Figure 3 – H3C Technologies H3C S6300 Series Switches User Manual

4

•

Compute a TRILL distribution tree for each VLAN according to the LSDB.

•

Use the TRILL distribution tree to guide the forwarding of multidestination frames, which include
multicast, broadcast, and unknown unicast frames in the VLAN.

As shown in

Figure 3

, when a multicast frame from VLAN 10 enters the TRILL network, RB 1, which is an

ingress RB, encapsulates the multicast frame into a TRILL frame. In the frame, the egress RB is RB 2, the

root bridge of the TRILL distribution tree for VLAN 10. When the frame arrives at the root bridge, it is

distributed throughout the TRILL distribution tree. Then, the TRILL frame is de-encapsulated by RB 3 and
sent to the destination station S2. Because the network segment where RB 4 resides does not have a

receiver of this frame, RB 4 drops the frame.

Figure 3 Multicast frame forwarding flow

TRILL selects distribution trees for forwarding multicast, broadcast, and unknown unicast frames based on

the VLANs to which the frames belong. Because the topologies of TRILL distribution trees are different,

traffic can be load shared. However, equal-cost links are not used for load sharing.
When N equal-cost links exist in the network, each TRILL distribution tree selects the link with the largest

pseudonode ID for forwarding packets. As shown in

Figure 4

, two equal-cost links exist between RB 1

and RB 3. Assume the link directly connecting RB 1 to RB 3 has the largest pseudonode ID. Both the TRILL

distribution tree rooted at RB 3 and the TRILL distribution tree rooted at RB 4 select the link. For more
information about pseudonode IDs, see Layer 3—IP Routing Configuration Guide.

VLAN 10

VLAN 10

S1

S2

VLAN 200

TRILL network

RB 1

Ethernet frame

Payload

Inner VLAN = 10

Inner S-MAC = S1

Inner D-MAC = Multi

TRILL frame

Ingress RB = RB 1

Outer VLAN = 200

Egress RB = RB 2

Outer S-MAC = RB 1

Outer D-MAC = All RBs

Payload

Inner VLAN = 10

Inner S-MAC = S1

Inner D-MAC = Multi

TRILL frame

Ingress RB = RB 1

Outer VLAN = 200

Egress RB = RB 2

Outer S-MAC = RB 2

Outer D-MAC = All RBs

Payload

Inner VLAN = 10

Inner S-MAC = S1

Inner D-MAC = Multi

RB 4

RB 3

Ethernet frame

Payload

Inner VLAN = 10

Inner S-MAC = S1

Inner D-MAC = Multi

RB 2

Multicast frame

Distribution tree
of VLAN 10

Root bridge of
distribution tree

Leaf of
distribution tree