Setup Guide
dellNetFpStatsPerP
gTable
This table fetches the Allocated Min cells, Shared cells, and Headroom cells per Priority Group, the mode in which
the buer cells are allocated — Static or Dynamic and the Used Min Cells, Shared cells and Headroom cells per
Priority Group. The table fetches a value of 0 if the mode of allocation is Static and a value of 1 if the mode of
allocation is Dynamic. This table lists thestack-unit number, port number and priority group number.
dellNetPfcPerPrioTa
ble
This table fetches the number of PFC frames transmitted (PFC Requests) and the number of PFC frames
received (PFC Indications) per priority on a per port basis. This table lists the stack-unit index, port number and
priority.
Performing PFC Using DSCP Bits Instead of 802.1p
Bits
Priority based Flow Control (PFC) is currently supported on Dell EMC Networking OS for tagged packets based on the packet Dot1p. In
certain data center deployments, VLAN conguration is avoided on the servers and all packets from the servers are untagged. These
packets will carry IP header and can be dierentiated based on the DSCP elds they carry on the server facing switch ports. Requirement
is to classify these untagged packets from the server based on their DSCP and provide PFC treatment.
Dell EMC Networking OS Releases 9.3(0.0) and earlier provide CLI support to specify the priorities for which PFC is enabled on each port.
This feature is applicable only for the tagged packets based on the incoming packet Dot1p and Dot1p based queue classication. This
document will discuss the congurations required to support PFC for untagged packets based on incoming packet DSCP.
For the tagged packets, Queue is selected based on the incoming Packet Dot1p. When PFC frames for a specic priority is received from
the peer switch, the queue corresponding to that Dot1p is halted from scheduling on that port, thus honoring the PFC from the peer. If a
queue is congested due to packets with a specic Dot1p and PFC is enabled for that Dot1p, switch will transit out PFC frames for that
Dot1p. The packet Dot1p to Queue mapping for classication on the ingress must be same as the mapping of Dot1p to the Queue to be
halted on the egress used for PFC honoring. Dell EMC Networking OS ensures that these mappings are identical. This section discusses
the Dell EMC Networking OS congurations needed for above PFC generation and honoring mechanism to work for the untagged packets.
PRIORITY to PG mapping (PRIO2PG) is on the ingress for each port. By default, all priorities are mapped to PG7. A priority for which PFC
has to be generated is assigned to a PG other than PG7 (say PG6) and buer watermark is set on PG6 so as to generate PFC.
In ingress, the buers are accounted at per PG basis and would indicate the number of the packets that has ingress this port PG but still
queued up in egress pipeline. However, there is no direct mapping between the PG and Queue.
Packet is assigned an internal priority on the ingress pipeline based on the queue to which it is destined. This Internal-priority to Queue
mapping has been modied and enhanced as follows for the device:
Table 21. Priority to Queue Mapping
Internal-priority Queue
0 2
1 0
2 1
3 3
4 4
5 5
6 6
7 7
Data Center Bridging (DCB) 277