/* 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/. */ const Cc = Components.classes; const Ci = Components.interfaces; const Cr = Components.results; const Cu = Components.utils; // COMPLETE_LENGTH and PARTIAL_LENGTH copied from nsUrlClassifierDBService.h, // they correspond to the length, in bytes, of a hash prefix and the total // hash. const COMPLETE_LENGTH = 32; const PARTIAL_LENGTH = 4; // These backoff related constants are taken from v2 of the Google Safe Browsing // API. // BACKOFF_ERRORS: the number of errors incurred until we start to back off. // BACKOFF_INTERVAL: the initial time, in seconds, to wait once we start backing // off. // BACKOFF_MAX: as the backoff time doubles after each failure, this is a // ceiling on the time to wait, in seconds. // BACKOFF_TIME: length of the interval of time, in seconds, during which errors // are taken into account. const BACKOFF_ERRORS = 2; const BACKOFF_INTERVAL = 30 * 60; const BACKOFF_MAX = 8 * 60 * 60; const BACKOFF_TIME = 5 * 60; Cu.import("resource://gre/modules/XPCOMUtils.jsm"); Cu.import("resource://gre/modules/Services.jsm"); function HashCompleter() { // This is a HashCompleterRequest and is used by multiple calls to |complete| // in succession to avoid unnecessarily creating requests. Once it has been // started, this is set to null again. this._currentRequest = null; // Whether we have been informed of a shutdown by the xpcom-shutdown event. this._shuttingDown = false; // All of these backoff properties are different per completer as the DB // service keeps one completer per table. // // _backoff tells us whether we are "backing off" from making requests. // It is set in |noteServerResponse| and set after a number of failures. this._backoff = false; // _backoffTime tells us how long we should wait (in seconds) before making // another request. this._backoffTime = 0; // _nextRequestTime is the earliest time at which we are allowed to make // another request by the backoff policy. It is measured in milliseconds. this._nextRequestTime = 0; // A list of the times at which a failed request was made, recorded in // |noteServerResponse|. Sorted by oldest to newest and its length is clamped // by BACKOFF_ERRORS. this._errorTimes = []; Services.obs.addObserver(this, "xpcom-shutdown", true); } HashCompleter.prototype = { classID: Components.ID("{9111de73-9322-4bfc-8b65-2b727f3e6ec8}"), QueryInterface: XPCOMUtils.generateQI([Ci.nsIUrlClassifierHashCompleter, Ci.nsIRunnable, Ci.nsIObserver, Ci.nsISupportsWeakReference, Ci.nsISupports]), // This is mainly how the HashCompleter interacts with other components. // Even though it only takes one partial hash and callback, subsequent // calls are made into the same HTTP request by using a thread dispatch. complete: function HC_complete(aPartialHash, aCallback) { if (!this._currentRequest) { this._currentRequest = new HashCompleterRequest(this); // It's possible for getHashUrl to not be set, usually at start-up. if (this._getHashUrl) { Services.tm.currentThread.dispatch(this, Ci.nsIThread.DISPATCH_NORMAL); } } this._currentRequest.add(aPartialHash, aCallback); }, // This is called when either the getHashUrl has been set or after a few calls // to |complete|. It starts off the HTTP request by making a |begin| call // to the HashCompleterRequest. run: function HC_run() { if (this._shuttingDown) { this._currentRequest = null; throw Cr.NS_ERROR_NOT_INITIALIZED; } if (!this._currentRequest) { return; } if (!this._getHashUrl) { throw Cr.NS_ERROR_NOT_INITIALIZED; } let url = this._getHashUrl; let uri = Services.io.newURI(url, null, null); this._currentRequest.setURI(uri); // If |begin| fails, we should get rid of our request. try { this._currentRequest.begin(); } finally { this._currentRequest = null; } }, get gethashUrl() { return this._getHashUrl; }, // Because we hold off on making a request until we have a valid getHashUrl, // we kick off the process here. set gethashUrl(aNewUrl) { this._getHashUrl = aNewUrl; if (this._currentRequest) { Services.tm.currentThread.dispatch(this, Ci.nsIThread.DISPATCH_NORMAL); } }, // This handles all the logic about setting a back off time based on // server responses. It should only be called once in the life time of a // request. // The logic behind backoffs is documented in the Google Safe Browsing API, // the general idea is that a completer should go into backoff mode after // BACKOFF_ERRORS errors in the last BACKOFF_TIME seconds. From there, // we do not make a request for BACKOFF_INTERVAL seconds and for every failed // request after that we double how long to wait, to a maximum of BACKOFF_MAX. // Note that even in the case of a successful response we still keep a history // of past errors. noteServerResponse: function HC_noteServerResponse(aSuccess) { if (aSuccess) { this._backoff = false; this._nextRequestTime = 0; this._backoffTime = 0; return; } let now = Date.now(); // We only alter the size of |_errorTimes| here, so we can guarantee that // its length is at most BACKOFF_ERRORS. this._errorTimes.push(now); if (this._errorTimes.length > BACKOFF_ERRORS) { this._errorTimes.shift(); } if (this._backoff) { this._backoffTime *= 2; } else if (this._errorTimes.length == BACKOFF_ERRORS && ((now - this._errorTimes[0]) / 1000) <= BACKOFF_TIME) { this._backoff = true; this._backoffTime = BACKOFF_INTERVAL; } if (this._backoff) { this._backoffTime = Math.min(this._backoffTime, BACKOFF_MAX); this._nextRequestTime = now + (this._backoffTime * 1000); } }, // This is not included on the interface but is used to communicate to the // HashCompleterRequest. It returns a time in milliseconds. get nextRequestTime() { return this._nextRequestTime; }, observe: function HC_observe(aSubject, aTopic, aData) { if (aTopic == "xpcom-shutdown") { this._shuttingDown = true; } }, }; function HashCompleterRequest(aCompleter) { // HashCompleter object that created this HashCompleterRequest. this._completer = aCompleter; // The internal set of hashes and callbacks that this request corresponds to. this._requests = []; // URI to query for hash completions. Largely comes from the // browser.safebrowsing.gethashURL pref. this._uri = null; // nsIChannel that the hash completion query is transmitted over. this._channel = null; // Response body of hash completion. Created in onDataAvailable. this._response = ""; // Whether we have been informed of a shutdown by the xpcom-shutdown event. this._shuttingDown = false; } HashCompleterRequest.prototype = { QueryInterface: XPCOMUtils.generateQI([Ci.nsIRequestObserver, Ci.nsIStreamListener, Ci.nsIObserver, Ci.nsISupports]), // This is called by the HashCompleter to add a hash and callback to the // HashCompleterRequest. It must be called before calling |begin|. add: function HCR_add(aPartialHash, aCallback) { this._requests.push({ partialHash: aPartialHash, callback: aCallback, responses: [], }); }, // This initiates the HTTP request. It can fail due to backoff timings and // will notify all callbacks as necessary. begin: function HCR_begin() { if (Date.now() < this._completer.nextRequestTime) { this.notifyFailure(Cr.NS_ERROR_ABORT); return; } Services.obs.addObserver(this, "xpcom-shutdown", false); try { this.openChannel(); } catch (err) { this.notifyFailure(err); throw err; } }, setURI: function HCR_setURI(aURI) { this._uri = aURI; }, // Creates an nsIChannel for the request and fills the body. openChannel: function HCR_openChannel() { let loadFlags = Ci.nsIChannel.INHIBIT_CACHING | Ci.nsIChannel.LOAD_BYPASS_CACHE; let channel = Services.io.newChannelFromURI(this._uri); channel.loadFlags = loadFlags; this._channel = channel; let body = this.buildRequest(); this.addRequestBody(body); channel.asyncOpen(this, null); }, // Returns a string for the request body based on the contents of // this._requests. buildRequest: function HCR_buildRequest() { // Sometimes duplicate entries are sent to HashCompleter but we do not need // to propagate these to the server. (bug 633644) let prefixes = []; for (let i = 0; i < this._requests.length; i++) { let request = this._requests[i]; if (prefixes.indexOf(request.partialHash) == -1) { prefixes.push(request.partialHash); } } // Randomize the order to obscure the original request from noise // unbiased Fisher-Yates shuffle let i = prefixes.length; while (i--) { let j = Math.floor(Math.random() * (i + 1)); let temp = prefixes[i]; prefixes[i] = prefixes[j]; prefixes[j] = temp; } let body; body = PARTIAL_LENGTH + ":" + (PARTIAL_LENGTH * prefixes.length) + "\n" + prefixes.join(""); return body; }, // Sets the request body of this._channel. addRequestBody: function HCR_addRequestBody(aBody) { let inputStream = Cc["@mozilla.org/io/string-input-stream;1"]. createInstance(Ci.nsIStringInputStream); inputStream.setData(aBody, aBody.length); let uploadChannel = this._channel.QueryInterface(Ci.nsIUploadChannel); uploadChannel.setUploadStream(inputStream, "text/plain", -1); let httpChannel = this._channel.QueryInterface(Ci.nsIHttpChannel); httpChannel.requestMethod = "POST"; }, // Parses the response body and eventually adds items to the |responses| array // for elements of |this._requests|. handleResponse: function HCR_handleResponse() { if (this._response == "") { return; } let start = 0; let length = this._response.length; while (start != length) start = this.handleTable(start); }, // This parses a table entry in the response body and calls |handleItem| // for complete hash in the table entry. handleTable: function HCR_handleTable(aStart) { let body = this._response.substring(aStart); // deal with new line indexes as there could be // new line characters in the data parts. let newlineIndex = body.indexOf("\n"); if (newlineIndex == -1) { throw errorWithStack(); } let header = body.substring(0, newlineIndex); let entries = header.split(":"); if (entries.length != 3) { throw errorWithStack(); } let list = entries[0]; let addChunk = parseInt(entries[1]); let dataLength = parseInt(entries[2]); if (dataLength % COMPLETE_LENGTH != 0 || dataLength == 0 || dataLength > body.length - (newlineIndex + 1)) { throw errorWithStack(); } let data = body.substr(newlineIndex + 1, dataLength); for (let i = 0; i < (dataLength / COMPLETE_LENGTH); i++) { this.handleItem(data.substr(i * COMPLETE_LENGTH, COMPLETE_LENGTH), list, addChunk); } return aStart + newlineIndex + 1 + dataLength; }, // This adds a complete hash to any entry in |this._requests| that matches // the hash. handleItem: function HCR_handleItem(aData, aTableName, aChunkId) { for (let i = 0; i < this._requests.length; i++) { let request = this._requests[i]; if (aData.substring(0,4) == request.partialHash) { request.responses.push({ completeHash: aData, tableName: aTableName, chunkId: aChunkId, }); } } }, // notifySuccess and notifyFailure are used to alert the callbacks with // results. notifySuccess makes |completion| and |completionFinished| calls // while notifyFailure only makes a |completionFinished| call with the error // code. notifySuccess: function HCR_notifySuccess() { for (let i = 0; i < this._requests.length; i++) { let request = this._requests[i]; for (let j = 0; j < request.responses.length; j++) { let response = request.responses[j]; request.callback.completion(response.completeHash, response.tableName, response.chunkId); } request.callback.completionFinished(Cr.NS_OK); } }, notifyFailure: function HCR_notifyFailure(aStatus) { for (let i = 0; i < this._requests.length; i++) { let request = this._requests[i]; request.callback.completionFinished(aStatus); } }, onDataAvailable: function HCR_onDataAvailable(aRequest, aContext, aInputStream, aOffset, aCount) { let sis = Cc["@mozilla.org/scriptableinputstream;1"]. createInstance(Ci.nsIScriptableInputStream); sis.init(aInputStream); this._response += sis.readBytes(aCount); }, onStartRequest: function HCR_onStartRequest(aRequest, aContext) { // At this point no data is available for us and we have no reason to // terminate the connection, so we do nothing until |onStopRequest|. }, onStopRequest: function HCR_onStopRequest(aRequest, aContext, aStatusCode) { Services.obs.removeObserver(this, "xpcom-shutdown"); if (this._shuttingDown) { throw Cr.NS_ERROR_ABORT; } if (Components.isSuccessCode(aStatusCode)) { let channel = aRequest.QueryInterface(Ci.nsIHttpChannel); let success = channel.requestSucceeded; if (!success) { aStatusCode = Cr.NS_ERROR_ABORT; } } let success = Components.isSuccessCode(aStatusCode); this._completer.noteServerResponse(success); if (success) { try { this.handleResponse(); } catch (err) { dump(err.stack); aStatusCode = err.value; success = false; } } if (success) { this.notifySuccess(); } else { this.notifyFailure(aStatusCode); } }, observe: function HCR_observe(aSubject, aTopic, aData) { if (aTopic != "xpcom-shutdown") { return; } this._shuttingDown = true; if (this._channel) { this._channel.cancel(Cr.NS_ERROR_ABORT); } }, }; // Converts a URL safe base64 string to a normal base64 string. Will not change // normal base64 strings. This is modelled after the same function in // nsUrlClassifierUtils.h. function unUrlsafeBase64(aStr) { return !aStr ? "" : aStr.replace(/-/g, "+") .replace(/_/g, "/"); } function errorWithStack() { let err = new Error(); err.value = Cr.NS_ERROR_FAILURE; return err; } this.NSGetFactory = XPCOMUtils.generateNSGetFactory([HashCompleter]);