nixpkgs-suyu/nixos/modules/services/networking/ncdns.nix

283 lines
8.5 KiB
Nix

{ config, lib, pkgs, ... }:
with lib;
let
cfgs = config.services;
cfg = cfgs.ncdns;
dataDir = "/var/lib/ncdns";
username = "ncdns";
valueType = with types; oneOf [ int str bool path ]
// { description = "setting type (integer, string, bool or path)"; };
configType = with types; attrsOf (nullOr (either valueType configType))
// { description = ''
ncdns.conf configuration type. The format consists of an
attribute set of settings. Each setting can be either `null`,
a value or an attribute set. The allowed values are integers,
strings, booleans or paths.
'';
};
configFile = pkgs.runCommand "ncdns.conf"
{ json = builtins.toJSON cfg.settings;
passAsFile = [ "json" ];
}
"${pkgs.remarshal}/bin/json2toml < $jsonPath > $out";
defaultFiles = {
public = "${dataDir}/bit.key";
private = "${dataDir}/bit.private";
zonePublic = "${dataDir}/bit-zone.key";
zonePrivate = "${dataDir}/bit-zone.private";
};
# if all keys are the default value
needsKeygen = all id (flip mapAttrsToList cfg.dnssec.keys
(n: v: v == getAttr n defaultFiles));
mkDefaultAttrs = mapAttrs (n: v: mkDefault v);
in
{
###### interface
options = {
services.ncdns = {
enable = mkEnableOption ''
ncdns, a Go daemon to bridge Namecoin to DNS.
To resolve .bit domains set <literal>services.namecoind.enable = true;</literal>
and an RPC username/password
'';
address = mkOption {
type = types.str;
default = "127.0.0.1";
description = ''
The IP address the ncdns resolver will bind to. Leave this unchanged
if you do not wish to directly expose the resolver.
'';
};
port = mkOption {
type = types.port;
default = 5333;
description = ''
The port the ncdns resolver will bind to.
'';
};
identity.hostname = mkOption {
type = types.str;
default = config.networking.hostName;
defaultText = literalExpression "config.networking.hostName";
example = "example.com";
description = ''
The hostname of this ncdns instance, which defaults to the machine
hostname. If specified, ncdns lists the hostname as an NS record at
the zone apex:
<programlisting>
bit. IN NS ns1.example.com.
</programlisting>
If unset ncdns will generate an internal psuedo-hostname under the
zone, which will resolve to the value of
<option>services.ncdns.identity.address</option>.
If you are only using ncdns locally you can ignore this.
'';
};
identity.hostmaster = mkOption {
type = types.str;
default = "";
example = "root@example.com";
description = ''
An email address for the SOA record at the bit zone.
If you are only using ncdns locally you can ignore this.
'';
};
identity.address = mkOption {
type = types.str;
default = "127.127.127.127";
description = ''
The IP address the hostname specified in
<option>services.ncdns.identity.hostname</option> should resolve to.
If you are only using ncdns locally you can ignore this.
'';
};
dnssec.enable = mkEnableOption ''
DNSSEC support in ncdns. This will generate KSK and ZSK keypairs
(unless provided via the options
<option>services.ncdns.dnssec.publicKey</option>,
<option>services.ncdns.dnssec.privateKey</option> etc.) and add a trust
anchor to recursive resolvers
'';
dnssec.keys.public = mkOption {
type = types.path;
default = defaultFiles.public;
description = ''
Path to the file containing the KSK public key.
The key can be generated using the <literal>dnssec-keygen</literal>
command, provided by the package <package>bind</package> as follows:
<programlisting>
$ dnssec-keygen -a RSASHA256 -3 -b 2048 -f KSK bit
</programlisting>
'';
};
dnssec.keys.private = mkOption {
type = types.path;
default = defaultFiles.private;
description = ''
Path to the file containing the KSK private key.
'';
};
dnssec.keys.zonePublic = mkOption {
type = types.path;
default = defaultFiles.zonePublic;
description = ''
Path to the file containing the ZSK public key.
The key can be generated using the <literal>dnssec-keygen</literal>
command, provided by the package <package>bind</package> as follows:
<programlisting>
$ dnssec-keygen -a RSASHA256 -3 -b 2048 bit
</programlisting>
'';
};
dnssec.keys.zonePrivate = mkOption {
type = types.path;
default = defaultFiles.zonePrivate;
description = ''
Path to the file containing the ZSK private key.
'';
};
settings = mkOption {
type = configType;
default = { };
example = literalExpression ''
{ # enable webserver
ncdns.httplistenaddr = ":8202";
# synchronize TLS certs
certstore.nss = true;
# note: all paths are relative to the config file
certstore.nsscertdir = "../../var/lib/ncdns";
certstore.nssdbdir = "../../home/alice/.pki/nssdb";
}
'';
description = ''
ncdns settings. Use this option to configure ncds
settings not exposed in a NixOS option or to bypass one.
See the example ncdns.conf file at <link xlink:href="
https://git.io/JfX7g"/> for the available options.
'';
};
};
services.pdns-recursor.resolveNamecoin = mkOption {
type = types.bool;
default = false;
description = ''
Resolve <literal>.bit</literal> top-level domains using ncdns and namecoin.
'';
};
};
###### implementation
config = mkIf cfg.enable {
services.pdns-recursor = mkIf cfgs.pdns-recursor.resolveNamecoin {
forwardZonesRecurse.bit = "127.0.0.1:${toString cfg.port}";
luaConfig =
if cfg.dnssec.enable
then ''readTrustAnchorsFromFile("${cfg.dnssec.keys.public}")''
else ''addNTA("bit", "namecoin DNSSEC disabled")'';
};
# Avoid pdns-recursor not finding the DNSSEC keys
systemd.services.pdns-recursor = mkIf cfgs.pdns-recursor.resolveNamecoin {
after = [ "ncdns.service" ];
wants = [ "ncdns.service" ];
};
services.ncdns.settings = mkDefaultAttrs {
ncdns =
{ # Namecoin RPC
namecoinrpcaddress =
"${cfgs.namecoind.rpc.address}:${toString cfgs.namecoind.rpc.port}";
namecoinrpcusername = cfgs.namecoind.rpc.user;
namecoinrpcpassword = cfgs.namecoind.rpc.password;
# Identity
selfname = cfg.identity.hostname;
hostmaster = cfg.identity.hostmaster;
selfip = cfg.identity.address;
# Other
bind = "${cfg.address}:${toString cfg.port}";
}
// optionalAttrs cfg.dnssec.enable
{ # DNSSEC
publickey = "../.." + cfg.dnssec.keys.public;
privatekey = "../.." + cfg.dnssec.keys.private;
zonepublickey = "../.." + cfg.dnssec.keys.zonePublic;
zoneprivatekey = "../.." + cfg.dnssec.keys.zonePrivate;
};
# Daemon
service.daemon = true;
xlog.journal = true;
};
users.users.ncdns = {
isSystemUser = true;
group = "ncdns";
description = "ncdns daemon user";
};
users.groups.ncdns = {};
systemd.services.ncdns = {
description = "ncdns daemon";
after = [ "namecoind.service" ];
wantedBy = [ "multi-user.target" ];
serviceConfig = {
User = "ncdns";
StateDirectory = "ncdns";
Restart = "on-failure";
ExecStart = "${pkgs.ncdns}/bin/ncdns -conf=${configFile}";
};
preStart = optionalString (cfg.dnssec.enable && needsKeygen) ''
cd ${dataDir}
if [ ! -e bit.key ]; then
${pkgs.bind}/bin/dnssec-keygen -a RSASHA256 -3 -b 2048 bit
mv Kbit.*.key bit-zone.key
mv Kbit.*.private bit-zone.private
${pkgs.bind}/bin/dnssec-keygen -a RSASHA256 -3 -b 2048 -f KSK bit
mv Kbit.*.key bit.key
mv Kbit.*.private bit.private
fi
'';
};
};
meta.maintainers = with lib.maintainers; [ rnhmjoj ];
}