25 Useful IPtable Firewall Rules Every Linux Administrator Should Know

Managing network traffic is one of the toughest jobs a system administrators has to deal with. He must configure the firewall in such a way that it will meet the system and users requirements for both incoming and outgoing connections, without leaving the system vulnerable to attacks.

25 IPtables Firewall Rules for Linux
25 IPtables Firewall Rules for Linux

This is where iptables come in handy. Iptables is a Linux command line firewall that allows system administrators to manage incoming and outgoing traffic via a set of configurable table rules.

Iptables uses a set of tables which have chains that contain set of built-in or user defined rules. Thanks to them a system administrator can properly filter the network traffic of his system.

Per iptables manual, there are currently 3 types of tables:

    1. FILTER – this is the default table, which contains the built in chains for:
      1. INPUT  – packages destined for local sockets
      2. FORWARD – packets routed through the system
      3. OUTPUT – packets generated locally
    2. NAT – a table that is consulted when a packet tries to create a new connection. It has the following built-in:
      1. PREROUTING – used for altering a packet as soon as it’s received
      2. OUTPUT – used for altering locally generated packets
      3. POSTROUTING – used for altering packets as they are about to go out
    3. MANGLE – this table is used for packet altering. Until kernel version 2.4 this table had only two chains, but they are now 5:
      1. PREROUTING – for altering incoming connections
      2. OUTPUT – for altering locally generated  packets
      3. INPUT – for incoming packets
      4. POSTROUTING – for altering packets as they are about to go out
      5. FORWARD – for packets routed through the box

In this article, you will see some useful commands that will help you manage your Linux box firewall through iptables. For the purpose of this article, I will start with simpler commands and go to more complex to the end.

1. Start/Stop/Restart Iptables Firewall

First, you should know how to manage iptables service in different Linux distributions. This is fairly easy:

On SystemD based Linux Distributions

------------ On Cent/RHEL 7 and Fedora 22+ ------------
# systemctl start iptables
# systemctl stop iptables
# systemctl restart iptables

On SysVinit based Linux Distributions

------------ On Cent/RHEL 6/5 and Fedora ------------
# /etc/init.d/iptables start 
# /etc/init.d/iptables stop
# /etc/init.d/iptables restart

2. Check all IPtables Firewall Rules

If you want to check your existing rules, use the following command:

# iptables -L -n -v

This should return output similar to the one below:

Chain INPUT (policy ACCEPT 1129K packets, 415M bytes)
 pkts bytes target prot opt in out source destination 
 0 0 ACCEPT tcp -- lxcbr0 * tcp dpt:53
 0 0 ACCEPT udp -- lxcbr0 * udp dpt:53
 0 0 ACCEPT tcp -- lxcbr0 * tcp dpt:67
 0 0 ACCEPT udp -- lxcbr0 * udp dpt:67
Chain FORWARD (policy ACCEPT 0 packets, 0 bytes)
 pkts bytes target prot opt in out source destination 
 0 0 ACCEPT all -- * lxcbr0 
 0 0 ACCEPT all -- lxcbr0 *
Chain OUTPUT (policy ACCEPT 354K packets, 185M bytes)
 pkts bytes target prot opt in out source destination

If you prefer to check the rules for a specific table, you can use the -t option followed by the table which you want to check. For example, to check the rules in the NAT table, you can use:

# iptables -t nat -L -v -n

3. Block Specific IP Address in IPtables Firewall

If you find an unusual or abusive activity from an IP address you can block that IP address with the following rule:

# iptables -A INPUT -s xxx.xxx.xxx.xxx -j DROP

Where you need to change "xxx.xxx.xxx.xxx" with the actual IP address. Be very careful when running this command as you can accidentally block your own IP address. The -A option appends the rule in the end of the selected chain.

In case you only want to block TCP traffic from that IP address, you can use the -p option that specifies the protocol. That way the command will look like this:

# iptables -A INPUT -p tcp -s xxx.xxx.xxx.xxx -j DROP

4. Unblock IP Address in IPtables Firewall

If you have decided that you no longer want to block requests from specific IP address, you can delete the blocking rule with the following command:

# iptables -D INPUT -s xxx.xxx.xxx.xxx -j DROP

The -D option deletes one or more rules from the selected chain. If you prefer to use the longer option you can use --delete.

5. Block Specific Port on IPtables Firewall

Sometimes you may want to block incoming or outgoing connections on a specific port. It’s a good security measure and you should really think on that matter when setting up your firewall.

To block outgoing connections on a specific port use:

# iptables -A OUTPUT -p tcp --dport xxx -j DROP

To allow incoming connections use:

# iptables -A INPUT -p tcp --dport xxx -j ACCEPT

In both examples change "xxx" with the actual port you wish to allow. If you want to block UDP traffic instead of TCP, simply change "tcp" with "udp" in the above iptables rule.

6. Allow Multiple Ports on IPtables using Multiport

You can allow multiple ports at once, by using multiport, below you can find such rule for both incoming and outgoing connections:

# iptables -A INPUT  -p tcp -m multiport --dports 22,80,443 -j ACCEPT
# iptables -A OUTPUT -p tcp -m multiport --sports 22,80,443 -j ACCEPT

7. Allow Specific Network Range on Particular Port on IPtables

You may want to limit certain connections on specific port to a given network. Let’s say you want to allow outgoing connections on port 22 to network

You can do it with this command:

# iptables -A OUTPUT -p tcp -d --dport 22 -j ACCEPT

8. Block Facebook on IPtables Firewall

Some employers like to block access to Facebook to their employees. Below is an example how to block traffic to Facebook.

Note: If you are a system administrator and need to apply these rules, keep in mind that your colleagues may stop talking to you :)

First find the IP addresses used by Facebook:

# host facebook.com 
facebook.com has address
# whois | grep CIDR

You can then block that Facebook network with:

# iptables -A OUTPUT -p tcp -d -j DROP

Keep in mind that the IP address range used by Facebook may vary in your country.

9. Setup Port Forwarding in IPtables

Sometimes you may want to forward one service’s traffic to another port. You can achieve this with the following command:

# iptables -t nat -A PREROUTING -i eth0 -p tcp --dport 25 -j REDIRECT --to-port 2525

The above command forwards all incoming traffic on network interface eth0, from port 25 to port 2525. You may change the ports with the ones you need.

10. Block Network Flood on Apache Port with IPtables

Sometimes IP addresses may requests too many connections towards web ports on your website. This can cause number of issues and to prevent such problems, you can use the following rule:

# iptables -A INPUT -p tcp --dport 80 -m limit --limit 100/minute --limit-burst 200 -j ACCEPT

The above command limits the incoming connections from per minute to 100 and sets a limit burst to 200. You can edit the limit and limit-burst to your own specific requirements.

11. Block Incoming Ping Requests on IPtables

Some system administrators like to block incoming ping requests due to security concerns. While the threat is not that big, it’s good to know how to block such request:

# iptables -A INPUT -p icmp -i eth0 -j DROP

12. Allow loopback Access

Loopback access (access from is important and you should always leave it active:

# iptables -A INPUT -i lo -j ACCEPT
# iptables -A OUTPUT -o lo -j ACCEPT

13. Keep a Log of Dropped Network Packets on IPtables

If you want to log the dropped packets on network interface eth0, you can use the following command:

# iptables -A INPUT -i eth0 -j LOG --log-prefix "IPtables dropped packets:"

You can change the value after "--log-prefix" with something by your choice. The messages are logged in /var/log/messages and you can search for them with:

# grep "IPtables dropped packets:" /var/log/messages

14. Block Access to Specific MAC Address on IPtables

You can block access to your system from specific MAC address by using:

# iptables -A INPUT -m mac --mac-source 00:00:00:00:00:00 -j DROP

Of course, you will need to change "00:00:00:00:00:00" with the actual MAC address that you want to block.

15. Limit the Number of Concurrent Connections per IP Address

If you don’t want to have too many concurrent connection established from single IP address on given port you can use the command below:

# iptables -A INPUT -p tcp --syn --dport 22 -m connlimit --connlimit-above 3 -j REJECT

The above command allows no more than 3 connections per client. Of course, you can change the port number to match different service. Also the --connlimit-above should be changed to match your requirement.

16. Search within IPtables Rule

Once you have defined your iptables rules, you will want to search from time to time and may need to alter them. An easy way to search within your rules is to use:

# iptables -L $table -v -n | grep $string

In the above example, you will need to change $table with the actual table within which you wish to search and $string with the actual string for which you are looking for.

Here is an example:

# iptables -L INPUT -v -n | grep

17. Define New IPTables Chain

With iptables, you can define your own chain and store custom rules in it. To define a chain, use:

# iptables -N custom-filter

Now you can check if your new filter is there:

# iptables -L
Sample Output
Chain INPUT (policy ACCEPT)
target prot opt source destination
Chain FORWARD (policy ACCEPT)
target prot opt source destination
Chain OUTPUT (policy ACCEPT)
target prot opt source destination
Chain custom-filter (0 references)
target prot opt source destination

18. Flush IPtables Firewall Chains or Rules

If you want to flush your firewall chains, you can use:

# iptables -F

You can flush chains from specific table with:

# iptables -t nat -F

You can change "nat" with the actual table which chains you wish to flush.

19. Save IPtables Rules to a File

If you want to save your firewall rules, you can use the iptables-save command. You can use the following to save and store your rules in a file:

# iptables-save > ~/iptables.rules

It’s up to you where will you store the file and how you will name it.

20. Restore IPtables Rules from a File

If you want to restore a list of iptables rules, you can use iptables-restore. The command looks like this:

# iptables-restore < ~/iptables.rules

Of course the path to your rules file might be different.

21. Setup IPtables Rules for PCI Compliance

Some system administrators might be required to configure their servers to be PCI compiliant. There are many requirements by different PCI compliance vendors, but there are few common ones.

In many of the cases, you will need to have more than one IP address. You will need to apply the rules below for the site’s IP address. Be extra careful when using the rules below and use them only if you are sure what you are doing:

# iptables -I INPUT -d SITE -p tcp -m multiport --dports 21,25,110,143,465,587,993,995 -j DROP

If you use cPanel or similar control panel, you may need to block it’s’ ports as well. Here is an example:

# iptables -I in_sg -d DEDI_IP -p tcp -m multiport --dports  2082,2083,2095,2096,2525,2086,2087 -j DROP

Note: To make sure you meet your PCI vendor’s requirements, check their report carefully and apply the required rules. In some cases you may need to block UDP traffic on certain ports as well.

22. Allow Established and Related Connections

As the network traffic is separate on incoming and outgoing, you will want to allow established and related incoming traffic. For incoming connections do it with:

# iptables -A INPUT -m conntrack --ctstate ESTABLISHED,RELATED -j ACCEPT

For outgoing use:

# iptables -A OUTPUT -m conntrack --ctstate ESTABLISHED -j ACCEPT

23. Drop Invalid Packets in IPtables

It’s possible to have some network packets marked as invalid. Some people may prefer to log those packages, but others prefer to drop them. To drop invalid the packets, you can use:

# iptables -A INPUT -m conntrack --ctstate INVALID -j DROP 

24. Block Connection on Network Interface

Some systems may have more than one network interface. You can limit the access to that network interface or block connections from certain IP address.

For example:

# iptables -A INPUT -i eth0 -s xxx.xxx.xxx.xxx -j DROP

Change “xxx.xxx.xxx.xxx” with the actual IP address (or network) that you wish to block.

25. Disable Outgoing Mails through IPTables

If your system should not be sending any emails, you can block outgoing ports on SMTP ports. For example you can use this:

# iptables -A OUTPUT -p tcp --dports 25,465,587 -j REJECT


Iptables is a powerful firewall that you can easily benefit from. It is vital for every system administrator to learn at least the basics of iptables. If you want to find more detailed information about iptables and its options it is highly recommend to read it’s manual:

# man iptables

If you think we should add more commands to this list, please share them with us, by submitting them in the comment section below.

If You Appreciate What We Do Here On TecMint, You Should Consider:

TecMint is the fastest growing and most trusted community site for any kind of Linux Articles, Guides and Books on the web. Millions of people visit TecMint! to search or browse the thousands of published articles available FREELY to all.

If you like what you are reading, please consider buying us a coffee ( or 2 ) as a token of appreciation.

Support Us

We are thankful for your never ending support.

26 thoughts on “25 Useful IPtable Firewall Rules Every Linux Administrator Should Know”

  1. I really like your page, I am new network admin working in my country Ethiopia, if you have anything that will help me to succeed in my career I am really like to see u soon and thank u for your info. Please just recommend me what can i do to succeed and be strong network or sys admin for my company.

    • Very few people have an IPv6. The people who have an IPv4 can only talk to IPv4 addresses. There maybe tunneling services, but 99% of the internet is IPv4 so why bother.

    • connections are IP based. TCP uses a 3 way handshake, if all 3 packets don’t come from the same IP no connection will ever be established. All websites, servers(except DNS sometimes uses UDP) use TCP. UDP packets will go through, but since each proxy has a different IP the other side would assume they were new connections and the initial request would have to be re-issued.

      Each connection from start to finish could be routed to a different proxy, setting it up would not be trivial.

      Pretend you did establish a connection to a web server, the first packet is expected to contain a command, like GET index.html. Then normally you would start receiving the results, however, with a new IP from a different proxy the web server would be expecting a command all over again and the results would not arrive because no established connection exists with proxy 2. The data would attempt to come back to the originating proxy.

      The remote web server would somehow have to know which proxy to send the data to, and alternate on a per packet basis.

      You would have to write and deploy your own custom web server. Given apache and Microsoft and the other big names spend millions continuously testing and updating their products against attack no one would trust your server as secure without equal testing. The project would consume your life as you have to either write it all yourself or manage a community of users contributing code to it.

      • As far as I know, proxy servers can cooperate (Squid for example), but continuing your line of thought, how would you randomly route a sessions through one of several proxies?

  2. Step 21: Instead of having a 2 potiential long blocks
    iptables -I INPUT -d SITE -p tcp -m multiport –dports 21,25,110,143,465,587,993,995 -j DROP
    use this instead
    iptables -A INPUT -m conntrack –ctstate ESTABLISHED,RELATED -j ACCEPT
    iptables -I INPUT -d SITE i -p tcp -m multiport ! –dports 80,443 -j DROP

    This teaches the allow only was is required principle instead of a long blacklist.

  3. You don’t want to block ALL incoming ICMP. If you just want to block PING requests, then you need to block ICMP echo requests like this:
    iptables -A INPUT -p icmp –icmp-type echo-request -j DROP

  4. For black/white lists, banning IP, you should teach people IPSET as it is way more efficient. Blocking with iptables doesn’t scale well, and at approx 2000 blocks (depending on your CPU) your CPU utilization will go through the roof.


Leave a Reply to cybernard Cancel reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.