This is a library for using nftables from Go.

It is not intended to support arbitrary use cases, but instead specifically focuses on supporting Kubernetes components which are using nftables in the way that nftables is supposed to be used (as opposed to using nftables in a naively-translated-from-iptables way, or using nftables to do totally valid things that aren't the sorts of things Kubernetes components are likely to need to do).

It is still under development and is not yet API stable. (See the section on "Possible future changes" below.)

The library is implemented as a wrapper around the nft CLI, because the CLI API is the only well-documented interface to nftables. Although it would be possible to use netlink directly (and some other golang-based nftables libraries do this), that would result in an API that is quite different from all documented examples of nftables usage (e.g. the man pages and the nftables wiki) because there is no easy way to convert the "standard" representation of nftables rules into the netlink form.

(Actually, that's not quite true: the nft CLI is just a thin wrapper around libnftables, and it would be possible for knftables to use cgo to invoke that library instead of using an external binary. However, this would be harder to build and ship, so I'm not bothering with that for now. But this could be done in the future without needing to change knftables's API.)

Create an Interface object to manage operations on a single nftables table:

nft, err := knftables.New(knftables.IPv4Family, "my-table")
if err != nil {
        return fmt.Errorf("no nftables support: %v", err)
}

(If you want to operate on multiple tables or multiple nftables families, you will need separate Interface objects for each. If you need to check whether the system supports an nftables feature as with nft --check, use nft.Check(), which works the same as nft.Run() below.)

You can use the List, ListRules, and ListElements methods on the Interface to check if objects exist. List returns the names of "chains", "sets", or "maps" in the table, while ListElements returns Element objects and ListRules returns partial Rule objects.

chains, err := nft.List(ctx, "chains")
if err != nil {
        return fmt.Errorf("could not list chains: %v", err)
}

FIXME

elements, err := nft.ListElements(ctx, "map", "mymap")
if err != nil {
        return fmt.Errorf("could not list map elements: %v", err)
}

FIXME

To make changes, create a Transaction, add the appropriate operations to the transaction, and then call nft.Run on it:

tx := nft.NewTransaction()

tx.Add(&knftables.Chain{
        Name:    "mychain",
        Comment: knftables.PtrTo("this is my chain"),
})
tx.Flush(&knftables.Chain{
        Name: "mychain",
})

var destIP net.IP
var destPort uint16
...
tx.Add(&knftables.Rule{
        Chain: "mychain",
        Rule: knftables.Concat(
                "ip daddr", destIP,
                "ip protocol", "tcp",
                "th port", destPort,
                "jump", destChain,
        )
})

err := nft.Run(context, tx)

If any operation in the transaction would fail, then Run() will return an error and the entire transaction will be ignored. You can use the knftables.IsNotFound() and knftables.IsAlreadyExists() methods to check for those well-known error types. In a large transaction, there is no supported way to determine exactly which operation failed.

knftables.Transaction operations correspond to the top-level commands in the nft binary. Currently-supported operations are:

• tx.Add(): adds an object, which may already exist, as with nft add
• tx.Create(): creates an object, which must not already exist, as with nft create
• tx.Flush(): flushes the contents of a table/chain/set/map, as with nft flush
• tx.Delete(): deletes an object, as with nft delete
• tx.Insert(): inserts a rule before another rule, as with nft insert rule
• tx.Replace(): replaces a rule, as with nft replace rule

The Transaction methods take arguments of type knftables.Object. The currently-supported objects are:

• Table
• Chain
• Rule
• Set
• Map
• Element

Optional fields in objects can be filled in with the help of the PtrTo() function, which just returns a pointer to its argument.

Concat() can be used to concatenate a series of strings, []string arrays, and other arguments (including numbers, net.IPs / net.IPNets, and anything else that can be formatted usefully via fmt.Sprintf("%s")) together into a single string. This is often useful when constructing Rules.

There is a fake (in-memory) implementation of knftables.Interface for use in unit tests. Use knftables.NewFake() instead of knftables.New() to create it, and then it should work mostly the same. See fake.go for more details of the public APIs for examining the current state of the fake nftables database.

Various top-level object types are not yet supported (notably the "stateful objects" like counter).

Most IPTables libraries have an API for "add this rule only if it doesn't already exist", but that does not seem as useful in nftables (or at least "in nftables as used by Kubernetes-ish components that aren't just blindly copying over old iptables APIs"), because chains tend to have static rules and dynamic sets/maps, rather than having dynamic rules. If you aren't sure if a chain has the correct rules, you can just Flush it and recreate all of the rules.

The "destroy" (delete-without-ENOENT) command that exists in newer versions of nft is not currently supported because it would be unexpectedly heavyweight to emulate on systems that don't have it, so it is better (for now) to force callers to implement it by hand.

ListRules returns Rule objects without the Rule field filled in, because it uses the JSON API to list the rules, but there is no easy way to convert the JSON rule representation back into plaintext form. This means that it is only useful when either (a) you know the order of the rules in the chain, but want to know their handles, or (b) you can recognize the rules you are looking for by their comments, rather than the rule bodies.

nft's output is documented and standardized, so it ought to be possible for us to extract better error messages in the event of a transaction failure.

Additionally, if we used the --echo (-e) and --handle (-a) flags, we could learn the handles associated with newly-created objects in a transaction, and return these to the caller somehow. (E.g., by setting the Handle field in the object that had been passed to tx.Add when the transaction is run.)

(For now, ListRules fills in the handles of the rules it returns, so it's possible to find out a rule's handle after the fact that way. For other supported object types, either handles don't exist (Element) or you don't really need to know their handles because it's possible to delete by name instead (Table, Chain, Set, Map).)

The fact that List works completely differently from ListRules and ListElements is a historical artifact.

I would like to have a single function

List[T Object](ctx context.Context, template T) ([]T, error)

So you could say

elements, err := nft.List(ctx, &knftables.Element{Set: "myset"})

to list the elements of "myset". But this doesn't actually compile ("syntax error: method must have no type parameters") because allowing that would apparently introduce extremely complicated edge cases in Go generics.

There is currently an annoying asymmetry in the representation of concatenated types between Set/Map and Element, where the former uses a string containing nft syntax, and the latter uses an array:

tx.Add(&knftables.Set{
        Name: "firewall",
        Type: "ipv4_addr . inet_proto . inet_service",
})
tx.Add(&knftables.Element{
        Set: "firewall",
        Key: []string{"10.1.2.3", "tcp", "80"},
})

This will probably be fixed at some point, which may result in a change to how the type vs typeof distinction is handled as well.

We will need to optimize the performance of large transactions. One change that is likely is to avoid pre-concatenating rule elements in cases like:

tx.Add(&knftables.Rule{
        Chain: "mychain",
        Rule: knftables.Concat(
                "ip daddr", destIP,
                "ip protocol", "tcp",
                "th port", destPort,
                "jump", destChain,
        )
})

This will presumably require a change to knftables.Rule and/or knftables.Concat() but I'm not sure exactly what it will be.

knftables is maintained by Kubernetes SIG Network.

• sig-network slack channel
• kubernetes-sig-network mailing list

See CONTRIBUTING.md for more information about contributing. Participation in the Kubernetes community is governed by the Kubernetes Code of Conduct.