shorewall6-tcclasses5tcclassesShorewall6 file to define HTB classes/etc/shorewall6/tcclassesDescriptionA note on the rate/bandwidth definitions used
in this file:don't use a space between the integer value and the unit: 30kbit
is valid while 30 kbit is NOT.you can use one of the following units:kpbsKilobytes per second.mbpsMegabytes per second.kbitKilobits per second.mbitMegabits per second.bps or numberBytes per second.if you want the values to be calculated for you depending on the
output bandwidth setting defined for an interface in tcdevices, you
can use expressions like the following:full/3causes the bandwidth to be calculated as 1/3 of the full
outgoing speed that is defined.full*9/10will set this bandwidth to 9/10 of the full
bandwidthNote that in a sub-class (a class that has a specified parent
class), full refers to the RATE or CEIL of the parent class rather
than to the OUT-BANDWIDTH of the device.DO NOT add a unit to the rate if it is calculated !The columns in the file are as follows.INTERFACE -
interface[[:parent]:class]Name of interface. Each interface may be
listed only once in this file. You may NOT specify the name of an
alias (e.g., eth0:0) here; see http://www.shorewall.net/FAQ.htm#faq18You may specify either the interface number or the interface
name. If the classify option is
given for the interface in shorewall6-tcdevices(5),
then you must also specify an interface class (an integer that must
be unique within classes associated with this interface).You may NOT specify wildcards here, e.g. if you have multiple
ppp interfaces, you need to put them all in here!Please note that you can only use interface names in here that
have a bandwidth defined in the shorewall6-tcdevices(5)
file.Normally, all classes defined here are sub-classes of a root
class (class number 1) that is implicitly defined from the entry in
shorewall6-tcdevices(5). You
can establish a class hierarchy by specifying a
parent class -- the number of a class that you
have previously defined. The sub-class may borrow unused bandwidth
from its parent.MARK -
{-|value}The mark value which is an integer in the
range 1-255. You set mark values in the shorewall6-tcrules(5) file,
marking the traffic you want to fit in the classes defined in here.
Must be specified as '-' if the classify option is given for the interface in
shorewall6-tcdevices(5)You can use the same marks for different interfaces.RATE -
{-|rate[:dmax[:umax]]}The minimum bandwidth this class should get, when the traffic
load rises. If the sum of the rates in this column exceeds the
INTERFACE's OUT-BANDWIDTH, then the OUT-BANDWIDTH limit may not be
honored. Similarly, if the sum of the rates of sub-classes of a
class exceed the CEIL of the parent class, things don't work
well.When using the HFSC queuing discipline, this column specify
the real-time (RT) service curve. leaf classes may specify
dmax, the maximum delay in milliseconds
that the first queued packet for this class should experience. May
be expressed as an integer, optionally followed by 'ms' with no
intervening white space (e.g., 10ms).HFSC leaf classes may also specify
umax, the largest packet expected in this
class. May be expressed as an integer. The unit of measure is
bytes and the integer may be optionally
followed by 'b' with no intervening white space (e.g., 800b).
umax may only be given if
dmax is also given.Beginning with Shorewall 4.5.6, HFSC classes may omit this
column (e.g, '-' in the column), provided that an
lsrate is specified (see CEIL below).
These rates are used to arbitrate between classes of the same
priority.CEIL -
[lsrate:]rateThe maximum bandwidth this class is allowed to use when the
link is idle. Useful if you have traffic which can get full speed
when more needed services (e.g. ssh) are not used.You can use the value full in
here for setting the maximum bandwidth to the RATE of the parent
class, or the OUT-BANDWIDTH of the device if there is no parent
class.Beginning with Shorewall 4.5.6, you can also specify an
lsrate (link sharing rate).PRIORITY -
priorityThe priority in which classes will be
serviced by the packet shaping scheduler and also the priority in
which bandwidth in excess of the rate will be given to each
class.Higher priority classes will experience less delay since they
are serviced first. Priority values are serviced in ascending order
(e.g. 0 is higher priority than 1).Classes may be set to the same priority, in which case they
will be serviced as equals.OPTIONS (Optional) -
[option[,option]...]A comma-separated list of options including the
following:defaultThis is the default class for that interface where all
traffic should go, that is not classified otherwise.You must define default for exactly one class per
interface.tos=0xvalue[/0xmask]
(mask defaults to 0xff)This lets you define a classifier for the given
value/mask
combination of the IP packet's TOS/Precedence/DiffSrv octet
(aka the TOS byte).tos-tosnameAliases for the following TOS octet value and mask
encodings. TOS encodings of the "TOS byte" have been
deprecated in favor of diffserve classes, but programs like
ssh, rlogin, and ftp still use them.tos-minimize-delay 0x10/0x10
tos-maximize-throughput 0x08/0x08
tos-maximize-reliability 0x04/0x04
tos-minimize-cost 0x02/0x02
tos-normal-service 0x00/0x1eEach of these options is only valid for ONE class per
interface.tcp-ackIf defined, causes a tc filter to be created that puts
all tcp ack packets on that interface that have a size of
<=64 Bytes to go in this class. This is useful for speeding
up downloads. Please note that the size of the ack packets is
limited to 64 bytes because we want only packets WITHOUT
payload to match.This option is only valid for ONE class per
interface.flow=keysShorewall attaches an SFQ queuing discipline to each
leaf HTB class. SFQ ensures that each
flow gets equal access to the
interface. The default definition of a flow corresponds
roughly to a Netfilter connection. So if one internal system
is running BitTorrent, for example, it can have lots of
'flows' and can thus take up a larger share of the bandwidth
than a system having only a single active connection. The
classifier (module cls_flow) works
around this by letting you define what a 'flow' is. The
clasifier must be used carefully or it can block off all
traffic on an interface! The flow option can be specified for
an HTB leaf class (one that has no sub-classes). We recommend
that you use the following:Shaping internet-bound traffic:
flow=nfct-srcShaping traffic bound for your local net:
flow=dstThese will cause a 'flow' to consists of the traffic
to/from each internal system.When more than one key is give, they must be enclosed in
parenthesis and separated by commas.To see a list of the possible flow keys, run this
command:
tc filter add flow help
Those that begin with "nfct-" are Netfilter connection
tracking fields. As shown above, we recommend flow=nfct-src;
that means that we want to use the source IP address
before NAT as the key.pfifoWhen specified for a leaf class, the pfifo queing
discipline is applied to the class rather than the sfq queuing
discipline.limit=numberAdded in Shorewall 4.4.3. When specified for a leaf
class, determines the maximum number of packets that may be
queued within the class. The number must
be > 2 and <= 128. If not specified, the value 127 is
assumed.red=(redoption=value,
...)Added in Shorewall 4.5.6. When specified on a leaf
class, causes the class to use the RED (Random Early
Detection) queuing discipline rather than SFQ. See tc-red (8)
for additional information.Allowable redoptions are:min minAverage queue size at which marking becomes a
possibility.max maxAt this average queue size, the marking
probability is maximal. Must be at least twice
min to prevent synchronous
retransmits, higher for low
min.probability
probabilityMaximum probability for marking, specified as a
floating point number from 0.0 to 1.0. Suggested values
are 0.01 or 0.02 (1 or 2%, respectively).limit limitHard limit on the real (not average) queue size in
bytes. Further packets are dropped. Should be set higher
than
max+burst.
It is advised to set this a few times higher than
max. Shorewall requires that
limit be at least twice
min.burst burstUsed for determining how fast the average queue
size is influenced by the real queue size. Larger values
make the calculation more sluggish, allowing longer
bursts of traffic before marking starts. Real life
experiments support the following guideāline:
(min+min+max)/(3*avpkt).avpkt avpktOptional. Specified in bytes. Used with burst to
determine the time constant for average queue size
calculations. 1000 is a good value and is the Shorewall
default.bandwidth
bandwidthOptional. This rate is used for calculating the
average queue size after some idle time. Should be set
to the bandwidth of your interface. Does not mean that
RED will shape for you!ecnRED can either 'mark' or 'drop'. Explicit
Congestion Notification allows RED to notify remote
hosts that their rate exceeds the amount of bandwidth
available. Non-ECN capable hosts can only be notified by
dropping a packet. If this parameter is specified,
packets which indicate that their hosts honor ECN will
only be marked and not dropped, unless the queue size
hits limit bytes. Needs a tc
binary with RED support compiled in. Recommended.ExamplesExample 1:Suppose you are using PPP over Ethernet (DSL) and ppp0 is the
interface for this. You have 4 classes here, the first you can use
for voice over IP traffic, the second interactive traffic (e.g.
ssh/telnet but not scp), the third will be for all unclassified
traffic, and the forth is for low priority traffic (e.g.
peer-to-peer).The voice traffic in the first class will be guaranteed a
minimum of 100kbps and always be serviced first (because of the low
priority number, giving less delay) and will be granted excess
bandwidth (up to 180kbps, the class ceiling) first, before any other
traffic. A single VOIP stream, depending upon codecs, after
encapsulation, can take up to 80kbps on a PPOE/DSL link, so we pad a
little bit just in case. (TOS byte values 0xb8 and 0x68 are DiffServ
classes EF and AFF3-1 respectively and are often used by VOIP
devices).Interactive traffic (tos-minimum-delay) and TCP acks (and ICMP
echo traffic if you use the example in tcrules) and any packet with
a mark of 2 will be guaranteed 1/4 of the link bandwidth, and may
extend up to full speed of the link.Unclassified traffic and packets marked as 3 will be
guaranteed 1/4th of the link bandwidth, and may extend to the full
speed of the link.Packets marked with 4 will be treated as low priority packets.
(The tcrules example marks p2p traffic as such.) If the link is
congested, they're only guaranteed 1/8th of the speed, and even if
the link is empty, can only expand to 80% of link bandwidth just as
a precaution in case there are upstream queues we didn't account
for. This is the last class to get additional bandwidth and the last
to get serviced by the scheduler because of the low priority. #INTERFACE MARK RATE CEIL PRIORITY OPTIONS
ppp0 1 100kbit 180kbit 1 tos=0x68/0xfc,tos=0xb8/0xfc
ppp0 2 full/4 full 2 tcp-ack,tos-minimize-delay
ppp0 3 full/4 full 3 default
ppp0 4 full/8 full*8/10 4FILES/etc/shorewall6/tcclassesSee ALSOtc-hfsc(7)tc-red(8)http://shorewall.net/traffic_shaping.htmhttp://shorewall.net/configuration_file_basics.htm#Pairsshorewall6(8), shorewall6-accounting(5), shorewall6-actions(5),
shorewall6-blacklist(5), shorewall6-hosts(5), shorewall6-interfaces(5),
shorewall6-maclist(5), shoewall6-netmap(5),shorewall6-params(5),
shorewall6-policy(5), shorewall6-providers(5), shorewall6-rtrules(5),
shorewall6-routestopped(5), shorewall6-rules(5), shorewall6.conf(5),
shorewall6-secmarks(5), shorewall6-tcdevices(5), shorewall6-tcrules(5),
shorewall6-tos(5), shorewall6-tunnels(5), shorewall6-zones(5)