BUM traffic forwarding is based on egress PE filtering. Figure: EVPN E-Tree BUM egress filtering shows an example of EVPN E-Tree forwarding behavior for BUM traffic.
In Figure: EVPN E-Tree BUM egress filtering , BUM frames are handled as follows when they ingress PE or PE2:
If the BUM frame enters a root-ac, the frame follows regular EVPN data plane procedures.
If the BUM frame enters a leaf-ac, the frame handling is as follows:
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The frame is marked as leaf and forwarded or replicated to the egress IOM.
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At the egress IOM, the frame is flooded in the default multicast list subject to the following:
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Leaf entries are skipped when BUM traffic is forwarded. This prevents leaf-to-leaf BUM traffic forwarding.
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Traffic to remote BGP EVPN PEs is encapsulated with the EVPN label stack. If a leaf ESI label present for the far-end PE (L1 in Figure: EVPN E-Tree BUM egress filtering ), the leaf ESI label is added at the bottom of the stack; the remaining stack follows (including EVI label). If there is no leaf ESI label for the far-end egress PE, no additional label is added to the stack. This means that the egress PE does not have any E-Tree enabled service, but it can still work with the VPLS E-Tree service available in PE2.
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The BUM-encapsulated packet is received on the network ingress interface at the egress PE or PE1. The packet is processed as follows.
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A normal ILM lookup is performed for each label (including the EVI label) in the stack.
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Further label lookups are performed when the EVI label ILM lookup is complete. If the lookup yields a leaf label, all the leaf-acs are skipped when flooding to the default-multicast list at the egress PE.