reflector.go/dht/testing.go

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package dht
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import (
"net"
"strconv"
"strings"
"testing"
"time"
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"github.com/lbryio/errors.go"
)
var testingDHTIP = "127.0.0.1"
var testingDHTFirstPort = 21000
func TestingCreateDHT(numNodes int) (*BootstrapNode, []*DHT) {
bootstrapAddress := testingDHTIP + ":" + strconv.Itoa(testingDHTFirstPort)
bootstrapNode := NewBootstrapNode(RandomBitmapP(), 0, bootstrapDefaultRefreshDuration)
listener, err := net.ListenPacket(network, bootstrapAddress)
if err != nil {
panic(err)
}
bootstrapNode.Connect(listener.(*net.UDPConn))
return bootstrapNode, TestingCreateDHTNoBootstrap(numNodes, []string{bootstrapAddress})
}
func TestingCreateDHTNoBootstrap(numNodes int, seeds []string) []*DHT {
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if numNodes < 1 {
return nil
}
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firstPort := testingDHTFirstPort + 1
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dhts := make([]*DHT, numNodes)
for i := 0; i < numNodes; i++ {
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dht, err := New(&Config{Address: testingDHTIP + ":" + strconv.Itoa(firstPort+i), NodeID: RandomBitmapP().Hex(), SeedNodes: seeds})
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if err != nil {
panic(err)
}
go dht.Start()
dht.WaitUntilJoined()
dhts[i] = dht
}
return dhts
}
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type timeoutErr struct {
error
}
func (t timeoutErr) Timeout() bool {
return true
}
func (t timeoutErr) Temporary() bool {
return true
}
// TODO: just use a normal net.Conn instead of this mock conn
type testUDPPacket struct {
data []byte
addr *net.UDPAddr
}
type testUDPConn struct {
addr *net.UDPAddr
toRead chan testUDPPacket
writes chan testUDPPacket
readDeadline time.Time
}
func newTestUDPConn(addr string) *testUDPConn {
parts := strings.Split(addr, ":")
if len(parts) != 2 {
panic("addr needs ip and port")
}
port, err := strconv.Atoi(parts[1])
if err != nil {
panic(err)
}
return &testUDPConn{
addr: &net.UDPAddr{IP: net.IP(parts[0]), Port: port},
toRead: make(chan testUDPPacket),
writes: make(chan testUDPPacket),
}
}
func (t testUDPConn) ReadFromUDP(b []byte) (int, *net.UDPAddr, error) {
var timeoutCh <-chan time.Time
if !t.readDeadline.IsZero() {
timeoutCh = time.After(t.readDeadline.Sub(time.Now()))
}
select {
case packet := <-t.toRead:
n := copy(b, packet.data)
return n, packet.addr, nil
case <-timeoutCh:
return 0, nil, timeoutErr{errors.Err("timeout")}
}
}
func (t testUDPConn) WriteToUDP(b []byte, addr *net.UDPAddr) (int, error) {
t.writes <- testUDPPacket{data: b, addr: addr}
return len(b), nil
}
func (t *testUDPConn) SetReadDeadline(tm time.Time) error {
t.readDeadline = tm
return nil
}
func (t *testUDPConn) SetWriteDeadline(tm time.Time) error {
return nil
}
func (t *testUDPConn) Close() error {
t.toRead = nil
t.writes = nil
return nil
}
func verifyResponse(t *testing.T, resp map[string]interface{}, id messageID, dhtNodeID string) {
if len(resp) != 4 {
t.Errorf("expected 4 response fields, got %d", len(resp))
}
_, ok := resp[headerTypeField]
if !ok {
t.Error("missing type field")
} else {
rType, ok := resp[headerTypeField].(int64)
if !ok {
t.Error("type is not an integer")
} else if rType != responseType {
t.Error("unexpected response type")
}
}
_, ok = resp[headerMessageIDField]
if !ok {
t.Error("missing message id field")
} else {
rMessageID, ok := resp[headerMessageIDField].(string)
if !ok {
t.Error("message ID is not a string")
} else if rMessageID != string(id[:]) {
t.Error("unexpected message ID")
}
if len(rMessageID) != messageIDLength {
t.Errorf("message ID should be %d chars long", messageIDLength)
}
}
_, ok = resp[headerNodeIDField]
if !ok {
t.Error("missing node id field")
} else {
rNodeID, ok := resp[headerNodeIDField].(string)
if !ok {
t.Error("node ID is not a string")
} else if rNodeID != dhtNodeID {
t.Error("unexpected node ID")
}
if len(rNodeID) != nodeIDLength {
t.Errorf("node ID should be %d chars long", nodeIDLength)
}
}
}
func verifyContacts(t *testing.T, contacts []interface{}, nodes []Contact) {
if len(contacts) != len(nodes) {
t.Errorf("got %d contacts; expected %d", len(contacts), len(nodes))
return
}
foundNodes := make(map[string]bool)
for _, c := range contacts {
contact, ok := c.([]interface{})
if !ok {
t.Error("contact is not a list")
return
}
if len(contact) != 3 {
t.Error("contact must be 3 items")
return
}
var currNode Contact
currNodeFound := false
id, ok := contact[0].(string)
if !ok {
t.Error("contact id is not a string")
} else {
if _, ok := foundNodes[id]; ok {
t.Errorf("contact %s appears multiple times", id)
continue
}
for _, n := range nodes {
if n.id.RawString() == id {
currNode = n
currNodeFound = true
foundNodes[id] = true
break
}
}
if !currNodeFound {
t.Errorf("unexpected contact %s", id)
continue
}
}
ip, ok := contact[1].(string)
if !ok {
t.Error("contact IP is not a string")
} else if !currNode.ip.Equal(net.ParseIP(ip)) {
t.Errorf("contact IP mismatch. got %s; expected %s", ip, currNode.ip.String())
}
port, ok := contact[2].(int64)
if !ok {
t.Error("contact port is not an int")
} else if int(port) != currNode.port {
t.Errorf("contact port mismatch. got %d; expected %d", port, currNode.port)
}
}
}
func verifyCompactContacts(t *testing.T, contacts []interface{}, nodes []Contact) {
if len(contacts) != len(nodes) {
t.Errorf("got %d contacts; expected %d", len(contacts), len(nodes))
return
}
foundNodes := make(map[string]bool)
for _, c := range contacts {
compact, ok := c.(string)
if !ok {
t.Error("contact is not a string")
return
}
contact := Contact{}
err := contact.UnmarshalCompact([]byte(compact))
if err != nil {
t.Error(err)
return
}
var currNode Contact
currNodeFound := false
if _, ok := foundNodes[contact.id.Hex()]; ok {
t.Errorf("contact %s appears multiple times", contact.id.Hex())
continue
}
for _, n := range nodes {
if n.id.Equals(contact.id) {
currNode = n
currNodeFound = true
foundNodes[contact.id.Hex()] = true
break
}
}
if !currNodeFound {
t.Errorf("unexpected contact %s", contact.id.Hex())
continue
}
if !currNode.ip.Equal(contact.ip) {
t.Errorf("contact IP mismatch. got %s; expected %s", contact.ip.String(), currNode.ip.String())
}
if contact.port != currNode.port {
t.Errorf("contact port mismatch. got %d; expected %d", contact.port, currNode.port)
}
}
}