cisco Carrier Ethernet Mode User Guide
- June 9, 2024
- Cisco
Table of Contents
Carrier Ethernet Mode
User Guide
Carrier Ethernet Mode
This module provides the conceptual information for Implementing Ethernet Flow Points (EFPs).
Release | Modification |
---|---|
Release 5.2.1 | This feature was introduced. |
- Ethernet Flow Point, on page 1
- EFP CLI Overview, on page 2
- Ethernet CFM, on page 2
Ethernet Flow Point
An Ethernet Flow Point (EFP) is a Layer 2 logical subinterface used to
classify traffic under a physical or a bundle interface. A physical interface
can be an Ethernet interface and has ports on the line card.
A bundle interface is a virtual interface, created by grouping physical
interfaces together. For example, physical interfaces such as 10 Gigabit
Ethernet 0/0/0/1 and 10 Gigabit Ethernet 0/0/0/0 can be configured as members
of a bundle interface.
Grouping physical interfaces together can:
- Reduce the routing entries.
- Increase the bandwidth of the bundle interface.
- Balance the traffic on the bundle members.
EFP has the following characteristics:
- An EFP represents a logical demarcation point of an Ethernet Virtual Connection (EVC) on an interface. For an EVC associating two or more UNIs, there is a flow point on each interface of every device, through which that EVC passes.
- An EFP can be regarded as an instantiation of a particular service. An EFP is defined by a set of filters. These filters are applied to all the ingress traffic to classify the frames that belong to a particular EFP. An EFP filter is a set of entries, where each entry looks similar to the start of a packet (ignoring source/destination MAC address). Each entry usually contains 0, 1 or 2 VLAN tags. A packet that starts with the same tags as an entry in the filter is said to match the filter; if the start of the packet does not correspond to any entry in the filter then the packet does not match the filter.
- An EFP serves four purposes:
• Identifies all frames that belong to a particular flow on a given interface
• Performs ingress and egress Ethernet header manipulations
• Adds features to the identified frames
• Optionally define how to forward those frames in the data path.
You can perform a variety of operations on the traffic flows when a router is
configured with EFPs on various interfaces. Also, you can bridge or tunnel the
traffic by many ways from one or more of the router’s ingress EFPs to one or
more egress EFPs. This traffic is a mixture of VLAN IDs, single or double
(QinQ) encapsulation, and ethertypes.
The following figure shows the EFP model.
An EFP subinterface is configured to specify which traffic on ingress is vectored to that EFP. This is done by specifying a VLAN ID or QinQ tagging to match against on ingress. All traffic on ingress is compared to each EFP’s matching criterion, and processed by that EFP if a match occurs. The processing performed by an EFP can change VLAN IDs, add or remove VLAN tags, and change ethertypes.
EFP CLI Overview
The following commands are typically used to configure an EFP:
- l2 transport command – This command identifies a subinterface (or a physical port or bundle-port parent interface) as an EFP.
- encapsulation command – This command is used to specify matching criteria.
- rewrite command – This command is used to specify the VLAN tag rewrite criteria.
Ethernet CFM
For Ethernet Connectivity Fault Management (CFM) feature, see the Ethernet OAM
chapter in the Cisco ASR 9000 Series Aggregation Services Router Interface and
Hardware Component Configuration Guide.
The Carrier Ethernet Model
Documents / Resources
|
cisco Carrier Ethernet
Mode
[pdf] User Guide
Carrier Ethernet Mode, Carrier, Ethernet Mode
---|---
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>