5.3. Securing NIS

NIS stands for Network Information Service. It is an RPC service, called ypserv, which is used in conjunction with portmap and other related services to distribute maps of usernames, passwords, and other sensitive information to any computer claiming to be within its domain.

An NIS server is comprised of several applications. They include the following:

NIS is rather insecure by todays standards. It has no host authentication mechanisms and passes all of its information over the network unencrypted, including password hashes. As a result, extreme care must be taken to set up a network that uses NIS. Further complicating the situation, the default configuration of NIS is inherently insecure.

It is recommended that anyone planning to implement an NIS server first secure the portmap service as outlined in Section 5.2 Securing Portmap, then address the following issues, such as network planning.

5.3.1. Carefully Plan the Network

Because NIS passes sensitive information unencrypted over the network, it is important the service be run behind a firewall and on a segmented and secure network. Any time NIS information is passed over an insecure network, it risks being intercepted. Careful network design in these regards can help prevent severe security breaches.

5.3.2. Use a Password-like NIS Domain Name and Hostname

Any machine within an NIS domain can use commands to extract information from the server without authentication, as long as the user knows the NIS server's DNS hostname and NIS domain name.

For instance, if someone either connects a laptop computer into the network or breaks into the network from outside (and manages to spoof an internal IP address), the following command reveals the /etc/passwd map:

ypcat -d <NIS_domain> -h <DNS_hostname> passwd

If this attacker is a root user, they can obtain the /etc/shadow file by typing the following command:

ypcat -d <NIS_domain> -h <DNS_hostname> shadow

NoteNote
 

If Kerberos is used, the /etc/shadow file is not stored within an NIS map.

To make access to NIS maps harder for an attacker, create a random string for the DNS hostname, such as o7hfawtgmhwg.domain.com. Similarly, create a different randomized NIS domain name. This makes it much more difficult for an attacker to access the NIS server.

5.3.3. Edit the /var/yp/securenets File

NIS listens to all networks, if the /var/yp/securenets file is blank or does not exist (as is the case after a default installation). One of the first things to do is to put netmask/network pairs in the file so that ypserv only responds to requests from the proper network.

Below is a sample entry from a /var/yp/securenets file:

255.255.255.0     192.168.0.0

WarningWarning
 

Never start an NIS server for the first time without creating the /var/yp/securenets file.

This technique does not provide protection from an IP spoofing attack, but it does at least place limits on what networks the NIS server services.

5.3.4. Assign Static Ports and Use IPTables Rules

All of the servers related to NIS can be assigned specific ports except for rpc.yppasswdd — the daemon that allows users to change their login passwords. Assigning ports to the other two NIS server daemons, rpc.ypxfrd and ypserv, allows for the creation of firewall rules to further protect the NIS server daemons from intruders.

To do this, add the following lines to /etc/sysconfig/network:

YPSERV_ARGS="-p 834"
YPXFRD_ARGS="-p 835"

The following IPTables rules can be issued to enforce which network the server listens to for these ports:

iptables -A INPUT -p ALL -s! 192.168.0.0/24  --dport 834 -j DROP
iptables -A INPUT -p ALL -s! 192.168.0.0/24  --dport 835 -j DROP

TipTip
 

Refer to Chapter 7 Firewalls for more information about implementing firewalls with IPTables commands.

5.3.5. Use Kerberos Authentication

One of the most glaring flaws inherent when NIS is used for authentication is that whenever a user logs into a machine, a password hash from the /etc/shadow map is sent over the network. If an intruder gains access to an NIS domain and sniffs network traffic, usernames and password hashes can be quietly collected. With enough time, a password cracking program can guess weak passwords, and an attacker can gain access to a valid account on the network.

Since Kerberos uses secret-key cryptography, no password hashes are ever sent over the network, making the system far more secure. For more about Kerberos, refer to the chapter titled Kerberos in the Red Hat Enterprise Linux Reference Guide.

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