2 3xdes encryption with ability to change keys, 3 ip header compression – Comtech EF Data CDM-570 User Manual

CDM-570/570L Satellite Modem with Optional IP Module

Revision 12

Ethernet IP Module Interface

MN/CDM570L.IOM

13–9

13.4.2

3xDES Encryption with Ability to Change Keys

The IP Module optionally supports 3xDES-128 (using NIST certified 3x core) encryption and
decryption, for the highest level security for link encryption. Each unit supports eight encryption
keys and eight decryption keys. The keys are user-configurable. Each route can be assigned to be
encrypted by any of the eight available keys, random key method, or transmitted in clear.

13.4.3

IP Header Compression

Header Compression is an optional feature of the IP Module. The IP Module supports Header
Compression for the following Ethernet and Layer 3, 4 & 5 Headers:

Supported Ethernet Headers

Supported Layer 3 & 4 Headers

Ethernet 2.0

IP

Ethernet 2.0 + VLAN-tag

TCP

Ethernet 2.0 + MPLS

UDP

802.3-raw

RTP (Codec Independent)

802.3-raw + VLAN-tag

802.3 + 802.2

802.3 + 802.2 + VLAN-tag

802.3 + 802.2 + SNAP

802.3 + 802.2 + SNAP + VLAN-tag

802.3 + 802.2 + SNAP + MPLS

Header Compression reduces the required VoIP bandwidth by 60 percent. Example: A G.729a
voice codec, operating at 8 kbps, will occupy 32 kbps once encapsulated into IP framing on a
LAN. Using IP/UDP/RTP Header Compression, the same traffic only needs 10.8 kbps total WAN
satellite bandwidth to cross the link. A total maximum of 64 simultaneous VoIP calls can be
compressed. Normal HTTP (Web) traffic can be reduced an additional 10% via IP/TCP header
compression.

Note the following:

• Header Compression Configuration is completely independent from QoS, and there is

no configuration required except enabling the Header Compression feature on both the
sending and receiving Comtech EF Data IP modem. Packets with a Header Compression
supported header will automatically be identified for compression. The only
configuration consideration is the Header Compression Refresh Rate. This is how many
compressed header packets will be sent before a single full header packet is sent. Some
compressed header traffic could be lost during deteriorated satellite link conditions.
Sending a full header packet will allow the return of the traffic stream. The Refresh Rate
can be increased for poor satellite link conditions or decreased to further reduce
overhead.

• Header Compression Statistics will display the total bytes of the pre-compressed and

post-compressed traffic and effective compression ratio.