/* eslint-env node */ 'use strict'; // SDP helpers. const SDPUtils = {}; // Generate an alphanumeric identifier for cname or mids. // TODO: use UUIDs instead? https://gist.github.com/jed/982883 SDPUtils.generateIdentifier = function() { return Math.random().toString(36).substring(2, 12); }; // The RTCP CNAME used by all peerconnections from the same JS. SDPUtils.localCName = SDPUtils.generateIdentifier(); // Splits SDP into lines, dealing with both CRLF and LF. SDPUtils.splitLines = function(blob) { return blob.trim().split('\n').map(line => line.trim()); }; // Splits SDP into sessionpart and mediasections. Ensures CRLF. SDPUtils.splitSections = function(blob) { const parts = blob.split('\nm='); return parts.map((part, index) => (index > 0 ? 'm=' + part : part).trim() + '\r\n'); }; // Returns the session description. SDPUtils.getDescription = function(blob) { const sections = SDPUtils.splitSections(blob); return sections && sections[0]; }; // Returns the individual media sections. SDPUtils.getMediaSections = function(blob) { const sections = SDPUtils.splitSections(blob); sections.shift(); return sections; }; // Returns lines that start with a certain prefix. SDPUtils.matchPrefix = function(blob, prefix) { return SDPUtils.splitLines(blob).filter(line => line.indexOf(prefix) === 0); }; // Parses an ICE candidate line. Sample input: // candidate:702786350 2 udp 41819902 8.8.8.8 60769 typ relay raddr 8.8.8.8 // rport 55996" // Input can be prefixed with a=. SDPUtils.parseCandidate = function(line) { let parts; // Parse both variants. if (line.indexOf('a=candidate:') === 0) { parts = line.substring(12).split(' '); } else { parts = line.substring(10).split(' '); } const candidate = { foundation: parts[0], component: {1: 'rtp', 2: 'rtcp'}[parts[1]] || parts[1], protocol: parts[2].toLowerCase(), priority: parseInt(parts[3], 10), ip: parts[4], address: parts[4], // address is an alias for ip. port: parseInt(parts[5], 10), // skip parts[6] == 'typ' type: parts[7], }; for (let i = 8; i < parts.length; i += 2) { switch (parts[i]) { case 'raddr': candidate.relatedAddress = parts[i + 1]; break; case 'rport': candidate.relatedPort = parseInt(parts[i + 1], 10); break; case 'tcptype': candidate.tcpType = parts[i + 1]; break; case 'ufrag': candidate.ufrag = parts[i + 1]; // for backward compatibility. candidate.usernameFragment = parts[i + 1]; break; default: // extension handling, in particular ufrag. Don't overwrite. if (candidate[parts[i]] === undefined) { candidate[parts[i]] = parts[i + 1]; } break; } } return candidate; }; // Translates a candidate object into SDP candidate attribute. // This does not include the a= prefix! SDPUtils.writeCandidate = function(candidate) { const sdp = []; sdp.push(candidate.foundation); const component = candidate.component; if (component === 'rtp') { sdp.push(1); } else if (component === 'rtcp') { sdp.push(2); } else { sdp.push(component); } sdp.push(candidate.protocol.toUpperCase()); sdp.push(candidate.priority); sdp.push(candidate.address || candidate.ip); sdp.push(candidate.port); const type = candidate.type; sdp.push('typ'); sdp.push(type); if (type !== 'host' && candidate.relatedAddress && candidate.relatedPort) { sdp.push('raddr'); sdp.push(candidate.relatedAddress); sdp.push('rport'); sdp.push(candidate.relatedPort); } if (candidate.tcpType && candidate.protocol.toLowerCase() === 'tcp') { sdp.push('tcptype'); sdp.push(candidate.tcpType); } if (candidate.usernameFragment || candidate.ufrag) { sdp.push('ufrag'); sdp.push(candidate.usernameFragment || candidate.ufrag); } return 'candidate:' + sdp.join(' '); }; // Parses an ice-options line, returns an array of option tags. // Sample input: // a=ice-options:foo bar SDPUtils.parseIceOptions = function(line) { return line.substring(14).split(' '); }; // Parses a rtpmap line, returns RTCRtpCoddecParameters. Sample input: // a=rtpmap:111 opus/48000/2 SDPUtils.parseRtpMap = function(line) { let parts = line.substring(9).split(' '); const parsed = { payloadType: parseInt(parts.shift(), 10), // was: id }; parts = parts[0].split('/'); parsed.name = parts[0]; parsed.clockRate = parseInt(parts[1], 10); // was: clockrate parsed.channels = parts.length === 3 ? parseInt(parts[2], 10) : 1; // legacy alias, got renamed back to channels in ORTC. parsed.numChannels = parsed.channels; return parsed; }; // Generates a rtpmap line from RTCRtpCodecCapability or // RTCRtpCodecParameters. SDPUtils.writeRtpMap = function(codec) { let pt = codec.payloadType; if (codec.preferredPayloadType !== undefined) { pt = codec.preferredPayloadType; } const channels = codec.channels || codec.numChannels || 1; return 'a=rtpmap:' + pt + ' ' + codec.name + '/' + codec.clockRate + (channels !== 1 ? '/' + channels : '') + '\r\n'; }; // Parses a extmap line (headerextension from RFC 5285). Sample input: // a=extmap:2 urn:ietf:params:rtp-hdrext:toffset // a=extmap:2/sendonly urn:ietf:params:rtp-hdrext:toffset SDPUtils.parseExtmap = function(line) { const parts = line.substring(9).split(' '); return { id: parseInt(parts[0], 10), direction: parts[0].indexOf('/') > 0 ? parts[0].split('/')[1] : 'sendrecv', uri: parts[1], attributes: parts.slice(2).join(' '), }; }; // Generates an extmap line from RTCRtpHeaderExtensionParameters or // RTCRtpHeaderExtension. SDPUtils.writeExtmap = function(headerExtension) { return 'a=extmap:' + (headerExtension.id || headerExtension.preferredId) + (headerExtension.direction && headerExtension.direction !== 'sendrecv' ? '/' + headerExtension.direction : '') + ' ' + headerExtension.uri + (headerExtension.attributes ? ' ' + headerExtension.attributes : '') + '\r\n'; }; // Parses a fmtp line, returns dictionary. Sample input: // a=fmtp:96 vbr=on;cng=on // Also deals with vbr=on; cng=on SDPUtils.parseFmtp = function(line) { const parsed = {}; let kv; const parts = line.substring(line.indexOf(' ') + 1).split(';'); for (let j = 0; j < parts.length; j++) { kv = parts[j].trim().split('='); parsed[kv[0].trim()] = kv[1]; } return parsed; }; // Generates a fmtp line from RTCRtpCodecCapability or RTCRtpCodecParameters. SDPUtils.writeFmtp = function(codec) { let line = ''; let pt = codec.payloadType; if (codec.preferredPayloadType !== undefined) { pt = codec.preferredPayloadType; } if (codec.parameters && Object.keys(codec.parameters).length) { const params = []; Object.keys(codec.parameters).forEach(param => { if (codec.parameters[param] !== undefined) { params.push(param + '=' + codec.parameters[param]); } else { params.push(param); } }); line += 'a=fmtp:' + pt + ' ' + params.join(';') + '\r\n'; } return line; }; // Parses a rtcp-fb line, returns RTCPRtcpFeedback object. Sample input: // a=rtcp-fb:98 nack rpsi SDPUtils.parseRtcpFb = function(line) { const parts = line.substring(line.indexOf(' ') + 1).split(' '); return { type: parts.shift(), parameter: parts.join(' '), }; }; // Generate a=rtcp-fb lines from RTCRtpCodecCapability or RTCRtpCodecParameters. SDPUtils.writeRtcpFb = function(codec) { let lines = ''; let pt = codec.payloadType; if (codec.preferredPayloadType !== undefined) { pt = codec.preferredPayloadType; } if (codec.rtcpFeedback && codec.rtcpFeedback.length) { // FIXME: special handling for trr-int? codec.rtcpFeedback.forEach(fb => { lines += 'a=rtcp-fb:' + pt + ' ' + fb.type + (fb.parameter && fb.parameter.length ? ' ' + fb.parameter : '') + '\r\n'; }); } return lines; }; // Parses a RFC 5576 ssrc media attribute. Sample input: // a=ssrc:3735928559 cname:something SDPUtils.parseSsrcMedia = function(line) { const sp = line.indexOf(' '); const parts = { ssrc: parseInt(line.substring(7, sp), 10), }; const colon = line.indexOf(':', sp); if (colon > -1) { parts.attribute = line.substring(sp + 1, colon); parts.value = line.substring(colon + 1); } else { parts.attribute = line.substring(sp + 1); } return parts; }; // Parse a ssrc-group line (see RFC 5576). Sample input: // a=ssrc-group:semantics 12 34 SDPUtils.parseSsrcGroup = function(line) { const parts = line.substring(13).split(' '); return { semantics: parts.shift(), ssrcs: parts.map(ssrc => parseInt(ssrc, 10)), }; }; // Extracts the MID (RFC 5888) from a media section. // Returns the MID or undefined if no mid line was found. SDPUtils.getMid = function(mediaSection) { const mid = SDPUtils.matchPrefix(mediaSection, 'a=mid:')[0]; if (mid) { return mid.substring(6); } }; // Parses a fingerprint line for DTLS-SRTP. SDPUtils.parseFingerprint = function(line) { const parts = line.substring(14).split(' '); return { algorithm: parts[0].toLowerCase(), // algorithm is case-sensitive in Edge. value: parts[1].toUpperCase(), // the definition is upper-case in RFC 4572. }; }; // Extracts DTLS parameters from SDP media section or sessionpart. // FIXME: for consistency with other functions this should only // get the fingerprint line as input. See also getIceParameters. SDPUtils.getDtlsParameters = function(mediaSection, sessionpart) { const lines = SDPUtils.matchPrefix(mediaSection + sessionpart, 'a=fingerprint:'); // Note: a=setup line is ignored since we use the 'auto' role in Edge. return { role: 'auto', fingerprints: lines.map(SDPUtils.parseFingerprint), }; }; // Serializes DTLS parameters to SDP. SDPUtils.writeDtlsParameters = function(params, setupType) { let sdp = 'a=setup:' + setupType + '\r\n'; params.fingerprints.forEach(fp => { sdp += 'a=fingerprint:' + fp.algorithm + ' ' + fp.value + '\r\n'; }); return sdp; }; // Parses a=crypto lines into // https://rawgit.com/aboba/edgertc/master/msortc-rs4.html#dictionary-rtcsrtpsdesparameters-members SDPUtils.parseCryptoLine = function(line) { const parts = line.substring(9).split(' '); return { tag: parseInt(parts[0], 10), cryptoSuite: parts[1], keyParams: parts[2], sessionParams: parts.slice(3), }; }; SDPUtils.writeCryptoLine = function(parameters) { return 'a=crypto:' + parameters.tag + ' ' + parameters.cryptoSuite + ' ' + (typeof parameters.keyParams === 'object' ? SDPUtils.writeCryptoKeyParams(parameters.keyParams) : parameters.keyParams) + (parameters.sessionParams ? ' ' + parameters.sessionParams.join(' ') : '') + '\r\n'; }; // Parses the crypto key parameters into // https://rawgit.com/aboba/edgertc/master/msortc-rs4.html#rtcsrtpkeyparam* SDPUtils.parseCryptoKeyParams = function(keyParams) { if (keyParams.indexOf('inline:') !== 0) { return null; } const parts = keyParams.substring(7).split('|'); return { keyMethod: 'inline', keySalt: parts[0], lifeTime: parts[1], mkiValue: parts[2] ? parts[2].split(':')[0] : undefined, mkiLength: parts[2] ? parts[2].split(':')[1] : undefined, }; }; SDPUtils.writeCryptoKeyParams = function(keyParams) { return keyParams.keyMethod + ':' + keyParams.keySalt + (keyParams.lifeTime ? '|' + keyParams.lifeTime : '') + (keyParams.mkiValue && keyParams.mkiLength ? '|' + keyParams.mkiValue + ':' + keyParams.mkiLength : ''); }; // Extracts all SDES parameters. SDPUtils.getCryptoParameters = function(mediaSection, sessionpart) { const lines = SDPUtils.matchPrefix(mediaSection + sessionpart, 'a=crypto:'); return lines.map(SDPUtils.parseCryptoLine); }; // Parses ICE information from SDP media section or sessionpart. // FIXME: for consistency with other functions this should only // get the ice-ufrag and ice-pwd lines as input. SDPUtils.getIceParameters = function(mediaSection, sessionpart) { const ufrag = SDPUtils.matchPrefix(mediaSection + sessionpart, 'a=ice-ufrag:')[0]; const pwd = SDPUtils.matchPrefix(mediaSection + sessionpart, 'a=ice-pwd:')[0]; if (!(ufrag && pwd)) { return null; } return { usernameFragment: ufrag.substring(12), password: pwd.substring(10), }; }; // Serializes ICE parameters to SDP. SDPUtils.writeIceParameters = function(params) { let sdp = 'a=ice-ufrag:' + params.usernameFragment + '\r\n' + 'a=ice-pwd:' + params.password + '\r\n'; if (params.iceLite) { sdp += 'a=ice-lite\r\n'; } return sdp; }; // Parses the SDP media section and returns RTCRtpParameters. SDPUtils.parseRtpParameters = function(mediaSection) { const description = { codecs: [], headerExtensions: [], fecMechanisms: [], rtcp: [], }; const lines = SDPUtils.splitLines(mediaSection); const mline = lines[0].split(' '); description.profile = mline[2]; for (let i = 3; i < mline.length; i++) { // find all codecs from mline[3..] const pt = mline[i]; const rtpmapline = SDPUtils.matchPrefix( mediaSection, 'a=rtpmap:' + pt + ' ')[0]; if (rtpmapline) { const codec = SDPUtils.parseRtpMap(rtpmapline); const fmtps = SDPUtils.matchPrefix( mediaSection, 'a=fmtp:' + pt + ' '); // Only the first a=fmtp: is considered. codec.parameters = fmtps.length ? SDPUtils.parseFmtp(fmtps[0]) : {}; codec.rtcpFeedback = SDPUtils.matchPrefix( mediaSection, 'a=rtcp-fb:' + pt + ' ') .map(SDPUtils.parseRtcpFb); description.codecs.push(codec); // parse FEC mechanisms from rtpmap lines. switch (codec.name.toUpperCase()) { case 'RED': case 'ULPFEC': description.fecMechanisms.push(codec.name.toUpperCase()); break; default: // only RED and ULPFEC are recognized as FEC mechanisms. break; } } } SDPUtils.matchPrefix(mediaSection, 'a=extmap:').forEach(line => { description.headerExtensions.push(SDPUtils.parseExtmap(line)); }); const wildcardRtcpFb = SDPUtils.matchPrefix(mediaSection, 'a=rtcp-fb:* ') .map(SDPUtils.parseRtcpFb); description.codecs.forEach(codec => { wildcardRtcpFb.forEach(fb=> { const duplicate = codec.rtcpFeedback.find(existingFeedback => { return existingFeedback.type === fb.type && existingFeedback.parameter === fb.parameter; }); if (!duplicate) { codec.rtcpFeedback.push(fb); } }); }); // FIXME: parse rtcp. return description; }; // Generates parts of the SDP media section describing the capabilities / // parameters. SDPUtils.writeRtpDescription = function(kind, caps) { let sdp = ''; // Build the mline. sdp += 'm=' + kind + ' '; sdp += caps.codecs.length > 0 ? '9' : '0'; // reject if no codecs. sdp += ' ' + (caps.profile || 'UDP/TLS/RTP/SAVPF') + ' '; sdp += caps.codecs.map(codec => { if (codec.preferredPayloadType !== undefined) { return codec.preferredPayloadType; } return codec.payloadType; }).join(' ') + '\r\n'; sdp += 'c=IN IP4 0.0.0.0\r\n'; sdp += 'a=rtcp:9 IN IP4 0.0.0.0\r\n'; // Add a=rtpmap lines for each codec. Also fmtp and rtcp-fb. caps.codecs.forEach(codec => { sdp += SDPUtils.writeRtpMap(codec); sdp += SDPUtils.writeFmtp(codec); sdp += SDPUtils.writeRtcpFb(codec); }); let maxptime = 0; caps.codecs.forEach(codec => { if (codec.maxptime > maxptime) { maxptime = codec.maxptime; } }); if (maxptime > 0) { sdp += 'a=maxptime:' + maxptime + '\r\n'; } if (caps.headerExtensions) { caps.headerExtensions.forEach(extension => { sdp += SDPUtils.writeExtmap(extension); }); } // FIXME: write fecMechanisms. return sdp; }; // Parses the SDP media section and returns an array of // RTCRtpEncodingParameters. SDPUtils.parseRtpEncodingParameters = function(mediaSection) { const encodingParameters = []; const description = SDPUtils.parseRtpParameters(mediaSection); const hasRed = description.fecMechanisms.indexOf('RED') !== -1; const hasUlpfec = description.fecMechanisms.indexOf('ULPFEC') !== -1; // filter a=ssrc:... cname:, ignore PlanB-msid const ssrcs = SDPUtils.matchPrefix(mediaSection, 'a=ssrc:') .map(line => SDPUtils.parseSsrcMedia(line)) .filter(parts => parts.attribute === 'cname'); const primarySsrc = ssrcs.length > 0 && ssrcs[0].ssrc; let secondarySsrc; const flows = SDPUtils.matchPrefix(mediaSection, 'a=ssrc-group:FID') .map(line => { const parts = line.substring(17).split(' '); return parts.map(part => parseInt(part, 10)); }); if (flows.length > 0 && flows[0].length > 1 && flows[0][0] === primarySsrc) { secondarySsrc = flows[0][1]; } description.codecs.forEach(codec => { if (codec.name.toUpperCase() === 'RTX' && codec.parameters.apt) { let encParam = { ssrc: primarySsrc, codecPayloadType: parseInt(codec.parameters.apt, 10), }; if (primarySsrc && secondarySsrc) { encParam.rtx = {ssrc: secondarySsrc}; } encodingParameters.push(encParam); if (hasRed) { encParam = JSON.parse(JSON.stringify(encParam)); encParam.fec = { ssrc: primarySsrc, mechanism: hasUlpfec ? 'red+ulpfec' : 'red', }; encodingParameters.push(encParam); } } }); if (encodingParameters.length === 0 && primarySsrc) { encodingParameters.push({ ssrc: primarySsrc, }); } // we support both b=AS and b=TIAS but interpret AS as TIAS. let bandwidth = SDPUtils.matchPrefix(mediaSection, 'b='); if (bandwidth.length) { if (bandwidth[0].indexOf('b=TIAS:') === 0) { bandwidth = parseInt(bandwidth[0].substring(7), 10); } else if (bandwidth[0].indexOf('b=AS:') === 0) { // use formula from JSEP to convert b=AS to TIAS value. bandwidth = parseInt(bandwidth[0].substring(5), 10) * 1000 * 0.95 - (50 * 40 * 8); } else { bandwidth = undefined; } encodingParameters.forEach(params => { params.maxBitrate = bandwidth; }); } return encodingParameters; }; // parses http://draft.ortc.org/#rtcrtcpparameters* SDPUtils.parseRtcpParameters = function(mediaSection) { const rtcpParameters = {}; // Gets the first SSRC. Note that with RTX there might be multiple // SSRCs. const remoteSsrc = SDPUtils.matchPrefix(mediaSection, 'a=ssrc:') .map(line => SDPUtils.parseSsrcMedia(line)) .filter(obj => obj.attribute === 'cname')[0]; if (remoteSsrc) { rtcpParameters.cname = remoteSsrc.value; rtcpParameters.ssrc = remoteSsrc.ssrc; } // Edge uses the compound attribute instead of reducedSize // compound is !reducedSize const rsize = SDPUtils.matchPrefix(mediaSection, 'a=rtcp-rsize'); rtcpParameters.reducedSize = rsize.length > 0; rtcpParameters.compound = rsize.length === 0; // parses the rtcp-mux attrŅ–bute. // Note that Edge does not support unmuxed RTCP. const mux = SDPUtils.matchPrefix(mediaSection, 'a=rtcp-mux'); rtcpParameters.mux = mux.length > 0; return rtcpParameters; }; SDPUtils.writeRtcpParameters = function(rtcpParameters) { let sdp = ''; if (rtcpParameters.reducedSize) { sdp += 'a=rtcp-rsize\r\n'; } if (rtcpParameters.mux) { sdp += 'a=rtcp-mux\r\n'; } if (rtcpParameters.ssrc !== undefined && rtcpParameters.cname) { sdp += 'a=ssrc:' + rtcpParameters.ssrc + ' cname:' + rtcpParameters.cname + '\r\n'; } return sdp; }; // parses either a=msid: or a=ssrc:... msid lines and returns // the id of the MediaStream and MediaStreamTrack. SDPUtils.parseMsid = function(mediaSection) { let parts; const spec = SDPUtils.matchPrefix(mediaSection, 'a=msid:'); if (spec.length === 1) { parts = spec[0].substring(7).split(' '); return {stream: parts[0], track: parts[1]}; } const planB = SDPUtils.matchPrefix(mediaSection, 'a=ssrc:') .map(line => SDPUtils.parseSsrcMedia(line)) .filter(msidParts => msidParts.attribute === 'msid'); if (planB.length > 0) { parts = planB[0].value.split(' '); return {stream: parts[0], track: parts[1]}; } }; // SCTP // parses draft-ietf-mmusic-sctp-sdp-26 first and falls back // to draft-ietf-mmusic-sctp-sdp-05 SDPUtils.parseSctpDescription = function(mediaSection) { const mline = SDPUtils.parseMLine(mediaSection); const maxSizeLine = SDPUtils.matchPrefix(mediaSection, 'a=max-message-size:'); let maxMessageSize; if (maxSizeLine.length > 0) { maxMessageSize = parseInt(maxSizeLine[0].substring(19), 10); } if (isNaN(maxMessageSize)) { maxMessageSize = 65536; } const sctpPort = SDPUtils.matchPrefix(mediaSection, 'a=sctp-port:'); if (sctpPort.length > 0) { return { port: parseInt(sctpPort[0].substring(12), 10), protocol: mline.fmt, maxMessageSize, }; } const sctpMapLines = SDPUtils.matchPrefix(mediaSection, 'a=sctpmap:'); if (sctpMapLines.length > 0) { const parts = sctpMapLines[0] .substring(10) .split(' '); return { port: parseInt(parts[0], 10), protocol: parts[1], maxMessageSize, }; } }; // SCTP // outputs the draft-ietf-mmusic-sctp-sdp-26 version that all browsers // support by now receiving in this format, unless we originally parsed // as the draft-ietf-mmusic-sctp-sdp-05 format (indicated by the m-line // protocol of DTLS/SCTP -- without UDP/ or TCP/) SDPUtils.writeSctpDescription = function(media, sctp) { let output = []; if (media.protocol !== 'DTLS/SCTP') { output = [ 'm=' + media.kind + ' 9 ' + media.protocol + ' ' + sctp.protocol + '\r\n', 'c=IN IP4 0.0.0.0\r\n', 'a=sctp-port:' + sctp.port + '\r\n', ]; } else { output = [ 'm=' + media.kind + ' 9 ' + media.protocol + ' ' + sctp.port + '\r\n', 'c=IN IP4 0.0.0.0\r\n', 'a=sctpmap:' + sctp.port + ' ' + sctp.protocol + ' 65535\r\n', ]; } if (sctp.maxMessageSize !== undefined) { output.push('a=max-message-size:' + sctp.maxMessageSize + '\r\n'); } return output.join(''); }; // Generate a session ID for SDP. // https://tools.ietf.org/html/draft-ietf-rtcweb-jsep-20#section-5.2.1 // recommends using a cryptographically random +ve 64-bit value // but right now this should be acceptable and within the right range SDPUtils.generateSessionId = function() { return Math.random().toString().substr(2, 22); }; // Write boiler plate for start of SDP // sessId argument is optional - if not supplied it will // be generated randomly // sessVersion is optional and defaults to 2 // sessUser is optional and defaults to 'thisisadapterortc' SDPUtils.writeSessionBoilerplate = function(sessId, sessVer, sessUser) { let sessionId; const version = sessVer !== undefined ? sessVer : 2; if (sessId) { sessionId = sessId; } else { sessionId = SDPUtils.generateSessionId(); } const user = sessUser || 'thisisadapterortc'; // FIXME: sess-id should be an NTP timestamp. return 'v=0\r\n' + 'o=' + user + ' ' + sessionId + ' ' + version + ' IN IP4 127.0.0.1\r\n' + 's=-\r\n' + 't=0 0\r\n'; }; // Gets the direction from the mediaSection or the sessionpart. SDPUtils.getDirection = function(mediaSection, sessionpart) { // Look for sendrecv, sendonly, recvonly, inactive, default to sendrecv. const lines = SDPUtils.splitLines(mediaSection); for (let i = 0; i < lines.length; i++) { switch (lines[i]) { case 'a=sendrecv': case 'a=sendonly': case 'a=recvonly': case 'a=inactive': return lines[i].substring(2); default: // FIXME: What should happen here? } } if (sessionpart) { return SDPUtils.getDirection(sessionpart); } return 'sendrecv'; }; SDPUtils.getKind = function(mediaSection) { const lines = SDPUtils.splitLines(mediaSection); const mline = lines[0].split(' '); return mline[0].substring(2); }; SDPUtils.isRejected = function(mediaSection) { return mediaSection.split(' ', 2)[1] === '0'; }; SDPUtils.parseMLine = function(mediaSection) { const lines = SDPUtils.splitLines(mediaSection); const parts = lines[0].substring(2).split(' '); return { kind: parts[0], port: parseInt(parts[1], 10), protocol: parts[2], fmt: parts.slice(3).join(' '), }; }; SDPUtils.parseOLine = function(mediaSection) { const line = SDPUtils.matchPrefix(mediaSection, 'o=')[0]; const parts = line.substring(2).split(' '); return { username: parts[0], sessionId: parts[1], sessionVersion: parseInt(parts[2], 10), netType: parts[3], addressType: parts[4], address: parts[5], }; }; // a very naive interpretation of a valid SDP. SDPUtils.isValidSDP = function(blob) { if (typeof blob !== 'string' || blob.length === 0) { return false; } const lines = SDPUtils.splitLines(blob); for (let i = 0; i < lines.length; i++) { if (lines[i].length < 2 || lines[i].charAt(1) !== '=') { return false; } // TODO: check the modifier a bit more. } return true; }; // Expose public methods. if (typeof module === 'object') { module.exports = SDPUtils; }