Configure a Firewall with Firewalld

Traducciones al Español
Estamos traduciendo nuestros guías y tutoriales al Español. Es posible que usted esté viendo una traducción generada automáticamente. Estamos trabajando con traductores profesionales para verificar las traducciones de nuestro sitio web. Este proyecto es un trabajo en curso.
Create a Linode account to try this guide with a $ credit.
This credit will be applied to any valid services used during your first  days.

Firewalld is frontend controller for nftables (or its older counterpart, iptables) used to implement persistent network traffic rules. It provides command line and graphical interfaces and is available in the repositories of most Linux distributions. The following distributions have firewalld installed by default: RHEL and its derivatives (including CentOS, AlmaLinux, and Rocky Linux), CentOS Stream, Fedora, and openSUSE Leap.

Working with firewalld has two main differences compared to directly controlling nftables (or iptables):

  1. Firewalld uses zones and services instead of chain and rules.
  2. It manages rulesets dynamically, allowing updates without breaking existing sessions and connections.
Note
While firewalld is a frontend for nftables/iptables and allows easier management of firewall rules, it is not a direct replacement for these utilities. Using nftables directly may provide you with more control. When using firewalld, its recommended to use firewall-cmd commands (instead of nftables or iptables commands) to interface directly with firewalld.

This guide introduces you to firewalld, its notions of zones and services, and provides basic configuration steps.

Installing Firewalld

RHEL/CentOS

Firewalld is preinstalled on many Linux distributions, such as RHEL and its derivatives (including CentOS, AlmaLinux, and Rocky Linux), CentOS Stream, Fedora, and openSUSE Leap. If you are running one of these distribution, you do not need to perform any installation steps.

Ubuntu and Debian

  1. Install the firewalld package.

    sudo apt update && sudo apt install firewalld
    
  2. Disable any firewall configuration software that may have been previously used, such as ufw.

    sudo ufw disable
    

Managing Firewalld

  1. To start the service and enable firewalld on boot:

    sudo systemctl start firewalld
    sudo systemctl enable firewalld
    

    To stop and disable it:

    sudo systemctl stop firewalld
    sudo systemctl disable firewalld
    
  2. Check the firewall status. The output should say either running or not running.

    sudo firewall-cmd --state
    
  3. To view the status of the firewalld daemon:

    sudo systemctl status firewalld
    

    Example output:

    firewalld.service - firewalld - dynamic firewall daemon
      Loaded: loaded (/usr/lib/systemd/system/firewalld.service; enabled; vendor preset: enabled)
      Active: active (running) since Thu 2019-08-08 15:11:24 IST; 23h ago
        Docs: man:firewalld(1)
      Main PID: 2577 (firewalld)
      CGroup: /system.slice/firewalld.service
              └─2577 /usr/bin/python -Es /usr/sbin/firewalld --nofork --nopid
  4. To reload a firewalld configuration:

    sudo firewall-cmd --reload
    

Configuring Firewalld

Firewalld is configured with XML files. Except for very specific configurations, you won’t have to deal with them and firewall-cmd should be used instead.

Configuration files are located in two directories:

  • /usr/lib/FirewallD holds default configurations like default zones and common services. Avoid updating them because those files will be overwritten by each firewalld package update.
  • /etc/firewalld holds system configuration files. These files will overwrite a default configuration.

Configuration Sets

Firewalld uses two configuration sets: Runtime and Permanent. Runtime configuration changes are not retained on reboot or upon restarting firewalld whereas permanent changes are not applied to a running system.

By default, firewall-cmd commands apply to runtime configuration but using the --permanent flag will establish a persistent configuration. To add and activate a permanent rule, you can use one of two methods.

  1. Add the rule to both the permanent and runtime sets.

    sudo firewall-cmd --zone=public --add-service=http --permanent
    sudo firewall-cmd --zone=public --add-service=http
    
  2. Add the rule to the permanent set and reload firewalld.

    sudo firewall-cmd --zone=public --add-service=http --permanent
    sudo firewall-cmd --reload
    
    Note
    The reload command drops all runtime configurations and applies a permanent configuration. Because firewalld manages the ruleset dynamically, it won’t break an existing connection and session.

Firewall Zones

Zones are pre-constructed rulesets for various trust levels you would likely have for a given location or scenario (e.g. home, public, trusted, etc.). Different zones allow different network services and incoming traffic types while denying everything else. After enabling firewalld for the first time, Public will be the default zone.

Zones can also be applied to different network interfaces. For example, with separate interfaces for both an internal network and the Internet, you can allow DHCP on an internal zone but only HTTP and SSH on external zone. Any interface not explicitly set to a specific zone will be attached to the default zone.

To view the default zone:

sudo firewall-cmd --get-default-zone

To change the default zone:

sudo firewall-cmd --set-default-zone=internal

To see the zones used by your network interface(s):

sudo firewall-cmd --get-active-zones

Example output:

public
  interfaces: eth0

To get all configurations for a specific zone:

sudo firewall-cmd --zone=public --list-all

Example output:

public (active)
  target: default
  icmp-block-inversion: no
  interfaces: eth0
  sources:
  services: ssh dhcpv6-client http
  ports: 12345/tcp
  protocols:
  masquerade: no
  forward-ports:
  source-ports:
  icmp-blocks:
  rich rules:

To get all configurations for all zones:

sudo firewall-cmd --list-all-zones

Example output:

trusted
 target: ACCEPT
 icmp-block-inversion: no
 interfaces:
 sources:
 services:
 ports:
 protocols:
 masquerade: no
 forward-ports:
 source-ports:
 icmp-blocks:
 rich rules:

...

work
  target: default
  icmp-block-inversion: no
  interfaces:
  sources:
  services: ssh dhcpv6-client
  ports:
  protocols:
  masquerade: no
  forward-ports:
  source-ports:
  icmp-blocks:
  rich rules:

Working with Services

Firewalld can allow traffic based on predefined rules for specific network services. You can create your own custom service rules and add them to any zone. The configuration files for the default supported services are located at /usr/lib/firewalld/services and user-created service files would be in /etc/firewalld/services.

To view the default available services:

sudo firewall-cmd --get-services

As an example, to enable or disable the HTTP service:

sudo firewall-cmd --zone=public --add-service=http --permanent
sudo firewall-cmd --zone=public --remove-service=http --permanent

Allowing or Denying an Arbitrary Port/Protocol

As an example: Allow or disable TCP traffic on port 12345.

sudo firewall-cmd --zone=public --add-port=12345/tcp --permanent
sudo firewall-cmd --zone=public --remove-port=12345/tcp --permanent

Port Forwarding

The example rule below forwards traffic from port 80 to port 12345 on the same server.

sudo firewall-cmd --zone="public" --add-forward-port=port=80:proto=tcp:toport=12345

To forward a port to a different server:

  1. Activate masquerade in the desired zone.

    sudo firewall-cmd --zone=public --add-masquerade
    
  2. Add the forward rule. This example forwards traffic from local port 80 to port 8080 on a remote server located at the IP address: 198.51.100.0.

    sudo firewall-cmd --zone="public" --add-forward-port=port=80:proto=tcp:toport=8080:toaddr=198.51.100.0
    

To remove the rules, substitute --add with --remove. For example:

sudo firewall-cmd --zone=public --remove-masquerade

Constructing a Ruleset with Firewalld

As an example, here is how you would use firewalld to assign basic rules to your Linode if you were running a web server.

  1. Assign the dmz zone as the default zone to eth0. Of the default zones offered, dmz (demilitarized zone) is the most desirable to start with for this application because it allows only SSH and ICMP.

    sudo firewall-cmd --set-default-zone=dmz
    sudo firewall-cmd --zone=dmz --add-interface=eth0
    
  2. Add permanent service rules for HTTP and HTTPS to the dmz zone:

    sudo firewall-cmd --zone=dmz --add-service=http --permanent
    sudo firewall-cmd --zone=dmz --add-service=https --permanent
    
  3. Reload firewalld so the rules take effect immediately:

    sudo firewall-cmd --reload
    

    If you now run firewall-cmd --zone=dmz --list-all, this should be the output:

    dmz (default)
      interfaces: eth0
      sources:
      services: http https ssh
      ports:
      masquerade: no
      forward-ports:
      icmp-blocks:
      rich rules:
    

    This tells us that the dmz zone is our default which applies to the eth0 interface, all network sources and ports. Incoming HTTP (port 80), HTTPS (port 443) and SSH (port 22) traffic is allowed and since there are no restrictions on IP versioning, this will apply to both IPv4 and IPv6. Masquerading and port forwarding are not allowed. We have no ICMP blocks, so ICMP traffic is fully allowed, and no rich rules. All outgoing traffic is allowed.

Advanced Configuration

Services and ports are fine for basic configuration but may be too limiting for advanced scenarios. Rich Rules and Direct Interface allow you to add fully custom firewall rules to any zone for any port, protocol, address and action.

Rich Rules

Rich rules syntax is extensive but fully documented in the firewalld.richlanguage(5) man page (or see man firewalld.richlanguage in your terminal). Use --add-rich-rule, --list-rich-rules and --remove-rich-rule with firewall-cmd command to manage them.

Here are some common examples:

Allow all IPv4 traffic from host 192.0.2.0.

sudo firewall-cmd --zone=public --add-rich-rule 'rule family="ipv4" source address=192.0.2.0 accept'

Deny IPv4 traffic over TCP from host 192.0.2.0 to port 22.

sudo firewall-cmd --zone=public --add-rich-rule 'rule family="ipv4" source address="192.0.2.0" port port=22 protocol=tcp reject'

Allow IPv4 traffic over TCP from host 192.0.2.0 to port 80, and forward it locally to port 6532.

sudo firewall-cmd --zone=public --add-rich-rule 'rule family=ipv4 source address=192.0.2.0 forward-port port=80 protocol=tcp to-port=6532'

Forward all IPv4 traffic on port 80 to port 8080 on host 198.51.100.0 (masquerade should be active on the zone).

sudo firewall-cmd --zone=public --add-rich-rule 'rule family=ipv4 forward-port port=80 protocol=tcp to-port=8080 to-addr=198.51.100.0'

To list your current Rich Rules in the public zone:

sudo firewall-cmd --zone=public --list-rich-rules

iptables Direct Interface

For the most advanced usage, or for iptables experts, firewalld provides a direct interface that allows you to pass raw iptables commands to it. Direct Interface rules are not persistent unless the --permanent is used.

To see all custom chains or rules added to firewalld:

firewall-cmd --direct --get-all-chains
firewall-cmd --direct --get-all-rules

Discussing iptables syntax details goes beyond the scope of this guide. If you want to learn more, you can review our iptables guide .

More Information

You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

This page was originally published on


Your Feedback Is Important

Let us know if this guide was helpful to you.


Join the conversation.
Read other comments or post your own below. Comments must be respectful, constructive, and relevant to the topic of the guide. Do not post external links or advertisements. Before posting, consider if your comment would be better addressed by contacting our Support team or asking on our Community Site.
The Disqus commenting system for Linode Docs requires the acceptance of Functional Cookies, which allow us to analyze site usage so we can measure and improve performance. To view and create comments for this article, please update your Cookie Preferences on this website and refresh this web page. Please note: You must have JavaScript enabled in your browser.