User's Manual
Table Of Contents
- Contents
- Contents v
- Figures ix
- Tables xi
- Preface xv
- Appendix A Specifications 157
- Appendix B Factory Configuration 159
- Appendix C CommandLine Syntax 163
- Appendix D Antenna Guidelines 181
- Appendix E CCU/EUM Data Tables 183
- Appendix F Ping Commands 197
- Appendix G SNMP MIB Definitions 199
- Appendix H Operating Statistics 223
- Appendix I IP Plan — Example 241
- Appendix J Acronyms and Glossary 253
- Index 261
- Figures
- Tables
- Preface
- 1 Introduction
- 2 Quick Startup
- 3 Detailed Description
- 4 IP Network Planning
- 5 Radio Network Planning
- 6 Installation/Diagnostic Tools
- 7 Configuring the CCU
- 7.1 CCU and EUM Serial Number, MAC Address, and Station ID
- 7.2 Setting the CCU Password
- 7.3 Configuring the CCU RF Parameters
- 7.4 Configuring CCU IP Parameters
- 7.5 Configuring DHCP Relay
- 7.6 Configuring Port Filtering
- 7.7 Configuring the SNTP/UTC Time Clock
- 7.8 Configuring SNMP
- 7.9 Adding EUMs to the Authorization Table
- 8 Configuring the EUM
- 9 Installing the EUM
- 9.1 Before you Start the EUM Installation
- 9.2 Other EUM Programming Considerations
- 9.3 Installation Overview
- 9.4 Installation Procedures
- 9.4.1 Opening the Box
- 9.4.2 Turning off the End-user’s Cordless Phones
- 9.4.3 Choosing a Location for the EUM and Antenna
- 9.4.4 Connecting the EUM Components
- 9.4.5 Conducting a Preliminary Check of the EUM
- 9.4.6 Positioning the Antenna
- 9.4.7 Mounting the Antenna
- 9.4.8 Connecting the End-user’s PC
- 9.4.9 Obtaining Valid IP Addresses for the End-user’s PC
- 9.4.10 Testing the Data Link
- 9.4.11 Configuring the Browser Application
- 9.4.12 Completing the Installation
- 9.4.13 Baselining the Installation
- 9.4.14 Troubleshooting
- 10 Maintaining the Network
- 11 Monitoring the Network
- 12 Troubleshooting
- 13 Specialized Applications
- Appendix A Specifications
- Appendix B Factory Configuration
- Appendix C CommandLine Syntax
- Appendix D Antenna Guidelines
- Appendix E CCU/EUM Data Tables
- Appendix F Ping Commands
- Appendix G SNMP MIB Definitions
- MIB-II Elements Supported from RFC-1213
- WaveRider CCU Enterprise MIBs
- CCU Base MIB
- CCU General Information Group
- CCU Radio Configuration Group
- CCU Radio Statistics Group
- CCU Radio General Statistics Group
- CCU Radio Driver Statistics Group
- CCU Radio MAC Statistics Group
- CCU Ethernet Statistics Group
- CCU Modem Information MIB
- CCU Registration Information MIB
- CCU Registration Table
- CCU Authorization Information MIB
- CCU Authorization Table
- CCU RFC MIB-II Traps
- WaveRider EUM Enterprise MIBs
- EUM RFC MIB-II Traps
- Appendix H Operating Statistics
- Appendix I IP Plan — Example
- Appendix J Acronyms and Glossary
- Index

184 APCD-LM043-4.0
Table 49 Port Filter Table Entries
To access the Port Filter Table:
Console> port
PORT FILTERS
Port Filter
---------------------------------
137 both
138 both
139 both
1512 both
----------------------------------
Console>
Routing Table (CCU and EUM)
The Routing Table is used by the CCU to determine the routing of IP packets. The routes in
the Routing Table are either entered by the system operator as static routes, or automatically
generated by the CCU. The CCU does not support dynamic routing. As a minimum, the
Routing Table contains the following three routes:
Table 50 Basic CCU Routes
In addition to these standard routes, the system operator may add other routes; for example,
routes to support direct CCU-to-CCU communications, without going back to the NAP router.
Each route in the Routing Table has the following entries:
Table Entry Description
Port The number of the port which is to be filtered.
Filter
For each port listed, the CCU or EUM can be set to filter UDP,
TCP, or both UDP and TCP packets.
Default Route
Any packet with a destination which is not listed in the Routing
Table is forwarded to the gateway address defined in the default
route. Normally, this is be the IP address of the NAP router. The
default route is generated automatically by the CCU when you
enter the gateway IP address.
Radio Subnet Route
Any packet with a destination in the radio subnet (EUMs, end-
user PCs) is forwarded to the CCU radio port. This route is
automatically generated by the CCU, using the CCU radio subnet
IP address, entered by the system operator.
Loopback Route
The loopback interface exists (among other reasons) so the CCU
operating system can talk to itself without handing the packet to a
hardware driver. This route keeps unneeded traffic off the
network. This loopback route is automatically generated by the
CCU.