Split Domain Name System (DNS) allows DNS queries for certain domain names to be resolved to internal DNS servers over the VPN tunnel, while all the other DNS queries are resolved to the Internet Service Provider's (ISP) DNS servers. A list of internal domain names is "pushed" to the VPN Client during initial tunnel negotiation. The VPN Client then determines whether DNS queries should be sent over the encrypted tunnel or sent unencrypted to the ISP. Split DNS is only used in split-tunneling environments, since traffic is sent both over the encrypted tunnel and unencrypted to the Internet.
Dynamic DNS (DDNS) allows automatic registration of VPN Client host names into a DNS server upon successful negotiation of the VPN connection. When a VPN Client initiates a connection, the local host name is sent to the concentrator, which in turn forwards this onto the centrally located Dynamic Host Configuration Protocol (DHCP) server for the address allocation. If the DHCP server supports DDNS, then the allocated address and host name are entered automatically. DHCP address allocation is a requirement for DDNS to function, but does not work with local address pools.
There are no specific requirements for this document.
Both split DNS and DDNS were introduced in version 3.6 of both concentrator and client code. You must run at least these versions to enable and configure this feature. All the configurations in this document were developed and tested using these software and hardware versions.
Cisco VPN 3000 Concentrator Version 3.6.7.A
Cisco VPN Client Version 3.6.1
The information in this document was created from the devices in a specific lab environment. All of the devices used in this document started with a cleared (default) configuration. If your network is live, make sure that you understand the potential impact of any command.
This document uses this network setup:
For more information on document conventions, refer to the Cisco Technical Tips Conventions.
In this section, you are presented with the information to configure the features described in this document. Split DNS parameters are configured under the group parameters on the Cisco VPN 3000 Concentrator. Therefore, no configuration on the client is necessary.
Under the User Management > Groups section of the GUI, select the appropriate group, and select Modify Group.
Under the General tab, enter up to two internal DNS servers to be passed down to the client.
Under the Client Config tab, configure split tunneling, the default domain name, and the split DNS domain list.
After the tunnel is successfully negotiated using the above parameters, any reference to hosts with fully qualified domain names in the Cisco.com or Test.com domains results in a DNS query being sent over the tunnel to 192.168.1.1. DNS queries for hosts in any other domain are sent unencrypted to the DNS servers provided by DHCP at the initial PC boot up time.
Note: The split tunnel list called "192.168 Network" contains the 192.168.0.0/16 network. This is necessary so that the DNS requests to the internal DNS server of 192.168.1.1 will be encrypted.
DDNS requires that the DHCP address assignment is configured on the VPN Concentrator. Therefore, no configuration on the client is necessary. During the initial tunnel negotiation, the client sends its host name to the concentrator, and the concentrator uses this in its DHCP request packet when requesting an address for the client. It is up to the DHCP server to dynamically add this host name into the DDNS server. Windows 2000 DHCP servers support this functionality.
To configure DHCP address allocation for VPN Clients on the VPN Concentrator, under Configuration > System > Servers > DHCP, add the DHCP servers IP address. Ensure that DHCP is enabled globally on the concentrator under Configuration > System > IP Routing > DHCP Parameters.
Note: This is enabled by default.
Under Configuration > System > Address Management > Assignment, check the option to allocate addresses from a DHCP server.
The Log Viewer included with the VPN Client can be used to ensure the correct parameters are being sent down from the VPN Concentrator. Under Options > Filters, set the Internet Key Exchange (IKE) log class to High. After the tunnel is successfully negotiated, the following messages (or your network-specific equivalent) should be present in the log.
34 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x63000010 MODE_CFG_REPLY: Attribute = INTERNAL_IPV4_ADDRESS: , value = 192.168.1.50 35 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x63000010 MODE_CFG_REPLY: Attribute = INTERNAL_IPV4_DNS(1): , value = 192.168.1.1 38 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x6300000D MODE_CFG_REPLY: Attribute = MODECFG_UNITY_SPLIT_INCLUDE (# of split_nets), value = 0x00000001 39 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x6300000F SPLIT_NET #1 subnet = 192.168.0.0 mask = 255.255.0.0 protocol = 0 src port = 0 dest port=0 40 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x6300000E MODE_CFG_REPLY: Attribute = MODECFG_UNITY_DEFDOMAIN: , value = cisco.com 41 11:43:38.069 03/07/03 Sev=Info/5 IKE/0x6300000E MODE_CFG_REPLY: Attribute = MODECFG_UNITY_SPLITDNS_NAME: , value = cisco.com,test.com
The above parameters are defined as follows:
INTERNAL_IPV4_ADDRESS - IP address allocated to VPN Client connection
INTERNAL_IPV4_DNS(1) - Internal DNS server
MODECFG_UNITY_SPLIT_INCLUDE - Number of networks in the split tunnel list
SPLIT_NET #n - Details of each split tunnel network passed down to client
MODECFG_UNITY_DEFDOMAIN - Default domain name
MODECFG_UNITY_SPLITDNS_NAME - List of internal domains to be sent to INTERNAL_IPV4_DNS
There is currently no specific troubleshooting information available for this configuration. For additional troubleshooting information, refer to Troubleshooting Connection Problems on the VPN 3000 Concentrator.
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Refer to Cisco Technical Tips Conventions for information on conventions used in this document.