NAME
altq.conf
- ALTQ configuration file
DESCRIPTION
The
altq.conf
file contains a number of lines specifying the behavior of queueing
disciplines.
Comments start with a # and extend to the end of the line.
The
altqd(8)
program reads
/etc/altq.conf
at startup and sets up queueing disciplines.
BLUE, CBQ (Class-Based Queueing), FIFOQ (First-In First-Out Queue),
HFSC (Hierarchical Fair Service Curve), PRIQ (Priority Queueing),
RED (Random Early Detection), RIO (RED with IN/OUT),
WFQ (Weighted Fair Queueing), JoBS (Joint Buffer Management and
Scheduling)
and CDNR (Diffserv Traffic Conditioner) can be configured in this file.
Interface Commands
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[discipline-specific-options]
The
interface
command specifies a network interface to be under control of ALTQ.
One interface specification is provided for each network interface
under control of ALTQ.
A system configured as a router may have multiple interface
specifications.
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
This is the maximum rate that the queueing discipline will allow on this
interface.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
When
tbrsize
is omitted, the system automatically sets the bucket size
using heuristics.
The token rate is set to the interface bandwidth specified by the
interface
command.
- sched_type
-
Type of a queueing discipline.
It must be either
blue,
cbq,
fifoq,
hfsc,
jobs,
priq,
red,
rio,
or
wfq.
If the interface has only traffic conditioners and no queueing
discipline,
sched_type
can be omitted.
Class Command
- class
-
sched_type
if_name
class_name
parent_name
[red|rio]
[ecn]
[cleardscp]
[discipline-specific-options]
The
class
command specifies a packet scheduling class for CBQ, HFSC, JoBS or PRIQ.
A class specifier must be provided for each packet scheduling class.
- sched_type
-
Type of queueing discipline.
Must correspond to the discipline name in interface specification.
- if_name
-
Interface name.
Must correspond to name in interface specification.
- class_name
-
Arbitrary name for this class.
Must be unique for this interface.
- parent_name
-
The name of the parent class for this class (for CBQ or HFSC).
Parent class must have been previously defined.
PRIQ and JoBS do not have class hierarchy and parent_name must be
NULL
for PRIQ and JoBS classes.
- red
-
Use RED (Random Early Detection) on this class queue.
RED drops packets with the probability proportional to the average
queue length.
- rio
-
Use RIO (RED with In/Out bit) on this class queue.
RIO runs triple RED algorithms at the same time.
- ecn
-
Use RED/ECN (Explicit Congestion Notification) on this
class queue (experimental implementation).
ECN implies RED.
- cleardscp
-
Clear diffserv codepoint in the IP header.
Filter Commands
- filter
-
if_name
class_name
[name fltr_name]
[ruleno num]
filter_values
The
filter
command specifies a filter to classify packets into
a scheduling class.
A filter specifier determines any statically-defined packet
classification rules.
- if_name
-
Name of a network interface (e.g., fxp0).
- class_name
-
Name of a class or a conditioner to which matching packets are directed.
- name
-
Add an arbitrary name to the filter for a future reference.
- ruleno
-
Specifies explicit order of filter matching.
Filter matching is performed from a filter with a larger ruleno.
Default is 0.
filter_value
should be in the following format:
filter_values:
dport
sport
proto
mask value]
[tos value [tos-]
[gpi value]
Here
and
are dotted-decimal addresses of
the destination and the source respectively.
An address may be followed by
netmask
keyword.
dport
and
sport
are port numbers of the destination and the source respectively.
proto
is a protocol number defined for IP packets (e.g. 6 for TCP).
tos
keyword can be used to specify the type of service field value.
gpi
keyword can be used to specify the Security Parameter Index value for
IPsec.
When filter value 0 is used, it is taken as a wildcard.
- filter6
-
if_name
class_name
[name fltr_name]
[ruleno num]
filter6_values
The
filter6
command is for IPv6.
filter6_value
should be in the following format:
- filter6_values
- :
dport
sport
proto
[flowlabel value]
value
[tclassmask value]
[tclass]
[gpi value]
Here
and
are IPv6 addresses of the destination and the source respectively.
An address may be followed by an optional address prefix length.
dport
and
sport
are port numbers of the destination and the source respectively.
proto
is a protocol number defined for IPv6 packets (e.g. 6 for TCP).
flowlabel
keyword can be used to specify the flowlabel field value.
tclass
keyword can be used to specify the traffic class field value.
gpi
keyword can be used to specify the Security Parameter Index value for
IPsec.
When filter value 0 is used, it is taken as a wildcard.
CBQ Commands
CBQ (Class Based Queueing) achieves both partitioning and sharing of
link bandwidth by hierarchically structured classes.
Each class has its own queue and is assigned its share of bandwidth.
A child class can borrow bandwidth from its parent class as long as
excess bandwidth is available.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[efficient]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be either
cbq,
cbq-wrr
(weighted-round robin) or
cbq-prr
(packet-by-packet round robin).
cbq
is equivalent to
cbq-wrr.
- efficient
-
Enables CBQ's link efficiency mode.
This means that the scheduler will send a packet from the first
overlimit class it encounters of all classes of the link-sharing
structure when all classes are overlimit.
This will also cause the scheduler to use greater than its assigned
bandwidth, if the link is capable of more than the assigned bandwidth.
By default, this mode is turned off.
By adding the keyword
efficient
to the interface specification line, enables this mode.
- class
-
sched_type
if_name
class_name
parent_name
[admission cntlload|none]
[priority pri]
[pbandwidth percent]
[exactbandwidth bps]
[borrow]
[default]
[control]
[maxburst count]
[minburst count]
[maxdelay msec]
[packetsize bytes]
[maxpacketsize bytes]
[red|rio]
[ecn]
[flowvalve]
[cleardscp]
The
class
command specifies a CBQ class.
The classes are organized as a hierarchy, and every class, except
for the root class, has a parent.
- sched_type
-
must be
cbq
for a CBQ class.
- if_name
-
Interface name.
Must correspond to name in interface specification.
- class_name
-
Arbitrary name for this class.
Must be unique within the class
hierarchy for this interface.
The name
ctl_class
is a reserved class name.
- parent_name
-
The name of the parent class for this class or
NULL
if this is the root class.
Parent class must have been previously defined.
- admission
-
The type of admission control and QoS type.
cntlload
is controlled load service for RSVP, otherwise, it should be
none.
The default is
none.
- priority
-
High numbers are higher priority.
Max value is 7 and Min value is 0.
Default is 1.
- pbandwidth
-
The percentage of the interface bandwidth allocated to this class.
Generally should add up to 100 percent at each level of the class
hierarchy, although other amounts can be specified for purposes of
experimentation.
- exactbandwidth
-
Specify the bandwidth in bits-per-second instead of
pbandwidth.
Note that the bandwidth allocation of CBQ is not so precise but this
is just a way to pass a parameter to CBQ; the user is supposed to know
the detailed internals of CBQ.
pbandwidth
is a preferred way to specify the bandwidth of a class.
- borrow
-
The class can borrow bandwidth from its parent class when this class
is overlimit.
If this keyword is not present, then no borrowing is done, and the
packet is delayed or dropped when the class is overlimit.
- default
-
Specify the default class.
When this keyword is present, all packets that do not match some
classification criteria are assigned to this class.
Must be exactly one class on each interface defined as the default
class.
- control
-
Specify the control class.
When this keyword is present, the predefined control class packets
(RSVP, IGMP, and ICMP) are assigned to this class.
Note that when the control class is not specified by the time the
default class is created, one is automatically created with default
parameters.
Thus, if the control class is specified, it must be listed before the
default class.
Must be exactly one class on each interface defined as the control
class.
- maxburst
-
The maximum burst of back-to-back packets allowed in this class.
Default is 16 but the default value is automatically reduced to 4 when
the class bandwidth is small (about less than 1Mbps).
- minburst
-
The minimum burst is used to obtain the steady state burst size.
It's the parameter to help compute offtime for the class.
Offtime is the amount of time a class is to wait between packets.
Default is 2.
- maxdelay
-
The maxdelay is specified in milliseconds and used to obtain the max
queue size of the class.
If not specified, the default max queue size (30 packets) is used.
- packetsize
-
The average packet size in bytes to be used in CBQ over-/under-limit
computations.
Default value is MTU of the interface.
- maxpacketsize
-
The maximum packet size in bytes for the class.
Default value is MTU of the interface.
- red
-
enables RED on this class queue.
- rio
-
enables RIO on this class queue.
- ecn
-
enables RED/ECN on this class queue.
- flowvalve
-
enables RED/flow-valve (a.k.a. red-penalty-box) on this class queue.
- cleardscp
-
clears diffserv codepoint in the IP header.
HFSC Commands
HFSC (Hierarchical Fair Service Curve) supports both link-sharing and
guaranteed real-time services.
H-FSC employs a service curve based QoS model, and its unique feature
is an ability to decouple delay and bandwidth allocation.
HFSC has 2 independent scheduling mechanisms.
Real-time scheduling is used to guarantee the delay and the
bandwidth allocation at the same time.
Hierarchical link-sharing is used to distribute the excess
bandwidth.
When dequeueing a packet, HFSC always tries real-time scheduling
first.
If no packet is eligible for real-time scheduling, link-sharing
scheduling is performed.
HFSC does not use class hierarchy for real-time scheduling.
Additionally, an upper-limit service curve can be specified for
link-sharing to set the upper limit allowed for the class.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
hfsc
for HFSC.
- class
-
sched_type
if_name
class_name
parent_name
[admission cntlload|none]
[[sc m1 d m2]]
[[rt m1 d m2]]
[[ls m1 d m2]]
[[ul m1 d m2]]
[pshare percent]
[grate bps]
[bandwidth bps]
[ulimit bps]
[default]
[qlimit count]
[red|rio]
[ecn]
[cleardscp]
The
class
command specifies a HFSC class.
The classes are organized as a hierarchy, and every class, except
for the root class, has a parent.
Each HFSC class has 2 service curves, the real-time service curve and
the link-sharing service curve.
Service curves are specified by
[type m1 d m2].
type
should be either
sc, rt, ls,
or
ul.
sc
(service curve) is used to set the same values to both real-time and
link-sharing service curves.
rt
(real-time) is used to specify the real-time service curve.
ls
(link-sharing) is used to specify the link-sharing service curve.
ul
(upper-limit) is used to specify the upper-limit service curve for
link-sharing.
m1
is the slope of the first segment specified in bits-per-second.
d
is the x-projection of the intersection point of the 2 segments
specified in milliseconds.
m2
is the slope of the second segment specified in bits-per-second.
- sched_type
-
must be
hfsc
for a HFSC class.
- if_name
-
Interface name.
Must correspond to name in interface specification.
- class_name
-
Arbitrary name for this class.
Must be unique within the class hierarchy for this interface.
The name
root
is a reserved class name for the root class.
The root class for the interface is automatically created by the
interface
command.
- parent_name
-
The name of the parent class for this class.
Keyword
root
is used when the parent is the root class.
Parent class must have been previously defined.
- admission
-
The type of admission control and QoS type.
cntlload
is controlled load service for RSVP, otherwise, it should be
none.
The default is
none.
- pshare
-
Percent of the link share.
This specifies a linear link-sharing service curve as a fraction of
the link bandwidth.
It is a short hand of
[ls
0
0
(link-bandwidth
*
percent
/
100)]
.
- grate
-
Guaranteed rate.
This specifies a linear real-time service curve.
It is a short hand of
[rt
0
0
bps]
.
- bandwidth
-
This is a short hand of
[sc
0
0
bps]
.
- ulimit
-
Upper limit rate.
This specifies a upper-limit service curve.
It is a short hand of
[ul
0
0
bps]
.
- default
-
Specify the default class.
When this keyword is present, all packets that do not match some
classification criteria are assigned to this class.
Must be exactly one class on each interface defined as the default
class.
- qlimit
-
The maximum queue size in number of packets.
Default value is 50.
- red
-
enables RED on this class queue.
- rio
-
enables RIO on this class queue.
- ecn
-
enables RED/ECN on this class queue.
- cleardscp
-
clears diffserv codepoint in the IP header.
PRIQ Commands
PRIQ (Priority Queueing) implements a simple priority-based queueing.
A higher priority class is always served first.
Up to 16 priorities can be used with PRIQ.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
priq
for PRIQ.
- class
-
sched_type
if_name
class_name
parent_name
[priority pri]
[default]
[qlimit count]
[red|rio]
[ecn]
[cleardscp]
- sched_type
-
must be
priq
for a PRIQ class.
- if_name
-
Interface name.
Must correspond to name in interface specification.
- class_name
-
Arbitrary name for this class.
Must be unique for this interface.
- parent_name
-
Parent class must be
NULL
for PRIQ.
- priority
-
High numbers are higher priority.
Max value is 15 and Min value is 0.
Default is 0.
A higher priority class is always served first in PRIQ.
Priority must be unique for the interface.
- default
-
Specify the default class.
When this keyword is present, all packets that do not match some
classification criteria are assigned to this class.
Must be exactly one class on each interface defined as the default
class.
- qlimit
-
The maximum queue size in number of packets.
Default value is 50.
- red
-
enables RED on this class queue.
- rio
-
enables RIO on this class queue.
- ecn
-
enables RED/ECN on this class queue.
- cleardscp
-
clears diffserv codepoint in the IP header.
WFQ Commands
WFQ (Weighted Fair Queueing) implements a weighted-round robin
scheduler for a set of queue.
A weight can be assigned to each queue to give a
different proportion of the link capacity.
A hash function is used to map a flow to one of a set of queues, and
thus, it is possible for two different flows to be mapped into the same
queue.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[nqueues count]
[qsize bytes]
[hash policy]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
wfq
for WFQ.
- nqueues
-
The number of queues in WFQ.
Default value is 256.
- qsize
-
The size of each queue in number of bytes.
Default value is 64K bytes.
- hash
-
Type of hash policy to select a queue.
dstaddr
specifies a hashing policy by IP destination address.
full
specifies a hashing policy by IP addresses and ports.
srcport
specifies a hashing policy by IP source port number.
srcaddr
specifies a hashing policy by IP source address.
Default is
dstaddr
FIFOQ Commands
FIFOQ (First-In First-Out Queueing) is a simple tail-drop FIFO queue.
FIFOQ is the simplest possible implementation of a queueing discipline
in ALTQ, and can be used to compare with other queueing disciplines.
FIFOQ can be also used as a template for those who want to write their
own queueing disciplines.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[qlimit count]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
fifoq
for FIFOQ.
- qlimit
-
The maximum queue size in number of packets.
Default value is 50.
RED Commands
RED (Random Early Detection) is an implicit congestion notification
mechanism that exercises packet dropping or packet marking
stochastically according to the average queue length.
RED can be viewed as a buffer management mechanism
and can be integrated into other packet scheduling schemes.
- red
-
min_th
max_th
inv_pmax
The
red
command sets the default RED parameters.
min_th
and
max_th
are the minimum and the maximum threshold values.
inv_pmax
is the inverse (reciprocal) of the maximum drop probability.
For example, 10 means the maximum drop probability of 1/10.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[qlimit count]
[packetsize bytes]
[weight n]
[thmin n]
[thmax n]
[invpmax n]
[ecn]
[flowvalve]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
red
for RED.
- qlimit
-
The maximum queue size in number of packets.
Default value is 60.
- packetsize
-
The average packet size in number of bytes.
This parameter is used to calibrate the idle period.
Default value is 1000.
- weight
-
The inverse of the weight of EWMA (exponentially weighted moving average).
- thmin
-
The minimum threshold.
- thmax
-
The maximum threshold.
- invpmax
-
The inverse of the maximum drop probability.
- ecn
-
enables ECN.
- flowvalve
-
enables flowvalve.
RIO Commands
ALTQ/RIO has 3 drop precedence levels defined for the Assured
Forwarding of DiffServ (RFC2597).
Since adaptive flows are likely to stay under the medium drop
precedence level under congestion, the medium drop precedence would
protect adaptive flows from unadaptive flows.
The original RIO has 2 sets of RED parameters; one for in-profile
packets and the other for out-of-profile packets.
At the ingress of the network, profile meters tag packets as IN
or OUT based on contracted profiles for customers.
Inside the network, IN packets receive preferential treatment by
the RIO dropper.
It is possible to provision the network not to drop IN packets
at all by providing enough capacity for the total volume of IN
packets.
Thus, RIO can be used to provide a service that statistically assures
capacity allocated for users.
This mechanism can be extended to support an arbitrary number of drop
precedence levels.
ALTQ supports 3 drop precedence levels.
- rio
-
low_min_th
low_max_th
low_inv_pmax
medium_min_th
medium_max_th
medium_inv_pmax
high_min_th
high_max_th
high_inv_pmax
The
rio
command sets the default RIO parameters.
The parameters are RED parameters for 3 (low, medium, high) drop
precedence.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[qlimit count]
[packetsize bytes]
[weight n]
[lo_thmin n]
[lo_thmax n]
[lo_invpmax n]
[med_thmin n]
[med_thmax n]
[med_invpmax n]
[hi_thmin n]
[hi_thmax n]
[hi_invpmax n]
[ecn]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
rio
for RIO.
- qlimit
-
The maximum queue size in number of packets.
Default value is 60.
- packetsize
-
The average packet size in number of bytes.
This parameter is used to calibrate the idle period.
Default value is 1000.
- weight
-
The inverse of the weight of EWMA (exponentially weighted moving average).
- lo_thmin
-
The minimum threshold for low drop precedence.
- lo_thmax
-
The maximum threshold for low drop precedence.
- lo_invpmax
-
The inverse of the maximum drop probability for low drop precedence.
- med_thmin
-
The minimum threshold for medium drop precedence.
- med_thmax
-
The maximum threshold for medium drop precedence.
- med_invpmax
-
The inverse of the maximum drop probability for medium drop precedence.
- hi_thmin
-
The minimum threshold for high drop precedence.
- hi_thmax
-
The maximum threshold for high drop precedence.
- hi_invpmax
-
The inverse of the maximum drop probability for high drop precedence.
- ecn
-
enables ECN.
BLUE Commands
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
[sched_type]
[qlimit count]
[packetsize bytes]
[maxpmark n]
[holdtime usec]
[ecn]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
blue
for BLUE.
- qlimit
-
The maximum queue size in number of packets.
Default value is 60.
- packetsize
-
The average packet size in number of bytes.
Default value is 1000.
- maxpmark
-
specifies the precision of marking probability.
- holdtime
-
specifies the hold time in usec.
- ecn
-
enables ECN.
CDNR Commands
The
conditioner
command specifies a diffserv traffic conditioner.
A traffic conditioner is not a queueing discipline but a component to
meter, mark or drop incoming packets according to some rules.
As opposed to a queueing discipline, a traffic conditioner handles
incoming packets at an input interface.
If no queueing discipline (e.g., CBQ) is used for the interface,
a null interface command should be used to specify an input network
interface.
- interface
-
if_name
[bandwidth bps]
[tbrsize bytes]
The
conditioner
command has the following syntax.
- conditioner
-
if_name
cdnr_name
<action>
- if_name
-
Interface name.
Must correspond to name in interface specification.
- cdnr_name
-
Arbitrary name for this conditioner.
Must be unique for this interface.
- action
-
Action of the conditioner.
An action can be a recursively defined action.
The following actions are defined.
- pass
-
- pass
-
allows the packet to go through without any modification to the packet.
- drop
-
- drop
-
rejects the packet.
The packet is immediately discarded.
- mark
-
value
- mark
-
sets the specified value to the ds field in the IP header.
Then, the packet is allowed to go through.
- tbmeter
-
rate depth
<in_action>
<out_action>
- tbmeter
-
is a token bucket meter configured with rate and depth parameters.
Rate is token rate in bits-per-second.
Depth is bucket depth in KB.
When an incoming packet is in profile (available token is more than
the packet size), tbmeter takes in_action.
Otherwise, tbmeter takes out_action.
- trtcm
-
cmtd_rate cmtd_depth peak_rate peak_depth
<green_action>
<yellow_action>
<red_action>
[coloraware|colorblind]
- trtcm
-
is a 2-rate 3 color marker for Assured Forwarding.
A trtcm consists of 2 token buckets, one for a committed rate and the
other for a peak rate.
When an incoming packet is in the committed profile, trtcm takes
green_action.
When the packet is out of the committed profile but in the peak
profile, trtcm takes yellow_action.
Otherwise, tbtcm takes red_action.
A trtcm is either color-aware or color-blind.
A color-aware trtcm do not raise the color (ds field value), that is,
a yellow packet can be yellow or red but can not be blue.
Default is color-blind.
- tswtcm
-
cmtd_rate peak_rate avg_interval
<green_action>
<yellow_action>
<red_action>
- tswtcm
-
is a time sliding window 3 color marker for Assured Forwarding.
A tswtcm differs from trtcm in that a tswtcm probabilistically marks
packets.
A tswtcm consists of 2 rates, one for a committed rate and the
other for a peak rate.
When an incoming packet is in the committed profile, tswtcm takes
green_action.
When the packet is out of the committed profile but in the peak
profile, tswtcm takes yellow_action.
Otherwise, tswtcm takes red_action.
cmtd_rate and peak_rate are specified in bits per second.
avg_interval provides the size of time window for averaging incoming
rate, and is specified in milliseconds.
500 msec is ok for normal settings.
JoBS Commands
JoBS (Joint Buffer Management and Scheduling) is a queuing discipline
that can enforce any feasible mix of absolute and proportional guarantees
on packet losses, packet delays, and throughput, for classes of traffic,
on a per-hop basis.
No admission control is performed, thus if the set of service
guarantees becomes infeasible, some service guarantees may be
relaxed.
- interface
-
if_name
[bandwidth bps]
[qlimit count]
[separate]
[tbrsize bytes]
[sched_type]
- if_name
-
specifies the name of a network interface (e.g., fxp0).
- bandwidth
-
specifies the interface bandwidth in bits per second.
- qlimit
-
specifies the maximum queue size in number of packets.
- separate
-
specifies that classes have independent buffers.
The default is to have a shared buffer for all classes.
If this option is specified, qlimit applies to each independent
buffer.
- tbrsize
-
specifies the bucket size of a token bucket regulator in bytes.
- sched_type
-
must be
jobs
for JoBS.
- class
-
sched_type
if_name
class_name
parent_name
[priority pri]
[default]
[adc microsecs]
[alc fraction]
[arc bps]
[rdc prop]
[rlc prop]
- sched_type
-
must be
jobs
for a JoBS class.
- if_name
-
Interface name.
Must correspond to name in interface specification.
- class_name
-
Arbitrary name for this class.
Must be unique for this interface.
- parent_name
-
Parent class must be
NULL
for JoBS.
- priority
-
Priority index used for proportional differentiation.
Max value is 15 and Min value is 0.
Default is 0.
Priority must be unique for the interface.
- default
-
Specify the default class.
When this keyword is present, all packets that do not match some
classification criteria are assigned to this class.
Must be exactly one class on each interface defined as the
default class.
- adc
-
Specifies an upper bound on delays for that class (in microseconds).
A value of -1 will indicate the absence of delay bound.
By default, no delay bound is offered.
- alc
-
Specifies a upper bound on loss rate for that class (in fraction of 1,
for instance a 1% loss rate bound will be expressed as 0.01).
A value of -1 will indicate the absence of loss rate bound.
By default, no loss rate bound is offered.
- arc
-
Specifies a lower bound
on the throughput received by that class (in bits per second).
A value of
-1 will indicate the absence of throughput bound.
By default, no throughput bound is offered.
- rdc
-
Specifies a proportional delay differentiation factor between that class
and the class with the successive priority index.
For instance, for priority 1, an rdc of 2 specifies that the delays of
packets marked as class 2 will roughly be twice the delays of packets
marked as class 1.
A value of
-1 indicates the absence of proportional differentiation on that class.
Note that class N if N is the maximum priority should have a dummy
coefficient different from -1 if proportional delay differentiation is desired
on Class N.
By default, no proportional delay differentiation is offered.
- rlc
-
Specifies a proportional loss differentiation factor between that class
and the class with the successive priority index.
For instance, for priority 1, an rlc of 2 specifies that the loss rate of
packets marked as class 2 will roughly be twice the loss rate of packets
marked as class 1.
A value of
-1 indicates the absence of proportional differentiation on that class.
Note that class N if N is the maximum priority should have a dummy
coefficient different from -1 if proportional loss differentiation is desired
on Class N.
By default, no proportional loss differentiation is offered.
EXAMPLES
CBQ Example
#
# cbq configuration for vx0 (10Mbps ether)
# give at least 40% to TCP
# limit HTTP from network 133.138.1.0 up to 10%, use RED.
# other traffic goes into default class
#
interface vx0 bandwidth 10M cbq
#
class cbq vx0 root_class NULL priority 0 pbandwidth 100
class cbq vx0 def_class root_class borrow pbandwidth 95 default
class cbq vx0 tcp_class def_class borrow pbandwidth 40
filter vx0 tcp_class 0 0 0 0 6
class cbq vx0 csl_class tcp_class pbandwidth 10 red
filter vx0 csl_class 0 0 133.138.1.0 netmask 0xffffff00 80 6
filter vx0 csl_class 133.138.1.0 netmask 0xffffff00 0 0 80 6
#
# sample filter6 command
#
filter6 vx0 csl_class ::0 0 d000:a:0:123::/64 80 6
HFSC Example
#
# hfsc configuration for hierarchical sharing
#
interface pvc0 bandwidth 45M hfsc
#
# (10% of the bandwidth share goes to the default class)
class hfsc pvc0 def_class root pshare 10 default
#
# bandwidth share guaranteed rate
# CMU: 45% 15Mbps
# PITT: 45% 15Mbps
#
class hfsc pvc0 cmu root pshare 45 grate 15M
class hfsc pvc0 pitt root pshare 45 grate 15M
#
# CMU bandwidth share guaranteed rate
# CS: 20% 10Mbps
# other: 20% 5Mbps
#
class hfsc pvc0 cmu_other cmu pshare 20 grate 10M
filter pvc0 cmu_other 0 0 128.2.0.0 netmask 0xffff0000 0 0
class hfsc pvc0 cmu_cs cmu pshare 20 grate 5M
filter pvc0 cmu_cs 0 0 128.2.242.0 netmask 0xffffff00 0 0
#
# PITT bandwidth share guaranteed rate
# CS: 20% 10Mbps
# other: 20% 5Mbps
#
class hfsc pvc0 pitt_other pitt pshare 20 grate 10M
filter pvc0 pitt_other 0 0 136.142.0.0 netmask 0xffff0000 0 0
class hfsc pvc0 pitt_cs pitt pshare 20 grate 5M
filter pvc0 pitt_cs 0 0 136.142.79.0 netmask 0xffffff00 0 0
HFSC Example (simpler one with ulimit)
#
interface fxp0 bandwidth 90M hfsc
# reserve 20% for default class
class hfsc fxp0 def_class root pshare 20 default
# shared class for TCP and UDP
class hfsc fxp0 shared_class root bandwidth 72M
# shared class for all TCP
class hfsc fxp0 tcp_shared shared_class bandwidth 40M ulimit 60M
# generic tcp
class hfsc fxp0 tcp_class tcp_shared bandwidth 15M ulimit 50M
filter fxp0 tcp_class 0 0 0 0 6
# http
class hfsc fxp0 http_class tcp_shared bandwidth 25M ulimit 40M
filter fxp0 http_class 0 80 0 0 6
filter fxp0 http_class 0 0 0 80 6
# udp
class hfsc fxp0 udp_class shared_class bandwidth 15M ulimit 20M
filter fxp0 udp_class 0 0 0 0 17
PRIQ Example
#
# priq configuration for fxp0 (100Mbps ether)
# icmp: high priority
# tcp: medium priority
# others: low priority
#
interface fxp0 bandwidth 100M priq
#
class priq fxp0 high_class NULL priority 2
filter fxp0 high_class 0 0 0 0 1
class priq fxp0 med_class NULL priority 1
filter fxp0 med_class 0 0 0 0 6
class priq fxp0 low_class NULL priority 0 default
WFQ Example
interface pvc0 bandwidth 134000000 wfq
FIFOQ Example
interface rl0 bandwidth 10M fifoq
Conditioner Example
#
interface fxp0
#
# a simple dropper
# discard all packets from 192.168.0.83
#
conditioner fxp0 dropper <drop>
filter fxp0 dropper 0 0 192.168.0.83 0 0
#
# EF conditioner
# mark EF to all packets from 192.168.0.117
#
conditioner pvc1 ef_cdnr <tbmeter 6M 64K <mark 0xb8><drop>>
filter fxp0 ef_cdnr 0 0 192.168.0.117 0 0
#
# AF1x conditioner
# mark AF1x to packets from 192.168.0.178
# AF11 (low drop precedence): less than 3Mbps
# AF12 (medium drop precedence): more than 3Mbps and less than 10Mbps
# AF13 (high drop precedence): more than 10Mbps
#
conditioner fxp0 af1x_cdnr <trtcm 3M 32K 10M 64K <mark 0x28><mark 0x30><mark 0x38>>
filter fxp0 af1x_cdnr 0 0 192.168.0.178 0 0
SEE ALSO
altqd(8)
BUGS
This man page is incomplete.
For more information read the source.