Wag adds MFA, route restriction and device enrolment to wireguard.
Key Features:
- Define routes which require MFA authorisation, or public always accessible routes
- Easy API for registering new clients
- High Availability
- Real time user updates and notifications
- Multiple MFA integrations
- Security Key
- SSO
- PAM
- TOTP
This work was very kindly supported by Aura Information Security.
Forwarding must be enabled in sysctl.
sysctl -w net.ipv4.ip_forward=1
#Or for ipv6
sysctl -w net.ipv6.conf.all.forwarding=1
sysctl -w net.ipv6.conf.all.accept_ra=2
sysctl -w net.ipv6.conf.all.accept_redirects=1
sysctl -w net.ipv6.conf.all.accept_source_route=1Please find the docker compose here, you will need to define a configuration file in /cfg:
---
services:
wag:
image: wagvpn/wag:latest # ghcr.io/nhas/wag:unstable # Unstable branch
container_name: wag
restart: always
ports:
- 11371:11371/udp
cap_add:
- NET_ADMIN
ports:
- '4433:4433/tcp' # Admin page
- '8081:8081/tcp' # Public registration page
- '53230:53230/udp' # Wireguard port
volumes:
- ./wag/config/:/cfg/:z
- ./wag/data/:/data:z
devices:
- /dev/net/tun:/dev/net/tuniptables and libpam must be installed.
Wag must be run as root, to manage iptables and the wireguard device.
Binary release (requires glibc 2.31+):
curl -L $(curl -s https://api.github.com/repos/NHAS/wag/releases/latest | jq -M -r '.assets[0].browser_download_url') -o wag
sudo ./wag start -config <generated_config_name>From source (will require go1.23.1, npm):
git clone git@github.com:NHAS/wag.git
cd wag
make
cp example_config.json config.json
sudo ./wag startAfter you have set up wag and enabled the administrative user interface, it will create the first admin for you, the password will be output to STDOUT. Then you can log in and manage users there.
The root user is able to manage the wag server with the following command:
wag subcommand [-options]Supported commands: start, cleanup, version, firewall, registration, devices, users, webadmin
start: starts the wag server
Usage of start:
Start wag server (does not daemonise)
-join string
Cluster join token
-config string
Configuration file location (default "./config.json")cleanup: Will remove all firewall forwards, and shutdown the wireguard device
version: Display the version of wag
firewall: Get firewall rules
Usage of firewall:
-list
List firewall rules
-socket string
Wag socket to act on (default "/tmp/wag.sock")
registration: Deals with creating, deleting and listing the registration tokens
Usage of registration:
-add
Create a new enrolment token
-del
Delete existing enrolment token
-group value
Manually set user group (can supply multiple -group, or use -groups for , delimited group list, useful for OIDC)
-groups string
Set user groups manually, ',' delimited list of groups, useful for OIDC
-list
List tokens
-overwrite string
Add registration token for an existing user device, will overwrite wireguard public key (but not 2FA)
-socket string
Wag socket to act on (default "/tmp/wag.sock")
-token string
Manually set registration token (Optional)
-username string
User to add device todevices: Manages devices
Usage of devices:
-address string
Address of device
-del
Remove device and block wireguard access
-list
List wireguard devices
-lock
Lock device access to mfa routes
-mfa_sessions
Get list of devices with active authorised sessions
-socket string
Wag control socket to act on (default "/tmp/wag.sock")
-unlock
Unlock device
-username string
Owner of device (indicates that command acts on all devices owned by user)users: Manages users MFA and can delete all users devices
Usage of users:
-del
Delete user and all associated devices
-list
List users, if '-username' supply will filter by user
-lockaccount
Lock account disable authention from any device, deauthenticates user active sessions
-reset-mfa
Reset MFA details, invalids all session and set MFA to be shown
-socket string
Wag socket location, (default "/tmp/wag.sock")
-unlockaccount
Unlock a locked account, does not unlock specific device locks (use device -unlock -username <> for that)
-username string
Username to act uponwebadmin: Manages the administrative users for the web UI
Usage of webadmin:
-add
Add web administrator user (requires -password)
-del
Delete admin user
-list
List web administration users, if '-username' supply will filter by user
-lockaccount
Lock admin account disable login for this web administrator user
-password string
Username to act upon
-socket string
Wag instance control socket (default "/tmp/wag.sock")
-unlockaccount
Unlock a web administrator account
-username string
Admin Username to act upon- Copy
wag,config.jsonto/opt/wag - Generate a wireguard private key with
wg genkeysetPrivateKeyin the example config to it - Copy (or link)
wag.serviceto/etc/systemd/system/and start/enable the service
First generate a token.
# ./wag registration -add -username tester
token,username
e83253fd9962c68f73aa5088604f3f425d58a963bfb5c0889cca54d63a34b2e3,testerThen curl said token.
curl http://public.server.address:8080/register_device?key=e83253fd9962c68f73aa5088604f3f425d58a963bfb5c0889cca54d63a34b2e3The service will return a fully templated response:
[Interface]
PrivateKey = <omitted>
Address = 192.168.1.1
[Peer]
Endpoint = public.server.address:51820
PublicKey = pnvl40WiRt++0NucEGexlpfwWA8QzBYg2+8ZWZJvejA=
AllowedIPs = 10.7.7.7/32, 192.168.1.1/32, 192.168.3.4/32, 192.168.3.5/32
PersistentKeepAlive = 10Which can then be written to a config file.
To authenticate the user should browse to the servers vpn address, in the example, case 192.168.1.1:8080, where they will be prompted for their 2fa code.
The configuration file specifies how long a session can live for, before expiring.
Make sure that you have Webserver.Management.Enabled set as true, then do the following from the console:
sudo ./wag webadmin -add -username <your_username> -password <your-password-here>Then browse to your management listening address and enter your credentials.
The web interface itself cannot add administrative users.
NumberProxies: The number of trusted reverse proxies before the client, makes wag respect the X-Forward-For directive and parses the client IP from it correctly
Socket: Wag control socket, changing this will allow multiple wag instances to run on the same machine
GID: The group ID that the wag control socket (/tmp/wag*) should be set to
NAT: Turn on or off masquerading
ExposePorts: Expose ports on the VPN server to the client (adds rules to IPtables) example: [ "443/tcp", "100-200/udp" ]
CheckUpdates: If enabled (off by default) the management UI will show an alert if a new version of wag is available. This talks to api.github.com
MFATemplatesDirectory: A string path option, when set templates will be queried from disk rather than the embedded copies. Allows you to customise the MFA registration, entry, and success pages, allows custom js and css in the MFATemplatesDirectory /custom/ directory
DatabaseLocation: Where to load the sqlite3 database from, it will be created if it does not exist
Acls: Defines the Groups and Policies that restrict routes, this is only respected on first run, use the web UI to edit them during runtime.
Policies: A map of group or user names to policy objects which contain the wag firewall & route capture rules. The most specific match governs the type of access a user has to a route, e.g if you have a /16 defined as MFA, but one ip address in that range as allow that is /32 then the /32 will take precedence over the /16
Policies.<policy name>.Mfa: The routes and services that require Mfa to access
Policies.<policy name>.Public: Routes and services that do not require authorisation
Policies.<policy name>.Deny: Deny access to this route
Webserver: Object that contains the public and tunnel listening addresses of the webserver
WebServer.Acme: Object to contain the ACME details, such as email and CA provider
WebServer.Acme.CAProvider: The provider for your ACME certs, defaults to https://acme-staging-v02.api.letsencrypt.org/directory
WebServer.Acme.CloudflareDNSToken: The cloudflare DNS token to do DNS-01 ACME, optional, if not defined then HTTP-01 will be used. You'll have to define your DNS A/AAAA records to point to the public web address.
Webserver.Lockout: Number of times a person can attempt mfa authentication before their account locks
WebServer.Public.ListenAddress: Listen address for the public registration endpoint
WebServer.Public.ExternalAddress: External address to be baked in to generated wireguard configs, i.e where your wireguard connections connect to.
WebServer.Public.DownloadConfigFileName: The config name to serve toe clients, defaults to wg0.conf
WebServer.Tunnel: Object that contains configurations for the MFA portal and the MFA methods wag provides
WebServer.Tunnel.Port: Port for in-vpn-tunnel webserver, this does not take a full IP address, as the tunnel listener should never be outside the wireguard device
WebServer.Tunnel.Domain: The domain of your MFA portal
WebServer.Tunnel.MaxSessionLifetimeMinutes: How long a session can last, if -1, timeout is disabled
WebServer.Tunnel.SessionInactivityTimeoutMinutes: How long a device can be idle before it has to reauthenticate, if -1 timeout is disabled
WebServer.Tunnel.HelpMail: Help mail to display on the UI
WebServer.Tunnel.DefaultMethod: String, default method the user will be presented, if not specified a list of methods is displayed to the user (possible values: webauth, totp, oidc, pam)
WebServer.Tunnel.Issuer: OTP issuer, the name that will get added to the TOTP app or Webauthn device
WebServer.Tunnel.Methods: String array, enabled authentication methods, e.g ["totp","webauthn","oidc", "pam"].
WebServer.Tunnel.OIDC: Object that stores the OIDC settings
WebServer.Tunnel.OIDC.IssuerURL: The URL of your identity provider , e.g http://localhost:8080/realms/account
WebServer.Tunnel.OIDC.ClientID: OIDC identifier for application
WebServer.Tunnel.OIDC.ClientSecret: OIDC client secret
WebServer.Tunnel.OIDC.DeviceUsernameClaim: The claim within the oidc token that contains the users device name
WebServer.Tunnel.OIDC.Scopes: Array of scopes to request from your identity provider, defaults to openid
WebServer.Tunnel.OIDC.GroupsClaimName: Claim that contains user groups to map into wag groups
WebServer.Tunnel.PAM: Object that stores the PAM settings
WebServer.Tunnel.PAM.ServiceName: Name of PAM-Auth file in /etc/pam.d/ will default to /etc/pam.d/login if unset or empty
WebServer.Management: Object that contains configurations for the webadministration portal. It is not recommend to expose this portal, I recommend setting ListenAddress to 127.0.0.1/localhost and then use ssh forwarding to expose it
WebServer.Management.Enabled: Enable the web UI
WebServer.Management.ListenAddress: Listen address to expose the management UI on
WebServer.Management.Password: Object that contains password authentication configuration options for the admin login.
WebServer.Management.Password.Enabled: Boolean, enable password login (defaults to true).
WebServer.Management.OIDC: Object that contains OIDC specific configuration options for the admin login.
WebServer.Management.OIDC.Enabled: Boolean to enable OIDC login on the admin page.
WebServer.Management.OIDC.IssuerURL: Identity provider endpoint, e.g http://localhost:8080/realms/account
WebServer.Management.OIDC.ClientID: OIDC identifier for application
WebServer.Management.OIDC.ClientSecret: OIDC secret
WebServer.Management.OIDC.IssuerURL: The administrative page domain
Clustering: Object containing the clustering details
Clustering.ClusterState: Same as the etcd cluster state setting, can be either new, create a new cluster, or existing. If you are joining an existing cluster, use start -join rather than this
Clustering.ETCDLogLevel: Level of logging for the embedded etcd server to emit, options info, error
Clustering.Witness: Is the node a witness node, i.e one that does not start a wireguard device, or management UI, but replicates events for the RAFT concensus
Clustering.TLSManagerListenURL: URL for generating certificates for the wag cluster, must be reachable by all nodes, typically automatically set by start -join
Wireguard: Object that contains the wireguard device configuration
Wireguard.DevName: The wireguard device to attach or to create if it does not exist, will automatically add peers (no need to configure peers with wg-quick)
Wireguard.ListenPort: Port that wireguard will listen on
Wireguard.PrivateKey: The wireguard private key, can be generated with wg genkey
Wireguard.Address: Subnet the VPN is responsible for
Wireguard.MTU: Maximum transmissible unit defaults to 1420 if not set for IPv4 over Ethernet
Wireguard.DNS: An array of DNS servers that will be automatically used, and set as "Allowed" (no MFA)
Full config example
{
"Socket": "/tmp/wag.sock",
"NumberProxies": 0,
"ExposePorts": [
"443/tcp",
"100-200/udp"
],
"NAT": true,
"Webserver": {
"Lockout": 5,
"Tunnel": {
"Domain": "vpn.test",
"Port": "8080",
"MaxSessionLifetimeMinutes": 2,
"SessionInactivityTimeoutMinutes": 1,
"HelpMail": "help@example.com",
"DefaultMethod": "totp",
"Issuer": "vpn.test",
"Methods": [
"totp"
],
"OIDC": {
"IssuerURL": "",
"ClientSecret": "",
"ClientID": "",
"GroupsClaimName": "",
"DeviceUsernameClaim": "",
"Scopes": []
},
"PAM": {
"ServiceName": ""
}
},
"Public": {
"ListenAddress": ":8081",
"ExternalAddress": "192.168.121.61",
"DownloadConfigFileName": "wg0.conf"
},
"Management": {
"Enabled": true,
"ListenAddress": "127.0.0.1:4433",
"Password": {
"Enabled": true
},
"OIDC": {
"IssuerURL": "",
"ClientSecret": "",
"ClientID": "",
"Enabled": false
}
}
},
"Wireguard": {
"DevName": "wg1",
"ListenPort": 53230,
"PrivateKey": "uP2iyvfBFkz7Ks6yZmXbTN2PDSOaLb0zKTziMhBYs0E=",
"Address": "192.168.122.1/24",
"ServerPersistentKeepAlive": 0
},
"Clustering": {
"ClusterState": "new",
"ETCDLogLevel": "error",
"ListenAddresses": [
"https://127.0.0.1:2380"
],
"TLSManagerListenURL": "https://127.0.0.1:3434"
},
"Acls": {
"Groups": {
"group:administrators": [
"toaster",
"tester"
],
"group:nerds": [
"toaster",
"tester",
"abc"
]
},
"Policies": {
"*": {
"Mfa": [
"1.1.1.1",
"12.2.3.2",
"22.22.22.2",
"33.33.33.33",
"4.4.5.5",
"5.5.5.5"
],
"Allow": [
"7.7.7.7",
"google.com"
]
},
"group:administrators": {
"Mfa": [
"8.8.8.8"
]
},
"group:nerds": {
"Mfa": [
"192.168.3.4/32"
],
"Allow": [
"192.168.3.5/32"
]
},
"tester": {
"Mfa": [
"192.168.3.0/24",
"192.168.5.0/24"
],
"Allow": [
"4.3.3.3/32"
]
},
"toaster": {
"Allow": [
"1.1.1.1/32"
]
}
}
}
}
The Policies section allows you to define what routes should be both captured by the VPN and what ports and protocols are allowed through Wag.
Rules use the subnet prefix length to determine which rule applies. The most specific match is use to determine the level of user access to a route.
For example:
"*": {
"Mfa": [
"10.0.0.0/16"
],
"Allow": [
"10.0.1.1/32",
]
},Users will be able to access 10.0.1.1 without MFA as the match is more specific. This change occured in v6.0.0, previously MFA routes would always take precedence.
Additionally if multiple policies are defined for a single route they are composed with MFA rules taking preference.
For example:
"*": {
"Mfa": [
"10.0.0.0/16",
"10.0.1.1/32 22/tcp",
]
},
"group:users": {
"Allow": [
"10.0.1.1/32 443/tcp",
]
}All users will be able to access 22/tcp on the 10.0.1.1/32 host, but users in the group:users will be able to access 443/tcp on that host as well, along with 22/tcp when authorized.
As of [version number, yet to be released] you can now define deny rules which will block access to a route.
Example:
"*": {
"Allow": [
"10.0.0.0/16",
"10.0.1.1/32 443/tcp",
]
},
"group:users": {
"Deny": [
"10.0.1.1/32 443/tcp",
]
}Its important to note that the most specific rule effectively creates a new rule "bucket", so if you do something like:
"group:nerds": {
"Allow": [
"10.0.0.0/24 443/tcp"
],
"Deny": [
"10.0.0.5/32 22/tcp"
]
}Your clients will not be able to access 10.0.0.5/32 443/tcp, as the only rule in the /32 "bucket" is a deny rule. You can solve this by adding the following:
"group:nerds": {
"Allow": [
"10.0.0.0/24 443/tcp"
"10.0.0.5/32 22/tcp"
],
"Deny": [
"10.0.0.5/32 22/tcp"
]
}or
"group:nerds": {
"Allow": [
"10.0.0.0/24 443/tcp"
],
"Deny": [
"10.0.0.0/24 22/tcp"
]
}As then you're adding the deny rule to the /24 "bucket".
Additionally, It is possible to define what services a user can access by defining port and protocol rules.
Currently 3 types of port and protocol rules are supported:
When no other rules are defined or the any keyword is used wag will allow all services and port combinations.
Example:
"1.1.1.1": Allows all ports and protocols to 1.1.1.1/32
"1.1.1.1 54/any": Allows both tcp and udp to 1.1.1.1/32Example:
192.168.1.1 22/tcp 53/udp: Fairly self explanatory, allows you to hit 22/tcp and 53/udp on a host
1.1.1.1 icmp: As icmp doesnt have ports really you dont need it eitherYou can also define a range of ports with a protocol. wag requires that the lower port is first.
Example:
192.168.1.1 22-1024/tcp 23-53/any: Format is low port-high port/service- Only supports clients with one
AllowedIP, which is perfect for site to site, or client -> server based architecture. - Primarily Linux only but windows may work with some effort
export DEV_API_URL=http://127.0.0.1:4433
make debug
sudo ./wag start -config docker-test-config.jsoncd internal/router
sudo go test -v .If you're looking to add your own features, or bug fixes to wag (thank you!). Please make sure that you've written a test for your changes if possible.
There are a few _test.go files around that give example on how to do this.
Then open a pull request and we can discuss it there.
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