gecko/dom/nfc/nsNfc.js

658 lines
20 KiB
JavaScript

/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
/* Copyright © 2013, Deutsche Telekom, Inc. */
"use strict";
const DEBUG = false;
function debug(s) {
if (DEBUG) dump("-*- Nfc DOM: " + s + "\n");
}
const Cc = Components.classes;
const Ci = Components.interfaces;
const Cu = Components.utils;
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/DOMRequestHelper.jsm");
XPCOMUtils.defineLazyServiceGetter(this,
"appsService",
"@mozilla.org/AppsService;1",
"nsIAppsService");
function NfcCallback(aWindow) {
this._window = aWindow;
this.initDOMRequestHelper(aWindow, null);
this._createPromise();
}
NfcCallback.prototype = {
__proto__: DOMRequestIpcHelper.prototype,
_window: null,
promise: null,
_requestId: null,
_createPromise: function _createPromise() {
this.promise = this.createPromise((aResolve, aReject) => {
this._requestId = btoa(this.getPromiseResolverId({
resolve: aResolve,
reject: aReject
}));
});
},
getCallbackId: function getCallbackId() {
return this._requestId;
},
notifySuccess: function notifySuccess() {
let resolver = this.takePromiseResolver(atob(this._requestId));
if (!resolver) {
debug("can not find promise resolver for id: " + this._requestId);
return;
}
resolver.resolve();
},
notifySuccessWithBoolean: function notifySuccessWithBoolean(aResult) {
let resolver = this.takePromiseResolver(atob(this._requestId));
if (!resolver) {
debug("can not find promise resolver for id: " + this._requestId);
return;
}
resolver.resolve(aResult);
},
notifySuccessWithNDEFRecords: function notifySuccessWithNDEFRecords(aRecords) {
let resolver = this.takePromiseResolver(atob(this._requestId));
if (!resolver) {
debug("can not find promise resolver for id: " + this._requestId);
return;
}
resolver.resolve(aRecords);
},
notifySuccessWithByteArray: function notifySuccessWithByteArray(aArray) {
let resolver = this.takePromiseResolver(atob(this._requestId));
if (!resolver) {
debug("can not find promise resolver for id: " + this._requestId);
return;
}
resolver.resolve(Cu.cloneInto(aArray, this._window));
},
notifyError: function notifyError(aErrorMsg) {
let resolver = this.takePromiseResolver(atob(this._requestId));
if (!resolver) {
debug("can not find promise resolver for id: " + this._requestId +
", errormsg: " + aErrorMsg);
return;
}
resolver.reject(new this._window.Error(aErrorMsg));
},
QueryInterface: XPCOMUtils.generateQI([Ci.nsISupportsWeakReference,
Ci.nsIObserver,
Ci.nsINfcRequestCallback]),
};
// Should be mapped to the NFCTagType defined in MozNFCTag.webidl.
let TagType = {
TYPE1: "Type1",
TYPE2: "Type2",
TYPE3: "Type3",
TYPE4: "Type4",
MIFARE_CLASSIC: "MIFARE-Classic"
};
/**
* Implementation of NFCTag.
*
* @param window global window object.
* @param sessionToken session token received from parent process.
* @param tagInfo type of nsITagInfo received from parent process.
* @parem ndefInfo type of nsITagNDEFInfo received from parent process.
*/
function MozNFCTagImpl(window, sessionToken, tagInfo, ndefInfo) {
debug("In MozNFCTagImpl Constructor");
this._nfcContentHelper = Cc["@mozilla.org/nfc/content-helper;1"]
.getService(Ci.nsINfcContentHelper);
this._window = window;
this.session = sessionToken;
this.techList = tagInfo.techList;
this.id = Cu.cloneInto(tagInfo.tagId, window);
if (ndefInfo) {
this.type = ndefInfo.tagType;
this.maxNDEFSize = ndefInfo.maxNDEFSize;
this.isReadOnly = ndefInfo.isReadOnly;
this.isFormatable = ndefInfo.isFormatable;
this.canBeMadeReadOnly = this.type == TagType.TYPE1 ||
this.type == TagType.TYPE2 ||
this.type == TagType.MIFARE_CLASSIC;
}
}
MozNFCTagImpl.prototype = {
_nfcContentHelper: null,
_window: null,
session: null,
techList: null,
id: null,
type: null,
maxNDEFSize: null,
isReadOnly: null,
isFormatable: null,
canBeMadeReadOnly: null,
isLost: false,
createTech: { "ISO-DEP": (win, tag) => { return new win.MozIsoDepTech(tag); }
},
// NFCTag interface:
readNDEF: function readNDEF() {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
let callback = new NfcCallback(this._window);
this._nfcContentHelper.readNDEF(this.session, callback);
return callback.promise;
},
writeNDEF: function writeNDEF(records) {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
if (this.isReadOnly) {
throw new this._window.DOMError("InvalidAccessError", "NFCTag object is read-only");
}
let ndefLen = 0;
for (let record of records) {
ndefLen += record.size;
}
if (ndefLen > this.maxNDEFSize) {
throw new this._window.DOMError("NotSupportedError", "Exceed max NDEF size");
}
let callback = new NfcCallback(this._window);
this._nfcContentHelper.writeNDEF(records, this.session, callback);
return callback.promise;
},
makeReadOnly: function makeReadOnly() {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
if (!this.canBeMadeReadOnly) {
throw new this._window.DOMError("InvalidAccessError",
"NFCTag object cannot be made read-only");
}
let callback = new NfcCallback(this._window);
this._nfcContentHelper.makeReadOnly(this.session, callback);
return callback.promise;
},
format: function format() {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
if (!this.isFormatable) {
throw new this._window.DOMError("InvalidAccessError",
"NFCTag object is not formatable");
}
let callback = new NfcCallback(this._window);
this._nfcContentHelper.format(this.session, callback);
return callback.promise;
},
selectTech: function selectTech(tech) {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
if (this.techList.indexOf(tech) == -1) {
throw new this._window.DOMError("InvalidAccessError",
"NFCTag does not contain selected tag technology");
}
if (this.createTech[tech] === undefined) {
throw new this._window.DOMError("InvalidAccessError",
"Technology is not supported now");
}
return this.createTech[tech](this._window, this._contentObj);
},
transceive: function transceive(tech, cmd) {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCTag object is invalid");
}
let callback = new NfcCallback(this._window);
this._nfcContentHelper.transceive(this.session, tech, cmd, callback);
return callback.promise;
},
notifyLost: function notifyLost() {
this.isLost = true;
},
classID: Components.ID("{4e1e2e90-3137-11e3-aa6e-0800200c9a66}"),
contractID: "@mozilla.org/nfc/tag;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISupports,
Ci.nsIDOMGlobalPropertyInitializer]),
};
/**
* Implementation of NFCPeer.
*
* @param window global window object.
* @param sessionToken session token received from parent process.
*/
function MozNFCPeerImpl(aWindow, aSessionToken) {
debug("In MozNFCPeerImpl Constructor");
this._nfcContentHelper = Cc["@mozilla.org/nfc/content-helper;1"]
.getService(Ci.nsINfcContentHelper);
this._window = aWindow;
this.session = aSessionToken;
}
MozNFCPeerImpl.prototype = {
_nfcContentHelper: null,
_window: null,
isLost: false,
// NFCPeer interface:
sendNDEF: function sendNDEF(records) {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCPeer object is invalid");
}
// Just forward sendNDEF to writeNDEF
let callback = new NfcCallback(this._window);
this._nfcContentHelper.writeNDEF(records, this.session, callback);
return callback.promise;
},
sendFile: function sendFile(blob) {
if (this.isLost) {
throw new this._window.DOMError("InvalidStateError", "NFCPeer object is invalid");
}
let data = {
"blob": blob
};
let callback = new NfcCallback(this._window);
this._nfcContentHelper.sendFile(Cu.cloneInto(data, this._window),
this.session, callback);
return callback.promise;
},
notifyLost: function notifyLost() {
this.isLost = true;
},
classID: Components.ID("{c1b2bcf0-35eb-11e3-aa6e-0800200c9a66}"),
contractID: "@mozilla.org/nfc/peer;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISupports,
Ci.nsIDOMGlobalPropertyInitializer]),
};
// Should be mapped to the RFState defined in WebIDL.
let RFState = {
IDLE: "idle",
LISTEN: "listen",
DISCOVERY: "discovery"
};
/**
* Implementation of navigator NFC object.
*/
function MozNFCImpl() {
debug("In MozNFCImpl Constructor");
try {
this._nfcContentHelper = Cc["@mozilla.org/nfc/content-helper;1"]
.getService(Ci.nsINfcContentHelper);
} catch(e) {
debug("No NFC support.");
}
this.eventService = Cc["@mozilla.org/eventlistenerservice;1"]
.getService(Ci.nsIEventListenerService);
this._nfcContentHelper.addEventListener(this);
}
MozNFCImpl.prototype = {
_nfcContentHelper: null,
_window: null,
_rfState: null,
_contentObj: null,
nfcPeer: null,
nfcTag: null,
eventService: null,
init: function init(aWindow) {
debug("MozNFCImpl init called");
this._window = aWindow;
this.defineEventHandlerGetterSetter("ontagfound");
this.defineEventHandlerGetterSetter("ontaglost");
this.defineEventHandlerGetterSetter("onpeerready");
this.defineEventHandlerGetterSetter("onpeerfound");
this.defineEventHandlerGetterSetter("onpeerlost");
if (this._nfcContentHelper) {
this._nfcContentHelper.init(aWindow);
this._rfState = this._nfcContentHelper.queryRFState();
}
},
// Only apps which have nfc-manager permission can call the following interfaces
// 'checkP2PRegistration' , 'notifyUserAcceptedP2P' , 'notifySendFileStatus',
// 'startPoll', 'stopPoll', and 'powerOff'.
checkP2PRegistration: function checkP2PRegistration(manifestUrl) {
// Get the AppID and pass it to ContentHelper
let appID = appsService.getAppLocalIdByManifestURL(manifestUrl);
let callback = new NfcCallback(this._window);
this._nfcContentHelper.checkP2PRegistration(appID, callback);
return callback.promise;
},
notifyUserAcceptedP2P: function notifyUserAcceptedP2P(manifestUrl) {
let appID = appsService.getAppLocalIdByManifestURL(manifestUrl);
// Notify chrome process of user's acknowledgement
this._nfcContentHelper.notifyUserAcceptedP2P(appID);
},
notifySendFileStatus: function notifySendFileStatus(status, requestId) {
this._nfcContentHelper.notifySendFileStatus(status, requestId);
},
startPoll: function startPoll() {
let callback = new NfcCallback(this._window);
this._nfcContentHelper.changeRFState(RFState.DISCOVERY, callback);
return callback.promise;
},
stopPoll: function stopPoll() {
let callback = new NfcCallback(this._window);
this._nfcContentHelper.changeRFState(RFState.LISTEN, callback);
return callback.promise;
},
powerOff: function powerOff() {
let callback = new NfcCallback(this._window);
this._nfcContentHelper.changeRFState(RFState.IDLE, callback);
return callback.promise;
},
get enabled() {
return this._rfState != RFState.IDLE;
},
defineEventHandlerGetterSetter: function defineEventHandlerGetterSetter(name) {
Object.defineProperty(this, name, {
get: function get() {
return this.__DOM_IMPL__.getEventHandler(name);
},
set: function set(handler) {
this.__DOM_IMPL__.setEventHandler(name, handler);
}
});
},
eventListenerWasAdded: function(eventType) {
if (eventType !== "peerready") {
return;
}
let appId = this._window.document.nodePrincipal.appId;
this._nfcContentHelper.registerTargetForPeerReady(appId);
},
eventListenerWasRemoved: function(eventType) {
if (eventType !== "peerready") {
return;
}
let appId = this._window.document.nodePrincipal.appId;
this._nfcContentHelper.unregisterTargetForPeerReady(appId);
},
notifyTagFound: function notifyTagFound(sessionToken, tagInfo, ndefInfo, records) {
if (this.hasDeadWrapper()) {
dump("this._window or this.__DOM_IMPL__ is a dead wrapper.");
return;
}
if (!this.eventService.hasListenersFor(this.__DOM_IMPL__, "tagfound")) {
debug("ontagfound is not registered.");
return;
}
if (!this.checkPermissions(["nfc"])) {
return;
}
this.eventService.addSystemEventListener(this._window, "visibilitychange",
this, /* useCapture */false);
let tagImpl = new MozNFCTagImpl(this._window, sessionToken, tagInfo, ndefInfo);
let tag = this._window.MozNFCTag._create(this._window, tagImpl);
tagImpl._contentObj = tag;
this.nfcTag = tag;
let length = records ? records.length : 0;
let ndefRecords = records ? [] : null;
for (let i = 0; i < length; i++) {
let record = records[i];
ndefRecords.push(new this._window.MozNDEFRecord({tnf: record.tnf,
type: record.type,
id: record.id,
payload: record.payload}));
}
let eventData = {
"tag": tag,
"ndefRecords": ndefRecords
};
debug("fire ontagfound " + sessionToken);
let tagEvent = new this._window.MozNFCTagEvent("tagfound", eventData);
this.__DOM_IMPL__.dispatchEvent(tagEvent);
},
notifyTagLost: function notifyTagLost(sessionToken) {
if (this.hasDeadWrapper()) {
dump("this._window or this.__DOM_IMPL__ is a dead wrapper.");
return;
}
if (!this.checkPermissions(["nfc"])) {
return;
}
if (!this.nfcTag) {
debug("No NFCTag object existing.");
return;
}
// Remove system event listener only when tag and peer are both lost.
if (!this.nfcPeer) {
this.eventService.removeSystemEventListener(this._window, "visibilitychange",
this, /* useCapture */false);
}
this.nfcTag.notifyLost();
this.nfcTag = null;
debug("fire ontaglost " + sessionToken);
let event = new this._window.Event("taglost");
this.__DOM_IMPL__.dispatchEvent(event);
},
notifyPeerFound: function notifyPeerFound(sessionToken, isPeerReady) {
if (this.hasDeadWrapper()) {
dump("this._window or this.__DOM_IMPL__ is a dead wrapper.");
return;
}
if (!isPeerReady &&
!this.eventService.hasListenersFor(this.__DOM_IMPL__, "peerfound")) {
debug("onpeerfound is not registered.");
return;
}
let perm = isPeerReady ? ["nfc-share"] : ["nfc"];
if (!this.checkPermissions(perm)) {
return;
}
this.eventService.addSystemEventListener(this._window, "visibilitychange",
this, /* useCapture */false);
let peerImpl = new MozNFCPeerImpl(this._window, sessionToken);
this.nfcPeer = this._window.MozNFCPeer._create(this._window, peerImpl);
let eventData = { "peer": this.nfcPeer };
let type = (isPeerReady) ? "peerready" : "peerfound";
debug("fire on" + type + " " + sessionToken);
let event = new this._window.MozNFCPeerEvent(type, eventData);
this.__DOM_IMPL__.dispatchEvent(event);
},
notifyPeerLost: function notifyPeerLost(sessionToken) {
if (this.hasDeadWrapper()) {
dump("this._window or this.__DOM_IMPL__ is a dead wrapper.");
return;
}
if (!this.checkPermissions(["nfc", "nfc-share"])) {
return;
}
if (!this.nfcPeer) {
debug("No NFCPeer object existing.");
return;
}
// Remove system event listener only when tag and peer are both lost.
if (!this.nfcTag) {
this.eventService.removeSystemEventListener(this._window, "visibilitychange",
this, /* useCapture */false);
}
this.nfcPeer.notifyLost();
this.nfcPeer = null;
debug("fire onpeerlost");
let event = new this._window.Event("peerlost");
this.__DOM_IMPL__.dispatchEvent(event);
},
handleEvent: function handleEvent (event) {
if (!this._window.document.hidden) {
return;
}
if (this.nfcTag) {
debug("handleEvent notifyTagLost");
this.notifyTagLost(this.nfcTag.session);
}
if (this.nfcPeer) {
debug("handleEvent notifyPeerLost");
this.notifyPeerLost(this.nfcPeer.session);
}
},
notifyRFStateChange: function notifyRFStateChange(rfState) {
this._rfState = rfState;
},
checkPermissions: function checkPermissions(perms) {
let principal = this._window.document.nodePrincipal;
for (let perm of perms) {
let permValue =
Services.perms.testExactPermissionFromPrincipal(principal, perm);
if (permValue == Ci.nsIPermissionManager.ALLOW_ACTION) {
return true;
} else {
debug("doesn't have " + perm + " permission.");
}
}
return false;
},
hasDeadWrapper: function hasDeadWrapper() {
return Cu.isDeadWrapper(this._window) || Cu.isDeadWrapper(this.__DOM_IMPL__);
},
classID: Components.ID("{6ff2b290-2573-11e3-8224-0800200c9a66}"),
contractID: "@mozilla.org/nfc/manager;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISupports,
Ci.nsIDOMGlobalPropertyInitializer,
Ci.nsINfcEventListener,
Ci.nsIDOMEventListener]),
};
function NFCSendFileWrapper() {
}
NFCSendFileWrapper.prototype = {
// nsISystemMessagesWrapper implementation.
wrapMessage: function wrapMessage(aMessage, aWindow) {
let peerImpl = new MozNFCPeerImpl(aWindow, aMessage.sessionToken);
let peer = aWindow.MozNFCPeer._create(aWindow, peerImpl);
delete aMessage.sessionToken;
aMessage = Cu.cloneInto(aMessage, aWindow);
aMessage.peer = peer;
return aMessage;
},
classDescription: "NFCSendFileWrapper",
classID: Components.ID("{c5063a5c-8cb9-41d2-baf5-56062a2e30e9}"),
contractID: "@mozilla.org/dom/system-messages/wrapper/nfc-manager-send-file;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISystemMessagesWrapper])
};
function NFCTechDiscoveredWrapper() {
}
NFCTechDiscoveredWrapper.prototype = {
// nsISystemMessagesWrapper implementation.
wrapMessage: function wrapMessage(aMessage, aWindow) {
aMessage = Cu.cloneInto(aMessage, aWindow);
if (aMessage.isP2P) {
let peerImpl = new MozNFCPeerImpl(aWindow, aMessage.sessionToken);
let peer = aWindow.MozNFCPeer._create(aWindow, peerImpl);
aMessage.peer = peer;
}
delete aMessage.isP2P;
delete aMessage.sessionToken;
return aMessage;
},
classDescription: "NFCTechDiscoveredWrapper",
classID: Components.ID("{2e7f9285-3c72-4e1f-b985-141a00a23a75}"),
contractID: "@mozilla.org/dom/system-messages/wrapper/nfc-manager-tech-discovered;1",
QueryInterface: XPCOMUtils.generateQI([Ci.nsISystemMessagesWrapper])
};
this.NSGetFactory = XPCOMUtils.generateNSGetFactory([MozNFCTagImpl,
MozNFCPeerImpl, MozNFCImpl, NFCSendFileWrapper, NFCTechDiscoveredWrapper]);