Configuring chains: Difference between revisions
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= Adding base chains = | = Adding base chains = | ||
Base chains are those that are registered into the [[Netfilter hooks]], i.e. these chains see packets flowing through your Linux TCP/IP stack. | Base chains are those that are registered into the [[Netfilter hooks]], i.e. these chains see packets flowing through your Linux TCP/IP stack. The syntax for adding base chains is as follows. | ||
The syntax | |||
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= Adding regular chains = | = Adding regular chains = | ||
You can also create regular chains, analogous to ''iptables'' user-defined chains | You can also create regular chains, analogous to ''iptables'' user-defined chains, the syntax for which is as follows. | ||
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= Deleting chains = | = Deleting chains = | ||
The syntax for deleting chains is as follows. | |||
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= Flushing chains = | = Flushing chains = | ||
To flush | To flush a chain means to delete all of the rules that it contains, if any. The syntax for doing so is as follows. | ||
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flush chain [family] <table_name> <chain_name> | |||
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Revision as of 22:22, 8 October 2024
As in iptables, with nftables you attach your rules to chains. Unlike in iptables, there are no predefined chains like INPUT, OUTPUT, etc. Instead, to filter packets at a particular processing step, you explicitly create a base chain with name of your choosing, and attach it to the appropriate Netfilter hook. This allows very flexible configurations without slowing Netfilter down with built-in chains not needed by your ruleset.
Adding base chains
Base chains are those that are registered into the Netfilter hooks, i.e. these chains see packets flowing through your Linux TCP/IP stack. The syntax for adding base chains is as follows.
add chain [<family>] <table_name> <chain_name> { type <type> hook <hook> [device <device>] priority <priority> ; [policy <policy> ;] [comment <comment> ;] }
The following example shows how to add a new base chain input to the foo table (which must have been previously created):
# nft 'add chain ip filter input { type filter hook input priority 0; }'
Important: nft re-uses special characters, such as curly braces and the semicolon. If you are running these commands from a shell such as bash, all the special characters need to be escaped. The simplest way to prevent the shell from attempting to parse the nft syntax is to quote everything within single quotes. Alternatively, you can run the command
# nft -i
and run nft in interactive mode.
The add chain command registers the input chain, that it attached to the input hook so it will see packets that are addressed to the local processes.
The priority is important since it determines the ordering of the chains, thus, if you have several chains in the input hook, you can decide which one sees packets before another. For example, input chains with priorities -12, -1, 0, 10 would be consulted exactly in that order. It's possible to give two base chains the same priority, but there is no guaranteed evaluation order of base chains with identical priority that are attached to the same hook location.
If you want to use nftables to filter traffic for desktop Linux computers, i.e. a computer which does not forward traffic, you can also register the output chain:
# nft 'add chain ip filter output { type filter hook output priority 0; }'
Now you are ready to filter incoming (directed to local processes) and outgoing (generated by local processes) traffic.
Important note: If you don't include the chain configuration that is specified enclosed in the curly braces, you are creating a regular chain that will not see any packets (similar to iptables -N chain-name).
Since nftables 0.5, you can also specify the default policy for base chains as in iptables:
# nft 'add chain ip filter output { type filter hook output priority 0; policy accept; }'
As in iptables, the two possible default policies are accept and drop.
When adding a chain on ingress hook, it is mandatory to specify the device where the chain will be attached:
# nft 'add chain netdev filter eth0_filter { type filter hook ingress device eth0 priority 0; }'
Base chain types
The possible chain types are:
- filter, which is used to filter packets. This is supported by the arp, bridge, ip, ip6 and inet table families.
- route, which is used to reroute packets if any relevant IP header field or the packet mark is modified. If you are familiar with iptables, this chain type provides equivalent semantics to the mangle table but only for the output hook (for other hooks use type filter instead). This is supported by the ip, ip6 and inet table families.
- nat, which is used to perform Networking Address Translation (NAT). Only the first packet of a given flow hits this chain; subsequent packets bypass it. Therefore, never use this chain for filtering. The nat chain type is supported by the ip, ip6 and inet table families.
Base chain hooks
The possible hooks that you can use when you configure your base chain are:
- ingress (only in netdev family since Linux kernel 4.2, and inet family since Linux kernel 5.10): sees packets immediately after they are passed up from the NIC driver, before even prerouting. So you have an alternative to tc.
- prerouting: sees all incoming packets, before any routing decision has been made. Packets may be addressed to the local or remote systems.
- input: sees incoming packets that are addressed to and have now been routed to the local system and processes running there.
- forward: sees incoming packets that are not addressed to the local system.
- output: sees packets that originated from processes in the local machine.
- postrouting: sees all packets after routing, just before they leave the local system.
Base chain priority
Each nftables base chain is assigned a priority that defines its ordering among other base chains, flowtables, and Netfilter internal operations at the same hook. For example, a chain on the prerouting hook with priority -300 will be placed before connection tracking operations.
NOTE: If a packet is accepted and there is another chain, bearing the same hook type and with a later priority, then the packet will subsequently traverse this other chain. Hence, an accept verdict - be it by way of a rule or the default chain policy - isn't necessarily final. However, the same is not true of packets that are subjected to a drop verdict. Instead, drops take immediate effect, with no further rules or chains being evaluated.
The following ruleset demonstrates this potentially surprising distinction in behaviour:
table ip filter { # This chain is evaluated first due to priority chain services { type filter hook input priority 0; policy accept; # If matched, this rule will prevent any further evaluation tcp dport http drop # If matched, and despite the accept verdict, the packet proceeds to enter the chain below tcp dport ssh accept # Likewise for any packets that get this far and hit the default policy } # This chain is evaluated last due to priority chain input { type filter hook input priority 1; policy drop; # All ingress packets end up being dropped here! } }
If the priority of the 'input' chain above were to be changed to -1, the only difference would be that no packets have the opportunity to enter the 'services' chain. Either way, this ruleset will result in all ingress packets being dropped.
In summary, packets will traverse all of the chains within the scope of a given hook until they are either dropped or no more base chains exist. An accept verdict is only guaranteed to be final in the case that there is no later chain bearing the same type of hook as the chain that the packet originally entered.
Netfilter's hook execution mechanism is described in more detail in Pablo's paper on connection tracking.
Base chain policy
This is the default verdict that will be applied to packets reaching the end of the chain (i.e, no more rules to be evaluated against).
Currently there are 2 policies: accept (default) or drop.
- The accept verdict means that the packet will keep traversing the network stack (default).
- The drop verdict means that the packet is discarded if the packet reaches the end of the base chain.
NOTE: If no policy is explicitly selected, the default policy accept will be used.
Adding regular chains
You can also create regular chains, analogous to iptables user-defined chains, the syntax for which is as follows.
add chain [family] <table_name> <chain_name> [comment <comment>]
The chain name is an arbitrary string, with arbitrary case.
Note that no hook keyword is included when adding a regular chain. Because it is not attached to a Netfilter hook, by itself a regular chain does not see any traffic. But one or more base chains can include rules that jump or goto this chain -- following which, the regular chain processes packets in exactly the same way as the calling base chain. It can be very useful to arrange your ruleset into a tree of base and regular chains by using the jump and/or goto actions. (Though we're getting a bit ahead of ourselves, nftables vmaps provide an even more powerful way to construct highly-efficient branched rulesets.)
Deleting chains
The syntax for deleting chains is as follows.
delete chain [family] <table_name> <chain_name>
The only condition is that the chain you want to delete needs to be empty, otherwise the kernel will complain that the chain is still in use.
# nft 'delete chain ip filter input'
<cmdline>:1:1-28: Error: Could not delete chain: Device or resource busy
delete chain ip filter input
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
You will have to flush the ruleset in that chain before you can remove the chain.
Flushing chains
To flush a chain means to delete all of the rules that it contains, if any. The syntax for doing so is as follows.
flush chain [family] <table_name> <chain_name>
Example configuration: Filtering traffic for your standalone computer
You can create a table with two base chains to define rule to filter traffic coming to and leaving from your computer, asumming IPv4 connectivity:
# nft 'add table ip filter'
# nft 'add chain ip filter input { type filter hook input priority 0; }'
# nft 'add chain ip filter output { type filter hook output priority 0; }'
Now, you can start attaching rules to these two base chains. Note that you don't need the forward chain in this case since this example assumes that you're configuring nftables to filter traffic for a standalone computer that doesn't behave as router.