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Table Of Contents
Hardware Supported for Catalyst 8540 CSR
Release Notes for the Catalyst 8540 for Cisco IOS Release 12.1(10)E
Memory Defaults and Upgrade Options
Hardware Supported on the Catalyst 8540 MSR
Release Names, Versions, and Part Numbers
New Features in Release 12.1(10)E
New Features in Release 12.1(7a)EY1
New Features in Release 12.1(7a)EY
New Features in Release 12.1(6)EY
New Features in Release 12.1(5)EY
New Features in Release 12.0(13)W5(19c)
Caveats for the Catalyst 8540 MSR
Caveats for the Catalyst 8540 CSR
Caveat Symptoms and Workarounds
ACL Daughter Card Restrictions
VLAN Encapsulation Restrictions
ATM Router Module Restrictions
Maximum Path Restriction for EIGRP or OSPF
Policy-Based Routing Restrictions
8-Port Gigabit Ethernet Restrictions (Catalyst 8540 CSR)
Restrictions on the Online Insertion and Removal of Interface Modules
Route Processor and Switch Module Redundancy
Autonegotiation (Catalyst 8540 CSR)
Obtaining Technical Assistance
Release Notes for the Catalyst 8540 for Cisco IOS Release 12.1(10)E
January 8, 2003
Catalyst 8540 Cisco IOS Release 12.1(10)E
Text Part Number: OL-1199-04, C0
This document describes the features and caveats for Cisco IOS Release 12.1(10)E for the Catalyst 8540 multiservice ATM switch router (MSR), the Catalyst 8540 campus switch router (CSR). For relevant features, we've provided some information on Cisco IOS Releases 12.0.
Note All information pertains to both the Catalyst 8540 MSR and Catalyst 8540 CSR platforms, unless differences between the platforms are noted in the text.
Contents
This document includes the following sections:
• Caveats for the Catalyst 8540 MSR
• Caveats for the Catalyst 8540 CSR
• Caveat Symptoms and Workarounds
• Route Processor and Switch Module Redundancy
• Autonegotiation (Catalyst 8540 CSR)
• Obtaining Technical Assistance
Introduction
The Catalyst 8540 is a 13-slot, modular chassis with optional dual, fault-tolerant, load-sharing AC or DC power supplies.
The Catalyst 8540 MSR switch router provides a 20-Gbps full-duplex nonblocking switch fabric with switched ATM connections to individual workstations, servers, LAN segments, or other ATM switches and routers using fiber-optic, unshielded twisted-pair (UTP), and coaxial cable.
The Catalyst 8540 CSR switch router belongs to a class of high-performance Layer 3 switch routers and is optimized for the campus LAN or the intranet. The Catalyst 8540 CSR switch router provides both wirespeed Ethernet routing and switching services.
System Requirements
This section describes the system requirements for Cisco IOS Release 12.1(10)E and includes the following sections:
• Memory Defaults and Upgrade Options
• Hardware Supported on the Catalyst 8540 MSR
• Hardware Supported for Catalyst 8540 CSR
• Software Release Requirements
Memory Defaults and Upgrade Options
Table 1 lists the default Flash and DRAM memory for the Catalyst 8540, as well as memory upgrade options.
To check that your system has a 16-MB boot Flash SIMM, enter the show hardware EXEC command. The part numbers for Catalyst 8540 switch router route processors with a default 16-MB boot Flash SIMM follow:
•73-2644-06 Rev. A0 for the Catalyst 8540 MSR
•73-3775-03 Rev. A0 for the Catalyst 8540 CSR
If you have an 8-MB boot Flash SIMM, and have no additional memory installed, we recommend that you order a spare Flash PC card programmed with the latest version of the system image.
Note We recommend that you use a San Disk 48-MB PC Card to download and store a copy of the switch router software image. This allows you to store two or more images at the same time.
A Flash PC Card must be ordered as a spare part. See Table 1 for part numbers. For information on upgrading a Flash PC Card, see the "Upgrading a PC Card" section. For more detailed information on Flash PC Cards, refer to the "Configuring the Route Processor" chapter of the Layer 3 Switching Software Feature and Configuration Guide.
Alternatively, you can use one of the following options to accommodate the larger image:
•Option 1 - If you already have a Flash PC card, download the system image to the Flash PC card.
Note If you have a Smart Modular, Sharp, or Intel 2+ Flash PC card that was formatted using a Cisco IOS software release prior to 12.0(4a)W5(11a), reformat it with Cisco IOS Release 12.1(10)E prior to downloading the image (you might need to boot the image from a TFTP server to format the PC Flash card). Do not erase the system image on the boot Flash SIMM. If the procedure fails, you will need it to recover. (See caveat CSCdm47012 later in these release notes for more information.)
Then do the following:
–Enter the config-register 0x2102 global configuration command to change the configuration register to boot from the Flash PC card, instead of booting from the system-code SIMM (default).
–Enter the boot system slot0:filename global configuration command to specify the system image to boot on the Flash PC card.
–Enter the copy system:running-config nvram:startup-config privileged EXEC command to save the configuration changes to NVRAM.
An example follows:
Switch(config)# config-register 0x2102
EHSA:Syncing confreg: 256 to secondary
Switch(config)# boot system slot0:cat8540m-wp-mz.121-x.e
Switch(config)# end
Switch# copy running-config startup-config
•Option 2—Download the system image to a TFTP server and boot the system image from the TFTP server. Enter the boot system tftp filename ip-address global configuration command to boot the system image from the TFTP server, instead of booting from the system-code SIMM (default).
An example follows:
Switch(config)# boot system tftp cat8540m-wp-mz.121-x.e 172.20.52.3
Note You can boot only the primary route processor from a TFTP server, not the secondary.
Note The boot ROM on the Catalyst 8540 MSR can be field-upgraded via the reprogram command. For more information about upgrading the boot ROM, refer to the ATM and Layer 3 Switch Router Command Reference.
For more information about downloading system images and changing the default boot image, refer to the "File Management" chapter of the Configuration Fundamentals Configuration Guide in the Cisco IOS software documentation set.
Upgrading a PC Card
This section describes how to upgrade to a SanDisk 48-MB PC card. PC upgrade cards are available in 48-MB.
Note You need Cisco IOS Release version 12.1(5)EY or higher and rommon version 12.0(14)W5(20) or higher to upgrade to the SanDisk PC card. If you do not meet these minimum version requirements, the SanDisk PC card will not work.
To upgrade the PC card, follow these steps:
Step 1 Load the switch with the latest Cisco IOS release image using any of the upgrade methods (for example, tftpboot).
Step 2 Once the switch is up and running, use the copy command to copy the rommon image to the boot Flash SIMM.
Step 3 Reprogram the rommon image using the reprogram command.
Example
The following example shows the rommon being reprogrammed:
switch# reprogram bootflash:<rommon-image-name> rommon
Step 4 Load the switch with the latest Cisco IOS release image again.
Step 5 Enter the format command to format the PC card. It is now ready for use.
Example
The following example shows the format command being entered on slot 0:
switch# format disk0:
Hardware Supported on the Catalyst 8540 MSR
Table 2 lists the hardware modules supported on the Catalyst 8540 MSR in Cisco IOS Release 12.1(10)E.
Note Although minimum software versions are listed, we strongly recommend that you use the latest available software release for all Catalyst 8540 hardware.
Table 2 Catalyst 8540 MSR Supported Hardware Modules and
Minimum Software Requirements Part Number Description Minimum Software Version RequiredC8540-PWR-AC
AC Power Supply
W5-7
C8540-PWR-AC/2
Redundant AC Power Supply
W5-7
C8540-PWR-DC
DC Power Supply
W5-7
C8540-PWR-DC/2
Redundant DC Power Supply
W5-7
C8545MSR-MRP4CLK
Multiservice Route Processor
W5-7
C8545MSR-MRP3CLK
Multiservice Route Processor Stratum 3
W5-7
UPG-MSR-MRP-3CLK
Stratum 3 Clock Module Upgrade
W5-7
C8546MSR-MSP-FCL
Switch Processor with ATM Feature Card
W5-7
C85MS-SCAM-2P
Super Carrier for LightStream 1010 ATM switch port adapters
W5-7
WAI-OC-3-4MM
4-port 155-Mbps Synchronous Optical Network (SONET) STS-3c/SDH STM-1 port adapter
W5-7
WAI-OC-3-4SS
4-port 155-Mbps SONET STS-3c/SDH STM-1 port adapter
W5-7
WAI-OC3-1S3M
4-port 155-Mbps SONET STS-3c/SDH STM-1 port adapter
W5-7
WAI-OC3-4U5
4-port 155-Mbps SONET STM-1 UTP-5 port adapter
W5-7
C85MS-16F-OC3MM
16-port SONET STS-3c /SDH STM-1 interface module
W5-7
WAI-OC12-1SS
1-port 622-Mbps SONET STS-12c/SDH STM-4c port adapter
W5-7
WAI-OC12-1MM
1-port 622-Mbps SONET STS-12c/SDH STM-4c port adapter
W5-7
WAI-E1-4RJ48
4-port E1 port adapter
W5-7
WAI-T1-4RJ48
4-port T1 port adapter
W5-7
WAI-E1-4BNC
4-port E1 port adapter
W5-7
C85MS-4F-OC12SS
4-port SONET STS-12c/SDH STM-4c interface module
W5-7
C85MS-4F-OC12MM
4-port SONET STS-12c/SDH STM-4c interface module
W5-7
WAI-E1C-4BNC
4-port CES E1 port adapter
W5-7
WAI-E1C-4RJ48
4-port CES E1 port adapter
W5-7
WAI-T1C-4RJ48
4-port CES T1 port adapter
W5-7
WAI-T3-2BNC
2-port DS3 port adapter
W5-7
WAI-T3-4BNC
4-port DS3 port adapter
W5-7
WAI-E3-2BNC
2-port E3 port adapter
W5-7
WAI-E3-4BNC
4-port E3 port adapter
W5-7
C85MS-4E1-FRR548
4-port CE1 Frame Relay port adapter
W5-9
C85MS-1DS3-FRBNC
1-port CDS3 Frame Relay port adapter
W5-9
C85MS-1F4M-OC48SS
1-port OC-48c SMF-IR + 4-port OC-12 MMF
S854R2-12.0.4W
C85MS-1F4S-OC48SS
1-port OC-48c SMF-IR + 4-port OC-12 SMF-IR
S854R2-12.0.4W
C85MS-2F-OC48SS
2-port OC-48c SMF-IR
S854R2-12.0.4W
C8540-ARM
ATM router module
S854R2-12.0.4W
C8540-ARM2
Enhanced ATM router module
S854R2-12.1.5EY
C85GE-8X-64K
C8540 8-port Gigabit Ethernet 64K line module
S854R2-12.0.4W
C85GE-2X-16K
C8540 2-port Gigabit Ethernet 16K line module
S854R2-12.0.4W
C85GE-2X-64K
C8540 2-port Gigabit Ethernet 64K line module
S854R2-12.0.4W
C85GE-2XACL-16K
C8540 2-port Gigabit Ethernet 16K with ACL line module
S854R2-12.0.4W
C85GE-2XACL-64K
C8540 2-port Gigabit Ethernet 64K with ACL line module
S854R2-12.0.4W
C85FE-16T-16K
C8540 16-port 10/100 UTP 16K interface module
S854R2-12.0.4W
C85FE-16T-64K
C8540 16-port 10/100 UTP 64K interface module
S854R2-12.0.4W
C85FE-16TACL-16K
C8540 16-port 10/100 UTP 16K with ACL interface module
S854R2-12.0.4W
C85FE-16TACL-64K
C8540 16-port 10/100 UTP 64K with ACL interface module
S854R2-12.0.4W
C85FE-16F-16K
C8540 16-port 100-FX-MT-RJ 16K interface module
S854R2-12.0.4W
C85FE-16F-64K
C8540 16-port 100-FX-MT-RJ 64K interface module
S854R2-12.0.4W
C85FE-16FACL-16K
C8540 16-port 100-FX-MT-RJ 16K with ACL interface module
S854R2-12.0.4W
C85FE-16FACL-64K
C8540 16-port 100-FX-MT-RJ 64K with ACL interface module
S854R2-12.0.4W
C85MS-8T1-IMA
8-port T1 port adapter with inverse multiplexing over ATM
S854R2-12.0.7W1
C85MS-8E1-IMA-120
8-port E1 port adapter with inverse multiplexing over ATM
S854R2-12.0.7W1
C85MS-1F4S-OC48LR
1-port OC-48c SMF-LR + 4-port OC-12 SMF-IR
S854R2-12.0.7W
C85MS-2F-OC48LR
2-port OC-48c SMF-LR
S854R2-12.0.7W
C85EGE-2X-16K
Enhanced 2-port Gigabit Ethernet 16K
S854R2-12.0.10W
C85EGE-2X-64K
Enhanced 2-port Gigabit Ethernet 64K
S854R2-12.0.10W
C85EGE-2X-256K
Enhanced 2-port Gigabit Ethernet 256K
S854R2-12.0.10W
C85-POSOC12I-64K
1-port POS OC-12c/STM-4 SMF-IR and 1-port Gigabit Ethernet 64K
S854R2-12.0.10W
C85-POSOC12I-256K
1-port POS OC-12c/STM-4 SMF-IR and 1-port Gigabit Ethernet 256K
S854R2-12.0.10W
C85-POSOC12L-64K
1-port POS OC-12c/STM-4 SMF-LR and 1-port Gigabit Ethernet 64K
S854R2-12.0.10W
C85-POSOC12L-256K
1-port POS OC-12c/STM-4 SMF-LR and 1-port Gigabit Ethernet 256K
S854R2-12.0.10W
1 The T1/E1 IMA port adapters also require carrier module FPGA image version 1.8 or later, and IMA port adapter functional image version 3.2 or later.
1 Hardware Supported for Catalyst 8540 CSR
1 Table 3 lists the hardware modules supported on the Catalyst 8540 CSR in Cisco IOS Release 12.1(10)E.
1 Although minimum software versions are listed, we strongly recommend that you use the latest available software release for all Catalyst 8540 hardware.
Software Release Requirements
Note We strongly recommend that you use the latest available software release for all Catalyst 8540 hardware.
To determine the version of Cisco IOS software currently running on a Catalyst 8540, log in to the switch router and enter the show version EXEC command. The following sample output is from the show version command. The version number is indicated on the second line as shown below:
Cisco Internetwork Operating System Software IOS (tm) PNNI Software (cat8540m-WP-M), Version 12.1(10)E
Most of the interface modules supported on the Catalyst 8540 have upgradeable FPGA and functional images. The FPGA and functional images include caveat fixes, but in most cases, it is not necessary to upgrade. The release notes that describe the caveats from the FPGA and functional images are available on the World Wide Web at the following URL:
http://www.cisco.com/univercd/cc/td/doc/product/l3sw/8540/rel_12_0/w5_6f/rel_note/fpga_rn/index.htm
For more information describing the firmware update process, refer to the section "Maintaining Functional Images (Catalyst 8540 MSR)" in the chapter "Managing Configuration Files, System Images, and Functional Images" in the ATM Switch Router Software Configuration Guide.
Feature Set Table For Catalyst 8540 MSR
The Cisco IOS software is packaged in feature sets (also called software images) depending on the platform. Each feature set contains a specific set of Cisco IOS features.
Table 4 lists the software features available for the Catalyst 8540 MSR.
Table 4 Feature Sets Supported by the Catalyst 8540 MSR
Feature Set 12.1(10)E 12.1(7a)EY1 12.1(7a)EY 12.1(6)EY 12.1(5)EYLeft-justified E.164 AFI support
x
x
x
x
x
SNMP (Simple Network
Management Protocol)x
x
x
x
x
Asynchronous support
x
x
x
x
x
PPP (Point-to-Point Protocol)/
SLIP (Serial Line Internet Protocol)x
x
x
x
x
IP
x
x
x
x
x
NTP (Network Time Protocol)
x
x
x
x
x
TACACS+ (Terminal Access Controller Access Control System Plus)
x
x
x
x
x
Telnet
x
x
x
x
x
Point-to-point and point-to-multipoint permanent virtual channel connections (VCCs) and virtual path connections (VPCs)
x
x
x
x
x
Point-to-point and point-to-multipoint switched VCCs and VPCs (UNI 3.0)
x
x
x
x
x
Point-to-point and point-to-multipoint switched VCCs and VPCs (UNI 3.1)
x
x
x
x
x
Point-to-point and point-to-multipoint switched VCCs and VPCs (UNI 4.0)
x
x
x
x
x
Multipoint-to-point UNI signaling
x
x
x
x
x
Soft VCCs and VPCs
x
x
x
x
x
VP tunneling
x
x
x
x
x
VPI/VCI range support in ILMI 4.0
x
x
x
x
x
PNNI hierarchy
x
x
x
x
x
ILMI (Integrated Local
Management Interface) version 4.0x
x
x
x
x
IISP (Interim-Interswitch
Signaling Protocol)x
x
x
x
x
LANE (LAN Emulation) client (LEC) and LANE services (LES1 /BUS2 /LECS3 ) on route processor
x
x
x
x
x
ATM ARP (Address Resolution Protocol) server on route processor
x
x
x
x
x
ATM ARP client on route processor
x
x
x
x
x
ATM tag switch router (TSR)
x
x
x
x
x
Port snooping
x
x
x
x
x
OAM (Operation, Administration, and Maintenance) F4 and F5
x
x
x
x
x
E.164 address translation
x
x
x
x
x
E.164 autoconversion
x
x
x
x
x
Circuit emulation
x
x
x
x
x
ATM access lists
x
x
x
x
x
ATM accounting
x
x
x
x
x
ATM RMON (Remote Monitoring)
x
x
x
x
x
Multiple, weighted, dynamic thresholds for selective packet marking and discard
x
x
x
x
x
Shaped VP tunnels for CBR (Constant Bit Rate) traffic
x
x
x
x
x
Substitution of other service categories in shaped VP tunnels
x
x
x
x
x
Dual leaky bucket policing
x
x
x
x
x
Scheduler/Service Class/PVC configuration
x
x
x
x
x
Logical multicast support (up to 254 leaves per output port, per point-to-multipoint VC)
x
x
x
x
x
Network clocking enhancements for smooth switchover
x
x
x
x
x
Per-VC or per-VP
nondisruptive snoopingx
x
x
x
x
x
x
x
x
x
Access lists on ILMI registration
x
x
x
x
x
CUGs
x
x
x
x
x
ATM soft restart
x
x
x
x
x
ATM accounting enhancements
x
x
x
x
x
CISCO-SYSLOG-MIB support
x
x
x
x
x
CISCO-CONFIG-COPY-MIB support
x
x
x
x
x
Signaling diagnostics and MIB6
x
x
x
x
x
Supplemental AToM MIB
x
x
x
x
x
Hierarchical VP tunnels
x
x
x
x
x
Remote logging for accounting
x
x
x
x
x
Tag switching VC-merge on non-UBR7 VP tunnels and hierarchical VP tunnels
x
x
x
x
x
PNNI complex node representation
x
x
x
x
x
PNNI explicit paths
x
x
x
x
x
PNNI alternate link selection
x
x
x
x
x
Tag switching CoS
x
x
x
x
x
Network Clock Distribution Protocol
x
x
x
x
x
Simple Gateway Control Protocol
x
x
x
x
x
Switch redundancy
x
x
x
x
x
CPU redundancy: PVP/PVC/VP tunnel preservation
x
x
x
x
x
12-bit VPI
x
x
x
x
x
ATM router module
x
x
x
x
x
ATM overbooking
x
x
x
x
x
Framing overhead
x
x
x
x
x
ATM End System Address (AESA) gateway
x
x
x
x
x
Online insertion and removal support for 8-port Gigabit Ethernet interface modules
x
x
x
x
x
Route processor switchover support for 8-port Gigabit Ethernet interface modules
x
x
x
x
x
Appletalk support for 8-port Gigabit Ethernet interface modules
x
x
x
x
x
RFC 1483 PVC support on the ATM router modules
x
x
x
x
x
RFC 1577 PVC support on the ATM router modules
x
x
x
x
x
Spanning Tree SNMP trap support
x
x
x
x
x
IP fragmentation support for
POS/ATM uplinkx
x
x
x
x
IP multicast routing with up to 12,000 groups (S, G)
x
x
x
x
x
Up to six equal-cost paths for IP and IPX
x
x
x
x
x
BGP (Border Gateway Protocol)
x
x
x
x
x
Routing protocol MIB support
(OSPF, BGP)x
x
x
x
x
Bundling of up to four Fast Ethernet ports in a maximum of 56 FECs
x
x
x
x
x
ISL trunking (routing/bridging)
x
x
x
x
x
Two 1-port enhanced Gigabit Ethernet port adapters with built-in ACL functionality and 16, 64, or 256 KB of memory available for routing tables
x
x
x
x
x
IP simple ACL (1-99, 1301-1999)
x
x
x
x
x
Maximum of 32 active bridge groups with BVI
x
x
x
x
x
1-port packet-over-SONET OC-12c uplink port adapter with built-in ACL functionality and a 1-port enhanced Gigabit Ethernet port adapter
x
x
x
x
x
IS-IS routing protocol
x
x
x
x
x
Switching database manager
x
x
x
x
x
POS RFC 1619 PPP over SONET/SDH
x
x
x
x
x
POS RFC 1662 PPP in
HDLC-like framingx
x
x
x
x
POS IP fragmentation for POS and ATM uplink
x
x
x
x
x
POS SONET MIB as defined in RFC 1575
x
x
x
x
x
POS Transparent Bridging
(PPP/HDLC encapsulation)x
x
x
x
x
POS SPE payload scrambling
x
x
x
x
x
POS SONET alarms (LOS, LOF,
AIS, and RDI detection/reporting)x
x
x
x
x
POS Threshold Crossing Alerts for
B1, B2, B3 with configurable thresholdsx
x
x
x
x
Online diagnostics providing the following types of tests:
Accessibility tests between the route processor and the ports
Online insertion and removal (OIR) diagnostic tests
Snake tests through the switch router to ensure connectivity between the ports
x
x
x
x
x
CES Soft PVC Per Interface State
X
X
X
X
X
ITT Enhancements
X
X
X
X
ACL on Fast EtherChannels and Gigabit EtherChannels
X
X
X
X
Policy Based Routing.
X
X
X
Soft PVCs on the ATM Router Module and the Enhanced ATM Router Module.
X
X
X
VBR on ATM Router Module support.
X
X
X
Shaped Tunnel Support for the ATM Router Module.
X
X
X
Rate Limiting and per port traffic shaping.
X
X
X
Multiprotocol Label Switching (MPLS), Label Edge Router (LER) on Gigabit Ethernet interface modules and POS uplinks .
X
X
X
IP QoS support on Gigabit Ethernet interface modules.
X
X
X
SVC, Soft-VC, and PVC preservation on a route processor switchover.
X
X
X
Mobile PNNI.
X
X
X
CiscoView Autonomous Device Package (ADP).
X
X
X
Radius Support (TACACS+-like authentication).
X
X
X
Priority Soft PVC Preservation on IMA Bandwidth Reduction
X
Standard Signalling for Frame Relay Soft PVCs
X
Scheduler Enhancement for ATM PVC/PVP
X
Per Packet Load Sharing
X
ATM Threshold Group Enhancements
X
1 LES = LAN Emulation Server
2 BUS = broadcast and unknown server
3 LECS = LAN Emulation Configuration Server
4 MCR = minimum cell rate
5 ABR = available bit rate
6 MIB = Management Information Base
7 UBR = unspecified bit rate
7 Feature Set Table for Catalyst 8540 CSR
7 The Cisco IOS software is packaged in feature sets (also called software images) depending on the platform. Each feature set contains a specific set of Cisco IOS features.
7 Table 5 lists the software features available for the Catalyst 8540 CSR.
Table 5 Feature Sets Supported by the Catalyst 8540 CSR
Feature Set 12.1(10)E 12.1(7a)EY1 12.1(7a)EY 12.1(6)EY 12.1(5)EY100BaseFX full duplex
X
X
X
X
X
10/100BaseTX half duplex and full duplex with port speed detection (auto negotiation)
X
X
X
X
X
1000BaseSX, LX, and long-haul full duplex
X
X
X
X
X
Layer 2 transparent bridging
X
X
X
X
X
Layer 2 MAC learning, aging, and switching by hardware
X
X
X
X
X
Spanning Tree Protocol (IEEE 802.1d) support
per bridge groupX
X
X
X
X
Spanning Tree SNMP trap support
X
X
X
X
X
Maximum of 64 active bridge groups
X
X
X
X
X
Up to 128 ports per bridge group
X
X
X
X
X
IRB1
X
X
X
X
X
Route processor redundancy2
X
X
X
X
X
ISL3 -based VLAN trunking
X
X
X
X
X
IEEE 802.1Q-based VLAN routing/bridging
X
X
X
X
X
IP, IPX, and IP multicast routing and forwarding
X
X
X
X
X
IP fragmentation support for POS/ATM uplink
X
X
X
X
X
AppleTalk 1 and 2 routing
X
X
X
X
X
CMF4
X
X
X
X
X
Up to 128 IP multicast groups
X
X
X
X
X
IP multicast routing with up to 12,000 groups (S, G)
X
X
X
X
X
Load balancing among two equal-cost paths
based on source and destination IP and IPX addressesX
X
X
X
X
Up to six equal-cost paths for
IP and IPX; per-packet load balancing for IPXX
X
X
X
X
BGP5
X
X
X
X
X
RIP6 and RIP II
X
X
X
X
X
IGRP7
X
X
X
X
X
EIGRP8
X
X
X
X
X
OSPF9
X
X
X
X
X
Routing protocol MIB support (OSPF, BGP)
X
X
X
X
X
IPX10 RIP and EIGRP
X
X
X
X
X
PIM11 —sparse and dense modes
X
X
X
X
X
RTMP (AppleTalk Routing Table Maintenance Protocol)
X
X
X
X
X
AURP12
X
X
X
X
X
Secondary addressing
X
X
X
X
X
Static routes
X
X
X
X
X
CIDR13
x
x
x
x
x
Bundling of up to four Fast Ethernet ports
in a maximum of 56 FECsx
x
x
x
x
Load sharing based on source and destination IP addresses
of unicast packetsx
x
x
x
x
ISL trunking (routing/bridging)
x
x
x
x
x
ISL on the Fast EtherChannel
X
X
X
X
X
IEEE 802.1Q routing/bridging on the Fast EtherChannel
x
x
x
x
x
Up to 56 active FEC and GEC port channels in one system
x
x
x
x
x
Up to 64 active FEC and GEC port channels in one system
x
x
x
x
x
Bundling of up to four Gigabit Ethernet ports
x
x
x
x
x
Load sharing based on source and destination IP addresses
of unicast packetsX
X
X
X
X
Load sharing for bridge traffic based on MAC address
X
X
X
X
X
Two 1-port enhanced Gigabit Ethernet port adapters with built-in ACL functionality and 16, 64, or 256 KB of memory available for routing tables
x
x
x
x
x
MAC address filtering standard ACL
x
x
x
x
x
IP simple ACL
(1-99, 1301-1999)x
x
x
x
x
IP extended ACL (100-199, 2000-2699)
•TCP ACL based on TCP-precedence, TCP port number, TCP ToS, and TCP flags
•UDP ACL based on UDP port number
•ICMP ACL
x
x
x
x
x
IPX standard ACL (800-899) without source node
x
x
x
x
x
ACL on Fast EtherChannel and Gigabit EtherChannel
X
X
X
X
IOS ACL for control plane traffic
(for example, route update filter)x
x
x
x
x
Named ACL
x
x
x
x
x
BOOTP14
x
x
x
x
x
CGMP15 server support
x
x
x
x
x
CDP16 support on Ethernet ports
x
x
x
x
x
DHCP17 Relay
x
x
x
x
x
HSRP18 over 10/100 Ethernet, Gigabit Ethernet, FEC,
GEC, and BVI19x
x
x
x
x
ICMP20
x
x
x
x
x
NTP21
IGMP22
x
x
x
x
x
IPX SAP23 and SAP filtering
x
x
x
x
x
SNMP24
x
x
x
x
x
Maximum of 32 active bridge groups with BVI
x
x
x
x
x
Bundling of up to four Fast Ethernet ports
in a maximum of 64 FECsx
x
x
x
x
UDP25 turbo flooding
x
x
x
x
x
802.1q-based VLAN routing support
x
x
x
x
x
Route filtering
x
x
x
x
x
ISL support on the GEC
x
x
x
x
x
IEEE 802.1Q routing support on the GEC
x
x
x
x
x
Group Virtual Interface (BVI)
x
x
x
x
x
Support for up to 200 IPX networks on interfaces and subinterfaces
x
x
x
x
x
1-port packet-over-SONET OC-12c uplink port adapter with
built-in ACL functionality and a 1-port enhanced
Gigabit Ethernet port adapterx
x
x
x
x
IS-IS26 routing protocol
x
x
x
x
x
Switching database manager
x
x
x
x
x
ATM uplink: UNI 3.0
x
x
x
x
x
ATM uplink: UNI 3.1
x
x
x
x
x
ATM uplink: ILMI 3.1
x
x
x
x
x
ATM uplink: RFC 1483 for Bridging
x
x
x
x
x
ATM uplink: RFC for Routing (IP, IP multicast, IPX)
x
x
x
x
x
ATM uplink: RFC 1483 SVC support
x
x
x
x
x
ATM uplink: 13-bit virtual circuit number with up to 8K VCs
x
x
x
x
x
ATM uplink 4096 simultaneous SARs
x
x
x
x
x
ATM uplink: AAL 5
x
x
x
x
x
ATM uplink: F4 and F5 flows of OAM cells
x
x
x
x
x
ATM uplink: Traffic shaping
x
x
x
x
x
POS: RFC 1619 PPP over SONET/SDH
x
x
x
x
x
POS: RFC 1662 PPP in HDLC-like framing
x
x
x
x
x
POS: IP fragmentation for POS and ATM uplink
x
x
x
x
x
POS: SONET MIB as defined in RFC 1575
x
x
x
x
x
POS: Transparent Bridging (PPP/HDLC encapsulation)
x
x
x
x
x
POS: SPE payload scrambling
x
x
x
x
x
POS: SONET alarms (LOS, LOF, AIS, and RDI detection/reporting)
x
x
x
x
x
POS: Threshold Crossing Alerts for B1, B2, B3 with configurable thresholds
x
x
x
x
x
Online diagnostics providing the following types of tests:
Access tests between the route processor and the ports
Online insertion and removal (OIR) diagnostic tests
Snake tests through the switch router to ensure connectivity between the ports
x
x
x
x
x
Port aggregation protocol (PAgP) on the EtherChannels.
X
X
X
X
X
MSDP and MBGP Broadcast
X
X
X
X
ACL on Fast EtherChannels and Gigabit EtherChannels
X
X
X
X
Multiprotocol Label Switching (MPLS), Label Edge Router (LER) on Gigabit Ethernet interface modules and POS uplinks
X
X
X
IP QoS support on Gigabit Ethernet interface modules.
X
X
X
VC Bundling on the ATM uplink module.
X
X
X
CiscoView Autonomous Device Package (ADP).
X
X
X
Policy Based Routing (PBR).
X
X
X
Rate Limiting and per port Traffic Shaping.
X
X
X
Per Packet Load Sharing
X
1 integrated routing and bridging
2 CPU redundancy for the Catalyst 8540 CSR
3 Inter-Switch Link
4 Constrained Multicast Flooding
5 Border Gateway Protocol
6 Routing Information Protocol
7 Interior Gateway Routing Protocol
8 Enhanced Interior Gateway Routing Protocol
9 Open Shortest Path First
10 Internet Packet Exchange
11 Protocol Independent Multicast
12 AppleTalk Update-based Routing Protocol
13 Classless Interdomain Routing
14 Bootstrap Protocol
15 Cisco Group Management Protocol
16 Cisco Discovery Protocol
17 Dynamic Host Configuration Protocol
18 Hot Standby Routing Protocol
19 Bridge-Group Virtual Interface
20 Internet Control Message Protocol
21 Network Time Protocol
22 Internet Group Management Protocol
23 Internet Packet Exchange Service Advertisement Protocol
24 Simple Network Management Protocol
25 User Datagram Protocol
26 Intermediate System-to-Intermediate System
Release Names, Versions, and Part Numbers
Table 6 lists the release names, versions, and part numbers used with the Catalyst 8540 MSR and Catalyst 8540 CSR switch routers.
.
New and Changed Information
This section lists new features that appear in this and previous releases of Cisco IOS Release 12.1. The new features are sorted by release number.
New Features in Release 12.1(10)E
Catalyst 8540 MSR
The following new features are available for the Catalyst 8540 MSR in Cisco IOS Release 12.1(10)E:
•Priority Soft PVC Preservation on IMA Bandwidth Reduction
•Standard Signalling for Frame Relay Soft PVCs
•Scheduler Enhancement for ATM PVC/PVP
•Per Packet Load Sharing
•ATM Threshold Group Enhancements
Catalyst 8540 CSR
The following new feature is available for the Catalyst 8540 CSR in Cisco IOS Release 12.1(10)E:
•Per Packet Load Sharing
New Features in Release 12.1(7a)EY1
There are no new features in Cisco IOS Release 12.1(7a)EY1.
New Features in Release 12.1(7a)EY
Catalyst 8540 MSR
The following new features are available for the Catalyst 8540 MSR in Cisco IOS Release 12.1(7a)EY:
•Policy Based Routing.
•Soft PVCs on the ATM Router Module and the Enhanced ATM Router Module.
•VBR on ATM Router Module support.
•Shaped Tunnel Support for the ATM Router Module.
•Rate Limiting and per port traffic shaping.
•Multiprotocol Label Switching (MPLS), Label Edge Router (LER) on Gigabit Ethernet interface modules and POS uplinks.
•IP QoS support on Gigabit Ethernet interface modules.
•SVC, Soft-VC, and PVC preservation on a route processor switchover.
•Mobile PNNI.
•CiscoView Autonomous Device Package (ADP).
•Radius Support (TACACS+-like authentication).
Catalyst 8540 CSR
The following new features are available for the Catalyst 8540 CSR in Cisco IOS Release 12.1(7a)EY:
•Multiprotocol Label Switching (MPLS), Label Edge Router (LER) on Gigabit Ethernet interface modules and POS uplinks.
•IP QoS support on Gigabit Ethernet interface modules.
•VC Bundling on the ATM uplink module.
•CiscoView Autonomous Device Package (ADP).
•Policy Based Routing (PBR).
•Rate Limiting and per port Traffic Shaping.
New Features in Release 12.1(6)EY
Catalyst 8540 MSR
The following new features are available for the Catalyst 8540 MSR in Cisco IOS Release 12.1(6)EY:
•ITT Enhancements.
•ACL on Fast EtherChannels and Gigabit EtherChannels.
Catalyst 8540 CSR
The following new features are available for the Catalyst 8540 CSR in Cisco IOS Release 12.1(6)EY:
•MSDP and MBGP Broadcast.
•ACL on Fast EtherChannels and Gigabit EtherChannels.
New Features in Release 12.1(5)EY
Catalyst 8540 MSR
The following new features are available for the Catalyst 8540 MSR in Cisco IOS Release 12.1(5)EY:
•CES Soft PVC Per Interface State.
•Catalyst 8540 Enhanced ATM Router Module.
See the " Related Documentation" section for a list of documents that describe these features.
Catalyst 8540 CSR
The following new feature is available for the Catalyst 8540 CSR in Cisco IOS Release 12.1(5)EY:
•Port aggregation protocol (PAgP) on EtherChannels.
See the " Related Documentation" section for a list of documents that describe this feature.
New Features in Release 12.0(13)W5(19c)
Catalyst 8540 MSR
The following new features are available for the Catalyst 8540 MSR in Cisco IOS Release 12.0(13)W5(19c):
•Online diagnostic test:
–Accessibility tests between the route processor and the interface modules and the route processor and the switch processor.
–Online insertion and removal (OIR) diagnostic tests.
–Snake tests through the switch router to ensure connectivity between the ports.
See the " Related Documentation" section for a list of documents that describe these features.
Catalyst 8540 CSR
The following new features are available for the Catalyst 8540 CSR in Cisco IOS Release 12.0(13)W5(19c):
•Online diagnostics on the route processor, providing the following types of tests:
–Access tests between the route processor and the ports.
–Online insertion and removal (OIR) diagnostic tests.
–Snake tests throughout the switch router to ensure connectivity between the ports.
See the " Related Documentation" section for a list of documents that describe these features.
Caveats for the Catalyst 8540 MSR
This section lists caveats for the Catalyst 8540 MSR by tracking number (DDTS #) and release number, and indicates whether the caveat has been corrected. An "O" indicates that the caveat is open in that release; a "C" indicates that the caveat is closed in that release. To find caveats for the Catalyst 8540 CSR see the "Caveats for the Catalyst 8540 CSR" section.
Table 7 lists caveats for the Catalyst 8540 MSR:
Caveats for the Catalyst 8540 CSR
This section lists caveats for the Catalyst 8540 CSR by tracking number (DDTS #) and release number, and indicates whether the caveat has been corrected. An "O" indicates that the caveat is open in that release; a "C" indicates that the caveat is closed in that release. For information on Catalyst 8540 MSR see "Caveats for the Catalyst 8540 MSR" section.
Table 8 lists caveats for the Catalyst 8540 CSR:
Caveat Symptoms and Workarounds
This section summarizes caveat symptoms and suggested workarounds for the Catalyst 8540.
•CSCdv65055
Symptom: Configuring different encapsulations on 2-port Gigabit Ethernet subinterfaces clears the existing active configuration when multiple sub-interfaces are present on a main interface.
Workaround: All subinterfaces have to be configured with the same encapsulation (either 802.1 Q or Inter-Switch Link [ISL]).
•CSCdv60858
Symptom: A crash occurs while configuring BVI/eigrp, or while powering off the redundant power supply.
Workaround: None.
•CSCdv55117
Symptom: A Catalyst 8540 MSR locks up when configuring ATM port snooping. The switch lockup can occur if ATM port snooping is configured without an analyzer connected to the snoop port.
Workaround: 1.- Load the most recent version of Cisco IOS.
or
2.- Have the analyzer connected to the snoop port prior to configuring ATM port snooping. Keep the analyzer connected until the snoop configuration is removed.
•CSCdv49358
Symptom: When a circuit emulation service (CES) circuit that is carrying traffic is removed, no warning message is shown.
Workaround: None.
•CSCdv48352
Symptom: When running Cisco IOS Release 12.0(18)W5(22) on a Catalyst 8540 MSR, or on a LightStream 1010, interoperability problems occur when peers run an older IOS version, and tunnels and SVC/Soft VCs are used.
Workaround: Upgrade all switches to the most current IOS release.
•CSCdv45286
Symptom: Point-to-multipoint PVCs that are configured by using SNMP are not preserved across route processor switchovers.
Workaround: Disable the dynamic synchronization feature.
•CSCdv43426
Symptom: When a Catalyst 8540 MSR has a large number of inverse multiplexing over ATM (IMA) port adapter modules, a message similar to the following is generated:
-Process= "IMAPAM Onesec", ipl= 6, pid= 70
-Traceback= 600D8280 600D8644 6049F928 600C03CC 600C03B8
%SCHED-3-THRASHING: Process thrashing on watched message event.
Workaround: None.
•CSCdv39810
Symptom: When both the primary and secondary route processors are up and running, on the secondary the output of the show atm interface resource atmx/y/z command for an inverse multiplexing over ATM (IMA) interface shows all the available cell rates as zero. This results in loss of all VCs (that pass through the IMA interface) requiring guaranteed service (such as CBR, VBR, ABR with MCR, UBR).
Workaround: None. Upon switchover, the new primary route processor recovers from the problem.
•CSCdv39328
Symptom: When using a Packet Over SONET card, the Open Shortest Path First (OSPF) routes do not come up after a route processor switchover, even though they were up before the switchover.
Workaround: None.
•CSCdv28704
Symptom: Untagged packets are bridged between 8-port Gigabit Ethernet subinterfaces in the same card. This happens even when they are part of different bridge-groups.
Workaround: Configure a different native VLAN for each 8-port Gigabit Ethernet interface with subinterfaces in the same card.
•CSCdv22476
Symptom: The Soft-VC permanent virtual connection (PVC) status is indicated as ACTIVE only when the Soft VC is established, and its connection state is UP. If the Soft VC is not connected, the source end of the Soft VC indicates the PVC status as INACTIVE instead of ACTIVE, and the destination end of the Soft VC does not exist, and therefore indicates the PVC status as DELETED.
Workaround: None.
•CSCdv21447
Symptom: On a Catalyst 8540 MSR, an SNMP query on the table ciscoLS1010PortTable, or on the object ciscoLS1010PortIfIndex, might result in a crash.
Workaround: None.
•CSCdv21398
Symptom: The Management Information Base (MIB) object "ifAdminStatus" shows "UP" for an ADMIN DOWN E1 Controller after a reload or a route processor switchover.
Workaround: Enter the no shutdown/shutdown command sequence on the controller.
•CSCdv20152
Symptom: After disabling the synchronization of both the running configuration and the startup configuration, a switchover results in connection installation failure, and the failure of all Layer 3 and ARM card downloads.
Workaround: None.
•CSCdv15900
Symptom: In a primary/secondary redundant router configuration, virtual-circuit cross-connections and virtual channel link (VCLs) that are in the primary router and are deleted by using the Simple Network Management Protocol (SNMP) are still present in the secondary router. Minutes after the configuration change, the deleted elements are still present in the secondary router. If SNMP is used to write the running configuration to the startup configuration, a message is generated that indicates the configuration was received on the secondary router. When the primary router is reloaded, the secondary takes over, but does not reflect the change in its running configuration, even though the startup configuration correctly indicates the cross-connects/VCLs are deleted.
Workaround: None.
•CSCdv15892
Symptom: After a reload of the primary router in a primary/secondary redundant Catalyst 8540 configuration, the secondary router cannot fetch as many of the elements of the atmVcCrossConnectTable as are known to exist. The following message appears when a get is attempted, and fails, on the table:
00:22:13: %ATMCORE-3-INTERNAL_ERROR: ATOM ERROR: ifCB_p=NULL for highIf
Workaround: None.
•CSCdv15294
Symptom: When Frame Relay/ATM Network Interworking (FRF.5) is configured on a Catalyst 8540, traffic above the peak information rate is dropped, and the INPUT ERROR counter is incremented, rather than the INPUT DROPS counter.
Workaround: None.
•CSCdv15245
Symptom: With a Frame Relay-ATM Soft-VC setup in FRF5, UPC on the passive side is always set to PASS, regardless of the hard setting on the serial interface with the frame-relay upc-intent tag-drop command. The default is PASS. When this is changed to tag-drop, the configuration does not reflect the change and the show vc int serial command always shows the UPC intent as PASS.
Workaround: None.
•CSCdv15238
Symptom: Cisco Discovery Protocol (CDP) does not work over Portchannel platforms.
Workaround: None.
•CSCdv14914
Symptom: After switch processor switchover, interfaces that were up prior to the switchover become administratively down.
Workaround: After switch processor switchover, enter the no shutdown command to make the interface up.
•CSCdv14286
Symptom: Use of the epc portstuck-manual-reload command on a port channel causes a Catalyst 8540 to crash.
Workaround: The epc portstuck-manual-reload command should be used only on physical ports; it should not be used on logical ports. If a port-channel member needs to be reloaded, individually reload each physical port in the port channel. Allow approximately 1 minute for the port to reload/recreate the VCs, before using this CLI on the next port.
•CSCdv11518
Symptom: After the Tag Distribution Protocol (TDP) toggles from down to up ("flaps") on the Label Controlled ATM (LC-ATM) interface, it takes a long time for the interface to become TDP ready. Entering the show tag-switching tdp discovery command might indicate that TDP is not ready, and TVCs might still be allocated on the interface. This can occur under stressful conditions in which cross-connections fail to be de-allocated on the ATM switching fabric.
Workaround: None.
•CSCdv11342
Symptom: Catalyst 8540 MSRs connected in a ring configuration (via OC-48 modules) experience problems recovering from a power outage. Symptoms include OC-48 interfaces on one side of the connection being DOWN/DOWN while the directly connected interface is UP/UP.
Workaround: This problem occurs only as a result of a bad clock configuration on the entire network. Power cycle the router, then restart it from the command line; after this has been done, enter the shutdown/no shutdown command sequence.
•CSCdv10886
Symptom: The unframed mode is not preserved when transiting across route processor switchovers.
Workaround: Delete the serial interface, and use the CLI to recreate it.
•CSCdv09975
Symptom: When the shutdown/no shutdown command sequence is entered for a port in a CES card, a burst of bit errors can be observed on the circuit on some other port of the same port adapter.
Workaround: None.
•CSCdv07613
Symptom: Under stressful conditions such as large topology changes, TVC cross-connections might fail to be removed from the ATM switching fabric, causing the TC-ATM function to repeat attempts to remove the TVCs. This might lead to the TC-ATM state process entering a bad state, and to an error message being displayed.
Workaround: None.
•CSCdv06370
Symptom: Not all of the contents of the atmVcCrossConnectTable can be seen after the removal and re-insertion of a module. The message:
%ATMCORE-3-INTERNAL_ERROR: ATOM ERROR: ifCB_p=NULL for lowIf
is seen on the console during some Simple Network Management Protocol (SNMP) get operations.
Workaround: None.
•CSCdv05328
Symptom: During the Interim Local Management Interface (ILMI) batch synchronization process, only the last LAN Emulation Configuration Server (LECS) address can be successfully synchronized from the active route processor to the standby route processor. This affects redundancy support for the service registry feature only when more than one LECS address has been configured on the active route processor.
Workaround: None.
•CSCdv00784
Symptom: After a reload, a permanent virtual connection (PVC) is not set up.
Workaround: PVCs should be created either 1) using connection traffic table (CTT) rows created through use of the Simple Network Management Protocol (SNMP) or through the command line interface (CLI), or 2) using the default CTT rows (1 - 6). One way to determine whether a CTT row has been created through the SNMP or CLI is to enter the show running-config command; only CTT rows that can be used to create PVCs are listed in the output.
•CSCdv00341
Symptom: When RFC 1483 bridged frames are sent with PID 0x0001 to the controller of a Catalyst 8540 enhanced ATM router module, the frame is corrupted. This might show up as "dispose ip.formaterr" from "debug ip error output".
Workaround: If the equipment that sends the frames can be configured so that it sends RFC 1483 bridged frames with PID 0x0007 only, make that change. In all other cases, there is no workaround.
•CSCdu86714
Symptom: The system crashes when changing a Bridge Group Virtual Interface (BVI) to a non-BVI using the same IP address.
Workaround: None.
•CSCdu86398
Symptom: What is present in the Patricia trie in the Ethernet processor interface is out of synchronization with what is present in IP Cisco Express Forwarding (CEF). This might cause connectivity problems. This problem only exists on Ethernet processor interfaces; entries in the Switching Database Manager (SDM) on Gigabit processor interface cards are not affected.
Workaround: Find the route (for example, the route network_x) that is not consistent with IP CEF; enter (in the case of this example) the clear ip route network_x command.
•CSCdu83797
Symptom: Some point-to-multipoint crossconnnect entries are missing from the atmVcCrossConnectTable when the point-to-multipoint root if-index is higher than the if-index of the leaves.
Workaround: None.
•CSCdu83707
Symptom: Interfaces with Tag enabled get stuck in the TDP not ready state.
Workaround: None. The only way to bring up the Tag on such interfaces is via system reload.
•CSCdu83704
Symptom: During TagVC installation, if the switch driver returns an error, the Connection Manager leaves the TagVC in the wrong FSM state. This can lead to TVCs existing on an interface when there are no tag bindings.
Workaround: None; reload the switch to clear such unused TVCs.
•CSCdu82922
Symptom: When running Cisco IOS Release 12.0(13)W05(19), a bus error causes the system to restart. This occurs when an 8-port Gigabit Ethernet card with control traffic is at or near its traffic capacity.
Workaround: None.
•CSCdu78141
Symptom: If a large frame or packet (more than 6096 Bytes) is received on the tag control virtual circuit (0/32 of an interface enabled for tag switching), the frame is not purged from the switch fabric. Subsequent packets received on this virtual circuit are dropped, causing the Tag Distribution Protocol (TDP) and the routing session (OSPF) to time out.
Workaround: Disable, then re-enable, tag switching on the affected interface; subsequent occurrences can be avoided by increasing the queue depth, using the following entry:
atm threshold 2 max-queue-limit 511
•CSCdu78056
Symptom: The SNMP TRAP object ccrCpuStatusChange returns an invalid value.
Workaround: None.
•CSCdu75164
Symptom: The ATM router module portstuck recovery code does not always work.
Workaround: None.
•CSCdu74491
Symptom: After reloading the core switch, all neighboring switches running 12.0(16)W6(21) or 12.0(16)W6(21a) crash, and a message similar to the following is generated:
Jul 14 05:00:09: %ATMSIG-3-FAILXCONN: Xconnect failed, xconn fail
-Traceback= 6054A204 6054C0A0 60556188 60545538 6054561C 6009930C 600992F8
Queued messages:
Jul 14 05:00:09: %SYS-3-LOGGER_FLUSHING: System pausing to ensure console debugging output.
Jul 14 05:00:09: %ATMSIG-3-FAILXCONN: Xconnect failed, xconn fail
-Traceback= 6054A204 6054C0A0 60556188 60545538 6054561C 6009930C 600992F8
Jul 14 05:00:09: ATMSIG(10/0/0:0 0,66 - 0004/25): (vcnum:0) XConnected failed To
Jul 14 05:00:09: ATMSIG(ATM13/0/0 0,111 - 0046/25): (vcnum:111)
Jul 14 05:00:09: ATMSIG: CONNECTION MANAGER/CAC Xconn install request
Port A - (10/0/0) : 0 vpi = 0; vci = 66
Port B - (13/0/0) : 0 vpi = 0; vci = 111; new vpi = 0; new vci = 111 existing vpi/vci for leg B
Jul 14 05:00:09: ATMSIG: CONNECTION MANAGER/CAC Xconn install result
CONN_INSTALL_RESULT_HW_FAIL
Workaround: None.
•CSCdu74378
Symptom: Channel stuck detection/recovery doesn't work sometimes for ARM port.
Workaround: Enter the sh epc portstuck arm command to determine whether "stat_sent" or "stat_rcvd" counters are incrementing up on only one channel of any ATM router module port. If the counters are incrementing up on only one channel, this might indicate the problem is a stuck channel; enter the epc portstuck-manual-reload interface command to manually reload the port.
•CSCdu73081
Symptom: Over an 8-port Gigabit Ethernet interface, a ping to a Bridge Group Virtual Interface (BVI) fails over a dot1q subinterface which has a VLAN ID of 1 that is native VLAN.
Workaround: Configure the dot1q VLAN ID to a value other than 1 for a native VLAN (for example, configure dot1q vlan id 3 as native VLAN).
•CSCdu69809
Symptom: A port of a 4-port DS3 port adapter for LightStream 1010s and for Catalyst 8540s is in a yellow or red alarm state, and stops sending DS3 framing for a brief time when the alarm is cleared from the interface and the interface transitions to an UP/UP state. The loss of frame (LOF) can be seen when the Acterna tool TBERD is connected to the TX port of the DS3 port.
Workaround: None.
•CSCdu68207
Symptom: When operating at 75 to 100% of wire speed with a packet-size range of 64 to 84 bytes, a simple marking-action in an IPQoS service policy causes a port-stuck condition in an Enhanced Gigabit Ethernet processor interface card.
Workaround: None.
•CSCdu66950
Symptom: On performing an route processor switchover, there might be a CPU-HOG of about three seconds. This seems to occur within two seconds of switchover.
Workaround: Do not configure timers (e.g ILMI keepalive, SSCOP no-response etc.) under 6.2 secs. The same rule should be followed for any other protocols that have keepalives. some of the keepalives are interface level and could cause all the calls to be lost (e.g ILMI keepalive).
Do not perform back-to-back switchovers (if operator initiated). If such switchovers were to happen there would be call loss. Always enter the show atm sig statistics command on the interface of the neighboring switch that connects to the Catalyst 8540. Check the count of outgoing status inquiries and see whether all have been completed. Clear the counters by entering the clear atm sig stat command before initiating the switchover.
•CSCdu69775
Symptom: When several SVCs are created through the switch router, and an route processor switch-over is done before the initial sync is completed, CPU-HOG and ILMIOPTIPOLLFAIL error messages might be seen on the new primary route processor.
Workaround: None.
•CSCdu68625
Symptom: If a module sync starts or ends while a configured soft VC has not yet been installed or both legs of a PVC are not configured, the following error might display:
%ATMCORE-3-INTERNAL_ERROR: atmCore_connLegRecord_t: null ptr
The module syncs start from booting the secondary route processor or enabling syncs, by entering the sync dynamic-info command. The module syncs can end by bringing down the redundant route processor or disabling syncs with the no sync dynamic-info command. This does not affect functionality.
Workaround: None.
•CSCdu60708
Symptom: If the well known VC`s of a tunnel are deleted and configured manually and a route processor switchover occurs then these manually configured VC`s might not be recognized by the new primary route processor. Instead, they are replaced with the default well known VC.
Workaround: None.
•CSCdu58391
Symptom: The switch might hang during a manual switch processor "switch over" that follows a route processor switchover.
Workaround: Allow two minutes between manual route processor switchovers and manual switch processor switchovers.
•CSCdu57077
Symptom: In a network running cell-mode MPLS (tag switching) with a large number of IP routes (and consequently, with many TVCs being setup), a 16-port OC-3 interface module might fail to allocate a new TVC on a bind request and print out the below error message. This occurs even though the number of TVCs currently set up does not reach the limit of VCs supported on that interface or the cross-connect interface.
Jun 22 20:49:02.011: %TCATM-4-RESOURCE_LIMIT: VC resource exhausted on ATMx/y/z
Workaround: Enter the shutdown command followed by the no shutdown command on the interface for which the error message appears.•CSCdu56774
Symptom: In Cisco IOS Release 12.1(6)EY and earlier, only two equal cost IP paths were supported on Ethernet processor interface based Fast Ethernet and Gigabit Ethernet interface modules.
Workaround: Upgrade to Cisco IOS Release 12.1(7a)EY. In this release, four path load balancing for IP is available through the epc epif-4-path-lbal command.
•CSCdu52281
Symptom: The system image might crash while configuring VC bundling. This might be related to a memory cleanup process and configuring or unconfiguring VC bundles quickly might increase its likelihood.
Workaround: None.
•CSCdu50525
Symptom: The EIGRP Summary Routes are not properly populated in the adjacency table when a default route also exists. This affects the Fast Ethernet and ATM router module interfaces, but does not impact the Gigabit Ethernet interfaces.
Workaround: None.
•CSCdu44352
Symptom: A Cisco edge services router (ESR) that is running Cisco IOS Release 12.1(2)E1 experiences interoperability problems when an ATM traffic descriptor information element is included in the CONNECT message on a non-negotiated link. Under such conditions, a STATUS message is sent with cause "invalid information element contents (100)" and call will not succeed. This problem is observed when Cisco routers are connected to other vendor switches like FORE, and occurs only when UNI version is 4.0.
Workaround: None.
•CSCdu44017
Symptom: After deleting a connection, an immediate request to re-install with the same VPI/VCI results in connection-creation failure messages.
Workaround: Increase the bit map size from 32 to 64, to avoid reuse of the same VPI/VCI immediately after a call is released.
•CSCdu43346
Symptom: Signaling packets are dropped between the Catalyst 8540 and its neighboring devices during a route processor switchover. This is caused by automatic status inquiries, from both sides, that occur after a switchover.
Workaround: Perform one of the following to workaround this problem:
–Reconfigure the holdq as appropriate
–Configure the switch so that it is per interface and controls just the status inquiry rate by entering the asig status-enquiry-drain-count number command for IOS Release 12.1(7a)EY and later or by entering the atm svc-drain-count number command for earlier releases.
•CSCdu42422
Symptom: On the ATM router module, the HyBridge Input P might cause high route processor utilization.
Workaround: For every bridge group on the ATM router module, add a map-group with a corresponding map-list. Under the map-list configuration add a "bridge atm-vc XXX broadcast," where XXX is the VCI value created on the ATM router module sub-interface.
•CSCdu39907
Symptom: The no negotiation auto configuration might not be preserved in the running configuration after an OIR of an 8-port Gigabit Ethernet interface module.
Workaround: Reconfigure no negotiation auto.
•CSCdu37838
Symptom: You might not be able to change the spanning tree protocol of a bridge-group.
Workaround: Remove the current bridge-group configuration and then reconfigure it with the new spanning tree protocol.
•CSCdu35316
Symptom: A soft-vp created with VBR-NRT SC will be seen as a VBR-NRT Tx and Rx SC on the source; however, on the destination it might appear as a UBR on both Tx and Rx.
Workaround: None.
•CSCdu31884
Symptom: When SVCs go down and OSPF recalculates IP routes and updates the routing/cef/epc tables, if the switch does not have an arp entry, it will switch by using the route processor. This occurs when the network behind that "empty" arp entry is put into the epc-table, it finds no adjacency, and switches via the route processor.
Workaround: Configure 'arp timeout 0' under the ATM interfaces that are configured with SVCs.
•CSCdu26719
Symptom: The switch experiences high route processor utilization when IPX networks are added to BVI interfaces.
Workaround: This is load related; as more IPX networks are added, route processor utilization increases. If configuring bridging over ATM router module sub-interfaces, then configure a map-list for the bridged VC with the keyword bridge.
•CSCdu23372
Symptom: Cell rejects and cell drops might occur because of the nature of UBR connections and inconsistent programming of scheduler on connections going out of OC48.
Workaround: None.
•CSCdu21174
Symptom: A switch router with an eight-port Gigabit Ethernet interface module might forward duplicate broadcasts when bridging is configured on a trunk.
Workaround: None.
•CSCdu16973
Symptom: When running cell-mode MPLS on a network of Catalyst 8500s with redundant paths, conversion for MPLS after a routing change might take up to 4 1/2 minutes. OSPF converges normally.
Workaround: None.
•CSCdu11075
Ports on the Two-port Enhanced Gigabit Ethernet interface module might get stuck after an OIR.
Symptom: If a 256K Two-port Enhanced Gigabit Ethernet interface module is hot swapped with a 64K Enhanced Gigabit Ethernet interface module, the ports in 64K module might not come up.
Workaround: None.
•CSCdu07640
Symptom: The no ip route-cache cef command might disappear from the running configuration on BVI interfaces after reloading the switch.
Workaround: None.
•CSCdu04045
Symptom: ATM-SOFT-PVC-MIB atmSoftPVccRetryThreshold has an incorrect default value 0 instead of 1. This incorrect value turns on atmSoftPvcCallFailuresTrap by default and impacts the usability of the feature.
Workaround: None.
•CSCdu03779
Symptom: Ping might fail through an 8-port Gigabit interface module with dot1q/vlan 1.
Workaround: Save the configuration and reload the switch.
•CSCdu01489
Symptom: A ROMMON configuration might not work properly on a slot after performing an OIR on the interface module in that slot.
Workaround: Reload the switch router.
•CSCdu00228
Symptom: The CMPM carrier module shows the same serial numbers for the carrier module and the interface modules in it; however, when the show hardware command is entered, different serial numbers from the carrier module are shown for both the carrier module and interface modules.
Workaround: None.
•CSCdt96722
Symptom: When video traffic is sent through an eight-port Gigabit Ethernet interface module traffic might be bursty because of packets being delivered out of order occasionally.
Workaround: None.
•CSCdt96927
Symptom: The Internetwork Packet Exchange (IPX) statistics sometimes fluctuate when no traffic is flowing through the interface. The only affected functionality is IPX statistics.
Workaround: None.
•CSCdt96389
Symptom: After rebooting the switch router, Ethernet interfaces might have invalid MAC addresses, causing connectivity problems over that interface.
Workaround: Enter the shutdown command and then the no shutdown command on the affected Ethernet interfaces.
•CSCdt93866
Symptom: Sending a crafted control NTP packet might cause a buffer overflow.
Workaround: Include the "ntp access-group serve-only" line in the configuration of the router.
•CSCdt91430
Symptom: Under a heavy load, the switch router mis-orders cells going out of single-port OC-12 port-adapter modules placed in a carrier module.
Workaround: Whenever a heavy load is expected on single-port OC-12 modules placed in a carrier module, reprogram the carrier module with Carrier Module FPGA Image 1.9, and upgrade the IOS image to the latest version.
•CSCdt91478
Symptom: On an OC-48 interface module, the show controllers command might show the following:
"Port status (0x80001) - ".
While normally it should report:
"Port status (0x1) - no alarms"
This does not affect functionality.Workaround: Enter the shutdown command and then the no shutdown command on the interface.
•CSCdt86869
Symptom: When the routing table exceeds 50 K routes and if 8-port gigabit ethernet interface modules are installed, a CAM full condition might occurs. This leads to a port-stuck situation.
Workaround: OIR the interface module. The 8-port gigabit ethernet interface module was not designed to handle more than 50 K routes.
•CSCdt80934
Symptom: When a static route to a connected interface is added and deleted when another static route is present in the same network, the packets might be process-switched.
Workaround: None.
•CSCdt78491
Symptom: The Online Diagnostic Snake test, which is enabled by default, might send ILMI traps when an interface changes state to UP. This can cause clients on other interfaces to reset ILMI.
Workaround: Disable the snake test by entering the no diag online snake command.
•CSCdt77421
Symptom: The following error messages might occur on a reload:
Mar 22 10:43:43: %SYS-2-WATCHDOG: Process aborted on watchdog timeout, process = TCP Timer.
-Traceback=3D 600B6498 600B9D68 600B35B8 602D2EF4 602D2DB0 6032E26C 60347EB8
Workaround: None.•CSCdt74594
Symptom: Spurious memory access might occur at lss_arm_atm_adjacency_mac(). This happens after the following warning message:
%TBRIDGE-4-VCPAKDROP: Subscriber SA 0000.0c01.50b0 moved or loop
between circuits 600 and 200
Workaround: None.•CSCdt74345
Symptom: This condition occurs when asymmetrical routing, bridge groups, and LANE clients are configured on ARM sub interfaces. The bridge groups allow bridging to ELANs on non ATM interfaces and sometimes packets destined to an outside ELAN or VLAN might be sent or received over the LANE broadcast bus for a particular LANE client. The packets should instead go over a data direct vc. This is caused by a sender's default gateway being the remote BVI instead of the local BVI.
Workaround: None.
•CSCdt74179
Symptom: In Front Panel View, if one member is removed from the Cluster, a particular device will be removed successfully, but others will show ports with cyan color, not reflecting the actual status of the ports.
Workaround: Let the Front Panel View refresh automatically or manual by pressing the refresh button or refresh menu item or close and reopen the Front Panel View window. Have to refresh the Cluster LED also along with the Cluster Data.
•CSCdt71010
Symptom: The ifTable indexes do not match the MIB-II table indexes.
Workaround: None.
•CSCdt56666
Symptom: The physical status might show that it is down while the IMA shows that it is up. This happens when there is a loss of frame (LOF) on the link. IMA dictates the state of the Receive Fault or Tranceive Fault on the link looking at the alarms OOCD, OOF, LOS and AIS. However, it does not need to look at LOF as a persisting LOF results in OOCD.
The physical status blindly looks for all the alarms on links to be 0. This is a cosmetic problem which will not affect the traffic on the link.
Workaround: None.
•CSCdt53814
Symptom: An ARM port configured for transparent bridging and in blocking state might forward certain frames.
Workaround: Depending on topology, a work-around might be to ensure that a non-ARM port is in blocking state. Where this is not feasible, power cycle the ARM port that is in blocking state.
•CSCdt53707
Symptom: A subinterface might be stuck in the waiting state after a CPU reload. The CPU reload is displayed with the show atm statistics command. This will cause the P2MP VC count to be less than what it was before CPU reload.
Workaround: To bring the subinterface up, enter the shutdown command and then the no shutdown command on the subinterface.
•CSCdt53623
Symptom: IP addresses on shutdown interfaces might be programmed as invalid host addresses after entering the epc portstuck-manual-reload command. This does not impact functionality.
Workaround: None.
•CSCdt47492
Symptom: ILMI might stay in the "waitdevtype" state after a redundancy failover. This is because on an OC3 port adapter, each of the 4 ports are served by one processor interface.
Workaround: The first port needs to be set for the other three ports to be able to receive. Sometimes this does not occur on a redundancy failover. Bring up port 0, if problem is seen on ports 1-3, port 4, if problem is seen on ports 5-7, port 8, if problem is seen on ports 9-11, and port 12, if problem is seen on ports 14-15. The ports can be brought up by connecting a loopback cable, or by simply using that port.
•CSCdt44930
Symptom: Under stressful conditions, tag virtual-circuit cross-connections fail to be set up, even though the input and output legs have been allocated. This can cause the input and/or output legs to remain allocated, but be in the NOT CONNECTED state.
Workaround: None.
•CSCdt43218
Symptom: If SVC is configured on the ARM or the Enhanced ARM and an OIR is performed on the module, the adjacency available across the SVC will remain 'Valid' on the Ethernet port interface or Gigabit Processor interface cam. This will cause packets destined to that adjacency to go into a disappear.
Workaround: Before performing an OIR on the ARM or the Enhanced ARM module, remove any sub-interfaces that have SVC configurations on them.
•CSCdt41696
Symptom: When an IOS configuration for the boot loader is set to an image on a SanDisk PC Card, the subsequent reboot with a configuration register setting of 0x2102 fails with the following message:
cs22_c84_01#reload
System configuration has been modified. Save? [yes/no]: no
Proceed with reload? [confirm]
System Bootstrap, Version 12.0(14)W5(19.29) INTERIM TEST SOFTWARE
Copyright (c) 2001 by cisco Systems, Inc.
other cpu not present....global_lock not working
This CPU is the PRIMARY
Catalyst 8540 platform with 262144 Kbytes of main memoryopen: read error...requested 0x4 bytes, got 0xfffffff8
trouble reading device magic number
loadprog: error - on file open
open: failed to find and/or load the bootloader: "disk1:cat8540c-in-mz.120-13.W5.19.bin"
loadprog: error - on file open
boot: cannot load "cisco2-Catalyst 8540"
Workaround: None.
•CSCdt40530
Symptom: When access is made to PNNI tables, a memory leak might occur. This only happens when an Network Management System (NMS) is running SNMP on the switch router.
Workaround: Turn off NMS polling of PNNI tables and use the commands instead for determining any PNNI information.
•CSCdt38604
Symptom: An IP address might not be learned by peer switch when using ILMI-status.
Workaround: None.
•CSCdt38047
Symptom: The ATM router module might get channel stuck. This stops traffic from passing through MSR. This is often initially described as a "hung" condition.
Workaround: OIR the ATM router module.
•CSCdt28324
Symptom: After performing a route processor switchover several times, and then reloading only the secondary route processor and booting up again, the primary route processor might display the following error messages:
00:45:25: %LINK-5-CHANGED: Interface ATM11/0/ima1, changed state to going down
00:45:29: %LINK-3-UPDOWN: Interface ATM11/0/ima1, changed state to up
00:48:56: wrong response present for the cmd given cmd: 0x35 resp : 0x3D
00:49:37: %SUNI622: Read diagnostics for ATM3/0/1 failed(1)
This does not impact functionality.
Workaround: None.
•CSCdt25030
Symptom: NCDP uses default address of the switch for uniquely identifying the root. The default address might get corrupted on a route processor switchover. If more than one redundant Catalyst 8540 is running NCDP then NCDP might not work as expected after a route processor switchover.
Workaround: None
•CSCdt24278
Symptom: ARM might set the CLP of all cells to 1 when bridging is configured over a 1483 PVC. This happens for cells being transmitted over the 1483 PVC only.
Workaround: None.
•CSCdt21568
Symptom: The ARM1 interface shuts down after entering the epc portstuck-manual-reload command with IP traffic.
Workaround: None.
•CSCdt21513
Symptom: Spurious memory access at lss_arm_atm_adjacency_mac might occur after entering the epc portstuck-manual-reload command simultaneously on two ARM interfaces of two connected switch routers. There is spurious memory access to both switch routers. This has no functionality impact.
Workaround: None.
•CSCdt20610
Symptom: If an 8-port Gigabit Ethernet interface module is hot swapped after configuring PAgP port channel between two Catalyst 8540 CSRs, members on the hot swapped side of the port channel move out of it while the members on the side that was not hot swapped remain in the port channel. This happens only with the 8-port Gigabit Ethernet interface module.
Workaround: After some time, PAgP might add the hot swapped interface back to the port channel. If this does not happen, configure the ports manually.
•CSCdt18467
Symptom: The port stuck message might not appear into system log.
Workaround: None.
•CSCdt17850
Symptom: If a static ARP is configured for one interface and then the IP address for that interface is moved to a sub-interface, the static ARP entry remains associated with the original interface instead of with the sub-interface.
Workaround: When the IP address is reconfigured to a sub-interface off of the original interface, delete and reconfigure the ARP address also.
•CSCdt17378
Symptom: After the switch has been running for over two hours it might start to lose traffic on its LANE/1483/1577 interfaces on the ATM router module. Frame interfaces (like Fast Ethernet) or non-LANE interfaces on the ATM router module (with configured pvc's) traffic passes without any problems. It doesn't matter if the traffic is going to the route processor not, part of the traffic is lost.
Workaround: OIR the module or reload the switch. Shutting down the ATM router module interfaces does not help.
•CSCdt17296
Symptom: After performing an online insertion and removal of an OC48 port adapter, entering the show command and the no show commands on the OC-48 might generate the following error messages:
%ATMCORE-3-INTERNAL_ERROR: connAllocateHalfLeg: tag neighbor leg present
%ATMCORE-3-INTERNAL_ERROR: atmCore_connSetupUniDirXconn: i/p Connection Leg Exists
Workaround: Perform one more online insertion and removal and ensure that at least two minutes elapse between any two online insertions and removals.
•CSCdt15978
Symptom: Telnet responses between two switch routers might be very slow.
Workaround: Replace one switch router with another that can accept ISL-frame less than 94B (for instance, the Catalyst 5000).
•CSCdt15169
Symptom: After configuring an ipx network between a Catalyst 8540 MSR and a Router 7500, the Catalyst 8540 MSR displays old buffers detected messages. This does not impact functionality.
Workaround: None.
•CSCdt13517
Symptom: A LightStream 1010 stops switching some VCs, and log error messages similar to the following example are generated:
Jan 9 12:37:34.793: ATMSIG(12/1/0:0 0,37 - 274610/00): (vcnum:0) XConnected failed To
Jan 9 12:37:34.793: ATMSIG(12/0/1:0 0,268 - 398903/00): (vcnum:0)
Jan 9 12:37:34.793: ATMSIG: CONNECTION MANAGER/CAC Xconn install request
Port A - (12/1/0) : 0 vpi = 0; vci = 37
Port B - (12/0/1) : 0 vpi = 0; vci = 268; new vpi = 0; new vci = 268 existing vpi/vci for leg B
Jan 9 12:37:34.793: ATMSIG: CONNECTION MANAGER/CAC Xconn install result
CONN_INSTALL_RESULT_HW_FAIL
Workaround: Reload the switch.
•CSCdt13310
Symptom: An active Fast Ethernet interface might become administratively down after the route processor automatically switches over following entry of the test crash command.
Workaround: None.
•CSCdt11569
Symptom: The display might show that oversized packets are on an enhanced ARM interface when the interface is a member of a BVI. This happens even when there is no traffic except BPDU and OSPF routing updates. These "large packets" are not the real traffic transiting through the ARM. They are CPU-bound traffic (i.e. routing updates). The following is the message that might occur on the console:
00:41:36: %TBRIDGE-4-GIANT: Giant received on ATM3/0/1, 1514 exceeds 1500
DA 0100.5e00.0005 SA 0001.4274.ee09 [0x080045C0]
The system recovers from this.Workaround: None.
•CSCdt10401
Symptom: After switching over the route processor several times, the following message might display:
imapam_send_stored_config: config_status is UNI
imapam_send_stored_config: config_status is UNI
imapam_send_stored_config: config_status is UNI
This happens when an IMA port adapter is present in the chassis. Once the switch router boots up no functionality impact is seen.
Workaround: None.
•CSCdt10494
Symptom: The ARM interface might indicate outgoing packets when the interface is administratively down. This does not impact the functionality.
Workaround: None.
•CSCdt10434
Symptom: When there is a lot of signaling svc setup and teardown on an nni tunnel interface, calls will fail with a vpi/vci collision.
Workaround: Use a non-tunnel interface.
•CSCdt09229
Symptom: The switch router might lose traffic on its LANE or 1483 or 1577 interfaces on ARM. Frame interfaces or non-lane interfaces on ARM with configured pvc's should pass traffic without any problems. It doesn't matter if the traffic is going to RP or not, part of the traffic is lost.
Workaround: The switch router will recover from this state only after an OIR of the module or a reload.
•CSCdt05947
Symptom: After loading the secondary route processor running a release earlier than Cisco IOS Release 12.1(7a)EY (with the primary route processor running Cisco IOS Release 12.1(7a)EY), bringing down the secondary route processor and then reloading it with Cisco IOS Release 12.1(7a)EY might cause the secondary route processor to crash.
The following error messages might appear at the time of the crash:
00:00:24: %SYS-3-BADBLOCK: Bad block pointer A8000158
-Traceback= 600C6EFC 600C87E8 60082388 600D0F5C 6039A2EC 6028E9B4 6028DFA0 600D9468 600D9520 600304E8 60030670 600BADE4 600BADD0
00:00:24: %SYS-6-MTRACE: mallocfree: addr, pc
A8000180,60082380 61DC1D7C,600739FC 61DC1AE0,60082398 A8000430,6001FDE8
A80002D8,60082380 61DC2018,600738AE 61DC1D7C,60082398 A8000588,6001FD3C
00:00:24: %SYS-6-MTRACE: mallocfree: addr, pc
A8000430,60082380 61DC22B4,60073760 61DC2018,60082398 A80006E0,6001FC90
A8000588,60082380 61DC2550,60073612 61DC22B4,60082398 A8000838,6001FBE4
00:00:24: %SYS-6-BLKINFO: Corrupted previous pointer blk A8000158, words 152, alloc 600820E8, InUse, dealloc 0, rfcnt 1
-Traceback= 600C4934 600C6F14 600C87E8 60082388 600D0F5C 6039A2EC 6028E9B4 6028DFA0 600D9468 600D9520 600304E8 60030670 600BADE4 600BADD0
00:00:24: %SYS-6-MEMDUMP: 0xA8000158: 0xAB1234CD 0xFFFFFFFE 0x0 0x60D70108
00:00:24: %SYS-6-MEMDUMP: 0xA8000168: 0x600820E8 0xA80002B0 0xA8000014 0x80000098
00:00:24: %SYS-6-MEMDUMP: 0xA8000178: 0x1 0x0 0x0 0x0
Workaround: Reload the secondary route processor.•CSCdt05390
Symptom: IP routing and IPX routing over BVI on an 8-port Gigabit Ethernet interface module might fail when the interface module is removed from the bridge group.
Workaround: None.
•CSCdt04810
Symptom: After entering the shutdown command and the no shutdown command on an ARM interface with more than 32 CLIP clients the following error message might display on the console:
00:58:16: %SYS-3-MGDTIMER: Uninitialized timer, timer stop, timer = 644B0550.
-Process= "ATM ARP INPUT", ipl= 0, pid= 30
-Traceback= 600CE1BC 600CF2A4 60792B0C 60796850 60797744 600BBA64 600BBA50shut
Enter hex value: 600CE1BC 600CF2A4 60792B0C 60796850 60797744 600BBA64 600BBA50
0x600CE1BC:mgd_timer_complain_uninit(0x600ce190)+0x2c
0x600CF2A4:mgd_timer_stop(0x600cf26c)+0x38
0x60792B0C:atm_arp_stampvc(0x60792ad4)+0x38
0x60796850:atm_inarp_rcvdreq(0x6079620c)+0x644
0x60797744:atm_arp_process(0x60796f30)+0x814
0x600BBA64:r4k_process_dispatch(0x600bba50)+0x14
0x600BBA50:r4k_process_dispatch(0x600bba50)+0x0
This does not impact functionality.Workaround: After waiting a few minutes, enter the shutdown command and the no shutdown command.
•CSCdt04356
Symptom: On a Catalyst 8500 MSR performing an ATM Frame Relay internetworking function, when the Local Management Interface (LMI) indicates a permanent virtual connection (PVC) is inactive, this information is not propagated by the ATM Frame Relay code.
Workaround: None.
•CSCdt04015
Symptom: When entering the shut down command on the OC-48 interface, the following traceback might be displayed with spurious memory access at snmp_trap:
601BABD8 60AE7404 60AE7448 60AE76B0 60AE7F38 60AEEAAC 60AF0398 60AE0D30 60096D1C 608C4924 608C5344 608C8C00 608E3380 60D06C8C 608E29DC
This does not affect functionality.
Workaround: None.
•CSCdt01451
Symptom: Entering the shutdown command on the ARM interface might cause CPU hogs if a large number of PVCs are configured on that interface.
Workaround: None.
•CSCds95813
Symptom: A system running PNNI with Cisco IOS Release 12.0(7)W5(15c) will reject an ATM call SETUP if the setup includes the 5a information element coded with associated signaling, explicit VPCI, and any VCI.
If another ATM switch sends a setup that includes the 5a information element coded with associated signaling, explicit VPCI, and any VCI, the system will release the call with cause code 35: requested VPCI/VCI not available.
Call setups that include the 5a information element coded with the associated signaling, explicit VPCI, and explicit VCI signaling, including those made by Cisco ATM switches, are not affected by this problem. This interoperability issue exists between Cisco ATM switches and other vendor switches that do not explicitly request the VCI value in the call setup.
Workaround: None.
•CSCds90383
Symptom: Spurious memory access at pim_igmp_new_dr_querier might be seen when running PIM-SM with multicast traffic on ARM interfaces. This happens when DR changes are seen. This does not impact functionality.
Workaround: None.
•CSCds81263
Symptom: When the show ip cef ip address command is entered, the output might report an invalid cached adjacency for ip addresses that are reachable through the LANE interface.
Workaround: None.
•CSCds78385
Symptom: When using the Internetwork Packet Exchange (IPX), the output of the traceroute command skips the middle hop when the middle router is a Catalyst 85xx MSR, Catalyst 85xx CSR, or LightStream 1010.
Workaround: None.
•CSCds74179
Symptom: ROMMON does not work on the Gigabit Ethernet interface module.
Workaround: None.
•CSCds73438
Symptom: When OAM management is configured on a PVC of an ARM Module in order to check the end-to-end connectivity, the sub-interface might stay up/up even if the remote end is down.
Workaround: None.
•CSCds70224
Symptom: The switch router might not send ICMP unreachable messages when an inbound access list is configured and being accessed on an interface module that has an ACL daughter card.
Workaround: None.
•CSCds51004
Symptom: When global switch ATM address prefixes are added or deleted via the atm address command, addresses registered for existing CES circuits are not changed. Therefore, the goal of changing the switch address might not be achieved (in that CES does not change its addressing, and therefore will not accept calls using the new prefix).
Workaround: This workaround is for the primary switch address only. When the address is changed, the existing circuits can be deleted and created again, and the circuits will register addresses using the new primary switch address.
•CSCds49705
Symptom: The ARM might not function correctly over 20 M. When this occurs, the ARM loses packets or port gets stuck. This occurs even when multicast is not configured.
Workaround: None.
•CSCds49175
Symptom: The show hardware detail command does not show the actual version of the FPGA for any of the daughter cards. This shows the version of the FPGA motherboard which is misleading.
Workaround: None.
•CSCds48921
Symptom: The atm arp-server nsap command is removed from the running configuration upon reloading the switch.
Workaround: The copy startup-config running-config command will restore the original configuration.
•CSCds44607
Symptom: If you save the running configuration, you may see the following error:
ROUTER# copy run start
Destination filename [startup-config]?
startup-config file open failed (File table overflow)
This happens when you enter a write mem command or a copy running-config startup-config command. Enter a show file command to show the 127 entries of private configuration.
Workaround: Save the running configuration in a file, reload the router, and then enter a write mem command or copy running-config startup-config command.
•CSCds43859
Symptom: Although packets are being sent out from an ATM OC-12 interface module, the 5-minute output rate shown using the show interface atm command indicates 0 bits per second output. This is not consistent with the output rate shown when the show atm traffic command is entered.
Workaround: None.
•CSCds40925
Symptom: When entering the show atm interface traffic command on an ATM subinterface, the total number of cells that has passed might show as zero. This rate is incorrect.
Workaround: None.
•CSCds40705
Symptom: The Xconnect setup fails for unidirectional TVC if there is another one with a different direction and the same vpi/vci on a particular interface of the Catalyst 8540 MSR. This can be seen only if VC merge is disabled.
Workaround: None.
•CSCds40640
Symptom: If you set the ARP timers on an interface and replace the module, the startup-configuration is not loaded into the card. All ARP timers are reset to default.
Workaround: None.
•CSCds33901
Symptom: When the MRP reset button is pushed, the switch router might not boot the main image. If this happens, the switch router will eventually go into ROMMON mode.
Workaround: None.
•CSCds30803
Symptom: Under certain conditions, the BVI output queue might get stuck when queuing outgoing packets but not dispatching them to hardware. This causes the output queue on the BVI interface to grow constantly.
Workaround: Create another BVI interface and move all the traffic over to the new BVI interface.
•CSCds29781
Symptom: The output errors counter is incorrect on Gigabit Ethernet show interface command. They have a high value 4xxxxxxxxx and a clear counter command does not change it back to 0. This value can increase or decrease over time.
Workaround: None
•CSCds28912
Symptom: IP traffic is not sent over a PVC if aal5mux encapsulation is used on a point-to-point subinterface on the Catalyst 8540 MSR. If the deb atm errors command is enabled, the following error messages will appear:
point-to-point interface does not have a VCD
Workaround: None.
•CSCds28286
Symptom: The route processor redundancy might fail if you have both PVC and bridging configured on the sub-interface of the ARM.
Workaround: None.
•CSCds13037
Symptom: A Catalyst 8540, which correctly boots as a fully redundant system, does not complete a route processor failover. The secondary route processor, as it resumes function as the primary after a failover, displays the following error:
%Secondary route processor Detected remove_conn_from_fabric: Error close party failed for ...
Workaround: None.
•CSCds09323
Symptom: The ATM router module does not strip the Ethernet pad when switching data from Ethernet to ATM. This might occasionally lead to connectivity issues since some end systems do not expect to see the pad.
Workaround: None.
•CSCds08999
Symptom: When an enhanced Gigabit Ethernet interface module sends out ISL packets with packet sizes 1531 to 1548, the output error counter on the egress port increases.
Workaround: None.
•CSCds08237
Symptom: The hierarchical VP tunnel configuration fails on a WAI-OC3-1S3M mixed mode port adapter module when it is in slot 0 subslot 1 of the C85MS-SCAM-2P carrier module. Slot 0 subslot 0 of the carrier module can either be empty or have another card in it, and hierarchical VP tunnel configuration will still fail. However, if the mixed mode pam is inserted in slot 0 subslot 0 of the carrier module, then the hierarchical VP tunnel can be configured.
Workaround: None.
•CSCds00193
Symptom: The ifSpeed is reported as 100MB even when the auto-negotiation results in 10MBit.
Workaround: None.
•CSCdr96966
Symptom: When using SNMP to monitor the status of each interface module and submodule in the chassis, the output does not give all interface modules. However, when entering the show hardware command, all interface modules appear.
Workaround: None.
•CSCdr93044
Symptom: An 8-port Gigabit interface module port that is shut down might come up after an OIR.
Workaround: Enter the shutdown command on the affected port.
•CSCdr86386
Symptom: When a Catalyst 5500 connected to a Catalyst 8540 CSR is powered down, the BVI interface does not receive EIGRP and ospf multicast hello packets.
Workaround: None.
•CSCdr77057
Symptom: The ATM router module microcode for RFC1483 did not have the ability to understand CLNS topology updates, forcing the card to drop packets. This also affected the IS-IS routing updates.
Workaround: Upgrade to the Cisco IOS release 12.0(11)W5(19).
•CSCdr76566
Symptom: There is no support for SONET MIB objects in ATM uplink module.
Workaround: None.
•CSCdr74119
Symptom: The router reloads when handling internetworking packet exchange (IPX) access-logging-messages. This situation may still occur if access-logging is not enabled.
You may exceed the 200 IPX network limit when the hardware is activated after being removed. When the hardware is reactivated, the interfaces that were not counted while the hardware was removed cause the limit to be exceeded.
Workaround: None.
•CSCdr69004
Symptom: When auto negotiation is disabled on an enhanced two-port Gigabit Ethernet port, it is up even if the GBIC is not present.
Workaround: None.
•CSCdr66338
Symptom: The static bridging command disappears from the running configuration.
Workaround: None.
•CSCdr65079
Symptom: When the module is removed from the switch, the interfaces continue to show as inserted and also the IDB's are not deleted. This is not seen when time is given between the act of insertion and removal of the modules.
Workaround: Wait two minutes after OIR before inserting a new interface module into the switch.
•CSCdr58521
Symptom: On the ATM uplink any packet routed on a point-to-point interface will be routed by the route processor.
Workaround: Do not configure point-to-point subinterfaces on the ATM uplink.
•CSCdr56326
Symptom: When reloading a new image into the enhanced two-port Gigabit Ethernet interface module the ATM uplink enhanced Gigabit interface appears to have been reset. The enhanced two-port Gigabit Ethernet interface module download shows no effect on the ATM uplink.
Workaround: None.
•CSCdr52527
Symptom: There is no instance of ACL card in the MIB table.
Workaround: None.
•CSCdr46754
Symptom: With an encapsulation change on a two-port Gigabit Ethernet interface module, the interface no longer sends packets. It seems that it is receiving packets and sending packets to the route processor when necessary, but the packets are not sent.
Workaround: None.
•CSCdr45513
Symptom: When the 8540 is powered-up or power cycled, the shutdown/no shutdown command has to be entered on the CBR ports to activate the CBR ports.
Workaround: None.
•CSCdr43610
Symptom: When two 8540 CSR switch routers are directly connected by a two-port Gigabit Ethernet interface module, a reset of one switch router does not cause the remote switch router's interfaces to go down too. The problem is caused by the reset switch router's interfaces not going down, so remote interfaces do not go down.
Workaround: Physically remove the cable from the ports or enter the shutdown command.
•CSCdr40560
Symptom: In some instances, an ATM interface on a Catalyst 8540 MSR might get stuck in a going down state.
Workaround: None.
•CSCdr38540
Symptom: When entering the shutdown/no shutdown command on an ATM interface with a large number of VCs, the route processor utilization stays high for a long period of time. For example, for an 8K VC, the route processor stays high for approximately 720 seconds, and for 4K VCs, approximately 300 seconds.
Workaround: None.
•CSCdr34241
Symptom: The prompt on the secondary route processor does not reflect the hostname of the switch router after a sync.
Workaround: None.
•CSCdr32957
Symptom: When configuring region sizes you are not considering the ACL region size when checking for the total size. Configuration allows regions sizes exceeding total Tcam size. No error message is printed at the time of configuration but upon next boot you get the following error messages:
ACL cannot be enabled on GigabitEthernet0/0/0 - insufficient TCAMAvailable: 24 Configured for ACL: 2048 Use sdm access-list command to reconfig
Workaround: None.
•CSCdr30765
Symptom: The ip cef command does not re-enable the CEF switching on the Catalyst 8540 when it was previously disabled due to lack of memory. The Catalyst 8540 requires CEF switching but this can become disabled if insufficient memory is available. When insufficient memory is available, the following message appears:
"%FIB-2-FIBDOWN: CEF has been disabled due to a low memory condition.
Workaround: None.
•CSCdr25535
Symptom: An ima_failure_trap might not be generated when an IMA group gets deleted and the group state change might not be sensed by the switch processor.
Workaround: None.
•CSCdp78227
Symptom: After reloading the switch, the route processor that was the primary route processor might become the secondary route processor and the route processor that was the secondary route processor might become the primary route processor.
Workaround: None.
•CSCdp55616
Symptom: When you change the port speed from 10 to 100 on a Catalyst 8540 CSR running 12.0(5)W5(13), enter the shutdown and no shutdown commands for the new setting to take effect.
Workaround: None.
•CSCdp54731
Symptom: Fast Ethernet interfaces that are in shutdown mode have packet output and bytes incrementing in the show interface command.
Workaround: Enter the clear counters command.
•CSCdp39811
Symptom: The root cause of this is that the HSRP specific structures are not properly updated when an interface goes down or when a card is removed.
Workaround: Remove HSRP from the configuration before removing the card.
•CSCdp30288
Symptom: The above message is sometimes received. This message is can be ignored.
Workaround: None.
•CSCdm60257
Symptom: When you reload a Catalyst 8540 MSR with a redundant route processor, the secondary route processor will become the primary route processor after the reload.
The uptime shown when you enter the show version command is the uptime of the boot image. This should be the uptime of the running IOS software.
Workaround: None.
•CSCdm41015
Symptom: The above messages may appear on the console. They are not reproducible. The message appears on subinterface ATM11/0/0.14 on the ATM router module port.
Workaround: None.
•CSCdm23149
Symptom: Under extreme low-memory conditions, if a switch is configured with lots of hierarchical tunnels and LANE components are configured on the cpu port of the switch (or ATM interface of a router), removing a few subinterfaces or many several times can result in a crash. This removal without first cleaning up LANE configuration results in the loss of 6400 bytes of memory.
Workaround: Delete LANE configuration on a subinterface before deleting the subinterface itself.
Restrictions
This section describes the following Catalyst 8540 restrictions:
• ACL Daughter Card Restrictions
• VLAN Encapsulation Restrictions
• Maximum Path Restriction for EIGRP or OSPF
• Policy-Based Routing Restrictions
• 8-Port Gigabit Ethernet Restrictions (Catalyst 8540 CSR)
• Restrictions on the Online Insertion and Removal of Interface Modules
• 1000BASE-ZX GBIC Restriction
ACL Daughter Card Restrictions
The following restrictions apply to the ACL daughter card supported on the Catalyst 8540:
•The 8-port Gigabit Ethernet interface does not support an ACL daughter card.
•UDP flooding is disabled on routers with an ACL daughter card.
•The following ACLs are not supported with the ACL daughter card:
–Dynamic ACL
–Reflexive ACL
–IPX extended ACL
–ACL logging
AppleTalk Restrictions
We recommend that you evaluate the level of CPU utilization and performance in your switch router before turning on AppleTalk. Unlike IP and IPX, AppleTalk routing and processing in the Catalyst 8540 is accomplished by the switch processor, not the interface module. This means that routing AppleTalk packets consumes more processing time than routing other protocol packets. In a switch with a sustained high CPU utilization, turning on AppleTalk could result in longer convergence times for routing protocols like EIGRP. AppleTalk packet throughput is dependent on the amount of available CPU processing power.
VLAN Encapsulation Restrictions
The four adjacent ports (such as 0-3 or 4-7) on a 10/100 Fast Ethernet interface must all use the same VLAN encapsulation, that is, either 802.1Q and native, or ISL and native.
ATM Router Module Restrictions
The Catalyst 8540 MSR ATM router module does not support the following features:
Note This section is applicable to the Catalyst 8540 MSR switch router only.
•Appletalk is not supported on the ATM router module
•LANE clients are not supported on the Enhanced ATM router module
•The switch router needs a minimum of 256-MB DRAM to support the enhanced Catalyst 8540 ATM router module
•Point-to-point subinterfaces. Only point-to-multipoint subinterfaces are supported
•Tag-edged router functionality
•Fast Simple Server Redundancy Protocol (SSRP)
•Bridging for multiplexing device encapsulation
•Protocol Independent Multicast (PIM) IP multipoint signaling
•PIM nonbroadcast multiaccess (NBMA)
•PIM over ATM multipoint signaling
•Translation from IP quality of service (QoS) to ATM QoS Resource Reservation Protocol (RSVP) to ATM SVC
•PVC management using ILMI
•IP Multicast over RFC 1483 SVCs
•Layer 2 ACLs
•Half-bridge devices
EtherChannel Restrictions
When assigning Ethernet interfaces to an EtherChannel, all interfaces must be either Fast Ethernet or Gigabit Ethernet. You cannot mix Fast Ethernet and Gigabit Ethernet interfaces within a single EtherChannel.
Maximum Path Restriction for EIGRP or OSPF
Catalyst 8500 interface modules support a maximum of two paths. To improve EIGRP or OSPF convergence, set the maximum-paths for the router to two, using the following command:
8500(config)# router eigrp 109
8500(config-router)# maximum-paths 2
Port Snooping Restrictions
•The snooping source port and destination port cannot be the same port.
•You can only snoop with one source port and one destination port.
•Snooping configuration information is not saved in NVRAM.
•You cannot snoop a port that is part of a bridge group.
Policy-Based Routing Restrictions
The following restrictions apply to policy-based routing (PBR) on the Catalyst 8540 MSR and the Catalyst 8540 CSR:
•PBR is supported only on the Enhanced Gigabit interface.
•The IP interface for egress must be supported by the Catalyst 8540 MSR and the Catalyst 8540 CSR.
•Fast-switched PBR cannot be enabled because the Catalyst 8540 is a line rate switch.
•When configuring IP QoS to rewrite precedence and PBR to rely on precedence set by an ACL, the classification for PBR uses the original packet precedence, not the rewritten IP QoS value.
•Changes in the TCAM space for a PBR region must be specified with the sdm policy size command. The changes take effect upon reboot. The default PBR TCAM size is 0.
•The following commands are supported:
–match ip address {access-list-number | name} [...access-list-number | name]
–match length min max
Note The IP packet length range supported in a route map is 0-1535. A maximum of three non-overlapping length ranges are allowed per interface, including sub-interfaces.
•The following set command options are supported for PBR:
–ip precedence
–ip next-hop
–interface
–interface null0.
Note Due to platform limitations, the set interface null0 command does not generate an "unreachable" message.
•The following commands are not supported:
–set ip default next-hop
–set ip default interface
•When you configure a policy to rewrite precedence with a next hop interface, the precedence is rewritten only when the packet flows via the supported PBR path. If the next-hop is not accessible, the original precedence is retained since the packet flows via DBR (destination based routing).
8-Port Gigabit Ethernet Restrictions (Catalyst 8540 CSR)
The 8-port Gigabit Ethernet interface module is supported on the Catalyst 8540 CSR only. This section describes limitations of the 8-port Gigabit Ethernet interface module.
Ports Per Bridge Group Restrictions
The 8-port Gigabit Ethernet interface module installed in a Catalyst 8540 CSR can support a maximum of 128 ports per bridge group.
Port Channel Restrictions
If your Catalyst 8540 CSR has an 8-port Gigabit Ethernet interface module, you cannot create a port channel that has some members on that module and some on other modules. All port channel members must reside on the same Gigabit Ethernet interface module.
Also, if your switch router has an 8-port Gigabit Ethernet interface module, port channel IDs 57 to 64 are reserved, and cannot be assigned to other external interfaces. If you assign a port channel ID number greater than 56, the system will respond with the following message:
Port channel with ID > 56 cannot be created.
If you have already assigned port channel IDs 57 to 64, you must reassign them before installing an 8-port Gigabit Ethernet interface module.
If your switch router does not have an 8-port Gigabit Ethernet interface module, you can assign port channel ID numbers up to 64.
Restrictions on the Online Insertion and Removal of Interface Modules
The following restrictions apply to the online insertion and removal (OIR), also known as hot swapping, of interface modules on the Catalyst 8540:
•Wait at least one minute after removing an interface module before inserting a new one.
•Do not remove more than one interface module at a time while the device is operational.
•OIR of the 8-port Gigabit Ethernet interface module is supported in Cisco IOS Release 12.0(5)W5.13 and later releases.
FPGA Upgrade Restriction
On an 8540, the reprogram command for upgrading the FPGA on the switch processor requires power cycling the box after completing the FPGA download.
1000BASE-ZX GBIC Restriction
The Catalyst 8540 switch routers support extra long haul (1000BASE-ZX) GBICs. It supports a maximum of 12 1000BASE-ZX GBICs per system to comply with FCC Class A emissions (CFR 47 Part 15), or 8 1000BASE-ZX GBICs per system to comply with EN55022 Class B emissions (CISPR22 Class B).
Route Processor and Switch Module Redundancy
The Catalyst 8540 supports the use of redundant route processors and switch modules. The second route processor would be installed in slot 8, and an additional switch module would be installed in slot 6.
Route Processor
There are some precautions that need to be taken before removing a route processor module from a chassis that is powered-up. If a route processor module that is currently running IOS is removed from the chassis in a skewed manner such that the left side of the processor comes out before the right side does, the traffic flowing through the device might stop flowing.
To avoid this, make sure the route processor module that is being removed is currently at the ROM monitor prompt; it is then safe to remove it from the chassis. One way to get the system into ROM monitor from IOS is to enter the reload command. This will work if the system is not configured to auto-boot. If the system is configured to auto-boot, it starts booting IOS again.
Since you need to ensure that a route processor is in ROM monitor before removing it, the redundancy prepare-for-cpu-removal command has been added to take the system to the ROM monitor prompt. Execute this command on the route processor being removed before removing it. Once this command is issued, the route processor will go to the ROM monitor prompt and stay there even if the system is configured to auto-boot. At this point it is safe to remove the route processor from the system.
Switch Modules
If a Catalyst 8540 has three switch modules, then by default the switch modules in slots 5 and 7 come up as active, and the one in slot 6 comes up as the standby. If you wish to change this default, there is a command that lets you select the "preferred" switch module slots. This command is a privileged exec level command with the following format:
redundancy preferred-switch-card-slot slot#1 slot#2
Two unique preferred slots must be specified. The range of the slot value is 5 to 7. If one of the preferred slots is not a currently active switch module, you are informed of this and asked if the system should change the active switch modules to the preferred switch modules. If such a switch-over occurs, all the active connections in the system will be reinitialized. If you wish to continue, then the preferred switch modules become active, and the other switch module becomes the standby. This configuration will remain in effect until either one of the active switch modules is removed.
The preferred switch module configuration is preserved across route processor switch-overs. However, the preferred switch modules setting will be lost if the system is power-cycled or if both route processors are reloaded to the ROM monitor.
Autonegotiation (Catalyst 8540 CSR)
The autonegotiation feature for speed and duplex on 10/100BASE-T Ethernet ports defaults to "on." This means that for each port, the Catalyst 8500 CSR automatically detects the port speed (10 Mbps or 100 Mbps) and duplex of the peer port, if that port also autonegotiates.
To override autonegotiation and set a port to 10 Mbps operation, enter the following command:
(config-if)# speed 10
To set a port to 100 Mbps operation, issue the following command:
(config-if)# speed 100
To set the duplex value for a port to full-duplex, issue the following command:
(config-if)# duplex full
To set the duplex value for a port to half-duplex, issue the following command:
(config-if)# duplex half
Caution If you connect a Catalyst 8540 CSR switch router running Cisco IOS Release 12.0(5)W5(13) software to a router or switch running in forced full-duplex mode, you might encounter symptoms such as high collision rate or reduced throughput, as the Catalyst 8540 CSR unsuccessfully tries to autonegotiate with the other device. When autonegotiation fails, the Catalyst 8540 defaults to half-duplex operation, which causes a mismatch between it and the other device. Possible workarounds include forcing the Catalyst 8540 CSR to operate in full-duplex mode or removing the full-duplex command from the other device.
Interoperability
You can use Catalyst 8540 CSR interface modules in a Catalyst 8540 MSR chassis with an MSR route processor and switch modules. Use only CSR (Ethernet) interface modules, and load the CSR software image on the MSR.
Incompatibility
When you connect a Catalyst 8540 CSR to a Catalyst 5000 100BASE-FX MM Ethernet interface module using ISL, ensure that the hardware version on the Catalyst 5000 interface module is 1.3 or higher. You might experience connectivity problems between the Catalyst 8540 CSR and the Catalyst 5000 if the hardware version on the Catalyst 5000 Ethernet interface module is lower than 1.3.
Y2K Compliance
The Catalyst 8540 MSR and 8540 CSR systems have been certified as Y2K Compliant. For more information, see the following URL: http://www.cisco.com/warp/public/752/2000/.
Related Documentation
The following documents provide information related to Catalyst 8540 switch routers.
• Catalyst 8540 Interactive Quick Start
•Quick Reference Catalyst 8540 Hardware Information
•Hardware and Software Compatibility Matrix
•Catalyst 8540 Chassis Installation Guide
•ATM and Layer 3 Module Installation Guide
•Guide to ATM Technology
•ATM and Layer 3 Switch Router Quick Software Configuration Guide
•ATM Switch Router Software Configuration Guide
•ATM and Layer 3 Switch Router Command Reference
•Layer 3 Switching Software Feature and Configuration Guide
Obtaining Documentation
The following sections provide sources for obtaining documentation from Cisco Systems.
World Wide Web
You can access the most current Cisco documentation on the World Wide Web at the following sites:
•http://www.cisco.com
•http://www-china.cisco.com
•http://www-europe.cisco.com
Documentation CD-ROM
Cisco documentation and additional literature are available in a CD-ROM package, which ships with your product. The Documentation CD-ROM is updated monthly and may be more current than printed documentation. The CD-ROM package is available as a single unit or as an annual subscription.
Ordering Documentation
Cisco documentation is available in the following ways:
•Registered Cisco Direct Customers can order Cisco Product documentation from the Networking Products MarketPlace:
http://www.cisco.com/cgi-bin/order/order_root.pl
•Registered Cisco.com users can order the Documentation CD-ROM through the online Subscription Store:
http://www.cisco.com/go/subscription
•Nonregistered Cisco.com users can order documentation through a local account representative by calling Cisco corporate headquarters (California, USA) at 408 526-7208 or, in North America, by calling 800 553-NETS(6387).
Documentation Feedback
If you are reading Cisco product documentation on the World Wide Web, you can submit technical comments electronically. Click Feedback in the toolbar and select Documentation. After you complete the form, click Submit to send it to Cisco.
You can e-mail your comments to bug-doc@cisco.com.
To submit your comments by mail, for your convenience many documents contain a response card behind the front cover. Otherwise, you can mail your comments to the following address:
Cisco Systems, Inc.
Document Resource Connection
170 West Tasman Drive
San Jose, CA 95134-9883We appreciate your comments.
Obtaining Technical Assistance
Cisco provides Cisco.com as a starting point for all technical assistance. Customers and partners can obtain documentation, troubleshooting tips, and sample configurations from online tools. For Cisco.com registered users, additional troubleshooting tools are available from the TAC website.
Cisco.com
Cisco.com is the foundation of a suite of interactive, networked services that provides immediate, open access to Cisco information and resources at anytime, from anywhere in the world. This highly integrated Internet application is a powerful, easy-to-use tool for doing business with Cisco.
Cisco.com provides a broad range of features and services to help customers and partners streamline business processes and improve productivity. Through Cisco.com, you can find information about Cisco and our networking solutions, services, and programs. In addition, you can resolve technical issues with online technical support, download and test software packages, and order Cisco learning materials and merchandise. Valuable online skill assessment, training, and certification programs are also available.
Customers and partners can self-register on Cisco.com to obtain additional personalized information and services. Registered users can order products, check on the status of an order, access technical support, and view benefits specific to their relationships with Cisco.
To access Cisco.com, go to the following website:
http://www.cisco.com
Technical Assistance Center
The Cisco TAC website is available to all customers who need technical assistance with a Cisco product or technology that is under warranty or covered by a maintenance contract.
Contacting TAC by Using the Cisco TAC Website
If you have a priority level 3 (P3) or priority level 4 (P4) problem, contact TAC by going to the TAC website:
http://www.cisco.com/tac
P3 and P4 level problems are defined as follows:
•P3—Your network performance is degraded. Network functionality is noticeably impaired, but most business operations continue.
•P4—You need information or assistance on Cisco product capabilities, product installation, or basic product configuration.
In each of the above cases, use the Cisco TAC website to quickly find answers to your questions.
To register for Cisco.com, go to the following website:
http://www.cisco.com/register/
If you cannot resolve your technical issue by using the TAC online resources, Cisco.com registered users can open a case online by using the TAC Case Open tool at the following website:
http://www.cisco.com/tac/caseopen
Contacting TAC by Telephone
If you have a priority level 1(P1) or priority level 2 (P2) problem, contact TAC by telephone and immediately open a case. To obtain a directory of toll-free numbers for your country, go to the following website:
http://www.cisco.com/warp/public/687/Directory/DirTAC.shtml
P1 and P2 level problems are defined as follows:
•P1—Your production network is down, causing a critical impact to business operations if service is not restored quickly. No workaround is available.
•P2—Your production network is severely degraded, affecting significant aspects of your business operations. No workaround is available.
.
Posted: Wed Aug 3 23:53:37 PDT 2005
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