Allied Telesis AT-9924SP-30, X900-48FE-N, AT-9924T/4SP-A-20, AT-8948 manual Example 2 a Double Ring

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Example 2: A Double Ring

Example 2: A Double Ring

This example adds to the previous ring by making two domains, as shown in the following

diagram.

 

 

 

 

Master

 

 

 

Master

Node

 

 

 

Node

(A)

port 1:

 

port 4:

(C)

 

primary

 

primary

 

 

port 2:

 

port 5:

 

 

secondary

port 1

secondary

 

 

 

 

 

 

port 4

 

 

 

Domain 1

 

Domain 2

 

 

control VLAN: 1000

 

control VLAN: 40

 

 

data VLAN: 2

 

data VLAN: 50

 

 

 

port 2

 

 

 

 

port 5

 

 

 

port 1

Transit

port 4

 

 

Node

 

 

 

 

 

 

 

(E)

 

 

 

port 2

 

port 5

 

Transit

 

 

 

Transit

Node

 

 

 

Node

(B)

 

 

 

(D)

 

 

 

 

epsr-example-double-ring

1.Configure the master node (switch A) for domain 1

The master node for domain 1 is the same as in the previous example (except that the domain has been renamed).

create vlan=vlan1000 vid=1000

add vlan=1000 port=1-2 frame=tagged create vlan=vlan2 vid=2

add vlan=2 port=1-2 frame=tagged delete vlan=1 port=1-2

create epsr=domain1 mode=master controlvlan=vlan1000 primaryport=1 add epsr=domain1 datavlan=vlan2

enable epsr=domain1

Page 14 AlliedWare™ OS How To Note: EPSR

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Contents Introduction What information will you find in this document?Which products and software versions does it apply to? How Epsr Works Epsr ComponentsEstablishing a Ring Recovering from a Fault Fault in a link or a transit nodeFault in the master node Transit Nodes with One Port Down Restoring Normal OperationMaster Node Transit Nodes with Both Ports DownHow To Configure Epsr Configuring EpsrEnable Epsr Iii. Remove the ring ports from the default VlanIv. Configure the Epsr domain Configure other ports and protocols as requiredModifying the Control Vlan Configure the Master Node a Example 1 a Basic RingCreate the Epsr domain Configure the Transit Nodes B and CRemove the ring ports from the default Vlan Add the data Vlan to the domainCreate epsr=test mode=transit controlvlan=vlan1000 Configure the master node switch a for domain Example 2 a Double RingConfigure the master node switch C for domain Configure EpsrConfigure the data Vlan for domain Configure the master node switch a for the Epsr domain Example 3 Epsr and RstpRemove the STP VLAN’s ports from the default Vlan Configure switch E for Epsr and Rstp Example 4 Epsr with Nested VLANs Epsr DomainConfigure the Epsr control Vlan Configure client switch G connected to transit node C Configure client switch E connected to the master nodeConfigure client switch F connected to transit node B Configure client switch H connected to transit node DExample 5 Epsr with management stacking Configure stacking on the first transit node host2 Configure stacking on the second transit node host3Configure the other VLANs on the stacked switches Configure Epsr on the stacked switchesConfigure the AT-TN7100 iMAP as Master Node Example 6 Epsr with an iMAPChecking the Master Node Configuration Following diagram shows the expected outputConfigure the AT-TN7100 iMAP as a Transit Node Checking the Transit Node ConfigurationClassifiers and Hardware Filters LINKS-UPPorts and Recovery Times Igmp Snooping and Recovery Times Health Message PriorityEpsr State and Settings Epsr Information Name Domain1 Snmp Traps Counters Master Node Node a Debug Output DebuggingLink Down Between Master Node and Transit Node Master node sends Health messagesMaster node continues sending Health messages Primary port goes downMaster node transmits a Ring-Down-Flush-FDB message Primary port comes back up Hello timer expiresHello timer expires again Master node returns the ring to a state of Complete Master node receives the Ring-Up-Flush-FDB message on portMaster node transmits and receives Health messages Transit Node Node B Debug Output Transit node receives Health messagesPort 1 on the transit node goes down Transit node receives a Ring-Down-Flush-FDB messagePort 1 comes back up Transit node receives a Health messageTransit node receives a Ring-Up-Flush-FDB message 252 Link Down Between Two Transit Nodes Link between the two transit nodes goes down Master node receives a second Link-Down message Master node receives a Health message 51 AlliedWare OS How To Note Epsr 375 53 AlliedWare OS How To Note Epsr Transit node sends a Link-Down message Link comes back up Transit node receives another Health messageTransit node receives a Ring-Up-Flush-FDB message

AT-9924SP-30, AT-9924T-40, AT-8948, AT-9924T/4SP-A-20, X900-48FE-N specifications

Allied Telesis is a leading provider of networking solutions, renowned for its innovative technologies and high-performance networking equipment. Among its extensive product lineup, the X900-48FE-N, AT-9924T-40, AT-8948, AT-9924T/4SP-A-20, and AT-9924SP-30 stand out for their remarkable features and capabilities.

The X900-48FE-N is a robust layer 2/3 managed switch that features 48 Fast Ethernet ports. This model is particularly known for its energy efficiency and reliability, making it a suitable choice for enterprises with demanding networking needs. It supports a wide range of Layer 2 Ethernet switching technologies, including VLANs, Spanning Tree Protocol (STP), and Link Aggregation Control Protocol (LACP), which enhances network reliability and efficiency.

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The AT-9924T/4SP-A-20 offers a combination of 24 Gigabit Ethernet ports and 4 SFP slots to extend network capabilities through fiber connections. It is particularly well-suited for environments requiring high bandwidth and flexible connectivity. Its compact design makes it an excellent choice for data centers and enterprise networks.

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In summary, these Allied Telesis models showcase advanced features, network reliability, and versatile management options, making them critical components for efficient and scalable networking solutions.