HP A5120 EI Configuration Manual page 60

As shown in
the nodes on the two RRPP rings belong to the RRPP domain.
RRPP ring
A ring-shaped Ethernet topology is called an "RRPP ring". RRPP rings fall into two types: primary ring and
subring. You can configure a ring as either the primary ring or a subring by specifying its ring level. The
primary ring is of level 0, and a subring is of level 1. An RRPP domain contains one or multiple RRPP
rings, one serving as the primary ring and the others serving as subrings. A ring can be in one of the
following states:
Health state—All the physical links on the Ethernet ring are connected

Disconnect state—Some physical links on the Ethernet ring are broken

As shown in
to 0, and that of Ring 2 is set to 1. Ring 1 is configured as the primary ring, and Ring 2 is configured as
a subring.
Control VLAN and data VLAN
Control VLAN
1.
In an RRPP domain, a control VLAN is a VLAN dedicated to transferring Rapid Ring Protection Protocol
Data Units (RRPPDUs). On a device, the ports accessing an RRPP ring belong to the control VLANs of the
ring, and only such ports can join the control VLANs.
An RRPP domain is configured with two control VLANs: one primary control VLAN, which is the control
VLAN for the primary ring, and one secondary control VLAN, which is the control VLAN for subrings. All
subrings in the same RRPP domain share the same secondary control VLAN. After you specify a VLAN as
the primary control VLAN, the system automatically configures the VLAN whose ID is the primary control
VLAN ID plus one as the secondary control VLAN.
IP address configuration is prohibited on the control VLAN interfaces.
Data VLAN
2.
A data VLAN is a VLAN dedicated to transferring data packets. Both RRPP ports and non-RRPP ports can
be assigned to a data VLAN.
Node
Each device on an RRPP ring is a node. The role of a node is configurable. RRPP has the following node
roles:
Master node—Each ring has one and only one master node. The master node initiates the polling

mechanism and determines the operations to be performed after a change in topology.
Transit node—Transit nodes include all the nodes except the master node on the primary ring, and

all the nodes on subrings except the master nodes and the nodes where the primary ring intersects
with the subrings. A transit node monitors the state of its directly-connected RRPP links and notifies
the master node of any link state changes. Based on the link state changes, the master node
chooses the operations to be performed.
Edge node—A node residing on both the primary ring and a subring at the same time. An edge

node is a special transit node that serves as a transit node on the primary ring and an edge node
on the subring.
Assistant-edge node—A node residing on both the primary ring and a subring at the same time. An

assistant-edge node is a special transit node that serves as a transit node on the primary ring and
an assistant-edge node on the subring. This node works in conjunction with the edge node to detect
the integrity of the primary ring and to perform loop guard.
Figure 13, Domain 1 is an RRPP domain, including two RRPP rings: Ring 1 and Ring 2. All
Figure 13, Domain 1 contains two RRPP rings: Ring 1 and Ring 2. The level of Ring 1 is set
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