WM-4T1i Module
Installation and User
Guide
Extreme Networks, Inc.
3585 Monroe Street
Santa Clara, California 95051
(888) 257-3000
Published: June 2001
Part number: 100095-00 Rev. 01
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Contents
Preface
Conventions
Related Publications
1
Overview
1-2
Installing the WM-4T1i Module
Ports and Connectors
1-3
Installing the WM-4T1i Module Software
2
Overview
2-3
2-3
2-4
2-4
2-4
Clock Source
Facility Data Link
Framing
Inband Loopback Detection
Linecoding
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Loopback
Near-end Loopback Modes
Enabling Loopback Mode
Disabling Loopback Mode
2-7
2-10
2-10
3
Overview
3-3
PPP Link Username
Monitoring PPP/ MLPPP Links
3-6
PPP/ MLPPP Configuration Examples
3-6
3-7
Configuring a Routed PPP/ MLPPP Link Example
Index
Index of Commands
iv
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Preface
This Preface provides an overview of this guide, describes guide conventions, and lists
other publications that may be useful.
Introduction
This guide provides the required information to install the WM-4T1i module in an
Alpine 3800 series switch from Extreme Networks and perform the initial module
configuration tasks.
This guide is intended for use by network administrators who are responsible for
installing and setting up network equipment. It assumes a basic working knowledge of:
•
•
•
•
•
•
•
Local area networks (LANs).
Ethernet concepts.
Ethernet switching and bridging concepts.
Routing concepts.
Internet Protocol (IP) concepts.
Routing Information Protocol (RIP) and Open Shortest Path First (OSPF).
Simple Network Management Protocol (SNMP).
If the information in the release notes shipped with your module differs from the
information in this guide, follow the release notes.
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v
Conventions
Table 1 and Table 2 list conventions that are used throughout this guide.
Table 1: Notice Icons
Icon
Notice Type
Alerts you to...
Note
Important features or instructions.
Caution
Warning
Risk of personal injury, system damage, or loss of data.
Risk of severe personal injury.
Table 2: Text Conventions
Convention
Description
Screen displays
This typeface indicates command syntax, or represents information
as it appears on the screen.
Screen displays
bold
This typeface indicates how you would type a particular command.
The words “enter”
and “type”
When you see the word “enter” in this guide, you must type
something, and then press the Return or Enter key. Do not press the
Return or Enter key when an instruction simply says “type.”
[Key] names
Key names are written with brackets, such as [Return] or [Esc].
If you must press two or more keys simultaneously, the key names
are linked with a plus sign (+). Example:
Press [Ctrl]+[Alt]+[Del].
Words in italicized type Italics emphasize a point or denote new terms at the place where
they are defined in the text.
vi
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Related Publications
Related Publications
The publications related to this one are:
•
•
•
•
ExtremeWare™ release notes
ExtremeWare Software User Guide
Alpine 3800 Series Switch Hardware Installation Guide
Alpine Module Installation Note
Documentation for Extreme Networks products is available on the World Wide Web at
the following location:
http:/ / www.extremenetworks.com/
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Installing the WM-4T1i Module
1
This chapter covers the following topics:
•
•
•
•
Installing the WM-4T1i Module on page 1-2
Ports and Connectors on page 1-3
WM-4T1i Module LEDs on page 1-3
Installing the WM-4T1i Module Software on page 1-5
Overview
The Extreme Networks WM-4T1i module is an four-port T1 module that can be
configured to use Multilink PPP to aggregate Ethernet traffic across multiple T1
physical links. The module has two 10/ 100 Mbps Ethernet ports.
The WM-4T1i module also has six internal loopback ports. The Alpine 3800 switch
modules have hardware queues associated with the output of each port for QoS (rate
shaping and priority queueing). To implement ingress QoS, you needed to use the
hardware queues associated with a second port as a loopback port for ingress QoS
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Installing the WM-4T1i Module
Installing the WM-4T1i Module
All Alpine ™ 3800 series switch module cards (SMMi modules and I/ O modules) are
hot-swappable. You do not need to power off the system to remove or insert a module
card.
Caution: Service to Alpine modules should be performed by trained service
personnel only. Before installing or removing any components of the system, or
before carrying out any maintenance procedures, read the safety information
provided in Appendix A of the Alpine Hardware Installation Guide.
Warning: You must install blank panels in empty slots to ensure adequate system
cooling.
To remove and replace a module card, follow these steps:
1
Prior to removing/ installing a module card into the Alpine 3804 or Alpine 3808
chassis, put on the ESD wrist strap that is provided with the chassis, and connect the
metal end to the ground receptacle located on the top-right corner of the Alpine
front panel.
2
3
Loosen the module card by unscrewing the screws using a #2 Phillips-head
screwdriver.
Rotate the ejector/ injector handles to disengage the module card from the backplane.
Note: Blank panels do not have ejector/injector handles, because they do not
engage the backplane. They are secured entirely by the retaining screws. In
addition, the retaining screws are not captive.
4
5
Slide the module card out of the chassis.
Slide the new module card into the appropriate slot of the chassis (SMMi modules
into the orange slot, I/ O modules into Slots 1 through 4 on the Alpine 3804, or Slots
1 through 8 on the Alpine 3808), until it is fully seated in the backplane.
Caution: Ensure that the sheet metal of the module, and not the PCB board,
engages the card cage runners.
As the module begins to seat in the chassis, the ejector/ injector handles will begin to
close.
6
To secure the module in the chassis, close the ejector/ injector handles by pushing
them toward the center of the module card, and tighten the screws using a #2
Phillips-head screwdriver.
1-2
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Ports and Connectors
Note: Tighten the screws before inserting additional modules. If you insert
additional modules before tightening the screws, you might unseat modules
that you have not secured.
Caution: You can only install I/O modules in the slots labeled Slot 1 through
Slot 4 on the Alpine 3804, or Slot 1 through Slot 8 on the Alpine 3808. Forceful
Ports and Connectors
The WM-4T1i module is show in Figure 1-1.
Module status
LEDs
T1 ports
10/100 Mbps ports
38_WM4T1i
Figure 1-1: WM-4T1i Module
The WM-4T1i module has four T1 ports and two 10/ 100 Ethernet ports. The WM-4T1i
also has six internal loopback ports. Internal loopback ports allow you to configure
bi-directional rate-limiting without tying up any of the external ports for ingress rate
the command line or with ExtremeWare Vista Web access.
WM-4T1i Module LEDs
The WM-4T1i module LEDs are shown in Figure 1-1.
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1-3
Installing the WM-4T1i Module
Figure 1-2: WM-4T1i LEDs
Table 1-1 describes the LED behavior on the WM-4T1i module.
Table 1-1: WM-4T1i Module LEDs
LED
Color
Indicates
Status
Off
No power
Amber
Module seated in chassis
Module powered up
Green
Diag
Green (blinking)
Off
Power-on Self Test (POST) is running
Normal operation
T1 port (1-4) Amber
Near-end fault detected (for example, no cable)
Far-end fault detected
Rapidly blinking
amber
Slowly blinking
amber
Physical link present, but no higher-layer link (port
misconfigured or disabled)
Green
Physical link present, higher-layer link established,
no traffic
Alternating green Physical link present, higher-layer link established,
and amber
Green (blinking)
Off
traffic present
Loopback testing mode
No link present
10/100 port
(5,6)
Green
Link present
Alternating green Traffic present
and amber
1-4
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Installing the WM-4T1i Module Software
The slowly blinking LEDs cycle once per second. The rapidly blinking LEDs cycle twice
a second.
Installing the WM-4T1i Module Software
Once the WM-4T1i module is installed in the chassis, you must download an image file
to the module.
The image file contains the executable code that runs on the module. As new versions
of the image are released, you should upgrade the software running on your module.
The image is downloaded from either a Trivial File Transfer Protocol (TFTP) server on
the network or from a PC connected to the serial port using the XMODEM protocol.
Downloading a new image involves the following steps:
•
Load the new image onto a TFTP server on your network (if you will be using
TFTP).
•
•
Load a new image onto a PC (if you will be using XMODEM).
Download the new image to the module using the command
download image slot <slot> [<ipaddress> | <hostname>] <filename>
{primary | secondary}
where the following is true:
slot— Is the slot in which the WM-4T1i module is installed.
ipaddress— Is the IP address of the TFTP server.
hostname— Is the hostname of the TFTP server. (You must enable DNS to use this
option. See the ExtremeWare Software User Guide for more information.)
filename— Is the filename of the new image.
primary— Indicates the primary image.
secondary— Indicates the secondary image.
The module can store up to two images; a primary and a secondary. When you
download a new image, you must select into which image space (primary or secondary)
the new image should be placed. If not indicated, the primary image space is used.
You can select which image the switch will load on the next reboot by using the
following command:
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Installing the WM-4T1i Module
use image [primary | secondary]
1-6
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Configuring the T1 Physical Link
2
This chapter covers the following topics:
•
•
Configuring T1 Physical link on page 2-1
Monitoring T1 Physical Link on page 2-6
Overview
T1 is a mature technology originally developed for voice telephone transmission. It was
used to aggregate a number of voice lines into a single connection to the telephone
network. Today T1 is also widely used to transmit digital data using widely available
equipment and established wiring commonly available in diverse locations.
Configuring T1 Physical link
choice. If you must connect to a line controlled by another organization, you will need
to configure the line to correspond with the settings at the other end. You can specify
the following parameters:
•
•
Alarms
Cable length
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Configuring the T1 Physical Link
•
•
•
•
•
•
Facility Data Link
Framing
Inband Loopback Detection
Linecoding
Yellow Alarms
Alarms
The T1 standard, ANSI T1.403, Bellcore TR-54016 and others, defines red, yellow, and
blue alarms.
A red alarm occurs when the T1 signal is lost or an out of frame error occurs. An out of
frame error can be caused when the framing type configured for the local interface does
not match the framing type of the incoming T1 signal or when the incoming signal does
not contain a T1 framing pattern.
A yellow alarm is also called a Remote Alarm Indication (RAI). When the remote end of
a link does not receive a signal, it will transmit a yellow alarm signal back to the local
end.
A blue alarm is also called an Alarm Indication Signal (AIS). A blue alarm indicates that
a device somewhere upstream has experienced a loss of signal.
the following command:
config ports <portlist> t1 alarms [on | off]
Yellow alarms can be configured when T1 alarms are enabled. See “Yellow Alarms” on
page 2-5 for more details on the following command:
config ports <portlist> t1 yellow [detection | generation | both | off]
Cable length
Longer cable lengths cause greater loss for the T1 signal, so the transmitter hardware
must transmit at a higher level to transmit data successfully. However, too high a signal
level can cause crosstalk from one cable to another. The config ports t1
2-2
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Configuring T1 Physical link
cablelengthcommand allows you to control the transmitter signal level for your
conditions. Typically, your service provider will suggest the correct level.
For short haul connections (less then 700 feet) the typical equipment uses less sensitive
receivers. The transmitter level is usually set by selecting a cable length in feet, from the
following values: 133, 266, 399, 533 or 655. Choose the next higher value if your cable
length does not match one of the values. For example, choose 133 for a 50 foot cable
and 533 for a 450 foot cable. The default value is 133, which corresponds to cables in the
range of 0-133 feet.
For longer distances (up to 6000 feet) the typical equipment uses more sensitive
receivers, and crosstalk is more likely to occur. Under these conditions, the transmitter
level is set by selecting a transmitter attenuation level in dB from the following values:
-22.5, -15, -7.5, or 0.
From lowest to highest transmitter level, use the following values for the config port
t1 cablelengthcommand: -22.5 db, -15 db, -7.5 db, 0 db, 133 feet, 266 feet, 399 feet,
533 feet, and 655 feet.
To configure the cable length, use one of the following commands:
config ports <portlist> t1 cablelength [0 | -7.5 | -15 | -22.5] db
config ports <portlist> t1 cablelength [133 | 266 | 399 | 533 | 655]
feet
CLOCK SOURCE
A clock is used to synchronize data transmission on the line. Generally, one end of the
T1 link provides the master clock, and the other end of the link recovers the clock from
the signal on the line. By default the clock source is derived from the line. If needed, an
internal clock is available. To configure the clock source, use the following command:
config ports <portlist> t1 clocksource [internal | line]
Note: If the clock source is configured as “line”, but the clock cannot be
recovered from the signal on the line, the hardware will use the internal clock
instead.
Facility Data Link
Facility data link (FDL) uses twelve bits in the ESF frame to signal information about
line and connection status. Since FDL is only meaningful for ESF framing, FDL settings
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Configuring the T1 Physical Link
are ignored when a port is configured for SF framing. See “Framing” for information on
configuring framing.
The two standards supported for FDL are ATT, described by the ATT 54016
specification, and ANSI, described by the T1.403 standard. The default value is off. To
configure FDL, use the following command:
config ports <portlist> t1 fdl [off | att | ansi]
Framing
Framing is used to synchronize data transmission on the T1 line. Framing allows the
hardware to determine when each packet starts and ends. The two choices for framing
scheme is a newer standard and is enabled by default. To choose the framing scheme,
use the following command:
config ports <portlist> t1 framing [esf | sf]
If you choose to use SF framing, you should disable yellow alarm detection for the T1
line. SF framing may generate false yellow alarms. See “Yellow Alarms” on page 2-5 for
more details.
When inband loopback detection is enabled, a specific sequence of data in the signal
payload from the remote end of the T1 link will cause the local end to enter network
line loopback mode and send any received signal back to the remote end. Inband
loopback detection is only possible if the FDL standard is configured as ATT. See
“Facility Data Link” on page 2-3 for more details. By default, inband loopback detection
is off. See “Loopback” on page 2-6 for more information about loopback modes. To
configure inband loopback detection, use the following command:
config ports <portlist> t1 lbdetect [off | inband]
Linecoding
Linecoding is the convention used to encode signals for transmission over the T1 line.
You can choose from two linecoding standards, bipolar eight zero suppression (B8ZS) or
alternate mark inversion (AMI). The default value is B8ZS. To configure linecoding, use
the following command:
config ports <portlist> t1 linecoding [b8zs | ami]
2-4
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Configuring T1 Physical link
Yellow Alarms
A yellow alarm occurs on a device when its signal is not received at the remote end. It
is also called a Remote Alarm Indication (RAI). You can disable detection and
generation of yellow alarms for a T1 port. When SF framing is used, yellow alarm
detection and generation should be set to off, because detection of yellow alarms is not
reliable when data traffic is transmitted with SF framing (data traffic often contains bit
combinations that do not occur for encoded voice traffic). The default value for yellow
alarm generation and detection is both. To configure yellow alarms, use the following
command:
config ports <portlist> t1 yellow [detection | generation | both | off]
T1 Port Configuration Commands
Table 2-1 describes the commands used to configure a T1 port.
Table 2-1: T1 Port Configuration Commands
Command
Description
config ports <portlist> t1 alarms [on | off]
Enables and disables alarms. The default
setting is on.
config ports <portlist> t1 cablelength [
[133 | 266 | 399 | 533 | 655] feet
| [0 | -7.5 | -15 | -22.5] dB]
Specifies the cablelength attached to the T1
port. The default is 0 dB.
config ports <portlist> t1 clock source [internal Specifies the clock source used for
| line]
transmission. The default setting is line.
config ports <portlist> t1 fdl [off | att | ansi]
Specifies the facilities data link (FDL) format for
the port. You cannot use FDL with SF framing.
config ports <portlist> t1 framing [esf | sf]
Specifies the framing type. The default setting
is esf, Extended Super Frame (ESF). If sf is
chosen, Super Frame (SF), set yellow alarm
detection to off, since a yellow alarm can be
incorrectly detected with SF framing.
config ports <portlist> t1 lbdetect [off | inband] Enables and disables the port to respond to
loopback requests from the remote end. The
default setting is off.
config ports <portlist> t1 linecode [b8zs | ami] Sets the linecoding. The default setting is b8zs.
config ports <portlist> t1 yellow [detection |
generation | both | off]
Enable and disable yellow alarm detection and
generation.
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Configuring the T1 Physical Link
Monitoring T1 Physical Link
T1 devices have a built-in facility designed for troubleshooting the physical link, called
loopback. The T1 link can also be monitored using show commands to display the
current configuration of the link, any alarms on the link, link statistics, and link errors.
Loopback
The T1 device can be set up to loopback, that is, return a transmitted signal back to the
sender so it can be compared with the original. There are several different types of
loopback available to test different parts of the device and the line, specified in the T1
standards.
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
Data with framing
XM_010
Figure 2-1: Normal operation of T1 link
During normal operation of a T1 link, as the local data stream enters the framer, the
appropriate framing bits are inserted into the data, and the framed signal is transmitted
to the remote end. At the remote end, the process is reversed as the framing bits are
discarded and the data stream is passed to the remote system.
Loopback can be enabled on the near-end or the far-end of the link. The near-end
loopback modes are controlled directly by the hardware on the near-end. Far-end
loopback modes require the cooperation of the far-end hardware. A message is sent to
the far-end to cause it to enter a far-end loopback mode. When loopback is enabled on a
T1 port, the green port LED will blink.
2-6
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Monitoring T1 Physical Link
Near-end Loopback Modes
The near-end of the link can be enabled for the following three loopback modes:
•
•
•
Local
Network Line
Network Payload
The local loopback mode reflects the data stream internally to the near-end. The
network line loopback mode reflects the signal to the far-end. The network payload
mode reflects the data carried in the signal and regenerates framing information back to
the far-end.
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
XM_011
Figure 2-2: Local loopback mode
Local Loopback Mode. When the local port is enabled for local loopback, the local
data stream goes into the framer and the framing bits are inserted into the data, but the
data is not transmitted to the remote end. Instead, it is sent back through the local
framer, the framing bits are discarded, and the original data is returned. This mode tests
the local end.
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Configuring the T1 Physical Link
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
XM_012
Figure 2-3: Network line loopback mode
Network Line Loopback Mode. When the local port is enabled for network line
loopback mode, the received signal is sent back to the remote end without reframing
the data. This mode primarily tests the integrity of the line from the remote side.
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
XM_013
Figure 2-4: Network payload loopback mode
Network Payload Loopback Mode. When the local port is enabled for network
payload mode, the framer removes the framing bits from the received signal and
recovers the transmitted data. This same data is then reframed and transmitted back to
the remote end. This mode tests the line and the local circuitry from the remote side.
Far-End Loopback Modes
The far-end of the link can be enabled for the following two loopback modes:
•
•
Remote Line
Remote Payload
2-8
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Monitoring T1 Physical Link
The remote line mode reflects the received signal back to the near-end. The remote
payload mode reflects the data and regenerates the framing information back to the
near-end.
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
XM_014
Figure 2-5: Remote line loopback mode
Remote Line Loopback Mode. When the local port is enabled for remote line
loopback mode, it sends a request to the remote end to enter the equivalent of network
line loopback mode. The signal transmitted to the remote end will be retransmitted as
received back to the local end.
Note: If the line is configured to use the ATT FDL standard, the remote end must
be configured to detect inband loopback requests for the remote end to enter
remote line loopback mode.
Local T1 Port
Remote T1 Port
Data out
Data in
Data in
Data out
Framer
Framer
XM_015
Figure 2-6: Remote payload loopback mode
Remote Payload Loopback Mode. When the local port is enabled for remote payload
loopback mode, it sends a request to the remote end to enter the equivalent of network
payload loopback mode. When the remote end enters loopback mode, the framer at the
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Configuring the T1 Physical Link
remote end removes the framing bits from the received signal and recovers the
transmitted data. This same data is then reframed and transmitted back to the local end.
Enabling Loopback Mode
To enable a loopback mode, use one of the following commands:
enable ports <portlist> t1 loopback local
enable ports <portlist> t1 loopback network [line | payload]
enable ports <portlist> t1 loopback remote [line | payload]
Disabling Loopback Mode
Use the following command to return the near and remote side of a T1 loopback mode
to normal mode:
disable ports <portlist> t1 loopback
You can also use the following command to return the remote port to normal function
from loopback mode:
enable ports <portlist> t1 loopback remote loopdown
T1 Port Monitoring Commands
Table 2-2 describes the commands used to monitor a T1 port.
Table 2-2: T1 Port Monitoring Commands
Command
Description
disable ports <portlist> t1 loopback
Disable the current loopback mode and return
to normal function.
enable ports <portlist> t1 loopback [local
| network [line | payload] | remote [line
| payload | loopdown]]
Enable the port to locally loopback, to cause
the remote link to loopback, and to stop the
loopback.
show ports {<portlist>} {t1} stats
show ports {<portlist>} t1 alarms
show ports {<portlist>} t1 configuration
Displays real-time port statistics.
Displays real-time port alarms.
Displays the port configuration and status.
2-10
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Monitoring T1 Physical Link
Table 2-2: T1 Port Monitoring Commands (continued)
Command
Description
show ports {<portlist>} t1 errors [near-end |
far-end] [totals | intervals | current]
Displays current and past errors.
show ports {<portlist>} t1 info
Displays the port configuration and status.
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Configuring the T1 Physical Link
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Configuring PPP and MLPPP
3
This chapter covers the following topics:
•
•
•
•
Multilink PPP and Multilink Groups on page 3-2
Configuring a PPP/ MLPPP Link on page 3-3
Monitoring PPP/ MLPPP Links on page 3-6
PPP/ MLPPP Configuration Examples on page 3-6
Overview
Point-to-Point Protocol (PPP) is used across the entire range of communication speeds
and devices found on the internet. Typically, PPP uses Layer 3 to connect two broadcast
networks, say two ethernet LANs, into a single WAN by transporting IP packets over a
link. PPP can also use Layer 2 to bridge packets from one VLAN to another.
Multilink PPP (MLPPP) is a protocol for combining a number of PPP links into one
bundle that transports traffic over the links in the bundle. A multilink group is just a
bundle of individual PPP links that are configured to work together as a single link.
With a multilink group configured, it is easy to add or remove additional PPP links to
provide bandwidth as needed. The multilink group balances traffic among the
individual PPP links and properly sequences packets across the multilink group.
Typically, you would add a multilink group to a VLAN, configure the multilink group
by adding T1 ports and configuring PPP/ MLPPP parameters, and finally, enable the
multilink group.
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3-1
Configuring PPP and MLPPP
Multilink PPP and Multilink Groups
Each multilink PPP group is given a name, up to 16 characters in length. All named
components of the switch configuration must have unique names, so multilink groups
and VLANs cannot have identical names. See the ExtremeWare Software User Guide for
more information on allowable names for named components. Components are named
using the createcommand. Once a component is named, you do not need to use the
keyword for the component (see the shortcut below).
Create the multilink group using the following command:
create multilink <groupname>
Once the multilink group is created, assign ports to it by using the following command:
config multilink <groupname> add ports <portlist>
or you can use the following shortcut:
config <groupname> add ports <portlist>
If the first port added to a multilink group is already configured for PPP, the multilink
group will inherit the configuration of the first port. Any other ports added to the link
will be configured to match the multilink configuration. The next section lists the
configuration commands for multilink groups and single PPP links.
Once the multilink group has been configured, it is added to a VLAN so that it can pass
traffic from the VLAN across the link. To add a multilink group to a VLAN, use the
following command:
config vlan <vlan> add multilink <groupname>
Typically the last step in configuring a multilink group is to use the following command
to enable it:
enable multilink <groupname>
Any changes to an enabled multilink group will not take effect until the the multilink
group is restarted. To restart a multilkink group, use the following command:
restart multilink <groupname>
3-2
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Configuring a PPP/MLPPP Link
Configuring a PPP/MLPPP Link
All of the PPP configuration commands can be used to configure a single port or to
configure a multilink group, so the following sections for PPP links also apply to
MLPPP links. To configure a PPP/ MLPPP link you will need to choose the
authentication and encapsulation for the link.
If you change the configuration of an enabled PPP or MLPPP link, the changes will not
take effect until the link is restarted. To restart a PPP link, use the following command:
restart ports <portlist>
To restart an MLPPP link, use the following command:
restart multilink <groupname>
Authentication
By default, no authentication is configured on PPP links since the WM-4T1i module will
typically be used with leased lines—where both sides of the link are controlled and
authentification is not required. If authentication is needed, the WM-4T1i module
supports using PAP or CHAP. PPP authentication protocol (PAP) authenticates a user as
the connection is established by sending a username and password. Challenge
Handshake Authentication Protocol (CHAP) authenticates a user by sending a challenge
across the link. The remote end calculates a response based on the user password and
sends the response back across the link. CHAP is a more secure authentication protocol
than PAP. The link can also be configured to attempt to use CHAP first, followed by
PAP, if CHAP fails.
To configure authentication on a PPP link, use the following command:
config ppp authentication [off | chap | pap | chap-pap] [ports
<portlist> | multilink <groupname>]
PPP Link Username
When the local end of a link initiates a PPP connection, the local end must send the
appropriate authentication information. For PAP it sends the username and password,
for CHAP it sends the username and must respond correctly to the challenge, and for
no authentication it sends nothing. To configure the username and password used to
initiate the link, use the following command:
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Configuring PPP and MLPPP
config ppp user <username> {encrypted} <password> [ports <portlist> |
multilink <groupname>]
The encrypted keyword is used to hide the password when the switch configuration is
displayed, it does not control whether the password is encrypted across the link during
authentication.
PPP User Accounts
When the remote end initiates the link, the local end must verify the authentication
information. The local end maintains a list of authorized user accounts and passwords.
To add a user to the list, use the following command:
create account pppuser <name> {encrypted} {<password>}
Encapsulation
The packets passed over the PPP link can use either bridged or routed encapsulation.
You would use bridged packets if you plan to have VLANs span the PPP link. You
would use routed packets if the link connects two different routed networks or separate
VLANs.
Using bridged packets allows the VLAN tags to be carried across the PPP link. Bridged
packets are transported using the PPP Bridging Control Protocol (BCP), described in
RFC 2878. When the encapsulation is set to BCP, 802.1Q and 802.1p information is
preserved and transported across the link. On a WM-4T1i module, a VLAN may only
contain one BCP encapsulated link.
Routed packets are transported across a PPP/ MLPPP link using IP Control Protocol
(IPCP), described in RFC 1332. This is the encapsulation that is familiar to most users of
PPP. The routed packets do not contain Ethernet headers so cannot preserve VLAN
tags. The IP addresses used for the PPP/ MLPPP link are taken from the IP address
assigned to the VLAN at each end of the link. The VLAN that contains the IPCP
encapsulated PPP/ MLPPP ports cannot contain other ports. In other words, the only
ports allowed in the VLAN are those that make up the IPCP encapsulated link.
You must have one and only one encapsulation type configured on a PPP/ MLPPP link.
Setting BCP encapsulation off implies that IPCP encapsulation is on. The default setting
is BCP encapsulation on and IPCP encapsulation off. To configure encapsulation, use
the following command:
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Configuring a PPP/MLPPP Link
multilink <groupname>]
PPP/MLPPP Configuration Commands
Table 3-1 describes the commands used to configure a PPP/ MLPPP link.
Table 3-1: PPP/MLPPP Configuration Commands
Command
Description
config multilink <groupname> add ports
<portlist>
Adds ports to a multilink group.
config multilink <groupname> delete ports
<portlist>
Removes ports from a multilink group.
config ppp authentication [off | chap | pap |
chap-pap]
[ports <portlist> | multilink <groupname>]
Sets the authentication method for a PPP link
or a MLPPP multilink group. The default setting
is to use no authentication.
config ppp [bcp [on | off] | [ipcp [on | off]] [ports Sets the encapsulation method for a
<portlist> | multilink <groupname>]
PPP/MLPPP link. You cannot set both to on, or
both to off. Configuring bcp on implies ipcp off;
configuring ipcp on implies bcp off. The default
setting is bcp on.
config ppp user <username> {encrypted}
<password>
Sets the username sent to the remote end of a
PPP/MLPPP link for authentication.
[ports <portlist> | multilink <groupname>]
config vlan <vlan> add multilink <groupname> Adds an MLPPP multilink group to a VLAN.
config vlan <vlan> delete multilink
<groupname>
Removes an MLPPP multilink group from a
VLAN.
create account pppuser <name> {encrypted}
{<password>}
Adds a username that will be accepted by the
local end during authentication.
create multilink <groupname>
delete multilink <groupname>
delete account pppuser <username>
Creates a multilink group.
Deletes a multilink group.
Removes a username from the local
authentication list.
disable multilink <groupname>
enable multilink <groupname>
Disables a multilink group.
Enables a multilink group (and enables all
ports in the group).
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Configuring PPP and MLPPP
Table 3-1: PPP/MLPPP Configuration Commands (continued)
Command
Description
restart multilink <groupname>
Restarts multilink group. Configuration changes
made to an enable multilink group will not take
effect until the group is restarted.
unconfig ppp port <portlist>
Resets the port to the default PPP
configuration; no authentication and BCP
encapsulation.
Monitoring PPP/MLPPP Links
The following commands monitor the status of the PPP and MLPPP links.
Table 3-2: PPP/MLPPP Show Commands
Command
Description
show multilink <groupname>
Displays the configuration of the multilink
group.
show multilink [<groupname>] stats {detail}
Displays multlink group statistics.
show multilink [<groupname>] t1 alarms {detail} Displays T1 alarm status for multilink groups.
show multilink [<groupname>] t1 errors Displays T1 error statistics for a multilink
[near-end | far-end] [totals | intervals | current] group.
show ppp {<portlist>} {detail}
show accounts pppuser
Shows PPP configurations.
Show the PPP accounts on the switch.
PPP/MLPPP Configuration Examples
The following examples show how to configure multilink groups.
Configuring a Bridged PPP/MLPPP Link Example
The following example shows how to configure a BCP-encapsulated multilink group.
BCP is the default encapsulation, so it is not explicitly included in this example. The
config ports t1 clocksourcecommand is included to show where you might need
to configure the T1 parameters for your link. Each T1 port in the multilink group will
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PPP/MLPPP Configuration Examples
have the same T1 and PPP configurations. If you change the configuration for a single
port, the change will affect the entire group.
VLAN alpha
tag = 1001
Multilink bcp_example
encapsulation = BCP
T1 port 4:1
PPP
To
switch
#2
T1 port 4:2
PPP
PPP
T1 port 4:3
Switch #1
XM_007
Figure 3-1: BCP multilink example
config default delete ports 4:1-4:3
create vlan alpha
config alpha tag 1001
create multilink bcp_example
config ports 4:1-4:3 t1 clocksource internal
config bcp_example add ports 4:1-4:3 tag
config alpha add multilink bcp_example
enable bcp_example
Configuring a Routed PPP/MLPPP Link Example
The following example shows how to configure a IPCP-encapsulated multilink group.
The VLAN that contains the IPCP-encapsulated multilink group cannot contain any
other ports.
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Configuring PPP and MLPPP
VLAN beta tag = 1001
IP address = 10.10.10.1/24
Multilink ipcp_example
encapsulation = IPCP
T1 port 4:1
T1 port 4:2
T1 port 4:3
PPP
PPP
PPP
To
switch
#2
Switch #1
XM_008
Figure 3-2: IPCP multilink example
config default delete ports 4:1-4:3
create vlan beta
config beta tag 1001
config beta ipaddress 10.10.10.1/24
create multilink ipcp_example
config ipcp_example add ports 4:1-4:3 tag
config ppp ipcp on ports 4:1-4:3
config beta add multilink ipcp_example
enable ipcp_example
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Index
Numerics
802.1p
802.1Q
E
3-4
3-4
encapsulation
BCP
3-4
3-4
3-4
2-4
configuring
IPCP
ESF (Extended Super Frame) T1 line framing
A
alarms
2-2
2-4
2-4
3-3
alternate mark inversion (AMI)
AMI linecoding
authentication
F
framing
2-4
2-4
2-4
ESF (Extended Super Frame)
SF (Super Frame)
B
B8ZS linecoding
BCP encapsulation
2-4
3-4
2-4
3-4
I
bipolar eight zero suppression (B8ZS)
bridged PPP links
IPCP encapsulation
3-4
L
C
LEDs
cable length
2-2
T1 port
1-4
2-4
2-4
2-4
2-4
Challenge Handshake Authentication Protocol
(CHAP)
CHAP
clock source
configuring
encapsulation
T1 port
conventions
notice icons, Preface
text, Preface
linecoding
AMI
B8ZS
loopback detection
3-3
3-3
2-3
3-4
2-1
M
MLPPP
multilink group
adding to VLAN
Multilink PPP (MLPPP)
3-1
3-2
3-2
3-1
1-vi
1-vi
I
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P
PAP
3-3
3-1
3-1
3-3
Point-to-Point Protocol (PPP)
PPP
PPP authentication protocol (PAP)
PPP links
bridged
routed
PPP user accounts
PPP username
3-4
3-4
3-4
3-3
PPP/ MLPPP
configuration commands (table)
3-5, 3-6
R
RFC 1332
RFC 2878
routed PPP links
3-4
3-4
3-4
S
SF (Super Frame) T1 line framing
2-4
T
T1 port
alarms
cable length
clock source
configuration commands (table)
configuring
framing
LEDs
linecoding
2-2
2-2
2-3
2-5
2-1
2-4
1-4
2-4
2-4
2-10
loopback detection
monitoring commands (table)
U
user accounts, PPP
username, PPP
3-4
3-3
V
VLAN tags
3-4
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Index of Commands
C
R
config multilink add ports
config multilink delete ports
config ports t1 alarms
config ports t1 cablelength
config ports t1 clock source
config ports t1 fdl
3-5
3-5
2-5
2-5
2-5
2-5
2-5
2-5
2-5
2-5
3-5
3-5
3-5
3-5
3-5
3-5
3-5
3-5
restart multilink
3-6
S
show accounts pppuser
show multilink
3-6
3-6
3-6
3-6
3-6
2-10
2-10
2-10
2-11
2-11
2-10
3-6
config ports t1 framing
config ports t1 lbdetect
config ports t1 linecode
config ports t1 yellow
config ppp authentication
config ppp bcp
config ppp ipcp
config ppp user
config vlan add multilink
config vlan delete multilink
create account pppuser
create multilink
show multilink stats
show multilink t1 alarms
show multilink t1 errors
show ports stats
show ports t1 alarms
show ports t1 configuration
show ports t1 errors
show ports t1 info
show ports t1 stats
show ppp
U
unconfig ppp
3-6
D
delete account pppuser
delete multilink
disable multilink
disable ports t1 loopback
3-5
3-5
3-5
2-10
E
enable multilink
enable ports t1 loopback
3-5
2-10
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ii - Index of Commands
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