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Test Info: Warnings

<!doctype html>
<meta charset=utf-8>
<meta name="timeout" content="long">
<title>RTCPeerConnection.prototype.createDataChannel</title>
<script src=/resources/testharness.js></script>
<script src=/resources/testharnessreport.js></script>
<script src="RTCPeerConnection-helper.js"></script>
<script>
'use strict';
const stopTracks = (...streams) => {
streams.forEach(stream => stream.getTracks().forEach(track => track.stop()));
};
// Test is based on the following revision:
/*
6.1. RTCPeerConnection Interface Extensions
partial interface RTCPeerConnection {
[...]
RTCDataChannel createDataChannel(USVString label,
optional RTCDataChannelInit dataChannelDict);
[...]
};
6.2. RTCDataChannel
interface RTCDataChannel : EventTarget {
readonly attribute USVString label;
readonly attribute boolean ordered;
readonly attribute unsigned short? maxPacketLifeTime;
readonly attribute unsigned short? maxRetransmits;
readonly attribute USVString protocol;
readonly attribute boolean negotiated;
readonly attribute unsigned short? id;
readonly attribute RTCDataChannelState readyState;
readonly attribute unsigned long bufferedAmount;
attribute unsigned long bufferedAmountLowThreshold;
[...]
attribute DOMString binaryType;
[...]
};
dictionary RTCDataChannelInit {
boolean ordered = true;
unsigned short maxPacketLifeTime;
unsigned short maxRetransmits;
USVString protocol = "";
boolean negotiated = false;
[EnforceRange]
unsigned short id;
};
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_equals(pc.createDataChannel.length, 1);
assert_throws_js(TypeError, () => pc.createDataChannel());
}, 'createDataChannel with no argument should throw TypeError');
/*
6.2. createDataChannel
2. If connection's [[isClosed]] slot is true, throw an InvalidStateError.
*/
test(t => {
const pc = new RTCPeerConnection();
pc.close();
assert_equals(pc.signalingState, 'closed', 'signaling state');
assert_throws_dom('InvalidStateError', () => pc.createDataChannel(''));
}, 'createDataChannel with closed connection should throw InvalidStateError');
/*
6.1. createDataChannel
4. Let channel have a [[DataChannelLabel]] internal slot initialized to the value of the
first argument.
6. Let options be the second argument.
7. Let channel have an [[MaxPacketLifeTime]] internal slot initialized to
option's maxPacketLifeTime member, if present, otherwise null.
8. Let channel have a [[ReadyState]] internal slot initialized to "connecting".
9. Let channel have a [[BufferedAmount]] internal slot initialized to 0.
10. Let channel have an [[MaxRetransmits]] internal slot initialized to
option's maxRetransmits member, if present, otherwise null.
11. Let channel have an [[Ordered]] internal slot initialized to option's
ordered member.
12. Let channel have a [[DataChannelProtocol]] internal slot initialized to option's
protocol member.
14. Let channel have a [[Negotiated]] internal slot initialized to option's negotiated
member.
15. Let channel have an [[DataChannelId]] internal slot initialized to option's id
member, if it is present and [[Negotiated]] is true, otherwise null.
21. If the [[DataChannelId]] slot is null (due to no ID being passed into
createDataChannel, or [[Negotiated]] being false), and the DTLS role of the SCTP
transport has already been negotiated, then initialize [[DataChannelId]] to a value
generated by the user agent, according to [RTCWEB-DATA-PROTOCOL], and skip
to the next step. If no available ID could be generated, or if the value of the
[[DataChannelId]] slot is being used by an existing RTCDataChannel, throw an
OperationError exception.
Note
If the [[DataChannelId]] slot is null after this step, it will be populated once
the DTLS role is determined during the process of setting an RTCSessionDescription.
22. If channel is the first RTCDataChannel created on connection, update the
negotiation-needed flag for connection.
6.2. RTCDataChannel
A RTCDataChannel, created with createDataChannel or dispatched via a
RTCDataChannelEvent, MUST initially be in the connecting state
bufferedAmountLowThreshold
[...] The bufferedAmountLowThreshold is initially zero on each new RTCDataChannel,
but the application may change its value at any time.
binaryType
[...] When a RTCDataChannel object is created, the binaryType attribute MUST
be initialized to the string "blob".
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('');
assert_true(dc instanceof RTCDataChannel, 'is RTCDataChannel');
assert_equals(dc.label, '');
assert_equals(dc.ordered, true);
assert_equals(dc.maxPacketLifeTime, null);
assert_equals(dc.maxRetransmits, null);
assert_equals(dc.protocol, '');
assert_equals(dc.negotiated, false);
// Since no offer/answer exchange has occurred yet, the DTLS role is unknown
// and so the ID should be null.
assert_equals(dc.id, null);
assert_equals(dc.readyState, 'connecting');
assert_equals(dc.bufferedAmount, 0);
assert_equals(dc.bufferedAmountLowThreshold, 0);
assert_equals(dc.binaryType, 'arraybuffer');
}, 'createDataChannel attribute default values');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('test', {
ordered: false,
maxRetransmits: 1,
// Note: maxPacketLifeTime is not set in this test.
protocol: 'custom',
negotiated: true,
id: 3
});
assert_true(dc instanceof RTCDataChannel, 'is RTCDataChannel');
assert_equals(dc.label, 'test');
assert_equals(dc.ordered, false);
assert_equals(dc.maxPacketLifeTime, null);
assert_equals(dc.maxRetransmits, 1);
assert_equals(dc.protocol, 'custom');
assert_equals(dc.negotiated, true);
assert_equals(dc.id, 3);
assert_equals(dc.readyState, 'connecting');
assert_equals(dc.bufferedAmount, 0);
assert_equals(dc.bufferedAmountLowThreshold, 0);
assert_equals(dc.binaryType, 'arraybuffer');
const dc2 = pc.createDataChannel('test2', {
ordered: false,
maxPacketLifeTime: 42
});
assert_equals(dc2.label, 'test2');
assert_equals(dc2.maxPacketLifeTime, 42);
assert_equals(dc2.maxRetransmits, null);
}, 'createDataChannel with provided parameters should initialize attributes to provided values');
/*
6.2. createDataChannel
4. Let channel have a [[DataChannelLabel]] internal slot initialized to the value of the
first argument.
[ECMA262] 7.1.12. ToString(argument)
undefined -> "undefined"
null -> "null"
[WebIDL] 3.10.15. Convert a DOMString to a sequence of Unicode scalar values
*/
const labels = [
['"foo"', 'foo', 'foo'],
['null', null, 'null'],
['undefined', undefined, 'undefined'],
['lone surrogate', '\uD800', '\uFFFD'],
];
for (const [description, label, expected] of labels) {
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel(label);
assert_equals(dc.label, expected);
}, `createDataChannel with label ${description} should succeed`);
}
/*
6.2. RTCDataChannel
createDataChannel
11. Let channel have an [[Ordered]] internal slot initialized to option's
ordered member.
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { ordered: false });
assert_equals(dc.ordered, false);
}, 'createDataChannel with ordered false should succeed');
// true as the default value of a boolean is confusing because null is converted
// to false while undefined is converted to true.
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc1 = pc.createDataChannel('', { ordered: null });
assert_equals(dc1.ordered, false);
const dc2 = pc.createDataChannel('', { ordered: undefined });
assert_equals(dc2.ordered, true);
}, 'createDataChannel with ordered null/undefined should succeed');
/*
6.2. RTCDataChannel
createDataChannel
7. Let channel have an [[MaxPacketLifeTime]] internal slot initialized to
option's maxPacketLifeTime member, if present, otherwise null.
*/
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { maxPacketLifeTime: 0 });
assert_equals(dc.maxPacketLifeTime, 0);
}, 'createDataChannel with maxPacketLifeTime 0 should succeed');
/*
6.2. RTCDataChannel
createDataChannel
10. Let channel have an [[MaxRetransmits]] internal slot initialized to
option's maxRetransmits member, if present, otherwise null.
*/
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { maxRetransmits: 0 });
assert_equals(dc.maxRetransmits, 0);
}, 'createDataChannel with maxRetransmits 0 should succeed');
/*
6.2. createDataChannel
18. If both [[MaxPacketLifeTime]] and [[MaxRetransmits]] attributes are set (not null),
throw a TypeError.
*/
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
pc.createDataChannel('', {
maxPacketLifeTime: undefined,
maxRetransmits: undefined
});
}, 'createDataChannel with both maxPacketLifeTime and maxRetransmits undefined should succeed');
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () => pc.createDataChannel('', {
maxPacketLifeTime: 0,
maxRetransmits: 0
}));
assert_throws_js(TypeError, () => pc.createDataChannel('', {
maxPacketLifeTime: 42,
maxRetransmits: 42
}));
}, 'createDataChannel with both maxPacketLifeTime and maxRetransmits should throw TypeError');
/*
6.2. RTCDataChannel
createDataChannel
12. Let channel have a [[DataChannelProtocol]] internal slot initialized to option's
protocol member.
*/
const protocols = [
['"foo"', 'foo', 'foo'],
['null', null, 'null'],
['undefined', undefined, ''],
['lone surrogate', '\uD800', '\uFFFD'],
];
for (const [description, protocol, expected] of protocols) {
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { protocol });
assert_equals(dc.protocol, expected);
}, `createDataChannel with protocol ${description} should succeed`);
}
/*
6.2. RTCDataChannel
createDataChannel
20. If [[DataChannelId]] is equal to 65535, which is greater than the maximum allowed
ID of 65534 but still qualifies as an unsigned short, throw a TypeError.
*/
for (const id of [0, 1, 65534, 65535]) {
test((t) => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { id });
assert_equals(dc.id, null);
}, `createDataChannel with id ${id} and negotiated not set should succeed, but not set the channel's id`);
}
for (const id of [0, 1, 65534]) {
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', { 'negotiated': true, 'id': id });
assert_equals(dc.id, id);
}, `createDataChannel with id ${id} and negotiated true should succeed, and set the channel's id`);
}
for (const id of [-1, 65536]) {
test((t) => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () => pc.createDataChannel('', { id }));
}, `createDataChannel with id ${id} and negotiated not set should throw TypeError`);
}
for (const id of [-1, 65535, 65536]) {
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () => pc.createDataChannel('',
{ 'negotiated': true, 'id': id }));
}, `createDataChannel with id ${id} should throw TypeError`);
}
/*
6.2. createDataChannel
5. If [[DataChannelLabel]] is longer than 65535 bytes, throw a TypeError.
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () =>
pc.createDataChannel('l'.repeat(65536)));
assert_throws_js(TypeError, () =>
pc.createDataChannel('l'.repeat(65536), {
negotiated: true,
id: 42
}));
}, 'createDataChannel with too long label should throw TypeError');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () =>
pc.createDataChannel('\u00b5'.repeat(32768)));
assert_throws_js(TypeError, () =>
pc.createDataChannel('\u00b5'.repeat(32768), {
negotiated: true,
id: 42
}));
}, 'createDataChannel with too long label (2 byte unicode) should throw TypeError');
/*
6.2. label
[...] Scripts are allowed to create multiple RTCDataChannel objects with the same label.
[...]
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const label = 'test';
pc.createDataChannel(label);
pc.createDataChannel(label);
}, 'createDataChannel with same label used twice should not throw');
/*
6.2. createDataChannel
13. If [[DataChannelProtocol]] is longer than 65535 bytes long, throw a TypeError.
*/
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const channel = pc.createDataChannel('', { negotiated: true, id: 42 });
assert_equals(channel.negotiated, true);
}, 'createDataChannel with negotiated true and id should succeed');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () =>
pc.createDataChannel('', {
protocol: 'p'.repeat(65536)
}));
assert_throws_js(TypeError, () =>
pc.createDataChannel('', {
protocol: 'p'.repeat(65536),
negotiated: true,
id: 42
}));
}, 'createDataChannel with too long protocol should throw TypeError');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () =>
pc.createDataChannel('', {
protocol: '\u00b6'.repeat(32768)
}));
assert_throws_js(TypeError, () =>
pc.createDataChannel('', {
protocol: '\u00b6'.repeat(32768),
negotiated: true,
id: 42
}));
}, 'createDataChannel with too long protocol (2 byte unicode) should throw TypeError');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const label = 'l'.repeat(65535);
const protocol = 'p'.repeat(65535);
const dc = pc.createDataChannel(label, {
protocol: protocol
});
assert_equals(dc.label, label);
assert_equals(dc.protocol, protocol);
}, 'createDataChannel with maximum length label and protocol should succeed');
/*
6.2 createDataChannel
15. Let channel have an [[DataChannelId]] internal slot initialized to option's id member,
if it is present and [[Negotiated]] is true, otherwise null.
NOTE
This means the id member will be ignored if the data channel is negotiated in-band; this
is intentional. Data channels negotiated in-band should have IDs selected based on the
DTLS role, as specified in [RTCWEB-DATA-PROTOCOL].
*/
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', {
negotiated: false,
});
assert_equals(dc.negotiated, false, 'Expect dc.negotiated to be false');
}, 'createDataChannel with negotiated false should succeed');
test(t => {
const pc = new RTCPeerConnection;
t.add_cleanup(() => pc.close());
const dc = pc.createDataChannel('', {
negotiated: false,
id: 42
});
assert_equals(dc.negotiated, false, 'Expect dc.negotiated to be false');
assert_equals(dc.id, null, 'Expect dc.id to be ignored (null)');
}, 'createDataChannel with negotiated false and id 42 should ignore the id');
/*
6.2. createDataChannel
16. If [[Negotiated]] is true and [[DataChannelId]] is null, throw a TypeError.
*/
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
assert_throws_js(TypeError, () =>
pc.createDataChannel('test', {
negotiated: true
}));
}, 'createDataChannel with negotiated true and id not defined should throw TypeError');
/*
4.4.1.6. Set the RTCSessionSessionDescription
2.2.6. If description is of type "answer" or "pranswer", then run the
following steps:
3. If description negotiates the DTLS role of the SCTP transport, and there is an
RTCDataChannel with a null id, then generate an ID according to
[RTCWEB-DATA-PROTOCOL]. [...]
6.1. createDataChannel
21. If the [[DataChannelId]] slot is null (due to no ID being passed into
createDataChannel, or [[Negotiated]] being false), and the DTLS role of the SCTP
transport has already been negotiated, then initialize [[DataChannelId]] to a value
generated by the user agent, according to [RTCWEB-DATA-PROTOCOL], and skip
to the next step. If no available ID could be generated, or if the value of the
[[DataChannelId]] slot is being used by an existing RTCDataChannel, throw an
OperationError exception.
Note
If the [[DataChannelId]] slot is null after this step, it will be populated once
the DTLS role is determined during the process of setting an RTCSessionDescription.
*/
promise_test(async t => {
const pc1 = new RTCPeerConnection();
const pc2 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
t.add_cleanup(() => pc2.close());
const negotiatedDc = pc1.createDataChannel('negotiated-channel', {
negotiated: true,
id: 42,
});
assert_equals(negotiatedDc.id, 42, 'Expect negotiatedDc.id to be 42');
const dc1 = pc1.createDataChannel('channel');
assert_equals(dc1.id, null, 'Expect initial id to be null');
const offer = await pc1.createOffer();
await Promise.all([pc1.setLocalDescription(offer), pc2.setRemoteDescription(offer)]);
const answer = await pc2.createAnswer();
await pc1.setRemoteDescription(answer);
assert_not_equals(dc1.id, null,
'Expect dc1.id to be assigned after remote description has been set');
assert_greater_than_equal(dc1.id, 0,
'Expect dc1.id to be set to valid unsigned short');
assert_less_than(dc1.id, 65535,
'Expect dc1.id to be set to valid unsigned short');
const dc2 = pc1.createDataChannel('channel');
assert_not_equals(dc2.id, null,
'Expect dc2.id to be assigned after remote description has been set');
assert_greater_than_equal(dc2.id, 0,
'Expect dc2.id to be set to valid unsigned short');
assert_less_than(dc2.id, 65535,
'Expect dc2.id to be set to valid unsigned short');
assert_not_equals(dc2, dc1,
'Expect channels created from same label to be different');
assert_equals(dc2.label, dc1.label,
'Expect different channels can have the same label but different id');
assert_not_equals(dc2.id, dc1.id,
'Expect different channels can have the same label but different id');
assert_equals(negotiatedDc.id, 42,
'Expect negotiatedDc.id to be 42 after remote description has been set');
}, 'Channels created (after setRemoteDescription) should have id assigned');
test(t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const dc1 = pc.createDataChannel('channel-1', {
negotiated: true,
id: 42,
});
assert_equals(dc1.id, 42,
'Expect dc1.id to be 42');
const dc2 = pc.createDataChannel('channel-2', {
negotiated: true,
id: 43,
});
assert_equals(dc2.id, 43,
'Expect dc2.id to be 43');
assert_throws_dom('OperationError', () =>
pc.createDataChannel('channel-3', {
negotiated: true,
id: 42,
}));
}, 'Reusing a data channel id that is in use should throw OperationError');
// We've seen implementations behaving differently before and after the connection has been
// established.
promise_test(async t => {
const pc1 = new RTCPeerConnection();
const pc2 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
t.add_cleanup(() => pc2.close());
const dc1 = pc1.createDataChannel('channel-1', {
negotiated: true,
id: 42,
});
assert_equals(dc1.id, 42, 'Expect dc1.id to be 42');
const dc2 = pc1.createDataChannel('channel-2', {
negotiated: true,
id: 43,
});
assert_equals(dc2.id, 43, 'Expect dc2.id to be 43');
const offer = await pc1.createOffer();
await Promise.all([pc1.setLocalDescription(offer), pc2.setRemoteDescription(offer)]);
const answer = await pc2.createAnswer();
await pc1.setRemoteDescription(answer);
assert_equals(dc1.id, 42, 'Expect dc1.id to be 42');
assert_equals(dc2.id, 43, 'Expect dc2.id to be 43');
assert_throws_dom('OperationError', () =>
pc1.createDataChannel('channel-3', {
negotiated: true,
id: 42,
}));
}, 'Reusing a data channel id that is in use (after setRemoteDescription) should throw ' +
'OperationError');
promise_test(async t => {
const pc1 = new RTCPeerConnection();
const pc2 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
t.add_cleanup(() => pc2.close());
const dc1 = pc1.createDataChannel('channel-1');
const offer = await pc1.createOffer();
await Promise.all([pc1.setLocalDescription(offer), pc2.setRemoteDescription(offer)]);
const answer = await pc2.createAnswer();
await pc1.setRemoteDescription(answer);
assert_not_equals(dc1.id, null,
'Expect dc1.id to be assigned after remote description has been set');
assert_throws_dom('OperationError', () =>
pc1.createDataChannel('channel-2', {
negotiated: true,
id: dc1.id,
}));
}, 'Reusing a data channel id that is in use (after setRemoteDescription, negotiated via DCEP) ' +
'should throw OperationError');
for (const options of [{}, {negotiated: true, id: 0}]) {
const mode = `${options.negotiated? "negotiated " : ""}datachannel`;
promise_test(async t => {
const pc1 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
await createDataChannelPair(t, options, pc1);
const dc = pc1.createDataChannel('');
assert_equals(dc.readyState, 'connecting', 'Channel should be in the connecting state');
}, `New ${mode} should be in the connecting state after creation ` +
`(after connection establishment)`);
promise_test(async t => {
const pc1 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
const stream = await getNoiseStream({audio: true, video: true});
t.add_cleanup(() => stopTracks(stream));
const audio = stream.getAudioTracks()[0];
const video = stream.getVideoTracks()[0];
pc1.addTrack(audio, stream);
pc1.addTrack(video, stream);
await createDataChannelPair(t, options, pc1);
}, `addTrack, then creating ${mode}, should negotiate properly`);
promise_test(async t => {
const pc1 = new RTCPeerConnection({bundlePolicy: "max-bundle"});
t.add_cleanup(() => pc1.close());
const stream = await getNoiseStream({audio: true, video: true});
t.add_cleanup(() => stopTracks(stream));
const audio = stream.getAudioTracks()[0];
const video = stream.getVideoTracks()[0];
pc1.addTrack(audio, stream);
pc1.addTrack(video, stream);
await createDataChannelPair(t, options, pc1);
}, `addTrack, then creating ${mode}, should negotiate properly when max-bundle is used`);
promise_test(async t => {
const pc1 = new RTCPeerConnection();
const pc2 = new RTCPeerConnection();
const stream = await getNoiseStream({audio: true, video: true});
stream.getTracks().forEach((track) => pc1.addTrack(track, stream));
await createDataChannelPair(t, options, pc1, pc2);
await pc1.setLocalDescription();
await pc2.setRemoteDescription(pc1.localDescription);
await pc2.setLocalDescription();
await pc1.setRemoteDescription(pc2.localDescription);
}, `Renegotiation with audio/video and ${mode} should work properly`);
/*
This test is disabled until https://github.com/w3c/webrtc-pc/issues/2562
has been resolved; it presupposes that stopping the first transceiver
breaks the transport.
promise_test(async t => {
const pc1 = new RTCPeerConnection({bundlePolicy: "max-bundle"});
const pc2 = new RTCPeerConnection();
t.add_cleanup(() => pc1.close());
t.add_cleanup(() => pc2.close());
const stream = await getNoiseStream({audio: true, video: true});
t.add_cleanup(() => stopTracks(stream));
const audio = stream.getAudioTracks()[0];
const video = stream.getVideoTracks()[0];
pc1.addTrack(audio, stream);
pc1.addTrack(video, stream);
const [dc1, dc2] = await createDataChannelPair(t, options, pc1, pc2);
pc2.getTransceivers()[0].stop();
const dc1Closed = new Promise(r => dc1.onclose = r);
await exchangeOfferAnswer(pc1, pc2);
await dc1Closed;
}, `Stopping the bundle-tag when there is a ${mode} in the bundle ` +
`should kill the DataChannel`);
*/
}
/*
Untestable
6.1. createDataChannel
19. If a setting, either [[MaxPacketLifeTime]] or [[MaxRetransmits]], has been set to
indicate unreliable mode, and that value exceeds the maximum value supported
by the user agent, the value MUST be set to the user agents maximum value.
23. Return channel and continue the following steps in parallel.
24. Create channel's associated underlying data transport and configure
it according to the relevant properties of channel.
Tested in RTCPeerConnection-onnegotiationneeded.html
22. If channel is the first RTCDataChannel created on connection, update the
negotiation-needed flag for connection.
Tested in RTCDataChannel-id.html
- Odd/even rules for '.id'
Tested in RTCDataChannel-dcep.html
- Transmission of '.label' and further options
*/
</script>