/* 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"; /* * HAWK is an HTTP authentication scheme using a message authentication code * (MAC) algorithm to provide partial HTTP request cryptographic verification. * * For details, see: https://github.com/hueniverse/hawk * * With HAWK, it is essential that the clocks on clients and server not have an * absolute delta of greater than one minute, as the HAWK protocol uses * timestamps to reduce the possibility of replay attacks. However, it is * likely that some clients' clocks will be more than a little off, especially * in mobile devices, which would break HAWK-based services (like sync and * firefox accounts) for those clients. * * This library provides a stateful HAWK client that calculates (roughly) the * clock delta on the client vs the server. The library provides an interface * for deriving HAWK credentials and making HAWK-authenticated REST requests to * a single remote server. Therefore, callers who want to interact with * multiple HAWK services should instantiate one HawkClient per service. */ this.EXPORTED_SYMBOLS = ["HawkClient"]; const {interfaces: Ci, utils: Cu} = Components; Cu.import("resource://gre/modules/FxAccountsCommon.js"); Cu.import("resource://services-common/utils.js"); Cu.import("resource://services-crypto/utils.js"); Cu.import("resource://services-common/hawkrequest.js"); Cu.import("resource://services-common/observers.js"); Cu.import("resource://gre/modules/Promise.jsm"); /* * A general purpose client for making HAWK authenticated requests to a single * host. Keeps track of the clock offset between the client and the host for * computation of the timestamp in the HAWK Authorization header. * * Clients should create one HawkClient object per each server they wish to * interact with. * * @param host * The url of the host */ this.HawkClient = function(host) { this.host = host; // Clock offset in milliseconds between our client's clock and the date // reported in responses from our host. this._localtimeOffsetMsec = 0; } this.HawkClient.prototype = { /* * Construct an error message for a response. Private. * * @param restResponse * A RESTResponse object from a RESTRequest * * @param errorString * A string describing the error */ _constructError: function(restResponse, errorString) { let errorObj = { error: errorString, message: restResponse.statusText, code: restResponse.status, errno: restResponse.status }; let retryAfter = restResponse.headers && restResponse.headers["retry-after"]; retryAfter = retryAfter ? parseInt(retryAfter) : retryAfter; if (retryAfter) { errorObj.retryAfter = retryAfter; // and notify observers of the retry interval if (this.observerPrefix) { Observers.notify(this.observerPrefix + ":backoff:interval", retryAfter); } } return errorObj; }, /* * * Update clock offset by determining difference from date gives in the (RFC * 1123) Date header of a server response. Because HAWK tolerates a window * of one minute of clock skew (so two minutes total since the skew can be * positive or negative), the simple method of calculating offset here is * probably good enough. We keep the value in milliseconds to make life * easier, even though the value will not have millisecond accuracy. * * @param dateString * An RFC 1123 date string (e.g., "Mon, 13 Jan 2014 21:45:06 GMT") * * For HAWK clock skew and replay protection, see * https://github.com/hueniverse/hawk#replay-protection */ _updateClockOffset: function(dateString) { try { let serverDateMsec = Date.parse(dateString); this._localtimeOffsetMsec = serverDateMsec - this.now(); log.debug("Clock offset vs " + this.host + ": " + this._localtimeOffsetMsec); } catch(err) { log.warn("Bad date header in server response: " + dateString); } }, /* * Get the current clock offset in milliseconds. * * The offset is the number of milliseconds that must be added to the client * clock to make it equal to the server clock. For example, if the client is * five minutes ahead of the server, the localtimeOffsetMsec will be -300000. */ get localtimeOffsetMsec() { return this._localtimeOffsetMsec; }, /* * return current time in milliseconds */ now: function() { return Date.now(); }, /* A general method for sending raw RESTRequest calls authorized using HAWK * * @param path * API endpoint path * @param method * The HTTP request method * @param credentials * Hawk credentials * @param payloadObj * An object that can be encodable as JSON as the payload of the * request * @return Promise * Returns a promise that resolves to the text response of the API call, * or is rejected with an error. If the server response can be parsed * as JSON and contains an 'error' property, the promise will be * rejected with this JSON-parsed response. */ request: function(path, method, credentials=null, payloadObj={}, retryOK=true) { method = method.toLowerCase(); let deferred = Promise.defer(); let uri = this.host + path; let self = this; function onComplete(error) { let restResponse = this.response; let status = restResponse.status; log.debug("(Response) " + path + ": code: " + status + " - Status text: " + restResponse.statusText); if (logPII) { log.debug("Response text: " + restResponse.body); } // All responses may have backoff headers, which are a server-side safety // valve to allow slowing down clients without hurting performance. self._maybeNotifyBackoff(restResponse, "x-weave-backoff"); self._maybeNotifyBackoff(restResponse, "x-backoff"); if (error) { // When things really blow up, reconstruct an error object that follows // the general format of the server on error responses. return deferred.reject(self._constructError(restResponse, error)); } self._updateClockOffset(restResponse.headers["date"]); if (status === 401 && retryOK && !("retry-after" in restResponse.headers)) { // Retry once if we were rejected due to a bad timestamp. // Clock offset is adjusted already in the top of this function. log.debug("Received 401 for " + path + ": retrying"); return deferred.resolve( self.request(path, method, credentials, payloadObj, false)); } // If the server returned a json error message, use it in the rejection // of the promise. // // In the case of a 401, in which we are probably being rejected for a // bad timestamp, retry exactly once, during which time clock offset will // be adjusted. let jsonResponse = {}; try { jsonResponse = JSON.parse(restResponse.body); } catch(notJSON) {} let okResponse = (200 <= status && status < 300); if (!okResponse || jsonResponse.error) { if (jsonResponse.error) { return deferred.reject(jsonResponse); } return deferred.reject(self._constructError(restResponse, "Request failed")); } // It's up to the caller to know how to decode the response. // We just return the raw text. deferred.resolve(this.response.body); }; let extra = { now: this.now(), localtimeOffsetMsec: this.localtimeOffsetMsec, }; let request = this.newHAWKAuthenticatedRESTRequest(uri, credentials, extra); if (method == "post" || method == "put") { request[method](payloadObj, onComplete); } else { request[method](onComplete); } return deferred.promise; }, /* * The prefix used for all notifications sent by this module. This * allows the handler of notifications to be sure they are handling * notifications for the service they expect. * * If not set, no notifications will be sent. */ observerPrefix: null, // Given an optional header value, notify that a backoff has been requested. _maybeNotifyBackoff: function (response, headerName) { if (!this.observerPrefix) { return; } let headerVal = response.headers[headerName]; if (!headerVal) { return; } let backoffInterval; try { backoffInterval = parseInt(headerVal, 10); } catch (ex) { this._log.error("hawkclient response had invalid backoff value in '" + headerName + "' header: " + headerVal); return; } Observers.notify(this.observerPrefix + ":backoff:interval", backoffInterval); }, // override points for testing. newHAWKAuthenticatedRESTRequest: function(uri, credentials, extra) { return new HAWKAuthenticatedRESTRequest(uri, credentials, extra); }, }