Configuring IPSec on an AC

23

ACs support IPSec, while Fat APs do not support this function.
On the Internet, most data is transmitted on IP networks in plaintext mode. This transmission mode has many potential risks. For example, bank accounts and passwords may be intercepted, user identities may be forged, and networks are attacked. IPSec can protect transmitted data to reduce information leak risks.
IPSec is a set of open network security protocols defined by the Internet Engineering Task Force (IETF). It ensures integrity and security of data transmitted on the Internet through data source authentication, data encryption, data integrity, and anti-replay at the IP layer.
For more information about IPSec configuration on an AC, see:
For V200R005: IPSec Configuration in AC6605&AC6005&ACU2(AC&FITAP) Product Documentation.
For V200R006: IPSec Configuration in AC6605&AC6005&ACU2(AC&FITAP) Product Documentation.

Other related questions:
Configuring IPSec VPN on the firewall
Configuring an SA on the USG Creating a dynamic IPSec SA 1. The data between network A and network B is encrypted and securely transmitted through the IPSec tunnel between USG_A and USG_B. USG_A protects network 10.1.1.0/24, and its public address is 202.38.163.1/24. USG_B protects network 10.1.2.0/24, and its public address is 202.38.169.1/24. Network A---USG_A----INTERNET-----USG_B---Network B 2. The configuration steps are as follows: [USG_A] acl 3000 //Configure an ACL to match sensitive traffic packets. [USG_A-acl-adv-3000] rule permit ip source 10.1.1.0 0.0.0.255 destination 10.1.2.0 0.0.0.255 [USG_A-acl-adv-3000] quit [USG_A] ip route-static 10.1.2.0 255.255.255.0 202.38.163.2 //Configure a route. [USG_A] ipsec proposal tran1 //Configure an IPSec proposal. [USG_A-ipsec-proposal-tran1] encapsulation-mode tunnel [USG_A-ipsec-proposal-tran1] transform esp [USG_A-ipsec-proposal-tran1] esp authentication-algorithm sha1 [USG_A-ipsec-proposal-tran1] esp encryption-algorithm aes [USG_A-ipsec-proposal-tran1] quit [USG_A] ike proposal 10 //Configure an IKE proposal. [USG_A-ike-proposal-10] authentication-method pre-share [USG_A-ike-proposal-10] authentication-algorithm sha1 [USG_A-ike-proposal-10] integrity-algorithm hmac-sha1-96 [USG_A-ike-proposal-10] quit [USG_A] ike peer b //Configure an IKE peer. [USG_A-ike-peer-b] ike-proposal 10 [USG_A-ike-peer-b] remote-address 202.38.169.1 [USG_A-ike-peer-b] pre-shared-key abcde [USG_A-ike-peer-b] quit [USG_A] ipsec policy map1 10 isakmp //Configure an IPSec policy. [USG_A-ipsec-policy-isakmp-map1-10] security acl 3000 [USG_A-ipsec-policy-isakmp-map1-10] proposal tran1 [USG_A-ipsec-policy-isakmp-map1-10] ike-peer b [USG_A-ipsec-policy-manual-map1-10] quit [USG_A] interface GigabitEthernet 0/0/2 [USG_A-GigabitEthernet0/0/2] ipsec policy map1 //Apply the IPSec policy to the interface. [USG_B] acl 3000 //Configure an ACL to match sensitive traffic packets. [USG_B-acl-adv-3000] rule permit ip source 10.1.2.0 0.0.0.255 destination 10.1.1.0 0.0.0.255 [USG_B-acl-adv-3000] quit [USG_B] ip route-static 10.1.1.0 255.255.255.0 202.38.169.2 //Configure a route. [USG_B] ipsec proposal tran1 //Configure an IPSec proposal. [USG_B-ipsec-proposal-tran1] encapsulation-mode tunnel [USG_B-ipsec-proposal-tran1] transform esp [USG_B-ipsec-proposal-tran1] esp authentication-algorithm sha1 [USG_B-ipsec-proposal-tran1] esp encryption-algorithm aes [USG_B-ipsec-proposal-tran1] quit [USG_B] ike proposal 10 //Configure an IKE proposal. [USG_B-ike-proposal-10] authentication-method pre-share [USG_B-ike-proposal-10] authentication-algorithm sha1 [USG_B-ike-proposal-10] integrity-algorithm hmac-sha1-96 [USG_B-ike-proposal-10] quit [USG_B] ike peer a //Configure an IKE peer. [USG_B-ike-peer-a] ike-proposal 10 [USG_B-ike-peer-a] remote-address 202.38.163.1 [USG_B-ike-peer-a] pre-shared-key abcde [USG_B-ike-peer-a] quit [USG_B] ipsec policy map1 10 isakmp //Configure an IPSec policy. [USG_B-ipsec-policy-isakmp-map1-10] security acl 3000 [USG_B-ipsec-policy-isakmp-map1-10] proposal tran1 [USG_B-ipsec-policy-isakmp-map1-10] ike-peer a [USG_B-ipsec-policy-isakmp-map1-10] quit [USG_B] interface GigabitEthernet 0/0/2 [USG_B-GigabitEthernet0/0/2] ipsec policy map1 //Apply the IPSec policy to the interface.

VRRP configuration on an AC
For details about how to configure VRRP on an AC, see http://support.huawei.com/ehedex/pages/DOC1000088060DEE1226D/06/DOC1000088060DEE1226D/06/resources/dc/dc_cfg_vrrp_0041.html?ft=0&id=dc_cfg_vrrp_0041 of the AC in V200R006.

Method used to configure VRRP and IPSec on the AR
Huawei AR routers support the VRRP configuration in the headquarters when an IPSec tunnel is set up between the headquarters and branch. When the master gateway router of the headquarters is faulty, services are automatically switched to the backup gateway. For details, see "Example for Configuring VRRP in the Headquarters to Allow the Branch to Establish an IPSec Tunnel with the Headquarters Using the VRRP Virtual Address" of "Using VPN to Implement WAN Interconnection" in Typical Configuration Examples. In other scenarios, check whether the disconnected IPSec connection is caused by the cable. In this case, the IPSec connection cannot be automatically reestablished.

If you have more questions, you can seek help from following ways:
To iKnow To Live Chat
Scroll to top