OpenSSH is the implementation of the SSH protocol. OpenSSH is recommended for remote login, making backups, remote file transfer via scp or sftp, and much more. SSH is perfect to keep confidentiality and integrity for data exchanged between two networks and systems. However, the main advantage is server authentication, through the use of public key cryptography. From time to time there are rumors about OpenSSH zero day exploit. Here are a few things you need to tweak in order to improve OpenSSH server security.
Default Config Files and SSH Port
- /etc/ssh/sshd_config – OpenSSH server configuration file.
- /etc/ssh/ssh_config – OpenSSH client configuration file.
- ~/.ssh/ – Users ssh configuration directory.
- ~/.ssh/authorized_keys or ~/.ssh/authorized_keys – Lists the public keys (RSA or DSA) that can be used to log into the user’s account
- /etc/nologin – If this file exists, sshd refuses to let anyone except root log in.
- /etc/hosts.allow and /etc/hosts.deny : Access controls lists that should be enforced by tcp-wrappers are defined here.
- SSH default port : TCP 22
#1: Disable OpenSSH Server
Workstations and laptop can work without OpenSSH server. If you need not to provide the remote login and file transfer capabilities of SSH, disable and remove the SSHD server. CentOS / RHEL / Fedora Linux user can disable and remove openssh-server with yum command:
# chkconfig sshd off
# yum erase openssh-server
Debian / Ubuntu Linux user can disable and remove the same with apt-get command:
# apt-get remove openssh-server
You may need to update your iptables script to remove ssh exception rule. Under CentOS / RHEL / Fedora edit the files /etc/sysconfig/iptables and /etc/sysconfig/ip6tables. Once done restart iptables service:
# service iptables restart
# service ip6tables restart
#2: Only Use SSH Protocol 2
SSH protocol version 1 (SSH-1) has man-in-the-middle attacks problems and security vulnerabilities. SSH-1 is obsolete and should be avoided at all cost. Open sshd_config file and make sure the following line exists:
#3: Limit Users’ SSH Access
By default all systems user can login via SSH using their password or public key. Sometime you create UNIX / Linux user account for ftp or email purpose. However, those user can login to system using ssh. They will have full access to system tools including compilers and scripting languages such as Perl, Python which can open network ports and do many other fancy things. One of my client has really outdated php script and an attacker was able to create a new account on the system via a php script. However, attacker failed to get into box via ssh because it wasn’t in AllowUsers.
Only allow root, vivek and jerry user to use the system via SSH, add the following to sshd_config:
Alternatively, you can allow all users to login via SSH but deny only a few users, with the following line:
You can also configure Linux PAM allows or deny login via the sshd server. You can allow list of group name to access or deny access to the ssh.
#4: Configure Idle Log Out Timeout Interval
User can login to server via ssh and you can set an idel timeout interval to avoid unattended ssh session. Open sshd_config and make sure following values are configured:
You are setting an idle timeout interval in seconds (300 secs = 5 minutes). After this interval has passed, the idle user will be automatically kicked out (read as logged out). See how to automatically log BASH / TCSH / SSH users out after a period of inactivity for more details.
#5: Disable .rhosts Files
Don’t read the user’s ~/.rhosts and ~/.shosts files. Update sshd_config with the following settings:
SSH can emulate the behavior of the obsolete rsh command, just disable insecure access via RSH.
#6: Disable Host-Based Authentication
To disable host-based authentication, update sshd_config with the following option:
#7: Disable root Login via SSH
There is no need to login as root via ssh over a network. Normal users can use su or sudo (recommended) to gain root level access. This also make sure you get full auditing information about who ran privileged commands on the system via sudo. To disable root login via SSH, update sshd_config with the following line:
However, bob made excellent point:
Saying “don’t login as root” is h******t. It stems from the days when people sniffed the first packets of sessions so logging in as yourself and su-ing decreased the chance an attacker would see the root pw, and decreast the chance you got spoofed as to your telnet host target, You’d get your password spoofed but not root’s pw. Gimme a break. this is 2005 – We have ssh, used properly it’s secure. used improperly none of this 1989 will make a damn bit of difference. -Bob
#8: Enable a Warning Banner
Set a warning banner by updating sshd_config with the following line:
Sample /etc/issue file:
Above is standard sample, consult your legal team for exact user agreement and legal notice details.
#8: Firewall SSH Port # 22
You need to firewall ssh port # 22 by updating iptables or pf firewall configurations. Usually, OpenSSH server must only accept connections from your LAN or other remote WAN sites only.
Netfilter (Iptables) Configuration
Update /etc/sysconfig/iptables (Redhat and friends specific file) to accept connection only from 192.168.1.0/24 and 220.127.116.11/29, enter:
If you’ve dual stacked sshd with IPv6, edit /etc/sysconfig/ip6tables (Redhat and friends specific file), enter:
Replace ipv6network::/ipv6mask with actual IPv6 ranges.
*BSD PF Firewall Configuration
If you are using PF firewall update /etc/pf.conf as follows:
#9: Change SSH Port and Limit IP Binding
By default SSH listen to all available interfaces and IP address on the system. Limit ssh port binding and change ssh port (by default brute forcing scripts only try to connects to port # 22). To bind to 192.168.1.5 and 18.104.22.168 IPs and to port 300, add or correct the following line:
A better approach to use proactive approaches scripts such as fail2ban or denyhosts (see below).
#10: Use Strong SSH Passwords and Passphrase
It cannot be stressed enough how important it is to use strong user passwords and passphrase for your keys. Brute force attack works because you use dictionary based passwords. You can force users to avoid passwords against a dictionary attack and use john the ripper tool to find out existing weak passwords. Here is a sample random password generator (put in your ~/.bashrc):
#11: Use Public Key Based Authentication
Use public/private key pair with password protection for the private key. See how to use RSAand DSA key based authentication. Never ever use passphrase free key (passphrase key less) login.
#12: Use Keychain Based Authentication
keychain is a special bash script designed to make key-based authentication incredibly convenient and flexible. It offers various security benefits over passphrase-free keys. See how to setup and use keychain software.
#13: Chroot SSHD (Lock Down Users To Their Home Directories)
By default users are allowed to browse the server directories such as /etc/, /bin and so on. You can protect ssh, using os based chroot or use special tools such as rssh. With the release of OpenSSH 4.8p1 or 4.9p1, you no longer have to rely on third-party hacks such as rssh or complicated chroot(1) setups to lock users to their home directories. See this blog post about new ChrootDirectory directive to lock down users to their home directories.
#14: Use TCP Wrappers
TCP Wrapper is a host-based Networking ACL system, used to filter network access to Internet. OpenSSH does supports TCP wrappers. Just update your /etc/hosts.allow file as follows to allow SSH only from 192.168.1.2 172.16.23.12 :
#15: Disable Empty Passwords
You need to explicitly disallow remote login from accounts with empty passwords, update sshd_config with the following line:
#16: Thwart SSH Crackers (Brute Force Attack)
Brute force is a method of defeating a cryptographic scheme by trying a large number of possibilities using a single or distributed computer network. To prevents brute force attacks against SSH, use the following softwares:
- DenyHosts is a Python based security tool for SSH servers. It is intended to prevent brute force attacks on SSH servers by monitoring invalid login attempts in the authentication log and blocking the originating IP addresses.
- Explains how to setup DenyHosts under RHEL / Fedora and CentOS Linux.
- Fail2ban is a similar program that prevents brute force attacks against SSH.
- security/sshguard-pf protect hosts from brute force attacks against ssh and other services using pf.
- security/sshguard-ipfw protect hosts from brute force attacks against ssh and other services using ipfw.
- security/sshguard-ipfilter protect hosts from brute force attacks against ssh and other services using ipfilter.
- security/sshblock block abusive SSH login attempts.
- security/sshit checks for SSH/FTP bruteforce and blocks given IPs.
- BlockHosts Automatic blocking of abusive IP hosts.
- Blacklist Get rid of those bruteforce attempts.
- Brute Force Detection A modular shell script for parsing application logs and checking for authentication failures. It does this using a rules system where application specific options are stored including regular expressions for each unique auth format.
- IPQ BDB filter May be considered as a fail2ban lite.
#17: Rate-limit Incoming Port # 22 Connections
Both netfilter and pf provides rate-limit option to perform simple throttling on incoming connections on port # 22.
The following example will drop incoming connections which make more than 5 connection attempts upon port 22 within 60 seconds:
Call above script from your iptables scripts. Another config option:
See iptables man page for more details.
*BSD PF Example
The following will limits the maximum number of connections per source to 20 and rate limit the number of connections to 15 in a 5 second span. If anyone breaks our rules add them to our abusive_ips table and block them for making any further connections. Finally, flush keyword kills all states created by the matching rule which originate from the host which exceeds these limits.
#18: Use Port Knocking
Port knocking is a method of externally opening ports on a firewall by generating a connection attempt on a set of prespecified closed ports. Once a correct sequence of connection attempts is received, the firewall rules are dynamically modified to allow the host which sent the connection attempts to connect over specific port(s). A sample port Knocking example for ssh using iptables:
- fwknop is an implementation that combines port knocking and passive OS fingerprinting.
- Multiple-port knocking Netfilter/IPtables only implementation.
#19: Use Log Analyzer
Read your logs using logwatch or logcheck. These tools make your log reading life easier. It will go through your logs for a given period of time and make a report in the areas that you wish with the detail that you wish. Make sure LogLevel is set to INFO or DEBUG in sshd_config:
#20: Patch OpenSSH and Operating Systems
It is recommended that you use tools such as yum, apt-get, freebsd-update and others to keep systems up to date with the latest security patches.
To hide openssh version, you need to update source code and compile openssh again. Make sure following options are enabled in sshd_config:
Verify your sshd_config file before restarting / reloading changes:
# /usr/sbin/sshd -t