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nodejs/lib/_tls_wrap.js
Fedor Indutny 9180140231 _stream_wrap: prevent use after free in TLS
Queued write requests should be invoked on handle close, otherwise the
"consumer" might be already destroyed when the write callbacks of the
"consumed" handle will be invoked. Same applies to the shutdown
requests.

Make sure to "move" away socket from server to not break the
`connections` counter in `net.js`. Otherwise it might not call `close`
callback, or call it too early.

Fix: https://github.com/iojs/io.js/issues/1696
PR-URL: https://github.com/nodejs/io.js/pull/1910
Reviewed-By: Trevor Norris <trev.norris@gmail.com>
2015-06-30 20:09:22 -07:00

1029 lines
27 KiB
JavaScript

'use strict';
const assert = require('assert');
const crypto = require('crypto');
const net = require('net');
const tls = require('tls');
const util = require('util');
const listenerCount = require('events').listenerCount;
const common = require('_tls_common');
const StreamWrap = require('_stream_wrap').StreamWrap;
const Buffer = require('buffer').Buffer;
const Duplex = require('stream').Duplex;
const debug = util.debuglog('tls');
const Timer = process.binding('timer_wrap').Timer;
const tls_wrap = process.binding('tls_wrap');
const TCP = process.binding('tcp_wrap').TCP;
const Pipe = process.binding('pipe_wrap').Pipe;
function onhandshakestart() {
debug('onhandshakestart');
var self = this;
var ssl = self._handle;
var now = Timer.now();
assert(now >= ssl.lastHandshakeTime);
if ((now - ssl.lastHandshakeTime) >= tls.CLIENT_RENEG_WINDOW * 1000) {
ssl.handshakes = 0;
}
var first = (ssl.lastHandshakeTime === 0);
ssl.lastHandshakeTime = now;
if (first) return;
if (++ssl.handshakes > tls.CLIENT_RENEG_LIMIT) {
// Defer the error event to the next tick. We're being called from OpenSSL's
// state machine and OpenSSL is not re-entrant. We cannot allow the user's
// callback to destroy the connection right now, it would crash and burn.
setImmediate(function() {
var err = new Error('TLS session renegotiation attack detected.');
self._emitTLSError(err);
});
}
}
function onhandshakedone() {
// for future use
debug('onhandshakedone');
this._finishInit();
}
function loadSession(self, hello, cb) {
var once = false;
function onSession(err, session) {
if (once)
return cb(new Error('TLS session callback was called 2 times'));
once = true;
if (err)
return cb(err);
if (!self._handle)
return cb(new Error('Socket is closed'));
// NOTE: That we have disabled OpenSSL's internal session storage in
// `node_crypto.cc` and hence its safe to rely on getting servername only
// from clienthello or this place.
var ret = self._handle.loadSession(session);
cb(null, ret);
}
if (hello.sessionId.length <= 0 ||
hello.tlsTicket ||
self.server &&
!self.server.emit('resumeSession', hello.sessionId, onSession)) {
cb(null);
}
}
function loadSNI(self, servername, cb) {
if (!servername || !self._SNICallback)
return cb(null);
var once = false;
self._SNICallback(servername, function(err, context) {
if (once)
return cb(new Error('TLS SNI callback was called 2 times'));
once = true;
if (err)
return cb(err);
if (!self._handle)
return cb(new Error('Socket is closed'));
// TODO(indutny): eventually disallow raw `SecureContext`
if (context)
self._handle.sni_context = context.context || context;
cb(null, self._handle.sni_context);
});
}
function requestOCSP(self, hello, ctx, cb) {
if (!hello.OCSPRequest || !self.server)
return cb(null);
if (!ctx)
ctx = self.server._sharedCreds;
if (ctx.context)
ctx = ctx.context;
if (listenerCount(self.server, 'OCSPRequest') === 0) {
return cb(null);
} else {
self.server.emit('OCSPRequest',
ctx.getCertificate(),
ctx.getIssuer(),
onOCSP);
}
var once = false;
function onOCSP(err, response) {
if (once)
return cb(new Error('TLS OCSP callback was called 2 times'));
once = true;
if (err)
return cb(err);
if (!self._handle)
return cb(new Error('Socket is closed'));
if (response)
self._handle.setOCSPResponse(response);
cb(null);
}
}
function onclienthello(hello) {
var self = this;
loadSession(self, hello, function(err, session) {
if (err)
return self.destroy(err);
self._handle.endParser();
});
}
function oncertcb(info) {
var self = this;
var servername = info.servername;
loadSNI(self, servername, function(err, ctx) {
if (err)
return self.destroy(err);
requestOCSP(self, info, ctx, function(err) {
if (err)
return self.destroy(err);
if (!self._handle)
return self.destroy(new Error('Socket is closed'));
self._handle.certCbDone();
});
});
}
function onnewsession(key, session) {
if (!this.server)
return;
var self = this;
var once = false;
this._newSessionPending = true;
if (!this.server.emit('newSession', key, session, done))
done();
function done() {
if (once)
return;
once = true;
if (!self._handle)
return self.destroy(new Error('Socket is closed'));
self._handle.newSessionDone();
self._newSessionPending = false;
if (self._securePending)
self._finishInit();
self._securePending = false;
}
}
function onocspresponse(resp) {
this.emit('OCSPResponse', resp);
}
function initRead(tls, wrapped) {
// If we were destroyed already don't bother reading
if (!tls._handle)
return;
// Socket already has some buffered data - emulate receiving it
if (wrapped && wrapped._readableState && wrapped._readableState.length) {
var buf;
while ((buf = wrapped.read()) !== null)
tls._handle.receive(buf);
}
tls.read(0);
}
/**
* Provides a wrap of socket stream to do encrypted communication.
*/
function TLSSocket(socket, options) {
this._tlsOptions = options;
this._secureEstablished = false;
this._securePending = false;
this._newSessionPending = false;
this._controlReleased = false;
this._SNICallback = null;
this.servername = null;
this.npnProtocol = null;
this.authorized = false;
this.authorizationError = null;
// Wrap plain JS Stream into StreamWrap
var wrap;
if (!(socket instanceof net.Socket) && socket instanceof Duplex)
wrap = new StreamWrap(socket);
else if ((socket instanceof net.Socket) && !socket._handle)
wrap = new StreamWrap(socket);
else
wrap = socket;
// Just a documented property to make secure sockets
// distinguishable from regular ones.
this.encrypted = true;
net.Socket.call(this, {
handle: this._wrapHandle(wrap),
allowHalfOpen: socket && socket.allowHalfOpen,
readable: false,
writable: false
});
// Proxy for API compatibility
this.ssl = this._handle;
this.on('error', this._emitTLSError);
this._init(socket, wrap);
// Make sure to setup all required properties like: `_connecting` before
// starting the flow of the data
this.readable = true;
this.writable = true;
// Read on next tick so the caller has a chance to setup listeners
process.nextTick(initRead, this, socket);
}
util.inherits(TLSSocket, net.Socket);
exports.TLSSocket = TLSSocket;
var proxiedMethods = [
'ref', 'unref', 'open', 'bind', 'listen', 'connect', 'bind6',
'connect6', 'getsockname', 'getpeername', 'setNoDelay', 'setKeepAlive',
'setSimultaneousAccepts', 'setBlocking',
// PipeWrap
'setPendingInstances'
];
// Proxy HandleWrap, PipeWrap and TCPWrap methods
proxiedMethods.forEach(function(name) {
tls_wrap.TLSWrap.prototype[name] = function methodProxy() {
if (this._parent[name])
return this._parent[name].apply(this._parent, arguments);
};
});
tls_wrap.TLSWrap.prototype.close = function closeProxy(cb) {
if (this._parentWrap && this._parentWrap._handle === this._parent) {
setImmediate(cb);
return this._parentWrap.destroy();
}
return this._parent.close(cb);
};
TLSSocket.prototype._wrapHandle = function(wrap) {
var res;
var handle;
if (wrap)
handle = wrap._handle;
var options = this._tlsOptions;
if (!handle) {
handle = options.pipe ? new Pipe() : new TCP();
handle.owner = this;
}
// Wrap socket's handle
var context = options.secureContext ||
options.credentials ||
tls.createSecureContext();
res = tls_wrap.wrap(handle, context.context, options.isServer);
res._parent = handle;
res._parentWrap = wrap;
res._secureContext = context;
res.reading = handle.reading;
Object.defineProperty(handle, 'reading', {
get: function readingGetter() {
return res.reading;
},
set: function readingSetter(value) {
res.reading = value;
}
});
this.on('close', function() {
// Make sure we are not doing it on OpenSSL's stack
setImmediate(destroySSL, this);
res = null;
});
return res;
};
function destroySSL(self) {
self._destroySSL();
}
TLSSocket.prototype._destroySSL = function _destroySSL() {
if (!this.ssl) return;
this.ssl.destroySSL();
if (this.ssl._secureContext.singleUse) {
this.ssl._secureContext.context.close();
this.ssl._secureContext.context = null;
}
this.ssl = null;
};
TLSSocket.prototype._init = function(socket, wrap) {
var self = this;
var options = this._tlsOptions;
var ssl = this._handle;
// lib/net.js expect this value to be non-zero if write hasn't been flushed
// immediately
// TODO(indutny): rewise this solution, it might be 1 before handshake and
// represent real writeQueueSize during regular writes.
ssl.writeQueueSize = 1;
this.server = options.server;
// Move the server to TLSSocket, otherwise both `socket.destroy()` and
// `TLSSocket.destroy()` will decrement number of connections of the TLS
// server, leading to misfiring `server.close()` callback
if (socket && socket.server === this.server)
socket.server = null;
// For clients, we will always have either a given ca list or be using
// default one
var requestCert = !!options.requestCert || !options.isServer,
rejectUnauthorized = !!options.rejectUnauthorized;
this._requestCert = requestCert;
this._rejectUnauthorized = rejectUnauthorized;
if (requestCert || rejectUnauthorized)
ssl.setVerifyMode(requestCert, rejectUnauthorized);
if (options.isServer) {
ssl.onhandshakestart = onhandshakestart.bind(this);
ssl.onhandshakedone = onhandshakedone.bind(this);
ssl.onclienthello = onclienthello.bind(this);
ssl.oncertcb = oncertcb.bind(this);
ssl.onnewsession = onnewsession.bind(this);
ssl.lastHandshakeTime = 0;
ssl.handshakes = 0;
if (this.server) {
if (listenerCount(this.server, 'resumeSession') > 0 ||
listenerCount(this.server, 'newSession') > 0) {
ssl.enableSessionCallbacks();
}
if (listenerCount(this.server, 'OCSPRequest') > 0)
ssl.enableCertCb();
}
} else {
ssl.onhandshakestart = function() {};
ssl.onhandshakedone = this._finishInit.bind(this);
ssl.onocspresponse = onocspresponse.bind(this);
if (options.session)
ssl.setSession(options.session);
}
ssl.onerror = function(err) {
if (self._writableState.errorEmitted)
return;
// Destroy socket if error happened before handshake's finish
if (!self._secureEstablished) {
self.destroy(self._tlsError(err));
} else if (options.isServer &&
rejectUnauthorized &&
/peer did not return a certificate/.test(err.message)) {
// Ignore server's authorization errors
self.destroy();
} else {
// Throw error
self._emitTLSError(err);
}
self._writableState.errorEmitted = true;
};
// If custom SNICallback was given, or if
// there're SNI contexts to perform match against -
// set `.onsniselect` callback.
if (process.features.tls_sni &&
options.isServer &&
options.SNICallback &&
options.server &&
(options.SNICallback !== SNICallback ||
options.server._contexts.length)) {
assert(typeof options.SNICallback === 'function');
this._SNICallback = options.SNICallback;
ssl.enableCertCb();
}
if (process.features.tls_npn && options.NPNProtocols)
ssl.setNPNProtocols(options.NPNProtocols);
if (options.handshakeTimeout > 0)
this.setTimeout(options.handshakeTimeout, this._handleTimeout);
if (socket instanceof net.Socket) {
this._parent = socket;
// To prevent assertion in afterConnect() and properly kick off readStart
this._connecting = socket._connecting || !socket._handle;
socket.once('connect', function() {
self._connecting = false;
self.emit('connect');
});
}
// Assume `tls.connect()`
if (wrap) {
wrap.on('error', function(err) {
self._emitTLSError(err);
});
} else {
assert(!socket);
this._connecting = true;
}
};
TLSSocket.prototype.renegotiate = function(options, callback) {
var requestCert = this._requestCert,
rejectUnauthorized = this._rejectUnauthorized;
if (this.destroyed)
return;
if (typeof options.requestCert !== 'undefined')
requestCert = !!options.requestCert;
if (typeof options.rejectUnauthorized !== 'undefined')
rejectUnauthorized = !!options.rejectUnauthorized;
if (requestCert !== this._requestCert ||
rejectUnauthorized !== this._rejectUnauthorized) {
this._handle.setVerifyMode(requestCert, rejectUnauthorized);
this._requestCert = requestCert;
this._rejectUnauthorized = rejectUnauthorized;
}
if (!this._handle.renegotiate()) {
if (callback) {
process.nextTick(callback, new Error('Failed to renegotiate'));
}
return false;
}
// Ensure that we'll cycle through internal openssl's state
this.write('');
if (callback) {
this.once('secure', function() {
callback(null);
});
}
return true;
};
TLSSocket.prototype.setMaxSendFragment = function setMaxSendFragment(size) {
return this._handle.setMaxSendFragment(size) == 1;
};
TLSSocket.prototype.getTLSTicket = function getTLSTicket() {
return this._handle.getTLSTicket();
};
TLSSocket.prototype._handleTimeout = function() {
this._emitTLSError(new Error('TLS handshake timeout'));
};
TLSSocket.prototype._emitTLSError = function(err) {
var e = this._tlsError(err);
if (e)
this.emit('error', e);
};
TLSSocket.prototype._tlsError = function(err) {
this.emit('_tlsError', err);
if (this._controlReleased)
return err;
return null;
};
TLSSocket.prototype._releaseControl = function() {
if (this._controlReleased)
return false;
this._controlReleased = true;
this.removeListener('error', this._emitTLSError);
return true;
};
TLSSocket.prototype._finishInit = function() {
// `newSession` callback wasn't called yet
if (this._newSessionPending) {
this._securePending = true;
return;
}
if (process.features.tls_npn) {
this.npnProtocol = this._handle.getNegotiatedProtocol();
}
if (process.features.tls_sni && this._tlsOptions.isServer) {
this.servername = this._handle.getServername();
}
debug('secure established');
this._secureEstablished = true;
if (this._tlsOptions.handshakeTimeout > 0)
this.setTimeout(0, this._handleTimeout);
this.emit('secure');
};
TLSSocket.prototype._start = function() {
if (this._connecting) {
this.once('connect', function() {
this._start();
});
return;
}
// Socket was destroyed before the connection was established
if (!this._handle)
return;
debug('start');
if (this._tlsOptions.requestOCSP)
this._handle.requestOCSP();
this._handle.start();
};
TLSSocket.prototype.setServername = function(name) {
this._handle.setServername(name);
};
TLSSocket.prototype.setSession = function(session) {
if (typeof session === 'string')
session = new Buffer(session, 'binary');
this._handle.setSession(session);
};
TLSSocket.prototype.getPeerCertificate = function(detailed) {
if (this._handle) {
return common.translatePeerCertificate(
this._handle.getPeerCertificate(detailed));
}
return null;
};
TLSSocket.prototype.getSession = function() {
if (this._handle) {
return this._handle.getSession();
}
return null;
};
TLSSocket.prototype.isSessionReused = function() {
if (this._handle) {
return this._handle.isSessionReused();
}
return null;
};
TLSSocket.prototype.getCipher = function(err) {
if (this._handle) {
return this._handle.getCurrentCipher();
} else {
return null;
}
};
// TODO: support anonymous (nocert) and PSK
// AUTHENTICATION MODES
//
// There are several levels of authentication that TLS/SSL supports.
// Read more about this in "man SSL_set_verify".
//
// 1. The server sends a certificate to the client but does not request a
// cert from the client. This is common for most HTTPS servers. The browser
// can verify the identity of the server, but the server does not know who
// the client is. Authenticating the client is usually done over HTTP using
// login boxes and cookies and stuff.
//
// 2. The server sends a cert to the client and requests that the client
// also send it a cert. The client knows who the server is and the server is
// requesting the client also identify themselves. There are several
// outcomes:
//
// A) verifyError returns null meaning the client's certificate is signed
// by one of the server's CAs. The server know's the client idenity now
// and the client is authorized.
//
// B) For some reason the client's certificate is not acceptable -
// verifyError returns a string indicating the problem. The server can
// either (i) reject the client or (ii) allow the client to connect as an
// unauthorized connection.
//
// The mode is controlled by two boolean variables.
//
// requestCert
// If true the server requests a certificate from client connections. For
// the common HTTPS case, users will want this to be false, which is what
// it defaults to.
//
// rejectUnauthorized
// If true clients whose certificates are invalid for any reason will not
// be allowed to make connections. If false, they will simply be marked as
// unauthorized but secure communication will continue. By default this is
// true.
//
//
//
// Options:
// - requestCert. Send verify request. Default to false.
// - rejectUnauthorized. Boolean, default to true.
// - key. string.
// - cert: string.
// - ca: string or array of strings.
// - sessionTimeout: integer.
//
// emit 'secureConnection'
// function (tlsSocket) { }
//
// "UNABLE_TO_GET_ISSUER_CERT", "UNABLE_TO_GET_CRL",
// "UNABLE_TO_DECRYPT_CERT_SIGNATURE", "UNABLE_TO_DECRYPT_CRL_SIGNATURE",
// "UNABLE_TO_DECODE_ISSUER_PUBLIC_KEY", "CERT_SIGNATURE_FAILURE",
// "CRL_SIGNATURE_FAILURE", "CERT_NOT_YET_VALID" "CERT_HAS_EXPIRED",
// "CRL_NOT_YET_VALID", "CRL_HAS_EXPIRED" "ERROR_IN_CERT_NOT_BEFORE_FIELD",
// "ERROR_IN_CERT_NOT_AFTER_FIELD", "ERROR_IN_CRL_LAST_UPDATE_FIELD",
// "ERROR_IN_CRL_NEXT_UPDATE_FIELD", "OUT_OF_MEM",
// "DEPTH_ZERO_SELF_SIGNED_CERT", "SELF_SIGNED_CERT_IN_CHAIN",
// "UNABLE_TO_GET_ISSUER_CERT_LOCALLY", "UNABLE_TO_VERIFY_LEAF_SIGNATURE",
// "CERT_CHAIN_TOO_LONG", "CERT_REVOKED" "INVALID_CA",
// "PATH_LENGTH_EXCEEDED", "INVALID_PURPOSE" "CERT_UNTRUSTED",
// "CERT_REJECTED"
//
function Server(/* [options], listener */) {
var options, listener;
if (arguments[0] !== null && typeof arguments[0] === 'object') {
options = arguments[0];
listener = arguments[1];
} else if (typeof arguments[0] === 'function') {
options = {};
listener = arguments[0];
}
if (!(this instanceof Server)) return new Server(options, listener);
this._contexts = [];
var self = this;
// Handle option defaults:
this.setOptions(options);
var sharedCreds = tls.createSecureContext({
pfx: self.pfx,
key: self.key,
passphrase: self.passphrase,
cert: self.cert,
ca: self.ca,
ciphers: self.ciphers,
ecdhCurve: self.ecdhCurve,
dhparam: self.dhparam,
secureProtocol: self.secureProtocol,
secureOptions: self.secureOptions,
honorCipherOrder: self.honorCipherOrder,
crl: self.crl,
sessionIdContext: self.sessionIdContext
});
this._sharedCreds = sharedCreds;
var timeout = options.handshakeTimeout || (120 * 1000);
if (typeof timeout !== 'number') {
throw new TypeError('handshakeTimeout must be a number');
}
if (self.sessionTimeout) {
sharedCreds.context.setSessionTimeout(self.sessionTimeout);
}
if (self.ticketKeys) {
sharedCreds.context.setTicketKeys(self.ticketKeys);
}
// constructor call
net.Server.call(this, function(raw_socket) {
var socket = new TLSSocket(raw_socket, {
secureContext: sharedCreds,
isServer: true,
server: self,
requestCert: self.requestCert,
rejectUnauthorized: self.rejectUnauthorized,
handshakeTimeout: timeout,
NPNProtocols: self.NPNProtocols,
SNICallback: options.SNICallback || SNICallback
});
socket.on('secure', function() {
if (socket._requestCert) {
var verifyError = socket._handle.verifyError();
if (verifyError) {
socket.authorizationError = verifyError.code;
if (socket._rejectUnauthorized)
socket.destroy();
} else {
socket.authorized = true;
}
}
if (!socket.destroyed && socket._releaseControl())
self.emit('secureConnection', socket);
});
var errorEmitted = false;
socket.on('close', function(err) {
// Closed because of error - no need to emit it twice
if (err)
return;
// Emit ECONNRESET
if (!socket._controlReleased && !errorEmitted) {
errorEmitted = true;
var connReset = new Error('socket hang up');
connReset.code = 'ECONNRESET';
self.emit('clientError', connReset, socket);
}
});
socket.on('_tlsError', function(err) {
if (!socket._controlReleased && !errorEmitted) {
errorEmitted = true;
self.emit('clientError', err, socket);
}
});
});
if (listener) {
this.on('secureConnection', listener);
}
}
util.inherits(Server, net.Server);
exports.Server = Server;
exports.createServer = function(options, listener) {
return new Server(options, listener);
};
Server.prototype._getServerData = function() {
return {
ticketKeys: this._sharedCreds.context.getTicketKeys().toString('hex')
};
};
Server.prototype._setServerData = function(data) {
this._sharedCreds.context.setTicketKeys(new Buffer(data.ticketKeys, 'hex'));
};
Server.prototype.setOptions = function(options) {
if (typeof options.requestCert === 'boolean') {
this.requestCert = options.requestCert;
} else {
this.requestCert = false;
}
if (typeof options.rejectUnauthorized === 'boolean') {
this.rejectUnauthorized = options.rejectUnauthorized;
} else {
this.rejectUnauthorized = false;
}
if (options.pfx) this.pfx = options.pfx;
if (options.key) this.key = options.key;
if (options.passphrase) this.passphrase = options.passphrase;
if (options.cert) this.cert = options.cert;
if (options.ca) this.ca = options.ca;
if (options.secureProtocol) this.secureProtocol = options.secureProtocol;
if (options.crl) this.crl = options.crl;
if (options.ciphers) this.ciphers = options.ciphers;
if (options.ecdhCurve !== undefined)
this.ecdhCurve = options.ecdhCurve;
if (options.dhparam) this.dhparam = options.dhparam;
if (options.sessionTimeout) this.sessionTimeout = options.sessionTimeout;
if (options.ticketKeys) this.ticketKeys = options.ticketKeys;
var secureOptions = options.secureOptions || 0;
if (options.honorCipherOrder !== undefined)
this.honorCipherOrder = !!options.honorCipherOrder;
else
this.honorCipherOrder = true;
if (secureOptions) this.secureOptions = secureOptions;
if (options.NPNProtocols) tls.convertNPNProtocols(options.NPNProtocols, this);
if (options.sessionIdContext) {
this.sessionIdContext = options.sessionIdContext;
} else {
this.sessionIdContext = crypto.createHash('md5')
.update(process.argv.join(' '))
.digest('hex');
}
};
// SNI Contexts High-Level API
Server.prototype.addContext = function(servername, context) {
if (!servername) {
throw new Error('Servername is required parameter for Server.addContext');
}
var re = new RegExp('^' +
servername.replace(/([\.^$+?\-\\[\]{}])/g, '\\$1')
.replace(/\*/g, '[^\.]*') +
'$');
this._contexts.push([re, tls.createSecureContext(context).context]);
};
function SNICallback(servername, callback) {
var ctx;
this.server._contexts.some(function(elem) {
if (servername.match(elem[0]) !== null) {
ctx = elem[1];
return true;
}
});
callback(null, ctx);
}
// Target API:
//
// var s = tls.connect({port: 8000, host: "google.com"}, function() {
// if (!s.authorized) {
// s.destroy();
// return;
// }
//
// // s.socket;
//
// s.end("hello world\n");
// });
//
//
function normalizeConnectArgs(listArgs) {
var args = net._normalizeConnectArgs(listArgs);
var options = args[0];
var cb = args[1];
if (listArgs[1] !== null && typeof listArgs[1] === 'object') {
options = util._extend(options, listArgs[1]);
} else if (listArgs[2] !== null && typeof listArgs[2] === 'object') {
options = util._extend(options, listArgs[2]);
}
return (cb) ? [options, cb] : [options];
}
exports.connect = function(/* [port, host], options, cb */) {
var args = normalizeConnectArgs(arguments);
var options = args[0];
var cb = args[1];
var defaults = {
rejectUnauthorized: '0' !== process.env.NODE_TLS_REJECT_UNAUTHORIZED,
ciphers: tls.DEFAULT_CIPHERS,
checkServerIdentity: tls.checkServerIdentity
};
options = util._extend(defaults, options || {});
if (!options.keepAlive)
options.singleUse = true;
assert(typeof options.checkServerIdentity === 'function');
var hostname = options.servername ||
options.host ||
(options.socket && options.socket._host) ||
'localhost',
NPN = {},
context = tls.createSecureContext(options);
tls.convertNPNProtocols(options.NPNProtocols, NPN);
var socket = new TLSSocket(options.socket, {
pipe: options.path && !options.port,
secureContext: context,
isServer: false,
requestCert: true,
rejectUnauthorized: options.rejectUnauthorized,
session: options.session,
NPNProtocols: NPN.NPNProtocols,
requestOCSP: options.requestOCSP
});
if (cb)
socket.once('secureConnect', cb);
if (!options.socket) {
var connect_opt;
if (options.path && !options.port) {
connect_opt = { path: options.path };
} else {
connect_opt = {
port: options.port,
host: options.host,
localAddress: options.localAddress
};
}
socket.connect(connect_opt, function() {
socket._start();
});
}
socket._releaseControl();
if (options.session)
socket.setSession(options.session);
if (options.servername)
socket.setServername(options.servername);
if (options.socket)
socket._start();
socket.on('secure', function() {
var verifyError = socket._handle.verifyError();
// Verify that server's identity matches it's certificate's names
if (!verifyError) {
var cert = socket.getPeerCertificate();
verifyError = options.checkServerIdentity(hostname, cert);
}
if (verifyError) {
socket.authorized = false;
socket.authorizationError = verifyError.code || verifyError.message;
if (options.rejectUnauthorized) {
socket.destroy(verifyError);
return;
} else {
socket.emit('secureConnect');
}
} else {
socket.authorized = true;
socket.emit('secureConnect');
}
// Uncork incoming data
socket.removeListener('end', onHangUp);
});
function onHangUp() {
// NOTE: This logic is shared with _http_client.js
if (!socket._hadError) {
socket._hadError = true;
var error = new Error('socket hang up');
error.code = 'ECONNRESET';
socket.destroy(error);
}
}
socket.once('end', onHangUp);
return socket;
};