tc-tbf(8)


NAME

   tbf - Token Bucket Filter

SYNOPSIS

   tc  qdisc ... tbf rate rate burst bytes/cell ( latency ms | limit bytes
   ) [ mpu bytes [ peakrate rate mtu bytes/cell ] ]

   burst is also known as buffer  and  maxburst.  mtu  is  also  known  as
   minburst.

DESCRIPTION

   The Token Bucket Filter is a classful queueing discipline available for
   traffic control with the tc(8) command.

   TBF is a pure shaper and  never  schedules  traffic.  It  is  non-work-
   conserving  and may throttle itself, although packets are available, to
   ensure that the configured rate is not exceeded.  It is able  to  shape
   up  to 1mbit/s of normal traffic with ideal minimal burstiness, sending
   out data exactly at the configured rates.

   Much higher rates are possible but at the cost of  losing  the  minimal
   burstiness. In that case, data is on average dequeued at the configured
   rate but may be sent much faster at millisecond timescales. Because  of
   further queues living in network adaptors, this is often not a problem.

ALGORITHM

   As  the  name  implies, traffic is filtered based on the expenditure of
   tokens.  Tokens  roughly  correspond  to  bytes,  with  the  additional
   constraint  that  each packet consumes some tokens, no matter how small
   it is. This reflects the fact that even a  zero-sized  packet  occupies
   the link for some time.

   On  creation,  the  TBF  is stocked with tokens which correspond to the
   amount of traffic that can be burst in  one  go.  Tokens  arrive  at  a
   steady rate, until the bucket is full.

   If  no  tokens  are  available,  packets are queued, up to a configured
   limit. The TBF now calculates the token deficit,  and  throttles  until
   the first packet in the queue can be sent.

   If  it  is  not  acceptable  to  burst  out packets at maximum speed, a
   peakrate can be configured to limit  the  speed  at  which  the  bucket
   empties. This peakrate is implemented as a second TBF with a very small
   bucket, so that it doesn't burst.

   To achieve perfection, the second bucket  may  contain  only  a  single
   packet, which leads to the earlier mentioned 1mbit/s limit.

   This  limit is caused by the fact that the kernel can only throttle for
   at minimum 1 'jiffy', which depends on HZ as 1/HZ. For perfect shaping,
   only  a  single  packet can get sent per jiffy - for HZ=100, this means
   100 packets of on average 1000 bytes each, which roughly corresponds to
   1mbit/s.

PARAMETERS

   See tc(8) for how to specify the units of these values.

   limit or latency
          Limit  is  the  number  of  bytes that can be queued waiting for
          tokens to become available. You can also specify this the  other
          way around by setting the latency parameter, which specifies the
          maximum amount of time a packet can sit in the TBF.  The  latter
          calculation  takes into account the size of the bucket, the rate
          and possibly the peakrate (if set).  These  two  parameters  are
          mutually exclusive.

   burst  Also known as buffer or maxburst.  Size of the bucket, in bytes.
          This is the maximum amount of bytes that tokens can be available
          for instantaneously.  In general, larger shaping rates require a
          larger buffer. For 10mbit/s on Intel, you need at least  10kbyte
          buffer if you want to reach your configured rate!

          If your buffer is too small, packets may be dropped because more
          tokens arrive per timer tick  than  fit  in  your  bucket.   The
          minimum  buffer  size  can be calculated by dividing the rate by
          HZ.

          Token usage calculations are performed using a  table  which  by
          default  has  a resolution of 8 packets.  This resolution can be
          changed by specifying the cell size with the burst. For example,
          to  specify  a  6000 byte buffer with a 16 byte cell size, set a
          burst of 6000/16. You will probably never have to set this. Must
          be an integral power of 2.

   mpu    A  zero-sized  packet does not use zero bandwidth. For ethernet,
          no packet uses less than  64  bytes.  The  Minimum  Packet  Unit
          determines  the  minimal  token usage (specified in bytes) for a
          packet. Defaults to zero.

   rate   The speed knob. See remarks above about limits!  See  tc(8)  for
          units.

   Furthermore,  if  a  peakrate  is desired, the following parameters are
   available:

   peakrate
          Maximum depletion rate of the bucket. The peakrate does not need
          to be set, it is only necessary if perfect millisecond timescale
          shaping is required.

   mtu/minburst
          Specifies the size of the peakrate bucket. For perfect accuracy,
          should  be  set  to  the MTU of the interface.  If a peakrate is
          needed, but some burstiness is  acceptable,  this  size  can  be
          raised.  A 3000 byte minburst allows around 3mbit/s of peakrate,
          given 1000 byte packets.

          Like the regular burstsize you can also specify a cell size.

EXAMPLE & USAGE

   To attach a TBF with a sustained maximum rate of 0.5mbit/s, a  peakrate
   of  1.0mbit/s,  a  5kilobyte buffer, with a pre-bucket queue size limit
   calculated so the TBF causes at most  70ms  of  latency,  with  perfect
   peakrate behaviour, issue:

   # tc qdisc add dev eth0 handle 10: root tbf rate 0.5mbit \
     burst 5kb latency 70ms peakrate 1mbit       \
     minburst 1540

   To attach an inner qdisc, for example sfq, issue:

   # tc qdisc add dev eth0 parent 10:1 handle 100: sfq

   Without  inner  qdisc  TBF  queue  acts as bfifo. If the inner qdisc is
   changed the limit/latency is not effective anymore.

SEE ALSO

   tc(8)

AUTHOR

   Alexey N. Kuznetsov, <kuznet@ms2.inr.ac.ru>. This manpage maintained by
   bert hubert <ahu@ds9a.nl>





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