A role to manage Nftables rules and packages.
Highly inspired by Mike Gleason firewall role (3 levels of rules definition and template), thanks ! I hope i haven't complexify his philosophy… (I'm pretty sure, i now did complexify it :D) ^^
- nft_enabled : Enable or disable support for Nftables [default :
true
]. - nft_pkg_state : State of new
nftables
package(s) [default :present
]. - nft_old_pkg_list : The list of useless packages to remove (such as Iptables,…) [default :
iptables
]. - nft_old_pkg_state : State of old package(s) [default :
absent
]. - nft_old_pkg_manage : If old package(s) should be managed with this role [default :
true
]. - nft_conf_dir_path : Directory to store the differents Nftables configuration files [default :
/etc/nftables.d
]. - nft_main_conf_path : Main configuration file loaded by systemd unit [default :
/etc/nftables.conf
]. - nft_main_conf_content : Template used to generate the previous main configuration file [default :
etc/nftables.conf.j2
]. - nft_input_conf_path : Input configuration file include in main configuration file [default :
{{ nft_conf_dir_path }}/filter-input.nft
]. - nft_input_conf_content : Template used to generate the previous input configuration file [default :
etc/nftables.d/filter-input.nft.j2
]. - nft_output_conf_path : Output configuration file include in main configuration file [default :
{{ nft_conf_dir_path }}/filter-output.nft
]. - nft_output_conf_content : Template used to generate the previous output configuration file [default :
etc/nftables.d/filter-output.nft.j2
]. - nft_forward_conf_path : forward configuration file include in main configuration file [default :
{{ nft_conf_dir_path }}/filter-forward.nft
]. - nft_forward_conf_content : Template used to generate the previous forward configuration file [default :
etc/nftables.d/filter-forward.nft.j2
]. - nft_define_conf_path : Vars definition file include in main configuration file [default :
{{ nft_conf_dir_path }}/defines.nft
]. - nft_define_conf_content : Template used to generate the previous vars definition file [default :
etc/nftables.d/defines.nft.j2
]. - nft_sets_conf_path : Sets and maps definition file include in main configuration file [default :
{{ nft_conf_dir_path }}/sets.nft
]. - nft_sets_conf_content : Template used to generate the previous sets and maps definition file [default :
etc/nftables.d/sets.nft.j2
]. - nft_global_default_rules : Set default rules for
global
chain. Other chains will jump toglobal
before apply their specific rules. - nft_global_rules : You can add
global
rules or override those defined by nft_global_default_rules for all hosts. - nft_global_group_rules : You can add
global
rules or override those defined by nft_global_default_rules and nft_global_rules for a group. - nft_global_host_rules : Hosts can also add or override all previours rules.
- nft__custom_content : Custom content (tables, include,…) to add in Nftables configuration [default :
''
]. - nft_input_default_rules : Set default rules for
input
chain. - nft_input_rules : You can add
input
rules or override those defined by nft_input_default_rules for all hosts. - nft_input_group_rules : You can add
input
rules or override those defined by nft_input_default_rules and nft_input_rules for a group. - nft_input_host_rules: : Hosts can also add or override all previous
input
rules. - nft_output_default_rules : Set default rules for
output
chain. - nft_output_rules : You can add
output
rules or override those defined by nft_output_default_rules for all hosts. - nft_output_group_rules : You can add
output
rules or override those defined by nft_output_default_rules and nft_output_rules for a group. - nft_output_host_rules : Hosts can also add or override all previous
output
rules. - nft_forward_default_rules : Set default rules for
forward
chain. - nft_forward_rules : You can add
forward
rules or override those defined by nft_forward_default_rules for all hosts. - nft_forward_group_rules : You can add
forward
rules or override those defined by nft_forward_default_rules and nft_forward_rules for a group. - nft_forward_host_rules : Hosts can also add or override all previous
forward
rules. - nft__forward_table_manage : If the forward table should be managed [default :
False
]. - nft__nat_table_manage : If the nat table should be managed [default :
False
]. - nft__nat_default_prerouting_rules : Set default rules for
prerouting
chain of nat table. - nft__nat_prerouting_rules : Set rules for
prerouting
chain of nat table for all hosts in the Ansible inventory. - nft__nat_group_prerouting_rules : Set rules for
prerouting
chain of nat table for hosts in specific Ansible inventory group. - nft__nat_host_prerouting_rules : Set rules for
prerouting
chain of nat table for specific hosts the Ansible inventory. - nft__nat_prerouting_conf_path : Prerouting configuration file include in the main configuration [default :
{{ nft_conf_dir_path }}/nat-prerouting.nft
]. - nft__nat_prerouting_conf_content : Template used to generate the previous prerouting configuration file [default :
etc/nftables.d/nat-prerouting.nft.j2
]. - nft__nat_default_postrouting_rules : Set default rules for
postrouting
chain of nat table. - nft__nat_postrouting_rules : Set rules for
postrouting
chain of nat table for all hosts in the Ansible inventory. - nft__nat_group_postrouting_rules : Set rules for
postrouting
chain of nat table for hosts in specific Ansible inventory group. - nft__nat_host_postrouting_rules : Set rules for
postrouting
chain of nat table for specific hosts the Ansible inventory. - nft__nat_postrouting_conf_path : postrouting configuration file include in the main configuration [default :
{{ nft_conf_dir_path }}/nat-postrouting.nft
]. - nft__nat_postrouting_conf_content : Template used to generate the previous postrouting configuration file [default :
etc/nftables.d/nat-postrouting.nft.j2
]. - nft_define_default : Set default vars available in all rules.
- nft_define : You can add vars or override those defined by nft_define_default for all hosts.
- nft_define_group : You can add vars or override those defined by nft_define_default and nft_define for a group.
- nft_define_host : You can add or override all previous vars.
- nft_service_manage : If
nftables
service should be managed with this role [default :true
]. - nft_service_name :
nftables
service name [default :nftables
]. - nft_service_enabled : Set
nftables
service available at startup [default :true
]. - nft__service_protect : If systemd unit should protect system and home [default :
true
]. - nft__fail2ban_service : If the Nftables service should also restart the Fail2ban service [default :
False
]. - nft_merged_groups : If variables from the hosts Ansible groups should be merged [default :
false
]. - nft_merged_groups_dir : The dictionary where the nftables group rules, named like the Ansible groups, are located in [default :
vars/
]. - nft_debug : Toggle more verbose output on/off. [default: 'false'].
Please see default value by Operating System file in [vars][vars directory] directory.
- nft_pkg_list : The list of package(s) to provide
nftables
.
Each type of rules dictionaries will be merged and rules will be applied in the alphabetical order of the keys (the reason to use 000 to 999 as prefix). So :
- nft_*_default_rules : Define default rules for all nodes. You can define it in
group_vars/all
. - nft_*_rules : Can add rules and override those defined by nft_*_default_rules. You can define it in
group_vars/all
. - nft_*_group_rules : Can add rules and override those defined by nft_*_default_rules and nft_*_rules. You can define it in
group_vars/webservers
.- If 'nft_merged_groups' is set to true, multiple group rules from the ansible groups will also be merged together.
- nft_*_host_rules : Can add rules and override those define by nft_*_default_rules, nft_*_group_rules and nft_*_rules. You can define it in
host_vars/www.local.domain
.
defaults/main.yml
:
# rules
nft_global_default_rules:
005 state management:
- ct state established,related accept
- ct state invalid drop
nft_global_rules: {}
nft_merged_groups: false
nft_merged_groups_dir: vars/
nft_global_group_rules: {}
nft_global_host_rules: {}
nft_input_default_rules:
000 policy:
- type filter hook input priority 0; policy drop;
005 global:
- jump global
010 drop unwanted:
- ip daddr @blackhole counter drop
015 localhost:
- iif lo accept
210 input tcp accepted:
- tcp dport @in_tcp_accept ct state new accept
nft_input_rules: {}
nft_input_group_rules: {}
nft_input_host_rules: {}
nft_output_default_rules:
000 policy:
- type filter hook output priority 0; policy drop;
005 global:
- jump global
015 localhost:
- oif lo accept
050 icmp:
- ip protocol icmp accept
- ip6 nexthdr icmpv6 counter accept
200 output udp accepted:
- udp dport @out_udp_accept ct state new accept
210 output tcp accepted:
- tcp dport @out_tcp_accept ct state new accept
nft_output_rules: {}
nft_output_group_rules: {}
nft_output_host_rules: {}
# define nft vars
nft_define_default:
broadcast and multicast:
desc: 'broadcast and multicast'
name: badcast_addr
value: '{ 255.255.255.255, 224.0.0.1, 224.0.0.251 }'
input tcp accepted:
name: in_tcp_accept
value: '{ ssh }'
output tcp accepted:
name: out_tcp_accept
value: '{ http, https, hkp }'
output udp accepted:
name: out_udp_accept
value: '{ bootps, domain, ntp }'
nft_define: {}
nft_define_group: {}
nft_define_host: {}
# sets and maps
nft_set_default:
blackhole:
- type ipv4_addr;
- elements = $badcast_addr
in_tcp_accept:
- type inet_service; flags interval;
- elements = $in_tcp_accept
out_tcp_accept:
- type inet_service; flags interval;
- elements = $out_tcp_accept
out_udp_accept:
- type inet_service; flags interval;
- elements = $out_udp_accept
nft_set: {}
nft_set_group: {}
nft_set_host: {}
Those default will generate the following configuration :
#!/usr/sbin/nft -f
# Ansible managed
# clean
flush ruleset
include "/etc/nftables.d/defines.nft"
table inet filter {
chain global {
# 000 state management
ct state established,related accept
ct state invalid drop
}
include "/etc/nftables.d/sets.nft"
include "/etc/nftables.d/filter-input.nft"
include "/etc/nftables.d/filter-output.nft"
}
And you can get all rules and definitons by displaying the ruleset on the host : $ nft list ruleset
:
table inet filter {
set blackhole {
type ipv4_addr
elements = { 255.255.255.255, 224.0.0.1, 224.0.0.251}
}
set out_tcp_accept {
type inet_service
flags interval
elements = { http, https, hkp}
}
set out_udp_accept {
type inet_service
flags interval
elements = { domain, bootps, ntp}
}
chain global {
ct state established,related accept
ct state invalid drop
}
chain input {
type filter hook input priority 0; policy drop;
jump global
ip daddr @blackhole counter packets 0 bytes 0 drop
iif "lo" accept
tcp dport @in_tcp_accept ct state new accept
}
chain output {
type filter hook output priority 0; policy drop;
jump global
oif "lo" accept
ip protocol icmp accept
udp dport @out_udp_accept ct state new accept
tcp dport @out_tcp_accept ct state new accept
}
}
Manage Nftables with defaults vars (click to expand)
- hosts: serverXYZ
roles:
- role: ipr-cnrs.nftables
Add a new simple filter rule for incoming traffic (eg. 1 port for UDP/torrent) (click to expand)
- hosts: serverXYZ
vars:
nft_input_rules:
400 input torrent accepted:
- udp dport 6881 ct state new accept
roles:
- role: ipr-cnrs.nftables
- nft_input_group_rules or nft_input_host_rules variables can also be used.
- The weight (
400
) allow to order all merged rules (from nft_input_*rules dictionaries). - The text following the weight (
input torrent accepted
) is a small description that will be added as a comment in nft_input_conf_path file on the remote host.
Add a new multi-ports filter rule for incoming traffic (eg. TCP/http, https, http-alt,…) (click to expand)
- hosts: serverXYZ
vars:
nft_input_rules:
400 input http accepted:
- tcp dport { 80, 443, 8080-8082 } ct state new accept
roles:
- role: ipr-cnrs.nftables
- nft_input_group_rules or nft_input_host_rules variables can also be used.
- The weight (
400
) allow to order all merged rules (from nft_input_*rules dictionaries). - The text following the weight (
input http accepted
) is a small description that will be added as a comment in nft_input_conf_path file on the remote host. - In this case, brackets are useful and define a anonymous set. For a single element (port, IP address,…), brackets are overkill and the singleton definition is enought.
Add a new rule with a variable (click to expand)
Nftables variables can be useful if you define somes generic rules for all hosts with such variables (called with $) and override variable's value for some groups or hosts.
- hosts: serverXYZ
vars:
- nft_define_group:
input http accepted:
desc: HTTP and HTTPS
name: in_http_accept
value: '{ 80, 443 }'
nft_input_group_rules:
400 input http accepted:
- tcp dport $in_http_accept ct state new accept
roles:
- role: ipr-cnrs.nftables
- Add a new variable with define for HTTP ports.
- Add a new rule for incoming traffic and use the previous defined variable.
- Result of
nft list ruleset
on the remote host will be :table inet filter { … chain input { … tcp dport { http, https } ct state new accept … } … }
- No mention of
$in_http_accept
variable.
- No mention of
- nft_define or nft_define_host variables can also be used.
- nft_input_rules or nft_input_host_rules variables can also be used.
- The weight (
400
) allow to order all merged rules (from nft_input_*rules dictionaries). - The text following the weight (
input http accepted
) is a small description that will be added as a comment in nft_input_conf_path file on the remote host.
Add a new rule with a named set (click to expand)
Quite similar to Nftables variables, named set can be useful if you define somes generic rules and sets (eg. for all hosts) and override only the set in some case (eg. for a group or some hosts).
In addition to variables, it is possible to add content to named sets on the fly from the host without completely rewrite the rule.
- hosts: serverXYZ
vars:
nft_set_group:
in_udp_accept:
- type inet_service; flags interval;
- elements = { 6881-6887, 6889 }
nft_input_group_rules:
200 input udp accepted:
- udp dport @in_udp_accept ct state new accept
roles:
- role: ipr-cnrs.nftables
- Add a new named set with nft_set_group dictionary (eg. for torrent ports).
- Add a new rule for incoming traffic and use the previous defined set.
- On the remote host, if you try to add a port to this set :
nft add element inet filter in_udp_accept \{ 6999 \}
- Result of
nft list ruleset
on the remote host will now be :table inet filter { … set in_udp_accept { type inet_service flags interval elements = { 6881-6887, 6889, 6999 } } chain input { … udp dport @in_udp_accept ct state new accept … } … }
- nft_set or nft_set_host variables can also be used.
- nft_input_rules or nft_input_host_rules variables can also be used.
- The weight (
200
) allow to order all merged rules (from nft_input_*rules dictionaries). - The text following the weight (
input upd accepted
) is a small description that will be added as a comment in nft_input_conf_path file on the remote host.
Override a default rule with 2 new rules (click to expand)
- hosts: serverXYZ
vars:
nft_input_host_rules:
050 icmp:⏎
- ip protocol icmp ip saddr != 192.168.0.0/24 counter drop⏎
- ip protocol icmp icmp type echo-request ip length <= 84 counter limit rate 10/minute accept
roles:
- role: ipr-cnrs.nftables
- Get rule description from
defaults/main.yml
file (eg.050 icmp
). - Drop any ICMP request that doesn't come from 192.168.0.0 network.
- Ensure the request is less or equal to 84 bytes and set up a limit to 10 requests per minute.
- nft_input_rules or nft_input_group_rules variables can also be used.
- The weight (
050
) allow to order all merged rules (from nft_input_*rules dictionaries). - The text following the weight (
icmp
) is a small description that will be added as a comment in nft_input_conf_path file on the remote host.
Override some of the default defined sets (click to expand)
- hosts: serverXYZ
vars:
- nft_define:
input tcp accepted:
desc: Custom SSH port and torrent
name: in_tcp_accept
value: '{ 2201, 6881 }'
roles:
- role: ipr-cnrs.nftables
- Get item name (eg.
input tcp accepted
) and variable name (eg.in_tcp_accept
) fromdefaults/main.yml
file. - Set a new value (eg.
'{ 2201, 6881 }'
). - You can add a
desc
attribute that will be set as a comment in nft_input_conf_path file on the remote host.
- nft_define_group or nft_define_host variables can also be used.
Override all default rules (eg. for outgoing traffic) (click to expand)
If the default rules are too permissive, if you already override most of them,… In some case, i guess, it can be interesting to redefine the default variable :
- hosts: serverXYZ
vars:
nft_output_default_rules:
000 policy:
- type filter hook output priority 0; policy drop;
005 state management:
- ct state established,related accept
- ct state invalid drop
015 localhost:
- oif lo accept
050 my rule for XXX hosts and services:
- tcp dport 2000 ip saddr { xxx.xxx.xxx.xxx, yyy.yyy.yyy.yyy } ct state new accept
250 reset-ssh: # allow the host to reset SSH connections to avoid 10 min delay from Ansible controller
- tcp sport ssh tcp flags { rst, psh | ack } counter accept
roles:
- role: ipr-cnrs.nftables
- At least, don't forget to :
- set a default
policy
. - manage already
established
state. - accept
rst, psh | ack
flags for ssh to avoid a 10 minutes delay at the first run of this Nftables role (see #1).
- set a default
- Then add your own rules with the wanted weight to order all merged rules (from nft_output_*rules dictionaries) and descriptions.
Remove a default rule (click to expand)
- hosts: serverXYZ
vars:
nft_output_host_rules:
210 output tcp accepted:
-
roles:
- role: ipr-cnrs.nftables
- Get rule description from
defaults/main.yml
file (210 output tcp accepted
). - The default policy for outgoing traffic (drop) will now be applied to ports defined in out_tcp_accept variable. Be sure of what you are doing.
- The rule will no longer be present in
nft list ruleset
result, just a comment will remain (210 output tcp accepted
) in nft_output_conf_path file on the remote host.
- nft_output_rules or nft_output_group_rules variables can also be used.
- The weight (
210
) allow to order all merged rules (from nft_output_*rules dictionaries).
Use default rules and allow, for first_group, incoming ICMP and count both ICMP and default policy (drop) packets (click to expand)
group_vars/first_group
:
nft_input_group_rules:
020 icmp:
- ip protocol icmp icmp type echo-request ip length <= 84 counter limit rate 1/minute accept
999 count policy packet:
- counter
Use merged group rules from multiple ansible groups (click to expand)
- Enable to merge group's variables :
- hosts: serverXYZ vars: nft_merged_groups: true nft_merged_groups_dir: vars/ roles: - role: ipr-cnrs.nftables
- Put extra rules inside the "vars" folder named after your ansible groups for serverXYZ :
vars/first_group
:nft_input_group_rules: 020 icmp: - ip protocol icmp icmp type echo-request ip length <= 84 counter limit rate 1/minute accept 999 count policy packet: - counter
vars/second_group
:nft_input_group_rules: 021 LAN: - iif eth0 accept
- These rulesets, from the two groups, will be merged if the host is a member of these groups.
This role will :
- Install
nftables
on the system. - Enable
nftables
service by default at startup. - Generate a default configuration file which include all following files and loaded by systemd unit.
- Generate input and output rules files include called by the main configuration file.
- Generate vars in a file and sets and maps in another file.
- (re)Start
nftables
service at first run. - Reload
nftables
service at next runs to avoid to let the host without firewall rules due to invalid syntax.
This source code comes from our Gitea instance and the Github repo exist just to be able to send the role to Ansible Galaxy…
But feel free to send issue/PR here :)
Thanks to this hook, Github automatically got updates from our Gitea instance :)
Jérémy Gardais
- Source : on IPR's Gitea
- IPR (Institut de Physique de Rennes)