A SOCKS, HTTP and DNS proxy for distributing traffic across multiple instances of Tor

dns dns-server node node-js proxy proxy-server socks5 socks5-proxy tor tor-network

Go to file

Zachary Boyd fadde58af2 Runs tor router as an unprivileged user		2018-05-07 22:56:48 -07:00
bin	Makes the log entires that describe network traffic "verbose" instead of "debug". Sets the default logLevel to "info". Fixes a bug with setting the logLevel via the command line	2018-05-06 22:54:21 -07:00
src	Runs tor router as an unprivileged user	2018-05-07 22:56:48 -07:00
test	allows instances to be removed from pool	2017-03-24 20:11:06 -04:00
.dockerignore	removes README from docker build	2017-03-24 20:15:49 -04:00
.gitignore	adds control server	2017-03-22 12:45:16 -04:00
.npmignore	adds npm ignore	2017-03-24 20:28:58 -04:00
Dockerfile	Runs tor router as an unprivileged user	2018-05-07 22:56:48 -07:00
LICENSE.txt	adds the apache licence	2017-03-25 23:54:41 -04:00
package-lock.json	Add package-lock.json	2018-05-06 22:41:13 -07:00
package.json	Runs tor router as an unprivileged user	2018-05-07 22:56:48 -07:00
README.md	Updates the README to reflect some of the changes	2018-05-06 22:55:10 -07:00
tor-sources.list	updates ubuntu version to 17.10 in dockerfile. uses nodejs 8.	2017-11-12 14:15:06 -08:00

README.md

Tor Router

Tor Router is a simple SOCKS5 forward proxy for distributing traffic across multiple instances of Tor. At startup Tor Router will run an arbitrary number of instances Tor an each request will be sent to a different instance in round-robin fashion. This can be used to increase anonymity, because each request will be sent on a different circut and will most likely use a different exit-node, and also to increase performance since outbound traffic is now split across several instances of Tor.

Tor Router also includes a DNS forward proxy and a HTTP forward proxy as well, which like the SOCKS proxy will distribute traffic across multiple instances of Tor in round-robin fashion. The HTTP forward proxy can be used to access Tor via an HTTP Proxy.

Building and Running

Installation requirements are node.js and tor. Make sure "tor" is in your PATH.

To install run: npm install To start run: bin/tor-router

To install globally run: npm install -g

Alternatively docker can be used. The build will retrieve the latest version of Tor from the offical Tor Project repository.

To build run: docker build -t znetstar/tor-router . To start run: docker run --rm -it -p 9050:9050 znetstar/tor-router

Usage

The following command line switches and their environment variable equivalents are available for use:

Command line switch	Environment Variable	Description
-c, --controlPort	CONTROL_PORT	Port the control server will bind to (see below)
-j, --instances	INSTANCES	Number of Tor instances to spawn
-s, --socksPort	SOCKS_PORT	Port the SOCKS proxy will bind to
-d, --dnsPort	DNS_PORT	Port the DNS proxy will bind to
-h, --httpPort	HTTP_PORT	Port the HTTP proxy will bind to
-l, --logLevel	LOG_LEVEL	Log level (defaults to "info") set to "null" to disable logging. To see a log of all network traffic set logLevel to "verbose"

For example: tor-router -j 3 -s 9050 would start the proxy with 3 tor instances and listen for SOCKS connections on 9050.

Control Server

A JSON-RPC 2 TCP Server will listen on port 9077 by default. Using the rpc server the client can add/remove Tor instances and get a new identity (which includes a new ip address) while Tor Router is running.

Example (in node):

	var net = require('net');

	const client = net.createConnection({ port: 9077 }, () => {
		var rpcRequest = {
			"method": "createInstances",
			"params": [3], 
			"jsonrpc":"2.0", 
			"id": 1
		};
		client.write(JSON.stringify(rpcRequest));
	});

	client.on('data', (chunk) => {
		var rawResponse = chunk.toString('utf8');
		var rpcResponse = JSON.parse(rawResponse);
		console.log(rpcResponse)
		if (rpcResponse.id === 1) {
			console.log('Three instances have been created!')
		}
	})

Test

Tests are written in mocha, just run npm test