goldilocks.js/lib/modules/http.js

487 lines
15 KiB
JavaScript

'use strict';
module.exports.create = function (deps, conf, greenlockMiddleware) {
var PromiseA = require('bluebird');
var statAsync = PromiseA.promisify(require('fs').stat);
var domainMatches = require('../domain-utils').match;
var separatePort = require('../domain-utils').separatePort;
function parseHeaders(conn, opts) {
// There should already be a `firstChunk` on the opts, but because we might sometimes
// need more than that to get all the headers it's easier to always read the data off
// the connection and put it back later if we need to.
opts.firstChunk = Buffer.alloc(0);
// First we make sure we have all of the headers.
return new PromiseA(function (resolve, reject) {
if (opts.firstChunk.includes('\r\n\r\n')) {
resolve(opts.firstChunk.toString());
return;
}
var errored = false;
function handleErr(err) {
errored = true;
reject(err);
}
conn.once('error', handleErr);
function handleChunk(chunk) {
if (!errored) {
opts.firstChunk = Buffer.concat([opts.firstChunk, chunk]);
if (!opts.firstChunk.includes('\r\n\r\n')) {
conn.once('data', handleChunk);
return;
}
conn.removeListener('error', handleErr);
conn.pause();
resolve(opts.firstChunk.toString());
}
}
conn.once('data', handleChunk);
}).then(function (firstStr) {
var headerSection = firstStr.split('\r\n\r\n')[0];
var lines = headerSection.split('\r\n');
var result = {};
lines.slice(1).forEach(function (line) {
var match = /([^:]*?)\s*:\s*(.*)/.exec(line);
if (match) {
result[match[1].toLowerCase()] = match[2];
} else {
console.error('HTTP header line does not match pattern', line);
}
});
var match = /^([a-zA-Z]+)\s+(\S+)\s+HTTP/.exec(lines[0]);
if (!match) {
throw new Error('first line of "HTTP" does not match pattern: '+lines[0]);
}
result.method = match[1].toUpperCase();
result.url = match[2];
return result;
});
}
function hostMatchesDomains(req, domains) {
var host = separatePort((req.headers || req).host).host.toLowerCase();
return domains.some(function (pattern) {
return domainMatches(pattern, host);
});
}
function determinePrimaryHost() {
var result;
if (Array.isArray(conf.http.domains)) {
conf.http.domains.some(function (dom) {
return dom.names.some(function (domain) {
if (domain[0] !== '*') {
result = domain;
return true;
}
});
});
}
if (result) {
return result;
}
if (Array.isArray(conf.http.modules)) {
conf.http.modules.some(function (mod) {
return mod.domains.some(function (domain) {
if (domain[0] !== '*') {
result = domain;
return true;
}
});
});
}
return result;
}
// We handle both HTTPS and HTTP traffic on the same ports, and we want to redirect
// any unencrypted requests to the same port they came from unless it came in on
// the default HTTP port, in which case there wont be a port specified in the host.
var redirecters = {};
var ipv4Re = /^\d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}$/;
var ipv6Re = /^\[[0-9a-fA-F:]+\]$/;
function redirectHttps(req, res) {
var host = separatePort(req.headers.host);
if (!redirecters[host.port]) {
redirecters[host.port] = require('redirect-https')({ port: host.port });
}
// localhost and IP addresses cannot have real SSL certs (and don't contain any useful
// info for redirection either), so we direct some hosts to either localhost.daplie.me
// or the "primary domain" ie the first manually specified domain.
if (host.host === 'localhost') {
req.headers.host = 'localhost.daplie.me' + (host.port ? ':'+host.port : '');
}
// Test for IPv4 and IPv6 addresses. These patterns will match some invalid addresses,
// but since those still won't be valid domains that won't really be a problem.
if (ipv4Re.test(host.host) || ipv6Re.test(host.host)) {
var dest;
if (conf.http.primaryDomain) {
dest = conf.http.primaryDomain;
} else {
dest = determinePrimaryHost();
}
if (dest) {
req.headers.host = dest + (host.port ? ':'+host.port : '');
}
}
redirecters[host.port](req, res);
}
function emitConnection(server, conn, opts) {
server.emit('connection', conn);
// We need to put back whatever data we read off to determine the connection was HTTP
// and to parse the headers. Must be done after data handlers added but before any new
// data comes in.
process.nextTick(function () {
conn.unshift(opts.firstChunk);
conn.resume();
});
// Convenience return for all the check* functions.
return true;
}
var acmeServer;
function checkAcme(conn, opts, headers) {
if (headers.url.indexOf('/.well-known/acme-challenge/') !== 0) {
return false;
}
if (deps.tunnelServer.isClientDomain(separatePort(headers.host).host)) {
deps.tunnelServer.handleClientConn(conn);
process.nextTick(function () {
conn.unshift(opts.firstChunk);
conn.resume();
});
return true;
}
if (!acmeServer) {
acmeServer = require('http').createServer(greenlockMiddleware);
}
return emitConnection(acmeServer, conn, opts);
}
function checkLoopback(conn, opts, headers) {
if (headers.url.indexOf('/.well-known/cloud-challenge/') !== 0) {
return false;
}
return emitConnection(deps.ddns.loopbackServer, conn, opts);
}
var httpsRedirectServer;
function checkHttps(conn, opts, headers) {
if (conf.http.allowInsecure || conn.encrypted) {
return false;
}
if (conf.http.trustProxy && 'https' === headers['x-forwarded-proto']) {
return false;
}
if (!httpsRedirectServer) {
httpsRedirectServer = require('http').createServer(redirectHttps);
}
return emitConnection(httpsRedirectServer, conn, opts);
}
var adminDomains;
var adminServer;
function checkAdmin(conn, opts, headers) {
var host = separatePort(headers.host).host;
if (!adminDomains) {
adminDomains = require('./admin').adminDomains;
}
if (adminDomains.indexOf(host) !== -1) {
if (!adminServer) {
adminServer = require('./admin').create(deps, conf);
}
return emitConnection(adminServer, conn, opts);
}
if (deps.tunnelServer.isAdminDomain(host)) {
deps.tunnelServer.handleAdminConn(conn);
process.nextTick(function () {
conn.unshift(opts.firstChunk);
conn.resume();
});
return true;
}
return false;
}
var proxyServer;
function createProxyServer() {
var http = require('http');
var agent = new http.Agent();
agent.createConnection = deps.net.createConnection;
var proxy = require('http-proxy').createProxyServer({
agent: agent
, toProxy: true
});
proxy.on('error', function (err, req, res) {
res.statusCode = 502;
res.setHeader('Connection', 'close');
res.setHeader('Content-Type', 'text/html');
res.end(require('../proxy-conn').getRespBody(err, conf.debug));
});
proxyServer = http.createServer(function (req, res) {
proxy.web(req, res, req.connection.proxyOpts);
});
proxyServer.on('upgrade', function (req, socket, head) {
proxy.ws(req, socket, head, socket.proxyOpts);
});
}
function proxyRequest(mod, conn, opts, xHeaders) {
if (!proxyServer) {
createProxyServer();
}
conn.proxyOpts = {
target: 'http://'+(mod.address || (mod.host || 'localhost')+':'+mod.port)
, headers: xHeaders
};
return emitConnection(proxyServer, conn, opts);
}
function proxyWebsocket(mod, conn, opts, headers, xHeaders) {
var index = opts.firstChunk.indexOf('\r\n\r\n');
var body = opts.firstChunk.slice(index);
var head = opts.firstChunk.slice(0, index).toString();
var headLines = head.split('\r\n');
// First strip any existing `X-Forwarded-*` headers (for security purposes?)
headLines = headLines.filter(function (line) {
return !/^x-forwarded/i.test(line);
});
// Then add our own `X-Forwarded` headers at the end.
Object.keys(xHeaders).forEach(function (key) {
headLines.push(key + ': ' +xHeaders[key]);
});
// Then convert all of the head lines back into a header buffer.
head = Buffer.from(headLines.join('\r\n'));
opts.firstChunk = Buffer.concat([head, body]);
var newConnOpts = separatePort(mod.address || '');
newConnOpts.port = newConnOpts.port || mod.port;
newConnOpts.host = newConnOpts.host || mod.host || 'localhost';
newConnOpts.servername = separatePort(headers.host).host;
newConnOpts.data = opts.firstChunk;
newConnOpts.remoteFamily = opts.family || conn.remoteFamily;
newConnOpts.remoteAddress = opts.address || conn.remoteAddress;
newConnOpts.remotePort = opts.port || conn.remotePort;
deps.proxy(conn, newConnOpts, opts.firstChunk);
}
function checkProxy(mod, conn, opts, headers) {
var xHeaders = {};
// Then add our own `X-Forwarded` headers at the end.
if (conf.http.trustProxy && headers['x-forwarded-proto']) {
xHeaders['X-Forwarded-Proto'] = headers['x-forwarded-proto'];
} else {
xHeaders['X-Forwarded-Proto'] = conn.encrypted ? 'https' : 'http';
}
var proxyChain = (headers['x-forwarded-for'] || '').split(/ *, */).filter(Boolean);
proxyChain.push(opts.remoteAddress || opts.address || conn.remoteAddress);
xHeaders['X-Forwarded-For'] = proxyChain.join(', ');
xHeaders['X-Forwarded-Host'] = headers.host;
if ((headers.connection || '').toLowerCase() === 'upgrade') {
proxyWebsocket(mod, conn, opts, headers, xHeaders);
} else {
proxyRequest(mod, conn, opts, xHeaders);
}
return true;
}
function checkRedirect(mod, conn, opts, headers) {
if (!mod.fromRe || mod.fromRe.origSrc !== mod.from) {
// Escape any characters that (can) have special meaning in regular expression
// but that aren't the special characters we have interest in.
var from = mod.from.replace(/[-\/\\^$+?.()|[\]{}]/g, '\\$&');
// Then modify the characters we are interested in so they do what we want in
// the regular expression after being compiled.
from = from.replace(/\*/g, '(.*)');
var fromRe = new RegExp('^' + from + '/?$');
fromRe.origSrc = mod.from;
// We don't want this property showing up in the actual config file or the API,
// so we define it this way so it's not enumberable.
Object.defineProperty(mod, 'fromRe', {value: fromRe, configurable: true});
}
var match = mod.fromRe.exec(headers.url);
if (!match) {
return false;
}
var to = mod.to;
match.slice(1).forEach(function (globMatch, index) {
to = to.replace(':'+(index+1), globMatch);
});
var status = mod.status || 301;
var code = require('http').STATUS_CODES[status] || 'Unknown';
conn.end([
'HTTP/1.1 ' + status + ' ' + code
, 'Date: ' + (new Date()).toUTCString()
, 'Location: ' + to
, 'Connection: close'
, 'Content-Length: 0'
, ''
, ''
].join('\r\n'));
return true;
}
var staticServer;
var staticHandlers = {};
function serveStatic(req, res) {
var rootDir = req.connection.rootDir;
if (!staticHandlers[rootDir]) {
staticHandlers[rootDir] = require('express').static(rootDir, { fallthrough: false });
}
staticHandlers[rootDir](req, res, function (err) {
if (err) {
res.statusCode = err.statusCode;
} else {
res.statusCode = 404;
}
res.setHeader('Content-Type', 'text/html');
if (res.statusCode === 404) {
res.end('File Not Found');
} else {
res.end(require('http').STATUS_CODES[res.statusCode]);
}
});
}
function checkStatic(mod, conn, opts, headers) {
var rootDir = mod.root.replace(':hostname', separatePort(headers.host).host);
return statAsync(rootDir)
.then(function (stats) {
if (!stats || !stats.isDirectory()) {
return false;
}
if (!staticServer) {
staticServer = require('http').createServer(serveStatic);
}
conn.rootDir = rootDir;
return emitConnection(staticServer, conn, opts);
})
.catch(function (err) {
if (err.code !== 'ENOENT') {
console.warn('errored stating', rootDir, 'for serving static files', err);
}
return false;
})
;
}
var moduleChecks = {
proxy: checkProxy
, redirect: checkRedirect
, static: checkStatic
};
function handleConnection(conn) {
var opts = conn.__opts;
parseHeaders(conn, opts)
.then(function (headers) {
if (checkAcme(conn, opts, headers)) { return; }
if (checkLoopback(conn, opts, headers)) { return; }
if (checkHttps(conn, opts, headers)) { return; }
if (checkAdmin(conn, opts, headers)) { return; }
var prom = PromiseA.resolve(false);
(conf.http.domains || []).forEach(function (dom) {
prom = prom.then(function (handled) {
if (handled) {
return handled;
}
if (!hostMatchesDomains(headers, dom.names)) {
return false;
}
var subProm = PromiseA.resolve(false);
dom.modules.forEach(function (mod) {
if (moduleChecks[mod.name]) {
subProm = subProm.then(function (handled) {
if (handled) { return handled; }
return moduleChecks[mod.name](mod, conn, opts, headers);
});
} else {
console.warn('unknown HTTP module under domains', dom.names.join(','), mod);
}
});
return subProm;
});
});
(conf.http.modules || []).forEach(function (mod) {
prom = prom.then(function (handled) {
if (handled) {
return handled;
}
if (!hostMatchesDomains(headers, mod.domains)) {
return false;
}
if (moduleChecks[mod.name]) {
return moduleChecks[mod.name](mod, conn, opts, headers);
}
console.warn('unknown HTTP module found', mod);
});
});
prom.then(function (handled) {
// XXX TODO SECURITY html escape
var host = (headers.host || '[no host header]').replace(/</, '&lt;');
// TODO specify filepath of config file or database connection, etc
var msg = "Bad Gateway: Goldilocks accepted '" + host + "' but no module (neither static nor proxy) was designated to handle it. Check your config file.";
if (!handled) {
conn.end([
'HTTP/1.1 502 Bad Gateway'
, 'Date: ' + (new Date()).toUTCString()
, 'Content-Type: text/html'
, 'Content-Length: ' + msg.length
, 'Connection: close'
, ''
, msg
].join('\r\n'));
}
});
})
;
}
return {
emit: function (type, value) {
if (type === 'connection') {
handleConnection(value);
}
}
};
};