Method used to configure L2TP over IPSec on the AR

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L2TP over IPSec can be used to ensure secure communication between the branch and headquarters. This function is applicable to all versions and models of AR series routers. L2TP over IPSec can be used to ensure secure communication between the LAC and LNS.
For details, see Configuration Guide-VPN.

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Configuration of L2TP over IPSec on the USG6000
Configuration of L2TP over IPSec on the USG6000 Configuration procedure: 1. Complete basic interface configuration, security policy configuration, and route configuration. 2. Configure and apply the IPSec. Note that the source and destination addresses of the data flow protected by the IPSec are the source and destination addresses of the sensitive traffic transmitted over the external interfaces of two gateways. 3. Configure the L2TP and L2TP tunnel source. For details, click Huawei Security Forum USG6000 L2TP over IPSec Configuration Cases. Procedure 1. Configure the IP address of each interface, and add the interfaces to the security zone. The specific configuration procedure is not described here. 2. Enable the inter-zone security policy. e map_temp [NGFW_A] interface GigabitEthernet 1/0/1 [NGFW_A-GigabitEthernet 1/0/1] ipsec policy map1 [NGFW_B] ipsec policy map1 10 isakmp [NGFW_B-ipsec-policy-isakmp-map1-10] security acl 3000 [NGFW_B-ipsec-policy-isakmp-map1-10] proposal tran1 [NGFW_B-ipsec-policy-isakmp-map1-10] ike-peer b [NGFW_B] interface GigabitEthernet 1/0/1 [NGFW_B-GigabitEthernet1/0/1] ipsec policy map1 5. Configure the L2TP. A. (LNS end) Configure the L2TP. [NGFW_A] user-manage user l2tpuser //Configure the L2TP user. [NGFW_A-localuser-l2tpuser] password Password1 [NGFW_A-localuser-l2tpuser] quit [NGFW_A] l2tp enable //Enable the L2TP. [NGFW_A] aaa [NGFW_A-aaa] ip pool 0 192.168.0.2 192.168.0.99 //Configure the IP address pool. [NGFW_A] interface Virtual-Template 1 //Configure the virtual template interface. [NGFW_A-Virtual-Template1] ppp authentication-mode pap [NGFW_A-Virtual-Template1] ip address 1.1.1.2 255.255.255.0 [NGFW_A-Virtual-Template1] remote address pool 0 //Set the virtual interface to reference the address pool used to allocate addresses to the peer end. [NGFW_A] l2tp-group 1 //Create the L2TP group. [NGFW_A-l2tp1] allow l2tp virtual-template 1 [NGFW_A-l2tp1] tunnel password cipher Pass1234 B. Configure the L2TP. # Configure the L2TP user. [NGFW_B] user-manage user l2tpuser [NGFW_B-localuser-l2tpuser] password Password1 [NGFW_B-localuser-l2tpuser] quit Configure the L2TP. [NGFW_B] l2tp enable [NGFW_B] interface Virtual-Template 1 [NGFW_B-Virtual-Template1] ppp authentication-mode pap [NGFW_B-Virtual-Template1] quit [NGFW_B] interface GigabitEthernet 1/0/3 [NGFW_B-GigabitEthernet1/0/3] pppoe-server bind virtual-template 1 [NGFW_B-GigabitEthernet1/0/3] quit [NGFW_B] l2tp-group 1 [NGFW_B-l2tp1] tunnel password cipher Pass1234 [NGFW_B-l2tp1] start l2tp ip 1.1.3.1 fullusername l2tpuser [NGFW_B-l2tp1] quit

Method used to configure GRE over IPSec on the AR
Huawei AR routers support interworking between devices through GRE over IPSec and IPSec over GRE. GRE over IPSec is supported by all AR models and versions, whereas IPSec over GRE is supported only by AR models that run V200R005C10 or later versions. For details on how to configure IPSec over GRE, see "Example for Configuring L2TP Over IPSec to Implement Secure Communication Between the Branch and Headquarters" of "Using VPN to Implement WAN Interconnection-GRE" in Product Documentation. For details on how to configure GRE over IPSec, see "Example for Configuring GRE Over IPSec to Implement Communication Between Devices", "Example for Configuring OSPF and GRE Over IPSec to Implement Communication Between the Branch and Headquarters", and "Example for Configuring GRE Over IPSec to Implement Communication Between the Branches and Headquarters and NAT to Implement Communication Between Branches (Running OSPF)" of "Using VPN to Implement WAN Interconnection" in Typical Configuration Examples.

Method used to configure the L2TP over IPSec user address segment on the USG2000 and USG5000
The method used to configure the L2TP over IPSec user address segment on the USG2000 and USG5000 is as follows: Configure the L2TP over IPSec user address segment using the CLI: # Define an address pool and allocate an IP address to the dial-up user. [LNS] aaa [LNS-aaa] ip pool 1 10.1.1.1 10.1.1.100 # Set the user name and password (consistent with those configured on the PC of the employee on a business trip). [LNS-aaa] local-user vpdnuser password cipher Hello123 [LNS-aaa] quit # Allocate an address in the IP address pool to the peer interface. [LNS] interface virtual-template 1 [LNS-Virtual-Template1] remote address pool 1 [LNS-Virtual-Template1] quit Configure the L2TP over IPSec user address segment using the web UI: Configure the L2TP parameters. 1. Choose Network > L2TP > L2TP. 2. In Configure L2TP, select Enable and click Apply. 3. In L2TP Group List, click New. 4. Set Group Type to LNS. 5. Configure the L2TP parameters. The server address shall be in the same network segment as the address in the address pool. In this way, you do not need to configure a route. Peer Tunnel Name must be consistent with Local Tunnel Name configured on the LAC. Group Type: LNS Peer Tunnel Name: LAC Tunnel Password Authentication: Enable Password Type: Ciphertext Tunnel password: Hello123 Confirm Tunnel password: Hello123 User Group: default Set the user address allocation parameters as follows: Server Address/Subnet Mask: 10.2.1.1/255.255.255.0 User Address Pool: 10.2.1.2-10.2.1.100 6. Click OK.

Method used to configure the L2TP over IPSec dial-up access for iPhone and Mac users on the USG2000 and USG5000
The method used to configure the L2TP over IPSec dial-up access for iPhone and Mac users on the USG2000 and USG5000 is as follows: 1. The configuration on the iPhone is as follows: Choose Settings > General > Network > VPN. Select Add VPN Configuration. On the Add Configuration screen, select L2TP from Type. Set the L2TP options as follows: Description: L2TP VPN description. In this example, it can be set to any value. Server: L2TP VPN server address. In this example, it is set to 188.135.3.146, that is, the IP address of the firewall. Account: L2TP user name. It is set to the user name configured for the AAA on the firewall. RSA SecurID: It determines whether to perform verification using the RSA ID. In this example, it is disabled. Password: Password of the L2TP user. It is consistent with the user name. Secret: Exchange key of the L2TP VPN, that is, the pre-shared key in the IKE. In this example, it is set to nawras. Send All Traffic: It is enabled, so that all traffic is transmitted over the VPN. IPSec configuration: Generally, after you configure the L2TP options, the IPSec options are automatically filled in by the system. If not, fill in the options as follows: Description: VPN description. In this example, it can be set to any value. Server: IP address of the firewall interface. In this example, it is set to 188.135.3.146. Account: L2TP user name. It is set to the user name configured for the AAA on the firewall. Password: Password of the L2TP user. It is consistent with the user name. User Certificate: The certificate is not required. This option is unavailable. Group Name: The group name is not required. It can be left blank. Secret: Pre-shared key in the IKE. In this example, it is set to nawras. 2. Configuration on the Mac OS: a. VPN configuration on the Mac PC: The IKE negotiation is set to the main mode. The encryption algorithm for the IKE negotiation is set to 3DES. The authentication algorithm is set to SHA-1. The authentication method is set to PRE-SHARED-KEY (PSK). The IPSec negotiation is set to transport mode. The IPSec encryption algorithm is set to 3DES. The IPSec authentication algorithm is set to MD5. b. Configuration procedure: Click Network. Click "+" in the lower left corner, and create a new service. Set VPN Type to L2TP over IPSec and Service Name to any value, for example, VPN (L2TP). Set Service Address to the interface IP address of the firewall, and Account Name to the L2TP user name that must have been configured for the AAA. Then, click Authentication Setting. Set password to the password of the L2TP user, and Shared Secret to the pre-shared key in the IKE peer, for example, nawras. After the parameters are set, click OK. Then, click Apply in the lower right corner to validate the settings. If the VPN connection is required, click Connect. The system automatically initiates the L2TP over IPSec negotiation. After the connection is established, the current state is displayed as Connected. A new IP address is allocated, that is, allocated by the L2TP.

GRE over IPSec configuration on the USG6000
GRE over IPSec VPN configuration on the USG6000 Configuration procedure: 1. Complete basic interface configuration, for example, configuring the IP address and adding the physical port to the related zone. 2. Enable the inter-zone security policy. 2. Configure the IPSec tunnel. Set the source and destination addresses of the sensitive traffic carried by the IPSec tunnel to the source and destination addresses of the GRE tunnel. 2. Configure the GRE tunnel. Set the source and destination addresses of the GRE tunnel to the source and destination addresses of the sensitive traffic carried by the IPSec tunnel. Configuration example: Topology: Network A-----(10.1.1.1) NGFW_A-----INTERNET-----NGFW_B (10.1.2.1)------Network B Note: a. Network A (10.1.1.0/24) and network B (10.1.2.0/24) can mutually access each other. b. The public IP address of NGFW_A is 1.1.3.1, the public IP address of NGFW_B is 1.1.5.1, and the public route is accessible. c. The GRE over IPSec tunnel established between NGFW_A and NGFW_B can satisfy the IPSec security requirements and also transmit broadcast or multicast packets based on GRE. 1. Complete basic interface configuration, for example, configuring the IP address and adding the interface to the related zone. 2. Configure the IPSec. //Configure IPSec sensitive traffic.// [USG_A]acl 3000 [USG_A-acl-adv-3000]rule 5 permit ip source 1.1.3.1 0.0.0.0 destination 1.1.5.1 0.0.0.0 [USG_B]acl 3000 [USG_B-acl-adv-3000]rule 5 permit ip source 1.1.5.1 0.0.0.0 destination 1.1.3.1 0.0.0.0 //Configure the IKE proposal and IPSec proposal. Adopt the default parameters.// [USG_A-1]ike proposal 1 [USG_A-1-ike-proposal-1]quit [USG_A-1]ipsec proposal 1 [USG_A-1-ipsec-proposal-1]quit [USG_B-1]ike proposal 1 [USG_B-1-ike-proposal-1]quit [USG_B-1]ipsec proposal 1 [USG_B-1-ipsec-proposal-1]quit //Configure the IKE peer.// [USG_A-1]ike peer 1 [USG_A-1-ike-peer-1]pre-shared-key 123456 [USG_A-1-ike-peer-1]ike-proposal 1 [USG_A-1-ike-peer-1]remote-address 1.1.5.1 [USG_B-1]ike peer 1 [USG_B-1-ike-peer-1]pre-shared-key 123456 [USG_B-1-ike-peer-1]ike-proposal 1 [USG_B-1-ike-peer-1]remote-address 1.1.3.1 //Configure IPSec policies.// [USG_A-1]ipsec policy p1 1 isakmp [USG_A-1-ipsec-policy-isakmp-1-1] security acl 3000 [USG_A-1-ipsec-policy-isakmp-1-1]Ike peer 1 [USG_A-1-ipsec-policy-isakmp-1-1]proposal 1 [USG_A-1-ipsec-policy-isakmp-1-1]local-address 1.1.3.1 [USG_A-1-ipsec-policy-isakmp-1-1] interface GigabitEthernet1/0/1 [USG_A-1-GigabitEthernet1/0/1] ipsec policy p1 auto-neg [USG_B-1]ipsec policy p1 1 isakmp [USG_B-1-ipsec-policy-isakmp-1-1]security acl 3000 [USG_B-1-ipsec-policy-isakmp-1-1]Ike peer 1 [USG_B-1-ipsec-policy-isakmp-1-1]proposal 1 [USG_B-1-ipsec-policy-isakmp-1-1]local-address 1.1.5.1 [USG_B-1-ipsec-policy-isakmp-1-1] interface GigabitEthernet1/0/1 [USG_B-1-GigabitEthernet1/0/1] ipsec policy p1 auto-neg 3. Configure the GRE tunnel. [USG_A-1]interface Tunnel 0 [USG_A-1-Tunnel0] ip address 10.3.1.1 255.255.255.0 [USG_A-1-Tunnel0]tunnel-protocol gre [USG_A-1-Tunnel0] source 1.1.3.1 [USG_A-1-Tunnel0] destination 1.1.5.1 [USG_B-1]interface Tunnel 0 [USG_B-1-Tunnel0] ip address 10.3.1.2 255.255.255.0 [USG_B-1-Tunnel0]tunnel-protocol gre [USG_B-1-Tunnel0] source 1.1.5.1 [USG_B-1-Tunnel0] destination 1.1.3.1 4. Add the GRE tunnel to the security zone and configure a tunnel route. [USG_A-1]firewall zone untrust [USG_A-1-zone-untrust]add interface Tunnel 0 [USG_A-1]ip route-static ip route-static 10.1.2.0 255.255.255.0 Tunnel0 [USG_B-1]firewall zone untrust [USG_B-1-zone-untrust]add interface Tunnel 0 [USG_B-1]ip route-static ip route-static 10.1.1.0 255.255.255.0 Tunnel0

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