IPX Routes
431
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If an interface goes down, routes are temporarily removed from the
routing table until the interface comes back up.
■
Static routes take precedence over dynamically learned routes to the
same destination. You can have a maximum of 32 static routes.
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When you use the IPX route remove option to remove a route, that
route is immediately removed. All servers that depend on the removed
route are also removed from the Server Information Table, including all
static servers.
■
When you use the
IPX route flush option to remove dynamically
learned routes from the IPX routing table, all dynamically learned
routes are immediately removed. All dynamic servers that depend on
these routes are also removed from the Server Information Table.
Primary and
Secondary Routes
You can set up both Primary and Secondary routes in the routing table.
To set up routes in the routing table, see the IPX chapter in the
Command
Reference Guide
.
Static Routes
You manually configure a static route. Static routes are useful in
environments in which no routing protocol is used or when you want to
override a routing protocol’s generated route.
Static routes do not change until you change them, and they do not time
out. Because static routes do not change in response to network
topology changes, manually configure only a small number of reasonably
stable routes.
Dynamic Routes
Using RIP
A router uses RIP to exchange its routing table with other routers at
regular intervals. This automatic method of learning routes helps you
keep up with a changing network environment and allows you to
reconfigure routes quickly and reliably. Interior Gateway Protocols (IGPs),
which operate within intranetworks, provide this automated learning.
The system uses RIP (one of the most widely used IGPs) to dynamically
build routing tables.
Summary of Contents for CoreBuilder 3500
Page 44: ...44 CHAPTER 2 MANAGEMENT ACCESS ...
Page 58: ...58 CHAPTER 3 SYSTEM PARAMETERS ...
Page 86: ...86 CHAPTER 5 ETHERNET ...
Page 112: ...112 CHAPTER 6 FIBER DISTRIBUTED DATA INTERFACE FDDI ...
Page 208: ...208 CHAPTER 9 VIRTUAL LANS ...
Page 256: ...256 CHAPTER 10 PACKET FILTERING ...
Page 330: ...330 CHAPTER 12 VIRTUAL ROUTER REDUNDANCY PROTOCOL VRRP ...
Page 356: ...356 CHAPTER 13 IP MULTICAST ROUTING ...
Page 418: ...418 CHAPTER 14 OPEN SHORTEST PATH FIRST OSPF ...
Page 519: ...RSVP 519 Figure 94 Sample RSVP Configuration Source station End stations Routers ...
Page 566: ...566 CHAPTER 18 DEVICE MONITORING ...
Page 572: ...572 APPENDIX A TECHNICAL SUPPORT ...
Page 592: ...592 INDEX ...