Events in example operation

The following describes the events for switchover in Figure 1. This configuration uses operational groups. The nodes of interest are A, B, and C listed in Table 1.

  1. A single G.8031 SAP that represents the control for a group of G.8031 SAPs is configured on the CE.

    • The Control SAP does not normally carry any data; however, it can if needed.

    • An Epipe service is provisioned on each PE node (B/C), only for control (no customer traffic flows over this service).

    • On CE A, there is an Epipe Ethernet tunnel (G.8031) control SAP.

    • The Ethernet tunnel has two paths:

      • one facing B

      • one facing C

    • PE B has an Epipe control SAP that is controlled by the BGP-MH site and PE C also has the corresponding SAP that is controlled by the same BGP-MH site.

  2. At node A, there are MEPs configured under each path that check connectivity on the A-B and A-C links. At nodes B and C, there is a MEP configured under their respective SAPs with fault propagation enabled with the use of ifStatusTlv.

  3. Initially, assume there is no link failure:

    • SAPs on node A have ifStatusTLV No Fault to B and C (no MEP fault detected at A); see Table 1 row 1 (Fault is signaled in the other direction PE to CE).

    • BGP-MH determines which is the master or Designated Forwarder (DF).

    • Assume SAP on node B is picked as the DF.

    • The MEP at Path A-B signals ifStatusTlv No Fault. Because of this signal, the MEP under the node A path facing node B detects the path to node B is usable by the path manager on A.

  4. At the CE node A, Path A-C becomes standby and is brought down; see Table 1 row 2.

    • Because fault propagation is enabled under the SAP node C MEP, and ifStatusTLV is operationally Down, the Path remains in the present state.

    • Under these conditions, the MEP under the node A path facing node C detects the fault and informs Ethernet manager on node A.

    • Node A then considers bringing path A-C down.

    • ET port remains up ecause the path A-B is operationally up. This is a stable state.

  5. On nodes B and C, each Epipe-controlled SAP is the sole (controlling) member of an operational group.

    • Other data SAPs may be configured for fate shared VLANs (Ethernet tunnels) and to monitor the control SAP.

    • The SAPs facing the CE node A share the fate of the control SAP and follow the operation.

  6. If there is a break in path A-B connectivity (CCM timeout or LOS on the port for link A-B), then on node A the path MEP detects connectivity failure and informs Ethernet tunnel manager; see Table 1 row 4.

  7. At this point, the Ethernet tunnel is down because both path A-B and path A-C are down.

  8. The CE node A Ethernet tunnel goes down.

  9. At node B on the PE, the SAP also detects the failure and the propagation of fault status goes to BGP-MH; see Table 1 row 4.

  10. This in turn feeds into BGP-MH, which deems the site non-DF and makes the site standby.

  11. Because the SAP at node B is standby, the service manager feeds this to CFM, which then propagates a Fault toward node A. This is a cyclic fault propagation. However, because path A-B is broken, the situation is stable; see Table 1 row 5.

  12. There is traffic loss during the BGP-MH convergence.

    • Load sharing mode is recommended when using a 7450 as a CE node A device.

    • BGP-MH signals that node C is now the DF; see Table 1 row 3.

  13. BGP-MH on node C elects a SAP and brings it up.

  14. ET port transitions to port A-C, and is operationally up. This is a stable state. The A-C SAPs monitoring the operational group on C transitions to operationally up.

Unidirectional failures: at point 6 the failure was detected at both ends. In the case of a unidirectional failure, CCM times out on one side.

  1. In the case where the PE detects the failure, it propagates the failure to BGP-MH and the BGP-MH takes the site down causing the SAPs on the PE to signal a Fault to the CE.

  2. In the case where G.8031 on the CE detects the failure, it takes the tunnel down and signals a fault to the PE, and then the SAP propagates that to BGP-MH.