/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
"use strict";
/* import-globals-from head_cache.js */
/* import-globals-from head_cookies.js */
/* import-globals-from head_channels.js */
/* import-globals-from head_trr.js */
/* globals require, __dirname, global, Buffer, process */
class BaseNodeHTTPServerCode {
static globalHandler(req, resp) {
let path = new URL(req.url, "http://example.com").pathname;
let handler = global.path_handlers[path];
if (handler) {
return handler(req, resp);
}
// Didn't find a handler for this path.
let response = `
404 Path not found: ${path}
`;
resp.setHeader("Content-Type", "text/html");
resp.setHeader("Content-Length", response.length);
resp.writeHead(404);
resp.end(response);
return undefined;
}
}
class ADB {
static async stopForwarding(port) {
// return this.forwardPort(port, true);
}
static async forwardPort(port, remove = false) {
if (!process.env.MOZ_ANDROID_DATA_DIR) {
// Not android, or we don't know how to do the forwarding
return;
}
// When creating a server on Android we must make sure that the port
// is forwarded from the host machine to the emulator.
let adb_path = "adb";
if (process.env.MOZ_FETCHES_DIR) {
adb_path = `${process.env.MOZ_FETCHES_DIR}/android-sdk-linux/platform-tools/adb`;
}
let command = `${adb_path} reverse tcp:${port} tcp:${port}`;
if (remove) {
command = `${adb_path} reverse --remove tcp:${port}`;
}
await new Promise(resolve => {
const { exec } = require("child_process");
exec(command, (error, stdout, stderr) => {
if (error) {
console.log(`error: ${error.message}`);
return;
}
if (stderr) {
console.log(`stderr: ${stderr}`);
}
// console.log(`stdout: ${stdout}`);
resolve();
});
});
}
}
class BaseNodeServer {
protocol() {
return this._protocol;
}
origin() {
return `${this.protocol()}://localhost:${this.port()}`;
}
port() {
return this._port;
}
/// Stops the server
async stop() {
if (this.processId) {
await this.execute(`ADB.stopForwarding(${this.port()})`);
await NodeServer.kill(this.processId);
this.processId = undefined;
}
}
/// Executes a command in the context of the node server
async execute(command) {
return NodeServer.execute(this.processId, command);
}
/// @path : string - the path on the server that we're handling. ex: /path
/// @handler : function(req, resp, url) - function that processes request and
/// emits a response.
async registerPathHandler(path, handler) {
return this.execute(
`global.path_handlers["${path}"] = ${handler.toString()}`
);
}
}
// HTTP
class NodeHTTPServerCode extends BaseNodeHTTPServerCode {
static async startServer(port) {
const http = require("http");
global.server = http.createServer(BaseNodeHTTPServerCode.globalHandler);
await global.server.listen(port);
let serverPort = global.server.address().port;
await ADB.forwardPort(serverPort);
return serverPort;
}
}
class NodeHTTPServer extends BaseNodeServer {
_protocol = "http";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseNodeHTTPServerCode);
await this.execute(NodeHTTPServerCode);
await this.execute(ADB);
this._port = await this.execute(`NodeHTTPServerCode.startServer(${port})`);
await this.execute(`global.path_handlers = {};`);
}
}
// HTTPS
class NodeHTTPSServerCode extends BaseNodeHTTPServerCode {
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/http2-cert.key"),
cert: fs.readFileSync(__dirname + "/http2-cert.pem"),
};
const https = require("https");
global.server = https.createServer(
options,
BaseNodeHTTPServerCode.globalHandler
);
await global.server.listen(port);
let serverPort = global.server.address().port;
await ADB.forwardPort(serverPort);
return serverPort;
}
}
class NodeHTTPSServer extends BaseNodeServer {
_protocol = "https";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseNodeHTTPServerCode);
await this.execute(NodeHTTPSServerCode);
await this.execute(ADB);
this._port = await this.execute(`NodeHTTPSServerCode.startServer(${port})`);
await this.execute(`global.path_handlers = {};`);
}
}
// HTTP2
class NodeHTTP2ServerCode extends BaseNodeHTTPServerCode {
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/http2-cert.key"),
cert: fs.readFileSync(__dirname + "/http2-cert.pem"),
};
const http2 = require("http2");
global.server = http2.createSecureServer(
options,
BaseNodeHTTPServerCode.globalHandler
);
await global.server.listen(port);
let serverPort = global.server.address().port;
await ADB.forwardPort(serverPort);
return serverPort;
}
}
class NodeHTTP2Server extends BaseNodeServer {
_protocol = "https";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseNodeHTTPServerCode);
await this.execute(NodeHTTP2ServerCode);
await this.execute(ADB);
this._port = await this.execute(`NodeHTTP2ServerCode.startServer(${port})`);
await this.execute(`global.path_handlers = {};`);
}
}
// Base HTTP proxy
class BaseProxyCode {
static proxyHandler(req, res) {
if (req.url.startsWith("/")) {
res.writeHead(405);
res.end();
return;
}
let url = new URL(req.url);
const http = require("http");
let preq = http
.request(
{
method: req.method,
path: url.pathname,
port: url.port,
host: url.hostname,
protocol: url.protocol,
},
proxyresp => {
res.writeHead(
proxyresp.statusCode,
proxyresp.statusMessage,
proxyresp.headers
);
proxyresp.on("data", chunk => {
if (!res.writableEnded) {
res.write(chunk);
}
});
proxyresp.on("end", () => {
res.end();
});
}
)
.on("error", e => {
console.log(`sock err: ${e}`);
});
if (req.method != "POST") {
preq.end();
} else {
req.on("data", chunk => {
if (!preq.writableEnded) {
preq.write(chunk);
}
});
req.on("end", () => preq.end());
}
}
static onConnect(req, clientSocket, head) {
if (global.connect_handler) {
global.connect_handler(req, clientSocket, head);
return;
}
const net = require("net");
// Connect to an origin server
const { port, hostname } = new URL(`https://${req.url}`);
const serverSocket = net
.connect(port || 443, hostname, () => {
clientSocket.write(
"HTTP/1.1 200 Connection Established\r\n" +
"Proxy-agent: Node.js-Proxy\r\n" +
"\r\n"
);
serverSocket.write(head);
serverSocket.pipe(clientSocket);
clientSocket.pipe(serverSocket);
})
.on("error", e => {
// The socket will error out when we kill the connection
// just ignore it.
});
clientSocket.on("error", e => {
// Sometimes we got ECONNRESET error on windows platform.
// Ignore it for now.
});
}
}
class BaseHTTPProxy extends BaseNodeServer {
registerFilter() {
const pps = Cc[
"@mozilla.org/network/protocol-proxy-service;1"
].getService();
this.filter = new NodeProxyFilter(
this.protocol(),
"localhost",
this.port(),
0
);
pps.registerFilter(this.filter, 10);
registerCleanupFunction(() => {
this.unregisterFilter();
});
}
unregisterFilter() {
const pps = Cc[
"@mozilla.org/network/protocol-proxy-service;1"
].getService();
if (this.filter) {
pps.unregisterFilter(this.filter);
this.filter = undefined;
}
}
/// Stops the server
async stop() {
this.unregisterFilter();
await super.stop();
}
async registerConnectHandler(handler) {
return this.execute(`global.connect_handler = ${handler.toString()}`);
}
}
// HTTP1 Proxy
class NodeProxyFilter {
constructor(type, host, port, flags) {
this._type = type;
this._host = host;
this._port = port;
this._flags = flags;
this.QueryInterface = ChromeUtils.generateQI(["nsIProtocolProxyFilter"]);
}
applyFilter(uri, pi, cb) {
if (
uri.pathQueryRef.startsWith("/execute") ||
uri.pathQueryRef.startsWith("/fork") ||
uri.pathQueryRef.startsWith("/kill")
) {
// So we allow NodeServer.execute to work
cb.onProxyFilterResult(pi);
return;
}
const pps = Cc[
"@mozilla.org/network/protocol-proxy-service;1"
].getService();
cb.onProxyFilterResult(
pps.newProxyInfo(
this._type,
this._host,
this._port,
"",
"",
this._flags,
1000,
null
)
);
}
}
class HTTPProxyCode {
static async startServer(port) {
const http = require("http");
global.proxy = http.createServer(BaseProxyCode.proxyHandler);
global.proxy.on("connect", BaseProxyCode.onConnect);
await global.proxy.listen(port);
let proxyPort = global.proxy.address().port;
await ADB.forwardPort(proxyPort);
return proxyPort;
}
}
class NodeHTTPProxyServer extends BaseHTTPProxy {
_protocol = "http";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseProxyCode);
await this.execute(HTTPProxyCode);
await this.execute(ADB);
await this.execute(`global.connect_handler = null;`);
this._port = await this.execute(`HTTPProxyCode.startServer(${port})`);
this.registerFilter();
}
}
// HTTPS proxy
class HTTPSProxyCode {
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/proxy-cert.key"),
cert: fs.readFileSync(__dirname + "/proxy-cert.pem"),
};
const https = require("https");
global.proxy = https.createServer(options, BaseProxyCode.proxyHandler);
global.proxy.on("connect", BaseProxyCode.onConnect);
await global.proxy.listen(port);
let proxyPort = global.proxy.address().port;
await ADB.forwardPort(proxyPort);
return proxyPort;
}
}
class NodeHTTPSProxyServer extends BaseHTTPProxy {
_protocol = "https";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseProxyCode);
await this.execute(HTTPSProxyCode);
await this.execute(ADB);
await this.execute(`global.connect_handler = null;`);
this._port = await this.execute(`HTTPSProxyCode.startServer(${port})`);
this.registerFilter();
}
}
// HTTP2 proxy
class HTTP2ProxyCode {
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/proxy-cert.key"),
cert: fs.readFileSync(__dirname + "/proxy-cert.pem"),
};
const http2 = require("http2");
global.proxy = http2.createSecureServer(options);
global.socketCounts = {};
this.setupProxy();
await global.proxy.listen(port);
let proxyPort = global.proxy.address().port;
await ADB.forwardPort(proxyPort);
return proxyPort;
}
static setupProxy() {
if (!global.proxy) {
throw new Error("proxy is null");
}
global.proxy.on("stream", (stream, headers) => {
if (headers[":scheme"] === "http") {
const http = require("http");
let url = new URL(
`${headers[":scheme"]}://${headers[":authority"]}${headers[":path"]}`
);
let req = http
.request(
{
method: headers[":method"],
path: headers[":path"],
port: url.port,
host: url.hostname,
protocol: url.protocol,
},
proxyresp => {
let proxyheaders = Object.assign({}, proxyresp.headers);
// Filter out some prohibited headers.
["connection", "transfer-encoding", "keep-alive"].forEach(
prop => {
delete proxyheaders[prop];
}
);
try {
stream.respond(
Object.assign(
{ ":status": proxyresp.statusCode },
proxyheaders
)
);
} catch (e) {
// The channel may have been closed already.
if (e.message != "The stream has been destroyed") {
throw e;
}
}
proxyresp.on("data", chunk => {
if (stream.writable) {
stream.write(chunk);
}
});
proxyresp.on("end", () => {
stream.end();
});
}
)
.on("error", e => {
console.log(`sock err: ${e}`);
});
if (headers[":method"] != "POST") {
req.end();
} else {
stream.on("data", chunk => {
if (!req.writableEnded) {
req.write(chunk);
}
});
stream.on("end", () => req.end());
}
return;
}
if (headers[":method"] !== "CONNECT") {
// Only accept CONNECT requests
stream.respond({ ":status": 405 });
stream.end();
return;
}
const target = headers[":authority"];
const { port } = new URL(`https://${target}`);
const net = require("net");
const socket = net.connect(port, "127.0.0.1", () => {
try {
global.socketCounts[socket.remotePort] =
(global.socketCounts[socket.remotePort] || 0) + 1;
stream.respond({ ":status": 200 });
socket.pipe(stream);
stream.pipe(socket);
} catch (exception) {
console.log(exception);
stream.close();
}
});
const http2 = require("http2");
socket.on("error", error => {
const status = error.errno == "ENOTFOUND" ? 404 : 502;
try {
// If we already sent headers when the socket connected
// then sending the status again would throw.
if (!stream.sentHeaders) {
stream.respond({ ":status": status });
}
stream.end();
} catch (exception) {
stream.close(http2.constants.NGHTTP2_CONNECT_ERROR);
}
});
stream.on("close", () => {
socket.end();
});
socket.on("close", () => {
stream.close();
});
stream.on("end", () => {
socket.end();
});
stream.on("aborted", () => {
socket.end();
});
stream.on("error", error => {
console.log("RESPONSE STREAM ERROR", error);
});
});
}
static socketCount(port) {
return global.socketCounts[port];
}
}
class NodeHTTP2ProxyServer extends BaseHTTPProxy {
_protocol = "https";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseProxyCode);
await this.execute(HTTP2ProxyCode);
await this.execute(ADB);
await this.execute(`global.connect_handler = null;`);
this._port = await this.execute(`HTTP2ProxyCode.startServer(${port})`);
this.registerFilter();
}
async socketCount(port) {
let count = this.execute(`HTTP2ProxyCode.socketCount(${port})`);
return count;
}
}
// websocket server
class NodeWebSocketServerCode extends BaseNodeHTTPServerCode {
static messageHandler(data, ws) {
if (global.wsInputHandler) {
global.wsInputHandler(data, ws);
return;
}
ws.send("test");
}
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/http2-cert.key"),
cert: fs.readFileSync(__dirname + "/http2-cert.pem"),
};
const https = require("https");
global.server = https.createServer(
options,
BaseNodeHTTPServerCode.globalHandler
);
let node_ws_root = `${__dirname}/../node-ws`;
const WebSocket = require(`${node_ws_root}/lib/websocket`);
WebSocket.Server = require(`${node_ws_root}/lib/websocket-server`);
global.webSocketServer = new WebSocket.Server({ server: global.server });
global.webSocketServer.on("connection", function connection(ws) {
ws.on("message", data =>
NodeWebSocketServerCode.messageHandler(data, ws)
);
});
await global.server.listen(port);
let serverPort = global.server.address().port;
await ADB.forwardPort(serverPort);
return serverPort;
}
}
class NodeWebSocketServer extends BaseNodeServer {
_protocol = "wss";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseNodeHTTPServerCode);
await this.execute(NodeWebSocketServerCode);
await this.execute(ADB);
this._port = await this.execute(
`NodeWebSocketServerCode.startServer(${port})`
);
await this.execute(`global.path_handlers = {};`);
await this.execute(`global.wsInputHandler = null;`);
}
async registerMessageHandler(handler) {
return this.execute(`global.wsInputHandler = ${handler.toString()}`);
}
}
// websocket http2 server
// This code is inspired by
// https://github.com/szmarczak/http2-wrapper/blob/master/examples/ws/server.js
class NodeWebSocketHttp2ServerCode extends BaseNodeHTTPServerCode {
static async startServer(port) {
const fs = require("fs");
const options = {
key: fs.readFileSync(__dirname + "/http2-cert.key"),
cert: fs.readFileSync(__dirname + "/http2-cert.pem"),
settings: {
enableConnectProtocol: true,
},
};
const http2 = require("http2");
global.h2Server = http2.createSecureServer(options);
let node_ws_root = `${__dirname}/../node-ws`;
const WebSocket = require(`${node_ws_root}/lib/websocket`);
global.h2Server.on("stream", (stream, headers) => {
if (headers[":method"] === "CONNECT") {
stream.respond();
const ws = new WebSocket(null);
stream.setNoDelay = () => {};
ws.setSocket(stream, Buffer.from(""), 100 * 1024 * 1024);
ws.on("message", data => {
if (global.wsInputHandler) {
global.wsInputHandler(data, ws);
return;
}
ws.send("test");
});
} else {
stream.respond();
stream.end("ok");
}
});
await global.h2Server.listen(port);
let serverPort = global.h2Server.address().port;
await ADB.forwardPort(serverPort);
return serverPort;
}
}
class NodeWebSocketHttp2Server extends BaseNodeServer {
_protocol = "h2ws";
/// Starts the server
/// @port - default 0
/// when provided, will attempt to listen on that port.
async start(port = 0) {
this.processId = await NodeServer.fork();
await this.execute(BaseNodeHTTPServerCode);
await this.execute(NodeWebSocketHttp2ServerCode);
await this.execute(ADB);
this._port = await this.execute(
`NodeWebSocketHttp2ServerCode.startServer(${port})`
);
await this.execute(`global.path_handlers = {};`);
await this.execute(`global.wsInputHandler = null;`);
}
async registerMessageHandler(handler) {
return this.execute(`global.wsInputHandler = ${handler.toString()}`);
}
}
// Helper functions
async function with_node_servers(arrayOfClasses, asyncClosure) {
for (let s of arrayOfClasses) {
let server = new s();
await server.start();
registerCleanupFunction(async () => {
await server.stop();
});
await asyncClosure(server);
await server.stop();
}
}
// nsITLSServerSocket needs a certificate with a corresponding private key
// available. xpcshell tests can import the test file "client-cert.p12" using
// the password "password", resulting in a certificate with the common name
// "Test End-entity" being available with a corresponding private key.
function getTestServerCertificate() {
const certDB = Cc["@mozilla.org/security/x509certdb;1"].getService(
Ci.nsIX509CertDB
);
const certFile = do_get_file("client-cert.p12");
certDB.importPKCS12File(certFile, "password");
for (const cert of certDB.getCerts()) {
if (cert.commonName == "Test End-entity") {
return cert;
}
}
return null;
}
class WebSocketConnection {
constructor() {
this._openPromise = new Promise(resolve => {
this._openCallback = resolve;
});
this._stopPromise = new Promise(resolve => {
this._stopCallback = resolve;
});
this._msgPromise = new Promise(resolve => {
this._msgCallback = resolve;
});
this._proxyAvailablePromise = new Promise(resolve => {
this._proxyAvailCallback = resolve;
});
this._messages = [];
this._ws = null;
}
get QueryInterface() {
return ChromeUtils.generateQI([
"nsIWebSocketListener",
"nsIProtocolProxyCallback",
]);
}
onAcknowledge(aContext, aSize) {}
onBinaryMessageAvailable(aContext, aMsg) {
this._messages.push(aMsg);
this._msgCallback();
}
onMessageAvailable(aContext, aMsg) {}
onServerClose(aContext, aCode, aReason) {}
onWebSocketListenerStart(aContext) {}
onStart(aContext) {
this._openCallback();
}
onStop(aContext, aStatusCode) {
this._stopCallback({ status: aStatusCode });
this._ws = null;
}
onProxyAvailable(req, chan, proxyInfo, status) {
if (proxyInfo) {
this._proxyAvailCallback({ type: proxyInfo.type });
} else {
this._proxyAvailCallback({});
}
}
static makeWebSocketChan() {
let chan = Cc["@mozilla.org/network/protocol;1?name=wss"].createInstance(
Ci.nsIWebSocketChannel
);
chan.initLoadInfo(
null, // aLoadingNode
Services.scriptSecurityManager.getSystemPrincipal(),
null, // aTriggeringPrincipal
Ci.nsILoadInfo.SEC_ALLOW_CROSS_ORIGIN_SEC_CONTEXT_IS_NULL,
Ci.nsIContentPolicy.TYPE_WEBSOCKET
);
return chan;
}
// Returns a promise that resolves when the websocket channel is opened.
open(url) {
this._ws = WebSocketConnection.makeWebSocketChan();
let uri = Services.io.newURI(url);
this._ws.asyncOpen(uri, url, {}, 0, this, null);
return this._openPromise;
}
// Closes the inner websocket. code and reason arguments are optional.
close(code, reason) {
this._ws.close(code || Ci.nsIWebSocketChannel.CLOSE_NORMAL, reason || "");
}
// Sends a message to the server.
send(msg) {
this._ws.sendMsg(msg);
}
// Returns a promise that resolves when the channel's onStop is called.
// Promise resolves with an `{status}` object, where status is the
// result passed to onStop.
finished() {
return this._stopPromise;
}
getProxyInfo() {
return this._proxyAvailablePromise;
}
// Returned promise resolves with an array of received messages
// If messages have been received in the the past before calling
// receiveMessages, the promise will immediately resolve. Otherwise
// it will resolve when the first message is received.
async receiveMessages() {
await this._msgPromise;
this._msgPromise = new Promise(resolve => {
this._msgCallback = resolve;
});
let messages = this._messages;
this._messages = [];
return messages;
}
}