// Copyright 2011 Mark Cavage, Inc. All rights reserved. var assert = require('assert'); var EventEmitter = require('events').EventEmitter; var net = require('net'); var tls = require('tls'); var util = require('util'); var asn1 = require('asn1'); var VError = require('verror').VError; var dn = require('./dn'); var dtrace = require('./dtrace'); var errors = require('./errors'); var Protocol = require('./protocol'); var Parser = require('./messages').Parser; var AbandonResponse = require('./messages/abandon_response'); var AddResponse = require('./messages/add_response'); var BindResponse = require('./messages/bind_response'); var CompareResponse = require('./messages/compare_response'); var DeleteResponse = require('./messages/del_response'); var ExtendedResponse = require('./messages/ext_response'); var LDAPResult = require('./messages/result'); var ModifyResponse = require('./messages/modify_response'); var ModifyDNResponse = require('./messages/moddn_response'); var SearchRequest = require('./messages/search_request'); var SearchResponse = require('./messages/search_response'); var UnbindResponse = require('./messages/unbind_response'); ///--- Globals var Ber = asn1.Ber; var BerReader = asn1.BerReader; var DN = dn.DN; var sprintf = util.format; ///--- Helpers function mergeFunctionArgs(argv, start, end) { assert.ok(argv); if (!start) start = 0; if (!end) end = argv.length; var handlers = []; for (var i = start; i < end; i++) { if (argv[i] instanceof Array) { var arr = argv[i]; for (var j = 0; j < arr.length; j++) { if (!(arr[j] instanceof Function)) { throw new TypeError('Invalid argument type: ' + typeof (arr[j])); } handlers.push(arr[j]); } } else if (argv[i] instanceof Function) { handlers.push(argv[i]); } else { throw new TypeError('Invalid argument type: ' + typeof (argv[i])); } } return handlers; } function getResponse(req) { assert.ok(req); var Response; switch (req.protocolOp) { case Protocol.LDAP_REQ_BIND: Response = BindResponse; break; case Protocol.LDAP_REQ_ABANDON: Response = AbandonResponse; break; case Protocol.LDAP_REQ_ADD: Response = AddResponse; break; case Protocol.LDAP_REQ_COMPARE: Response = CompareResponse; break; case Protocol.LDAP_REQ_DELETE: Response = DeleteResponse; break; case Protocol.LDAP_REQ_EXTENSION: Response = ExtendedResponse; break; case Protocol.LDAP_REQ_MODIFY: Response = ModifyResponse; break; case Protocol.LDAP_REQ_MODRDN: Response = ModifyDNResponse; break; case Protocol.LDAP_REQ_SEARCH: Response = SearchResponse; break; case Protocol.LDAP_REQ_UNBIND: Response = UnbindResponse; break; default: return null; } assert.ok(Response); var res = new Response({ messageID: req.messageID, log: req.log, attributes: ((req instanceof SearchRequest) ? req.attributes : undefined) }); res.connection = req.connection; res.logId = req.logId; return res; } function defaultHandler(req, res, next) { assert.ok(req); assert.ok(res); assert.ok(next); res.matchedDN = req.dn.toString(); res.errorMessage = 'Server method not implemented'; res.end(errors.LDAP_OTHER); return next(); } function defaultNoOpHandler(req, res, next) { assert.ok(req); assert.ok(res); assert.ok(next); res.end(); return next(); } function noSuffixHandler(req, res, next) { assert.ok(req); assert.ok(res); assert.ok(next); res.errorMessage = 'No tree found for: ' + req.dn.toString(); res.end(errors.LDAP_NO_SUCH_OBJECT); return next(); } function noExOpHandler(req, res, next) { assert.ok(req); assert.ok(res); assert.ok(next); res.errorMessage = req.requestName + ' not supported'; res.end(errors.LDAP_PROTOCOL_ERROR); return next(); } function fireDTraceProbe(req, res) { assert.ok(req); req._dtraceId = res._dtraceId = dtrace._nextId(); var probeArgs = [ req._dtraceId, req.connection.remoteAddress || 'localhost', req.connection.ldap.bindDN.toString(), req.dn.toString() ]; var op; switch (req.protocolOp) { case Protocol.LDAP_REQ_ABANDON: op = 'abandon'; break; case Protocol.LDAP_REQ_ADD: op = 'add'; probeArgs.push(req.attributes.length); break; case Protocol.LDAP_REQ_BIND: op = 'bind'; break; case Protocol.LDAP_REQ_COMPARE: op = 'compare'; probeArgs.push(req.attribute); probeArgs.push(req.value); break; case Protocol.LDAP_REQ_DELETE: op = 'delete'; break; case Protocol.LDAP_REQ_EXTENSION: op = 'exop'; probeArgs.push(req.name); probeArgs.push(req.value); break; case Protocol.LDAP_REQ_MODIFY: op = 'modify'; probeArgs.push(req.changes.length); break; case Protocol.LDAP_REQ_MODRDN: op = 'modifydn'; probeArgs.push(req.newRdn.toString()); probeArgs.push((req.newSuperior ? req.newSuperior.toString() : '')); break; case Protocol.LDAP_REQ_SEARCH: op = 'search'; probeArgs.push(req.scope); probeArgs.push(req.filter.toString()); break; case Protocol.LDAP_REQ_UNBIND: op = 'unbind'; break; default: break; } res._dtraceOp = op; dtrace.fire('server-' + op + '-start', function () { return probeArgs; }); } ///--- API /** * Constructs a new server that you can call .listen() on, in the various * forms node supports. You need to first assign some handlers to the various * LDAP operations however. * * The options object currently only takes a certificate/private key, and a * bunyan logger handle. * * This object exposes the following events: * - 'error' * - 'close' * * @param {Object} options (optional) parameterization object. * @throws {TypeError} on bad input. */ function Server(options) { if (options) { if (typeof (options) !== 'object') throw new TypeError('options (object) required'); if (typeof (options.log) !== 'object') throw new TypeError('options.log must be an object'); if (options.certificate || options.key) { if (!(options.certificate && options.key) || (typeof (options.certificate) !== 'string' && !Buffer.isBuffer(options.certificate)) || (typeof (options.key) !== 'string' && !Buffer.isBuffer(options.key))) { throw new TypeError('options.certificate and options.key ' + '(string or buffer) are both required for TLS'); } } } else { options = {}; } var self = this; EventEmitter.call(this, options); this._chain = []; this.log = options.log; var log = this.log; function setupConnection(c) { assert.ok(c); if (c.type === 'unix') { c.remoteAddress = self.server.path; c.remotePort = c.fd; } else if (c.socket) { // TLS c.remoteAddress = c.socket.remoteAddress; c.remotePort = c.socket.remotePort; } var rdn = new dn.RDN({cn: 'anonymous'}); c.ldap = { id: c.remoteAddress + ':' + c.remotePort, config: options, _bindDN: new DN([rdn]) }; c.addListener('timeout', function () { log.trace('%s timed out', c.ldap.id); c.destroy(); }); c.addListener('end', function () { log.trace('%s shutdown', c.ldap.id); }); c.addListener('error', function (err) { log.warn('%s unexpected connection error', c.ldap.id, err); self.emit('clientError', err); c.destroy(); }); c.addListener('close', function (had_err) { log.trace('%s close; had_err=%j', c.ldap.id, had_err); c.end(); }); c.ldap.__defineGetter__('bindDN', function () { return c.ldap._bindDN; }); c.ldap.__defineSetter__('bindDN', function (val) { if (!(val instanceof DN)) throw new TypeError('DN required'); c.ldap._bindDN = val; return val; }); return c; } function newConnection(c) { setupConnection(c); log.trace('new connection from %s', c.ldap.id); dtrace.fire('server-connection', function () { return [c.remoteAddress]; }); c.parser = new Parser({ log: options.log }); c.parser.on('message', function (req) { req.connection = c; req.logId = c.ldap.id + '::' + req.messageID; req.startTime = new Date().getTime(); if (log.debug()) log.debug('%s: message received: req=%j', c.ldap.id, req.json); var res = getResponse(req); if (!res) { log.warn('Unimplemented server method: %s', req.type); c.destroy(); return false; } res.connection = c; res.logId = req.logId; res.requestDN = req.dn; var chain = self._getHandlerChain(req, res); var i = 0; return function (err) { function sendError(err) { res.status = err.code || errors.LDAP_OPERATIONS_ERROR; res.matchedDN = req.suffix ? req.suffix.toString() : ''; res.errorMessage = err.message || ''; return res.end(); } function after() { if (!self._postChain || !self._postChain.length) return; function next() {} // stub out next for the post chain self._postChain.forEach(function (c) { c.call(self, req, res, next); }); } if (err) { log.trace('%s sending error: %s', req.logId, err.stack || err); self.emit('clientError', err); sendError(err); return after(); } try { var next = arguments.callee; if (chain.handlers[i]) return chain.handlers[i++].call(chain.backend, req, res, next); if (req.protocolOp === Protocol.LDAP_REQ_BIND && res.status === 0) c.ldap.bindDN = req.dn; return after(); } catch (e) { if (!e.stack) e.stack = e.toString(); log.error('%s uncaught exception: %s', req.logId, e.stack); return sendError(new errors.OperationsError(e.message)); } }(); }); c.parser.on('error', function (err, message) { self.emit('error', new VError(err, 'Parser error for %s', c.ldap.id)); if (!message) return c.destroy(); var res = getResponse(message); if (!res) return c.destroy(); res.status = 0x02; // protocol error res.errorMessage = err.toString(); return c.end(res.toBer()); }); c.on('data', function (data) { if (log.trace()) log.trace('data on %s: %s', c.ldap.id, util.inspect(data)); c.parser.write(data); }); } // end newConnection this.routes = {}; if ((options.cert || options.certificate) && options.key) { options.cert = options.cert || options.certificate; this.server = tls.createServer(options, newConnection); } else { this.server = net.createServer(newConnection); } this.server.log = options.log; this.server.ldap = { config: options }; this.server.on('close', function () { self.emit('close'); }); this.server.on('error', function (err) { self.emit('error', err); }); this.__defineGetter__('maxConnections', function () { return self.server.maxConnections; }); this.__defineSetter__('maxConnections', function (val) { self.server.maxConnections = val; }); this.__defineGetter__('connections', function () { return self.server.connections; }); this.__defineGetter__('name', function () { return 'LDAPServer'; }); this.__defineGetter__('url', function () { var str; if (!this.server.address().family) { str = 'ldapi://'; str += this.host.replace(new RegExp('/', 'g'), '%2f'); return str; } if (this.server instanceof tls.Server) { str = 'ldaps://'; } else { str = 'ldap://'; } str += self.host || 'localhost'; str += ':'; str += self.port || 389; return str; }); } util.inherits(Server, EventEmitter); module.exports = Server; /** * Adds a handler (chain) for the LDAP add method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.add = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_ADD, name, args); }; /** * Adds a handler (chain) for the LDAP bind method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.bind = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_BIND, name, args); }; /** * Adds a handler (chain) for the LDAP compare method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.compare = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_COMPARE, name, args); }; /** * Adds a handler (chain) for the LDAP delete method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.del = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_DELETE, name, args); }; /** * Adds a handler (chain) for the LDAP exop method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name OID to assign this handler chain to. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input. */ Server.prototype.exop = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_EXTENSION, name, args, true); }; /** * Adds a handler (chain) for the LDAP modify method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.modify = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_MODIFY, name, args); }; /** * Adds a handler (chain) for the LDAP modifyDN method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.modifyDN = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_MODRDN, name, args); }; /** * Adds a handler (chain) for the LDAP search method. * * Note that this is of the form f(name, [function]) where the second...N * arguments can all either be functions or arrays of functions. * * @param {String} name the DN to mount this handler chain at. * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.search = function (name) { var args = Array.prototype.slice.call(arguments, 1); return this._mount(Protocol.LDAP_REQ_SEARCH, name, args); }; /** * Adds a handler (chain) for the LDAP unbind method. * * This method is different than the others and takes no mount point, as unbind * is a connection-wide operation, not constrianed to part of the DIT. * * @return {Server} this so you can chain calls. * @throws {TypeError} on bad input */ Server.prototype.unbind = function () { var args = Array.prototype.slice.call(arguments, 0); return this._mount(Protocol.LDAP_REQ_UNBIND, 'unbind', args, true); }; Server.prototype.use = function use() { var args = Array.prototype.slice.call(arguments); var chain = mergeFunctionArgs(args, 0, args.length); var self = this; chain.forEach(function (c) { self._chain.push(c); }); }; Server.prototype.after = function () { if (!this._postChain) this._postChain = []; var self = this; mergeFunctionArgs(arguments).forEach(function (h) { self._postChain.push(h); }); }; // All these just reexpose the requisite net.Server APIs Server.prototype.listen = function (port, host, callback) { if (typeof (port) !== 'number' && typeof (port) !== 'string') throw new TypeError('port (number or path) required'); if (typeof (host) === 'function') { callback = host; host = '0.0.0.0'; } if (typeof (port) === 'string' && /^[0-9]+$/.test(port)) { // Disambiguate between string ports and file paths port = parseInt(port, 10); } var self = this; function _callback() { if (typeof (port) === 'number') { self.host = self.address().address; self.port = self.address().port; } else { self.host = port; self.port = self.server.fd; } if (typeof (callback) === 'function') callback(); } if (typeof (port) === 'number') { return this.server.listen(port, host, _callback); } else { return this.server.listen(port, _callback); } }; Server.prototype.listenFD = function (fd) { this.host = 'unix-domain-socket'; this.port = fd; return this.server.listenFD(fd); }; Server.prototype.close = function () { return this.server.close(); }; Server.prototype.address = function () { return this.server.address(); }; Server.prototype._getRoute = function (_dn, backend) { assert.ok(dn); if (!backend) backend = this; var name; if (_dn instanceof dn.DN) { name = _dn.toString(); } else { name = _dn; } if (!this.routes[name]) { this.routes[name] = {}; this.routes[name].backend = backend; this.routes[name].dn = _dn; // Force regeneration of the route key cache on next request this._routeKeyCache = null; } return this.routes[name]; }; Server.prototype._sortedRouteKeys = function _sortedRouteKeys() { // The filtered/sorted route keys are cached to prevent needlessly // regenerating the list for every incoming request. if (!this._routeKeyCache) { var self = this; var reversedRDNsToKeys = {}; // Generate mapping of reversedRDNs(DN) -> routeKey Object.keys(this.routes).forEach(function (key) { var _dn = self.routes[key].dn; // Ignore non-DN routes such as exop or unbind if (_dn instanceof dn.DN) { var reversed = _dn.clone(); reversed.rdns.reverse(); reversedRDNsToKeys[reversed.spaced(true).toString()] = key; } }); var output = []; // Reverse-sort on reversedRDS(DN) in order to output routeKey list. // This will place more specific DNs in front of their parents: // 1. dc=test, dc=domain, dc=sub // 2. dc=test, dc=domain // 3. dc=other, dc=foobar Object.keys(reversedRDNsToKeys).sort().reverse().forEach(function (_dn) { output.push(reversedRDNsToKeys[_dn]); }); this._routeKeyCache = output; } return this._routeKeyCache; }; Server.prototype._getHandlerChain = function _getHandlerChain(req, res) { assert.ok(req); fireDTraceProbe(req, res); // check anonymous bind if (req.protocolOp === Protocol.LDAP_REQ_BIND && req.dn.toString() === '' && req.credentials === '') { return { backend: self, handlers: [defaultNoOpHandler] }; } var op = '0x' + req.protocolOp.toString(16); var self = this; var routes = this.routes; var route; // Special cases are exops, unbinds and abandons. Handle those first. if (req.protocolOp === Protocol.LDAP_REQ_EXTENSION) { route = routes[req.requestName]; if (route) { return { backend: route.backend, handlers: (route[op] ? route[op] : [noExOpHandler]) }; } else { return { backend: self, handlers: [noExOpHandler] }; } } else if (req.protocolOp === Protocol.LDAP_REQ_UNBIND) { route = routes['unbind']; if (route) { return { backend: route.backend, handlers: route[op] }; } else { return { backend: self, handlers: [defaultNoOpHandler] }; } } else if (req.protocolOp === Protocol.LDAP_REQ_ABANDON) { return { backend: self, handlers: [defaultNoOpHandler] }; } // Otherwise, match via DN rules assert.ok(req.dn); var keys = this._sortedRouteKeys(); var fallbackHandler = [noSuffixHandler]; for (var i = 0; i < keys.length; i++) { var suffix = keys[i]; route = routes[suffix]; assert.ok(route.dn); // Match a valid route or the route wildcard ('') if (route.dn.equals(req.dn) || route.dn.parentOf(req.dn) || suffix === '') { if (route[op]) { // We should be good to go. req.suffix = route.dn; return { backend: route.backend, handlers: route[op] }; } else { // We found a valid suffix but not a valid operation. // There might be a more generic suffix with a legitimate operation. fallbackHandler = [defaultHandler]; } } } return { backend: self, handlers: fallbackHandler }; }; Server.prototype._mount = function (op, name, argv, notDN) { assert.ok(op); assert.ok(name !== undefined); assert.ok(argv); if (typeof (name) !== 'string') throw new TypeError('name (string) required'); if (!argv.length) throw new Error('at least one handler required'); var backend = this; var index = 0; if (typeof (argv[0]) === 'object' && !Array.isArray(argv[0])) { backend = argv[0]; index = 1; } var route = this._getRoute(notDN ? name : dn.parse(name), backend); var chain = this._chain.slice(); argv.slice(index).forEach(function (a) { chain.push(a); }); route['0x' + op.toString(16)] = mergeFunctionArgs(chain); return this; };