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camptocamp/autossh

This is a fork from https://github.com/jnovack/autossh to add ssh file by env variable support

jnovack/autossh

Highly customizable AutoSSH docker container.

Overview

jnovack/autossh is a small lightweight (~15MB) image that attempts to provide a secure way to establish an SSH Tunnel without including your keys in the image itself or linking to the host.

There are thousands of autossh docker containers, why use this one? I hope you find it easier to use. It is smaller, more customizable, an automated build, easy to use, and I hope you learn something. I tried to follow standards and established conventions where I could to make it easier to understand and copy and paste lines from this project to others to grow your knowledge!

Description

autossh is a program to start a copy of ssh and monitor it, restarting it as necessary should it die or stop passing traffic.

Before we begin, I want to define some terms.

  • local - THIS docker container.

  • target - The endpoint and ultimate destination of the tunnel.

  • remote - The 'middle-man', or proxy server you are tunnelling through to get to your target.

  • source - The initial endpoint you are starting from that does not have access to the target endpoint, but does have access to the remote endpoint.

The local machine is USUALLY the same as the target but since we are using Docker, we have to abstract out the local container from the target endpoint where we want autossh to land. Normally, this is where autossh is usually run from.

Typically, the target can be on a Home LAN segment without a publicly addressible IP address; whereas the remote machine has an address that is reachable by both target and source. And source can only reach remote.

target ---> |firewall| >--- remote ---< |firewall| <--- source
10.1.1.101               203.0.113.10            192.168.1.101

The target (running autossh) connects up to the remote server and keeps a tunnel alive so that source can proxy through remote and reach resources on target. Think of it as "long distance port-forwarding".

Example

You are running docker on target, your home computer. (Note: Linux Docker hosts automatically create a docker0 interface with 172.17.0.1 so the containers can route to the host and out to other networks. A container that starts up could have the IP address 172.17.0.2, for our example.) You have a Virtual Private Server (VPS) on the Internet that is accessible to all. This local docker container will make a connection to the remote VPS and tunnel remote port 2222 to target port 22. Any connection to remote port 2222 will actually be to the target server on port 22. This is known as a "reverse tunnel".

      TARGET_PORT                  REMOTE_PORT    TUNNEL_PORT
 target <--------------- local ------------> remote <--------------- source
 10.1.1.101           172.17.0.2          203.0.113.10        192.168.1.101

The LOCAL (172.17.0.2) device connects to the REMOTE (203.0.113.10) REMOTE_PORT (:22) to create the tunnel on REMOTE (203.0.113.10) TUNNEL_PORT (:11111).

The SOURCE (192.168.1.101) connects to the REMOTE (203.0.113.10) TUNNEL_PORT (:11111) to get to the TARGET (10.1.1.101) TARGET_PORT (:22).

By default, SSH server applications (such as OpenSSH, Dropbear, etc), only permit connections to forwarded ports from the loopback interface (127.0.0.1).

This means, you must be authenticated and connected the remote and use it as a "jump point" (for a lack of a better term) before proceeding to connect to the tunnel.

In the example above, from the source, you first have to open an SSH connection to the remote (203.0.113.10), then you can continue to connect to the target (10.1.1.101) by connecting to 127.0.0.1:TUNNEL_PORT. It is a two-step process.

To make this a one-step process (connecting from source to target via remote), you must make some security changes on the remote (not-advised). Please see the SSH_BIND_IP section below.

Disclaimer

By tunneling remote port 2222 to target port 22, you may be exposing a home server (and by extension, your home network) to the Internet at large, commonly known as "a bad thing(TM)". Be sure to use appropriately use firewalls, fail2ban scripts, non-root access, key-based authentication only, and other security measures as necessary.

Setup

To start, you will need to generate an SSH key on the Docker host. This will ensure the key for the container is separate from your normal user key in the event there is ever a need to revoke one or the other.

$ ssh-keygen -t rsa -b 4096 -C "autossh" -f autossh_id_rsa
Generating public/private rsa key pair.
Enter file in which to save the key (/home/jnovack/autossh_id_rsa):
Enter passphrase (empty for no passphrase):
Enter same passphrase again:
Your identification has been saved in /home/jnovack/autossh_id_rsa.
Your public key has been saved in /home/jnovack/autossh_id_rsa.pub.
The key fingerprint is:
00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff autossh
The key's randomart image is:
+-----[ RSA 4096]-----+
|     _.-'''''-._     |
|   .'  _     _  '.   |
|  /   (_)   (_)   \  |
| |  ,           ,  | |
| |  \`.       .`/  | |
|  \  '.`'""'"`.'  /  |
|   '.  `'---'`  .'   |
|     '-._____.-'     |
+---------------------+

Command-line Options

What would a docker container be without customization? I have an extensive list of environment variables that can be set.

Environment Variables

All the envrionment variables are prefaced with SSH_ NOT because you are required to tunnel SSH, but for ease of grouping. The only SSH connection that is required is from the LOCAL device to the REMOTE server. However, if you are interested in tunneling other protocols securely (e.g. mysql, redis, mongodb) across networks with certificates, you may wish to consider my other project ambassador.

SSH_REMOTE_USER

Specify the usename on the remote endpoint. (Default: root)

SSH_REMOTE_HOST

Specify the address (ip preferred) of the remote endpoint. (Default: localhost)

SSH_REMOTE_PORT

Specify the ssh port the remote endpoint to connect. (Default: 22)

EXITONFORWARDFAILURE

Specify if autossh must abord on forward failure, set to 'no' for debug. (Default: yes)

SSH_TUNNEL_PORT

Specify the port number on the remote endpoint which will serve as the tunnel entrance. (Default: random > 32768) If you do not want a new port every time you restart jnovack/autossh you may wish to explicitly set this.

This option reverses if you set SSH_MODE (see below).

SSH_TARGET_HOST

Specify the address (ip preferred) of the target.

SSH_TARGET_PORT

Specify the port number on the target endpoint which will serve as the tunnel exit, or destination service. Typically this is ssh (port: 22), however, you can tunnel other services such as redis (port: 6379), elasticsearch (port: 9200) or good old http (port: 80) and https (port: 443).

If you are interested in tunneling other protocols securely (e.g. mysql, redis, mongodb) across networks via certificates you may wish to consider my other project ambassador.

SSH_STRICT_HOST_IP_CHECK

Set to false if you want the IP addresses of hosts to not be checked if the known_hosts file is provided. This can help avoid issues for hosts with dynamic IP addresses, but removes some additional protection against DNS spoofing attacks. Host IP Checking is enabled by default.

SSH_KEY

You can specify the SSH key using Environnement variable.

If both SSH_KEY and SSH_KEY_FILE are passed, SSH_KEY_FILE is used and SSH_KEY is ignored.

SSH_KEY_FILE

In the event you wish to store the key in Docker Secrets, you may wish to set this to /run/secrets/*secret-name*

If both SSH_KEY and SSH_KEY_FILE are passed, SSH_KEY_FILE is used and SSH_KEY is ignored.

SSH_KNOWN_HOSTS_FILE

In the event you wish to store the known_hosts in Docker Secrets, you may wish to set this to /run/secrets/*secret-name*

SSH_MODE

Defines how the tunnel will be set up:

  • -R is default, remote forward mode.
  • -L means local forward mode.

SSH_BIND_IP

You can define which IP address the tunnel will use to bind on remote (SSH_MODE of -R) or local (SSH_MODE of -L). The default is 127.0.0.1 only.

SSH_MODE of -R (default)

WARNING: This process involves changing the security on the server and will expose your target to additional networks and potentially the Internet. It is not recommended to do this procedure without taking additional precautions.

Use of this option will NOT have an effect unless you properly configure the GatewayPorts variable in your remote server's configuration file. Please see your SSH server documentation for proper set up.

SSH_MODE of -L

You may want to set this to 0.0.0.0 in order to bind your SSH_TUNNEL_PORT to all interfaces on local side.

SSH_SERVER_ALIVE_INTERVAL

Sets a timeout interval in seconds after which if no data has been received from the server, ssh(1) will send a message through the encrypted channel to request a response from the server.

  • 0 turns the option off.
  • 10 is default for this image.

Additional details are available from ssh_config(5)

SSH_SERVER_ALIVE_COUNT_MAX

Sets the threshold of alive messages after which the connection is terminated and reestablished.

  • 3 is the default for this image.
  • SSH_SERVER_ALIVE_INTERVAL=0 makes this variable ineffective.

Additional details are available from ssh_config(5)

Additional Environment variables

Mounts

Mounts are optional, for simple usage. It is far superior to use environment variables which can be stored in configuration files and transported (and backed up!) easily.

/id_rsa

Mount the key you generated within the Setup step, or set SSH_KEY_FILE.

-v /path/to/id_rsa:/id_rsa

/known_hosts

Mount the known_hosts file if you want to enable StrictHostKeyChecking, or set SSH_KNOWN_HOSTS_FILE.

-v /path/to/known_hosts:/known_hosts

Samples

docker-compose.yml

In the top example ssh-to-docker-host, a tunnel will be made from the docker container (aptly named autossh-ssh-to-docker-host) to the host running the docker container.

To use, ssh to fake internet address 203.0.113.10:2222 and you will be forwarded to 172.17.0.2:22 (the host running the docker container).

In the second example, ssh-to-lan-endpoint, a tunnel will be made to a host on the private LAN of the docker host. sshing to fake internet address 203.0.113.10:22222 will traverse through the docker container through the docker host, and onto the private lan where the connection will terminate 192.168.123.45:22.

Finally, in the third example, ssh-local-forward-on-1234, a local forward to 198.168.123.45:22 will be created on the container, mapped to port 1234. The tunnel will be created via 203.0.113.10:22222.

version: '3.7'

services:
  ssh-to-docker-host:
    image: jnovack/autossh
    container_name: autossh-ssh-to-docker-host
    environment:
      - SSH_REMOTE_USER=sshuser
      - SSH_REMOTE_HOST=203.0.113.10
      - SSH_REMOTE_PORT=2222
      - SSH_TARGET_HOST=172.17.0.2
      - SSH_TARGET_PORT=22
    restart: always
    volumes:
      - /etc/autossh/id_rsa:/id_rsa
    dns:
      - 8.8.8.8
      - 1.1.1.1

  ssh-to-lan-endpoint:
    image: jnovack/autossh
    container_name: autossh-ssh-to-lan-endpoint
    environment:
      - SSH_REMOTE_USER=sshuser
      - SSH_REMOTE_HOST=203.0.113.10
      - SSH_REMOTE_PORT=22222
      - SSH_TARGET_HOST=198.168.123.45
      - SSH_TARGET_PORT=22
    restart: always
    volumes:
      - /etc/autossh/id_rsa:/id_rsa
    dns:
      - 8.8.8.8
      - 4.2.2.4
  
  ssh-local-forward-on-1234:
    image: jnovack/autossh
    container_name: autossh-ssh-local-forward
    environment:
      - SSH_REMOTE_USER=sshuser
      - SSH_REMOTE_HOST=203.0.113.10
      - SSH_REMOTE_PORT=22222
      - SSH_BIND_IP=0.0.0.0
      - SSH_TUNNEL_PORT=1234
      - SSH_TARGET_HOST=198.168.123.45
      - SSH_TARGET_PORT=22
      - SSH_MODE=-L
    restart: always
    volumes:
      - /etc/autossh/id_rsa:/id_rsa
    dns:
      - 8.8.8.8
      - 4.2.2.4
    

Multi-Arch Images

This image has the following architectures automatically built on Docker Hub.

  • amd64
  • armv6 (e.g. Raspberry Pi Zero)
  • armv7 (e.g. Raspberry Pi 2 through 4)
  • arm64v8 (e.g. Amazon EC2 A1 Instances)

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