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Release Notes for the Cisco 10000 Series ESR for Cisco IOS Release 12.0(19)SL2

Table Of Contents

Release Notes for the Cisco 10000 Series ESR
for Cisco IOS Release 12.0(19)SL2

Contents

Upgrading to a New Software Release

Upgrading Cisco IOS Software from Earlier Cisco IOS Releases

System Requirements

New Features in Cisco IOS Release 12.0(19)SL

Cisco 10000 Series ESR Software Features

Limitations and Restrictions

Automatic Protection Switching Support

Controlling the Rate of Logging Messages

Testing Performance of High-Speed Interfaces

Important Notes

Frame Relay and PPP Sessions

Cisco Discovery Protocol

Resolved Problems in Cisco IOS Release 12.0(19)SL2

Resolved Problems in Cisco IOS Release 12.0(19)SL1

Caveats in Cisco IOS Release 12.0(19)SL

Resolved Problems in Cisco IOS Release 12.0(19)SL

Resolved Problems in Cisco IOS Release 12.0(17)SL2

Resolved Problems in Cisco IOS Release 12.0(17)SL1

Resolved Problems in Cisco IOS Release 12.0(17)SL

Other Resolved Caveats

Obtaining Documentation

World Wide Web

Documentation CD-ROM

Ordering Documentation

Documentation Feedback

Obtaining Technical Assistance

Cisco.com

Technical Assistance Center

Contacting TAC by Using the Cisco TAC Website

Contacting TAC by Telephone


Release Notes for the Cisco 10000 Series ESR
for Cisco IOS Release 12.0(19)SL2


January 21, 2002

These release notes provide information about Cisco IOS Release 12.0(19)SL2 running on the Cisco 10000 series edge services router (ESR). These notes are identical to the release notes for Cisco IOS Release 12.0(19)SL1, but were updated to include fixes for caveats discovered and resolved since the release of Cisco IOS Release 12.0(19)SL1 (see the "Resolved Problems in Cisco IOS Release 12.0(19)SL2" section).

These release notes are updated as needed to describe new features, memory requirements, hardware support, software platform deferrals, and changes to the microcode and related documents.

Cisco IOS Release 12.0(19)SL2 is based on the following previous releases:

Cisco IOS Release 12.0(19)SL1

Cisco IOS Release 12.0(19)SL

Cisco IOS Release 12.0(17)SL2

Cisco IOS Release 12.0(17)SL1

Cisco IOS Release 12.0(17)SL

Cisco 12.0ST features synchronized with Cisco IOS Release 12.0S

For a list of the software caveats that apply to Cisco IOS Release 12.0(19)SL, see the "Caveats in Cisco IOS Release 12.0(19)SL" section.

Use these release notes in conjunction with the Release Notes for Cisco IOS Release 12.0(S) and the cross-platform Release Notes for Cisco IOS Release 12.0.

To review the release notes for Cisco IOS Release 12.0S, go to www.cisco.com and click Technical Documents. Select Release 12.0 from the Cisco IOS Software drop-down menu. Then click Release Notes > Cisco 12000 Series Routers > Cisco 7000 Family and 12000 Series—Release Notes for Release Cisco IOS 12.0 S.

To review the cross-platform Release Notes for Cisco IOS Release 12.0, go to www.cisco.com and click Technical Documents. Select Release 12.0 from the Cisco IOS Software drop-down menu. Then click Release Notes > Cross-Platform Release Notes.

Contents

This document contains the following sections:

Upgrading to a New Software Release

System Requirements

New Features in Cisco IOS Release 12.0(19)SL

Cisco 10000 Series ESR Software Features

Limitations and Restrictions

Important Notes

Resolved Problems in Cisco IOS Release 12.0(19)SL2

Resolved Problems in Cisco IOS Release 12.0(19)SL1

Caveats in Cisco IOS Release 12.0(19)SL

Resolved Problems in Cisco IOS Release 12.0(19)SL

Resolved Problems in Cisco IOS Release 12.0(17)SL2

Resolved Problems in Cisco IOS Release 12.0(17)SL1

Resolved Problems in Cisco IOS Release 12.0(17)SL

Other Resolved Caveats

Obtaining Documentation

Obtaining Technical Assistance

Upgrading to a New Software Release

For specific information about upgrading your Cisco 10000 series ESR to a new software release, see the Cisco 10000 Series ESR Software Configuration Guide.

For general information about upgrading to a new software release, see the product bulletin Cisco IOS Upgrade Ordering Instructions located at:

http://www.cisco.com/warp/public/cc/pd/iosw/prodlit/957_pp.htm

For additional information about ordering Cisco IOS software, refer to the Cisco IOS Software Releases URL:

http://www.cisco.com/warp/public/cc/pd/iosw/iore/index.shtml

Upgrading Cisco IOS Software from Earlier Cisco IOS Releases


Caution If you are upgrading your Cisco 10000 series ESR from Cisco IOS Release 12.(14)SL or from earlier 12.0(x)SL-based releases, read this section.

Before you upgrade to Cisco IOS Release 12.0(19)SL2, save your current configuration file. If you decide to re-install Release 12.0(14)SL, or an earlier release, you must also re-install the configuration file associated with that release. This is because some BGP configuration-file entries in Release 12.0(19)SL2 are not compatible with Release 12.0(14)SL or earlier releases.

System Requirements

We recommend that you use 512 MB of memory for the Performance Routing Engine (PRE). New PREs are shipped with 512 MB of memory. In a redundant setup, both PREs should have the same amount of memory.

New Features in Cisco IOS Release 12.0(19)SL

The following new features and improvements are supported in Cisco IOS Release 12.0(19)SL:

NetFlow Accounting—Supports gathering and exporting Version 5 and Version 8 record types to NetFlow FlowCollectors, and provides basic metering for a key set of applications, including network traffic accounting, usage-based network billing, network planning, and network monitoring capabilities.

GRE Tunneling—Supports GRE IP and DVMRP multicast tunnel modes to transport otherwise unroutable packets across the IP network and provide data separation for VPN services. GRE tunnels make it possible to have multiprotocol local networks running over a single-protocol backbone. They also provide workarounds for networks containing protocols that have limited hop counts, connectivity for discontinuous subnetworks, and allow VPNs to connect across wide-area networks. DVMRP multicast tunnel modes are only supported between the Cisco 10000 series ESR and a Sun SPARCstation running DVMRP Version 3.8 or higher.

Policy-Based Routing (PBR)—Provides a tool for expressing and implementing the forwarding or routing of data packets based on the policies defined by network administrators. PBR is a way to have policy override on routing protocol decisions by selectively applying policies based on access list or packet size. Network administrators can also use PBR to selectively change the IP ToS, IP precedence, and IP QoS Group fields for matching incoming packets on an interface.

The Cisco 10000 series ESR supports a maximum of 255 PBR policies and 32 route maps within each policy. The following subset of policy-based routing commands are supported in this release of Cisco IOS software:

[no] ip policy route-map map-tag

[no] route-map map-tag [{permit|deny}] sequence-number

[no] match ip address {ACL-number ACL-name} [ACL-number ACL-name...]

[no] match length min max

[no] set [default] interface type number [type number...]

[no] set ip [default] next-hop ip-address [ip-address...]

[no] set ip precedence value

[no] set ip qos-group value

[no] set ip tos value

show route-map [map-tag]

Turbo QoS—Provides efficient handling of QoS policy maps for fast packet classification and a QoS solution that scales.

Subinterface Policy Maps—Allows you to use the service-policy command to configure QoS features at the subinterface level in addition to configuring QoS features on main interfaces. The types of subinterfaces supported include Frame Relay, ATM (both UBR and VBR), and 802.1Q VLAN. ATM VBR subinterfaces support all QoS features including queueing. On all other subinterface types, any queueing-related commands in the service-policy such as bandwidth, priority, shape, queue-limit and random-detect are ignored.

Diffserv WRED—Extends the functionality of WRED to enable support for Differentiated Services (DiffServ) and Assured Forwarding (AF) Per Hop Behavior (PHB). DiffServ WRED enables customers to implement AF PHB by coloring packets according to DSCP values and then assigning preferential drop probabilities to those packets.

PQ/CBWFQ on ATM PVCs—Allows a service policy, including class queue policy statements, to be attached to ATM VBR VCs. To enable this feature, use the Modular Quality of Service Command-Line Interface (MQC) syntax.

Cisco 10000 Series ESR Software Features

Table 1 lists the features supported in the Cisco 10000 series ESR.

Table 1 Principal Software Features 

Administration

Cisco Discovery Protocol (CDP)

Simple Network Management Protocol (SNMP)

Availability

SONET 1+1 Automatic Protection Switching (APS)

Route Processing Redundancy Plus (RPR+)

Encapsulations

Ethernet

High-Level Data Link Control (HDLC)

Frame Relay

Point-to-Point (PPP)

Multilink Point-to-Point (MLP)

Multiprotocol Label Switching

Multiprotocol Label Switching Virtual Private Network (MPLS/VPN) edge services

802.1q PXF switching for ARPA encapsulation

Multicast Features

Multicast Static Routes

Multicast Routing Monitor (MRM)

Multicast Services

Internet Group Management Protocol (IGMP)

Protocol-Independent Multicast (PIM)

Distance Vector Multicast Routing Protocol (DVMRP)

Cisco Group Management Protocol (CGMP)

Unidirectional Link Routing (UDLR)

Session Directory Protocol (SDP)

Multicast Source Discovery Protocol (MSDP)

Border Gateway Protocol (BGP)

Quality of Service

Committed Access Rate (CAR)

Class-Based Weighted Random Early Detection (CBWRED)

QoS Policy Propagation on BGP (QPPB)

Priority Queueing (PQ)

Class-Based Weighted Fair Queueing (CBWFQ)

Frame Relay Traffic Shaping (FRTS)

Generic Traffic Shaping (GTS)

Routing Protocols

Border Gateway Protocol (BGP)

Intermediate System-to-Intermediate System (IS-IS)

Open Shortest Path First (OSPF)

Interior Gateway Routing Protocol (IGRP)

Enhanced Interior Gateway Routing Protocol (EIGRP)

Routing Information Protocol (RIP)

Security Features

Standard and extended access lists

Authentication, Authorization, and Accounting (AAA)

Kerberos authentication and client support on Telnet

Radius authentication

Terminal Access Controller Access Control System Plus (TACACS+)


Limitations and Restrictions

This section describes any limitations and restrictions that you should review before you use the Cisco 10000 series ESR.

Automatic Protection Switching Support

Automatic protection switching (APS) is supported on the OC-12 Packet Over SONET (POS) and Channelized OC-12 (ChOC-12) line cards with this release. However, certain limitations apply if the PRE installed in your system is the ESR-PRE. These limitations do not apply to the ESR-PRE1. You can verify which PRE is installed in the ESR by using the show version command.

For APS to work properly with the ESR-PRE, you must ensure that the OC-12 POS or ChOC-12 line card is installed in the lower-numbered (odd) slot.

The system receives clocking information from the line card in the odd slot. If you remove the odd-numbered card (or if the clocking mechanism on that card fails), the clocking is lost and the data path is shut down (Caveat CSCdr81416).

As a workaround, we recommend the following:

1. For the card pair, fully configure the lower-numbered card, and leave the higher-numbered card set to its default configuration.

2. Before you remove a card from the odd slot, run the no associate command and shut down the card. The following is an example of disabling APS for cards in slots 3 and 4:

Router(config)# redundancy
Router(config-r)# no associate 3 4
Router(config-r-a-sl)# exit
Router(config)# interface pos 3/0/0
Router(config-if)# shutdown

You can now remove the card in slot 3.

3. Move the card located in the even slot to the odd slot and enter the no shutdown command. Traffic flow resumes. Insert a new card into the even slot and reconfigure the pair for redundancy.

Controlling the Rate of Logging Messages

It is important that you limit the rate that system messages are logged by the Cisco 10000 series ESR. This avoids a situation where the router becomes unstable and the CPU is overloaded. Use the logging rate-limit command to control the output of messages from the system.

We recommend that you configure the logging rate-limit command as follows:

Router(config)# logging rate-limit console all 10 except critical

This command rate-limits all messages to the console to 10 per second, except for messages with critical priority (level 3) or greater.

For more information on the logging rate-limit command, see the Cisco IOS Configuration Fundamentals Command Reference.

Testing Performance of High-Speed Interfaces

Since Cisco IOS Release 12.0(17)SL, the software has been enhanced with multiple queues for all classes of traffic over high-speed interfaces. The software selects a queue based on the source and destination address for the packet. This ensures that a traffic flow always uses the same queue and the packets are transmitted in order.

When the Cisco 10000 series ESR is installed in a real network, the high-speed interfaces work efficiently to spread traffic flows equally over the queues. However, using single traffic streams in a laboratory environment may result in less-than-expected performance.

Therefore, to ensure accurate test results, you should test the throughput of the gigabit Ethernet, POS, or ATM uplink with multiple source or destination addresses.


Tip To determine if traffic is being properly distributed, use the show hardware pxf cpu queue command.


Important Notes

This section contains important issues that you should be aware of with Cisco IOS Release 12.0(19)SL and previous releases.

Frame Relay and PPP Sessions

You can run up to 4200 Frame Relay sessions or 1300 PPP sessions, and you can configure up to 800 BGP peers on the Cisco 10000 series ESR. The router also supports up to 512 Multilink Point-to-Point (MLP) protocol sessions.


Note Each T1 interface in an MLP bundle represents a single PPP session. Thus, if you configure 130 MLP bundles of 10 T1 interfaces, each results in 1300 PPP sessions (which is the maximum number of PPP sessions that are supported on the Cisco 10000 series ESR).


Cisco Discovery Protocol

Starting with Cisco IOS Release 12.0(15)SL, the Cisco Discovery Protocol (CDP) is disabled by default. You can enable CDP on an interface using the cdp enable command.

Resolved Problems in Cisco IOS Release 12.0(19)SL2

This section lists problems that were found since the release of Cisco IOS Release 12.0(19)SL1, and have been resolved in Cisco IOS Release 12.0(19)SL2.

CSCdu81936

Previously, if the router received an ARP packet containing the interface address of that router, but with a different MAC address, it sometimes overwrote the MAC address of the router in the ARP table and caused the interface to stop sending and receiving traffic. This occurred only on interfaces located on the Ethernet segment that were local to the host that sent the ARP packet. This problem has been fixed.

CSCdv46423

In the past, if you enabled MPLS in a VPN environment on a Cisco router and you issued the aggregate-address command, spurious memory access occurred followed by the router reloading with a bus error. This no longer occurs.

CSCdv49141

In a Cisco 10000 series ESR with a channelized OC-12 line card installed, sometimes all of the interfaces (channel groups) associated with a given channelized T3 were up, but the line protocol was down. This problem has been fixed.

CSCdv49324

In the past, when labels were applied to NetFlow export records before being transmitted from the router, the router reloaded unexpectedly. This no longer occurs.

CSCdv59212

Previously, if you applied an outbound service policy to an ATM physical interface, VBR PVCs experienced unaccounted outbound-traffic loss. This occurred under the following conditions:

The VBR PVC did not have an outbound service policy.

The service policy of the physical interface contained bandwidth, priority, or shape commands in a user-defined class.

VBR traffic matched the class.

This problem has been fixed.

CSCdv80357

In the past, if the Cisco 10000 series ESR was configured with 100,000 or more routes and you reloaded the PXF microcode, the console prompt did not appear for 30 seconds. This no longer occurs.

CSCdv81745

Previously, if you configured the class-map using the type match-any command (containing multiple match clauses), the output of the show policy-map interface command showed incorrect packet and byte counts values for the class-map matches. This problem has been fixed.

CSCdw01576

In the past, if you changed the encapsulation on a subinterface to dot1q while the subinterface was shut down, the following messages appeared:

11:08:24: %GENERAL-3-EREVENT: c10k_dot1q_vlan_enable: No tt_info
-Traceback= 600EA13C 600EA368 60298F48 60298684 60298374 6026467C 60116660
6027166C 602BAA0C 602BA9F8
11:09:53: %GENERAL-3-EREVENT: No current_if_info
-Traceback= 600A0538 60090344 600905EC 60091098 601F2BC4 601F321C 603B42F8
603B5F7C 603B4D80 603B5218 60374800 602BAA0C 602BA9F8
11:09:59: %GENERAL-3-EREVENT: get_injection_vcci: no info for VLAN ID %d
-Traceback= 600A0808 60073760 60073A00 60293CA4 60375264 603B5194 603B522C
60374800 602BAA0C 602BA9F8

This problem has been fixed.

CSCdw01586

Previously, BGP neighbors sometimes did not establish sessions when they were configured as individual peers or members of a peer group. This no longer occurs.

CSCdw01591

In the past, if a loopback or a fast Ethernet interface was configured as a VPN, the following messages appeared when you configured or reloaded the Cisco 10000 series ESR:

19 08:37:15 ESDT: %GENERAL-3-EREVENT: No c10k_tt_hwsb in 
c10k_rp_configure_interface_forwarding

This is no longer a problem.

CSCdw01599

Previously, if 802.1q subinterfaces were present in the startup configuration of the Cisco 10000 series ESR, the following messages appeared as the router was booting:

c10k_ttcm_write: Illegal access to toaster memory,state=1.
c,r=0,0, flags=0x00000000, src=0x613526E8, dst=0x51C4B200, len=2

This problem has been fixed.

CSCdw04099

In the past, if you configured BGP as-override for a peer group, and later added members to that group, as-override did not take effect for the new members. This no longer occurs.

CSCdw04701

Previously, if you configured Cisco Discovery Protocol (CDP) on an interface and you reloaded the Cisco 10000 series ESR, the CDP commands for the interface did not save. This has been fixed.

CSCdw04716

In the past, if you enabled CDP on an interface, the interface sometimes flapped. This no longer occurs.

CSCdw05881

Error messages appeared on the console of a Cisco 10000 series ESR that was connected back-to-back to another Cisco 10000 series ESR through 16 ports of an 8-port unchannelized E3/T3 line card. This occurred with traffic had been running for more the 13 hours. This problem has been fixed.

CSCdw06189

Previously, you could not send a ping through an MPLS tunnel on the Cisco 10000 series ESR. This problem has been fixed.

CSCdw08632

With certain Frame Relay RTP priority queue configurations, the Cisco 10000 series ESR stopped using Frame Relay fair-dlci queues and directed all PVC traffic to the interface default queue instead. This no longer occurs.

CSCdw11533

Previously, if you configured the same ACL to both the inbound and outbound directions of an interface, the entire ACL was deleted. This problem has been fixed.

CSCdw13175

In the past, if you issued the shutdown command on an ATM point-to-point subinterface, and then enabled it by issuing the no shutdown command, the service policy on the subinterface stopped working. This no longer occurs.

CSCdw14780

Previously, if you used the service-policy output command, it failed and an error message appeared. This problem has been fixed.

Resolved Problems in Cisco IOS Release 12.0(19)SL1

This section lists problems that were found since the release of Cisco IOS Release 12.0(19)SL, and have been resolved in Cisco IOS Release 12.0(19)SL1.

CSCdv52938

Previously, if NetFlow Accounting was enabled, and the router received large amounts of traffic, the router reloaded unexpectedly. This no longer occurs.

CSCdv58945

When large FDL packets of invalid lengths were received by the channelized ChOC-12 line card, the contents of the packet were printed on the line card console. In the case of a large FDL packet, excessive printing on the line card console caused the line card to reset. This has been fixed.

CSCdv66454

Previously, pings originating from the Cisco 10000 series ESR, PE to CE, failed over Multilink PPP bundles. This no longer occurs.

CSCdv75271

A small percentage (less than 10%) of OC-12 ATM and OC-3 ATM line cards failed to boot while under the control of Cisco IOS software due to an unexpected Systems Error (SERR) interrupt. This has been fixed.

CSCdv79571

A problem between the release of Cisco IOS Release 12.0(15)SL and Cisco IOS Release 12.0(17)SL existed in which upgrading Cisco IOS software on some ATM networks failed because all packets, after a few seconds, were marked as ignored input errors. This no longer occurs.

CSCdv83722

Previously, when a VC was being OAM managed and the VCs were oversubscribed, the status of the VCs could continually change between up and down.

CSCdv84423

Due to a race condition in the SAR firmware, in rare circumstances it was possible for a VC to become stuck in a close pending state and become unusable. This has been fixed.

CSCdv85009

Previously, the Cisco 10000 series ESR did not respond to a traceroute if the destination IP address was in the range of x.x.x.224 to x.x.x.239. This no longer occurs.

CSCdv85737

Previously, if you configured mcast, with multiple uplinks over ATM, the mcast connection could timeout every three minutes, requiring that the mcast groups be recreated.

Caveats in Cisco IOS Release 12.0(19)SL

Table 2 describes the caveats for the Cisco 10000 series ESR running Cisco IOS Release 12.0(19)SL.

Table 2 Caveats in Cisco IOS Release 12.0(19)SL 

Caveat
Description

CSCdr37991

If you configure an STS-1 on a ChOC-12 line card as unchannelized and then configure the remote side to send idle-character marks (namely, 0xFF), the T3 line stops responding and transmits a Remote Alarm Indication (RAI).

Workaround: When you use unchannelized T3 mode, configure the remote side to send idle-character flags (0x7E). To set this value, use the interface configuration mode idle-character command.

CSCdr43835

When you send large numbers of packets from the Gigabit Ethernet line card to the PRE in the Cisco 10000 series ESR, you may lose a small number of packets. This only occurs for some packet sizes at very high bandwidths, with loss rates of a few parts per million.

Workaround: There is currently no workaround.

CSCdr81671

On rare occasions, the system cannot retrieve remote performance data if you are using a channelized OC-12 line card that has its T1s configured with ANSI FDL enabled.

Workaround: There is currently no workaround.

CSCdr84775

WRED does not drop outbound packets correctly on the Channelized T3 line card (CT3) in the default WRED configuration.

Workaround: Change the WRED policy to a non-default value.

CSCds06423

Some MPLS packets are CEF-switched when they should be label-switched. This condition occurs if the Cisco 10000 ESR has two interfaces configured for label switching.

Workaround: Configure only one interface for label switching.

CSCds40839

After you enter the show controller command, occasionally an LED alarm appears as active even though no alarms are indicated.

Workaround: Perform a shut/no shut configuration on the SONET controller. For example:

conf t
controller sonet 7/0/0
shut
no shut
end

CSCds49948

With multiple PVP tunnels, if the aggregate traffic received by one or more of the PVPs is heavily oversubscribed (starting at about 110% of the tunnel's PCR rate), the traffic on companion PVP tunnels on that interface may experience throughput that is lower than expected.

Workaround: There is currently no workaround.

CSCds63025

A Line Protocol on one or two T1s may not come up when you perform a reload with a large configuration (for example, 1008 T1s with PPP encap or 504 MLPPPs).

Workaround: Reload the line card using the hw slot slot_number reset command.

CSCds63387

When a redundant power supply is removed or a line card is OIRed, SNMP traps are generated by the syslog mib. There is a request to generate these traps using the env, mon, and entity MIBs respectively.

Workaround: Filter the SNMP traps using the syslog MIB.

CSCds68294

In the unlikely event of a total failure of the cooling fan tray, or any other scenario resulting in high-temperature operation, the Cisco 10000 series ESR continues running, and does not power off.

Workaround: If you observe fan failure or over-temperature alarms or log messages, immediately power off the chassis until the problem is corrected.

CSCdt04686

During the reloading process, the match input-interface Serial3/0/0/1:0 configuration statement is not recognized and disappears from the configuration files after the Cisco 10000 series ESR is reloaded.

Workaround: Reenter the match input-interface Serial3/0/0/1:0 command.

CSCdt08501

PVCs in the down state can still pass traffic. When a PVP is created with associated F4 OAM VCs and those F4 OAM VCs do not come up (for instance, because there is no VP at the far end or the VP at the far end did not create F4 OAM VCs), traffic can still be passed on the PVCs associated with the PVP in question. When the F4 OAM loopback cells are not returned, Cisco IOS declares all PVP associated PVCs to be down. IOS does not, however, notify the forwarding engine or the line card. This allows traffic routed over the PVCs in question to pass.

Workaround: There is currently no workaround.

CSCdt38819

MALLOCFAIL with multicast traffic if a high rate of multicast traffic is sent out before multicast routing entries are updated.

Workaround: There is currently no workaround. After the routing entries are updated, this problem disappears.

CSCdt50540

Sometimes a traceback message is generated during an RPR+ switch over to the new primary PRE. A message similar to the following appears:

00:03:07: %IPC-5-INVALID: Sequence Structure port index=0x3
-Traceback= 60321EC0 60322868 60806A54 603348C8 60359924 60025B94 
602828CC 602828B8

Workaround: This message is harmless. Ignore the message.

CSCdt57432

If you use snmpwalk or other similar tool to display the value of the different objects associated with a Cisco 10000 series ESR, you can see that when an unchannelized DS3 controller is created in a ChOC-12 line card, the configuration values of the DS3 MIB are not correct. If subsequent configuration commands are issued, the displayed values are correct. This problem probably exists in a channelized STM-1 line card as well, when in unchannelized DS3 mode.

Workaround: Rely on the outcome of the show controller t3 and show interface serial commands.

CSCdt57555

Verilink-hibit mode does not work on the Cisco 10000 series ESR with ChOC-12 line cards whose paths are configured in unchannelized DS3 mode. When the Verilink-hibit mode is chosen by the network administrator, Verilink-lowbit mode is programmed in the hardware instead.

Workaround: There is currently no workaround for this problem. You must use Verilink-lowbit mode.

CSCdt65387

ChOC-12 DS3 subrate does not work in Kentrox mode at full bandwidth.

Workaround: Set the ChOC-12 interface to Digital Link mode and full bandwidth (no dsu bandwidth). This works the same as the Kentrox CSU/DSU when set to full bandwidth, and will work with scrambling enabled or disabled (set the same value at both ends).

CSCdu08173

If you use the set interface command or the set default interface command to configure a point-to-multipoint interface as a PBR route-map routing destination, packets that match the PBR route-map may not get routed to the proper next-hop on that point-to-multipoint interface.

Workaround: Use the set ip next-hop command when you configure PBR routing on a point-to-multipoint interface. This may require the definition of separate route-maps to steer traffic to each of the desired next-hops.

CSCdu10065

If you reload microcode, and you have changed IP addresses on interfaces just before you reload, traffic may be forwarded to an incorrect interface.

Workaround: Use the shutdown command to shutdown the interface experiencing the problem, and then reactivate it by using the no shutdown command.

CSCdu25747

If you configure fair queueing on a Frame Relay interface with a large number of PVCs, and the traffic exceeds the link rate, several PVCs may experience a greater number of drops than other PVCs on that interface.

Workaround: There is currently no workaround.

CSCdu32435

If you configure 998 VPNs over VLAN, and you configure over 146 BGP routes per VPN, the BGP neighbor may start flapping.

Workaround: There is no workaround, but the problem is less likely to occur if you configure fewer than 146 BGP routes per VPN.

CSCdu34349

If you configure more than 100 BGP routes per VPN, and there are more than 200 VPNs configured on the system, CEF may not function properly after redistributing.

Workaround: Reduce the number of BGP routes per VPN to 100 or less.

CSCdu39975

If you configure the router with Policy Based Routing (PBR) policies which use a large number of total ACLs as part of IP address-matching criteria, the router may run out of stack space for some processes. This is because some PBR route-maps use a very large total number of ACLs as part of IP address-matching criteria.

Workaround: To avoid this problem, limit the total number of ACEs included in the ACLs used by each PBR route-map policy. For each PBR policy, the maximum allowable number of ACEs (totaled across all ACLs used by that policy) depends on the number of route-maps defined in the policy.

To determine the maximum total number of ACEs used by a PBR policy, divide 10500 by the number of route-maps in that policy. For example, if the number of route-maps defined in a PBR policy is 8, then the maximum total number of ACEs used by that policy would be 1312.

CSCdu40483

If you enable multicast replication with an MLP bundle as the source, and the MLP broadcaster may exhibit behavior that is not compliant with MLP standards, then replication may not occur for all interfaces.

Workaround: If replication does not occur on all interfaces, reload the microcode.

CSCdu57769

If you remove the second configured interface from load balancing Policy Based Routing configuration, forwarding does not resume.

Workaround: Use the set next-hop command instead of the set interface command when you configure the PBR route-map.

CSCdu67461

GRE and DVMRP tunnels are not supported over MLPPP bundles. Sending data over this configuration causes the router to crash.

Workaround: There is currently no workaround.

CSCdu73079

If you configure the router with many IP Multicast groups, you see CPU Hog messages when you issue the clear ip mroute * command, or if the mroute table is cleared and rebuilt from scratch. This happens when the router is configured with approximately 100 groups and 1000 interfaces, with each interface joining the 100 groups, and multicast traffic is passing through all these groups to all interfaces. The CPU hogs seem to happen in Exec, IP Input, and PIM Process processes. Sometimes the CPU hog is accompanied by IPC timeouts when the table is built from scratch.

Workaround: There is currently no workaround.

CSCdu77099

If the router receives a PIM Join/Prune packet, in which group1 and group2 are pruned and both are Multicast group addresses, the router interprets that as an instruction to prune group1 and join and prune group2 instead of just prune group2.

This behavior can be seen in the mroute table output when you use the sh ip mroute summary command. The group1 entry appears as pruned and will eventually time out, whereas the group2 entry does not time out and continually refreshes because of the joins in between the prunes.

Workaround: If supported, configure the remote connecting device to send prunes in two separate packets instead of one.

CSCdv05164

Large numbers of group joins/leaves over a DVMRP tunnel may cause Traceback messages in the log. However, this does not affect the DVMRP tunnel performance and does not require that you reload.

Workaround: There is currently no workaround.

CSCdv27957

If you use the access-list 101 deny ipinip any any command with an ACL to control traffic, and it is the first line in the ACL, it will prohibit all ip traffic. If the ACL is not entered first, the problem does not occur.

Workaround: We recommend that you be explicit when using ipinip ACL, for example:

access-list 101 deny ipinip host 2.1.1.1 host 1.1.1.1

CSCdv39768

If you configure the router with Policy Based Routing (PBR) route-maps, including setting default next-hop or default interface using the set ip default next-hop command or the set default interface command, then those routing destinations are not used as defaults. The current precedences for packet routing destinations are:

1. PBR set ip next-hop routes

2. PBR set interface routes

3. PBR set ip default next-hop routes

4. PBR set default interface routes

5. Normal [non-PBR] explicit routes

The precedences should be as follows:

1. BBR set ip next-hop routes

2. PBR set interface routes

3. Normal [non-PBR] explicit routes

4. PBR set ip default next-hop routes

5. PBR set default interface routes

CSCdv49324

If labels are applied to NetFlow export records before they are sent, the router reloads unexpectedly.

Workaround: Only specify export destinations not requiring tagging.

CSCdv50572

If you enable NetFlow accounting on an interface that imposes labels on arriving packets, the packets are not forwarded properly. The label stack may become corrupt, and the downstream neighbor may drop the packets.

Workaround: Turn off NetFlow accounting on interfaces on which incoming traffic is likely to have labels imposed. Or, disable MPLS.


Resolved Problems in Cisco IOS Release 12.0(19)SL

This section lists problems that were found and resolved in Cisco IOS Release 12.0(19)SL.

CSCdr98341

The Flash disk can fall into the chassis when you insert the disk into the empty space to the right of slot B in the PRE flash assembly.

CSCds48362

The show interface output occasionally displays an extremely large number of configured VCs which do not exist.

CSCds50249

If incoming multicast packets match an input access list that has the log option enabled, the output of the show log command and show access-list commands display double the number of matches.

CSCds69465

Ping traffic does not resume after switching from an explicit path to a dynamic path.

CSCdt00312

The flash file delete function may choose the wrong default device when you request deletion of a file from flash storage. The incorrect default used is slot0:.

CSCdt21254

When the ACL is downloaded from the tftp server, the CPU advances to 100% utilization and several line cards lost IPC with the PRE and are reset.

CSCdt28444

In a chassis using TACACS security and running redundant PREs, you can access the console while the secondary PRE is cutting over to primary PRE. If no action is taken on the console for the length of the session timeout period, TACACS engages on the console. If the user does access the console during the cutover, the user enters exec mode (not enable mode).

CSCdt47342

TFIB table failure.

CSCdt76746

In some cases, ATM counters display incorrect packet input values after receiving packets from several locations (for example, the line card, IOS, and the PXF forwarding engine).

CSCdu28935

When the interface on the remote end is set to be administratively down, and you are attempting to bring up the PPP protocol, the status of the interface alternate between down and up until the PPP protocol is up.

CSCdu61078

Cannot ping Cisco 10000 series ESR over PPLB group.

Resolved Problems in Cisco IOS Release 12.0(17)SL2

This section lists problems that were found and resolved in Cisco IOS Release 12.0(17)SL2.

CSCdr19206

If you preconfigured a line card using the card command, PRE performance is no longer affected.

CSCdt93862

The access level issue that occurred when using the Web interface has been corrected.

CSCdt96234

If you enter the wr mem command, the router no longer fails.

CSCdu31306

A PFX stall error with 126 multilink PPPs in a QoS configuration no longer occurs.

CSCdu58727

Priority queues no longer experience tail drops when the line card is under heavy load.

CSCdu65451

Duplicate caveat which was resolved (see CSCdu73749).

CSCdu87866

When you unconfigure and configure the router using the copy tftp run command, the router no longer stops responding.

CSCdv04992

A large increase in latency for multilink PPP bundles combined with an increase in the number of packet tail drops no longer causes a dramatic decrease in performance.

CSCdv05972

Duplicate caveat which was resolved (see CSCdv12192).

CSCdv07513

The PXF stall error no longer occurs in column 6 during low traffic.

CSCdv08702

There is no longer a slow buffer leak when you run multicast input on MLP.

CSCdv12192

There is no longer a buffer leak in multilink PPP column 7.

Resolved Problems in Cisco IOS Release 12.0(17)SL1

This section lists problems that were resolved in Cisco IOS Release 12.0(17)SL1.

CSCdt11794

If you enter the dir disk0/1 command at the rommon prompt, a TLB (Store) Exception error message no longer appears.

CSCdu71387

If the router receives an IP packet with Ethernet padding over the MLP bundle, it now properly passes the packet to the line card.

CSCdu73749

When the router was configured with large numbers of routes, clearing the entire routing table caused high CPU use. In rare cases, the line cards or Cisco IOS software rebooted. This problem no longer occurs.

Resolved Problems in Cisco IOS Release 12.0(17)SL

This section lists problems that were resolved in Cisco IOS Release 12.0(17)SL. For a list of problems that were resolved in previous Cisco IOS Releases, refer to the release notes for those particular versions.

CSCdr32279

When you enter the hw-module slot_number reset command, and the logging console is configured to informational, the event sequence no longer appears in a different order than that shown by the reload command.

CSCdr52081 and CSCdj94209

Previously, the PRE could crash if you repeatedly changed a port back and forth from channelized to unchannelized. This no longer occurs.

CSCdr92058

Previously, large multicast groups could cause CPU hog issues with PIM. This has been fixed.

CSCds04367

When older CT3 line cards were powered on, with live DS3 signals present at the receive BNC connector, the receive line interface device on the board could possibly lock up, preventing the controller from running. This no longer occurs.

CSCds18665

If the interface between a PE (PE1) and CE router went down, MPLS labels would disappear at the far end provider edge peer (PE2) MPLS interface. This has been fixed.

CSCds36117

If you entered the clear ip mroute command on a system with large multicast groups, CPU hog issues could arise that caused problems of moderate severity (such as losing keepalives). This no longer occurs.

CSCds51102

Previously, if you performed an SNMP walk or viewed entries in the if table, cef-layer internal interfaces appeared in the interface table.

CSCds55667

Previously, the Kentrox DS3 subrate mode did not work when you set it to full bandwidth (45.2 Mbps on Kentrox CSU, 44210 kbps on a Cisco 10000 series ESR).

CSCds86293

If you issued the dir or show slot0: or show slot1: command, the router reported Open device slot0 failed (Device not ready). This has been fixed.

CSCds89640

If large OIDs (1024.1 fields) were sent to the router, the Cisco 10000 series ESR stopped responding. This no longer occurs.

CSCds91966

Previously, if you deleted a T1/E1, IP routes associated with subinterfaces were not removed.

CSCdt11390

On a Cisco 10000 series ESR system with channelized OC-12 line cards, the output of the show controllers command is now complete and correct.

CSCdt31691

When a large number of VBR-nrt VCs are configured (200 and above) and the link transitions DOWN, the host software running on the OC-12 ATM line card no longer takes a SW Watchdog timeout, forcing the line card firmware to reload.

CSCdt34428

If you perform OIR on a line card configured for 768 PPP sessions with traffic running on all interfaces, interfaces no longer fail to come up. The show interface command now displays the correct IPCP state.

CSCdt42890

On rare occasions, line cards would not be recognized when you performed an OIR of multiple cards on a new system, or in a system in which the configuration was erased (for example, using write erase). This has been fixed.

CSCdt63446

If an access-list with logging option enabled is attached to an interface, and you send traffic through the interface, the interfaces no longer go down.

CSCdt67315

Under circumstances where ATM VCs are created and deleted on a regular basis, the OC-12 ATM segmenter firmware will no longer transition to a state in which it drops some packets without counting them in a data stream where packet sizes alternate from small to large.

CSCdt74932

Previously, when a TU-AIS was received at a particular TU in TUG3#3, the next TU at the T1 or E1 level contained data corruption. This no longer occurs.

CSCdt76739

If you remove an APS configuration for a channelized OC-12 line card, and then issue the show controllers sonet high_slot_number command, or the show controllers sonet command, the Cisco 10000 series ESR no longer crashes.

Other Resolved Caveats

This section includes caveats listed in previous release notes that are regarded as resolved because they are unreproducible or do not affect the behavior of the Cisco 10000 series ESR. In the event a caveat listed in this section causes problems, please contact Cisco customer service.

For a list of unreproducible caveats in previous Cisco IOS Releases, refer to the release notes for those particular releases.

CSCdp96265

If you configure a DS3 BERT pattern 2^20-O153 on any unchannelized DS3 (by using the bert pattern 2^20-O153 interval 1-14400 command), and you then connect the line card to T-Bird 310 test set, the pattern does not synchronize with T-Bird 310.

CSCdr25441

The router sends out DHCP INFORM and DISCOVER messages containing an incorrect Ethernet address.

CSCdr36564

When you use the Frame Relay autosense feature, the Cisco 10000 series ESR sends all three LMI status message types immediately after the interface starts responding. However, sometimes the switch at the other end is not ready to receive messages and as a result, misses one or two messages that were sent. LMI autosense waits until the next scheduled interval (default is 1 minute) to send the messages again.

This problem primarily affects clear channel CT3 interfaces.

CSCdr47500

During periods of heavy traffic (approaching interface line rate), some interfaces may experience inconsistent performance between interfaces of the same type.

CSCdr62013

If large MLP configurations are in use, and you attempt to copy the configuration from a TFTP server directly into the running config, the copy may fail. Failures may include interfaces not appearing, or IPCP or LCP states not opening correctly.

CSCdr72007

The number of VPNs that can be created on gigabit Ethernet subinterfaces is limited to under 100.

CSCdr82579

When a ChOC-12 line card is reconfigured from a channelized T3 configuration to an unchannelized T3 configuration or vice-versa, the initial packets are not forwarded.

CSCdr82363

When the encapsulation mode is changed from PPP to HDLC or vice-versa, the system drops about 3 of the next 10 packets transmitted. After that, the packets are transmitted normally.

CSCds01233

If you send a large number of small packets in large multicast groups, this may cause the following certain debug messages to appear on the console.

CSCds25069

The default logging parameter (logging rate-limit console all 10 except critical) sets console logging to disabled.

CSCds36324

Mass configuration (which occurs during boot/reload and can occur during link state changes) takes a long period of time (for example, more than 40 minutes for 2000 VCs associated with a main interface) with large numbers of PVCs (100s to 1000s). This problem occurs when you attempt to configure large numbers of PVCs on the main interface (or multipoint subinterfaces) with static maps on each PVC.

CSCds41791

If you reload a Cisco 10000 series ESR, some initialization messages are logged to the console before the startup-config is loaded. These initialization messages are transitional and may report an incorrect state, especially for the FastEthernet interface.

CSCds43837

The show atm pvc command displays Unexpected QoS type for its traffic parameters. This occurs when a PVC was previously configured with only an ATM vc-class, and then the vc-class was subsequently deleted.

CSCds49222

When a segment on an MPLS traffic engineered path is disabled, the PXF engine reloads, temporarily causing all forwarding to stop.

CSCds49957


Note This problem was fixed in Cisco IOS Release 12.0(17)SL, but was reported in error as an open caveat in 12.0(17)SL, 12.0(17)SL1, and 12.0(17)SL2.


When you boot the Cisco 10000 series ESR, the system may display the following messages:

*Oct 17 12:32:48.287: %SNMP-3-TRAPBLOCK: Attempt to generate SNMP trap from a process with 
blocking disabled
 -Traceback= 60565064 606A6B34 60678238 60678438 6067AD88 6067AF30 602FCBDC 6024817C 
60248168

CSCds64134

Occasionally, after you reload routers (with background traffic load equal to no_drop rate), the throughput is some 3 to 400 pps below the expected rate.

CSCds65431

On rare occasions, after a single reload while under load, the Gigabit Ethernet line card is up but drops nearly all packets on the output queue.

CSCds67459

When a serial interface is configured to be part of an MPLS/VPN, if you enter the no channelized command on the T3 controller, this clears the interface. However, the sh ip vrf vrf_name continues to show the interface as part of the vrf.

CSCds74846

When MPLS TE is configured and the logging console is turned on, the following error message appears repeatedly:

"00:58:10: %TFIB-7-SCANSABORTED:  TFIB scan not completing. MAC string updated."

CSCds86646

ISIS adjacencies recalculated with 65-85MB of tcp traffic to rtr.

CSCds86767

A Cisco 10000 series ESR running Release 12.0(10)SL may experience a buffer leak when interfaces are down but not administratively down.

CSCdt12602

If in a Frame-Relay environment a handful of interfaces are flapping continuously, the interface statistics report input errors (overruns) on the flapping interfaces.

CSCdt19582

Following a reload of the Cisco IOS software, the Gigabit Ethernet interface does not always come back up. The interface remains in the "GigabitEthernet1/0/0 is down, line protocol is down" state.

CSCdt25901

During a reload, if the router continuously receives IP packets, CPUHOG messages may have appeared in the log, and the router may have taken longer to come up.

CSCdt28191

After you reload line cards under background traffic load, one or more interfaces may not come up.

CSCdt33623

If you issue a write erase command on the primary PRE followed by an erase sec-nvram: command, and then reload both PREs simultaneously, some line cards may not be recognized correctly on reboot.

CSCdt40511

The router stopped responding after several hours of receiving multicast traffic over 500 CT3 ds0 Frame Relay interfaces, at a rate of 10 pps of 260-byte packets.

CSCdt41680

The ip address negotiate command sent dhcp requests out all serial line interfaces.

CSCdt50591

In some test instances, Frame Relay interfaces did not correctly join a multicast group when it should have. The result is that multicast packets destined for those interfaces will be punted to the route processor. If enough packets were received, the CPU usages on the route processor to run at a high usage.

CSCdt53363

On rare occasions, when a large number of ds0 interfaces is configured on a CT3 line card, buffer with corrupt pool pointer error messages may appear.

CSCdt54684

On rare occasions, if a large number of ds0 interfaces are configured on a CT3 line card, spurious memory error messages may appear.

CSCdt55873

On rare occasions in which relatively high rates of bursty traffic are received on the OC-12 ATM line card, some packets may be dropped but not counted by the software.

CSCdt63838

Bad file magic number - cannot load bootflash.

CSCdt63854

Under rare conditions when scripts of VC creates and VC deletes are executed in turn, some VBR-nrt VCs are not created.

CSCdt64787

At the end of the line in the show run command output, 0.0.0.0 is appended randomly.

CSCdt70049

With 500 Frame Relay interfaces on CT3 running IP Multicast, multicast packets get punted to the RP causing IPC OIR on the CT3. This causes the line protocol on the router connected to the Cisco 10000 series ESR to go down (and remain down) on some interfaces. The interface stats show no traffic over the affected interface. On the Cisco 10000 series ESR the Frame Relay PVC corresponding to it shows as Deleted.

CSCdu22374

When the Cisco 10000 series ESR series ESR is configured for 802.1q VLANs, the output of the show vlans command reports values for gigabit Ethernet received packets, gigabit Ethernet received bytes, and VLAN received packets to be higher than they should be.

CSCdu22652

If you perform a reload, the values for the transmitted and received output of the show vlans command indicates, incorrectly, that those values incremented.

CSCdu25589

When the destination IP address of an incoming 802.1q packet matches one of the IP addresses of the router, the output of the show vlans command for 802.1q packets increments two times. Ping request packets, however, are always counted correctly regardless of destination.

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, use the response card behind the front cover of your document, or write to the following address:

Attn. Document Resource Connection
Cisco Systems, Inc.
170 West Tasman Drive
San Jose, CA 95134-9883

We 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.