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| Title | Size | Download |
|---|---|---|
| 02-QoS commands | 340.64 KB |
display qos policy control-plane
display qos policy control-plane pre-defined
display qos policy diagnosis interface·
display qos policy user-profile
qos apply policy (Ethernet service instance view, interface view, control plane view)
reset qos policy control-plane
Congestion management commands
display qos queue sp interface
display qos queue wrr interface
qos wrr { byte-count | weight }
display qos queue wfq interface
qos wfq { byte-count | weight }
Queue scheduling profile commands
display qos qmprofile configuration
display qos qmprofile interface
Queue-based accounting commands
display qos queue-statistics interface outbound
reset qos queue-statistics interface outbound
Control plane packet-drop logging commands
QoS policy commands
Traffic class commands
description
Use description to configure a description for a traffic class.
Use undo description to restore the default.
Syntax
description text
undo description
Default
No description is configured for a traffic class.
Views
Traffic class view
Predefined user roles
network-admin
Parameters
text: Specifies a description, a case-sensitive string of 1 to 127 characters.
Usage guidelines
If you execute this command multiple times, the most recent configuration takes effect.
Examples
# Configure the description as classifier for traffic class class1.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] description classifier
display traffic classifier
Use display traffic classifier to display traffic classes.
Syntax
In standalone mode:
display traffic classifier user-defined [ classifier-name ] [ slot slot-number ]
In IRF mode:
display traffic classifier user-defined [ classifier-name ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
user-defined: Specifies user-defined traffic classes.
classifier-name: Specifies a traffic class by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a traffic class, this command displays all traffic classes.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays the traffic classes for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays the traffic classes for the global active MPU. (In IRF mode.)
Examples
# Display all user-defined traffic classes.
<Sysname> display traffic classifier user-defined
User-defined classifier information:
Classifier: 1 (ID 100)
Operator: AND
Rule(s) :
If-match acl 2000
Classifier: 2 (ID 101)
Operator: AND
Rule(s) :
If-match protocol ipv6
Classifier: 3 (ID 102)
Operator: AND
Rule(s) :
-none-
|
Field |
Description |
|
Classifier |
Traffic class name and its match criteria. |
|
Operator |
Match operator you set for the traffic class. If the operator is AND, the traffic class matches the packets that match all its match criteria. If the operator is OR, the traffic class matches the packets that match any of its match criteria. |
|
Rule(s) |
Match criteria. |
if-match
Use if-match to define a match criterion.
Use undo if-match to delete a match criterion.
Syntax
if-match match-criteria
undo if-match match-criteria
Default
No match criterion is configured.
Views
Traffic class view
Predefined user roles
network-admin
Parameters
match-criteria: Specifies a match criterion. Table 2 shows the available match criteria.
Table 2 Available match criteria
|
Option |
Description |
|
acl [ ipv6 | mac | user-defined ] { acl-number | name acl-name } [ inner ] |
Matches an ACL. The value range for the acl-number argument is as follows: · 2000 to 3999 for IPv4 ACLs. · 2000 to 3999 for IPv6 ACLs. · 4000 to 4999 for Layer 2 MAC ACLs. · 5000 to 5999 for user-defined ACLs. The acl-name argument is a case-insensitive string of 1 to 63 characters, which must start with an English letter. To avoid confusion, make sure the argument is not all. You can use the inner keyword to match the inner header information of VXLAN packets. For example, a rule permit ip source 10.0.0.0 0.255.255.255 statement matches the inner source IP address of VXLAN packets if the inner keyword is specified in the if-match acl command. The statement matches the source IP address of non-VXLAN packets or the outer source IP address of VXLAN packets if the inner keyword is not specified. If you specify the inner keyword in the if-match acl command, you must also specify it when executing the undo if-match acl command. |
|
any |
Matches all packets. |
|
control-plane protocol protocol-name&<1-8> |
Matches control plane protocols. The protocol-name&<1-8> argument specifies a space-separated list of up to eight system-defined control plane protocols. For available system-defined control plane protocols, see Table 3. |
|
control-plane protocol-group protocol-group-name |
Matches a control plane protocol group. The protocol-group-name argument can be critical, important, management, monitor, normal, or redirect. |
|
customer-dot1p dot1p-value&<1-8> |
Matches 802.1p priority values in inner VLAN tags of double-tagged packets. The dot1p-value&<1-8> argument specifies a space-separated list of up to eight 802.1p priority values. The value range for the dot1p-value argument is 0 to 7. |
|
customer-vlan-id vlan-id-list |
Matches VLAN IDs in inner VLAN tags of double-tagged packets. The vlan-id-list argument specifies a space-separated list of up to 10 VLAN items. Each item specifies a VLAN or a range of VLANs in the form of vlan-id1 to vlan-id2. The value for vlan-id2 must be greater than or equal to the value for vlan-id1. The value range for the vlan-id argument is 1 to 4094. |
|
destination-mac mac-address |
Matches a destination MAC address. This option takes effect only on Ethernet interfaces. |
|
dscp dscp-value&<1-8> |
Matches DSCP values. The dscp-value&<1-8> argument specifies a space-separated list of up to eight DSCP values. The value range for the dscp-value argument is 0 to 63 or keywords shown in Table 5. |
|
ip-precedence ip-precedence-value&<1-8> |
Matches IP precedence values. The ip-precedence-value&<1-8> argument specifies a space-separated list of up to eight IP precedence values. The value range for the ip-precedence-value argument is 0 to 7. |
|
outbound-interface interface-type interface-number |
Matches an output interface specified by its type and number. |
|
protocol protocol-name |
Matches a protocol. The protocol-name argument can be ip or ipv6. |
|
qos-local-id local-id-value |
Matches a local QoS ID in the range of 1 to 4095. |
|
service-dot1p dot1p-value&<1-8> |
Matches 802.1p priority values in outer VLAN tags. The dot1p-value&<1-8> argument specifies a space-separated list of up to eight 802.1p priority values. The value range for the dot1p-value argument is 0 to 7. |
|
service-vlan-id vlan-id-list |
Matches VLAN IDs in outer VLAN tags. The vlan-id-list argument specifies a space-separated list of up to 10 VLAN items. Each item specifies a VLAN or a range of VLANs in the form of vlan-id1 to vlan-id2. The value for vlan-id2 must be greater than or equal to the value for vlan-id1. The value range for the vlan-id argument is 1 to 4094. You can use this option to match single-tagged packets. |
|
source-mac mac-address |
Matches a source MAC address. This option takes effect only on Ethernet interfaces. |
|
tunnel-id tunnel-id |
Matches a VXLAN tunnel ID. For the traffic class to take effect, the tunnel must be a VXLAN tunnel. |
|
vxlan { any | vxlan-id } |
Matches a VXLAN ID. If the device acts as an intermediate device in a VXLAN network, it supports matching VXLAN IDs only in the inbound direction. |
Table 3 Available system-defined control plane protocols
|
Protocol |
Description |
|
default |
Protocol packets other than the following packet types |
|
arp |
ARP packets |
|
arp-snooping |
ARP snooping packets |
|
bfd |
BFD packets |
|
bgp |
BGP packets |
|
bgp4+ |
IPv6 BGP packets |
|
dhcp |
DHCP packets |
|
dhcp-snooping |
DHCP snooping packets |
|
dhcpv6 |
IPv6 DHCP packets |
|
dldp |
DLDP packets |
|
dot1x |
802.1X packets |
|
ftp |
FTP packets |
|
hoplimit-expires |
Hop-limit expire packets |
|
icmp |
ICMP packets |
|
icmpv6 |
ICMPv6 packets |
|
igmp |
IGMP packets |
|
ip-option |
IPv4 packets with the Options field |
|
ipv6-option |
IPv6 packets with the Options field |
|
isis |
IS-IS packets |
|
lacp |
LACP packets |
|
lldp |
LLDP packets |
|
mvrp |
MVRP packets (including GVRP packets) |
|
ntp |
NTP packets |
|
oam |
OAM packets |
|
ospf-multicast |
OSPF multicast packets |
|
ospf-unicast |
OSPF unicast packets |
|
ospf3-multicast |
OSPFv3 multicast packets |
|
ospf3-unicast |
OSPFv3 unicast packets |
|
radius |
RADIUS packets |
|
snmp |
SNMP packets |
|
ssh |
SSH packets |
|
stp |
STP packets |
|
tacacs |
TACACS packets |
|
telnet |
Telnet packets |
|
ttl-expires |
TTL expire packets |
|
vrrp |
VRRP packets |
|
vrrp6 |
IPv6 VRRP packets |
Usage guidelines
In a traffic class with the logical OR operator, you can configure multiple if-match commands for any of the available match criteria.
When you configure a match criterion that can have multiple values in one if-match command, follow these restrictions and guidelines:
· You can specify up to eight values for any of the following match criteria in one if-match command:
¡ Control plane protocol.
¡ 802.1p priority.
¡ DSCP.
¡ IP precedence.
¡ VLAN ID.
· If a packet matches one of the specified values, it matches the if-match command.
· To delete a criterion that has multiple values, the specified values in the undo if-match command must be the same as those specified in the if-match command. The order of the values can be different.
When you configure ACL-based match criteria, follow these restrictions and guidelines:
· The ACL must already exist.
· An ACL can only match the following inner header information of VXLAN packets:
¡ Source IP address.
¡ Destination IP address.
¡ Source port number.
¡ Destination port number.
¡ Transport protocol type.
· The ACL is used for classification only and the permit/deny actions in ACL rules are ignored. Actions taken on matching packets are defined in traffic behaviors.
You can use both AND and OR operators to define the match relationships between the criteria for a class. For example, you can define relationships among three match criteria in traffic class classA as follows:
traffic classifier classB operator and
if-match criterion 1
if-match criterion 2
traffic classifier classA operator or
if-match criterion 3
In a QoS policy applied to the outbound direction of an interface, a match criterion without IPv6 attributes cannot match IPv6 packets. For example, a source MAC address or Layer 2 ACL match criterion cannot match IPv6 packets.
If a traffic class in a QoS policy includes the customer-vlan-id match criterion, the QoS policy can be applied only to interfaces.
If a traffic class includes both the control-plane protocol or control-plane protocol-group criterion and other criteria, the QoS policy that contains the traffic class cannot be applied correctly.
If any traffic class in a QoS policy includes the control-plane protocol or control-plane protocol-group match criterion, the QoS policy can be applied only to a control plane.
For the customer-vlan-id and service-vlan-id match criteria, you can configure multiple values in one if-match command.
Examples
# Define a match criterion for traffic class class1 to match the inner packet information of VXLAN packets by using ACL 3000.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match acl 3000 inner
# Define a match criterion for traffic class class1 to match the packets with a destination MAC address of 0050-ba27-bed3.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match destination-mac 0050-ba27-bed3
# Define a match criterion for traffic class class2 to match the packets with a source MAC address of 0050-ba27-bed2.
<Sysname> system-view
[Sysname] traffic classifier class2
[Sysname-classifier-class2] if-match source-mac 0050-ba27-bed2
# Define a match criterion for traffic class class1 to match the double-tagged packets with 802.1p priority 3 in the inner VLAN tag.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match customer-dot1p 3
# Define a match criterion for traffic class class1 to match the packets with 802.1p priority 5 in the outer VLAN tag.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match service-dot1p 5
# Define a match criterion for traffic class class1 to match advanced ACL 3101.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match acl 3101
# Define a match criterion for traffic class class1 to match the ACL named flow.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match acl name flow
# Define a match criterion for traffic class class1 to match advanced IPv6 ACL 3101.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match acl ipv6 3101
# Define a match criterion for traffic class class1 to match the IPv6 ACL named flow.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match acl ipv6 name flow
# Define a match criterion for traffic class class1 to match all packets.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match any
# Define a match criterion for traffic class class1 to match the packets with a DSCP value of 1, 6, or 9.
<Sysname> system-view
[Sysname] traffic classifier class1 operator or
[Sysname-classifier-class1] if-match dscp 1 6 9
# Define a match criterion for traffic class class1 to match the packets with an IP precedence value of 1 or 6.
<Sysname> system-view
[Sysname] traffic classifier class1 operator or
[Sysname-classifier-class1] if-match ip-precedence 1 6
# Define a match criterion for traffic class class1 to match IP packets.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match protocol ip
# Define a match criterion for traffic class class1 to match double-tagged packets with VLAN ID 1, 6, or 9 in the inner VLAN tag.
<Sysname> system-view
[Sysname] traffic classifier class1 operator or
[Sysname-classifier-class1] if-match customer-vlan-id 1 6 9
# Define a match criterion for traffic class class1 to match the packets with VLAN ID 2, 7, or 10 in the outer VLAN tag.
<Sysname> system-view
[Sysname] traffic classifier class1 operator or
[Sysname-classifier-class1] if-match service-vlan-id 2 7 10
# Define a match criterion for traffic class class1 to match the packets with a local QoS ID of 3.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match qos-local-id 3
# Define a match criterion for traffic class class1 to match ARP protocol packets.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match control-plane protocol arp
# Define a match criterion for traffic class class1 to match packets of the protocols in protocol group normal.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match control-plane protocol-group normal
# Define a match criterion for traffic class class1 to match multicast packets.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match traffic-type multicast
# Define a match criterion for traffic class class1 to match the VXLAN packets with tunnel ID 2.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match tunnel-id 2
# Define a match criterion for traffic class class1 to match the packets with VXLAN 10.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1] if-match vxlan 10
traffic classifier
Use traffic classifier to create a traffic class and enter its view, or enter the view of an existing traffic class.
Use undo traffic classifier to delete a traffic class.
Syntax
traffic classifier classifier-name [ operator { and | or } ]
undo traffic classifier classifier-name
Default
No traffic classes exist.
Views
System view
Predefined user roles
network-admin
Parameters
classifier-name: Specifies a name for the traffic class, a case-sensitive string of 1 to 31 characters.
operator: Sets the operator to logic AND (the default) or OR for the traffic class.
and: Specifies the logic AND operator. The traffic class matches the packets that match all its criteria.
or: Specifies the logic OR operator. The traffic class matches the packets that match any of its criteria.
Examples
# Create a traffic class named class1.
<Sysname> system-view
[Sysname] traffic classifier class1
[Sysname-classifier-class1]
Related commands
display traffic classifier
Traffic behavior commands
accounting
Use accounting to configure a traffic accounting action in a traffic behavior.
Use undo accounting to restore the default.
Syntax
accounting [ byte | packet ] *
undo accounting
Default
No traffic accounting action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
byte: Counts traffic in bytes.
packet: Counts traffic in packets.
Usage guidelines
If you execute this command multiple times, the most recent configuration takes effect.
If you do not specify the byte or packet keyword, the device collects statistics in packets. If you specify both the byte and packet keywords in one command line, the device collects statistics in both packets and bytes.
Examples
# Configure a traffic accounting action in traffic behavior database to count traffic in bytes.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] accounting byte
car
Use car to configure a CAR action in absolute value in a traffic behavior.
Use undo car to restore the default.
Syntax
car cir [ pps ] committed-information-rate [ cbs committed-burst-size [ ebs excess-burst-size ] ] [ green action | red action | yellow action ] *
car cir [ pps ] committed-information-rate [ cbs committed-burst-size ] pir [ pps ] peak-information-rate [ ebs excess-burst-size ] [ green action | red action | yellow action ] *
undo car
Default
No CAR action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
cir committed-information-rate: Specifies the committed information rate (CIR) in the range of 8 to 160000000 kbps, in increments of 8, or in the range of 1 to 160000000 pps. If you specify the pps keyword, the CIR is specified in pps. If you do not specify the pps keyword, the CIR is specified in kbps.
cbs committed-burst-size: Specifies the committed burst size (CBS) in bytes. The value range for committed-burst-size is 512 to 256000000, in increments of 512. The default value for this argument is the product of 62.5 and the CIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512 that is greater than the product. A default value greater than 256000000 is converted to 256000000.
ebs excess-burst-size: Specifies the excess burst size (EBS) in bytes. The value range for excess-burst-size is 0 to 256000000, in increments of 512. If the PIR is configured, the default EBS is the product of 62.5 and the PIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512. A default value greater than 256000000 is converted to 256000000.
pir peak-information-rate: Specifies the peak information rate (PIR) in the range of 8 to 160000000 kbps, in increments of 8, or in the range of 1 to 160000000 pps. If you specify the pps keyword, the PIR is specified in pps. If you do not specify the pps keyword, the PIR is specified in kbps. The PIR must be specified in the same unit as the CIR.
green action: Specifies the action to take on packets that conform to the CIR. The default setting is pass.
red action: Specifies the action to take on packets that conform to neither CIR nor PIR. The default setting is discard.
yellow action: Specifies the action to take on packets that conform to the PIR but not to the CIR. The default setting is pass.
action: Sets the action to take on the packet:
· discard: Drops the packet.
· pass: Permits the packet to pass through.
· remark-dot1p-pass new-cos: Sets the 802.1p priority value of the 802.1p packet to new-cos and permits the packet to pass through. The new-cos argument is in the range of 0 to 7.
· remark-dscp-pass new-dscp: Sets the DSCP value of the packet to new-dscp and permits the packet to pass through. The new-dscp argument is in the range of 0 to 63.
· remark-lp-pass new-local-precedence: Sets the local precedence value of the packet to new-local-precedence and permits the packet to pass through. The new-local-precedence argument is in the range of 0 to 7.
Usage guidelines
To use two rates for traffic policing, configure the car command with the pir peak-information-rate option. To use one rate for traffic policing, configure the car command without the pir peak-information-rate option.
If you execute the car command multiple times in the same traffic behavior, the most recent configuration takes effect.
The CIR must be specified in pps for a traffic policing action applied to a control plane.
Examples
# Configure a CAR action in traffic behavior database:
· Set the CIR to 200 kbps, CBS to 51200 bytes, and EBS to 0.
· Transmit the conforming packets, and mark the excess packets with DSCP value 0 and transmit them.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] car cir 200 cbs 51200 ebs 0 green pass red remark-dscp-pass 0
display traffic behavior
Use display traffic behavior to display traffic behaviors.
Syntax
In standalone mode:
display traffic behavior user-defined [ behavior-name ] [ slot slot-number ]
In IRF mode:
display traffic behavior user-defined [ behavior-name ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
user-defined: Specifies user-defined traffic behaviors.
behavior-name: Specifies a behavior by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a traffic behavior, this command displays all traffic behaviors.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays traffic behaviors for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays the traffic behaviors for the global active MPU. (In IRF mode.)
Examples
# Display all user-defined traffic behaviors.
<Sysname> display traffic behavior user-defined
User-defined behavior information:
Behavior: 1 (ID 100)
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 5120 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Behavior: 2 (ID 101)
Accounting enable: Packet
Filter enable: Permit
Redirecting:
Redirect to the CPU
Behavior: 3 (ID 102)
-none-
|
Field |
Description |
|
Behavior |
Name and contents of a traffic behavior. |
|
Marking |
Information about priority marking. |
|
Remark dscp |
Action of setting the DSCP value for packets. |
|
Committed Access Rate |
Information about the CAR action. |
|
Green action |
Action to take on green packets. |
|
Yellow action |
Action to take on yellow packets. |
|
Red action |
Action to take on red packets. |
|
Accounting enable |
Class-based accounting action. |
|
Filter enable |
Traffic filtering action. |
|
Redirecting |
Information about traffic redirecting. |
|
Mirroring |
Information about traffic mirroring. |
|
none |
No other traffic behavior is configured. |
filter
Use filter to configure a traffic filtering action in a traffic behavior.
Use undo filter to restore the default.
Syntax
filter { deny | none | permit }
undo filter
Default
No traffic filtering action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
deny: Drops packets.
none: Transmits packets. The permitted packets will not be processed by any other class-behavior associations in the same QoS policy.
permit: Transmits packets. The permitted packets can be processed by other class-behavior associations in the same QoS policy.
Examples
# Configure a traffic filtering action as deny in traffic behavior database.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] filter deny
nest top-most
Use nest top-most to configure an outer VLAN tag adding action in a traffic behavior.
Use undo nest top-most to restore the default.
Syntax
nest top-most vlan vlan-id
undo nest top-most
Default
No outer VLAN tag adding action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
vlan-id vlan-id: Specifies the VLAN ID to be added in the outer VLAN tag, in the range of 1 to 4094.
Usage guidelines
If a QoS policy contains an outer VLAN tag adding action, apply it only to the incoming traffic of an interface.
If you execute the nest top-most command multiple times in the same traffic behavior, the most recent configuration takes effect.
An outer VLAN tag adding action takes effect only when the QoS policy is applied to the inbound direction of an interface, VLANs, or globally.
This command does not take effect on packets forwarded by a VXLAN overlay network.
Examples
# Configure traffic behavior b1 to add an outer VLAN tag with VLAN ID 123.
<Sysname> system-view
[Sysname] traffic behavior b1
[Sysname-behavior-b1] nest top-most vlan 123
redirect
Use redirect to configure a traffic redirecting action in a traffic behavior.
Use undo redirect to restore the default.
Syntax
In standalone mode:
redirect { cpu | interface interface-type interface-number }
undo redirect { cpu | interface interface-type interface-number }
Default
No traffic redirecting action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
cpu: Redirects traffic to the CPU.
interface interface-type interface-number: Redirects traffic to an interface specified by its type and number.
Usage guidelines
If you execute the redirect command multiple times in the same traffic behavior, the most recent configuration takes effect.
Examples
# Configure redirecting traffic to HundredGigE 1/0/1 in traffic behavior database.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] redirect interface hundredgige 1/0/1
Related commands
classifier behavior
qos policy
traffic behavior
remark customer-vlan-id
Use remark customer-vlan-id to configure a CVLAN marking action in a traffic behavior.
Use undo remark customer-vlan-id to restore the default.
Syntax
remark customer-vlan-id vlan-id
undo remark customer-vlan-id
Default
No CVLAN marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
vlan-id: Specifies a CVLAN ID in the range of 1 to 4094.
Examples
# Configure traffic behavior b1 to mark matching packets with CVLAN 111.
<Sysname> system-view
[Sysname] traffic behavior b1
[Sysname-behavior-b1] remark customer-vlan-id 111
remark dot1p
Use remark dot1p to configure an 802.1p priority marking action or an inner-to-outer tag priority copying action in a traffic behavior.
Use undo remark dot1p to restore the default.
Syntax
remark [ green | red | yellow ] dot1p dot1p-value
undo remark [ green | red | yellow ] dot1p
remark dot1p customer-dot1p-trust
undo remark dot1p
Default
No 802.1p priority marking action or inner-to-outer tag priority copying action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
green: Specifies green packets.
red: Specifies red packets.
yellow: Specifies yellow packets.
dot1p-value: Specifies the 802.1p priority to be marked for packets, in the range of 0 to 7.
customer-dot1p-trust: Copies the 802.1p priority value in the inner VLAN tag to the outer VLAN tag.
Usage guidelines
The remark dot1p dot1p-value and remark dot1p customer-dot1p-trust commands override each other in the same traffic behavior. The remark dot1p customer-dot1p-trust command does not take effect on single-tagged packets.
If you execute the remark dot1p dot1p-value command multiple times for the same color, the most recent configuration takes effect.
Examples
# Configure traffic behavior database to mark matching traffic with 802.1p 2.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark dot1p 2
# Configure an inner-to-outer tag priority copying action in traffic behavior database.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark dot1p customer-dot1p-trust
remark drop-precedence
Use remark drop-precedence to configure a drop priority marking action in a traffic behavior.
Use undo remark drop-precedence to restore the default.
Syntax
remark drop-precedence drop-precedence-value
undo remark drop-precedence
Default
No drop priority marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
drop-precedence-value: Specifies the drop priority to be marked for packets, in the range of 0 to 2.
Usage guidelines
A drop priority marking action takes effect only when the QoS policy is applied to the inbound direction.
If you execute the remark drop-precedence command multiple times in the same traffic behavior, the most recent configuration takes effect.
Examples
# Configure traffic behavior database to mark matching traffic with drop priority 2.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark drop-precedence 2
remark dscp
Use remark dscp to configure a DSCP marking action in a traffic behavior.
Use undo remark dscp to restore the default.
Syntax
remark [ green | red | yellow ] dscp dscp-value
undo remark [ green | red | yellow ] dscp
Default
No DSCP marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
green: Specifies green packets.
red: Specifies red packets.
yellow: Specifies yellow packets.
dscp-value: Specifies a DSCP value, which can be a number from 0 to 63 or a keyword in Table 5.
Table 5 DSCP keywords and values
|
Keyword |
DSCP value (binary) |
DSCP value (decimal) |
|
af11 |
001010 |
10 |
|
af12 |
001100 |
12 |
|
af13 |
001110 |
14 |
|
af21 |
010010 |
18 |
|
af22 |
010100 |
20 |
|
af23 |
010110 |
22 |
|
af31 |
011010 |
26 |
|
af32 |
011100 |
28 |
|
af33 |
011110 |
30 |
|
af41 |
100010 |
34 |
|
af42 |
100100 |
36 |
|
af43 |
100110 |
38 |
|
cs1 |
001000 |
8 |
|
cs2 |
010000 |
16 |
|
cs3 |
011000 |
24 |
|
cs4 |
100000 |
32 |
|
cs5 |
101000 |
40 |
|
cs6 |
110000 |
48 |
|
cs7 |
111000 |
56 |
|
default |
000000 |
0 |
|
ef |
101110 |
46 |
Examples
# Configure traffic behavior database to mark matching traffic with DSCP 6.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark dscp 6
remark ip-precedence
Use remark ip-precedence to configure an IP precedence marking action in a traffic behavior.
Use undo remark ip-precedence to restore the default.
Syntax
remark ip-precedence ip-precedence-value
undo remark ip-precedence
Default
No IP precedence marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
ip-precedence-value: Specifies the IP precedence value to be marked for packets, in the range of 0 to 7.
Examples
# Set the IP precedence to 6 for packets.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark ip-precedence 6
remark local-precedence
Use remark local-precedence to configure a local precedence marking action in a traffic behavior.
Use undo remark local-precedence to restore the default.
Syntax
remark [ green | red | yellow ] local-precedence local-precedence-value
undo remark [ green | red | yellow ] local-precedence
Default
No local precedence marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
green: Specifies green packets.
red: Specifies red packets.
yellow: Specifies yellow packets.
local-precedence-value: Specifies the local precedence to be marked for packets, in the range of 0 to 7.
Usage guidelines
A local precedence marking action takes effect only when the QoS policy is applied to the inbound direction.
Examples
# Configure traffic behavior database to mark matching traffic with local precedence 2.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark local-precedence 2
remark qos-local-id
Use remark qos-local-id to configure a local QoS ID marking action in a traffic behavior.
Use undo remark qos-local-id to restore the default.
Syntax
remark qos-local-id local-id-value
undo remark qos-local-id
Default
No local QoS ID marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
local-id-value: Specifies the local QoS ID to be marked for packets, in the range of 1 to 4095.
Usage guidelines
You can use one QoS policy to mark the local QoS ID for packets in the inbound direction. Then, you can use another QoS policy to apply other QoS features in the outbound direction based on the marked local QoS ID.
If you execute the remark qos-local-id command multiple times in the same traffic behavior, the most recent configuration takes effect.
Examples
# Configure the action of marking packets with local QoS ID 2.
<Sysname> system-view
[Sysname] traffic behavior database
[Sysname-behavior-database] remark qos-local-id 2
remark service-vlan-id
Use remark service-vlan-id to configure an SVLAN marking action in a traffic behavior.
Use undo remark service-vlan-id to restore the default.
Syntax
remark service-vlan-id vlan-id
undo remark service-vlan-id
Default
No SVLAN marking action is configured.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
vlan-id: Specifies an SVLAN ID in the range of 1 to 4094.
Examples
# Configure traffic behavior b1 to mark matching packets with SVLAN 222.
<Sysname> system-view
[Sysname] traffic behavior b1
[Sysname-behavior-b1] remark service-vlan-id 222
traffic behavior
Use traffic behavior to create a traffic behavior and enter its view, or enter the view of an existing traffic behavior.
Use undo traffic behavior to delete a traffic behavior.
Syntax
traffic behavior behavior-name
undo traffic behavior behavior-name
Default
No traffic behaviors exist.
Views
System view
Predefined user roles
network-admin
Parameters
behavior-name: Specifies a name for the traffic behavior, a case-sensitive string of 1 to 31 characters.
Examples
# Create a traffic behavior named behavior1.
<Sysname> system-view
[Sysname] traffic behavior behavior1
[Sysname-behavior-behavior1]
Related commands
display traffic behavior
QoS policy commands
classifier behavior
Use classifier behavior to associate a traffic behavior with a traffic class in a QoS policy.
Use undo classifier to delete a class-behavior association from a QoS policy.
Syntax
classifier classifier-name behavior behavior-name [ mode { dcbx | qppb-manipulation } | insert-before before-classifier-name ]
undo classifier classifier-name
Default
No traffic behavior is associated with a traffic class.
Views
QoS policy view
Predefined user roles
network-admin
Parameters
classifier-name: Specifies a traffic class by its name, a case-sensitive string of 1 to 31 characters.
behavior-name: Specifies a traffic behavior by its name, a case-sensitive string of 1 to 31 characters.
mode dcbx: Specifies that the class-behavior association applies only to the DCBX. For more information about DCBX, see Layer 2—LAN Switching Configuration Guide.
mode qppb-manipulation: Specifies that the class-behavior association applies only to QPPB. The if-match qos-local-id command in the class sets the same local QoS ID as the apply qos-local-id command in the BGP routing policy. For more information about routing policies, see Layer 3—IP Routing Configuration Guide.
insert-before before-classifier-name: Inserts the new traffic class before an existing traffic class in the QoS policy. The before-classifier-name argument specifies an existing traffic class by its name, a case-sensitive string of 1 to 31 characters. If you do not specify the insert-before before-classifier-name option, the new traffic class is placed at the end of the QoS policy.
Usage guidelines
A traffic class can be associated only with one traffic behavior in a QoS policy.
If the specified traffic class or traffic behavior does not exist, the system defines a null traffic class or traffic behavior.
Examples
# Associate traffic class database with traffic behavior test in QoS policy user1.
<Sysname> system-view
[Sysname] qos policy user1
[Sysname-qospolicy-user1] classifier database behavior test
# Associate traffic class database with traffic behavior test in QoS policy user1, and insert traffic class database before an existing traffic class named class-a.
<Sysname> system-view
[Sysname] qos policy user1
[Sysname-qospolicy-user1] classifier database behavior test insert-before class-a
Related commands
qos policy
control-plane
Use control-plane to enter control plane view.
Syntax
In standalone mode:
control-plane slot slot-number
In IRF mode:
control-plane chassis chassis-number slot slot-number
Views
System view
Predefined user roles
network-admin
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Enter the control plane view of slot 3.
<Sysname> system-view
[Sysname] control-plane slot 3
[Sysname-cp-slot3]
display qos policy
Use display qos policy to display QoS policies.
Syntax
In standalone mode:
display qos policy user-defined [ accounting | mirroring | remarking ] [ policy-name [ classifier classifier-name ] ] [ slot slot-number ]
In IRF mode:
display qos policy user-defined [ accounting | mirroring | remarking ] [ policy-name [ classifier classifier-name ] ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
user-defined: Specifies user-defined QoS policies.
accounting: Specifies accounting-type QoS policies.
mirroring: Specifies mirroring-type QoS policies.
remarking: Specifies marking-type QoS policies.
policy-name: Specifies a QoS policy by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a QoS policy, this command displays all user-defined QoS policies.
classifier classifier-name: Specifies a traffic class by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a traffic class, this command displays all traffic classes.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays the QoS policies for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays the QoS policies for the global active MPU. (In IRF mode.)
Usage guidelines
If you do not specify the accounting, mirroring, or remarking keyword, this command displays generic QoS policies.
Examples
# Display all user-defined generic QoS policies.
<Sysname> display qos policy user-defined
User-defined QoS policy information:
Policy: 1 (ID 100)
Classifier: 1 (ID 100)
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Classifier: 2 (ID 101)
Behavior: 2
Accounting enable: Packet
Filter enable: Permit
Marking:
Remark dot1p 4
Classifier: 3 (ID 102)
Behavior: 3
-none-
# Display user-defined accounting-type QoS policies.
<Sysname> display qos policy user-defined accounting
User-defined QoS policy information:
Accounting policy: 1 (ID 100)
Classifier: 1 (ID 100)
Behavior: 1
Accounting enable: Packet
# Display user-defined mirroring-type QoS policies.
<Sysname> display qos policy user-defined mirroring
User-defined QoS policy information:
Mirroring policy: 1 (ID 100)
Classifier: 1 (ID 100)
Behavior: 1
Mirroring:
Mirror to the CPU
# Display user-defined marking-type QoS policies.
<Sysname> display qos policy user-defined remarking
User-defined QoS policy information:
Marking policy: 1 (ID 100)
Classifier: 1 (ID 100)
Behavior: 1
Marking:
Remark dscp 3
Table 6 Command output
|
Field |
Description |
|
User-defined QoS policy information |
Information about a user-defined QoS policy. |
|
System-defined QoS policy information |
Information about a system-defined QoS policy. |
|
Accounting policy |
User-defined accounting-type QoS policy name. |
|
Mirroring policy |
User-defined mirroring-type QoS policy name. |
|
Marking policy |
User-defined marking-type QoS policy name. |
For the description of other fields, see Table 1 and Table 4.
display qos policy control-plane
Use display qos policy control-plane to display QoS policies applied to a control plane.
Syntax
In standalone mode:
display qos policy control-plane slot slot-number
In IRF mode:
display qos policy control-plane chassis chassis-number slot slot-number
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Display the QoS policy applied to the control plane of slot 1.
<Sysname> display qos policy control-plane slot 1
Control plane slot 1
Direction: Inbound
Policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets) 0 (Bytes)
Yellow packets: 0 (Packets) 0 (Bytes)
Red packets : 0 (Packets) 0 (Bytes)
Classifier: 2
Operator: AND
Rule(s) :
If-match protocol ipv6
Behavior: 2
Accounting enable:
0 (Packets)
Filter enable: Permit
Marking:
Remark dscp 3
Classifier: 3
Operator: AND
Rule(s) :
-none-
Behavior: 3
-none-
Table 7 Command output
|
Field |
Description |
|
Direction |
Direction in which the QoS policy is applied. |
For the description of other fields, see Table 1 and Table 4.
display qos policy control-plane pre-defined
Use display qos policy control-plane pre-defined to display predefined control plane QoS policies.
Syntax
In standalone mode:
display qos policy control-plane pre-defined [ slot slot-number ]
In IRF mode:
display qos policy control-plane pre-defined [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays the predefined control plane QoS policies for all cards. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays predefined control plane QoS policies for all cards. (In IRF mode.)
Examples
# (In standalone mode.) Display the predefined control plane QoS policy of slot 1.
<Sysname> display qos policy control-plane pre-defined slot 1
Pre-defined policy information slot 1
Protocol Priority Bandwidth Group
Default N/A 1024 (kbps) N/A
IS-IS 5 2048 (kbps) critical
VRRP 6 512 (kbps) important
OSPF Multicast 5 4096 (kbps) critical
OSPF Unicast 5 4096 (kbps) critical
PIM Multicast 4 512 (kbps) critical
PIM Unicast 4 512 (kbps) critical
IGMP 3 512 (kbps) important
PIMv6 Multicast 4 256 (kbps) critical
PIMv6 Unicast 4 256 (kbps) critical
OSPFv3 Unicast 5 2048 (kbps) critical
OSPFv3 Multicast 5 2048 (kbps) critical
VRRPv6 6 512 (kbps) important
ARP 2 2048 (kbps) normal
DHCP Snooping 3 384 (kbps) redirect
DHCP 3 384 (kbps) normal
802.1x 2 512 (kbps) important
STP 6 384 (kbps) critical
LACP 6 43 (kbps) critical
MVRP 3 384 (kbps) critical
BGP 4 2048 (kbps) critical
ICMP 1 512 (kbps) monitor
TTL Expires 3 256 (kbps) important
IPOPTION 3 256 (kbps) normal
BGPv6 4 2048 (kbps) critical
Hop Limit Expires 3 256 (kbps) important
IPOPTIONv6 3 256 (kbps) normal
LLDP 4 384 (kbps) important
DLDP 4 256 (kbps) critical
TELNET 1 896 (kbps) management
SSH 1 896 (kbps) management
TACACS 1 896 (kbps) management
RADIUS 1 896 (kbps) management
SNMP 1 896 (kbps) management
ARP Snooping 3 2048 (kbps) redirect
ICMPv6 1 2048 (kbps) monitor
DHCPv6 3 384 (kbps) normal
BFD 5 2048 (kbps) critical
Pre-defined policy information slot 2
Protocol Priority Bandwidth Group
Default N/A 1024 (pps) N/A
IS-IS 29 2048 (pps) critical
VRRP 36 512 (pps) important
OSPF Multicast 30 4096 (pps) critical
OSPF Unicast 30 4096 (pps) critical
PIM Multicast 24 512 (pps) critical
PIM Unicast 24 512 (pps) critical
IGMP 18 512 (pps) important
PIMv6 Multicast 24 256 (pps) critical
PIMv6 Unicast 24 256 (pps) critical
OSPFv3 Unicast 30 2048 (pps) critical
OSPFv3 Multicast 30 2048 (pps) critical
VRRPv6 36 512 (pps) important
ARP 12 2048 (pps) normal
DHCP Snooping 18 384 (pps) redirect
DHCP 18 384 (pps) normal
802.1x 12 512 (pps) important
STP 36 384 (pps) critical
LACP 36 43 (pps) critical
MVRP 18 384 (pps) critical
BGP 24 2048 (pps) critical
ICMP 9 512 (pps) monitor
TTL Expires 18 256 (pps) important
IPOPTION 18 256 (pps) normal
BGPv6 24 2048 (pps) critical
Hop Limit Expires 18 256 (pps) important
IPOPTIONv6 18 256 (pps) normal
LLDP 24 384 (pps) important
DLDP 24 256 (pps) critical
TELNET 8 896 (pps) management
SSH 8 896 (pps) management
TACACS 8 896 (pps) management
RADIUS 8 896 (pps) management
SNMP 8 896 (pps) management
ARP Snooping 18 2048 (pps) redirect
ICMPv6 8 2048 (pps) monitor
DHCPv6 18 384 (pps) normal
BFD 31 2048 (pps) critical
Table 8 Command output
|
Field |
Description |
|
Pre-defined control plane policy |
Contents of the predefined control plane QoS policy. |
|
Default |
Protocols other than those listed. |
|
Group |
Protocol group of the protocol. |
For descriptions of other fields, see Table 4.
display qos policy diagnosis interface
Use display qos policy diagnosis interface to display diagnostic information about the QoS policies applied to interfaces.
Syntax
In standalone mode:
display qos [ accounting | mirroring | remarking ] policy diagnosis interface [ interface-type interface-number ] [ slot slot-number ] [ inbound | outbound ]
In IRF mode:
display qos [ accounting | mirroring | remarking ] policy diagnosis interface [ interface-type interface-number ] [ chassis chassis-number slot slot-number ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
accounting: Specifies accounting-type QoS policies.
mirroring: Specifies mirroring-type QoS policies.
remarking: Specifies marking-type QoS policies.
interface-type interface-number: Specifies an interface by its type and number.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays diagnostic information about QoS policies for the active MPU. Only logical interfaces support this option. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays diagnostic information about QoS policies for the global active MPU. Only logical interfaces support this option. (In IRF mode.)
inbound: Specifies the QoS policy applied to incoming traffic.
outbound: Specifies the QoS policy applied to outgoing traffic.
Usage guidelines
If you do not specify the accounting, mirroring, or remarking keyword, this command displays diagnostic information about generic QoS policies applied.
If you do not specify a direction, this command displays diagnostic information about the QoS policy applied to incoming traffic and the QoS policy applied to outgoing traffic.
Examples
# Display diagnostic information about the generic QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos policy diagnosis interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Policy: 1
Classifier: 1 (Incomplete)
Operator: AND
Rule(s) :
If-match acl 2000 (Incomplete)
Failed Rule ID: 0, 3, 5, 50
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 7000 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Classifier: 2
Operator: AND
Rule(s) :
If-match not protocol ipv6
Behavior: 2
Filter enable: Permit
Marking:
Remark mpls-exp 4
Classifier: 3
Operator: AND
Rule(s) :
-none-
Behavior: 3
-none-
# Display diagnostic information about the accounting-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos accounting policy diagnosis interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Accounting policy: 1
Classifier: 1 (Incomplete)
Operator: AND
Rule(s) :
If-match acl 2000 (Incomplete)
Failed Rule ID: 0, 3, 5, 50
Behavior: 1
Accounting enable: Packet
# Display diagnostic information about the mirroring-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos mirroring policy diagnosis interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Mirroring policy: 1
Classifier: 1 (Incomplete)
Operator: AND
Rule(s) :
If-match acl 2000 (Incomplete)
Failed Rule ID: 0, 3, 5, 50
Behavior: 1
Mirroring:
Mirror to the CPU
# Display diagnostic information about the marking-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos remarking policy diagnosis interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Marking policy: 1
Classifier: 1 (Incomplete)
Operator: AND
Rule(s) :
If-match acl 2000 (Incomplete)
Failed Rule ID: 0, 3, 5, 50
Behavior: 1
Marking:
Remark dscp 3
Table 9 Command output
|
Field |
Description |
|
Direction |
Direction in which the QoS policy is applied. |
|
Accounting policy |
User-defined accounting-type QoS policy name. |
|
Mirroring policy |
User-defined mirroring-type QoS policy name. |
|
Marking policy |
User-defined marking-type QoS policy name. |
|
Classifier: 1 (Incomplete) |
Traffic class application result: · Incomplete—Some contents of the traffic class were applied successfully. · Failed—All contents of the traffic class failed to be applied. |
|
If-match acl 2000 (Incomplete) |
Match criterion application result: · Incomplete—Some contents of the match criterion were applied successfully. · Failed—All contents of the match criterion failed to be applied. |
|
Failed rule ID |
ACL rules that failed to be applied. |
For the description of other fields, see Table 1 and Table 4.
display qos policy global
Use display qos policy global to display QoS policies applied globally.
Syntax
In standalone mode:
display qos [ accounting | mirroring | remarking ] policy global [ slot slot-number ] [ inbound | outbound ]
In IRF mode:
display qos [ accounting | mirroring | remarking ] policy global [ chassis chassis-number slot slot-number ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
accounting: Specifies accounting-type QoS policies.
mirroring: Specifies mirroring-type QoS policies.
remarking: Specifies marking-type QoS policies.
inbound: Specifies the QoS policy applied in the inbound direction.
outbound: Specifies the QoS policy applied in the outbound direction.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays global QoS policies for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays global QoS policies for the global active MPU. (In IRF mode.)
Usage guidelines
If you do not specify the accounting, mirroring, or remarking keyword, this command displays information about generic QoS policies.
If you do not specify a direction, this command displays both inbound and outbound global QoS policies.
Examples
# Display generic QoS policies applied globally.
<Sysname> display qos policy global
Direction: Inbound
Policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets) 0 (Bytes)
Yellow packets: 0 (Packets) 0 (Bytes)
Red packets : 0 (Packets) 0 (Bytes)
Classifier: 2
Operator: AND
Rule(s) :
If-match protocol ipv6
Behavior: 2
Accounting enable:
0 (Packets)
Filter enable: Permit
Marking:
Remark dscp 3
Classifier: 3
Operator: AND
Rule(s) :
-none-
Behavior: 3
-none-
# Display information about accounting-type QoS policies applied globally.
<Sysname> display qos accounting policy global
Direction: Inbound
Accounting policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Accounting enable: Packet
# Display information about mirroring-type QoS policies applied globally.
<Sysname> display qos mirroring policy global
Direction: Inbound
Mirroring policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Mirroring:
Mirror to the CPU
# Display information about marking-type QoS policies applied globally.
<Sysname> display qos remarking policy global
Direction: Inbound
Marking policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
Table 10 Command output
|
Field |
Description |
|
Direction |
Direction in which the QoS policy is applied. |
|
Policy |
User-defined generic QoS policy name or system-defined QoS policy name. |
|
Accounting policy |
User-defined accounting-type QoS policy name. |
|
Mirroring policy |
User-defined mirroring-type QoS policy name. |
|
Marking policy |
User-defined marking-type QoS policy name. |
|
Green packets |
Statistics about green packets. |
|
Yellow packets |
Statistics about yellow packets. |
|
Red packets |
Statistics about red packets. |
For the description of other fields, see Table 1 and Table 4.
display qos policy interface
Use display qos policy interface to display the QoS policies applied to interfaces.
Syntax
In standalone mode:
display qos [ accounting | mirroring | remarking ] policy interface [ interface-type interface-number ] [ slot slot-number ] [ inbound | outbound ]
In IRF mode:
display qos [ accounting | mirroring | remarking ] policy interface [ interface-type interface-number ] [ chassis chassis-number slot slot-number ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
accounting: Specifies accounting-type QoS policies.
mirroring: Specifies mirroring-type QoS policies.
remarking: Specifies marking-type QoS policies.
interface-type interface-number: Specifies an interface by its type and number.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays QoS policies on the active MPU. Only logical interfaces support this option. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays QoS policies on the global active MPU. Only logical interfaces support this option. (In IRF mode.)
inbound: Specifies the QoS policy applied to incoming traffic.
outbound: Specifies the QoS policy applied to outgoing traffic.
Usage guidelines
If you do not specify the accounting, mirroring, or remarking keyword, this command displays generic QoS policies applied.
If you do not specify a direction, this command displays the QoS policy applied to incoming traffic and the QoS policy applied to outgoing traffic.
Examples
# Display the generic QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos policy interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Policy: 1
Classifier: 1
Matched : 0 (Packets) 0 (Bytes)
5-minute statistics:
Forwarded: 0/0 (pps/bps)
Dropped : 0/0 (pps/bps)
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets) 0 (Bytes)
Yellow packets: 0 (Packets) 0 (Bytes)
Red packets : 0 (Packets) 0 (Bytes)
Classifier: 2
Matched : 0 (Packets) 0 (Bytes)
5-minute statistics:
Forwarded: 0/0 (pps/bps)
Dropped : 0/0 (pps/bps)
Operator: AND
Rule(s) :
If-match protocol ipv6
Behavior: 2
Accounting enable:
0 (Packets)
Filter enable: Permit
Marking:
Remark dscp 3
Classifier: 3
Matched : 0 (Packets) 0 (Bytes)
5-minute statistics:
Forwarded: 0/0 (pps/bps)
Dropped : 0/0 (pps/bps)
Operator: AND
Rule(s) :
-none-
Behavior: 3
-none-
# Display information about the accounting-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos accounting policy interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Accounting Policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Accounting enable:
0 (Packets)
# Display information about the marking-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos remarking policy interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Marking policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
# Display information about the mirroring-type QoS policy applied to the incoming traffic of HundredGigE 1/0/1.
<Sysname> display qos mirroring policy interface hundredgige 1/0/1 inbound
Interface: HundredGigE1/0/1
Direction: Inbound
Mirroring policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Mirroring:
Mirror to the CPU
# Display the generic QoS policies applied to all interfaces.
<Sysname> display qos policy interface
Interface: HundredGigE1/0/1
Direction: Inbound
Mode : Share
Policy: a
Classifier: a
Operator: AND
Rule(s) :
If-match any
Behavior: a
Mirroring:
Mirror to the interface: HundredGigE1/0/2
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 0 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets)
Red packets : 0 (Packets)
Interface: HundredGigE1/0/3
Direction: Inbound
Policy: b
Classifier: b
Operator: AND
Rule(s) :
If-match any
Behavior: b
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 0 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0(Packets)
Red packets : 0 (Packets)
Interface: HundredGigE1/0/4
Direction: Inbound
Mode : Share
Policy: a
Classifier: a
Operator: AND
Rule(s) :
If-match any
Behavior: a
Mirroring:
Mirror to the interface: HundredGigE1/0/5
Committed Access Rate:
CIR 112 (kbps), CBS 51200 (Bytes), EBS 0 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets)
Red packets : 0 (Packets)
Table 11 Command output
|
Field |
Description |
|
Direction |
Direction in which the QoS policy is applied. |
|
Accounting policy |
User-defined accounting-type QoS policy name. |
|
Mirroring policy |
User-defined mirroring-type QoS policy name. |
|
Marking policy |
User-defined marking-type QoS policy name. |
|
Mode |
Sharing mode for QoS and ACL resources. This field appears only if a QoS policy is applied with the share-mode keyword. |
|
Matched |
Number of matching packets. |
|
Forwarded |
Average rate of successfully forwarded matching packets in a statistics collection period. |
|
Dropped |
Average rate of dropped matching packets in a statistics collection period. |
|
Green packets |
Traffic statistics for green packets. |
|
Yellow packets |
Traffic statistics for yellow packets. |
|
Red packets |
Traffic statistics for red packets. |
For the description of other fields, see Table 1 and Table 4.
display qos policy l2vpn-ac
Use display qos policy l2vpn-ac to display the QoS policies applied to Ethernet service instances.
Syntax
In standalone mode:
display qos policy l2vpn-ac [ interface interface-type interface-number [ service-instance instance-id ] [ slot slot-number ] ] [ inbound ]
In IRF mode:
display qos policy l2vpn-ac [ interface interface-type interface-number [ service-instance instance-id ] [ chassis chassis-number slot slot-number ] ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays QoS policies applied to Ethernet service instances on all interfaces.
service-instance instance-id: Specifies an Ethernet service instance by its ID in the range of 1 to 4096. If you do not specify an Ethernet service instance, this command displays QoS policies applied to all Ethernet service instances on an interface.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays QoS policy information for all cards. Only Layer 2 aggregate interfaces support this option. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays QoS policy information for all cards. Only Layer 2 aggregate interfaces support this option. (In IRF mode.)
inbound: Specifies the QoS policies applied to incoming traffic. If you do not specify this keyword, the command execution results are the same.
Examples
# Display the QoS policy applied to the incoming traffic of Ethernet service instance 1 on HundredGigE 1/0/1.
<Sysname> display qos policy l2vpn-ac interface hundredgige 1/0/1 service-instance 1 inbound
Interface: HundredGigE1/0/1 Service instance ID: 1
Direction: Inbound
Policy: p
Classifier: c
Operator: AND
Rule(s) :
If-match any
Behavior: b
Committed Access Rate:
CIR 88 (kbps), CBS 5632 (Bytes), EBS 0 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0 (Packets)
Red packets : 0 (Packets)
For the description of fields, see Table 1 and Table 4.
display qos policy user-profile
Use display qos policy user-profile to display QoS policies applied to user profiles.
Syntax
In standalone mode:
display qos policy user-profile [ name profile-name ] [ user-id user-id ] [ slot slot-number ] [ inbound | outbound ]
In IRF mode:
display qos policy user-profile [ name profile-name ] [ user-id user-id ] [ chassis chassis-number slot slot-number ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
name profile-name: Specifies a user profile by its name, a case-sensitive string of 1 to 31 characters. Valid characters include English letters, digits, and underscores (_). The name must start with an English letter and must be unique. If you do not specify a user profile, this command displays QoS policies applied to all user profiles.
user-id user-id: Specifies an online user by a system-assigned, hexadecimal ID in the range of 0 to fffffffe. If you do not specify an online user, this command displays QoS policies applied to user profiles for all online users.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays QoS policies applied to user profiles for all cards. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays QoS policies applied to user profiles for all cards. (In IRF mode.)
inbound: Specifies QoS policies applied to incoming traffic.
outbound: Specifies QoS policies applied to outgoing traffic.
Usage guidelines
If you do not specify a direction, this command displays QoS policies applied in the inbound direction and QoS policies applied in the outbound direction.
Examples
# Display the QoS policy applied to user profile abc for a global user.
<Sysname> display qos policy user-profile name abc user-id 30000000 inbound
User-Profile: abc
User ID: 0x30000000(global)
Direction: Inbound
Policy: p1
Classifier: default-class
Matched : 0 (Packets) 0 (Bytes)
Operator: AND
Rule(s) :
If-match any
Behavior: be
-none-
# Display the QoS policy applied to user profile abc for a local user.
<Sysname> display qos policy user-profile name abc user-id 30000001 inbound
User-Profile: abc
slot 2:
User ID: 0x30000001(local)
Direction: Inbound
Policy: p1
Classifier: default-class
Matched : 0 (Packets) 0 (Bytes)
Operator: AND
Rule(s) :
If-match any
Behavior: be
-none-
Table 12 Command output
|
Field |
Description |
|
global |
Indicates a global user, who comes online from a global interface such as an aggregate interface. |
|
local |
Indicates a local user, who comes online from a physical interface. |
|
Matched |
Number of packets that meet match criteria. |
|
Direction |
Direction in which the QoS policy is applied. |
|
Green packets |
Statistics about green packets. |
|
Yellow packets |
Statistics about yellow packets. |
|
Red packets |
Statistics about red packets. |
For the description of other fields, see Table 1 and Table 4.
display qos vlan-policy
Use display qos vlan-policy to display QoS policies applied to VLANs.
Syntax
In standalone mode:
display qos vlan-policy { name policy-name | vlan [ vlan-id ] } [ slot slot-number ] [ inbound | outbound ]
In IRF mode:
display qos vlan-policy { name policy-name | vlan [ vlan-id ] } [ chassis chassis-number slot slot-number ] [ inbound | outbound ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
name policy-name: Specifies a QoS policy by its name, a case-sensitive string of 1 to 31 characters.
vlan vlan-id: Specifies a VLAN by its ID in the range of 1 to 4094.
inbound: Displays QoS policies applied to incoming traffic.
outbound: Displays QoS policies applied to outgoing traffic.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays QoS policies applied to VLANs for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays QoS policies applied to VLANs for the global active MPU. (In IRF mode.)
Usage guidelines
If you do not specify a direction, this command displays QoS policies applied to VLANs in both the inbound and outbound directions.
Examples
# Display QoS policies applied to VLAN 2.
<Sysname> display qos vlan-policy vlan 2
Vlan 2
Direction: Inbound
Policy: 1
Classifier: 1
Operator: AND
Rule(s) :
If-match acl 2000
Behavior: 1
Marking:
Remark dscp 3
Committed Access Rate:
CIR 112 (kbps), CBS 5120 (Bytes), EBS 512 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Green packets : 0(Packets) 0(Bytes)
Yellow packets: 0(Packets) 0(Bytes)
Red packets : 0(Packets) 0(Bytes)
Classifier: 2
Operator: AND
Rule(s) :
If-match protocol ipv6
Behavior: 2
Accounting enable:
0 (Packets)
Filter enable: Permit
Marking:
Remark dscp 3
Classifier: 3
Operator: AND
Rule(s) :
-none-
Behavior: 3
-none-
Table 13 Command output
|
Field |
Description |
|
Direction |
Direction in which the QoS policy is applied. |
|
Green packets |
Statistics about green packets. |
|
Yellow packets |
Statistics about yellow packets. |
|
Red packets |
Statistics about red packets. |
For the description of other fields, see Table 1 and Table 4.
qos apply policy (Ethernet service instance view, interface view, control plane view)
Use qos apply policy to apply a QoS policy to an Ethernet service instance, interface, or control plane.
Use undo qos apply policy to remove an applied QoS policy.
Syntax
qos apply [ accounting | mirroring | remarking ] policy policy-name { inbound | outbound } [ share-mode ]
undo qos apply [ accounting | mirroring | remarking ] policy policy-name { inbound | outbound }
Default
No QoS policy is applied.
Views
Control plane view
Ethernet service instance view
Interface view
Predefined user roles
network-admin
Parameters
accounting: Specifies an accounting-type QoS policy. This keyword is supported only in interface view.
mirroring: Specifies a mirroring-type QoS policy. This keyword is supported only in interface view.
remarking: Specifies a marking-type QoS policy. This keyword is supported only in interface view.
policy-name: Specifies a QoS policy by its name, a case-sensitive string of 1 to 31 characters.
inbound: Applies the QoS policy to incoming traffic.
outbound: Applies the QoS policy to outgoing traffic. This keyword is not supported in Ethernet service instance view or control plane view.
share-mode: Applies the QoS policy in sharing mode to a Layer 2 or Layer 3 Ethernet interface. In this mode, all interfaces on an IRF member device with the same QoS policy applied in one direction share one QoS and ACL resource. In the inbound direction, this mode is used by default.
Usage guidelines
If you specify the share-mode keyword when applying a QoS policy to the outbound direction of a Layer 2 or Layer 3 Ethernet interface, follow these restrictions and guidelines:
· The switch supports a maximum of seven QoS policies in sharing mode.
· The CAR action and class-based accounting action are not supported in the QoS policy.
You cannot change the sharing mode dynamically after a QoS policy is applied to an interface. To change the sharing mode for an applied QoS policy, perform the following steps:
1. Remove the QoS policy from the interface.
2. Reapply the QoS policy with or without the share-mode keyword specified.
A maximum of four QoS policies (one for each type) can be applied to the inbound direction of an interface. Different actions can be taken on the same traffic class if QoS policies of different types are applied to an interface.
Only one generic QoS policy can be applied to the outbound direction of an interface.
You can apply a QoS policy to only the inbound direction of an Ethernet service instance. For configuration commands for Ethernet service instances, see VXLAN Command Reference.
If a class uses control plane protocols or control plane protocol groups as match criteria, the action in the associated traffic behavior can only be car or the combination of car and accounting. Only the cir keyword in the car action can be applied correctly.
You can apply a QoS policy to only the inbound direction of a Layer 2 or Layer 3 aggregate interface.
Examples
# Apply generic QoS policy TEST1 to the outgoing traffic of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos apply policy TEST1 outbound
# Apply accounting-type QoS policy TEST2 to the outgoing traffic of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos apply accounting policy TEST2 outbound
# Apply mirroring-type QoS policy TEST3 to the outgoing traffic of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos apply mirroring policy TEST3 outbound
# Apply marking-type QoS policy TEST4 to the outgoing traffic of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos apply remarking policy TEST4 outbound
# Apply generic QoS policy TEST5 to the incoming traffic of the control plane of slot 3.
<Sysname> system-view
[Sysname] control-plane slot 3
[Sysname-cp-slot3] qos apply policy TEST5 inbound
# Apply generic QoS policy TEST9 to the incoming traffic of Ethernet service instance 200.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] service-instance 200
[Sysname-HundredGigE1/0/1-srv200] qos apply policy TEST9 inbound
# Apply generic QoS policy TEST10 in sharing mode to the outgoing traffic of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1]qos apply policy TEST10 outbound share-mode
qos apply policy global
Use qos apply policy global to apply a QoS policy globally.
Use undo qos apply policy global to remove a globally applied QoS policy.
Syntax
qos apply [ accounting | mirroring | remarking ] policy policy-name global { inbound | outbound }
undo qos apply [ accounting | mirroring | remarking ] policy policy-name global { inbound | outbound }
Default
No QoS policy is applied globally.
Views
System view
Predefined user roles
network-admin
Parameters
accounting: Specifies an accounting-type QoS policy.
mirroring: Specifies a mirroring-type QoS policy.
remarking: Specifies a marking-type QoS policy.
policy-name: Specifies a QoS policy by its name, a case-sensitive string of 1 to 31 characters.
inbound: Applies the QoS policy to the incoming packets on all interfaces.
outbound: Applies the QoS policy to the outgoing packets on all interfaces.
Usage guidelines
A global QoS policy takes effect on all incoming or outgoing traffic depending on the direction in which the QoS policy is applied.
A maximum of four QoS policies (one generic, one accounting-type, one mirroring-type, and one marking-type) can be applied to one direction globally.
If you do not specify the accounting, mirroring, or remarking keyword, this command applies a generic QoS policy globally.
# Globally apply generic QoS policy user1 to the incoming traffic.
<Sysname> system-view
[Sysname] qos apply policy user1 global inbound
# Globally apply mirroring-type QoS policy user2 to the incoming traffic.
<Sysname> system-view
[Sysname] qos apply mirroring policy user2 global inbound
qos policy
Use qos policy to create a QoS policy and enter its view, or enter the view of an existing QoS policy.
Use undo qos policy to delete a QoS policy.
Syntax
qos [ accounting | mirroring | remarking ] policy policy-name
undo qos [ accounting | mirroring | remarking ] policy policy-name
Default
No QoS policies exist.
Views
System view
Predefined user roles
network-admin
Parameters
accounting: Identifies the QoS policy as an accounting-type QoS policy.
mirroring: Identifies the QoS policy as a mirroring-type QoS policy.
remarking: Identifies the QoS policy as a marking-type QoS policy.
policy-name: Specifies a name for the QoS policy, a case-sensitive string of 1 to 31 characters.
Usage guidelines
If you do not specify the accounting, mirroring, or remarking keyword when creating a QoS policy, a generic QoS policy is created.
QoS policies of different types cannot use the same policy name.
A generic QoS policy can be applied to all supported destinations and can contain all actions. An accounting-type QoS policy can be applied to only interfaces or globally and can contain only class-based accounting actions. A mirroring-type QoS policy can only be applied to interfaces or globally and can contain only mirroring actions. A marking-type QoS policy can be applied to only interfaces or globally and can contain only marking actions.
To delete a QoS policy that has been applied to an object, you must first remove the QoS policy from the object.
Examples
# Create a generic QoS policy named user1.
<Sysname> system-view
[Sysname] qos policy user1
[Sysname-qospolicy-user1]
# Create an accounting-type QoS policy named user2.
<Sysname> system-view
[Sysname] qos accounting policy user2
[Sysname-qospolicy-user2]
# Create a marking-type QoS policy named user3.
<Sysname> system-view
[Sysname] qos remarking policy user3
[Sysname-qospolicy-user3]
# Create a mirroring-type QoS policy named user4.
<Sysname> system-view
[Sysname] qos mirroring policy user4
[Sysname-qospolicy-user4]
Related commands
classifier behavior
qos apply policy
qos apply policy global
qos vlan-policy
qos vlan-policy
Use qos vlan-policy to apply a QoS policy to the specified VLANs.
Use undo qos vlan-policy to remove a QoS policy from the specified VLANs.
Syntax
qos vlan-policy policy-name vlan vlan-id-list { inbound | outbound }
undo qos vlan-policy policy-name vlan vlan-id-list { inbound | outbound }
Default
No QoS policy is applied to a VLAN.
Views
System view
Predefined user roles
network-admin
Parameters
policy-name: Specifies a QoS policy by its name, a case-sensitive string of 1 to 31 characters.
vlan vlan-id-list: Specifies a space-separated list of up to eight VLAN IDs or a VLAN ID range in the form of vlan-id1 to vlan-id2. The value for vlan-id2 must be greater than or equal to the value for vlan-id1. The value range for the vlan-id argument is 1 to 4094.
inbound: Applies the QoS policy to incoming packets.
outbound: Applies the QoS policy to outgoing packets.
Examples
# Apply QoS policy test to the incoming traffic of VLAN 200, VLAN 300, VLAN 400, and VLAN 500.
<Sysname> system-view
[Sysname] qos vlan-policy test vlan 200 300 400 500 inbound
reset qos policy control-plane
Use reset qos policy control-plane to clear the statistics of the QoS policy applied to a control plane.
Syntax
In standalone mode:
reset qos policy control-plane slot slot-number
In IRF mode:
reset qos policy control-plane chassis chassis-number slot slot-number
Views
User view
Predefined user roles
network-admin
Parameters
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. (In IRF mode.)
Examples
# (In standalone mode.) Clear the statistics of the QoS policy applied to the control plane of slot 1.
<Sysname> reset qos policy control-plane slot 1
reset qos policy global
Use reset qos policy global to clear statistics for QoS policies applied globally.
Syntax
reset qos [ accounting | mirroring | remarking ] policy global [ inbound | outbound ]
Views
User view
Predefined user roles
network-admin
Parameters
accounting: Specifies accounting-type QoS policies.
mirroring: Specifies mirroring-type QoS policies.
remarking: Specifies marking-type QoS policies.
inbound: Specifies the QoS policy applied to the inbound direction globally.
outbound: Specifies the QoS policy applied to the outbound direction globally.
Usage guidelines
If you do not specify a direction, this command clears statistics for the global QoS policies in both directions.
If you do not specify the accounting, mirroring, or remarking keyword, this command clears statistics for generic QoS policies.
Examples
# Clear statistics for the generic QoS policy applied to the inbound direction globally.
<Sysname> reset qos policy global inbound
# Clear statistics for the mirroring-type QoS policy applied to the inbound direction globally.
<Sysname> reset qos mirroring policy global inbound
reset qos vlan-policy
Use reset qos vlan-policy to clear the statistics for QoS policies applied to VLANs.
Syntax
reset qos vlan-policy [ vlan vlan-id ] [ inbound | outbound ]
Views
User view
Predefined user roles
network-admin
Parameters
vlan vlan-id: Specifies a VLAN ID in the range of 1 to 4094.
inbound: Specifies the QoS policy applied to incoming traffic.
outbound: Specifies the QoS policy applied to outgoing traffic.
Usage guidelines
If you do not specify a direction, this command clears the statistics of the QoS policies in both directions of the VLAN.
Examples
# Clear the statistics of QoS policies applied to VLAN 2.
<Sysname> reset qos vlan-policy vlan 2
Priority mapping commands
Priority map commands
display qos map-table
Use display qos map-table to display the configuration of priority maps.
Syntax
display qos map-table [ dot1p-dp | dot1p-exp | dot1p-lp | dscp-dot1p| dscp-dp | dscp-dscp | dscp-exp | exp-dot1p ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
The device provides the following types of priority map.
|
Priority mapping |
Description |
|
dot1p-dp |
802.1p-drop priority map. |
|
dot1p-exp |
802.1p-EXP priority map. |
|
dot1p-lp |
802.1p-local priority map. |
|
dscp-dot1p |
DSCP-802.1p priority map. |
|
dscp-dp |
DSCP-drop priority map. |
|
dscp-dscp |
DSCP-DSCP priority map. |
|
exp-dot1p |
EXP-802.1p priority map. |
Usage guidelines
If you do not specify a priority map, this command displays the configuration of all priority maps.
Examples
# Display the configuration of the 802.1p-local priority map.
<Sysname> display qos map-table dot1p-lp
MAP-TABLE NAME: dot1p-lp TYPE: pre-define
IMPORT : EXPORT
0 : 2
1 : 0
2 : 1
3 : 3
4 : 4
5 : 5
6 : 6
7 : 7
Table 15 Command output
|
Field |
Description |
|
MAP-TABLE NAME |
Name of the priority map. |
|
TYPE |
Type of the priority map. |
|
IMPORT |
Input values of the priority map. |
|
EXPORT |
Output values of the priority map. |
import
Use import to configure mappings for a priority map.
Use undo import to restore the specified or all mappings to the default for a priority map.
Syntax
import import-value-list export export-value
undo import { import-value-list | all }
Default
The default priority maps are used. For more information, see ACL and QoS Configuration Guide.
Views
Priority map view
Predefined user roles
network-admin
Parameters
import-value-list: Specifies a list of input values.
export-value: Specifies the output value.
all: Restores all mappings in the priority map to the default.
Examples
# Configure the 802.1p-local priority map to map 802.1p priority values 4 and 5 to local priority 1.
<Sysname> system-view
[Sysname] qos map-table dot1p-lp
[Sysname-maptbl-dot1p-lp] import 4 5 export 1
Related commands
display qos map-table
qos map-table
Use qos map-table to enter the specified priority map view.
Syntax
qos map-table { dot1p-dp | dot1p-exp | dot1p-lp | dscp-dot1p| dscp-dp | dscp-dscp | dscp-exp | exp-dot1p }
Views
System view
Predefined user roles
network-admin
Parameters
For the description of other keywords, see Table 14.
Examples
# Enter 802.1p-local priority map view.
<Sysname> system-view
[Sysname] qos map-table dot1p-lp
[Sysname-maptbl-dot1p-lp]
Related commands
display qos map-table
import
Priority trust mode commands
display qos trust interface
Use display qos trust interface to display the priority trust mode and port priorities of an interface.
Syntax
display qos trust interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the priority trust mode and port priorities of all interfaces.
Examples
# Display the priority trust mode and port priority of HundredGigE 1/0/1.
<Sysname> display qos trust interface hundredgige 1/0/1
Interface: HundredGigE1/0/1
Port priority trust information
Port priority:4
Port priority trust type: dscp
Table 16 Command output
|
Field |
Description |
|
Interface |
Interface type and interface number. |
|
Port priority |
Port priority set for the interface. |
|
Port priority trust type |
Priority trust mode on the interface: · dot1p—Uses the 802.1p priority of received packets for mapping. · dscp—Uses the DSCP precedence of received IP packets for mapping. · none—Trusts no packet priority. |
qos trust
Use qos trust to configure the priority trust mode for an interface.
Use undo qos trust to restore the default.
Syntax
qos trust { dot1p | dscp }
undo qos trust
Default
An interface does not trust any packet priority and uses the port priority as the 802.1p priority for mapping.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
dot1p: Uses the 802.1p priority in incoming packets for priority mapping.
dscp: Uses the DSCP value in incoming packets for priority mapping.
Usage guidelines
For a VXLAN tunnel interface to trust the DSCP priority in the inner IP header of VXLAN packets, configure the qos trust dscp command on its physical interface.
Examples
# Set the priority trust mode to 802.1p priority on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos trust dot1p
Related commands
Port priority commands
qos priority
Use qos priority to change the port priority of an interface.
Use undo qos priority to restore the default.
Syntax
qos priority priority-value
undo qos priority
Default
The port priority is 0.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
priority-value: Specifies a port priority value in the range of 0 to 7.
Examples
# Set the port priority of HundredGigE 1/0/1 to 2.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos priority 2
Related commands
display qos trust interface
GTS and rate limit commands
GTS commands
display qos gts interface
Use display qos gts interface to display the GTS configuration for interfaces.
Syntax
display qos gts interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the GTS configuration for all interfaces.
Examples
# Display the GTS configuration for all interfaces.
<Sysname> display qos gts interface
Interface: HundredGigE1/0/1
Rule: If-match queue 1
CIR 512 (kbps), CBS 51200 (Bytes)
Table 17 Command output
|
Field |
Description |
|
Interface |
Interface name, including the interface type and interface number. |
|
Rule |
Match criteria. |
|
CIR |
CIR in kbps. |
|
CBS |
CBS in bytes. |
qos gts
Use qos gts to set GTS parameters on an interface.
Use undo qos gts to delete the GTS configuration on an interface.
Syntax
qos gts queue queue-id cir committed-information-rate [ cbs committed-burst-size ]
undo qos gts queue queue-id
Default
No GTS parameters are configured.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue queue-id: Shapes the packets in a queue specified by its ID. The value range for queue-id is 0 to 7.
cir committed-information-rate: Specifies the CIR in kbps. The value range for committed-information-rate is 8 to 100000000 for 100-GE interfaces, in increments of 8.
cbs committed-burst-size: Specifies the CBS in bytes. The value range for committed-burst-size is 512 to 16000000, in increments of 512. The default value for this argument is the product of 62.5 and the CIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512 that is greater than the product. A default value greater than 16000000 is converted to 16000000.
Examples
# Shape the packets of queue 1 on HundredGigE 1/0/9 (CIR 6400 kbps and CBS 51200 bytes).
<Sysname> system-view
[Sysname] interface hundredgige 1/0/9
[Sysname- HundredGigE1/0/9] qos gts queue 1 cir 6400 cbs 51200
Rate limit commands
display qos lr interface
Use display qos lr interface to display the rate limit configuration for interfaces.
Syntax
display qos lr interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the rate limit configuration for all interfaces.
Examples
# Display the rate limit configuration for all interfaces.
<Sysname> display qos lr interface
Interface: HundredGigE1/0/1
Direction: Outbound
CIR 2000 (kbps), CBS 20480 (Bytes)
Table 18 Command output
|
Field |
Description |
|
Interface |
Interface name, including the interface type and interface number. |
|
Direction |
Direction in which the rate limit configuration is applied. |
|
CIR |
CIR in kbps. |
|
CBS |
CBS in bytes. |
qos lr
Use qos lr to configure rate limiting on an interface.
Use undo qos lr to delete the rate limit configuration on an interface.
Syntax
qos lr { inbound | outbound } cir committed-information-rate [ cbs committed-burst-size ]
undo qos lr { inbound | outbound }
Default
No rate limit is configured.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
inbound: Limits the rate of incoming packets.
outbound: Limits the rate of outgoing packets.
cir committed-information-rate: Specifies the CIR in kbps. The value range for committed-information-rate is 8 to 100000000. The specified value must be an integral multiple of 8.
cbs committed-burst-size: Specifies the CBS in bytes. The value range for committed-burst-size is 512 to 128000000, in increments of 512. The default value for this argument is the product of 62.5 and the CIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512 that is greater than the product. A default value greater than 128000000 is converted to 128000000.
Examples
# Limit the rate of outgoing packets on HundredGigE 1/0/1, with CIR 256 kbps and CBS 51200 bytes.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos lr outbound cir 256 cbs 51200
Congestion management commands
Common commands
display qos queue interface
Use display qos queue interface to display the queuing information for interfaces.
Syntax
display qos queue interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the queuing information for all interfaces.
Examples
# Display the queuing information for all interfaces.
<Sysname> display qos queue interface
Interface: HundredGigE1/0/1
Output queue: Strict Priority queuing
Interface: HundredGigE1/0/2
Output queue: Strict Priority queuing
Interface: HundredGigE1/0/3
Output queue: Strict Priority queuing
Interface: HundredGigE1/0/4
Output queue: Strict Priority queuing
Interface: HundredGigE1/0/5
Output queue: Strict Priority queuing
Interface: HundredGigE1/0/6
Output queue: Strict Priority queuing
Table 19 Command output
|
Field |
Description |
|
Interface |
Interface name, including the interface type and interface number. |
|
Output queue |
Type of the current output queue. |
|
Group |
Number of the group that holds the queue. |
|
Weight |
Packet-count scheduling weight of the queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
|
Byte-count |
Byte-count scheduling weight of the queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
SP commands
display qos queue sp interface
Use display qos queue sp interface to display the SP queuing configuration of an interface.
Syntax
display qos queue sp interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the SP queuing configuration of all interfaces.
Examples
# Display the SP queuing configuration of HundredGigE 1/0/1.
<Sysname> display qos queue sp interface hundredgige 1/0/1
Interface: HundredGigE1/0/1
Output queue: Strict Priority queuing
Table 20 Command output
|
Field |
Description |
|
Interface |
Interface type and interface number. |
|
Output queue |
Type of the current output queue. |
qos sp
Use qos sp to enable SP queuing on an interface.
Use undo qos sp to restore the default.
Syntax
qos sp
undo qos sp
Default
An interface uses byte-count WRR queuing.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Examples
# Enable SP queuing on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos sp
Related commands
display qos queue sp interface
WRR commands
display qos queue wrr interface
Use display qos queue wrr interface to display the WRR queuing configuration of an interface.
Syntax
display qos queue wrr interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the WRR queuing configuration of all interfaces.
Examples
# Display the WRR queuing configuration of HundredGigE 1/0/1.
<Sysname> display qos queue wrr interface hundredgige 1/0/1
Interface: HundredGigE1/0/1
Output queue: Weighted Round Robin queuing
Queue ID Queue name Group Weight
--------------------------------------------------------
0 be 1 1
1 af1 1 1
2 af2 1 1
3 af3 1 1
4 af4 1 1
5 ef 1 1
6 cs6 1 1
7 cs7 sp N/A
Table 21 Command output
|
Field |
Description |
|
Interface |
Interface type and interface number. |
|
Output queue |
Type of the current output queue. |
|
Group |
ID of the group a queue is assigned to. |
|
Weight |
Packet-count queue scheduling weight of a queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
|
Byte count |
Byte-count scheduling weight of a queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
qos wrr
Use qos wrr to enable WRR queuing on an interface.
Use undo qos wrr to restore the default.
Syntax
qos wrr { byte-count | weight }
undo qos wrr { byte-count | weight }
Default
An interface uses byte-count WRR queuing.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
byte-count: Allocates bandwidth to queues in bytes.
weight: Allocates bandwidth to queues in packets.
Usage guidelines
You must use the qos wrr command to enable WRR queuing before you can configure WRR queuing parameters for a queue on an interface.
Examples
# Enable packet-count WRR queuing on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wrr weight
# Enable byte-count WRR queuing on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wrr byte-count
Related commands
display qos queue wrr interface
qos wrr { byte-count | weight }
Use qos wrr { byte-count | weight } to configure the WRR queuing parameters for a queue on an interface.
Use undo qos wrr to restore the default.
Syntax
qos wrr queue-id group 1 { byte-count | weight } schedule-value
undo qos wrr queue-id
Default
All queues on a WRR-enabled interface are in WRR group 1, and queues 0 through 7 have a weight of 1, 2, 3, 4, 5, 9, 13, and 15, respectively.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
Table 22 The number-keyword map for the queue-id argument
|
Number |
Keyword |
|
0 |
be |
|
1 |
af1 |
|
2 |
af2 |
|
3 |
af3 |
|
4 |
af4 |
|
5 |
ef |
|
6 |
cs6 |
|
7 |
cs7 |
group 1: Specifies WRR group 1. Only WRR group 1 is supported in the current software version.
byte-count: Allocates bandwidth to queues in bytes.
weight: Allocates bandwidth to queues in packets.
schedule-value: Specifies a scheduling weight. The value range for this argument is 1 to 15.
Usage guidelines
You must use the qos wrr command to enable WRR queuing before you can configure WRR queuing parameters for a queue on an interface.
Examples
# Enable packet-based WRR queuing on HundredGigE 1/0/1, assign queue 0 to WRR group 1, and specify scheduling weight 10 for queue 0.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wrr weight
[Sysname-HundredGigE1/0/1] qos wrr 0 group 1 weight 10
Related commands
display qos queue wrr interface
qos wrr
qos wrr group sp
Use qos wrr group sp to assign a queue to the SP group.
Use undo qos wrr group sp to remove a queue from the SP group.
Syntax
qos wrr queue-id group sp
undo qos wrr queue-id
Default
All queues on a WRR-enabled interface are in WRR group 1.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
Usage guidelines
This command is available only on a WRR-enabled interface. Queues in the SP group are scheduled with SP. The SP group has higher scheduling priority than the WRR groups.
You must use the qos wrr command to enable WRR queuing before you can configure this command on an interface.
Examples
# Enable WRR queuing on HundredGigE 1/0/1, and assign queue 0 to the SP group.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wrr weight
[Sysname-HundredGigE1/0/1] qos wrr 0 group sp
Related commands
display qos queue wrr interface
qos wrr
WFQ commands
display qos queue wfq interface
Use display qos queue wfq interface to display the WFQ configuration of an interface.
Syntax
display qos queue wfq interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the WFQ configuration of all interfaces.
Examples
# Display the WFQ configuration of HundredGigE 1/0/1.
<Sysname> display qos wfq interface hundredgige 1/0/1
Interface: HundredGigE1/0/1
Output queue: Hardware Weighted Fair Queuing
Queue ID Queue name Group Byte count Min Bandwidth
--------------------------------------------------------------------------------
0 be 1 1 64
1 af1 1 1 64
2 af2 1 1 64
3 af3 1 1 64
4 af4 1 1 64
5 ef 1 1 64
6 cs6 1 1 64
7 cs7 1 1 64
Table 23 Command output
|
Field |
Description |
|
Interface |
Interface type and interface number. |
|
Output queue |
Type of the current output queue. |
|
Group |
ID of the group that holds the queue. |
|
Byte-count |
Byte-count scheduling weight of the queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
|
Weight |
Packet-count queue scheduling weight of the queue. N/A is displayed for a queue that uses the SP scheduling algorithm. |
|
Min Bandwidth |
Minimum guaranteed bandwidth for the queue. |
qos bandwidth queue
Use qos bandwidth queue to set the minimum guaranteed bandwidth for a queue on an interface.
Use undo qos bandwidth queue to restore the default.
Syntax
qos bandwidth queue queue-id min bandwidth-value
undo qos bandwidth queue queue-id
Default
The minimum guaranteed bandwidth for a queue is 64 kbps.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
min bandwidth-value: Sets the minimum guaranteed bandwidth in kbps. The value range for the bandwidth-value argument is 8 to 10000000 for 10-GE interfaces and 8 to 100000000 for 100-GE interfaces.
Usage guidelines
The minimum guaranteed bandwidth is the amount of bandwidth guaranteed for a queue when the interface is congested.
You must use the qos wfq command to enable WFQ before you can configure this command on an interface.
Examples
# Set the minimum guaranteed bandwidth to 100 kbps for queue 0 on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wfq weight
[Sysname-HundredGigE1/0/1] qos bandwidth queue 0 min 100
Related commands
qos wfq
qos wfq
Use qos wfq to enable WFQ on an interface.
Use undo qos wfq to restore the default.
Syntax
qos wfq { byte-count | weight }
undo qos wfq { byte-count | weight }
Default
An interface uses byte-count WRR queuing.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
byte-count: Allocates bandwidth to queues in bytes.
weight: Allocates bandwidth to queues in packets.
Usage guidelines
You must use the qos wfq command to enable WFQ before you can configure WFQ queuing parameters for a queue on an interface.
Examples
# Enable packet-count WFQ on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wfq weight
# Enable byte-count WFQ on HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wfq byte-count
Related commands
display qos queue wfq interface
qos wfq { byte-count | weight }
Use qos wfq { byte-count | weight } to assign a queue to a WFQ group with a certain scheduling weight.
Use undo qos wfq to restore the default.
Syntax
qos wfq queue-id group 1 { byte-count | weight } schedule-value
undo qos wfq queue-id
Default
All queues on a WFQ-enabled interface are in WFQ group 1 and have a weight of 1.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
group 1: Specifies WFQ group 1. Only WFQ group 1 is supported in the current software version.
byte-count: Allocates bandwidth to queues in bytes.
weight: Allocates bandwidth to queues in packets.
schedule-value: Specifies a scheduling weight. The value range is 1 to 15 if you have specified the byte-count keyword and 1 to 127 if you have specified the weight keyword.
Usage guidelines
You must use the qos wfq command to enable WFQ before you configure this command.
Examples
# Enable byte-count WFQ on HundredGigE 1/0/1, and specify scheduling weight 10 for queue 0.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wfq byte-count
[Sysname-HundredGigE1/0/1] qos wfq 0 group 1 byte-count 10
Related commands
display qos queue wfq interface
qos bandwidth queue
qos wfq
qos wfq group sp
Use qos wfq group sp to assign a queue to the SP group.
Use undo qos wfq group sp to remove a queue from the SP group.
Syntax
qos wfq queue-id group sp
undo qos wfq queue-id
Default
All queues on a WFQ-enabled interface are in WFQ group 1.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
Usage guidelines
This command is available only on a WFQ-enabled interface. Queues in the SP group are scheduled with SP, instead of WFQ. The SP group has higher scheduling priority than the WFQ groups.
You must use the qos wfq command to enable WFQ before you configure this command.
Examples
# Enable WFQ on HundredGigE 1/0/1, and assign queue 0 to the SP group.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wfq weight
[Sysname-HundredGigE1/0/1] qos wfq 0 group sp
Related commands
display qos queue wfq interface
qos bandwidth queue
qos wfq
Queue scheduling profile commands
bandwidth queue
Use bandwidth queue to set the minimum guaranteed bandwidth for a queue.
Use undo bandwidth queue to restore the default.
Syntax
bandwidth queue queue-id min bandwidth-value
undo bandwidth queue queue-id
Default
The minimum guaranteed bandwidth for a queue is 64 kbps.
Views
Queue scheduling profile view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
min bandwidth-value: Specifies the minimum guaranteed bandwidth in kbps. The value range for the bandwidth-value argument is 8 to 100000000.
Usage guidelines
You must configure a queue as a WFQ queue before you set the minimum guaranteed bandwidth for the queue.
The minimum guaranteed bandwidth is the amount of bandwidth guaranteed for a queue when the interface is congested.
Examples
# Configure queue 0 as a WFQ queue, and set the minimum guaranteed bandwidth to 100 kbps for queue 0.
<Sysname> system-view
[Sysname] qos qmprofile myprofile
[Sysname-qmprofile-myprofile] queue 0 wfq group 1 weight 1
[Sysname-qmprofile-myprofile] bandwidth queue 0 min 100
display qos qmprofile configuration
Use display qos qmprofile configuration to display the queue scheduling profile configuration.
Syntax
In standalone mode:
display qos qmprofile configuration [ profile-name ] [ slot slot-number ]
In IRF mode:
display qos qmprofile configuration [ profile-name ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
profile-name: Specifies a queue scheduling profile by its name, a case-sensitive string of 1 to 31 characters. If you do not specify a queue scheduling profile, this command displays the configuration of all queue scheduling profiles.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays the queue scheduling profile configuration for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays the queue scheduling profile configuration for the global active MPU. (In IRF mode.)
Examples
# Display the configuration of queue scheduling profile myprofile.
<Sysname> display qos qmprofile configuration myprofile
Queue management profile: myprofile (ID 1)
Queue ID Type Group Schedule Schedule Min Max
unit value bandwidth bandwidth
---------------------------------------------------------------------
be WRR 1 weight 1 N/A N/A
af1 WRR 1 weight 2 N/A N/A
af2 WRR 1 weight 3 N/A N/A
af3 WRR 1 weight 4 N/A N/A
af4 WRR 1 weight 5 N/A N/A
ef WRR 1 weight 9 N/A N/A
cs6 WRR 1 weight 13 N/A N/A
cs7 WRR 1 weight 15 N/A N/A
Table 24 Command output
|
Field |
Description |
|
Queue management profile |
Queue scheduling profile name. |
|
Type |
Queue scheduling type: · SP. · WRR. · WFQ. |
|
Group |
Priority group to which the queue belongs. The value can only be 1. N/A indicates this field is ignored. |
|
Schedule unit |
Scheduling unit: weight or byte-count. N/A indicates that this field is ignored. |
|
Schedule value |
This field indicates: · Number of packets for the weight scheduling unit. · Number of bytes for the byte-count scheduling unit. N/A indicates that this field is ignored. |
|
Min bandwidth |
Minimum guaranteed bandwidth for the queue. N/A indicates that this field is ignored. |
|
Max bandwidth |
This field is not supported in the current software version. Maximum allowed bandwidth for the queue. N/A indicates that this field is ignored. |
display qos qmprofile interface
Use display qos qmprofile interface to display the queue scheduling profile applied to an interface.
Syntax
display qos qmprofile interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the queue scheduling profiles applied to all interfaces.
Examples
# Display the queue scheduling profile applied to HundredGigE 1/0/1.
<Sysname> display qos qmprofile interface hundredgige 1/0/1
Interface: HundredGigE1/0/1
Direction: Outbound
Queue management profile: myprofile
Table 25 Command output
|
Field |
Description |
|
Direction |
Direction in which the queue scheduling profile is applied. |
|
Queue management profile |
Name of the queue scheduling profile applied to the interface. |
qos apply qmprofile
Use qos apply qmprofile to apply a queue scheduling profile to the outbound direction of an interface.
Use undo qos apply qmprofile to restore the default.
Syntax
qos apply qmprofile profile-name
undo qos apply qmprofile
Default
No queue scheduling profile is applied to an interface.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
profile-name: Specifies a queue scheduling profile by its name, a case-sensitive string of 1 to 31 characters.
Usage guidelines
You can apply only one queue scheduling profile to an interface.
Examples
# Apply queue scheduling profile myprofile to the outbound direction of HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos apply qmprofile myprofile
Related commands
display qos qmprofile interface
qos qmprofile
Use qos qmprofile to create a queue scheduling profile and enter its view, or enter the view of an existing queue scheduling profile.
Use undo qos qmprofile to delete a queue scheduling profile.
Syntax
qos qmprofile profile-name
undo qos qmprofile profile-name
Default
No user-created queue scheduling profiles exist.
Views
System view
Predefined user roles
network-admin
Parameters
profile-name: Specifies a name for the queue scheduling profile, a case-sensitive string of 1 to 31 characters.
Usage guidelines
To delete a queue scheduling profile already applied to an object, first remove it from the object.
Examples
# Create a queue scheduling profile named myprofile and enter queue scheduling profile view.
<Sysname> system-view
[Sysname] qos qmprofile myprofile
[Sysname-qmprofile-myprofile]
Related commands
display qos qmprofile interface
queue
queue
Use queue to configure queue scheduling parameters.
Use undo queue to delete queue scheduling parameter settings.
Syntax
queue queue-id { sp | wfq group group-id { weight | byte-count } schedule-value | wrr group group-id { weight | byte-count } schedule-value }
undo queue queue-id
Default
All queues in a queue scheduling profile use packet-count WRR queuing, and queues 0 through 7 have a weight of 1, 2, 3, 4, 5, 9, 13, and 15, respectively.
Views
Queue scheduling profile view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7 or keywords in Table 22.
sp: Enables SP for the queue.
wfq: Enables WFQ for the queue.
wrr: Enables WRR for the queue.
group group-id: Specifies a WFQ or WRR group by its ID. The group ID can only be 1.
byte-count: Allocates bandwidth to queues in bytes.
weight: Allocates bandwidth to queues in packets.
schedule-value: Specifies the scheduling weight. For WRR, the value range is 1 to 15. For WFQ, the value range is 1 to 15 if you have specified the byte-count keyword and 1 to 127 if you have specified the weight keyword.
Examples
# Create a queue scheduling profile named myprofile, and configure queue 0 to use SP.
<Sysname> system-view
[Sysname] qos qmprofile myprofile
[Sysname-qmprofile-myprofile] queue 0 sp
# Create a queue scheduling profile named myprofile. Configure queue 1 to meet the following requirements:
· The WRR queuing is used.
· The WRR group is group 1.
· The scheduling weight is 10.
<Sysname> system-view
[Sysname] qos qmprofile myprofile
[Sysname-qmprofile-myprofile] queue 1 wrr group 1 weight 10
Related commands
display qos qmprofile interface
qos qmprofile
Queue-based accounting commands
display qos queue-statistics interface outbound
Use display qos queue-statistics interface outbound to display queue-based outgoing traffic statistics for interfaces.
Syntax
display qos queue-statistics interface [ interface-type interface-number ] outbound
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the queue-based outgoing traffic statistics for all interfaces.
Examples
# Display queue-based outgoing traffic statistics for HundredGigE 1/0/1.
<Sysname> display qos queue-statistics interface hundredgige 1/0/1 outbound
Interface: HundredGigE1/0/1
Direction: outbound
Forwarded: 0 packets, 0 bytes
Dropped: 0 packets, 0 bytes
Queue 0
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 1
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 2
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 3
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 4
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 5
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 6
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Queue 7
Forwarded: 0 packets, 0 bytes, 0 pps, 0 bps
Dropped: 0 packets, 0 bytes
Current queue length: 0 packets
Table 26 Command output
|
Field |
Description |
|
Interface |
Interface for which queue-based traffic statistics are displayed. |
|
Direction |
Direction of traffic for which statistics are collected. |
|
Forwarded |
Counts forwarded traffic both in packets and in bytes. |
|
Dropped |
Counts dropped traffic both in packets and in bytes. |
|
Current queue length |
Number of packets in the queue. |
Related commands
reset counters interface (Interface Command Reference)
reset qos queue-statistics interface outbound
Use reset qos queue-statistics interface outbound to clear queue-based outgoing traffic statistics for interfaces.
Syntax
reset qos queue-statistics interface [ interface-type interface-number ] outbound
Views
Any view
Predefined user roles
network-admin
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command clears the queue-based outgoing traffic statistics for all interfaces.
Examples
# Clear queue-based outgoing traffic statistics for all interfaces.
<Sysname> reset qos queue-statistics interface outbound
# Clear queue-based outgoing traffic statistics for HundredGigE 1/0/1.
<Sysname> reset qos queue-statistics interface hundredgige 1/0/1 outbound
Congestion avoidance commands
WRED commands
display qos wred interface
Use display qos wred interface to display the WRED information for interfaces.
Syntax
display qos wred interface [ interface-type interface-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
interface-type interface-number: Specifies an interface by its type and number. If you do not specify an interface, this command displays the WRED information for all interfaces.
Examples
# Display the WRED information for all interfaces.
<Sysname> display qos wred interface
Interface: HundredGigE1/0/3
Current WRED configuration:
Applied WRED table name: q1
Table 27 Command output
|
Field |
Description |
|
Interface |
Interface type and interface number. |
display qos wred table
Use display qos wred table to display the WRED table configuration.
Syntax
In standalone mode:
display qos wred table [ name table-name ] [ slot slot-number ]
In IRF mode:
display qos wred table [ name table-name ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
name table-name: Specifies a WRED table by its name, a case-sensitive string of 1 to 32 characters. If you do not specify a WRED table, this command displays the configuration of all WRED tables.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays the WRED table configuration for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify this option, the command displays the WRED table configuration for the global active MPU. (In IRF mode.)
Examples
# Display the configuration of WRED table 1.
<Sysname> display qos wred table name 1
Table name: 1
Table type: Queue based WRED
QID gmin gmax gprob ymin ymax yprob rmin rmax rprob exponent ECN
----------------------------------------------------------------------------
0 100 1000 10 100 1000 10 100 1000 10 9 N
1 100 1000 10 100 1000 10 100 1000 10 9 N
2 100 1000 10 100 1000 10 100 1000 10 9 N
3 100 1000 10 100 1000 10 100 1000 10 9 N
4 100 1000 10 100 1000 10 100 1000 10 9 N
5 100 1000 10 100 1000 10 100 1000 10 9 N
6 100 1000 10 100 1000 10 100 1000 10 9 N
7 100 1000 10 100 1000 10 100 1000 10 9 N
Table 28 Command output
|
Field |
Description |
|
Table name |
Name of a WRED table. |
|
Table type |
Type of a WRED table. |
|
QID |
Queue ID. |
|
gmin |
Lower limit for green packets. |
|
gmax |
Upper limit for green packets. |
|
gprob |
Drop probability for green packets. |
|
ymin |
Lower limit for yellow packets. |
|
ymax |
Upper limit for yellow packets. |
|
yprob |
Drop probability for yellow packets. |
|
rmin |
Lower limit for red packets. |
|
rmax |
Upper limit for red packets. |
|
rprob |
Drop probability for red packets. |
|
exponent |
Exponent for average queue length calculation. |
|
ECN |
Indicates whether ECN is enabled for the queue: · Y—Enabled. · N—Disabled. |
qos wred apply
Use qos wred apply to apply a WRED table to an interface.
Use undo qos wred apply to restore the default.
Syntax
qos wred apply [ table-name ]
undo qos wred apply
Default
No WRED table is applied to an interface, and the tail drop mode is used on an interface.
Views
Layer 2/Layer 3 Ethernet interface view
Predefined user roles
network-admin
Parameters
table-name: Specifies a WRED table by its name, a case-sensitive string of 1 to 32 characters. If you do not specify a WRED table, this command applies the default WRED table to the interface.
Examples
# Apply WRED table table1 to HundredGigE 1/0/1.
<Sysname> system-view
[Sysname] interface hundredgige 1/0/1
[Sysname-HundredGigE1/0/1] qos wred apply table1
Related commands
display qos wred interface
display qos wred table
qos wred queue table
qos wred queue table
Use qos wred queue table to create a WRED table and enter its view, or enter the view of an existing WRED table.
Use undo qos wred queue table to delete a WRED table.
Syntax
qos wred queue table table-name
undo qos wred queue table table-name
Default
No WRED tables exist.
Views
System view
Predefined user roles
network-admin
Parameters
table table-name: Specifies a name for the WRED table, a case-sensitive string of 1 to 32 characters.
Usage guidelines
You cannot delete a WRED table in use. To delete it, first remove it from the specified interface.
You can use the display qos wred table command to display the default WRED table, which cannot be modified or deleted.
Examples
# Create a queue-based WRED table named queue-table1.
<Sysname> system-view
[Sysname] qos wred queue table queue-table1
[Sysname-wred-table-queue-table1]
Related commands
display qos wred table
queue
Use queue to configure the drop-related parameters for a queue in the queue-based WRED table.
Use undo queue to restore the default.
Syntax
queue queue-id [ drop-level drop-level ] low-limit low-limit high-limit high-limit [ discard-probability discard-prob ]
undo queue { queue-id [ drop-level drop-level ] | all }
Default
The lower limit is 100, the upper limit is 1000, and the drop probability is 10%.
Views
WRED table view
Predefined user roles
network-admin
Parameters
all: Specifies all queues.
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7.
drop-level drop-level: Specifies a drop level. This argument is a consideration for dropping packets. The value 0 corresponds to green packets, the value 1 corresponds to yellow packets, and the value 2 corresponds to red packets. If you do not specify a drop level, the subsequent configuration takes effect on the packets in the queue regardless of the drop level.
low limit low-limit: Specifies the lower limit for the average queue length. The value range for low-limit is 0 to 38000 cell resources. A cell resource is 208 bytes.
high-limit high-limit: Specifies the upper limit for the average queue length. The upper limit must be greater than the lower limit. The value range for high-limit is 0 to 38000 cell resources. A cell resource is 208 bytes.
discard-probability discard-prob: Specifies the denominator for drop probability calculation. The greater the denominator, the greater the calculated drop probability. The value range for discard-prob is 0 to 100.
Usage guidelines
When the average queue size is smaller than the lower threshold, no packet is dropped. When the average queue size is between the lower threshold and the upper threshold, the packets are dropped at random. The longer the queue is, the higher the drop probability is. When the average queue size exceeds the upper threshold, subsequent packets are dropped.
Examples
# In queue-based WRED table queue-table1, configure the following drop-related parameters for packets in queue 1:
· The drop level is 1.
· The lower limit for the average queue length is 10.
· The upper limit for the average queue length is 20.
· The drop probability is 30%.
<Sysname> system-view
[Sysname] qos wred queue table queue-table1
[Sysname-wred-table-queue-table1] queue 1 drop-level 1 low-limit 10 high-limit 20 discard-probability 30
Related commands
display qos wred table
qos wred queue table
queue ecn
Use queue ecn to enable ECN for a queue.
Use undo queue ecn to restore the default.
Syntax
queue queue-id ecn
undo queue queue-id ecn
Default
ECN is disabled for a queue.
Views
WRED table view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID in the range of 0 to 7.
Usage guidelines
When both the receiver and sender support ECN, the device can notify the peer end of the congestion status by identifying and setting the ECN flag. ECN avoids deteriorating congestion.
Examples
# In WRED table queue-table1, enable ECN for queue 1.
<Sysname> system-view
[Sysname] qos wred queue table queue-table1
[Sysname-wred-table-queue-table1] queue 1 ecn
Related commands
display qos wred table
qos wred queue table
queue weighting-constant
Use queue weighting-constant to specify an exponent for average queue length calculation for a queue.
Use undo queue weighting-constant to restore the default.
Syntax
queue queue-id weighting-constant exponent
undo queue queue-id weighting-constant
Default
The exponent for average queue length calculation is 9.
Views
WRED table view
Predefined user roles
network-admin
Parameters
queue-id: Specifies a queue by its ID. The value range for this argument is 0 to 7.
weighting-constant exponent: Specifies the WRED exponent for average queue length calculation. The value range for exponent is 0 to 15.
Usage guidelines
The bigger the exponent is, the less sensitive the average queue size is to real-time queue size changes. The average queue size is calculated using the formula:
Average queue size = previous average queue size × (1-2-n) + current queue size × 2-n,
where n can be configured with the qos wred weighting-constant command.
Examples
# In WRED table queue-table1, set the exponent for average queue length calculation to 12 for queue 1.
<Sysname> system-view
[Sysname] qos wred queue table queue-table1
[Sysname-wred-table-queue-table1] queue 1 weighting-constant 12
Related commands
display qos wred table
qos wred queue table
Aggregate CAR commands
car name
Use car name to use an aggregate CAR action in a traffic behavior.
Use undo car to restore the default.
Syntax
car name car-name
undo car
Default
No aggregate CAR action is configured in a traffic behavior.
Views
Traffic behavior view
Predefined user roles
network-admin
Parameters
car-name: Specifies the name of an aggregate CAR action. This argument must start with a letter, and is a case-sensitive string of 1 to 31 characters.
Examples
# Use aggregate CAR action aggcar-1 in traffic behavior be1.
<Sysname> system-view
[Sysname] traffic behavior be1
[Sysname-behavior-be1] car name aggcar-1
display qos car name
display traffic behavior user-defined
display qos car name
Use display qos car name to display information about aggregate CAR actions.
Syntax
display qos car name [ car-name ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
car-name: Specifies an aggregate CAR action by its name. This argument must start with a letter, and is a case-sensitive string of 1 to 31 characters. If you do not specify an aggregate CAR action, this command displays information about all aggregate CAR actions.
Examples
# (In standalone mode.) Display information about all aggregate CAR actions.
<Sysname> display qos car name
Name: a
Mode: aggregative
CIR 32 (kbps) CBS: 2048 (Bytes) PIR: 888 (kbps) EBS: 0 (Bytes)
Green action : pass
Yellow action : pass
Red action : discard
Slot 0:
Green packets : 0 (Packets), 0 (Bytes)
Yellow packets: 0 (Packets), 0 (Bytes)
Red packets : 0 (Packets), 0 (Bytes)
Slot 1:
Green packets : 0 (Packets), 0 (Bytes)
Yellow packets: 0 (Packets), 0 (Bytes)
Red packets : 0 (Packets), 0 (Bytes)
Slot 2:
Apply failed
Table 29 Command output
|
Field |
Description |
|
Name |
Name of the aggregate CAR action. |
|
Mode |
Type of the CAR action, which can be aggregative. |
|
CIR CBS PIR EBS |
Parameters for the CAR action. |
|
Green action |
Action to take on green packets: · discard—Drops the packets. · pass—Permits the packets to pass through. |
|
Yellow action |
Action to take on yellow packets: · discard—Drops the packets. · pass—Permits the packets to pass through. |
|
Red action |
Action to take on red packets: · discard—Drops the packets. · pass—Permits the packets to pass through. |
|
Green packets |
Statistics about green packets. |
|
Yellow packets |
Statistics about yellow packets. |
|
Red packets |
Statistics about red packets. |
qos car
Use qos car aggregative to configure an aggregate CAR action.
Use undo qos car to delete an aggregate CAR action.
Syntax
qos car car-name { aggregative | hierarchy } cir committed-information-rate [ cbs committed-burst-size [ ebs excess-burst-size ] ] [ green action | red action | yellow action ] *
qos car car-name { aggregative | hierarchy } cir committed-information-rate [ cbs committed-burst-size ] pir peak-information-rate [ ebs excess-burst-size ] [ green action | red action | yellow action ] *
undo qos car car-name
Default
No aggregate CAR action is configured.
Views
System view
Predefined user roles
network-admin
Parameters
car-name: Specifies the name of the aggregate CAR action. This argument must start with a letter, and is a case-sensitive string of 1 to 31 characters.
aggregative: Specifies the global CAR action as an aggregate CAR action.
hierarchy: Specifies the global CAR action as a hierarchical CAR action.
cir committed-information-rate: Specifies the CIR in kbps, which is an average traffic rate. The value range for committed-information-rate is 8 to 160000000, in increments of 8.
cbs committed-burst-size: Specifies the CBS in bytes. The value range for committed-burst-size is 512 to 256000000, in increments of 512. The default value for this argument is the product of 62.5 and the CIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512 that is greater than the product. A default value greater than 256000000 is converted to 256000000.
ebs excess-burst-size: Specifies the EBS in bytes. The value range for excess-burst-size is 0 to 256000000, in increments of 512. If the PIR is configured, the default EBS is the product of 62.5 and the PIR and must be an integral multiple of 512. When the product is not an integral multiple of 512, it is rounded up to the nearest integral multiple of 512. A default value greater than 256000000 is converted to 256000000.
pir peak-information-rate: Specifies the PIR in kbps. The value range for peak-information-rate is 8 to 160000000, in increments of 8.
green action: Specifies the action to take on packets that conform to CIR. The default setting is pass.
red action: Specifies the action to take on the packet that conforms to neither CIR nor PIR. The default setting is discard.
yellow action: Specifies the action to take on packets that conform to PIR but not to CIR. The default setting is pass.
action: Specifies the action to take on packets:
· discard: Drops the packet.
· pass: Permits the packet to pass through.
· remark-dot1p-pass new-cos: Sets the 802.1p priority value of the 802.1p packet to new-cos and permits the packet to pass through. The new-cos argument is in the range of 0 to 7.
· remark-dscp-pass new-dscp: Remarks the packet with a new DSCP value and permits the packet to pass through. The new-dscp argument is in the range of 0 to 63. Alternatively, you can specify the new-dscp argument with af11, af12, af13, af21, af22, af23, af31, af32, af33, af41, af42, af43, cs1, cs2, cs3, cs4, cs5, cs6, cs7, default, or ef.
Usage guidelines
To use two rates for aggregate CAR, configure the qos car command with the pir peak-information-rate option. To use one rate for aggregate CAR, configure the qos car command without the pir peak-information-rate option.
An aggregate CAR action takes effect only after it is used in a QoS policy.
Examples
# Configure aggregate CAR action aggcar-1, where CIR is 25600, CBS is 512000, and red packets are dropped.
<Sysname> system-view
[Sysname] qos car aggcar-1 aggregative cir 25600 cbs 512000 red discard
display qos car name
reset qos car name
Use reset qos car name to clear the statistics about aggregate CAR actions.
Syntax
reset qos car name [ car-name ]
Views
User view
Predefined user roles
network-admin
Parameters
car-name: Specifies an aggregate CAR action by its name. This argument must start with a letter, and is a case-sensitive string of 1 to 31 characters. If you do not specify an aggregate CAR action, this command clears statistics for all aggregate CAR actions.
Examples
# Clear the statistics about aggregate CAR action aggcar-1.
Control plane packet-drop logging commands
qos control-plane logging interval
Use qos control-plane logging interval to set the interval for sending control plane packet-drop logs.
Use undo qos control-plane logging interval to restore the default.
Syntax
qos control-plane logging interval interval
undo qos control-plane logging interval
Default
The interval for sending control plane packet-drop logs is 5 seconds.
Views
System view
Predefined user roles
network-admin
Parameters
interval: Specifies the interval for sending control plane packet-drop logs, in the range of 5 to 60 seconds.
Usage guidelines
This command take effect on all control plane protocols enabled with packet-drop logging. A control plane packet-drop log contains only the number of packets dropped during the interval. If no packets are dropped during an interval, no log is sent.
Examples
# Set the interval for sending control plane packet-drop logs to 10 seconds.
<Sysname> system-view
[Sysname] qos control-plane logging interval 10
Related commands
qos control-plane protocol logging enable
qos control-plane logging protocol enable
Use qos control-plane logging protocol enable to enable packet-drop logging for control plane protocols.
Use undo qos control-plane logging protocol enable to disable packet-drop logging for control plane protocols.
Syntax
qos control-plane logging protocol { protocol-list&<1-8> | all } enable
undo qos control-plane logging protocol { protocol-list&<1-8> | all } enable
Default
Packet-drop logging is disabled for all control plane protocols.
Views
System view
Predefined user roles
network-admin
Parameters
protocol-list&<1-8>: Specifies a space-separated list of up to eight control plane protocol items. Each item specifies a control plane protocol or a range of control plane protocol s in the form of protocol-name1 to protocol-name2.
all: Specifies all control plane protocols.
Usage guidelines
A device provides the data plane and the control plane.
· Data plane—The units at the data plane are responsible for receiving, transmitting, and switching (forwarding) packets, such as various dedicated forwarding chips. They deliver super processing speeds and throughput.
· Control plane—The units at the control plane are processing units running most routing and switching protocols. They are responsible for protocol packet resolution and calculation, such as CPUs. Compared with data plane units, the control plane units allow for great packet processing flexibility but have lower throughput.
If protocol packets sent to the control plane are dropped, the protocol operation will be affected. You can configure control plane packet-drop logging. The device regularly generates and sends logs to the information center. For information about configuring the information center, see Network Management and Monitoring Configuration Guide.
Examples
# Enable packet-drop logging for all control plane protocols.
<Sysname> system-view
[Sysname] qos control-plane logging protocol all enable
Related commands
qos control-plane logging interval
