#kerberos #krb5 #kadmin #kadm5

sys kadmin-sys

FFI bindings for the Kerberos administration interface (kadm5)

6 releases (3 breaking)

0.3.0 Dec 6, 2024
0.2.1 Dec 4, 2024
0.2.0 Nov 9, 2024
0.1.0 Nov 6, 2024
0.0.3 Nov 6, 2024

#833 in Authentication

Download history 327/week @ 2024-11-04 25/week @ 2024-11-11 9/week @ 2024-11-18 2/week @ 2024-11-25 249/week @ 2024-12-02 82/week @ 2024-12-09

343 downloads per month
Used in kadmin

MIT license

12KB
71 lines

Rust and Python bindings for the Kerberos administration interface (kadm5)

This repository contains both a work-in-progress safe, idiomatic Rust bindings for libkadm5, the library to administrate a Kerberos realm that supports the Kerberos administration interface (mainly Heimdal and MIT Kerberos 5), and the underlying "unsafe" bindings generated by bindgen in kadmin-sys.

It also contains a Python API to those bindings.

Kerberos implementations compatibility

These libraries will only compile against MIT krb5. However, they will allow you to communicate with an MIT krb5 KDC as well as a Heimdal KDC. In fact, these libraries are tested against both!

kadmin-sys

Crates.io Version docs.rs

These are the raw bindings to libkadm5. This crate offers two features, client and server. You must choose one of them depending on how your application is going to interact with the KDC. By default, client is enabled.

  • client: links against kadm5clnt. Use this is you plan to remotely access the KDC, using kadmind's GSS-API RPC interface, like the CLI tool kadmin does.
  • server: links against kadm5srv. Use this is you plan to directly edit the KDB from the machine where the KDC is running, like the CLI tool kadmin.local does.

kadmin

Crates.io Version docs.rs

This is a safe, idiomatic Rust interface to libkadm5. This crate offers two features, client and local. They are similar to how kadmin-sys behaves. You should only enable one of them.

With the client feature:

use kadmin::{KAdmin, KAdminImpl};

let princ = "user/admin@EXAMPLE.ORG";
let password = "vErYsEcUrE";

let kadmin = KAdmin::builder().with_password(&princ, &password).unwrap();

dbg!("{}", kadmin.list_principals("*").unwrap());

With the local feature:

use kadmin::{KAdmin, KAdminImpl};

let kadmin = KAdmin::builder().with_local().unwrap();

dbg!("{}", kadmin.list_principals("*").unwrap());

About thread safety

As far as I can tell, libkadm5 APIs are not thread safe. As such, the types provided by this crate are neither Send nor Sync. You must not use those with threads. You can either create a KAdmin instance per thread, or use the kadmin::sync::KAdmin interface that spawns a thread and sends the various commands to it. The API is not exactly the same as the non-thread-safe one, but should be close enough that switching between one or the other is easy enough. Read more about this in the documentation of the crate.

python-kadmin-rs

PyPI - Version Read the Docs

These are Python bindings to the above Rust library, using the kadmin::sync interface to ensure thread safety. It provides two Python modules: kadmin for remote operations, and kadmin_local for local operations.

With kadmin:

import kadmin

princ = "user/admin@EXAMPLE.ORG"
password = "vErYsEcUrE"
kadm = kadmin.KAdmin.with_password(princ, password)
print(kadm.list_principals("*"))

With kadmin_local:

import kadmin

kadm = kadmin.KAdmin.with_local()
print(kadm.list_principals("*"))

License

Licensed under the MIT License.

Contributing

Just open a PR.

### Releasing

  1. Go to Actions > Create release PR
  2. Click "Run workflow" and select what you need to release and input the new version.
  3. Wait for the PR to be opened and the CI to pass
  4. Merge the PR.
  5. Go to Releases
  6. Edit the created release.
  7. Click "Generate release notes"
  8. Publish

Dependencies

~0–2.2MB
~44K SLoC