/* 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/. */ // How to run this file: // 1. [obtain firefox source code] // 2. [build/obtain firefox binaries] // 3. run `[path to]/run-mozilla.sh [path to]/xpcshell \ // [path to]/getHSTSPreloadlist.js \ // [absolute path to]/nsSTSPreloadlist.inc' // // var Cc = Components.classes; var Ci = Components.interfaces; var Cu = Components.utils; var Cr = Components.results; // Register resource://app/ URI var ios = Cc["@mozilla.org/network/io-service;1"].getService(Ci.nsIIOService); var resHandler = ios.getProtocolHandler("resource") .QueryInterface(Ci.nsIResProtocolHandler); var mozDir = Cc["@mozilla.org/file/directory_service;1"] .getService(Ci.nsIProperties) .get("CurProcD", Ci.nsILocalFile); var mozDirURI = ios.newFileURI(mozDir); resHandler.setSubstitution("app", mozDirURI); Cu.import("resource://gre/modules/Services.jsm"); Cu.import("resource://gre/modules/FileUtils.jsm"); Cu.import("resource:///modules/XPCOMUtils.jsm"); const SOURCE = "https://chromium.googlesource.com/chromium/src/net/+/master/http/transport_security_state_static.json?format=TEXT"; const OUTPUT = "nsSTSPreloadList.inc"; const ERROR_OUTPUT = "nsSTSPreloadList.errors"; const MINIMUM_REQUIRED_MAX_AGE = 60 * 60 * 24 * 7 * 18; const MAX_CONCURRENT_REQUESTS = 5; const MAX_RETRIES = 3; const REQUEST_TIMEOUT = 30 * 1000; const ERROR_NONE = "no error"; const ERROR_CONNECTING_TO_HOST = "could not connect to host"; const ERROR_NO_HSTS_HEADER = "did not receive HSTS header"; const ERROR_MAX_AGE_TOO_LOW = "max-age too low: "; const HEADER = "/* This Source Code Form is subject to the terms of the Mozilla Public\n" + " * License, v. 2.0. If a copy of the MPL was not distributed with this\n" + " * file, You can obtain one at http://mozilla.org/MPL/2.0/. */\n" + "\n" + "/*****************************************************************************/\n" + "/* This is an automatically generated file. If you're not */\n" + "/* nsSiteSecurityService.cpp, you shouldn't be #including it. */\n" + "/*****************************************************************************/\n" + "\n" + "#include \n"; const PREFIX = "\n" + "class nsSTSPreload\n" + "{\n" + " public:\n" + " const char *mHost;\n" + " const bool mIncludeSubdomains;\n" + "};\n" + "\n" + "static const nsSTSPreload kSTSPreloadList[] = {\n"; const POSTFIX = "};\n"; function download() { var req = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"] .createInstance(Ci.nsIXMLHttpRequest); req.open("GET", SOURCE, false); // doing the request synchronously try { req.send(); } catch (e) { throw "ERROR: problem downloading '" + SOURCE + "': " + e; } if (req.status != 200) { throw "ERROR: problem downloading '" + SOURCE + "': status " + req.status; } var resultDecoded; try { resultDecoded = atob(req.responseText); } catch (e) { throw "ERROR: could not decode data as base64 from '" + SOURCE + "': " + e; } // we have to filter out '//' comments, while not mangling the json var result = resultDecoded.replace(/^(\s*)?\/\/[^\n]*\n/mg, ""); var data = null; try { data = JSON.parse(result); } catch (e) { throw "ERROR: could not parse data from '" + SOURCE + "': " + e; } return data; } function getHosts(rawdata) { var hosts = []; if (!rawdata || !rawdata.entries) { throw "ERROR: source data not formatted correctly: 'entries' not found"; } for (let entry of rawdata.entries) { if (entry.mode && entry.mode == "force-https") { if (entry.name) { // We trim the entry name here to avoid malformed URI exceptions when we // later try to connect to the domain. entry.name = entry.name.trim(); entry.retries = MAX_RETRIES; entry.originalIncludeSubdomains = entry.include_subdomains; hosts.push(entry); } else { throw "ERROR: entry not formatted correctly: no name found"; } } } return hosts; } var gSSService = Cc["@mozilla.org/ssservice;1"] .getService(Ci.nsISiteSecurityService); function processStsHeader(host, header, status, securityInfo) { var maxAge = { value: 0 }; var includeSubdomains = { value: false }; var error = ERROR_NONE; if (header != null && securityInfo != null) { try { var uri = Services.io.newURI("https://" + host.name, null, null); var sslStatus = securityInfo.QueryInterface(Ci.nsISSLStatusProvider) .SSLStatus; gSSService.processHeader(Ci.nsISiteSecurityService.HEADER_HSTS, uri, header, sslStatus, 0, maxAge, includeSubdomains); } catch (e) { dump("ERROR: could not process header '" + header + "' from " + host.name + ": " + e + "\n"); error = e; } } else { if (status == 0) { error = ERROR_CONNECTING_TO_HOST; } else { error = ERROR_NO_HSTS_HEADER; } } let forceInclude = (host.forceInclude || host.pins == "google"); if (error == ERROR_NONE && maxAge.value < MINIMUM_REQUIRED_MAX_AGE) { error = ERROR_MAX_AGE_TOO_LOW; } return { name: host.name, maxAge: maxAge.value, includeSubdomains: includeSubdomains.value, error: error, retries: host.retries - 1, forceInclude: forceInclude, originalIncludeSubdomains: host.originalIncludeSubdomains }; } // RedirectAndAuthStopper prevents redirects and HTTP authentication function RedirectAndAuthStopper() {}; RedirectAndAuthStopper.prototype = { // nsIChannelEventSink asyncOnChannelRedirect: function(oldChannel, newChannel, flags, callback) { throw Cr.NS_ERROR_ENTITY_CHANGED; }, // nsIAuthPrompt2 promptAuth: function(channel, level, authInfo) { return false; }, asyncPromptAuth: function(channel, callback, context, level, authInfo) { throw Cr.NS_ERROR_NOT_IMPLEMENTED; }, getInterface: function(iid) { return this.QueryInterface(iid); }, QueryInterface: XPCOMUtils.generateQI([Ci.nsIChannelEventSink, Ci.nsIAuthPrompt2]) }; function getHSTSStatus(host, resultList) { var req = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"] .createInstance(Ci.nsIXMLHttpRequest); var inResultList = false; var uri = "https://" + host.name + "/"; req.open("GET", uri, true); req.timeout = REQUEST_TIMEOUT; req.channel.notificationCallbacks = new RedirectAndAuthStopper(); req.onreadystatechange = function(event) { if (!inResultList && req.readyState == 4) { inResultList = true; var header = req.getResponseHeader("strict-transport-security"); resultList.push(processStsHeader(host, header, req.status, req.channel.securityInfo)); } }; try { req.send(); } catch (e) { dump("ERROR: exception making request to " + host.name + ": " + e + "\n"); } } function compareHSTSStatus(a, b) { return (a.name > b.name ? 1 : (a.name < b.name ? -1 : 0)); } function writeTo(string, fos) { fos.write(string, string.length); } // Determines and returns a string representing a declaration of when this // preload list should no longer be used. // This is the current time plus MINIMUM_REQUIRED_MAX_AGE. function getExpirationTimeString() { var now = new Date(); var nowMillis = now.getTime(); // MINIMUM_REQUIRED_MAX_AGE is in seconds, so convert to milliseconds var expirationMillis = nowMillis + (MINIMUM_REQUIRED_MAX_AGE * 1000); var expirationMicros = expirationMillis * 1000; return "const PRTime gPreloadListExpirationTime = INT64_C(" + expirationMicros + ");\n"; } function errorToString(status) { return (status.error == ERROR_MAX_AGE_TOO_LOW ? status.error + status.maxAge : status.error); } function writeEntry(status, outputStream) { let incSubdomainsBool = (status.forceInclude && status.error != ERROR_NONE ? status.originalIncludeSubdomains : status.includeSubdomains); let includeSubdomains = (incSubdomainsBool ? "true" : "false"); writeTo(" { \"" + status.name + "\", " + includeSubdomains + " },\n", outputStream); } function output(sortedStatuses, currentList) { try { var file = FileUtils.getFile("CurWorkD", [OUTPUT]); var errorFile = FileUtils.getFile("CurWorkD", [ERROR_OUTPUT]); var fos = FileUtils.openSafeFileOutputStream(file); var eos = FileUtils.openSafeFileOutputStream(errorFile); writeTo(HEADER, fos); writeTo(getExpirationTimeString(), fos); writeTo(PREFIX, fos); for (var status of sortedStatuses) { // If we've encountered an error for this entry (other than the site not // sending an HSTS header), be safe and don't remove it from the list // (given that it was already on the list). if (status.error != ERROR_NONE && status.error != ERROR_NO_HSTS_HEADER && status.error != ERROR_MAX_AGE_TOO_LOW && status.name in currentList) { dump("INFO: error connecting to or processing " + status.name + " - using previous status on list\n"); writeTo(status.name + ": " + errorToString(status) + "\n", eos); status.maxAge = MINIMUM_REQUIRED_MAX_AGE; status.includeSubdomains = currentList[status.name]; } if (status.maxAge >= MINIMUM_REQUIRED_MAX_AGE || status.forceInclude) { writeEntry(status, fos); dump("INFO: " + status.name + " ON the preload list\n"); if (status.forceInclude && status.error != ERROR_NONE) { writeTo(status.name + ": " + errorToString(status) + " (error " + "ignored - included regardless)\n", eos); } } else { dump("INFO: " + status.name + " NOT ON the preload list\n"); writeTo(status.name + ": " + errorToString(status) + "\n", eos); } } writeTo(POSTFIX, fos); FileUtils.closeSafeFileOutputStream(fos); FileUtils.closeSafeFileOutputStream(eos); } catch (e) { dump("ERROR: problem writing output to '" + OUTPUT + "': " + e + "\n"); } } function shouldRetry(response) { return (response.error != ERROR_NO_HSTS_HEADER && response.error != ERROR_MAX_AGE_TOO_LOW && response.error != ERROR_NONE && response.retries > 0); } function getHSTSStatuses(inHosts, outStatuses) { var expectedOutputLength = inHosts.length; var tmpOutput = []; for (var i = 0; i < MAX_CONCURRENT_REQUESTS && inHosts.length > 0; i++) { var host = inHosts.shift(); dump("spinning off request to '" + host.name + "' (remaining retries: " + host.retries + ")\n"); getHSTSStatus(host, tmpOutput); } while (outStatuses.length != expectedOutputLength) { waitForAResponse(tmpOutput); var response = tmpOutput.shift(); dump("request to '" + response.name + "' finished\n"); if (shouldRetry(response)) inHosts.push(response); else outStatuses.push(response); if (inHosts.length > 0) { var host = inHosts.shift(); dump("spinning off request to '" + host.name + "' (remaining retries: " + host.retries + ")\n"); getHSTSStatus(host, tmpOutput); } } } // Since all events are processed on the main thread, and since event // handlers are not preemptible, there shouldn't be any concurrency issues. function waitForAResponse(outputList) { // From var threadManager = Cc["@mozilla.org/thread-manager;1"] .getService(Ci.nsIThreadManager); var mainThread = threadManager.currentThread; while (outputList.length == 0) { mainThread.processNextEvent(true); } } function readCurrentList(filename) { var currentHosts = {}; var file = Cc["@mozilla.org/file/local;1"].createInstance(Ci.nsILocalFile); file.initWithPath(filename); var fis = Cc["@mozilla.org/network/file-input-stream;1"] .createInstance(Ci.nsILineInputStream); fis.init(file, -1, -1, Ci.nsIFileInputStream.CLOSE_ON_EOF); var line = {}; var entryRegex = / { "([^"]*)", (true|false) },/; while (fis.readLine(line)) { var match = entryRegex.exec(line.value); if (match) { currentHosts[match[1]] = (match[2] == "true"); } } return currentHosts; } function combineLists(newHosts, currentHosts) { for (let currentHost in currentHosts) { let found = false; for (let newHost of newHosts) { if (newHost.name == currentHost) { found = true; break; } } if (!found) { newHosts.push({ name: currentHost, retries: MAX_RETRIES }); } } } // **************************************************************************** // This is where the action happens: if (arguments.length < 1) { throw "Usage: getHSTSPreloadList.js "; } // get the current preload list var currentHosts = readCurrentList(arguments[0]); // disable the current preload list so it won't interfere with requests we make Services.prefs.setBoolPref("network.stricttransportsecurity.preloadlist", false); // download and parse the raw json file from the Chromium source var rawdata = download(); // get just the hosts with mode: "force-https" var hosts = getHosts(rawdata); // add hosts in the current list to the new list (avoiding duplicates) combineLists(hosts, currentHosts); // get the HSTS status of each host var hstsStatuses = []; getHSTSStatuses(hosts, hstsStatuses); // sort the hosts alphabetically hstsStatuses.sort(compareHSTSStatus); // write the results to a file (this is where we filter out hosts that we // either couldn't connect to, didn't receive an HSTS header from, couldn't // parse the header, or had a header with too short a max-age) output(hstsStatuses, currentHosts); // ****************************************************************************