Cisco Systems RSP8 manual HSA System Requirements, HSA Configuration Task List

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Configuring High System Availability

HSA System Requirements

To configure HSA operation with the RSP8, you must have:

A Cisco 7507, Cisco 7507-MX, Cisco 7513, or Cisco 7513-MX containing one RSP active processor card, one RSP standby processor card, and the proper Cisco IOS release (refer to the Software Advisor at http://www.cisco.com/cgi-bin/Support/CompNav/Index.plfor additional information).

A standby RSP with the same (or higher) DRAM and Flash memory capacity as the active RSP. See the “Memory Requirements” section on page 13 for RSP8 memory component requirements.

A standby RSP with the same boot image, the same ROM monitor, and the same DRAM configuration as the active RSP. (See the “Hardware Prerequisites” section on page 14 .)

Caution The HSA feature works with two RSP8 cards, or with one RSP8 and one RSP16. The RSP8 cannot be used in combination with the RSP1, RSP2 or RSP4/4+ when utilizing the HSA feature.

HSA Configuration Task List

Before you configure HSA, decide how you intend to use HSA, as described in the “HSA Implementation Methods” section on page 26 . Do you want it for simple hardware backup or for software error protection? If you are using new or experimental Cisco IOS software, consider using the software error protection method; otherwise, use the simple hardware backup method.

Once you have decided which method to use, complete the tasks in the following sections. The first two and last two tasks are required for both implementations. The third and fourth tasks relate to simple hardware backup. The fifth task relates to software error protection only.

Specifying the Default Standby RSP, page 28 (both implementations)

Ensuring that Both RSPs Contain the Same Configuration Files, page 28 (both implementations)

Ensuring that Both RSPs Contain the Same System Image, page 29 (simple hardware backup only)

Ensuring that Both RSPs Contain the Same Microcode Image, page 30 (simple hardware backup only)

Specifying Different Startup Images for the Active and the Standby RSPs, page 32 (software error protection only)

Setting Environment Variables on the Active and the Standby RSPs, page 38 (both implementations)

Note The following HSA configuration examples refer to a Cisco 7513. If you have a Cisco 7507, the primary difference is that the active and the standby RSPs are located in slots 2 and 3, respectively.

Route Switch Processor (RSP8) Installation and Configuration Guide

 

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Contents Document Contents Cisco.com, Obtaining Documentation, Related DocumentationTopics discussed in this section are Product DescriptionRSP8-Horizontal Front-Panel View Monitoring interface and environmental statusU12 Flash Eprom ROMmon Bus connectors Auxiliary portMemory Components Shows the memory components on the RSP8Type Size Quantity Description Location Flash Memory Cards and Flash Disks There are no user-configurable jumpers on the RSP8Jumpers LEDsPC Card Slots Serial PortsLED Label Color State Indication System Software SpecificationsLists the physical specifications for the RSP8 SpecificationsInstallation Prerequisites Safety GuidelinesSafety Warnings Installation Prerequisites Telephone Wiring Guidelines Electrical Equipment GuidelinesPreventing Electrostatic Discharge Damage Compatibility Requirements Chassis Slot and Dram RequirementsMemory Requirements Hardware Prerequisites Software PrerequisitesMicrocode Requirements List of Parts and ToolsRemoving the RSP8 Installing the RSP8Ejector Levers and Captive Installation Screw Replacing the RSP8 Handling the RSP8 During Removal and Installation Connecting a Console Terminal Connecting to the Auxiliary PortUsing the Y-Cables for Console and Auxiliary Connections Shows the console Y-cable and shows the auxiliary Y-cable Restarting the SystemInstalling the RSP8 Router show version Using the Exec Command Interpreter Configuring the Router for a Single RSP8HSA Active and Standby Operation Configuring High System AvailabilityHSA Implementation Methods HSA System Requirements HSA Configuration Task ListRouter# copy system running-config nvramstartup-config Specifying the Default Standby RSPCommand Purpose Router# configure terminalEnsuring that Both RSPs Contain the Same System Image Router# show controller cbus Ensuring that Both RSPs Contain the Same Microcode ImageRouter# dir slavebootflash slaveslot0 slaveslot1 Router# copy bootflashfilename slot0filenameSlot1filename slavebootslotfilename Router# copy source bootflash slot0 slot1 Determines whether the standby RSP contains the sameCopies a different system image to the active RSP Upgrading to a New Software Version Example Bootflash Now view the standby software image location and versionRouter# copy tftp slot0rsp-pv-mz.120-22.3.S1 Routerconfig# boot system tftp rsp-pv-mz.120-23.S Routerconfig# config-register 0x010FBacking Up with an Older Software Version Example ANB Router# show bootflash Delete the rsp-pv-mz.120-22.3.S1image from the standby RSPRouter# delete slaveslot0rsp-pv-mz.120-22.3.S1 Router# copy system running-config startup-config Manually Setting Environment Variables on the Standby RSPRouterconfig# slave sync config Router# copy running-config startup-configSpecifies which image the standby runs Routerconfig# hw-module slot imageMonitoring and Maintaining HSA Operation Information under that RSP’s ROM monitor controlEnabling High Availability Features High Availability Feature OverviewRouter# slave sync config Enabling High Availability Features Hardware and Software Prerequisites Installation ProceduresThis completes the procedure to enable the router Enabling the RouterCopying an Image onto an RSP Router# copy tftp slaveslot slot-number Router# copy tftp slot slot-numberRouter# show version Setting the Config-Register Boot VariableConfiguring RPR and RPR+ Routerconfig# boot system flashRouter# hw-module sec-cpu reset Routerconfig# hw-module slot slot-numberimage file-specConfiguring RPR and RPR+ Example Verifying RPR and RPR+Router# show redundancy Configuring a Stateful Switchover SSO Saves the configuration changes to the startup Configuration fileVerifying SSO Router# show redundancy client Router# show redundancy states my state = 13 -ACTIVEConfiguring Nonstop Forwarding NSF Configuring CEF NSFConfiguring BGP NSF Graceful-restart Configuring Ospf NSFConfiguring IS-IS NSF As-numberSeconds adjacency Verifying CEF NSFRouter# show ip bgp neighbors Verifying BGP NSFVerifying IS-IS NSF Running-config commandThis example, note the presence of NSF restart enabled Verifying Ospf NSFNetworking device NSF Troubleshooting Tips Troubleshooting NSF FeaturesIS-IS NSF Configuration Example BGP NSF Configuration ExampleBGP NSF Neighbor Device Configuration Example Ospf NSF Configuration ExamplePerforming a Fast Software Upgrade Routerconfig# hw-module slot slot-number image Specifies the image to be used by the standby RSP atName of the image of the standby RSP Routerconfig# service single-slot-reload-enable Configuring SlcrFast Software Upgrade Example Router# redundancy force-switchoverDisabling Slcr RPR, RPR+, SSO, and FSU Troubleshooting TipsSlcr Configuration Example Slcr Troubleshooting TipsVerifying LEDs Troubleshooting the InstallationSystem Power LEDs Monitoring and Maintaining the Active and Standby RSPsNormal RSP8 LEDsVerifying System Startup Sequence Troubleshooting the Installation Troubleshooting a Failed RSP8 Troubleshooting a Router That is Failing to BootDisplaying a Stack Trace of an RSP Maintenance InformationSaving and Retrieving a Configuration File Reloading a Failed RSPRouter# ping Using the ping Command to Ensure ConnectivityCopy to this file Copying the Configuration FileSection on page 24 to enable the privileged level Might include the name or address of a default file serverRouter# show startup-config Retrieving the Configuration File Replacing and Upgrading Dram DIMMs Sdram Dimm Product Numbers Quantity Dram Sockets TotalsPolarization notch Removing DIMMsInserting the Dimm Installing New DIMMsChecking the RSP Memory Upgrade Recovering a Lost PasswordInitialize the router using the i command as follows Console Port Signals Pin Signal Direction DescriptionReference Information Auxiliary Port Signals Female DB-25 Pins Male DB-25 Pins Signal DescriptionConsole and Auxiliary Y-Cable Pinouts P1-7 J1-7 and J2-7 Ground P1-8 J1-8 and J2-8 Software Configuration Register SettingsMale DB-25 Pins Female DB-25 Pins Signal Description P1-5 J1-5 and J2-5Bit Number Hexadecimal Meaning Boot Field MeaningStays at the system bootstrap prompt Boots the first system image in onboard Flash memoryTftp flash filename Changing SettingsRouterconfig# config-register 0xvalue Bit MeaningsAction/Filename Bit Baud Bit Enabling a Boot from Flash MemoryRouterconfig# boot system flash devicefilename Bit Address net hostEnabling a Boot from the Flash Disk Cisco.com Using Flash MemorySystem# copy running-config startup-config Obtaining DocumentationDocumentation Feedback Obtaining Technical AssistanceDocumentation CD-ROM Ordering DocumentationTAC Case Priority Definitions Cisco TAC Website Opening a TAC CaseObtaining Additional Publications and Information Copyright 2004 Cisco Systems, Inc. All rights reserved
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