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AR500, AR510, and AR530 V200R007 CLI-based Configuration Guide - Ethernet Switching

This document describes the configuration of Ethernet services, including configuring transparent bridge, MAC table, link aggregation, VLANs, STP/RSTP/MSTP, and so on.The document provides the configuration procedures and configuration examples to illustrate the service configuration methods and application scenario.
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Basic MSTP Concepts

Basic MSTP Concepts

MSTP Network Hierarchy

As shown in Figure 12-3, the MSTP network consists of one or more MST regions. Each MST region contains one or more MSTIs. An MSTI is a tree network consisting of switching devices running STP, RSTP, or MSTP.

Figure 12-3   MSTP network hierarchy

MST Region

An MST region contains multiple switching devices and network segments between them. The switching devices of one MST region have the following characteristics:
  • MSTP-enabled
  • Same region name
  • Same VLAN-MSTI mappings
  • Same MSTP revision level

A LAN can comprise several MST regions that are directly or indirectly connected. Multiple switching devices can be grouped into an MST region by using MSTP configuration commands.

As shown in Figure 12-4, the MST region D0 contains the switching devices S1, S2, S3, and S4, and has three MSTIs.

Figure 12-4  MST region

VLAN Mapping Table

The VLAN mapping table is an attribute of the MST region. It describes mappings between VLANs and MSTIs.

As shown in Figure 12-4, the mappings in the VLAN mapping table of the MST region D0 are as follows:
  • VLAN 1 is mapped to MSTI 1.
  • VLAN 2 and VLAN 3 are mapped to MSTI 2.
  • Other VLANs are mapped to MSTI 0.

Regional Root

Regional roots are classified into Internal Spanning Tree (IST) and MSTI regional roots.

In the region B0, C0, and D0 on the network shown in Figure 12-6, the switching devices closest to the Common and Internal Spanning Tree (CIST) root are IST regional roots.

An MST region can contain multiple spanning trees, each called an MSTI. An MSTI regional root is the root of the MSTI. On the network shown in Figure 12-5, each MSTI has its own regional root.

Figure 12-5   MSTI

MSTIs are independent of each other. an MSTI can correspond to one or more VLANs, but a VLAN can be mapped to only one MSTI.

Master Bridge

The master bridge is the IST master, which is the switching device closest to the CIST root in a region, for example, S1 shown in Figure 12-4.

If the CIST root is in an MST region, the CIST root is the master bridge of the region.

CIST Root

Figure 12-6  MSTP network

On the network shown in Figure 12-6, the CIST root is the root bridge of the CIST. The CIST root is a device in A0.

CST

A Common Spanning Tree (CST) connects all the MST regions on a switching network.

If each MST region is considered a node, the CST is calculated by using STP or RSTP based on all the nodes.

As shown in Figure 12-6, the MST regions are connected to form a CST.

IST

An IST resides within an MST region.

An IST is a special MSTI with the MSTI ID being 0, called MSTI 0.

An IST is a segment of the CIST in an MST region.

As shown in Figure 12-6, the switching devices in an MST region are connected to form an IST.

CIST

A CIST, calculated by using STP or RSTP, connects all the switching devices on a switching network.

As shown in Figure 12-6, the ISTs and the CST form a complete spanning tree, the CIST.

SST

A Single Spanning Tree (SST) is formed in either of the following situations:
  • A switching device running STP or RSTP belongs to only one spanning tree.
  • An MST region has only one switching device.

As shown in Figure 12-6, the switching device in B0 forms an SST.

Port Role

Based on RSTP, MSTP has two additional port types. MSTP ports can be root ports, designated ports, alternate ports, backup ports, edge ports, master ports, and regional edge port.

The functions of root ports, designated ports, alternate ports, and backup ports have been defined in RSTP. Table 12-2 lists all port roles in MSTP.

NOTE:

Except edge ports, all ports participate in MSTP calculation.

A port can play different roles in different spanning tree instances.

Table 12-2  Port roles

Port Role

Description

Root port

A root port is the non-root bridge port closest to the root bridge. Root bridges do not have root ports.

Root ports are responsible for sending data to root bridges.

As shown in Figure 12-7, S1 is the root; CP1 is the root port on S3; BP1 is the root port on S2.

Designated port

The designated port on a switching device forwards BPDUs to the downstream switching device.

As shown in Figure 12-7, AP2 and AP3 are designated ports on S1; CP2 is a designated port on S3.

Alternate port

  • From the perspective of sending BPDUs, an alternate port is blocked after a BPDU sent by another bridge is received.
  • From the perspective of user traffic, an alternate port provides an alternate path to the root bridge. This path is different than using the root port.

As shown in Figure 12-7, BP2 is an alternate port.

Backup port

  • From the perspective of sending BPDUs, a backup port is blocked after a BPDU sent by itself is received.
  • From the perspective of user traffic, a backup port provides a backup/redundant path to a segment where a designated port already connects.

As shown in Figure 12-7, CP3 is a backup port.

Master port

A master port is on the shortest path connecting MST regions to the CIST root.

BPDUs of an MST region are sent to the CIST root through the master port.

Master ports are special regional edge ports, functioning as root ports on ISTs or CISTs and master ports in instances.

As shown in Figure 12-8, S1, S2, S3, and S4 form an MST region. AP1 on S1, being the nearest port in the region to the CIST root, is the master port.

Regional edge port

A regional edge port is located at the edge of an MST region and connects to another MST region or an SST.

During MSTP calculation, the roles of a regional edge port in the MSTI and the CIST instance are the same. If the regional edge port is the master port in the CIST instance, it is the master port in all the MSTIs in the region.

As shown in Figure 12-8, AP1, DP1, and DP2 in an MST region are directly connected to other regions, and therefore they are all regional edge ports of the MST region.

AP1 is a master port in the CIST. Therefore, AP1 is the master port in every MSTI in the MST region.

Edge port

An edge port is located at the edge of an MST region and does not connect to any switching device.

Generally, edge ports are directly connected to terminals.

Figure 12-7  Root port, designated port, alternate port, and backup port

Figure 12-8  Master port and regional edge port

MSTP Port Status

Table 12-3 lists the MSTP port status, which is the same as the RSTP port status.

Table 12-3  Port status

Port Status

Description

Forwarding

A port in the Forwarding state can send and receive BPDUs as well as forward user traffic.

Learning

A port in the Learning state learns MAC addresses from user traffic to construct a MAC address table.

In the Learning state, the port can send and receive BPDUs, but not forward user traffic.

Discarding

A port in the Discarding state can only receive BPDUs.

There is no necessary link between the port status and the port role. Table 12-4 lists the relationships between port roles and port status.

Table 12-4  Relationships between port roles and port status

Port Status

Root Port/Master Port

Designated Port

Regional Edge Port

Alternate Port

Backup Port

Forwarding

Yes

Yes

Yes

No

No

Learning

Yes

Yes

Yes

No

No

Discarding

Yes

Yes

Yes

Yes

Yes

Yes: The port supports this status. No: The port does not support this status.

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Updated: 2019-05-25

Document ID: EDOC1000097279

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