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datachannel_go_test.go
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datachannel_go_test.go
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//go:build !js
// +build !js
package webrtc
import (
"bytes"
"crypto/rand"
"encoding/binary"
"io"
"io/ioutil"
"math/big"
"reflect"
"regexp"
"strings"
"sync"
"testing"
"time"
"github.com/pion/datachannel"
"github.com/pion/logging"
"github.com/pion/transport/test"
"github.com/stretchr/testify/assert"
)
func TestDataChannel_EventHandlers(t *testing.T) {
to := test.TimeOut(time.Second * 20)
defer to.Stop()
report := test.CheckRoutines(t)
defer report()
api := NewAPI()
dc := &DataChannel{api: api}
onOpenCalled := make(chan struct{})
onMessageCalled := make(chan struct{})
// Verify that the noop case works
assert.NotPanics(t, func() { dc.onOpen() })
dc.OnOpen(func() {
close(onOpenCalled)
})
dc.OnMessage(func(p DataChannelMessage) {
close(onMessageCalled)
})
// Verify that the set handlers are called
assert.NotPanics(t, func() { dc.onOpen() })
assert.NotPanics(t, func() { dc.onMessage(DataChannelMessage{Data: []byte("o hai")}) })
// Wait for all handlers to be called
<-onOpenCalled
<-onMessageCalled
}
func TestDataChannel_MessagesAreOrdered(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
api := NewAPI()
dc := &DataChannel{api: api}
max := 512
out := make(chan int)
inner := func(msg DataChannelMessage) {
// randomly sleep
// math/rand a weak RNG, but this does not need to be secure. Ignore with #nosec
/* #nosec */
randInt, err := rand.Int(rand.Reader, big.NewInt(int64(max)))
/* #nosec */ if err != nil {
t.Fatalf("Failed to get random sleep duration: %s", err)
}
time.Sleep(time.Duration(randInt.Int64()) * time.Microsecond)
s, _ := binary.Varint(msg.Data)
out <- int(s)
}
dc.OnMessage(func(p DataChannelMessage) {
inner(p)
})
go func() {
for i := 1; i <= max; i++ {
buf := make([]byte, 8)
binary.PutVarint(buf, int64(i))
dc.onMessage(DataChannelMessage{Data: buf})
// Change the registered handler a couple of times to make sure
// that everything continues to work, we don't lose messages, etc.
if i%2 == 0 {
handler := func(msg DataChannelMessage) {
inner(msg)
}
dc.OnMessage(handler)
}
}
}()
values := make([]int, 0, max)
for v := range out {
values = append(values, v)
if len(values) == max {
close(out)
}
}
expected := make([]int, max)
for i := 1; i <= max; i++ {
expected[i-1] = i
}
assert.EqualValues(t, expected, values)
}
// Note(albrow): This test includes some features that aren't supported by the
// Wasm bindings (at least for now).
func TestDataChannelParamters_Go(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
t.Run("MaxPacketLifeTime exchange", func(t *testing.T) {
ordered := true
var maxPacketLifeTime uint16 = 3
options := &DataChannelInit{
Ordered: &ordered,
MaxPacketLifeTime: &maxPacketLifeTime,
}
offerPC, answerPC, dc, done := setUpDataChannelParametersTest(t, options)
// Check if parameters are correctly set
assert.True(t, dc.Ordered(), "Ordered should be set to true")
if assert.NotNil(t, dc.MaxPacketLifeTime(), "should not be nil") {
assert.Equal(t, maxPacketLifeTime, *dc.MaxPacketLifeTime(), "should match")
}
answerPC.OnDataChannel(func(d *DataChannel) {
// Make sure this is the data channel we were looking for. (Not the one
// created in signalPair).
if d.Label() != expectedLabel {
return
}
// Check if parameters are correctly set
assert.True(t, d.ordered, "Ordered should be set to true")
if assert.NotNil(t, d.maxPacketLifeTime, "should not be nil") {
assert.Equal(t, maxPacketLifeTime, *d.maxPacketLifeTime, "should match")
}
done <- true
})
closeReliabilityParamTest(t, offerPC, answerPC, done)
})
t.Run("All other property methods", func(t *testing.T) {
id := uint16(123)
dc := &DataChannel{}
dc.id = &id
dc.label = "mylabel"
dc.protocol = "myprotocol"
dc.negotiated = true
assert.Equal(t, dc.id, dc.ID(), "should match")
assert.Equal(t, dc.label, dc.Label(), "should match")
assert.Equal(t, dc.protocol, dc.Protocol(), "should match")
assert.Equal(t, dc.negotiated, dc.Negotiated(), "should match")
assert.Equal(t, uint64(0), dc.BufferedAmount(), "should match")
dc.SetBufferedAmountLowThreshold(1500)
assert.Equal(t, uint64(1500), dc.BufferedAmountLowThreshold(), "should match")
})
}
func TestDataChannelBufferedAmount(t *testing.T) {
t.Run("set before datachannel becomes open", func(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
var nCbs int
buf := make([]byte, 1000)
offerPC, answerPC, err := newPair()
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
done := make(chan bool)
answerPC.OnDataChannel(func(d *DataChannel) {
// Make sure this is the data channel we were looking for. (Not the one
// created in signalPair).
if d.Label() != expectedLabel {
return
}
var nPacketsReceived int
d.OnMessage(func(msg DataChannelMessage) {
nPacketsReceived++
if nPacketsReceived == 10 {
go func() {
time.Sleep(time.Second)
done <- true
}()
}
})
assert.True(t, d.Ordered(), "Ordered should be set to true")
})
dc, err := offerPC.CreateDataChannel(expectedLabel, nil)
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
assert.True(t, dc.Ordered(), "Ordered should be set to true")
dc.OnOpen(func() {
for i := 0; i < 10; i++ {
e := dc.Send(buf)
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
assert.Equal(t, uint64(1500), dc.BufferedAmountLowThreshold(), "value mismatch")
// assert.Equal(t, (i+1)*len(buf), int(dc.BufferedAmount()), "unexpected bufferedAmount")
}
})
dc.OnMessage(func(msg DataChannelMessage) {
})
// The value is temporarily stored in the dc object
// until the dc gets opened
dc.SetBufferedAmountLowThreshold(1500)
// The callback function is temporarily stored in the dc object
// until the dc gets opened
dc.OnBufferedAmountLow(func() {
nCbs++
})
err = signalPair(offerPC, answerPC)
if err != nil {
t.Fatalf("Failed to signal our PC pair for testing")
}
closePair(t, offerPC, answerPC, done)
assert.True(t, nCbs > 0, "callback should be made at least once")
})
t.Run("set after datachannel becomes open", func(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
var nCbs int
buf := make([]byte, 1000)
offerPC, answerPC, err := newPair()
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
done := make(chan bool)
answerPC.OnDataChannel(func(d *DataChannel) {
// Make sure this is the data channel we were looking for. (Not the one
// created in signalPair).
if d.Label() != expectedLabel {
return
}
var nPacketsReceived int
d.OnMessage(func(msg DataChannelMessage) {
nPacketsReceived++
if nPacketsReceived == 10 {
go func() {
time.Sleep(time.Second)
done <- true
}()
}
})
assert.True(t, d.Ordered(), "Ordered should be set to true")
})
dc, err := offerPC.CreateDataChannel(expectedLabel, nil)
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
assert.True(t, dc.Ordered(), "Ordered should be set to true")
dc.OnOpen(func() {
// The value should directly be passed to sctp
dc.SetBufferedAmountLowThreshold(1500)
// The callback function should directly be passed to sctp
dc.OnBufferedAmountLow(func() {
nCbs++
})
for i := 0; i < 10; i++ {
e := dc.Send(buf)
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
assert.Equal(t, uint64(1500), dc.BufferedAmountLowThreshold(), "value mismatch")
// assert.Equal(t, (i+1)*len(buf), int(dc.BufferedAmount()), "unexpected bufferedAmount")
}
})
dc.OnMessage(func(msg DataChannelMessage) {
})
err = signalPair(offerPC, answerPC)
if err != nil {
t.Fatalf("Failed to signal our PC pair for testing")
}
closePair(t, offerPC, answerPC, done)
assert.True(t, nCbs > 0, "callback should be made at least once")
})
}
func TestEOF(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
log := logging.NewDefaultLoggerFactory().NewLogger("test")
label := "test-channel"
testData := []byte("this is some test data")
t.Run("Detach", func(t *testing.T) {
// Use Detach data channels mode
s := SettingEngine{}
s.DetachDataChannels()
api := NewAPI(WithSettingEngine(s))
// Set up two peer connections.
config := Configuration{}
pca, err := api.NewPeerConnection(config)
if err != nil {
t.Fatal(err)
}
pcb, err := api.NewPeerConnection(config)
if err != nil {
t.Fatal(err)
}
defer closePairNow(t, pca, pcb)
var wg sync.WaitGroup
dcChan := make(chan datachannel.ReadWriteCloser)
pcb.OnDataChannel(func(dc *DataChannel) {
if dc.Label() != label {
return
}
log.Debug("OnDataChannel was called")
dc.OnOpen(func() {
detached, err2 := dc.Detach()
if err2 != nil {
log.Debugf("Detach failed: %s\n", err2.Error())
t.Error(err2)
}
dcChan <- detached
})
})
wg.Add(1)
go func() {
defer wg.Done()
var msg []byte
log.Debug("Waiting for OnDataChannel")
dc := <-dcChan
log.Debug("data channel opened")
defer func() { assert.NoError(t, dc.Close(), "should succeed") }()
log.Debug("Waiting for ping...")
msg, err2 := ioutil.ReadAll(dc)
log.Debugf("Received ping! \"%s\"\n", string(msg))
if err2 != nil {
t.Error(err2)
}
if !bytes.Equal(msg, testData) {
t.Errorf("expected %q, got %q", string(msg), string(testData))
} else {
log.Debug("Received ping successfully!")
}
}()
if err = signalPair(pca, pcb); err != nil {
t.Fatal(err)
}
attached, err := pca.CreateDataChannel(label, nil)
if err != nil {
t.Fatal(err)
}
log.Debug("Waiting for data channel to open")
open := make(chan struct{})
attached.OnOpen(func() {
open <- struct{}{}
})
<-open
log.Debug("data channel opened")
var dc io.ReadWriteCloser
dc, err = attached.Detach()
if err != nil {
t.Fatal(err)
}
wg.Add(1)
go func() {
defer wg.Done()
log.Debug("Sending ping...")
if _, err2 := dc.Write(testData); err2 != nil {
t.Error(err2)
}
log.Debug("Sent ping")
assert.NoError(t, dc.Close(), "should succeed")
log.Debug("Wating for EOF")
ret, err2 := ioutil.ReadAll(dc)
assert.Nil(t, err2, "should succeed")
assert.Equal(t, 0, len(ret), "should be empty")
}()
wg.Wait()
})
t.Run("No detach", func(t *testing.T) {
lim := test.TimeOut(time.Second * 5)
defer lim.Stop()
// Set up two peer connections.
config := Configuration{}
pca, err := NewPeerConnection(config)
if err != nil {
t.Fatal(err)
}
pcb, err := NewPeerConnection(config)
if err != nil {
t.Fatal(err)
}
defer closePairNow(t, pca, pcb)
var dca, dcb *DataChannel
dcaClosedCh := make(chan struct{})
dcbClosedCh := make(chan struct{})
pcb.OnDataChannel(func(dc *DataChannel) {
if dc.Label() != label {
return
}
log.Debugf("pcb: new datachannel: %s\n", dc.Label())
dcb = dc
// Register channel opening handling
dcb.OnOpen(func() {
log.Debug("pcb: datachannel opened")
})
dcb.OnClose(func() {
// (2)
log.Debug("pcb: data channel closed")
close(dcbClosedCh)
})
// Register the OnMessage to handle incoming messages
log.Debug("pcb: registering onMessage callback")
dcb.OnMessage(func(dcMsg DataChannelMessage) {
log.Debugf("pcb: received ping: %s\n", string(dcMsg.Data))
if !reflect.DeepEqual(dcMsg.Data, testData) {
t.Error("data mismatch")
}
})
})
dca, err = pca.CreateDataChannel(label, nil)
if err != nil {
t.Fatal(err)
}
dca.OnOpen(func() {
log.Debug("pca: data channel opened")
log.Debugf("pca: sending \"%s\"", string(testData))
if err := dca.Send(testData); err != nil {
t.Fatal(err)
}
log.Debug("pca: sent ping")
assert.NoError(t, dca.Close(), "should succeed") // <-- dca closes
})
dca.OnClose(func() {
// (1)
log.Debug("pca: data channel closed")
close(dcaClosedCh)
})
// Register the OnMessage to handle incoming messages
log.Debug("pca: registering onMessage callback")
dca.OnMessage(func(dcMsg DataChannelMessage) {
log.Debugf("pca: received pong: %s\n", string(dcMsg.Data))
if !reflect.DeepEqual(dcMsg.Data, testData) {
t.Error("data mismatch")
}
})
if err := signalPair(pca, pcb); err != nil {
t.Fatal(err)
}
// When dca closes the channel,
// (1) dca.Onclose() will fire immediately, then
// (2) dcb.OnClose will also fire
<-dcaClosedCh // (1)
<-dcbClosedCh // (2)
})
}
// Assert that a Session Description that doesn't follow
// draft-ietf-mmusic-sctp-sdp is still accepted
func TestDataChannel_NonStandardSessionDescription(t *testing.T) {
to := test.TimeOut(time.Second * 20)
defer to.Stop()
report := test.CheckRoutines(t)
defer report()
offerPC, answerPC, err := newPair()
assert.NoError(t, err)
_, err = offerPC.CreateDataChannel("foo", nil)
assert.NoError(t, err)
onDataChannelCalled := make(chan struct{})
answerPC.OnDataChannel(func(_ *DataChannel) {
close(onDataChannelCalled)
})
offer, err := offerPC.CreateOffer(nil)
assert.NoError(t, err)
offerGatheringComplete := GatheringCompletePromise(offerPC)
assert.NoError(t, offerPC.SetLocalDescription(offer))
<-offerGatheringComplete
offer = *offerPC.LocalDescription()
// Replace with old values
const (
oldApplication = "m=application 63743 DTLS/SCTP 5000\r"
oldAttribute = "a=sctpmap:5000 webrtc-datachannel 256\r"
)
offer.SDP = regexp.MustCompile(`m=application (.*?)\r`).ReplaceAllString(offer.SDP, oldApplication)
offer.SDP = regexp.MustCompile(`a=sctp-port(.*?)\r`).ReplaceAllString(offer.SDP, oldAttribute)
// Assert that replace worked
assert.True(t, strings.Contains(offer.SDP, oldApplication))
assert.True(t, strings.Contains(offer.SDP, oldAttribute))
assert.NoError(t, answerPC.SetRemoteDescription(offer))
answer, err := answerPC.CreateAnswer(nil)
assert.NoError(t, err)
answerGatheringComplete := GatheringCompletePromise(answerPC)
assert.NoError(t, answerPC.SetLocalDescription(answer))
<-answerGatheringComplete
assert.NoError(t, offerPC.SetRemoteDescription(*answerPC.LocalDescription()))
<-onDataChannelCalled
closePairNow(t, offerPC, answerPC)
}