3
0
Fork 0
forked from mirrors/nixpkgs
nixpkgs/nixos/modules/services/security/usbguard.nix
Phil 4f2935390e nixos/usbguard: create package and module (#28363)
* nixos/usbguard: create package and module

No usbguard module or package existed for NixOS previously. USBGuard
will protect you from BadUSB attacks. (assuming configuration is done
correctly)

* nixos/usbguard: remove extra packages

Users can override this by themselves.

* nixos/usbguard: add maintainer and fix style
2017-08-25 23:35:18 +01:00

201 lines
6.5 KiB
Nix

{config, lib, pkgs, ... }:
with lib;
let
cfg = config.services.usbguard;
# valid policy options
policy = (types.enum [ "allow" "block" "reject" "keep" "apply-policy" ]);
# decide what file to use for rules
ruleFile = if cfg.rules != null then pkgs.writeText "usbguard-rules" cfg.rules else cfg.ruleFile;
daemonConf = ''
# generated by nixos/modules/services/security/usbguard.nix
RuleFile=${ruleFile}
ImplicitPolicyTarget=${cfg.implictPolicyTarget}
PresentDevicePolicy=${cfg.presentDevicePolicy}
PresentControllerPolicy=${cfg.presentControllerPolicy}
InsertedDevicePolicy=${cfg.insertedDevicePolicy}
RestoreControllerDeviceState=${if cfg.restoreControllerDeviceState then "true" else "false"}
# this does not seem useful for endusers to change
DeviceManagerBackend=uevent
IPCAllowedUsers=${concatStringsSep " " cfg.IPCAllowedUsers}
IPCAllowedGroups=${concatStringsSep " " cfg.IPCAllowedGroups}
IPCAccessControlFiles=${cfg.IPCAccessControlFiles}
DeviceRulesWithPort=${if cfg.deviceRulesWithPort then "true" else "false"}
AuditFilePath=${cfg.auditFilePath}
'';
daemonConfFile = pkgs.writeText "usbguard-daemon-conf" daemonConf;
in {
###### interface
options = {
services.usbguard = {
enable = mkEnableOption "USBGuard daemon";
ruleFile = mkOption {
type = types.path;
default = "/var/lib/usbguard/rules.conf";
description = ''
The USBGuard daemon will use this file to load the policy rule set
from it and to write new rules received via the IPC interface.
Running the command <literal>usbguard generate-policy</literal> as
root will generate a config for your currently plugged in devices.
For a in depth guide consult the official documentation.
Setting the <literal>rules</literal> option will ignore the
<literal>ruleFile</literal> option.
'';
};
rules = mkOption {
type = types.nullOr types.str;
default = null;
example = ''
allow with-interface equals { 08:*:* }
'';
description = ''
The USBGuard daemon will load this policy rule set. Modifying it via
the IPC interface won't work if you use this option, since the
contents of this option will be written into the nix-store it will be
read-only.
You can still use <literal> usbguard generate-policy</literal> to
generate rules, but you would have to insert them here.
Setting the <literal>rules</literal> option will ignore the
<literal>ruleFile</literal> option.
'';
};
implictPolicyTarget = mkOption {
type = policy;
default = "block";
description = ''
How to treat USB devices that don't match any rule in the policy.
Target should be one of allow, block or reject (logically remove the
device node from the system).
'';
};
presentDevicePolicy = mkOption {
type = policy;
default = "apply-policy";
description = ''
How to treat USB devices that are already connected when the daemon
starts. Policy should be one of allow, block, reject, keep (keep
whatever state the device is currently in) or apply-policy (evaluate
the rule set for every present device).
'';
};
presentControllerPolicy = mkOption {
type = policy;
default = "keep";
description = ''
How to treat USB controller devices that are already connected when
the daemon starts. One of allow, block, reject, keep or apply-policy.
'';
};
insertedDevicePolicy = mkOption {
type = policy;
default = "apply-policy";
description = ''
How to treat USB devices that are already connected after the daemon
starts. One of block, reject, apply-policy.
'';
};
restoreControllerDeviceState = mkOption {
type = types.bool;
default = false;
description = ''
The USBGuard daemon modifies some attributes of controller
devices like the default authorization state of new child device
instances. Using this setting, you can controll whether the daemon
will try to restore the attribute values to the state before
modificaton on shutdown.
'';
};
IPCAllowedUsers = mkOption {
type = types.listOf types.str;
default = [ "root" ];
example = [ "root" "yourusername" ];
description = ''
A list of usernames that the daemon will accept IPC connections from.
'';
};
IPCAllowedGroups = mkOption {
type = types.listOf types.str;
default = [ ];
example = [ "wheel" ];
description = ''
A list of groupnames that the daemon will accept IPC connections
from.
'';
};
IPCAccessControlFiles = mkOption {
type = types.path;
default = "/var/lib/usbguard/IPCAccessControl.d/";
description = ''
The files at this location will be interpreted by the daemon as IPC
access control definition files. See the IPC ACCESS CONTROL section
in <citerefentry><refentrytitle>usbguard-daemon.conf</refentrytitle>
<manvolnum>5</manvolnum></citerefentry> for more details.
'';
};
deviceRulesWithPort = mkOption {
type = types.bool;
default = false;
description = ''
Generate device specific rules including the "via-port" attribute.
'';
};
auditFilePath = mkOption {
type = types.path;
default = "/var/log/usbguard/usbguard-audit.log";
description = ''
USBGuard audit events log file path.
'';
};
};
};
###### implementation
config = mkIf cfg.enable {
environment.systemPackages = [ pkgs.usbguard ];
systemd.services.usbguard = {
description = "USBGuard daemon";
wantedBy = [ "basic.target" ];
wants = [ "systemd-udevd.service" "local-fs.target" ];
# make sure an empty rule file and required directories exist
preStart = ''mkdir -p $(dirname "${cfg.ruleFile}") "${cfg.IPCAccessControlFiles}" && ([ -f "${cfg.ruleFile}" ] || touch ${cfg.ruleFile})'';
serviceConfig = {
Type = "simple";
ExecStart = ''${pkgs.usbguard}/bin/usbguard-daemon -d -k -c ${daemonConfFile}'';
Restart = "on-failure";
};
};
};
}