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187 lines
6.8 KiB
Markdown
187 lines
6.8 KiB
Markdown
# Secure Boot
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This guide will show you how to set up UEFI Secure Boot with Arch Linux. Once
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finished, you will be left with a system that doesn't allow booting any
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untrusted EFI images (other operating systems, fraudulently modified kernels,
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...) on your machine.
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This guide assumes you're following from the
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[INSTALLATION](./01_INSTALLATION.md) guide and that you're using [UNIFIED KERNEL
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IMAGES](./03_UNIFIED_KERNEL_IMAGES.md) (UKIs) for booting.
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## Security requirements
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Meeting these requirements is optional, as it is possible to set up secure boot
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without them. That said, if you don't meet these, setting up secure boot will
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not be a very effective security measure and it might be more of a time waste
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than a helpful means of enhancing your security.
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First requirement is to set up a **BIOS Password**. This is a password that you
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will be asked for every time you wish to enter the BIOS (UEFI). This is
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necessary, as without it, an attacker could very easily just go to the BIOS and
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disable Secure Boot.
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The second requirement is having **disk encryption**, at least for the root
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partition. This is important, because the UEFI signing keys will be stored here,
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and you don't want someone to potentially be able to get access to them, as it
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would allow them to sign any malicious images, making them pass secure boot.
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> [!WARNING]
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> Even after following all of these, you should be aware that Secure Boot isn't
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> an unbreakable solution. In fact, if someone is able to get a hold of your
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> machine, they can simply pull out the CMOS battery, which usually resets the
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> UEFI. That means turning off Secure Boot, and getting rid of the BIOS
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> password.
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>
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> While Secure Boot is generally a good extra measure to have, it is by no means
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> a reliable way to completely prevent others from ever being able to boot
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> untrusted systems, unless you use a specialized motherboard, which persists
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> the UEFI state.
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## Enter Setup mode
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To allow us to upload new signing keys into secure boot, we will need to enter
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"setup mode". This should be possible by going to the Secure Boot category in
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your UEFI settings, and clicking on Delete/Clear certificates, or there could
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even just be a "Setup Mode" option directly.
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Once enabled, save the changes and boot back into Arch linux.
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```bash
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pacman -S sbctl
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sbctl status
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```
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Make sure that `sbctl` reports that Setup Mode is Enabled.
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## Create Secure Boot keys
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We can now create our new signing keys for secure boot. These keys will be
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stored in `/usr/share/secureboot` (so in our encrypted root partition). Once
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created, we will add (enroll) these keys into the UEFI firmware (only possible
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when in setup mode)
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```bash
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sbctl create-keys
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sbctl enroll-keys -m
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```
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<!-- markdownlint-disable MD028 -->
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> [!WARNING]
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> The `-m` option (also known as `--microsoft`) will make sure to also include
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> the Microsoft signing keys. This is required by most motherboards, not using
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> it could brick your device.
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> [!NOTE]
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> If you encounter "File is immutable" warnings after running sbctl, it should
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> be safe to simply add the `-i` (or `--ignore-immutable`) flag, which will run
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> `chattr` and remove the immutable flags from these files for you.
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>
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> You can also do so manually with `chattr -i [file]` for all the listed
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> immutable files and then re-run the enroll-keys command.
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>
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> This happens because the Linux kernel will sometimes mark the runtime EFI
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> files as immutable for security - to prevent bricking the device with just `rm
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-rf /*`, or similar stupid commands, however since we trust that `sbctl` will
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> work and won't do anything malicious, we can just remove the immutable flag,
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> and re-running will now work).
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>
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> If you still encounter errors even with this flag, it means you have probably
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> done something wrong when entering the setup mode. Try looking for a option
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> like "Reset keys" in your UEFI, then try this again.
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<!-- markdownlint-enable MD028 -->
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## Sign the bootloader and Unified Kernel Images
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Finally then, we can sign the `.efi` executables that we'd like to use:
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```bash
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sbctl sign -s -o /usr/lib/systemd/boot/efi/systemd-bootx64.efi.signed /usr/lib/systemd/boot/efi/systemd-bootx64.efi
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sbctl sign -s /efi/EFI/BOOT/BOOTX64.EFI
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sbctl sign -s /efi/EFI/systemd/systemd-bootx64.efi
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sbctl sign -s /efi/EFI/Linux/arch-linux.efi
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sbctl sign -s /efi/EFI/Linux/arch-linux-fallback.efi
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```
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(If you're booting directly from UKI images, only sign those - in `/efi/EFI/Linux`)
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The `-s` flag means save: The files will be automatically re-signed when we
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update the kernel (via a sbctl pacman hook).
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> [!TIP]
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> To make sure that this is the case, we can run `pacman -S linux` and check
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> that messages about image signing appear.
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>
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> They should look something like this:
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>
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> ```text
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> Signing /efi/EFI/Linux/arch-linux.efi
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> ✓ Signed /efi/EFI/Linux/arch-linux.efi
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> ...
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> Signing /efi/EFI/Linux/arch-linux-fallback.efi
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> ✓ Signed /efi/EFI/Linux/arch-linux-fallback.efi
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> ...
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> File has already been signed /efi/EFI/Linux/arch-linux-fallback.efi
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> File has already been signed /efi/EFI/Linux/arch-linux.efi
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> File has already been signed /efi/EFI/systemd/systemd-bootx64.efi
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> File has already been signed /usr/lib/systemd/boot/efi/systemd-bootx64.efi.signed
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> File has already been signed /efi/EFI/BOOT/BOOTX64.EFI
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> ```
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When done, we can make sure that everything that needed to be signed really was
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signed with:
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```bash
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sbctl verify
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```
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You can also check that setup mode got disabled after enrolling the keys:
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```bash
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sbctl status
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```
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Setup mode status should now report as `Disabled`. (Secure boot will still not
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appear as enabled though.)
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## Reboot with secure boot
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We should now be ready to enable secure boot, as our `.efi` images were signed,
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and the signing key was enrolled to UEFI firmware. So, all that remains is:
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```bash
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reboot
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```
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Boot into UEFI, go to the Secure Boot settings and enable it. (It might get
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enabled automatically on some UEFI firmware after setup mode, but it's not
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always the case.)
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### Verify it worked
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To make sure that it worked as expected, and you're booted with secure-boot
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enabled, you can now run:
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```bash
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sbctl status
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```
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It should report `Secure Boot: enabled` or `Secure Boot: enabled (user)`.
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## Why bother?
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As I mentioned, secure boot can be bypassed if someone tries hard enough
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(pulling the CMOS battery). That then brings to question whether it's even worth
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it to set it up, when it doesn't really give you that much.
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On its own, I probably wouldn't bother with setting up secure-boot, however
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secure boot allows me to set up TPM (Trusted Platform Module) to automatically
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release the decryption keys for my LUKS encrypted root partition, in a secure
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way. This means I won't have to type my disk password every time I boot which is
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actually the primary reason why I like having secure-boot enabled.
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For more information on this, check out the follow-up guide:
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[TPM_UNLOCKING](./06_TPM_UNLOCKING.md).
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