xbee · April 4, 2016 10:54
diff --git a/contact.go b/contact.go
 package kademlia

 import (
  "fmt";
 )

 type Contact struct {
  id NodeID;
  address string;
 }

 func (contact *Contact) String() string {
  return fmt.Sprintf("Contact(\"%s\", \"%s\")", contact.id, contact.address);
 }
diff --git a/kademlia.go b/kademlia.go
 package kademlia

 import (
  "container/heap";
  "container/vector";
  "fmt";
  "log";
  "http";
  "net";
  "os";
  "rpc";
  "sort";
 )

 type Kademlia struct {
  routes *RoutingTable;
  NetworkId string;
 }

 func NewKademlia(self *Contact, networkId string) (ret *Kademlia) {
  ret = new(Kademlia);
  ret.routes = NewRoutingTable(self);
  ret.NetworkId = networkId;
  return;
 }

 func (k *Kademlia) Serve() (err os.Error) {
  rpc.Register(&KademliaCore{k});

  rpc.HandleHTTP();
  if l, err := net.Listen("tcp", k.routes.node.address); err == nil {
    go http.Serve(l, nil);
  }
  return;
 }

 func (k *Kademlia) Call(contact *Contact, method string, args, reply interface{}) (err os.Error) {
  if client, err := rpc.DialHTTP("tcp", contact.address); err == nil {
    err = client.Call(method, args, reply);
    if err == nil {
      k.routes.Update(contact);
    }
  }
  return;
 }

 func (k *Kademlia) sendQuery(node *Contact, target NodeID, done chan []Contact) {
  args := FindNodeRequest{RPCHeader{&k.routes.node, k.NetworkId}, target};
  reply := FindNodeResponse{};
  
  if err := k.Call(node, "KademliaCore.FindNode", &args, &reply); err == nil {
    done <- reply.contacts;
  } else {
    done <- []Contact{};
  }
 }

 func (k *Kademlia) IterativeFindNode(target NodeID, delta int) (ret *vector.Vector) {
  done := make(chan []Contact);

  // A vector of *ContactRecord structs
  ret = new(vector.Vector).Resize(0, BucketSize);
  
  // A heap of not-yet-queried *Contact structs
  frontier := new(vector.Vector).Resize(0, BucketSize);
  
  // A map of client values we've seen so far
  seen := make(map[string] bool);
  
  // Initialize the return list, frontier heap, and seen list with local nodes
  for node := range k.routes.FindClosest(target, delta).Iter() {
    record := node.(*ContactRecord);
    ret.Push(record);
    heap.Push(frontier, record.node);
    seen[record.node.id.String()] = true;
  }
  
  // Start off delta queries
  pending := 0;
  for i := 0; i < delta && frontier.Len() > 0; i++ {
    pending++;
    go k.sendQuery(frontier.Pop().(*Contact), target, done);
  }
  
  // Iteratively look for closer nodes
  for pending > 0 {
    nodes := <-done;
    pending--;
    for _, node := range nodes {
      // If we haven't seen the node before, add it
      if _, ok := seen[node.id.String()]; ok == false {
        ret.Push(&ContactRecord{&node, node.id.Xor(target)});
        heap.Push(frontier, node);
        seen[node.id.String()] = true;
      }
    }
    
    for pending < delta && frontier.Len() > 0 {
      go k.sendQuery(frontier.Pop().(*Contact), target, done);
      pending++;
    }
  }

  sort.Sort(ret);
  if ret.Len() > BucketSize {
    ret.Cut(BucketSize, ret.Len());
  }

  return;
 }

 type RPCHeader struct {
  Sender *Contact;
  NetworkId string;
 }

 func (k *Kademlia) HandleRPC(request, response *RPCHeader) os.Error {
  if request.NetworkId != k.NetworkId {
    return os.NewError(fmt.Sprintf("Expected network ID %s, got %s",
                                   k.NetworkId, request.NetworkId));
  }
  if request.Sender != nil {
    k.routes.Update(request.Sender);
  }
  response.Sender = &k.routes.node;
  return nil;
 }

 type KademliaCore struct {
  kad *Kademlia;
 }

 type PingRequest struct {
  RPCHeader;
 }

 type PingResponse struct {
  RPCHeader;
 }

 func (kc *KademliaCore) Ping(args *PingRequest, response *PingResponse) (err os.Error) {
  if err = kc.kad.HandleRPC(&args.RPCHeader, &response.RPCHeader); err == nil {
    log.Stderr("Ping from %s\n", args.RPCHeader);
  }
  return;
 }

 type FindNodeRequest struct {
  RPCHeader;
  target NodeID;
 }

 type FindNodeResponse struct {
  RPCHeader;
  contacts []Contact;
 }

 func (kc *KademliaCore) FindNode(args *FindNodeRequest, response *FindNodeResponse) (err os.Error) {
  if err = kc.kad.HandleRPC(&args.RPCHeader, &response.RPCHeader); err == nil {
    contacts := kc.kad.routes.FindClosest(args.target, BucketSize);
    response.contacts = make([]Contact, contacts.Len());

    for i := 0; i < contacts.Len(); i++ {
      response.contacts[i] = *contacts.At(i).(*ContactRecord).node;
    }
  }
  return;
 }
diff --git a/kademlia_test.go b/kademlia_test.go
 package kademlia

 import "testing"

 func TestPing(t *testing.T) {
  me := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
  k := NewKademlia(&me, "test");
  k.Serve();

  someone := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
  if err := k.Call(
      &someone,
      "KademliaCore.Ping",
      &PingRequest{RPCHeader{&someone, k.NetworkId}},
      &PingResponse{}); err != nil {
    t.Error(err);
  }
 }

 func TestFindNode(t *testing.T) {
  me := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
  k := NewKademlia(&me, "test");
  kc := KademliaCore{k};
  
  var contacts [100]Contact;
  for i := 0; i < len(contacts); i++ {
    contacts[i] = Contact{NewRandomNodeID(), "127.0.0.1:8989"};
    if err := kc.Ping(&PingRequest{RPCHeader{&contacts[i], k.NetworkId}},
                      &PingResponse{}); err != nil {
      t.Error(err);
    }
  }

  args := FindNodeRequest{RPCHeader{&contacts[0], k.NetworkId}, contacts[0].id};
  response := FindNodeResponse{};
  if err := kc.FindNode(&args, &response); err != nil {
    t.Error(err);
  }
  
  if len(response.contacts) != BucketSize {
    t.Fail();
  }
 }
diff --git a/Makefile b/Makefile
 include $(GOROOT)/src/Make.$(GOARCH)

 TARG=kademlia
 GOFILES=\
        nodeid.go\
        routingtable.go\
 				contact.go\
 				kademlia.go

 include $(GOROOT)/src/Make.pkg
diff --git a/nodeid.go b/nodeid.go
 package kademlia

 import (
  "encoding/hex";
  "rand";
 )

 const IdLength = 20

 type NodeID [IdLength]byte

 func NewNodeID(data string) (ret NodeID) {
  decoded, _ := hex.DecodeString(data);
  for i := 0; i < IdLength; i++ {
    ret[i] = decoded[i];
  }
  return;
 }

 func NewRandomNodeID() (ret NodeID) {
  for i := 0; i < IdLength; i++ {
    ret[i] = uint8(rand.Intn(256));
  }
  return;
 }

 func (node NodeID) String() string {
  return hex.EncodeToString(node[0:IdLength]);
 }

 func (node NodeID) Equals(other NodeID) bool {
  for i := 0; i < IdLength; i++ {
    if node[i] != other[i] {
      return false;
    }
  }
  return true;
 }

 func (node NodeID) Xor(other NodeID) (ret NodeID) {
  for i := 0; i < IdLength; i++ {
    ret[i] = node[i] ^ other[i];
  }
  return;
 }

 func (node NodeID) PrefixLen() (ret int) {
  for i := 0; i < IdLength; i++ {
    for j := 0; j < 8; j++ {
      if (node[i] >> uint8(7 - j)) & 0x1 != 0 {
        return i * 8 + j;
      }
    }
  }
  return IdLength * 8 - 1;
 }

 func (node NodeID) Less(other interface{}) bool {
  for i := 0; i < IdLength; i++ {
    if node[i] != other.(NodeID)[i] {
      return node[i] < other.(NodeID)[i];
    }
  }
  return false;
 }
diff --git a/nodeid_test.go b/nodeid_test.go
 package kademlia

 import (
  "os";
  "testing";
  "fmt";
 )

 func TestNodeID(t *testing.T) {
  a := NodeID{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19};
  b := NodeID{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 19, 18};
  c := NodeID{0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  0,  0,  0,  0,  0,  0,  0,  1,  1};

  if !a.Equals(a) {
    t.Fail();
  }
  if a.Equals(b) {
    t.Fail();
  }
  
  if !a.Xor(b).Equals(c) {
    t.Error(a.Xor(b));
  }
  
  if c.PrefixLen() != 151 {
    t.Error(c.PrefixLen());
  }
  
  if b.Less(a) {
    t.Fail();
  }
  
  str_id := "0123456789abcdef0123456789abcdef01234567";
  if NewNodeID(str_id).String() != str_id {
    t.Error(NewNodeID(str_id).String());
  }
 }

 type Foo struct {
  a int;
 }

 func (f Foo) String() string {
  return "foo";
 }

 type FmtWriter struct {
 }

 func (fw FmtWriter) Write(p []byte) (n int, err os.Error) {
  fmt.Printf("gob(%d): %x\n", len(p), p);
  return len(p), nil;
 }
diff --git a/routingtable.go b/routingtable.go
 package kademlia

 import (
  "container/list";
  "container/vector";
  "exp/iterable";
  "sort";
 )

 const BucketSize = 20;

 type RoutingTable struct {
  node Contact;
  buckets [IdLength*8]*list.List;
 }

 type ContactRecord struct {
  node *Contact;
  sortKey NodeID;
 }

 func (rec *ContactRecord) Less(other interface{}) bool {
  return rec.sortKey.Less(other.(*ContactRecord).sortKey);
 }

 func NewRoutingTable(node *Contact) (ret *RoutingTable) {
  ret = new(RoutingTable);
  for i := 0; i < IdLength * 8; i++ {
    ret.buckets[i] = list.New();
  }
  ret.node = *node;
  return;
 }

 func (table *RoutingTable) Update(contact *Contact) {
  prefix_length := contact.id.Xor(table.node.id).PrefixLen();
  bucket := table.buckets[prefix_length];
  element := iterable.Find(bucket, func(x interface{}) bool {
    return x.(*Contact).id.Equals(table.node.id);
  });
  if element == nil {
    if bucket.Len() <= BucketSize {
      bucket.PushFront(contact);
    }
    // TODO: Handle insertion when the list is full by evicting old elements if
    // they don't respond to a ping.
  } else {
    bucket.MoveToFront(element.(*list.Element));
  }
 }

 func copyToVector(start, end *list.Element, vec *vector.Vector, target NodeID) {
  for elt := start; elt != end; elt = elt.Next() {
    contact := elt.Value.(*Contact);
    vec.Push(&ContactRecord{contact, contact.id.Xor(target)});
  }
 }

 func (table *RoutingTable) FindClosest(target NodeID, count int) (ret *vector.Vector) {
  ret = new(vector.Vector).Resize(0, count);

  bucket_num := target.Xor(table.node.id).PrefixLen();
  bucket := table.buckets[bucket_num];
  copyToVector(bucket.Front(), nil, ret, target);

  for i := 1; (bucket_num-i >= 0 || bucket_num+i < IdLength*8) && ret.Len() < count; i++ {
    if bucket_num - i >= 0 {
      bucket = table.buckets[bucket_num - i];
      copyToVector(bucket.Front(), nil, ret, target);
    }
    if bucket_num + i < IdLength * 8 {
      bucket = table.buckets[bucket_num + i];
      copyToVector(bucket.Front(), nil, ret, target);
    }
  }
  
  sort.Sort(ret);
  if ret.Len() > count {
    ret.Cut(count, ret.Len());
  }
  return;
 }
diff --git a/routingtable_test.go b/routingtable_test.go
 package kademlia

 import "testing"

 func TestRoutingTable(t *testing.T) {
  n1 := NewNodeID("FFFFFFFF00000000000000000000000000000000");
  n2 := NewNodeID("FFFFFFF000000000000000000000000000000000");
  n3 := NewNodeID("1111111100000000000000000000000000000000");
  rt := NewRoutingTable(&Contact{n1, "localhost:8000"});
  rt.Update(&Contact{n2, "localhost:8001"});
  rt.Update(&Contact{n3, "localhost:8002"});
  
  vec := rt.FindClosest(NewNodeID("2222222200000000000000000000000000000000"), 1);
  if vec.Len() != 1 {
    t.Fail();
    return;
  }
  if !vec.At(0).(*ContactRecord).node.id.Equals(n3) {
    t.Error(vec.At(0));
  }
  
  vec = rt.FindClosest(n2, 10);
  if vec.Len() != 2 {
    t.Error(vec.Len());
    return;
  }
  if !vec.At(0).(*ContactRecord).node.id.Equals(n2) {
    t.Error(vec.At(0));
  }
  if !vec.At(1).(*ContactRecord).node.id.Equals(n3) {
    t.Error(vec.At(1));
  }
 }
	package kademlia

	import (
	"fmt";
	)

	type Contact struct {
	id NodeID;
	address string;
	}

	func (contact *Contact) String() string {
	return fmt.Sprintf("Contact(\"%s\", \"%s\")", contact.id, contact.address);
	}
	package kademlia

	import (
	"container/heap";
	"container/vector";
	"fmt";
	"log";
	"http";
	"net";
	"os";
	"rpc";
	"sort";
	)

	type Kademlia struct {
	routes *RoutingTable;
	NetworkId string;
	}

	func NewKademlia(self Contact, networkId string) (ret Kademlia) {
	ret = new(Kademlia);
	ret.routes = NewRoutingTable(self);
	ret.NetworkId = networkId;
	return;
	}

	func (k *Kademlia) Serve() (err os.Error) {
	rpc.Register(&KademliaCore{k});

	rpc.HandleHTTP();
	if l, err := net.Listen("tcp", k.routes.node.address); err == nil {
	go http.Serve(l, nil);
	}
	return;
	}

	func (k Kademlia) Call(contact Contact, method string, args, reply interface{}) (err os.Error) {
	if client, err := rpc.DialHTTP("tcp", contact.address); err == nil {
	err = client.Call(method, args, reply);
	if err == nil {
	k.routes.Update(contact);
	}
	}
	return;
	}

	func (k Kademlia) sendQuery(node Contact, target NodeID, done chan []Contact) {
	args := FindNodeRequest{RPCHeader{&k.routes.node, k.NetworkId}, target};
	reply := FindNodeResponse{};

	if err := k.Call(node, "KademliaCore.FindNode", &args, &reply); err == nil {
	done <- reply.contacts;
	} else {
	done <- []Contact{};
	}
	}

	func (k Kademlia) IterativeFindNode(target NodeID, delta int) (ret vector.Vector) {
	done := make(chan []Contact);

	// A vector of *ContactRecord structs
	ret = new(vector.Vector).Resize(0, BucketSize);

	// A heap of not-yet-queried *Contact structs
	frontier := new(vector.Vector).Resize(0, BucketSize);

	// A map of client values we've seen so far
	seen := make(map[string] bool);

	// Initialize the return list, frontier heap, and seen list with local nodes
	for node := range k.routes.FindClosest(target, delta).Iter() {
	record := node.(*ContactRecord);
	ret.Push(record);
	heap.Push(frontier, record.node);
	seen[record.node.id.String()] = true;
	}

	// Start off delta queries
	pending := 0;
	for i := 0; i < delta && frontier.Len() > 0; i++ {
	pending++;
	go k.sendQuery(frontier.Pop().(*Contact), target, done);
	}

	// Iteratively look for closer nodes
	for pending > 0 {
	nodes := <-done;
	pending--;
	for _, node := range nodes {
	// If we haven't seen the node before, add it
	if _, ok := seen[node.id.String()]; ok == false {
	ret.Push(&ContactRecord{&node, node.id.Xor(target)});
	heap.Push(frontier, node);
	seen[node.id.String()] = true;
	}
	}

	for pending < delta && frontier.Len() > 0 {
	go k.sendQuery(frontier.Pop().(*Contact), target, done);
	pending++;
	}
	}

	sort.Sort(ret);
	if ret.Len() > BucketSize {
	ret.Cut(BucketSize, ret.Len());
	}

	return;
	}

	type RPCHeader struct {
	Sender *Contact;
	NetworkId string;
	}

	func (k Kademlia) HandleRPC(request, response RPCHeader) os.Error {
	if request.NetworkId != k.NetworkId {
	return os.NewError(fmt.Sprintf("Expected network ID %s, got %s",
	k.NetworkId, request.NetworkId));
	}
	if request.Sender != nil {
	k.routes.Update(request.Sender);
	}
	response.Sender = &k.routes.node;
	return nil;
	}

	type KademliaCore struct {
	kad *Kademlia;
	}

	type PingRequest struct {
	RPCHeader;
	}

	type PingResponse struct {
	RPCHeader;
	}

	func (kc KademliaCore) Ping(args PingRequest, response *PingResponse) (err os.Error) {
	if err = kc.kad.HandleRPC(&args.RPCHeader, &response.RPCHeader); err == nil {
	log.Stderr("Ping from %s\n", args.RPCHeader);
	}
	return;
	}

	type FindNodeRequest struct {
	RPCHeader;
	target NodeID;
	}

	type FindNodeResponse struct {
	RPCHeader;
	contacts []Contact;
	}

	func (kc KademliaCore) FindNode(args FindNodeRequest, response *FindNodeResponse) (err os.Error) {
	if err = kc.kad.HandleRPC(&args.RPCHeader, &response.RPCHeader); err == nil {
	contacts := kc.kad.routes.FindClosest(args.target, BucketSize);
	response.contacts = make([]Contact, contacts.Len());

	for i := 0; i < contacts.Len(); i++ {
	response.contacts[i] = contacts.At(i).(ContactRecord).node;
	}
	}
	return;
	}
	package kademlia

	import "testing"

	func TestPing(t *testing.T) {
	me := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
	k := NewKademlia(&me, "test");
	k.Serve();

	someone := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
	if err := k.Call(
	&someone,
	"KademliaCore.Ping",
	&PingRequest{RPCHeader{&someone, k.NetworkId}},
	&PingResponse{}); err != nil {
	t.Error(err);
	}
	}

	func TestFindNode(t *testing.T) {
	me := Contact{NewRandomNodeID(), "127.0.0.1:8989"};
	k := NewKademlia(&me, "test");
	kc := KademliaCore{k};

	var contacts [100]Contact;
	for i := 0; i < len(contacts); i++ {
	contacts[i] = Contact{NewRandomNodeID(), "127.0.0.1:8989"};
	if err := kc.Ping(&PingRequest{RPCHeader{&contacts[i], k.NetworkId}},
	&PingResponse{}); err != nil {
	t.Error(err);
	}
	}

	args := FindNodeRequest{RPCHeader{&contacts[0], k.NetworkId}, contacts[0].id};
	response := FindNodeResponse{};
	if err := kc.FindNode(&args, &response); err != nil {
	t.Error(err);
	}

	if len(response.contacts) != BucketSize {
	t.Fail();
	}
	}
	include $(GOROOT)/src/Make.$(GOARCH)

	TARG=kademlia
	GOFILES=\
	nodeid.go\
	routingtable.go\
	contact.go\
	kademlia.go

	include $(GOROOT)/src/Make.pkg
	package kademlia

	import (
	"encoding/hex";
	"rand";
	)

	const IdLength = 20

	type NodeID [IdLength]byte

	func NewNodeID(data string) (ret NodeID) {
	decoded, _ := hex.DecodeString(data);
	for i := 0; i < IdLength; i++ {
	ret[i] = decoded[i];
	}
	return;
	}

	func NewRandomNodeID() (ret NodeID) {
	for i := 0; i < IdLength; i++ {
	ret[i] = uint8(rand.Intn(256));
	}
	return;
	}

	func (node NodeID) String() string {
	return hex.EncodeToString(node[0:IdLength]);
	}

	func (node NodeID) Equals(other NodeID) bool {
	for i := 0; i < IdLength; i++ {
	if node[i] != other[i] {
	return false;
	}
	}
	return true;
	}

	func (node NodeID) Xor(other NodeID) (ret NodeID) {
	for i := 0; i < IdLength; i++ {
	ret[i] = node[i] ^ other[i];
	}
	return;
	}

	func (node NodeID) PrefixLen() (ret int) {
	for i := 0; i < IdLength; i++ {
	for j := 0; j < 8; j++ {
	if (node[i] >> uint8(7 - j)) & 0x1 != 0 {
	return i * 8 + j;
	}
	}
	}
	return IdLength * 8 - 1;
	}

	func (node NodeID) Less(other interface{}) bool {
	for i := 0; i < IdLength; i++ {
	if node[i] != other.(NodeID)[i] {
	return node[i] < other.(NodeID)[i];
	}
	}
	return false;
	}
	package kademlia

	import (
	"container/list";
	"container/vector";
	"exp/iterable";
	"sort";
	)

	const BucketSize = 20;

	type RoutingTable struct {
	node Contact;
	buckets [IdLength8]list.List;
	}

	type ContactRecord struct {
	node *Contact;
	sortKey NodeID;
	}

	func (rec *ContactRecord) Less(other interface{}) bool {
	return rec.sortKey.Less(other.(*ContactRecord).sortKey);
	}

	func NewRoutingTable(node Contact) (ret RoutingTable) {
	ret = new(RoutingTable);
	for i := 0; i < IdLength * 8; i++ {
	ret.buckets[i] = list.New();
	}
	ret.node = *node;
	return;
	}

	func (table RoutingTable) Update(contact Contact) {
	prefix_length := contact.id.Xor(table.node.id).PrefixLen();
	bucket := table.buckets[prefix_length];
	element := iterable.Find(bucket, func(x interface{}) bool {
	return x.(*Contact).id.Equals(table.node.id);
	});
	if element == nil {
	if bucket.Len() <= BucketSize {
	bucket.PushFront(contact);
	}
	// TODO: Handle insertion when the list is full by evicting old elements if
	// they don't respond to a ping.
	} else {
	bucket.MoveToFront(element.(*list.Element));
	}
	}

	func copyToVector(start, end list.Element, vec vector.Vector, target NodeID) {
	for elt := start; elt != end; elt = elt.Next() {
	contact := elt.Value.(*Contact);
	vec.Push(&ContactRecord{contact, contact.id.Xor(target)});
	}
	}

	func (table RoutingTable) FindClosest(target NodeID, count int) (ret vector.Vector) {
	ret = new(vector.Vector).Resize(0, count);

	bucket_num := target.Xor(table.node.id).PrefixLen();
	bucket := table.buckets[bucket_num];
	copyToVector(bucket.Front(), nil, ret, target);

	for i := 1; (bucket_num-i >= 0 \|\| bucket_num+i < IdLength*8) && ret.Len() < count; i++ {
	if bucket_num - i >= 0 {
	bucket = table.buckets[bucket_num - i];
	copyToVector(bucket.Front(), nil, ret, target);
	}
	if bucket_num + i < IdLength * 8 {
	bucket = table.buckets[bucket_num + i];
	copyToVector(bucket.Front(), nil, ret, target);
	}
	}

	sort.Sort(ret);
	if ret.Len() > count {
	ret.Cut(count, ret.Len());
	}
	return;
	}
	package kademlia

	import "testing"

	func TestRoutingTable(t *testing.T) {
	n1 := NewNodeID("FFFFFFFF00000000000000000000000000000000");
	n2 := NewNodeID("FFFFFFF000000000000000000000000000000000");
	n3 := NewNodeID("1111111100000000000000000000000000000000");
	rt := NewRoutingTable(&Contact{n1, "localhost:8000"});
	rt.Update(&Contact{n2, "localhost:8001"});
	rt.Update(&Contact{n3, "localhost:8002"});

	vec := rt.FindClosest(NewNodeID("2222222200000000000000000000000000000000"), 1);
	if vec.Len() != 1 {
	t.Fail();
	return;
	}
	if !vec.At(0).(*ContactRecord).node.id.Equals(n3) {
	t.Error(vec.At(0));
	}

	vec = rt.FindClosest(n2, 10);
	if vec.Len() != 2 {
	t.Error(vec.Len());
	return;
	}
	if !vec.At(0).(*ContactRecord).node.id.Equals(n2) {
	t.Error(vec.At(0));
	}
	if !vec.At(1).(*ContactRecord).node.id.Equals(n3) {
	t.Error(vec.At(1));
	}
	}