nixpkgs/nixos/modules/security/grsecurity.nix

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{ config, lib, pkgs, ... }:
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
with lib;
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
let
cfg = config.security.grsecurity;
mkKernel = kernel: patch:
assert patch.kversion == kernel.version;
{ inherit kernel patch;
inherit (patch) grversion revision;
};
stable-patch = with pkgs.kernelPatches;
if cfg.vserver then grsecurity_vserver else grsecurity_stable;
stableKernel = mkKernel pkgs.linux_3_2 stable-patch;
testKernel = mkKernel pkgs.linux_3_14 pkgs.kernelPatches.grsecurity_unstable;
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
## -- grsecurity configuration -----------------------------------------------
grsecPrioCfg =
if cfg.config.priority == "security" then
"GRKERNSEC_CONFIG_PRIORITY_SECURITY y"
else
"GRKERNSEC_CONFIG_PRIORITY_PERF y";
grsecSystemCfg =
if cfg.config.system == "desktop" then
"GRKERNSEC_CONFIG_DESKTOP y"
else
"GRKERNSEC_CONFIG_SERVER y";
grsecVirtCfg =
if cfg.config.virtualisationConfig == "none" then
"GRKERNSEC_CONFIG_VIRT_NONE y"
else if cfg.config.virtualisationConfig == "host" then
"GRKERNSEC_CONFIG_VIRT_HOST y"
else
"GRKERNSEC_CONFIG_VIRT_GUEST y";
grsecHwvirtCfg = if cfg.config.virtualisationConfig == "none" then "" else
if cfg.config.hardwareVirtualisation == true then
"GRKERNSEC_CONFIG_VIRT_EPT y"
else
"GRKERNSEC_CONFIG_VIRT_SOFT y";
grsecVirtswCfg =
let virtCfg = opt: "GRKERNSEC_CONFIG_VIRT_"+opt+" y";
in
if cfg.config.virtualisationConfig == "none" then ""
else if cfg.config.virtualisationSoftware == "xen" then virtCfg "XEN"
else if cfg.config.virtualisationSoftware == "kvm" then virtCfg "KVM"
else if cfg.config.virtualisationSoftware == "vmware" then virtCfg "VMWARE"
else virtCfg "VIRTUALBOX";
grsecMainConfig = if cfg.config.mode == "custom" then "" else ''
GRKERNSEC_CONFIG_AUTO y
${grsecPrioCfg}
${grsecSystemCfg}
${grsecVirtCfg}
${grsecHwvirtCfg}
${grsecVirtswCfg}
'';
grsecConfig =
let boolToKernOpt = b: if b then "y" else "n";
# Disable RANDSTRUCT under virtualbox, as it has some kind of
# breakage with the vbox guest drivers
randstruct = optionalString config.services.virtualbox.enable
"GRKERNSEC_RANDSTRUCT n";
# Disable restricting links under the testing kernel, as something
# has changed causing it to fail miserably during boot.
restrictLinks = optionalString cfg.testing
"GRKERNSEC_LINK n";
in ''
GRKERNSEC y
${grsecMainConfig}
${if cfg.config.restrictProc then
"GRKERNSEC_PROC_USER y"
else
optionalString cfg.config.restrictProcWithGroup ''
GRKERNSEC_PROC_USERGROUP y
GRKERNSEC_PROC_GID ${toString cfg.config.unrestrictProcGid}
''
}
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
GRKERNSEC_SYSCTL ${boolToKernOpt cfg.config.sysctl}
GRKERNSEC_CHROOT_CHMOD ${boolToKernOpt cfg.config.denyChrootChmod}
GRKERNSEC_NO_RBAC ${boolToKernOpt cfg.config.disableRBAC}
${randstruct}
${restrictLinks}
${cfg.config.kernelExtraConfig}
'';
## -- grsecurity kernel packages ---------------------------------------------
localver = grkern:
"-grsec" + optionalString cfg.config.verboseVersion
"-${grkern.grversion}-${grkern.revision}";
grsecurityOverrider = args: grkern: {
# Apparently as of gcc 4.6, gcc-plugin headers (which are needed by PaX plugins)
# include libgmp headers, so we need these extra tweaks
buildInputs = args.buildInputs ++ [ pkgs.gmp ];
preConfigure = ''
${args.preConfigure or ""}
sed -i 's|-I|-I${pkgs.gmp}/include -I|' scripts/gcc-plugin.sh
sed -i 's|HOST_EXTRACFLAGS +=|HOST_EXTRACFLAGS += -I${pkgs.gmp}/include|' tools/gcc/Makefile
sed -i 's|HOST_EXTRACXXFLAGS +=|HOST_EXTRACXXFLAGS += -I${pkgs.gmp}/include|' tools/gcc/Makefile
rm localversion-grsec
echo ${localver grkern} > localversion-grsec
'';
};
mkGrsecPkg = grkern:
let kernelPkg = lowPrio (overrideDerivation (grkern.kernel.override (args: {
kernelPatches = args.kernelPatches ++ [ grkern.patch pkgs.kernelPatches.grsec_fix_path ];
argsOverride = {
modDirVersion = "${grkern.kernel.modDirVersion}${localver grkern}";
};
extraConfig = grsecConfig;
})) (args: grsecurityOverrider args grkern));
in pkgs.linuxPackagesFor kernelPkg (mkGrsecPkg grkern);
grsecPackage = mkGrsecPkg (if cfg.stable then stableKernel else testKernel);
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.
'';
};
stable = mkOption {
type = types.bool;
default = false;
description = ''
Enable the stable grsecurity patch, based on Linux 3.2.
'';
};
vserver = mkOption {
type = types.bool;
default = false;
description = ''
Enable the stable grsecurity/vserver patches, based on Linux 3.2.
'';
};
testing = mkOption {
type = types.bool;
default = false;
description = ''
Enable the testing grsecurity patch, based on Linux 3.13.
'';
};
config = {
mode = mkOption {
type = types.str;
default = "auto";
example = "custom";
description = ''
grsecurity configuration mode. This specifies whether
grsecurity is auto-configured or otherwise completely
manually configured. Can either by
<literal>custom</literal> or <literal>auto</literal>.
<literal>auto</literal> is recommended.
'';
};
priority = mkOption {
type = types.str;
default = "security";
example = "performance";
description = ''
grsecurity configuration priority. This specifies whether
the kernel configuration should emphasize speed or
security. Can either by <literal>security</literal> or
<literal>performance</literal>.
'';
};
system = mkOption {
type = types.str;
default = "";
example = "desktop";
description = ''
grsecurity system configuration. This specifies whether
the kernel configuration should be suitable for a Desktop
or a Server. Can either by <literal>server</literal> or
<literal>desktop</literal>.
'';
};
virtualisationConfig = mkOption {
type = types.str;
default = "none";
example = "host";
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. Can be one of <literal>none</literal>,
<literal>host</literal>, or <literal>guest</literal>.
'';
};
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.str;
default = "";
example = "kvm";
description = ''
grsecurity virtualisation software. Set this to the
specified virtual machine technology if the machine is
running as a guest, or a host.
Can be one of <literal>kvm</literal>,
<literal>xen</literal>, <literal>vmware</literal> or
<literal>virtualbox</literal>.
'';
};
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*!
If disabled, this also turns off the
<literal>systemd-sysctl</literal> service.
'';
};
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.
'';
};
restrictProc = mkOption {
type = types.bool;
default = false;
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
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>.
'';
};
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
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>
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
'';
};
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.stable || cfg.testing;
message = ''
If grsecurity is enabled, you must select either the
stable patch (with kernel 3.2), or the testing patch (with
kernel 3.13) to continue.
'';
}
{ assertion = (cfg.stable -> !cfg.testing) || (cfg.testing -> !cfg.stable);
message = ''
You must select either the stable or testing patch, not
both.
'';
}
{ assertion = (cfg.testing -> !cfg.vserver);
message = "The vserver patches are only supported in the stable kernel.";
}
{ assertion = (cfg.config.restrictProc -> !cfg.config.restrictProcWithGroup) ||
(cfg.config.restrictProcWithGroup -> !cfg.config.restrictProc);
message = "You cannot enable both restrictProc and restrictProcWithGroup";
}
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
{ assertion = config.boot.kernelPackages.kernel.features ? grsecurity
&& config.boot.kernelPackages.kernel.features.grsecurity;
message = "grsecurity enabled, but kernel doesn't have grsec support";
}
{ assertion = elem cfg.config.mode [ "auto" "custom" ];
message = "grsecurity mode must either be 'auto' or 'custom'.";
}
{ assertion = cfg.config.mode == "auto" -> elem cfg.config.system [ "desktop" "server" ];
message = "when using auto grsec mode, system must be either 'desktop' or 'server'";
}
{ assertion = cfg.config.mode == "auto" -> elem cfg.config.priority [ "performance" "security" ];
message = "when using auto grsec mode, priority must be 'performance' or 'security'.";
}
{ assertion = cfg.config.mode == "auto" -> elem cfg.config.virtualisationConfig [ "host" "guest" "none" ];
message = "when using auto grsec mode, 'virt' must be 'host', 'guest' or 'none'.";
}
{ assertion = (cfg.config.mode == "auto" && (elem cfg.config.virtualisationConfig [ "host" "guest" ])) ->
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" && (elem cfg.config.virtualisationConfig [ "host" "guest" ])) ->
elem cfg.config.virtualisationSoftware [ "kvm" "xen" "virtualbox" "vmware" ];
message = "virtualisation software must be 'kvm', 'xen', 'vmware' or 'virtualbox'";
}
];
systemd.services.grsec-lock = mkIf cfg.config.sysctl {
description = "grsecurity sysctl-lock Service";
requires = [ "sysctl.service" ];
wantedBy = [ "multi-user.target" ];
serviceConfig.Type = "oneshot";
serviceConfig.RemainAfterExit = "yes";
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.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
nixos: add grsecurity module (#1875) This module implements a significant refactoring in grsecurity configuration for NixOS, making it far more usable by default and much easier to configure. - New security.grsecurity NixOS attributes. - All grsec kernels supported - Allows default 'auto' grsec configuration, or custom config - Supports custom kernel options through kernelExtraConfig - Defaults to high-security - user must choose kernel, server/desktop mode, and any virtualisation software. That's all. - kptr_restrict is fixed under grsecurity (it's unwriteable) - grsecurity patch creation is now significantly abstracted - only need revision, version, and SHA1 - kernel version requirements are asserted for sanity - built kernels can have the uname specify the exact grsec version for development or bug reports. Off by default (requires `security.grsecurity.config.verboseVersion = true;`) - grsecurity sysctl support - By default, disabled. - For people who enable it, NixOS deploys a 'grsec-lock' systemd service which runs at startup. You are expected to configure sysctl through NixOS like you regularly would, which will occur before the service is started. As a result, changing sysctl settings requires a reboot. - New default group: 'grsecurity' - Root is a member by default - GRKERNSEC_PROC_GID is implicitly set to the 'grsecurity' GID, making it possible to easily add users to this group for /proc access - AppArmor is now automatically enabled where it wasn't before, despite implying features.apparmor = true The most trivial example of enabling grsecurity in your kernel is by specifying: security.grsecurity.enable = true; security.grsecurity.testing = true; # testing 3.13 kernel security.grsecurity.config.system = "desktop"; # or "server" This specifies absolutely no virtualisation support. In general, you probably at least want KVM host support, which is a little more work. So: security.grsecurity.enable = true; security.grsecurity.stable = true; # enable stable 3.2 kernel security.grsecurity.config = { system = "server"; priority = "security"; virtualisationConfig = "host"; virtualisationSoftware = "kvm"; hardwareVirtualisation = true; } This module has primarily been tested on Hetzner EX40 & VQ7 servers using NixOps. Signed-off-by: Austin Seipp <aseipp@pobox.com>
2014-04-06 21:18:12 +02:00
security.apparmor.enable = true;
boot.kernelPackages = grsecPackage;
services.udev.packages = [ pkgs.gradm ];
environment.systemPackages = [ pkgs.gradm pkgs.paxctl pkgs.pax-utils ];
};
}