User Manual
Table Of Contents
- Contents
- Figures
- Preface
- Section I
- Basic Operations
- Chapter 1
- Starting a Web Browser Management Session
- Chapter 2
- Basic Switch Parameters
- Chapter 3
- Enhanced Stacking
- Chapter 4
- SNMPv1 and SNMPv2c Community Strings
- Chapter 5
- Port Parameters
- Chapter 6
- MAC Address Table
- Chapter 7
- Static Port Trunks
- Chapter 8
- Port Mirroring
- Section II
- Advanced Operations
- Chapter 9
- File System
- Chapter 10
- File Downloads and Uploads
- Chapter 11
- Event Log and Syslog Servers
- Chapter 12
- Classifiers
- Chapter 13
- Access Control Lists
- Chapter 14
- Quality of Service
- Chapter 15
- Class of Service
- Chapter 16
- IGMP Snooping
- Chapter 17
- Denial of Service Defense
- Chapter 18
- Power Over Ethernet
- Section III
- SNMPv3 Operations
- Chapter 19
- SNMPv3
- Enabling the SNMP Protocol
- Configuring the SNMPv3 User Table
- Configuring the SNMPv3 View Table
- Configuring the SNMPv3 Access Table
- Configuring the SNMPv3 SecurityToGroup Table
- Configuring the SNMPv3 Notify Table
- Configuring the SNMPv3 Target Address Table
- Configuring the SNMPv3 Target Parameters Table
- Configuring the SNMPv3 Community Table
- Displaying SNMPv3 Tables
- Section IV
- Spanning Tree Protocols
- Chapter 20
- Spanning Tree, Rapid Spanning Tree, and Multiple Spanning Tree Protocols
- Section V
- Virtual LANs
- Chapter 21
- Port-based and Tagged Virtual LANs
- Chapter 22
- GARP VLAN Registration Protocol
- Chapter 23
- Protected Ports VLANs
- Section VI
- Port Security
- Chapter 24
- MAC Address-based Port Security
- Chapter 25
- 802.1x Port-based Network Access Control
- Section VII
- Management Security
- Chapter 26
- Encryption Keys, PKI, and SSL
- Chapter 27
- Secure Shell Protocol
- Chapter 28
- TACACS+ and RADIUS Authentication Protocols
- Chapter 29
- Management Access Control List
- Index
AT-S62 Management Software Web Browser Interface User’s Guide
Section IV: Spanning Tree Protocols 285
5. Adjust the bridge MSTP settings as needed. The parameters are
described below.
Force Version
This selection determines whether the bridge will operate with MSTP
or in an STP-compatible mode. If you select MSTP, the bridge
operates all ports in MSTP, except those ports that receive STP or
RSTP BPDU packets. If you select Force STP Compatible, the bridge
uses its MSTP parameter settings, but sends only STP BPDU packets
from the ports. The default is MSTP.
Bridge Hello Time
The time interval between generating and sending configuration
messages by the bridge. This parameter can be from 1 to 10 seconds.
The default is 2 seconds. This value is active only if the bridge is
selected as the root bridge of the network.
Bridge Forwarding
The waiting period before a bridge changes to a new state, for
example, becomes the new root bridge after the topology changes. If
the bridge transitions too soon, not all of the links may have adapted to
the change, possibly resulting in a network loop. The range is 4 to 30
seconds. The default is 15 seconds. This setting applies only to ports
running in the STP-compatible mode.
Configuration Name
The name of the MSTP region. The range is 0 (zero) to 32
alphanumeric characters in length. The name, which is case-sensitive,
must be the same on all bridges in a region. Examples of a
configuration name include Sales Region and Production Region.
Bridge Max Age
The length of time after which stored bridge protocol data units
(BPDUs) are deleted by the bridge. This parameter applies only if the
bridged network contains an STP or RSTP single-instance spanning
tree. Otherwise, the bridges use the Max Hop counter to delete
BPDUs.
All bridges in a single-instance bridged LAN use this aging time to test
the age of stored configuration messages called bridge protocol data
units (BPDUs). For example, if you use the default of 20, all bridges
delete current configuration messages after 20 seconds. The range of
this parameter is 6 to 40 seconds. The default is 20 seconds.
In selecting a value for maximum age, the following must be observed:
MaxAge must be greater than (2 x (HelloTime + 1))
MaxAge must be less than (2 x (ForwardingDelay - 1))