network *swarm.Swarm
// Local peer (yourself)
self *peer.Peer
// Local data
datastore ds.Datastore
// Map keys to peers that can provide their value
// TODO: implement a TTL on each of these keys
providers map[u.Key][]*providerInfo
providerLock sync.RWMutex
// map of channels waiting for reply messages
listeners map[uint64]chan *swarm.Message
listenLock sync.RWMutex
// Signal to shutdown dht
shutdown chan struct{}
// When this peer started up
birth time.Time
}
// Create a new DHT object with the given peer as the 'local' host
func NewDHT(p *peer.Peer) (*IpfsDHT, error) {
if p == nil {
panic("Tried to create new dht with nil peer")
}
network := swarm.NewSwarm(p)
err := network.Listen()
if err != nil {
return nil,err
}
dht := new(IpfsDHT)
dht.network = network
dht.datastore = ds.NewMapDatastore()
dht.self = p
dht.listeners = make(map[uint64]chan *swarm.Message)
dht.providers = make(map[u.Key][]*providerInfo)
dht.shutdown = make(chan struct{})
dht.routes = NewRoutingTable(20, convertPeerID(p.ID))
dht.birth = time.Now()
return dht, nil
}
// Start up background goroutines needed by the DHT
func (dht *IpfsDHT) Start() {
go dht.handleMessages()
}
// Connect to a new peer at the given address
// TODO: move this into swarm
func (dht *IpfsDHT) Connect(addr *ma.Multiaddr) (*peer.Peer, error) {
if addr == nil {
panic("addr was nil!")
}
peer := new(peer.Peer)
peer.AddAddress(addr)
conn,err := swarm.Dial("tcp", peer)
if err != nil {
return nil, err
}
err = identify.Handshake(dht.self, peer, conn.Incoming.MsgChan, conn.Outgoing.MsgChan)
if err != nil {
return nil, err
}
// Send node an address that you can be reached on
myaddr := dht.self.NetAddress("tcp")
mastr,err := myaddr.String()
if err != nil {
panic("No local address to send")
}
conn.Outgoing.MsgChan <- []byte(mastr)
dht.network.StartConn(conn)
removed := dht.routes.Update(peer)
if removed != nil {
panic("need to remove this peer.")
}
// Ping new peer to register in their routing table
// NOTE: this should be done better...
err = dht.Ping(peer, time.Second * 2)
if err != nil {
panic("Failed to ping new peer.")
}
return peer, nil
}
// Read in all messages from swarm and handle them appropriately
// NOTE: this function is just a quick sketch
func (dht *IpfsDHT) handleMessages() {
u.DOut("Begin message handling routine")
checkTimeouts := time.NewTicker(time.Minute * 5)
for {
select {
case mes,ok := <-dht.network.Chan.Incoming:
if !ok {
u.DOut("handleMessages closing, bad recv on incoming")
return
}
pmes := new(DHTMessage)
err := proto.Unmarshal(mes.Data, pmes)
if err != nil {
u.PErr("Failed to decode protobuf message: %s", err)
continue
}
// Update peers latest visit in routing table
removed := dht.routes.Update(mes.Peer)
if removed != nil {
panic("Need to handle removed peer.")
}
// Note: not sure if this is the correct place for this
if pmes.GetResponse() {
dht.listenLock.RLock()
ch, ok := dht.listeners[pmes.GetId()]
dht.listenLock.RUnlock()
if ok {
ch <- mes
} else {
// this is expected behaviour during a timeout
u.DOut("Received response with nobody listening...")
}
continue
}
//
u.DOut("[peer: %s]", dht.self.ID.Pretty())
u.DOut("Got message type: '%s' [id = %x, from = %s]",
DHTMessage_MessageType_name[int32(pmes.GetType())],
pmes.GetId(), mes.Peer.ID.Pretty())
switch pmes.GetType() {
case DHTMessage_GET_VALUE:
dht.handleGetValue(mes.Peer, pmes)
case DHTMessage_PUT_VALUE:
dht.handlePutValue(mes.Peer, pmes)
case DHTMessage_FIND_NODE:
dht.handleFindPeer(mes.Peer, pmes)
case DHTMessage_ADD_PROVIDER:
dht.handleAddProvider(mes.Peer, pmes)
case DHTMessage_GET_PROVIDERS:
dht.handleGetProviders(mes.Peer, pmes)
case DHTMessage_PING:
dht.handlePing(mes.Peer, pmes)
case DHTMessage_DIAGNOSTIC:
// TODO: network diagnostic messages
}
case err := <-dht.network.Chan.Errors:
u.DErr("dht err: %s", err)
panic(err)
case <-dht.shutdown:
checkTimeouts.Stop()
return
case <-checkTimeouts.C:
dht.providerLock.Lock()
for k,parr := range dht.providers {
var cleaned []*providerInfo
for _,v := range parr {
if time.Since(v.Creation) < time.Hour {
cleaned = append(cleaned, v)
}
}
dht.providers[k] = cleaned
}
dht.providerLock.Unlock()
}
}
}
func (dht *IpfsDHT) handleGetValue(p *peer.Peer, pmes *DHTMessage) {
dskey := ds.NewKey(pmes.GetKey())
var resp *pDHTMessage
i_val, err := dht.datastore.Get(dskey)
if err == nil {
resp = &pDHTMessage{
Response: true,
Id: *pmes.Id,
Key: *pmes.Key,
Value: i_val.([]byte),
Success: true,
}
} else if err == ds.ErrNotFound {
// Find closest peer(s) to desired key and reply with that info
closer := dht.routes.NearestPeer(convertKey(u.Key(pmes.GetKey())))
resp = &pDHTMessage{
Response: true,
Id: *pmes.Id,
Key: *pmes.Key,
Value: closer.ID,
Success: false,
}
}
mes := swarm.NewMessage(p, resp.ToProtobuf())
dht.network.Chan.Outgoing <- mes
}
// Store a value in this peer local storage
func (dht *IpfsDHT) handlePutValue(p *peer.Peer, pmes *DHTMessage) {
dskey := ds.NewKey(pmes.GetKey())
err := dht.datastore.Put(dskey, pmes.GetValue())
if err != nil {
// For now, just panic, handle this better later maybe
panic(err)
}
}
func (dht *IpfsDHT) handlePing(p *peer.Peer, pmes *DHTMessage) {
resp := pDHTMessage{
Type: pmes.GetType(),
Response: true,
Id: pmes.GetId(),
}
dht.network.Chan.Outgoing <-swarm.NewMessage(p, resp.ToProtobuf())
}
func (dht *IpfsDHT) handleFindPeer(p *peer.Peer, pmes *DHTMessage) {
u.POut("handleFindPeer: searching for '%s'", peer.ID(pmes.GetKey()).Pretty())
closest := dht.routes.NearestPeer(convertKey(u.Key(pmes.GetKey())))
if closest == nil {
panic("could not find anything.")
}
if len(closest.Addresses) == 0 {
panic("no addresses for connected peer...")
}
u.POut("handleFindPeer: sending back '%s'", closest.ID.Pretty())
addr,err := closest.Addresses[0].String()
if err != nil {
panic(err)
}
resp := pDHTMessage{
Type: pmes.GetType(),
Response: true,
Id: pmes.GetId(),
Value: []byte(addr),
}
mes := swarm.NewMessage(p, resp.ToProtobuf())
dht.network.Chan.Outgoing <-mes
}
func (dht *IpfsDHT) handleGetProviders(p *peer.Peer, pmes *DHTMessage) {
dht.providerLock.RLock()
providers := dht.providers[u.Key(pmes.GetKey())]
dht.providerLock.RUnlock()
if providers == nil || len(providers) == 0 {
// ?????
u.DOut("No known providers for requested key.")
}
// This is just a quick hack, formalize method of sending addrs later
addrs := make(map[u.Key]string)
for _,prov := range providers {
ma := prov.Value.NetAddress("tcp")
str,err := ma.String()
if err != nil {
u.PErr("Error: %s", err)
continue
}
addrs[prov.Value.Key()] = str
}
data,err := json.Marshal(addrs)
if err != nil {
panic(err)
}
resp := pDHTMessage{
Type: DHTMessage_GET_PROVIDERS,
Key: pmes.GetKey(),
Value: data,
Id: pmes.GetId(),
Response: true,
}
mes := swarm.NewMessage(p, resp.ToProtobuf())
dht.network.Chan.Outgoing <-mes
}
type providerInfo struct {
Creation time.Time
Value *peer.Peer
}
func (dht *IpfsDHT) handleAddProvider(p *peer.Peer, pmes *DHTMessage) {
//TODO: need to implement TTLs on providers
key := u.Key(pmes.GetKey())
dht.addProviderEntry(key, p)
}
// Register a handler for a specific message ID, used for getting replies
// to certain messages (i.e. response to a GET_VALUE message)
func (dht *IpfsDHT) ListenFor(mesid uint64) <-chan *swarm.Message {
lchan := make(chan *swarm.Message)
dht.listenLock.Lock()
dht.listeners[mesid] = lchan
dht.listenLock.Unlock()
return lchan
}
// Unregister the given message id from the listener map
func (dht *IpfsDHT) Unlisten(mesid uint64) {
dht.listenLock.Lock()
ch, ok := dht.listeners[mesid]
if ok {
delete(dht.listeners, mesid)
}
dht.listenLock.Unlock()
close(ch)
}
// Stop all communications from this peer and shut down
func (dht *IpfsDHT) Halt() {
dht.shutdown <- struct{}{}
dht.network.Close()
}
func (dht *IpfsDHT) addProviderEntry(key u.Key, p *peer.Peer) {
u.DOut("Adding %s as provider for '%s'", p.Key().Pretty(), key)
dht.providerLock.Lock()
provs := dht.providers[key]
dht.providers[key] = append(provs, &providerInfo{time.Now(), p})
dht.providerLock.Unlock()
}