forked from cadey/xesite
684 lines
25 KiB
Markdown
684 lines
25 KiB
Markdown
---
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title: Paranoid NixOS Setup
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date: 2021-07-18
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author: ectamorphic
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series: nixos
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tags:
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- paranoid
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- noexec
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---
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Most of the time you can get away with a fairly simple security posture on
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NixOS. Don't run services as root, separate each service into its own systemd
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units, don't run packages you don't trust the heritage of and most importantly
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don't give random people shell access with passwordless sudo.
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Sometimes however, you have good reasons to want to lock everything down as much
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as humanly possible. This could happen when you want to create production
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servers for something security-critical such as a bastion host. In this post I'm
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going to show you a defense-in-depth model for making a NixOS server that is a
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bit more paranoid than usual, as well as explanations of all the moving parts.
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## High-level Ideas
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At a high-level I'm assuming the following things about this setup:
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- It should be very difficult to get in as a passive attacker
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- But the defense doesn't stop at "just hope they don't get in"
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- It should be annoying for attackers to get a user-level shell
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- But ensure they'll be able to anyways if they're dedicated enough
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- It should be difficult for attackers to run their own code on the system
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- But ensure that it could happen and make evidence of that very loud
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- It should be aggrivating for attackers to access the package manager on the
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system
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- But ensure that they can't do anything very easily even if they can access the
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package manager itself
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Some additional goals:
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- Make the system only manageable by a central management system such as morph
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or nixops
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- Only make SSH visible over a VPN of some kind, such as
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[Tailscale](https://tailscale.com) or another WireGuard setup
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- Mount the root filesystem on a tmpfs
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- Have explicitly defined persistent folders
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- Mark everything as `noexec` except for the mount that `/nix/store` is on
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- Don't make the system too difficult to use in the process
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[Disclaimer: I am a Tailscale employee. Tailscale did not review this
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post for accuracy or content, though this setup is based on conversations I've
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had with a coworker at Tailscale.](conversation://Cadey/enby)
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Along the way we'll be making a system that I'm naming `meeka`. We'll put its
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configuration in a folder named `meeka`:
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```nix
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# hosts/meeka/configuation.nix
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{ ... }:
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{
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networking.hostName = "meeka";
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services.openssh.enable = true;
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}
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```
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## Low-hanging Fruit
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There are some easy things we can get out of the way. One of the biggest ways
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that people get in is to make services visible to attack in the first place.
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### The Firewall
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Let's get one of the lowest-hanging fruits out of the way: the firewall. Most of
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the background radiation of the internet is in the form of automated probes to
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development ports and SSH traffic. NixOS actually includes a firewall by
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default! You can see more information on how to configure it
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[here](https://nixos.org/manual/nixos/stable/index.html#sec-firewall), but
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here's a good collection of values to use by default:
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```nix
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# hosts/meeka/firewall.nix
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{ ... }:
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{
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networking.firewall.enable = true;
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}
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```
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### VPN for Access
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Generally, it's probably okay to use SSH over the unprotected internet for
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accessing your machines. However, this is all about maximum paranoia, so we're
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going to use a VPN to get into the machine. [Tailscale](https://tailscale.com/)
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is a fairly direct thing to set up in NixOS:
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```nix
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# hosts/meeka/tailscale.nix
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{ ... }:
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{
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services.tailscale.enable = true;
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# Tell the firewall to implicitly trust packets routed over Tailscale:
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networking.firewall.trustedInterfaces = [ "tailscale0" ];
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}
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```
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When you boot into the server, you can log in like normal using the `tailscale
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up` command. You can probably isolate down the server using
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[ACLs](https://tailscale.com/kb/1018/acls/) if you want to make sure things are
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a bit more paranoid.
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It may be good to set up a second way to get into the machine, just in case. I
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personally try to leave at least 3 ways into my servers, but the super paranoid
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production-facing servers should probably only be able to be connected to over a
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VPN of some kind.
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If you want to see more about how to set up WireGuard on NixOS, see
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[here](https://christine.website/blog/my-wireguard-setup-2021-02-06) for more
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information.
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## Locking Down the Hatches
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Now that we're getting out of the easy stuff, let's go to the more defense in
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depth stuff. Here we're going to talk about separation of concerns and all those
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other fun things.
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### Each Service Gets its own User Account
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I am going to use the word "service" annoyingly vague here. In this world, a
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"service" is a human-oriented view of "computer does the thing I want it to do".
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This website you're reading this post on could be one service, and it should
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have a separate account from other services. See
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[here](https://christine.website/blog/nixops-services-2020-11-09) for more
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information on how to set this up.
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### Lock Down Services Within Systemd
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[systemd](https://www.freedesktop.org/wiki/Software/systemd/) is a suite of
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tools that NixOS uses to manage a huge chunk of the system. It is kinda
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complicated and very large in scope, however this also means that you get access
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to a lot of convenient security management features. One of them is the
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`Protect*` unit options in
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[`systemd.exec(5)`](https://man7.org/linux/man-pages/man5/systemd.exec.5.html),
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which can be used to lock down permissions to the resource and system call
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level. Let's cover some of my favorites that you can slipstream into services:
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Also take a look at `systemd-analyze security yourservicename.service`, that
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will give you a lot more things to search through the systemd documentation for.
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#### `ProtectHome`/`ProtectSystem`
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These options allow you to change how systemd presents critical system files and
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`/home` to a given process. You can use this to remove the ability for a service
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to modify system files or peek into user's home directories, even as root. This
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allows you to put a lot more limits on a service's power.
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#### `NoNewPrivileges`
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If this is set, child processes of this service cannot gain more privileges
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period. Even if the child process is a suid binary.
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[A suid binary is a binary that has the suid flag set. This makes the Linux
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kernel change the active user field of that binary to the owner of the binary
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when you run it. This is a huge part of how the magic behind sudo and ping
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works.](conversation://Mara/hacker)
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#### `ProtectKernel{Logs,Modules,Tuneables}`
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These ones are fairly simple so I'm gonna use some bullet trees for them:
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- `ProtectKernelLogs`: If set to true, the service cannot access the kernel
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message buffer that you get by running `dmesg` or reading from `/proc/kmsg`.
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- `ProtectKernelModules`: If set to true, the service cannot load or unload
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kernel modules.
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- `ProtectKernelTunables`: If set to true, various twiddly bits in `/proc` and
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`/sys` that let you control tunable values in the kernel will be made
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read-only. Most of the time these values are set early in the system boot
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process and never twiddled with again, so it's reasonable to deny a service
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(and its child processes) access to these
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[Why should I bother making all of these changes to my services though? Isn't it
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overkill to have a webapp running as a service user get denied access to even
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look at the kernel log?](conversation://Mara/hmm)
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[To be honest, it can look like paranoid overkill, but this isn't just for the
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service itself. This is for defense in _depth_, which means that you want to
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make sure that things are reasonably secure even if an attacker manages to get
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code execution on one of your services. These settings prevent the service's
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view of the system from having too much detail, which can make the attacking
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process more annoying. Remember that the he goal here isn't to make the system
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attack-proof, nothing is. The goal is to annoy the attacker enough that they
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give up. This is not perfect and probably will fall apart <a
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href="https://www.usenix.org/system/files/1401_08-12_mickens.pdf">if your enemy
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is the Mossad</a>, but it's at least an attempt to lock things down just in case
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the attackers aren't sending their "A" game. You may also want to look into
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`InaccessiblePaths` to block away other folders that you deem "forbidden" as
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facts and circumstances demand.](conversation://Cadey/enby)
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### Lock Down Nix Access
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Nix is the package manager for NixOS. Nix can be invoked by users. Nix lets
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users access things like compilers and scripting languages. These can be used to
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run exploit tools. This can be understandably problematic from a security
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standpoint.
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NixOS has an option called
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[`nix.allowedUsers`](https://nixos.org/manual/nixos/stable/options.html#opt-nix.allowedUsers)
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that lets you specify which users or groups are allowed to do anything with the
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Nix daemon, and by extension the Nix package manager. For a fairly standard
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setup, you can probably get away with the following which allows everyone that
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can `sudo` to access the Nix daemon:
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```nix
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# configuration/meeka/nix.nix
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{ ... }:
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{
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nix.allowedUsers = [ "@wheel" ];
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}
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```
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However if you want to prevent everyone but root, you can use a configuration
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like this:
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```nix
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# configuration/meeka/nix.nix
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{ ... }:
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{
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nix.allowedUsers = [ "root" ];
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}
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```
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You may also want to block access to the NixOS cache CDN with an external
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firewall rule if you really don't trust things. You can block it by blocking the
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fastly IP range `151.101.0.0/16`.
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[I'd suggest doing this firewall change on the level above the NixOS machine
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itself, just in case the machine gets owned and then they ditch your firewall
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rules in an effort to aid in exfiltration.](conversation://Mara/hacker)
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## Making the System Amnesiac
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Most of these steps go way deep down the security rabbit hole. A lot of these
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are focused on limiting access to persistent storage so that persistence is
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opted into, not opted out of. These steps will essentially mount the root
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filesystem on a tmpfs that is cleared out on every reboot, with persistent data
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written to a subfolder in `/nix` that a symlink/bindmount farm is linked to.
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Most of these steps will require you to reprovision your NixOS machines and may
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require you to build your own custom images for cloud providers. Your experience
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and mileage may vary.
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These steps will be based on the excellent work done in these posts/projects:
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- [impermanence](https://github.com/nix-community/impermanence)
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- [NixOS ❄: tmpfs as root](https://elis.nu/blog/2020/05/nixos-tmpfs-as-root/)
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- [Erase your darlings](https://grahamc.com/blog/erase-your-darlings)
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### Partitioning/Setup
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Normally the NixOS partition setup looks a bit like this:
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- `/boot` for either BIOS boot or EFI files
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- 2x ram for swap (swap is not a panacea, however it can sometimes give you
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valuable time to debug a problem)
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- `/` for everything else
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[It's worth noting that technically NixOS works fine if you make only one big
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filesystem and put `/boot` on there directly, but this may only pan out for BIOS
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booting systems.](conversation://Mara/hacker)
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Given that `/` is going to become an in-memory tmpfs, we can instead move the
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partitioning to look like this:
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- `/boot` for either BIOS boot or EFI files
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- 2x ram for swap
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- `/nix` for everything else
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Assuming you are [installing NixOS from scratch in a VM to test this part
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out](https://nixos.org/manual/nixos/stable/index.html#sec-installation), the
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partitioning setup commands could look something like this:
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```sh
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dev=/dev/vda # replace me with the actual device
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parted ${dev} -- mklabel msdos
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parted ${dev} -- mkpart primary ext4 1M 512M
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parted ${dev} -- set 1 boot on
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parted ${dev} -- mkpart primary ext4 512MiB 100%
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mkfs.ext4 -L boot ${dev}1
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mkfs.ext4 -L nix ${dev}2
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```
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[Wait, ext4? I thought you were a zfs stan?](conversation://Mara/hmm)
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[I normally am, however in this case it's probably better to keep the scary
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production servers as boring and vanilla as possible, especially when doing a
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more weird setup like this](conversation://Cadey/enby)
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The exact size of your /boot partition may vary based on facts and
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circumstances, however in practice I've found 512 MB to be a not-terrible
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default.
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Make your "root mount" with a tmpfs:
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```sh
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mount -t tmpfs none /mnt
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```
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Then you need to create the persistent folders on `/nix/persist`. I've found
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these defaults to be not-horrible:
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```sh
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mkdir -p /mnt/{boot,nix,etc/{nixos,ssh},var/{lib,log},srv}
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```
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[We use `/srv` as the home for our services. Adjust this as your facts and
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circumstances demand.](conversation://Mara/hacker)
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Then mount those two partitions to your tmpfs:
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```sh
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mount ${dev}1 /mnt/boot
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mount ${dev}2 /mnt/nix
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```
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And create matching folders in `/mnt/nix/persist`:
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```sh
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mkdir -p /mnt/nix/persist/{etc/{nixos,ssh},var/{lib,log},srv}
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```
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Then finally create some bind mounts to tie everything together for the
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meantime. These bindmounts will be handled by impermanence in the future,
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however for now the quick and dirty method will suffice:
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```sh
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mount -o bind /mnt/nix/persist/etc/nixos /mnt/etc/nixos
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mount -o bind /mnt/nix/persist/var/log /mnt/var/log
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```
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Then generate a base config with `nixos-generate-config`:
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```sh
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nixos-generate-config --root /mnt
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```
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And open `/etc/nixos/hardware-configuration.nix` to edit the settings for the
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tmpfs mount on `/`. At a high level you'll need to change this:
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```nix
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fileSystems."/" = {
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device = "none";
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fsType = "tmpfs";
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options = [ "defaults" "mode=755" ];
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};
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```
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to this:
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```nix
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fileSystems."/" = {
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device = "none";
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fsType = "tmpfs";
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options = [ "defaults" "size=2G" "mode=755" ];
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};
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```
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This will limit `/` to taking up 2 GB of storage at most. This will mostly
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contain temporary files and the like, but you should adjust this as makes sense
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given the amount of ram your systems have. I personally think that 512 MB could
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make sense depending on what you are doing.
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### Using Impermanence
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Now we get to add [impermanence](https://github.com/nix-community/impermanence)
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to the mix to handle making all of those pesky bind mounts for us on boot. One
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of the easiest ways you can add its module to the nix search path is to set the
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`NIX_PATH` environment variable like this:
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```sh
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export NIX_PATH=nixpkgs=channel:nixos-21.05:impermanence=https://github.com/nix-community/impermanence/archive/refs/heads/master.tar.gz:nixos-config=/etc/nixos/configuration.nix
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```
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This will set the import path `<impermanence>` to point to the git repository
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for impermanence. Depending on your security needs you may want to mirror the
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impermanence git repo, but keep in mind it needs to point to a tarball for Nix
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to understand what to do with it.
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Once you have that added, you can add the impermanence configuration to your
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`/etc/nixos/configuration.nix`:
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```nix
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environment.persistence."/nix/persist" = {
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directories = [
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"/etc/nixos" # nixos system config files, can be considered optional
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"/srv" # service data
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"/var/lib" # system service persistent data
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"/var/log" # the place that journald dumps it logs to
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];
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};
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```
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Finally you'll want to set these configuration lines for files in `/etc/sshd`.
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I've tried doing it directly in `environment.persistence.<name>.directories`
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directly but it seems to make `sshd.service` unable to generate its host keys,
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which is slightly important for sshd to work at all. These lines will point the
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files to the right places:
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```nix
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environment.etc."ssh/ssh_host_rsa_key".source
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= "/nix/persist/etc/ssh/ssh_host_rsa_key";
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environment.etc."ssh/ssh_host_rsa_key.pub".source
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= "/nix/persist/etc/ssh/ssh_host_rsa_key.pub";
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environment.etc."ssh/ssh_host_ed25519_key".source
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= "/nix/persist/etc/ssh/ssh_host_ed25519_key";
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environment.etc."ssh/ssh_host_ed25519_key.pub".source
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= "/nix/persist/etc/ssh/ssh_host_ed25519_key.pub";
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```
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The machine ID may be important too if you want to read logs locally after you
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reboot, or if you have any services that expect the machine ID to not change.
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```nix
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environment.etc."machine-id".source
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= "/nix/persist/etc/machine-id";
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```
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From here you can continue with `nixos-install` like normal (though you may want
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to add `--no-root-passwd` if you added a default root password to your config
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for bootstrap reasons only). However if you want to be lazy you can read below
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where I show you how to automatically create an ISO that does all this for you.
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### Repeatable Base Image with an ISO
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Using the setup I mentioned [in a past
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post](https://christine.website/blog/my-homelab-2021-06-08), you can create an
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automatic install ISO that will take a blank disk to a state where you can SSH
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into it and configure it further using a tool like
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[morph](https://github.com/DBCDK/morph). Take a look at [this
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folder](https://github.com/Xe/nixos-configs/tree/master/media/autoinstall-paranoid)
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in my nixos-configs repo for more information. Most of the magic is done with
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the `build` script. It's basically the last few sections of this article turned
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into nix files. If you build it yourself you'll want to take care with the line
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that looks like this:
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```nix
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users.users.root.initialPassword = "hunter2";
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users.users.root.openssh.authorizedKeys.keyFiles = [ (fetchKeys "Xe") ];
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```
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This sets the root password to `hunter2` (a reasonably secure default for
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bootstrapping systems only, holy crap do not use this in production) so you can
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log in with the console and the list of SSH keys from
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[here](https://github.com/Xe.keys). Replace `Xe` with your GitHub username. This
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is not the most deterministic, but if GitHub is down you probably have bigger
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problems. It's also a decent crutch to help you bootstrap things. If this
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bothers you you can set authorized keys as normal:
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```nix
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users.users.root.openssh.authorizedKeys.keys = [
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"ssh-yolo swag420blazeit"
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];
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```
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You can turn this into an EC2 image with something like
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[packer](https://www.packer.io/).
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## Audit Tracing
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|
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The Linux kernel has some fancy auditing powers that are criminally under-used.
|
|
|
|
[Isn't that because the audit subsystem has the ergonomics of driving a
|
|
submarine down a road?](conversation://Mara/happy)
|
|
|
|
Well, yes but until I learn how to summon the right kinds of daemons, I can
|
|
start with this audit rule to log every single time a program is attempted to be
|
|
run:
|
|
|
|
```nix
|
|
# hosts/meeka/auditd.nix
|
|
{ ... }:
|
|
{
|
|
security.auditd.enable = true;
|
|
security.audit.enable = true;
|
|
security.audit.rules = [
|
|
"-a exit,always -F arch=b64 -S execve"
|
|
];
|
|
}
|
|
```
|
|
|
|
You can monitor these logs with `journalctl -f`. If you don't see any audit logs
|
|
show up, ssh in from another window and run some commands like `ls`. You should
|
|
see a flurry of them show up.
|
|
|
|
### Send All Logs Off-Machine
|
|
|
|
You should really treat all system-local logs as radioactive. They are
|
|
liabilities and in some cases can present problematic situations when faced with
|
|
questionable interpretations of things like the GDPR. Not to mention attackers
|
|
will be tempted to wipe all record of their attacks from them. I don't really
|
|
have a suggestion for the best practice here, but I'm sure that people smarter
|
|
than me have come up with good suggestions in my place. Either way, get them off
|
|
the system as fast as possible.
|
|
|
|
You should probably have some process scraping the audit logs to check for
|
|
programs outside of `/nix/store` being executed. That can sometimes point to
|
|
signs of a break-in.
|
|
|
|
[Quis custodiet ipsos custodes?](conversation://Numa/delet)
|
|
|
|
## Optional Steps
|
|
|
|
Normally a lot of these suggestions are aimed at not totally interfering with
|
|
normal usability so that in case you need to debug things you can do so with
|
|
surgical precision. However, depending on your level of paranoia you may want to
|
|
go a step further and disable some things that most may consider to be a "core
|
|
part of basic usability". Just be aware that these things may make debugging an
|
|
errant system difficult.
|
|
|
|
### Rip Out `sudo`
|
|
|
|
[sudo](https://www.sudo.ws/) is a commonly used tool that allows users to assume
|
|
superuser powers for a short amount of time. The things they do with `sudo` are
|
|
logged to the system, but this project has been known to occasionally have
|
|
security issues.
|
|
|
|
[Isn't that because it's written in C and C is inherently unsafe even though
|
|
hordes of "experts" decry otherwise?](conversation://Mara/hmm)
|
|
|
|
[Don't say that, you'll incite the horde.](conversation://Cadey/facepalm)
|
|
|
|
NixOS lets us rip that out if we want to:
|
|
|
|
```nix
|
|
# hosts/meeka/sudo.nix
|
|
{ ... }:
|
|
|
|
{
|
|
security.sudo.enable = false;
|
|
}
|
|
```
|
|
|
|
If you want to keep it around but instead limit its use to users that are in the
|
|
`wheel` group, you can instead opt for something like this:
|
|
|
|
```nix
|
|
# hosts/meeka/sudo.nix
|
|
{ ... }:
|
|
|
|
{
|
|
security.sudo.execWheelOnly = true;
|
|
}
|
|
```
|
|
|
|
### Rip Out Default Packages
|
|
|
|
By default NixOS comes with a few packages like nano, perl and rsync to help you
|
|
get started using it. These are great and all, but can be slightly incredibly
|
|
problematic from a security standpoint. Rip them out like this:
|
|
|
|
```nix
|
|
# hosts/meeka/no-defaults.nix
|
|
{ lib, ... }:
|
|
|
|
{
|
|
environment.defaultPackages = lib.mkForce [];
|
|
}
|
|
```
|
|
|
|
[The `lib.mkForce` function forcibly overrides the contents of that value to
|
|
what you give as an argument. This is useful for saying "no, heck you, I want it
|
|
to be set to this no matter what anyone else says". This can be a useful hammer
|
|
when correcting the security model of NixOS services when you have a good reason
|
|
to.](conversation://Mara/hacker)
|
|
|
|
### Disable sshd Features
|
|
|
|
sshd is great. You can use it to log into systems, proxy traffic and more. sshd
|
|
is also horrible because you can proxy traffic and more, turning a machine into
|
|
an unexpected jumpbox for attackers. This is not ideal for machines that you
|
|
don't expect to be jumpboxes. Disable this feature and some more (such as X11
|
|
forwarding, SSH agent forwarding and stream-local forwarding) like this:
|
|
|
|
```nix
|
|
# configuration/meeka/sshd.nix
|
|
{ ... }:
|
|
|
|
{
|
|
services.openssh = {
|
|
passwordAuthentication = false;
|
|
allowSFTP = false; # Don't set this if you need sftp
|
|
challengeResponseAuthentication = false;
|
|
extraConfig = ''
|
|
AllowTcpForwarding yes
|
|
X11Forwarding no
|
|
AllowAgentForwarding no
|
|
AllowStreamLocalForwarding no
|
|
AuthenticationMethods publickey
|
|
'';
|
|
};
|
|
}
|
|
```
|
|
|
|
### Mark All Partitions but `/nix/store` as `noexec`
|
|
|
|
This is the most paranoid of the ideas in this post. The idea is that if you
|
|
lock down the package manager so random services can't install software and you
|
|
also make it impossible for them to write and run executable files outside of
|
|
`/nix/store`, it becomes very difficult to exploit kernel bugs to get root. Add
|
|
this with the other systemd isolation features that disable access to device
|
|
nodes and twiddly system flags and you have a defense in depth setup that will
|
|
make an attacker's life hard. They will have to get code execution in your
|
|
services to do any damage.
|
|
|
|
Keep in mind that doing this will likely break the heck out of Nix when it needs
|
|
to build things. In my testing it's been fine, however I am not an expert in
|
|
these things. Something else to keep in mind is that you should configure your
|
|
services to be denied access to `/nix/persist` and instead only allow them
|
|
access to individual paths in the bind mounts on `/`, just in case they do that
|
|
to try and sneak an executable through. This will not stop them from making a
|
|
shell script and running it with `bash ./foo.sh`, but it will make it annoying
|
|
to run things like C executables, which is much more important in this case.
|
|
|
|
For this you can set the following NixOS options:
|
|
|
|
```nix
|
|
# hosts/meeka/noexec.nix
|
|
{ ... }:
|
|
|
|
{
|
|
fileSystems."/".options = [ "noexec" ];
|
|
fileSystems."/etc/nixos".options = [ "noexec" ];
|
|
fileSystems."/srv".options = [ "noexec" ];
|
|
fileSystems."/var/log".options = [ "noexec" ];
|
|
}
|
|
```
|
|
|
|
This will make `/nix/store` (or symlinks to files in `/nix/store`) the only
|
|
binaries that are allowed to be executed. This is a rather extreme step, but it
|
|
should fairly sufficiently prevent any attacker from getting very far with
|
|
exploits written in languages like C (which also means that it prevents bitcoin
|
|
miner bots from running).
|
|
|
|
## PCI Compliance Tip
|
|
|
|
PCI Compliance requires you to have an antivirus program installed on every
|
|
server. It doesn't say anything about the program _running_, but just it being
|
|
installed is enough. Get one step closer to PCI compliance with this one neat
|
|
trick:
|
|
|
|
```nix
|
|
# hosts/meeka/pci-compliance-pass.nix
|
|
{ pkgs, ... }:
|
|
|
|
{
|
|
environment.systemPackages = with pkgs; [ clamav ];
|
|
}
|
|
```
|
|
|
|
[...doesn't that defeat the spirit of the thing?](conversation://Mara/hmm)
|
|
|
|
[To be honest, if you get to the end of those post and have an "all yes config"
|
|
of this setup, installing an antivirus program to satisfy requirements that were
|
|
primarily written for windows servers is probably one of the easiest steps you
|
|
can take.](conversation://Cadey/coffee)
|
|
|
|
---
|
|
|
|
All in all, this entire setup will let you get a rather paranoid configuration
|
|
that will reject everything outside of the golden path of what you told the
|
|
machines to do. It will take some work to get to here (as well as being willing
|
|
to experiment with a few virtual machines to test this process a few times
|
|
before feeling safe enough to put this into production), but the end result
|
|
should be a decently secure setup.
|
|
|
|
Obligatory warning: don't put this directly into production unless you know what
|
|
you are doing, or at least can claim you know what you are doing with enough
|
|
certainty to make servers difficult to debug. Have a way to "break the glass"
|
|
and go back to a less noexec setup if you need to, it will save your ass.
|
|
|
|
[Oh, also be sure to import all of those random `.nix` files if you want to use
|
|
it in one cohesive system config. That may be a slight bit entirely essential.
|
|
^\_^](conversation://Mara/hacker)
|