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update-systemd-resolved

Build Status

This is a helper script designed to integrate OpenVPN with the systemd-resolved service via DBus instead of trying to override /etc/resolv.conf, or manipulate systemd-networkd configuration files.

Since systemd-229, the systemd-resolved service has an API available via DBus which allows directly setting the DNS configuration for a link. This script makes use of busctl from systemd to send DBus messages to systemd-resolved to update the DNS for the link created by OpenVPN.

Prerequisites

This script requires:

Optional dependencies:

IP Parsing and Validation

If available, these will be used for IP address parsing and validation;1 otherwise update-systemd-resolved will use native Bash routines for this.

Logging

If available, the logger command included in the util-linux distribution will be used for logging. Otherwise, all logs will go to standard error using Bash's printf builtin.

Polkit Rules Generation

If available, these will be used for serializing the names of the users and groups allowed to call systemd-resolved's DBus methods to JSON lists for use within the generated polkit rules. Otherwise, update-systemd-resolved will fall back to native Bash routines for generating these lists.

Installation

If you are using a distribution of Linux with uses the Arch User Repository, the simplest way to install is by using the openvpn-update-systemd-resolved AUR package as this will take care of any updates through your package manager. Debian and Ubuntu also provide a .deb package in their distributions.

Alternatively, the package can be manually installed by running the following:

git clone https://github.com/jonathanio/update-systemd-resolved.git
cd update-systemd-resolved
make

Nix and NixOS

update-systemd-resolved exposes a Nix flake. You can incorporate this flake into your flake by adding it to your inputs:

# Your flake.nix
{
  inputs = {
    # Other inputs here...

    update-systemd-resolved.url = "github:jonathanio/update-systemd-resolved";
    update-systemd-resolved.inputs.nixpkgs.follows = "nixpkgs"; # optional
  };

  # Etc.
}

This flake provides the update-systemd-resolved package for several Linux architectures. It also provides the update-systemd-resolved NixOS module:

# Your flake.nix
{
  outputs = {nixpkgs, update-systemd-resolved, ...}: {
    nixosConfigurations.my-system = nixpkgs.lib.nixosSystem {
      system = "x86_64-linux";
      modules = [
        update-systemd-resolved.nixosModules.update-systemd-resolved
      ];
    };
  };
}

Please see the NixOS module documentation for available options.

To view all outputs provided by this flake, run the following command:

$ nix flake show 'github:jonathanio/update-systemd-resolved'

How to Enable

Make sure that you have systemd-resolved enabled and running. First, make sure that systemd-resolved.service is enabled and started:

systemctl enable systemd-resolved.service
systemctl start systemd-resolved.service

Next, you can either configure the system libraries to talk to it using NSS, or you can override the resolv.conf file to use systemd-resolved as a stub resolver (or both):

NSS and nssswitch.conf

Update your /etc/nsswitch.conf file to look up DNS via the resolve service (you may need to install the NSS library which connects libnss to systemd-resolved):

# Use /etc/resolv.conf first, then fall back to systemd-resolved
hosts: files dns resolve myhostname
# Use systemd-resolved first, then fall back to /etc/resolv.conf
hosts: files resolve dns myhostname
# Don't use /etc/resolv.conf at all
hosts: files resolve myhostname

The changes will be applied as soon as the file is saved.

Note that some Linux distributions manage /etc/nsswitch.conf, so manual edits to /etc/nsswitch.conf may disappear. Please consult your distribution's documentation for how to configure /etc/nsswitch.conf.

Polkit Rules

If you run the OpenVPN client as an unprivileged user, you may need to add polkit rules authorizing that user to perform the various DBus calls that update-systemd-resolved makes. Some installation methods bundle these rules; for instance, on Arch Linux, where openvpn-client@<name>.service instances run as the unprivileged openvpn user, the openvpn-update-systemd-resolved AUR package ships suitable rules in the file /etc/polkit-1/rules.d/10-update-systemd-resolved.rules.

Generating Polkit Rules

Warning

update-systemd-resolved strives to generate polkit rules with the smallest scope consistent with its proper functioning. Nonetheless, in order to avoid security risks, you are encouraged to review the generated polkit rules before installing them.

You can also generate suitable rules with (some variation on) the following commands:

$ update-systemd-resolved print-polkit-rules --polkit-allowed-user some-user --polkit-allowed-user another-user > ./10-custom-update-systemd-resolved.rules
$ sudo install -Dm0640 ./10-custom-update-systemd-resolved.rules /etc/polkit-1/rules.d/10-custom-update-systemd-resolved.rules

This will allow update-systemd-resolved to successfully make its DBus calls when invoked from OpenVPN client services that run as the users some-user or another-user.

You can also authorize members of specified groups with:

$ update-systemd-resolved print-polkit-rules --polkit-allowed-group some-group --polkit-allowed-group another-group > ./10-custom-update-systemd-resolved.rules
$ sudo install -Dm0640 ./10-custom-update-systemd-resolved.rules /etc/polkit-1/rules.d/10-custom-update-systemd-resolved.rules

This will allow update-systemd-resolved to successfully make its DBus calls when invoked from OpenVPN client services that run under the groups some-group or another-group.

Finally, you can generate rules that pull appropriate user and group values from OpenVPN systemd units with:

$ update-systemd-resolved print-polkit-rules --polkit-systemd-openvpn-unit my-openvpn-client.service
$ sudo install -Dm0640 ./10-custom-update-systemd-resolved.rules /etc/polkit-1/rules.d/10-custom-update-systemd-resolved.rules

Given:

$ systemctl show -P User my-openvpn-client.service
myuser
$ systemctl show -P Group my-openvpn-client.service
mygroup

The generated 10-custom-update-systemd-resolved.rules file will contain rules allowing the myuser user and members of the mygroup group to perform the requisite DBus calls.

You can run update-systemd-resolved print-polkit-rules with any combination of --polkit-allowed-user, --polkit-allowed-group, and --polkit-systemd-openvpn-unit. If called without options, update-systemd-resolved print-polkit-rules will attempt to derive appropriate user and group authorizations from a systemd OpenVPN unit matching [email protected], the systemd service template used for OpenVPN client services on distributions including Arch Linux.

Stub Resolver

The systemd-resolved service (since systemd-231) also listens on 127.0.0.53 via the lo interface, providing a stub resolver which any client can call to request DNS, whether or not it uses the system libraries to resolve DNS, and you no longer have to worry about trying to manage your /etc/resolv.conf file. This set up can be installed by linking to stub-resolv.conf:

ln -sf /run/systemd/resolve/stub-resolv.conf /etc/resolv.conf

OpenVPN Configuration

Finally, update your OpenVPN configuration file and set the up and down options to point to the script, and down-pre to ensure that the script is run before the device is closed:

script-security 2
up /usr/local/libexec/openvpn/update-systemd-resolved
up-restart
down /usr/local/libexec/openvpn/update-systemd-resolved
down-pre

# If needed, to permit `update-systemd-resolved` to find utilities it depends
# on.  Adjust to suit your system.
#setenv PATH /usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin

up-restart

It is recommended to use up-restart in your configuration to ensure that upate-systemd-resolved is run on restarts - where the connection is re-established but the TUN/TAP device remained open (for example, where the original connection has timed out and persist-tun is enabled). If you do not have persist-tun set, or you use ping-exit instead of ping-timeout, you most likely will not need this.

down/pre-down with user/group

The down and down-pre options here may not work as expected where the openvpn daemon drops privileges after establishing the connection (i.e. when using the user and group options). This is because, by default, only the root user will have the privileges required to talk to systemd-resolved.service over DBus. The openvpn-plugin-down-root.so plug-in does provide support for enabling the down script to be run as the root user, but this has been known to be unreliable.

You can authorize unprivileged users or groups to revert the OpenVPN link's DNS settings during the "down" phase using the methods described in the "Polkit Rules" section.

Ultimately, dropping privileges shouldn't affect normal "down" operation, since systemd-resolved.service will remove all settings associated with the link (and therefore naturally update /etc/resolv.conf, if you have it symlinked) when the TUN or TAP device is closed. The option for down and down-pre just make this step explicit before the device is torn down rather than implicit on the change in environment.

Command Line Settings

Alternatively if you don't want to edit your client configuration, you can add the following options to your openvpn command:

openvpn \
  --script-security 2 \
  --setenv PATH '/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin' \
  --up /usr/local/libexec/openvpn/update-systemd-resolved --up-restart \
  --down /usr/local/libexec/openvpn/update-systemd-resolved --down-pre

Tip

The --setenv PATH option shown above is intended to allow update-systemd-resolved to find its prerequisites. Depending on your system's configuration, you may not need --setenv PATH, or you may need to specify a different PATH value than the one shown above.

Or, you can add the following argument to the command-line arguments of openvpn, which will use the update-systemd-resolve.conf file instead:

openvpn --config /usr/local/share/doc/openvpn/update-systemd-resolved.conf

Note

The path to update-systemd-resolved.conf may differ depending on how you installed update-systemd-resolved. Additionally, both the file's path and its contents are subject to change in future releases. Rather than using the example configuration file directory, you may want to copy the file to another location and then run openvpn --config <other-location>/update-systemd-resolved.conf.

🪛 Usage 🔧

update-systemd-resolved works by processing the dhcp-option commands set in OpenVPN, either through the server, or the client, configuration. Note that there are no local or system options to be configured. All configuration for this script is handled through OpenVPN, including, for example, the name of the interface to be configured.

🎚️ Options 🎛️

⚙️ DNS

Setting DNS servers
Examples
  • 0.0.0.0
  • 0.0.0.0:5353
  • 0.0.0.0#my.resolver.net
  • 0.0.0.0:5353#my.resolver.net
  • ::1
  • [::1]:5353
  • ::1#my.resolver.net
  • [::1]:5353#my.resolver.net
Description

This sets the DNS servers for the link and can take any IPv4 or IPv6 address.

DBus call

SetLinkDNS, SetLinkDNSEx

⚙️ DNS6

Setting IPv6-only DNS servers
Examples
  • ::1
  • [::1]:5353
  • ::1#my.resolver.net
  • [::1]:5353#my.resolver.net
Description

This sets the DNS servers for the link and can take only IPv6 addresses.

DBus call

SetLinkDNS, SetLinkDNSEx

⚙️ DOMAIN or ADAPTER_DOMAIN_SUFFIX

Setting the primary domain
Examples
  • example.com
Description

The primary domain for this host. If set multiple times, the first provided is used as the primary search domain for bare hostnames. Any subsequent DOMAIN options will be added as the equivalent of DOMAIN-SEARCH options. All requests for this domain as well will be routed to the DNS servers provided on this link.

DBus call

SetLinkDomains

⚙️ DOMAIN-SEARCH

Setting secondary domains
Examples
  • example.com
Description

Secondary domains which will be used to search for bare hostnames (after any DOMAIN, if set) and in the order provided. All requests for this domain will be routed to the DNS servers provided on this link.

DBus call

SetLinkDomains

⚙️ DOMAIN-ROUTE

Routing DNS queries
Examples
  • example.com
Description

All requests for these domains will be routed to the DNS servers provided on this link. They will not be used to search for bare hostnames, only routed. A DOMAIN-ROUTE option for . (single period) will instruct systemd-resolved to route the entire DNS name-space through to the DNS servers configured for this connection (unless a more specific route has been offered by another connection for a selected name/name-space). This is useful if you wish to prevent DNS leakage.

DBus call

SetLinkDomains

⚙️ DNSSEC

Enabling DNSSEC
Examples
  • yes, true
  • no, false
  • default
  • allow-downgrade
Description

Control of DNSSEC should be enabled (yes, true) or disabled (no, false), or allow-downgrade to switch off DNSSEC only if the server doesn't support it, for any queries over this link only, or use the system default (default).

DBus call

DNSSEC

⚙️ FLUSH-CACHES

Flushing DNS caches
Examples
  • yes, true
  • no, false
Description

Whether or not to flush all local DNS caches. Enabled by default.

DBus call

FlushCaches

⚙️ RESET-SERVER-FEATURES

Resetting learnt DNS server feature levels
Examples
  • yes, true
  • no, false
Description

Whether or not to forget learnt DNS server feature levels.

DBus call

ResetServerFeatures

⚙️ RESET-STATISTICS

Resetting resolver statistics
Examples
  • yes, true
  • no, false
Description

Whether or not to reset resolver statistics.

DBus call

ResetStatistics

⚙️ DEFAULT-ROUTE

Default DNS query routing
Examples
  • yes, true
  • no, false
Description

If true, this link's configured DNS servers are used for resolving domain names that do not match any link's configured Domains= setting. If false, this link's configured DNS servers are never used for such domains, and are exclusively used for resolving names that match at least one of the domains configured on this link.

DBus call

DNSDefaultRoute

⚙️ DNS-OVER-TLS

Enabling DNS-over-TLS
Examples
  • yes, true
  • no, falseopportunisticdefault
Description

If true all connections to the server will be encrypted. Note that this mode requires a DNS server that supports DNS-over-TLS and has a valid certificate. If the hostname was specified in DNS= by using the format address#server_name it is used to validate its certificate and also to enable Server Name Indication (SNI) when opening a TLS connection. Otherwise the certificate is checked against the server's IP. If the DNS server does not support DNS-over-TLS all DNS requests will fail. When set to opportunistic DNS request are attempted to send encrypted with DNS-over-TLS. If the DNS server does not support TLS, DNS-over-TLS is disabled. Note that this mode makes DNS-over-TLS vulnerable to "downgrade" attacks, where an attacker might be able to trigger a downgrade to non-encrypted mode by synthesizing a response that suggests DNS-over-TLS was not supported. If set to false, DNS lookups are send over UDP. If set to default, uses the system default.

DBus call

SetLinkDNSOverTLS

⚙️ LLMNR

Enabling Link-Local Multicast Name Resolution
Examples
  • yes, true
  • no, falseresolvedefault
Description

When true, enables Link-Local Multicast Name Resolution on the link. When set to resolve, only resolution is enabled, but not host registration and announcement. If set to default, uses the system default.

DBus call

SetLinkLLMNR

⚙️ MULTICAST-DNS

Enabling Multicast DNS
Examples
  • yes, true
  • no, falseresolvedefault
Description

When true, enables Multicast DNS support on the link. When set to resolve, only resolution is enabled, but not host or service registration and announcement. If set to default, uses the system default.

DBus call

SetLinkMulticastDNS

⚙️ DNSSEC-NEGATIVE-TRUST-ANCHORS

Configuring DNSSEC Negative Trust Anchors
Examples
  • trusted.org
Description

If specified and DNSSEC is enabled, look-ups done via the interface's DNS server will be subject to the list of negative trust anchors, and not require authentication for the specified domains, or anything below it. Use this to disable DNSSEC authentication for specific private domains, that cannot be proven valid using the Internet DNS hierarchy. By default, update-systemd-resolved does not set any negative trust anchors.

DBus call

SetLinkDNSSECNegativeTrustAnchors

Example

push "dhcp-option DNS 10.62.3.2"
push "dhcp-option DNS 10.62.3.3"
push "dhcp-option DNS6 2001:db8::a3:c15c:b56e:619a"
push "dhcp-option DNS6 2001:db8::a3:ffec:f61c:2e06"
push "dhcp-option DOMAIN example.office"
push "dhcp-option DOMAIN example.lan"
push "dhcp-option DOMAIN-SEARCH example.com"
push "dhcp-option DOMAIN-ROUTE example.net"
push "dhcp-option DOMAIN-ROUTE example.org"
push "dhcp-option DNSSEC yes"

This, added to the OpenVPN server's configuration file will set two IPv4 DNS servers and two IPv6 and will set the primary domain for the link to be example.office. Therefore if you try to look up the bare address mail then mail.example.office will be attempted first. The domains example.lan and example.com are also added as an additional search domain, so if mail.example.office fails, then mail.example.lan will be tried next, followed by mail.example.com.

Requests for example.net and example.org will also be routed through to the four DNS servers listed, but they will not be appended (i.e. mail.example.net will not be attempted, nor mail.example.org, if mail.example.office or mail.example.com do not exist).

Finally, DNSSEC has been enabled for this link (and this link only).

DNS Leakage

Important

Required reading: systemd-resolved.service and VPNs. This document includes, among other things, an overview of search domains, routing domains, and systemd-resolved's default-route boolean settings. Understanding these concepts will help you configure your local systemd-resolved instance to ensure that DNS queries go where you want them to go.

DNS Leakage is something to be careful of when using any VPN or untrusted network, and it can heavily depend on how you configure your normal DNS settings as well as how you configure the DNS on your VPN connection.

By default, systemd-resolved will send all DNS queries to at least one DNS server on every link configured with DNS servers. The first to reply back with a valid query is the one returned to the client, and the last to return back a failure (assuming all other queries also failed) will also be returned to the client.

The changes in this handling come in when you start using the DOMAIN, DOMAIN-SEARCH and DOMAIN-ROUTE options. The three differ in how domains are treated for searching bare domains, but all three work exactly the same when it comes to how it routes domains to specific DNS servers.

Any domain added using DOMAIN, DOMAIN-SEARCH, or DOMAIN-ROUTE will be added explicitly to the VPN link and therefore any queries for domain suffixes which match these will be routed through this link, and only this link. Any other domains which do not match these will revert back to distributing the queries across all links.

There are two ways to override this:

Preventing Leakage in on untrusted networks

If you want to prevent DNS queries leaking over untrusted networks (for example, over public WiFi hotspots), then you need to tell systemd-resolved to send all DNS queries over the VPN link. To do this, add the following to your server or client VPN configurations respectively:

# Server Configuration
push "dhcp-option DOMAIN-ROUTE ."
# Client Configuration
dhcp-option DOMAIN-ROUTE .

All DNS queries (which do not match a more explicit entry on another link) will now be routed over the VPN only.

Preventing Leakage to Corporate networks

In an alternate situation, you may want to have DNS queries specifically routed over the VPN for corporate or private network access, but you don't want your general DNS queries to be visible to anyone who has access to the logs of the corporate DNS servers.

This option cannot be directly managed by update-systemd-resolved as you need to configure the network settings of other links to send all queries by default to your nominated DNS server (e.g. over ens0 or wlp2s0 for your Ethernet or Wireless network cards). This needs to be configured under the [Network] section of your .network file for your interface in /etc/systemd/network. For example:

[Network]
DHCP=yes
DNS=8.8.8.8
DNS=8.8.4.4
Domains=.

When you connect, all domains except those explicitly listed using the DOMAIN, DOMAIN-SEARCH, or DOMAIN-ROUTE options of your VPN link will be sent to the DNS server of your nominated link.

Concurrent Configuration

Note that these two options are mutually exclusive, as if you establish a VPN link with DOMAIN-ROUTE set to . while you have also configured it inside a .network file via systemd-networkd, then you will have two links responsible for routing all queries, and so both links will get all requests.

How to manage the DNS settings of other links while the VPN is operational is outside the scope of this script at this time.

Known Issues

There are a number of known issues relating to some third-party servers and services:

NetworkManager

Compatibility with this script

This script may not be compatible with certain versions of NetworkManager. It seems that NetworkManager overrides the up command to use its own helper script (nm-openvpn-service-openvpn-helper). The script that ships with NetworkManager only supports DNS and DOMAIN options (not DNS6, DOMAIN-SEARCH and DOMAIN-ROUTE, nor DNSSEC overrides). It may also be liable to set the other network interfaces to route ~. DNS queries (i.e the whole name-space) to the LAN or ISP DNS servers, making it difficult to override using DOMAIN - see the DNS leakage section.

Managed interface DNS leakage

There is a regression with versions of NetworkManager 1.2.6 through 1.26.4 (see LP#1671606 and LP#1688018) which means that it will automatically set all normal network interfaces with ~. for DNS routing. This means that even if you set dhcp-option DOMAIN-ROUTE . for your VPN connection, you will still leak DNS queries over potentially insecure networks.

If you are concerned by potentially leaking DNS on systems which use NetworkManager, you may need to configure an additional script into NetworkManager which change the domain routing settings on all non-VPN interfaces.

This issue was fixed in NetworkManager version 1.26.6; now, NetworkManager only enables the DefaultRoute option on managed interfaces.

DNSSEC Issues

$ resolvectl query eu-central-1.console.aws.amazon.com
eu-central-1.console.aws.amazon.com: resolve call failed: DNSSEC validation failed: no-signature
# or
$ resolvectl query eu-central-1.console.aws.amazon.com
eu-central-1.console.aws.amazon.com: resolve call failed: DNSSEC validation failed: incompatible-server

If you are seeing failed queries in your logs due to DNSSEC issues, support may be partially or fully enabled and you are now working with a server which does not support this extension. You may therefore need to set DNSSEC to no (or maybe just allow-downgrade) in your VPN configuration.

dhcp-option DNSSEC allow-downgrade

Issues with Ubuntu and Fedora

Ubuntu

The NSS interface for systemd-resolved may be deprecated and has already been flagged for deprecation in Ubuntu (see LP#1685045 for details). In this case, you should use the Stub Resolver method now.

Fedora

Fedora 28 makes use of authselect to manage the NSS settings on the system. Directly editing nsswitch.conf is not recommended as it may be overwritten at any time if authselect is run. Proper overrides may not yet be possible - see the authselect project repository for details. However, like Ubuntu, the Stub Resolver method is recommended here too.

Note that Fedora 33 enables systemd-resolved by default and configures /etc/nsswitch.conf to use the systemd-resolved NSS interface; see the Fedora changelog entry for details.

How to help

If you can help with any of these areas, or have bug fixes, please fork and raise a Pull Request for me.

I have built a basic test framework around the script which can be used to monitor and validate the calls made by the script based on the environment variables available to it at run-time. Please add a test for any new features you may wish to add, or update any which are wrong, and test your code by running ./run-tests from the root of the repository. There are no dependencies on run-tests - it runs 100% bash and doesn't call out to any other program or language.

GitHub Actions are enabled on this repository: Click the link at the top of this README to see the current state of the code and its tests.

Development notes

Please see HACKING.md for notes on developing update-systemd-resolved.

Licence

GPL

Author

Jonathan Wright [email protected]

Footnotes

  1. Required for translating numerical labels like 1.2.3.4 to the byte arrays recognized by the SetLinkDNS() function on systemd-resolved's org.freedesktop.resolve1.Manager D-Bus interface).