telebit.js/bin/telebitd.js

1781 lines
55 KiB
JavaScript
Executable File

#!/usr/bin/env node
(function () {
'use strict';
var PromiseA;
try {
PromiseA = require('bluebird');
} catch(e) {
PromiseA = global.Promise;
}
var pkg = require('../package.json');
var Keypairs = require('keypairs');
var crypto = require('crypto');
//var url = require('url');
var path = require('path');
var os = require('os');
var fs = require('fs');
var fsp = fs.promises;
var urequest = require('@root/request');
var urequestAsync = require('util').promisify(urequest);
var common = require('../lib/cli-common.js');
var http = require('http');
var TOML = require('toml');
var YAML = require('js-yaml');
var recase = require('recase').create({});
var camelCopy = recase.camelCopy.bind(recase);
var snakeCopy = recase.snakeCopy.bind(recase);
var TPLS = TOML.parse(fs.readFileSync(path.join(__dirname, "../lib/en-us.toml"), 'utf8'));
var startTime = Date.now();
var connectTimes = [];
var isConnected = false;
var eggspress = require('../lib/eggspress.js');
var keypairs = require('keypairs');
var KEYEXT = '.key.jwk.json';
var PUBEXT = '.pub.jwk.json';
var TelebitRemote = require('../lib/daemon/index.js').TelebitRemote;
var state = { homedir: os.homedir(), servernames: {}, ports: {}, keepAlive: { state: false } };
var argv = process.argv.slice(2);
var confIndex = argv.indexOf('--config');
var confpath;
var confargs;
if (-1 === confIndex) {
confIndex = argv.indexOf('-c');
}
if (-1 !== confIndex) {
confargs = argv.splice(confIndex, 2);
confpath = confargs[1];
}
var cancelUpdater = require('../lib/updater')(pkg);
function help() {
console.info(TPLS.daemon.help.main.replace(/{version}/g, pkg.version));
}
var verstr = [ pkg.name + ' daemon v' + pkg.version ];
if (-1 === confIndex) {
// We have two possible valid paths if no --config is given (i.e. run from an npm-only install)
// * {install}/etc/telebitd.yml
// * ~/.config/telebit/telebitd.yml
// We'll asume the later since the installers include --config in the system launcher script
confpath = common.DEFAULT_CONFIG_PATH;
verstr.push('(--config "' + confpath + '")');
}
if (-1 !== argv.indexOf('-h') || -1 !== argv.indexOf('--help')) {
help();
process.exit(0);
}
if (!confpath || /^--/.test(confpath)) {
help();
process.exit(1);
}
state._confpath = confpath;
var keystore = require('../lib/keystore.js').create({
name: "Telebit Daemon"
, configDir: path.basename(confpath)
});
var controlServer;
var myRemote;
function getServername(servernames, sub) {
if (state.servernames[sub]) {
return sub;
}
var names = Object.keys(servernames).map(function (servername) {
if ('*.' === servername.slice(0,2)) {
return servername;
}
return '*.' + servername;
}).sort(function (a, b) {
return b.length - a.length;
});
return names.filter(function (pattern) {
// '.example.com' = '*.example.com'.split(1)
var subPiece = pattern.slice(1);
// '.com' = 'sub.example.com'.slice(-4)
// '.example.com' = 'sub.example.com'.slice(-12)
if (subPiece === sub.slice(-subPiece.length)) {
return subPiece;
}
})[0];
}
/*global Promise*/
var _savingConfig = Promise.resolve();
function saveConfig(cb) {
// simple sequencing chain so that write corruption is not possible
_savingConfig = _savingConfig.then(function () {
return fsp.writeFile(confpath, YAML.safeDump(snakeCopy(state.config))).then(function () {
try {
cb();
} catch(e) {
console.error(e.stack);
process.exit(47);
}
}).catch(cb);
});
}
var controllers = {};
controllers.http = function (req, res) {
function getAppname(pathname) {
// port number
if (String(pathname) === String(parseInt(pathname, 10))) {
return String(pathname);
}
var paths = pathname.split(/[\\\/\:]/);
// rid trailing slash(es)
while (!paths[paths.length -1]) {
paths.pop();
}
var name = paths.pop();
name = path.basename(name, path.extname(name));
name = name.replace(/\./, '-').replace(/-+/, '-');
return name;
}
function assign(target, handler, indexes) {
target.handler = handler;
if (indexes) {
target.indexes = true;
} else {
delete target.indexes;
}
}
if (!req.body) {
res.statusCode = 422;
res.send({"error":{"message":"module \'http\' needs some arguments"}});
return;
}
var active = true;
var portOrPath = req.body.handler || req.body[0];
var subdomain = req.body.name || req.body[1];
var indexes = req.body.indexes;
var remoteHost;
if (!portOrPath) {
res.statusCode = 422;
res.send({ error: { message: "module 'http' needs port or path" } });
return;
}
var appname = getAppname(portOrPath);
// Assign an FQDN to brief subdomains
// ex: foo => foo.rando.telebit.cloud
if (subdomain && !/\./.test(subdomain)) {
Object.keys(state.servernames).some(function (key) {
if (state.servernames[key].wildcard) {
subdomain += '.' + key;
}
});
}
if ('none' === portOrPath || 'none' === subdomain) {
// ~/telebit http none // turn off all
// ~/telebit http none none // (same as above)
// ~/telebit http 3000 none // turn off this handler
// ~/telebit http none sub.example.com // turn off this subdomain
// ~/telebit http none sub // TODO
Object.keys(state.servernames).forEach(function (key) {
if ('none' === portOrPath && 'none' === subdomain) {
delete state.servernames[key].handler;
return;
}
if (state.servernames[key].handler === portOrPath) {
delete state.servernames[key].handler;
return;
}
if (!subdomain || key === subdomain) {
if (state.servernames[key].sub) {
delete state.servernames[key];
} else {
delete state.servernames[key].handler;
}
return;
}
});
if (state.servernames[subdomain]) {
// TODO remove all non-essential keys
delete state.servernames[subdomain].handler;
if (state.servernames[subdomain].sub) {
delete state.servernames[subdomain];
}
}
remoteHost = 'none';
} else if (subdomain && 'none' !== subdomain) {
// use a subdomain with this handler
var handlerName = getServername(state.servernames, subdomain);
if (!handlerName) {
active = false;
}
if (!state.servernames[subdomain]) {
state.servernames[subdomain] = { sub: true };
}
if ('none' === portOrPath) {
delete state.servernames[subdomain].handler;
} else {
assign(state.servernames[subdomain], portOrPath, indexes);
}
remoteHost = subdomain;
} else {
// just replace the default domain
if (!Object.keys(state.servernames).sort(function (a, b) {
return b.length - a.length;
}).some(function (key) {
if (state.servernames[key].handler === appname) {
// example.com.handler: 3000 // already set
remoteHost = key;
return true;
}
if (state.servernames[key].wildcard) {
//var prefix = appname + '.' + key;
var prefix = key;
if (!state.servernames[prefix]) {
state.servernames[prefix] = { sub: undefined };
}
assign(state.servernames[prefix], portOrPath, indexes);
remoteHost = prefix;
return true;
}
})) {
Object.keys(state.servernames).some(function (key) {
//var prefix = appname + '.' + key;
var prefix = key;
assign(state.servernames[key], portOrPath, indexes);
remoteHost = prefix;
return true;
});
}
}
state.config.servernames = state.servernames;
saveConfig(function (err) {
res.send({
success: true
, active: active
, remote: remoteHost
, local: portOrPath
, saved: !err
, module: 'http'
});
});
};
controllers.tcp = function (req, res) {
if (!req.body) {
res.statusCode = 422;
res.send({ error: { message: "module 'tcp' needs more arguments" } });
return;
}
var active;
var remotePort = req.body[1];
var portOrPath = req.body[0];
// portnum
if (remotePort) {
if (!state.ports[remotePort]) {
active = false;
} else {
// forward-to port-or-module
// TODO with the connect event bug fixed, we should now be able to send files over tcp
state.ports[remotePort].handler = portOrPath;
}
} else {
if (!Object.keys(state.ports).some(function (key) {
if (!state.ports[key].handler) {
state.ports[key].handler = portOrPath;
remotePort = key;
return true;
}
})) {
Object.keys(state.ports).some(function (key) {
state.ports[key].handler = portOrPath;
remotePort = key;
return true;
});
}
}
state.config.ports = state.ports;
saveConfig(function (err) {
res.send({
success: true
, active: active
, remote: remotePort
, local: portOrPath
, saved: !err
, module: 'tcp'
});
});
};
controllers.ssh = function (req, res) {
if (!req.body) {
res.statusCode = 422;
res.send({"error":{"message":"module 'ssh' needs more arguments"}});
return;
}
function sshSuccess() {
//state.config.sshAuto = state.sshAuto;
saveConfig(function (err) {
var local = state.config.sshAuto;
if (false !== local && !local) {
local = 22;
}
res.send({
success: true
, active: true
, remote: Object.keys(state.config.ports)[0]
, local: local
, saved: !err
, module: 'ssh'
});
});
}
var rawSshAuto = req.body.port || req.body[0];
var sshAuto = rawSshAuto;
if (-1 !== [ -1, 'false', 'none', 'off', 'disable' ].indexOf(sshAuto)) {
state.config.sshAuto = false;
sshSuccess();
return;
}
if (-1 !== [ 'true', 'auto', 'on', 'enable' ].indexOf(sshAuto)) {
state.config.sshAuto = 22;
sshSuccess();
return;
}
sshAuto = parseInt(sshAuto, 10);
if (!sshAuto || sshAuto <= 0 || sshAuto > 65535) {
res.statusCode = 400;
res.send({ error: { message: "bad ssh_auto option '" + rawSshAuto + "'" } });
return;
}
state.config.sshAuto = sshAuto;
sshSuccess();
};
controllers.relay = function (req, res) {
if (!req.body) {
res.statusCode = 422;
res.send({"error":{"message":"module \'relay\' needs more arguments"}});
return;
}
return urequestAsync(req.body).then(function (resp) {
resp = resp.toJSON();
res.send(resp);
});
};
controllers._nonces = {};
controllers._requireNonce = function (req, res, next) {
var nonce = req.jws && req.jws.header && req.jws.header.nonce;
var active = (Date.now() - controllers._nonces[nonce]) < (4 * 60 * 60 * 1000);
if (!active) {
// TODO proper headers and error message
res.send({ "error": "invalid or expired nonce", "error_code": "ENONCE" });
return;
}
delete controllers._nonces[nonce];
controllers._issueNonce(req, res);
next();
};
controllers._issueNonce = function (req, res) {
var nonce = toUrlSafe(crypto.randomBytes(16).toString('base64'));
// TODO associate with a TLS session
controllers._nonces[nonce] = Date.now();
res.setHeader("Replay-Nonce", nonce);
return nonce;
};
controllers.newNonce = function (req, res) {
res.statusCode = 200;
res.setHeader("Cache-Control", "max-age=0, no-cache, no-store");
// TODO
//res.setHeader("Date", "Sun, 10 Mar 2019 08:04:45 GMT");
// is this the expiration of the nonce itself? methinks maybe so
//res.setHeader("Expires", "Sun, 10 Mar 2019 08:04:45 GMT");
// TODO use one of the registered domains
//var indexUrl = "https://acme-staging-v02.api.letsencrypt.org/index"
var port = (state.config.ipc && state.config.ipc.port || state._ipc.port || undefined);
var indexUrl = "http://localhost:" + port + "/index";
res.setHeader("Link", "<" + indexUrl + ">;rel=\"index\"");
res.setHeader("Cache-Control", "max-age=0, no-cache, no-store");
res.setHeader("Pragma", "no-cache");
//res.setHeader("Strict-Transport-Security", "max-age=604800");
res.setHeader("X-Frame-Options", "DENY");
controllers._issueNonce(req, res);
res.end("");
};
controllers.newAccount = function (req, res) {
controllers._requireNonce(req, res, function () {
// TODO clean up error messages to be similar to ACME
// check if there's a public key
if (!req.jws || !req.jws.header.jwk) {
res.statusCode = 422;
res.send({ error: { message: "jws body was not present or could not be validated" } });
return;
}
// TODO mx record email validation
if (!Array.isArray(req.body.contact) || !req.body.contact.length && '127.0.0.1' !== req.connection.remoteAddress) {
// req.body.contact: [ 'mailto:email' ]
res.statusCode = 422;
res.send({ error: { message: "jws signed payload should contain a valid mailto:email in the contact array" } });
return;
}
if (!req.body.termsOfServiceAgreed) {
// req.body.termsOfServiceAgreed: true
res.statusCode = 422;
res.send({ error: { message: "jws signed payload should have termsOfServiceAgreed: true" } });
return;
}
// We verify here regardless of whether or not it was verified before,
// because it needs to be signed by the presenter of the public key,
// not just a trusted key
return verifyJws(req.jws.header.jwk, req.jws).then(function (verified) {
if (!verified) {
res.statusCode = 422;
res.send({ error: { message: "jws body failed verification" } });
return;
}
var jwk = req.jws.header.jwk;
return keypairs.thumbprint({ jwk: jwk }).then(function (thumb) {
// Note: we can get any number of account requests
// and these need to be stored for some space of time
// to await verification.
// we'll have to expire them somehow and prevent DoS
// check if this account already exists
var account;
DB.accounts.some(function (acc) {
// TODO calculate thumbprint from jwk
// find a key with matching jwk
if (acc.thumb === thumb) {
account = acc;
return true;
}
// TODO ACME requires kid to be the account URL (STUPID!!!)
// rather than the key id (as decided by the key issuer)
// not sure if it's necessary to handle it that way though
});
var myBaseUrl = (req.connection.encrypted ? 'https' : 'http') + '://' + req.headers.host;
if (!account) {
// fail if onlyReturnExisting is not false
if (req.body.onlyReturnExisting) {
res.statusCode = 422;
res.send({ error: { message: "onlyReturnExisting is set, so there's nothing to do" } });
return;
}
res.statusCode = 201;
account = {};
account._id = toUrlSafe(crypto.randomBytes(16).toString('base64'));
// TODO be better about this
account.location = myBaseUrl + '/acme/accounts/' + account._id;
account.thumb = thumb;
account.pub = jwk;
account.contact = req.body.contact;
account.useragent = req.headers["user-agent"];
DB.accounts.push(account);
state.config.accounts = DB.accounts;
saveConfig(function () {});
}
var result = {
status: 'valid'
, contact: account.contact // [ "mailto:john.doe@gmail.com" ],
, orders: account.location + '/orders'
// optional / off-spec
, id: account._id
, jwk: account.pub
/*
// I'm not sure if we have the real IP through telebit's network wrapper at this point
// TODO we also need to set X-Forwarded-Addr as a proxy
"initialIp": req.connection.remoteAddress, //"128.187.116.28",
"createdAt": (new Date()).toISOString(), // "2018-04-17T21:29:10.833305103Z",
*/
};
res.setHeader('Location', account.location);
res.send(result);
/*
Cache-Control: max-age=0, no-cache, no-store
Content-Type: application/json
Expires: Tue, 17 Apr 2018 21:29:10 GMT
Link: <https://letsencrypt.org/documents/LE-SA-v1.2-November-15-2017.pdf>;rel="terms-of-service"
Location: https://acme-staging-v02.api.letsencrypt.org/acme/acct/5937234
Pragma: no-cache
Replay-nonce: DKxX61imF38y_qkKvVcnWyo9oxQlHll0t9dMwGbkcxw
*/
});
});
});
};
controllers.acmeAccounts = function (req, res) {
if (!req.jws || !req.jws.verified) {
res.statusCode = 400;
res.send({"error":{"message": "this type of requests must be encoded as a jws payload"
+ " and signed by a known account holder"}});
return;
}
var account;
var accountId = req.params[0];
DB.accounts.some(function (acc) {
// TODO calculate thumbprint from jwk
// find a key with matching jwk
if (acc._id === accountId) {
account = acc;
return true;
}
});
// TODO check that the JWS matches the accountI
console.warn("[warn] account ID still acts as secret, should use JWS kid for verification");
res.send(account);
};
function jsonEggspress(req, res, next) {
/*
var opts = url.parse(req.url, true);
if (false && opts.query._body) {
try {
req.body = JSON.parse(decodeURIComponent(opts.query._body, true));
} catch(e) {
res.statusCode = 500;
res.end('{"error":{"message":"?_body={{bad_format}}"}}');
return;
}
}
*/
var hasLength = req.headers['content-length'] > 0;
if (!hasLength && !req.headers['content-type']) {
next();
return;
}
var body = '';
req.on('readable', function () {
var data;
while (true) {
data = req.read();
if (!data) { break; }
body += data.toString();
}
});
req.on('end', function () {
try {
req.body = JSON.parse(body);
} catch(e) {
res.statusCode = 400;
res.send({"error":{"message":"POST body is not valid json"}});
return;
}
next();
});
}
function decodeJwt(jwt) {
var parts = jwt.split('.');
var jws = {
protected: parts[0]
, payload: parts[0]
, signature: parts[2] //Buffer.from(parts[2], 'base64')
};
jws.header = JSON.parse(Buffer.from(jws.protected, 'base64'));
jws.claims = JSON.parse(Buffer.from(jws.payload, 'base64'));
return jws;
}
function jwtEggspress(req, res, next) {
var jwt = (req.headers.authorization||'').replace(/Bearer /i, '');
if (!jwt) { next(); return; }
try {
req.jwt = decodeJwt(jwt);
} catch(e) {
// ignore
next();
return;
}
if (!req.jwt.header.kid) {
res.send({ error: { message: "JWT must include a SHA thumbprint as the 'kid' (key id)" } });
return;
}
// TODO verify if possible
console.warn("[warn] JWT is not verified yet");
// A failed JWS should cause a failed JWT
if (false !== req.trusted) {
req.trusted = true;
}
next();
}
// TODO switch to Keypairs.js / Keyfetch.js
function verifyJws(jwk, jws) {
return keypairs.export({ jwk: jwk }).then(function (pem) {
var alg = 'SHA' + jws.header.alg.replace(/[^\d]+/i, '');
var sig = ecdsaAsn1SigToJwtSig(jws.header.alg, jws.signature);
return crypto
.createVerify(alg)
.update(jws.protected + '.' + jws.payload)
.verify(pem, sig, 'base64');
});
}
function jwsEggspress(req, res, next) {
// Check to see if this looks like a JWS
// TODO check header application/jose+json ??
if (!req.body || !(req.body.protected && req.body.payload && req.body.signature)) {
next();
return;
}
// Decode it a bit
req.jws = req.body;
req.jws.header = JSON.parse(Buffer.from(req.jws.protected, 'base64'));
req.body = Buffer.from(req.jws.payload, 'base64');
if ('{'.charCodeAt(0) === req.body[0] || '['.charCodeAt(0) === req.body[0]) {
req.body = JSON.parse(req.body);
}
var ua = req.headers['user-agent'];
var trusted = false;
var vjwk;
var pubs;
var kid = req.jws.header.kid;
var p = Promise.resolve();
if (!kid && !req.jws.header.jwk) {
res.send({ error: { message: "jws protected header must include either 'kid' or 'jwk'" } });
return;
}
if (req.jws.header.jwk) {
if (kid) {
res.send({ error: { message: "jws protected header must not include both 'kid' and 'jwk'" } });
return;
}
kid = req.jws.header.jwk.kid;
p = Keypairs.thumbprint({ jwk: req.jws.header.jwk }).then(function (thumb) {
if (kid && kid !== thumb) {
res.send({ error: { message: "jwk included 'kid' for key id, but it did not match the key's thumbprint" } });
return;
}
kid = thumb;
req.jws.header.jwk.kid = thumb;
});
}
// Check if this is a key we already trust
DB.pubs.some(function (jwk) {
if (jwk.kid === kid) {
trusted = true;
vjwk = jwk;
return true;
}
});
// Check for CLI or Browser User-Agent
// (both should connect as part of setup)
if (/Telebit/i.test(ua) && !/Mozilla/i.test(ua)) {
pubs = DB.pubs.filter(function (jwk) {
if (/Telebit/i.test(jwk.useragent) && !/Mozilla/i.test(jwk.useragent)) {
return true;
}
});
} else {
pubs = DB.pubs.filter(function (jwk) {
if (!/Telebit/i.test(jwk.useragent) || /Mozilla/i.test(jwk.useragent)) {
return true;
}
});
}
p.then(function () {
// Check if there aren't any keys that we trust
// and this has signed itself, then make it a key we trust
// (TODO: move this all to the new account function)
if (0 === pubs.length) { trusted = true; }
if (!vjwk) { vjwk = req.jws.header.jwk; }
// Don't verify if it can't be verified
if (!vjwk) { return null; }
// Run the verification
return p.then(function () {
return verifyJws(vjwk, req.jws).then(function (verified) {
if (true !== verified) { return null; }
// Mark as verified
req.jws.verified = verified;
req.jws.trusted = trusted;
vjwk.useragent = ua;
// (double check) DO NOT save if there are existing pubs
if (0 !== pubs.length) { return null; }
DB.pubs.push(vjwk);
return keystore.set(vjwk.kid + PUBEXT, vjwk);
});
});
}).then(function () {
// a failed JWT should cause a failed JWS
if (false !== req.trusted) {
req.trusted = req.jws.trusted;
}
next();
});
}
function handleApi() {
var app = eggspress();
app.use('/', jwtEggspress);
app.use('/', jsonEggspress);
app.use('/', jwsEggspress);
app.use('/', function (req, res, next) {
if (req.jwt) {
console.log('jwt', req.jwt);
} else if (req.jws) {
console.log('jws', req.jws);
console.log('body', req.body);
}
next();
});
function listSuccess(req, res) {
var dumpy = {
servernames: state.servernames
, ports: state.ports
, ssh: state.config.sshAuto || 'disabled'
, code: 'CONFIG'
};
if (state.otp) {
dumpy.device_pair_code = state.otp;
}
if (state._can_pair && state.config.email && !state.token) {
dumpy.code = "AWAIT_AUTH";
dumpy.message = "Please run 'telebit init' to authenticate.";
}
res.send(dumpy);
}
function getConfigOnly(req, res) {
var resp = JSON.parse(JSON.stringify(state.config));
resp.version = pkg.version;
resp._otp = state.otp;
res.send(resp);
}
//
// without proper config
//
function saveAndReport(req, res) {
console.log('[DEBUG] saveAndReport config write', confpath);
console.log(YAML.safeDump(snakeCopy(state.config)));
fs.writeFile(confpath, YAML.safeDump(snakeCopy(state.config)), function (err) {
if (err) {
res.statusCode = 500;
res.send({"error":{"message":"Could not save config file after init: " + err.message.replace(/"/g, "'")
+ ".\nPerhaps check that the file exists and your user has permissions to write it?"}});
return;
}
listSuccess(req, res);
});
}
function initOrConfig(req, res) {
var conf = {};
if (!req.body) {
res.statusCode = 422;
res.send({"error":{"message":"module 'init' needs more arguments"}});
return;
}
if (Array.isArray(req.body)) {
// relay, email, agree_tos, servernames, ports
//
req.body.forEach(function (opt) {
var parts = opt.split(/:/);
if ('true' === parts[1]) {
parts[1] = true;
} else if ('false' === parts[1]) {
parts[1] = false;
} else if ('null' === parts[1]) {
parts[1] = null;
} else if ('undefined' === parts[1]) {
parts[1] = undefined;
}
conf[parts[0]] = parts[1];
});
} else {
conf = req.body;
}
conf = camelCopy(conf);
// TODO deep merge
// greenlock config
if (!state.config.greenlock) { state.config.greenlock = {}; }
if (conf.greenlock) {
if ('undefined' !== typeof conf.greenlock.agree) {
state.config.greenlock.agree = conf.greenlock.agree;
}
if (conf.greenlock.server) { state.config.greenlock.server = conf.greenlock.server; }
if (conf.greenlock.version) { state.config.greenlock.version = conf.greenlock.version; }
}
// main config
if (conf.email) { state.config.email = conf.email; }
if (conf.relay) { state.config.relay = conf.relay; }
if (conf.token) { state.config.token = conf.token; }
if (conf.secret) { state.config.secret = conf.secret; }
if ('undefined' !== typeof conf.agreeTos) {
state.config.agreeTos = conf.agreeTos;
}
// to state
if (conf.pretoken) { state.pretoken = conf.pretoken; }
if (conf._otp) {
state.otp = conf._otp; // TODO should this only be done on the client side?
delete conf._otp;
}
console.log();
console.log('conf.token', typeof conf.token, conf.token);
console.log('state.config.token', typeof state.config.token, state.config.token);
if (state.secret) { console.log('state.secret'); state.token = common.signToken(state); }
if (!state.token) { console.log('!state.token'); state.token = conf._token; }
console.log();
console.log('JSON.stringify(conf)');
console.log(JSON.stringify(conf));
console.log();
console.log('JSON.stringify(state)');
console.log(JSON.stringify(state));
console.log();
if ('undefined' !== typeof conf.newsletter) {
state.config.newsletter = conf.newsletter;
}
if ('undefined' !== typeof conf.communityMember
|| 'undefined' !== typeof conf.community_member) {
state.config.communityMember = conf.communityMember || conf.community_member;
}
if ('undefined' !== typeof conf.telemetry) {
state.config.telemetry = conf.telemetry;
}
if (conf._servernames) {
(conf._servernames||'').split(/,/g).forEach(function (key) {
if (!state.config.servernames[key]) {
state.config.servernames[key] = { sub: undefined };
}
});
}
if (conf._ports) {
(conf._ports||'').split(/,/g).forEach(function (key) {
if (!state.config.ports[key]) {
state.config.ports[key] = {};
}
});
}
if (!state.config.relay || !state.config.email || !state.config.agreeTos) {
console.warn('missing config');
res.statusCode = 400;
res.send({
error: {
code: "E_INIT"
, message: "Missing important config file params"
, _params: JSON.stringify(conf)
, _config: JSON.stringify(state.config)
, _body: JSON.stringify(req.body)
}
});
return;
}
// init also means enable
delete state.config.disable;
safeStartTelebitRemote(true).then(function () {
saveAndReport(req, res);
}).catch(handleError);
}
function restart(req, res) {
console.info("[telebitd.js] server closing...");
state.keepAlive.state = false;
if (myRemote) {
myRemote.end();
myRemote.on('end', respondAndClose);
// failsafe
setTimeout(function () {
console.info("[telebitd.js] closing too slowly, force quit");
respondAndClose();
}, 5 * 1000);
} else {
respondAndClose();
}
function respondAndClose() {
res.send({ success: true });
controlServer.close(function () {
console.info("[telebitd.js] server closed");
setTimeout(function () {
// system daemon will restart the process
process.exit(22); // use non-success exit code
}, 100);
});
}
}
function mustHaveValidConfig(req, res, next) {
//
// Check for proper config
//
if (state.config.relay && state.config.email && state.config.agreeTos) {
next();
return;
}
res.statusCode = 400;
res.send({
error: { code: "E_CONFIG", message: "Invalid config file. Please run 'telebit init'" }
});
}
function saveAndCommit(req, res) {
state.config.servernames = state.servernames;
state.config.ports = state.ports;
fs.writeFile(confpath, YAML.safeDump(snakeCopy(state.config)), function (err) {
if (err) {
res.statusCode = 500;
res.send({
"error":{"message":"Could not save config file. Perhaps you're not running as root?"}
});
return;
}
listSuccess(req, res);
});
}
function handleError(err, req, res) {
res.statusCode = 500;
res.send({
error: { message: err.message, code: err.code }
});
}
function enable(req, res) {
delete state.config.disable;// = undefined;
state.keepAlive.state = true;
fs.writeFile(confpath, YAML.safeDump(snakeCopy(state.config)), function (err) {
if (err) {
err.message = "Could not save config file. Perhaps you're user doesn't have permission?";
handleError(err, req, res);
return;
}
// TODO XXX myRemote.active
if (myRemote) {
listSuccess(req, res);
return;
}
safeStartTelebitRemote(true).then(function () {
listSuccess(req, res);
}).catch(function () {
handleError(err, req, res);
});
});
}
function disable(req, res) {
state.config.disable = true;
state.keepAlive.state = false;
if (myRemote) { myRemote.end(); myRemote = null; }
fs.writeFile(confpath, YAML.safeDump(snakeCopy(state.config)), function (err) {
if (err) {
err.message = "Could not save config file. Perhaps you're user doesn't have permission?";
handleError(err);
return;
}
res.send({"success":true});
});
}
function getStatus(req, res) {
var now = Date.now();
require('../lib/ssh.js').checkSecurity().then(function (ssh) {
res.send(
{ module: 'status'
, version: pkg.version
, port: (state.config.ipc && state.config.ipc.port || state._ipc.port || undefined)
, enabled: !state.config.disable
, active: !!myRemote
, initialized: (state.config.relay && state.config.token && state.config.agreeTos) ? true : false
, connected: isConnected
//, proctime: Math.round(process.uptime() * 1000)
, uptime: now - startTime
, runtime: isConnected && connectTimes.length && (now - connectTimes[0]) || 0
, reconnects: connectTimes.length
, servernames: state.servernames
, ssh: state.config.sshAuto
, ssh_permit_root_login: ssh.permit_root_login
, ssh_password_authentication: ssh.password_authentication
, ssh_requests_password: ssh.requests_password
}
);
});
}
// TODO turn strings into regexes to match beginnings
app.get('/.well-known/openid-configuration', function (req, res) {
res.setHeader("Access-Control-Allow-Headers", "Content-Type");
res.setHeader("Access-Control-Allow-Origin", "*");
res.setHeader("Access-Control-Expose-Headers", "Link, Replay-Nonce, Location");
res.setHeader("Access-Control-Max-Age", "86400");
if ('OPTIONS' === req.method) { res.end(); return; }
res.send({
jwks_uri: 'http://localhost/.well-known/jwks.json'
, acme_uri: 'http://localhost/acme/directory'
});
});
app.use('/acme', function acmeCors(req, res, next) {
// Taken from New-Nonce
res.setHeader("Access-Control-Allow-Headers", "Content-Type");
res.setHeader("Access-Control-Allow-Origin", "*");
res.setHeader("Access-Control-Expose-Headers", "Link, Replay-Nonce, Location");
res.setHeader("Access-Control-Max-Age", "86400");
if ('OPTIONS' === req.method) { res.end(); return; }
next();
});
app.get('/acme/directory', function (req, res) {
var myBaseUrl = (req.connection.encrypted ? 'https' : 'http') + '://' + req.headers.host;
res.send({
'newNonce': '/acme/new-nonce'
, 'newAccount': '/acme/new-acct'
// TODO link to the terms that the user selects
, 'meta': { 'termsOfService': myBaseUrl + '/acme/terms.html' }
});
});
app.head('/acme/new-nonce', controllers.newNonce);
app.get('/acme/new-nonce', controllers.newNonce);
app.post('/acme/new-acct', controllers.newAccount);
function mustTrust(req, res, next) {
// TODO public routes should be explicitly marked
// trusted should be the default
if (!req.trusted) {
res.statusCode = 400;
res.send({"error":{"message": "this type of requests must be encoded as a jws payload"
+ " and signed by a trusted account holder"}});
return;
}
next();
}
// TODO convert /acme/accounts/:account_id into a regex
app.get(/^\/acme\/accounts\/([\w]+)/, controllers.acmeAccounts);
// POST-as-GET
app.post(/^\/acme\/accounts\/([\w]+)/, controllers.acmeAccounts);
app.use(/\b(relay)\b/, mustTrust, controllers.relay);
app.get(/\b(config)\b/, mustTrust, getConfigOnly);
app.use(/\b(init|config)\b/, mustTrust, initOrConfig);
app.use(/\b(restart)\b/, mustTrust, restart);
// Position is important with eggspress
// This should stay here, right before the other methods
app.use('/', mustHaveValidConfig);
//
// With proper config
//
app.use(/\b(http)\b/, mustTrust, controllers.http);
app.use(/\b(tcp)\b/, mustTrust, controllers.tcp);
app.use(/\b(save|commit)\b/, mustTrust, saveAndCommit);
app.use(/\b(ssh)\b/, mustTrust, controllers.ssh);
app.use(/\b(enable)\b/, mustTrust, enable);
app.use(/\b(disable)\b/, mustTrust, disable);
app.use(/\b(status)\b/, mustTrust, getStatus);
app.use(/\b(list)\b/, mustTrust, listSuccess);
app.use('/', function (req, res) {
res.send({"error":{"message":"unrecognized rpc: [" + req.method + "] " + req.url + "\n"
+ JSON.stringify(req.headers) + "\n"
+ JSON.stringify(req.body) + "\n"
}});
});
return app;
}
function serveControlsHelper() {
var app = eggspress();
var serveStatic = require('serve-static')(path.join(__dirname, '../lib/admin/'));
var apiHandler = handleApi();
app.use('/rpc/', apiHandler);
app.use('/api/', apiHandler);
app.use('/acme/', apiHandler);
app.use('/', serveStatic);
controlServer = http.createServer(app);
if (fs.existsSync(state._ipc.path)) {
fs.unlinkSync(state._ipc.path);
}
// mask is so that processes owned by other users
// can speak to this process, which is probably root-owned
var oldUmask = process.umask(0x0000);
var serverOpts = {
writableAll: true
, readableAll: true
, exclusive: false
};
if (!state.config.ipc) {
state.config.ipc = {};
}
if (!state.config.ipc.path) {
state.config.ipc.path = path.dirname(state._ipc.path);
}
require('mkdirp').sync(state.config.ipc.path);
if (!state.config.ipc.type) {
state.config.ipc.type = 'port';
}
var portFile = path.join(state.config.ipc.path, 'telebit.port');
if (fs.existsSync(portFile)) {
state._ipc.port = parseInt(fs.readFileSync(portFile, 'utf8').trim(), 10);
}
if ('socket' === state._ipc.type) {
require('mkdirp').sync(path.dirname(state._ipc.path));
}
// https://nodejs.org/api/net.html#net_server_listen_options_callback
// path is ignore if port is defined
// https://git.coolaj86.com/coolaj86/telebit.js/issues/23#issuecomment-326
if ('port' === state.config.ipc.type) {
serverOpts.host = 'localhost';
serverOpts.port = state._ipc.port || 0;
} else {
serverOpts.path = state._ipc.path;
}
controlServer.listen(serverOpts, function () {
process.umask(oldUmask);
var address = this.address();
if (address.port) {
common.setPort(state.config, address.port);
}
//console.log(this.address());
console.info("[info] Listening for commands on", address);
});
controlServer.on('error', function (err) {
if ('EADDRINUSE' === err.code) {
try {
fs.unlinkSync(portFile);
} catch(e) {
// nada
}
setTimeout(function () {
console.log("Could not start control server (%s), trying again...", err.code);
console.log(portFile);
console.log(serverOpts);
serveControlsHelper();
}, 1000);
return;
}
console.error('failed to start c&c server:', err);
});
}
function serveControls() {
serveControlsHelper();
if (state.config.disable) {
console.info("[info] starting disabled");
return;
}
// This will remain in a disconnect state and wait for an init
if (!(state.config.relay && (state.config.token || state.config.pretoken))) {
console.info("[info] waiting for init/authentication (missing relay and/or token)");
return;
}
console.info("[info] connecting with stored token");
return safeStartTelebitRemote().catch(function (err) {
// ignore, it'll keep looping anyway
console.warn("[debug] error that (supposedly) shouldn't matter:");
console.warn(err);
});
}
function parseConfig(err, text) {
function run() {
if (!state.config) {
state.config = {};
}
common._init(
state.config.root || path.join(os.homedir(), '.local/share/telebit') // || path.join(__dirname, '..')
, (state.config.root && path.join(state.config.root, 'etc')) || path.resolve(common.DEFAULT_CONFIG_PATH, '..')
);
state._ipc = common.pipename(state.config, true);
console.info('');
console.info(verstr.join(' '));
if (!state.config.sock) {
console.info('(' + state._ipc.comment + ': "' + state._ipc.path + '")');
}
console.info('');
state.token = state.token || state.config.token || token;
state.pretoken = state.pretoken || state.config.pretoken;
state._confpath = confpath;
if (!state.config.servernames) {
state.config.servernames = {};
}
if (!state.config.ports) {
state.config.ports = {};
}
state.servernames = JSON.parse(JSON.stringify(state.config.servernames));
state.ports = JSON.parse(JSON.stringify(state.config.ports));
serveControls();
}
try {
state.config = JSON.parse(text || '{}');
} catch(e1) {
try {
state.config = YAML.safeLoad(text || '{}');
} catch(e2) {
console.error(e1.message);
console.error(e2.message);
process.exit(1);
return;
}
}
state.config = camelCopy(state.config || {}) || {};
DB.accounts = state.config.accounts || [];
run();
if ((err && 'ENOENT' === err.code) || !Object.keys(state.config).length) {
if (!err || 'ENOENT' === err.code) {
console.warn("Empty config file. Run 'telebit init' to configure.\n");
} else {
console.warn("Couldn't load config:\n\n\t" + err.message + "\n");
}
}
}
function approveDomains(opts, certs, cb) {
// Even though it's being tunneled by a trusted source
// we need to make sure we don't get rate-limit spammed
// with wildcard domains
// TODO: finish implementing dynamic dns for wildcard certs
if (getServername(state.servernames, opts.domains[0])) {
opts.email = state.greenlockConf.email || state.config.email;
opts.agreeTos = state.greenlockConf.agree || state.greenlockConf.agreeTos || state.config.agreeTos;
cb(null, { options: opts, certs: certs });
return;
}
cb(new Error("servername not found in allowed list"));
}
function greenlockHelper(state) {
// TODO Check undefined vs false for greenlock config
state.greenlockConf = state.config.greenlock || {};
state.greenlockConfig = {
version: state.greenlockConf.version || 'draft-11'
, server: state.greenlockConf.server || 'https://acme-v02.api.letsencrypt.org/directory'
, communityMember: state.greenlockConf.communityMember || state.config.communityMember
, _communityPackage: 'telebit.js'
, telemetry: state.greenlockConf.telemetry || state.config.telemetry
, configDir: state.greenlockConf.configDir
|| (state.config.root && path.join(state.config.root, 'etc/acme'))
|| path.join(os.homedir(), '.config/telebit/acme')
// TODO, store: require(state.greenlockConf.store.name || 'le-store-certbot').create(state.greenlockConf.store.options || {})
, approveDomains: approveDomains
};
state.insecure = state.config.relay_ignore_invalid_certificates;
}
function promiseTimeout(t) {
return new PromiseA(function (resolve) {
setTimeout(resolve, t);
});
}
var promiseWss = PromiseA.promisify(function (state, fn) {
return common.api.wss(state, fn);
});
var trPromise;
function safeStartTelebitRemote(forceOn) {
// whatever is currently going will not restart
state.keepAlive.state = false;
if (trPromise && !forceOn) { return trPromise; }
// if something is running, this will kill it
// (TODO option to use known-good active instead of restarting)
// this won't restart either
trPromise = rawStartTelebitRemote(state.keepAlive);
trPromise.then(function () {
console.log("[debug] success on raw start, keepAlive = true");
state.keepAlive.state = true;
trPromise = null;
}).catch(function () {
console.log("[debug] failure on raw start, { keepAlive = true }");
// this will restart
state.keepAlive = { state: true };
trPromise = rawStartTelebitRemote(state.keepAlive);
trPromise.then(function () {
console.log("[debug] success on 2nd start keepAlive:", state.keepAlive.state);
trPromise = null;
}).catch(function () {
console.log("[debug] failure on 2nd start. keepAlive", state.keepAlive.state);
trPromise = null;
});
});
return trPromise;
}
function rawStartTelebitRemote(keepAlive) {
var err;
var exiting = false;
var localRemote = myRemote;
myRemote = null;
if (localRemote) { /*console.log('DEBUG destroy() existing');*/ localRemote.destroy(); }
function safeReload(delay) {
if (exiting) {
// return a junk promise as the prior call
// already passed flow-control to the next promise
// (this is a second or delayed error or close event)
return PromiseA.resolve();
}
exiting = true;
// TODO state.keepAlive?
return promiseTimeout(delay).then(function () {
return rawStartTelebitRemote(keepAlive);
});
}
if (state.config.disable) {
//console.log('DEBUG disabled or incapable');
err = new Error("connecting is disabled");
err.code = 'EDISABLED';
return PromiseA.reject(err);
}
if (!(state.config.token || state.config.agreeTos)) {
//console.log('DEBUG Must agreeTos to generate preauth');
err = new Error("Must either supply token (for auth) or agreeTos (for preauth)");
err.code = 'ENOAGREE';
return PromiseA.reject(err);
}
state.relay = state.config.relay;
if (!state.relay) {
//console.log('DEBUG no relay');
err = new Error("'" + state._confpath + "' is missing 'relay'");
err.code = 'ENORELAY';
return PromiseA.reject(err);
}
// TODO: we need some form of pre-authorization before connecting,
// otherwise we'll get disconnected pretty quickly
if (!(state.token || state.pretoken)) {
//console.log('DEBUG no token');
err = new Error("no jwt token or preauthorization");
err.code = 'ENOAUTH';
return PromiseA.reject(err);
}
return PromiseA.resolve().then(function () {
//console.log('DEBUG rawStartTelebitRemote');
function startHelper() {
//console.log('DEBUG startHelper');
greenlockHelper(state);
// Saves the token
// state.handlers.access_token({ jwt: token });
// Adds the token to the connection
// tun.append(token);
//console.log("[DEBUG] token", typeof token, token);
//state.sortingHat = state.config.sortingHat;
// { relay, config, servernames, ports, sortingHat, net, insecure, token, handlers, greenlockConfig }
return new PromiseA(function (myResolve, myReject) {
function reject(err) {
if (myReject) {
myReject(err);
myResolve = null;
myReject = null;
} else {
//console.log('DEBUG double rejection');
}
}
function resolve(val) {
//console.log('[DEBUG] pre-resolve');
if (myResolve) {
myResolve(val);
myResolve = null;
myReject = null;
} else {
//console.log('DEBUG double resolution');
}
}
function onConnect() {
isConnected = true;
connectTimes.unshift(Date.now());
console.info('[connect] relay established');
myRemote.removeListener('error', onConnectError);
myRemote.once('error', function (err) {
console.log("[debug] Error after connect.");
console.log(err);
if (!keepAlive.state) {
reject(err);
return;
}
retryLoop();
});
resolve(myRemote);
return;
}
function onConnectError(err) {
myRemote = null;
isConnected = false;
if (handleError(err, 'onConnectError')) {
if (!keepAlive.state) {
reject(err);
return;
}
safeReload(10 * 1000).then(resolve).catch(reject);
return;
}
console.error('[Error] onConnectError: no retry (possibly bad auth):');
console.error(err);
reject(err);
return;
}
function retryLoop() {
isConnected = false;
console.warn('[Warn] disconnected. Will retry?', keepAlive.state);
if (keepAlive.state) {
safeReload(10 * 1000).then(resolve).catch(reject);
}
}
myRemote = TelebitRemote.createConnection({
relay: state.relay
, wss: state.wss
, config: state.config
, otp: state.otp
, sortingHat: state.config.sortingHat
, net: state.net
, insecure: state.insecure
, token: state.token || state.pretoken // instance
, servernames: state.servernames
, ports: state.ports
, handlers: state.handlers
, greenlockConfig: state.greenlockConfig
}, onConnect);
myRemote.once('error', onConnectError);
myRemote.once('close', retryLoop);
myRemote.on('grant', state.handlers.grant);
myRemote.on('access_token', state.handlers.access_token);
});
}
if (state.wss) {
return startHelper();
}
function handleError(err, prefix) {
// Likely causes:
// * DNS lookup failed (no Internet)
// * Rejected (bad authn)
if ('ENOTFOUND' === err.code) {
// DNS issue, probably network is disconnected
err.message = [
'[warn] (' + prefix + '): DNS address not found.'
, ' Either the remote does not exist or local network is down or blocked.'
, ' You might check wifi, eth, paywall, etc.'
].join('\n');
if (keepAlive.error !== err.code) {
console.warn(err.message);
keepAlive.error = err.code;
console.warn("(retrying silently)");
}
return true;
} else if ('ECONNREFUSED' === err.code) {
// Server issue. If it's the development server, it's probably down
err.message = [
'[warn] onConnectError: Connection Refused.'
, ' Either the remote does not exist or local network is blocking it.'
, ' Is the relay service provider\'s website up? Did you make a typo?'
, ' Is there a local firewall or paywall? Might the relay be otherwise blocked?'
].join('\n');
if (keepAlive.error !== err.code) {
console.warn(err.message);
keepAlive.error = err.code;
console.warn("(retrying silently)");
}
return true;
}
}
// get the wss url
function retryWssLoop(err) {
if (!keepAlive.state) {
console.log("[debug] error getting wss url:");
console.log(err);
return PromiseA.reject(err);
}
myRemote = null;
if (handleError(err, 'retryWssLoop')) {
// Always retry at this stage. It *is* a connectivity problem.
// Since the internet is disconnected, try again and again and again.
return safeReload(2 * 1000);
} else {
console.error("[error] retryWssLoop (will not retry):");
console.error(err.message);
return PromiseA.reject(err);
}
}
// It makes since for this to be in here because the server
// could be restarting to force a change of the metadata
return promiseWss(state).then(function (wss) {
state.wss = wss;
console.log("[debug] got wss url");
keepAlive.error = null;
return startHelper();
}).catch(retryWssLoop);
});
}
state.handlers = {
grant: function (grants) {
console.info("");
console.info("Connect to your device by any of the following means:");
console.info("");
grants.forEach(function (arr) {
if ('https' === arr[0]) {
if (!state.servernames[arr[1]]) {
state.servernames[arr[1]] = {};
}
state.servernames[arr[1]].wildcard = true;
} else if ('tcp' === arr[0]) {
if (!state.ports[arr[2]]) {
state.ports[arr[2]] = {};
}
}
if ('ssh+https' === arr[0]) {
console.info("SSH+HTTPS");
} else if ('ssh' === arr[0]) {
console.info("SSH");
} else if ('tcp' === arr[0]) {
console.info("TCP");
} else if ('https' === arr[0]) {
console.info("HTTPS");
}
console.info('\t' + arr[0] + '://' + arr[1] + (arr[2] ? (':' + arr[2]) : ''));
if ('ssh+https' === arr[0]) {
console.info("\tex: ssh -o ProxyCommand='openssl s_client -connect %h:%p -servername %h -quiet' " + arr[1] + " -p 443\n");
} else if ('ssh' === arr[0]) {
console.info("\tex: ssh " + arr[1] + " -p " + arr[2] + "\n");
} else if ('tcp' === arr[0]) {
console.info("\tex: netcat " + arr[1] + " " + arr[2] + "\n");
} else if ('https' === arr[0]) {
console.info("\tex: curl https://" + arr[1] + "\n");
}
});
}
, access_token: function (opts) {
if ('undefined' === opts.jwt || !opts.jwt) {
console.error("Granted empty access token... ??");
console.error(JSON.stringify(opts));
return;
}
state.token = opts.jwt || opts.access_token;
// TODO don't put token in config
state.config.token = opts.jwt || opts.access_token;
console.info("Placing new token in keystore.");
try {
fs.writeFileSync(confpath, YAML.safeDump(snakeCopy(state.config)));
} catch (e) {
console.error("Token not saved:");
console.error(e);
}
return keystore.set("access_token.jwt", opts.jwt || opts.access_token).catch(function (e) {
console.error("Token not saved:");
console.error(e);
});
}
};
function sigHandler() {
process.removeListener('SIGINT', sigHandler);
console.info('Received kill signal. Attempting to exit cleanly...');
state.keepAlive.state = false;
// We want to handle cleanup properly unless something is broken in our cleanup process
// that prevents us from exitting, in which case we want the user to be able to send
// the signal again and exit the way it normally would.
if (myRemote) {
myRemote.end();
myRemote = null;
}
if (controlServer) {
controlServer.close();
}
cancelUpdater();
}
// reverse 2FA otp
process.on('SIGINT', sigHandler);
state.net = state.net || {
createConnection: function (info, cb) {
// data is the hello packet / first chunk
// info = { data, servername, port, host, remoteFamily, remoteAddress, remotePort }
var net = require('net');
// socket = { write, push, end, events: [ 'readable', 'data', 'error', 'end' ] };
var socket = net.createConnection({ port: info.port, host: info.host }, cb);
return socket;
}
};
var DB = {};
DB.pubs = [];
DB.accounts = [];
var token;
var tokenname = "access_token.jwt";
try {
// backwards-compatibility shim
var tokenpath = path.join(path.dirname(state._confpath), 'access_token.txt');
token = fs.readFileSync(tokenpath, 'ascii').trim();
keystore.set(tokenname, token).then(onKeystore).catch(function (err) {
console.error('keystore failure:');
console.error(err);
});
} catch(e) { onKeystore(); }
function onKeystore() {
return keystore.all().then(function (list) {
var key;
list.forEach(function (el) {
// find key
if (KEYEXT === el.account.slice(-KEYEXT.length)
&& el.password.kty && el.password.kid) {
key = el.password;
return;
}
// find token
if (tokenname === el.account) {
token = el.password;
return;
}
// find trusted public keys
// (if we sign these we could probably just store them to the fs,
// but we do want some way to know that they weren't just willy-nilly
// added to the fs my any old program)
if (PUBEXT === el.account.slice(-PUBEXT.length)) {
// pre-parsed
DB.pubs.push(el.password);
return;
}
console.log("unrecognized password: %s", el.account);
});
if (key) {
state.key = key;
state.pub = keypairs.neuter({ jwk: key });
fs.readFile(confpath, 'utf8', parseConfig);
return;
}
return keypairs.generate().then(function (pair) {
var jwk = pair.private;
return keypairs.thumbprint({ jwk: jwk }).then(function (kid) {
jwk.kid = kid;
return keystore.set(kid + KEYEXT, jwk).then(function () {
var size = (jwk.crv || Buffer.from(jwk.n, 'base64').byteLength * 8);
console.info("Generated new %s %s private key with thumbprint %s", jwk.kty, size, kid);
state.key = jwk;
fs.readFile(confpath, 'utf8', parseConfig);
});
});
});
});
}
}());
function ecdsaAsn1SigToJwtSig(alg, b64sig) {
// ECDSA JWT signatures differ from "normal" ECDSA signatures
// https://tools.ietf.org/html/rfc7518#section-3.4
if (!/^ES/i.test(alg)) { return b64sig; }
var bufsig = Buffer.from(b64sig, 'base64');
var hlen = bufsig.byteLength / 2; // should be even
var r = bufsig.slice(0, hlen);
var s = bufsig.slice(hlen);
// unpad positive ints less than 32 bytes wide
while (!r[0]) { r = r.slice(1); }
while (!s[0]) { s = s.slice(1); }
// pad (or re-pad) ambiguously non-negative BigInts to 33 bytes wide
if (0x80 & r[0]) { r = Buffer.concat([Buffer.from([0]), r]); }
if (0x80 & s[0]) { s = Buffer.concat([Buffer.from([0]), s]); }
var len = 2 + r.byteLength + 2 + s.byteLength;
var head = [0x30];
// hard code 0x80 + 1 because it won't be longer than
// two SHA512 plus two pad bytes (130 bytes <= 256)
if (len >= 0x80) { head.push(0x81); }
head.push(len);
var buf = Buffer.concat([
Buffer.from(head)
, Buffer.from([0x02, r.byteLength]), r
, Buffer.from([0x02, s.byteLength]), s
]);
return toUrlSafe(buf.toString('base64'));
}
function toUrlSafe(b64) {
return b64
.replace(/\+/g, '-')
.replace(/\//g, '_')
.replace(/=/g, '')
;
}