The system capability characteristics value of modules of QoS.
car module:
Index Characteristic Value
1 car function 1, if supported.
2 global car If one of the last 3 bits of this object
is set to 1, it indicates that global
CAR is supported.
bit 0 stands for aggregative CAR,
bit 1 stands for hierarchy CAR,
bit 2 stands for common global CAR.
3 mqc car 1, if supported.
4 mqc global car bit 0 stands for application of aggregative
CAR by MQC,
bit 1 stands for application of hierarchy
CAR by MQC.
5 if car If one of the last 2 bits of this object
is set to 1, it indicates that interface CAR
is supported.
bit 0 stands for normal CAR on interface,
bit 1 stands for application of aggregative
CAR on interface.
6 mqc car token If one of the last 3 bits of this object
is set to 1, it indicates that 3 token
parameters are all supported.
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
7 aggregative car token
If one of the last 3 bits of this object
is set to 1, it indicates that 3 token
parameters are all supported.
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
8 hierarchy car token
If one of the last 3 bits of this object
is set to 1, it indicates that 3 token
parameters are all supported.
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
9 if car token If one of the last 3 bits of this object
is set to 1, it indicates that 3 token
parameters are all supported.
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
10 mqc car green action
If one of the last 10 bits of this object
is set to 1, it indicates that green action
is supported.
bit 0 stands for continuing,
bit 1 stands for dropping,
bit 2 stands for transmitting,
bit 3 stands for remarking IP precedence,
bit 4 stands for remarking DSCP,
bit 5 stands for remarking MPLS-EXP,
bit 6 stands for remarking CLP bit of
ATM,
bit 7 stands for remarking DE bit of
FR,
bit 8 stands for remarking 802.1p priority
value,
bit 9 stands for remarking local precedence.
11 mqc car yellow action
If one of the last 10 bits of this object
is set to 1, it indicates that yellow action
is supported and the mask is the same
as that for green action.
12 mqc car red action
If one of the last 10 bits of this object
is set to 1, it indicates that red action is
supported and the mask is the same as
that for green action.
13 aggregative car green action
If one of the last 10 bits of this object
is set to 1, it indicates that green action
is supported.
bit 0 stands for continuing,
bit 1 stands for dropping,
bit 2 stands for transmitting,
bit 3 stands for remarking IP precedence,
bit 4 stands for remarking DSCP,
bit 5 stands for remarking MPLS-EXP,
bit 6 stands for remarking CLP bit of
ATM,
bit 7 stands for remarking DE bit of
FR,
bit 8 stands for remarking 802.1p priority
value,
bit 9 stands for remarking local precedence.
14 aggregative car yellow action
If one of the last 10 bits of this object
is set to 1, it indicates that yellow action
is supported and the mask is the same as
that for green action.
15 aggregative car red action
If one of the last 10 bits of this object
is set to 1, it indicates that red action is
supported and the mask is the same as
that for green action.
16 hierarchy car green action
If one of the last 10 bits of this object
is set to 1, it indicates that green action
is supported.
bit 0 stands for continuing,
bit 1 stands for dropping,
bit 2 stands for transmitting,
bit 3 stands for remarking IP precedence,
bit 4 stands for remarking DSCP,
bit 5 stands for remarking MPLS-EXP,
bit 6 stands for remarking CLP bit of
ATM,
bit 7 stands for remarking DE bit of
FR,
bit 8 stands for remarking 802.1p priority
value,
bit 9 stands for remarking local precedence.
17 hierarchy car yellow action
If one of the last 10 bits of this object
is set to 1, it indicates that yellow action
is supported and the mask is the same as
that for green action.
18 hierarchy car red action
If one of the last 10 bits of this object
is set to 1, it indicates that red action is
supported and the mask is the same as
that for green action.
19 lower limit of cir
The lower limit value of committed information
rate(integer).
20 upper limit of cir
The upper limit value of committed information
rate(integer).
21 cir granularity
The value of committed information rate
granularity(integer).
22 lower limit of pir
The lower limit value of peak information
rate(integer).
23 upper limit of pir
The upper limit value of peak information
rate(integer).
24 pir granularity
The value of peak information rate
granularity(integer).
25 lower limit of burst size
The lower limit value of burst size(integer).
26 upper limit of burst size
The upper limit value of burst size(integer).
27 burst size granularity
The value of burst size granularity(integer).
28 default burst size
The default value of burst size(integer).
29 lower limit of excess burst size
The lower limit value of excess burst
size(integer).
30 upper limit of excess burst size
The upper limit value of excess burst
size(integer).
31 excess burst size granularity
The value of excess burst size
granularity(integer).
32 default excess burst size
The default value of excess burst size(integer).
33 green packet statistics
If one of the last 2 bits of this object
is set to 1, it indicates that counting of
green packets is supported.
bit 0 stands for counting by packet.
bit 1 stands for counting by byte.
34 red packet statistics
If one of the last 2 bits of this object
is set to 1, it indicates that counting of
red packets is supported.
bit 0 stands for counting by packet.
bit 1 stands for counting by byte.
35 yellow packet statistics
If one of the last 2 bits of this object
is set to 1, it indicates that counting of
yellow packets is supported.
bit 0 stands for counting by packet.
bit 1 stands for counting by byte.
36 if car direction
If one of the last 2 bits of this object
is set to 1, it indicates that the direction
type is supported.
bit 0 stands for inbound,
bit 1 stands for outbound.
37 if car match type
If one of the last 4 bits of this object
is set to 1, it indicates that the match type
is supported.
bit 0 stands for matching any packets,
bit 1 stands for matching IPv4 ACL,
bit 2 stands for matching IPv6 ACL,
bit 3 stands for matching CAR list.
38 if car match ACL type
If one of the last 6 bits of this object
is set to 1, it indicates that ACL types are
supported.
bit 0 stands for matching IPv4 basic ACL,
bit 1 stands for matching IPv4 advance ACL,
bit 2 stands for matching MAC ACL,
bit 3 stands for matching user ACL,
bit 4 stands for matching IPv6 basic ACL,
bit 5 stands for matching IPv6 advance ACL.
39 if car green action
If one of the last 10 bits of this object
is set to 1, it indicates that green action
is supported.
bit 0 stands for continuing,
bit 1 stands for dropping,
bit 2 stands for transmitting,
bit 3 stands for remarking IP precedence,
bit 4 stands for remarking DSCP,
bit 5 stands for remarking MPLS-EXP,
bit 6 stands for remarking CLP bit of
ATM,
bit 7 stands for remarking DE bit of
FR,
bit 8 stands for remarking 802.1p priority
value,
bit 9 stands for remarking local precedence.
40 if car yellow action
If one of the last 10 bits of this object
is set to 1, it indicates that yellow action
is supported and the mask is the same as
that for green action.
41 if car red action
If one of the last 10 bits of this object
is set to 1, it indicates that red action is
supported and the mask is the same as that
for green action.
42 car list 1, if supported.
43 car list MPLS-EXP
1, if supported.
44 car list min IP mask length
The minimum length of IP mask (integer).
gts module:
Index Characteristic Value
1 gts function 1, if supported.
2 if gts If one of the last 4 bits of this object
is set to 1, it indicates that the GTS on
interface is supported,
bit 0 stands for matching any,
bit 1 stands for matching IPv4 ACL,
bit 2 stands for matching IPv6 ACL,
bit 3 stands for matching queue.
3 if gts token If one of the last 3 bits of this object
is set to 1, it indicates that the interface
GTS token is supported,
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
4 if gts queue length
1, if supported.
5 if gts match acl type
If one of the last 6 bits of this object
is set to 1, it indicates that ACL types
are supported,
bit 0 stands for IPv4 basic ACL,
bit 1 stands for IPv4 advanced ACL,
bit 2 stands for MAC ACL,
bit 3 stands for user ACL,
bit 4 stands for IPv6 basic ACL,
bit 5 stands for IPv6 advanced ACL.
6 if gts queue number
The queue number of GTS(integer).
7 mqc gts If one of the last 2 bits of this object
is set to 1, it indicates that GTS
configuration for behavior is supported.
bit 0 stands for absolute GTS,
bit 1 stands for percent GTS.
8 mqc gts token If one of the last 3 bits of this object
is set to 1, it indicates that the behavior
GTS token is supported,
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
9 mqc gts queue length
1, if supported.
10 lower limit of cir
The lower limit value of committed information
rate(integer).
11 upper limit of cir
The upper limit value of committed information
rate(integer).
12 cir granularity
The value of committed information rate
granularity(integer).
13 lower limit of pir
The lower limit value of peak information
rate(integer).
14 upper limit of pir
The upper limit value of peak information
rate(integer).
15 pir granularity
The value of peak information rate
granularity(integer).
16 lower limit of burst size
The lower limit value of burst size(integer).
17 upper limit of burst size
The upper limit value of burst size(integer).
18 burst size granularity
The value of burst size granularity(integer).
19 lower limit of excess burst size
The lower limit value of excess burst
size(integer).
20 upper limit of excess burst size
The upper limit value of excess burst
size(integer).
21 excess burst size granularity
The value of excess burst size
granularity(integer).
22 lower limit of queue length
The lower limit value of queue length(integer).
23 upper limit of queue length
The upper limit value of queue length(integer).
24 default queue length
The default length of queue(integer).
25 transmission statistics
If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of transmission traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
26 delay statistics
If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of delay traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
27 drop statistics
If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of drop traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
lr module:
Index Characteristic Value
1 lr function 1, if supported.
2 lr token If one of the last 3 bits of this object
is set to 1, it indicates that the rate
limit token is supported,
bit 0 stands for burst size,
bit 1 stands for excess burst size,
bit 2 stands for peak information rate.
3 lr direction If one of the last 2 bits of this object
is set to 1, it indicates that the direction
type is supported,
bit 0 stands for inbound direction,
bit 1 stands for outbound direction.
4 transmission statistics
If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of transmission traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
5 delay statistics
If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of delay traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
6 drop statistics If one of the last 2 bits of this object
is set to 1, it indicates that the counting
of drop traffic is supported,
bit 0 stands for counting by packet,
bit 1 stands for counting by byte.
hardware queue module:
Index Characteristic Value
1 hardware queue management function
1, if supported.
2 sp port type If one of the last 8 bits of this object
is set to 1, it indicates that the SP on
port is supported,
bit 0 stands for Layer 2 Ethernet port,
bit 1 stands for Layer 3 Ethernet port,
bit 2 stands for POS port,
bit 3 stands for ATM port,
bit 4 stands for serial port,
bit 5 stands for mesh port,
bit 6 stands for MFR port,
bit 7 stands for RPR port.
3 wrr port type If one of the last 8 bits of this object
is set to 1, it indicates that the WRR on
port is supported,
bit 0 stands for Layer 2 Ethernet port,
bit 1 stands for Layer 3 Ethernet port,
bit 2 stands for POS port,
bit 3 stands for ATM port,
bit 4 stands for serial port,
bit 5 stands for mesh port,
bit 6 stands for MFR port,
bit 7 stands for RPR port.
4 wfq port type If one of the last 8 bits of this object
is set to 1, it indicates that the WFQ on
port is supported,
bit 0 stands for Layer 2 Ethernet port,
bit 1 stands for Layer 3 Ethernet port,
bit 2 stands for POS port,
bit 3 stands for ATM port,
bit 4 stands for serial port,
bit 5 stands for mesh port,
bit 6 stands for MFR port,
bit 7 stands for RPR port.
5 wrr max group id
The max group ID of WRR. If it is not
set to 0, it indicates that WRR group
is supported(integer).
6 wrr unit If one of the last 4 bits of this object
is set to 1, it indicates that the WRR
unit type is supported,
bit 0 stands for weight,
bit 1 stands for byte count,
bit 2 stands for bandwidth,
bit 3 stands for percent.
7 lower limit of wrr weight
The lower limit value of WRR weight (integer).
8 upper limit of wrr weight
The upper limit value of WRR weight (integer).
9 lower limit of wrr byte
The lower limit value of WRR byte (integer).
10 upper limit of wrr byte
The upper limit value of WRR byte (integer).
11 wfq max group id
The max group ID of WFQ. If it is not
set to 0, it indicates that WFQ group
is supported(integer).
12 wfq unit If one of the last 4 bits of this object
is set to 1, it indicates that the WFQ
unit type is supported,
bit 0 stands for weight,
bit 1 stands for byte count,
bit 2 stands for bandwidth,
bit 3 stands for percent.
13 lower limit of wfq weight
The lower limit value of WFQ weight (integer).
14 upper limit of wfq weight
The upper limit value of WFQ weight (integer).
15 lower limit of wfq byte
The lower limit value of WFQ byte (integer).
16 upper limit of wfq byte
The upper limit value of WFQ byte (integer).
17 lower limit of bandwidth
The lower limit value of bandwidth(integer).
18 profile port type
If one of the last 8 bits of this object
is set to 1, it indicates that the HQ profile
on port is supported,
bit 0 stands for Layer 2 Ethernet port,
bit 1 stands for Layer 3 Ethernet port,
bit 2 stands for POS port,
bit 3 stands for ATM port,
bit 4 stands for serial port,
bit 5 stands for mesh port,
bit 6 stands for MFR port,
bit 7 stands for RPR port.
19 profile queue mode
If one of the last 3 bits of this object
is set to 1, it indicates that the HQ profile
mode is supported,
bit 0 stands for SP,
bit 1 stands for WRR,
bit 2 stands for WFQ.
20 profile default queue mode
If one of the last 3 bits of this object
is set to 1, it indicates that the HQ profile
default mode is supported,
bit 0 stands for SP,
bit 1 stands for WRR,
bit 2 stands for WFQ.
21 profile max queue number
The max number of profile queue(integer).
22 profile max wrr group id
The max value of profile WRR group ID.
If it is not set to 0, it indicates
that profile WRR group is supported(integer).
23 lower limit of profile wrr weight
The lower limit value of profile WRR
weight(integer).
24 upper limit of profile wrr weight
The upper limit value of profile WRR
weight(integer).
25 lower limit of profile wfq weight
The lower limit value of profile WFQ
weight(integer).
26 upper limit of profile wfq weight
The upper limit value of profile WFQ
weight(integer).
27 low latency 1, if supported.
software queue module:
Index Characteristic Value
1 software queue function
1, if supported.
2 software queue type
If one of the last 4 bits of this object
is set to 1, it indicates that the software
queue is supported,
bit 0 stands for FIFO,
bit 1 stands for WFQ,
bit 2 stands for CBQ,
bit 3 stands for RTPQ.
3 wfq default queue number
The default number of WFQ queues(integer).
4 wfq max queue number
The max number of WFQ queues(integer).
5 classifier-behaviour wfq
1, if supported.
6 classifier-behaviour queue PCT
1, if supported.
7 min CBS ratio The min ratio of burst size(integer).
8 max CBS ratio The max ratio of burst size(integer).
9 classifier-behaviour queue PIR
1, if supported.
10 queue max length
The max length of queue(integer).
11 queue min bandwidth
The min bandwidth of queue(integer).
12 queue max bandwidth
The max bandwidth of queue(integer).
13 queue min CBS The min burst size of queue(integer).
14 queue max CBS The max burst size of queue(integer).
15 queue min PIR The min peak information rate of queue(integer).
16 queue max PIR The max peak information rate of queue(integer).
17 queue resequencing
1, if supported.
18 QM token 1, if supported.
19 preclassify 1, if supported.
20 predrop 1, if supported.
21 layer 2 ethernet interface
1, if supported.
22 remain assured forwarding
1, if supported.
wred module:
Index Characteristic Value
1 wred function 1, if supported.
2 wred if type If one of the last 2 bits of this object
is set to 1, it indicates that the WRED
on interface is supported,
bit 0 stands for Layer 2 interface,
bit 1 stands for Layer 3 interface.
3 table if type If one of the last 2 bits of this object
is set to 1, it indicates that the table
on interface is supported,
bit 0 stands for Layer 2 interface,
bit 1 stands for Layer 3 interface.
4 table type If one of the last 3 bits of this object
is set to 1, it indicates that the WRED
table is supported,
bit 0 stands for queue based table,
bit 1 stands for IP precedence based table,
bit 2 stands for DSCP based table.
5 drop level If one of the last 3 bits of this object
is set to 1, it indicates that the WRED
drop level is supported,
bit 0 stands for green,
bit 1 stands for yellow,
bit 2 stands for red.
6 queue number The queue number of WRED table(integer).
7 lower limit of min threshold
The lower limit value of min threshold(integer).
8 upper limit of min threshold
The upper limit value of min threshold(integer)
9 lower limit of max threshold
The lower limit value of max threshold(integer).
10 upper limit of max threshold
The upper limit value of max threshold(integer)
11 min exponent The min value of exponent(integer).
12 max exponent The max value of exponent(integer).
13 lower limit of discard prob
The lower limit value of mark probability
denominator(integer).
14 upper limit of discard prob
The upper limit value of mark probability
denominator(integer).
15 ECN(explicit congestion notification)
1, if supported.
16 default table 1, if supported.
17 mqc wred 1, if supported.
priority mapping table module:
Index Characteristic Value
1 priority map table function
1, if supported.
2 802.1p map to lp
If one of the last 3 bits of this object
is set to 1, it indicates that this map
type is supported,
bit 0 stands for no direction,
bit 1 stands for inbound,
bit 2 stands for outbound.
3 802.1p map to dp
Same as 802.1p map to lp.
4 exp map to lp Same as 802.1p map to lp.
5 dscp map to lp Same as 802.1p map to lp.
6 exp map to dp Same as 802.1p map to lp.
7 dscp map to dp Same as 802.1p map to lp.
8 dscp map to 802.1p
Same as 802.1p map to lp.
9 802.1p map to dscp
Same as 802.1p map to lp.
10 dscp map to dscp
Same as 802.1p map to lp.
11 dscp map to exp
Same as 802.1p map to lp.
12 exp map to dscp
Same as 802.1p map to lp.
13 exp map to 802.1p
Same as 802.1p map to lp.
14 exp map to exp Same as 802.1p map to lp.
15 lp map to 802.1p
Same as 802.1p map to lp.
16 802.1p map to rpr
Same as 802.1p map to lp.
17 dscp map to rpr
Same as 802.1p map to lp.
18 exp map to rpr Same as 802.1p map to lp.
19 IP precedence map to rpr
Same as 802.1p map to lp.
20 up map to dot1p
Same as 802.1p map to lp.
21 up map to dscp Same as 802.1p map to lp.
22 up map to exp Same as 802.1p map to lp.
23 up map to dp Same as 802.1p map to lp.
24 up map to lp Same as 802.1p map to lp.
25 up map to rpr Same as 802.1p map to lp.
26 up map to fc Same as 802.1p map to lp.
27 lp map to dscp Same as 802.1p map to lp.
28 dot11e map to lp
Same as 802.1p map to lp.
29 lp map to dot11e
Same as 802.1p map to lp.
30 lp map to lp Same as 802.1p map to lp.
31 dot1p map to exp
Same as 802.1p map to lp.
32 lp map to exp Same as 802.1p map to lp.
33 lp map to dp Same as 802.1p map to lp.
34 up map to up Same as 802.1p map to lp.
35 dot1p map to dot1p
Same as 802.1p map to lp.
36 802.1p color map to lp
If one of the last 6 bits of this object
is set to 1, it indicates that this map
type is supported,
bit 0 stands for no direction,
bit 1 stands for inbound,
bit 2 stands for outbound,
bit 3 stands for color green,
bit 4 stands for color yellow,
bit 5 stands for color red.
37 802.1p color map to dp
Same as 802.1p color map to lp.
38 exp color map to lp
Same as 802.1p color map to lp.
39 dscp color map to lp
Same as 802.1p color map to lp.
40 exp color map to dp
Same as 802.1p color map to lp.
41 dscp color map to dp
Same as 802.1p color map to lp.
42 dscp color map to 802.1p
Same as 802.1p color map to lp.
43 802.1p color map to dscp
Same as 802.1p color map to lp.
44 dscp color map to dscp
Same as 802.1p color map to lp.
45 dscp color map to exp
Same as 802.1p color map to lp.
46 exp color map to dscp
Same as 802.1p color map to lp.
47 exp color map to 802.1p
Same as 802.1p color map to lp.
48 exp color map to exp
Same as 802.1p color map to lp.
49 lp color map to 802.1p
Same as 802.1p color map to lp.
50 802.1p color map to rpr
Same as 802.1p color map to lp.
51 dscp color map to rpr
Same as 802.1p color map to lp.
52 exp color map to rpr
Same as 802.1p color map to lp.
53 IP precedence color map to rpr
Same as 802.1p color map to lp.
54 up color map to dot1p
Same as 802.1p color map to lp.
55 up color map to dscp
Same as 802.1p color map to lp.
56 up color map to exp
Same as 802.1p color map to lp.
57 up color map to dp
Same as 802.1p color map to lp.
58 up color map to lp
Same as 802.1p color map to lp.
59 up color map to rpr
Same as 802.1p color map to lp.
60 up color map to fc
Same as 802.1p color map to lp.
61 lp color map to dscp
Same as 802.1p color map to lp.
62 dot11e color map to lp
Same as 802.1p color map to lp.
63 lp color map to dot11e
Same as 802.1p color map to lp.
64 lp color map to lp
Same as 802.1p color map to lp.
65 dot1p color map to exp
Same as 802.1p color map to lp.
66 lp color map to exp
Same as 802.1p color map to lp.
67 lp color map to dp
Same as 802.1p color map to lp.
68 up color map to up
Same as 802.1p color map to lp.
69 dot1p color map to dot1p
Same as 802.1p color map to lp.
70 up to fc export number
The export fc number of up map to fc table.
71 behavior map type
If one of the last 3 bits of this object
is set to 1, it indicates that the pre-primap
table for behavior is supported,
bit 0 stands for pre-map,
bit 1 stands for colored pre-map,
bit 2 stands for color-dp.
72 behavior table type
0, if no map table or colored map table
is supported,
1, if all map table and colored map table
are supported,
2, if only specified colored map table
are supported, and the specified colored
map table are {dot1p-dot1p, dot1p-dp,
dot1p-dscp, dot1p-exp, dot1p-lp, dscp-dot1p,
dscp-dp, dscp-dscp, dscp-exp, dscp-lp,
exp-dot1p, exp-dp, exp-dscp, exp-exp, exp-lp}.
port priority module:
Index Characteristic Value
1 port priority function
1, if supported.
2 port priority type
If one of the last 6 bits of this object
is set to 1, it indicates that the port
priority type is supported,
bit 0 stands for default,
bit 1 stands for dot1p,
bit 2 stands for DP,
bit 3 stands for DSCP,
bit 4 stands for EXP,
bit 5 stands for LP.
3 priority trust mode
If one of the last 7 bits of this object
is set to 1, it indicates that the trust
mode is supported,
bit 0 stands for untrust,
bit 1 stands for dot1p,
bit 2 stands for DSCP,
bit 3 stands for EXP,
bit 4 stands for IP precedence,
bit 5 stands for dot11e,
bit 6 stands for auto.
4 override 1, if supported.
5 level 3 ethernet
1, if supported.
redirect&mirror module:
Index Characteristic Value
1 redirect and mirror function
1, if supported.
2 redirect to CPU
1, if supported.
3 redirect and set vlan
1, if supported.
4 redirect interface type
If one of the last 15 bits of this object
is set to 1, it indicates that the redirect
interface type is supported,
bit 0 stands for L2Eth,
bit 1 stands for L2GE,
bit 2 stands for L2XGE,
bit 3 stands for L2FGE,
bit 4 stands for L2HGE,
bit 5 stands for L3Eth,
bit 6 stands for L3GE,
bit 7 stands for L3XGE,
bit 8 stands for L3FGE,
bit 9 stands for L3HGE,
bit 10 stands for tunnel,
bit 11 stands for RAGG,
bit 12 stands for BAGG,
bit 13 stands for L2TGE,
bit 14 stands for L3TGE.
5 mirror to CPU 1, if supported.
6 mirror to vlan 1, if supported.
7 mirror to slave interface
1, if supported.
8 mirror interface type
If one of the last 15 bits of this object
is set to 1, it indicates that the mirror
interface type is supported,
bit 0 stands for L2Eth,
bit 1 stands for L2GE,
bit 2 stands for L2XGE,
bit 3 stands for L2FGE,
bit 4 stands for L2HGE,
bit 5 stands for L3Eth,
bit 6 stands for L3GE,
bit 7 stands for L3XGE,
bit 8 stands for L3FGE,
bit 9 stands for L3HGE,
bit 10 stands for tunnel,
bit 11 stands for RAGG,
bit 12 stands for BAGG,
bit 13 stands for L2TGE,
bit 14 stands for L3TGE.
9 track OAP 1, if supported.
mqc module:
Index Characteristic Value
1 qos policy function
1, if supported.
2 interface policy
If one of the last 2 bits of this object
is set to 1, it indicates that the interface
policy is supported,
bit 0 stands for inbound,
bit 1 stands for outbound.
3 global policy If one of the last 2 bits of this object
is set to 1, it indicates that the global
policy is supported,
bit 0 stands for inbound,
bit 1 stands for outbound.
4 vlan policy If one of the last 2 bits of this object
is set to 1, it indicates that the VLAN
policy is supported,
bit 0 stands for inbound,
bit 1 stands for outbound.
5 copp policy If one of the last 2 bits of this object
is set to 1, it indicates that the COPP
policy is supported,
bit 0 stands for inbound,
bit 1 stands for outbound.
6 interface type If one of the last 5 bits of this object
is set to 1, it indicates that the interface
type is supported,
bit 0 stands for VT(Virtual-Template),
bit 1 stands for tunnel,
bit 2 stands for VLAN,
bit 3 stands for RAGG,
bit 4 stands for BAGG.
7 system predefined
1, if supported.
8 rate statistics 1, if supported.
9 min interval The min interval of rate statistics (integer).
10 max interval The max interval of rate statistics (integer).
11 match not 1, if supported.
12 match any 1, if supported.
13 match acl If one of the last 6 bits of this object
is set to 1, it indicates that the ACL
type is supported,
bit 0 stands for IPv4 basic ACL,
bit 1 stands for IPv4 advanced ACL,
bit 2 stands for MAC ACL,
bit 3 stands for user ACL,
bit 4 stands for IPv6 basic ACL,
bit 5 stands for IPv6 advanced ACL.
14 match mac 1, if supported.
15 match customer vlan ID
If one of the last 2 bits of this object
is set to 1, it indicates that the match
type is supported,
bit 0 stands for customer VLAN ID list,
bit 1 stands for customer VLAN ID range.
16 match service vlan ID
If one of the last 2 bits of this object
is set to 1, it indicates that the match
type is supported,
bit 0 stands for service VLAN ID list,
bit 1 stands for service VLAN ID range.
17 match customer dot1p
1, if supported.
18 match service dot1p
1, if supported.
19 match dscp 1, if supported.
20 match ip precedence
1, if supported.
21 match protocol If one of the last 4 bits of this object
is set to 1, it indicates that the protocol
type is supported,
bit 0 stands for IPv4 protocol,
bit 1 stands for IPv6 protocol,
bit 2 stands for bittorrent protocol,
bit 3 stands for ARP protocol.
22 match qos local ID
1, if supported.
23 match copp protocol
1, if supported.
24 match copp group
If one of the last 7 bits of this object
is set to 1, it indicates that the COPP
group type is supported,
bit 0 stands for critical group,
bit 1 stands for important group,
bit 2 stands for management group,
bit 3 stands for normal group,
bit 4 stands for redirect group,
bit 5 stands for monitor group,
bit 6 stands for exception group.
25 match mpls label
1, if supported.
26 match second mpls label
1, if supported.
27 match mpls exp 1, if supported.
28 match second mpls exp
1, if supported.
29 match forwarding layer
If one of the last 2 bits of this object
is set to 1, it indicates that the forwarding
layer is supported,
bit 0 stands for bridge,
bit 1 stands for route.
30 match input interface
1, if supported.
31 match classifier
1, if supported.
32 match RTP protocol
1, if supported.
33 match packet length
1, if supported.
34 match drop priority
1, if supported.
35 match local precedence
1, if supported.
36 match app-group
1, if supported.
37 account action If it is not set to 0, it indicates that
accounting action is supported.
1, if accounting by default method is
supported,
2, if accounting by one method of packet
and byte is supported,
3, if accounting by neither method or one
of packet and byte is supported,
4, if accounting by neither method or one
or two of packet and byte is supported.
38 filter action 1, if supported.
39 nest topmost vlan tag
If one of the last 2 bits of this object
is set to 1, it indicates that the nest
action is supported,
bit 0 stands for nest VLAN ID,
bit 1 stands for nest VLAN ID and COS.
40 remark action If one of the last 10 bits of this object
is set to 1, it indicates that the remark
action is supported,
bit 0 stands for DSCP,
bit 1 stands for IP precedence,
bit 2 stands for MPLS-EXP,
bit 3 stands for dot1p,
bit 4 stands for QoS local ID,
bit 5 stands for local precedence,
bit 6 stands for drop precedence,
bit 7 stands for customer VLAN ID,
bit 8 stands for service VLAN ID,
bit 9 stands for customer dot1p trust.
41 green packets remark action
If one of the last 10 bits of this object
is set to 1, it indicates that the green
packets remark action is supported and
the mask is the same as that for remark
action.
42 yellow remark action
If one of the last 10 bits of this object
is set to 1, it indicates that the yellow
packets remark action is supported and
the mask is the same as that for remark
action.
43 red remark action
If one of the last 10 bits of this object
is set to 1, it indicates that the red
packets remark action is supported and
the mask is the same as that for remark
action.
44 nest policy action
1, if supported.
45 classifier-behavior mode type
If one of the last 6 bits of this object
is set to 1, it indicates that the
classifier-behavior mode type is supported,
bit 0 stands for none,
bit 1 stands for dot1q-tag-manipulation
mode,
bit 2 stands for QPPB mode,
bit 3 stands for IP-source-guard mode,
bit 4 stands for voice-VLAN mode,
bit 5 stands for DCBX mode.
46 classifier-behavior statistics unit
If one of the last 2 bits of this object
is set to 1, it indicates that the
classifier-behavior statistics unit is
supported,
bit 0 stands for packet,
bit 1 stands for byte.
queue statistic module:
Index Characteristic Value
1 queue statistic function
1, if supported.
2 TC counter 1, if supported.
3 port queue statistic
1, if supported.
4 queue global function
1, if supported.
5 TC parameter If one of the last 4 bits of this object
is set to 1, it indicates that the TC parameter
is supported,
bit 0 stands for interface,
bit 1 stands for VLAN,
bit 2 stands for local precedence,
bit 3 stands for drop precedence.
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