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setup-ipsec-vpn/docs/advanced-usage.md
2022-05-21 21:59:03 -05:00

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Advanced Usage

Read this in other languages: English, 中文.

Use alternative DNS servers

Clients are set to use Google Public DNS when the VPN is active. If another DNS provider is preferred, you may replace 8.8.8.8 and 8.8.4.4 in these files: /etc/ppp/options.xl2tpd, /etc/ipsec.conf and /etc/ipsec.d/ikev2.conf (if exists). Then run service ipsec restart and service xl2tpd restart.

Advanced users can define VPN_DNS_SRV1 and optionally VPN_DNS_SRV2 when running the VPN setup script and the IKEv2 helper script. For example, if you want to use Cloudflare's DNS service:

sudo VPN_DNS_SRV1=1.1.1.1 VPN_DNS_SRV2=1.0.0.1 sh vpn.sh

In certain circumstances, you may want VPN clients to use the specified DNS server(s) only for resolving internal domain name(s), and use their locally configured DNS servers to resolve all other domain names. This can be configured using the modecfgdomains option, e.g. modecfgdomains="internal.example.com, home". Add this option to section conn ikev2-cp in /etc/ipsec.d/ikev2.conf for IKEv2, and to section conn xauth-psk in /etc/ipsec.conf for IPsec/XAuth ("Cisco IPsec"). Then run service ipsec restart. IPsec/L2TP mode does not support this option.

DNS name and server IP changes

For IPsec/L2TP and IPsec/XAuth ("Cisco IPsec") modes, you may use a DNS name (e.g. vpn.example.com) instead of an IP address to connect to the VPN server, without additional configuration. In addition, the VPN should generally continue to work after server IP changes, such as after restoring a snapshot to a new server with a different IP, although a reboot may be required.

For IKEv2 mode, if you want the VPN to continue to work after server IP changes, read this section. Alternatively, you may specify a DNS name for the IKEv2 server address when setting up IKEv2. The DNS name must be a fully qualified domain name (FQDN). Example:

sudo VPN_DNS_NAME='vpn.example.com' ikev2.sh --auto

Alternatively, you may customize IKEv2 options by running the helper script without the --auto parameter.

IKEv2-only VPN

Using Libreswan 4.2 or newer, advanced users can enable IKEv2-only mode on the VPN server. With IKEv2-only mode enabled, VPN clients can only connect to the VPN server using IKEv2. All IKEv1 connections (including IPsec/L2TP and IPsec/XAuth ("Cisco IPsec") modes) will be dropped.

To enable IKEv2-only mode, first install the VPN server and set up IKEv2 using instructions in the README. Then run the helper script and follow the prompts.

wget https://get.vpnsetup.net/ikev2only -O ikev2only.sh
sudo bash ikev2only.sh

To disable IKEv2-only mode, run the helper script again and select the appropriate option.

Alternatively, you may manually enable IKEv2-only mode.

Alternatively, you may manually enable IKEv2-only mode. First check Libreswan version using ipsec --version, and update Libreswan if needed. Then edit /etc/ipsec.conf on the VPN server. Append ikev1-policy=drop to the end of the config setup section, indented by two spaces. Save the file and run service ipsec restart. When finished, you can run ipsec status to verify that only the ikev2-cp connection is enabled.

Internal VPN IPs and traffic

When connecting using IPsec/L2TP mode, the VPN server has internal IP 192.168.42.1 within the VPN subnet 192.168.42.0/24. Clients are assigned internal IPs from 192.168.42.10 to 192.168.42.250. To check which IP is assigned to a client, view the connection status on the VPN client.

When connecting using IPsec/XAuth ("Cisco IPsec") or IKEv2 mode, the VPN server does NOT have an internal IP within the VPN subnet 192.168.43.0/24. Clients are assigned internal IPs from 192.168.43.10 to 192.168.43.250.

You may use these internal VPN IPs for communication. However, note that the IPs assigned to VPN clients are dynamic, and firewalls on client devices may block such traffic.

Advanced users may optionally assign static IPs to VPN clients. Expand for details.

IPsec/L2TP mode: Assign static IPs to VPN clients

The example below ONLY applies to IPsec/L2TP mode. Commands must be run as root.

  1. First, create a new VPN user for each VPN client that you want to assign a static IP to. Refer to Manage VPN Users. Helper scripts are included for convenience.

  2. Edit /etc/xl2tpd/xl2tpd.conf on the VPN server. Replace ip range = 192.168.42.10-192.168.42.250 with e.g. ip range = 192.168.42.100-192.168.42.250. This reduces the pool of auto-assigned IP addresses, so that more IPs are available to assign to clients as static IPs.

  3. Edit /etc/ppp/chap-secrets on the VPN server. For example, if the file contains:

    "username1"  l2tpd  "password1"  *
    "username2"  l2tpd  "password2"  *
    "username3"  l2tpd  "password3"  *
    

    Let's assume that you want to assign static IP 192.168.42.2 to VPN user username2, assign static IP 192.168.42.3 to VPN user username3, while keeping username1 unchanged (auto-assign from the pool). After editing, the file should look like:

    "username1"  l2tpd  "password1"  *
    "username2"  l2tpd  "password2"  192.168.42.2
    "username3"  l2tpd  "password3"  192.168.42.3
    

    Note: The assigned static IP(s) must be from the subnet 192.168.42.0/24, and must NOT be from the pool of auto-assigned IPs (see ip range above). In addition, 192.168.42.1 is reserved for the VPN server itself. In the example above, you can only assign static IP(s) from the range 192.168.42.2-192.168.42.99.

  4. (Important) Restart the xl2tpd service:

    service xl2tpd restart
    
IPsec/XAuth ("Cisco IPsec") mode: Assign static IPs to VPN clients

The example below ONLY applies to IPsec/XAuth ("Cisco IPsec") mode. Commands must be run as root.

  1. First, create a new VPN user for each VPN client that you want to assign a static IP to. Refer to Manage VPN Users. Helper scripts are included for convenience.

  2. Edit /etc/ipsec.conf on the VPN server. Replace rightaddresspool=192.168.43.10-192.168.43.250 with e.g. rightaddresspool=192.168.43.100-192.168.43.250. This reduces the pool of auto-assigned IP addresses, so that more IPs are available to assign to clients as static IPs.

  3. Edit /etc/ipsec.d/ikev2.conf on the VPN server (if exists). Replace rightaddresspool=192.168.43.10-192.168.43.250 with the same value as the previous step.

  4. Edit /etc/ipsec.d/passwd on the VPN server. For example, if the file contains:

    username1:password1hashed:xauth-psk
    username2:password2hashed:xauth-psk
    username3:password3hashed:xauth-psk
    

    Let's assume that you want to assign static IP 192.168.43.2 to VPN user username2, assign static IP 192.168.43.3 to VPN user username3, while keeping username1 unchanged (auto-assign from the pool). After editing, the file should look like:

    username1:password1hashed:xauth-psk
    username2:password2hashed:xauth-psk:192.168.42.2
    username3:password3hashed:xauth-psk:192.168.42.3
    

    Note: The assigned static IP(s) must be from the subnet 192.168.43.0/24, and must NOT be from the pool of auto-assigned IPs (see rightaddresspool above). In the example above, you can only assign static IP(s) from the range 192.168.43.1-192.168.43.99.

  5. (Important) Restart the IPsec service:

    service ipsec restart
    
IKEv2 mode: Assign static IPs to VPN clients

The example below ONLY applies to IKEv2 mode. Commands must be run as root.

  1. First, create a new IKEv2 client certificate for each client that you want to assign a static IP to, and write down the name of each IKEv2 client. Refer to Add a client certificate.

  2. Edit /etc/ipsec.d/ikev2.conf on the VPN server. Replace rightaddresspool=192.168.43.10-192.168.43.250 with e.g. rightaddresspool=192.168.43.100-192.168.43.250. This reduces the pool of auto-assigned IP addresses, so that more IPs are available to assign to clients as static IPs.

  3. Edit /etc/ipsec.conf on the VPN server. Replace rightaddresspool=192.168.43.10-192.168.43.250 with the same value as the previous step.

  4. Edit /etc/ipsec.d/ikev2.conf on the VPN server again. For example, if the file contains:

    conn ikev2-cp
      left=%defaultroute
      ... ...
    

    Let's assume that you want to assign static IP 192.168.43.4 to IKEv2 client client1, assign static IP 192.168.43.5 to client client2, while keeping other clients unchanged (auto-assign from the pool). After editing, the file should look like:

    conn ikev2-cp
      left=%defaultroute
      ... ...
    
    conn client1
      rightid=@client1
      rightaddresspool=192.168.43.4-192.168.43.4
      also=ikev2-cp
    
    conn client2
      rightid=@client2
      rightaddresspool=192.168.43.5-192.168.43.5
      also=ikev2-cp
    

    Note: Add a new conn section for each client that you want to assign a static IP to. You must add a @ prefix to the client name for rightid=. The client name must exactly match the name you specified when adding the client certificate. The assigned static IP(s) must be from the subnet 192.168.43.0/24, and must NOT be from the pool of auto-assigned IPs (see rightaddresspool above). In the example above, you can only assign static IP(s) from the range 192.168.43.1-192.168.43.99.

  5. (Important) Restart the IPsec service:

    service ipsec restart
    

Client-to-client traffic is allowed by default. If you want to disallow client-to-client traffic, run the following commands on the VPN server. Add them to /etc/rc.local to persist after reboot.

iptables -I FORWARD 2 -i ppp+ -o ppp+ -s 192.168.42.0/24 -d 192.168.42.0/24 -j DROP
iptables -I FORWARD 3 -s 192.168.43.0/24 -d 192.168.43.0/24 -j DROP
iptables -I FORWARD 4 -i ppp+ -d 192.168.43.0/24 -j DROP
iptables -I FORWARD 5 -s 192.168.43.0/24 -o ppp+ -j DROP

Customize VPN subnets

By default, IPsec/L2TP VPN clients will use internal VPN subnet 192.168.42.0/24, while IPsec/XAuth ("Cisco IPsec") and IKEv2 VPN clients will use internal VPN subnet 192.168.43.0/24. For more details, read the previous section.

For most use cases, it is NOT necessary and NOT recommended to customize these subnets. If your use case requires it, however, you may specify custom subnet(s) when installing the VPN.

Important: You may only specify custom subnets during initial VPN install. If the IPsec VPN is already installed, you must first uninstall the VPN, then specify custom subnets and re-install. Otherwise, the VPN may stop working.

First, read the important note above. Then click here for examples.
# Example: Specify custom VPN subnet for IPsec/L2TP mode
# Note: All three variables must be specified.
sudo VPN_L2TP_NET=10.1.0.0/16 \
VPN_L2TP_LOCAL=10.1.0.1 \
VPN_L2TP_POOL=10.1.0.10-10.1.254.254 \
sh vpn.sh
# Example: Specify custom VPN subnet for IPsec/XAuth and IKEv2 modes
# Note: Both variables must be specified.
sudo VPN_XAUTH_NET=10.2.0.0/16 \
VPN_XAUTH_POOL=10.2.0.10-10.2.254.254 \
sh vpn.sh

In the examples above, VPN_L2TP_LOCAL is the VPN server's internal IP for IPsec/L2TP mode. VPN_L2TP_POOL and VPN_XAUTH_POOL are the pools of auto-assigned IP addresses for VPN clients.

Port forwarding to VPN clients

In certain circumstances, you may want to forward port(s) on the VPN server to a connected VPN client. This can be done by adding IPTables rules on the VPN server.

Warning: Port forwarding will expose port(s) on the VPN client to the entire Internet, which could be a security risk! This is NOT recommended, unless your use case requires it.

Note: The internal VPN IPs assigned to VPN clients are dynamic, and firewalls on client devices may block forwarded traffic. To assign static IPs to VPN clients, refer to the previous section. To check which IP is assigned to a client, view the connection status on the VPN client.

Example 1: Forward TCP port 443 on the VPN server to the IPsec/L2TP client at 192.168.42.10.

# Get default network interface name
netif=$(route 2>/dev/null | grep -m 1 '^default' | grep -o '[^ ]*$')
iptables -I FORWARD 2 -i "$netif" -o ppp+ -p tcp --dport 443 -j ACCEPT
iptables -t nat -A PREROUTING -p tcp --dport 443 -j DNAT --to 192.168.42.10

Example 2: Forward UDP port 123 on the VPN server to the IKEv2 (or IPsec/XAuth) client at 192.168.43.10.

# Get default network interface name
netif=$(route 2>/dev/null | grep -m 1 '^default' | grep -o '[^ ]*$')
iptables -I FORWARD 2 -i "$netif" -d 192.168.43.0/24 -p udp --dport 123 -j ACCEPT
iptables -t nat -A PREROUTING -p udp --dport 123 -j DNAT --to 192.168.43.10

If you want the rules to persist after reboot, you may add these commands to /etc/rc.local. To remove the added IPTables rules, run the commands again, but replace -I FORWARD 2 with -D FORWARD, and replace -A PREROUTING with -D PREROUTING.

Split tunneling

With split tunneling, VPN clients will only send traffic for specific destination subnet(s) through the VPN tunnel. Other traffic will NOT go through the VPN tunnel. Split tunneling has some limitations, and is not supported by all VPN clients.

Advanced users can optionally enable split tunneling for the IPsec/XAuth ("Cisco IPsec") and/or IKEv2 modes. Expand for details. IPsec/L2TP mode does NOT support this feature.

IPsec/XAuth ("Cisco IPsec") mode: Enable split tunneling

The example below ONLY applies to IPsec/XAuth ("Cisco IPsec") mode. Commands must be run as root.

  1. Edit /etc/ipsec.conf on the VPN server. In the section conn xauth-psk, replace leftsubnet=0.0.0.0/0 with the subnet(s) you want VPN clients to send traffic through the VPN tunnel. For example:
    For a single subnet:
    leftsubnet=10.123.123.0/24
    
    For multiple subnets (use leftsubnets instead):
    leftsubnets="10.123.123.0/24,10.100.0.0/16"
    
  2. (Important) Restart the IPsec service:
    service ipsec restart
    
IKEv2 mode: Enable split tunneling

The example below ONLY applies to IKEv2 mode. Commands must be run as root.

  1. Edit /etc/ipsec.d/ikev2.conf on the VPN server. In the section conn ikev2-cp, replace leftsubnet=0.0.0.0/0 with the subnet(s) you want VPN clients to send traffic through the VPN tunnel. For example:
    For a single subnet:
    leftsubnet=10.123.123.0/24
    
    For multiple subnets (use leftsubnets instead):
    leftsubnets="10.123.123.0/24,10.100.0.0/16"
    
  2. (Important) Restart the IPsec service:
    service ipsec restart
    

Access VPN server's subnet

After connecting to the VPN, VPN clients can generally access services running on other devices that are within the same local subnet as the VPN server, without additional configuration. For example, if the VPN server's local subnet is 192.168.0.0/24, and an Nginx server is running on IP 192.168.0.2, VPN clients can use IP 192.168.0.2 to access the Nginx server.

Please note, additional configuration is required if the VPN server has multiple network interfaces (e.g. eth0 and eth1), and you want VPN clients to access the local subnet behind the network interface that is NOT for Internet access. In this scenario, you must run the following commands to add IPTables rules. To persist after reboot, you may add these commands to /etc/rc.local.

# Replace eth1 with the name of the network interface
# on the VPN server that you want VPN clients to access
netif=eth1
iptables -I FORWARD 2 -i "$netif" -o ppp+ -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
iptables -I FORWARD 2 -i ppp+ -o "$netif" -j ACCEPT
iptables -I FORWARD 2 -i "$netif" -d 192.168.43.0/24 -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
iptables -I FORWARD 2 -s 192.168.43.0/24 -o "$netif" -j ACCEPT
iptables -t nat -I POSTROUTING -s 192.168.43.0/24 -o "$netif" -m policy --dir out --pol none -j MASQUERADE
iptables -t nat -I POSTROUTING -s 192.168.42.0/24 -o "$netif" -j MASQUERADE

Modify IPTables rules

If you want to modify the IPTables rules after install, edit /etc/iptables.rules and/or /etc/iptables/rules.v4 (Ubuntu/Debian), or /etc/sysconfig/iptables (CentOS/RHEL). Then reboot your server.

Note: If using Rocky Linux, AlmaLinux, Oracle Linux 8 or CentOS/RHEL 8 and firewalld was active during VPN setup, nftables may be configured. In this case, edit /etc/sysconfig/nftables.conf instead of /etc/sysconfig/iptables.

Deploy Google BBR congestion control

After the VPN server is set up, the performance can be improved by deploying the Google BBR congestion control algorithm.

This is usually done by modifying the configuration file /etc/sysctl.conf. However, some Linux distributions may additionally require updates to the Linux kernel.

For detailed deployment methods, please refer to this document.

License

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