telebit-relay.js/wstunneld.js

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'use strict';
var sni = require('sni');
var url = require('url');
var jwt = require('jsonwebtoken');
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var packer = require('tunnel-packer');
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var Devices = {};
Devices.add = function (store, servername, newDevice) {
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var devices = Devices.list(store, servername);
devices.push(newDevice);
store[servername] = devices;
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};
Devices.remove = function (store, servername, device) {
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var devices = Devices.list(store, servername);
var index = devices.indexOf(device);
if (index < 0) {
var id = device.deviceId || device.servername || device.id;
console.warn('attempted to remove non-present device', id, 'from', servername);
return null;
}
return devices.splice(index, 1)[0];
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};
Devices.list = function (store, servername) {
return store[servername] || [];
};
Devices.exist = function (store, servername) {
return (store[servername] || []).length;
};
Devices.next = function (store, servername) {
var devices = Devices.list(store, servername);
var device;
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if (devices._index >= devices.length) {
devices._index = 0;
}
device = devices[devices._index || 0];
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devices._index = (devices._index || 0) + 1;
return device;
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};
module.exports.store = { Devices: Devices };
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module.exports.create = function (copts) {
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var deviceLists = {};
var activityTimeout = copts.activityTimeout || 2*60*1000;
var pongTimeout = copts.pongTimeout || 10*1000;
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function onWsConnection(ws) {
var location = url.parse(ws.upgradeReq.url, true);
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var authn = (ws.upgradeReq.headers.authorization||'').split(/\s+/);
var jwtoken;
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var token;
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try {
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if (authn[0]) {
if ('basic' === authn[0].toLowerCase()) {
authn = new Buffer(authn[1], 'base64').toString('ascii').split(':');
}
/*
if (-1 !== [ 'bearer', 'jwk' ].indexOf(authn[0].toLowerCase())) {
jwtoken = authn[1];
}
*/
}
jwtoken = authn[1] || location.query.access_token;
} catch(e) {
jwtoken = null;
}
try {
token = jwt.verify(jwtoken, copts.secret);
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} catch(e) {
token = null;
}
/*
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if (!token || !token.name) {
console.log('location, token');
console.log(location.query.access_token);
console.log(token);
}
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*/
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if (!token) {
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ws.send(JSON.stringify({ error: { message: "invalid access token", code: "E_INVALID_TOKEN" } }));
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ws.close();
return;
}
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//console.log('[wstunneld.js] DEBUG', token);
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if (!Array.isArray(token.domains)) {
if ('string' === typeof token.name) {
token.domains = [ token.name ];
}
}
if (!Array.isArray(token.domains)) {
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ws.send(JSON.stringify({ error: { message: "invalid server name", code: "E_INVALID_NAME" } }));
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ws.close();
return;
}
var remote = {};
remote.ws = ws;
remote.servername = (token.device && token.device.hostname) || token.domains.join(',');
remote.deviceId = (token.device && token.device.id) || null;
remote.id = packer.socketToId(ws.upgradeReq.socket);
console.log("remote.id", remote.id);
remote.domains = token.domains;
remote.clients = {};
// TODO allow tls to be decrypted by server if client is actually a browser
// and we haven't implemented tls in the browser yet
// remote.decrypt = token.decrypt;
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var handlers = {
onmessage: function (opts) {
// opts.data
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var cid = packer.addrToId(opts);
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var cstream = remote.clients[cid];
console.log("remote '" + remote.servername + " : " + remote.id + "' has data for '" + cid + "'", opts.data.byteLength);
if (!cstream) {
remote.ws.send(packer.pack(opts, null, 'error'));
return;
}
cstream.browser.write(opts.data);
}
, onend: function (opts) {
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var cid = packer.addrToId(opts);
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console.log('[TunnelEnd]', cid);
handlers._onend(cid);
}
, onerror: function (opts) {
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var cid = packer.addrToId(opts);
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console.log('[TunnelError]', cid);
handlers._onend(cid);
}
, _onend: function (cid) {
var c = remote.clients[cid];
delete remote.clients[cid];
try {
c.browser.end();
} catch(e) {
// ignore
}
try {
c.wrapped.end();
} catch(e) {
// ignore
}
}
};
remote.unpacker = packer.create(handlers);
// Now that we have created our remote object we need to store it in the deviceList for
// each domainname we are supposed to be handling.
token.domains.forEach(function (domainname) {
console.log('domainname', domainname);
Devices.add(deviceLists, domainname, remote);
});
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var lastActivity = Date.now();
var timeoutId;
function refreshTimeout() {
lastActivity = Date.now();
}
function checkTimeout() {
// Determine how long the connection has been "silent", ie no activity.
var silent = Date.now() - lastActivity;
// If we have had activity within the last activityTimeout then all we need to do is
// call this function again at the soonest time when the connection could be timed out.
if (silent < activityTimeout) {
timeoutId = setTimeout(checkTimeout, activityTimeout-silent);
}
// Otherwise we check to see if the pong has also timed out, and if not we send a ping
// and call this function again when the pong will have timed out.
else if (silent < activityTimeout + pongTimeout) {
console.log('pinging', remote.deviceId || remote.servername);
try {
remote.ws.ping();
} catch (err) {
console.warn('failed to ping home cloud', remote.deviceId || remote.servername);
}
timeoutId = setTimeout(checkTimeout, pongTimeout);
}
// Last case means the ping we sent before didn't get a response soon enough, so we
// need to close the websocket connection.
else {
console.log('home cloud', remote.deviceId || remote.servername, 'connection timed out');
remote.ws.close(1013, 'connection timeout');
}
}
timeoutId = setTimeout(checkTimeout, activityTimeout);
// Note that our websocket library automatically handles pong responses on ping requests
// before it even emits the event.
ws.on('ping', refreshTimeout);
ws.on('pong', refreshTimeout);
ws.on('message', function forwardMessage(chunk) {
refreshTimeout();
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console.log('message from home cloud to tunneler to browser', chunk.byteLength);
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//console.log(chunk.toString());
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remote.unpacker.fns.addChunk(chunk);
});
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function hangup() {
clearTimeout(timeoutId);
console.log('home cloud', remote.deviceId || remote.servername, 'connection closing');
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// the remote will handle closing its local connections
Object.keys(remote.clients).forEach(function (cid) {
try {
remote.clients[cid].browser.end();
} catch(e) {
// ignore
}
});
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token.domains.forEach(function (domainname) {
Devices.remove(deviceLists, domainname, remote);
});
}
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ws.on('close', hangup);
ws.on('error', hangup);
}
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function pipeWs(servername, service, browser, remote) {
console.log('pipeWs');
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//var remote = deviceLists[servername];
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var ws = remote.ws;
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//var address = packer.socketToAddr(ws.upgradeReq.socket);
var baddress = packer.socketToAddr(browser);
var cid = packer.addrToId(baddress);
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console.log('servername:', servername);
console.log('service:', service);
baddress.service = service;
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var wrapForRemote = packer.Transform.create({
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id: cid
//, remoteId: remote.id
, address: baddress
, servername: servername
, service: service
});
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console.log('home-cloud is', packer.socketToId(remote.ws.upgradeReq.socket));
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console.log('browser is', cid);
var bstream = remote.clients[cid] = {
wrapped: browser.pipe(wrapForRemote)
, browser: browser
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, address: baddress
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};
//var bstream = remote.clients[cid] = wrapForRemote.pipe(browser);
bstream.wrapped.on('data', function (pchunk) {
// var chunk = socket.read();
console.log('[bstream] data from browser to tunneler', pchunk.byteLength);
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//console.log(JSON.stringify(pchunk.toString()));
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try {
ws.send(pchunk, { binary: true });
} catch(e) {
try {
bstream.browser.end();
} catch(e) {
// ignore
}
}
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});
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bstream.wrapped.on('error', function (err) {
console.error('[error] bstream.wrapped.error');
console.error(err);
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try {
ws.send(packer.pack(baddress, null, 'error'), { binary: true });
} catch(e) {
// ignore
}
try {
bstream.browser.end();
} catch(e) {
// ignore
}
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delete remote.clients[cid];
});
bstream.wrapped.on('end', function () {
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try {
ws.send(packer.pack(baddress, null, 'end'), { binary: true });
} catch(e) {
// ignore
}
try {
bstream.browser.end();
} catch(e) {
// ignore
}
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delete remote.clients[cid];
});
}
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function onTcpConnection(browser) {
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// this works when I put it here, but I don't know if it's tls yet here
// httpsServer.emit('connection', socket);
//tls3000.emit('connection', socket);
//var tlsSocket = new tls.TLSSocket(socket, { secureContext: tls.createSecureContext(tlsOpts) });
//tlsSocket.on('data', function (chunk) {
// console.log('dummy', chunk.byteLength);
//});
//return;
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browser.once('data', function (firstChunk) {
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// BUG XXX: this assumes that the packet won't be chunked smaller
// than the 'hello' or the point of the 'Host' header.
// This is fairly reasonable, but there are edge cases where
// it does not hold (such as manual debugging with telnet)
// and so it should be fixed at some point in the future
// defer after return (instead of being in many places)
process.nextTick(function () {
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browser.unshift(firstChunk);
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});
var service = 'tcp';
var servername;
var str;
var m;
function tryTls() {
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if (-1 !== copts.servernames.indexOf(servername)) {
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console.log("Lock and load, admin interface time!");
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copts.httpsTunnel(servername, browser);
return;
}
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if (!servername) {
console.log("No SNI was given, so there's nothing we can do here");
copts.httpsInvalid(servername, browser);
return;
}
var nextDevice = Devices.next(deviceLists, servername);
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if (!nextDevice) {
console.log("No devices match the given servername");
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copts.httpsInvalid(servername, browser);
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return;
}
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console.log("pipeWs(servername, service, socket, deviceLists['" + servername + "'])");
pipeWs(servername, service, browser, nextDevice);
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}
// https://github.com/mscdex/httpolyglot/issues/3#issuecomment-173680155
if (22 === firstChunk[0]) {
// TLS
service = 'https';
servername = (sni(firstChunk)||'').toLowerCase();
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console.log("tls hello servername:", servername);
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tryTls();
return;
}
if (firstChunk[0] > 32 && firstChunk[0] < 127) {
str = firstChunk.toString();
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m = str.match(/(?:^|[\r\n])Host: ([^\r\n]+)[\r\n]*/im);
servername = (m && m[1].toLowerCase() || '').split(':')[0];
console.log('servername', servername);
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if (/HTTP\//i.test(str)) {
service = 'http';
// TODO disallow http entirely
// /^\/\.well-known\/acme-challenge\//.test(str)
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if (/well-known/.test(str)) {
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// HTTP
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if (Devices.exist(deviceLists, servername)) {
pipeWs(servername, service, browser, Devices.next(deviceLists, servername));
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return;
}
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copts.handleHttp(servername, browser);
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}
else {
// redirect to https
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copts.handleInsecureHttp(servername, browser);
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}
return;
}
}
console.error("Got unexpected connection", str);
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browser.write(JSON.stringify({ error: {
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message: "not sure what you were trying to do there..."
, code: 'E_INVALID_PROTOCOL' }
}));
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browser.end();
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});
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browser.on('error', function (err) {
console.error('[error] tcp socket raw TODO forward and close');
console.error(err);
});
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}
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return { tcp: onTcpConnection, ws: onWsConnection };
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};