Configuring acl and qos, Acl overview, Qos overview – H3C Technologies H3C WX3000E Series Wireless Switches User Manual

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Configuring ACL and QoS

ACL overview

An access control list (ACL) is a set of rules (or permit or deny statements) for identifying traffic based on

criteria such as source IP address, destination IP address, and port number.
ACLs are primarily used for packet filtering. You can use ACLs in QoS, security, and other feature

modules for identifying traffic. The packet drop or forwarding decisions varies with the modules that use

ACLs.
ACLs include the following categories.

Category

ACL number

IP version

Match criteria

WLAN ACLs

100 to 199

IPv4 and IPv6

WLAN SSID

WLAN-AP ACLs 200 to 299

IPv4 and IPv6

MAC address and serial ID of a WLAN AP.

Basic ACLs

2000 to 2999

IPv4

Source IPv4 address.

IPv6

Source IPv6 address.

Advanced ACLs 3000 to 3999

IPv4

Source/destination IPv4 address, packet priority,
protocols over IPv4, and other Layer 3 and Layer 4
header fields.

IPv6

Source/destination IPv6 address, packet priority,
protocols over IPv6, and other Layer 3 and Layer 4

header fields.

Ethernet frame
header ACLs

4000 to 4999

IPv4 and IPv6

Layer 2 header fields, such as source and
destination MAC addresses, 802.1p priority, and

link layer protocol type.

For more information about ACL, see ACL and QoS Configuration Guide.

QoS overview

Quality of Service (QoS) is a concept concerning service demand and supply. It reflects the ability to

meet customer needs. Generally, QoS does not focus on grading services precisely, but on improving

services under certain conditions.
In the Internet, QoS refers to the ability of the network to forward packets. The evaluation on QoS of a

network can be based on different aspects because the network might provide various services.

Generally, QoS refers to the ability to provide improved service by solving the core issues such as delay,

jitter, and packet loss ratio in the packet forwarding process.

Traditional packet forwarding services

On traditional IP networks, devices treat all packets equally and handle them using the first in first out

(FIFO) policy. All packets share the resources of the network and devices. The amount of resources the

packets can obtain completely depends on the time they arrive. This service is called "best-effort." It