Chisel is a fast TCP/UDP tunnel, transported over HTTP, secured via SSH. 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.
- Easy to use
- Performant*
- Encrypted connections using the SSH protocol (via
crypto/ssh
) - Authenticated connections; authenticated client connections with a users config file, authenticated server connections with fingerprint matching.
- Client auto-reconnects with exponential backoff
- Clients can create multiple tunnel endpoints over one TCP connection
- Clients can optionally pass through SOCKS or HTTP CONNECT proxies
- Reverse port forwarding (Connections go through the server and out the client)
- Server optionally doubles as a reverse proxy
- Server optionally allows SOCKS5 connections (See guide below)
- Clients optionally allow SOCKS5 connections from a reversed port forward
- Client connections over stdio which supports
ssh -o ProxyCommand
providing SSH over HTTP
See the latest release or download and install it now with curl https://i.jpillora.com/chisel! | bash
docker run --rm -it jpillora/chisel --help
The package is maintained by the Fedora community. If you encounter issues related to the usage of the RPM, please use this issue tracker.
sudo dnf -y install chisel
$ go install github.com/jpillora/chisel@latest
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 chisel server at 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. 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.
$ chisel --help
Usage: chisel [command] [--help]
Version: X.Y.Z
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 the environment variable HOST and falls back to 0.0.0.0).
--port, -p, Defines the HTTP listening port (defaults to the environment
variable PORT and fallsback to port 8080).
--key, (deprecated use --keygen and --keyfile instead)
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 the subsequent fingerprint with clients to enable detection
of man-in-the-middle attacks (defaults to the CHISEL_KEY environment
variable, otherwise a new key is generate each run).
--keygen, A path to write a newly generated PEM-encoded SSH private key file.
If users depend on your --key fingerprint, you may also include your --key to
output your existing key. Use - (dash) to output the generated key to stdout.
--keyfile, An optional path to a PEM-encoded SSH private key. When
this flag is set, the --key option is ignored, and the provided private key
is used to secure all communications. (defaults to the CHISEL_KEY_FILE
environment variable). Since ECDSA keys are short, you may also set keyfile
to an inline base64 private key (e.g. chisel server --keygen - | base64).
--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 "<remote-host>:<remote-port>" for normal remotes
and "R:<local-interface>:<local-port>" for reverse port forwarding
remotes. This file will be automatically reloaded on change.
--auth, An optional string representing a single user with full
access, in the form of <user:pass>. It is equivalent to creating an
authfile with {"<user:pass>": [""]}. If unset, it will use the
environment variable AUTH.
--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 '5s' or '2m'. Defaults
to '25s' (set to 0s to disable).
--backend, Specifies another HTTP server to proxy requests to when
chisel receives a normal HTTP request. Useful for hiding chisel in
plain sight.
--socks5, Allow clients to access the internal SOCKS5 proxy. See
chisel client --help for more information.
--reverse, Allow clients to specify reverse port forwarding remotes
in addition to normal remotes.
--tls-key, Enables TLS and provides optional path to a PEM-encoded
TLS private key. When this flag is set, you must also set --tls-cert,
and you cannot set --tls-domain.
--tls-cert, Enables TLS and provides optional path to a PEM-encoded
TLS certificate. When this flag is set, you must also set --tls-key,
and you cannot set --tls-domain.
--tls-domain, Enables TLS and automatically acquires a TLS key and
certificate using LetsEncrypt. Setting --tls-domain requires port 443.
You may specify multiple --tls-domain flags to serve multiple domains.
The resulting files are cached in the "$HOME/.cache/chisel" directory.
You can modify this path by setting the CHISEL_LE_CACHE variable,
or disable caching by setting this variable to "-". You can optionally
provide a certificate notification email by setting CHISEL_LE_EMAIL.
--tls-ca, a path to a PEM encoded CA certificate bundle or a directory
holding multiple PEM encode CA certificate bundle files, which is used to
validate client connections. The provided CA certificates will be used
instead of the system roots. This is commonly used to implement mutual-TLS.
--pid Generate pid file in current working directory
-v, Enable verbose logging
--help, This help text
Signals:
The chisel process is listening for:
a SIGUSR2 to print process stats, and
a SIGHUP to short-circuit the client reconnect timer
Version:
X.Y.Z
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.
<remote>s are remote connections tunneled through the server, each of
which come in the form:
<local-host>:<local-port>:<remote-host>:<remote-port>/<protocol>
■ local-host defaults to 0.0.0.0 (all interfaces).
■ local-port defaults to remote-port.
■ remote-port is required*.
■ remote-host defaults to 0.0.0.0 (server localhost).
■ protocol defaults to tcp.
which shares <remote-host>:<remote-port> from the server to the client
as <local-host>:<local-port>, or:
R:<local-interface>:<local-port>:<remote-host>:<remote-port>/<protocol>
which does reverse port forwarding, sharing <remote-host>:<remote-port>
from the client to the server's <local-interface>:<local-port>.
example remotes
3000
example.com:3000
3000:google.com:80
192.168.0.5:3000:google.com:80
socks
5000:socks
R:2222:localhost:22
R:socks
R:5000:socks
stdio:example.com:22
1.1.1.1:53/udp
When the chisel server has --socks5 enabled, remotes can
specify "socks" in place of remote-host and remote-port.
The default local host and port for a "socks" remote is
127.0.0.1:1080. Connections to this remote will terminate
at the server's internal SOCKS5 proxy.
When the chisel server has --reverse enabled, remotes can
be prefixed with R to denote that they are reversed. That
is, the server will listen and accept connections, and they
will be proxied through the client which specified the remote.
Reverse remotes specifying "R:socks" will listen on the server's
default socks port (1080) and terminate the connection at the
client's internal SOCKS5 proxy.
When stdio is used as local-host, the tunnel will connect standard
input/output of this program with the remote. This is useful when
combined with ssh ProxyCommand. You can use
ssh -o ProxyCommand='chisel client chiselserver stdio:%h:%p' \
[email protected]
to connect to an SSH server through the tunnel.
Options:
--fingerprint, A *strongly recommended* fingerprint string
to perform host-key validation against the server's public key.
Fingerprint mismatches will close the connection.
Fingerprints are generated by hashing the ECDSA public key using
SHA256 and encoding the result in base64.
Fingerprints must be 44 characters containing a trailing equals (=).
--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. defaults to the
AUTH environment variable.
--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 '5s' or '2m'. Defaults
to '25s' (set to 0s to disable).
--max-retry-count, Maximum number of times to retry before exiting.
Defaults to unlimited.
--max-retry-interval, Maximum wait time before retrying after a
disconnection. Defaults to 5 minutes.
--proxy, An optional HTTP CONNECT or SOCKS5 proxy which will be
used to reach the chisel server. Authentication can be specified
inside the URL.
For example, http://admin:[email protected]:8081
or: socks://admin:[email protected]:1080
--header, Set a custom header in the form "HeaderName: HeaderContent".
Can be used multiple times. (e.g --header "Foo: Bar" --header "Hello: World")
--hostname, Optionally set the 'Host' header (defaults to the host
found in the server url).
--sni, Override the ServerName when using TLS (defaults to the
hostname).
--tls-ca, An optional root certificate bundle used to verify the
chisel server. Only valid when connecting to the server with
"https" or "wss". By default, the operating system CAs will be used.
--tls-skip-verify, Skip server TLS certificate verification of
chain and host name (if TLS is used for transport connections to
server). If set, client accepts any TLS certificate presented by
the server and any host name in that certificate. This only affects
transport https (wss) connection. Chisel server's public key
may be still verified (see --fingerprint) after inner connection
is established.
--tls-key, a path to a PEM encoded private key used for client
authentication (mutual-TLS).
--tls-cert, a path to a PEM encoded certificate matching the provided
private key. The certificate must have client authentication
enabled (mutual-TLS).
--pid Generate pid file in current working directory
-v, Enable verbose logging
--help, This help text
Signals:
The chisel process is listening for:
a SIGUSR2 to print process stats, and
a SIGHUP to short-circuit the client reconnect timer
Version:
X.Y.Z
Read more:
https://github.com/jpillora/chisel
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 (base64 encoded SHA256) will be displayed as the server starts. Instead of generating a random key, the server may optionally specify a key file, using the --keyfile
option. 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.
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/.
-
Print a new private key to the terminal
chisel server --keygen - # or save it to disk --keygen /path/to/mykey
-
Start your chisel server
jpillora/chisel server --keyfile '<ck-base64 string or file path>' -p 9312 --socks5
-
Connect your chisel client (using server's fingerprint)
chisel client --fingerprint '<see server output>' <server-address>:9312 socks
-
Point your SOCKS5 clients (e.g. OS/Browser) to:
<client-address>:1080
-
Now you have an encrypted, authenticated SOCKS5 connection over HTTP
Since 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 (Track this on their repo)
- http://golang.org/doc/code.html
- http://golang.org/doc/effective_go.html
github.com/jpillora/chisel/share
contains the shared packagegithub.com/jpillora/chisel/server
contains the server packagegithub.com/jpillora/chisel/client
contains the client package
1.0
- Initial release1.1
- Replaced simple symmetric encryption for ECDSA SSH1.2
- Added SOCKS5 (server) and HTTP CONNECT (client) support1.3
- Added reverse tunnelling support1.4
- Added arbitrary HTTP header support1.5
- Added reverse SOCKS support (by @aus)1.6
- Added client stdio support (by @BoleynSu)1.7
- Added UDP support1.8
- Move to ascratch
Docker image1.9
- Bump to Go 1.21. Switch from--key
seed to P256 key strings with--key{gen,file}
(by @cmenginnz)1.10
- Bump to Go 1.22. Add.rpm
.deb
and.akp
to releases. Fix bad version comparison.
MIT © Jaime Pillora