ceph-csi/vendor/google.golang.org/grpc/test/channelz_test.go

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2018-07-18 14:47:22 +00:00
/*
*
* Copyright 2018 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
package test
import (
"fmt"
"net"
"sync"
"testing"
"time"
"golang.org/x/net/context"
"golang.org/x/net/http2"
"google.golang.org/grpc"
_ "google.golang.org/grpc/balancer/grpclb"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/internal/channelz"
"google.golang.org/grpc/internal/leakcheck"
"google.golang.org/grpc/keepalive"
"google.golang.org/grpc/resolver"
"google.golang.org/grpc/resolver/manual"
"google.golang.org/grpc/status"
testpb "google.golang.org/grpc/test/grpc_testing"
)
func init() {
channelz.TurnOn()
}
func (te *test) startServers(ts testpb.TestServiceServer, num int) {
for i := 0; i < num; i++ {
te.startServer(ts)
te.srvs = append(te.srvs, te.srv)
te.srvAddrs = append(te.srvAddrs, te.srvAddr)
te.srv = nil
te.srvAddr = ""
}
}
func verifyResultWithDelay(f func() (bool, error)) error {
var ok bool
var err error
for i := 0; i < 1000; i++ {
if ok, err = f(); ok {
return nil
}
time.Sleep(10 * time.Millisecond)
}
return err
}
func TestCZServerRegistrationAndDeletion(t *testing.T) {
defer leakcheck.Check(t)
testcases := []struct {
total int
start int64
length int
end bool
}{
{total: channelz.EntryPerPage, start: 0, length: channelz.EntryPerPage, end: true},
{total: channelz.EntryPerPage - 1, start: 0, length: channelz.EntryPerPage - 1, end: true},
{total: channelz.EntryPerPage + 1, start: 0, length: channelz.EntryPerPage, end: false},
{total: channelz.EntryPerPage + 1, start: int64(2*(channelz.EntryPerPage+1) + 1), length: 0, end: true},
}
for _, c := range testcases {
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.startServers(&testServer{security: e.security}, c.total)
ss, end := channelz.GetServers(c.start)
if len(ss) != c.length || end != c.end {
t.Fatalf("GetServers(%d) = %+v (len of which: %d), end: %+v, want len(GetServers(%d)) = %d, end: %+v", c.start, ss, len(ss), end, c.start, c.length, c.end)
}
te.tearDown()
ss, end = channelz.GetServers(c.start)
if len(ss) != 0 || !end {
t.Fatalf("GetServers(0) = %+v (len of which: %d), end: %+v, want len(GetServers(0)) = 0, end: true", ss, len(ss), end)
}
}
}
func TestCZTopChannelRegistrationAndDeletion(t *testing.T) {
defer leakcheck.Check(t)
testcases := []struct {
total int
start int64
length int
end bool
}{
{total: channelz.EntryPerPage, start: 0, length: channelz.EntryPerPage, end: true},
{total: channelz.EntryPerPage - 1, start: 0, length: channelz.EntryPerPage - 1, end: true},
{total: channelz.EntryPerPage + 1, start: 0, length: channelz.EntryPerPage, end: false},
{total: channelz.EntryPerPage + 1, start: int64(2*(channelz.EntryPerPage+1) + 1), length: 0, end: true},
}
for _, c := range testcases {
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
var ccs []*grpc.ClientConn
for i := 0; i < c.total; i++ {
cc := te.clientConn()
te.cc = nil
// avoid making next dial blocking
te.srvAddr = ""
ccs = append(ccs, cc)
}
if err := verifyResultWithDelay(func() (bool, error) {
if tcs, end := channelz.GetTopChannels(c.start); len(tcs) != c.length || end != c.end {
return false, fmt.Errorf("GetTopChannels(%d) = %+v (len of which: %d), end: %+v, want len(GetTopChannels(%d)) = %d, end: %+v", c.start, tcs, len(tcs), end, c.start, c.length, c.end)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
for _, cc := range ccs {
cc.Close()
}
if err := verifyResultWithDelay(func() (bool, error) {
if tcs, end := channelz.GetTopChannels(c.start); len(tcs) != 0 || !end {
return false, fmt.Errorf("GetTopChannels(0) = %+v (len of which: %d), end: %+v, want len(GetTopChannels(0)) = 0, end: true", tcs, len(tcs), end)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
te.tearDown()
}
}
func TestCZNestedChannelRegistrationAndDeletion(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
// avoid calling API to set balancer type, which will void service config's change of balancer.
e.balancer = ""
te := newTest(t, e)
r, cleanup := manual.GenerateAndRegisterManualResolver()
defer cleanup()
resolvedAddrs := []resolver.Address{{Addr: "127.0.0.1:0", Type: resolver.GRPCLB, ServerName: "grpclb.server"}}
r.InitialAddrs(resolvedAddrs)
te.resolverScheme = r.Scheme()
te.clientConn()
defer te.tearDown()
if err := verifyResultWithDelay(func() (bool, error) {
tcs, _ := channelz.GetTopChannels(0)
if len(tcs) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tcs))
}
if len(tcs[0].NestedChans) != 1 {
return false, fmt.Errorf("There should be one nested channel from grpclb, not %d", len(tcs[0].NestedChans))
}
return true, nil
}); err != nil {
t.Fatal(err)
}
r.NewServiceConfig(`{"loadBalancingPolicy": "round_robin"}`)
r.NewAddress([]resolver.Address{{Addr: "127.0.0.1:0"}})
// wait for the shutdown of grpclb balancer
if err := verifyResultWithDelay(func() (bool, error) {
tcs, _ := channelz.GetTopChannels(0)
if len(tcs) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tcs))
}
if len(tcs[0].NestedChans) != 0 {
return false, fmt.Errorf("There should be 0 nested channel from grpclb, not %d", len(tcs[0].NestedChans))
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZClientSubChannelSocketRegistrationAndDeletion(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
num := 3 // number of backends
te := newTest(t, e)
var svrAddrs []resolver.Address
te.startServers(&testServer{security: e.security}, num)
r, cleanup := manual.GenerateAndRegisterManualResolver()
defer cleanup()
for _, a := range te.srvAddrs {
svrAddrs = append(svrAddrs, resolver.Address{Addr: a})
}
r.InitialAddrs(svrAddrs)
te.resolverScheme = r.Scheme()
te.clientConn()
defer te.tearDown()
// Here, we just wait for all sockets to be up. In the future, if we implement
// IDLE, we may need to make several rpc calls to create the sockets.
if err := verifyResultWithDelay(func() (bool, error) {
tcs, _ := channelz.GetTopChannels(0)
if len(tcs) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tcs))
}
if len(tcs[0].SubChans) != num {
return false, fmt.Errorf("There should be %d subchannel not %d", num, len(tcs[0].SubChans))
}
count := 0
for k := range tcs[0].SubChans {
sc := channelz.GetSubChannel(k)
if sc == nil {
return false, fmt.Errorf("got <nil> subchannel")
}
count += len(sc.Sockets)
}
if count != num {
return false, fmt.Errorf("There should be %d sockets not %d", num, count)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
r.NewAddress(svrAddrs[:len(svrAddrs)-1])
if err := verifyResultWithDelay(func() (bool, error) {
tcs, _ := channelz.GetTopChannels(0)
if len(tcs) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tcs))
}
if len(tcs[0].SubChans) != num-1 {
return false, fmt.Errorf("There should be %d subchannel not %d", num-1, len(tcs[0].SubChans))
}
count := 0
for k := range tcs[0].SubChans {
sc := channelz.GetSubChannel(k)
if sc == nil {
return false, fmt.Errorf("got <nil> subchannel")
}
count += len(sc.Sockets)
}
if count != num-1 {
return false, fmt.Errorf("There should be %d sockets not %d", num-1, count)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZServerSocketRegistrationAndDeletion(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
num := 3 // number of clients
te := newTest(t, e)
te.startServer(&testServer{security: e.security})
defer te.tearDown()
var ccs []*grpc.ClientConn
for i := 0; i < num; i++ {
cc := te.clientConn()
te.cc = nil
ccs = append(ccs, cc)
}
defer func() {
for _, c := range ccs[:len(ccs)-1] {
c.Close()
}
}()
var svrID int64
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
if len(ss[0].ListenSockets) != 1 {
return false, fmt.Errorf("There should only be one server listen socket, not %d", len(ss[0].ListenSockets))
}
ns, _ := channelz.GetServerSockets(ss[0].ID, 0)
if len(ns) != num {
return false, fmt.Errorf("There should be %d normal sockets not %d", num, len(ns))
}
svrID = ss[0].ID
return true, nil
}); err != nil {
t.Fatal(err)
}
ccs[len(ccs)-1].Close()
if err := verifyResultWithDelay(func() (bool, error) {
ns, _ := channelz.GetServerSockets(svrID, 0)
if len(ns) != num-1 {
return false, fmt.Errorf("There should be %d normal sockets not %d", num-1, len(ns))
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZServerListenSocketDeletion(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
s := grpc.NewServer()
lis, err := net.Listen("tcp", "localhost:0")
if err != nil {
t.Fatalf("failed to listen: %v", err)
}
go s.Serve(lis)
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
if len(ss[0].ListenSockets) != 1 {
return false, fmt.Errorf("There should only be one server listen socket, not %d", len(ss[0].ListenSockets))
}
return true, nil
}); err != nil {
t.Fatal(err)
}
lis.Close()
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should be 1 server, not %d", len(ss))
}
return true, nil
}); err != nil {
t.Fatal(err)
}
s.Stop()
}
type dummyChannel struct{}
func (d *dummyChannel) ChannelzMetric() *channelz.ChannelInternalMetric {
return &channelz.ChannelInternalMetric{}
}
type dummySocket struct{}
func (d *dummySocket) ChannelzMetric() *channelz.SocketInternalMetric {
return &channelz.SocketInternalMetric{}
}
func TestCZRecusivelyDeletionOfEntry(t *testing.T) {
// +--+TopChan+---+
// | |
// v v
// +-+SubChan1+--+ SubChan2
// | |
// v v
// Socket1 Socket2
channelz.NewChannelzStorage()
topChanID := channelz.RegisterChannel(&dummyChannel{}, 0, "")
subChanID1 := channelz.RegisterSubChannel(&dummyChannel{}, topChanID, "")
subChanID2 := channelz.RegisterSubChannel(&dummyChannel{}, topChanID, "")
sktID1 := channelz.RegisterNormalSocket(&dummySocket{}, subChanID1, "")
sktID2 := channelz.RegisterNormalSocket(&dummySocket{}, subChanID1, "")
tcs, _ := channelz.GetTopChannels(0)
if tcs == nil || len(tcs) != 1 {
t.Fatalf("There should be one TopChannel entry")
}
if len(tcs[0].SubChans) != 2 {
t.Fatalf("There should be two SubChannel entries")
}
sc := channelz.GetSubChannel(subChanID1)
if sc == nil || len(sc.Sockets) != 2 {
t.Fatalf("There should be two Socket entries")
}
channelz.RemoveEntry(topChanID)
tcs, _ = channelz.GetTopChannels(0)
if tcs == nil || len(tcs) != 1 {
t.Fatalf("There should be one TopChannel entry")
}
channelz.RemoveEntry(subChanID1)
channelz.RemoveEntry(subChanID2)
tcs, _ = channelz.GetTopChannels(0)
if tcs == nil || len(tcs) != 1 {
t.Fatalf("There should be one TopChannel entry")
}
if len(tcs[0].SubChans) != 1 {
t.Fatalf("There should be one SubChannel entry")
}
channelz.RemoveEntry(sktID1)
channelz.RemoveEntry(sktID2)
tcs, _ = channelz.GetTopChannels(0)
if tcs != nil {
t.Fatalf("There should be no TopChannel entry")
}
}
func TestCZChannelMetrics(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
num := 3 // number of backends
te := newTest(t, e)
te.maxClientSendMsgSize = newInt(8)
var svrAddrs []resolver.Address
te.startServers(&testServer{security: e.security}, num)
r, cleanup := manual.GenerateAndRegisterManualResolver()
defer cleanup()
for _, a := range te.srvAddrs {
svrAddrs = append(svrAddrs, resolver.Address{Addr: a})
}
r.InitialAddrs(svrAddrs)
te.resolverScheme = r.Scheme()
cc := te.clientConn()
defer te.tearDown()
tc := testpb.NewTestServiceClient(cc)
if _, err := tc.EmptyCall(context.Background(), &testpb.Empty{}); err != nil {
t.Fatalf("TestService/EmptyCall(_, _) = _, %v, want _, <nil>", err)
}
const smallSize = 1
const largeSize = 8
largePayload, err := newPayload(testpb.PayloadType_COMPRESSABLE, largeSize)
if err != nil {
t.Fatal(err)
}
req := &testpb.SimpleRequest{
ResponseType: testpb.PayloadType_COMPRESSABLE,
ResponseSize: int32(smallSize),
Payload: largePayload,
}
if _, err := tc.UnaryCall(context.Background(), req); err == nil || status.Code(err) != codes.ResourceExhausted {
t.Fatalf("TestService/UnaryCall(_, _) = _, %v, want _, error code: %s", err, codes.ResourceExhausted)
}
stream, err := tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("%v.FullDuplexCall(_) = _, %v, want <nil>", tc, err)
}
defer stream.CloseSend()
// Here, we just wait for all sockets to be up. In the future, if we implement
// IDLE, we may need to make several rpc calls to create the sockets.
if err := verifyResultWithDelay(func() (bool, error) {
tcs, _ := channelz.GetTopChannels(0)
if len(tcs) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tcs))
}
if len(tcs[0].SubChans) != num {
return false, fmt.Errorf("There should be %d subchannel not %d", num, len(tcs[0].SubChans))
}
var cst, csu, cf int64
for k := range tcs[0].SubChans {
sc := channelz.GetSubChannel(k)
if sc == nil {
return false, fmt.Errorf("got <nil> subchannel")
}
cst += sc.ChannelData.CallsStarted
csu += sc.ChannelData.CallsSucceeded
cf += sc.ChannelData.CallsFailed
}
if cst != 3 {
return false, fmt.Errorf("There should be 3 CallsStarted not %d", cst)
}
if csu != 1 {
return false, fmt.Errorf("There should be 1 CallsSucceeded not %d", csu)
}
if cf != 1 {
return false, fmt.Errorf("There should be 1 CallsFailed not %d", cf)
}
if tcs[0].ChannelData.CallsStarted != 3 {
return false, fmt.Errorf("There should be 3 CallsStarted not %d", tcs[0].ChannelData.CallsStarted)
}
if tcs[0].ChannelData.CallsSucceeded != 1 {
return false, fmt.Errorf("There should be 1 CallsSucceeded not %d", tcs[0].ChannelData.CallsSucceeded)
}
if tcs[0].ChannelData.CallsFailed != 1 {
return false, fmt.Errorf("There should be 1 CallsFailed not %d", tcs[0].ChannelData.CallsFailed)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZServerMetrics(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.maxServerReceiveMsgSize = newInt(8)
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc := te.clientConn()
tc := testpb.NewTestServiceClient(cc)
if _, err := tc.EmptyCall(context.Background(), &testpb.Empty{}); err != nil {
t.Fatalf("TestService/EmptyCall(_, _) = _, %v, want _, <nil>", err)
}
const smallSize = 1
const largeSize = 8
largePayload, err := newPayload(testpb.PayloadType_COMPRESSABLE, largeSize)
if err != nil {
t.Fatal(err)
}
req := &testpb.SimpleRequest{
ResponseType: testpb.PayloadType_COMPRESSABLE,
ResponseSize: int32(smallSize),
Payload: largePayload,
}
if _, err := tc.UnaryCall(context.Background(), req); err == nil || status.Code(err) != codes.ResourceExhausted {
t.Fatalf("TestService/UnaryCall(_, _) = _, %v, want _, error code: %s", err, codes.ResourceExhausted)
}
stream, err := tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("%v.FullDuplexCall(_) = _, %v, want <nil>", tc, err)
}
defer stream.CloseSend()
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
if ss[0].ServerData.CallsStarted != 3 {
return false, fmt.Errorf("There should be 3 CallsStarted not %d", ss[0].ServerData.CallsStarted)
}
if ss[0].ServerData.CallsSucceeded != 1 {
return false, fmt.Errorf("There should be 1 CallsSucceeded not %d", ss[0].ServerData.CallsSucceeded)
}
if ss[0].ServerData.CallsFailed != 1 {
return false, fmt.Errorf("There should be 1 CallsFailed not %d", ss[0].ServerData.CallsFailed)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
type testServiceClientWrapper struct {
testpb.TestServiceClient
mu sync.RWMutex
streamsCreated int
}
func (t *testServiceClientWrapper) getCurrentStreamID() uint32 {
t.mu.RLock()
defer t.mu.RUnlock()
return uint32(2*t.streamsCreated - 1)
}
func (t *testServiceClientWrapper) EmptyCall(ctx context.Context, in *testpb.Empty, opts ...grpc.CallOption) (*testpb.Empty, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.EmptyCall(ctx, in, opts...)
}
func (t *testServiceClientWrapper) UnaryCall(ctx context.Context, in *testpb.SimpleRequest, opts ...grpc.CallOption) (*testpb.SimpleResponse, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.UnaryCall(ctx, in, opts...)
}
func (t *testServiceClientWrapper) StreamingOutputCall(ctx context.Context, in *testpb.StreamingOutputCallRequest, opts ...grpc.CallOption) (testpb.TestService_StreamingOutputCallClient, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.StreamingOutputCall(ctx, in, opts...)
}
func (t *testServiceClientWrapper) StreamingInputCall(ctx context.Context, opts ...grpc.CallOption) (testpb.TestService_StreamingInputCallClient, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.StreamingInputCall(ctx, opts...)
}
func (t *testServiceClientWrapper) FullDuplexCall(ctx context.Context, opts ...grpc.CallOption) (testpb.TestService_FullDuplexCallClient, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.FullDuplexCall(ctx, opts...)
}
func (t *testServiceClientWrapper) HalfDuplexCall(ctx context.Context, opts ...grpc.CallOption) (testpb.TestService_HalfDuplexCallClient, error) {
t.mu.Lock()
defer t.mu.Unlock()
t.streamsCreated++
return t.TestServiceClient.HalfDuplexCall(ctx, opts...)
}
func doSuccessfulUnaryCall(tc testpb.TestServiceClient, t *testing.T) {
if _, err := tc.EmptyCall(context.Background(), &testpb.Empty{}); err != nil {
t.Fatalf("TestService/EmptyCall(_, _) = _, %v, want _, <nil>", err)
}
}
func doStreamingInputCallWithLargePayload(tc testpb.TestServiceClient, t *testing.T) {
s, err := tc.StreamingInputCall(context.Background())
if err != nil {
t.Fatalf("TestService/StreamingInputCall(_) = _, %v, want <nil>", err)
}
payload, err := newPayload(testpb.PayloadType_COMPRESSABLE, 10000)
if err != nil {
t.Fatal(err)
}
s.Send(&testpb.StreamingInputCallRequest{Payload: payload})
}
func doServerSideFailedUnaryCall(tc testpb.TestServiceClient, t *testing.T) {
const smallSize = 1
const largeSize = 2000
largePayload, err := newPayload(testpb.PayloadType_COMPRESSABLE, largeSize)
if err != nil {
t.Fatal(err)
}
req := &testpb.SimpleRequest{
ResponseType: testpb.PayloadType_COMPRESSABLE,
ResponseSize: int32(smallSize),
Payload: largePayload,
}
if _, err := tc.UnaryCall(context.Background(), req); err == nil || status.Code(err) != codes.ResourceExhausted {
t.Fatalf("TestService/UnaryCall(_, _) = _, %v, want _, error code: %s", err, codes.ResourceExhausted)
}
}
func doClientSideInitiatedFailedStream(tc testpb.TestServiceClient, t *testing.T) {
ctx, cancel := context.WithCancel(context.Background())
stream, err := tc.FullDuplexCall(ctx)
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
const smallSize = 1
smallPayload, err := newPayload(testpb.PayloadType_COMPRESSABLE, smallSize)
if err != nil {
t.Fatal(err)
}
sreq := &testpb.StreamingOutputCallRequest{
ResponseType: testpb.PayloadType_COMPRESSABLE,
ResponseParameters: []*testpb.ResponseParameters{
{Size: smallSize},
},
Payload: smallPayload,
}
if err := stream.Send(sreq); err != nil {
t.Fatalf("%v.Send(%v) = %v, want <nil>", stream, sreq, err)
}
if _, err := stream.Recv(); err != nil {
t.Fatalf("%v.Recv() = %v, want <nil>", stream, err)
}
// By canceling the call, the client will send rst_stream to end the call, and
// the stream will failed as a result.
cancel()
}
// This func is to be used to test client side counting of failed streams.
func doServerSideInitiatedFailedStreamWithRSTStream(tc testpb.TestServiceClient, t *testing.T, l *listenerWrapper) {
stream, err := tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
const smallSize = 1
smallPayload, err := newPayload(testpb.PayloadType_COMPRESSABLE, smallSize)
if err != nil {
t.Fatal(err)
}
sreq := &testpb.StreamingOutputCallRequest{
ResponseType: testpb.PayloadType_COMPRESSABLE,
ResponseParameters: []*testpb.ResponseParameters{
{Size: smallSize},
},
Payload: smallPayload,
}
if err := stream.Send(sreq); err != nil {
t.Fatalf("%v.Send(%v) = %v, want <nil>", stream, sreq, err)
}
if _, err := stream.Recv(); err != nil {
t.Fatalf("%v.Recv() = %v, want <nil>", stream, err)
}
rcw := l.getLastConn()
if rcw != nil {
rcw.writeRSTStream(tc.(*testServiceClientWrapper).getCurrentStreamID(), http2.ErrCodeCancel)
}
if _, err := stream.Recv(); err == nil {
t.Fatalf("%v.Recv() = %v, want <non-nil>", stream, err)
}
}
// this func is to be used to test client side counting of failed streams.
func doServerSideInitiatedFailedStreamWithGoAway(tc testpb.TestServiceClient, t *testing.T, l *listenerWrapper) {
// This call is just to keep the transport from shutting down (socket will be deleted
// in this case, and we will not be able to get metrics).
s, err := tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
if err := s.Send(&testpb.StreamingOutputCallRequest{ResponseParameters: []*testpb.ResponseParameters{
{
Size: 1,
},
}}); err != nil {
t.Fatalf("s.Send() failed with error: %v", err)
}
if _, err := s.Recv(); err != nil {
t.Fatalf("s.Recv() failed with error: %v", err)
}
s, err = tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
if err := s.Send(&testpb.StreamingOutputCallRequest{ResponseParameters: []*testpb.ResponseParameters{
{
Size: 1,
},
}}); err != nil {
t.Fatalf("s.Send() failed with error: %v", err)
}
if _, err := s.Recv(); err != nil {
t.Fatalf("s.Recv() failed with error: %v", err)
}
rcw := l.getLastConn()
if rcw != nil {
rcw.writeGoAway(tc.(*testServiceClientWrapper).getCurrentStreamID()-2, http2.ErrCodeCancel, []byte{})
}
if _, err := s.Recv(); err == nil {
t.Fatalf("%v.Recv() = %v, want <non-nil>", s, err)
}
}
// this func is to be used to test client side counting of failed streams.
func doServerSideInitiatedFailedStreamWithClientBreakFlowControl(tc testpb.TestServiceClient, t *testing.T, dw *dialerWrapper) {
stream, err := tc.FullDuplexCall(context.Background())
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
// sleep here to make sure header frame being sent before the data frame we write directly below.
time.Sleep(10 * time.Millisecond)
payload := make([]byte, 65537, 65537)
dw.getRawConnWrapper().writeRawFrame(http2.FrameData, 0, tc.(*testServiceClientWrapper).getCurrentStreamID(), payload)
if _, err := stream.Recv(); err == nil || status.Code(err) != codes.ResourceExhausted {
t.Fatalf("%v.Recv() = %v, want error code: %v", stream, err, codes.ResourceExhausted)
}
}
func doIdleCallToInvokeKeepAlive(tc testpb.TestServiceClient, t *testing.T) {
ctx, cancel := context.WithCancel(context.Background())
_, err := tc.FullDuplexCall(ctx)
if err != nil {
t.Fatalf("TestService/FullDuplexCall(_) = _, %v, want <nil>", err)
}
// 2500ms allow for 2 keepalives (1000ms per round trip)
time.Sleep(2500 * time.Millisecond)
cancel()
}
func TestCZClientSocketMetricsStreamsAndMessagesCount(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.maxServerReceiveMsgSize = newInt(20)
te.maxClientReceiveMsgSize = newInt(20)
rcw := te.startServerWithConnControl(&testServer{security: e.security})
defer te.tearDown()
cc := te.clientConn()
tc := &testServiceClientWrapper{TestServiceClient: testpb.NewTestServiceClient(cc)}
doSuccessfulUnaryCall(tc, t)
var scID, skID int64
if err := verifyResultWithDelay(func() (bool, error) {
tchan, _ := channelz.GetTopChannels(0)
if len(tchan) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tchan))
}
if len(tchan[0].SubChans) != 1 {
return false, fmt.Errorf("There should only be one subchannel under top channel %d, not %d", tchan[0].ID, len(tchan[0].SubChans))
}
for scID = range tchan[0].SubChans {
break
}
sc := channelz.GetSubChannel(scID)
if sc == nil {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not 0", scID)
}
if len(sc.Sockets) != 1 {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not %d", sc.ID, len(sc.Sockets))
}
for skID = range sc.Sockets {
break
}
skt := channelz.GetSocket(skID)
sktData := skt.SocketData
if sktData.StreamsStarted != 1 || sktData.StreamsSucceeded != 1 || sktData.MessagesSent != 1 || sktData.MessagesReceived != 1 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, MessagesSent, MessagesReceived) = (1, 1, 1, 1), got (%d, %d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doServerSideFailedUnaryCall(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(skID)
sktData := skt.SocketData
if sktData.StreamsStarted != 2 || sktData.StreamsSucceeded != 2 || sktData.MessagesSent != 2 || sktData.MessagesReceived != 1 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, MessagesSent, MessagesReceived) = (2, 2, 2, 1), got (%d, %d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doClientSideInitiatedFailedStream(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(skID)
sktData := skt.SocketData
if sktData.StreamsStarted != 3 || sktData.StreamsSucceeded != 2 || sktData.StreamsFailed != 1 || sktData.MessagesSent != 3 || sktData.MessagesReceived != 2 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, StreamsFailed, MessagesSent, MessagesReceived) = (3, 2, 1, 3, 2), got (%d, %d, %d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doServerSideInitiatedFailedStreamWithRSTStream(tc, t, rcw)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(skID)
sktData := skt.SocketData
if sktData.StreamsStarted != 4 || sktData.StreamsSucceeded != 2 || sktData.StreamsFailed != 2 || sktData.MessagesSent != 4 || sktData.MessagesReceived != 3 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, StreamsFailed, MessagesSent, MessagesReceived) = (4, 2, 2, 4, 3), got (%d, %d, %d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doServerSideInitiatedFailedStreamWithGoAway(tc, t, rcw)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(skID)
sktData := skt.SocketData
if sktData.StreamsStarted != 6 || sktData.StreamsSucceeded != 2 || sktData.StreamsFailed != 3 || sktData.MessagesSent != 6 || sktData.MessagesReceived != 5 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, StreamsFailed, MessagesSent, MessagesReceived) = (6, 2, 3, 6, 5), got (%d, %d, %d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
// This test is to complete TestCZClientSocketMetricsStreamsAndMessagesCount and
// TestCZServerSocketMetricsStreamsAndMessagesCount by adding the test case of
// server sending RST_STREAM to client due to client side flow control violation.
// It is separated from other cases due to setup incompatibly, i.e. max receive
// size violation will mask flow control violation.
func TestCZClientAndServerSocketMetricsStreamsCountFlowControlRSTStream(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.serverInitialWindowSize = 65536
// Avoid overflowing connection level flow control window, which will lead to
// transport being closed.
te.serverInitialConnWindowSize = 65536 * 2
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc, dw := te.clientConnWithConnControl()
tc := &testServiceClientWrapper{TestServiceClient: testpb.NewTestServiceClient(cc)}
doServerSideInitiatedFailedStreamWithClientBreakFlowControl(tc, t, dw)
if err := verifyResultWithDelay(func() (bool, error) {
tchan, _ := channelz.GetTopChannels(0)
if len(tchan) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tchan))
}
if len(tchan[0].SubChans) != 1 {
return false, fmt.Errorf("There should only be one subchannel under top channel %d, not %d", tchan[0].ID, len(tchan[0].SubChans))
}
var id int64
for id = range tchan[0].SubChans {
break
}
sc := channelz.GetSubChannel(id)
if sc == nil {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not 0", id)
}
if len(sc.Sockets) != 1 {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not %d", sc.ID, len(sc.Sockets))
}
for id = range sc.Sockets {
break
}
skt := channelz.GetSocket(id)
sktData := skt.SocketData
if sktData.StreamsStarted != 1 || sktData.StreamsSucceeded != 0 || sktData.StreamsFailed != 1 {
return false, fmt.Errorf("channelz.GetSocket(%d), want (StreamsStarted, StreamsSucceeded, StreamsFailed) = (1, 0, 1), got (%d, %d, %d)", skt.ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed)
}
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
ns, _ := channelz.GetServerSockets(ss[0].ID, 0)
if len(ns) != 1 {
return false, fmt.Errorf("There should be one server normal socket, not %d", len(ns))
}
sktData = ns[0].SocketData
if sktData.StreamsStarted != 1 || sktData.StreamsSucceeded != 0 || sktData.StreamsFailed != 1 {
return false, fmt.Errorf("Server socket metric with ID %d, want (StreamsStarted, StreamsSucceeded, StreamsFailed) = (1, 0, 1), got (%d, %d, %d)", ns[0].ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZClientAndServerSocketMetricsFlowControl(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
// disable BDP
te.serverInitialWindowSize = 65536
te.serverInitialConnWindowSize = 65536
te.clientInitialWindowSize = 65536
te.clientInitialConnWindowSize = 65536
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc := te.clientConn()
tc := testpb.NewTestServiceClient(cc)
for i := 0; i < 10; i++ {
doSuccessfulUnaryCall(tc, t)
}
var cliSktID, svrSktID int64
if err := verifyResultWithDelay(func() (bool, error) {
tchan, _ := channelz.GetTopChannels(0)
if len(tchan) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tchan))
}
if len(tchan[0].SubChans) != 1 {
return false, fmt.Errorf("There should only be one subchannel under top channel %d, not %d", tchan[0].ID, len(tchan[0].SubChans))
}
var id int64
for id = range tchan[0].SubChans {
break
}
sc := channelz.GetSubChannel(id)
if sc == nil {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not 0", id)
}
if len(sc.Sockets) != 1 {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not %d", sc.ID, len(sc.Sockets))
}
for id = range sc.Sockets {
break
}
skt := channelz.GetSocket(id)
sktData := skt.SocketData
// 65536 - 5 (Length-Prefixed-Message size) * 10 = 65486
if sktData.LocalFlowControlWindow != 65486 || sktData.RemoteFlowControlWindow != 65486 {
return false, fmt.Errorf("Client: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (65536, 65486), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
ns, _ := channelz.GetServerSockets(ss[0].ID, 0)
sktData = ns[0].SocketData
if sktData.LocalFlowControlWindow != 65486 || sktData.RemoteFlowControlWindow != 65486 {
return false, fmt.Errorf("Server: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (65536, 65486), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
cliSktID, svrSktID = id, ss[0].ID
return true, nil
}); err != nil {
t.Fatal(err)
}
doStreamingInputCallWithLargePayload(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(cliSktID)
sktData := skt.SocketData
// Local: 65536 - 5 (Length-Prefixed-Message size) * 10 = 65486
// Remote: 65536 - 5 (Length-Prefixed-Message size) * 10 - 10011 = 55475
if sktData.LocalFlowControlWindow != 65486 || sktData.RemoteFlowControlWindow != 55475 {
return false, fmt.Errorf("Client: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (65486, 55475), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
ns, _ := channelz.GetServerSockets(svrSktID, 0)
sktData = ns[0].SocketData
if sktData.LocalFlowControlWindow != 55475 || sktData.RemoteFlowControlWindow != 65486 {
return false, fmt.Errorf("Server: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (55475, 65486), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
// triggers transport flow control window update on server side, since unacked
// bytes should be larger than limit now. i.e. 50 + 20022 > 65536/4.
doStreamingInputCallWithLargePayload(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
skt := channelz.GetSocket(cliSktID)
sktData := skt.SocketData
// Local: 65536 - 5 (Length-Prefixed-Message size) * 10 = 65486
// Remote: 65536
if sktData.LocalFlowControlWindow != 65486 || sktData.RemoteFlowControlWindow != 65536 {
return false, fmt.Errorf("Client: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (65486, 65536), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
ns, _ := channelz.GetServerSockets(svrSktID, 0)
sktData = ns[0].SocketData
if sktData.LocalFlowControlWindow != 65536 || sktData.RemoteFlowControlWindow != 65486 {
return false, fmt.Errorf("Server: (LocalFlowControlWindow, RemoteFlowControlWindow) size should be (65536, 65486), not (%d, %d)", sktData.LocalFlowControlWindow, sktData.RemoteFlowControlWindow)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZClientSocketMetricsKeepAlive(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.cliKeepAlive = &keepalive.ClientParameters{Time: 500 * time.Millisecond, Timeout: 500 * time.Millisecond}
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc := te.clientConn()
tc := testpb.NewTestServiceClient(cc)
doIdleCallToInvokeKeepAlive(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
tchan, _ := channelz.GetTopChannels(0)
if len(tchan) != 1 {
return false, fmt.Errorf("There should only be one top channel, not %d", len(tchan))
}
if len(tchan[0].SubChans) != 1 {
return false, fmt.Errorf("There should only be one subchannel under top channel %d, not %d", tchan[0].ID, len(tchan[0].SubChans))
}
var id int64
for id = range tchan[0].SubChans {
break
}
sc := channelz.GetSubChannel(id)
if sc == nil {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not 0", id)
}
if len(sc.Sockets) != 1 {
return false, fmt.Errorf("There should only be one socket under subchannel %d, not %d", sc.ID, len(sc.Sockets))
}
for id = range sc.Sockets {
break
}
skt := channelz.GetSocket(id)
if skt.SocketData.KeepAlivesSent != 2 { // doIdleCallToInvokeKeepAlive func is set up to send 2 KeepAlives.
return false, fmt.Errorf("There should be 2 KeepAlives sent, not %d", skt.SocketData.KeepAlivesSent)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZServerSocketMetricsStreamsAndMessagesCount(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.maxServerReceiveMsgSize = newInt(20)
te.maxClientReceiveMsgSize = newInt(20)
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc, _ := te.clientConnWithConnControl()
tc := &testServiceClientWrapper{TestServiceClient: testpb.NewTestServiceClient(cc)}
var svrID int64
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should only be one server, not %d", len(ss))
}
svrID = ss[0].ID
return true, nil
}); err != nil {
t.Fatal(err)
}
doSuccessfulUnaryCall(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
ns, _ := channelz.GetServerSockets(svrID, 0)
sktData := ns[0].SocketData
if sktData.StreamsStarted != 1 || sktData.StreamsSucceeded != 1 || sktData.StreamsFailed != 0 || sktData.MessagesSent != 1 || sktData.MessagesReceived != 1 {
return false, fmt.Errorf("Server socket metric with ID %d, want (StreamsStarted, StreamsSucceeded, MessagesSent, MessagesReceived) = (1, 1, 1, 1), got (%d, %d, %d, %d, %d)", ns[0].ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doServerSideFailedUnaryCall(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
ns, _ := channelz.GetServerSockets(svrID, 0)
sktData := ns[0].SocketData
if sktData.StreamsStarted != 2 || sktData.StreamsSucceeded != 2 || sktData.StreamsFailed != 0 || sktData.MessagesSent != 1 || sktData.MessagesReceived != 1 {
return false, fmt.Errorf("Server socket metric with ID %d, want (StreamsStarted, StreamsSucceeded, StreamsFailed, MessagesSent, MessagesReceived) = (2, 2, 0, 1, 1), got (%d, %d, %d, %d, %d)", ns[0].ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
doClientSideInitiatedFailedStream(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
ns, _ := channelz.GetServerSockets(svrID, 0)
sktData := ns[0].SocketData
if sktData.StreamsStarted != 3 || sktData.StreamsSucceeded != 2 || sktData.StreamsFailed != 1 || sktData.MessagesSent != 2 || sktData.MessagesReceived != 2 {
return false, fmt.Errorf("Server socket metric with ID %d, want (StreamsStarted, StreamsSucceeded, StreamsFailed, MessagesSent, MessagesReceived) = (3, 2, 1, 2, 2), got (%d, %d, %d, %d, %d)", ns[0].ID, sktData.StreamsStarted, sktData.StreamsSucceeded, sktData.StreamsFailed, sktData.MessagesSent, sktData.MessagesReceived)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}
func TestCZServerSocketMetricsKeepAlive(t *testing.T) {
defer leakcheck.Check(t)
channelz.NewChannelzStorage()
e := tcpClearRREnv
te := newTest(t, e)
te.svrKeepAlive = &keepalive.ServerParameters{Time: 500 * time.Millisecond, Timeout: 500 * time.Millisecond}
te.startServer(&testServer{security: e.security})
defer te.tearDown()
cc := te.clientConn()
tc := testpb.NewTestServiceClient(cc)
doIdleCallToInvokeKeepAlive(tc, t)
if err := verifyResultWithDelay(func() (bool, error) {
ss, _ := channelz.GetServers(0)
if len(ss) != 1 {
return false, fmt.Errorf("There should be one server, not %d", len(ss))
}
ns, _ := channelz.GetServerSockets(ss[0].ID, 0)
if len(ns) != 1 {
return false, fmt.Errorf("There should be one server normal socket, not %d", len(ns))
}
if ns[0].SocketData.KeepAlivesSent != 2 { // doIdleCallToInvokeKeepAlive func is set up to send 2 KeepAlives.
return false, fmt.Errorf("There should be 2 KeepAlives sent, not %d", ns[0].SocketData.KeepAlivesSent)
}
return true, nil
}); err != nil {
t.Fatal(err)
}
}