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nixpkgs/nixos/modules/security/grsecurity.nix
2016-03-12 20:19:40 +00:00

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Nix

{ config, lib, pkgs, ... }:
with lib;
let
cfg = config.security.grsecurity;
customGrsecPkg =
(import ../../../pkgs/build-support/grsecurity {
grsecOptions = cfg;
inherit pkgs lib;
}).grsecPackage;
in
{
options = {
security.grsecurity = {
enable = mkOption {
type = types.bool;
default = false;
description = ''
Enable grsecurity support. This enables advanced exploit
hardening for the Linux kernel, and adds support for
administrative Role-Based Acess Control (RBAC) via
<literal>gradm</literal>. It also includes traditional
utilities for PaX.
'';
};
kernelPatch = mkOption {
type = types.attrs;
example = lib.literalExample "pkgs.kernelPatches.grsecurity_4_1";
description = ''
Grsecurity patch to use.
'';
};
config = {
mode = mkOption {
type = types.enum [ "auto" "custom" ];
default = "auto";
description = ''
grsecurity configuration mode. This specifies whether
grsecurity is auto-configured or otherwise completely
manually configured.
'';
};
priority = mkOption {
type = types.enum [ "security" "performance" ];
default = "security";
description = ''
grsecurity configuration priority. This specifies whether
the kernel configuration should emphasize speed or
security.
'';
};
system = mkOption {
type = types.enum [ "desktop" "server" ];
default = "desktop";
description = ''
grsecurity system configuration.
'';
};
virtualisationConfig = mkOption {
type = types.nullOr (types.enum [ "host" "guest" ]);
default = null;
description = ''
grsecurity virtualisation configuration. This specifies
the virtualisation role of the machine - that is, whether
it will be a virtual machine guest, a virtual machine
host, or neither.
'';
};
hardwareVirtualisation = mkOption {
type = types.nullOr types.bool;
default = null;
example = true;
description = ''
grsecurity hardware virtualisation configuration. Set to
<literal>true</literal> if your machine supports hardware
accelerated virtualisation.
'';
};
virtualisationSoftware = mkOption {
type = types.nullOr (types.enum [ "kvm" "xen" "vmware" "virtualbox" ]);
default = null;
description = ''
Configure grsecurity for use with this virtualisation software.
'';
};
sysctl = mkOption {
type = types.bool;
default = false;
description = ''
If true, then set <literal>GRKERN_SYSCTL y</literal>. If
enabled then grsecurity can be controlled using sysctl
(and turned off). You are advised to *never* enable this,
but if you do, make sure to always set the sysctl
<literal>kernel.grsecurity.grsec_lock</literal> to
non-zero as soon as all sysctl options are set. *THIS IS
EXTREMELY IMPORTANT*!
'';
};
denyChrootChmod = mkOption {
type = types.bool;
default = false;
description = ''
If true, then set <literal>GRKERN_CHROOT_CHMOD
y</literal>. If enabled, this denies processes inside a
chroot from setting the suid or sgid bits using
<literal>chmod</literal> or <literal>fchmod</literal>.
By default this protection is disabled - it makes it
impossible to use Nix to build software on your system,
which is what most users want.
If you are using NixOps to deploy your software to a
remote machine, you're encouraged to enable this as you
won't need to compile code.
'';
};
denyUSB = mkOption {
type = types.bool;
default = false;
description = ''
If true, then set <literal>GRKERNSEC_DENYUSB y</literal>.
This enables a sysctl with name
<literal>kernel.grsecurity.deny_new_usb</literal>. Setting
its value to <literal>1</literal> will prevent any new USB
devices from being recognized by the OS. Any attempted
USB device insertion will be logged.
This option is intended to be used against custom USB
devices designed to exploit vulnerabilities in various USB
device drivers.
'';
};
restrictProc = mkOption {
type = types.bool;
default = false;
description = ''
If true, then set <literal>GRKERN_PROC_USER
y</literal>. This restricts non-root users to only viewing
their own processes and restricts network-related
information, kernel symbols, and module information.
'';
};
restrictProcWithGroup = mkOption {
type = types.bool;
default = true;
description = ''
If true, then set <literal>GRKERN_PROC_USERGROUP
y</literal>. This is similar to
<literal>restrictProc</literal> except it allows a special
group (specified by <literal>unrestrictProcGid</literal>)
to still access otherwise classified information in
<literal>/proc</literal>.
'';
};
unrestrictProcGid = mkOption {
type = types.int;
default = config.ids.gids.grsecurity;
description = ''
If set, specifies a GID which is exempt from
<literal>/proc</literal> restrictions (set by
<literal>GRKERN_PROC_USERGROUP</literal>). By default,
this is set to the GID for <literal>grsecurity</literal>,
a predefined NixOS group, which the
<literal>root</literal> account is a member of. You may
conveniently add other users to this group if you need
access to <literal>/proc</literal>
'';
};
disableRBAC = mkOption {
type = types.bool;
default = false;
description = ''
If true, then set <literal>GRKERN_NO_RBAC
y</literal>. This disables the
<literal>/dev/grsec</literal> device, which in turn
disables the RBAC system (and <literal>gradm</literal>).
'';
};
verboseVersion = mkOption {
type = types.bool;
default = false;
description = "Use verbose version in kernel localversion.";
};
kernelExtraConfig = mkOption {
type = types.str;
default = "";
description = "Extra kernel configuration parameters.";
};
};
};
};
config = mkIf cfg.enable {
assertions =
[
{ assertion = (cfg.config.restrictProc -> !cfg.config.restrictProcWithGroup) ||
(cfg.config.restrictProcWithGroup -> !cfg.config.restrictProc);
message = "You cannot enable both restrictProc and restrictProcWithGroup";
}
{ assertion = config.boot.kernelPackages.kernel.features ? grsecurity
&& config.boot.kernelPackages.kernel.features.grsecurity;
message = "grsecurity enabled, but kernel doesn't have grsec support";
}
{ assertion = (cfg.config.mode == "auto" && (cfg.config.virtualisationConfig != null)) ->
cfg.config.hardwareVirtualisation != null;
message = "when using auto grsec mode with virtualisation, you must specify if your hardware has virtualisation extensions";
}
{ assertion = (cfg.config.mode == "auto" && (cfg.config.virtualisationConfig != null)) ->
cfg.config.virtualisationSoftware != null;
message = "grsecurity configured for virtualisation but no virtualisation software specified";
}
];
security.grsecurity.kernelPatch = lib.mkDefault pkgs.kernelPatches.grsecurity_latest;
systemd.services.grsec-lock = mkIf cfg.config.sysctl {
description = "grsecurity sysctl-lock Service";
requires = [ "systemd-sysctl.service" ];
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = "yes";
unitConfig.ConditionPathIsReadWrite = "/proc/sys/kernel/grsecurity/grsec_lock";
script = ''
locked=`cat /proc/sys/kernel/grsecurity/grsec_lock`
if [ "$locked" == "0" ]; then
echo 1 > /proc/sys/kernel/grsecurity/grsec_lock
echo grsecurity sysctl lock - enabled
else
echo grsecurity sysctl lock already enabled - doing nothing
fi
'';
};
# systemd.services.grsec-learn = {
# description = "grsecurity learning Service";
# wantedBy = [ "local-fs.target" ];
# serviceConfig = {
# Type = "oneshot";
# RemainAfterExit = "yes";
# ExecStart = "${pkgs.gradm}/sbin/gradm -VFL /etc/grsec/learning.logs";
# ExecStop = "${pkgs.gradm}/sbin/gradm -D";
# };
# };
system.activationScripts = lib.optionalAttrs (!cfg.config.disableRBAC) { grsec = ''
mkdir -p /etc/grsec
if [ ! -f /etc/grsec/learn_config ]; then
cp ${pkgs.gradm}/etc/grsec/learn_config /etc/grsec
fi
if [ ! -f /etc/grsec/policy ]; then
cp ${pkgs.gradm}/etc/grsec/policy /etc/grsec
fi
chmod -R 0600 /etc/grsec
''; };
# Enable AppArmor, gradm udev rules, and utilities
security.apparmor.enable = true;
boot.kernelPackages = customGrsecPkg;
services.udev.packages = lib.optional (!cfg.config.disableRBAC) pkgs.gradm;
environment.systemPackages = [ pkgs.paxctl pkgs.pax-utils ] ++ lib.optional (!cfg.config.disableRBAC) pkgs.gradm;
};
}