CSX200 FAMILY USER’S GUIDE 2012-01
Notice Cabletron Systems reserves the right to make changes in specifications and other information contained in this document without prior notice. The reader should in all cases consult Cabletron Systems to determine whether any such changes have been made. The hardware, firmware, or software described in this manual is subject to change without notice.
Notice VCCI Notice This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions. Cabletron Systems, Inc. Program License Agreement IMPORTANT: Before utilizing this product, carefully read this License Agreement.
Notice Exclusion of Warranty and Disclaimer of Liability 1. EXCLUSION OF WARRANTY. Except as may be specifically provided by Cabletron in writing, Cabletron makes no warranty, expressed or implied, concerning the Program (including its documentation and media).
Notice DECLARATION OF CONFORMITY Application of Council Directive(s): Manufacturer’s Name: Manufacturer’s Address: European Representative Name: European Representative Address: Conformance to Directive(s)/Product Standards: Equipment Type/Environment: 89/336/EEC 73/23/EEC 91/263/EEC Cabletron Systems, Inc. 35 Industrial Way PO Box 5005 Rochester, NH 03867 Mr. J.
Contents CHAPTER 1 INTRODUCTION Related Documentation .................................................................................. 1 How to Use This Guide ................................................................................... 1 Document Conventions................................................................................... 3 Getting Help ....................................................................................................
Contents CHAPTER 3 10BASE-T LAN REQUIREMENTS Network Requirements.................................................................................. 21 10BASE-T Twisted Pair Network............................................................ 21 Port Descriptions........................................................................................... 22 10BASE-T LAN Configuration....................................................................... 22 Connecting UTP Cables to Ports 1 Through 12 ..........
Contents Bridging and Routing Configuration .............................................................. 64 Bridging and Routing Configuration Window .......................................... 64 Bridging and Routing (WAN Frame Type) Configuration Window.......... 70 Routing Configuration Window ............................................................... 72 IP Routing Configuration ........................................................................ 73 IPX Routing Configuration ...................
Contents System Level Screen .................................................................................. 101 Setting the System Date ....................................................................... 103 Setting the System Time ...................................................................... 103 Setting the Host IP Address ................................................................. 104 Setting the Default Gateway .................................................................
Contents IPX Configuration Screen............................................................................ 126 IPX Configuration Fields ....................................................................... 126 IPX General Configuration Screen ....................................................... 127 IPX General Configuration Status Fields .............................................. 127 IPX General Configuration Fields .........................................................
Contents CHAPTER 8 MIB NAVIGATOR Chapter Organization .................................................................................. 173 MIB Navigator Screen ................................................................................. 174 Managing Device MIBs......................................................................... 174 MIB Navigator Command Set Overview ..................................................... 175 Conventions for MIB Navigator Commands .................................
Contents APPENDIX A WPIM CABLE SPECIFICATIONS WPIM-T1 ..................................................................................................... 213 WPIM-SY .................................................................................................... 215 EIA-449................................................................................................. 216 V.35 ...................................................................................................... 217 EIA-232..........
Contents xii CSX200 Family User’s Guide
1 Introduction Welcome to the Cabletron Systems CSX200 Family User’s Guide. This guide provides basic configuration information, hardware specifications and troubleshooting tips for the CSX200 family of products that includes the CSX200, CSX201, CSX202, and CSX203. This guide also provides background information about 10BASE-T Ethernet Local Area Networks (LANs) and guidelines for routing and bridging over Wide Area Networks (WANs).
Introduction Chapter 3, 10BASE-T LAN Requirements, describes the basic cabling requirements for an Ethernet Local Area Network (LAN). Chapter 4, Installation, provides detailed installation instructions for attaching the CSX200 to a network. Chapter 5, CSX200 Configuration with QuickSET, provides instructions on connecting the CSX200 to a Wide Area Network (WAN) using Cabletron Systems QuickSET management utility.
Introduction Document Conventions The following conventions are used throughout this guide: NOTE Note symbol. Calls the reader’s attention to any item of information that may be of special importance. Tip symbol. Conveys helpful hints concerning procedures or actions. TIP Caution symbol. Contains information essential to avoid damage to the equipment. ! CAUTION Warning symbol. Warns against an action that could result in the presence of an electrical shock hazard. Warning symbol.
Introduction Getting Help If you need additional support related to this device, or if you have any questions, comments, or suggestions concerning this manual, contact the Cabletron Systems Global Call Center: Phone (603) 332-9400 Internet mail support@ctron.com FTP Login Password ctron.com (134.141.197.
2 About the CSX200 The CSX200 (Figure 1) is an access device that provides Ethernet Local Area Network (LAN) connectivity via twelve RJ45 ports for the small office and offers high-speed Wide Area Network (WAN) access to a remote site, such as the Internet or an enterprise network. The CSX200 supports IEEE 802.1d transparent bridging, IP and IPX routing, and Dynamic Host Configuration Protocol (DHCP, Network Address Translation (NAT) routing between Ethernet LANs across a WAN.
About the CSX200 • The WPIM-SY provides a synchronous serial connection of up to 2.048 Mbps to external communications equipment (e.g., a multiplexer or CSU/DSU). The WPIM-Sync uses a subminiature 26-pin connector that supports the electrical signal interfaces listed below. Appendix A, provides complete part number and cable pin assignment information on the following electrical signal interfaces: • EIA-RS449 • V.35 • EIA-RS232D • X.
About the CSX200 Ethernet LAN Connection The CSX200 provides 10 Mbps Ethernet/IEEE 802.3 support through twelve (11 if Call Backup is enabled) 8-pin RJ45 10BASE-T ports on the front of the unit (see Figure 1). Repeater Functionality — The CSX200 fully conforms to the IEEE 802.3 Repeater, AUI, and 10BASE-T specifications, and provides the flexibility to connect networks using IEEE 802.3, Ethernet Version 1 or Version 2 equipment.
About the CSX200 Remote Management Capabilities Manage the CSX200 remotely with any SNMP network management system including the following: • Cabletron Systems SPECTRUM for Open Systems • Cabletron Systems Remote SPECTRUM Portable Management Applications (SPMAs) • Cabletron Systems QuickSET • Cabletron Systems SPECTRUM Element Manager (SPEL) • Third party SNMP compliant Network Management Packages Optional Features Rack Mounting Capabilities — The CSX200 can be installed in a 19-inch rack with an
About the CSX200 IEEE 802.3 Ethernet The CSX200 provides a standard 802.3 Media Access Control (MAC) layer for Ethernet communications. All bridging and routing protocols are supported across the Ethernet link.
About the CSX200 Firmware Data Compression The STAC Electronics Stacker LZS Compression algorithm provides a minimum of 2:1 firmware data compression for the CSX200 over PPP and Frame Relay. Firmware data compression is supported in software on each WAN interface for line speeds of up to 256 Kbps. per WPIM, which is equivalent to four DS0 channels.
About the CSX200 NOTE A private or “local” network is referred to as a sub network that is using private or “local” IP addresses. An “outside” network refers to a Wide Area Network (WAN) commonly known as an Internet, an Intranet is an “Internet” in use on a facility or campus where registered public IP addresses are required. The NAT method allows several DHCP clients on a sub network to connect to WAN clients by allowing the DHCP clients to share a single public IP address.
About the CSX200 In half-duplex operation, the authenticator device challenges the peer device by generating a CHAP challenge, and the challenge contains an MD5 algorithm with a random number that has your encrypted password and system name. The peer device then applies a one-way hash algorithm to the random number and returns this encrypted information along with the system name in the CHAP response. The authenticator then runs the same algorithm and compares the result with the expected value.
About the CSX200 HDSL is a direct connection technology that allows connections to be made for distances of up to 12,000 feet over 24 American Wire Gauge (AWG) unconditioned Twisted Pair wire. To obtain the Full T1 line Rate of 1.544 Mbps, two wire pairs are necessary (four wires). If one pair of wires is used (two wires), then data rates of 772 Kbps are supported, which is equivalent to one-half of a T1 line. Bridging and Routing Bridging — Bridging connects two or more separate networks together.
About the CSX200 CSX200 Bridging and Routing — The CSX200 can operate as a bridge, a router, or both. The CSX200 operates as a router for network protocols that are supported when routing is enabled and operates as a bridge when bridging is enabled. When both bridging and routing are enabled, routing takes precedence over bridging; i.e., the CSX200 uses the protocol address information of the packet to route the packet to the correct destination.
About the CSX200 Bridging and Routing Protocol Filtering Filtering is used to allow efficient usage of network resources and provide security for your network and hosts. IP Internet Firewall — The CSX200 supports IP Internet Firewall filtering to prevent unauthorized access to your system and network resources from the Internet or a corporate Intranet. Security can be configured to permit or deny IP traffic.
About the CSX200 System Passwords System passwords allow you to control access to the CSX200 by establishing three passwords. Each password provides varying levels of access to the CSX200. The default password for each access level is pre-set to public. If you do not wish to establish a password, press ENTER, the default password is automatically selected.
About the CSX200 SNMP MIB Support SNMP MIBs are databases of objects used for managing and determining the status and configuration of an SNMP compliant device.
About the CSX200 SNMP Trap Support SNMP Traps are notifications of network events sent by an SNMP compliant device to an SNMP management station.
About the CSX200 • IP Access Control Lists have been enabled on interface # • IP Access Control Lists have been disabled on interface # • IP has detected Port UP (WAN devices only) • IP has detected Port DOWN (WAN devices only) • IP Proxy ARP has been disabled on interface # • IP Proxy ARP has been enabled on interface # • IP RIP has been enabled on interface # • IP RIP has been disabled on interface # • IPX Event Log Change Trap Type Code #1281(0x501) ctipx-mib The following is a list of
About the CSX200 Software and Firmware Upgrades Software and Firmware upgrades can be performed remotely through the Windows-based QuickSET utility application. Refer to Chapter 5, for QuickSET instructions. QuickSET allows you to retrieve or upgrade the firmware, software, and configuration files from its Firmware Upgrade menu by selecting the TFTP/BootP Services window to access a TFTP (Trivial File Transfer Protocol) server.
3 10BASE-T LAN Requirements This chapter contains general networking guidelines for setting up a 10BASE-T Local Area Network using ports 1 through 12 on the CSX200. Review the requirements and specifications outlined in this chapter before attempting to install the CSX200. Network Requirements Take care in planning and preparing the cabling and connections for your network.
10BASE-T LAN Requirements Temperature — Multi-pair PVC 24 AWG telephone cable typically has an attenuation of approximately 8–10 dB/100 m at 20°C (68°F). The attenuation of PVC insulated cable varies with temperature. At temperatures greater than 40°C (104°F), use plenum-rated cable to ensure that attenuation remains within specification. Port Descriptions Table 1 defines the pinout for the Ethernet twisted pair ports 1 through 12.
10BASE-T LAN Requirements Connecting UTP Cables to Ports 1 Through 12 Before connecting a segment to the CSX200, check each end of the segment to verify wire crossover. ! CAUTION To establish a link, you must have an odd number of crossovers (preferably one) between 10BASE-T devices of the same type (i.e., from repeater to repeater or transceiver to transceiver). Connect a twisted pair segment to the CSX200 as follows: 1.
10BASE-T LAN Requirements b. Verify that the RJ45 connectors on the twisted pair segment have the proper pinouts (Figure 3) and check the cable for continuity. TO CyberSWITCH RJ45 Port NOTE: RX+/RX– and TX+/TX– must share a common color pair. TO 10BASE-T Device Port RX+ 1 1 RX+ RX– 2 2 RX– TX+ 3 3 TX+ TX– 6 6 TX– RJ45 to RJ45 2012_13 Figure 3 Cable Pinouts - (RJ45) Crossover Cable c.
4 Installation This chapter outlines the procedure for attaching the CSX200 to the network. Ensure that the network meets the guidelines and requirements outlined in Chapter 3, 10BASE-T LAN Requirements, before installing the CSX200. Unpacking the CSX200 Unpack the CSX200 as follows: 1. Remove the shipping material from the box and carefully remove the CSX200. 2. Visually inspect the CSX200. If there are any signs of damage, contact Cabletron Systems (see the Getting Help section) immediately. 3.
Installation Installing Interface Modules Depending on your specific application, install Cableton Systems WAN Port Interface Modules (WPIMs) and the CSX-COMP/ENCR modules into the CSX200 before proceeding with the installation of your CSX200. Refer to the Installing the WAN Port Interface Module (WPIM) and CSX200-COMP/ENCR Installation sections within this chapter for installation instructions. ! CAUTION The WPIM, CSX200-COMP/ENCR, and the CSX200 are sensitive to static discharges.
Installation To remove the chassis cover, proceed as follows: 1. Disconnect the CSX200 from the network as follows: a. Unplug the power cord from the rear of the CSX200 chassis. TIP Before performing step b, mark any cables connected to the CSX200 according to their associated port numbers. This is recommended for ease of reinstallation. b. Disconnect all network cables attached to the CSX200. 2.
Installation Installing the WAN Port Interface Module (WPIM) ! Before performing installation procedures, ensure that the requirements outlined in the section, Tabletop and Shelf Installations, on page 31, are met.
Installation 1. Attach the disposable grounding strap to your wrist (refer to the instructions outlined on the disposable grounding strap package). 2. Remove the CSX200 cover (refer to Removing the CSX200 Cover for instructions). 3. Remove the blank faceplate from the appropriate WAN slot. 4. Orient the WPIM as shown in Figure 5. 5. Carefully insert the WPIM connector into the WPIM connector pins on the CSX200. 6. Press down firmly on the WPIM until the pins slide all the way into the connector.
Installation NOTE Ensure that the CSX200-COMP/ENCR is aligned such that its connector pins correctly align with the D-Type connector on the chassis. 5. Locate the D-Type connector and the standoffs on the chassis (refer to Figure 6). 6. The D-Type connector pins of the CSX200-COMP/ENCR only fit one way onto the CSX200 D-Type connector. Lower the CSX200-COMP/ENCR onto the standoffs and align the connector with the connector pins.
Installation Installing the CSX200 The CSX200 may be installed on a tabletop, shelf or in a 19-inch rack. Refer to Tabletop and Shelf Installations for information concerning a tabletop or shelf installation. CSX200 Rackmount Installation describes the rackmount installation. Tabletop and Shelf Installations The following two subsections provide guidelines for installation on a tabletop or shelf.
Installation CSX200 Rackmount Installation To attach the rackmount brackets, Cabletron Systems offers an accessory kit that includes rackmount brackets, mounting screws, and a strain-relief bracket for cable management. The accessory kit is not included with the CSX200, but is purchased separately from Cabletron Systems as part number CSX200-ACCY-KIT. WARNING Before installing the CSX200 into a rack, ensure that the rack supports the device(s) without compromising the stability of the rack.
Installation Rackmount Brackets (2) Strain-Relief Bracket 2012_12 Figure 8 CSX200 Rackmount Hardware Attaching the Strain-Relief Bracket Attach the strain-relief bracket to the front of the CSX200 as follows: 1. Locate the strain-relief bracket and four 8-32 x 3/8-inch, pan-head screws provided in the CSX200-ACCY-KIT. 2. Using the four 8-32 x 3/8-inch, pan-head screws, attach the strain-relief bracket to the bottom of the CSX200 as shown in Figure 9.
Installation Attaching the Rackmount Brackets Refer to Figure 10 and proceed as follows to attach the rackmount brackets: 1. Locate the four 8-32 x 1/4-inch screws and the two rackmount brackets in the CSX200-ACCY-KIT package. 2. Using the four 8-32 x 1/4-inch screws, attach the rackmount brackets to the bottom of the CSX200 as shown in Figure 10.
Installation Continue the installation by connecting power as described in Connecting the CSX200 to the Power Source. Connecting the CSX200 to the Power Source NOTE The CSX200 has a universal power supply. This allows you to connect the CSX200 to power sources of 100–125 and 200–240 Vac, 50/60 Hz. To connect the CSX200 to the power source, perform the following steps: 1. Plug the power cord into the back panel of the CSX200. 2. Plug the other end of the power cord into a grounded wall outlet. 3.
Installation 36 CSX200 Family User’s Guide
5 CSX200 Configuration with QuickSET This chapter provides step-by-step instructions for configuring the CSX200 using QuickSET. \ NOTE Before configuring the device, you must set up your computer based on the READ ME FIRST! documentation included with the product and installed the CSX200 based on the QuickSTART Guide located in the QuickSET CD case. The CSX200 must have a WPIM installed before you can begin configuring the device.
CSX200 Configuration with QuickSET Figure 13 First Introductory Window Click on the Next>> button to continue the CSX200 configuration, and the Second Introductory window shown in Figure 14 displays.
CSX200 Configuration with QuickSET Figure 14 Second Introductory Window Click on the Next>> button and go to the Ethernet Configuration section to continue the CSX200 configuration.
CSX200 Configuration with QuickSET Ethernet Configuration This section explains how to configure the CSX200 Ethernet fields using QuickSET. Ethernet Configuration Window The Ethernet configuration window, shown in Figure 15, displays after clicking on the Next>> button in the Second Introductory window. The Local Ethernet IP address and Subnet Mask fields shown on the Ethernet Configuration window are used for setting an IP address and Subnet Mask.
CSX200 Configuration with QuickSET Local Ethernet IP Address — The Local Ethernet IP Address displays the IP address for the Ethernet interface. Place the cursor in this field and type the preferred IP address in Dotted Decimal Notation (DDN) format. The IP address must be in this field to continue. Local Ethernet Subnet Mask — The Subnet Mask takes the same form as an IP address; four groups of three decimal digits, separated by periods. Each group must be in the numerical range of 0 to 255.
CSX200 Configuration with QuickSET System Passwords Window — The System Passwords window shown in Figure 17 displays after clicking on the Passwords.... button in the Ethernet configuration window previously shown in Figure 15. The system passwords used by QuickSET are the same as the Community Names of the device that are used in Local Management through a Telnet application. System passwords allow you to control management access by establishing three passwords.
CSX200 Configuration with QuickSET The following definitions explain the fields in the System Passwords window shown in Figure 17. Read Only Access — This access level allows reading of device parameters not including system passwords. Place the cursor in this field and type the new system password. Retype the system password in the Confirm Password field below the Read Only Access field.
CSX200 Configuration with QuickSET Wide Area Configuration NOTE When configuring the WAN with QuickSET, the Wide Area configuration window that displays corresponds to the specific WPIM that is installed into the CSX200.
CSX200 Configuration with QuickSET Wide Area T1 Configuration Window The Wide Area T1 configuration window shown in Figure 18 displays after clicking on the Next>> button in the Ethernet configuration window. Figure 18 Wide Area T1 Configuration Window This section explains how to configure the CSX200 Wide Area T1 interface using QuickSET. NOTE The service provider (i.e., AT&T, Sprint, MCI, NYNEX, etc.) determines the settings for the following fields.
CSX200 Configuration with QuickSET The line configuration information shown in Table 2 must be supplied by your service provider. The CSX200 factory default settings are in bold. Table 2 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider T1 Frame Type ESF or D4 T1 Line BuildOut 0 dB, -7.
CSX200 Configuration with QuickSET T1 Transmit Clock Source — Displays the T1 Transmit Clock Source. The choices for this field are Loop-Timing (Extracted Line Data) and Local-Timing (Internal Clock). The default setting for this field is Loop-Timing. Protocol — Displays the active protocol for the Wide Area T1 interface. The selections for this field are either Frame Relay or Point-to-Point (PPP). The default setting for this field is PPP.
CSX200 Configuration with QuickSET Wide Area E1 Configuration Window The Wide Area (E1) configuration window shown in Figure 19 displays after clicking on the Next>> button in the Ethernet configuration window. This section explains how to configure the CSX200 E1 WAN interface using QuickSET. Figure 19 E1 WAN Configuration Window NOTE 48 The service provider determines the settings for the following fields. Consult the service provider for the correct settings.
CSX200 Configuration with QuickSET The line configuration information shown in Table 3 must be supplied by your service provider. The CSX200 factory default settings are in bold type.
CSX200 Configuration with QuickSET Once the E1 WAN configuration is complete, click on the Next>> button and go to the Wide Area Frame Relay Time Slot Configuration Window or Wide Area PPP Time Slot Configuration Window section, depending on which protocol you are using. Wide Area DI Configuration Window The Wide Area (DI) configuration window shown in Figure 20 displays after clicking on the Next>> button in the Ethernet configuration window.
CSX200 Configuration with QuickSET NOTE The service provider (i.e., AT&T, Sprint, MCI, etc.) determines the settings for the following fields. Consult the service provider for the correct settings. The line configuration information shown in Table 4 must be supplied by your service provider. The CSX200 factory default settings are in bold.
CSX200 Configuration with QuickSET T1 Line BuildOut — Displays the signal level for the physical DI line. Set this to 0 dB unless the service provider recommends another setting. The default setting for this field is 0 dB. Click on the appropriate radio button for the following levels: • 0 (Zero) dB • -7.5 dB • -15 dB T1 Line Coding — Displays the line coding for the physical DI line. The selections toggle between B8ZS and AMI. The default setting for this field is B8ZS.
CSX200 Configuration with QuickSET Wide Area Synchronous Configuration Window The Wide Area Synchronous configuration window shown in Figure 21 displays after clicking on the Next>> button in the Ethernet configuration window. This section explains how to configure the CSX200 Wide Area Synchronous interface using QuickSET. Figure 21 Wide Area Synchronous Configuration Window NOTE The service provider (i.e., AT&T, Sprint, MCI, NYNEX, etc.) determines the settings for many of the following fields.
CSX200 Configuration with QuickSET The line configuration information shown in Table 5 is determined by your service provider. The CSX200 factory default settings are in bold. Table 5 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider Sync Port Type V.35, RS422, RS232 or X.
CSX200 Configuration with QuickSET Sync Clock Speed — Displays your configured receive clock speed. The default setting for this field is 64000 bits per second. The information necessary for you to set this field is normally determined by the service provider. Select the down arrow button to make your selection from the list of clock speeds using the information provided by your service provider (if it is not listed, type the value in).
CSX200 Configuration with QuickSET Wide Area DDS Configuration Window The Wide Area DDS configuration window shown in Figure 22 displays after clicking on the Next>> button in the Ethernet configuration window. This section explains how to configure the CSX200 Wide Area DDS interface using QuickSET. Figure 22 Wide Area DDS Configuration Window NOTE 56 The service provider (i.e., AT&T, Sprint, MCI, NYNEX, etc.) determines the settings for Table 7 and the following fields.
CSX200 Configuration with QuickSET Table 7 shows the line configuration information determined by your service provider. The CSX200 factory default settings are in bold. Table 7 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider DDS Line Mode DDS-PRI or DDS-CC DDS Clock Source Loop-Timing or Local-Timing DDS Loop Back No Loop or Line Loop This section describes the fields in the Wide Area DDS configuration window.
CSX200 Configuration with QuickSET Wide Area HDSL Configuration Window The Wide Area HDSL configuration window shown in Figure 23 displays after clicking on the Next>> button in the Ethernet configuration window. This section explains how to configure the CSX200 Wide Area HDSL interface using QuickSET. Figure 23 Wide Area HDSL Configuration Window NOTE 58 The wiring provider (i.e., Internet Service Provider (ISP) contractor, etc.) determines the settings for Table 8.
CSX200 Configuration with QuickSET Table 8 shows the line configuration information normally determined by your wiring provider. The CSX200 factory default setting is in bold. Table 8 Telco Configuration Information Configuration Information Required by User Configuration Information Supplied by Service Provider HDSL Transmit Clock Source Slave or Master This section describes the fields in the Wide Area HDSL configuration window. HDSL Transmit Clock Source — Displays the HDSL Transmit Clock Source.
CSX200 Configuration with QuickSET Wide Area Frame Relay Time Slot Configuration Window The Wide Area Frame Relay Time Slot configuration window shown in Figure 24 displays when you click on the Next>> button in the Wide Area T1, E1, or DI configuration windows when Frame Relay is chosen as the WAN Protocol. Figure 24 Wide Area Frame Relay Time Slot Configuration Window The following section defines the fields in the Wide Area Frame Relay Time Slot configuration window.
CSX200 Configuration with QuickSET Once the Wide Area Frame Relay Time Slot configuration is complete, click on the Next>> button and go to the Bridging and Routing Configuration section. Wide Area PPP Time Slot Configuration Window The Wide Area PPP Time Slot configuration window shown in Figure 25 displays when you click on the Next>> button in the Wide Area T1, E1, and DI configuration windows when PPP is chosen as the WAN Protocol.
CSX200 Configuration with QuickSET The following section defines the Time Slots field in the Wide Area PPP Time Slot configuration window. Time Slots — A full line consists of 24 Time Slots (T1 and DI) or 31 Time Slots (E1) that are each capable of up to 64 Kbps throughput. Using the PPP Protocol, up to 24 interfaces (T1 and DI) or 31 interfaces (E1) can be assigned to the WAN link.
CSX200 Configuration with QuickSET Wide Area HDSL Time Slot Configuration Window The Wide Area HDSL Time Slot configuration window shown in Figure 26 displays when you click on the Next>> button in the Wide Area HDSL configuration window. Figure 26 Wide Area HDSL Time Slot Configuration Window The following section defines the Time Slots in the Wide Area HDSL Time Slot configuration window. Time Slots — A full line consists of 24 Time Slots, each capable of up to 64 Kbps throughput.
CSX200 Configuration with QuickSET Once the Wide Area HDSL Time Slot configuration is complete, click on the Next>> button, and go to the Bridging and Routing Configuration window. Bridging and Routing Configuration Once all the necessary network information is collected for the WAN, the CSX200 can be configured for bridging and/or routing using QuickSET.
CSX200 Configuration with QuickSET This section describes the fields in the first Bridging and Routing configuration window. MAC Bridging — This field allows you to specify whether or not the CSX200 bridges traffic. Click on the check box to turn MAC Bridging on. Spanning Tree Protocol — This field is grayed out until MAC Bridging is turned on.
CSX200 Configuration with QuickSET When an IP Access Control List (ACL) is enabled on a router port, each packet forwarded out this port is first checked against the ACL. If the address(es) of a packet match the address(es) in the first filter in the list, the packet is permitted or denied as specified by that filter. If there is no match, the packet is checked against the second filter, and so on, until a match is found, or until the packet has been checked against all of the filters in the list.
CSX200 Configuration with QuickSET The following definitions explain the fields in the Firewall configuration window. NOTE The Add Firewall button clears the fields in the Firewall configuration window, allowing you to type in the fields as necessary. The Apply Changes button adds the newly entered filter to the Access Control List. ACL (Access Control List) — The Access Control List number is a number assigned to a specific list of sequence numbers.
CSX200 Configuration with QuickSET Protocol — Use this pull-down list to select the upper layer protocol that you want to apply to the access control filter. Each access control filter can apply to traffic for all protocols included in the TCP/IP suite, or just to traffic for a single protocol. Permission — Use this pull-down list to set the permissions for the specified control filter. Options for this field include permit, deny, permit bi-directional, or deny bi-directional.
CSX200 Configuration with QuickSET Table 10 UDP Services Port Numbers UDP Service Port # UDP Service Port # Domain Name Server 53 Sunrpc (NIS) 111 TACACS-Database Service 65 NETBIOS Name Server 137 Bootstrap Protocol Server 67 NETBIOS Datagram Server 138 When you have finished making changes, click on the Apply Changes button. Once the Firewall configuration is complete, click on the OK button to return to the Bridging and Routing configuration window.
CSX200 Configuration with QuickSET Bridging and Routing (WAN Frame Type) Configuration Window The Bridging and Routing (WAN Frame Type) window shown in Figure 29 displays after clicking on the Next>> button in the first Bridging and Routing configuration window. This window is used to select a WAN Frame Type for each interface.
CSX200 Configuration with QuickSET The WAN Frame Type window shown in Figure 30 allows you to select one of three frame types to be used over the WAN for each interface: Native WAN, Encapsulated Ethernet, and Encapsulated Ethernet SNAP. Select the WAN Frame Type that you wish to enable by clicking the appropriate radio button. When you are done, click on the OK button. The OK button returns you to the Bridging and Routing (WAN Frame Type) configuration window.
CSX200 Configuration with QuickSET Routing Configuration Window The (IP/IPX) Routing configuration window shown in Figure 31 displays after clicking on the Next>> button in the second Bridging and Routing (WAN Frame Type) configuration window. Figure 31 Routing Configuration Window This section describes the fields in the (IP/IPX) Routing configuration window. Refer to the section IP Routing Configuration to configure the CSX200 for IP routing.
CSX200 Configuration with QuickSET IP Routing Configuration This section describes the fields in the IP Routing Configuration section of the Routing configuration window. Interface # — Displays an active interface number assigned an IP subnet. Remote LAN Subnet — Displays the IP subnet for the remote router. Place the cursor in this field and type the IP subnet of the remote router. Subnet Mask — Displays the Subnet Mask assigned to the interface number.
CSX200 Configuration with QuickSET Modify... — Use this button to change an entry in the IPX Routing Configuration window. Select the interface number to modify by clicking on the tab to the left of the interface number. Host Map Window The Host Map window shown in Figure 32 displays after clicking on the Host Map... button in the (IP/IPX) Routing configuration window. Host Map entries are used for IPX routing using Frame Relay Protocol only.
CSX200 Configuration with QuickSET DLCI — Displays the Data Link Connection Identifier. Use this field to enter the DLCI, which is a four-digit decimal number corresponding to the WAN virtual circuit connection to the Telco central office. WAN Network # — Displays the active IPX network number of the WAN connection. Use this field to enter the WAN Network number. Remote MAC Address — Displays the remote Ethernet MAC address.
CSX200 Configuration with QuickSET Advanced Routing Configuration Window The Advanced Routing configuration window shown in Figure 33 displays after you click on the Advanced button in the (IP/IPX) Routing configuration window. Use this window to enable RIP routing, configure a Dynamic Host Configuration Protocol (DHCP) server on the CSX200, set an IP address for a remote DHCP server, or set up Network Address Translation.
CSX200 Configuration with QuickSET Advanced IP Routing Settings This section describes the fields for the Advanced IP Routing Settings of the Advanced Routing configuration window. Interface # — Displays the active interface number. Local WAN IP Address — Set this value only if you are going to use numbered mode. In numbered mode, the Local WAN IP address is the IP address of the WAN link leading into the Telco control office. A Subnet Mask is required for this IP address before you can use this link.
CSX200 Configuration with QuickSET DHCP Settings Configuration Window The DHCP Settings configuration window shown in Figure 35 displays after clicking on the DHCP Server... button in the Advanced Routing configuration window. The DHCP Settings configuration window is used to configure the DHCP settings for the CSX200.
CSX200 Configuration with QuickSET Subnet Mask — The subnet mask for the default gateway (automatically set). Lease Timeout — Used to designate the amount of time the IP addresses in the pool can be used before they become invalid. Click on the pull-down menu to view a list of available leased timeout intervals. NOTE Selecting Never allows you to keep your DHCP assigned IP address until the next time you boot up your PC.
CSX200 Configuration with QuickSET NAT Settings Configuration Window The Network Address Translation (NAT) Settings configuration window shown in Figure 36 displays after clicking on the NAT Settings... button in the Advanced Routing configuration window. The NAT Settings configuration window is used to set up Network Address Translation on an Ethernet port. Figure 36 NAT Settings Configuration Window The following definitions explain the fields in the NAT Settings configuration window.
CSX200 Configuration with QuickSET Delete Proxy... — Allows you to delete NAT proxy servers. Figure 37 Add NAT Proxy Server Window Once your CSX200 Advanced Routing configuration is complete, be sure to save any changes you make. Click on the Next>> button in the Advanced Routing configuration window to return to the (IP/IPX) Routing configuration window.
CSX200 Configuration with QuickSET QuickSET Pull-Down Menus The File, Firmware Upgrade and Advanced Configuration QuickSET pull-down menus allow you to store and restore configurations, initiate TFTP/BootP Services, and configure Compression and Congestion settings for your CSX200. File Menu This section describes the pull-down menu options from the File menu as shown in Figure 38.
CSX200 Configuration with QuickSET Store Configuration — The Store Configuration window shown in Figure 39 displays after clicking on the File pull-down menu and selecting Store Configuration at the top of any QuickSET configuration window. The Store Configuration window stores the entire CSX200 configuration to a file name and drive that you specify.
CSX200 Configuration with QuickSET Firmware Upgrade Menu This section describes the pull-down menu options from the Firmware Upgrade menu as shown in Figure 41.
CSX200 Configuration with QuickSET TFTP/BootP Services — The TFTP/BootP Services window shown in Figure 42 displays after clicking on the Firmware Upgrade pull-down menu and selecting TFTP/BootP Services at the top of any QuickSET configuration window. The TFTP/BootP Services window allows you to access a TFTP (Trivial File Transfer Protocol) Server or BootP Server to download the latest version of CSX200 firmware.
CSX200 Configuration with QuickSET TFTP Server IP Address — The TFTP Server Address indicates the IP address of the PC running this utility. File Name — The File Name field indicates the location and name of the firmware image you are putting on your CSX200. DownLoad — The DownLoad button starts the firmware download to your CSX200. Advanced Configuration Menu This section describes the pull-down menu options available from the Advanced Configuration menu as shown in Figure 43.
CSX200 Configuration with QuickSET Compression & Congestion Window The Compression & Congestion window shown in Figure 44 displays after you click on the Advanced Configuration pull-down menu and select Compression & Congestion at the top of any QuickSET configuration window. Figure 44 Compression & Congestion Window The Compression and Congestion window allows you to enable data compression on each interface.
CSX200 Configuration with QuickSET The following define the fields in the Compression & Congestion window. Interface — Displays the available, pre-configured interface numbers. Compression — Displays the status of data compression for a specific interface. Options for this field are either on (box shows a check mark) or off.
6 General Configuration Using Local Management This chapter explains how to access and manage the CSX200 and its attached segments through a TELNET connection. A general working knowledge of basic network operations and an understanding of management applications is helpful prior to using Cabletron Systems Local Management.
General Configuration Using Local Management IPX Configuration Screen describes how to configure the CSX200 for IPX routing functions.
General Configuration Using Local Management Local Management Screen Elements There are five basic field elements shown in the Local Management screen in Figure 45. EVENT MESSAGE FIELD DISPLAY FIELDS INPUT FIELDS SELECTION FIELDS SAVED OK Flash Image Version XX.XX.XX Local Management SYSTEM LEVEL System Date: 01/23/96 Host IP Address Subnet Mask Phys Address COM 1 Application: COM 2 Application: 000.000.000.000 255.255.0.
General Configuration Using Local Management Table 11 describes the most common event messages. Event messages related to specific Local Management applications are described with those applications throughout this manual. Table 11 Event Messages Message Meaning SAVED OK One or more fields were modified, and saved to NVRAM. NOT SAVED?--PRESS SAVE TO KEEP CHANGES One or more fields were modified, but not yet saved to NVRAM.
General Configuration Using Local Management Local Management Keyboard Conventions All key names appear in this manual as capital letters. For example, the Enter key displays as ENTER, the Escape key displays as ESC, and the Backspace key displays as BACKSPACE. Table 12 explains the keyboard conventions used in this manual as well as the key functions. Table 12 Keyboard Conventions Key Function ENTER and RETURN These are selection keys that perform the same Local Management function.
General Configuration Using Local Management Navigating Within Local Management Screens To navigate within a Local Management screen, use the arrow keys of the terminal or the workstation providing terminal emulation services. The Local Management screen cursor responds to the LEFT-ARROW, RIGHT-ARROW, UP-ARROW, and DOWN-ARROW keys. Each time you press an arrow key, the Local Management screen cursor moves to the next available field in the direction of the arrow key.
General Configuration Using Local Management Hierarchy and Organization of Local Management Screens Local Management consists of a series of menu screens that provide a path to each of the Local Management function screens. You navigate through Local Management by selecting items from the menu screens. Figure 46 shows the hierarchy of the Local Management screens.
General Configuration Using Local Management Exiting the Local Management Session To exit from CSX200 Local Management, perform the following steps: 1. Use the arrow keys to highlight the RETURN command at the bottom of the Local Management screen. 2. Press ENTER. The previous screen in the Local Management hierarchy displays. 3. Repeat steps 1 and 2 until the Main Menu screen displays. 4. Use the arrow keys to highlight the EXIT command at the bottom of the Main Menu screen. 5. Press ENTER.
General Configuration Using Local Management Accessing Local Management This section explains how to access and use the Local Management menu screens. Menu screens provide a path to the setup screens and status screens. Using the Menu Screens Once you have accessed the CSX200 through a TELNET connection, the CSX200 Password screen, Figure 47, displays. CSX200 Local Management CABLETRON Systems, Incorporated P.O. Box 5005 Rochester, NH (603) 03867-5005 USA 332-9400 (c) Copyright CABLETRON Systems, Inc.
General Configuration Using Local Management • If you enter a valid password, the associated access level displays at the bottom of the screen and the Main Menu screen, Figure 48, displays. • If no activity occurs for several minutes, the Password screen displays again indicating that you must reenter the password. Main Menu Screen The Main Menu screen is the starting point from which all the Local Management screens are accessed. Figure 48 shows the Main Menu screen.
General Configuration Using Local Management Setup Menu Screen The Setup Menu screen provides access to Local Management screens that are used to configure or alter the configuration of the CSX200. Examples of functions accessible through the Setup Menu include configuring the Host IP address and Subnet Mask, assigning SNMP community names, and configuring SNMP trap notification. Figure 49 shows the Setup Menu. CSX200 Local Management Flash Image Version XX.XX.
General Configuration Using Local Management Bridge Setup — The Bridge Setup screen allows you to select a Spanning Tree protocol and enable/disable switch ports. Router Setup — The Router Setup screen accesses two other screens that provide general IP configuration and allow you to enable or disable the RIP (Routing Information Protocol) feature.
General Configuration Using Local Management System Level Screen This section explains how to use the System Level screen to set the following parameters: • System Date • System Time • Host IP Address • Subnet Mask • Physical Address (MAC Address) • Default Gateway • Default Interface Figure 50 shows the CSX200 System Level screen. CSX200 Local Management Flash Image Version XX.XX.XX SYSTEM LEVEL System Date: Host IP Address Subnet Mask Phys Address 12/30/97 System Time: 14:23:00 0.0.0.
General Configuration Using Local Management The following definitions explain each System Level screen field. The sections that follow these definitions explain the use of these fields. System Date — Use this field to enter the system date. System Time — Use this field to enter the system time. Host IP Address — Use this field to enter the IP address of the CSX200. Subnet Mask — This field displays the default Subnet Mask, and allows you to enter a new value for the Subnet Mask if necessary.
General Configuration Using Local Management Setting the System Date The CSX200 is year 2000 compliant so that the System Date field can be set beyond the year 1999. To set the system date, perform the following steps: 1. Use the arrow keys to highlight the System Date field. 2. Enter the date in a MM/DD/YYYY format. NOTE When entering the date in the system date field, you do not need to add separators between month, day, and year numbers, as long as each entry uses two decimal numbers.
General Configuration Using Local Management Setting the Host IP Address To set the host IP address, perform the following steps: 1. Use the arrow keys to highlight the Host IP Address field. 2. Enter the IP address using Decimal Dotted Notation (DDN) format. For example: 134.141.25.17 3. Press ENTER. If the IP address entered was a valid format, the cursor returns to the beginning of the Host IP Address field.
General Configuration Using Local Management Setting the Subnet Mask Subnets are logical divisions of the network. To change the Subnet Mask from its default value, perform the following steps: 1. Use the arrow keys to highlight the Subnet Mask field. 2. Enter the Subnet Mask using Dotted Decimal Notation (DDN) format. Values for each decimal can be from 0 to 255. For example: 255.255.0.0 3. Press ENTER.
General Configuration Using Local Management SNMP Community Names Screen This section explains how to assign community names. Community names allow you to control Local Management access by establishing three passwords. Each password controls varying levels of access to CSX200 Local Management. Figure 51 shows the SNMP Community Names screen. CSX 200 Local Management Flash Image Version: XX.XX.
General Configuration Using Local Management read-write — This access level allows editing of some device configuration parameters not including changing or viewing community names. super-user — This access level allows full management privileges. Setting SNMP Community Names To set a community name, perform the following steps: ! CAUTION If you edit the super-user community name, be certain not to forget it.
General Configuration Using Local Management SNMP Traps Screen The SNMP Traps screen allows the user to configure the CSX200 to send traps to as many as eight remote management workstations. SNMP traps are messages about network events and device operational statistics. Access the SNMP Traps screen from the Setup Menu screen by using the arrow keys to highlight the SNMP Traps menu item and pressing ENTER. The SNMP Traps screen, shown in Figure 52, displays.
General Configuration Using Local Management Enable Traps — Use this field to enable the transmission of SNMP traps to the management workstation. Setting the SNMP Trap Destination Each management workstation designated to receive SNMP traps from the CSX200 must have a valid IP address and community name. To set and enable SNMP trap destination, perform the following steps: 1. Use the arrow keys to highlight the Trap Destination field you want to modify. 2.
General Configuration Using Local Management Flash Download Screen The Flash Download screen allows you to download a firmware image from a TFTP server to the CSX200. Access the Flash Download screen from the Setup Menu screen by using the arrow keys to highlight the Flash Download menu item and pressing ENTER. The Flash Download screen, shown in Figure 53, displays. NOTE Flash download operations require a properly named download file and a properly configured download server.
General Configuration Using Local Management The following definitions explain each of the Flash Download screen fields. Download Method — Use this field to select the method you wish to use to download the firmware image to the CSX200. • Reboot After Download — This field displays when the RUNTIME Download Method is chosen. Selecting YES forces the CSX200 to reboot and use the new firmware image immediately.
General Configuration Using Local Management RUNTIME Download If you select RUNTIME Download, perform the following steps: 1. Use the arrow keys to highlight the Reboot After Download field. 2. Press the SPACEBAR or BACKSPACE to select one of the following: • YES, if you want the CSX200 to reboot and use the new firmware image immediately. • NO, if you want the CSX200 to continue using the existing firmware image without interrupting network operation.
General Configuration Using Local Management 5. Use the arrow keys to highlight the Download File Name field. 6. Type the complete path and filename of the new image file to be downloaded. You must include all directories and subdirectories involved in accessing the file. Type the new entry over the previous entry. For example: c:\images\cyberswitch\11011.hex 7. Press ENTER. 8. Use the arrow keys to highlight the TFTP Gateway Server IP field. 9. Enter the IP address of the TFTP gateway server. 10.
General Configuration Using Local Management Bridge Setup Screen Fields The following list describes each of the Bridge Setup screen fields: Spanning Tree Protocol — Use this field to select a Spanning Tree protocol. Possible selections for this field are IEEE 802.1, DEC, or NONE. Bridge Port Admin Status — Use this field to enable or disable individual CSX200 bridge ports. Possible selections for this field are ENABLED or DISABLED.
General Configuration Using Local Management 4. Press the SPACEBAR or BACKSPACE to select ENABLE or DISABLE. For example, the following bridge setup indicates that bridge port 01 is configured to bridge traffic to all ports: BRIDGE PORT ADMIN STATUS: PORT 01 - - > ALL PORTS [ENABLED] 5. Use the arrow keys to highlight the SAVE command field. 6. Press ENTER. The Event Message field at the top of the screen displays “SAVED OK”.
General Configuration Using Local Management Router Setup Screen The Router Setup screen allows you to choose either IP or IPX routing for your CSX200. Access Router Setup, shown in Figure 55, by using the arrow keys to highlight the ROUTER SETUP menu item in the Setup Menu and pressing ENTER. The Router Setup screen displays. CSX 200 Local Management Flash Image Version XX.XX.
General Configuration Using Local Management IP Configuration Screen The IP Configuration screen enables you to access the IP General Config and IP RIP screens to configure the CSX200 for IP Routing and enable RIP on the CSX200. Access the IP Configuration screen, shown in Figure 56, by using the arrow keys to highlight the IP menu item on the Router Setup screen and pressing ENTER. The IP Configuration screen displays. CSX 200 Local Management Flash Image Version XX.XX.
General Configuration Using Local Management IP General Config Screen The IP General Config screen allows you to configure the CSX200 for IP routing. Access the IP General Config screen by using the arrow keys to highlight the IP General Config option and pressing ENTER. The IP General Config screen shown in Figure 57 displays. CSX200 Local Management Flash Image Version XX.XX.XX IP General Config Router Name: IP Version: XX.XX.
General Configuration Using Local Management AdminStatusTime — Displays the amount of time elapsed since an IP address was assigned to the CSX200. UDP Type — Displays the UDP Service to which the selected UDP Port number corresponds. Description — Describes the selected Port. MAC Address — Displays the physical (MAC) address of the CSX200. Interf. Type — Displays the type of interface used by the specified port. Oper Status — Displays the operational status of the selected port.
General Configuration Using Local Management Selecting a Port for Configuration Routing Services allows you to choose the ports that you want to configure for IP routing. To select a router port to configure for IP routing, complete the following steps: 1. Use the arrow keys to highlight the PORT option. 2. Type in the number of the port that you want to configure for IP routing and then press ENTER.
General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. Setting the Maximum Transmission Unit (MTU) The Maximum Transmission Unit specifies the maximum packet size for all IP packets that are transmitted. To select the MTU for a port, complete the following steps: 1. Use the arrow keys to highlight the MTU option under Port Level Setup. 2. ENTER an MTU value for the media used.
General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. Configuring the UDP Broadcast Redirector To locate a server that can provide a particular network service, many IP hosts rely on the use of LAN broadcasts to send UDP service requests. The UDP port number contained in the broadcast request packet identifies the service being requested.
General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen and then press ENTER. The message “SAVED OK” displays. NOTE You can type in the UDP port number, or you can use the +REDIRECTOR- option at the bottom of the screen to scroll through a list of commonly used UDP port numbers.
General Configuration Using Local Management 3. Use the arrow keys to highlight the SAVE command field at the bottom of the screen, and then press ENTER. The message “SAVED OK” displays. Configuring the Network Broadcast Type on a Port IP Routing Services recognizes, and accepts as network broadcasts, IP packets with the host portion of the IP address as either all 1’s or all 0’s. Other networking devices only recognize all ones as a network broadcast.
General Configuration Using Local Management 5. Use the ENTER key to toggle the entry to ENABLED. 6. Use the arrow keys to highlight the SAVE command field at the bottom of the screen, and then press ENTER. The message “SAVED OK” displays. CSX 200 Local Management Flash Image Version XX.XX.XX IP RIP CONFIGURATION IP Address: xxx.xxx.xxx.
General Configuration Using Local Management IPX Configuration Screen The IPX Configuration screen enables you to access the IPX General Config, IPX RIP, and IPX SAP screens to configure the CSX200 for IPX Routing and enable RIP routing or Source Advertisement Protocol (SAP) routing on the CSX200. Access the IPX Configuration screen, shown in Figure 59, by using the arrow keys to highlight the IPX menu item on the Router Setup screen and pressing ENTER. The IPX Configuration screen displays.
General Configuration Using Local Management IPX RIP — Use this field to access the IPX RIP screen and enable Routing Information Protocol (RIP) routing on the CSX200. IPX General Configuration Screen The IPX General Configuration screen allows you to configure the CSX200 for IPX routing. Access the IPX Genral Configuration screen by using the arrow keys to highlight the IPX General Config menu item and pressing ENTER. The IPX General Configuration screen, shown in Figure 60, displays.
General Configuration Using Local Management Version — The version number of the IP Routing used on the CSX200. AdminStatusTime — Displays the amount of time elapsed since an IP address was assigned to the CSX200. Description — Describes the selected Port. MAC Address — Displays the physical (MAC) address of the CSX200. Interf. Type — Displays the type of interface used by the specified port. Oper Status — Displays the operational status of the selected port.
General Configuration Using Local Management If you type in an invalid port number the error message: “PORT NUMBER IS OUT OF RANGE” displays. Repeat the previous actions to select a port. Entering the IPX Address All IPX hosts must have an IPX address for each network interface. These addresses identify each network connection. To enter the IPX address for a router port, complete the following steps: 1. Use the arrow keys to highlight the ADDRESS option. 2.
General Configuration Using Local Management Enabling IPX Routing Services on a Port The ability to switch IPX Routing Services on and off on a port-by-port basis provides great flexibility. On the same device, some ports can be routing IPX traffic while other ports are bridging it. As you are in transition from a bridged network to a routed network, this flexibility allows you to implement IPX routing and test your routing configuration on a port-by-port basis.
General Configuration Using Local Management IPX Routing over Frame Relay An additional step is required when routing IPX over Frame Relay. This step requires that entries are created in the IPX Host Map. The IPX Host Map is a database of remote IPX hosts that are defined generally by the WAN Network number and MAC Address, and more specifically by the Interface Number and Data Link Connection Identifier (DLCI).
General Configuration Using Local Management Each router running IPX SAP gathers this LAN based information from the locally connected network segments and adds it to its Service Advertisement Table. Each table contains the Novell Network Number and type of services available on all Novell servers known to the IPX SAP. IPX routing services uses this information to provide internetworked Netware clients with access to these services. To enable SAP Routing, complete the following steps: 1.
General Configuration Using Local Management Enabling RIP on a Port IPX RIP (Routing Information Protocol) is a widely implemented routing protocol that is used extensively on IPX intermediations. IPX Routing Services use the RIP to send and gather information about the inter-network topology. This information is used to construct and maintain a database, called the RIP Route Table, containing the addresses and available routes to all the networks and hosts that RIP has learned.
General Configuration Using Local Management CSX 200 Local Management Flash Image Version XX.XX.XX IPX RIP CONFIGURATION IPX Address: xxx.xxx.xxx.
7 WAN Configuration Using Local Management This chapter provides detailed instructions for configuring your CSX200 Wide Area Network (WAN) interface. NOTE The WAN Interface must be configured and the device reset before configuring router information into local management. Chapter Organization NOTE The CSX200 has the flexibility to use a variety of WPIMs, with the exception of the WPIM-S/T.
WAN Configuration Using Local Management T1 Physical Configuration To configure the WPIM-T1 for the CSX200, access the WAN Physical Configuration screen for the WPIM-T1, shown in Figure 64, by using the arrow keys to highlight the WAN SETUP menu item on Setup Menu screen (refer to Chapter 6), and pressing ENTER. The WAN Physical Configuration screen displays. CSX200 Local Management Flash Image Version: xx.xx.
WAN Configuration Using Local Management Mode — Displays the interface mode (in this case the mode is always “Primary”). Active — Displays the active status of the T1 port, Yes or No. Interfaces — Displays the available interfaces (002 – 025). T1 Configuration Fields The following line configuration fields are displayed on the WAN Physical Configuration screen shown in Figure 64. NOTE The service provider (i.e., AT&T, Sprint, MCI, NYNEX, etc.) determines the settings for the following fields.
WAN Configuration Using Local Management T1 Network Loopback — Network Loopback is a testing procedure that segments the line and allows the user to isolate faults. The selections for this field toggle between None and Line-Loop. In Line-Loop all 24 channels are looped back to the T1 line. The CSX200 must be in Loop-Timing mode to use this option. The default setting is None.
WAN Configuration Using Local Management Figure 66 shows a sample Time Slot configuration for three sites. Of the 24 Time Slots, Site #1 uses 16 to communicate with Site #2 and the remaining 8 to communicate with Site #3. This configuration varies tremendously depending on how the service provider maps out the T1 Time Slots. Your service provider will tell you which Time Slots are active.
WAN Configuration Using Local Management T1 Interface Configuration This section describes the features of the WAN Interface Configuration screen. Access the screen by using the arrow keys to highlight the WAN Int Config option at the bottom of the WAN Physical Configuration screen, pressing ENTER. The WAN Interface Configuration screen shown in Figure 67 displays. CSX200 Local Management Flash Image Version: xx.xx.
WAN Configuration Using Local Management Active Protocol — Displays the active OSI Layer protocol. This field toggles between None, FR (Frame Relay), or PPP (Point-to-Point). The default setting is None. If you select PPP, the following fields displays: PPP Type: Select BNCP from this field. CCP Enable: This field toggles between ON and OFF. CCP Status: This field displays the status of the WAN compression. Comp Ratio: data.
WAN Configuration Using Local Management The quantity of application ports for a Frame Relay network is determined by the quantity of DLCIs (Data Link Connection Identifiers) assigned to that Interface. This is determined either manually or by the LMP (Link Management Protocol). IF# — Displays the Interface that is associated with the application port. LID — Displays the Link Identifier. If the active protocol is Frame Relay, the Data Link Connection Identifier is displayed.
WAN Configuration Using Local Management Full T1 Physical Configuration Begin configuration by accessing the WAN Physical Configuration screen through Local Management (Figure 64). Access the WAN Physical Configuration screen from the Feature Selection screen that first displays when you enter Local Management. Use the arrow keys to highlight the WAN Configuration option, then press ENTER. The screen shown in Figure 64 displays. Proceed with the following steps: 1.
WAN Configuration Using Local Management 7. Use the arrow keys to highlight T1 Network Loopback. Press the SPACEBAR to select None, then pressing ENTER. 8. Use the arrow keys to highlight the SAVE command, then press ENTER. The message “SAVE DONE!” displays and Local Management saves the changes to memory. 9. Access the WAN Interface Configuration screen by using the arrow keys to highlight the WAN Int Config option, then press ENTER.
WAN Configuration Using Local Management d. Use the arrow keys to highlight CCP Enable. Press the SPACEBAR to select ON, if you want data compression enabled or OFF, if you do not, then press ENTER. 5. Use the arrow keys to highlight the SAVE command, then press ENTER. The message “Save Done!” displays and Local Management saves the changes to memory. NOTE Upon saving this screen, the interface just configured is assigned to an application port (PT#) in the table on the right hand side of the screen.
WAN Configuration Using Local Management The line configuration information shown in Table 15 must be supplied by the service provider.
WAN Configuration Using Local Management 5. Use the arrow keys to highlight T1 Tx Clock Source. Use the SPACEBAR to select Local (no clock source provided by telephone company) or Loop (clock source provided by telephone company), then press ENTER. ! If you are using a Local clock source, set only one end of the circuit for Local, the other end must be set for Loop. CAUTION 6. Use the arrow keys to highlight T1 Line Buildout (LBO).
WAN Configuration Using Local Management d. Use the arrow keys to highlight CCP Enable. Press the SPACEBAR to select ON, if you want data compression enabled or OFF, if you do not, then press ENTER. 4. If the T1 Line Coding is AMI on the previous screen: a. Use the arrow keys to highlight Line Coding. Press the SPACEBAR to select INV-HDLC, then press ENTER. b. Use the arrow keys to highlight Active Protocol. Press the SPACEBAR to select PPP, then press ENTER. c. Use the arrow keys to highlight PPP Type.
WAN Configuration Using Local Management The following information must be supplied to you by the service provider. LMP type: ANSI T1.617 Annex D The line configuration information shown in Table 16 must be supplied by the service provider.
WAN Configuration Using Local Management 4. Use the arrow keys to highlight T1 Frame Type. Press the SPACEBAR to select ESF or D4, then press ENTER. 5. Use the arrow keys to highlight T1 Tx Clock Source. Press the SPACEBAR to select Local (no clock source provided by telephone company) or Loop (clock source provided by telephone company), then press ENTER. NOTE If you are using a Local clock source, set only one end of the circuit for Local, the other end must be set for Loop. 6.
WAN Configuration Using Local Management NOTE Upon saving this screen, the interface just configured is assigned to an application port (PT#) in the table on the right hand side of the screen once the device starts communicating with the service provider’s switch. The WAN configuration is complete. Communication between the CSX200 and the service provider’s switch takes approximately 1 to 2 minutes to begin.
WAN Configuration Using Local Management WAN Physical Configuration Screen Fields The following sections describe WAN Physical Configuration screen fields and instructions for setting them. The WAN Physical Configuration screen lets you configure the Physical Interface. The WAN Physical Configuration screen displays the following information for each WPIM. WPIM 1 — Displays configuration information for the WAN port. Type — Displays the WPIM type. BRIM # — Displays the BRIM slot in which the WPIM resides.
WAN Configuration Using Local Management Sync Clock Source — Displays the clock source as External, Internal or Split. The default setting is External. The Internal and Split settings are for Cabletron testing purposes only. Always set this field to External. Sync Tx Clock Speed — Cabletron testing purposes only. Displays 64000 (bps) upon start-up. Sync Rx Clock Speed — This field displays the manually inputted receive clock speed. The default setting for this field is 64000 (bps).
WAN Configuration Using Local Management WAN Interface Configuration Screen Fields The following sections describe WAN Interface Configuration screen fields. Interface Number — Displays active Interface Numbers. Use this field to configure the Interface Numbers you assigned to the Time Slots on the WAN Physical Configuration screen. Max Xmit Unit — User-configured field that displays the maximum packet size that can be transmitted on the selected interface.
WAN Configuration Using Local Management If you select FR, the following fields display: FR LMP: This field displays NO LMI, Q.933-A or T1.617-D. Set this field to T1.617-D. The NO LMI setting is for specialized applications in which no Frame Relay Link Management is available or required. If NO LMI is selected, the following field is displayed: Circuit State: toggles between Active, Inactive and Invalid. DLCI Address: This field can be set to values from 0–1023.
WAN Configuration Using Local Management PPP Configuration This section provides step-by-step instructions for connecting the CSX200 to a DDS (Digital Data System) circuit in a PPP environment. This example assumes the setup shown in Figure 73 using two CSX200s. CSU/ DSU CSX200 SITE #1 CSU/ DSU CSX200 SITE #2 Telco Cloud 1483_03 Figure 73 WPIM-SY Interface Configuration for PPP The line configuration information shown in Table 17 must be supplied by the service provider.
WAN Configuration Using Local Management NOTE Set Force CTS and Force DSR to YES only if the CSU/DSU does not support these flow control terms. 4. Use the arrow keys to highlight the SAVE command. Then press ENTER. The message “SAVE DONE!” displays and Local Management saves the changes to memory. 5. Access the WAN Interface Configuration screen by using the arrow keys to highlight the WAN Int Config option, then press ENTER.
WAN Configuration Using Local Management Frame Relay Configuration This section provides instructions for connecting the CSX200 to a DDS (Digital Data System) circuit in a Frame Relay environment. This example assumes the setup shown in Figure 74 using two CSX200s. CSU/ DSU CSX200 SITE #1 CSU/ DSU CSX200 SITE #2 Telco Cloud 1483_03 Figure 74 CSX200 Interface Configuration for Frame Relay The line configuration information shown in Table 17 must be supplied by the service provider.
WAN Configuration Using Local Management NOTE Set Force CTS and Force DSR to YES only if the CSU/DSU does not support these flow control terms. 4. Use the arrow keys to highlight the SAVE command. Then press ENTER. The message “SAVE DONE!” displays and Local Management saves the changes to memory. 5. Access the WAN Interface Configuration screen by using the arrow keys to highlight the WAN Int Config option, then press ENTER.
WAN Configuration Using Local Management DDS Physical Configuration To configure the WPIM-DDS for the CSX203 or CSX200, access the WAN Physical Configuration screen for the WPIM-DDS, shown in Figure 75, by using the arrow keys to highlight the WAN SETUP menu item on Setup Menu screen (refer to Chapter 6) and pressing ENTER. The WAN Physical Configuration screen displays. CSX200 Local Management Flash Image Version: xx.xx.
WAN Configuration Using Local Management Mode — Displays the WPIM mode. The field toggles between PRIMARY and SECONDARY. In a device such as the BRIM-W6 where two WPIMs are utilized, but only one can be active at a given time, the second WPIM installed or recognized defaults to Secondary. Active — Displays the status of the WPIM, Yes (active) or No. Ifaces — Displays the interfaces available to each WPIM.
WAN Configuration Using Local Management DDS Interface Configuration This section describes the features of the WAN Interface Configuration screen. Access the screen by using the arrow keys to highlight the WAN INT CONFIG command field at the bottom of the Physical Configuration screen, then press ENTER. The WAN Interface Configuration screen shown in Figure 76 displays. CSX200 Local Management Flash Image Version: xx.xx.
WAN Configuration Using Local Management WAN Interface Configuration Screen Fields The following sections describe WAN Interface Configuration screen fields: Interface Number — Displays active Interface Number. Use this field to configure the Interface Number assigned to the CSX200 on the WAN Physical Configuration screen. Max Xmit (Transmit) Unit — User-configured field that displays the maximum packet size that can be transmitted on the selected interface.
WAN Configuration Using Local Management If you select FR, the following field displays: FR LMP: This field displays NO LMI, Q.933-A or T1.617-D. Set this field to T1.617-D. The NO LMI setting is for specialized applications in which no Frame Relay Link Management is available or required. If NO LMI is selected, the following field is displayed: Circuit State: Toggles between Active, Inactive and Invalid. DLCI Address: This field can be set to values from 0–1023.
WAN Configuration Using Local Management DDS Configuration This section provides step-by-step instructions for connecting the CSX200 to a Digital Data Service circuit in a PPP or Frame Relay environment. This example assumes the setup shown in Figure 77 using two CSX200s. CSU/ DSU CSX200 SITE #1 CSU/ DSU CSX200 SITE #2 Telco Cloud 1483_03 Figure 77 WPIM-DDS Interface Configuration for PPP The line configuration information shown in Table 19 must be supplied by the service provider.
WAN Configuration Using Local Management DDS Physical Configuration The WAN Physical Configuration screen is accessed from Local Management by using the arrow keys to highlight the WAN SETUP option on Setup Menu screen (see Chapter 6), and pressing ENTER. The WAN Physical Configuration screen shown in Figure 75 displays. 1. Use the arrow keys to highlight DDS Line Mode. Press the SPACEBAR to set the DDS Line Mode to DDS-PRI or DDS-CC, then press ENTER. 2.
WAN Configuration Using Local Management b. If you selected FR, use the arrow keys to highlight FR LMP. Press the SPACEBAR to select T1.617-D, Q.933-A, or NO LMI, then press ENTER. • Use the arrow keys to highlight DLCI Address. This field can be set to values from 0–1023. The values 16–991 are typically used for virtual circuits. • Use the arrow keys to highlight CKT_DCP Enable. Press the SPACEBAR to select ON, if you want data compression enabled or OFF, if you do not, then press ENTER.
WAN Configuration Using Local Management HDSL Physical Configuration To configure the WPIM-HDSL for the CSX200, access the WAN Physical Configuration screen for the WPIM-HDSL, shown in Figure 78, by using the arrow keys to highlight the WAN SETUP menu item on Setup Menu screen (refer to Chapter 6), and pressing ENTER. The WAN Physical Configuration screen displays. Local Management Flash Image Version XX.XX.
WAN Configuration Using Local Management WAN Physical Configuration Screen Fields The following list describes the WAN Physical Configuration screen fields. WPIM # — Displays configuration information for the WPIMs that are installed. Type — Displays the WPIM type. BRIM # — Displays the BRIM slot in which the WPIM resides. Mode — Displays the WPIM mode. Active — Displays the status of the WPIM. Ifaces — Displays the interfaces available to each WPIM.
WAN Configuration Using Local Management HDSL Interface Configuration To access the WAN Interface Configuration screen shown in Figure 79, use the arrow keys to highlight the WAN INT CONFIG selection at the bottom of the WAN Physical Configuration screen, then press ENTER. Local Management Flash Image Version: xx.xx.
WAN Configuration Using Local Management Active Protocol — Displays the active OSI Layer protocol. This field displays None, FR (Frame Relay), or PPP (Point-to-Point). The default setting is None. If you select PPP, the following field appears: PPP Type: This field displays BNCP or LEX. Circuit State: Toggles between Active, Inactive and Invalid. PT# — Displays the application ports (bridge ports) available from the host platform to the WAN.
WAN Configuration Using Local Management 172 CSX200 Family User’s Guide
8 MIB Navigator This chapter explains how to use the MIB Navigator utility. The MIB Navigator allows access to a command set from which you can configure and manage the CSX200. Chapter Organization The following list summarizes the organization of this chapter: MIB Navigator Screen – describes the MIB Navigator screen and explains how to access it. MIB Navigator Command Set Overview – describes the types of commands available to the MIB Navigator.
MIB Navigator MIB Navigator Screen Access the MIB Navigator screen from the Main Menu screen using Local Management (refer to the Accessing Local Management section in Chapter 6). Using the arrow keys, highlight the MIB NAVIGATOR option, then press ENTER. The MIB Navigator screen shown in Figure 80 appears.
MIB Navigator The MIB Navigator views the MIB tree hierarchy as a directory. Figure 81 shows the MIB tree hierarchy. Each layer is numerically encoded, so that every branch group and leaf object in the MIB is identified by a corresponding number, known as an Object Identifier (OID). This allows the MIB Navigator to navigate through the MIB and access the manageable leaf objects. Group 1.1 Root 1 Group 1.2 Group 1.3 Object 1.1.1 Object 1.1.2 Object 1.2.1 Object 1.2.2 Object 1.3.1 Object 1.3.
MIB Navigator Other Commands — Other commands allow you to access and manage network devices connected to the device running the MIB Navigator. The commands are as follows: arp dhcp ping secondIP snmpnext bridge traceroute ppp show snmpset circuitmap nat reset snmpbranch snmptree defroute netstat route snmpget Special Commands — Special Commands allow you to exit from the MIB Navigator.
MIB Navigator MIB Navigation Commands are listed in the format shown below: command: Syntax: This entry provides the format that the MIB Navigator command requires. It indicates where arguments, if any, must be specified. Description: This entry briefly describes the command and its uses. Options: This entry lists any additional fields which may be added to the command and their format. Example: This entry shows an example of the command.
MIB Navigator cd: Syntax: cd [path] or cd
MIB Navigator help: Syntax: help Description: The help command provides general help on how to use the MIB Navigator or how to use a particular MIB Navigator command. Options: A particular MIB Navigator command. Example: MIBNav-> help su Command: su Format: su Allows user to change his/her community name, in order to allow different access to the MIB. 051459 mib2: Syntax: mib2 Description: The mib2 command allows you to move directly to the MIB II subtree (1.3.6.1.2.
MIB Navigator next: Syntax: next [path] Description: The next command enables you to determine the next leaf in the specified path within the managed device’s MIB. Options: Not Applicable Example: MIBNav-> next /1/3/6/1/2/1 #/1/3/6/1/2/1/1/1 sysDescr String CtronRev.X.XX.XX 051461 pwd: Syntax: pwd Description: The pwd command displays the full pathname for the directory in which you are currently working. The directory is displayed in ASCII format.
MIB Navigator set: Syntax: set Description: The set command enables you to set the value of a managed object. This command is valid only for leaf entries in the current MIB tree, or for managed objects in the MIB. If the leaf specified does not exist for the given path, MIB Navigator asks for a value.
MIB Navigator Example: MIBNav-> set /1/3/6/1/4/1/52/1/6/4/7 122.1.1.1 Type: (i)nteger (a)ddress (c)ounter (g)auge (o)id: 051463 su: Syntax: su [community name] Description: The su command enables you to change your community name to allow for different access to the MIB. The community name that you enter allows you either read-only, read-write, or super-user access to that device’s MIBs, depending on the level of security access assigned the password through the SNMP Community Names screen.
MIB Navigator tree: Syntax: tree Description: The tree command provides a display of the entire MIB for the device. Leaves and associated values are displayed in columns. Options: Not Applicable Example: MIBNav-> tree # /1/3/6/1/2/1/1/1 # /1/3/6/1/2/1/1/2 # /1/3/6/1/2/1/1/3 # /1/3/6/1/2/1/1/4 sysDescr sysObjectId sysUpTime sysContact STRING OBJECT ID TIME TICKS STRING EMRev X.X.X.X 1.3.6.1.4.1.
MIB Navigator grep: Syntax: grep
MIB Navigator dir: Syntax: dir [- 1pdm] [PATH] Description: Lists the contents of the directory sub-tree specified. If no [directory-path] is specified, the contents of the current directory are displayed. The display options are: -1: Displays the OID value along with the ASCII name of the leaf object. -p: Lists all the entries along with the path name of the leaf object. -d: Lists only the directory entries in the tree. -m: Displays one screenful at a time.
MIB Navigator ls: Syntax: ls [-1pdm] [PATH] Description: Lists the contents of the directory sub-tree specified. If no [directory-path is specified, the contents of the current directory are displayed. The display options are: -1: Displays the OID value along with the ASCII name of the leaf object. -p: Lists all the entries along with the path name of the leaf object. -d: Lists only the directory entries in the tree. -m: Displays one screenful at a time.
MIB Navigator Other Commands The Other commands listed in this section activate functions on the LM managed device or devices being accessed through MIB Navigation. arp: Syntax: arp Description: The arp command provides access to the ARP (Address Resolution Protocol) cache, enabling you to view cache data, delete entries, or add a static route. Super-user access is required to delete an entry or add a static route.
MIB Navigator Example: MIBNav-> arp -a # Interface # (SonicInt) # (SonicInt) # (SonicInt) # (SonicInt) Network Address 122.144.40.111 122.144.48.109 122.144.52.68 122.144.21.43 Physical Address 00.00.0e.12.3c.04 00.00.0e.f3.3d.14 00.00.0e.12.3c.04 00.00.0e.03.1d.3c Media Type 3(dynamic) 3(dynamic) 3(dynamic) 3(dynamic) MIBNav-> arp -d 1 122.144.52.68 MIBNav-> arp -s 1 22.44.2.
MIB Navigator dhcp: Syntax: dhcp Description: The dhcp command provides a status of the Dynamic Host Configuration Protocol feature. Allows the user to enable/disable DHCP globally and by interface, and to configure interfaces with server parameters. Options: dhcp (with no options) Displays DHCP status information. dhcp enable/disable. Enables or disables the DHCP feature globally. dhcp enable disable Enables or disables the DHCP feature by interface.
MIB Navigator Example: MIBNav->dhcp DHCP Server Summary: Admin: Enabled Oper: Enabled Server Time: 458400 Discovers: 0, Offers: 0, Requests: 2, Errors: 0 Declines: 0, Releases: 0, Acks: 2, Naks: 0, Other Servers: 0 DHCP Interface Configuration: IF Admin Oper ServerIP Active Free 1 Enabled Enabled 192.168.254.254 2 250 IF Net Address 1 192.168.254.0 Net Mask Low Address High Address Lease 255.255.255.0 192.168.254.2 192.168.254.253 2880 IF Default Gateway 1 192.168.254.254 # 1 2 DNS Address 134.141.
MIB Navigator nat: Syntax: nat Description: The nat command provides status relating to Network Address Translation. Allows the user to assign a private network to an interface, to define an interface to access the internet through, and to create a public IP address to be used on the internet. Allows the user to assign a host on the private network as a “proxy server” accessible from the internet.
MIB Navigator netstat: Syntax: netstat
MIB Navigator snmpbranch: Syntax: snmpbranch [IP address] [community name] [OID] Description: The snmpbranch command enables you to query another SNMP device. The command provides a display of objects that match the specified OID. If no match is made, no object is displayed. Options: Not Applicable Example: MIBNav-> snmpbranch 2.4.8.1 public 1.3.6.2.1.
MIB Navigator snmpset: Syntax: snmpset [IP address] [community name] Description: The snmpset command enables you to set the value of an object in other SNMP devices. This command requires the appropriate community string and OID. When defining a new leaf set, MIB Navigator asks for a value.
MIB Navigator snmptree: Syntax: snmptree [IP address] [community name] Description: The snmptree command provides a display of all objects in the device and their corresponding values. Options: Not Applicable Example: MIBNav-> snmptree 122.144.89.10 public # /1/3/6/1/2/1/1/1 # /1/3/6/1/2/1/1/2 # /1/3/6/1/2/1/1/3 # /1/3/6/1/2/1/1/4 sysDescr sysObjectId sysUpTime sysContact STRING OBJECT ID TIME TICKS STRING EMRev X.X.X.X 1.3.6.1.4.1.
MIB Navigator bridge: Syntax: bridge Description: Allows management of bridging upon one or more interfaces of the device. Bridging may be enabled or disabled at your request, either one at a time or all at once. Specifying a single interface number affects the bridging status of that interface, while specifying ALL affects every interface of the device. Options: Enables or disables bridging. Allows you to specify an interface number.
MIB Navigator Example: MIBNav-> circuitmap -s IPX 2 00000172 00:00:1d:02:d1:7a 102 MIBNav-> circuitmap -a # Interface #2 Network 5A4C212B Node 00:00:1d:23:a1:5b #2 00000172 00:00:1d:23:a1:5b Circuit ID 203 102 circuitmap ppp: Syntax: ppp Description: Provides additional status relating to PPP and its Network Control Protocols. Options: Not Applicable reset: Syntax: reset Description: The reset command allows you to perform a soft reset of the device.
MIB Navigator route: route add Syntax: route add route delete Description: Allows you to add or delete static entries in the IP Forwarding Table for the device. The first address is the destination. The second address is the next hop for the given interface. The metric value is optional. If included, it is used to set the value of ipForwardingMetric1.
MIB Navigator snmpnext: Syntax: snmpnext [IPADDRESS] [COMMUNITY-STRING] [OBJECT-ID] Description: The snmpnext command allows the user to query another device using SNMP. The next leaf of an object identifier can be retrieved from that device by supplying an appropriate community string and the values of the object identifier. Options: Not Applicable Example: MIBNav-> snmpnext 132.111.22.33 public 1.3.6.1.2.1.1.2 #1.3.6.1.2.1.1.1.
MIB Navigator 200 CSX200 Family User’s Guide
9 Troubleshooting Use this chapter in conjunction with the LANVIEW status monitoring and diagnostic LEDs on the CSX200 to diagnose power failures, collisions, cable faults and link problems. Figure 82 shows the front panel LEDs. Table 20, Table 21, Table 22, Table 23, and Table 24 describe LED states. • Review your CSX200 QuickSTART Guide to insure proper installation. • Check that all cables and connectors have been attached properly. • Verify that power has been attached.
Troubleshooting Table 21 CSX200 LAN LED States LED Receive (RCV) Link (LNK) Color State OFF Not receiving traffic AMBER (flashing) Receiving traffic OFF Link does not exist GREEN NORMAL, link exists Table 22 CSX200 WAN LED States LED Transmit (XMT) Receive (RCV) Link (LNK) Test 202 Color State OFF Not transmitting traffic GREEN (flashing) Transmitting traffic OFF Not receiving traffic AMBER (flashing) Receiving traffic OFF WPIM not configured GREEN NORMAL, link exists AMBER Lin
Troubleshooting Table 23 CSX200 WAN LED States for STS 1 WPIM T1, DI, and E1 DDS SYNC HDSL Color State OFF Normal or port disabled RED Red alarm OFF Normal or port disabled AMBER Out of service (OOS) OFF Inactive or disabled GREEN Request to send (RTS) OFF Port disabled or in loopback mode RED Loop 1 not synchronized, in T1 and Fractional T1 mode GREEN Loop 1 synchronized Table 24 CSX200 WAN LED States for STS 2 WPIM T1, DI, and E1 DDS SYNC HDSL Color State OFF Normal or port disa
Troubleshooting Troubleshooting CSX200 Hardware Power (PWR) LED is OFF • Check that the power connection is firmly attached to the back panel of the CSX200, and the other end to an active power source. Processor (CPU) LED is OFF If the CPU stays OFF for an extended amount of time, and the power (PWR) light remains on, the CPU is in an unknown state. • Contact Cabletron Systems Global Call Center for technical support (refer to Getting Help in Chapter 1).
Troubleshooting Troubleshooting the WAN Link (LNK) LED is OFF The WAN interface is not configured for operation. • Use QuickSET or Local Management to make sure that the WAN interface is configured correctly. Link (LNK) LED is RED The WAN interface is configured, but there is no signal indicating that a valid connection is present on the WAN interface. • Check that the CSX200 and the device at the other end of the segment are powered up.
Troubleshooting WPIM-SYNC Installed in CSX200 The port is operating normally. If it is not, and this LED is OFF the port may be disabled or RTS may be inactive. • Use QuickSET or Local Management to make sure that the WAN interface on the Local device is configured correctly. WPIM-HDSL Installed in CSX200 The port is disabled or has been placed into Loopback Test mode. • Use QuickSET or Local Management to make sure that the WAN interface on the Local device is configured correctly.
Troubleshooting WPIM-HDSL Installed in CSX200 WPIM-HDSL is configured for either Full or Fractional T1 and the WPIM is not able to establish synchronization on Loop 1 with the remote HDSL circuit. • Verify using QuickSET of Local Management that one of the WPIM-HDSL is involved in the connection is set to Master (Local) Timing and that the other one is set to Slave (Loop) Timing. • Verify the use of proper cabling for the HDSL connections.
Troubleshooting WPIM-HDSL is installed in CSX200 The Port is operating normally, Loop 1 has synchronized with the HDSL circuit at the remote end. Status 2 (STS2) LED is OFF WPIM-T1, WPIM-E1, WPIM-DI, or WPIM-DDS Installed in CSX200 The port is operating normally. If it is not, and this LED is OFF the port may be disabled. • Use QuickSET or Local Management to make sure that the WAN interface on the Local device is configured correctly. WPIM-SYNC Installed in CSX200 The port is operating normally.
Troubleshooting • Verify the use of proper cabling for the HDSL connections. Category 3 or Category 5 Unshielded Twisted Pair copper wiring is required. One pair (2 wires) for Fractional T1, two pair (4 wires) for Full T1. The presence of bridged taps and multiple wire segments connected together to form the loop may reduce the maximum distance usable between the Remote and Local devices. Wire gauge has an impact on the distance which can be supported as well.
Troubleshooting Test (TST) LED is AMBER (blinking) The device is in test mode. • The CSX200 is running its Power-up Diagnostic Tests. • Loopback Testing is underway on a WAN circuit. Investigating Software Configuration Problems Software problems usually occur when your software configuration contains incomplete or incorrect information.
Troubleshooting If TCP/IP Routing, • Check that TCP/IP Routing is set on and is enabled at the remote end. • Check that the IP address of the LAN beyond the remote router is correct, as well as the associated Subnet Mask. • If the remote router WAN IP address and Subnet Mask are required, check that they have been specified correctly. • Check that, if required, the source and remote WAN IP addresses are on the subnetwork.
Troubleshooting 212 CSX200 Family User’s Guide
A NOTE WPIM Cable Specifications For all WPIM cables, there is part number information for ordering a standard 20-foot cable or a specified length of cable. The number 20 followed by the part number denotes the standard 20-foot cable. The letter “L” denotes the specified length required in feet or meters. For example: 9372095-3 denotes a 3 foot cable; 9372095-3M denotes a 3-meter cable.
WPIM Cable Specifications Table 27 provides RJ48 DTE pin assignments. Table 27 DTE Pin Assignments Pin Signal 1 Receive Ring 2 Receive Tip 3 Not Used 4 Transmit Ring 5 Transmit Tip 6 Not Used 7 Shield Ground 8 Shield Ground Table 28 provides RJ48 network pin assignments.
WPIM Cable Specifications WPIM-SY This section provides the Cabletron Systems part number and connector specifications for the WPIM-SY interface cables. Table 29 provides the cable and interface types, electrical types, and part numbers for the WPIM-SY. Table 29 WPIM-SY Interface Cables Cable and Interface Type Electrical Type Part Number RS449 RS422 9380120 V.35 V.35 9380121 RS232 RS232 9380122 X.21 X.
WPIM Cable Specifications EIA-449 Table 30 shows the connector number, cable assembly description, and connector type. Table 30 EIA-449 Interface Connector Number Cable Assembly Description 1 Connector Type Sub DB 26-pin male connector EIA-530A ALT A to EIA-449 2 DB-37 pin male connector Table 31 provides pin assignments for the EIA-449 interface cable.
WPIM Cable Specifications Table 31 EIA-449 Interface Cable Pin Assignment (Continued) Connector 1 EIA-530A ALT A MNEMONIC DIRECT TO CE TM DTE CC CD DCE Connector 2 EIA-449 NAME PIN Ring Indicator Test Mode PAIR PIN NAME 22 15 Incoming Call 25 18 Test Mode DCE Ready 6 11 Data Mode DTE Ready 20 12 Terminal Ready DIRECT MNEMONIC TO IC DTE TM DM DCE TR SHIELD 1 AC Signal Common 23 20 Receive Common RC AB Signal Common 7 19 30 37 Send Common Terminal Ready B Signal Grou
WPIM Cable Specifications Table 33 V.
WPIM Cable Specifications EIA-232 Table 34 shows the connector number, cable assembly description, and connector type. Table 34 EIA-232 Interface Connector Number Cable Assembly Description 1 Connector Type Sub DB 26-pin male EIA-530A ALT A to EIA-232 2 DB-25 pin male Table 35 provides pin assignments for the EIA-232 interface cable.
WPIM Cable Specifications X.21 Table 36 shows the connector number, cable assembly description, and connector type. Table 36 X.21 Interface Connector Number Cable Assembly Description Connector Type 1 Sub DB 26-pin male EIA-530A ALT A to X.21 2 DB-15 pin male Table 37 provides pin assignments for the X.21 interface cable. Table 37 X.
WPIM Cable Specifications EIA-530, EIA-530 ALT A, EIA-530 A, and EIA-530 A ALT A Table 38 shows the connector number, cable assembly description, and connector type for the EIA-530, EIA-530 ALT A, EIA-530A, and EIA-530A ALT A, interface cables.
WPIM Cable Specifications Table 39 EIA-530, EIA-530 ALT A, EIA-530A, and EIA-530A ALT A Interface Cable Pin Assignments Connector 1 EIA-530A ALT A MNEMONIC DIRECT TO NAME Connector 2 EIA-530 PIN PAIR NAME 15 Transmit Signal Timing A Transmit Signal Timing B 12 12 Transmit Signal Timing B Receive Signal Timing A 17 17 Receive Signal Timing A 9 9 Receive Signal Timing B Transmit Signal Timing A 24 24 Transmit Signal Timing A 11 Transmit Signal Timing B Transmit Signal Timing A 15 DB E D
WPIM Cable Specifications WPIM-DDS This section provides Cabletron Systems part number and connector specifications for the WPIM-DDS interface cable. The WPIM-DDS has one RJ45 port for a direct connection to a single Digital Data Service (DDS) circuit. Table 40 provides cable and interface type, and part number information for the WPIM-DDS interface cable, and Table 41 provides network Pin Assignment information for the DDS interface cable. .
WPIM Cable Specifications WPIM-E1 This section provides the Cabletron Systems part number and connector specifications for the WPIM-E1 interface cable. Table 42 shows the WPIM-E1 connector number, cable and interface type, connector type and part number information. Table 42 WPIM-E1 Connector Information Connector Number Cable and Interface Type Connector Type Part Number E1 RJ45 9372095 1 2 Table 43 provides WPIM-E1 network interface cable pin assignments.
WPIM Cable Specifications Table 44 provides WPIM-E1 DTE interface cable pin assignments. Table 44 DTE Interface Pin Signal 1 Receive Ring 2 Receive Tip 3 Shield Ground 4 Transmit Ring 5 Transmit Tip 6 Shield Ground 7 Not Used 8 Not Used Table 45 provides WPIM-E1 RJ45 network interface cable pin assignments.
WPIM Cable Specifications WPIM-DI This section provides Cabletron Systems part number and connector specifications for the WPIM-DI interface cables. Table 46 shows the connector number, cable assembly description, cable and interface type, connector type and part number information for the WPIM-DI interface.
WPIM Cable Specifications Table 48 provides the WPIM-DI drop and insert interface cable pin assignments. Table 48 WPIM-DI Drop and Insert Pin Signal 1 Transmit Ring 2 Transmit Tip 3 AC Coupled Ground 4 Receive Ring 5 Receive Tip 6 AC Coupled Ground 7 AC Coupled Ground 8 AC Coupled Ground WPIM-HDSL This section provides connector specifications for the WPIM-HDSL interface cables. Table 49 provides pin assignments for the RJ-45 network interface connector.
WPIM Cable Specifications 228 CSX200 Family User’s Guide
B Specifications and Standards Compliance This chapter contains hardware specifications, and safety and compliance standards for the CSX200, and for the individual WPIMs that can be configured with this device.
Specifications and Standards Compliance CSX200 Regulatory Compliance Safety — This unit meets the safety requirements of UL 1950, CSA C22.2 No. 950 and EN 60950, IEC 950, and 73/23/EEC. Electromagnetic Compatibility (EMC) — This unit meets the EMC requirements of FCC Part 15, EN 55022, EN 50082-1, 89/336/EEC, AS/NZS 3548, CSA C108.8, and VCCI V-3.
Specifications and Standards Compliance WPIM-SY This section describes the environmental specifications and safety and approval requirements for the WPIM-SY. Safety — This unit meets the safety requirements of UL1950, CSA C22.2 No. 950, EN 60950, IEC 950, and 73/23/EEC. EMI — This unit meets the EMI requirements of FCC Part 15, EN 55022, EN 50082-1, AS/NZS 3548, 89/336/EEC, CSA108.8, and VCCI V-3. TELECOM — 91/263/EEC, and NET 2.
Specifications and Standards Compliance WPIM-E1 This section describes the environmental specifications and safety and approval requirements for the WPIM-E1. Safety — This unit meets the safety requirements of EN 60950, IEC 950, 73/23/EEC and AS/NZS 3260. Electromagnetic Compatibility (EMC) — This unit meets the EMI requirements of EN 55022, EN 50082-1, AS/NZS 3548, and 89/336/EEC. TELECOM — 91/263/EEC, CTR 12, TS 001, and TS 016.
C FCC Part 68 - User’s Information for CSX200 The following instructions are to ensure compliance with the Federal Communications Commission (FCC) Rules, Part 68: 1. All connections to the WPIM-T1, WPIM-DI and WPIM-DDS must be made using standard plugs and jacks. 2. Before connecting your unit, you must inform the local telephone company of the following information: Table 51 WPIM-DI and WPIM-T1 Port ID WPIM-DI WPIM-T1 REN/SOC FIC USOC 6.
FCC Part 68 - User’s Information for CSX200 6. If the telephone company alters their equipment in a manner that will affect use of this device, they must give you advance warning so as to give you the opportunity for uninterrupted service. You will be advised of your right to file a complaint with the FCC. 7. See the attached Affidavit on the following page. The Affidavit must be completed by the installer. 8.
FCC Part 68 - User’s Information for CSX200 AFFIDAVIT FOR THE CONNECTION OFCUSTOMER EQUIPMENT TO 1.544 MBPS AND/OR SUBRATE DIGITAL SERVICES For the work to be performed in the certified territory of Telco’s name: State of: Country of: I, , of (Name of Authorized Representative) (Customer Name) (Customer’s Address) (Telephone Number) , being duly sworn, state: I have responsibility for the operation and maintenance of the terminal equipment to be connected 1.544 Mbps and/or Subrate digital services.
FCC Part 68 - User’s Information for CSX200 I attest that the operator(s) maintainer(s) of the digital CPE responsible for the establishment, maintenance and adjustment of the encoded analog content and billing information has (have) been trained to perform these functions by successfully completing one of the following: Check appropriate one(s). a. A training course provided by the manufacturer/grantee of the equipment used to encode analog signals; or b.
D Glossary 10BASE-T — IEEE 802.3 standard for the use of Ethernet LAN technology over Unshielded Twisted Pair wiring, running at 10 Mbps. ARP — Address Resolution Protocol. An Internet protocol used to bind an IP address to Ethernet/ 802.3 addresses. ASCII — American Standard Code for Information Interchange. It is an 8-bit code for character representation. AUI — Attachment Unit Interface. An IEEE 802.3 transceiver cable connecting the network device (such as a router) to the MAU (media access unit).
Glossary DHCP — Dynamic Host Configuration Protocol is a protocol for automatic TCP/IP configuration that provides static and dynamic address allocation and management. Dial on Demand — Dial up WAN resources are accessed only when remote access is required and released as soon as the resource is no longer needed. DTE — Data Terminating Equipment. DTE refers to equipment used in a network as the data source and/or destination, such as computers. DTMF — Dual Tone Multi-Frequency.
Glossary ISDN — Integrated Services Digital Network. Digital transmission standard defining communication protocols permitting telephone networks to carry data, voice, fax and other streams. Leased Line — A telecommunications line between two service points leased from a communications carrier for private use, usually incurring a monthly service rate. LEDs (Light Emitting Diodes) — Type of indicator lights on the panel of a device.
Glossary OSI — Open System Interconnection. An international standard developed by ITU (formally CCITT) and ISO (International Organization for Standardization) to facilitate data networking multi-vendor interoperability. The OSI Reference Model defines seven layers, each providing specific network functions. Packet — A group of data that includes a header and usually user data for transmission through a network.
Glossary SNMP — Simple Network Management Protocol. A widely implemented Internet network management protocol that allows status monitoring, getting/setting of parameters for configuration and control of network devices, such as routers and bridges. Split B Channels — Each 64 Kbps ISDN B-channel can be used individually for a separate data connection.
Glossary Watchdog Frames — Frames sent out by servers to clients, under IPX, to verify that clients are still logged on. Wide Area Network — A communications network that is geographically dispersed thus requiring links provided by communications carriers. Workstation — Computer or terminal used by the systems administration or user.
Index Numerics 10BASE-T connection 22 impedance 21 length 21 requirements 21 temperature 22 B Bootstrap Protocol Client 122 Bootstrap Protocol Server 122 Bridge filtering 15 Bridge Setup bridge port pair administrative status 115 port administrative status 114 spanning tree protocol 114 Bridging 13 Bridging and routing 14 broadcast 124 Dynamic Host Configuration Protocol (DHCP) 10 E EMC 230, 231, 232 EMI 231, 232 Enabling Forwarding on a Port IP 121, 130 Enabling Proxy ARP on a Port 123 Enabling Routing
Index IEEE 802.
Index S U Safety Requirements 231 Selecting a Port for Configuration IP 120, 128 SNMP 16 SNMP Community Names read-only 16, 43, 106 read-write 16, 43, 107 super-user 16, 43, 107 SNMP Traps enable traps 109 trap community name 108 trap destination 108 Software and firmware upgrades 20 Subnet Mask 102, 105 Sunrpc (NIS) 122 Synchronous 152 System Date 102, 103 System Passwords window 42 System Time 102, 103 UDP Bootstrap Protocol Client 122 Bootstrap Protocol Server 122 Configuring the Broadcast Redirector
Index 246 CSX200 Family User’s Guide
POWER SUPPLY CORD The mains cord used with this equipment must be a 2 conductor plus ground type with minimum 0.75 mm square conductors and must incorporate a standard IEC appliance coupler on one end and a mains plug on the other end which is suitable for the use and application of the product and that is approved for use in the country of application. GERMAN: Die Netzleitung, die mit diesem Geraet benuetzt wird, soll einen zwei Leiter mit Erdleiter haben, wobei die Leiter mindestens 0.