gecko/dom/system/gonk/RadioInterfaceLayer.js

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/* Copyright 2012 Mozilla Foundation and Mozilla contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
"use strict";
const {classes: Cc, interfaces: Ci, utils: Cu, results: Cr} = Components;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource://gre/modules/Services.jsm");
var RIL = {};
Cu.import("resource://gre/modules/ril_consts.js", RIL);
// set to true in ril_consts.js to see debug messages
const DEBUG = RIL.DEBUG_RIL;
const RADIOINTERFACELAYER_CID =
Components.ID("{2d831c8d-6017-435b-a80c-e5d422810cea}");
const RILNETWORKINTERFACE_CID =
Components.ID("{3bdd52a9-3965-4130-b569-0ac5afed045e}");
const nsIAudioManager = Ci.nsIAudioManager;
const nsIRadioInterfaceLayer = Ci.nsIRadioInterfaceLayer;
const kNetworkInterfaceStateChangedTopic = "network-interface-state-changed";
const kSmsReceivedObserverTopic = "sms-received";
const kSmsSentObserverTopic = "sms-sent";
const kSmsDeliveredObserverTopic = "sms-delivered";
const kMozSettingsChangedObserverTopic = "mozsettings-changed";
const kSysMsgListenerReadyObserverTopic = "system-message-listener-ready";
const kTimeNitzAutomaticUpdateEnabled = "time.nitz.automatic-update.enabled";
const DOM_SMS_DELIVERY_RECEIVED = "received";
const DOM_SMS_DELIVERY_SENT = "sent";
const RIL_IPC_TELEPHONY_MSG_NAMES = [
"RIL:EnumerateCalls",
"RIL:GetMicrophoneMuted",
"RIL:SetMicrophoneMuted",
"RIL:GetSpeakerEnabled",
"RIL:SetSpeakerEnabled",
"RIL:StartTone",
"RIL:StopTone",
"RIL:Dial",
"RIL:DialEmergency",
"RIL:HangUp",
"RIL:AnswerCall",
"RIL:RejectCall",
"RIL:HoldCall",
"RIL:ResumeCall",
];
const RIL_IPC_MOBILECONNECTION_MSG_NAMES = [
"RIL:GetRilContext",
"RIL:GetAvailableNetworks",
"RIL:SelectNetwork",
"RIL:SelectNetworkAuto",
"RIL:GetCardLock",
"RIL:UnlockCardLock",
"RIL:SetCardLock",
"RIL:SendUSSD",
"RIL:CancelUSSD",
"RIL:SendStkResponse",
"RIL:SendStkMenuSelection",
"RIL:SendStkEventDownload",
];
XPCOMUtils.defineLazyServiceGetter(this, "gSmsService",
"@mozilla.org/sms/smsservice;1",
"nsISmsService");
XPCOMUtils.defineLazyServiceGetter(this, "gSmsRequestManager",
"@mozilla.org/sms/smsrequestmanager;1",
"nsISmsRequestManager");
XPCOMUtils.defineLazyServiceGetter(this, "gSmsDatabaseService",
"@mozilla.org/sms/rilsmsdatabaseservice;1",
"nsISmsDatabaseService");
XPCOMUtils.defineLazyServiceGetter(this, "ppmm",
"@mozilla.org/parentprocessmessagemanager;1",
"nsIMessageBroadcaster");
XPCOMUtils.defineLazyServiceGetter(this, "gSettingsService",
"@mozilla.org/settingsService;1",
"nsISettingsService");
XPCOMUtils.defineLazyServiceGetter(this, "gSystemMessenger",
"@mozilla.org/system-message-internal;1",
"nsISystemMessagesInternal");
XPCOMUtils.defineLazyServiceGetter(this, "gNetworkManager",
"@mozilla.org/network/manager;1",
"nsINetworkManager");
XPCOMUtils.defineLazyServiceGetter(this, "gTimeService",
"@mozilla.org/time/timeservice;1",
"nsITimeService");
XPCOMUtils.defineLazyGetter(this, "WAP", function () {
let WAP = {};
Cu.import("resource://gre/modules/WapPushManager.js", WAP);
return WAP;
});
function convertRILCallState(state) {
switch (state) {
case RIL.CALL_STATE_ACTIVE:
return nsIRadioInterfaceLayer.CALL_STATE_CONNECTED;
case RIL.CALL_STATE_HOLDING:
return nsIRadioInterfaceLayer.CALL_STATE_HELD;
case RIL.CALL_STATE_DIALING:
return nsIRadioInterfaceLayer.CALL_STATE_DIALING;
case RIL.CALL_STATE_ALERTING:
return nsIRadioInterfaceLayer.CALL_STATE_ALERTING;
case RIL.CALL_STATE_INCOMING:
case RIL.CALL_STATE_WAITING:
return nsIRadioInterfaceLayer.CALL_STATE_INCOMING;
case RIL.CALL_STATE_BUSY:
return nsIRadioInterfaceLayer.CALL_STATE_BUSY;
default:
throw new Error("Unknown rilCallState: " + state);
}
}
/**
* Fake nsIAudioManager implementation so that we can run the telephony
* code in a non-Gonk build.
*/
let FakeAudioManager = {
microphoneMuted: false,
masterVolume: 1.0,
masterMuted: false,
phoneState: nsIAudioManager.PHONE_STATE_CURRENT,
_forceForUse: {},
setForceForUse: function setForceForUse(usage, force) {
this._forceForUse[usage] = force;
},
getForceForUse: function setForceForUse(usage) {
return this._forceForUse[usage] || nsIAudioManager.FORCE_NONE;
}
};
XPCOMUtils.defineLazyGetter(this, "gAudioManager", function getAudioManager() {
try {
return Cc["@mozilla.org/telephony/audiomanager;1"]
.getService(nsIAudioManager);
} catch (ex) {
//TODO on the phone this should not fall back as silently.
debug("Using fake audio manager.");
return FakeAudioManager;
}
});
function RadioInterfaceLayer() {
this.dataNetworkInterface = new RILNetworkInterface(this, Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE);
this.mmsNetworkInterface = new RILNetworkInterface(this, Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE_MMS);
this.suplNetworkInterface = new RILNetworkInterface(this, Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE_SUPL);
debug("Starting RIL Worker");
this.worker = new ChromeWorker("resource://gre/modules/ril_worker.js");
this.worker.onerror = this.onerror.bind(this);
this.worker.onmessage = this.onmessage.bind(this);
this.rilContext = {
radioState: RIL.GECKO_RADIOSTATE_UNAVAILABLE,
cardState: RIL.GECKO_CARDSTATE_UNAVAILABLE,
icc: null,
// These objects implement the nsIDOMMozMobileConnectionInfo interface,
// although the actual implementation lives in the content process. So are
// the child attributes `network` and `cell`, which implement
// nsIDOMMozMobileNetworkInfo and nsIDOMMozMobileCellInfo respectively.
voice: {connected: false,
emergencyCallsOnly: false,
roaming: false,
network: null,
cell: null,
type: null,
signalStrength: null,
relSignalStrength: null},
data: {connected: false,
emergencyCallsOnly: false,
roaming: false,
network: null,
cell: null,
type: null,
signalStrength: null,
relSignalStrength: null},
};
this.callWaitingStatus = null;
// Read the 'ril.radio.disabled' setting in order to start with a known
// value at boot time.
let lock = gSettingsService.createLock();
lock.get("ril.radio.disabled", this);
// Read preferred network type from the setting DB.
lock.get("ril.radio.preferredNetworkType", this);
// Read the APN data from the settings DB.
lock.get("ril.data.apn", this);
lock.get("ril.data.user", this);
lock.get("ril.data.passwd", this);
lock.get("ril.data.httpProxyHost", this);
lock.get("ril.data.httpProxyPort", this);
lock.get("ril.data.roaming_enabled", this);
lock.get("ril.data.enabled", this);
this._dataCallSettingsToRead = ["ril.data.enabled",
"ril.data.roaming_enabled",
"ril.data.apn",
"ril.data.user",
"ril.data.passwd",
"ril.data.httpProxyHost",
"ril.data.httpProxyPort"];
// Read secondary APNs from the settings DB.
lock.get("ril.mms.apn", this);
lock.get("ril.mms.user", this);
lock.get("ril.mms.passwd", this);
lock.get("ril.mms.httpProxyHost", this);
lock.get("ril.mms.httpProxyPort", this);
lock.get("ril.mms.mmsc", this);
lock.get("ril.mms.mmsproxy", this);
lock.get("ril.mms.mmsport", this);
lock.get("ril.supl.apn", this);
lock.get("ril.supl.user", this);
lock.get("ril.supl.passwd", this);
lock.get("ril.supl.httpProxyHost", this);
lock.get("ril.supl.httpProxyPort", this);
// Read the desired setting of call waiting from the settings DB.
lock.get("ril.callwaiting.enabled", this);
// Read the 'time.nitz.automatic-update.enabled' setting to see if
// we need to adjust the system clock time and time zone by NITZ.
lock.get(kTimeNitzAutomaticUpdateEnabled, this);
this._messageManagerByRequest = {};
for (let msgname of RIL_IPC_TELEPHONY_MSG_NAMES) {
ppmm.addMessageListener(msgname, this);
}
for (let msgname of RIL_IPC_MOBILECONNECTION_MSG_NAMES) {
ppmm.addMessageListener(msgname, this);
}
Services.obs.addObserver(this, "xpcom-shutdown", false);
Services.obs.addObserver(this, kMozSettingsChangedObserverTopic, false);
Services.obs.addObserver(this, kSysMsgListenerReadyObserverTopic, false);
this._sentSmsEnvelopes = {};
this.portAddressedSmsApps = {};
this.portAddressedSmsApps[WAP.WDP_PORT_PUSH] = this.handleSmsWdpPortPush.bind(this);
}
RadioInterfaceLayer.prototype = {
classID: RADIOINTERFACELAYER_CID,
classInfo: XPCOMUtils.generateCI({classID: RADIOINTERFACELAYER_CID,
classDescription: "RadioInterfaceLayer",
interfaces: [Ci.nsIWorkerHolder,
Ci.nsIRadioInterfaceLayer]}),
QueryInterface: XPCOMUtils.generateQI([Ci.nsIWorkerHolder,
Ci.nsIRadioInterfaceLayer,
Ci.nsIObserver,
Ci.nsISettingsServiceCallback]),
/**
* Process a message from the content process.
*/
receiveMessage: function receiveMessage(msg) {
debug("Received '" + msg.name + "' message from content process");
if (RIL_IPC_TELEPHONY_MSG_NAMES.indexOf(msg.name) != -1) {
if (!msg.target.assertPermission("telephony")) {
debug("Telephony message " + msg.name +
" from a content process with no 'telephony' privileges.");
return null;
}
} else if (RIL_IPC_MOBILECONNECTION_MSG_NAMES.indexOf(msg.name) != -1) {
if (!msg.target.assertPermission("mobileconnection")) {
debug("MobileConnection message " + msg.name +
" from a content process with no 'mobileconnection' privileges.");
return null;
}
} else {
debug("Ignoring unknown message type: " + msg.name);
return null;
}
switch (msg.name) {
case "RIL:GetRilContext":
// This message is sync.
return this.rilContext;
case "RIL:EnumerateCalls":
this.saveRequestTarget(msg);
this.enumerateCalls(msg.json);
break;
case "RIL:GetMicrophoneMuted":
// This message is sync.
return this.microphoneMuted;
case "RIL:SetMicrophoneMuted":
this.microphoneMuted = msg.json;
break;
case "RIL:GetSpeakerEnabled":
// This message is sync.
return this.speakerEnabled;
case "RIL:SetSpeakerEnabled":
this.speakerEnabled = msg.json;
break;
case "RIL:StartTone":
this.startTone(msg.json);
break;
case "RIL:StopTone":
this.stopTone();
break;
case "RIL:Dial":
this.dial(msg.json);
break;
case "RIL:DialEmergency":
this.dialEmergency(msg.json);
break;
case "RIL:HangUp":
this.hangUp(msg.json);
break;
case "RIL:AnswerCall":
this.answerCall(msg.json);
break;
case "RIL:RejectCall":
this.rejectCall(msg.json);
break;
case "RIL:HoldCall":
this.holdCall(msg.json);
break;
case "RIL:ResumeCall":
this.resumeCall(msg.json);
break;
case "RIL:GetAvailableNetworks":
this.saveRequestTarget(msg);
this.getAvailableNetworks(msg.json.requestId);
break;
case "RIL:SelectNetwork":
this.saveRequestTarget(msg);
this.selectNetwork(msg.json);
break;
case "RIL:SelectNetworkAuto":
this.saveRequestTarget(msg);
this.selectNetworkAuto(msg.json.requestId);
case "RIL:GetCardLock":
this.saveRequestTarget(msg);
this.getCardLock(msg.json);
break;
case "RIL:UnlockCardLock":
this.saveRequestTarget(msg);
this.unlockCardLock(msg.json);
break;
case "RIL:SetCardLock":
this.saveRequestTarget(msg);
this.setCardLock(msg.json);
break;
case "RIL:SendUSSD":
this.saveRequestTarget(msg);
this.sendUSSD(msg.json);
break;
case "RIL:CancelUSSD":
this.saveRequestTarget(msg);
this.cancelUSSD(msg.json);
break;
case "RIL:SendStkResponse":
this.sendStkResponse(msg.json);
break;
case "RIL:SendStkMenuSelection":
this.sendStkMenuSelection(msg.json);
break;
case "RIL:SendStkEventDownload":
this.sendStkEventDownload(msg.json);
break;
}
},
onerror: function onerror(event) {
debug("Got an error: " + event.filename + ":" +
event.lineno + ": " + event.message + "\n");
event.preventDefault();
},
/**
* Process the incoming message from the RIL worker. This roughly
* works as follows:
* (1) Update local state.
* (2) Update state in related systems such as the audio.
* (3) Multiplex the message to callbacks / listeners (typically the DOM).
*/
onmessage: function onmessage(event) {
let message = event.data;
debug("Received message from worker: " + JSON.stringify(message));
switch (message.rilMessageType) {
case "callStateChange":
// This one will handle its own notifications.
this.handleCallStateChange(message.call);
break;
case "callDisconnected":
// This one will handle its own notifications.
this.handleCallDisconnected(message.call);
break;
case "enumerateCalls":
// This one will handle its own notifications.
this.handleEnumerateCalls(message);
break;
case "callError":
this.handleCallError(message);
break;
case "getAvailableNetworks":
this.handleGetAvailableNetworks(message);
break;
case "selectNetwork":
this.handleSelectNetwork(message);
break;
case "selectNetworkAuto":
this.handleSelectNetworkAuto(message);
break;
case "networkinfochanged":
this.updateNetworkInfo(message);
break;
case "networkselectionmodechange":
this.updateNetworkSelectionMode(message);
break;
case "voiceregistrationstatechange":
this.updateVoiceConnection(message);
break;
case "dataregistrationstatechange":
this.updateDataConnection(message);
break;
case "datacallerror":
this.handleDataCallError(message);
break;
case "signalstrengthchange":
this.handleSignalStrengthChange(message);
break;
case "operatorchange":
this.handleOperatorChange(message);
break;
case "radiostatechange":
this.handleRadioStateChange(message);
break;
case "cardstatechange":
this.rilContext.cardState = message.cardState;
ppmm.broadcastAsyncMessage("RIL:CardStateChanged", message);
break;
case "setCallWaiting":
this.handleCallWaitingStatusChange(message);
break;
case "sms-received":
this.handleSmsReceived(message);
return;
case "sms-sent":
this.handleSmsSent(message);
return;
case "sms-delivered":
this.handleSmsDelivered(message);
return;
case "sms-send-failed":
this.handleSmsSendFailed(message);
return;
case "datacallstatechange":
this.handleDataCallState(message);
break;
case "datacalllist":
this.handleDataCallList(message);
break;
case "nitzTime":
this.handleNitzTime(message);
break;
case "iccinfochange":
this.handleICCInfoChange(message);
break;
case "iccGetCardLock":
case "iccSetCardLock":
case "iccUnlockCardLock":
this.handleICCCardLockResult(message);
break;
case "icccontacts":
if (!this._contactsCallbacks) {
return;
}
let callback = this._contactsCallbacks[message.requestId];
if (callback) {
delete this._contactsCallbacks[message.requestId];
callback.receiveContactsList(message.errorMsg,
message.contactType,
message.contacts);
}
break;
case "iccmbdn":
ppmm.broadcastAsyncMessage("RIL:VoicemailNumberChanged", message);
break;
case "ussdreceived":
debug("ussdreceived " + JSON.stringify(message));
this.handleUSSDReceived(message);
break;
case "sendussd":
this.handleSendUSSD(message);
break;
case "cancelussd":
this.handleCancelUSSD(message);
break;
case "stkcommand":
this.handleStkProactiveCommand(message);
break;
case "stksessionend":
ppmm.broadcastAsyncMessage("RIL:StkSessionEnd", null);
break;
case "setPreferredNetworkType":
this.handleSetPreferredNetworkType(message);
break;
case "stkcallsetup":
// A call has been placed by the STK app. We shall launch the dialer
// app by sending a system message, in order to further control the
// call, e.g. hang it up.
debug("STK app has placed a call no. " + message.command.options.address);
gSystemMessenger.broadcastMessage("icc-dialing", {state: "dialing",
number: message.command.options.address});
break;
default:
throw new Error("Don't know about this message type: " +
message.rilMessageType);
}
},
_messageManagerByRequest: null,
saveRequestTarget: function saveRequestTarget(msg) {
let requestId = msg.json.requestId;
if (!requestId) {
// The content is not interested in a response;
return;
}
this._messageManagerByRequest[requestId] = msg.target;
},
_sendRequestResults: function _sendRequestResults(requestType, options) {
let target = this._messageManagerByRequest[options.requestId];
delete this._messageManagerByRequest[options.requestId];
if (!target) {
return;
}
target.sendAsyncMessage(requestType, options);
},
updateNetworkInfo: function updateNetworkInfo(message) {
let voiceMessage = message[RIL.NETWORK_INFO_VOICE_REGISTRATION_STATE];
let dataMessage = message[RIL.NETWORK_INFO_DATA_REGISTRATION_STATE];
let operatorMessage = message[RIL.NETWORK_INFO_OPERATOR];
let selectionMessage = message[RIL.NETWORK_INFO_NETWORK_SELECTION_MODE];
// Batch the *InfoChanged messages together
if (voiceMessage) {
voiceMessage.batch = true;
this.updateVoiceConnection(voiceMessage);
}
let dataInfoChanged = false;
if (dataMessage) {
dataMessage.batch = true;
this.updateDataConnection(dataMessage);
}
let voice = this.rilContext.voice;
let data = this.rilContext.data;
if (operatorMessage) {
if (this.networkChanged(operatorMessage, voice.network)) {
voice.network = operatorMessage;
}
if (this.networkChanged(operatorMessage, data.network)) {
data.network = operatorMessage;
}
}
this.checkRoamingBetweenOperators(voice);
this.checkRoamingBetweenOperators(data);
if (voiceMessage || operatorMessage) {
ppmm.broadcastAsyncMessage("RIL:VoiceInfoChanged", voice);
}
if (dataMessage || operatorMessage) {
ppmm.broadcastAsyncMessage("RIL:DataInfoChanged", data);
}
if (selectionMessage) {
this.updateNetworkSelectionMode(selectionMessage);
}
},
/**
* Fix the roaming. RIL can report roaming in some case it is not
* really the case. See bug 787967
*
* @param registration The voiceMessage or dataMessage from which the
* roaming state will be changed (maybe, if needed).
*/
checkRoamingBetweenOperators: function checkRoamingBetweenOperators(registration) {
let icc = this.rilContext.icc;
if (!icc || !registration.connected) {
return;
}
let spn = icc.spn;
let operator = registration.network;
let longName = operator.longName;
let shortName = operator.shortName;
let equalsLongName = longName && (spn == longName);
let equalsShortName = shortName && (spn == shortName);
let equalsMcc = icc.mcc == operator.mcc;
registration.roaming = registration.roaming &&
!(equalsMcc && (equalsLongName || equalsShortName));
},
/**
* Sends the RIL:VoiceInfoChanged message when the voice
* connection's state has changed.
*
* @param newInfo The new voice connection information. When newInfo.batch is true,
* the RIL:VoiceInfoChanged message will not be sent.
*/
updateVoiceConnection: function updateVoiceConnection(newInfo) {
let voiceInfo = this.rilContext.voice;
voiceInfo.state = newInfo.state;
voiceInfo.connected = newInfo.connected;
voiceInfo.roaming = newInfo.roaming;
voiceInfo.emergencyCallsOnly = newInfo.emergencyCallsOnly;
// Unlike the data registration info, the voice info typically contains
// no (useful) radio tech information, so we have to manually set
// this here. (TODO GSM only for now, see bug 726098.)
voiceInfo.type = "gsm";
// Ensure the call waiting status once the voice network connects.
if (voiceInfo.connected && this.callWaitingStatus == null) {
// The call waiting status has not been updated yet. Update that.
this.setCallWaitingEnabled(this._callWaitingEnabled);
}
// Make sure we also reset the operator and signal strength information
// if we drop off the network.
if (newInfo.regState == RIL.NETWORK_CREG_STATE_UNKNOWN) {
voiceInfo.network = null;
voiceInfo.signalStrength = null;
voiceInfo.relSignalStrength = null;
}
let newCell = newInfo.cell;
if ((newCell.gsmLocationAreaCode < 0) || (newCell.gsmCellId < 0)) {
voiceInfo.cell = null;
} else {
voiceInfo.cell = newCell;
}
if (!newInfo.batch) {
ppmm.broadcastAsyncMessage("RIL:VoiceInfoChanged", voiceInfo);
}
},
updateDataConnection: function updateDataConnection(newInfo) {
let dataInfo = this.rilContext.data;
dataInfo.state = newInfo.state;
dataInfo.roaming = newInfo.roaming;
dataInfo.emergencyCallsOnly = newInfo.emergencyCallsOnly;
dataInfo.type = newInfo.type;
// For the data connection, the `connected` flag indicates whether
// there's an active data call.
dataInfo.connected = this.dataNetworkInterface.connected;
// Make sure we also reset the operator and signal strength information
// if we drop off the network.
if (newInfo.regState == RIL.NETWORK_CREG_STATE_UNKNOWN) {
dataInfo.network = null;
dataInfo.signalStrength = null;
dataInfo.relSignalStrength = null;
}
let newCell = newInfo.cell;
if ((newCell.gsmLocationAreaCode < 0) || (newCell.gsmCellId < 0)) {
dataInfo.cell = null;
} else {
dataInfo.cell = newCell;
}
if (!newInfo.batch) {
ppmm.broadcastAsyncMessage("RIL:DataInfoChanged", dataInfo);
}
this.updateRILNetworkInterface();
},
/**
* Handle data errors
*/
handleDataCallError: function handleDataCallError(message) {
// Notify data call error only for data APN
if (message.apn == this.dataCallSettings["apn"]) {
ppmm.broadcastAsyncMessage("RIL:DataError", message);
}
this._deliverDataCallCallback("dataCallError", [message]);
},
_preferredNetworkType: null,
setPreferredNetworkType: function setPreferredNetworkType(value) {
let networkType = RIL.RIL_PREFERRED_NETWORK_TYPE_TO_GECKO.indexOf(value);
if (networkType < 0) {
networkType = (this._preferredNetworkType != null)
? RIL.RIL_PREFERRED_NETWORK_TYPE_TO_GECKO[this._preferredNetworkType]
: RIL.GECKO_PREFERRED_NETWORK_TYPE_DEFAULT;
gSettingsService.createLock().set("ril.radio.preferredNetworkType",
networkType, null);
return;
}
if (networkType == this._preferredNetworkType) {
return;
}
this.worker.postMessage({rilMessageType: "setPreferredNetworkType",
networkType: networkType});
},
handleSetPreferredNetworkType: function handleSetPreferredNetworkType(message) {
if ((this._preferredNetworkType != null) && !message.success) {
gSettingsService.createLock().set("ril.radio.preferredNetworkType",
this._preferredNetworkType,
null);
return;
}
this._preferredNetworkType = message.networkType;
debug("_preferredNetworkType is now " +
RIL.RIL_PREFERRED_NETWORK_TYPE_TO_GECKO[this._preferredNetworkType]);
},
handleSignalStrengthChange: function handleSignalStrengthChange(message) {
let voiceInfo = this.rilContext.voice;
// TODO CDMA, EVDO, LTE, etc. (see bug 726098)
if (voiceInfo.signalStrength != message.gsmDBM ||
voiceInfo.relSignalStrength != message.gsmRelative) {
voiceInfo.signalStrength = message.gsmDBM;
voiceInfo.relSignalStrength = message.gsmRelative;
ppmm.broadcastAsyncMessage("RIL:VoiceInfoChanged", voiceInfo);
}
let dataInfo = this.rilContext.data;
if (dataInfo.signalStrength != message.gsmDBM ||
dataInfo.relSignalStrength != message.gsmRelative) {
dataInfo.signalStrength = message.gsmDBM;
dataInfo.relSignalStrength = message.gsmRelative;
ppmm.broadcastAsyncMessage("RIL:DataInfoChanged", dataInfo);
}
},
networkChanged: function networkChanged(srcNetwork, destNetwork) {
return !destNetwork ||
destNetwork.longName != srcNetwork.longName ||
destNetwork.shortName != srcNetwork.shortName ||
destNetwork.mnc != srcNetwork.mnc ||
destNetwork.mcc != srcNetwork.mcc;
},
handleOperatorChange: function handleOperatorChange(message) {
let voice = this.rilContext.voice;
let data = this.rilContext.data;
if (this.networkChanged(message, voice.network)) {
voice.network = message;
ppmm.broadcastAsyncMessage("RIL:VoiceInfoChanged", voice);
}
if (this.networkChanged(message, data.network)) {
data.network = message;
ppmm.broadcastAsyncMessage("RIL:DataInfoChanged", data);
}
},
handleRadioStateChange: function handleRadioStateChange(message) {
this._changingRadioPower = false;
let newState = message.radioState;
if (this.rilContext.radioState == newState) {
return;
}
this.rilContext.radioState = newState;
//TODO Should we notify this change as a card state change?
this._ensureRadioState();
},
_ensureRadioState: function _ensureRadioState() {
debug("Reported radio state is " + this.rilContext.radioState +
", desired radio enabled state is " + this._radioEnabled);
if (this._radioEnabled == null) {
// We haven't read the initial value from the settings DB yet.
// Wait for that.
return;
}
if (!this._sysMsgListenerReady) {
// The UI's system app isn't ready yet for us to receive any
// events (e.g. incoming SMS, etc.). Wait for that.
return;
}
if (this.rilContext.radioState == RIL.GECKO_RADIOSTATE_UNKNOWN) {
// We haven't received a radio state notification from the RIL
// yet. Wait for that.
return;
}
if (this._changingRadioPower) {
// We're changing the radio power currently, ignore any changes.
return;
}
if (this.rilContext.radioState == RIL.GECKO_RADIOSTATE_OFF &&
this._radioEnabled) {
this.setRadioEnabled(true);
}
if (this.rilContext.radioState == RIL.GECKO_RADIOSTATE_READY &&
!this._radioEnabled) {
this.setRadioEnabled(false);
}
},
handleCallWaitingStatusChange: function handleCallWaitingStatusChange(message) {
let newStatus = message.enabled;
// RIL fails in setting call waiting status. Set "ril.callwaiting.enabled"
// to null and set the error message.
if (message.errorMsg) {
let lock = gSettingsService.createLock();
lock.set("ril.callwaiting.enabled", null, null, message.errorMsg);
return;
}
this.callWaitingStatus = newStatus;
},
setCallWaitingEnabled: function setCallWaitingEnabled(value) {
debug("Current call waiting status is " + this.callWaitingStatus +
", desired call waiting status is " + value);
if (!this.rilContext.voice.connected) {
// The voice network is not connected. Wait for that.
return;
}
if (value == null) {
// We haven't read the initial value from the settings DB yet.
// Wait for that.
return;
}
if (this.callWaitingStatus != value) {
debug("Setting call waiting status to " + value);
this.worker.postMessage({rilMessageType: "setCallWaiting", enabled: value});
}
},
updateRILNetworkInterface: function updateRILNetworkInterface() {
if (this._dataCallSettingsToRead.length) {
debug("We haven't read completely the APN data from the " +
"settings DB yet. Wait for that.");
return;
}
// This check avoids data call connection if the radio is not ready
// yet after toggling off airplane mode.
if (this.rilContext.radioState != RIL.GECKO_RADIOSTATE_READY) {
debug("RIL is not ready for data connection: radio's not ready");
return;
}
// We only watch at "ril.data.enabled" flag changes for connecting or
// disconnecting the data call. If the value of "ril.data.enabled" is
// true and any of the remaining flags change the setting application
// should turn this flag to false and then to true in order to reload
// the new values and reconnect the data call.
if (this._oldRilDataEnabledState == this.dataCallSettings["enabled"]) {
debug("No changes for ril.data.enabled flag. Nothing to do.");
return;
}
if (this.dataNetworkInterface.state == RIL.GECKO_NETWORK_STATE_CONNECTING ||
this.dataNetworkInterface.state == RIL.GECKO_NETWORK_STATE_DISCONNECTING) {
debug("Nothing to do during connecting/disconnecting in progress.");
return;
}
if (!this.dataCallSettings["enabled"] && this.dataNetworkInterface.connected) {
debug("Data call settings: disconnect data call.");
this.dataNetworkInterface.disconnect();
return;
}
if (!this.dataCallSettings["enabled"] || this.dataNetworkInterface.connected) {
debug("Data call settings: nothing to do.");
return;
}
let dataInfo = this.rilContext.data;
let isRegistered =
dataInfo.state == RIL.GECKO_MOBILE_CONNECTION_STATE_REGISTERED;
let haveDataConnection =
dataInfo.type != RIL.GECKO_MOBILE_CONNECTION_STATE_UNKNOWN;
if (!isRegistered || !haveDataConnection) {
debug("RIL is not ready for data connection: Phone's not registered " +
"or doesn't have data connection.");
return;
}
if (dataInfo.roaming && !this.dataCallSettings["roaming_enabled"]) {
debug("We're roaming, but data roaming is disabled.");
return;
}
debug("Data call settings: connect data call.");
this.dataNetworkInterface.connect(this.dataCallSettings);
},
/**
* Track the active call and update the audio system as its state changes.
*/
_activeCall: null,
updateCallAudioState: function updateCallAudioState() {
if (!this._activeCall) {
// Disable audio.
gAudioManager.phoneState = nsIAudioManager.PHONE_STATE_NORMAL;
debug("No active call, put audio system into PHONE_STATE_NORMAL: "
+ gAudioManager.phoneState);
return;
}
switch (this._activeCall.state) {
case nsIRadioInterfaceLayer.CALL_STATE_INCOMING:
gAudioManager.phoneState = nsIAudioManager.PHONE_STATE_RINGTONE;
debug("Incoming call, put audio system into PHONE_STATE_RINGTONE: "
+ gAudioManager.phoneState);
break;
case nsIRadioInterfaceLayer.CALL_STATE_DIALING: // Fall through...
case nsIRadioInterfaceLayer.CALL_STATE_CONNECTED:
gAudioManager.phoneState = nsIAudioManager.PHONE_STATE_IN_CALL;
if (this.speakerEnabled) {
gAudioManager.setForceForUse(nsIAudioManager.USE_COMMUNICATION,
nsIAudioManager.FORCE_SPEAKER);
}
debug("Active call, put audio system into PHONE_STATE_IN_CALL: "
+ gAudioManager.phoneState);
break;
}
},
/**
* Handle call state changes by updating our current state and the audio
* system.
*/
handleCallStateChange: function handleCallStateChange(call) {
debug("handleCallStateChange: " + JSON.stringify(call));
call.state = convertRILCallState(call.state);
if (call.state == nsIRadioInterfaceLayer.CALL_STATE_INCOMING) {
gSystemMessenger.broadcastMessage("telephony-incoming", {number: call.number});
}
if (call.isActive) {
this._activeCall = call;
} else if (this._activeCall &&
this._activeCall.callIndex == call.callIndex) {
// Previously active call is not active now.
this._activeCall = null;
}
this.updateCallAudioState();
ppmm.broadcastAsyncMessage("RIL:CallStateChanged", call);
},
/**
* Handle call disconnects by updating our current state and the audio system.
*/
handleCallDisconnected: function handleCallDisconnected(call) {
debug("handleCallDisconnected: " + JSON.stringify(call));
if (call.isActive) {
this._activeCall = null;
}
this.updateCallAudioState();
call.state = nsIRadioInterfaceLayer.CALL_STATE_DISCONNECTED;
ppmm.broadcastAsyncMessage("RIL:CallStateChanged", call);
},
/**
* Handle calls delivered in response to a 'enumerateCalls' request.
*/
handleEnumerateCalls: function handleEnumerateCalls(options) {
debug("handleEnumerateCalls: " + JSON.stringify(options));
for (let i in options.calls) {
options.calls[i].state = convertRILCallState(options.calls[i].state);
}
this._sendRequestResults("RIL:EnumerateCalls", options);
},
/**
* Handle available networks returned by the 'getAvailableNetworks' request.
*/
handleGetAvailableNetworks: function handleGetAvailableNetworks(message) {
debug("handleGetAvailableNetworks: " + JSON.stringify(message));
this._sendRequestResults("RIL:GetAvailableNetworks", message);
},
/**
* Update network selection mode
*/
updateNetworkSelectionMode: function updateNetworkSelectionMode(message) {
debug("updateNetworkSelectionMode: " + JSON.stringify(message));
ppmm.broadcastAsyncMessage("RIL:NetworkSelectionModeChanged", message);
},
/**
* Handle "manual" network selection request.
*/
handleSelectNetwork: function handleSelectNetwork(message) {
debug("handleSelectNetwork: " + JSON.stringify(message));
this._sendRequestResults("RIL:SelectNetwork", message);
},
/**
* Handle "automatic" network selection request.
*/
handleSelectNetworkAuto: function handleSelectNetworkAuto(message) {
debug("handleSelectNetworkAuto: " + JSON.stringify(message));
this._sendRequestResults("RIL:SelectNetworkAuto", message);
},
/**
* Handle call error.
*/
handleCallError: function handleCallError(message) {
ppmm.broadcastAsyncMessage("RIL:CallError", message);
},
/**
* Handle WDP port push PDU. Constructor WDP bearer information and deliver
* to WapPushManager.
*
* @param message
* A SMS message.
*/
handleSmsWdpPortPush: function handleSmsWdpPortPush(message) {
if (message.encoding != RIL.PDU_DCS_MSG_CODING_8BITS_ALPHABET) {
debug("Got port addressed SMS but not encoded in 8-bit alphabet. Drop!");
return;
}
let options = {
bearer: WAP.WDP_BEARER_GSM_SMS_GSM_MSISDN,
sourceAddress: message.sender,
sourcePort: message.header.originatorPort,
destinationAddress: this.rilContext.icc.msisdn,
destinationPort: message.header.destinationPort,
};
WAP.WapPushManager.receiveWdpPDU(message.fullData, message.fullData.length,
0, options);
},
portAddressedSmsApps: null,
handleSmsReceived: function handleSmsReceived(message) {
debug("handleSmsReceived: " + JSON.stringify(message));
// FIXME: Bug 737202 - Typed arrays become normal arrays when sent to/from workers
if (message.encoding == RIL.PDU_DCS_MSG_CODING_8BITS_ALPHABET) {
message.fullData = new Uint8Array(message.fullData);
}
// Dispatch to registered handler if application port addressing is
// available. Note that the destination port can possibly be zero when
// representing a UDP/TCP port.
if (message.header && message.header.destinationPort != null) {
let handler = this.portAddressedSmsApps[message.header.destinationPort];
if (handler) {
handler(message);
}
return;
}
if (message.encoding == RIL.PDU_DCS_MSG_CODING_8BITS_ALPHABET) {
// Don't know how to handle binary data yet.
return;
}
// TODO: Bug #768441
// For now we don't store indicators persistently. When the mwi.discard
// flag is false, we'll need to persist the indicator to EFmwis.
// See TS 23.040 9.2.3.24.2
let mwi = message.mwi;
if (mwi) {
mwi.returnNumber = message.sender || null;
mwi.returnMessage = message.fullBody || null;
ppmm.broadcastAsyncMessage("RIL:VoicemailNotification", mwi);
return;
}
let id = -1;
if (message.messageClass != RIL.PDU_DCS_MSG_CLASS_0) {
id = gSmsDatabaseService.saveReceivedMessage(message.sender || null,
message.fullBody || null,
message.timestamp);
}
let sms = gSmsService.createSmsMessage(id,
DOM_SMS_DELIVERY_RECEIVED,
message.sender || null,
message.receiver || null,
message.fullBody || null,
message.timestamp,
false);
gSystemMessenger.broadcastMessage("sms-received",
{id: id,
delivery: DOM_SMS_DELIVERY_RECEIVED,
sender: message.sender || null,
receiver: message.receiver || null,
body: message.fullBody || null,
timestamp: message.timestamp,
read: false});
Services.obs.notifyObservers(sms, kSmsReceivedObserverTopic, null);
},
/**
* Local storage for sent SMS messages.
*/
_sentSmsEnvelopes: null,
createSmsEnvelope: function createSmsEnvelope(options) {
let i;
for (i = 1; this._sentSmsEnvelopes[i]; i++) {
// Do nothing.
}
debug("createSmsEnvelope: assigned " + i);
options.envelopeId = i;
this._sentSmsEnvelopes[i] = options;
},
handleSmsSent: function handleSmsSent(message) {
debug("handleSmsSent: " + JSON.stringify(message));
let options = this._sentSmsEnvelopes[message.envelopeId];
if (!options) {
return;
}
let timestamp = Date.now();
let id = gSmsDatabaseService.saveSentMessage(options.number,
options.fullBody,
timestamp);
let sms = gSmsService.createSmsMessage(id,
DOM_SMS_DELIVERY_SENT,
null,
options.number,
options.fullBody,
timestamp,
true);
if (!options.requestStatusReport) {
// No more used if STATUS-REPORT not requested.
delete this._sentSmsEnvelopes[message.envelopeId];
} else {
options.sms = sms;
}
gSmsRequestManager.notifySmsSent(options.requestId, sms);
Services.obs.notifyObservers(options.sms, kSmsSentObserverTopic, null);
},
handleSmsDelivered: function handleSmsDelivered(message) {
debug("handleSmsDelivered: " + JSON.stringify(message));
let options = this._sentSmsEnvelopes[message.envelopeId];
if (!options) {
return;
}
delete this._sentSmsEnvelopes[message.envelopeId];
Services.obs.notifyObservers(options.sms, kSmsDeliveredObserverTopic, null);
},
handleSmsSendFailed: function handleSmsSendFailed(message) {
debug("handleSmsSendFailed: " + JSON.stringify(message));
let options = this._sentSmsEnvelopes[message.envelopeId];
if (!options) {
return;
}
delete this._sentSmsEnvelopes[message.envelopeId];
let error = gSmsRequestManager.UNKNOWN_ERROR;
switch (message.error) {
case RIL.ERROR_RADIO_NOT_AVAILABLE:
error = gSmsRequestManager.NO_SIGNAL_ERROR;
break;
}
gSmsRequestManager.notifySmsSendFailed(options.requestId, error);
},
/**
* Handle data call state changes.
*/
handleDataCallState: function handleDataCallState(datacall) {
let data = this.rilContext.data;
if (datacall.ifname &&
datacall.apn == this.dataCallSettings["apn"]) {
data.connected = (datacall.state == RIL.GECKO_NETWORK_STATE_CONNECTED);
ppmm.broadcastAsyncMessage("RIL:DataInfoChanged", data);
}
this._deliverDataCallCallback("dataCallStateChanged",
[datacall]);
},
/**
* Handle data call list.
*/
handleDataCallList: function handleDataCallList(message) {
this._deliverDataCallCallback("receiveDataCallList",
[message.datacalls, message.datacalls.length]);
},
/**
* Handle the NITZ message.
*/
handleNitzTime: function handleNitzTime(message) {
if (!this._nitzAutomaticUpdateEnabled) {
return;
}
// To set the system clock time. Note that there could be a time diff
// between when the NITZ was received and when the time is actually set.
gTimeService.set(
message.networkTimeInMS + (Date.now() - message.receiveTimeInMS));
// To set the sytem timezone. Note that we need to convert the time zone
// value to a UTC repesentation string in the format of "UTC(+/-)hh:mm".
// Ex, time zone -480 is "UTC-08:00"; time zone 630 is "UTC+10:30".
//
// We can unapply the DST correction if we want the raw time zone offset:
// message.networkTimeZoneInMinutes -= message.networkDSTInMinutes;
if (message.networkTimeZoneInMinutes != (new Date()).getTimezoneOffset()) {
let absTimeZoneInMinutes = Math.abs(message.networkTimeZoneInMinutes);
let timeZoneStr = "UTC";
timeZoneStr += (message.networkTimeZoneInMinutes >= 0 ? "+" : "-");
timeZoneStr += ("0" + Math.floor(absTimeZoneInMinutes / 60)).slice(-2);
timeZoneStr += ":";
timeZoneStr += ("0" + absTimeZoneInMinutes % 60).slice(-2);
gSettingsService.createLock().set("time.timezone", timeZoneStr, null);
}
},
handleICCInfoChange: function handleICCInfoChange(message) {
let oldIcc = this.rilContext.icc;
this.rilContext.icc = message;
let iccInfoChanged = !oldIcc ||
oldIcc.iccid != message.iccid ||
oldIcc.mcc != message.mcc ||
oldIcc.mnc != message.mnc;
if (!iccInfoChanged) {
return;
}
// RIL:IccInfoChanged corresponds to a DOM event that gets fired only
// when the MCC or MNC codes have changed.
ppmm.broadcastAsyncMessage("RIL:IccInfoChanged", message);
},
handleICCCardLockResult: function handleICCCardLockResult(message) {
this._sendRequestResults("RIL:CardLockResult", message);
},
handleUSSDReceived: function handleUSSDReceived(ussd) {
debug("handleUSSDReceived " + JSON.stringify(ussd));
ppmm.broadcastAsyncMessage("RIL:UssdReceived", ussd);
},
handleSendUSSD: function handleSendUSSD(message) {
debug("handleSendUSSD " + JSON.stringify(message));
let messageType = message.success ? "RIL:SendUssd:Return:OK" :
"RIL:SendUssd:Return:KO";
this._sendRequestResults(messageType, message);
},
handleCancelUSSD: function handleCancelUSSD(message) {
debug("handleCancelUSSD " + JSON.stringify(message));
let messageType = message.success ? "RIL:CancelUssd:Return:OK" :
"RIL:CancelUssd:Return:KO";
this._sendRequestResults(messageType, message);
},
handleStkProactiveCommand: function handleStkProactiveCommand(message) {
debug("handleStkProactiveCommand " + JSON.stringify(message));
gSystemMessenger.broadcastMessage("icc-stkcommand", message);
ppmm.broadcastAsyncMessage("RIL:StkCommand", message);
},
// nsIObserver
observe: function observe(subject, topic, data) {
switch (topic) {
case kSysMsgListenerReadyObserverTopic:
Services.obs.removeObserver(this, kSysMsgListenerReadyObserverTopic);
this._sysMsgListenerReady = true;
this._ensureRadioState();
break;
case kMozSettingsChangedObserverTopic:
let setting = JSON.parse(data);
this.handle(setting.key, setting.value);
break;
case "xpcom-shutdown":
for (let msgname of RIL_IPC_TELEPHONY_MSG_NAMES) {
ppmm.removeMessageListener(msgname, this);
}
for (let msgname of RIL_IPC_MOBILECONNECTION_MSG_NAMES) {
ppmm.removeMessageListener(msgname, this);
}
// Shutdown all RIL network interfaces
this.dataNetworkInterface.shutdown();
this.mmsNetworkInterface.shutdown();
this.suplNetworkInterface.shutdown();
ppmm = null;
Services.obs.removeObserver(this, "xpcom-shutdown");
Services.obs.removeObserver(this, kMozSettingsChangedObserverTopic);
break;
}
},
// Flag to determine whether the UI's system app is ready to receive
// events yet.
_sysMsgListenerReady: false,
// Flag to determine the radio state to start with when we boot up. It
// corresponds to the 'ril.radio.disabled' setting from the UI.
_radioEnabled: null,
// Flag to ignore any radio power change requests during We're changing
// the radio power.
_changingRadioPower: false,
// Flag to determine whether we reject a waiting call directly or we
// notify the UI of a waiting call. It corresponds to the
// 'ril.callwaiting.enbled' setting from the UI.
_callWaitingEnabled: null,
// APN data for making data calls.
dataCallSettings: {},
dataCallSettingsMMS: {},
dataCallSettingsSUPL: {},
_dataCallSettingsToRead: [],
_oldRilDataEnabledState: null,
// Flag to determine whether to use NITZ. It corresponds to the
// 'time.nitz.automatic-update.enabled' setting from the UI.
_nitzAutomaticUpdateEnabled: null,
// nsISettingsServiceCallback
handle: function handle(aName, aResult) {
switch(aName) {
case "ril.radio.disabled":
debug("'ril.radio.disabled' is now " + aResult);
this._radioEnabled = !aResult;
this._ensureRadioState();
break;
case "ril.radio.preferredNetworkType":
debug("'ril.radio.preferredNetworkType' is now " + aResult);
this.setPreferredNetworkType(aResult);
break;
case "ril.data.enabled":
this._oldRilDataEnabledState = this.dataCallSettings["enabled"];
// Fall through!
case "ril.data.roaming_enabled":
case "ril.data.apn":
case "ril.data.user":
case "ril.data.passwd":
case "ril.data.httpProxyHost":
case "ril.data.httpProxyPort":
let key = aName.slice(9);
this.dataCallSettings[key] = aResult;
debug("'" + aName + "'" + " is now " + this.dataCallSettings[key]);
let index = this._dataCallSettingsToRead.indexOf(aName);
if (index != -1) {
this._dataCallSettingsToRead.splice(index, 1);
}
this.updateRILNetworkInterface();
break;
case "ril.mms.apn":
case "ril.mms.user":
case "ril.mms.passwd":
case "ril.mms.httpProxyHost":
case "ril.mms.httpProxyPort":
case "ril.mms.mmsc":
case "ril.mms.mmsproxy":
case "ril.mms.mmsport":
key = aName.slice(8);
this.dataCallSettingsMMS[key] = aResult;
break;
case "ril.supl.apn":
case "ril.supl.user":
case "ril.supl.passwd":
case "ril.supl.httpProxyHost":
case "ril.supl.httpProxyPort":
key = aName.slice(9);
this.dataCallSettingsSUPL[key] = aResult;
break;
case "ril.callwaiting.enabled":
this._callWaitingEnabled = aResult;
this.setCallWaitingEnabled(this._callWaitingEnabled);
break;
case kTimeNitzAutomaticUpdateEnabled:
this._nitzAutomaticUpdateEnabled = aResult;
break;
};
},
handleError: function handleError(aErrorMessage) {
debug("There was an error while reading RIL settings.");
// Default radio to on.
this._radioEnabled = true;
this._ensureRadioState();
// Clean data call setting.
this.dataCallSettings = {};
this.dataCallSettings["enabled"] = false;
},
// nsIRadioWorker
worker: null,
// nsIRadioInterfaceLayer
setRadioEnabled: function setRadioEnabled(value) {
debug("Setting radio power to " + value);
this._changingRadioPower = true;
this.worker.postMessage({rilMessageType: "setRadioPower", on: value});
},
rilContext: null,
// Handle phone functions of nsIRILContentHelper
enumerateCalls: function enumerateCalls(message) {
debug("Requesting enumeration of calls for callback");
message.rilMessageType = "enumerateCalls";
this.worker.postMessage(message);
},
dial: function dial(number) {
debug("Dialing " + number);
this.worker.postMessage({rilMessageType: "dial",
number: number,
isDialEmergency: false});
},
dialEmergency: function dialEmergency(number) {
debug("Dialing emergency " + number);
this.worker.postMessage({rilMessageType: "dial",
number: number,
isDialEmergency: true});
},
hangUp: function hangUp(callIndex) {
debug("Hanging up call no. " + callIndex);
this.worker.postMessage({rilMessageType: "hangUp",
callIndex: callIndex});
},
startTone: function startTone(dtmfChar) {
debug("Sending Tone for " + dtmfChar);
this.worker.postMessage({rilMessageType: "startTone",
dtmfChar: dtmfChar});
},
stopTone: function stopTone() {
debug("Stopping Tone");
this.worker.postMessage({rilMessageType: "stopTone"});
},
answerCall: function answerCall(callIndex) {
this.worker.postMessage({rilMessageType: "answerCall",
callIndex: callIndex});
},
rejectCall: function rejectCall(callIndex) {
this.worker.postMessage({rilMessageType: "rejectCall",
callIndex: callIndex});
},
holdCall: function holdCall(callIndex) {
this.worker.postMessage({rilMessageType: "holdCall",
callIndex: callIndex});
},
resumeCall: function resumeCall(callIndex) {
this.worker.postMessage({rilMessageType: "resumeCall",
callIndex: callIndex});
},
getAvailableNetworks: function getAvailableNetworks(requestId) {
this.worker.postMessage({rilMessageType: "getAvailableNetworks",
requestId: requestId});
},
sendUSSD: function sendUSSD(message) {
debug("SendUSSD " + JSON.stringify(message));
message.rilMessageType = "sendUSSD";
this.worker.postMessage(message);
},
cancelUSSD: function cancelUSSD(message) {
debug("Cancel pending USSD");
message.rilMessageType = "cancelUSSD";
this.worker.postMessage(message);
},
selectNetworkAuto: function selectNetworkAuto(requestId) {
this.worker.postMessage({rilMessageType: "selectNetworkAuto",
requestId: requestId});
},
selectNetwork: function selectNetwork(message) {
message.rilMessageType = "selectNetwork";
this.worker.postMessage(message);
},
sendStkResponse: function sendStkResponse(message) {
message.rilMessageType = "sendStkTerminalResponse";
this.worker.postMessage(message);
},
sendStkMenuSelection: function sendStkMenuSelection(message) {
message.rilMessageType = "sendStkMenuSelection";
this.worker.postMessage(message);
},
sendStkEventDownload: function sendStkEventDownload(message) {
message.rilMessageType = "sendStkEventDownload";
this.worker.postMessage(message);
},
get microphoneMuted() {
return gAudioManager.microphoneMuted;
},
set microphoneMuted(value) {
if (value == this.microphoneMuted) {
return;
}
gAudioManager.microphoneMuted = value;
if (!this._activeCall) {
gAudioManager.phoneState = nsIAudioManager.PHONE_STATE_NORMAL;
}
},
get speakerEnabled() {
return (gAudioManager.getForceForUse(nsIAudioManager.USE_COMMUNICATION) ==
nsIAudioManager.FORCE_SPEAKER);
},
set speakerEnabled(value) {
if (value == this.speakerEnabled) {
return;
}
let force = value ? nsIAudioManager.FORCE_SPEAKER :
nsIAudioManager.FORCE_NONE;
gAudioManager.setForceForUse(nsIAudioManager.USE_COMMUNICATION, force);
if (!this._activeCall) {
gAudioManager.phoneState = nsIAudioManager.PHONE_STATE_NORMAL;
}
},
/**
* List of tuples of national language identifier pairs.
*
* TODO: Support static/runtime settings, see bug 733331.
*/
enabledGsmTableTuples: [
[RIL.PDU_NL_IDENTIFIER_DEFAULT, RIL.PDU_NL_IDENTIFIER_DEFAULT],
],
/**
* Use 16-bit reference number for concatenated outgoint messages.
*
* TODO: Support static/runtime settings, see bug 733331.
*/
segmentRef16Bit: false,
/**
* Get valid SMS concatenation reference number.
*/
_segmentRef: 0,
get nextSegmentRef() {
let ref = this._segmentRef++;
this._segmentRef %= (this.segmentRef16Bit ? 65535 : 255);
// 0 is not a valid SMS concatenation reference number.
return ref + 1;
},
/**
* Calculate encoded length using specified locking/single shift table
*
* @param message
* message string to be encoded.
* @param langTable
* locking shift table string.
* @param langShiftTable
* single shift table string.
* @param strict7BitEncoding
* Optional. Enable Latin characters replacement with corresponding
* ones in GSM SMS 7-bit default alphabet.
*
* @return encoded length in septets.
*
* @note that the algorithm used in this function must match exactly with
* GsmPDUHelper#writeStringAsSeptets.
*/
_countGsm7BitSeptets: function _countGsm7BitSeptets(message, langTable, langShiftTable, strict7BitEncoding) {
let length = 0;
for (let msgIndex = 0; msgIndex < message.length; msgIndex++) {
let c = message.charAt(msgIndex);
if (strict7BitEncoding) {
c = RIL.GSM_SMS_STRICT_7BIT_CHARMAP[c] || c;
}
let septet = langTable.indexOf(c);
// According to 3GPP TS 23.038, section 6.1.1 General notes, "The
// characters marked '1)' are not used but are displayed as a space."
if (septet == RIL.PDU_NL_EXTENDED_ESCAPE) {
continue;
}
if (septet >= 0) {
length++;
continue;
}
septet = langShiftTable.indexOf(c);
if (septet < 0) {
return -1;
}
// According to 3GPP TS 23.038 B.2, "This code represents a control
// character and therefore must not be used for language specific
// characters."
if (septet == RIL.PDU_NL_RESERVED_CONTROL) {
continue;
}
// The character is not found in locking shfit table, but could be
// encoded as <escape><char> with single shift table. Note that it's
// still possible for septet to has the value of PDU_NL_EXTENDED_ESCAPE,
// but we can display it as a space in this case as said in previous
// comment.
length += 2;
}
return length;
},
/**
* Calculate user data length of specified message string encoded in GSM 7Bit
* alphabets.
*
* @param message
* a message string to be encoded.
* @param strict7BitEncoding
* Optional. Enable Latin characters replacement with corresponding
* ones in GSM SMS 7-bit default alphabet.
*
* @return null or an options object with attributes `dcs`,
* `userDataHeaderLength`, `encodedFullBodyLength`, `langIndex`,
* `langShiftIndex`, `segmentMaxSeq` set.
*
* @see #_calculateUserDataLength().
*/
_calculateUserDataLength7Bit: function _calculateUserDataLength7Bit(message, strict7BitEncoding) {
let options = null;
let minUserDataSeptets = Number.MAX_VALUE;
for (let i = 0; i < this.enabledGsmTableTuples.length; i++) {
let [langIndex, langShiftIndex] = this.enabledGsmTableTuples[i];
const langTable = RIL.PDU_NL_LOCKING_SHIFT_TABLES[langIndex];
const langShiftTable = RIL.PDU_NL_SINGLE_SHIFT_TABLES[langShiftIndex];
let bodySeptets = this._countGsm7BitSeptets(message,
langTable,
langShiftTable,
strict7BitEncoding);
if (bodySeptets < 0) {
continue;
}
let headerLen = 0;
if (langIndex != RIL.PDU_NL_IDENTIFIER_DEFAULT) {
headerLen += 3; // IEI + len + langIndex
}
if (langShiftIndex != RIL.PDU_NL_IDENTIFIER_DEFAULT) {
headerLen += 3; // IEI + len + langShiftIndex
}
// Calculate full user data length, note the extra byte is for header len
let headerSeptets = Math.ceil((headerLen ? headerLen + 1 : 0) * 8 / 7);
let userDataSeptets = bodySeptets + headerSeptets;
let segments = bodySeptets ? 1 : 0;
if (userDataSeptets > RIL.PDU_MAX_USER_DATA_7BIT) {
if (this.segmentRef16Bit) {
headerLen += 6;
} else {
headerLen += 5;
}
headerSeptets = Math.ceil((headerLen + 1) * 8 / 7);
let segmentSeptets = RIL.PDU_MAX_USER_DATA_7BIT - headerSeptets;
segments = Math.ceil(bodySeptets / segmentSeptets);
userDataSeptets = bodySeptets + headerSeptets * segments;
}
if (userDataSeptets >= minUserDataSeptets) {
continue;
}
minUserDataSeptets = userDataSeptets;
options = {
dcs: RIL.PDU_DCS_MSG_CODING_7BITS_ALPHABET,
encodedFullBodyLength: bodySeptets,
userDataHeaderLength: headerLen,
langIndex: langIndex,
langShiftIndex: langShiftIndex,
segmentMaxSeq: segments,
strict7BitEncoding: strict7BitEncoding
};
}
return options;
},
/**
* Calculate user data length of specified message string encoded in UCS2.
*
* @param message
* a message string to be encoded.
*
* @return an options object with attributes `dcs`, `userDataHeaderLength`,
* `encodedFullBodyLength`, `segmentMaxSeq` set.
*
* @see #_calculateUserDataLength().
*/
_calculateUserDataLengthUCS2: function _calculateUserDataLengthUCS2(message) {
let bodyChars = message.length;
let headerLen = 0;
let headerChars = Math.ceil((headerLen ? headerLen + 1 : 0) / 2);
let segments = bodyChars ? 1 : 0;
if ((bodyChars + headerChars) > RIL.PDU_MAX_USER_DATA_UCS2) {
if (this.segmentRef16Bit) {
headerLen += 6;
} else {
headerLen += 5;
}
headerChars = Math.ceil((headerLen + 1) / 2);
let segmentChars = RIL.PDU_MAX_USER_DATA_UCS2 - headerChars;
segments = Math.ceil(bodyChars / segmentChars);
}
return {
dcs: RIL.PDU_DCS_MSG_CODING_16BITS_ALPHABET,
encodedFullBodyLength: bodyChars * 2,
userDataHeaderLength: headerLen,
segmentMaxSeq: segments,
};
},
/**
* Calculate user data length and its encoding.
*
* @param message
* a message string to be encoded.
* @param strict7BitEncoding
* Optional. Enable Latin characters replacement with corresponding
* ones in GSM SMS 7-bit default alphabet.
*
* @return an options object with some or all of following attributes set:
*
* @param dcs
* Data coding scheme. One of the PDU_DCS_MSG_CODING_*BITS_ALPHABET
* constants.
* @param fullBody
* Original unfragmented text message.
* @param userDataHeaderLength
* Length of embedded user data header, in bytes. The whole header
* size will be userDataHeaderLength + 1; 0 for no header.
* @param encodedFullBodyLength
* Length of the message body when encoded with the given DCS. For
* UCS2, in bytes; for 7-bit, in septets.
* @param langIndex
* Table index used for normal 7-bit encoded character lookup.
* @param langShiftIndex
* Table index used for escaped 7-bit encoded character lookup.
* @param segmentMaxSeq
* Max sequence number of a multi-part messages, or 1 for single one.
* This number might not be accurate for a multi-part message until
* it's processed by #_fragmentText() again.
*/
_calculateUserDataLength: function _calculateUserDataLength(message, strict7BitEncoding) {
let options = this._calculateUserDataLength7Bit(message, strict7BitEncoding);
if (!options) {
options = this._calculateUserDataLengthUCS2(message);
}
if (options) {
options.fullBody = message;
}
debug("_calculateUserDataLength: " + JSON.stringify(options));
return options;
},
/**
* Fragment GSM 7-Bit encodable string for transmission.
*
* @param text
* text string to be fragmented.
* @param langTable
* locking shift table string.
* @param langShiftTable
* single shift table string.
* @param headerLen
* Length of prepended user data header.
* @param strict7BitEncoding
* Optional. Enable Latin characters replacement with corresponding
* ones in GSM SMS 7-bit default alphabet.
*
* @return an array of objects. See #_fragmentText() for detailed definition.
*/
_fragmentText7Bit: function _fragmentText7Bit(text, langTable, langShiftTable, headerLen, strict7BitEncoding) {
const headerSeptets = Math.ceil((headerLen ? headerLen + 1 : 0) * 8 / 7);
const segmentSeptets = RIL.PDU_MAX_USER_DATA_7BIT - headerSeptets;
let ret = [];
let begin = 0, len = 0;
for (let i = 0, inc = 0; i < text.length; i++) {
let c = text.charAt(i);
if (strict7BitEncoding) {
c = RIL.GSM_SMS_STRICT_7BIT_CHARMAP[c] || c;
}
let septet = langTable.indexOf(c);
if (septet == RIL.PDU_NL_EXTENDED_ESCAPE) {
continue;
}
if (septet >= 0) {
inc = 1;
} else {
septet = langShiftTable.indexOf(c);
if (septet < 0) {
throw new Error("Given text cannot be encoded with GSM 7-bit Alphabet!");
}
if (septet == RIL.PDU_NL_RESERVED_CONTROL) {
continue;
}
inc = 2;
}
if ((len + inc) > segmentSeptets) {
ret.push({
body: text.substring(begin, i),
encodedBodyLength: len,
});
begin = i;
len = 0;
}
len += inc;
}
if (len) {
ret.push({
body: text.substring(begin),
encodedBodyLength: len,
});
}
return ret;
},
/**
* Fragment UCS2 encodable string for transmission.
*
* @param text
* text string to be fragmented.
* @param headerLen
* Length of prepended user data header.
*
* @return an array of objects. See #_fragmentText() for detailed definition.
*/
_fragmentTextUCS2: function _fragmentTextUCS2(text, headerLen) {
const headerChars = Math.ceil((headerLen ? headerLen + 1 : 0) / 2);
const segmentChars = RIL.PDU_MAX_USER_DATA_UCS2 - headerChars;
let ret = [];
for (let offset = 0; offset < text.length; offset += segmentChars) {
let str = text.substr(offset, segmentChars);
ret.push({
body: str,
encodedBodyLength: str.length * 2,
});
}
return ret;
},
/**
* Fragment string for transmission.
*
* Fragment input text string into an array of objects that contains
* attributes `body`, substring for this segment, `encodedBodyLength`,
* length of the encoded segment body in septets.
*
* @param text
* Text string to be fragmented.
* @param options
* Optional pre-calculated option object. The output array will be
* stored at options.segments if there are multiple segments.
* @param strict7BitEncoding
* Optional. Enable Latin characters replacement with corresponding
* ones in GSM SMS 7-bit default alphabet.
*
* @return Populated options object.
*/
_fragmentText: function _fragmentText(text, options, strict7BitEncoding) {
if (!options) {
options = this._calculateUserDataLength(text, strict7BitEncoding);
}
if (options.segmentMaxSeq <= 1) {
options.segments = null;
return options;
}
if (options.dcs == RIL.PDU_DCS_MSG_CODING_7BITS_ALPHABET) {
const langTable = RIL.PDU_NL_LOCKING_SHIFT_TABLES[options.langIndex];
const langShiftTable = RIL.PDU_NL_SINGLE_SHIFT_TABLES[options.langShiftIndex];
options.segments = this._fragmentText7Bit(options.fullBody,
langTable, langShiftTable,
options.userDataHeaderLength,
options.strict7BitEncodingEncoding);
} else {
options.segments = this._fragmentTextUCS2(options.fullBody,
options.userDataHeaderLength);
}
// Re-sync options.segmentMaxSeq with actual length of returning array.
options.segmentMaxSeq = options.segments.length;
return options;
},
getNumberOfMessagesForText: function getNumberOfMessagesForText(text) {
let strict7BitEncoding;
try {
strict7BitEncoding = Services.prefs.getBoolPref("dom.sms.strict7BitEncoding");
} catch (e) {
strict7BitEncoding = false;
}
return this._fragmentText(text, null, strict7BitEncoding).segmentMaxSeq;
},
sendSMS: function sendSMS(number, message, requestId, processId) {
let strict7BitEncoding;
try {
strict7BitEncoding = Services.prefs.getBoolPref("dom.sms.strict7BitEncoding");
} catch (e) {
strict7BitEncoding = false;
}
let options = this._calculateUserDataLength(message, strict7BitEncoding);
options.rilMessageType = "sendSMS";
options.number = number;
options.requestId = requestId;
options.processId = processId;
options.requestStatusReport = true;
this._fragmentText(message, options, strict7BitEncoding);
if (options.segmentMaxSeq > 1) {
options.segmentRef16Bit = this.segmentRef16Bit;
options.segmentRef = this.nextSegmentRef;
}
// Keep current SMS message info for sent/delivered notifications
this.createSmsEnvelope(options);
this.worker.postMessage(options);
},
registerDataCallCallback: function registerDataCallCallback(callback) {
if (this._datacall_callbacks) {
if (this._datacall_callbacks.indexOf(callback) != -1) {
throw new Error("Already registered this callback!");
}
} else {
this._datacall_callbacks = [];
}
this._datacall_callbacks.push(callback);
debug("Registering callback: " + callback);
},
unregisterDataCallCallback: function unregisterDataCallCallback(callback) {
if (!this._datacall_callbacks) {
return;
}
let index = this._datacall_callbacks.indexOf(callback);
if (index != -1) {
this._datacall_callbacks.splice(index, 1);
debug("Unregistering callback: " + callback);
}
},
_deliverDataCallCallback: function _deliverDataCallCallback(name, args) {
// We need to worry about callback registration state mutations during the
// callback firing. The behaviour we want is to *not* call any callbacks
// that are added during the firing and to *not* call any callbacks that are
// removed during the firing. To address this, we make a copy of the
// callback list before dispatching and then double-check that each callback
// is still registered before calling it.
if (!this._datacall_callbacks) {
return;
}
let callbacks = this._datacall_callbacks.slice();
for each (let callback in callbacks) {
if (this._datacall_callbacks.indexOf(callback) == -1) {
continue;
}
let handler = callback[name];
if (typeof handler != "function") {
throw new Error("No handler for " + name);
}
try {
handler.apply(callback, args);
} catch (e) {
debug("callback handler for " + name + " threw an exception: " + e);
}
}
},
/**
* Determine whether secondary APN goes through default APN.
*/
usingDefaultAPN: function usingDefaultAPN(apntype) {
switch (apntype) {
case "mms":
return (this.dataCallSettingsMMS["apn"] == this.dataCallSettings["apn"]);
case "supl":
return (this.dataCallSettingsSUPL["apn"] == this.dataCallSettings["apn"]);
return false;
}
},
setupDataCallByType: function setupDataCallByType(apntype) {
if (apntype != "default" && this.usingDefaultAPN(apntype)) {
debug("Secondary APN type " + apntype + " goes through default APN, nothing to do.");
return;
}
switch (apntype) {
case "default":
this.dataNetworkInterface.connect(this.dataCallSettings);
break;
case "mms":
this.mmsNetworkInterface.connect(this.dataCallSettingsMMS);
break;
case "supl":
this.suplNetworkInterface.connect(this.dataCallSettingsSUPL);
break;
default:
debug("Unsupported APN type " + apntype);
break;
}
},
deactivateDataCallByType: function deactivateDataCallByType(apntype) {
if (apntype != "default" && this.usingDefaultAPN(apntype)) {
debug("Secondary APN type " + apntype + " goes through default APN, nothing to do.");
return;
}
switch (apntype) {
case "default":
this.dataNetworkInterface.disconnect();
break;
case "mms":
this.mmsNetworkInterface.disconnect();
break;
case "supl":
this.suplNetworkInterface.disconnect();
break;
default:
debug("Unsupported APN type " + apntype);
break;
}
},
getDataCallStateByType: function getDataCallStateByType(apntype) {
switch (apntype) {
case "default":
return this.dataNetworkInterface.state;
case "mms":
return this.mmsNetworkInterface.state;
case "supl":
return this.suplNetworkInterface.state;
default:
return RIL.GECKO_NETWORK_STATE_UNKNOWN;
}
},
setupDataCall: function setupDataCall(radioTech, apn, user, passwd, chappap, pdptype) {
this.worker.postMessage({rilMessageType: "setupDataCall",
radioTech: radioTech,
apn: apn,
user: user,
passwd: passwd,
chappap: chappap,
pdptype: pdptype});
},
deactivateDataCall: function deactivateDataCall(cid, reason) {
this.worker.postMessage({rilMessageType: "deactivateDataCall",
cid: cid,
reason: reason});
},
getDataCallList: function getDataCallList() {
this.worker.postMessage({rilMessageType: "getDataCallList"});
},
getCardLock: function getCardLock(message) {
message.rilMessageType = "iccGetCardLock";
this.worker.postMessage(message);
},
unlockCardLock: function unlockCardLock(message) {
message.rilMessageType = "iccUnlockCardLock";
this.worker.postMessage(message);
},
setCardLock: function setCardLock(message) {
message.rilMessageType = "iccSetCardLock";
this.worker.postMessage(message);
},
_contactsCallbacks: null,
getICCContacts: function getICCContacts(contactType, callback) {
if (!this._contactsCallbacks) {
this._contactsCallbacks = {};
}
let requestId = Math.floor(Math.random() * 1000);
this._contactsCallbacks[requestId] = callback;
this.worker.postMessage({rilMessageType: "getICCContacts",
contactType: contactType,
requestId: requestId});
}
};
function RILNetworkInterface(ril, type)
{
this.mRIL = ril;
this.type = type;
}
RILNetworkInterface.prototype = {
classID: RILNETWORKINTERFACE_CID,
classInfo: XPCOMUtils.generateCI({classID: RILNETWORKINTERFACE_CID,
classDescription: "RILNetworkInterface",
interfaces: [Ci.nsINetworkInterface,
Ci.nsIRIODataCallback]}),
QueryInterface: XPCOMUtils.generateQI([Ci.nsINetworkInterface,
Ci.nsIRILDataCallback]),
// nsINetworkInterface
NETWORK_STATE_UNKNOWN: Ci.nsINetworkInterface.NETWORK_STATE_UNKNOWN,
NETWORK_STATE_CONNECTING: Ci.nsINetworkInterface.CONNECTING,
NETWORK_STATE_CONNECTED: Ci.nsINetworkInterface.CONNECTED,
NETWORK_STATE_DISCONNECTING: Ci.nsINetworkInterface.DISCONNECTING,
NETWORK_STATE_DISCONNECTED: Ci.nsINetworkInterface.DISCONNECTED,
state: Ci.nsINetworkInterface.NETWORK_STATE_UNKNOWN,
NETWORK_TYPE_WIFI: Ci.nsINetworkInterface.NETWORK_TYPE_WIFI,
NETWORK_TYPE_MOBILE: Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE,
NETWORK_TYPE_MOBILE_MMS: Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE_MMS,
NETWORK_TYPE_MOBILE_SUPL: Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE_SUPL,
/**
* Standard values for the APN connection retry process
* Retry funcion: time(secs) = A * numer_of_retries^2 + B
*/
NETWORK_APNRETRY_FACTOR: 8,
NETWORK_APNRETRY_ORIGIN: 3,
NETWORK_APNRETRY_MAXRETRIES: 10,
// Event timer for connection retries
timer: null,
type: Ci.nsINetworkInterface.NETWORK_TYPE_MOBILE,
name: null,
dhcp: false,
ip: null,
netmask: null,
broadcast: null,
dns1: null,
dns2: null,
httpProxyHost: null,
httpProxyPort: null,
// nsIRILDataCallback
dataCallError: function dataCallError(message) {
if (message.apn != this.dataCallSettings["apn"]) {
return;
}
debug("Data call error on APN: " + message.apn);
this.reset();
},
dataCallStateChanged: function dataCallStateChanged(datacall) {
if (datacall.apn != this.dataCallSettings["apn"]) {
return;
}
debug("Data call ID: " + datacall.cid + ", interface name: " +
datacall.ifname + ", APN name: " + datacall.apn);
if (this.connecting &&
(datacall.state == RIL.GECKO_NETWORK_STATE_CONNECTING ||
datacall.state == RIL.GECKO_NETWORK_STATE_CONNECTED)) {
this.connecting = false;
this.cid = datacall.cid;
this.name = datacall.ifname;
this.ip = datacall.ip;
this.netmask = datacall.netmask;
this.broadcast = datacall.broadcast;
this.gateway = datacall.gw;
if (datacall.dns) {
this.dns1 = datacall.dns[0];
this.dns2 = datacall.dns[1];
}
if (!this.registeredAsNetworkInterface) {
gNetworkManager.registerNetworkInterface(this);
this.registeredAsNetworkInterface = true;
}
}
if (this.cid != datacall.cid) {
return;
}
if (this.state == datacall.state) {
return;
}
this.state = datacall.state;
// In case the data setting changed while the datacall was being started or
// ended, let's re-check the setting and potentially adjust the datacall
// state again.
if (this == this.mRIL.dataNetworkInterface) {
this.mRIL.updateRILNetworkInterface();
}
if (this.state == RIL.GECKO_NETWORK_STATE_UNKNOWN &&
this.registeredAsNetworkInterface) {
gNetworkManager.unregisterNetworkInterface(this);
this.registeredAsNetworkInterface = false;
return;
}
Services.obs.notifyObservers(this,
kNetworkInterfaceStateChangedTopic,
null);
},
receiveDataCallList: function receiveDataCallList(dataCalls, length) {
},
// Helpers
cid: null,
registeredAsDataCallCallback: false,
registeredAsNetworkInterface: false,
connecting: false,
dataCallSettings: {},
// APN failed connections. Retry counter
apnRetryCounter: 0,
get connected() {
return this.state == RIL.GECKO_NETWORK_STATE_CONNECTED;
},
connect: function connect(options) {
if (this.connecting || this.connected) {
return;
}
if (!this.registeredAsDataCallCallback) {
this.mRIL.registerDataCallCallback(this);
this.registeredAsDataCallCallback = true;
}
if (options) {
// Save the APN data locally for using them in connection retries.
this.dataCallSettings = options;
}
if (!this.dataCallSettings["apn"]) {
debug("APN name is empty, nothing to do.");
return;
}
this.httpProxyHost = this.dataCallSettings["httpProxyHost"];
this.httpProxyPort = this.dataCallSettings["httpProxyPort"];
debug("Going to set up data connection with APN " + this.dataCallSettings["apn"]);
this.mRIL.setupDataCall(RIL.DATACALL_RADIOTECHNOLOGY_GSM,
this.dataCallSettings["apn"],
this.dataCallSettings["user"],
this.dataCallSettings["passwd"],
RIL.DATACALL_AUTH_PAP_OR_CHAP, "IP");
this.connecting = true;
},
reset: function reset() {
let apnRetryTimer;
this.connecting = false;
// We will retry the connection in increasing times
// based on the function: time = A * numer_of_retries^2 + B
if (this.apnRetryCounter >= this.NETWORK_APNRETRY_MAXRETRIES) {
this.apnRetryCounter = 0;
this.timer = null;
debug("Too many APN Connection retries - STOP retrying");
return;
}
apnRetryTimer = this.NETWORK_APNRETRY_FACTOR *
(this.apnRetryCounter * this.apnRetryCounter) +
this.NETWORK_APNRETRY_ORIGIN;
this.apnRetryCounter++;
debug("Data call - APN Connection Retry Timer (secs-counter): " +
apnRetryTimer + "-" + this.apnRetryCounter);
if (this.timer == null) {
// Event timer for connection retries
this.timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
}
this.timer.initWithCallback(this, apnRetryTimer * 1000,
Ci.nsITimer.TYPE_ONE_SHOT);
},
disconnect: function disconnect() {
if (this.state == RIL.GECKO_NETWORK_STATE_DISCONNECTING ||
this.state == RIL.GECKO_NETWORK_STATE_DISCONNECTED) {
return;
}
let reason = RIL.DATACALL_DEACTIVATE_NO_REASON;
debug("Going to disconnet data connection " + this.cid);
this.mRIL.deactivateDataCall(this.cid, reason);
},
// Entry method for timer events. Used to reconnect to a failed APN
notify: function(timer) {
this.connect();
},
shutdown: function() {
this.timer = null;
}
};
const NSGetFactory = XPCOMUtils.generateNSGetFactory([RadioInterfaceLayer]);
let debug;
if (DEBUG) {
debug = function (s) {
dump("-*- RadioInterfaceLayer: " + s + "\n");
};
} else {
debug = function (s) {};
}