what three ways will the network design handle the frag…

Refer to the exhibit.

You are planning the design of an encrypted WAN. IP packets will be transferred over encrypted
GRE tunnels between routers B and C. The packet size is limited to a maximum of 1500 bytes
inside the WAN between routers B and C. If endpoint 1 tries to send 1500-byte IP packets to
endpoint 2, in what three ways will the network design handle the fragmentation in three
different possible network configurations? (Choose three.)

Refer to the exhibit.

You are planning the design of an encrypted WAN. IP packets will be transferred over encrypted
GRE tunnels between routers B and C. The packet size is limited to a maximum of 1500 bytes
inside the WAN between routers B and C. If endpoint 1 tries to send 1500-byte IP packets to
endpoint 2, in what three ways will the network design handle the fragmentation in three
different possible network configurations? (Choose three.)

A.
When router B fragments packets after the encryption, router C must reassemble these
fragmented packets.

B.
When router B fragments packets before the encryption, router C must reassemble these
fragmented packets.

C.
When router B fragments packets after the encryption, the endpoint 2 must reassemble
these fragmented packets.

D.
When router B fragments packets before the encryption, endpoint 2 must reassemble these
fragmented packets.

E.
When router A fragments packets, router C must reassemble these fragmented packets.

F.
When router A fragments packets, endpoint 2 must reassemble these fragmented packets.



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