Encapsulation
Page 18-6
Encapsulation
Encapsulation is the biggest problem for implementing a transformation algorithm in support
of any to any switching. All of the media provide a choice of more than one encapsulation
and not all encapsulations are available on all media. Additionally, the methodology of these
encapsulations vary from protocol to protocol.
An ideal protocol would dictate a single encapsulation which would be the same on all
media.
Most protocols make use of more than one encapsulation. For example, IP uses Ethertype
most of the time on Ethernet and SNAP (an instance of an 802.2 LLC) on FDDI and Token
Ring. In this case, there may be clearly established rules for transforming from one encapsula-
tion to another as media are traversed.
Some protocols may allow more than one encapsulation even on a single media type. Some
might use the encapsulation to separate functional parts of the protocols, for example, rout-
ing table updating protocols from user data forwarding protocols. Others, like IPX may simply
allow the user to arbitrarily choose them.
Some, most notably IPX, may entangle the notion of encapsulation with the notion of the
network level broadcast domain to create multiple logical networks over a single physical
broadcast domain.
Clearly, then there is no single algorithmic rule by which the any to any transformation func-
tion can switch arbitrary protocols. There are two choices available to address this situation.
1.
The switch must be configurable, per device, per protocol, per media to select the trans-
formation of encapsulations.
2.
The switch performs a single transformation and the user must configure all end-stations
and routers to use this single choice made by the switch.
The Omni Switch/Router uses the first approach for IP and IPX as the dominant protocols in
the market. It uses the second approach for all other protocols.
Protocols other than IP and IPX
For protocols other than IP or IPX three encapsulations are possible on Ethernet media:
• Ethertype
• IEEE 802.2 LLC
• IEEE 802.2 SNAP (This is an instance of an LLC encapsulation defined by the 802.2
committee to support the transformation of Ethertype Ethernet frames to media which
don’t support that encapsulation.)
On Token Ring and FDDI, two encapsulations are permitted by the standards:
• IEEE 802.2 LLC
• IEEE 802.2 SNAP.
MAC Header
RIF
Encapsulation
Network Header
Data
Summary of Contents for Omni Switch/Router
Page 1: ...Part No 060166 10 Rev C March 2005 Omni Switch Router User Manual Release 4 5 www alcatel com ...
Page 4: ...page iv ...
Page 110: ...WAN Modules Page 3 40 ...
Page 156: ...UI Table Filtering Using Search and Filter Commands Page 4 46 ...
Page 164: ...Using ZMODEM Page 5 8 ...
Page 186: ...Displaying and Setting the Swap State Page 6 22 ...
Page 202: ...Creating a New File System Page 7 16 ...
Page 270: ...Displaying Secure Access Entries in the MPM Log Page 10 14 ...
Page 430: ...OmniChannel Page 15 16 ...
Page 496: ...Configuring Source Route to Transparent Bridging Page 17 48 ...
Page 542: ...Dissimilar LAN Switching Capabilities Page 18 46 ...
Page 646: ...Application Example DHCP Policies Page 20 30 ...
Page 660: ...GMAP Page 21 14 ...
Page 710: ...Viewing the Virtual Interface of Multicast VLANs Page 23 16 ...
Page 722: ...Application Example 5 Page 24 12 ...
Page 788: ...Viewing UDP Relay Statistics Page 26 24 ...
Page 872: ...The WAN Port Software Menu Page 28 46 ...
Page 960: ...Deleting a PPP Entity Page 30 22 ...
Page 978: ...Displaying Link Status Page 31 18 ...
Page 988: ...Displaying ISDN Configuration Entry Status Page 32 10 ...
Page 1024: ...Backup Services Commands Page 34 14 ...
Page 1062: ...Diagnostic Test Cable Schematics Page 36 24 ...
Page 1072: ...Configuring a Switch with an MPX Page A 10 ...
Page 1086: ...Page B 14 ...
Page 1100: ...Page I 14 Index ...