High Assurance Internet Protocol Encryptor

A High Assurance Internet Protocol Encryptor (HAIPE) is a Type 1 encryption device that complies with the National Security Agency's HAIPE IS (formerly the HAIPIS, the High Assurance Internet Protocol Interoperability Specification). The cryptography used is Suite A and Suite B, also specified by the NSA as part of the Cryptographic Modernization Program. HAIPE IS is based on IPsec with additional restrictions and enhancements. One of these enhancements includes the ability to encrypt multicast data using a "preplaced key" (see definition in List of cryptographic key types). This requires loading the same key on all HAIPE devices that will participate in the multicast session in advance of data transmission. A HAIPE is typically a secure gateway that allows two enclaves to exchange data over an untrusted or lower-classification network.

Examples of HAIPE devices include:

  • L3Harris Technologies' Encryption Products [1]
    • KG-245X 10Gbit/s (HAIPE IS v3.1.2 and Foreign Interoperable),
    • KG-245A fully tactical 1 Gbit/s (HAIPE IS v3.1.2 and Foreign Interoperable)
    • RedEagle
  • ViaSat's AltaSec Products[2]
    • KG-250,[3] and
    • KG-255 [1 Gbit/s][4]
  • General Dynamics Mission Systems TACLANE Products[5]
    • FLEX (KG-175F)
    • 10G (KG-175X)
    • Nano (KG-175N)
  • Airbus Defence & Space ECTOCRYP Transparent Cryptography [6][7]

Three of these devices are compliant to the HAIPE IS v3.0.2 specification while the remaining devices use the HAIPE IS version 1.3.5, which has a couple of notable limitations: limited support for routing protocols or open network management.

A HAIPE is an IP encryption device, looking up the destination IP address of a packet in its internal Security Association Database (SAD) and picking the encrypted tunnel based on the appropriate entry. For new communications, HAIPEs use the internal Security Policy Database (SPD) to set up new tunnels with the appropriate algorithms and settings. Due to lack of support for modern commercial routing protocols the HAIPEs often must be preprogrammed with static routes and cannot adjust to changing network topology. While manufacturers support centralized management of their devices through proprietary software, the current devices offer no management functionality through open protocols or standards.

Both the HAIPE IS v3 management and HAIPE device implementations are required to be compliant to the HAIPE IS version 3.0 common MIBs. Assurance of cross vendor interoperability may require additional effort. An example of a management application that supports HAIPE IS v3 is the L3Harris Common HAIPE Manager (which only operates with L3Harris products).

A couple of new HAIPE devices will combine the functionality of a router and encryptor when HAIPE IS version 3.0 is approved. General Dynamics has completed its TACLANE version (KG-175R), which house both a red and a black Cisco router, and both ViaSat and L-3 Communications are coming out with a line of network encryptors at version 3.0 and above. Cisco is partnering with Harris Corporation to propose a solution called SWAT1[8]

There is a UK HAIPE variant that implements UKEO algorithms in place of US Suite A. Cassidian has entered the HAIPE market in the UK with its Ectocryp range. Ectocryp Blue is HAIPE version 3.0 compliant and provides a number of the HAIPE extensions as well as support for network quality of service (QoS). Harris has also entered the UK HAIPE market with the BID/2370 End Cryptographic Unit (ECU).[9]

In addition to site encryptors HAIPE is also being inserted into client devices that provide both wired and wireless capabilities. Examples of these include L3Harris Technologies' KOV-26 Talon and KOV-26B Talon2, and Harris Corporation's KIV-54 [10] and PRC-117G [11] radio.

See also

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.