chisel – A fast TCP tunnel over HTTP

Chisel is a fast TCP tunnel, transported over HTTP. Single executable including both client and server. Written in Go (Golang). Chisel is mainly useful for passing through firewalls, though it can also be used to provide a secure endpoint into your network. Chisel is very similar to crowbar though achieves much higher performance .


Install
Binaries
See the latest release or download and install it now with curl https://i.jpillora.com/chisel! | bash
Docker

docker run --rm -it jpillora/chisel --help

Source

$ go get -v github.com/jpillora/chisel

Features

Demo
A demo app on Heroku is running this chisel server :

$ chisel server --port $PORT --proxy http://example.com
# listens on $PORT, proxy web requests to 'http://example.com'

This demo app is also running a simple file server on :3000 , which is normally inaccessible due to Heroku’s firewall. However, if we tunnel in with:

$ chisel client https://chisel-demo.herokuapp.com 3000
# connects to 'https://chisel-demo.herokuapp.com',
# tunnels your localhost:3000 to the server's localhost:3000

and then visit localhost:3000 , we should see a directory listing of the demo app’s root. Also, if we visit the demo app in the browser we should hit the server’s default proxy and see a copy of example.com .

Usage


Usage: chisel [command] [--help]

Version: 0.0.0-src

Commands:
server - runs chisel in server mode
client - runs chisel in client mode

Read more:
https://github.com/jpillora/chisel

chisel server --help


Usage: chisel server [options]

Options:

--host, Defines the HTTP listening host – the network interface
(defaults to 0.0.0.0).

--port, Defines the HTTP listening port (defaults to 8080).

--key, An optional string to seed the generation of a ECDSA public
and private key pair. All communications will be secured using this
key pair. Share this fingerprint with clients to enable detection
of man-in-the-middle attacks.

--authfile, An optional path to a users.json file. This file should
be an object with users defined like:
"<user:pass>": ["<addr-regex>","<addr-regex>"]
when <user> connects, their <pass> will be verified and then
each of the remote addresses will be compared against the list
of address regular expressions for a match. Addresses will
always come in the form "<host/ip>:<port>".

--proxy, Specifies the default proxy target to use when chisel
receives a normal HTTP request.

-v, Enable verbose logging

--help, This help text

Read more:
https://github.com/jpillora/chisel

chisel client --help


Usage: chisel client [options] <server> <remote> [remote] [remote] ...

server is the URL to the chisel server.

remotes are remote connections tunnelled through the server, each of
which come in the form:

<local-host>:<local-port>:<remote-host>:<remote-port>

* remote-port is required.
* local-port defaults to remote-port.
* local-host defaults to 0.0.0.0 (all interfaces).
* remote-host defaults to 0.0.0.0 (server localhost).

example remotes

3000
example.com:3000
3000:google.com:80
192.168.0.5:3000:google.com:80

Options:

--fingerprint, An optional fingerprint (server authentication)
string to compare against the server's public key. You may provide
just a prefix of the key or the entire string. Fingerprint
mismatches will close the connection.

--auth, An optional username and password (client authentication)
in the form: "<user>:<pass>". These credentials are compared to
the credentials inside the server's --authfile.

--keepalive, An optional keepalive interval. Since the underlying
transport is HTTP, in many instances we'll be traversing through
proxies, often these proxies will close idle connections. You must
specify a time with a unit, for example '30s' or '2m'. Defaults
to '0s' (disabled).

-v, Enable verbose logging

--help, This help text

Read more:
https://github.com/jpillora/chisel

See also programmatic usage .

Security
Encryption is always enabled. When you start up a chisel server, it will generate an in-memory ECDSA public/private key pair. The public key fingerprint will be displayed as the server starts. Instead of generating a random key, the server may optionally specify a key seed, using the --key option, which will be used to seed the key generation. When clients connect, they will also display the server’s public key fingerprint. The client can force a particular fingerprint using the --fingerprint option. See the --help above for more information.

Authentication
Using the --authfile option, the server may optionally provide a user.json configuration file to create a list of accepted users. The client then authenticates using the --auth option. See users.json for an example authentication configuration file. See the --help above for more information.
Internally, this is done using the Password authentication method provided by SSH. Learn more about crypto/ssh here http://blog.gopheracademy.com/go-and-ssh/ .

Performance
With crowbar , a connection is tunnelled by repeatedly querying the server with updates. This results in a large amount of HTTP and TCP connection overhead. Chisel overcomes this using WebSockets combined with crypto/ssh to create hundreds of logical connections, resulting in one TCP connection per client.
In this simple benchmark, we have:

                    (direct)
.--------------->----------------.
/ chisel chisel \
request--->client:2001--->server:2002---->fileserver:3000
\ /
'--> crowbar:4001--->crowbar:4002'
client server

Note, we’re using an in-memory “file” server on localhost for these tests
direct

:3000 => 1 bytes in 1.440608ms
:3000 => 10 bytes in 658.833µs
:3000 => 100 bytes in 669.6µs
:3000 => 1000 bytes in 570.242µs
:3000 => 10000 bytes in 655.795µs
:3000 => 100000 bytes in 693.761µs
:3000 => 1000000 bytes in 2.156777ms
:3000 => 10000000 bytes in 18.562896ms
:3000 => 100000000 bytes in 146.355886ms

chisel

:2001 => 1 bytes in 1.393731ms
:2001 => 10 bytes in 1.002992ms
:2001 => 100 bytes in 1.082757ms
:2001 => 1000 bytes in 1.096081ms
:2001 => 10000 bytes in 1.215036ms
:2001 => 100000 bytes in 2.09334ms
:2001 => 1000000 bytes in 9.136138ms
:2001 => 10000000 bytes in 84.170904ms
:2001 => 100000000 bytes in 796.713039ms

~100MB in 0.8 seconds
crowbar

:4001 => 1 bytes in 3.335797ms
:4001 => 10 bytes in 1.453007ms
:4001 => 100 bytes in 1.811727ms
:4001 => 1000 bytes in 1.621525ms
:4001 => 10000 bytes in 5.20729ms
:4001 => 100000 bytes in 38.461926ms
:4001 => 1000000 bytes in 358.784864ms
:4001 => 10000000 bytes in 3.603206487s
:4001 => 100000000 bytes in 36.332395213s

~100MB in 36 seconds
See more test/

Known Issues

  • WebSockets support is required
    • IaaS providers all will support WebSockets
      • Unless an unsupporting HTTP proxy has been forced in front of you, in which case I’d argue that you’ve been downgraded to PaaS.
    • PaaS providers vary in their support for WebSockets
      • Heroku has full support
      • Openshift has full support though connections are only accepted on ports 8443 and 8080
      • Google App Engine has no support

Contributing

Changelog

  • 1.0.0 – Init
  • 1.1.0 – Swapped out simple symmetric encryption for ECDSA SSH

Todo

  • Better, faster tests
  • Expose a stats page for proxy throughput
  • Treat client stdin/stdout as a socket
  • Allow clients to act as an indirect tunnel endpoint for other clients
  • Keep local connections open and buffer between remote retries

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