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156 lines
5.5 KiB
Nix
156 lines
5.5 KiB
Nix
{ config, lib, ... }:
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with lib;
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{
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meta = {
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maintainers = [ maintainers.joachifm ];
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};
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imports = [
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(lib.mkRenamedOptionModule [ "security" "virtualization" "flushL1DataCache" ] [ "security" "virtualisation" "flushL1DataCache" ])
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];
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options = {
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security.allowUserNamespaces = mkOption {
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type = types.bool;
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default = true;
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description = ''
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Whether to allow creation of user namespaces.
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The motivation for disabling user namespaces is the potential
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presence of code paths where the kernel's permission checking
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logic fails to account for namespacing, instead permitting a
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namespaced process to act outside the namespace with the same
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privileges as it would have inside it. This is particularly
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damaging in the common case of running as root within the namespace.
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When user namespace creation is disallowed, attempting to create a
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user namespace fails with "no space left on device" (ENOSPC).
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root may re-enable user namespace creation at runtime.
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'';
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};
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security.unprivilegedUsernsClone = mkOption {
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type = types.bool;
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default = false;
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description = ''
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When disabled, unprivileged users will not be able to create new namespaces.
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By default unprivileged user namespaces are disabled.
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This option only works in a hardened profile.
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'';
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};
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security.protectKernelImage = mkOption {
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type = types.bool;
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default = false;
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description = ''
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Whether to prevent replacing the running kernel image.
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'';
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};
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security.allowSimultaneousMultithreading = mkOption {
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type = types.bool;
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default = true;
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description = ''
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Whether to allow SMT/hyperthreading. Disabling SMT means that only
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physical CPU cores will be usable at runtime, potentially at
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significant performance cost.
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The primary motivation for disabling SMT is to mitigate the risk of
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leaking data between threads running on the same CPU core (due to
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e.g., shared caches). This attack vector is unproven.
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Disabling SMT is a supplement to the L1 data cache flushing mitigation
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(see <xref linkend="opt-security.virtualisation.flushL1DataCache"/>)
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versus malicious VM guests (SMT could "bring back" previously flushed
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data).
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'';
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};
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security.forcePageTableIsolation = mkOption {
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type = types.bool;
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default = false;
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description = ''
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Whether to force-enable the Page Table Isolation (PTI) Linux kernel
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feature even on CPU models that claim to be safe from Meltdown.
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This hardening feature is most beneficial to systems that run untrusted
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workloads that rely on address space isolation for security.
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'';
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};
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security.virtualisation.flushL1DataCache = mkOption {
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type = types.nullOr (types.enum [ "never" "cond" "always" ]);
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default = null;
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description = ''
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Whether the hypervisor should flush the L1 data cache before
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entering guests.
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See also <xref linkend="opt-security.allowSimultaneousMultithreading"/>.
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<variablelist>
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<varlistentry>
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<term><literal>null</literal></term>
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<listitem><para>uses the kernel default</para></listitem>
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</varlistentry>
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<varlistentry>
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<term><literal>"never"</literal></term>
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<listitem><para>disables L1 data cache flushing entirely.
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May be appropriate if all guests are trusted.</para></listitem>
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</varlistentry>
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<varlistentry>
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<term><literal>"cond"</literal></term>
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<listitem><para>flushes L1 data cache only for pre-determined
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code paths. May leak information about the host address space
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layout.</para></listitem>
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</varlistentry>
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<varlistentry>
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<term><literal>"always"</literal></term>
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<listitem><para>flushes L1 data cache every time the hypervisor
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enters the guest. May incur significant performance cost.
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</para></listitem>
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</varlistentry>
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</variablelist>
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'';
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};
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};
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config = mkMerge [
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(mkIf (!config.security.allowUserNamespaces) {
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# Setting the number of allowed user namespaces to 0 effectively disables
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# the feature at runtime. Note that root may raise the limit again
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# at any time.
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boot.kernel.sysctl."user.max_user_namespaces" = 0;
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assertions = [
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{ assertion = config.nix.useSandbox -> config.security.allowUserNamespaces;
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message = "`nix.useSandbox = true` conflicts with `!security.allowUserNamespaces`.";
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}
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];
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})
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(mkIf config.security.unprivilegedUsernsClone {
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boot.kernel.sysctl."kernel.unprivileged_userns_clone" = mkDefault true;
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})
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(mkIf config.security.protectKernelImage {
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# Disable hibernation (allows replacing the running kernel)
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boot.kernelParams = [ "nohibernate" ];
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# Prevent replacing the running kernel image w/o reboot
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boot.kernel.sysctl."kernel.kexec_load_disabled" = mkDefault true;
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})
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(mkIf (!config.security.allowSimultaneousMultithreading) {
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boot.kernelParams = [ "nosmt" ];
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})
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(mkIf config.security.forcePageTableIsolation {
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boot.kernelParams = [ "pti=on" ];
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})
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(mkIf (config.security.virtualisation.flushL1DataCache != null) {
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boot.kernelParams = [ "kvm-intel.vmentry_l1d_flush=${config.security.virtualisation.flushL1DataCache}" ];
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})
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];
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}
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