User's Manual

ManualsBrandsLucent Technologies ManualsserversLucent Technologies DEFINITY Enterprise Communications Server Release 8.2

Table Of Contents

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MAIN MENU
MASTER INDEX
GLOSSARY
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DEFINITY® ECS Release 8.2 Administration for Network Connectivity
Contents
Preface
- Purpose
- Audience
- Issue Status
- Organization
- Terminology
- How to access this book from the web
- How to order more copies
- Tell us what you think
- How to Order Books
- How to Comment on This Book
- Where to Call for Technical Support
- Trademarks
1 Networking Overview
- DEFINITY Switch Connectivity
- IP Softphones
- IP Addressing
2 H.323 Trunks
- Overview
- H.323 Trunk Administration
- Troubleshooting IP Solutions
  - H.323 Trunk Problem Solving
  - IP Softphone Problem Solving
3 C-LAN Administration
- Overview
- Configuration 1: R8r <—ppp—> R8si
- Configuration 2: R7r (+CMS) <—ethernet—> R7csi
- Configuration 3:R8si<—x.25 —> R8r Gateway <—ethernet—> R8si
- Configuration 4: R8csi <—ISDN—> R8si Gateway <—ppp—> R8csi
- Configuration 5A: R8csi <—ppp—> R8r (one C-LAN) <—ethernet—> R8si
- Configuration 5B:R8csi <—ppp—> R8r (2 C-LANs) <—ethernet—> R8si
4 Networking Example
- Overview
  - Network Diagram
  - Task Summary
- Link/Channel/TSC Map
- Network Map
- Switch-Node 1 Administration
- Switch-Node 2 Administration
- Switch-Node 3 Administration
- Switch-Node 4 Administration
- Intuity Translations for DCS AUDIX
- CMS Administration
A Screens Reference
- Networking Screens
- Other Network-Related DEFINITY Screens
- Networking Screens
- Other Networking-Related DEFINITY Screens
B Private Networking
- Contents of this Appendix
- Distributed Communications System
- ISDN Feature Plus
- QSIG
- Centralized Voice Mail Via Mode Code
- Japan TTC Q931-a Private Networking Protocols
C Security Issues
- Network Security Issues
  - Overview
D Capacities and Performance
- Capacities and Resource Requirements
- Performance
E C-LAN Installation
- Overview
- Install the C-LAN Circuit Pack
- Other Hardware Upgrades
F IP Trunk Installation and Administration
- IP Trunk Installation
- IP Trunk Administration
- Procedures for Extension Dialing Between Sites
  - Non-DCS Configuration
- DCS over IP Trunk
- IP Trunk Worksheets
G References
- Basic DEFINITY ECS documents
- Call center documents
- Application-specific documents
Glossary
- A
- B
- C
- D
- E
- F
- G
- H
- I
- L
- M
- N
- O
- P
- Q
- R
- S
- T
- U
- V
- W
- Z
Index
- A
- B
- C
- D
- E
- F
- G
- H
- I
- L
- M
- N
- O
- P
- Q
- R
- S
- T
- U
- V
- W
- Z

IP Addressing 1 Networking Overview

Administration for Network Connectivity

CID: 77730 555-233-504 — Issue 1 — April 2000

Ethernet-only Connections

The diagram below shows three interconnected (sub)networks. There are three

switches in a DCS network with ethernet signaling connections between them.

Switches A & B and the adjunct are on one (sub)network and switch C is on another

(sub)network. Nodes 1, 2, and 6 are C-LAN ports. Node 3 is the adjunct interface port

to the LAN. Nodes 4, 5, and 7 are interfaces to the WAN/Internet cloud and have IP

addresses that are on different (sub)networks. An ethernet data module and IP

Interface is administered for the C-LAN ethernet port on each switch.

Switches A and B can communicate with each other and with the adjunct without

using the IP Routing screen to explicitly administer host IP routes. Normally, node 4

would be defined as the Gateway Address for node 1 on the IP Interfaces screen,

which would enable switch A to communicate with switch C without an explicit host

IP route defined. However, if node 4 is not assigned as the Gateway Address for node

1, switch A needs an IP route to communicate with switch C because these switches

are on different (sub)networks. Similarly, node 5 would normally be defined as the

default gateway for node 6; if not, switch C needs an IP route to communicate with

switch A.

In this configuration, network IP routes could be used alone, or in combination with

host IP routes, to tailor access among nodes. For example, if you wanted node 1 to be

able to communicate with any node on (sub)networks 2 and 3, you would define node

4 as the Gateway Address for node 1. Then you would not need any IP routes defined

for node 1. If you wanted node 1 to be able to communicate with all nodes on

(sub)network 3 but none on (sub)network 2, you would define a network IP route to

(sub)network 3 (and not assign node 4 as the Gateway Address for node 1). Then

node 1 could communicate with any node on (sub)network 3 without defining host IP

routes to them.

Router(s)

WAN

C-LAN

DS1

C-LAN

DS1

Adjunct

Network 2

DCS Signaling over Ethernet / Internet

Network 1

SW A

SW B

SW C

C-LAN

DS1

Network 3

192.168.1.0

192.168.2.0

192.168.3.0

LAN