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close_test.go
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close_test.go
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// Copyright (c) 2015 Uber Technologies, Inc.
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package tchannel_test
import (
"math/rand"
"sync"
"testing"
"time"
. "github.com/uber/tchannel-go"
"github.com/uber/tchannel-go/raw"
"github.com/uber/tchannel-go/testutils"
"github.com/uber/tchannel-go/testutils/goroutines"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"go.uber.org/atomic"
"golang.org/x/net/context"
)
type channelState struct {
testServer *testutils.TestServer
closeCh chan struct{}
closed bool
}
func makeCall(client *Channel, server *testutils.TestServer) error {
ctx, cancel := NewContext(time.Second)
defer cancel()
_, _, _, err := raw.Call(ctx, client, server.HostPort(), server.ServiceName(), "test", nil, nil)
return err
}
func assertStateChangesTo(t testing.TB, ch *Channel, state ChannelState) {
var lastState ChannelState
require.True(t, testutils.WaitFor(time.Second, func() bool {
lastState = ch.State()
return lastState == state
}), "Channel state is %v expected %v", lastState, state)
}
func TestCloseOnlyListening(t *testing.T) {
ch := testutils.NewServer(t, nil)
// If there are no connections, then the channel should close immediately.
ch.Close()
assert.Equal(t, ChannelClosed, ch.State())
assert.True(t, ch.Closed(), "Channel should be closed")
}
func TestCloseNewClient(t *testing.T) {
ch := testutils.NewClient(t, nil)
// If there are no connections, then the channel should close immediately.
ch.Close()
assert.Equal(t, ChannelClosed, ch.State())
assert.True(t, ch.Closed(), "Channel should be closed")
}
func ignoreError(h *testHandler) Handler {
return raw.Wrap(onErrorTestHandler{
testHandler: h,
onError: func(_ context.Context, err error) {},
})
}
func TestCloseAfterTimeout(t *testing.T) {
// Disable log verfication since connections are closed after a timeout
// and the relay might still be reading/writing to the connection.
// TODO: Ideally, we only disable log verification on the relay.
opts := testutils.NewOpts().DisableLogVerification()
testutils.WithTestServer(t, opts, func(t testing.TB, ts *testutils.TestServer) {
testHandler := newTestHandler(t)
ts.Register(ignoreError(testHandler), "block")
ctx, cancel := NewContext(100 * time.Millisecond)
defer cancel()
// Make a call, wait for it to timeout.
clientCh := ts.NewClient(nil)
_, _, _, err := raw.Call(ctx, clientCh, ts.HostPort(), ts.ServiceName(), "block", nil, nil)
require.Equal(t, ErrTimeout, err, "Expected call to timeout")
// The client channel should also close immediately.
clientCh.Close()
assertStateChangesTo(t, clientCh, ChannelClosed)
assert.True(t, clientCh.Closed(), "Channel should be closed")
})
}
func TestRelayCloseTimeout(t *testing.T) {
opts := testutils.NewOpts().
SetRelayOnly(). // this is a relay-specific test.
DisableLogVerification() // we're causing errors on purpose.
opts.DefaultConnectionOptions.MaxCloseTime = 100 * time.Millisecond
testutils.WithTestServer(t, opts, func(t testing.TB, ts *testutils.TestServer) {
gotCall := make(chan struct{})
unblock := make(chan struct{})
defer close(unblock)
testutils.RegisterEcho(ts.Server(), func() {
close(gotCall)
<-unblock
})
clientCh := ts.NewClient(opts)
// Start a call in the background, since it will block
go func() {
ctx, cancel := NewContext(10 * time.Second)
defer cancel()
_, _, _, err := raw.Call(ctx, clientCh, ts.HostPort(), ts.ServiceName(), "echo", nil, nil)
require.Error(t, err)
assert.Equal(t, ErrCodeNetwork, GetSystemErrorCode(err),
"expect network error from relay closing connection on timeout")
}()
<-gotCall
ts.Relay().Close()
// The relay should close within the timeout.
<-ts.Relay().ClosedChan()
})
}
func TestRaceExchangesWithClose(t *testing.T) {
var wg sync.WaitGroup
ctx, cancel := NewContext(testutils.Timeout(70 * time.Millisecond))
defer cancel()
opts := testutils.NewOpts().DisableLogVerification()
testutils.WithTestServer(t, opts, func(t testing.TB, ts *testutils.TestServer) {
server := ts.Server()
gotCall := make(chan struct{})
completeCall := make(chan struct{})
testutils.RegisterFunc(server, "dummy", func(ctx context.Context, args *raw.Args) (*raw.Res, error) {
return &raw.Res{}, nil
})
testutils.RegisterEcho(server, func() {
close(gotCall)
<-completeCall
})
client := ts.NewClient(opts)
defer client.Close()
callDone := make(chan struct{})
go func() {
assert.NoError(t, testutils.CallEcho(client, ts.HostPort(), server.ServiceName(), &raw.Args{}), "Echo failed")
close(callDone)
}()
// Wait until the server recieves a call, so it has an active inbound.
<-gotCall
// Start a bunch of clients to trigger races between connecting and close.
var closed atomic.Bool
for i := 0; i < 100; i++ {
wg.Add(1)
go func() {
defer wg.Done()
// We don't use ts.NewClient here to avoid data races.
c := testutils.NewClient(t, opts)
defer c.Close()
if closed.Load() {
return
}
if err := c.Ping(ctx, ts.HostPort()); err != nil {
return
}
if closed.Load() {
return
}
raw.Call(ctx, c, ts.HostPort(), server.ServiceName(), "dummy", nil, nil)
}()
}
// Now try to close the channel, it should block since there's active exchanges.
server.Close()
closed.Store(true)
assert.Equal(t, ChannelStartClose, ts.Server().State(), "Server should be in StartClose")
closed.Store(true)
close(completeCall)
<-callDone
})
// Wait for all calls to complete
wg.Wait()
}
// TestCloseStress ensures that once a Channel is closed, it cannot be reached.
func TestCloseStress(t *testing.T) {
CheckStress(t)
const numHandlers = 5
handler := &swapper{t}
var lock sync.RWMutex
var wg sync.WaitGroup
var channels []*channelState
// Start numHandlers servers, and don't close the connections till they are signalled.
for i := 0; i < numHandlers; i++ {
wg.Add(1)
go func() {
testutils.WithTestServer(t, nil, func(t testing.TB, ts *testutils.TestServer) {
ts.Register(raw.Wrap(handler), "test")
chState := &channelState{
testServer: ts,
closeCh: make(chan struct{}),
}
lock.Lock()
channels = append(channels, chState)
lock.Unlock()
wg.Done()
// Wait for a close signal.
<-chState.closeCh
// Lock until the connection is closed.
lock.Lock()
chState.closed = true
})
}()
}
// Wait till all the channels have been registered.
wg.Wait()
// Start goroutines to make calls until the test has ended.
testEnded := make(chan struct{})
for i := 0; i < 10; i++ {
go func() {
for {
select {
case <-testEnded:
return
default:
// Keep making requests till the test ends.
}
// Get 2 random channels and make a call from one to the other.
lock.RLock()
chState1 := channels[rand.Intn(len(channels))]
chState2 := channels[rand.Intn(len(channels))]
if chState1 == chState2 {
lock.RUnlock()
continue
}
// Grab a read lock to make sure channels aren't closed while we call.
ch1Closed := chState1.closed
ch2Closed := chState2.closed
err := makeCall(chState1.testServer.NewClient(nil), chState2.testServer)
lock.RUnlock()
if ch1Closed || ch2Closed {
assert.Error(
t,
err,
"Call from %v (%v) to %v (%v) should fail",
chState1.testServer.ServiceName(),
chState1.testServer.HostPort(),
chState2.testServer.ServiceName(),
chState2.testServer.HostPort(),
)
} else {
assert.NoError(
t,
err,
"Call from %v (%v) to %v (%v) should not fail",
chState1.testServer.ServiceName(),
chState1.testServer.HostPort(),
chState2.testServer.ServiceName(),
chState2.testServer.HostPort(),
)
}
}
}()
}
// Kill connections till all of the connections are dead.
for i := 0; i < numHandlers; i++ {
time.Sleep(time.Duration(rand.Intn(50)) * time.Millisecond)
channels[i].closeCh <- struct{}{}
}
}
type closeSemanticsTest struct {
*testing.T
isolated bool
}
func (t *closeSemanticsTest) makeServer(name string) (*Channel, chan struct{}) {
ch := testutils.NewServer(t.T, &testutils.ChannelOpts{ServiceName: name})
c := make(chan struct{})
testutils.RegisterFunc(ch, "stream", func(ctx context.Context, args *raw.Args) (*raw.Res, error) {
<-c
return &raw.Res{}, nil
})
testutils.RegisterFunc(ch, "call", func(ctx context.Context, args *raw.Args) (*raw.Res, error) {
return &raw.Res{}, nil
})
return ch, c
}
func (t *closeSemanticsTest) withNewClient(f func(ch *Channel)) {
ch := testutils.NewClient(t.T, &testutils.ChannelOpts{ServiceName: "client"})
f(ch)
ch.Close()
}
func (t *closeSemanticsTest) startCall(from *Channel, to *Channel, method string) (*OutboundCall, error) {
ctx, _ := NewContext(time.Second)
var call *OutboundCall
var err error
toPeer := to.PeerInfo()
if t.isolated {
sc := from.GetSubChannel(toPeer.ServiceName, Isolated)
sc.Peers().Add(toPeer.HostPort)
call, err = sc.BeginCall(ctx, method, nil)
} else {
call, err = from.BeginCall(ctx, toPeer.HostPort, toPeer.ServiceName, method, nil)
}
return call, err
}
func (t *closeSemanticsTest) call(from *Channel, to *Channel) error {
call, err := t.startCall(from, to, "call")
if err == nil {
_, _, _, err = raw.WriteArgs(call, nil, nil)
}
return err
}
func (t *closeSemanticsTest) callStream(from *Channel, to *Channel) <-chan struct{} {
c := make(chan struct{})
call, err := t.startCall(from, to, "stream")
require.NoError(t, err, "stream call failed to start")
require.NoError(t, NewArgWriter(call.Arg2Writer()).Write(nil), "write arg2")
require.NoError(t, NewArgWriter(call.Arg3Writer()).Write(nil), "write arg3")
go func() {
var d []byte
assert.NoError(t, NewArgReader(call.Response().Arg2Reader()).Read(&d), "read arg2 from %v to %v", from.PeerInfo(), to.PeerInfo())
assert.NoError(t, NewArgReader(call.Response().Arg3Reader()).Read(&d), "read arg3")
c <- struct{}{}
}()
return c
}
func (t *closeSemanticsTest) runTest() {
s1, s1C := t.makeServer("s1")
s2, s2C := t.makeServer("s2")
// Make a call from s1 -> s2, and s2 -> s1
call1 := t.callStream(s1, s2)
call2 := t.callStream(s2, s1)
// s1 and s2 are both open, so calls to it should be successful.
t.withNewClient(func(ch *Channel) {
require.NoError(t, t.call(ch, s1), "failed to call s1")
require.NoError(t, t.call(ch, s2), "failed to call s2")
})
require.NoError(t, t.call(s1, s2), "call s1 -> s2 failed")
require.NoError(t, t.call(s2, s1), "call s2 -> s1 failed")
// Close s1, should no longer be able to call it.
s1.Close()
assert.Equal(t, ChannelStartClose, s1.State())
t.withNewClient(func(ch *Channel) {
assert.Error(t, t.call(ch, s1), "closed channel should not accept incoming calls")
require.NoError(t, t.call(ch, s2),
"closed channel with pending incoming calls should allow outgoing calls")
})
// Even an existing connection (e.g. from s2) should fail.
// TODO: this will fail until the peer is shared.
if !assert.Equal(t, ErrChannelClosed, t.call(s2, s1),
"closed channel should not accept incoming calls") {
t.Errorf("err %v", t.call(s2, s1))
}
require.Error(t, t.call(s1, s2),
"closed channel with pending incoming calls disallows outgoing calls")
// Once the incoming connection is drained, outgoing calls should fail.
s1C <- struct{}{}
<-call2
assertStateChangesTo(t.T, s1, ChannelInboundClosed)
require.Error(t, t.call(s1, s2),
"closed channel with no pending incoming calls should not allow outgoing calls")
// Now the channel should be completely closed as there are no pending connections.
s2C <- struct{}{}
<-call1
assertStateChangesTo(t.T, s1, ChannelClosed)
// Close s2 so we don't leave any goroutines running.
s2.Close()
}
func TestCloseSemantics(t *testing.T) {
// We defer the check as we want it to run after the SetTimeout clears the timeout.
defer goroutines.VerifyNoLeaks(t, nil)
defer testutils.SetTimeout(t, 2*time.Second)()
ct := &closeSemanticsTest{t, false /* isolated */}
ct.runTest()
}
func TestCloseSemanticsIsolated(t *testing.T) {
// We defer the check as we want it to run after the SetTimeout clears the timeout.
defer goroutines.VerifyNoLeaks(t, nil)
defer testutils.SetTimeout(t, 2*time.Second)()
ct := &closeSemanticsTest{t, true /* isolated */}
ct.runTest()
}
func TestCloseSingleChannel(t *testing.T) {
ch := testutils.NewServer(t, nil)
var connected sync.WaitGroup
var completed sync.WaitGroup
blockCall := make(chan struct{})
testutils.RegisterFunc(ch, "echo", func(ctx context.Context, args *raw.Args) (*raw.Res, error) {
connected.Done()
<-blockCall
return &raw.Res{
Arg2: args.Arg2,
Arg3: args.Arg3,
}, nil
})
for i := 0; i < 10; i++ {
connected.Add(1)
completed.Add(1)
go func() {
ctx, cancel := NewContext(time.Second)
defer cancel()
peerInfo := ch.PeerInfo()
_, _, _, err := raw.Call(ctx, ch, peerInfo.HostPort, peerInfo.ServiceName, "echo", nil, nil)
assert.NoError(t, err, "Call failed")
completed.Done()
}()
}
// Wait for all calls to connect before triggerring the Close (so they do not fail).
connected.Wait()
ch.Close()
// Unblock the calls, and wait for all the calls to complete.
close(blockCall)
completed.Wait()
// Once all calls are complete, the channel should be closed.
assertStateChangesTo(t, ch, ChannelClosed)
goroutines.VerifyNoLeaks(t, nil)
}
func TestCloseOneSide(t *testing.T) {
ch1 := testutils.NewServer(t, &testutils.ChannelOpts{ServiceName: "client"})
ch2 := testutils.NewServer(t, &testutils.ChannelOpts{ServiceName: "server"})
connected := make(chan struct{})
completed := make(chan struct{})
blockCall := make(chan struct{})
testutils.RegisterFunc(ch2, "echo", func(ctx context.Context, args *raw.Args) (*raw.Res, error) {
connected <- struct{}{}
<-blockCall
return &raw.Res{
Arg2: args.Arg2,
Arg3: args.Arg3,
}, nil
})
go func() {
ctx, cancel := NewContext(time.Second)
defer cancel()
ch2Peer := ch2.PeerInfo()
_, _, _, err := raw.Call(ctx, ch1, ch2Peer.HostPort, ch2Peer.ServiceName, "echo", nil, nil)
assert.NoError(t, err, "Call failed")
completed <- struct{}{}
}()
// Wait for connected before calling Close.
<-connected
ch1.Close()
// Now unblock the call and wait for the call to complete.
close(blockCall)
<-completed
// Once the call completes, the channel should be closed.
assertStateChangesTo(t, ch1, ChannelClosed)
// We need to close all open TChannels before verifying blocked goroutines.
ch2.Close()
goroutines.VerifyNoLeaks(t, nil)
}
// TestCloseSendError tests that system errors are not attempted to be sent when
// a connection is closed, and ensures there's no race conditions such as the error
// frame being added to the channel just as it is closed.
func TestCloseSendError(t *testing.T) {
var (
closed atomic.Uint32
counter atomic.Uint32
)
opts := testutils.NewOpts().DisableLogVerification()
serverCh := testutils.NewServer(t, opts)
testutils.RegisterEcho(serverCh, func() {
if counter.Inc() > 10 {
// Close the server in a goroutine to possibly trigger more race conditions.
go func() {
closed.Inc()
serverCh.Close()
}()
}
})
clientCh := testutils.NewClient(t, opts)
// Create a connection that will be shared.
require.NoError(t, testutils.Ping(clientCh, serverCh), "Ping from client to server failed")
var wg sync.WaitGroup
for i := 0; i < 100; i++ {
wg.Add(1)
go func() {
time.Sleep(time.Duration(rand.Intn(1000)) * time.Microsecond)
err := testutils.CallEcho(clientCh, serverCh.PeerInfo().HostPort, serverCh.ServiceName(), nil)
if err != nil && closed.Load() == 0 {
t.Errorf("Call failed: %v", err)
}
wg.Done()
}()
}
// Wait for all the goroutines to end
wg.Wait()
clientCh.Close()
goroutines.VerifyNoLeaks(t, nil)
}