Table Of Contents
Release Notes for the Cisco 10000 Series ESR
for Cisco IOS Release 12.0(23)SX1
March 3, 2003
These release notes provide information about Cisco IOS software Release 12.0(23)SX1 for the Cisco 10000 series edge services router (ESR). 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(23)SX1 is an update to Release 12.0(23)SX, which is based on Cisco IOS Release 12.0(23)S and includes all of the new features introduced in that release. To review the release notes for Cisco IOS Release 12.0(23)S, go to www.cisco.com and click Technical Documents > Aggregation > Cisco 10000 Series Edge Services Routers > Cisco 10000 Series ESR Release Notes > Release Notes for the Cisco 10000 Series ESR for Cisco IOS Release 12.0(23)S.
You can also view the release notes for Cisco IOS Release 12.0(23)S at the following URL:
These release notes contain the following sections:
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 at the following URL:
For general information about how to upgrade to a new software release, see the product bulletin Cisco IOS Upgrade Ordering Instructions located at:
For information about how to order Cisco IOS software, refer to the Cisco IOS Software Releases URL:
Upgrading from Earlier Cisco IOS Releases
Upgrading from Cisco IOS Release 12.0(21)SX or Release 12.0(21)SX1
If you are upgrading your software from Cisco IOS Release 12.0(21)SX or Release 12.0(21)SX1 to Cisco IOS Release 12.0(22)S, you must upgrade the eboot image on the Cisco 10000 series edge services router (ESR). If you fail to upgrade the eboot image, the ESR configuration may not load properly, and a checksum error appears on the console. If you are upgrading the software from an earlier Cisco IOS release, you do not need to upgrade the eboot image.
Upgrading from Cisco IOS Release 12.(14)SL or from Earlier 12.0(x)SL-based Releases
If you are upgrading your software from Cisco IOS Release 12.0(14)SL or from earlier 12.0(x)SL-based releases to Cisco IOS Release 12.0(22)S, save your current configuration file. If you decide to reinstall Release 12.0(14)SL or an earlier release, you must also reinstall the configuration file associated with that release. This is because some Border Gateway Protocol (BGP) configuration-file entries in Release 12.0(22)S are not compatible with Release 12.0(14)SL or earlier releases.
Upgrading Software on Redundant PREs
When you upgrade software on redundant Cisco 10000 series Performance Routing Engines (PREs), be sure to download the software to both the active PRE and the standby PRE before you reload both PREs. For more information, refer to the "Upgrading Software on Redundant PREs" section in the "System Startup and Basic Configuration Tasks" of the Cisco 10000 Series ESR Software Configuration Guide at the following URL:
Note In the procedure at the above URL, specify c10k-p10-mz instead of c10k-p6-mz for image name.
This release requires that you have the PRE1 version (part number ESR-PRE1) of the Performance Routing Engine (PRE) installed in the Cisco 10000 series ESR chassis. To verify which PRE is installed in the ESR, use the show version command.
The following table lists memory requirements for the ESR.
Feature Set by Router Image Name Flash Memory DRAM Memory Runs From
Edge Services Router
Service Provider/ Secured Shell 3DES
New Features in Cisco IOS Release 12.0(23)SX1
Cisco IOS Release 12.0(23)SX1 fixes several bugs that were open in Release 12.0(23)SX (see the "Resolved Caveats in Cisco IOS Release 12.0(23)SX1" section).
There are no new features in Cisco IOS Release 12.0(23)SX1. The release is an update to Release 12.0(23)SX and it includes all of the features in that release. For information about features, see the "New Features in Cisco IOS Release 12.0(23)SX" section below.
New Features in Cisco IOS Release 12.0(23)SX
The following sections describe the new features and improvements being introduced in Cisco IOS Release 12.0(23)SX:
Multirouter-Automatic Protection Switching
The multirouter-automatic protection switching (MR-APS) feature allows switchover of SONET connections in the event of circuit failure. MR-APS is often required when connecting SONET equipment to telco equipment. APS refers to the mechanism of using a "protect" SONET interface in the SONET network as the backup for a working SONET interface. When the working interface fails, the protect interface quickly assumes its traffic load.
The protection mechanism provided by MR-APS has a linear 1+1 architecture, as described in the Bellcore publication TR-TSY-000253, SONET Transport Systems; Common Generic Criteria, Section 5.3. The connection may be bidirectional or unidirectional, and revertive or non-revertive.
MR-APS provides a protection mechanism in which the "working" and "protect" SONET interfaces are on separate routers. MR-APS also allows both interfaces to be on the same router. However, in this case, we recommend you use single router-APS instead.
Single router-APS (SR-APS) provides a protection mechanism in which the working and protect interfaces are both on the same router. This protection mechanism provides a linear 1+1 unidirectional, non-revertive architecture. Note that the ESR supports bridging in the SR-APS implementation.
For more information on this feature, see the following URL. Note that the documentation includes aps commands for POS interfaces. However, the same commands also apply for ATM interfaces.
Recommendation for MR-APS Configurations with Limited Static Routes
If your MR-APS configuration has a limited number of static routes (for example, less than 10), we recommend that you use the following command for gigabit Ethernet, ATM, and POS interfaces that have static routes configured for them.Router(config-if)# ip route static update immediate
The command adds static routes to the routing table immediately when an interface becomes active, rather than after a route dampening period ends.
•Currently, the ESR supports MR-APS only on OC-12ATM interfaces.
•The aps reflector command is not supported in this release.
Multicast for MPLS/VPN
The Multicast for Multiprotocol Label-Switching (MPLS)/Virtual Private Network (VPN) feature allows service providers to offer multicast services over their MPLS core network. Multicast for MPLS/VPN allows end-user customers to improve productivity and communication flow for applications such as corporate communication, e-learning, data warehousing, content synchronization, trading stocks and commodities (stock quotes and ticker information), and emergency messaging services.
Live video and Video-on-Demand applications also require a multicast solution that offers scalability, efficiency, and performance. As demand grows for multicast and VPN, enterprises will require service providers to enable multicast across VPNs. Multicast for MPLS/VPN provides that solution.
MPLS Traffic Engineering Fast Reroute
The Fast Reroute (FRR) link protection feature of MPLS traffic engineering provides link protection to label-switched paths (LSPs). MPLS traffic engineering automatically establishes and maintains LSPs across the backbone using Resource ReSerVation Protocol (RSVP). Paths for LSPs are calculated at the headend, based on the LSP resource requirements and available network resources such as bandwidth. Under failure conditions, the headend determines a new route for the LSP. This provides for the optimal use of resources. However, due to messaging delays, recovery at the headend is not as quick as recovery at the point of failure.
FRR link protection enables the router to reroute traffic around a failed link without involving the headend in the rerouting decision. This provides quicker recovery time and prevents any further packet loss caused by the failed link. The headend of the tunnel is also notified of the link failure through the IGP or RSVP; the headend then attempts to establish a new LSP that bypasses the failure.
For more information about this feature, see the following URL:
Note Local reroute prevents any further packet loss caused by a failed link, and gives the headend of the tunnel time to re-establish the tunnel along a new, optimal route.
The Fast Reroute link protection feature works only on:
•Packet over SONET (POS) links (SDH in the European standard)
•Links that use MPLS global label allocation (GLA)
DiffServe Aware Traffic Engineering for MPLS
The DiffServer Aware Traffic Engineering feature extends DiffServe quality of service (QoS) over an MPLS backbone that uses traffic engineering. Bandwidth pools assigned to tunnel interfaces ensure that critical data is associated with a tunnel that has enough bandwidth to transport data over the MPLS network. For information about this feature, see the following URL:
eiBGP Multipath Load Sharing
This section describes the Border Gateway Protocol (BGP) Multipath Load Sharing for external BGP (eBGP) and internal BGP (iBGP) in a Multiprotocol Label Switching (MPLS) Virtual Private Network (VPN) feature. This feature allows you to configure multihomed autonomous systems and provider edge (PE) routers to:
•Distribute traffic across eBGP and iBGP paths in BGP networks
•Import eBGP and iBGP paths from multihomed and stub networks
BGP installs up to the maximum number of paths allowed (configured by the maximum-paths command). BGP uses the best path algorithm to select one multipath as the best path, insert the best path into the routing information base (RIB), and advertise the best path to BGP peers. Other multipaths may be inserted into the RIB, but only one path will be selected as the best path.
The multipaths are used by Cisco Express Forwarding (CEF) to perform load balancing on a per-packet or per-source or destination pair basis. The eiBGP Multipath Load Sharing feature performs unequal cost load balancing by default by selecting BGP paths that do not have an equal cost of the Interior Gateway Protocol (IGP). To enable this feature, configure the router with MPLS VPNs that contain VPN routing and forwarding instances (VRFs) that import both eBGP and iBGP paths. The number of multipaths can be configured separately for each VRF.
Note This feature operates within the configuration parameters of the existing outbound routing policy.
For more information about this feature, see the following URL:
Route Reflector Limitation—With multiple iBGP paths installed in a routing table, a route reflector will advertise only one of the paths (one next hop). If a router is behind a route reflector, all routers that are connected to multihomed sites will not be advertised unless separate VRFs with different RDs are configured for each VRF.
Memory Consumption Restriction—Each IP routing table entry for a BGP prefix that has multiple iBGP paths uses additional memory. We recommend not using this feature on a router with a low amount of available memory and especially when the router is carrying a full Internet routing table.
Link Fragmentation and Interleaving
Interactive traffic (Telnet, voice on IP, and the like) is susceptible to increased latency and jitter when the network processes large packets, (LAN-to-LAN FTP transfers traversing a WAN link, for example), especially as they are queued on slower links.
The Link Fragmentation and Interleaving (LFI) feature reduces delay and jitter on slower-speed links by breaking up large datagrams and interleaving low-delay traffic packets (such as voice) with the smaller packets resulting from the fragmented datagram. LFI was designed especially for lower-speed links where serialization delay is significant.
The Cisco 10000 series ESR implementation of LFI provides the following benefits:
•Supports the following encapsulation protocols:
–Frame Relay (FRF.12) end-to-end
–Multilink PPP (MLPPP)
•Supports LFI on up to 1000 ESR interfaces.
•Prioritized traffic is always sent intact, while all other traffic is subject to fragmentation.
•During packet reassembly, the ESR detects and discards any packets that are missing fragments.
Cisco 10000 Series ESR LFI Limitations and Restrictions
The following limitations and restrictions apply to the Cisco 10000 series ESR implementation of LFI
•Multilink LFI is restricted to 1-link bundles only.
•Multilink PPP must be enabled on an interface that has interleaving turned on.
•To enable LFI on an MLPPP interface, use the ppp multilink interleave command.
•Multilink PPP over ATM (MLPoATM) is not supported.
•The show frame-relay fragment command does not support the following statistics:
fragments received (in_frag)
fragments dropped (drop_frag)
fragments transmitted (out_frag)
•The show frame-relay fragment interface command does not support the following statistics:
in fragmented pkts
in fragmented bytes
in dropped reassembling packets
out interleaved packets
out fragmented pkts
out fragmented bytes
out dropped fragmenting pkts
Cisco 10000 Series ESR LFI Implementation Notes
The following sections provide information about the LFI implementation on the Cisco 10000 series ESR:
MLPPP LFI Packet Counts
On an MLPPP interface that has LFI enabled, each packet fragment is counted as a separate packet in the interface's input and output statistics. For example, if a single packet is fragmented into three packets, the the show interface stats command and the show interfaces commands show a count of 3 for Packets In and Packets Out, rather than a count of 1.
Configuring LFI on a Frame Relay Interface—Method 1
One way to configure LFI on a Frame Relay data-link connection identifier (DLCI) is to:
•Use the command frame-relay interface-queue fair to enable Frame Relay weighted fair queuing on the physical interface.
•Create a Frame Relay map-class that defines the traffic to prioritize for interleaving. You can also include the following command to define a priority queue for an RTP packet flow:frame-relay ip rtp priority start_port_number port_range [max_bandwidth]
•Set the LFI fragmentation size (in bytes) by including the following command in the map-class. Specify a fragmentation size of at least 128 bytes, which is the minimum size supported by the ESR.frame-relay fragment fragment_size
•Attach the map-class to the DLCI.
•Use the Frame Relay QoS CLI to configure user-defined queues on the DLCI.
The following is a sample configuration showing this method of configuring LFI. (In this example, fragment size is 384 bytes and the bandwidth for the priority queue is 307 kbps.)interface Serial5/0/0.1/1:0encapsulation frame-relayframe-relay class PQ_FR_CLASS_0frame-relay interface-dlci 17frame-relay interface-queue fairmap-class frame-relay PQ_FR_CLASS_0frame-relay fragment 384frame-relay ip rtp priority 16384 10 307
Configuring LFI on a Frame Relay Interface—Method 2
You can also use a nested policy and access lists to configure LFI on a Frame Relay DLCI as follows:
•Use the priority command to create a priority queue and use a policy map to associate a class of traffic with the priority queue.policy-map qos_pq_cbwfq_0class acl_101priority percent 10
•Create a nested policy and include it in the Frame Relay map class.
•Use the following command to set the fragmentation size (in bytes). Specify a fragmentation size of at least 128 bytes, which is the minimum fragmentation size supported by the ESR.frame-relay fragment fragment_size
The following is a sample configuration showing this method of configuring LFI. (In the example, fragmentation size is 768 bytes and bandwidth for the priority queue is 10 percent of the link bandwidth.)interface Serial5/0/0.1/1/1/1:0ip address 10.1.1.102 255.255.255.0no ip directed-broadcastencapsulation frame-relayframe-relay class PQ_FR_CLASS_0frame-relay interface-dlci 17access-list 101 permit udp any eq 16384 any eq 16384access-list 102 permit udp any eq 3000 any eq 3000class-map match-all acl_101match access-group 101class-map match-all acl_102match access-group 102policy-map qos_pq_cbwfq_0class acl_101priority percent 10class acl_102bandwidth percent 30policy-map outer_policyclass class-defaultshape 768service-policy qos_pq_cbwfq_0map-class frame-relay PQ_FR_CLASS_0service-policy output outer_policyframe-relay fragment 768
Configuring LFI on a Multilink PPP Interface
To configure LFI on an MLPPP interface, do the following:
•Use the following commands to configure multilink operation on the interface:
•Identify the traffic to prioritize for interleaving.
•Use the priority command to create a priority queue and use a policy map to associate that class of traffic with the priority queue. The priority command gives priority to a class within the policy map.
•Attach the policy map to an interface to assign that traffic classification and action to the interface.
The following commands show an example of how to configure LFI on an MLPPP interface:class-map match-all VOIPmatch ip rtp 16384 16383class-map LESS_CRITICALmatch access-group 101policy-map VOIP_PRIclass VOIPpriority 50class LESS_CRITICALset ip precedence 5interface Multilink1ppp chap hostname multilink_name-1ppp multilinkppp multilink fragment-delay 8ppp multilink interleaveservice-policy output VOIP_PRImultilink-group 1interface Serial 2/1encapsulation pppppp multilinkmultilink-group 1
Note The ip rtp priority command is not included as a policy action. Instead, the priority configuration defined on the interface determines which traffic is placed in the priority queue.
Single Rate 3-Color Marker for Traffic Policing
The single rate 3-Color Marker feature meters an IP packet stream and marks its packets different colors, based on the Committed Information Rate (CIR) and two associated burst sizes: Committed Burst Size (CBS) and Excess Burst Size (EBS). CIR is measured in bytes of IP packets per second (and it includes the IP header, but not link specific headers). CBS and EBS are measured in bytes.
Previously, the ESR supported a single rate, 2-color marker. The single rate, 3-color marker allows the ESR to classify packets that violate the EBS. This feature is useful, for example, for ingress policing of a service, where service eligibility is determined only by the burst's length, and not its peak rate.
The single rate 3-color marker uses the following colors to classify packets:
•Green (conforming)—Packet size is at most Bc or CBS and within the CIR allowance.
•Yellow (exceeding)—Packet size is greater than the CIR allowance but is at most Be or EBS bytes and within the available surplus.
•Red (violating)—Packet size is greater than both the CIR allowance and the available surplus. This is because either the packet's size exceeds Be or EBS or because a previous packet used some of the surplus and the traffic since then has not slowed sufficiently to acquire the surplus needed for the current packet.
The marker starts with a surplus equal to Be or EBS, and replenishes the surplus by the amount of unused CIR allowance until the surplus reaches Be or EBS.
Configuring the Single Rate Three-Color Marker Feature
To configure this feature, do the following:
•Use the police command to set the feature's mode and to assign values for the CIR, CBS, and EBS:Router(config-pmap-c)# police CIR CIR_bps burst-normal burst-max conform-action action exceed-action action violate-action action
For conform, exceed, and violate action, you can specify one of the following actions: transmit, set-dscp-transmit, set-prec-transmit, set-mpls-exp-transmit, or set-qos-transmit.
Using the Feature
The 3-color marker can be used to mark a packet stream in a service, where different, decreasing levels of assurances (either absolute or relative) are given to packets which are green, yellow, or red. For example, a service might:
•Discard or deny all red packets because they exceed both the committed and excess burst sizes.
•Forward green packets because they are guaranteed for delivery.
Cisco 10000 ESR MIB Enhancements
MIB capabilities on the Cisco 10000 series ESR have been enhanced as follows:
•The CISCO-ENTITY-EXT-MIB and CISCO-OAM-MIB were added.
•Support was verified for the following MIBs: ATM-MIB, CISCO-AAL5-MIB, CISCO-ATM-EXT-MIB, SONET-MIB, RFC1315-MIB, CISCO-FRAME-RELAY-MIB, and CISCO-RF-MIB.
•Support was added for MPLS-LSR-MIB mplsInSegmentOctets and mplsInSegmentOctets.
•The IF-MIB was enhanced to support MPLS.
•MIBs were enhanced to support the ESR high-availability feature.
For more information about the ESR MIB capabilities for this release, see the Cisco 10000 Series ESR Leased Line MIB Specifications Guide (version 3) at the following URL. (Table 3-1 in the "MIB Specifications" section of the guide lists the MIBs supported in this release.)
SNMP Trap Filtering
Use the SNMP trap filtering feature to filter linkDown traps so that SNMP only sends a linkDown trap if the main interface goes down. If a Cisco 10000 series ESR interfaces goes down, all of its subinterfaces go down, which results in numerous linkDown traps for each subinterface. This feature filters out those subinterface traps. This feature is turned off by default.
To enable the SNMP trap filtering feature, issue the following CLI command. Use the no form of the command to disable the feature.[no] snmp ifmib trap throttle
Limitations and Restrictions
PRE Network Management Ethernet Port
Ensure that the Fast Ethernet NME port on the PRE is configured for auto-negotiation mode, which is the system default. Duplex mode can cause problems, such as flapping. If the port is experiencing such problems and has been configured for duplex mode, use the no half-duplex or no full-duplex command to disable duplex mode.
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 helps to avoid a situation in which the router becomes unstable and the CPU is overloaded. To control the output of messages from the system, use the logging rate-limit command.
We recommend that you configure the logging rate-limit command as follows. This rate-limits all messages to the console to 10 per second, except for messages with critical priority (level 3) or greater.Router(config)# logging rate-limit console all 10 except critical
For more information on the logging rate-limit command, see the Cisco IOS Configuration Fundamentals Command Reference.
The following limitations apply to the Cisco 10000 series ESR implementation of Frame Relay:
•The ip rtp reserve command is not supported.
•Only one priority queue per VC is allowed.
Nested Policy Feature
The following limitations and restrictions apply to the Cisco 10000 series ESR nested policy feature:
•Nested policies support no more than two hierarchy levels.
•For additional restrictions and limitations on creating nested policies, refer to the "Configuring Nested Policies on the ESR" section of the Cisco document at the following location:
•The nested-policy shape rate is reserved for nested-policy traffic only. Excess bandwidth is not used for other traffic.
•DotP marking is not supported, nor is 802.1P (including matching and marking the 802.1P header).
Note The actual shape rate applied to nested-policy traffic might differ from that specified in the policy. For example, a specified shape rate of 10.5 Mbps might be mapped to 11 Mbps. Use the command show policy-map interface to determine the actual shape rate.
Testing Performance of High-Speed Interfaces
Cisco IOS software running on the Cisco 10000 series ESR has 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 proper order.
When the Cisco 10000 series ESR is installed in a real network, the high-speed interfaces work efficiently to spread traffic flow 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.
Cisco Discovery Protocol
Unlike other Cisco routers, on the Cisco 10000 series ESR the Cisco Discovery Protocol (CDP) is disabled by default. You can enable CDP on an interface using the cdp enable command.
Frame Relay and PPP Sessions
You can run up to 4000 Frame Relay sessions or 4000 PPP sessions, and you can configure up to 800 Border Gateway Protocol (BGP) peers on the Cisco 10000 series ESR. The ESR also supports up to 512 Multilink Point-to-Point (MLP) protocol sessions and up to 1024 MLP bundles.
Performance Routing Engine 1 (PRE1) on the Cisco 10000 Series Edge Services Router
In order for Cisco IOS Release 12.0(22)S and later releases to run on the Cisco 10000 series ESR, the Performance Routing Engine (PRE) installed in the chassis must be the PRE1 version (part number ESR-PRE1). You can verify which PRE is installed in the chassis by using the show version command.
Note The Cisco 10000 series ESR does not support mixing two different PRE revisions in the same chassis. Do not install a PRE and PRE1 in the same chassis.
VLAN Session Support
The Cisco 10000 series ESR provides session support for 4000 802.1Q VLANs.
Inserting a New Line Card
Unlike other Cisco routers, if you insert a new or different line card into a Cisco 10000 series ESR chassis slot that previously had a line card installed, the line card initially reports that it is administratively up.
To ensure that the Performance Routing Engine (PRE) microcode has adequate IP address space, use IP addresses in a contiguous address space. Also, use the ip unnumbered command on the RBE subinterface.
Resolved Caveats in Cisco IOS Release 12.0(23)SX1
This section lists problems that are fixed in Cisco IOS Release 12.0(23)SX1.
MIB walks on the sonetVTIntervalTable and sonetFarEndVTIntervalTable (SONET-MIB) now work correctly. Previously, information was deleted from the tables after 24 hours, which caused MIB walks to result in a loop.
SNMP now provides correct values for the MIB objects atmTrafficDescrType and atmTrafficQoSClass for all types of PVCs. Note that this problem was a duplicate of CSCdp53356, which has been fixed.
On Cisco channelized OC-12 and channelized STM line cards, the SNMP MIB object ifOperStatus now correctly shows T1 layers as Down when all other layers are Down.
A traceback message no longer appears during stateful switchover (SSO) testing of PPP.
The Cisco 10000 series ESR now shapes traffic correctly when LFI is enabled on an MLP bundle running over a T1 channel.
Previously, when a priority queue (PQ) was underloaded and fragmentation queues (FQs) were overloaded, the PQ Max latency and Avg latency values were higher than they should have been. The latency values are now correct. Note that this problem was a duplicate of CSCdz70148, which has been fixed.
The show interface command now shows correct input and output byte counts for MLP interfaces with LFI enabled. The clear counters command also clears the output packet and byte counters as it should.
A traceback message no longer appears while using the 3-color policer to police 1000 VLANs.
A stateful switchover (SSO) no longer causes a Cisco 10000 series ESR with redundant PRE-1 cards and channelized OC-12 or channelized STM line cards to experience a traceback or %CEF fibidb error.
The show frame-relay fragment command increments the "out-frag" and "out fragmented" counts as it should. Previously, the counts did not increment.
Cisco channelized T3 (CT3) line cards no longer stop responding when 1000 Frame Relay or MLP interfaces (with LFI enabled) are configured over two CT3 line cards.
A PXF failure no longer occurs when a fast reroute (FRR) is performed after a primary link fails. This problem was observed when the Cisco 10000 series ESR was configured as an MPLS traffic engineering (TE) tunnel head and FRR break point, and the primary link had 500 tunnels.
The Cisco 10000 series ESR now processes priority traffic correctly. Previously, when priority traffic arrived in a burst or exceeded the configured rate, the traffic experienced a longer-than-expected delay.
A PXF microcode reload no longer breaks MPLS/VPN multicast traffic forwarding. Previously, a reload could cause Protocol Independent Multicast (PIM) VPN routing/forwarding (VRF) neighbor relationships to be lost. When this happened, the Cisco 10000 series ESR stopped forwarding VRF multicast traffic.
Previously, when the Cisco 10000 series ESR received PIM (*,G) joins with (S,G)R prune, the router incorrectly forwarded only the (*,G) joins to the rendezvous point (RP). Now, the router correctly forwards the (*,G) joins with (S,G)R prune.
When two redundant provider edge (PE) Cisco 10000 series ESRs are connected to a single Virtual Private Network (VPN), both routers might send different multicast distributed tunnel-Join (MDT-Join) updates to the VPN source. This can cause the receivers to toggle between different MDT-data groups, which results in intermediate data loss for the receivers.CSCea18756
Previously, the Netflow aggregation test failed to match the correct prefix, mask, and AS values for source, destination, prefix, and AS types of aggregation schemes. Now, the values match as expected.
Table 1 describes the caveats that are open in Cisco IOS Release 12.0(23)SX1 and Release 12.0(23)SX.
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Cisco TAC Website
You can use the Cisco TAC website to resolve P3 and P4 issues yourself, saving both cost and time. The site provides around-the-clock access to online tools, knowledge bases, and software. To access the Cisco TAC website, go to this URL:
All customers, partners, and resellers who have a valid Cisco service contract have complete access to the technical support resources on the Cisco TAC website. Some services on the Cisco TAC website require a Cisco.com login ID and password. If you have a valid service contract but do not have a login ID or password, go to this URL to register:
If you are a Cisco.com registered user, and you cannot resolve your technical issues by using the Cisco TAC website, you can open a case online at this URL:
If you have Internet access, we recommend that you open P3 and P4 cases through the Cisco TAC website so that you can describe the situation in your own words and attach any necessary files.
Cisco TAC Escalation Center
The Cisco TAC Escalation Center addresses priority level 1 or priority level 2 issues. These classifications are assigned when severe network degradation significantly impacts business operations. When you contact the TAC Escalation Center with a P1 or P2 problem, a Cisco TAC engineer automatically opens a case.
To obtain a directory of toll-free Cisco TAC telephone numbers for your country, go to this URL:
Before you call, check with your network operations center to determine the level of Cisco support services to which your company is entitled: for example, SMARTnet, SMARTnet Onsite, or Network Supported Accounts (NSA). When you call the center, have your service agreement number and your product serial number available.
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