This module manages an opinionated nftables configuration.
By default it sets up a firewall that drops every incoming and outgoing connection.
It only allows outgoing dns, ntp and web and ingoing ssh traffic, although this can be overridden using parameters.
The config file has a inet filter and a ip nat table setup.
Additionally, the module comes with a basic infrastructure to hook into different places.
The main configuration file loaded by the nftables service
will be files/config/puppet.nft, all other files created
by that module go into files/config/puppet and will also
be purged if not managed anymore.
The main configuration file includes dedicated files for
the filter and nat tables, as well as processes any
custom-*.nft files before hand.
The filter and NAT tables both have all the master chains (INPUT, OUTPUT, FORWARD in case of filter and PREROUTING and POSTROUTING in case of NAT) configured, to which you can hook in your own chains that can contain specific rules.
All filter masterchains drop by default. By default we have a set of default_MASTERCHAIN chains configured to which you can easily add your custom rules.
For specific needs you can add your own chain.
There is a global chain, that defines the default behavior for all masterchains. This chain is empty by default.
INPUT and OUTPUT to the loopback device is allowed by default, though you could restrict it later.
On the other hand, if you don't want any of the default tables, chains
and rules created by the module, you can set nftables::inet_filter
and/or nftables::nat to false and build your whole nftables
configuration from scratch by using the building blocks provided by
this module. Looking at nftables::inet_filter for inspiration might
be a good idea.
Initially puppet deploys all configuration to
/etc/nftables/puppet-preflight/ and
/etc/nftables/puppet-preflight.nft. This is validated with
nfc -c -L /etc/nftables/puppet-preflight/ -f /etc/nftables/puppet-preflight.nft.
If and only if successful the configuration will be copied to
the real locations before the service is reloaded.
Manages a raw file in /etc/nftables/puppet/${name}.nft
Use this for any custom table files.
Prepares a chain file as a concat file to which you will
be able to add dedicated rules through nftables::rule.
The name must be unique for all chains. The inject
parameter can be used to directly add a jump to a
masterchain. inject must follow the pattern
ORDER-MASTERCHAIN, where order references a 2-digit
number which defines the rule order (by default use e.g. 20)
and masterchain references the chain to hook in the new
chain. It's possible to specify the in-interface name and
out-interface name for the inject rule.
A simple way to add rules to any chain. The name must be:
CHAIN_NAME-rulename, where CHAIN_NAME refers to your
chain and an arbitrary name for your rule.
The rule will be a concat::fragment to the chain
CHAIN_NAME.
You can define the order by using the order param.
Before defining your own rule, take a look to the list of ready-to-use rules available in the REFERENCE, somebody might have encapsulated a rule definition for you already.
Adds a named set to a given table. It allows composing the set using individual parameters but also takes raw input via the content and source parameters.
Allows expressing firewall rules without having to use nftables's language by
adding an abstraction layer a-la-Firewall. It's rather limited how far you can
go so if you need rather complex rules or you can speak nftables it's
recommended to use nftables::rule directly.
One structured fact nftables is available
{
tables => [
"bridge-filter",
"bridge-nat",
"inet-firewalld",
"ip-firewalld",
"ip6-firewalld"
],
version => "0.9.3"
}
nftables.versionis the version of the nft command fromnft --version.nftables.tablesis the list of tables installed on the machine fromnft list tables.
If you're using Emacs there are some snippets for Yasnippet available here that could make your life easier when using the module. This is third party configuration that's only included here for reference so changes in the interfaces exposed by this module are not guaranteed to be automatically applied there.