mirror of
https://github.com/privatevoid-net/nix-super.git
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65b79c52c6
Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io>
90 lines
3.5 KiB
Nix
90 lines
3.5 KiB
Nix
# Nix is a sandboxed build system. But Not everything can be handled inside its
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# sandbox: Network access is normally blocked off, but to download sources, a
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# trapdoor has to exist. Nix handles this by having "Fixed-output derivations".
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# The detail here is not important, but in our case it means that the hash of
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# the output has to be known beforehand. And if you know that, you get a few
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# rights: you no longer run inside a special network namespace!
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#
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# Now, Linux has a special feature, that not many other unices do: Abstract
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# unix domain sockets! Not only that, but those are namespaced using the
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# network namespace! That means that we have a way to create sockets that are
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# available in every single fixed-output derivation, and also all processes
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# running on the host machine! Now, this wouldn't be that much of an issue, as,
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# well, the whole idea is that the output is pure, and all processes in the
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# sandbox are killed before finalizing the output. What if we didn't need those
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# processes at all? Unix domain sockets have a semi-known trick: you can pass
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# file descriptors around!
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# This makes it possible to exfiltrate a file-descriptor with write access to
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# $out outside of the sandbox. And that file-descriptor can be used to modify
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# the contents of the store path after it has been registered.
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{ config, ... }:
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let
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pkgs = config.nodes.machine.nixpkgs.pkgs;
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# Simple C program that sends a a file descriptor to `$out` to a Unix
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# domain socket.
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# Compiled statically so that we can easily send it to the VM and use it
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# inside the build sandbox.
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sender = pkgs.runCommandWith {
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name = "sender";
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stdenv = pkgs.pkgsStatic.stdenv;
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} ''
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$CC -static -o $out ${./sender.c}
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'';
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# Okay, so we have a file descriptor shipped out of the FOD now. But the
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# Nix store is read-only, right? .. Well, yeah. But this file descriptor
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# lives in a mount namespace where it is not! So even when this file exists
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# in the actual Nix store, we're capable of just modifying its contents...
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smuggler = pkgs.writeCBin "smuggler" (builtins.readFile ./smuggler.c);
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# The abstract socket path used to exfiltrate the file descriptor
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socketName = "FODSandboxExfiltrationSocket";
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in
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{
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name = "ca-fd-leak";
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nodes.machine =
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{ config, lib, pkgs, ... }:
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{ virtualisation.writableStore = true;
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nix.settings.substituters = lib.mkForce [ ];
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virtualisation.additionalPaths = [ pkgs.busybox-sandbox-shell sender smuggler pkgs.socat ];
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};
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testScript = { nodes }: ''
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start_all()
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machine.succeed("echo hello")
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# Start the smuggler server
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machine.succeed("${smuggler}/bin/smuggler ${socketName} >&2 &")
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# Build the smuggled derivation.
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# This will connect to the smuggler server and send it the file descriptor
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machine.succeed(r"""
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nix-build -E '
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builtins.derivation {
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name = "smuggled";
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system = builtins.currentSystem;
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# look ma, no tricks!
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outputHashMode = "flat";
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outputHashAlgo = "sha256";
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outputHash = builtins.hashString "sha256" "hello, world\n";
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builder = "${pkgs.busybox-sandbox-shell}/bin/sh";
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args = [ "-c" "echo \"hello, world\" > $out; ''${${sender}} ${socketName}" ];
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}'
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""".strip())
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# Tell the smuggler server that we're done
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machine.execute("echo done | ${pkgs.socat}/bin/socat - ABSTRACT-CONNECT:${socketName}")
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# Check that the file was not modified
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machine.succeed(r"""
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cat ./result
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test "$(cat ./result)" = "hello, world"
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""".strip())
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'';
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}
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