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Table Of Contents
Configuring the LightStream 1010 ATM Switch
Verifying Installed LightStream 1010 Software and Hardware
Autoconfigured ATM Addressing Scheme
Default ATM Interface Configuration Without Autoconfiguration
Configuring Ethernet IP Interface Parameters
Configuring the Network Routing
Configuring ATM Routes for IISP or PNNI
Configuring the System Information
Storing the Configuration at Startup
Using show version to Confirm Software
Using show hardware to Confirm Hardware Configuration
Using show interface ethernet to Confirm Ethernet Configuration
Using show running-config Command to Confirm ATM Address
Using ping to Test the Ethernet Connection
Using ping atm to Confirm the ATM Connections
Using show atm interface to Confirm ATM Interface Configuration
Using show atm status to Confirm Interface Status
Using show atm vc to Confirm Virtual Connection
Using show running-config to Confirm Configuration
Using show startup-config to Confirm Saved Configuration
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Configuring the LightStream 1010 ATM Switch
This chapter discusses the initial configuration of the LightStream 1010 Asynchronous Transfer mode (ATM) switch. Because the LightStream 1010 offers true plug-and-play operation, most users may not need to perform any of these procedures.
The LightStream 1010 is shipped with the ATM address autoconfigured to an address assigned by Cisco Systems. This feature lets the switch automatically configure attached end systems using the Interim Local Management Interface (ILMI) protocol and automatically establishes itself as a node in a single-level Private Network-Network Interface (PNNI) routing domain.
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The default software image for the LightStream 1010 contains only the Interim Interswitch Signaling Protocol (IISP) for routing. This is suitable for small networks that do not require the sophistication of the PNNI protocols. A separate orderable image contains both PNNI and IISP. The PNNI protocol provides the route dissemination mechanism for complete plug-and-play capability.
The ILMI and PNNI protocols, when used with such IP address autoconfiguration mechanisms as BOOTP, allow the LightStream 1010 to be entirely self-configured. Through network management applications and the text-based command line interface (CLI), the switch's network operator has the capability, if desired, to configure and customize all aspects of the operation of the switch.
An IP address must be assigned to allow up to eight simultaneous Telnet sessions to connect to the switch or to use Simple Network Management Protocol (SNMP) network management for the switch. The Ethernet IP address can be assigned either manually or by a BOOTP server. See the section " Configuring Ethernet IP Interface Parameters."
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For definitions of all commands discussed in this chapter, refer to the publication LightStream 1010 ATM Switch Command Reference.
The following sections describe how to initially configure the LightStream 1010:
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Before You Begin
You may need the following information before you can begin your LightStream 1010 configuration if you want to configure some additional features:
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To help configure your switch you should have already completed the worksheets in the section " Port Configuration Worksheets" in the appendix " Configuration Worksheets."
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Powering Up Your System
Before powering up your system, check for correct AC power voltages. See the appendix " System Specifications" for correct AC power voltages.
Warning
This product relies on the building's installation for short-circuit (overcurrent) protection. Ensure that a fuse or circuit breaker no larger than 120 VAC, 15A U.S. (240 VAC, 10A international) is used on the phase conductors (all current-carrying conductors). To see translated versions of this warning, refer to the appendix " Translated Safety Warnings."
Warning
Care must be given to connecting units to the supply circuit so that wiring is not overloaded. To see translated versions of this warning, refer to the appendix " Translated Safety Warnings."
Now you can safely power up your system by flipping the power switch(es) on the power supply(ies).
Verifying Installed LightStream 1010 Software and Hardware
When you first power up your console and LightStream 1010, a screen similar to the following appears:
Restricted Rights LegendUse, duplication, or disclosure by the Government issubject to restrictions as set forth in subparagraph(c) of the Commercial Computer Software - RestrictedRights clause at FAR sec. 52.227-19 and subparagraph(c) (1) (ii) of the Rights in Technical Data and ComputerSoftware clause at DFARS sec. 252.227-7013.cisco Systems, Inc.170 West Tasman DriveSan Jose, California 95134-1706Cisco Internetwork Operating System SoftwareIOS (tm) IISP Software (LS1010-WI-M), Version 11.1(1.083),MAINTENANCE INTERIM SOFTWARECopyright (c) 1986-1996 by cisco Systems, Inc.Compiled Wed 10-Apr-96 06:11 byImage text-base: 0x600108C0, data-base: 0x602E8000The first section of the script displays the banner information, including the software version.
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LS Software (LS1010-I-M) means that the IISP software image is loaded, and
LS Software (LS1010-P-M) means that the PNNI software image is loaded.The next portion of the script lists installed hardware configuration.
cisco ASP1 (R4600) processor with 16384K bytes of memory.R4600 processor, Implementation 32, Revision 2.0Last reset from power-on1 Ethernet/IEEE 802.3 interface.16 ATM network interfaces.125K bytes of non-volatile configuration memory.8192K bytes of Flash PCMCIA card at slot 0 (Sector size 128K).8192K bytes of Flash internal SIMM (Sector size 256K).Press RETURN to get started!Switch>Use the show hardware command to confirm installed hardware part and serial numbers:
Switch#show hardwareLS1010 named Switch, Date: 13:44:09 UTC Thu Apr 18 1996Slot Ctrlr-Type PartNo. Rev Ser No Mfg Date RMA No. Hw Vrs Tst EEP---- ---------- ------- -- ------ -------- ------ ------- ------0/0 155UTP PAM 73-1572-02 01 02749041 1/17/96 00-00-00 3.0 0 20/1 155MM PAM 73-1496-03 06 02180424 1/16/96 00-00-00 3.0 0 21/0 155MM PAM 73-1496-03 06 02180444 1/17/96 00-00-00 3.0 0 21/1 155MM PAM 73-1496-03 06 02202228 1/11/96 00-00-00 3.0 0 22/0 ATM Swi/Proc 73-1402-02 00 02827677 0/07/13 00-00-00 2.3 0 2The LightStream 1010 should be operating correctly and transferring data. To confirm that the hardware and software installation and configuration procedures were successful, see the chapter " Confirming the Installation."
BOOTP Server Configuration
The LightStream 1010 Ethernet IP address can be automatically assigned using the BOOTP protocol by adding the MAC and IP addresses of the Ethernet port to the BOOTP server configuration file. When the switch boots, it automatically retrieves the IP address from the BOOTP server.
The switch performs a BOOTP request only if the current IP address is set to 0.0.0.0. (This setting is the default for a new switch or a switch that has had its configuration file cleared using the erase startup-config command.)
To allow your LightStream 1010 to retrieve its IP address from a BOOTP server, find the MAC address label attached to the front of the switch. Add that MAC address to the BOOTP configuration file on the BOOTP server. The following tasks provide an example of creating a BOOTP server configuration file:
Figure 6-1 Example of a Server BOOTP Configuration File
# /etc/bootptab: database for bootp server (/etc/bootpd)## Blank lines and lines beginning with '#' are ignored.## Legend:## first field -- hostname# (may be full domain name and probably should be)## hd -- home directory# bf -- bootfile# cs -- cookie servers# ds -- domain name servers# gw -- gateways# ha -- hardware address# ht -- hardware type# im -- impress servers# ip -- host IP address# lg -- log servers# lp -- LPR servers# ns -- IEN-116 name servers# rl -- resource location protocol servers# sm -- subnet mask# tc -- template host (points to similar host entry)# to -- time offset (seconds)# ts -- time servers## Be careful about including backslashes where they're needed. Weird (bad)# things can happen when a backslash is omitted where one is intended.## First, we define a global entry which specifies the stuff every host uses.<information deleted>######################################################################## ## Start of individual host entries######################################################################## #switch: tc=netcisco0: ha=0000.0ca7.ce00: ip=192.31.7.97:dross: tc=netcisco0: ha=00000c000139: ip=192.31.7.26:<information deleted>ATM Address Configuration
The LightStream 1010 ATM switch is autoconfigured with an ATM address using a hierarchical addressing model similar to the Open System Interconnection (OSI) network service access point (NSAP) addresses. PNNI uses this hierarchy to construct ATM peer groups.
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Autoconfigured ATM Addressing Scheme
During the initial startup, the LightStream 1010 generates an ATM address using the defaults shown in .
Figure 6-2 ATM Address Format
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The switch's ATM address uses a hierarchical addressing model similar to the Open System Interconnect (OSI) network service access point (NSAP) addresses. PNNI uses this hierarchy to construct ATM peer groups. ILMI uses the first 13-bytes of this address as the switch prefix that it registers with end systems.
Default Address Format Features and Implications
Using the default address format has the following features and implications:
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Manually Setting the ATM Address
To configure a new ATM address that replaces the previous ATM address when running IISP software only, see the section "Configure the ATM Address" in the chapter "Configuring ILMI" in the LightStream 1010 ATM Switch Software Configuration Guide.
To configure a new ATM address that replaces the previous ATM address and generates a new PNNI node ID and peer group ID, see the section "Configure PNNI Node" in the chapter "Configuring PNNI" in the LightStream 1010 ATM Switch Software Configuration Guide.
Multiple addresses can be configured for a single switch and this configuration can be used during ATM address migration. ILMI registers end systems with multiple prefixes during this period until an old address is removed. PNNI automatically summarizes all of the switch prefixes in its reachable address advertisement.
If operation with ATM addresses other than the autoconfigured ATM address is desired, use the atm address command to manually assign a 20-byte ATM address to the switch. The atm address command address_template variable can be a full 20-byte address or a 13-byte prefix followed by ellipsis (...). Entering the ellipsis will automatically add one of the switch's 6-byte MAC addresses in the ESI portion and 0 in the selector portion of the address.
CautionATM addressing may lead to conflicts if not configured correctly. The correct address must always be present. For instance, if you are configuring a new ATM address, the old one must be completely removed from the configuration.
To set the ATM address manually, refer to the LightStream 1010 ATM Switch Software Configuration Guide.
Configuring the Interfaces
When the switch is powered on initially without any previous configuration data, the ATM interfaces are automatically configured on the physical ports. ILMI and the physical card type are used to automatically derive the ATM interface type, UNI version, maximum virtual path identifier (VPI) and virtual channel identifier (VCI) bits, ATM interface side, and ATM UNI type.
Default ATM Interface Configuration Without Autoconfiguration
If ILMI has been disabled or if the connecting end node does not support ILMI, the following defaults are assigned to all interfaces:
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The following PAM types have specific defaults assigned:
OC3 PAM:
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OC12 PAM:
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DS3 PAM:
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E3 PAM:
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You can accept the default ATM interface configuration or overwrite the default interface configuration using the CLI commands. These commands are described in the LightStream 1010 ATM Switch Software Configuration Guide, which provides detailed ATM interface configuration tasks.
Configuring Ethernet IP Interface Parameters
Three different IP addresses may be configured on the LightStream 1010. The IP address for the Ethernet port, classical IP over ATM, and a LAN emulation (LANE) client. Each IP address is configured using one of the following methods:
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Configure the interface to communicate with the switch central processor unit (CPU) (interface 2/0/0) or Ethernet interface 2/0/0 using the following information as a guide:
Provide the IP address and subnet mask bits for the interface as follows:
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Internet addresses are 32-bit values assigned to hosts that use the IP protocols. These addresses are in dotted decimal format (four decimal numbers separated by periods) such as 192.17.5.100. Each number is an 8-bit value between 0 and 255. The following is a summary of IP addressing concepts for those who are somewhat familiar with IP addressing.
The addresses are divided into three classes; the classes differ in the number of bits allocated to the network and host portions of the address.
The Class A Internet address format allocates the highest 8 bits to the network field and sets the highest-order bit to 0 (zero). The remaining 24 bits form the host field.
The Class B Internet address allocates the highest 16 bits to the network field and sets the two highest-order bits to 1, 0. The remaining 16 bits form the host field.
The Class C Internet address allocates the highest 24 bits to the network field and sets the three highest-order bits to 1, 1, 0. The remaining 8 bits form the host field.
Default: None.
Action: Enter your Internet address in dotted decimal format for each interface you plan to configure.
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Subnetting is an extension of the Internet addressing scheme, that allows multiple physical networks to exist within a single Class A, B, or C network. The usual practice is to use a few of the far left bits in the host portion of the network address for a subnet field. The subnet mask determines whether subnetting is in effect on a network.
Internet addressing conventions allow a total of 24 host bits for Class A addresses, a total of 16 host bits for Class B addresses, and a total of 8 host bits for Class C addresses. When you are further subdividing your network (that is, subnetting your network), the number of host addressing bits is divided between subnetting bits and actual host address bits. You must specify a minimum of two host address bits, or the subnetwork could not be populated by hosts. Therefore, the ip address command permits you to specify up to 22 host bits for Class A subnetting, 14 bits for Class B subnetting, and
6 bits for Class C subnetting. provides summaries of these subnetting parameters.Table 6-1 Summary of Subnetting Parameters
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1-126
8
22
2
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128-191
16
14
2
C
192-223
24
6
2
Default: 0.
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Define subnet mask bits as a decimal number between 0 and 22 for Class A addresses, 0 and 14 for Class B addresses, or 0 and 6 for Class C addresses. Do not specify 1 as the number of bits for the subnet field. That specification is reserved by Internet conventions.
Configuring the Network Routing
The default software image for the LightStream 1010 will contain only the IISP routing protocol. This will be suitable for small networks that do not require the sophistication of the PNNI protocols. A separate orderable image contains both PNNI and IISP protocols. The PNNI protocol provides the route dissemination mechanism for complete plug-and-play capability.
The following section describes modifications that may be made to the default PNNI or IISP routing configurations:
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For detailed descriptions of these routing protocols see the section " ATM Routing" in the chapter " What is the LightStream 1010 ATM Switch?"
Configuring PNNI Connections
The PNNI routing protocol automatically creates peer groups that are a collection of logical nodes, each of which exchanges information with the other members of the group, so that all members maintain an identical view of the group. For example, hellos, database synchronization, and flooding are carried out among members of the same peer group. All members of the same peer group have the same 13-byte PNNI prefix in their ATM address. A peer group can be considered similar to either open shortest path first (OSPF) or IP routing domains, depending on usage.
This peer group configuration information is in the hierarchy database stored within each switch and updated regularly.
The following section will discuss manually configuring two autonomous peer groups to create one single peer group.
Peer Group ID Modification
To manually configure two autonomous peer groups into one, all members of the peer group must have the same peer group ID in their ATM address. The following sections describe the manual PNNI peer-group modification process:
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Using show atm pnni node id to Determine Peer-Group ID
Use the show pnni node-id command to determine the peer-group IDs to modify:
Example
Switch#show atm pnni node-idNode Node Id---- -------1 56:160:47.000000000000000000000000.000000005656.00Switch#Using atm address to Manually Change Peer-Group ID
The atm address command assigns a 20-byte ATM address to the switch. See the section " ATM Address Configuration" for a complete description of this command.
Multiple addresses can be configured for a single switch and this can be used during address migration. ILMI would register end systems with multiple prefixes during this period until an old address is removed. PNNI automatically summarizes all switch prefixes in its reachable address advertisement.
To configure the ATM address manually, use the following commands using the no form of this command to disable
At the privileged EXEC prompt, enter configuration mode from the terminal
configure1
[terminal]Change 13 byte ATM prefix in the ATM address to match the desired switch prefix
Delete the old ATM address
Start PNNI configuration mode
Disable the node
Enable the node
Restart PNNI to force it to read the new node IDs.
1 This command is documented in the LightStream 1010 ATM Switch Command Reference publication.
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Example
The following steps configure a peer-group ID manually:
Step 1
Step 2
Step 3
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Step 5
Step 6
Switch(config)#atm address 47.0091.8100.5670.0000.0ca7.ce01...Switch(config)#no atm address 47.0091.8100.1200.0000.0ca7.ce01...Switch(config)#atm router pnniSwitch(config)#atm node 1 disableSwitch(config)#atm node 1 enableSwitch(config)#restart pnniConfiguring ATM Routes for IISP or PNNI
Use the atm route command to configure a static route. A static route attached to an interface allows all ATM address prefixes where the static route is a match to be reached through that interface.
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is an example of the atm route command configuring a static route to the 13-byte-switch-prefix = 47.0091.8100.567.0000.0ca7.ce01 to interface 3/0/0.
Figure 6-3 Example of the atm route Command
Switch(config)#atm route 47.0091.8100.567.0000.0ca7.ce01 atm 3/0/0Switch(config)#Configuring the System Information
Although not required, several system parameters should be set as part of the initial system configuration. These system information commands make troubleshooting and configuring the switches easier. To set the system parameters, perform the following tasks in EXEC mode:
Set the system clock.
clock set hh:mm:ss
At the privileged EXEC prompt, enter configuration mode from the terminal.
configure1
[terminal]Set the system name.
hostname name_string
1 This command is documented in the LightStream 1010 ATM Switch Command Reference publication.
Syntax Description
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Configuring SNMP Management
SNMP, an application-layer protocol, facilitates the exchange of Management Information Bases (MIBs) between network devices. SNMP community strings authenticate access to the MIB and function as embedded "passwords."
To manually configure the LightStream 1010 SNMP, refer to the LightStream 1010 ATM Switch Software Configuration Guide. For definitions of all commands discussed in this chapter, refer to the publication LightStream 1010 ATM Switch Command Reference.
Storing the Configuration at Startup
When autoconfiguration and any manual configurations are complete, you should copy the configuration into nonvolatile random-access memory (NVRAM). If you should power off your LightStream 1010 prior to saving the configuration in NVRAM, all manual configuration changes will be lost. is an example of the copy running-config startup-config command.
Figure 6-4 Storing Configuration in NVRAM Example
Switch#copy running-config startup-configWarning: Attempting to overwrite an NVRAM configuration previously writtenby a different version of the system image.Overwrite the previous NVRAM configuration?[confirm]Building configuration...[OK]Switch#Testing the Configuration
The following sections describe commands that may be used to confirm that the hardware, software, and interfaces for the LightStream 1010 are configured as intended:
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Using show version to Confirm Software
Use the show version command to confirm that the correct version and type of LightStream 1010 software is installed. is an example of the show version command.
Figure 6-5 Example of show version Command
Switch#show versionCisco Internetwork Operating System SoftwareIOS (tm) IISP Software (LS1010-WI-M), Version 11.1(1.083),MAINTENANCE INTERIM SOFTWARECopyright (c) 1986-1996 by cisco Systems, Inc.Compiled Wed 10-Apr-96 06:11 byImage text-base: 0x600108C0, data-base: 0x602E8000ROM: System Bootstrap, Version 11.0(5726), INTERIM SOFTWARESwitch uptime is 4 days, 1 hour, 13 minutesSystem restarted by power-onSystem image file is "slot0:rhino/ls1010-wi-m_1.083.bin.Z", booted via consolecisco ASP1 (R4600) processor with 16384K bytes of memory.R4600 processor, Implementation 32, Revision 2.0Last reset from power-on1 Ethernet/IEEE 802.3 interface.16 ATM network interfaces.125K bytes of non-volatile configuration memory.8192K bytes of Flash PCMCIA card at slot 0 (Sector size 128K).8192K bytes of Flash internal SIMM (Sector size 256K).Configuration register is 0x0Switch#Using show hardware to Confirm Hardware Configuration
Use the show hardware command to confirm the type of hardware installed in the system. Figure 6-7 is an example of the show hardware command.
Figure 6-6 Example of show hardware Command
Switch#show hardwareLS1010 named Switch, Date: 07:09:00 UTC Wed Apr 24 1996Slot Ctrlr-Type Part No. Rev Ser No Mfg Date RMA No. Hw Vrs Tst EEP---- ------------ ---------- -- -------- -------- -------- ------- --- ---0/0 155UTP PAM 73-1572-02 01 02749041 1/17/96 00-00-00 3.0 0 20/1 155MM PAM 73-1496-03 06 02180424 1/16/96 00-00-00 3.0 0 21/0 155MM PAM 73-1496-03 06 02180444 1/17/96 00-00-00 3.0 0 21/1 155MM PAM 73-1496-03 06 02202228 1/11/96 00-00-00 3.0 0 22/0 ATM Swi/Proc 73-1402-02 00 02827677 0/07/13 00-00-00 2.3 0 2Switch#Using show interface ethernet to Confirm Ethernet Configuration
Use the show interface ethernet command to confirm that the Ethernet interface on the ASP is configured correctly. is an example of the show interface ethernet command.
Figure 6-7 Example of show interface ethernet 2/0/0 Command
Switch#show interface ethernet 2/0/0Ethernet2/0/0 is up, line protocol is upHardware is SonicT, address is 0000.0b0a.1000 (bia 0040.0b0a.1080)Internet address is 80.0.0.10/8MTU 1500 bytes, BW 10000 Kbit, DLY 1000 usec, rely 255/255, load 1/255Encapsulation ARPA, loopback not set, keepalive set (10 sec)ARP type: ARPA, ARP Timeout 04:00:00Last input never, output 00:00:05, output hang neverLast clearing of "show interface" counters neverOutput queue 0/40, 0 drops; input queue 0/75, 0 drops5 minute input rate 0 bits/sec, 0 packets/sec5 minute output rate 0 bits/sec, 0 packets/sec0 packets input, 0 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort0 input packets with dribble condition detected40894 packets output, 3907161 bytes, 0 underruns0 output errors, 0 collisions, 1 interface resets0 babbles, 0 late collision, 0 deferred0 lost carrier, 0 no carrier0 output buffer failures, 0 output buffers swapped outSwitch#Using show running-config Command to Confirm ATM Address
Use the show atm address command to confirm the ATM address for the LightStream 1010 is configured correctly. is an example of the show atm address command.
Figure 6-8 Example of show atm address Command
Switch#show atm addressSwitch Address(es):47.00918100000000410B0A1081.00410B0A1081.00 active47.00918100000000603E5ADB01.00603E5ADB01.00Soft VC Address(es):47.0091.8100.0000.0041.0b0a.1081.4000.0c80.0000.00 ATM0/0/047.0091.8100.0000.0041.0b0a.1081.4000.0c80.0000.63 ATM0/0/0.9947.0091.8100.0000.0041.0b0a.1081.4000.0c80.0010.00 ATM0/0/147.0091.8100.0000.0041.0b0a.1081.4000.0c80.0020.00 ATM0/0/247.0091.8100.0000.0041.0b0a.1081.4000.0c80.0030.00 ATM0/0/347.0091.8100.0000.0041.0b0a.1081.4000.0c80.1000.00 ATM0/1/047.0091.8100.0000.0041.0b0a.1081.4000.0c80.1010.00 ATM0/1/147.0091.8100.0000.0041.0b0a.1081.4000.0c80.1020.00 ATM0/1/247.0091.8100.0000.0041.0b0a.1081.4000.0c80.1030.00 ATM0/1/347.0091.8100.0000.0041.0b0a.1081.4000.0c80.8000.00 ATM1/0/047.0091.8100.0000.0041.0b0a.1081.4000.0c80.8010.00 ATM1/0/147.0091.8100.0000.0041.0b0a.1081.4000.0c80.8020.00 ATM1/0/247.0091.8100.0000.0041.0b0a.1081.4000.0c80.8030.00 ATM1/0/347.0091.8100.0000.0041.0b0a.1081.4000.0c80.9000.00 ATM1/1/047.0091.8100.0000.0041.0b0a.1081.4000.0c80.9010.00 ATM1/1/147.0091.8100.0000.0041.0b0a.1081.4000.0c80.9020.00 ATM1/1/247.0091.8100.0000.0041.0b0a.1081.4000.0c80.9030.00 ATM1/1/3ILMI Switch Prefix(es):47.0091.8100.0000.0041.0b0a.108147.0091.8100.0000.0060.3e5a.db01ILMI Configured Interface Prefix(es):LECS Address(es):Switch#Using ping to Test the Ethernet Connection
After you have configured the IP address(es) for the Ethernet interface, test for connectivity between the switch and a host. The host can reside anywhere in your network. To test for Ethernet connectivity, perform the following tasks:
Test the configuration using the ping command. The ping command sends an echo request to the host specified in the command line.
ping [protocol] {host | address}
For example, to test Ethernet connectivity from the switch to a workstation with an IP address of 192.34.56.5, enter the command ping 192.34.56.5. If the switch receives a response, a message is displayed as show, in .
Figure 6-9 Example of ping ip Command
Switch#ping ip 172.20.40.201Type escape sequence to abort.Sending 5, 100-byte ICMP Echos to 172.20.40.201, timeout is 2 seconds:!!!!!Success rate is 100 percent (5/5), round-trip min/avg/max = 1/202/1000 msSwitch#Using ping atm to Confirm the ATM Connections
Use the ping atm command to confirm that the ATM interfaces are configured correctly. is an example of the ping atm command.
Figure 6-10 Example of ping atm Command
Switch#ping atm interface atm 3/0/0 0 5 seg-loopbackType escape sequence to abort.Sending Seg-Loopback 5, 53-byte OAM Echoes to a neighbour,timeout is 5 seconds:.....Success rate is 0 percent (0/5)Switch#Using show atm interface to Confirm ATM Interface Configuration
Use the show atm interface command to confirm that the atm interfaces are configured correctly. is an example of the show atm interface command.
Figure 6-11 Example of show atm interface Command
Switch#show atm interfaceInterface: ATM0/0/0 Port-type: oc3suniIF Status: UP Admin Status: upAuto-config: disabled AutoCfgState: not applicableIF-Side: User IF-type: IISPUni-type: not applicable Uni-version: V3.0Max-VPI-bits: 8 Max-VCI-bits: 14Max-VP: 255 Max-VC: 32768ATM Address for Soft VC: 47.0091.8100.0000.0060.3e5a.db01.4000.0c80.0000.00Configured virtual links:PVCLs SoftVCLs SVCLs PVPLs SoftVPLs SVPLs Total-Cfgd Installed-Conns4 0 0 1 0 0 5 4Logical ports(VP-tunnels): 1Input cells: 23355 Output cells: 272515 minute input rate: 0 bits/sec, 0 cells/sec5 minute output rate: 0 bits/sec, 0 cells/secInput AAL5 pkts: 23355, Output AAL5 pkts: 27247, AAL5 crc errors: 0Logical ports(VP-tunnels): 0Input cells: 0 Output cells: 05 minute input rate: 0 bits/sec, 0 cells/sec5 minute output rate: 0 bits/sec, 0 cells/secInput AAL5 pkts: 0, Output AAL5 pkts: 0, AAL5 crc errors: 0<information deleted>Interface: ATM2/0/0 Port-type: cpuIF Status: UP Admin Status: upAuto-config: disabled AutoCfgState: not applicableIF-Side: not applicable IF-type: not applicableUni-type: not applicable Uni-version: not applicableMax-VPI-bits: 8 Max-VCI-bits: 14Max-VP: 0 Max-VC: 32768Configured virtual links:PVCLs SoftVCLs SVCLs PVPLs SoftVPLs SVPLs Total-Cfgd Installed-Conns53 0 0 0 0 0 53 18Logical ports(VP-tunnels): 0Input cells: 21973 Output cells: 219805 minute input rate: 0 bits/sec, 0 cells/sec5 minute output rate: 0 bits/sec, 0 cells/secInput AAL5 pkts: 21875, Output AAL5 pkts: 21878, AAL5 crc errors: 0Switch#Using show atm status to Confirm Interface Status
Use the show atm status command to confirm the status of the ATM interfaces. is an example of the show atm status command.
Figure 6-12 Example of show atm status Command
Switch#show atm statusNUMBER OF INSTALLED CONNECTIONS: (P2P=Point to Point, P2MP=Point to MultiPoint)Type PVCs SoftPVCs SVCs PVPs SoftPVPs SVPs TotalP2P 30 0 0 0 0 0 30P2MP 0 0 0 0 0 0 0TOTAL INSTALLED CONNECTIONS = 30PER-INTERFACE STATUS SUMMARY AT 13:50:30 UTC Tue Apr 16 1996:Interface IF Admin Auto-Cfg ILMI Addr SSCOPName Status Status Status Reg State State------------- -------- ------------ -------- ------------ ---------ATM0/0/0 UP up n/a n/a ActiveATM0/0/0.99 UP up n/a n/a OConPendATM0/0/1 UP up n/a n/a ActiveATM0/0/2 UP up n/a n/a ActiveATM0/0/3 UP up done UpAndNormal ActiveATM0/1/0 UP up done UpAndNormal ActiveATM0/1/1 UP up done UpAndNormal ActiveATM0/1/2 DOWN down waiting n/a IdleSwitch#Using show atm vc to Confirm Virtual Connection
Use the show atm vc command to confirm the status of ATM virtual interfaces. is an example of the show atm vc command.
Figure 6-13 Example of show atm vc Command
Switch#show atm vcInterface VPI VCI Type X-Interface X-VPI X-VCI StatusATM0/0/0 0 5 PVC ATM2/0/0 0 32 UPATM0/0/0 0 16 PVC ATM2/0/0 0 33 UPATM0/0/0 0 18 PVC ATM2/0/0 0 34 UPATM0/0/0 0 89 PVC ATM0/0/0.99 99 100 UPATM0/0/0.99 99 3 PVC ATM2/0/0 0 83 UPATM0/0/0.99 99 4 PVC ATM2/0/0 0 84 UPATM0/0/0.99 99 5 PVC ATM2/0/0 0 80 UPATM0/0/0.99 99 16 PVC ATM2/0/0 0 81 UPATM0/0/0.99 99 18 PVC ATM2/0/0 0 82 UPATM0/0/0.99 99 100 PVC ATM0/0/0 0 89 UPATM0/0/1 0 5 PVC ATM2/0/0 0 35 UPATM0/0/1 0 16 PVC ATM2/0/0 0 36 UPATM0/0/1 0 18 PVC ATM2/0/0 0 37 UPATM0/0/2 0 5 PVC ATM2/0/0 0 38 UPATM0/0/2 0 16 PVC ATM2/0/0 0 39 UPATM0/0/2 0 18 PVC ATM2/0/0 0 40 UPATM0/0/3 0 5 PVC ATM2/0/0 0 41 UPATM0/0/3 0 16 PVC ATM2/0/0 0 42 UP<Information Deleted>ATM2/0/0 0 66 PVC ATM1/0/3 0 16 UPATM2/0/0 0 67 PVC ATM1/0/3 0 18 UPATM2/0/0 0 68 PVC ATM1/1/0 0 5 DOWNATM2/0/0 0 69 PVC ATM1/1/0 0 16 DOWNATM2/0/0 0 70 PVC ATM1/1/0 0 18 DOWNATM2/0/0 0 71 PVC ATM1/1/1 0 5 DOWNATM2/0/0 0 72 PVC ATM1/1/1 0 16 DOWNATM2/0/0 0 73 PVC ATM1/1/1 0 18 DOWNATM2/0/0 0 74 PVC ATM1/1/2 0 5 DOWNSwitch#Using show running-config to Confirm Configuration
Use the show running-config command to confirm that the configuration being used is configured correctly. is an example of the show running-config command.
Figure 6-14 Example of show running-config Command
Switch#show running-configSwitch#write terminalBuilding configuration...Current configuration:!version 11.1no service padservice udp-small-serversservice tcp-small-servers!hostname Switch!boot system flash slot0:rhino/ls1010-wi-m_1.083.bin.Z!atm over-subscription-factor 16atm service-category-limit cbr 3000atm qos uni3-default cbr max-cell-loss-ratio 12atm address 47.0091.8100.0000.0060.3e5a.db01.0060.3e5a.db01.00!interface ATM0/0/0no keepaliveno atm auto-configurationno atm ilmi-enableno atm ilmi-lecs-impliedatm iisp side useratm pvp 99<information deleted>endSwitch#Using show startup-config to Confirm Saved Configuration
Use the show startup-config command to confirm that the configuration saved in NVRAM is configured correctly. is an example of the show startup-config command.
Figure 6-15 Example of show startup-config Command
Switch#show startup-configUsing 1830 out of 129016 bytes!version 11.1no service padservice udp-small-serversservice tcp-small-servers!hostname Switch!boot system flash slot0:rhino/ls1010-wi-m_1.083.bin.Z!atm over-subscription-factor 16atm service-category-limit cbr 3000atm qos uni3-default cbr max-cell-loss-ratio 12atm address 47.0091.8100.0000.0060.3e5a.db01.0060.3e5a.db01.00<information deleted>!interface ATM0/0/0.99 point-to-pointno atm ilmi-enableno atm ilmi-lecs-impliedatm maxvp-number 0interface ATM0/0/2no keepaliveno atm ilmi-enableno atm ilmi-lecs-impliedatm iisp side user!endSwitch#
Posted: Tue Apr 19 23:34:02 PDT 2005
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