DP-1.7: One strict priority queue traffic test

Summary

Verify that DUT drops AF4, AF3, AF2, AF1, BE1 and BE0 before NC1.

Topology:
- 2 input interfaces and 1 output interface with the same port speed. The interface can be a physical interface or LACP bundle interface with the same aggregated speed.
```
  ATE port 1
      |
     DUT--------ATE port 3
      |
  ATE port 2
```
Traffic classes:
- We will use 7 traffic classes NC1, AF4, AF3, AF2, AF1, BE0 and BE1.
Traffic types:
- All the traffic tests apply to both IPv4 and IPv6 traffic.
Queue types:
- NC1 will have strict priority queues
  - AF4/AF3/AF2/AF1/BE1/BE0 will use WRR queues.
- NC1 and AF4 will have strict priority queues with NC1 having higher priority.
  - AF3, AF2, AF1, BE1 and BE0 will use WRR queues.
Test results should be independent of the location of interfaces. For example, 2 input interfaces and output interface could be located on
- Same ASIC-based forwarding engine
- Different ASIC-based forwarding engine on same line card
- Different ASIC-based forwarding engine on different line cards
Test results should be the same for port speeds 100G and 400G.
Counters should be also verified for each test case:
- /qos/interfaces/interface/output/queues/queue/state/transmit-pkts
- /qos/interfaces/interface/output/queues/queue/state/dropped-pkts
- transmit-pkts should be equal to the number of Rx pkts on Ixia port
- dropped-pkts should be equal to diff between the number of Tx and the number Rx pkts on Ixia ports
Latency:
- Should be < 100000ns

Connect DUT port-1 to ATE port-1, DUT port-2 to ATE port-2 and DUT port-3 to ATE port-3.
Configuration
- Configure strict priority queue for NC1.
- Configure WRR for AF4, AF3, AF2, AF1, BE1 and BE0 with weight 48, 12, 8, 4, 2 and 1 respectively.
NC1 vs AF4 traffic test
- Non-oversubscription traffic test case
Traffic class Interface1(line rate %) Interface2(line rate %) Rx from interface1(%) Rx from interface2(%)

NC1 0.1 0.7 100 100

AF4 45.1 54.1 100 100
- Oversubscription traffic test case
Traffic class Interface1(line rate %) Interface2(line rate %) Rx from interface1(%) Rx from interface2(%)

NC1 0.1 0.7 100 100

AF4 99.9 99.3 49.8 49.8
Repeat the above 2 test cases between traffic classes:
- NC1 vs AF3
- NC1 vs AF2
- NC1 vs AF1
- NC1 vs BE1
- NC1 vs BE0

Traffic class	Interface1(line rate %)	Interface2(line rate %)	Rx from interface1(%)	Rx from interface2(%)
NC1	0.1	0.7	100	100
AF4	45.1	54.1	100	100

Traffic class	Interface1(line rate %)	Interface2(line rate %)	Rx from interface1(%)	Rx from interface2(%)
NC1	0.1	0.7	100	100
AF4	99.9	99.3	49.8	49.8

Classifiers
- /qos/classifiers/classifier/config/name
- /qos/classifiers/classifier/config/type
- /qos/classifiers/classifier/terms/term/actions/config/target-group
- /qos/classifiers/classifier/terms/term/conditions/ipv4/config/dscp-set
- qos/classifiers/classifier/terms/term/conditions/ipv6/config/dscp-set
- /qos/classifiers/classifier/terms/term/config/id
Forwarding Groups
- /qos/forwarding-groups/forwarding-group/config/name
- /qos/forwarding-groups/forwarding-group/config/output-queue
Queue
- /qos/queues/queue/config/name
Interfaces
- /qos/interfaces/interface/input/classifiers/classifier/config/name
- /qos/interfaces/interface/output/queues/queue/config/name
- /qos/interfaces/interface/output/scheduler-policy/config/name
Scheduler policy
- /qos/scheduler-policies/scheduler-policy/config/name
- /qos/scheduler-policies/scheduler -policy/schedulers/scheduler/config/priority
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/config/sequence
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/config/type
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/inputs/input/config/id
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/inputs/input/config/input-type
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/inputs/input/config/queue
- /qos/scheduler-policies/scheduler-policy/schedulers/scheduler/inputs/input/config/weight