gecko-dev/dom/presentation/provider/PresentationControlService.jsm

1057 строки
29 KiB
JavaScript

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
const { Services } = ChromeUtils.import("resource://gre/modules/Services.jsm");
const { NetUtil } = ChromeUtils.import("resource://gre/modules/NetUtil.jsm");
const { clearTimeout, setTimeout } = ChromeUtils.import(
"resource://gre/modules/Timer.jsm"
);
ChromeUtils.defineModuleGetter(
this,
"ControllerStateMachine",
"resource://gre/modules/presentation/ControllerStateMachine.jsm"
);
ChromeUtils.defineModuleGetter(
this,
"ReceiverStateMachine",
"resource://gre/modules/presentation/ReceiverStateMachine.jsm"
);
const kProtocolVersion = 1; // need to review isCompatibleServer while fiddling the version number.
const kLocalCertName = "presentation";
const DEBUG = Services.prefs.getBoolPref("dom.presentation.tcp_server.debug");
function log(aMsg) {
dump("-*- PresentationControlService.js: " + aMsg + "\n");
}
function TCPDeviceInfo(aAddress, aPort, aId, aCertFingerprint) {
this.address = aAddress;
this.port = aPort;
this.id = aId;
this.certFingerprint = aCertFingerprint || "";
}
function PresentationControlService() {
this._id = null;
this._port = 0;
this._serverSocket = null;
}
PresentationControlService.prototype = {
/**
* If a user agent connects to this server, we create a control channel but
* hand it to |TCPDevice.listener| when the initial information exchange
* finishes. Therefore, we hold the control channels in this period.
*/
_controlChannels: [],
startServer(aEncrypted, aPort) {
if (this._isServiceInit()) {
DEBUG &&
log("PresentationControlService - server socket has been initialized"); // jshint ignore:line
throw Cr.NS_ERROR_FAILURE;
}
/**
* 0 or undefined indicates opt-out parameter, and a port will be selected
* automatically.
*/
let serverSocketPort =
typeof aPort !== "undefined" && aPort !== 0 ? aPort : -1;
if (aEncrypted) {
let self = this;
let localCertService = Cc[
"@mozilla.org/security/local-cert-service;1"
].getService(Ci.nsILocalCertService);
localCertService.getOrCreateCert(kLocalCertName, {
handleCert(aCert, aRv) {
DEBUG && log("PresentationControlService - handleCert"); // jshint ignore:line
if (aRv) {
self._notifyServerStopped(aRv);
} else {
self._serverSocket = Cc[
"@mozilla.org/network/tls-server-socket;1"
].createInstance(Ci.nsITLSServerSocket);
self._serverSocketInit(serverSocketPort, aCert);
}
},
});
} else {
this._serverSocket = Cc[
"@mozilla.org/network/server-socket;1"
].createInstance(Ci.nsIServerSocket);
this._serverSocketInit(serverSocketPort, null);
}
},
_serverSocketInit(aPort, aCert) {
if (!this._serverSocket) {
DEBUG && log("PresentationControlService - create server socket fail."); // jshint ignore:line
throw Cr.NS_ERROR_FAILURE;
}
try {
this._serverSocket.init(aPort, false, -1);
if (aCert) {
this._serverSocket.serverCert = aCert;
this._serverSocket.setSessionTickets(false);
let requestCert = Ci.nsITLSServerSocket.REQUEST_NEVER;
this._serverSocket.setRequestClientCertificate(requestCert);
}
this._serverSocket.asyncListen(this);
} catch (e) {
// NS_ERROR_SOCKET_ADDRESS_IN_USE
DEBUG &&
log("PresentationControlService - init server socket fail: " + e); // jshint ignore:line
throw Cr.NS_ERROR_FAILURE;
}
this._port = this._serverSocket.port;
DEBUG &&
log("PresentationControlService - service start on port: " + this._port); // jshint ignore:line
// Monitor network interface change to restart server socket.
Services.obs.addObserver(this, "network:offline-status-changed");
this._notifyServerReady();
},
_notifyServerReady() {
Services.tm.dispatchToMainThread(() => {
if (this._listener) {
this._listener.onServerReady(this._port, this.certFingerprint);
}
});
},
_notifyServerStopped(aRv) {
Services.tm.dispatchToMainThread(() => {
if (this._listener) {
this._listener.onServerStopped(aRv);
}
});
},
isCompatibleServer(aVersion) {
// No compatibility issue for the first version of control protocol
return this.version === aVersion;
},
get id() {
return this._id;
},
set id(aId) {
this._id = aId;
},
get port() {
return this._port;
},
get version() {
return kProtocolVersion;
},
get certFingerprint() {
if (!this._serverSocket.serverCert) {
return null;
}
return this._serverSocket.serverCert.sha256Fingerprint;
},
set listener(aListener) {
this._listener = aListener;
},
get listener() {
return this._listener;
},
_isServiceInit() {
return this._serverSocket !== null;
},
connect(aDeviceInfo) {
if (!this.id) {
DEBUG &&
log(
"PresentationControlService - Id has not initialized; connect fails"
); // jshint ignore:line
return null;
}
DEBUG && log("PresentationControlService - connect to " + aDeviceInfo.id); // jshint ignore:line
let socketTransport = this._attemptConnect(aDeviceInfo);
return new TCPControlChannel(this, socketTransport, aDeviceInfo, "sender");
},
_attemptConnect(aDeviceInfo) {
let sts = Cc["@mozilla.org/network/socket-transport-service;1"].getService(
Ci.nsISocketTransportService
);
let socketTransport;
try {
if (aDeviceInfo.certFingerprint) {
let overrideService = Cc[
"@mozilla.org/security/certoverride;1"
].getService(Ci.nsICertOverrideService);
overrideService.rememberTemporaryValidityOverrideUsingFingerprint(
aDeviceInfo.address,
aDeviceInfo.port,
aDeviceInfo.certFingerprint,
Ci.nsICertOverrideService.ERROR_UNTRUSTED |
Ci.nsICertOverrideService.ERROR_MISMATCH
);
socketTransport = sts.createTransport(
["ssl"],
aDeviceInfo.address,
aDeviceInfo.port,
null
);
} else {
socketTransport = sts.createTransport(
[],
aDeviceInfo.address,
aDeviceInfo.port,
null
);
}
// Shorten the connection failure procedure.
socketTransport.setTimeout(Ci.nsISocketTransport.TIMEOUT_CONNECT, 2);
} catch (e) {
DEBUG && log("PresentationControlService - createTransport throws: " + e); // jshint ignore:line
// Pop the exception to |TCPDevice.establishControlChannel|
throw Cr.NS_ERROR_FAILURE;
}
return socketTransport;
},
responseSession(aDeviceInfo, aSocketTransport) {
if (!this._isServiceInit()) {
DEBUG &&
log(
"PresentationControlService - should never receive remote " +
"session request before server socket initialization"
); // jshint ignore:line
return null;
}
DEBUG &&
log(
"PresentationControlService - responseSession to " +
JSON.stringify(aDeviceInfo)
); // jshint ignore:line
return new TCPControlChannel(
this,
aSocketTransport,
aDeviceInfo,
"receiver"
);
},
// Triggered by TCPControlChannel
onSessionRequest(aDeviceInfo, aUrl, aPresentationId, aControlChannel) {
DEBUG &&
log(
"PresentationControlService - onSessionRequest: " +
aDeviceInfo.address +
":" +
aDeviceInfo.port
); // jshint ignore:line
if (!this.listener) {
this.releaseControlChannel(aControlChannel);
return;
}
this.listener.onSessionRequest(
aDeviceInfo,
aUrl,
aPresentationId,
aControlChannel
);
this.releaseControlChannel(aControlChannel);
},
onSessionTerminate(
aDeviceInfo,
aPresentationId,
aControlChannel,
aIsFromReceiver
) {
DEBUG &&
log(
"TCPPresentationServer - onSessionTerminate: " +
aDeviceInfo.address +
":" +
aDeviceInfo.port
); // jshint ignore:line
if (!this.listener) {
this.releaseControlChannel(aControlChannel);
return;
}
this.listener.onTerminateRequest(
aDeviceInfo,
aPresentationId,
aControlChannel,
aIsFromReceiver
);
this.releaseControlChannel(aControlChannel);
},
onSessionReconnect(aDeviceInfo, aUrl, aPresentationId, aControlChannel) {
DEBUG &&
log(
"TCPPresentationServer - onSessionReconnect: " +
aDeviceInfo.address +
":" +
aDeviceInfo.port
); // jshint ignore:line
if (!this.listener) {
this.releaseControlChannel(aControlChannel);
return;
}
this.listener.onReconnectRequest(
aDeviceInfo,
aUrl,
aPresentationId,
aControlChannel
);
this.releaseControlChannel(aControlChannel);
},
// nsIServerSocketListener (Triggered by nsIServerSocket.init)
onSocketAccepted(aServerSocket, aClientSocket) {
DEBUG &&
log(
"PresentationControlService - onSocketAccepted: " +
aClientSocket.host +
":" +
aClientSocket.port
); // jshint ignore:line
let deviceInfo = new TCPDeviceInfo(aClientSocket.host, aClientSocket.port);
this.holdControlChannel(this.responseSession(deviceInfo, aClientSocket));
},
holdControlChannel(aControlChannel) {
this._controlChannels.push(aControlChannel);
},
releaseControlChannel(aControlChannel) {
let index = this._controlChannels.indexOf(aControlChannel);
if (index !== -1) {
delete this._controlChannels[index];
}
},
// nsIServerSocketListener (Triggered by nsIServerSocket.init)
onStopListening(aServerSocket, aStatus) {
DEBUG && log("PresentationControlService - onStopListening: " + aStatus); // jshint ignore:line
},
close() {
DEBUG && log("PresentationControlService - close"); // jshint ignore:line
if (this._isServiceInit()) {
DEBUG && log("PresentationControlService - close server socket"); // jshint ignore:line
this._serverSocket.close();
this._serverSocket = null;
Services.obs.removeObserver(this, "network:offline-status-changed");
this._notifyServerStopped(Cr.NS_OK);
}
this._port = 0;
},
// nsIObserver
observe(aSubject, aTopic, aData) {
DEBUG && log("PresentationControlService - observe: " + aTopic); // jshint ignore:line
switch (aTopic) {
case "network:offline-status-changed": {
if (aData == "offline") {
DEBUG && log("network offline"); // jshint ignore:line
return;
}
this._restartServer();
break;
}
}
},
_restartServer() {
DEBUG && log("PresentationControlService - restart service"); // jshint ignore:line
// restart server socket
if (this._isServiceInit()) {
this.close();
try {
this.startServer();
} catch (e) {
DEBUG && log("PresentationControlService - restart service fail: " + e); // jshint ignore:line
}
}
},
classID: Components.ID("{f4079b8b-ede5-4b90-a112-5b415a931deb}"),
QueryInterface: ChromeUtils.generateQI([
Ci.nsIServerSocketListener,
Ci.nsIPresentationControlService,
Ci.nsIObserver,
]),
};
function ChannelDescription(aInit) {
this._type = aInit.type;
switch (this._type) {
case Ci.nsIPresentationChannelDescription.TYPE_TCP:
this._tcpAddresses = Cc["@mozilla.org/array;1"].createInstance(
Ci.nsIMutableArray
);
for (let address of aInit.tcpAddress) {
let wrapper = Cc["@mozilla.org/supports-cstring;1"].createInstance(
Ci.nsISupportsCString
);
wrapper.data = address;
this._tcpAddresses.appendElement(wrapper);
}
this._tcpPort = aInit.tcpPort;
break;
case Ci.nsIPresentationChannelDescription.TYPE_DATACHANNEL:
this._dataChannelSDP = aInit.dataChannelSDP;
break;
}
}
ChannelDescription.prototype = {
_type: 0,
_tcpAddresses: null,
_tcpPort: 0,
_dataChannelSDP: "",
get type() {
return this._type;
},
get tcpAddress() {
return this._tcpAddresses;
},
get tcpPort() {
return this._tcpPort;
},
get dataChannelSDP() {
return this._dataChannelSDP;
},
classID: Components.ID("{82507aea-78a2-487e-904a-858a6c5bf4e1}"),
QueryInterface: ChromeUtils.generateQI([
Ci.nsIPresentationChannelDescription,
]),
};
// Helper function: transfer nsIPresentationChannelDescription to json
function discriptionAsJson(aDescription) {
let json = {};
json.type = aDescription.type;
switch (aDescription.type) {
case Ci.nsIPresentationChannelDescription.TYPE_TCP:
let addresses = aDescription.tcpAddress.QueryInterface(Ci.nsIArray);
json.tcpAddress = [];
for (let idx = 0; idx < addresses.length; idx++) {
let address = addresses.queryElementAt(idx, Ci.nsISupportsCString);
json.tcpAddress.push(address.data);
}
json.tcpPort = aDescription.tcpPort;
break;
case Ci.nsIPresentationChannelDescription.TYPE_DATACHANNEL:
json.dataChannelSDP = aDescription.dataChannelSDP;
break;
}
return json;
}
const kDisconnectTimeout = 5000;
const kTerminateTimeout = 5000;
function TCPControlChannel(
presentationService,
transport,
deviceInfo,
direction
) {
DEBUG && log("create TCPControlChannel for : " + direction); // jshint ignore:line
this._deviceInfo = deviceInfo;
this._direction = direction;
this._transport = transport;
this._presentationService = presentationService;
if (direction === "receiver") {
// Need to set security observer before I/O stream operation.
this._setSecurityObserver(this);
}
let currentThread = Services.tm.currentThread;
transport.setEventSink(this, currentThread);
this._input = this._transport
.openInputStream(0, 0, 0)
.QueryInterface(Ci.nsIAsyncInputStream);
this._input.asyncWait(
this.QueryInterface(Ci.nsIStreamListener),
Ci.nsIAsyncInputStream.WAIT_CLOSURE_ONLY,
0,
currentThread
);
this._output = this._transport
.openOutputStream(Ci.nsITransport.OPEN_UNBUFFERED, 0, 0)
.QueryInterface(Ci.nsIAsyncOutputStream);
this._outgoingMsgs = [];
this._stateMachine =
direction === "sender"
? new ControllerStateMachine(this, presentationService.id)
: new ReceiverStateMachine(this);
if (direction === "receiver" && !transport.securityInfo) {
// Since the transport created by server socket is already CONNECTED_TO.
this._outgoingEnabled = true;
this._createInputStreamPump();
}
}
TCPControlChannel.prototype = {
_outgoingEnabled: false,
_incomingEnabled: false,
_pendingOpen: false,
_pendingOffer: null,
_pendingAnswer: null,
_pendingClose: null,
_pendingCloseReason: null,
_pendingReconnect: false,
sendOffer(aOffer) {
this._stateMachine.sendOffer(discriptionAsJson(aOffer));
},
sendAnswer(aAnswer) {
this._stateMachine.sendAnswer(discriptionAsJson(aAnswer));
},
sendIceCandidate(aCandidate) {
this._stateMachine.updateIceCandidate(aCandidate);
},
launch(aPresentationId, aUrl) {
this._stateMachine.launch(aPresentationId, aUrl);
},
terminate(aPresentationId) {
if (!this._terminatingId) {
this._terminatingId = aPresentationId;
this._stateMachine.terminate(aPresentationId);
// Start a guard timer to ensure terminateAck is processed.
this._terminateTimer = setTimeout(() => {
DEBUG &&
log("TCPControlChannel - terminate timeout: " + aPresentationId); // jshint ignore:line
delete this._terminateTimer;
if (this._pendingDisconnect) {
this._pendingDisconnect();
} else {
this.disconnect(Cr.NS_OK);
}
}, kTerminateTimeout);
} else {
this._stateMachine.terminateAck(aPresentationId);
delete this._terminatingId;
}
},
_flushOutgoing() {
if (!this._outgoingEnabled || this._outgoingMsgs.length === 0) {
return;
}
this._output.asyncWait(this, 0, 0, Services.tm.currentThread);
},
// may throw an exception
_send(aMsg) {
DEBUG && log("TCPControlChannel - Send: " + JSON.stringify(aMsg, null, 2)); // jshint ignore:line
/**
* XXX In TCP streaming, it is possible that more than one message in one
* TCP packet. We use line delimited JSON to identify where one JSON encoded
* object ends and the next begins. Therefore, we do not allow newline
* characters whithin the whole message, and add a newline at the end.
* Please see the parser code in |onDataAvailable|.
*/
let message = JSON.stringify(aMsg).replace(["\n"], "") + "\n";
try {
this._output.write(message, message.length);
} catch (e) {
DEBUG && log("TCPControlChannel - Failed to send message: " + e.name); // jshint ignore:line
throw e;
}
},
_setSecurityObserver(observer) {
if (this._transport && this._transport.securityInfo) {
DEBUG && log("TCPControlChannel - setSecurityObserver: " + observer); // jshint ignore:line
let connectionInfo = this._transport.securityInfo.QueryInterface(
Ci.nsITLSServerConnectionInfo
);
connectionInfo.setSecurityObserver(observer);
}
},
// nsITLSServerSecurityObserver
onHandshakeDone(socket, clientStatus) {
log(
"TCPControlChannel - onHandshakeDone: TLS version: " +
clientStatus.tlsVersionUsed.toString(16)
);
this._setSecurityObserver(null);
// Process input/output after TLS handshake is complete.
this._outgoingEnabled = true;
this._createInputStreamPump();
},
// nsIAsyncOutputStream
onOutputStreamReady() {
DEBUG && log("TCPControlChannel - onOutputStreamReady"); // jshint ignore:line
if (this._outgoingMsgs.length === 0) {
return;
}
try {
this._send(this._outgoingMsgs[0]);
} catch (e) {
if (e.result === Cr.NS_BASE_STREAM_WOULD_BLOCK) {
this._output.asyncWait(this, 0, 0, Services.tm.currentThread);
return;
}
this._closeTransport();
return;
}
this._outgoingMsgs.shift();
this._flushOutgoing();
},
// nsIAsyncInputStream (Triggered by nsIInputStream.asyncWait)
// Only used for detecting connection refused
onInputStreamReady(aStream) {
DEBUG && log("TCPControlChannel - onInputStreamReady"); // jshint ignore:line
try {
aStream.available();
} catch (e) {
DEBUG && log("TCPControlChannel - onInputStreamReady error: " + e.name); // jshint ignore:line
// NS_ERROR_CONNECTION_REFUSED
this._notifyDisconnected(e.result);
}
},
// nsITransportEventSink (Triggered by nsISocketTransport.setEventSink)
onTransportStatus(aTransport, aStatus) {
DEBUG &&
log(
"TCPControlChannel - onTransportStatus: " +
aStatus.toString(16) +
" with role: " +
this._direction
); // jshint ignore:line
if (aStatus === Ci.nsISocketTransport.STATUS_CONNECTED_TO) {
this._outgoingEnabled = true;
this._createInputStreamPump();
}
},
// nsIRequestObserver (Triggered by nsIInputStreamPump.asyncRead)
onStartRequest() {
DEBUG &&
log("TCPControlChannel - onStartRequest with role: " + this._direction); // jshint ignore:line
this._incomingEnabled = true;
},
// nsIRequestObserver (Triggered by nsIInputStreamPump.asyncRead)
onStopRequest(aRequest, aContext, aStatus) {
DEBUG &&
log(
"TCPControlChannel - onStopRequest: " +
aStatus +
" with role: " +
this._direction
); // jshint ignore:line
this._stateMachine.onChannelClosed(aStatus, true);
},
// nsIStreamListener (Triggered by nsIInputStreamPump.asyncRead)
onDataAvailable(aRequest, aInputStream) {
let data = NetUtil.readInputStreamToString(
aInputStream,
aInputStream.available()
);
DEBUG && log("TCPControlChannel - onDataAvailable: " + data); // jshint ignore:line
// Parser of line delimited JSON. Please see |_send| for more informaiton.
let jsonArray = data.split("\n");
jsonArray.pop();
for (let json of jsonArray) {
let msg;
try {
msg = JSON.parse(json);
} catch (e) {
DEBUG && log("TCPSignalingChannel - error in parsing json: " + e); // jshint ignore:line
}
this._handleMessage(msg);
}
},
_createInputStreamPump() {
if (this._pump) {
return;
}
DEBUG &&
log("TCPControlChannel - create pump with role: " + this._direction); // jshint ignore:line
this._pump = Cc["@mozilla.org/network/input-stream-pump;1"].createInstance(
Ci.nsIInputStreamPump
);
this._pump.init(this._input, 0, 0, false);
this._pump.asyncRead(this, null);
this._stateMachine.onChannelReady();
},
// Handle command from remote side
_handleMessage(aMsg) {
DEBUG &&
log(
"TCPControlChannel - handleMessage from " +
JSON.stringify(this._deviceInfo) +
": " +
JSON.stringify(aMsg)
); // jshint ignore:line
this._stateMachine.onCommand(aMsg);
},
get listener() {
return this._listener;
},
set listener(aListener) {
DEBUG && log("TCPControlChannel - set listener: " + aListener); // jshint ignore:line
if (!aListener) {
this._listener = null;
return;
}
this._listener = aListener;
if (this._pendingOpen) {
this._pendingOpen = false;
DEBUG && log("TCPControlChannel - notify pending opened"); // jshint ignore:line
this._listener.notifyConnected();
}
if (this._pendingOffer) {
let offer = this._pendingOffer;
DEBUG &&
log(
"TCPControlChannel - notify pending offer: " + JSON.stringify(offer)
); // jshint ignore:line
this._listener.onOffer(new ChannelDescription(offer));
this._pendingOffer = null;
}
if (this._pendingAnswer) {
let answer = this._pendingAnswer;
DEBUG &&
log(
"TCPControlChannel - notify pending answer: " + JSON.stringify(answer)
); // jshint ignore:line
this._listener.onAnswer(new ChannelDescription(answer));
this._pendingAnswer = null;
}
if (this._pendingClose) {
DEBUG && log("TCPControlChannel - notify pending closed"); // jshint ignore:line
this._notifyDisconnected(this._pendingCloseReason);
this._pendingClose = null;
}
if (this._pendingReconnect) {
DEBUG && log("TCPControlChannel - notify pending reconnected"); // jshint ignore:line
this._notifyReconnected();
this._pendingReconnect = false;
}
},
/**
* These functions are designed to handle the interaction with listener
* appropriately. |_FUNC| is to handle |this._listener.FUNC|.
*/
_onOffer(aOffer) {
if (!this._incomingEnabled) {
return;
}
if (!this._listener) {
this._pendingOffer = aOffer;
return;
}
DEBUG && log("TCPControlChannel - notify offer: " + JSON.stringify(aOffer)); // jshint ignore:line
this._listener.onOffer(new ChannelDescription(aOffer));
},
_onAnswer(aAnswer) {
if (!this._incomingEnabled) {
return;
}
if (!this._listener) {
this._pendingAnswer = aAnswer;
return;
}
DEBUG &&
log("TCPControlChannel - notify answer: " + JSON.stringify(aAnswer)); // jshint ignore:line
this._listener.onAnswer(new ChannelDescription(aAnswer));
},
_notifyConnected() {
this._pendingClose = false;
this._pendingCloseReason = Cr.NS_OK;
if (!this._listener) {
this._pendingOpen = true;
return;
}
DEBUG &&
log("TCPControlChannel - notify opened with role: " + this._direction); // jshint ignore:line
this._listener.notifyConnected();
},
_notifyDisconnected(aReason) {
this._pendingOpen = false;
this._pendingOffer = null;
this._pendingAnswer = null;
// Remote endpoint closes the control channel with abnormal reason.
if (aReason == Cr.NS_OK && this._pendingCloseReason != Cr.NS_OK) {
aReason = this._pendingCloseReason;
}
if (!this._listener) {
this._pendingClose = true;
this._pendingCloseReason = aReason;
return;
}
DEBUG &&
log("TCPControlChannel - notify closed with role: " + this._direction); // jshint ignore:line
this._listener.notifyDisconnected(aReason);
},
_notifyReconnected() {
if (!this._listener) {
this._pendingReconnect = true;
return;
}
DEBUG &&
log(
"TCPControlChannel - notify reconnected with role: " + this._direction
); // jshint ignore:line
this._listener.notifyReconnected();
},
_closeOutgoing() {
if (this._outgoingEnabled) {
this._output.close();
this._outgoingEnabled = false;
}
},
_closeIncoming() {
if (this._incomingEnabled) {
this._pump = null;
this._input.close();
this._incomingEnabled = false;
}
},
_closeTransport() {
if (this._disconnectTimer) {
clearTimeout(this._disconnectTimer);
delete this._disconnectTimer;
}
if (this._terminateTimer) {
clearTimeout(this._terminateTimer);
delete this._terminateTimer;
}
delete this._pendingDisconnect;
this._transport.setEventSink(null, null);
this._closeIncoming();
this._closeOutgoing();
this._presentationService.releaseControlChannel(this);
},
disconnect(aReason) {
DEBUG && log("TCPControlChannel - disconnect with reason: " + aReason); // jshint ignore:line
// Pending disconnect during termination procedure.
if (this._terminateTimer) {
// Store only the first disconnect action.
if (!this._pendingDisconnect) {
this._pendingDisconnect = this.disconnect.bind(this, aReason);
}
return;
}
if (this._outgoingEnabled && !this._disconnectTimer) {
// default reason is NS_OK
aReason = !aReason ? Cr.NS_OK : aReason;
this._stateMachine.onChannelClosed(aReason, false);
// Start a guard timer to ensure the transport will be closed.
this._disconnectTimer = setTimeout(() => {
DEBUG && log("TCPControlChannel - disconnect timeout"); // jshint ignore:line
this._closeTransport();
}, kDisconnectTimeout);
}
},
reconnect(aPresentationId, aUrl) {
DEBUG && log("TCPControlChannel - reconnect with role: " + this._direction); // jshint ignore:line
if (this._direction != "sender") {
throw Cr.NS_ERROR_FAILURE;
}
this._stateMachine.reconnect(aPresentationId, aUrl);
},
// callback from state machine
sendCommand(command) {
this._outgoingMsgs.push(command);
this._flushOutgoing();
},
notifyDeviceConnected(deviceId) {
switch (this._direction) {
case "receiver":
this._deviceInfo.id = deviceId;
break;
}
this._notifyConnected();
},
notifyDisconnected(reason) {
this._closeTransport();
this._notifyDisconnected(reason);
},
notifyLaunch(presentationId, url) {
switch (this._direction) {
case "receiver":
this._presentationService.onSessionRequest(
this._deviceInfo,
url,
presentationId,
this
);
break;
}
},
notifyTerminate(presentationId) {
if (!this._terminatingId) {
this._terminatingId = presentationId;
this._presentationService.onSessionTerminate(
this._deviceInfo,
presentationId,
this,
this._direction === "sender"
);
return;
}
// Cancel terminate guard timer after receiving terminate-ack.
if (this._terminateTimer) {
clearTimeout(this._terminateTimer);
delete this._terminateTimer;
}
if (this._terminatingId !== presentationId) {
// Requested presentation Id doesn't matched with the one in ACK.
// Disconnect the control channel with error.
DEBUG &&
log("TCPControlChannel - unmatched terminatingId: " + presentationId); // jshint ignore:line
this.disconnect(Cr.NS_ERROR_FAILURE);
}
delete this._terminatingId;
if (this._pendingDisconnect) {
this._pendingDisconnect();
}
},
notifyReconnect(presentationId, url) {
switch (this._direction) {
case "receiver":
this._presentationService.onSessionReconnect(
this._deviceInfo,
url,
presentationId,
this
);
break;
case "sender":
this._notifyReconnected();
break;
}
},
notifyOffer(offer) {
this._onOffer(offer);
},
notifyAnswer(answer) {
this._onAnswer(answer);
},
notifyIceCandidate(candidate) {
this._listener.onIceCandidate(candidate);
},
classID: Components.ID("{fefb8286-0bdc-488b-98bf-0c11b485c955}"),
QueryInterface: ChromeUtils.generateQI([
Ci.nsIPresentationControlChannel,
Ci.nsIStreamListener,
]),
};
var EXPORTED_SYMBOLS = ["PresentationControlService"];