# Lanzaboote: Secure Boot for NixOS [![Chat on Matrix](https://matrix.to/img/matrix-badge.svg)](https://matrix.to/#/#nixos-secure-boot:ukvly.org) ![GitHub branch checks state](https://img.shields.io/github/checks-status/blitz/lanzaboote/master) [![made-with-rust](https://img.shields.io/badge/Made%20with-Rust-1f425f.svg)](https://www.rust-lang.org/) ![GitHub](https://img.shields.io/github/license/blitz/lanzaboote) This repository contains tooling for [UEFI Secure Boot](https://en.wikipedia.org/wiki/UEFI#Secure_Boot) on [NixOS](https://nixos.org/). The goal is to make Secure Boot available from [nixpkgs](https://github.com/NixOS/nixpkgs) for any platform that supports UEFI. ## ⚡ Quickstart ⚡ If you want to try this out, head over [here](./docs/QUICK_START.md) for instructions. ## 🪛 Get Involved 🪛 There is still a bunch of work to do before this work can be upstreamed into [nixpkgs](https://github.com/NixOS/nixpkgs). Please coordinate in the [Matrix room](https://matrix.to/#/#nixos-secure-boot:ukvly.org) or check the [issues](https://github.com/nix-community/lanzaboote/issues), if you want to take something up. ## Overview ### Secure Boot The goal of UEFI Secure Boot is to allow only trusted operating systems to boot on a system. This can be used to defend against certain classes of attacks that compromise the boot flow of a system. For example, an attacker will have difficulty replacing the Linux kernel that boots a system when Secure Boot is active. UEFI Secure Boot works by digitally signing all drivers, bootloaders, the Linux kernel and its initrd. This establishes a chain of trust where one trusted component only hands off control to the next part of the boot flow when the integrity of the chain is cryptographically validated. ### Caveats There are some additional steps that are required to make UEFI Secure Boot effective: - There must be a BIOS password or a similar restriction that prevents unauthorized changes to the Secure Boot policy. - The booted system must have some form of integrity protection. - The firmware must be kept up-to-date. These steps will not be covered here. ### `lzbt`, the Lanzaboote tool At the moment, boot loaders, kernels and initrds on NixOS are signed on the current system. These then need to be prepared as [Unified Kernel Images (UKI)](https://uapi-group.org/specifications/specs/boot_loader_specification/#type-2-efi-unified-kernel-images) and placed on the [EFI System Partition (ESP)](https://en.wikipedia.org/wiki/EFI_system_partition). `lzbt` is a Linux command line application that takes care of this flow. It takes a [NixOS bootspec](https://github.com/NixOS/rfcs/pull/125) document, signs the relevant files, creates a UKI using the stub (see below) and installs the UKI along with other required files to the ESP. `lzbt` is also aware of multiple NixOS generations and will sign all configurations that should be bootable. `lzbt` lives in `rust/tool`. ### Stub When the Linux kernel and initrd are packed into a UKI, they need an UEFI application stub. This role is typically filled by [`systemd-stub`](https://www.freedesktop.org/software/systemd/man/systemd-stub.html). The downside of `systemd-stub` is that it requires the kernel and initrd to be packed into the UKI, which makes it pretty large. As we need one UKI per NixOS configuration, systems with many configurations quickly run out of the limited disk space in the ESP. The Lanzaboote stub is a UEFI stub that solves the same problem as `systemd-stub`, but allows kernel and initrd to be stored separately on the ESP. The chain of trust is maintained by validating the signature on the Linux kernel and embedding a cryptographic hash of the initrd into the signed UKI. The stub is available in a "thin" and a "fat" variant. The "thin" variant is the one described above and is tailor made for NixOS. The "fat" variant aims to work exactly like the `systemd-stub`---in fact, it's supposed to eventually replace it. The "thin" variant is the default, you can build it from the stub directory with `cargo build`. The "fat" variant needs to be enabled at build time with `cargo build --no-default-features --features fat`. The stub lives in `rust/stub`. ### Fwupd When both Lanzaboote and `services.fwupd` are enabled, for `fwupd.service` a `preStart` will be added that ensures a signed fwupd binary is placed in `/run` that fwupd will use. ## State of Upstreaming to Nixpkgs SecureBoot is available by adding this project to your configuration. It relies on [bootspec](https://github.com/NixOS/rfcs/pull/125) which is enabled by default since NixOS 23.05. An optimistic plan is to have a "in-tree" feature preview of Lanzaboote as part of NixOS 23.11. ## Funding
[This project](https://nlnet.nl/project/NixOS-UEFI/) was funded through the [NGI Assure](https://nlnet.nl/assure) Fund, a fund established by [NLnet](https://nlnet.nl/) with financial support from the European Commission's [Next Generation Internet](https://ngi.eu/) programme, under the aegis of DG Communications Networks, Content and Technology under grant agreement No 957073. **Applications are still open, you can [apply today](https://nlnet.nl/propose)**. If your organization wants to support the project with extra funding in order to add support for more architectures, PKCS#11 workflows or integration, please contact one of the maintainers.