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datachannel_test.go
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datachannel_test.go
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package webrtc
import (
"io"
"sync"
"testing"
"time"
"github.com/pion/transport/test"
"github.com/stretchr/testify/assert"
)
// expectedLabel represents the label of the data channel we are trying to test.
// Some other channels may have been created during initialization (in the Wasm
// bindings this is a requirement).
const expectedLabel = "data"
func closePair(t *testing.T, pc1, pc2 io.Closer, done chan bool) {
select {
case <-time.After(10 * time.Second):
t.Fatalf("closePair timed out waiting for done signal")
case <-done:
assert.NoError(t, pc1.Close())
assert.NoError(t, pc2.Close())
}
}
func setUpDataChannelParametersTest(t *testing.T, options *DataChannelInit) (*PeerConnection, *PeerConnection, *DataChannel, chan bool) {
offerPC, answerPC, err := newPair()
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
done := make(chan bool)
dc, err := offerPC.CreateDataChannel(expectedLabel, options)
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
return offerPC, answerPC, dc, done
}
func closeReliabilityParamTest(t *testing.T, pc1, pc2 *PeerConnection, done chan bool) {
err := signalPair(pc1, pc2)
if err != nil {
t.Fatalf("Failed to signal our PC pair for testing")
}
closePair(t, pc1, pc2, done)
}
func TestDataChannel_Open(t *testing.T) {
t.Run("handler should be called once", func(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
offerPC, answerPC, err := newPair()
if err != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
done := make(chan bool)
openCalls := make(chan bool, 2)
answerPC.OnDataChannel(func(d *DataChannel) {
if d.Label() != expectedLabel {
return
}
d.OnOpen(func() {
openCalls <- true
})
d.OnMessage(func(msg DataChannelMessage) {
go func() {
// Wait a little bit to ensure all messages are processed.
time.Sleep(100 * time.Millisecond)
done <- true
}()
})
})
dc, err := offerPC.CreateDataChannel(expectedLabel, nil)
assert.NoError(t, err)
dc.OnOpen(func() {
e := dc.SendText("Ping")
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
})
assert.NoError(t, signalPair(offerPC, answerPC))
closePair(t, offerPC, answerPC, done)
assert.Len(t, openCalls, 1)
})
}
func TestDataChannel_Send(t *testing.T) {
t.Run("before signaling", func(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
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
}
d.OnMessage(func(msg DataChannelMessage) {
e := d.Send([]byte("Pong"))
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
})
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() {
e := dc.SendText("Ping")
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
})
dc.OnMessage(func(msg DataChannelMessage) {
done <- true
})
err = signalPair(offerPC, answerPC)
if err != nil {
t.Fatalf("Failed to signal our PC pair for testing: %+v", err)
}
closePair(t, offerPC, answerPC, done)
})
t.Run("after connected", func(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
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
}
d.OnMessage(func(msg DataChannelMessage) {
e := d.Send([]byte("Pong"))
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
})
assert.True(t, d.Ordered(), "Ordered should be set to true")
})
once := &sync.Once{}
offerPC.OnICEConnectionStateChange(func(state ICEConnectionState) {
if state == ICEConnectionStateConnected || state == ICEConnectionStateCompleted {
// wasm fires completed state multiple times
once.Do(func() {
dc, createErr := offerPC.CreateDataChannel(expectedLabel, nil)
if createErr != nil {
t.Fatalf("Failed to create a PC pair for testing")
}
assert.True(t, dc.Ordered(), "Ordered should be set to true")
dc.OnMessage(func(msg DataChannelMessage) {
done <- true
})
// TODO: currently there is no way of properly subscribing to OnOpen with the js binding,
// because CreateDataChannel might return an already open data channel
//
e := dc.SendText("Ping")
if e != nil {
// wasm binding doesn't fire OnOpen (we probably already missed it)
dc.OnOpen(func() {
e = dc.SendText("Ping")
if e != nil {
t.Fatalf("Failed to send string on data channel")
}
})
}
})
}
})
err = signalPair(offerPC, answerPC)
if err != nil {
t.Fatalf("Failed to signal our PC pair for testing")
}
closePair(t, offerPC, answerPC, done)
})
}
func TestDataChannel_Close(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
t.Run("Close after PeerConnection Closed", func(t *testing.T) {
offerPC, answerPC, err := newPair()
assert.NoError(t, err)
dc, err := offerPC.CreateDataChannel(expectedLabel, nil)
assert.NoError(t, err)
assert.NoError(t, offerPC.Close())
assert.NoError(t, answerPC.Close())
assert.NoError(t, dc.Close())
})
t.Run("Close before connected", func(t *testing.T) {
offerPC, answerPC, err := newPair()
assert.NoError(t, err)
dc, err := offerPC.CreateDataChannel(expectedLabel, nil)
assert.NoError(t, err)
assert.NoError(t, dc.Close())
assert.NoError(t, offerPC.Close())
assert.NoError(t, answerPC.Close())
})
}
func TestDataChannelParameters(t *testing.T) {
report := test.CheckRoutines(t)
defer report()
t.Run("MaxPacketLifeTime exchange", func(t *testing.T) {
ordered := true
maxPacketLifeTime := uint16(3)
options := &DataChannelInit{
Ordered: &ordered,
MaxPacketLifeTime: &maxPacketLifeTime,
}
offerPC, answerPC, dc, done := setUpDataChannelParametersTest(t, options)
// Check if parameters are correctly set
assert.Equal(t, dc.Ordered(), ordered, "Ordered should be same value as set in DataChannelInit")
if assert.NotNil(t, dc.MaxPacketLifeTime(), "should not be nil") {
assert.Equal(t, maxPacketLifeTime, *dc.MaxPacketLifeTime(), "should match")
}
answerPC.OnDataChannel(func(d *DataChannel) {
if d.Label() != expectedLabel {
return
}
// Check if parameters are correctly set
assert.Equal(t, d.Ordered(), ordered, "Ordered should be same value as set in DataChannelInit")
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("MaxRetransmits exchange", func(t *testing.T) {
ordered := false
maxRetransmits := uint16(3000)
options := &DataChannelInit{
Ordered: &ordered,
MaxRetransmits: &maxRetransmits,
}
offerPC, answerPC, dc, done := setUpDataChannelParametersTest(t, options)
// Check if parameters are correctly set
assert.False(t, dc.Ordered(), "Ordered should be set to false")
if assert.NotNil(t, dc.MaxRetransmits(), "should not be nil") {
assert.Equal(t, maxRetransmits, *dc.MaxRetransmits(), "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.False(t, d.Ordered(), "Ordered should be set to false")
if assert.NotNil(t, d.MaxRetransmits(), "should not be nil") {
assert.Equal(t, maxRetransmits, *d.MaxRetransmits(), "should match")
}
done <- true
})
closeReliabilityParamTest(t, offerPC, answerPC, done)
})
t.Run("Protocol exchange", func(t *testing.T) {
protocol := "json"
options := &DataChannelInit{
Protocol: &protocol,
}
offerPC, answerPC, dc, done := setUpDataChannelParametersTest(t, options)
// Check if parameters are correctly set
assert.Equal(t, protocol, dc.Protocol(), "Protocol should match DataChannelInit")
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.Equal(t, protocol, d.Protocol(), "Protocol should match what channel creator declared")
done <- true
})
closeReliabilityParamTest(t, offerPC, answerPC, done)
})
t.Run("Negotiated exchange", func(t *testing.T) {
const expectedMessage = "Hello World"
negotiated := true
var id uint16 = 500
options := &DataChannelInit{
Negotiated: &negotiated,
ID: &id,
}
offerPC, answerPC, offerDatachannel, done := setUpDataChannelParametersTest(t, options)
answerDatachannel, err := answerPC.CreateDataChannel(expectedLabel, options)
assert.NoError(t, err)
answerPC.OnDataChannel(func(d *DataChannel) {
// Ignore our default channel, exists to force ICE candidates. See signalPair for more info
if d.Label() == "initial_data_channel" {
return
}
t.Fatal("OnDataChannel must not be fired when negotiated == true")
})
offerPC.OnDataChannel(func(d *DataChannel) {
t.Fatal("OnDataChannel must not be fired when negotiated == true")
})
seenAnswerMessage := &atomicBool{}
seenOfferMessage := &atomicBool{}
answerDatachannel.OnMessage(func(msg DataChannelMessage) {
if msg.IsString && string(msg.Data) == expectedMessage {
seenAnswerMessage.set(true)
}
})
offerDatachannel.OnMessage(func(msg DataChannelMessage) {
if msg.IsString && string(msg.Data) == expectedMessage {
seenOfferMessage.set(true)
}
})
go func() {
for {
if seenAnswerMessage.get() && seenOfferMessage.get() {
break
}
if offerDatachannel.ReadyState() == DataChannelStateOpen {
assert.NoError(t, offerDatachannel.SendText(expectedMessage))
}
if answerDatachannel.ReadyState() == DataChannelStateOpen {
assert.NoError(t, answerDatachannel.SendText(expectedMessage))
}
time.Sleep(500 * time.Millisecond)
}
done <- true
}()
closeReliabilityParamTest(t, offerPC, answerPC, done)
})
}