— Exhibit —
user@router# show class-of-service
classifiers {
inet-precedence ipp-test {
import default;
forwarding-class best-effort {
loss-priority low code-points be;
}
forwarding-class expedited-forwarding {
loss-priority low code-points af21;
}
forwarding-class assured-forwarding {
loss-priority low code-points af11;
}
forwarding-class network-control {
loss-priority low code-points nc1;
}
}
}
interfaces {
ge-* {
scheduler-map map-test;
unit * {
classifiers {
inet-precedence ipp-test;
}
rewrite-rules {
inet-precedence ipp-rw-test;
inet-precedence default;
}
}
}
}
…
rewrite-rules {
inet-precedence ipp-rw-test {
forwarding-class best-effort {
loss-priority low code-point be;
loss-priority high code-point af21;
}
forwarding-class expedited-forwarding {
loss-priority high code-point af21;
loss-priority low code-point be;
}
forwarding-class assured-forwarding {
loss-priority low code-point af11;
loss-priority high code-point af11;
}
forwarding-class network-control {
loss-priority low code-point nc1;
loss-priority high code-point nc1;
}
}
}
user@router> show class-of-service
…
Code point type: inet-precedence
Alias Bit pattern
af11 001
af21 010
af31 011
af41 100
be 000
cs6 110
cs7 111
ef 101
nc1 110
nc2 111
— Exhibit —
Refer to the Exhibit.
Traffic with the IP precedence value af21 ingresses the router and should be rewritten with the
same value as it egresses; however, this traffic is rewritten to a different value.
Referring to the exhibit, what is the source of this problem?
A.
The BA classifier is assigning the traffic to the best-effort queue with a high loss priority.
B.
The BA classifier is assigning the traffic to the best-effort queue with a low loss priority.
C.
The BA classifier is assigning the traffic to the expedited forwarding queue with a high loss
priority.
D.
The BA classifier is assigning the traffic to the expedited forwarding queue with a low loss
priority.
Explanation: