# This module enables Network Address Translation (NAT). # XXX: todo: support multiple upstream links # see http://yesican.chsoft.biz/lartc/MultihomedLinuxNetworking.html { config, lib, pkgs, ... }: with lib; let cfg = config.networking.nat; mkDest = externalIP: if externalIP == null then "-j MASQUERADE" else "-j SNAT --to-source ${externalIP}"; dest = mkDest cfg.externalIP; destIPv6 = mkDest cfg.externalIPv6; # Whether given IP (plus optional port) is an IPv6. isIPv6 = ip: builtins.length (lib.splitString ":" ip) > 2; helpers = import ./helpers.nix { inherit config lib; }; flushNat = '' ${helpers} ip46tables -w -t nat -D PREROUTING -j nixos-nat-pre 2>/dev/null|| true ip46tables -w -t nat -F nixos-nat-pre 2>/dev/null || true ip46tables -w -t nat -X nixos-nat-pre 2>/dev/null || true ip46tables -w -t nat -D POSTROUTING -j nixos-nat-post 2>/dev/null || true ip46tables -w -t nat -F nixos-nat-post 2>/dev/null || true ip46tables -w -t nat -X nixos-nat-post 2>/dev/null || true ip46tables -w -t nat -D OUTPUT -j nixos-nat-out 2>/dev/null || true ip46tables -w -t nat -F nixos-nat-out 2>/dev/null || true ip46tables -w -t nat -X nixos-nat-out 2>/dev/null || true ${cfg.extraStopCommands} ''; mkSetupNat = { iptables, dest, internalIPs, forwardPorts }: '' # We can't match on incoming interface in POSTROUTING, so # mark packets coming from the internal interfaces. ${concatMapStrings (iface: '' ${iptables} -w -t nat -A nixos-nat-pre \ -i '${iface}' -j MARK --set-mark 1 '') cfg.internalInterfaces} # NAT the marked packets. ${optionalString (cfg.internalInterfaces != []) '' ${iptables} -w -t nat -A nixos-nat-post -m mark --mark 1 \ ${optionalString (cfg.externalInterface != null) "-o ${cfg.externalInterface}"} ${dest} ''} # NAT packets coming from the internal IPs. ${concatMapStrings (range: '' ${iptables} -w -t nat -A nixos-nat-post \ -s '${range}' ${optionalString (cfg.externalInterface != null) "-o ${cfg.externalInterface}"} ${dest} '') internalIPs} # NAT from external ports to internal ports. ${concatMapStrings (fwd: '' ${iptables} -w -t nat -A nixos-nat-pre \ -i ${toString cfg.externalInterface} -p ${fwd.proto} \ --dport ${builtins.toString fwd.sourcePort} \ -j DNAT --to-destination ${fwd.destination} ${concatMapStrings (loopbackip: let matchIP = if isIPv6 fwd.destination then "[[]([0-9a-fA-F:]+)[]]" else "([0-9.]+)"; m = builtins.match "${matchIP}:([0-9-]+)" fwd.destination; destinationIP = if m == null then throw "bad ip:ports `${fwd.destination}'" else elemAt m 0; destinationPorts = if m == null then throw "bad ip:ports `${fwd.destination}'" else builtins.replaceStrings ["-"] [":"] (elemAt m 1); in '' # Allow connections to ${loopbackip}:${toString fwd.sourcePort} from the host itself ${iptables} -w -t nat -A nixos-nat-out \ -d ${loopbackip} -p ${fwd.proto} \ --dport ${builtins.toString fwd.sourcePort} \ -j DNAT --to-destination ${fwd.destination} # Allow connections to ${loopbackip}:${toString fwd.sourcePort} from other hosts behind NAT ${iptables} -w -t nat -A nixos-nat-pre \ -d ${loopbackip} -p ${fwd.proto} \ --dport ${builtins.toString fwd.sourcePort} \ -j DNAT --to-destination ${fwd.destination} ${iptables} -w -t nat -A nixos-nat-post \ -d ${destinationIP} -p ${fwd.proto} \ --dport ${destinationPorts} \ -j SNAT --to-source ${loopbackip} '') fwd.loopbackIPs} '') forwardPorts} ''; setupNat = '' ${helpers} # Create subchains where we store rules ip46tables -w -t nat -N nixos-nat-pre ip46tables -w -t nat -N nixos-nat-post ip46tables -w -t nat -N nixos-nat-out ${mkSetupNat { iptables = "iptables"; inherit dest; inherit (cfg) internalIPs; forwardPorts = filter (x: !(isIPv6 x.destination)) cfg.forwardPorts; }} ${optionalString cfg.enableIPv6 (mkSetupNat { iptables = "ip6tables"; dest = destIPv6; internalIPs = cfg.internalIPv6s; forwardPorts = filter (x: isIPv6 x.destination) cfg.forwardPorts; })} ${optionalString (cfg.dmzHost != null) '' iptables -w -t nat -A nixos-nat-pre \ -i ${toString cfg.externalInterface} -j DNAT \ --to-destination ${cfg.dmzHost} ''} ${cfg.extraCommands} # Append our chains to the nat tables ip46tables -w -t nat -A PREROUTING -j nixos-nat-pre ip46tables -w -t nat -A POSTROUTING -j nixos-nat-post ip46tables -w -t nat -A OUTPUT -j nixos-nat-out ''; in { ###### interface options = { networking.nat.enable = mkOption { type = types.bool; default = false; description = '' Whether to enable Network Address Translation (NAT). ''; }; networking.nat.enableIPv6 = mkOption { type = types.bool; default = false; description = '' Whether to enable IPv6 NAT. ''; }; networking.nat.internalInterfaces = mkOption { type = types.listOf types.str; default = []; example = [ "eth0" ]; description = '' The interfaces for which to perform NAT. Packets coming from these interface and destined for the external interface will be rewritten. ''; }; networking.nat.internalIPs = mkOption { type = types.listOf types.str; default = []; example = [ "192.168.1.0/24" ]; description = '' The IP address ranges for which to perform NAT. Packets coming from these addresses (on any interface) and destined for the external interface will be rewritten. ''; }; networking.nat.internalIPv6s = mkOption { type = types.listOf types.str; default = []; example = [ "fc00::/64" ]; description = '' The IPv6 address ranges for which to perform NAT. Packets coming from these addresses (on any interface) and destined for the external interface will be rewritten. ''; }; networking.nat.externalInterface = mkOption { type = types.nullOr types.str; default = null; example = "eth1"; description = '' The name of the external network interface. ''; }; networking.nat.externalIP = mkOption { type = types.nullOr types.str; default = null; example = "203.0.113.123"; description = '' The public IP address to which packets from the local network are to be rewritten. If this is left empty, the IP address associated with the external interface will be used. ''; }; networking.nat.externalIPv6 = mkOption { type = types.nullOr types.str; default = null; example = "2001:dc0:2001:11::175"; description = '' The public IPv6 address to which packets from the local network are to be rewritten. If this is left empty, the IP address associated with the external interface will be used. ''; }; networking.nat.forwardPorts = mkOption { type = with types; listOf (submodule { options = { sourcePort = mkOption { type = types.either types.int (types.strMatching "[[:digit:]]+:[[:digit:]]+"); example = 8080; description = "Source port of the external interface; to specify a port range, use a string with a colon (e.g. \"60000:61000\")"; }; destination = mkOption { type = types.str; example = "10.0.0.1:80"; description = "Forward connection to destination ip:port (or [ipv6]:port); to specify a port range, use ip:start-end"; }; proto = mkOption { type = types.str; default = "tcp"; example = "udp"; description = "Protocol of forwarded connection"; }; loopbackIPs = mkOption { type = types.listOf types.str; default = []; example = literalExample ''[ "55.1.2.3" ]''; description = "Public IPs for NAT reflection; for connections to `loopbackip:sourcePort' from the host itself and from other hosts behind NAT"; }; }; }); default = []; example = [ { sourcePort = 8080; destination = "10.0.0.1:80"; proto = "tcp"; } { sourcePort = 8080; destination = "[fc00::2]:80"; proto = "tcp"; } ]; description = '' List of forwarded ports from the external interface to internal destinations by using DNAT. Destination can be IPv6 if IPv6 NAT is enabled. ''; }; networking.nat.dmzHost = mkOption { type = types.nullOr types.str; default = null; example = "10.0.0.1"; description = '' The local IP address to which all traffic that does not match any forwarding rule is forwarded. ''; }; networking.nat.extraCommands = mkOption { type = types.lines; default = ""; example = "iptables -A INPUT -p icmp -j ACCEPT"; description = '' Additional shell commands executed as part of the nat initialisation script. ''; }; networking.nat.extraStopCommands = mkOption { type = types.lines; default = ""; example = "iptables -D INPUT -p icmp -j ACCEPT || true"; description = '' Additional shell commands executed as part of the nat teardown script. ''; }; }; ###### implementation config = mkMerge [ { networking.firewall.extraCommands = mkBefore flushNat; } (mkIf config.networking.nat.enable { assertions = [ { assertion = cfg.enableIPv6 -> config.networking.enableIPv6; message = "networking.nat.enableIPv6 requires networking.enableIPv6"; } { assertion = (cfg.dmzHost != null) -> (cfg.externalInterface != null); message = "networking.nat.dmzHost requires networking.nat.externalInterface"; } { assertion = (cfg.forwardPorts != []) -> (cfg.externalInterface != null); message = "networking.nat.forwardPorts requires networking.nat.externalInterface"; } ]; environment.systemPackages = [ pkgs.iptables ]; boot = { kernelModules = [ "nf_nat_ftp" ]; kernel.sysctl = { "net.ipv4.conf.all.forwarding" = mkOverride 99 true; "net.ipv4.conf.default.forwarding" = mkOverride 99 true; } // optionalAttrs cfg.enableIPv6 { # Do not prevent IPv6 autoconfiguration. # See . "net.ipv6.conf.all.accept_ra" = mkOverride 99 2; "net.ipv6.conf.default.accept_ra" = mkOverride 99 2; # Forward IPv6 packets. "net.ipv6.conf.all.forwarding" = mkOverride 99 true; "net.ipv6.conf.default.forwarding" = mkOverride 99 true; }; }; networking.firewall = mkIf config.networking.firewall.enable { extraCommands = setupNat; extraStopCommands = flushNat; }; systemd.services = mkIf (!config.networking.firewall.enable) { nat = { description = "Network Address Translation"; wantedBy = [ "network.target" ]; after = [ "network-pre.target" "systemd-modules-load.service" ]; path = [ pkgs.iptables ]; unitConfig.ConditionCapability = "CAP_NET_ADMIN"; serviceConfig = { Type = "oneshot"; RemainAfterExit = true; }; script = flushNat + setupNat; postStop = flushNat; }; }; }) ]; }