Administrator Guide
Important FRRP Concepts
The following table lists some important FRRP concepts.
Concept Explanation
Ring ID Each ring has a unique 8-bit ring ID through which the ring is identied (for example, FRRP 101 and FRRP
202.
Control VLAN Each ring has a unique Control VLAN through which tagged ring health frames (RHF) are sent. Control
VLANs are used only for sending RHF, and cannot be used for any other purpose.
Member VLAN Each ring maintains a list of member VLANs. Member VLANs must be consistent across the entire ring.
Port Role Each node has two ports for each ring: Primary and Secondary. The Master node Primary port generates
RHFs. The Master node Secondary port receives the RHFs. On Transit nodes, there is no distinction
between a Primary and Secondary interface when operating in the Normal state.
Ring Interface State Each interface (port) that is part of the ring maintains one of four states”
• Blocking State — Accepts ring protocol packets but blocks data packets. LLDP, FEFD, or other Layer 2
control packets are accepted. Only the Master node Secondary port can enter this state.
• Pre-Forwarding State — A transition state before moving to the Forward state. Control trac is
forwarded but data trac is blocked. The Master node Secondary port transitions through this state
during ring bring-up. All ports transition through this state when a port comes up.
• Pre-Forwarding State — A transition state before moving to the Forward state. Control trac is
forwarded but data trac is blocked. The Master node Secondary port transitions through this state
during ring bring-up. All ports transition through this state when a port comes up.
• Disabled State — When the port is disabled or down, or is not on the VLAN.
Ring Protocol Timers
• Hello Interval — The interval when ring frames are generated from the Master node’s Primary interface
(default 500 ms). The Hello interval is congurable in 50 ms increments from 50 ms to 2000 ms.
• Dead Interval — The interval when data trac is blocked on a port. The default is three times the Hello
interval rate. The dead interval is congurable in 50 ms increments from 50 ms to 6000 ms.
Ring Status The state of the FRRP ring. During initialization/conguration, the default ring status is Ring-down
(disabled). The Primary and Secondary interfaces, control VLAN, and Master and Transit node information
must be congured for the ring to be up.
• Ring-Up — Ring is up and operational.
• Ring-Down — Ring is broken or not set up.
Ring Health-Check
Frame (RHF)
The Master node generates two types of RHFs. RHFs never loop the ring because they terminate at the
Master node’s secondary port.
• Hello RHF (HRHF) — These frames are processed only on the Master node’s Secondary port. The
Transit nodes pass the HRHF through without processing it. An HRHF is sent at every Hello interval.
• Topology Change RHF (TCRHF) — These frames contains ring status, keepalive, and the control and
member VLAN hash. The TCRHF is processed at each node of the ring. TCRHFs are sent out the
Master Node’s Primary and Secondary interface when the ring is declared in a Failed state with the
same sequence number, on any topology change to ensure that all Transit nodes receive it. There is no
periodic transmission of TCRHFs. The TCRHFs are sent on triggered events of ring failure or ring
restoration only.
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