User's Manual
Table Of Contents
- 8-Port Multi-Gigabit Smart Managed Pro Switch with Two 10G Ports
- Contents
- 1 Get Started
- 2 Configure System Information
- View and Configure the Switch Management Settings
- View or Define System Information and View Software Versions
- View the System CPU Status
- View USB Device Information
- Configure the IPv4 Address for the Network Interface and Management VLAN
- Configure the IPv6 Address for the Network Interface
- View the IPv6 Network Neighbor
- Configure the Time Settings
- Configure DNS Settings
- Configure Green Ethernet Settings
- Use the Device View
- Configure Power over Ethernet
- Configure SNMP
- Configure LLDP
- Configure DHCP Snooping
- Set Up PoE Timer Schedules
- View and Configure the Switch Management Settings
- 3 Configure Switching
- Configure Port Settings and Flow Control
- Configure Link Aggregation Groups
- Configure VLANs
- Configure VLAN Settings
- Configure VLAN Membership
- View VLAN Status
- Configure Port PVID Settings
- Configure MAC-Based VLAN Groups
- Manually Add Members to or Remove Them From a MAC-Based VLAN Group
- Configure Protocol-Based VLAN Groups
- Manually Add Members to or Remove Them From a Protocol-Based VLAN Group
- Configure GARP Switch Settings
- Configure GARP Ports
- Configure a Voice VLAN
- Configure Auto-VoIP
- Configure Spanning Tree Protocol
- Configure Multicast
- View the MFDB Table
- View the MFDB Statistics
- Configure Auto-Video
- IGMP Snooping Overview
- Configure the Global IGMP Snooping Settings
- View the IGMP Snooping Table
- Configure IGMP Snooping for VLANs
- Modify IGMP Snooping Settings for a VLAN
- Disable IGMP Snooping on a VLAN and Remove It From the Table
- IGMP Snooping Querier Overview
- Configure IGMP Snooping Querier
- Configure IGMP Snooping Querier for VLANs
- Display the IGMP Snooping Querier for VLAN Status
- MLD Snooping Overview
- Configure the Global MLD Snooping Settings
- Configure MLD Snooping for a VLAN
- View, Search, and Manage the MAC Address Table
- 4 Configure Routing
- IP Routing Overview
- Configure IP Settings
- Configure VLAN Routing
- Manage IPv4 Routes
- Configure Address Resolution Protocol
- Configure IPv6
- Configure IPv6 Global Settings
- Add a Static IPv6 Route
- Change the Preference for a Static IPv6 Route
- Remove a Static IPv6 Route
- View the IPv6 Route Table
- Configure IPv6 VLAN Interface Settings
- Add an IPv6 Global Address to an IPv6 VLAN
- Change the Settings for an IPv6 Global Address on an IPv6 VLAN
- Remove an IPv6 Global Address From an IPv6 VLAN
- Add an IPv6 Prefix for Advertisement on an IPv6 VLAN
- Change the Settings for an IPv6 Prefix for Advertisement on an IPv6 VLAN
- Remove an IPv6 Prefix From an IPv6 VLAN
- View IPv6 Statistics for an Interface
- View or Clear the IPv6 Neighbor Table
- 5 Configure Quality of Service
- 6 Manage Device Security
- Management Security Settings
- Configure Management Access
- Configure Port Authentication
- Set Up Traffic Control
- Configure Access Control Lists
- Use the ACL Wizard to Create a Simple ACL
- Configure a Basic MAC ACL
- Configure MAC ACL Rules
- Configure MAC Bindings
- View or Delete MAC ACL Bindings in the MAC Binding Table
- Configure an IP ACL
- Configure Rules for a Basic IP ACL
- Configure Rules for an Extended IP ACL
- Configure an IPv6 ACL
- Configure IPv6 Rules
- Configure IP ACL Interface Bindings
- View or Delete IP ACL Bindings in the IP ACL Binding Table
- 7 Monitor the System
- 8 Maintain the Switch and Perform Troubleshooting
- A Configuration Examples
- B Hardware Specifications and Default Settings
Smart Managed Pro Switches MS510TX and MS510TXPP
Configuration Examples User Manual346
VLANs to follow separate paths, each based on an independent Multiple Spanning Tree
Instance (MSTI), within Multiple Spanning Tree (MST) regions composed of LANs and or
MSTP bridges. These regions and the other bridges and LANs are connected into a single
Common Spanning Tree (CST). (IEEE DRAFT P802.1s/D13)
MSTP connects all bridges and LANs with a single Common and Internal Spanning Tree
(CIST). The CIST supports the automatic determination of each MST region, choosing its
maximum possible extent. The connectivity calculated for the CIST provides the CST for
interconnecting these regions, and an Internal Spanning Tree (IST) within each region. MSTP
ensures that frames with a given VLAN ID are assigned to one and only one of the MSTIs or
the IST within the region, that the assignment is consistent among all the networking devices
in the region, and that the stable connectivity of each MSTI and IST at the boundary of the
region matches that of the CST. The stable active topology of the bridged LAN with respect to
frames consistently classified as belonging to any given VLAN thus simply and fully connects
all LANs and networking devices throughout the network, though frames belonging to
different VLANs can take different paths within any region, per IEEE DRAFT P802.1s/D13.
All bridges, whether they use STP, RSTP, or MSTP, send information in configuration
messages through Bridge Protocol Data Units (BPDUs) to assign port roles that determine
each port’s participation in a fully and simply connected active topology based on one or
more spanning trees. The information communicated is known as the spanning tree priority
vector. The BPDU structure for each of these different protocols is different. An MSTP bridge
transmits the appropriate BPDU depending on the received type of BPDU from a particular
port.
An MST region comprises of one or more MSTP bridges with the same MST configuration
identifier, using the same MSTIs, and without any bridges attached that cannot receive and
transmit MSTP BPDUs. The MST configuration identifier includes the following components:
1. Configuration identifier format selector
2. Configuration name
3. Configuration revision level
4. Configuration digest: 16-byte signature of type HMAC-MD5 created from the MST
Configuration Table (a VLAN ID to MSTID mapping)
Because multiple instances of spanning tree exist, an MSTP state is maintained on a
per-port, per-instance basis (or on a per-port, per-VLAN basis, as any VLAN can be in one
and only one MSTI or CIST). For example, port A can be forwarding for instance 1 while
discarding for instance 2. The port states changed since IEEE 802.1D specification.
To support multiple spanning trees, configure an MSTP bridge with an unambiguous
assignment of VLAN IDs (VIDs) to spanning trees. For such a configuration, ensure the
following:
1. The allocation of VIDs to filtering identifiers (FIDs) is unambiguous.
2. Each FID that is supported by the bridge is allocated to exactly one spanning tree instance.
The combination of VID to FID and then FID to MSTI allocation defines a mapping of VIDs to
spanning tree instances, represented by the MST Configuration Table.