RUGGEDCOM ROX II
CLI User Guide
Chapter 14
Network Redundancy
Edge Ports
631
Section 14.3.1.2
Edge Ports
A port may be designated as an Edge Port if it is directly connected to an end station. As such, it cannot create
bridging loops in the network and can thus directly transition to forwarding, skipping the listening and learning
stages.
Edge ports that receive configuration messages immediately lose their Edge Port status and become normal
spanning tree ports. A loop created on an improperly connected edge port is thus quickly repaired.
Because an Edge Port services only end stations, topology change messages are not generated when its link
toggles.
Section 14.3.1.3
Point-to-Point and Multipoint Links
RSTP uses a peer-peer protocol called Proposing-Agreeing to ensure transitioning in the event of a link failure. This
protocol is point-to-point and breaks down in multipoint situations, i.e. when more than two bridges operate on a
shared media link.
If RSTP detects this circumstance (based upon the port’s half duplex state after link up) it will switch off Proposing-
Agreeing. The port must transition through the learning and forwarding states, spending one forward delay in
each state.
There are circumstances in which RSTP will make an incorrect decision about the point-to-point state of the link
simply by examining the half-duplex status, namely:
• The port attaches only to a single partner, but through a half-duplex link.
• The port attaches to a shared media hub through a full-duplex link. The shared media link attaches to more than
one RSTP enabled bridge.
In such cases, the user may configure the bridge to override the half-duplex determination mechanism and force
the link to be treated in the proper fashion.
Section 14.3.1.4
Path and Port Costs
The STP path cost is the main metric by which root and designated ports are chosen. The path cost for a
designated bridge is the sum of the individual port costs of the links between the root bridge and that designated
bridge. The port with the lowest path cost is the best route to the root bridge and is chosen as the root port.
NOTE
In actuality the primary determinant for root port selection is the root bridge ID. Bridge ID is important
mainly at network startup when the bridge with the lowest ID is elected as the root bridge. After
startup (when all bridges agree on the root bridge’s ID) the path cost is used to select root ports. If the
path costs of candidates for the root port are the same, the ID of the peer bridge is used to select the
port. Finally, if candidate root ports have the same path cost and peer bridge ID, the port ID of the peer
bridge is used to select the root port. In all cases the lower ID, path cost or port ID is selected as the
best.
Summary of Contents for RUGGEDCOM ROX II
Page 2: ...RUGGEDCOM ROX II CLI User Guide ii ...
Page 4: ...RUGGEDCOM ROX II CLI User Guide iv ...
Page 39: ...RUGGEDCOM ROX II CLI User Guide Table of Contents xxxix 19 5 VLANs 752 ...
Page 40: ...Table of Contents RUGGEDCOM ROX II CLI User Guide xl ...
Page 46: ...Preface RUGGEDCOM ROX II CLI User Guide xlvi Customer Support ...
Page 170: ...Chapter 5 System Administration RUGGEDCOM ROX II CLI User Guide 124 Deleting a Scheduled Job ...
Page 256: ...Chapter 6 Security RUGGEDCOM ROX II CLI User Guide 210 Enabling Disabling a Firewall ...
Page 402: ...Chapter 11 Wireless RUGGEDCOM ROX II CLI User Guide 356 Managing Cellular Modem Profiles ...