{ config, pkgs, lib, ... }: with lib; let cfg = config.services.nsd; username = "nsd"; stateDir = "/var/lib/nsd"; pidFile = stateDir + "/var/nsd.pid"; # build nsd with the options needed for the given config nsdPkg = pkgs.nsd.override { bind8Stats = cfg.bind8Stats; ipv6 = cfg.ipv6; ratelimit = cfg.ratelimit.enable; rootServer = cfg.rootServer; zoneStats = length (collect (x: (x.zoneStats or null) != null) cfg.zones) > 0; }; mkZoneFileName = name: if name == "." then "root" else name; # replaces include: directives for keys with fake keys for nsd-checkconf injectFakeKeys = keys: concatStrings (mapAttrsToList (keyName: keyOptions: '' fakeKey="$(${pkgs.bind}/bin/tsig-keygen -a ${escapeShellArgs [ keyOptions.algorithm keyName ]} | grep -oP "\s*secret \"\K.*(?=\";)")" sed "s@^\s*include:\s*\"${stateDir}/private/${keyName}\"\$@secret: $fakeKey@" -i $out/nsd.conf '') keys); nsdEnv = pkgs.buildEnv { name = "nsd-env"; paths = [ configFile ] ++ mapAttrsToList (name: zone: writeZoneData name zone.data) zoneConfigs; postBuild = '' echo "checking zone files" cd $out/zones for zoneFile in *; do echo "|- checking zone '$out/zones/$zoneFile'" ${nsdPkg}/sbin/nsd-checkzone "$zoneFile" "$zoneFile" || { if grep -q \\\\\\$ "$zoneFile"; then echo zone "$zoneFile" contains escaped dollar signs \\\$ echo Escaping them is not needed any more. Please make sure \ to unescape them where they prefix a variable name. fi exit 1 } done echo "checking configuration file" # Save original config file including key references... cp $out/nsd.conf{,.orig} # ...inject mock keys into config ${injectFakeKeys cfg.keys} # ...do the checkconf ${nsdPkg}/sbin/nsd-checkconf $out/nsd.conf # ... and restore original config file. mv $out/nsd.conf{.orig,} ''; }; writeZoneData = name: text: pkgs.writeTextFile { name = "nsd-zone-${mkZoneFileName name}"; inherit text; destination = "/zones/${mkZoneFileName name}"; }; # options are ordered alphanumerically by the nixos option name configFile = pkgs.writeTextDir "nsd.conf" '' server: chroot: "${stateDir}" username: ${username} # The directory for zonefile: files. The daemon chdirs here. zonesdir: "${stateDir}" # the list of dynamically added zones. database: "${stateDir}/var/nsd.db" pidfile: "${pidFile}" xfrdfile: "${stateDir}/var/xfrd.state" xfrdir: "${stateDir}/tmp" zonelistfile: "${stateDir}/var/zone.list" # interfaces ${forEach " ip-address: " cfg.interfaces} ip-freebind: ${yesOrNo cfg.ipFreebind} hide-version: ${yesOrNo cfg.hideVersion} identity: "${cfg.identity}" ip-transparent: ${yesOrNo cfg.ipTransparent} do-ip4: ${yesOrNo cfg.ipv4} ipv4-edns-size: ${toString cfg.ipv4EDNSSize} do-ip6: ${yesOrNo cfg.ipv6} ipv6-edns-size: ${toString cfg.ipv6EDNSSize} log-time-ascii: ${yesOrNo cfg.logTimeAscii} ${maybeString "nsid: " cfg.nsid} port: ${toString cfg.port} reuseport: ${yesOrNo cfg.reuseport} round-robin: ${yesOrNo cfg.roundRobin} server-count: ${toString cfg.serverCount} ${maybeToString "statistics: " cfg.statistics} tcp-count: ${toString cfg.tcpCount} tcp-query-count: ${toString cfg.tcpQueryCount} tcp-timeout: ${toString cfg.tcpTimeout} verbosity: ${toString cfg.verbosity} ${maybeString "version: " cfg.version} xfrd-reload-timeout: ${toString cfg.xfrdReloadTimeout} zonefiles-check: ${yesOrNo cfg.zonefilesCheck} ${maybeString "rrl-ipv4-prefix-length: " cfg.ratelimit.ipv4PrefixLength} ${maybeString "rrl-ipv6-prefix-length: " cfg.ratelimit.ipv6PrefixLength} rrl-ratelimit: ${toString cfg.ratelimit.ratelimit} ${maybeString "rrl-slip: " cfg.ratelimit.slip} rrl-size: ${toString cfg.ratelimit.size} rrl-whitelist-ratelimit: ${toString cfg.ratelimit.whitelistRatelimit} ${keyConfigFile} remote-control: control-enable: ${yesOrNo cfg.remoteControl.enable} control-key-file: "${cfg.remoteControl.controlKeyFile}" control-cert-file: "${cfg.remoteControl.controlCertFile}" ${forEach " control-interface: " cfg.remoteControl.interfaces} control-port: ${toString cfg.remoteControl.port} server-key-file: "${cfg.remoteControl.serverKeyFile}" server-cert-file: "${cfg.remoteControl.serverCertFile}" ${concatStrings (mapAttrsToList zoneConfigFile zoneConfigs)} ${cfg.extraConfig} ''; yesOrNo = b: if b then "yes" else "no"; maybeString = prefix: x: if x == null then "" else ''${prefix} "${x}"''; maybeToString = prefix: x: if x == null then "" else ''${prefix} ${toString x}''; forEach = pre: l: concatMapStrings (x: pre + x + "\n") l; keyConfigFile = concatStrings (mapAttrsToList (keyName: keyOptions: '' key: name: "${keyName}" algorithm: "${keyOptions.algorithm}" include: "${stateDir}/private/${keyName}" '') cfg.keys); copyKeys = concatStrings (mapAttrsToList (keyName: keyOptions: '' secret=$(cat "${keyOptions.keyFile}") dest="${stateDir}/private/${keyName}" echo " secret: \"$secret\"" > "$dest" chown ${username}:${username} "$dest" chmod 0400 "$dest" '') cfg.keys); # options are ordered alphanumerically by the nixos option name zoneConfigFile = name: zone: '' zone: name: "${name}" zonefile: "${stateDir}/zones/${mkZoneFileName name}" ${maybeString "outgoing-interface: " zone.outgoingInterface} ${forEach " rrl-whitelist: " zone.rrlWhitelist} ${maybeString "zonestats: " zone.zoneStats} ${maybeToString "max-refresh-time: " zone.maxRefreshSecs} ${maybeToString "min-refresh-time: " zone.minRefreshSecs} ${maybeToString "max-retry-time: " zone.maxRetrySecs} ${maybeToString "min-retry-time: " zone.minRetrySecs} allow-axfr-fallback: ${yesOrNo zone.allowAXFRFallback} ${forEach " allow-notify: " zone.allowNotify} ${forEach " request-xfr: " zone.requestXFR} ${forEach " notify: " zone.notify} notify-retry: ${toString zone.notifyRetry} ${forEach " provide-xfr: " zone.provideXFR} ''; zoneConfigs = zoneConfigs' {} "" { children = cfg.zones; }; zoneConfigs' = parent: name: zone: if !(zone ? children) || zone.children == null || zone.children == { } # leaf -> actual zone then listToAttrs [ (nameValuePair name (parent // zone)) ] # fork -> pattern else zipAttrsWith (name: head) ( mapAttrsToList (name: child: zoneConfigs' (parent // zone // { children = {}; }) name child) zone.children ); # options are ordered alphanumerically zoneOptions = types.submodule { options = { allowAXFRFallback = mkOption { type = types.bool; default = true; description = lib.mdDoc '' If NSD as secondary server should be allowed to AXFR if the primary server does not allow IXFR. ''; }; allowNotify = mkOption { type = types.listOf types.str; default = [ ]; example = [ "192.0.2.0/24 NOKEY" "10.0.0.1-10.0.0.5 my_tsig_key_name" "10.0.3.4&255.255.0.0 BLOCKED" ]; description = '' Listed primary servers are allowed to notify this secondary server. either a plain IPv4/IPv6 address or range. Valid patters for ranges: * 10.0.0.0/24 # via subnet size * 10.0.0.0&255.255.255.0 # via subnet mask * 10.0.0.1-10.0.0.254 # via range A optional port number could be added with a '@': * 2001:1234::1@1234 * will use the specified TSIG key * NOKEY no TSIG signature is required * BLOCKED notifies from non-listed or blocked IPs will be ignored * ]]> ''; }; children = mkOption { # TODO: This relies on the fact that `types.anything` doesn't set any # values of its own to any defaults, because in the above zoneConfigs', # values from children override ones from parents, but only if the # attributes are defined. Because of this, we can't replace the element # type here with `zoneConfigs`, since that would set all the attributes # to default values, breaking the parent inheriting function. type = types.attrsOf types.anything; default = {}; description = lib.mdDoc '' Children zones inherit all options of their parents. Attributes defined in a child will overwrite the ones of its parent. Only leaf zones will be actually served. This way it's possible to define maybe zones which share most attributes without duplicating everything. This mechanism replaces nsd's patterns in a save and functional way. ''; }; data = mkOption { type = types.lines; default = ""; description = lib.mdDoc '' The actual zone data. This is the content of your zone file. Use imports or pkgs.lib.readFile if you don't want this data in your config file. ''; }; dnssec = mkEnableOption "DNSSEC"; dnssecPolicy = { algorithm = mkOption { type = types.str; default = "RSASHA256"; description = lib.mdDoc "Which algorithm to use for DNSSEC"; }; keyttl = mkOption { type = types.str; default = "1h"; description = lib.mdDoc "TTL for dnssec records"; }; coverage = mkOption { type = types.str; default = "1y"; description = lib.mdDoc '' The length of time to ensure that keys will be correct; no action will be taken to create new keys to be activated after this time. ''; }; zsk = mkOption { type = keyPolicy; default = { keySize = 2048; prePublish = "1w"; postPublish = "1w"; rollPeriod = "1mo"; }; description = lib.mdDoc "Key policy for zone signing keys"; }; ksk = mkOption { type = keyPolicy; default = { keySize = 4096; prePublish = "1mo"; postPublish = "1mo"; rollPeriod = "0"; }; description = lib.mdDoc "Key policy for key signing keys"; }; }; maxRefreshSecs = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Limit refresh time for secondary zones. This is the timer which checks to see if the zone has to be refetched when it expires. Normally the value from the SOA record is used, but this option restricts that value. ''; }; minRefreshSecs = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Limit refresh time for secondary zones. ''; }; maxRetrySecs = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Limit retry time for secondary zones. This is the timeout after a failed fetch attempt for the zone. Normally the value from the SOA record is used, but this option restricts that value. ''; }; minRetrySecs = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Limit retry time for secondary zones. ''; }; notify = mkOption { type = types.listOf types.str; default = []; example = [ "10.0.0.1@3721 my_key" "::5 NOKEY" ]; description = '' This primary server will notify all given secondary servers about zone changes. a plain IPv4/IPv6 address with on optional port number (ip@port) * sign notifies with the specified key * NOKEY don't sign notifies ]]> ''; }; notifyRetry = mkOption { type = types.int; default = 5; description = lib.mdDoc '' Specifies the number of retries for failed notifies. Set this along with notify. ''; }; outgoingInterface = mkOption { type = types.nullOr types.str; default = null; example = "2000::1@1234"; description = lib.mdDoc '' This address will be used for zone-transfere requests if configured as a secondary server or notifications in case of a primary server. Supply either a plain IPv4 or IPv6 address with an optional port number (ip@port). ''; }; provideXFR = mkOption { type = types.listOf types.str; default = []; example = [ "192.0.2.0/24 NOKEY" "192.0.2.0/24 my_tsig_key_name" ]; description = '' Allow these IPs and TSIG to transfer zones, addr TSIG|NOKEY|BLOCKED address range 192.0.2.0/24, 1.2.3.4&255.255.0.0, 3.0.2.20-3.0.2.40 ''; }; requestXFR = mkOption { type = types.listOf types.str; default = []; description = lib.mdDoc '' Format: `[AXFR|UDP] ` ''; }; rrlWhitelist = mkOption { type = with types; listOf (enum [ "nxdomain" "error" "referral" "any" "rrsig" "wildcard" "nodata" "dnskey" "positive" "all" ]); default = []; description = lib.mdDoc '' Whitelists the given rrl-types. ''; }; zoneStats = mkOption { type = types.nullOr types.str; default = null; example = "%s"; description = lib.mdDoc '' When set to something distinct to null NSD is able to collect statistics per zone. All statistics of this zone(s) will be added to the group specified by this given name. Use "%s" to use the zones name as the group. The groups are output from nsd-control stats and stats_noreset. ''; }; }; }; keyPolicy = types.submodule { options = { keySize = mkOption { type = types.int; description = lib.mdDoc "Key size in bits"; }; prePublish = mkOption { type = types.str; description = lib.mdDoc "How long in advance to publish new keys"; }; postPublish = mkOption { type = types.str; description = lib.mdDoc "How long after deactivation to keep a key in the zone"; }; rollPeriod = mkOption { type = types.str; description = lib.mdDoc "How frequently to change keys"; }; }; }; dnssecZones = (filterAttrs (n: v: if v ? dnssec then v.dnssec else false) zoneConfigs); dnssec = dnssecZones != {}; dnssecTools = pkgs.bind.override { enablePython = true; }; signZones = optionalString dnssec '' mkdir -p ${stateDir}/dnssec chown ${username}:${username} ${stateDir}/dnssec chmod 0600 ${stateDir}/dnssec ${concatStrings (mapAttrsToList signZone dnssecZones)} ''; signZone = name: zone: '' ${dnssecTools}/bin/dnssec-keymgr -g ${dnssecTools}/bin/dnssec-keygen -s ${dnssecTools}/bin/dnssec-settime -K ${stateDir}/dnssec -c ${policyFile name zone.dnssecPolicy} ${name} ${dnssecTools}/bin/dnssec-signzone -S -K ${stateDir}/dnssec -o ${name} -O full -N date ${stateDir}/zones/${name} ${nsdPkg}/sbin/nsd-checkzone ${name} ${stateDir}/zones/${name}.signed && mv -v ${stateDir}/zones/${name}.signed ${stateDir}/zones/${name} ''; policyFile = name: policy: pkgs.writeText "${name}.policy" '' zone ${name} { algorithm ${policy.algorithm}; key-size zsk ${toString policy.zsk.keySize}; key-size ksk ${toString policy.ksk.keySize}; keyttl ${policy.keyttl}; pre-publish zsk ${policy.zsk.prePublish}; pre-publish ksk ${policy.ksk.prePublish}; post-publish zsk ${policy.zsk.postPublish}; post-publish ksk ${policy.ksk.postPublish}; roll-period zsk ${policy.zsk.rollPeriod}; roll-period ksk ${policy.ksk.rollPeriod}; coverage ${policy.coverage}; }; ''; in { # options are ordered alphanumerically options.services.nsd = { enable = mkEnableOption "NSD authoritative DNS server"; bind8Stats = mkEnableOption "BIND8 like statistics"; dnssecInterval = mkOption { type = types.str; default = "1h"; description = lib.mdDoc '' How often to check whether dnssec key rollover is required ''; }; extraConfig = mkOption { type = types.lines; default = ""; description = lib.mdDoc '' Extra nsd config. ''; }; hideVersion = mkOption { type = types.bool; default = true; description = lib.mdDoc '' Whether NSD should answer VERSION.BIND and VERSION.SERVER CHAOS class queries. ''; }; identity = mkOption { type = types.str; default = "unidentified server"; description = lib.mdDoc '' Identify the server (CH TXT ID.SERVER entry). ''; }; interfaces = mkOption { type = types.listOf types.str; default = [ "127.0.0.0" "::1" ]; description = lib.mdDoc '' What addresses the server should listen to. ''; }; ipFreebind = mkOption { type = types.bool; default = false; description = lib.mdDoc '' Whether to bind to nonlocal addresses and interfaces that are down. Similar to ip-transparent. ''; }; ipTransparent = mkOption { type = types.bool; default = false; description = lib.mdDoc '' Allow binding to non local addresses. ''; }; ipv4 = mkOption { type = types.bool; default = true; description = lib.mdDoc '' Whether to listen on IPv4 connections. ''; }; ipv4EDNSSize = mkOption { type = types.int; default = 4096; description = lib.mdDoc '' Preferred EDNS buffer size for IPv4. ''; }; ipv6 = mkOption { type = types.bool; default = true; description = lib.mdDoc '' Whether to listen on IPv6 connections. ''; }; ipv6EDNSSize = mkOption { type = types.int; default = 4096; description = lib.mdDoc '' Preferred EDNS buffer size for IPv6. ''; }; logTimeAscii = mkOption { type = types.bool; default = true; description = lib.mdDoc '' Log time in ascii, if false then in unix epoch seconds. ''; }; nsid = mkOption { type = types.nullOr types.str; default = null; description = lib.mdDoc '' NSID identity (hex string, or "ascii_somestring"). ''; }; port = mkOption { type = types.int; default = 53; description = lib.mdDoc '' Port the service should bind do. ''; }; reuseport = mkOption { type = types.bool; default = pkgs.stdenv.isLinux; defaultText = literalExpression "pkgs.stdenv.isLinux"; description = lib.mdDoc '' Whether to enable SO_REUSEPORT on all used sockets. This lets multiple processes bind to the same port. This speeds up operation especially if the server count is greater than one and makes fast restarts less prone to fail ''; }; rootServer = mkOption { type = types.bool; default = false; description = lib.mdDoc '' Whether this server will be a root server (a DNS root server, you usually don't want that). ''; }; roundRobin = mkEnableOption "round robin rotation of records"; serverCount = mkOption { type = types.int; default = 1; description = lib.mdDoc '' Number of NSD servers to fork. Put the number of CPUs to use here. ''; }; statistics = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Statistics are produced every number of seconds. Prints to log. If null no statistics are logged. ''; }; tcpCount = mkOption { type = types.int; default = 100; description = lib.mdDoc '' Maximum number of concurrent TCP connections per server. ''; }; tcpQueryCount = mkOption { type = types.int; default = 0; description = lib.mdDoc '' Maximum number of queries served on a single TCP connection. 0 means no maximum. ''; }; tcpTimeout = mkOption { type = types.int; default = 120; description = lib.mdDoc '' TCP timeout in seconds. ''; }; verbosity = mkOption { type = types.int; default = 0; description = lib.mdDoc '' Verbosity level. ''; }; version = mkOption { type = types.nullOr types.str; default = null; description = lib.mdDoc '' The version string replied for CH TXT version.server and version.bind queries. Will use the compiled package version on null. See hideVersion for enabling/disabling this responses. ''; }; xfrdReloadTimeout = mkOption { type = types.int; default = 1; description = lib.mdDoc '' Number of seconds between reloads triggered by xfrd. ''; }; zonefilesCheck = mkOption { type = types.bool; default = true; description = lib.mdDoc '' Whether to check mtime of all zone files on start and sighup. ''; }; keys = mkOption { type = types.attrsOf (types.submodule { options = { algorithm = mkOption { type = types.str; default = "hmac-sha256"; description = lib.mdDoc '' Authentication algorithm for this key. ''; }; keyFile = mkOption { type = types.path; description = lib.mdDoc '' Path to the file which contains the actual base64 encoded key. The key will be copied into "${stateDir}/private" before NSD starts. The copied file is only accessibly by the NSD user. ''; }; }; }); default = {}; example = literalExpression '' { "tsig.example.org" = { algorithm = "hmac-md5"; keyFile = "/path/to/my/key"; }; } ''; description = lib.mdDoc '' Define your TSIG keys here. ''; }; ratelimit = { enable = mkEnableOption "ratelimit capabilities"; ipv4PrefixLength = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' IPv4 prefix length. Addresses are grouped by netblock. ''; }; ipv6PrefixLength = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' IPv6 prefix length. Addresses are grouped by netblock. ''; }; ratelimit = mkOption { type = types.int; default = 200; description = lib.mdDoc '' Max qps allowed from any query source. 0 means unlimited. With an verbosity of 2 blocked and unblocked subnets will be logged. ''; }; slip = mkOption { type = types.nullOr types.int; default = null; description = lib.mdDoc '' Number of packets that get discarded before replying a SLIP response. 0 disables SLIP responses. 1 will make every response a SLIP response. ''; }; size = mkOption { type = types.int; default = 1000000; description = lib.mdDoc '' Size of the hashtable. More buckets use more memory but lower the chance of hash hash collisions. ''; }; whitelistRatelimit = mkOption { type = types.int; default = 2000; description = lib.mdDoc '' Max qps allowed from whitelisted sources. 0 means unlimited. Set the rrl-whitelist option for specific queries to apply this limit instead of the default to them. ''; }; }; remoteControl = { enable = mkEnableOption "remote control via nsd-control"; controlCertFile = mkOption { type = types.path; default = "/etc/nsd/nsd_control.pem"; description = lib.mdDoc '' Path to the client certificate signed with the server certificate. This file is used by nsd-control and generated by nsd-control-setup. ''; }; controlKeyFile = mkOption { type = types.path; default = "/etc/nsd/nsd_control.key"; description = lib.mdDoc '' Path to the client private key, which is used by nsd-control but not by the server. This file is generated by nsd-control-setup. ''; }; interfaces = mkOption { type = types.listOf types.str; default = [ "127.0.0.1" "::1" ]; description = lib.mdDoc '' Which interfaces NSD should bind to for remote control. ''; }; port = mkOption { type = types.int; default = 8952; description = lib.mdDoc '' Port number for remote control operations (uses TLS over TCP). ''; }; serverCertFile = mkOption { type = types.path; default = "/etc/nsd/nsd_server.pem"; description = lib.mdDoc '' Path to the server self signed certificate, which is used by the server but and by nsd-control. This file is generated by nsd-control-setup. ''; }; serverKeyFile = mkOption { type = types.path; default = "/etc/nsd/nsd_server.key"; description = lib.mdDoc '' Path to the server private key, which is used by the server but not by nsd-control. This file is generated by nsd-control-setup. ''; }; }; zones = mkOption { type = types.attrsOf zoneOptions; default = {}; example = literalExpression '' { "serverGroup1" = { provideXFR = [ "10.1.2.3 NOKEY" ]; children = { "example.com." = { data = ''' $ORIGIN example.com. $TTL 86400 @ IN SOA a.ns.example.com. admin.example.com. ( ... '''; }; "example.org." = { data = ''' $ORIGIN example.org. $TTL 86400 @ IN SOA a.ns.example.com. admin.example.com. ( ... '''; }; }; }; "example.net." = { provideXFR = [ "10.3.2.1 NOKEY" ]; data = ''' ... '''; }; } ''; description = lib.mdDoc '' Define your zones here. Zones can cascade other zones and therefore inherit settings from parent zones. Look at the definition of children to learn about inheritance and child zones. The given example will define 3 zones (example.(com|org|net).). Both example.com. and example.org. inherit their configuration from serverGroup1. ''; }; }; config = mkIf cfg.enable { assertions = singleton { assertion = zoneConfigs ? "." -> cfg.rootServer; message = "You have a root zone configured. If this is really what you " + "want, please enable 'services.nsd.rootServer'."; }; environment = { systemPackages = [ nsdPkg ]; etc."nsd/nsd.conf".source = "${configFile}/nsd.conf"; }; users.groups.${username}.gid = config.ids.gids.nsd; users.users.${username} = { description = "NSD service user"; home = stateDir; createHome = true; uid = config.ids.uids.nsd; group = username; }; systemd.services.nsd = { description = "NSD authoritative only domain name service"; after = [ "network.target" ]; wantedBy = [ "multi-user.target" ]; startLimitBurst = 4; startLimitIntervalSec = 5 * 60; # 5 mins serviceConfig = { ExecStart = "${nsdPkg}/sbin/nsd -d -c ${nsdEnv}/nsd.conf"; StandardError = "null"; PIDFile = pidFile; Restart = "always"; RestartSec = "4s"; }; preStart = '' rm -Rf "${stateDir}/private/" rm -Rf "${stateDir}/tmp/" mkdir -m 0700 -p "${stateDir}/private" mkdir -m 0700 -p "${stateDir}/tmp" mkdir -m 0700 -p "${stateDir}/var" cat > "${stateDir}/don't touch anything in here" << EOF Everything in this directory except NSD's state in var and dnssec is automatically generated and will be purged and redeployed by the nsd.service pre-start script. EOF chown ${username}:${username} -R "${stateDir}/private" chown ${username}:${username} -R "${stateDir}/tmp" chown ${username}:${username} -R "${stateDir}/var" rm -rf "${stateDir}/zones" cp -rL "${nsdEnv}/zones" "${stateDir}/zones" ${copyKeys} ''; }; systemd.timers.nsd-dnssec = mkIf dnssec { description = "Automatic DNSSEC key rollover"; wantedBy = [ "nsd.service" ]; timerConfig = { OnActiveSec = cfg.dnssecInterval; OnUnitActiveSec = cfg.dnssecInterval; }; }; systemd.services.nsd-dnssec = mkIf dnssec { description = "DNSSEC key rollover"; wantedBy = [ "nsd.service" ]; before = [ "nsd.service" ]; script = signZones; postStop = '' /run/current-system/systemd/bin/systemctl kill -s SIGHUP nsd.service ''; }; }; meta.maintainers = with lib.maintainers; [ hrdinka ]; }