User Manual
Table Of Contents
- M4300 Intelligent Edge Series Fully Managed Stackable Switches
- Contents
- 1 Get Started
- 2 Configure System Information
- Configure and Display the System and Slot Information
- Configure a Loopback Interface
- Configure Management Interfaces
- Manage the Time Settings
- Manage Precision Time Protocol
- Configure DNS Settings
- Configure the Switch Database Management Template Preference
- Configure Green Ethernet Settings
- Configure and Display Bonjour Settings
- Configure DHCP Server Settings
- Manage a DHCP L2 Relay
- Manage the DHCPv6 Server
- Configure Power over Ethernet
- Configure SNMP
- Configure LLDP
- Configure LLDP Global Settings
- Configure the LLDP Interface
- View LLDP Statistics
- View LLDP Local Device Information
- View LLDP Remote Device Information
- View LLDP Remote Device Inventory
- Configure LLDP-MED Global Settings
- Configure LLDP-MED Interface
- View LLDP-MED Local Device Information
- View LLDP-MED Remote Device Information
- View LLDP-MED Remote Device Inventory
- Configure Link Dependency
- Configure ISDP
- Manage Timer Schedules
- 3 Manage Stacking
- M4300 Series Switch Stacking Overview
- Firmware Synchronization and Upgrade
- Stack Configuration Maintenance
- Stack Master Election
- Stack Factory Defaults Reset Behavior
- Stack NSF
- Configure a Stack
- Run Stack Port Diagnostics
- Configure Stack Firmware Synchronization
- View NSF Summary Data
- View NSF Checkpoint Statistics
- 4 Configure Switching Information
- Configure VLANs
- Configure Basic VLAN Settings
- Reset the VLAN Configuration to Default Setting
- Configure an Internal VLAN
- Configure VLAN Trunking
- Configure VLAN Membership
- View the VLAN Status
- Configure Port PVID Settings
- Configure a MAC-Based VLAN
- Configure Protocol-Based VLAN Groups
- Configure Protocol-Based VLAN Group Membership
- Configure an IP Subnet-Based VLAN
- Configure a Port DVLAN
- Configure a Voice VLAN
- Configure GARP Switch Settings
- Configure a GARP Port
- Configure Auto-VoIP
- Configure iSCSI Settings
- Configure Spanning Tree Protocol
- Manage Multicast
- View the MFDB Table
- View the MFDB Statistics
- Manage IGMP Snooping
- Configure IGMP Snooping Automatically with IGMP Plus Mode
- Configure IGMP Snooping Manually
- Configure IGMP Snooping for Interfaces
- Configure IGMP Snooping for VLANs Automatically with IGMP Plus Mode
- Configure IGMP Snooping for VLANs Manually
- Configure a Multicast Router
- Configure a Multicast Router VLAN
- IGMP Snooping Querier Overview
- Configure IGMP Snooping Querier
- Configure IGMP Snooping Querier for VLANs
- Configure MLD Snooping Automatically with MLD Plus Mode
- Configure MLD Snooping Manually
- Configure an MLD Snooping Interface
- Configure MLD Snooping for VLANs Automatically with MLD Plus Mode
- Configure MLD Snooping for VLANs Manually
- Enable or Disable a Multicast Router on an Interface
- Configure Multicast Router VLAN Settings
- Configure MLD Snooping Querier
- Configure MLD Snooping Querier VLAN Settings
- Configure MVR
- Search and Manage the MAC Address Table
- Manage Port Settings
- Manage Link Aggregation Groups
- Manage the Multiple Registration Protocol Settings
- Manage Loop Protection
- Configure VLANs
- 5 Manage Routing
- Manage Routes
- Configure the Routing IP Settings
- Configure Routing Parameters for the Switch
- Manage IPv6
- Configure IPv6 Global Settings
- View the IPv6 Route Table
- Configure IPv6 Interface Settings
- Configure the IPv6 Prefix Settings
- View IPv6 Statistics
- View the IPv6 Neighbor Table and Clear IPv6 Neighbors
- Configure an IPv6 Static Route
- View the IPv6 Route Table
- Configure IPv6 Route Preferences
- Configure IPv6 Tunnels
- Manage VLANs
- Configure Address Resolution Protocol
- Configure RIP
- Configure Router Discovery
- Configure Virtual Router Redundancy Protocol
- 6 Configure OSPF and OSPFv3
- Configure OSPF
- Configure Basic OSPF Settings
- Configure the OSPF Default Route Advertise Settings
- Configure OSPF Settings
- Configure the OSPF Common Area ID
- Configure the OSPF Stub Area
- Configure the OSPF NSSA Area
- Configure the OSPF Area Range
- Configure the OSPF Interface
- View and Clear OSPF Statistics for an Interface
- View the OSPF Neighbor Table and Clear OSPF Neighbors
- View the OSPF Link State Database
- Configure the OSPF Virtual Link
- Configure the OSPF Route Redistribution
- View the NSF OSPF Summary
- Configure OSPFv3
- Configure Basic OSPFv3 Settings
- Configure OSPFv3 Default Route Advertise Settings
- Configure the Advanced OSPFv3 Settings
- Configure the OSPFv3 Common Area
- Configure an OSPFv3 Stub Area
- Configure the OSPFv3 NSSA Area
- Configure the OSPFv3 Area Range
- Configure the OSPFv3 Interface
- View and Clear OSPFv3 Interface Statistics
- View the OSPFv3 Neighbor Table and Clear OSPFv3 Neighbors
- View the OSPFv3 Link State Database
- Configure the OSPFv3 Virtual Link
- Configure OSPFv3 Route Redistribution
- View the NSF OSPFv3 Summary
- Configure OSPF
- 7 Configure Multicast Routing
- Multicast Overview
- View the Multicast Mroute Table
- Add Mroute Static Multicast Entries
- Configure Global Multicast Settings
- Configure the Multicast Interface
- Configure Global Multicast DVMRP Settings
- Configure the DVMRP Interface
- Search for DVMRP Neighbors
- View the DVMRP Next Hop Settings
- View the Multicast DVMRP Prune
- View the DVMRP Route
- Configure Multicast IGMP Settings
- Configure PIM Settings
- Configure the Multicast PIM Global Settings
- Configure PIM SSM Settings
- Configure PIM Interface
- View the PIM Neighbor
- View the PIM Candidate Rendezvous Point
- View the PIM Neighbor
- Configure the PIM Candidate Rendezvous Point
- Configure the PIM Bootstrap Router Candidate
- Configure the PIM Static Rendezvous Point
- Configure Multicast Static Routes
- Configure the Multicast Admin Boundary
- Configure IPv6 Multicast Settings
- View the IPv6 Multicast Mroute Table
- Configure the IPv6 PIM Global Settings
- Configure IPv6 PIM SSM
- Configure the IPv6 PIM Interface
- View the IPv6 PIM Neighbor
- Configure the IPv6 PIM Candidate Rendezvous Point
- Configure the IPv6 PIM Bootstrap Router Candidate Settings
- Configure the IPv6 PIM Static Rendezvous Point
- Configure IPv6 MLD Global Settings
- Configure the IPv6 MLD Routing Interface
- View IPv6 MLD Routing Interface Statistics
- View the IPv6 MLD Groups
- View and Clear IPv6 MLD Traffic
- Configure the IPv6 MLD Proxy Interface
- View IPv6 MLD Proxy Interface Statistics
- View the IPv6 MLD Proxy Membership
- Configure IPv6 Multicast Static Routes
- Multicast Overview
- 8 Configure Quality of Service
- 9 Manage Switch Security
- Manage User Accounts and Passwords
- Manage the RADIUS Server Settings
- Manage the TACACS Settings
- Configure Authentication Lists
- View Login Sessions
- Manage HHTP, HTTPS, and SSH Access
- Configure Telnet Access
- Configure Console Port Access
- Configure Denial of Service Settings
- Configure Access Control Settings
- Manage Port Authentication
- Control Traffic With MAC Filtering
- Configure Port Security and Private Groups
- Configure Protect Ports
- Set Up Private VLANs
- Manage the Storm Control Settings
- Configure DHCP Snooping
- Configure IP Source Guard Interfaces
- Configure Dynamic ARP Inspection
- Set Up Captive Portals
- Set Up and Manage Access Control Lists
- Use the ACL Wizard to Create a Simple ACL
- Configure an ACL Based on Destination MAC Address
- Use the ACL Wizard to Complete the Destination MAC ACL
- Configure a Basic MAC ACL
- Configure MAC ACL Rules
- Configure MAC Binding
- View and Delete MAC ACL Bindings in the MAC Binding Table
- Configure an IP ACL
- Configure Rules for an IP ACL
- Configure Rules for an Extended IP ACL
- Configure an IPv6 ACL
- Configure IPv6 Rules
- Configure IP ACL Interface Bindings
- View and Delete IP ACL Bindings in the IP ACL Binding Table
- Configure VLAN ACL Bindings
- 10 Monitor the Switch and Network
- 11 Maintenance and Troubleshooting
- A Configuration Examples
- B Default Settings
- C Acronyms and Abbreviations
M4300 Intelligent Edge Series Fully Managed Stackable Switches
Configure OSPF and OSPFv3 User Manual363
An opaque LSA is used for flooding user-defined information within an OSPF router
domain.
9. When the number of nondefault external LSAs exceeds a configured limit, the router enters
an overflow state as defined in RFC 1765.
Use the Exit Overflow Interval field to specify how long in seconds OSPF must wait
before attempting to leave overflow state. In overflow state, OSPF cannot originate
nondefault external LSAs. If the Exit Overflow Interval is 0, OSPF does not leave the
overflow state until it is disabled and reenabled.
The range is 0 to 2,147,483,647
seconds. The default is 0.
10. Configure the SPF Delay T
ime.
This is the number of seconds from when OSPF receives a topology change to the start
of the next SPF calculation. Delay
Time is an integer from 0 to 65535 seconds. The
default is 5 seconds. A value of 0 means that there is no delay; that is, the SPF
calculation is started upon a topology change.
11. Configure the SPF Hold T
ime.
This is the minimum time in seconds between two consecutive SPF calculations. The
range is 0 to 65,535 seconds.
The default time is 10 seconds. A value of 0 means that
there is no delay; that is, two SPF calculations can be done, one immediately after the
other.
12. Use the External LSDB Limit field to set the number of the external LSDB limit for OSPF
.
If the value is –1, then there is no limit. When the number of nondefault AS-external-LSAs
in a router
’s link state database reaches the external LSDB limit, the router enters
overflow state. The router never holds more than the external LSDB limit none-default
AS-external-LSAs in the database. The external LSDB limit must be set identically in all
routers attached to the OSPF backbone and/or any regular OSPF area. The range for the
External LSDB Limit field is –1 to 2147483647. The default value is –1.
13. Use the Default Metric field to set a default for the metric of redistributed routes.
This field is blank if a default metric was not configured. The range of valid values is 1 to
16777214.
The default value is 0.
14. Use the Maximum Paths field to set the number of paths that OSPF can report for a given
destination.
The range of valid values is 1 to 16. The default value is 4.
15. Configure the AutoCost Reference Bandwidth to control how OSPF calculates link cost.
Specify the reference bandwidth in megabits per second. Unless a link cost is configured,
the link cost is computed by dividing the reference bandwidth by the interface bandwidth.
The range is 1 to 4294967.
The default is 100.
16. In the Default Passive Setting field, select Enable or Disable from the list to configure the
global passive mode setting for all OSPF interfaces.