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10.10 OpenSSH

Contributed by Chern Lee.

Secure shell is a set of network connectivity tools used to access remote machines securely. It can be used as a direct replacement for rlogin, rsh, rcp, and telnet. Additionally, any other TCP/IP connections can be tunneled/forwarded securely through ssh. ssh encrypts all traffic to effectively eliminate eavesdropping, connection hijacking, and other network-level attacks.

OpenSSH is maintained by the OpenBSD project, and is based upon SSH v1.2.12 with all the recent bug fixes and updates. It is compatible with both SSH protocols 1 and 2. OpenSSH has been in the base system since FreeBSD 4.0.

10.10.1 Advantages of Using OpenSSH

Normally, when using telnet(1) or rlogin(1), data is sent over the network in an clear, un-encrypted form. Network sniffers anywhere in between the client and server can steal your user/password information or data transferred in your session. OpenSSH offers a variety of authentication and encryption methods to prevent this from happening.

10.10.2 Enabling sshd

Be sure to make the following additions to your rc.conf file:

    sshd_enable="YES"

This will load the ssh daemon the next time your system initializes. Alternatively, you can simply run the sshd daemon.

10.10.3 SSH Client

The ssh(1) utility works similarly to rlogin(1).

    # ssh [email protected]
    Host key not found from the list of known hosts.
    Are you sure you want to continue connecting (yes/no)? yes
    Host 'example.com' added to the list of known hosts.
    [email protected]'s password: *******

The login will continue just as it would have if a session was created using rlogin or telnet. SSH utilizes a key fingerprint system for verifying the authenticity of the server when the client connects. The user is prompted to enter yes only when connecting for the first time. Future attempts to login are all verified against the saved fingerprint key. The SSH client will alert you if the saved fingerprint differs from the received fingerprint on future login attempts. The fingerprints are saved in ~/.ssh/known_hosts, or ~/.ssh/known_hosts2 for SSH v2 fingerprints.

By default, OpenSSH servers are configured to accept both SSH v1 and SSH v2 connections. The client, however, can choose between the two. Version 2 is known to be more robust and secure than its predecessor.

ssh can be forced to use either protocol by passing it the -1 or -2 argument for v1 and v2, respectively.

10.10.4 Secure Copy

The scp command works similarly to rcp; it copies a file to or from a remote machine, except in a secure fashion.

    # scp [email protected]:/COPYRIGHT COPYRIGHT
    [email protected]'s password: *******
    COPYRIGHT            100% |*****************************|  4735       
    00:00    
    #

Since the fingerprint was already saved for this host in the previous example, it is verified when using scp here.

The arguments passed to scp are similar to cp, with the file or files in the first argument, and the destination in the second. Since the file is fetched over the network, through SSH, one or more of the file arguments takes on the form user@host:<path_to_remote_file>.

10.10.5 Configuration

The system-wide configuration files for both the OpenSSH daemon and client reside within the /etc/ssh directory.

ssh_config configures the client settings, while sshd_config configures the daemon.

Additionally, the sshd_program (/usr/sbin/sshd by default), and sshd_flags rc.conf options can provide more levels of configuration.

10.10.6 ssh-keygen

Instead of using passwords, ssh-keygen(1) can be used to generate RSA keys to authenticate a user.

    % ssh-keygen
    Initializing random number generator...
    Generating p:  .++ (distance 66)
    Generating q:  ..............................++ (distance 498)
    Computing the keys...
    Key generation complete.
    Enter file in which to save the key (/home/user/.ssh/identity):
    Enter passphrase:
    Enter the same passphrase again:
    Your identification has been saved in /home/user/.ssh/identity.
    ...

ssh-keygen(1) will create a public and private key pair for use in authentication. The private key is stored in ~/.ssh/identity, whereas the public key is stored in ~/.ssh/identity.pub. The public key must be placed in ~/.ssh/authorized_keys of the remote machine in order for the setup to work.

This will allow connection to the remote machine based upon RSA authentication instead of passwords.

If a passphrase is used in ssh-keygen(1), the user will be prompted for a password each time in order to use the private key.

A SSH v2 DSA key can be created for the same purpose by using the ssh-keygen -d command (or ssh-keygen -t dsa for FreeBSD FreeBSD-CURRENT). This will create a public/private DSA key for use in SSH v2 sessions only. The public key is stored in ~/.ssh/id_dsa.pub, while the private key is in ~/.ssh/id_dsa.

DSA public keys are placed in ~/.ssh/authorized_keys2 on the remote machine.

ssh-agent(1) and ssh-add(1) are utilities used in managing multiple passworded private keys.

10.10.7 SSH Tunneling

OpenSSH has the ability to create a tunnel to encapsulate another protocol in an encrypted session.

The following command tells ssh(1) to create a tunnel for telnet.

    % ssh -2 -N -f -L 5023:localhost:23 [email protected]
    %

The ssh command is used with the following options:

-2

Forces ssh to use version 2 of the protocol. (Do not use if you are working with older ssh servers)

-N

Indicates no command, or tunnel only. If omitted, ssh would initiate a normal session.

-f

Forces ssh to run in the background.

-L

Indicates a local tunnel in localport:remotehost:remoteport fashion.

[email protected]

The remote SSH server.

An SSH tunnel works by creating a listen socket on localhost on the specified port. It then forwards any connection received on the local host/port via the SSH connection to the specified remote host and port.

In the example, port 5023 on localhost is being forwarded to port 23 on localhost of the remote machine. Since 23 is telnet, this would create a secure telnet session through an SSH tunnel.

This can be used to wrap any number of insecure TCP protocols such as SMTP, POP3, FTP, etc.

Example 10-1. Using SSH to create a secure tunnel for SMTP

    % ssh -2 -N -f -L 5025:localhost:25 [email protected]
    [email protected]'s password: *****
    % telnet localhost 5025
    Trying 127.0.0.1...
    Connected to localhost.
    Escape character is '^]'.
    220 mailserver.example.com ESMTP

This can be used in conjunction with an ssh-keygen(1) and additional user accounts to create a more seamless/hassle-free SSH tunneling environment. Keys can be used in place of typing a password, and the tunnels can be run as a separate user.

10.10.7.1 Practical SSH Tunneling Examples

10.10.7.1.1 Secure Access of a POP3 server

At work, there is an SSH server that accepts connections from the outside. On the same office network resides a mail server running a POP3 server. The network, or network path between your home and office may or may not be completely trustable. Because of this, you need to check your e-mail in a secure manner. The solution is to create an SSH connection to your office's SSH server, and tunnel through to the mail server.

    % ssh -2 -N -f -L 2110:mail.example.com:110 [email protected]
    [email protected]'s password: ******

When the tunnel is up and running, you can point your mail client to send POP3 requests to localhost port 2110. A connection here will be forwarded securely across the tunnel to mail.example.com.

10.10.7.1.2 Bypassing a Draconian Firewall

Some network administrators impose extremely Draconian firewall rules, filtering not only incoming connections, but outgoing connections. You may be only given access to contact remote machines on ports 22 and 80 for SSH and web surfing.

You may wish to access another (perhaps non-work related) service, such as an Ogg Vorbis server to stream music. If this Ogg Vorbis server is streaming on some other port than 22 or 80, you will not be able to access it.

The solution is to create an SSH connection to a machine outside of your network's firewall, and use it to tunnel to the Ogg Vorbis server.

    % ssh -2 -N -f -L 8888:music.example.com:8000 [email protected]
    [email protected]'s password: *******

Your streaming client can now be pointed to localhost port 8888, which will be forwarded over to music.example.com port 8000, successfully evading the firewall.

10.10.8 Further Reading

OpenSSH

ssh(1) scp(1) ssh-keygen(1) ssh-agent(1) ssh-add(1)

sshd(8) sftp-server(8)

This, and other documents, can be downloaded from ftp://ftp.FreeBSD.org/pub/FreeBSD/doc/.

For questions about FreeBSD, read the documentation before contacting <[email protected]>.
For questions about this documentation, e-mail <[email protected]>.




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