blob: d7653c3a8afbfe60c7eeb64fe50ba250c271ce48 [file] [log] [blame]
'use strict';
// Test is based on the following editor draft:
// https://w3c.github.io/webrtc-pc/archives/20170605/webrtc.html
// Helper function for testing RTCRtpParameters dictionary fields
// This file depends on dictionary-helper.js which should
// be loaded from the main HTML file.
// An offer/answer exchange is necessary for getParameters() to have any
// negotiated parameters to return.
async function doOfferAnswerExchange(t, caller) {
const callee = new RTCPeerConnection();
t.add_cleanup(() => callee.close());
const offer = await caller.createOffer();
await caller.setLocalDescription(offer);
await callee.setRemoteDescription(offer);
const answer = await callee.createAnswer();
await callee.setLocalDescription(answer);
await caller.setRemoteDescription(answer);
return callee;
}
/*
Validates the RTCRtpParameters returned from RTCRtpSender.prototype.getParameters
5.2. RTCRtpSender Interface
getParameters
- transactionId is set to a new unique identifier, used to match this getParameters
call to a setParameters call that may occur later.
- encodings is set to the value of the [[SendEncodings]] internal slot.
- The headerExtensions sequence is populated based on the header extensions that
have been negotiated for sending.
- The codecs sequence is populated based on the codecs that have been negotiated
for sending, and which the user agent is currently capable of sending. If
setParameters has removed or reordered codecs, getParameters MUST return the
shortened/reordered list. However, every time codecs are renegotiated by a
new offer/answer exchange, the list of codecs MUST be restored to the full
negotiated set, in the priority order indicated by the remote description,
in effect discarding the effects of setParameters.
- rtcp.cname is set to the CNAME of the associated RTCPeerConnection. rtcp.reducedSize
is set to true if reduced-size RTCP has been negotiated for sending, and false otherwise.
*/
function validateSenderRtpParameters(param) {
validateRtpParameters(param);
assert_array_field(param, 'encodings');
for(const encoding of param.encodings) {
validateEncodingParameters(encoding);
}
assert_not_equals(param.transactionId, undefined,
'Expect sender param.transactionId to be set');
assert_not_equals(param.rtcp.cname, undefined,
'Expect sender param.rtcp.cname to be set');
assert_not_equals(param.rtcp.reducedSize, undefined,
'Expect sender param.rtcp.reducedSize to be set to either true or false');
}
/*
Validates the RTCRtpParameters returned from RTCRtpReceiver.prototype.getParameters
5.3. RTCRtpReceiver Interface
getParameters
When getParameters is called, the RTCRtpParameters dictionary is constructed
as follows:
- The headerExtensions sequence is populated based on the header extensions that
the receiver is currently prepared to receive.
- The codecs sequence is populated based on the codecs that the receiver is currently
prepared to receive.
- rtcp.reducedSize is set to true if the receiver is currently prepared to receive
reduced-size RTCP packets, and false otherwise. rtcp.cname is left undefined.
- transactionId is left undefined.
*/
function validateReceiverRtpParameters(param) {
validateRtpParameters(param);
assert_equals(param.transactionId, undefined,
'Expect receiver param.transactionId to be unset');
assert_not_equals(param.rtcp.reducedSize, undefined,
'Expect receiver param.rtcp.reducedSize to be set');
assert_equals(param.rtcp.cname, undefined,
'Expect receiver param.rtcp.cname to be unset');
}
/*
dictionary RTCRtpParameters {
DOMString transactionId;
sequence<RTCRtpEncodingParameters> encodings;
sequence<RTCRtpHeaderExtensionParameters> headerExtensions;
RTCRtcpParameters rtcp;
sequence<RTCRtpCodecParameters> codecs;
};
*/
function validateRtpParameters(param) {
assert_optional_string_field(param, 'transactionId');
assert_array_field(param, 'headerExtensions');
for(const headerExt of param.headerExtensions) {
validateHeaderExtensionParameters(headerExt);
}
assert_dict_field(param, 'rtcp');
validateRtcpParameters(param.rtcp);
assert_array_field(param, 'codecs');
for(const codec of param.codecs) {
validateCodecParameters(codec);
}
}
/*
dictionary RTCRtpEncodingParameters {
boolean active;
unsigned long maxBitrate;
[readonly]
DOMString rid;
double scaleResolutionDownBy;
};
*/
function validateEncodingParameters(encoding) {
assert_optional_boolean_field(encoding, 'active');
assert_optional_unsigned_int_field(encoding, 'maxBitrate');
assert_optional_string_field(encoding, 'rid');
assert_optional_number_field(encoding, 'scaleResolutionDownBy');
}
/*
dictionary RTCRtcpParameters {
[readonly]
DOMString cname;
[readonly]
boolean reducedSize;
};
*/
function validateRtcpParameters(rtcp) {
assert_optional_string_field(rtcp, 'cname');
assert_optional_boolean_field(rtcp, 'reducedSize');
}
/*
dictionary RTCRtpHeaderExtensionParameters {
[readonly]
DOMString uri;
[readonly]
unsigned short id;
[readonly]
boolean encrypted;
};
*/
function validateHeaderExtensionParameters(headerExt) {
assert_optional_string_field(headerExt, 'uri');
assert_optional_unsigned_int_field(headerExt, 'id');
assert_optional_boolean_field(headerExt, 'encrypted');
}
/*
dictionary RTCRtpCodecParameters {
[readonly]
unsigned short payloadType;
[readonly]
DOMString mimeType;
[readonly]
unsigned long clockRate;
[readonly]
unsigned short channels;
[readonly]
DOMString sdpFmtpLine;
};
*/
function validateCodecParameters(codec) {
assert_optional_unsigned_int_field(codec, 'payloadType');
assert_optional_string_field(codec, 'mimeType');
assert_optional_unsigned_int_field(codec, 'clockRate');
assert_optional_unsigned_int_field(codec, 'channels');
assert_optional_string_field(codec, 'sdpFmtpLine');
}
// Get the first encoding in param.encodings.
// Asserts that param.encodings has at least one element.
function getFirstEncoding(param) {
const {
encodings
} = param;
assert_equals(encodings.length, 1);
return encodings[0];
}
// Helper function to test that modifying an encoding field should succeed
function test_modified_encoding(kind, field, value1, value2, desc) {
promise_test(async t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const {
sender
} = pc.addTransceiver(kind, {
sendEncodings: [{
[field]: value1
}]
});
await doOfferAnswerExchange(t, pc);
const param1 = sender.getParameters();
validateSenderRtpParameters(param1);
const encoding1 = getFirstEncoding(param1);
assert_equals(encoding1[field], value1);
encoding1[field] = value2;
await sender.setParameters(param1);
const param2 = sender.getParameters();
validateSenderRtpParameters(param2);
const encoding2 = getFirstEncoding(param2);
assert_equals(encoding2[field], value2);
}, desc + ' with RTCRtpTransceiverInit');
promise_test(async t => {
const pc = new RTCPeerConnection();
t.add_cleanup(() => pc.close());
const {
sender
} = pc.addTransceiver(kind);
await doOfferAnswerExchange(t, pc);
const initParam = sender.getParameters();
validateSenderRtpParameters(initParam);
initParam.encodings[0][field] = value1;
await sender.setParameters(initParam);
const param1 = sender.getParameters();
validateSenderRtpParameters(param1);
const encoding1 = getFirstEncoding(param1);
assert_equals(encoding1[field], value1);
encoding1[field] = value2;
await sender.setParameters(param1);
const param2 = sender.getParameters();
validateSenderRtpParameters(param2);
const encoding2 = getFirstEncoding(param2);
assert_equals(encoding2[field], value2);
}, desc + ' without RTCRtpTransceiverInit');
}