Cisco Systems EA6500 Manual De Usuario
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Catalyst 6500 Series Switch Cisco IOS Software Configuration Guide—Release 12.1 E
78-14099-04
Chapter 31 Configuring PFC QoS
Understanding How PFC QoS Works
Attaching Policy Maps
You can configure each ingress LAN port for either physical port-based PFC QoS (default) or
VLAN-based PFC QoS (see the
VLAN-based PFC QoS (see the
) and attach a policy map to the selected port (see the
).
On ports configured for port-based PFC QoS, you can attach a policy map to the ingress LAN port as
follows:
follows:
•
On a nontrunk ingress LAN port configured for port-based PFC QoS, all traffic received through the
port is classified, marked, and policed according to the policy map attached to the port.
port is classified, marked, and policed according to the policy map attached to the port.
•
On a trunking ingress LAN port configured for port-based PFC QoS, traffic in all VLANs received
through the port is classified, marked, and policed according to the policy map attached to the port.
through the port is classified, marked, and policed according to the policy map attached to the port.
On a nontrunk ingress LAN port configured for VLAN-based PFC QoS, traffic received through the port
is classified, marked, and policed according to the policy map attached to the port’s VLAN.
is classified, marked, and policed according to the policy map attached to the port’s VLAN.
On a trunking ingress LAN port configured for VLAN-based PFC QoS, traffic received through the port
is classified, marked, and policed according to the policy map attached to the traffic’s VLAN.
is classified, marked, and policed according to the policy map attached to the traffic’s VLAN.
You can attach policy maps to OSM ports.
Egress CoS and ToS Values
PFC QoS associates CoS and ToS values with traffic as specified by the trust state and policers in the
policy map (see the
policy map (see the
). The associated CoS and ToS are
used at the egress port (see the
).
LAN Egress Port Features
These sections describe how PFC QoS schedules traffic through the transmit queues based on CoS values
and uses CoS-value-based transmit-queue drop thresholds to avoid congestion in traffic transmitted from
egress LAN ports:
and uses CoS-value-based transmit-queue drop thresholds to avoid congestion in traffic transmitted from
egress LAN ports:
•
•
•
Note
Egress LAN port scheduling and congestion avoidance uses Layer 2 CoS values. Egress LAN port
marking writes Layer 2 CoS values into trunk traffic and the Layer 3 ToS byte into all IP traffic.
marking writes Layer 2 CoS values into trunk traffic and the Layer 3 ToS byte into all IP traffic.
Transmit Queues
Enter the show queueing interface {ethernet | fastethernet | gigabitethernet | tengigabitethernet}
slot/port | include type command to see the queue structure of an egress LAN port.
slot/port | include type command to see the queue structure of an egress LAN port.
The command displays one of the following:
•
2q2t indicates two standard queues, each with two configurable tail-drop thresholds
•
1p2q2t indicates one strict-priority queue and two standard queues, each with two configurable
WRED-drop thresholds.
WRED-drop thresholds.