mozilla-central/testing/web-platform/tests/webrtc/RTCDataChannel-send.html

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Test Info: Warnings

<!doctype html>
<meta charset=utf-8>
<meta name="timeout" content="long">
<title>RTCDataChannel.prototype.send</title>
<script src="/resources/testharness.js"></script>
<script src="/resources/testharnessreport.js"></script>
<script src="RTCPeerConnection-helper.js"></script>
<script src="third_party/sdp/sdp.js"></script>
<script>
'use strict';
// Test is based on the following editor draft:
// The following helper functions are called from RTCPeerConnection-helper.js:
// createDataChannelPair
// awaitMessage
// blobToArrayBuffer
// assert_equals_typed_array
/*
6.2. RTCDataChannel
interface RTCDataChannel : EventTarget {
...
readonly attribute RTCDataChannelState readyState;
readonly attribute unsigned long bufferedAmount;
attribute EventHandler onmessage;
attribute DOMString binaryType;
void send(USVString data);
void send(Blob data);
void send(ArrayBuffer data);
void send(ArrayBufferView data);
};
*/
// Simple ASCII encoded string
const helloString = 'hello';
const emptyString = '';
// ASCII encoded buffer representation of the string
const helloBuffer = Uint8Array.of(0x68, 0x65, 0x6c, 0x6c, 0x6f);
const emptyBuffer = new Uint8Array();
const helloBlob = new Blob([helloBuffer]);
// Unicode string with multiple code units
const unicodeString = '世界你好';
// UTF-8 encoded buffer representation of the string
const unicodeBuffer = Uint8Array.of(
0xe4, 0xb8, 0x96, 0xe7, 0x95, 0x8c,
0xe4, 0xbd, 0xa0, 0xe5, 0xa5, 0xbd);
/*
6.2. send()
2. If channel's readyState attribute is connecting, throw an InvalidStateError.
*/
test(t => {
const pc = new RTCPeerConnection();
const channel = pc.createDataChannel('test');
assert_equals(channel.readyState, 'connecting');
assert_throws_dom('InvalidStateError', () => channel.send(helloString));
}, 'Calling send() when data channel is in connecting state should throw InvalidStateError');
for (const options of [{}, {negotiated: true, id: 0}]) {
const mode = `${options.negotiated? "Negotiated d" : "D"}atachannel`;
/*
6.2. send()
3. Execute the sub step that corresponds to the type of the methods argument:
string object
Let data be the object and increase the bufferedAmount attribute
by the number of bytes needed to express data as UTF-8.
[WebSocket]
5. Feedback from the protocol
When a WebSocket message has been received
4. If type indicates that the data is Text, then initialize event's data
attribute to data.
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel1.send(helloString);
return awaitMessage(channel2)
}).then(message => {
assert_equals(typeof message, 'string',
'Expect message to be a string');
assert_equals(message, helloString);
});
}, `${mode} should be able to send simple string and receive as string`);
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel1.send(unicodeString);
return awaitMessage(channel2)
}).then(message => {
assert_equals(typeof message, 'string',
'Expect message to be a string');
assert_equals(message, unicodeString);
});
}, `${mode} should be able to send unicode string and receive as unicode string`);
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel1.send(helloString);
return awaitMessage(channel2);
}).then(message => {
assert_equals(typeof message, 'string',
'Expect message to be a string');
assert_equals(message, helloString);
});
}, `${mode} should ignore binaryType and always receive string message as string`);
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel1.send(emptyString);
// Send a non-empty string in case the implementation ignores empty messages
channel1.send(helloString);
return awaitMessage(channel2)
}).then(message => {
assert_equals(typeof message, 'string',
'Expect message to be a string');
assert_equals(message, emptyString);
});
}, `${mode} should be able to send an empty string and receive an empty string`);
/*
6.2. send()
3. Execute the sub step that corresponds to the type of the methods argument:
ArrayBufferView object
Let data be the data stored in the section of the buffer described
by the ArrayBuffer object that the ArrayBufferView object references
and increase the bufferedAmount attribute by the length of the
ArrayBufferView in bytes.
[WebSocket]
5. Feedback from the protocol
When a WebSocket message has been received
4. If binaryType is set to "arraybuffer", then initialize event's data
attribute to a new read-only ArrayBuffer object whose contents are data.
[WebIDL]
4.1. ArrayBufferView
typedef (Int8Array or Int16Array or Int32Array or
Uint8Array or Uint16Array or Uint32Array or Uint8ClampedArray or
Float32Array or Float64Array or DataView) ArrayBufferView;
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel1.send(helloBuffer);
return awaitMessage(channel2)
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, helloBuffer.buffer);
});
}, `${mode} should be able to send Uint8Array message and receive as ArrayBuffer`);
/*
6.2. send()
3. Execute the sub step that corresponds to the type of the methods argument:
ArrayBuffer object
Let data be the data stored in the buffer described by the ArrayBuffer
object and increase the bufferedAmount attribute by the length of the
ArrayBuffer in bytes.
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel1.send(helloBuffer.buffer);
return awaitMessage(channel2)
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, helloBuffer.buffer);
});
}, `${mode} should be able to send ArrayBuffer message and receive as ArrayBuffer`);
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel1.send(emptyBuffer.buffer);
// Send a non-empty buffer in case the implementation ignores empty messages
channel1.send(helloBuffer.buffer);
return awaitMessage(channel2)
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, emptyBuffer.buffer);
});
}, `${mode} should be able to send an empty ArrayBuffer message and receive as ArrayBuffer`);
/*
6.2. send()
3. Execute the sub step that corresponds to the type of the methods argument:
Blob object
Let data be the raw data represented by the Blob object and increase
the bufferedAmount attribute by the size of data, in bytes.
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel1.send(helloBlob);
return awaitMessage(channel2);
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, helloBuffer.buffer);
});
}, `${mode} should be able to send Blob message and receive as ArrayBuffer`);
/*
[WebSocket]
5. Feedback from the protocol
When a WebSocket message has been received
4. If binaryType is set to "blob", then initialize event's data attribute
to a new Blob object that represents data as its raw data.
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'blob';
channel1.send(helloBuffer);
return awaitMessage(channel2);
})
.then(messageBlob => {
assert_true(messageBlob instanceof Blob,
'Expect received messageBlob to be a Blob');
return blobToArrayBuffer(messageBlob);
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, helloBuffer.buffer);
});
}, `${mode} should be able to send ArrayBuffer message and receive as Blob`);
/*
6.2. RTCDataChannel
binaryType
The binaryType attribute must, on getting, return the value to which it was
last set. On setting, the user agent must set the IDL attribute to the new
value. When a RTCDataChannel object is created, the binaryType attribute must
be initialized to the string "blob".
*/
promise_test(t => {
return createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
assert_equals(channel2.binaryType, 'arraybuffer',
'Expect initial binaryType value to be arraybuffer');
channel1.send(helloBuffer);
return awaitMessage(channel2);
}).then(messageBuffer => {
assert_true(messageBuffer instanceof ArrayBuffer,
'Expect messageBuffer to be an ArrayBuffer');
assert_equals_typed_array(messageBuffer, helloBuffer.buffer);
});
}, `${mode} binaryType should receive message as ArrayBuffer by default`);
// Test sending 3 messages: helloBuffer, unicodeString, helloBlob
async_test(t => {
const receivedMessages = [];
const onMessage = t.step_func(event => {
const { data } = event;
receivedMessages.push(data);
if(receivedMessages.length === 3) {
assert_equals_typed_array(receivedMessages[0], helloBuffer.buffer);
assert_equals(receivedMessages[1], unicodeString);
assert_equals_typed_array(receivedMessages[2], helloBuffer.buffer);
t.done();
}
});
createDataChannelPair(t, options)
.then(([channel1, channel2]) => {
channel2.binaryType = 'arraybuffer';
channel2.addEventListener('message', onMessage);
channel1.send(helloBuffer);
channel1.send(unicodeString);
channel1.send(helloBlob);
}).catch(t.step_func(err =>
assert_unreached(`Unexpected promise rejection: ${err}`)));
}, `${mode} sending multiple messages with different types should succeed and be received`);
/*
[Deferred]
6.2. RTCDataChannel
The send() method is being amended in w3c/webrtc-pc#1209 to throw error instead
of closing data channel when buffer is full
send()
4. If channel's underlying data transport is not established yet, or if the
closing procedure has started, then abort these steps.
5. Attempt to send data on channel's underlying data transport; if the data
cannot be sent, e.g. because it would need to be buffered but the buffer
is full, the user agent must abruptly close channel's underlying data
transport with an error.
test(t => {
const pc = new RTCPeerConnection();
const channel = pc.createDataChannel('test');
channel.close();
assert_equals(channel.readyState, 'closing');
channel.send(helloString);
}, 'Calling send() when data channel is in closing state should succeed');
*/
}
promise_test(async t => {
// This test uses some bundle shenanigans to cause packet loss
// The intent is to create a situation where a small message is received
// when there is a partially received large message, and check whether
// that small message is misinterpreted as part of the large message
// instead of its own thing.
const pc1 = new RTCPeerConnection({bundlePolicy: 'balanced'});
const pc2 = new RTCPeerConnection();
pc1.addTransceiver('audio');
pc1.addTransceiver('video');
const channel1 = pc1.createDataChannel('foo', {id: 1, ordered: false, negotiated: true});
const channel2 = pc2.createDataChannel('foo', {id: 1, ordered: false, negotiated: true});
const channel1Open = new Promise(r => channel1.onopen = r);
const channel2Open = new Promise(r => channel2.onopen = r);
exchangeIceCandidates(pc1, pc2);
const size = 1024*1024*5;
const bigMessage = 'a'.repeat(size);
const smallMessage = 'boom';
const numLittle = 1000;
const receivedMessages = new Promise((resolve, reject) => {
let littleReceived = 0;
let bigReceived = false;
channel2.onmessage = ({data}) => {
try {
if (data.length == size) {
assert_false(bigReceived, 'Only received big message once');
bigReceived = true;
assert_equals(data, bigMessage, 'Big message has correct contents');
} else if (data.length == smallMessage.length) {
littleReceived++;
assert_equals(data, smallMessage, 'Small message has correct contents');
assert_less_than_equal(littleReceived, numLittle, 'Got no more than expected small messages');
} else {
assert_true(false, `Message was an expected size (got ${data.length}, last bytes are ${data.slice(-20)})`);
}
if (littleReceived == 1000 && bigReceived) {
resolve();
}
} catch (e) {
reject(e);
}
};
});
function rebundleMids(offer, mids) {
// Disable any existing groups
let sdp = offer.sdp.replaceAll('a=group:BUNDLE','a=moop:BUNGLE');
sdp = sdp.replaceAll('a=msid-semantic:', 'a=msid-pedantic:');
// Create group attrs for the mids we want
const midsString = mids.join(' ');
sdp = sdp.replace('\r\nm=', `\r\na=group:BUNDLE ${midsString}\r\na=msid-semantic:WMS *\r\nm=`);
return {type: 'offer', sdp};
}
await pc1.setLocalDescription();
let offer = pc1.localDescription;
// offer should have three separate transports, one for each mid
const sections = SDPUtils.splitSections(offer.sdp);
assert_equals(sections.length, 4);
const mids = sections.slice(1).map(section => SDPUtils.getMid(section));
assert_equals(mids.length, 3);
// Cause the DataChannel msection to be bundled with the audio msection
await pc2.setRemoteDescription(rebundleMids(offer, [mids[0], mids[2]]));
await pc2.setLocalDescription();
await pc1.setRemoteDescription(pc2.localDescription);
await channel1Open;
await channel2Open;
channel1.send(bigMessage);
// Send until we're almost done with the first (big) message
channel1.bufferedAmountLowThreshold = 20000;
await new Promise(r => channel1.onbufferedamountlow = r);
// Ok, now for the shenanigans
let reoffer = await pc1.createOffer();
// Make pc2 _think_ the datachannel is now bundled with the video msection,
// so it will discard the packets
await pc2.setRemoteDescription(rebundleMids(reoffer, [mids[1], mids[2]]));
await pc2.setLocalDescription();
for (let i = 0; i < numLittle; i++) {
channel1.send('boom');
}
// Now, put it back the way it is supposed to be
await pc1.setLocalDescription();
reoffer = pc1.localDescription;
await pc2.setRemoteDescription(rebundleMids(reoffer, [mids[0], mids[2]]));
await pc2.setLocalDescription();
await pc1.setRemoteDescription(pc2.localDescription);
await receivedMessages;
}, `Sending multiple messages simultaneously in unordered mode works reliably`);
</script>