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Release Notes for Cisco IOS Release 11.1---Cisco CPA1600 Series Routers

Release Notes for Cisco IOS Release 11.1---Cisco CPA1600 Series Routers

Release Notes for Cisco IOS Release 11.1---Cisco CPA1600 Series Routers

November 11, 1996

These release notes identify the Cisco Internetwork Operating System (Cisco IOS) Release 11.1 feature sets for Cisco CPA1600 series routers. Product numbers supported are as follows:

Note The feature packs listed here are supported in Cisco IOS Release 11.1(7)AA.

These release notes describe the feature packs and the specific features of the available feature sets for Cisco CPA1600 series routers. These release notes also help you navigate the Cisco IOS Release 11.1 online documentation. The router image loader, which is on the same CD-ROM as the Cisco IOS feature sets, runs in Windows 95 on a PCs. These release notes also describe how to install Cisco IOS feature sets using Windows 3.1.


Introduction

These release notes contain the following sections:


Feature Pack Descriptions

This section describes the feature packs and lists the software feature sets in each pack. Note that a feature pack can contain multiple feature sets, and each feature set contains many features.

Table 1 lists each feature pack as specified on the label of the CD containing the router software. In addition, Table 1 lists the feature sets in each feature pack, giving the DOS and UNIX filenames of the images. See Table 4 for a list of the features in each feature set.

Table 1 : Feature Pack Feature Sets for Cisco CPA1600 Series Routers

Feature Sets Included DOS Filename UNIX Filename Description of Feature Set
CPA1600 IP Feature Pack Release 11.1 (part number CPASW16-A-11.1=)
IP
80130501.bin c1600-y-l.111-7.AA IP feature set for CPA1600
CPA1600 IP Plus Feature Pack Release 11.1 (part number CPASW16-AP-11.1=)
IP Plus
 80130401.bin c1600-sy-l.111-7.AA IP Plus feature set for CPA1600
CPA1600 IP/IPX/AppleTalk Feature Pack Release 11.1 (part number CPASW16-B-11.1=)
IP/IPX
 80130301.bin c1600-ny-l.111-7.AA IP/IPX feature set for CPA1600
IP/AT
 80130101.bin c1600-by-l.111-7.AA IP/AppleTalk feature set for CPA1600
IP/IPX/AT
 80129901.bin c1600-bny-l.111-7.AA IP/IPX/AppleTalk feature set for CPA1600
CPA1600 IP/IPX/AppleTalk Plus Feature Pack Release 11.1 (part number CPASW16-BP-11.1=)
IP/IPX/AT Plus
 80129801.bin c1600-bnsy-l.111-7.AA IP/IPX/AppleTalk Plus feature set for CPA1600
CPA1600 IP/IPX Plus and IP/AppleTalk Plus Feature Pack Release 11.1 (part number CPASW16-DP-11.1=)
IP/IPX Plus
 80130201.bin c1600-nsy-l.111-7.AA IP/IPX Plus feature set for CPA1600
IP/AT Plus
 80130001.bin c1600-bsy-l.111-7.AA IP/AppleTalk Plus feature set for CPA1600


Memory Requirements

This section describes the memory required for each feature set, memory delivered by default, and available memory upgrades.

Use Table 2 to identify the memory required for the image you want to run. Use Table 3 to determine how much memory is available on the router as the factory default, as well as the upgrades that you can obtain to satisfy additional memory requirements.

Table 2 : Cisco CPA1600 Series Feature Set Memory Requirements

Feature Set Flash Card DRAM
IP 4 MB (default) 2 MB (default)
IP/IPX 4 MB (default) 2 MB (default)
IP/AT 4 MB (default) 2 MB (default)
IP/IPX/AT 6 MB (upgrade) 4 MB (upgrade)
IP Plus 6 MB (upgrade) 4 MB (upgrade)
IP/IPX Plus 6 MB (upgrade) 4 MB (upgrade)
IP/AT Plus 6 MB (upgrade) 4 MB (upgrade)
IP/IPX/AT Plus 6 MB (upgrade) 4 MB (upgrade)

Note For feature sets that require 6-MB Flash memory, order a 6-MB Flash memory card to replace the default 4-MB Flash memory card installed in the router. For feature sets that require 4-MB DRAM, order a 2-MB DRAM upgrade option to add to the default 2-MB DRAM.

Table 3 : Cisco CPA1600 Series Default Memory and Upgrade Options

Memory Type Default Upgrade Options
Flash memory card 4 MB 6-MB: CPA016-MEM6FC=
8-MB: CPA016-MEM8FC=
12-MB: CPA016-MEM12FC=
DRAM 2 MB 2-MB: CPA016-MEM2D=
4-MB: CPA016-MEM4D=
8-MB: CPA016-MEM8D=
16-MB: CPA016-MEM16D=


List of Features for Cisco CPA1600 Series Routers

This section identifies specific features, listed by categories, that are supported on Cisco CPA1600 series routers:

You can use the information in Table 4 in conjunction with the information provided in the section "Feature Pack Descriptions," page 2 to determine which features a particular feature set supports.

Table 4 : Cisco IOS Release 11.1 Feature Sets for Cisco CPA1600 Series Routers

Supported Features IP Routing IP/IPX Routing IP/AppleTalk IP/IPX/
AppleTalk
LAN Support
Apollo Domain -- -- -- --
AppleTalk 1 and 2 -- -- Yes Yes
Banyan VINES -- -- -- --
Concurrent routing and bridging -- -- -- --
DECnet IV -- -- -- --
DECnet V -- -- -- --
GRE tunneling Yes Yes Yes Yes
Integrated routing and bridging (IRB) -- -- -- --
IP Yes Yes Yes Yes
LAN extension host -- -- -- --
Multiring Yes Yes -- --
Novell IPX -- Yes -- Yes
OSI -- -- -- --
Source-route bridging -- -- -- --
Transparent bridging Yes Yes -- --
Translational bridging -- -- -- --
XNS -- -- -- --
WAN Services
Asynchronous Yes Yes Yes Yes
Frame Relay Yes Yes Yes Yes
HDLC Yes Yes Yes Yes
IPXWAN 2.0 Plus Plus Plus Plus
ISDN Yes Yes Yes Yes
PPP Yes Yes Yes Yes
SMDS Yes Yes Yes Yes
Switched 56 Yes Yes Yes Yes
X.25 Yes Yes Yes Yes
SLIP asynchronous only Yes Yes Yes Yes
WAN Optimization
Bandwidth-on-demand Yes Yes Yes Yes
Custom and priority queuing Yes Yes Yes Yes
Dial backup Yes Yes Yes Yes
Dial-on-demand Yes Yes Yes Yes
Header, link and payload compression Yes Yes Yes Yes
Snapshot routing Yes Yes Yes Yes
Weighted fair queuing Yes Yes Yes Yes
IPX and SPX spoofing -- Yes -- Yes
IP Routing
AppleTalk SMRP Multicast -- -- Yes Yes
BGP -- -- -- --
EGP -- -- -- --
Enhanced IGRP Yes Yes Yes Yes
OSPF Plus Plus Plus Plus
OSPF On Demand Circuit Plus Plus Plus Plus
IP Multicast (PIM) Plus Plus Plus Plus
ES-IS -- -- -- --
IGRP Yes Yes Yes Yes
IS-IS -- -- Yes Yes
NHRP -- -- Plus Plus
Policy-based routing Yes Yes Yes Yes
RIP Yes Yes Yes Yes
RIP Version 2 Yes Yes Yes Yes
Other Routing
AURP -- -- Plus Plus
IPX RIP -- Yes -- Yes
NLSP -- Plus -- Plus
RTMP -- -- Yes Yes
SMRP -- -- Plus Plus
SRTP -- -- -- --
Management
AutoInstall Yes Yes Yes Yes
Automatic modem configuration Yes Yes Yes Yes
RMON events and alarms Yes Yes Yes Yes
SNMP Yes Yes Yes Yes
Telnet Yes Yes Yes Yes
Security
Access lists Yes Yes Yes Yes
Access security Yes Yes Yes Yes
Extended access lists Yes Yes Yes Yes
Kerberized login -- -- -- --
Kerberos V client support -- -- -- --
Lock and key Yes Yes Yes Yes
MAC security for hubs -- -- -- --
MD5 routing authentication -- -- -- --
RADIUS -- -- -- --
TACACS+ Yes Yes Yes Yes
IBM Support (Optional)
APPN (Optional) -- -- -- --
BAN for SNA Frame Relay support -- -- -- --
Bisync -- -- -- --
Caching and filtering -- -- -- --
DLSw+ -- -- -- --
Downstream PU concentration (DSPU) -- -- -- --
Frame Relay SNA Support (RFC 1490) -- -- -- --
NetView Native Service Point -- -- -- --
QLLC -- -- -- --
SDLC integration -- -- -- --
SDLC transport (STUN) -- -- -- --
SDLC-to-LAN conversion (SDLLC) -- -- -- --
SNA and NetBIOS WAN optimization
via local acknowledgment 		-- -- -- --
SRB/RSRB -- -- -- --
SRT -- -- -- --
TG/COS -- -- -- --
Protocol Translation
LAT -- -- -- --
PPP -- -- -- --
Rlogin -- -- -- --
Telnet -- -- -- --
TN3270 -- -- -- --
X.25 -- -- -- --
Remote Node
ARAP 1.0/2.0 -- -- -- --
Asynchronous master interfaces -- -- -- --
ATCP -- -- -- --
CPPP -- -- -- --
CSLIP -- -- -- --
DHCP Yes Yes Yes Yes
IP pooling -- -- -- --
IPX and ARAP on virtual asynch interfaces -- -- -- --
IPXCP -- -- -- --
MacIP -- -- -- --
NASI -- -- -- --
NetBEUI over PPP -- -- -- --
PPP Yes Yes Yes Yes
SLIP Yes Yes Yes Yes
Terminal Services
LAT -- -- -- --
Rlogin Yes Yes Yes Yes
Telnet Yes Yes Yes Yes
TN3270 -- -- -- --
X.25 PAD -- -- -- --
Xremote -- -- -- --


Installing the Router Software Using Microsoft Windows 3.1

In addition to the Cisco IOS feature sets, the CD-ROM also contains the router image loader, which you can use to download the software to the router. The booklet included with the CD-ROM explains how to install the software on a PC running Windows 95, but you can also install the software using Windows 3.1.

This section describes how to install the software images from the CD-ROM using a PC running Windows 3.1. The process requires that you first obtain a Trivial File Transfer Protocol (TFTP) application or a remote copy protocol (rcp) application, which you can use to set up your PC as a TFTP server or an rcp server. You can use either the copy tftp flash or copy rcp flash command to download the software images to the router from a system running Windows 3.1.

Note If you do not already have a TFTP or rcp application, you can choose from a number of applications that are available from independent software vendors. In addition, a number of TFTP programs are available as shareware from public sources on the World Wide Web.


Installation Process

This section provides steps that enable you to install the router software using a TFTP application and a PC running Windows 3.1. To install the software using an rcp application, follow the same steps but use rcp instead of TFTP. You must also substitute the copy rcp flash command for the copy tftp flash command in Step 6. See the next section, "Command Reference Information for TFTP and rcp," for detailed information about the copy rcp flash and copy tftp flash commands.

Step 1 Install the TFTP application on the PC.

Step 2 Launch the TFTP application on the PC, usually by double-clicking the application icon or its filename.

Step 3 Set up the PC as a TFTP server using the TFTP application setup or configuration facility.

The user interface of most TFTP applications includes a setup facility that allows you to specify the PC as a server. For example, from the TFTP menu of one application, you can select Settings to display a panel that includes a checkbox beside the word Server. To configure the local PC as a server, click in this checkbox.

fig_4.gif

Caution Be certain to set up your local PC as a TFTP server. If you overlook this step, you will not be able to copy the new software images. If you are using rcp instead of TFTP, you should also be certain to set up your local PC as an rcp server before you copy the software images.

Step 4 Establish a console session from your local PC (which is now configured as a TFTP server) to the router. You can do this in either of two ways:

  • Connect the PC's COM port to the router's console port.

    This is the recommended method. If you use this method, you will remain connected to the router when you reload the router to cause the image to take effect (in Step 11).

  • Establish a Telnet session from the PC to the router. If you use this method, you will lose your connection to the router when you reload the router to cause the image to take effect (in Step 11).

Step 5 Connect your PC's Ethernet port to the router's Ethernet port using the 10BaseT crossover cable provided.

Use straight-through cables if you are connecting through a 10BaseT hub.

Step 6 At the router prompt, enter the following command to copy the new software image from the CD-ROM drive of the PC to the router:

# copy tftp flash
If you are using rcp, enter copy rcp flash instead.

Step 7 When prompted, enter the IP address of your local Windows 3.1--based PC, as in the following example:

Address or name of remote host [255.255.255.255]? 131.108.1.1

This is the IP address of your local PC not the router.

Step 8 When prompted, enter the full path name of the image to be copied to the router as in the following example:

Source file name? d:\images\cisco.mz

Step 9 In response to the following prompt, enter the destination filename and press Enter to indicate that you want to copy the image.

Destination file name [d:\images\cisco.mz]? cisco.mz

(This is the location and name of the image file on the router, not the full path name of the image on the CD-ROM on the PC.)

During the transfer process, messages indicate that the software has accessed the file you have specified and is loading it.

Step 10 Enter Yes or No in response to the prompt asking if you want to erase the existing image in the router's Flash memory before copying the new one:

Erase flash device before writing? [confirm] yes

When copying to Flash memory, the system provides an option to erase existing internal Flash memory before writing onto it. The entire copying process takes several minutes and differs from network to network.

The exclamation point (!) indicates that the copy process is taking place. Each exclamation point indicates that ten packets have been transferred successfully. A series of "V" characters indicates that a checksum verification of the image is occurring after the image is written to Flash memory.

Step 11 Enter the reload command to reload the router:

# reload


Command Reference Information for TFTP and rcp

This section includes detailed information about the copy rcp flash and copy tftp flash commands. This information supplements the information provided in the steps described in the section "Installation Process," page 8.


copy rcp flash

To copy a file from a network server to the router or to another destination using rcp, use the copy rcp flash EXEC command:

copy rcp flash


Syntax Description

flash Specifies internal Flash memory as the destination of the copy operation.


Command Mode

EXEC


Usage Guidelines

The rcp protocol requires that a client send the remote username of an rcp request to the server. When you enter the copy rcp flash command, by default the Cisco IOS software sends the username associated with the current teletype (TTY), if that name is valid. For example, if the user is connected to the router through Telnet and the user was authenticated through the username command, then the software sends that username as the remote username.

Note TTY lines are commonly used for access services for Cisco routers. The concept of TTY originated with UNIX. For UNIX systems, each physical device is represented in the file system. Terminals are called TTY devices, which stands for teletype, the original UNIX terminal.

If the TTY username is invalid, the software uses the host name as the both the remote and local usernames. To specify a different remote username to be sent to the rcp server, use the ip rcmd remote-username command. You can also specify the path of an existing directory along with the remote username.

fig_5.gif Caution The remote username must be associated with an account on the destination server. If you do not use the ip rcmd remote-username command to specify the name of a remote user associated with an account on the server, then the remote username associated with the current TTY process must be associated with an account on the server. If there is no username for the current TTY process, then the host name must be associated with an account on the server. If the network administrator of the destination server did not establish accounts for the remote username used, this command will not execute successfully when a default remote username is used.

If you copy a system image from a PC used as a file server, the remote host computer must support the remote shell (rsh) protocol.

Use the copy rcp flash command to copy a system image from a network server to the router's internal Flash memory using rcp. The Cisco IOS software prompts for the address of the rcp server and rcp filename. When you enter this command, the system provides an option to erase existing Flash memory before writing onto it. The entire copying process takes several minutes and differs from network to network.

Before booting from Flash memory, verify that the checksum of the image in internal Flash memory matches the checksum listed in the README file distributed with the system software image. The checksum of the image in Flash memory is displayed at the bottom of the screen when you issue the copy rcp flash command. The README file was copied to the rcp server automatically when you installed the system software image.

fig_1.gif Caution If the checksum value does not match the value in the README file, do not reboot the router. Re-enter the copy rcp flash command and compare the checksums again. If the checksum is repeatedly wrong, copy the original system software image back into Flash memory before you reboot the router from Flash memory. If you have a corrupted image in Flash memory and try to boot from Flash memory, the router starts the system image contained in ROM (assuming booting from a network server is not configured). If ROM does not contain a fully functional system image, the router cannot function and must be reconfigured through a direct console port connection.


Examples

The following example shows how to use the copy rcp flash command on a Cisco 4500 router. The interface might differ slightly on other systems. This example copies a system image named file1 from the netadmin1 directory on the remote server named SERVER1.CISCO.COM with an IP address of 131.108.101.101 to Flash memory. To ensure that enough Flash memory is available to accommodate the system image to be copied, the Cisco IOS software allows you to erase the contents of Flash memory first. 

Router1# configure terminal

Router1(config)# rcmd remote-username netadmin1
Router(config)# Ctrl-Z
Router# copy rcp flash 


System flash directory, partition 2:
File  Length   Name/status
  1   984      file1 [deleted]
  2   984      file1
[2096 bytes used, 8386512 available, 8388608 total]
Address or name of remote host [255.255.255.255]? 131.108.101.101
Source file name? file1
Destination file name [file1]?
Accessing file 'file1' on 131.108.101.101...
Loading dirt/ssangiah/file1 .from 131.108.101.101 (via Ethernet0): ! [OK]

Erase flash device before writing? [confirm]
Flash contains files. Are you sure you want to erase? [confirm]

Copy 'file1' from server
  as 'file1' into Flash WITH erase? [yes/no] yes
Erasing device... eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee ...erased
Loading file1 from 131.108.101.101 (via Ethernet0): !
[OK - 984/8388608 bytes]

Verifying checksum...  OK (0x14B3)
Flash copy took 0:00:01 [hh:mm:ss]

The following example shows sample output resulting from copying a system image into a partition of Flash memory. The system prompts only if there are two or more read/write partitions or one read-only and one read/write partition and dual Flash memory bank support in boot ROMs. If the partition entered is not valid, the process terminates. You have the option to enter a partition number, a question mark (?) for a directory display of all partitions, or a question mark and a number (?number) for a directory display of a particular partition. The default is the first read/write partition. 


Router# copy rcp flash

System flash partition information:
Partition   Size     Used    Free    Bank-Size   State       Copy-Mode
    1       4096K    2048K   2048K   2048K       Read Only   RXBOOT-FLH
    2       4096K    2048K   2048K   2048K       Read/Write  Direct

[Type ?<no> for partition directory; ? for full directory; q to abort]
Which partition? [default = 2]

If the partition is read-only and has dual Flash memory bank support in boot ROMs, the session continues as follows: 

                               ****  NOTICE  ****
Flash load helper v1.0
This process will accept the copy options and then terminate
the current system image to use the ROM based image for the copy.
Routing functionality will not be available during that time.
If you are logged in via telnet, this connection will terminate.
Users with console access can see the results of the copy operation.
                               ---- ******** ----
Proceed? [confirm]
System flash directory, partition 1:
File  Length   Name/status
  1   3459720  master/igs-bfpx.100-4.3
[3459784 bytes used, 734520 available, 4194304 total]
Address or name of remote host [255.255.255.255]? 131.108.1.1
Source file name? master/igs-bfpx-100.4.3
Destination file name [default = source name]?

The file will be copied into the partition given earlier by the user: 

Loading master/igs-bfpx.100-4.3 from 131.108.1.111: !
Erase flash device before writing? [confirm]
Flash contains files. Are you sure? [confirm]
Copy 'master/igs-bfpx.100-4.3' from TFTP server
as 'master/igs-bfpx.100-4.3' into Flash WITH erase? [yes/no] yes

If the partition is read/write, the session continues as follows: 

System flash directory, partition 2:
File  Length   Name/status
  1   3459720  master/igs-bfpx.100-4.3
[3459784 bytes used, 734520 available, 4194304 total]
Address or name of remote host [255.255.255.255]? 131.108.1.1
Source file name? master/igs-bfpx.100-4.3
Destination file name [default = source name]?

The file will be copied into the partition given earlier by the user: 

Accessing file 'master/igs-bfpx.100-4.3' on ABC.CISCO.COM...
Loading master/igs-bfpx.100-4.3 from 131.108.1.111: !
Erase flash device before writing? [confirm]
Flash contains files. Are you sure? [confirm]
Copy 'master/igs-bfpx.100-4.3' from TFTP server
as 'master/igs-bfpx.100-4.3' into Flash WITH erase? [yes/no] yes


Related Commands

boot config
boot system flash
cd
copy flash rcp
ip rcmd remote-username
verify flash


copy tftp flash

To copy a file from a TFTP server to the router or to another destination, use the copy tftp flash EXEC command.

copy tftp flash


Syntax Description

flash Specifies internal Flash memory as the destination of the copy operation.


Command Mode

EXEC


Usage Guidelines

The system prompts for the address of the TFTP server and TFTP filename if you do not provide them at the command line. When copying to internal Flash memory, the system provides an option to erase existing internal Flash memory before writing onto it. The entire copying process takes several minutes and differs from network to network.

Before booting from Flash memory, verify that the checksum of the image in Flash memory matches the checksum listed in the README file distributed with the system software image. The checksum of the image in Flash memory is displayed at the bottom of the screen when you enter the copy tftp flash command. The README file was copied to the TFTP server automatically when you installed the system software image.

fig_2.gif Caution If the checksum value is not correct according to the value in the README file, do not reboot the router. Enter the copy tftp flash command and compare the checksums again. If the checksum is repeatedly wrong, copy the original system software image back into Flash memory before you reboot the router from Flash memory. If you have a corrupted image in Flash memory and try to boot from Flash memory, the router starts the system image contained in ROM (assuming booting from a network server is not configured). If ROM does not contain a fully functional system image, the router cannot function and must be reconfigured through a direct console port connection.

Examples

The following example shows sample output of copying a system image named file1 into Flash memory: 

Router# copy tftp flash


System flash directory, partition 2:
File  Length   Name/status
  1   984      file1 [deleted]
  2   984      file1
[2096 bytes used, 8386512 available, 8388608 total]
Address or name of remote host [255.255.255.255]? 223.255.254.254
Source file name? file1
Destination file name [file1]?
Accessing file 'file1' on 223.255.254.254...
Loading dirt/ssangiah/file1 .from 223.255.254.254 (via Ethernet0): - [OK]

Erase flash device before writing? [confirm]
Flash contains files. Are you sure you want to erase? [confirm]

Copy 'file1' from server
  as 'file1' into Flash WITH erase? [yes/no] yes
Erasing device... eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee ...erased
Loading file1 from 223.255.254.254 (via Ethernet0): !!!!...
[OK - 984/8388608 bytes]

Verifying checksum...  OK (0x14B3)
Flash copy took 0:00:01 [hh:mm:ss]

The exclamation point (!) indicates that the copy process is taking place. Each exclamation point indicates that ten packets have been transferred successfully. A series of "V" characters indicates that a checksum verification of the image is occurring after the image is written to Flash memory.

The following example shows sample output resulting from copying a system image into a partition of Flash memory. The system will prompt only if there are two or more read/write partitions or one read-only and one read/write partition and dual Flash memory bank support in boot ROMs. If the partition entered is not valid, the process terminates. You can enter a partition number, a question mark (?) for a directory display of all partitions, or a question mark and a number (?number) for directory display of a particular partition. The default is the first read/write partition. 

Router# copy tftp flash

System flash partition information:
Partition   Size     Used    Free    Bank-Size   State       Copy-Mode
    1       4096K    2048K   2048K   2048K       Read Only   RXBOOT-FLH
    2       4096K    2048K   2048K   2048K       Read/Write  Direct

[Type ?<no> for partition directory; ? for full directory; q to abort]
Which partition? [default = 2]

If the partition is read-only and has dual Flash memory bank support in boot ROMs, the session continues as follows: 

                               ****  NOTICE  ****
Flash load helper v1.0
This process will accept the copy options and then terminate
the current system image to use the ROM based image for the copy.
Routing functionality will not be available during that time.
If you are logged in via telnet, this connection will terminate.
Users with console access can see the results of the copy operation.
                               ---- ******** ----
Proceed? [confirm]
System flash directory, partition 1:
File  Length   Name/status
  1   3459720  master/igs-bfpx.100-4.3
[3459784 bytes used, 734520 available, 4194304 total]
Address or name of remote host [255.255.255.255]? 131.108.1.1
Source file name? master/igs-bfpx-100.4.3
Destination file name [default = source name]?

The file will be copied into the partition given earlier by the user: 

Loading master/igs-bfpx.100-4.3 from 131.108.1.111: !
Erase flash device before writing? [confirm]
Flash contains files. Are you sure? [confirm]
Copy 'master/igs-bfpx.100-4.3' from TFTP server
as 'master/igs-bfpx.100-4.3' into Flash WITH erase? [yes/no] yes

If the partition is read/write, the session continues as follows: 

System flash directory, partition 2:
File  Length   Name/status
  1   3459720  master/igs-bfpx.100-4.3
[3459784 bytes used, 734520 available, 4194304 total]
Address or name of remote host [255.255.255.255]? 131.108.1.1
Source file name? master/igs-bfpx.100-4.3
Destination file name [default = source name]?

The file will be copied into the partition given earlier by the user: 

Accessing file 'master/igs-bfpx.100-4.3' on ABC.CISCO.COM...
Loading master/igs-bfpx.100-4.3 from 131.108.1.111: !
Erase flash device before writing? [confirm]
Flash contains files. Are you sure? [confirm]
Copy 'master/igs-bfpx.100-4.3' from TFTP server
as 'master/igs-bfpx.100-4.3' into Flash WITH erase? [yes/no] yes


Related Commands

copy flash tftp
verify
verify flash


Additional Release Note Information

For detailed information about this software release, see the Enterprise release notes located on the Cisco Connection Documentation, CD-ROMs. Information that about the feature pack described in this release note includes the following:

  • New features

  • Important notes

  • Caveats


About the Cisco IOS Software Electronic Documentation

Cisco IOS software documentation is provided on the Cisco Connection Documentation CD that is included with your feature pack. The documentation is organized into three main categories:

  • Configuration guides and command references, which are organized into the following modules:

    • Configuration Fundamentals:

    Configuration Guide

    Command Reference

    • Access Services:

    Configuration Guide

    Command Reference

    • Network Protocols, Part 1:

    Configuration Guide

    Command Reference

    • Network Protocols, Part 2:

    Configuration Guide

    Command Reference

    • Bridging and IBM Networking:

    Configuration Guide

    Command Reference

    Each of the six modules consists of a configuration guide and command reference. The first chapter of each document of a set is called "About the Cisco IOS Software Documentation." Each chapter includes a section called "Cisco IOS Software Documentation Organization," which provides a documentation roadmap and describes the structure and content of the guides and references. You should read this chapter to familiarize yourself with the overall structure and organization of the documentation so you can more readily find information you need to set up, configure, and maintain the router to support your particular feature set.

    Cisco IOS configuration guides describe system configuration and maintenance tasks and provide comprehensive configuration examples. The configuration guides do not include command syntax for every command, so you should use them in conjunction with the command references. The Cisco configuration guides give in-depth descriptions of configuration tasks.

    Cisco IOS command references describe the commands necessary for configuring and maintaining your system. If you are new to CiscoPro software, you should use the Cisco command references in conjunction with the configuration guides to reference commands and detailed information pertaining to their use. If you are an experienced network administrator, you might want to use the Cisco command references as standalone manuals.

  • Supporting documentation, as follows:

Cisco IOS Command Summary: This document summarizes the commands in the six command reference publications. For each command, it provides complete syntax, the purpose of the command, and a description of each keyword and argument in the command syntax. Where possible, it also identifies the default values of keywords and arguments.

System Error Messages: This document describes system error messages reported by Cisco IOS software. It includes possible causes and recommended actions. The System Error Messages publication is intended for network administrators who are responsible for monitoring and maintaining internetworking equipment.

Cisco Access Connection Guide: This document explains how to use an access server or a router to connect to network hosts. It also describes how to manage and monitor network connections and how to change terminal parameters.

Cisco Management Information Base (MIB) User Quick Reference: This document describes the Cisco Systems private, or local, Management Information Base (MIB), which is provided with all Cisco software releases and with CiscoWorks router management software. A MIB file contains variables that can be set or read to provide information on network devices and interfaces. The Cisco MIB is a set of variables that are private extensions to the Internet standard MIB II.

Debug Command Reference: This document provides information about using debug commands to troubleshoot your internetwork. The Debug Command Reference is intended for network administrators who already know how to configure a router and are familiar with all relevant network equipment.

  • Release Notes


Obtaining Service and Support

For service and support for a product purchased from a reseller, contact the reseller. Resellers offer a wide variety of Cisco service and support programs, which are described in the section "Service and Support" in the information packet that shipped with your chassis.

Note If you purchased your product from a reseller, you can access Cisco Connection Online (CCO) as a guest. CCO is Cisco Systems' primary, real-time support channel.Your reseller offers programs that include direct access to CCO's services.

For service and support for a product purchased directly from Cisco, use CCO.


Cisco Connection Online

CCO is Cisco Systems' primary, real-time support channel. SMARTnet customers and partners can self-register on CCO to obtain additional content and services.

Note If you purchased your product from a reseller, you can access CCO as a guest. Your reseller offers programs that include direct access to CCO's services.

Available 24 hours a day, 7 days a week, CCO provides a wealth of standard and value-added services to Cisco's customers and business partners. CCO services include product information, software updates, release notes, technical tips, the Bug Navigator, configuration notes, brochures, descriptions of service offerings, and download access to public and authorized files.

CCO serves a wide variety of users through two interfaces that are updated and enhanced simultaneously---a character-based version and a multimedia version that resides on the World Wide Web (WWW). The character-based CCO supports Zmodem, Kermit, Xmodem, FTP, and Internet e-mail, and is excellent for quick access to information over lower bandwidths. The WWW version of CCO provides richly formatted documents with photographs, figures, graphics, and video, as well as hyperlinks to related information.

You can access CCO in the following ways:

  • WWW: http://www.cisco.com.

  • WWW: http://www-europe.cisco.com.

  • WWW: http://www-china.cisco.com.

  • Telnet: cco.cisco.com.

  • Modem: From North America, 408 526-8070; from Europe, 33 1 64 46 40 82. Use the following terminal settings: VT100 emulation; databits: 8; parity: none; stop bits: 1; and baud rates up to 14.4 kbps.

For a copy of CCO's Frequently Asked Questions (FAQ), contact ccohelp@cisco.com. For additional information, contact ccoteam@cisco.com.

Note If you need technical assistance with a Cisco product that is under warranty or covered by a Cisco maintenance contract, contact Cisco's Technical Assistance Center (TAC) at 800 553-2447, 408 526-7209, or tac@cisco.com.

Please use CCO to obtain general information about Cisco Systems, Cisco products, or upgrades. If CCO is not accessible, contact 800 553-6387, 408 526-7208, or csrep@cisco.com.

Copyright 1988-1997 © Cisco Systems Inc.


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