/* -*- 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, results: Cr, utils: Cu } = Components; Cu.import('resource://gre/modules/XPCOMUtils.jsm'); Cu.import('resource://gre/modules/Services.jsm'); XPCOMUtils.defineLazyServiceGetter(this, "gSysMsgr", "@mozilla.org/system-message-internal;1", "nsISystemMessagesInternal"); const DEBUG = false; // set to true to show debug messages const kCAPTIVEPORTALDETECTOR_CONTRACTID = '@mozilla.org/toolkit/captive-detector;1'; const kCAPTIVEPORTALDETECTOR_CID = Components.ID('{d9cd00ba-aa4d-47b1-8792-b1fe0cd35060}'); const kOpenCaptivePortalLoginEvent = 'captive-portal-login'; const kAbortCaptivePortalLoginEvent = 'captive-portal-login-abort'; const kCaptivePortalLoginSuccessEvent = 'captive-portal-login-success'; const kCaptivePortalCheckComplete = 'captive-portal-check-complete'; const kCaptivePortalSystemMessage = 'captive-portal'; function URLFetcher(url, timeout) { let self = this; let xhr = Cc['@mozilla.org/xmlextras/xmlhttprequest;1'] .createInstance(Ci.nsIXMLHttpRequest); xhr.open('GET', url, true); // Prevent the request from reading from the cache. xhr.channel.loadFlags |= Ci.nsIRequest.LOAD_BYPASS_CACHE; // Prevent the request from writing to the cache. xhr.channel.loadFlags |= Ci.nsIRequest.INHIBIT_CACHING; // Prevent privacy leaks xhr.channel.loadFlags |= Ci.nsIRequest.LOAD_ANONYMOUS; // The Cache-Control header is only interpreted by proxies and the // final destination. It does not help if a resource is already // cached locally. xhr.setRequestHeader("Cache-Control", "no-cache"); // HTTP/1.0 servers might not implement Cache-Control and // might only implement Pragma: no-cache xhr.setRequestHeader("Pragma", "no-cache"); xhr.timeout = timeout; xhr.ontimeout = function () { self.ontimeout(); }; xhr.onerror = function () { self.onerror(); }; xhr.onreadystatechange = function(oEvent) { if (xhr.readyState === 4) { if (self._isAborted) { return; } if (xhr.status === 200) { self.onsuccess(xhr.responseText); } else if (xhr.status) { self.onredirectorerror(xhr.status); } } }; xhr.send(); this._xhr = xhr; } URLFetcher.prototype = { _isAborted: false, ontimeout: function() {}, onerror: function() {}, abort: function() { if (!this._isAborted) { this._isAborted = true; this._xhr.abort(); } }, } function LoginObserver(captivePortalDetector) { const LOGIN_OBSERVER_STATE_DETACHED = 0; /* Should not monitor network activity since no ongoing login procedure */ const LOGIN_OBSERVER_STATE_IDLE = 1; /* No network activity currently, waiting for a longer enough idle period */ const LOGIN_OBSERVER_STATE_BURST = 2; /* Network activity is detected, probably caused by a login procedure */ const LOGIN_OBSERVER_STATE_VERIFY_NEEDED = 3; /* Verifing network accessiblity is required after a long enough idle */ const LOGIN_OBSERVER_STATE_VERIFYING = 4; /* LoginObserver is probing if public network is available */ let state = LOGIN_OBSERVER_STATE_DETACHED; let timer = Cc['@mozilla.org/timer;1'].createInstance(Ci.nsITimer); let activityDistributor = Cc['@mozilla.org/network/http-activity-distributor;1'] .getService(Ci.nsIHttpActivityDistributor); let urlFetcher = null; let waitForNetworkActivity = false; let pageCheckingDone = function pageCheckingDone() { if (state === LOGIN_OBSERVER_STATE_VERIFYING) { urlFetcher = null; // Finish polling the canonical site, switch back to idle state and // waiting for next burst state = LOGIN_OBSERVER_STATE_IDLE; timer.initWithCallback(observer, captivePortalDetector._pollingTime, timer.TYPE_ONE_SHOT); } }; let checkPageContent = function checkPageContent() { debug("checking if public network is available after the login procedure"); urlFetcher = new URLFetcher(captivePortalDetector._canonicalSiteURL, captivePortalDetector._maxWaitingTime); urlFetcher.ontimeout = pageCheckingDone; urlFetcher.onerror = pageCheckingDone; urlFetcher.onsuccess = function (content) { if (captivePortalDetector.validateContent(content)) { urlFetcher = null; captivePortalDetector.executeCallback(true); } else { pageCheckingDone(); } }; urlFetcher.onredirectorerror = pageCheckingDone; }; // Public interface of LoginObserver let observer = { QueryInterface: XPCOMUtils.generateQI([Ci.nsIHttpActivityObserver, Ci.nsITimerCallback]), attach: function attach() { if (state === LOGIN_OBSERVER_STATE_DETACHED) { activityDistributor.addObserver(this); state = LOGIN_OBSERVER_STATE_IDLE; timer.initWithCallback(this, captivePortalDetector._pollingTime, timer.TYPE_ONE_SHOT); debug('attach HttpObserver for login activity'); } }, detach: function detach() { if (state !== LOGIN_OBSERVER_STATE_DETACHED) { if (urlFetcher) { urlFetcher.abort(); urlFetcher = null; } activityDistributor.removeObserver(this); timer.cancel(); state = LOGIN_OBSERVER_STATE_DETACHED; debug('detach HttpObserver for login activity'); } }, /* * Treat all HTTP transactions as captive portal login activities. */ observeActivity: function observeActivity(aHttpChannel, aActivityType, aActivitySubtype, aTimestamp, aExtraSizeData, aExtraStringData) { if (aActivityType === Ci.nsIHttpActivityObserver.ACTIVITY_TYPE_HTTP_TRANSACTION && aActivitySubtype === Ci.nsIHttpActivityObserver.ACTIVITY_SUBTYPE_RESPONSE_COMPLETE) { switch (state) { case LOGIN_OBSERVER_STATE_IDLE: case LOGIN_OBSERVER_STATE_VERIFY_NEEDED: state = LOGIN_OBSERVER_STATE_BURST; break; default: break; } } }, /* * Check if login activity is finished according to HTTP burst. */ notify : function notify() { switch (state) { case LOGIN_OBSERVER_STATE_BURST: // Wait while network stays idle for a short period state = LOGIN_OBSERVER_STATE_VERIFY_NEEDED; // Fall though to start polling timer case LOGIN_OBSERVER_STATE_IDLE: if (waitForNetworkActivity) { timer.initWithCallback(this, captivePortalDetector._pollingTime, timer.TYPE_ONE_SHOT); break; } // if we don't need to wait for network activity, just fall through // to perform a captive portal check. case LOGIN_OBSERVER_STATE_VERIFY_NEEDED: // Polling the canonical website since network stays idle for a while state = LOGIN_OBSERVER_STATE_VERIFYING; checkPageContent(); break; default: break; } }, }; return observer; } function CaptivePortalDetector() { // Load preference this._canonicalSiteURL = null; this._canonicalSiteExpectedContent = null; try { this._canonicalSiteURL = Services.prefs.getCharPref('captivedetect.canonicalURL'); this._canonicalSiteExpectedContent = Services.prefs.getCharPref('captivedetect.canonicalContent'); } catch (e) { debug('canonicalURL or canonicalContent not set.') } this._maxWaitingTime = Services.prefs.getIntPref('captivedetect.maxWaitingTime'); this._pollingTime = Services.prefs.getIntPref('captivedetect.pollingTime'); this._maxRetryCount = Services.prefs.getIntPref('captivedetect.maxRetryCount'); debug('Load Prefs {site=' + this._canonicalSiteURL + ',content=' + this._canonicalSiteExpectedContent + ',time=' + this._maxWaitingTime + "max-retry=" + this._maxRetryCount + '}'); // Create HttpObserver for monitoring the login procedure this._loginObserver = LoginObserver(this); this._nextRequestId = 0; this._runningRequest = null; this._requestQueue = []; // Maintain a progress table, store callbacks and the ongoing XHR this._interfaceNames = {}; // Maintain names of the requested network interfaces debug('CaptiveProtalDetector initiated, waiting for network connection established'); } CaptivePortalDetector.prototype = { classID: kCAPTIVEPORTALDETECTOR_CID, classInfo: XPCOMUtils.generateCI({classID: kCAPTIVEPORTALDETECTOR_CID, contractID: kCAPTIVEPORTALDETECTOR_CONTRACTID, classDescription: 'Captive Portal Detector', interfaces: [Ci.nsICaptivePortalDetector]}), QueryInterface: XPCOMUtils.generateQI([Ci.nsICaptivePortalDetector]), // nsICaptivePortalDetector checkCaptivePortal: function checkCaptivePortal(aInterfaceName, aCallback) { if (!this._canonicalSiteURL) { throw Components.Exception('No canonical URL set up.'); } // Prevent multiple requests on a single network interface if (this._interfaceNames[aInterfaceName]) { throw Components.Exception('Do not allow multiple request on one interface: ' + aInterfaceName); } let request = {interfaceName: aInterfaceName}; if (aCallback) { let callback = aCallback.QueryInterface(Ci.nsICaptivePortalCallback); request['callback'] = callback; request['retryCount'] = 0; } this._addRequest(request); }, abort: function abort(aInterfaceName) { debug('abort for ' + aInterfaceName); this._removeRequest(aInterfaceName); }, finishPreparation: function finishPreparation(aInterfaceName) { debug('finish preparation phase for interface "' + aInterfaceName + '"'); if (!this._runningRequest || this._runningRequest.interfaceName !== aInterfaceName) { debug('invalid finishPreparation for ' + aInterfaceName); throw Components.Exception('only first request is allowed to invoke |finishPreparation|'); } this._startDetection(); }, cancelLogin: function cancelLogin(eventId) { debug('login canceled by user for request "' + eventId + '"'); // Captive portal login procedure is canceled by user if (this._runningRequest && this._runningRequest.hasOwnProperty('eventId')) { let id = this._runningRequest.eventId; if (eventId === id) { this.executeCallback(false); } } }, _applyDetection: function _applyDetection() { debug('enter applyDetection('+ this._runningRequest.interfaceName + ')'); // Execute network interface preparation if (this._runningRequest.hasOwnProperty('callback')) { this._runningRequest.callback.prepare(); } else { this._startDetection(); } }, _startDetection: function _startDetection() { debug('startDetection {site=' + this._canonicalSiteURL + ',content=' + this._canonicalSiteExpectedContent + ',time=' + this._maxWaitingTime + '}'); let self = this; let urlFetcher = new URLFetcher(this._canonicalSiteURL, this._maxWaitingTime); let mayRetry = this._mayRetry.bind(this); urlFetcher.ontimeout = mayRetry; urlFetcher.onerror = mayRetry; urlFetcher.onsuccess = function (content) { if (self.validateContent(content)) { self.executeCallback(true); } else { // Content of the canonical website has been overwrite self._startLogin(); } }; urlFetcher.onredirectorerror = function (status) { if (status >= 300 && status <= 399) { // The canonical website has been redirected to an unknown location self._startLogin(); } else { mayRetry(); } }; this._runningRequest['urlFetcher'] = urlFetcher; }, _startLogin: function _startLogin() { let id = this._allocateRequestId(); let details = { type: kOpenCaptivePortalLoginEvent, id: id, url: this._canonicalSiteURL, }; this._loginObserver.attach(); this._runningRequest['eventId'] = id; this._sendEvent(kOpenCaptivePortalLoginEvent, details); gSysMsgr.broadcastMessage(kCaptivePortalSystemMessage, {}); }, _mayRetry: function _mayRetry() { if (this._runningRequest.retryCount++ < this._maxRetryCount) { debug('retry-Detection: ' + this._runningRequest.retryCount + '/' + this._maxRetryCount); this._startDetection(); } else { this.executeCallback(false); } }, executeCallback: function executeCallback(success) { if (this._runningRequest) { debug('callback executed'); if (this._runningRequest.hasOwnProperty('callback')) { this._runningRequest.callback.complete(success); } // Only when the request has a event id and |success| is true // do we need to notify the login-success event. if (this._runningRequest.hasOwnProperty('eventId') && success) { let details = { type: kCaptivePortalLoginSuccessEvent, id: this._runningRequest['eventId'], }; this._sendEvent(kCaptivePortalLoginSuccessEvent, details); } // Continue the following request this._runningRequest['complete'] = true; this._removeRequest(this._runningRequest.interfaceName); } }, _sendEvent: function _sendEvent(topic, details) { debug('sendEvent "' + JSON.stringify(details) + '"'); Services.obs.notifyObservers(this, topic, JSON.stringify(details)); }, validateContent: function validateContent(content) { debug('received content: ' + content); let valid = content === this._canonicalSiteExpectedContent; // We need a way to indicate that a check has been performed, and if we are // still in a captive portal. this._sendEvent(kCaptivePortalCheckComplete, !valid); return valid; }, _allocateRequestId: function _allocateRequestId() { let newId = this._nextRequestId++; return newId.toString(); }, _runNextRequest: function _runNextRequest() { let nextRequest = this._requestQueue.shift(); if (nextRequest) { this._runningRequest = nextRequest; this._applyDetection(); } }, _addRequest: function _addRequest(request) { this._interfaceNames[request.interfaceName] = true; this._requestQueue.push(request); if (!this._runningRequest) { this._runNextRequest(); } }, _removeRequest: function _removeRequest(aInterfaceName) { if (!this._interfaceNames[aInterfaceName]) { return; } delete this._interfaceNames[aInterfaceName]; if (this._runningRequest && this._runningRequest.interfaceName === aInterfaceName) { this._loginObserver.detach(); if (!this._runningRequest.complete) { // Abort the user login procedure if (this._runningRequest.hasOwnProperty('eventId')) { let details = { type: kAbortCaptivePortalLoginEvent, id: this._runningRequest.eventId }; this._sendEvent(kAbortCaptivePortalLoginEvent, details); } // Abort the ongoing HTTP request if (this._runningRequest.hasOwnProperty('urlFetcher')) { this._runningRequest.urlFetcher.abort(); } } debug('remove running request'); this._runningRequest = null; // Continue next pending reqeust if the ongoing one has been aborted this._runNextRequest(); return; } // Check if a pending request has been aborted for (let i = 0; i < this._requestQueue.length; i++) { if (this._requestQueue[i].interfaceName == aInterfaceName) { this._requestQueue.splice(i, 1); debug('remove pending request #' + i + ', remaining ' + this._requestQueue.length); break; } } }, }; var debug; if (DEBUG) { debug = function (s) { dump('-*- CaptivePortalDetector component: ' + s + '\n'); }; } else { debug = function (s) {}; } this.NSGetFactory = XPCOMUtils.generateNSGetFactory([CaptivePortalDetector]);