gecko/dom/telephony/gonk/TelephonyService.js

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/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* 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 {classes: Cc, interfaces: Ci, utils: Cu, results: Cr} = Components;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/Promise.jsm");
XPCOMUtils.defineLazyGetter(this, "RIL", function () {
let obj = {};
Cu.import("resource://gre/modules/ril_consts.js", obj);
return obj;
});
const GONK_TELEPHONYSERVICE_CONTRACTID =
"@mozilla.org/telephony/gonktelephonyservice;1";
const GONK_TELEPHONYSERVICE_CID =
Components.ID("{67d26434-d063-4d28-9f48-5b3189788155}");
const MOBILECALLFORWARDINGOPTIONS_CID =
Components.ID("{79b5988b-9436-48d8-a652-88fa033f146c}");
const TELEPHONYCALLINFO_CID =
Components.ID("{d9e8b358-a02c-4cf3-9fc7-816c2e8d46e4}");
const NS_XPCOM_SHUTDOWN_OBSERVER_ID = "xpcom-shutdown";
const NS_PREFBRANCH_PREFCHANGE_TOPIC_ID = "nsPref:changed";
const kPrefRilNumRadioInterfaces = "ril.numRadioInterfaces";
const kPrefRilDebuggingEnabled = "ril.debugging.enabled";
const kPrefDefaultServiceId = "dom.telephony.defaultServiceId";
const nsITelephonyAudioService = Ci.nsITelephonyAudioService;
const nsITelephonyService = Ci.nsITelephonyService;
const CALL_WAKELOCK_TIMEOUT = 5000;
// In CDMA, RIL only hold one call index. We need to fake a second call index
// in TelephonyService for 3-way calling.
const CDMA_FIRST_CALL_INDEX = 1;
const CDMA_SECOND_CALL_INDEX = 2;
const DIAL_ERROR_INVALID_STATE_ERROR = "InvalidStateError";
const DIAL_ERROR_OTHER_CONNECTION_IN_USE = "OtherConnectionInUse";
const DIAL_ERROR_BAD_NUMBER = RIL.GECKO_CALL_ERROR_BAD_NUMBER;
const TONES_GAP_DURATION = 70;
let DEBUG;
function debug(s) {
dump("TelephonyService: " + s + "\n");
}
XPCOMUtils.defineLazyServiceGetter(this, "gRadioInterfaceLayer",
"@mozilla.org/ril;1",
"nsIRadioInterfaceLayer");
XPCOMUtils.defineLazyServiceGetter(this, "gPowerManagerService",
"@mozilla.org/power/powermanagerservice;1",
"nsIPowerManagerService");
XPCOMUtils.defineLazyServiceGetter(this, "gTelephonyMessenger",
"@mozilla.org/ril/system-messenger-helper;1",
"nsITelephonyMessenger");
XPCOMUtils.defineLazyServiceGetter(this, "gAudioService",
"@mozilla.org/telephony/audio-service;1",
"nsITelephonyAudioService");
XPCOMUtils.defineLazyServiceGetter(this, "gGonkMobileConnectionService",
"@mozilla.org/mobileconnection/mobileconnectionservice;1",
"nsIGonkMobileConnectionService");
XPCOMUtils.defineLazyGetter(this, "gPhoneNumberUtils", function() {
let ns = {};
Cu.import("resource://gre/modules/PhoneNumberUtils.jsm", ns);
return ns.PhoneNumberUtils;
});
XPCOMUtils.defineLazyGetter(this, "gDialNumberUtils", function() {
let ns = {};
Cu.import("resource://gre/modules/DialNumberUtils.jsm", ns);
return ns.DialNumberUtils;
});
function MobileCallForwardingOptions(aOptions) {
for (let key in aOptions) {
this[key] = aOptions[key];
}
}
MobileCallForwardingOptions.prototype = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsIMobileCallForwardingOptions]),
classID: MOBILECALLFORWARDINGOPTIONS_CID,
classInfo: XPCOMUtils.generateCI({
classID: MOBILECALLFORWARDINGOPTIONS_CID,
classDescription: "MobileCallForwardingOptions",
interfaces: [Ci.nsIMobileCallForwardingOptions]
}),
// nsIMobileForwardingOptions
active: false,
action: Ci.nsIMobileConnection.CALL_FORWARD_ACTION_UNKNOWN,
reason: Ci.nsIMobileConnection.CALL_FORWARD_REASON_UNKNOWN,
number: null,
timeSeconds: -1,
serviceClass: Ci.nsIMobileConnection.ICC_SERVICE_CLASS_NONE
};
function TelephonyCallInfo(aCall) {
this.clientId = aCall.clientId;
this.callIndex = aCall.callIndex;
this.callState = aCall.state;
this.number = aCall.number;
this.numberPresentation = aCall.numberPresentation;
this.name = aCall.name;
this.namePresentation = aCall.namePresentation;
this.isOutgoing = aCall.isOutgoing;
this.isEmergency = aCall.isEmergency;
this.isConference = aCall.isConference;
this.isSwitchable = aCall.isSwitchable;
this.isMergeable = aCall.isMergeable;
}
TelephonyCallInfo.prototype = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsITelephonyCallInfo]),
classID: TELEPHONYCALLINFO_CID,
classInfo: XPCOMUtils.generateCI({
classID: TELEPHONYCALLINFO_CID,
classDescription: "TelephonyCallInfo",
interfaces: [Ci.nsITelephonyCallInfo]
}),
// nsITelephonyCallInfo
clientId: 0,
callIndex: 0,
callState: nsITelephonyService.CALL_STATE_UNKNOWN,
number: "",
numberPresentation: nsITelephonyService.CALL_PRESENTATION_ALLOWED,
name: "",
namePresentation: nsITelephonyService.CALL_PRESENTATION_ALLOWED,
isOutgoing: true,
isEmergency: false,
isConference: false,
isSwitchable: true,
isMergeable: true
};
function TelephonyService() {
this._numClients = gRadioInterfaceLayer.numRadioInterfaces;
this._listeners = [];
this._isDialing = false;
this._cachedDialRequest = null;
this._currentCalls = {};
this._currentConferenceState = nsITelephonyService.CALL_STATE_UNKNOWN;
this._audioStates = {};
this._cdmaCallWaitingNumber = null;
this._updateDebugFlag();
this.defaultServiceId = this._getDefaultServiceId();
Services.prefs.addObserver(kPrefRilDebuggingEnabled, this, false);
Services.prefs.addObserver(kPrefDefaultServiceId, this, false);
Services.obs.addObserver(this, NS_XPCOM_SHUTDOWN_OBSERVER_ID, false);
for (let i = 0; i < this._numClients; ++i) {
this._enumerateCallsForClient(i);
this._audioStates[i] = RIL.AUDIO_STATE_NO_CALL;
}
}
TelephonyService.prototype = {
classID: GONK_TELEPHONYSERVICE_CID,
classInfo: XPCOMUtils.generateCI({classID: GONK_TELEPHONYSERVICE_CID,
contractID: GONK_TELEPHONYSERVICE_CONTRACTID,
classDescription: "TelephonyService",
interfaces: [Ci.nsITelephonyService,
Ci.nsIGonkTelephonyService],
flags: Ci.nsIClassInfo.SINGLETON}),
QueryInterface: XPCOMUtils.generateQI([Ci.nsITelephonyService,
Ci.nsIGonkTelephonyService,
Ci.nsIObserver]),
// The following attributes/functions are used for acquiring/releasing the
// CPU wake lock when the RIL handles the incoming call. Note that we need
// a timer to bound the lock's life cycle to avoid exhausting the battery.
_callRingWakeLock: null,
_callRingWakeLockTimer: null,
_acquireCallRingWakeLock: function() {
if (!this._callRingWakeLock) {
if (DEBUG) debug("Acquiring a CPU wake lock for handling incoming call.");
this._callRingWakeLock = gPowerManagerService.newWakeLock("cpu");
}
if (!this._callRingWakeLockTimer) {
if (DEBUG) debug("Creating a timer for releasing the CPU wake lock.");
this._callRingWakeLockTimer =
Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
}
if (DEBUG) debug("Setting the timer for releasing the CPU wake lock.");
this._callRingWakeLockTimer
.initWithCallback(this._releaseCallRingWakeLock.bind(this),
CALL_WAKELOCK_TIMEOUT, Ci.nsITimer.TYPE_ONE_SHOT);
},
_releaseCallRingWakeLock: function() {
if (DEBUG) debug("Releasing the CPU wake lock for handling incoming call.");
if (this._callRingWakeLockTimer) {
this._callRingWakeLockTimer.cancel();
}
if (this._callRingWakeLock) {
this._callRingWakeLock.unlock();
this._callRingWakeLock = null;
}
},
_getClient: function(aClientId) {
return gRadioInterfaceLayer.getRadioInterface(aClientId);
},
_sendToRilWorker: function(aClientId, aType, aMessage, aCallback) {
this._getClient(aClientId).sendWorkerMessage(aType, aMessage, aCallback);
},
_isGsmTechGroup: function(aType) {
switch (aType) {
case null: // Handle unknown as gsm.
case "gsm":
case "gprs":
case "edge":
case "umts":
case "hsdpa":
case "hsupa":
case "hspa":
case "hspa+":
case "lte":
return true;
default:
return false;
}
},
_isCdmaClient: function(aClientId) {
let type = gGonkMobileConnectionService.getItemByServiceId(aClientId).voice.type;
return !this._isGsmTechGroup(type);
},
// An array of nsITelephonyListener instances.
_listeners: null,
_notifyAllListeners: function(aMethodName, aArgs) {
let listeners = this._listeners.slice();
for (let listener of listeners) {
if (this._listeners.indexOf(listener) == -1) {
// Listener has been unregistered in previous run.
continue;
}
let handler = listener[aMethodName];
try {
handler.apply(listener, aArgs);
} catch (e) {
debug("listener for " + aMethodName + " threw an exception: " + e);
}
}
},
_updateAudioState: function(aAudioState) {
switch (aAudioState) {
case RIL.AUDIO_STATE_NO_CALL:
gAudioService.setPhoneState(nsITelephonyAudioService.PHONE_STATE_NORMAL);
break;
case RIL.AUDIO_STATE_INCOMING:
gAudioService.setPhoneState(nsITelephonyAudioService.PHONE_STATE_RINGTONE);
break;
case RIL.AUDIO_STATE_IN_CALL:
gAudioService.setPhoneState(nsITelephonyAudioService.PHONE_STATE_IN_CALL);
break;
}
},
_convertRILCallState: function(aState) {
switch (aState) {
case RIL.CALL_STATE_UNKNOWN:
return nsITelephonyService.CALL_STATE_UNKNOWN;
case RIL.CALL_STATE_ACTIVE:
return nsITelephonyService.CALL_STATE_CONNECTED;
case RIL.CALL_STATE_HOLDING:
return nsITelephonyService.CALL_STATE_HELD;
case RIL.CALL_STATE_DIALING:
return nsITelephonyService.CALL_STATE_DIALING;
case RIL.CALL_STATE_ALERTING:
return nsITelephonyService.CALL_STATE_ALERTING;
case RIL.CALL_STATE_INCOMING:
case RIL.CALL_STATE_WAITING:
return nsITelephonyService.CALL_STATE_INCOMING;
default:
throw new Error("Unknown rilCallState: " + aState);
}
},
_convertRILSuppSvcNotification: function(aNotification) {
switch (aNotification) {
case RIL.GECKO_SUPP_SVC_NOTIFICATION_REMOTE_HELD:
return nsITelephonyService.NOTIFICATION_REMOTE_HELD;
case RIL.GECKO_SUPP_SVC_NOTIFICATION_REMOTE_RESUMED:
return nsITelephonyService.NOTIFICATION_REMOTE_RESUMED;
default:
if (DEBUG) {
debug("Unknown rilSuppSvcNotification: " + aNotification);
}
return;
}
},
_rulesToCallForwardingOptions: function(aRules) {
return aRules.map(rule => new MobileCallForwardingOptions(rule));
},
_updateDebugFlag: function() {
try {
DEBUG = RIL.DEBUG_RIL ||
Services.prefs.getBoolPref(kPrefRilDebuggingEnabled);
} catch (e) {}
},
_getDefaultServiceId: function() {
let id = Services.prefs.getIntPref(kPrefDefaultServiceId);
let numRil = Services.prefs.getIntPref(kPrefRilNumRadioInterfaces);
if (id >= numRil || id < 0) {
id = 0;
}
return id;
},
_currentCalls: null,
_enumerateCallsForClient: function(aClientId) {
if (DEBUG) debug("Enumeration of calls for client " + aClientId);
this._sendToRilWorker(aClientId, "enumerateCalls", null, response => {
if (!this._currentCalls[aClientId]) {
this._currentCalls[aClientId] = {};
}
for (let call of response.calls) {
call.clientId = aClientId;
call.state = this._convertRILCallState(call.state);
call.isSwitchable = true;
call.isMergeable = true;
this._currentCalls[aClientId][call.callIndex] = call;
}
});
},
/**
* Checks whether to temporarily suppress caller id for the call.
*
* @param aMmi
* MMI full object.
*/
_isTemporaryCLIR: function(aMmi) {
return (aMmi && aMmi.serviceCode === RIL.MMI_SC_CLIR) && aMmi.dialNumber;
},
/**
* Map MMI procedure to CLIR MODE.
*
* @param aProcedure
* MMI procedure
*/
_getTemporaryCLIRMode: function(aProcedure) {
// In temporary mode, MMI_PROCEDURE_ACTIVATION means allowing CLI
// presentation, i.e. CLIR_SUPPRESSION. See TS 22.030, Annex B.
switch (aProcedure) {
case RIL.MMI_PROCEDURE_ACTIVATION:
return RIL.CLIR_SUPPRESSION;
case RIL.MMI_PROCEDURE_DEACTIVATION:
return RIL.CLIR_INVOCATION;
default:
return RIL.CLIR_DEFAULT;
}
},
/**
* nsITelephonyService interface.
*/
defaultServiceId: 0,
registerListener: function(aListener) {
if (this._listeners.indexOf(aListener) >= 0) {
throw Cr.NS_ERROR_UNEXPECTED;
}
this._listeners.push(aListener);
},
unregisterListener: function(aListener) {
let index = this._listeners.indexOf(aListener);
if (index < 0) {
throw Cr.NS_ERROR_UNEXPECTED;
}
this._listeners.splice(index, 1);
},
enumerateCalls: function(aListener) {
if (DEBUG) debug("Requesting enumeration of calls for callback");
for (let cid = 0; cid < this._numClients; ++cid) {
let calls = this._currentCalls[cid];
if (!calls) {
continue;
}
for (let i = 0, indexes = Object.keys(calls); i < indexes.length; ++i) {
let call = calls[indexes[i]];
let callInfo = new TelephonyCallInfo(call);
aListener.enumerateCallState(callInfo);
}
}
aListener.enumerateCallStateComplete();
},
_hasCalls: function(aClientId) {
return Object.keys(this._currentCalls[aClientId]).length !== 0;
},
_hasCallsOnOtherClient: function(aClientId) {
for (let cid = 0; cid < this._numClients; ++cid) {
if (cid !== aClientId && this._hasCalls(cid)) {
return true;
}
}
return false;
},
// All calls in the conference is regarded as one conference call.
_numCallsOnLine: function(aClientId) {
let numCalls = 0;
let hasConference = false;
for (let cid in this._currentCalls[aClientId]) {
let call = this._currentCalls[aClientId][cid];
if (call.isConference) {
hasConference = true;
} else {
numCalls++;
}
}
return hasConference ? numCalls + 1 : numCalls;
},
/**
* Get arbitrary one of active call.
*/
_getOneActiveCall: function(aClientId) {
for (let index in this._currentCalls[aClientId]) {
let call = this._currentCalls[aClientId][index];
if (call.state === nsITelephonyService.CALL_STATE_CONNECTED) {
return call;
}
}
return null;
},
_addCdmaChildCall: function(aClientId, aNumber) {
let childCall = {
callIndex: CDMA_SECOND_CALL_INDEX,
state: RIL.CALL_STATE_DIALING,
number: aNumber,
isOutgoing: true,
isEmergency: false,
isConference: false,
isSwitchable: false,
isMergeable: true,
parentId: CDMA_FIRST_CALL_INDEX
};
// Manual update call state according to the request response.
this.notifyCallStateChanged(aClientId, childCall);
childCall.state = RIL.CALL_STATE_ACTIVE;
this.notifyCallStateChanged(aClientId, childCall);
let parentCall = this._currentCalls[aClientId][childCall.parentId];
parentCall.childId = CDMA_SECOND_CALL_INDEX;
parentCall.state = RIL.CALL_STATE_HOLDING;
parentCall.isSwitchable = false;
parentCall.isMergeable = true;
this.notifyCallStateChanged(aClientId, parentCall);
},
dial: function(aClientId, aNumber, aIsDialEmergency, aCallback) {
if (DEBUG) debug("Dialing " + (aIsDialEmergency ? "emergency " : "") + aNumber);
// We don't try to be too clever here, as the phone is probably in the
// locked state. Let's just check if it's a number without normalizing
if (!aIsDialEmergency) {
aNumber = gPhoneNumberUtils.normalize(aNumber);
}
// Validate the number.
// Note: isPlainPhoneNumber also accepts USSD and SS numbers
if (!gPhoneNumberUtils.isPlainPhoneNumber(aNumber)) {
if (DEBUG) debug("Error: Number '" + aNumber + "' is not viable. Drop.");
aCallback.notifyError(DIAL_ERROR_BAD_NUMBER);
return;
}
if (this._hasCalls(aClientId)) {
// 3GPP TS 22.030 6.5.5
// Handling of supplementary services within a call.
let mmiCallback = response => {
aCallback.notifyDialMMI(RIL.MMI_KS_SC_CALL);
if (!response.success) {
aCallback.notifyDialMMIError(RIL.MMI_ERROR_KS_ERROR);
} else {
aCallback.notifyDialMMISuccess(RIL.MMI_SM_KS_CALL_CONTROL);
}
};
if (aNumber === "0") {
this._sendToRilWorker(aClientId, "hangUpBackground", null, mmiCallback);
} else if (aNumber === "1") {
this._sendToRilWorker(aClientId, "hangUpForeground", null, mmiCallback);
} else if (aNumber[0] === "1" && aNumber.length === 2) {
this._sendToRilWorker(aClientId, "hangUpCall",
{ callIndex: parseInt(aNumber[1]) }, mmiCallback);
} else if (aNumber === "2") {
this._sendToRilWorker(aClientId, "switchActiveCall", null, mmiCallback);
} else if (aNumber[0] === "2" && aNumber.length === 2) {
this._sendToRilWorker(aClientId, "separateCall",
{ callIndex: parseInt(aNumber[1]) }, mmiCallback);
} else if (aNumber === "3") {
this._sendToRilWorker(aClientId, "conferenceCall", null, mmiCallback);
} else {
// Entering "Directory Number"
this._dialCall(aClientId,
{ number: aNumber,
isDialEmergency: aIsDialEmergency }, aCallback);
}
} else {
let mmi = gDialNumberUtils.parseMMI(aNumber);
if (!mmi) {
this._dialCall(aClientId,
{ number: aNumber,
isDialEmergency: aIsDialEmergency }, aCallback);
} else if (this._isTemporaryCLIR(mmi)) {
this._dialCall(aClientId,
{ number: mmi.dialNumber,
clirMode: this._getTemporaryCLIRMode(mmi.procedure),
isDialEmergency: aIsDialEmergency }, aCallback);
} else {
// Reject MMI code from dialEmergency api.
if (aIsDialEmergency) {
aCallback.notifyError(DIAL_ERROR_BAD_NUMBER);
return;
}
this._dialMMI(aClientId, mmi, aCallback);
}
}
},
/**
* @param aOptions.number
* @param aOptions.clirMode (optional)
* @param aOptions.isDialEmergency
*/
_dialCall: function(aClientId, aOptions, aCallback) {
if (this._isDialing) {
if (DEBUG) debug("Error: Already has a dialing call.");
aCallback.notifyError(DIAL_ERROR_INVALID_STATE_ERROR);
return;
}
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// We can only have at most two calls on the same line (client).
if (this._numCallsOnLine(aClientId) >= 2) {
if (DEBUG) debug("Error: Already has more than 2 calls on line.");
aCallback.notifyError(DIAL_ERROR_INVALID_STATE_ERROR);
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return;
}
// For DSDS, if there is aleady a call on SIM 'aClientId', we cannot place
// any new call on other SIM.
if (this._hasCallsOnOtherClient(aClientId)) {
if (DEBUG) debug("Error: Already has a call on other sim.");
aCallback.notifyError(DIAL_ERROR_OTHER_CONNECTION_IN_USE);
return;
}
aOptions.isEmergency = gDialNumberUtils.isEmergency(aOptions.number);
if (aOptions.isEmergency) {
// Automatically select a proper clientId for emergency call.
aClientId = gRadioInterfaceLayer.getClientIdForEmergencyCall() ;
if (aClientId === -1) {
if (DEBUG) debug("Error: No client is avaialble for emergency call.");
aCallback.notifyError(DIAL_ERROR_INVALID_STATE_ERROR);
return;
}
}
// If there is no active call, we can dial a new call directly.
let activeCall = this._getOneActiveCall(aClientId);
if (!activeCall) {
this._sendDialCallRequest(aClientId, aOptions, aCallback);
return;
}
// Otherwise, we should hold the active call before dialing another one.
if (DEBUG) debug("There is an active call. Hold it first before dial.");
if (this._cachedDialRequest) {
if (DEBUG) debug("Error: There already is a pending dial request.");
aCallback.notifyError(DIAL_ERROR_INVALID_STATE_ERROR);
return;
}
let autoHoldCallback = {
QueryInterface: XPCOMUtils.generateQI([Ci.nsITelephonyCallback]),
notifySuccess: () => {
this._cachedDialRequest = {
clientId: aClientId,
options: aOptions,
callback: aCallback
};
},
notifyError: (aErrorMsg) => {
if (DEBUG) debug("Error: Fail to automatically hold the active call.");
aCallback.notifyError(aErrorMsg);
}
};
if (activeCall.isConference) {
this.holdConference(aClientId, autoHoldCallback);
} else {
this.holdCall(aClientId, activeCall.callIndex, autoHoldCallback);
}
},
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_sendDialCallRequest: function(aClientId, aOptions, aCallback) {
this._isDialing = true;
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this._sendToRilWorker(aClientId, "dial", aOptions, response => {
this._isDialing = false;
if (!response.success) {
aCallback.notifyError(response.errorMsg);
return;
}
let currentCdmaCallIndex = !response.isCdma ? null :
Object.keys(this._currentCalls[aClientId])[0];
if (currentCdmaCallIndex == null) {
aCallback.notifyDialCallSuccess(aClientId, response.callIndex,
response.number);
} else {
// RIL doesn't hold the 2nd call. We create one by ourselves.
aCallback.notifyDialCallSuccess(aClientId, CDMA_SECOND_CALL_INDEX,
response.number);
this._addCdmaChildCall(aClientId, response.number);
}
});
},
/**
* @param aClientId
* Client id.
* @param aMmi
* Parsed MMI structure.
* @param aCallback
* A nsITelephonyDialCallback object.
* @param aStartNewSession
* True to start a new session for ussd request.
*/
_dialMMI: function(aClientId, aMmi, aCallback) {
let mmiServiceCode = aMmi ?
this._serviceCodeToKeyString(aMmi.serviceCode) : RIL.MMI_KS_SC_USSD;
aCallback.notifyDialMMI(mmiServiceCode);
this._sendToRilWorker(aClientId, "sendMMI",
{ mmi: aMmi }, response => {
if (DEBUG) debug("MMI response: " + JSON.stringify(response));
if (!response.success) {
if (response.additionalInformation != null) {
aCallback.notifyDialMMIErrorWithInfo(response.errorMsg,
response.additionalInformation);
} else {
aCallback.notifyDialMMIError(response.errorMsg);
}
return;
}
// We expect to have an IMEI at this point if the request was supposed
// to query for the IMEI, so getting a successful reply from the RIL
// without containing an actual IMEI number is considered an error.
if (mmiServiceCode === RIL.MMI_KS_SC_IMEI &&
!response.statusMessage) {
aCallback.notifyDialMMIError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
// MMI query call forwarding options request returns a set of rules that
// will be exposed in the form of an array of MozCallForwardingOptions
// instances.
if (mmiServiceCode === RIL.MMI_KS_SC_CALL_FORWARDING) {
if (response.isSetCallForward) {
gGonkMobileConnectionService.notifyCFStateChanged(aClientId,
response.action,
response.reason,
response.number,
response.timeSeconds,
response.serviceClass);
}
if (response.additionalInformation != null) {
let callForwardingOptions =
this._rulesToCallForwardingOptions(response.additionalInformation);
aCallback.notifyDialMMISuccessWithCallForwardingOptions(
response.statusMessage, callForwardingOptions.length, callForwardingOptions);
return;
}
}
// No additional information
if (response.additionalInformation === undefined) {
aCallback.notifyDialMMISuccess(response.statusMessage);
return;
}
// Additional information is an integer.
if (!isNaN(parseInt(response.additionalInformation, 10))) {
aCallback.notifyDialMMISuccessWithInteger(
response.statusMessage, response.additionalInformation);
return;
}
// Additional information is an array of strings.
let array = response.additionalInformation;
if (Array.isArray(array) && array.length > 0 && typeof array[0] === "string") {
aCallback.notifyDialMMISuccessWithStrings(response.statusMessage,
array.length, array);
return;
}
aCallback.notifyDialMMISuccess(response.statusMessage);
});
},
_serviceCodeToKeyString: function(aServiceCode) {
switch (aServiceCode) {
case RIL.MMI_SC_CFU:
case RIL.MMI_SC_CF_BUSY:
case RIL.MMI_SC_CF_NO_REPLY:
case RIL.MMI_SC_CF_NOT_REACHABLE:
case RIL.MMI_SC_CF_ALL:
case RIL.MMI_SC_CF_ALL_CONDITIONAL:
return RIL.MMI_KS_SC_CALL_FORWARDING;
case RIL.MMI_SC_PIN:
return RIL.MMI_KS_SC_PIN;
case RIL.MMI_SC_PIN2:
return RIL.MMI_KS_SC_PIN2;
case RIL.MMI_SC_PUK:
return RIL.MMI_KS_SC_PUK;
case RIL.MMI_SC_PUK2:
return RIL.MMI_KS_SC_PUK2;
case RIL.MMI_SC_IMEI:
return RIL.MMI_KS_SC_IMEI;
case RIL.MMI_SC_CLIP:
return RIL.MMI_KS_SC_CLIP;
case RIL.MMI_SC_CLIR:
return RIL.MMI_KS_SC_CLIR;
case RIL.MMI_SC_BAOC:
case RIL.MMI_SC_BAOIC:
case RIL.MMI_SC_BAOICxH:
case RIL.MMI_SC_BAIC:
case RIL.MMI_SC_BAICr:
case RIL.MMI_SC_BA_ALL:
case RIL.MMI_SC_BA_MO:
case RIL.MMI_SC_BA_MT:
return RIL.MMI_KS_SC_CALL_BARRING;
case RIL.MMI_SC_CALL_WAITING:
return RIL.MMI_KS_SC_CALL_WAITING;
case RIL.MMI_SC_CHANGE_PASSWORD:
return RIL.MMI_KS_SC_CHANGE_PASSWORD;
default:
return RIL.MMI_KS_SC_USSD;
}
},
/**
* The default callback handler for call operations.
*
* @param aCallback
* An callback object including notifySuccess() and notifyError(aMsg)
* @param aResponse
* The response from ril_worker.
*/
_defaultCallbackHandler: function(aCallback, aResponse) {
if (!aResponse.success) {
aCallback.notifyError(aResponse.errorMsg);
} else {
aCallback.notifySuccess();
}
},
sendTones: function(aClientId, aDtmfChars, aPauseDuration, aToneDuration,
aCallback) {
let timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
let tones = aDtmfChars;
let playTone = (tone) => {
this._sendToRilWorker(aClientId, "startTone", { dtmfChar: tone }, response => {
if (!response.success) {
aCallback.notifyError(response.errorMsg);
return;
}
timer.initWithCallback(() => {
this.stopTone();
timer.initWithCallback(() => {
if (tones.length === 1) {
aCallback.notifySuccess();
} else {
tones = tones.substr(1);
playTone(tones[0]);
}
}, TONES_GAP_DURATION, Ci.nsITimer.TYPE_ONE_SHOT);
}, aToneDuration, Ci.nsITimer.TYPE_ONE_SHOT);
});
};
timer.initWithCallback(() => {
playTone(tones[0]);
}, aPauseDuration, Ci.nsITimer.TYPE_ONE_SHOT);
},
startTone: function(aClientId, aDtmfChar) {
this._sendToRilWorker(aClientId, "startTone", { dtmfChar: aDtmfChar });
},
stopTone: function(aClientId) {
this._sendToRilWorker(aClientId, "stopTone");
},
answerCall: function(aClientId, aCallIndex, aCallback) {
this._sendToRilWorker(aClientId, "answerCall", { callIndex: aCallIndex },
this._defaultCallbackHandler.bind(this, aCallback));
},
rejectCall: function(aClientId, aCallIndex, aCallback) {
this._sendToRilWorker(aClientId, "rejectCall", { callIndex: aCallIndex },
this._defaultCallbackHandler.bind(this, aCallback));
},
hangUpCall: function(aClientId, aCallIndex, aCallback) {
// Should release both, child and parent, together. Since RIL holds only
// the parent call, we send 'parentId' to RIL.
aCallIndex = this._currentCalls[aClientId][aCallIndex].parentId || aCallIndex;
this._sendToRilWorker(aClientId, "hangUpCall", { callIndex: aCallIndex },
this._defaultCallbackHandler.bind(this, aCallback));
},
_switchCall: function(aClientId, aCallIndex, aCallback, aRequiredState) {
let call = this._currentCalls[aClientId][aCallIndex];
if (!call) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
if (this._isCdmaClient(aClientId)) {
this._switchCallCdma(aClientId, aCallIndex, aCallback);
} else {
this._switchCallGsm(aClientId, aCallIndex, aCallback, aRequiredState);
}
},
_switchCallGsm: function(aClientId, aCallIndex, aCallback, aRequiredState) {
let call = this._currentCalls[aClientId][aCallIndex];
if (call.state != aRequiredState) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
this._sendToRilWorker(aClientId, "switchActiveCall", null,
this._defaultCallbackHandler.bind(this, aCallback));
},
_switchCallCdma: function(aClientId, aCallIndex, aCallback) {
let call = this._currentCalls[aClientId][aCallIndex];
if (!call.isSwitchable) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
this._sendToRilWorker(aClientId, "cdmaFlash", null,
this._defaultCallbackHandler.bind(this, aCallback));
},
holdCall: function(aClientId, aCallIndex, aCallback) {
this._switchCall(aClientId, aCallIndex, aCallback,
nsITelephonyService.CALL_STATE_CONNECTED);
},
resumeCall: function(aClientId, aCallIndex, aCallback) {
this._switchCall(aClientId, aCallIndex, aCallback,
nsITelephonyService.CALL_STATE_HELD);
},
_conferenceCallGsm: function(aClientId, aCallback) {
this._sendToRilWorker(aClientId, "conferenceCall", null, response => {
if (!response.success) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
// TODO: Bug 1124993. Deprecate it. Use callback response is enough.
this._notifyAllListeners("notifyConferenceError",
["addError", response.errorMsg]);
return;
}
aCallback.notifySuccess();
});
},
_conferenceCallCdma: function(aClientId, aCallback) {
for (let index in this._currentCalls[aClientId]) {
let call = this._currentCalls[aClientId][index];
if (!call.isMergeable) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
}
this._sendToRilWorker(aClientId, "cdmaFlash", null, response => {
if (!response.success) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
// TODO: Bug 1124993. Deprecate it. Use callback response is enough.
this._notifyAllListeners("notifyConferenceError",
["addError", response.errorMsg]);
return;
}
for (let index in this._currentCalls[aClientId]) {
let call = this._currentCalls[aClientId][index];
call.state = RIL.CALL_STATE_ACTIVE;
call.isConference = true;
this.notifyCallStateChanged(aClientId, call);
}
this.notifyConferenceCallStateChanged(RIL.CALL_STATE_ACTIVE);
aCallback.notifySuccess();
});
},
conferenceCall: function(aClientId, aCallback) {
if (Object.keys(this._currentCalls[aClientId]).length < 2) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
if (this._isCdmaClient(aClientId)) {
this._conferenceCallCdma(aClientId, aCallback);
} else {
this._conferenceCallGsm(aClientId, aCallback);
}
},
_separateCallGsm: function(aClientId, aCallIndex, aCallback) {
this._sendToRilWorker(aClientId, "separateCall", { callIndex: aCallIndex },
response => {
if (!response.success) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
// TODO: Bug 1124993. Deprecate it. Use callback response is enough.
this._notifyAllListeners("notifyConferenceError",
["removeError", response.errorMsg]);
return;
}
aCallback.notifySuccess();
});
},
// See 3gpp2, S.R0006-522-A v1.0. Table 4, XID 6S.
// Release the third party. Optionally apply a warning tone. Connect the
// controlling subscriber and the second party. Go to the 2-way state.
_separateCallCdma: function(aClientId, aCallIndex, aCallback) {
this._sendToRilWorker(aClientId, "cdmaFlash", null, response => {
if (!response.success) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
// TODO: Bug 1124993. Deprecate it. Use callback response is enough.
this._notifyAllListeners("notifyConferenceError",
["removeError", response.errorMsg]);
return;
}
let childCall = this._currentCalls[aClientId][CDMA_SECOND_CALL_INDEX];
this.notifyCallDisconnected(aClientId, childCall);
aCallback.notifySuccess();
});
},
separateCall: function(aClientId, aCallIndex, aCallback) {
let call = this._currentCalls[aClientId][aCallIndex];
if (!call || !call.isConference) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
if (this._isCdmaClient(aClientId)) {
this._separateCallCdma(aClientId, aCallIndex, aCallback);
} else {
this._separateCallGsm(aClientId, aCallIndex, aCallback);
}
},
hangUpConference: function(aClientId, aCallback) {
// In cdma, ril only maintains one call index.
if (this._isCdmaClient(aClientId)) {
this._sendToRilWorker(aClientId, "hangUpCall",
{ callIndex: CDMA_FIRST_CALL_INDEX },
this._defaultCallbackHandler.bind(this, aCallback));
return;
}
let foreground = this._currentConferenceState == nsITelephonyService.CALL_STATE_CONNECTED;
this._sendToRilWorker(aClientId,
foreground ? "hangUpForeground" : "hangUpBackground",
null,
this._defaultCallbackHandler.bind(this, aCallback));
},
_switchConference: function(aClientId, aCallback) {
// Cannot hold/resume a conference in cdma.
if (this._isCdmaClient(aClientId)) {
aCallback.notifyError(RIL.GECKO_ERROR_GENERIC_FAILURE);
return;
}
this._sendToRilWorker(aClientId, "switchActiveCall", null,
this._defaultCallbackHandler.bind(this, aCallback));
},
holdConference: function(aClientId, aCallback) {
this._switchConference(aClientId, aCallback);
},
resumeConference: function(aClientId, aCallback) {
this._switchConference(aClientId, aCallback);
},
sendUSSD: function(aClientId, aUssd, aCallback) {
this._sendToRilWorker(aClientId, "sendUSSD", { ussd: aUssd },
this._defaultCallbackHandler.bind(this, aCallback));
},
cancelUSSD: function(aClientId, aCallback) {
this._sendToRilWorker(aClientId, "cancelUSSD", {},
this._defaultCallbackHandler.bind(this, aCallback));
},
get microphoneMuted() {
return gAudioService.microphoneMuted;
},
set microphoneMuted(aMuted) {
gAudioService.microphoneMuted = aMuted;
},
get speakerEnabled() {
return gAudioService.speakerEnabled;
},
set speakerEnabled(aEnabled) {
gAudioService.speakerEnabled = aEnabled;
},
/**
* nsIGonkTelephonyService interface.
*/
notifyAudioStateChanged: function(aClientId, aState) {
this._audioStates[aClientId] = aState;
let audioState = aState;
for (let i = 0; i < this._numClients; ++i) {
audioState = Math.max(audioState, this._audioStates[i]);
}
this._updateAudioState(audioState);
},
/**
* Handle call disconnects by updating our current state and the audio system.
*/
notifyCallDisconnected: function(aClientId, aCall) {
if (DEBUG) debug("handleCallDisconnected: " + JSON.stringify(aCall));
aCall.clientId = aClientId;
aCall.state = nsITelephonyService.CALL_STATE_DISCONNECTED;
aCall.isEmergency = gDialNumberUtils.isEmergency(aCall.number);
let duration = ("started" in aCall && typeof aCall.started == "number") ?
new Date().getTime() - aCall.started : 0;
gTelephonyMessenger.notifyCallEnded(aClientId,
aCall.number,
this._cdmaCallWaitingNumber,
aCall.isEmergency,
duration,
aCall.isOutgoing,
aCall.hangUpLocal);
// Clear cache of this._cdmaCallWaitingNumber after call disconnected.
this._cdmaCallWaitingNumber = null;
let manualConfStateChange = false;
let childId = this._currentCalls[aClientId][aCall.callIndex].childId;
if (childId) {
// Child cannot live without parent.
let childCall = this._currentCalls[aClientId][childId];
this.notifyCallDisconnected(aClientId, childCall);
} else {
let parentId = this._currentCalls[aClientId][aCall.callIndex].parentId;
if (parentId) {
let parentCall = this._currentCalls[aClientId][parentId];
// The child is going to be released.
delete parentCall.childId;
if (parentCall.isConference) {
// As the child is going to be gone, the parent should be moved out
// of conference accordingly.
manualConfStateChange = true;
parentCall.isConference = false;
parentCall.isSwitchable = true;
parentCall.isMergeable = true;
aCall.isConference = false;
this.notifyCallStateChanged(aClientId, parentCall, true);
}
}
}
if (!aCall.failCause ||
aCall.failCause === RIL.GECKO_CALL_ERROR_NORMAL_CALL_CLEARING) {
let callInfo = new TelephonyCallInfo(aCall);
this._notifyAllListeners("callStateChanged", [callInfo]);
} else {
this._notifyAllListeners("notifyError",
[aClientId, aCall.callIndex, aCall.failCause]);
}
delete this._currentCalls[aClientId][aCall.callIndex];
if (manualConfStateChange) {
this.notifyConferenceCallStateChanged(RIL.CALL_STATE_UNKNOWN);
}
},
/**
* Handle an incoming call.
*
* Not much is known about this call at this point, but it's enough
* to start bringing up the Phone app already.
*/
notifyCallRing: function() {
// We need to acquire a CPU wake lock to avoid the system falling into
// the sleep mode when the RIL handles the incoming call.
this._acquireCallRingWakeLock();
gTelephonyMessenger.notifyNewCall();
},
/**
* Handle call state changes by updating our current state and the audio
* system.
*/
notifyCallStateChanged: function(aClientId, aCall, aSkipStateConversion) {
if (DEBUG) debug("handleCallStateChange: " + JSON.stringify(aCall));
if (!aSkipStateConversion) {
aCall.state = this._convertRILCallState(aCall.state);
}
if (aCall.state == nsITelephonyService.CALL_STATE_DIALING) {
gTelephonyMessenger.notifyNewCall();
}
aCall.clientId = aClientId;
function pick(arg, defaultValue) {
return typeof arg !== 'undefined' ? arg : defaultValue;
}
let call = this._currentCalls[aClientId][aCall.callIndex];
if (call) {
call.state = aCall.state;
call.number = aCall.number;
call.isConference = aCall.isConference;
call.isEmergency = gDialNumberUtils.isEmergency(aCall.number);
call.isSwitchable = pick(aCall.isSwitchable, call.isSwitchable);
call.isMergeable = pick(aCall.isMergeable, call.isMergeable);
} else {
call = aCall;
call.isEmergency = pick(aCall.isEmergency, gDialNumberUtils.isEmergency(aCall.number));
call.isSwitchable = pick(aCall.isSwitchable, true);
call.isMergeable = pick(aCall.isMergeable, true);
call.name = pick(aCall.name, "");
call.numberPresentaation = pick(aCall.numberPresentation, nsITelephonyService.CALL_PRESENTATION_ALLOWED);
call.namePresentaation = pick(aCall.namePresentation, nsITelephonyService.CALL_PRESENTATION_ALLOWED);
this._currentCalls[aClientId][aCall.callIndex] = call;
}
// Handle cached dial request.
if (this._cachedDialRequest && !this._getOneActiveCall(aClientId)) {
if (DEBUG) debug("All calls held. Perform the cached dial request.");
let request = this._cachedDialRequest;
this._sendDialCallRequest(request.clientId, request.options, request.callback);
this._cachedDialRequest = null;
}
let callInfo = new TelephonyCallInfo(call);
this._notifyAllListeners("callStateChanged", [callInfo]);
},
notifyCdmaCallWaiting: function(aClientId, aCall) {
// We need to acquire a CPU wake lock to avoid the system falling into
// the sleep mode when the RIL handles the incoming call.
this._acquireCallRingWakeLock();
let call = this._currentCalls[aClientId][CDMA_SECOND_CALL_INDEX];
if (call) {
// TODO: Bug 977503 - B2G RIL: [CDMA] update callNumber when a waiting
// call comes after a 3way call.
this.notifyCallDisconnected(aClientId, call);
}
this._cdmaCallWaitingNumber = aCall.number;
this._notifyAllListeners("notifyCdmaCallWaiting", [aClientId,
aCall.number,
aCall.numberPresentation,
aCall.name,
aCall.namePresentation]);
},
notifySupplementaryService: function(aClientId, aCallIndex, aNotification) {
let notification = this._convertRILSuppSvcNotification(aNotification);
this._notifyAllListeners("supplementaryServiceNotification",
[aClientId, aCallIndex, notification]);
},
notifyConferenceCallStateChanged: function(aState) {
if (DEBUG) debug("handleConferenceCallStateChanged: " + aState);
this._currentConferenceState = this._convertRILCallState(aState);
this._notifyAllListeners("conferenceCallStateChanged",
[this._currentConferenceState]);
},
notifyUssdReceived: function(aClientId, aMessage, aSessionEnded) {
if (DEBUG) {
debug("notifyUssdReceived for " + aClientId + ": " +
aMessage + " (sessionEnded : " + aSessionEnded + ")");
}
gTelephonyMessenger.notifyUssdReceived(aClientId, aMessage, aSessionEnded);
},
/**
* nsIObserver interface.
*/
observe: function(aSubject, aTopic, aData) {
switch (aTopic) {
case NS_PREFBRANCH_PREFCHANGE_TOPIC_ID:
if (aData === kPrefRilDebuggingEnabled) {
this._updateDebugFlag();
} else if (aData === kPrefDefaultServiceId) {
this.defaultServiceId = this._getDefaultServiceId();
}
break;
case NS_XPCOM_SHUTDOWN_OBSERVER_ID:
// Release the CPU wake lock for handling the incoming call.
this._releaseCallRingWakeLock();
Services.obs.removeObserver(this, NS_XPCOM_SHUTDOWN_OBSERVER_ID);
break;
}
}
};
/**
* This implements nsISystemMessagesWrapper.wrapMessage(), which provides a
* plugable way to wrap a "ussd-received" type system message.
*
* Please see SystemMessageManager.js to know how it customizes the wrapper.
*/
function USSDReceivedWrapper() {
if (DEBUG) debug("USSDReceivedWrapper()");
}
USSDReceivedWrapper.prototype = {
// nsISystemMessagesWrapper implementation.
wrapMessage: function(aMessage, aWindow) {
if (DEBUG) debug("wrapMessage: " + JSON.stringify(aMessage));
let session = aMessage.sessionEnded ? null :
new aWindow.USSDSession(aMessage.serviceId);
let event = new aWindow.USSDReceivedEvent("ussdreceived", {
serviceId: aMessage.serviceId,
message: aMessage.message,
session: session
});
return event;
},
classDescription: "USSDReceivedWrapper",
classID: Components.ID("{d03684ed-ede4-4210-8206-f4f32772d9f5}"),
contractID: "@mozilla.org/dom/system-messages/wrapper/ussd-received;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISystemMessagesWrapper])
};
this.NSGetFactory = XPCOMUtils.generateNSGetFactory([TelephonyService,
USSDReceivedWrapper]);