Provided by: tcpstat_1.5-8_amd64 bug

NAME

     tcpstat — report network interface statistics

SYNOPSIS

     tcpstat [-?haeFlp] [-B bps] [-b bps] [-f filter expr] [-i interface] [-o output]
             [-R seconds] [-r filename] [-s seconds] [interval]

DESCRIPTION

     tcpstat reports certain network interface statistics much like vmstat(8) does for system
     statistics.  Statistics include bandwidth being used, number of packets, average packet
     size, and much more.

     Network information is collected either by reading data from filename, or by directly
     monitoring the network interface interface.  The default action for tcpstat is to
     automatically search for an appropriate interface, and to show current statistics on it.

     interval is the sample interval, in seconds, in which the statistics are based upon and when
     in default mode, how often the display is updated. If -1 is given, then the interval is
     taken to be the entire length of the sample.  Default is 5 seconds.

     When reading data from filename, tcpstat will exit immediately after the entire file has
     been processed.  When collecting data from interface, tcpstat will keep running unless the
     -s option had been specified.

OPTIONS

     The options are as follows:

     -a          Accounting mode.  Displays the estimated number of bytes per second, minute,
                 hour, day, and month.

     -b bps      Bandwidth mode.  Displays the total number of seconds the data-throughput
                 exceeded bps, and the percentage of total time this was, as if the interface
                 were limited to bps bits per second.  See the NOTES section below to see how the
                 interval affects bandwidth calculation.

     -B bps      "Dumb" bandwidth mode.  Displays the total number of seconds the data-throughput
                 exceeded bps, and the percentage of total time this was.  See the NOTES section
                 below to see difference between "dumb" and normal bandwidth modes.

     -e          Suppresses the display of empty intervals.

     -F          Flush all output streams after printing each interval.  Sometimes useful when
                 redirecting output into a file, or piping tcpstat into another program like
                 grep(1).

     -f filter expr
                 Filter the packets according the rules given by filter expr.  For the syntax of
                 these rules, see tcpdump(1).  The argument must be quoted if it contains spaces
                 in order to separate it from other options.

     -h, -?      Display version and a brief help message.

     -i interface
                 Do a live capture (rather than read from a file) on the interface interface
                 given on the command line.  If interface is "auto" then tcpstat tries to find an
                 appropriate one by itself.

     -l          Include the size of the link-layer header when calculating statistics.
                 (Ethernet only, right now.  Usually 14 bytes per packet.)

     -p          Set the interface into non-promiscuous mode (promiscuous is the default) when
                 doing live captures.

     -o format   Set the output format when displaying statistics.  See the OUTPUT FORMAT section
                 below for a description of the syntax.

     -R seconds  Show the timestamp relative to seconds.  Avoid this option, because it will most
                 likely go away in future versions.

     -r filename
                 Read all data from filename, which may be a regular file, a named pipe or "-" to
                 read it's data from standard input. Acceptable file formats include pcap
                 (tcpdump(1) files) and "snoop" format files.  filename is usually a file created
                 by the tcpdump(1) command using the "-w" option.

     -s seconds  When monitoring an interface, tcpstat runs for only seconds seconds, and then
                 quits.  When reading from a data file, tcpstat prints statistics for seconds
                 seconds relative to the first packet seen.

OUTPUT FORMAT

     The output string is any quoted string, and tcpstat will write this string to the stdout.
     In addition, tcpstat will substitute certain values for substrings which begin with a "%",
     as well as most standard printf(3) "\" escape characters. Here is a list of all substitution
     strings:

     %A    the number of ARP packets

     %a    the average packet size in bytes

     %B    the number of bytes per second

     %b    the number of bits per second

     %C    the number of ICMP and ICMPv6 packets

     %d    the standard deviation of the size of each packet in bytes

     %I    the number of IPv4 packets

     %l    the network "load" over the last minute, similar to uptime(1)

     %M    the maximum packet size in bytes

     %m    the minimum packet size in bytes

     %N    the number of bytes

     %n    the number of packets

     %p    the number of packets per second

     %R    same as %S, but relative to the first packet seen

     %r    same as %s, but relative to the first packet seen

     %S    the timestamp for the interval in seconds after the "UNIX epoch"

     %s    the timestamp for the interval in seconds.microseconds after the "UNIX epoch"

     %T    the number of TCP packets

     %U    the number of UDP packets

     %V    the number of IPv6 packets

     %number
           switch the output to the file descriptor number at this point in the string.  All
           output for each interval before this parameter is by default the standard output (file
           descriptor 1).  Useful when redirecting the output into more than one file (or fifo)
           for separate statistics.  Be sure you know where they are going.  Writing to
           "dangling" file descriptors (without directing them to a specific destination) may
           produce unexpected results.

     %%    the "%" character

     The default format string for tcpstat is:

     "Time:%S\tn=%n\tavg=%a\tstddev=%d\tbps=%b\n"

     which will produce an output which would look similar to:

     Time:940948785  n=107   avg=251.81      stddev=422.45   bps=43110.40
     Time:940948790  n=99    avg=400.21      stddev=539.39   bps=63393.60
     Time:940948795  n=43    avg=257.16      stddev=352.83   bps=17692.80

     It is worth noting for example, that many of the protocol filters (%T, %U, etc.) may be seen
     as being redundant because protocols can be filtered using -f (see OPTIONS above)

SIGNALS

     Upon receiving a SIGINT, tcpstat will print any remaining statistics, and then exit.  Upon
     receiving a SIGUSR1 when printing intervals, tcpstat will print the current statistics
     immediately.  This can be useful when using an interval length of "-1" to print statistics
     on demand.

FILES

     /dev/bpfn    the packet filter device

EXAMPLES

           tcpstat -i fxp0

     Displays the default statistics every 5 seconds of all traffic currently passing through the
     fxp0 network interface.

           tcpstat -r file.dump

     Displays the default statistics every 5 seconds from the tcpdump(1) generated file
     "file.dump".

           tcpstat -f 'port (smtp or http)' -o '%S %b\n' -r file.dump 2.3

     Displays every 2.3 seconds the timestamp together with smtp and http traffic throughput of
     the data from "file.dump", in a format which would be suitable for gnuplot(1).

           tcpstat -b 28800 -r file.dump 0.5

     Displays what percentage of the traffic in file.dump exceeded the speed of my modem (28800
     bits per second.)

SEE ALSO

     tcpdump(1), pcap(3), bpf(4), printf(3)

NOTES

   Interval size affects bandwidth
     Due to the nature of how bandwidth is actually measured (from discrete samples of data), the
     bandwidth numbers displayed will vary according to the interval variable.  Generally
     speaking, if you often have rapid bursts of packet data, the bandwidth reported will not
     reflect this when interval is sufficiently large.  This results in an "averaging" effect,
     which may or may not be desired.  On the other hand, if interval is too small (say < 0.01),
     this results in unrealistically large bandwidths for very short amounts of time.

     The reason for the latter is that most network interfaces do not hand over packets bit by
     bit, but rather packet by packet.  Thus, each packet is reported as being transferred
     "instantaneously", resulting in "infinite" (or rather indeterminable) bandwidth.  Thus, when
     counting single bits on the wire, there really is no such thing as "bandwidth" because they
     aren't really moving from the network stack's point of view (cf. Zeno's Paradox.)

     A possible solution is to internally spline the packet sizes together and report the
     bandwidth as the scalar integral over the given interval, but this has yet to be
     implemented, and to be honest, would be the proverbial cruise missile to destroy an ant
     hill.

     That being said (whew!), a "good value" for interval is usually somewhere between 0.5 and 2.

   Difference between normal and 'dumb' bandwidth modes.
     In normal bandwidth mode, when an interval exceeds the given bandwidth, the extra bytes are
     "moved" into the next interval.  This has the effect of trying to imagine how overloaded an
     interface would be if the interface had a smaller bandwidth, yet same amount of data tried
     to get through.

     In "dumb" bandwidth mode, each interval which exceeds the given bandwidth is simply counted.
     Nothin' else.

HISTORY

     tcpstat was first written in Winter 1998 using FreeBSD 3.0, and then finally retrofitted for
     Linux in Spring 2000.

AUTHORS

     Paul Herman <pherman@frenchfries.net>
     Cologne, Germany.

     Please send all bug reports to this address.

BUGS

     Due to a bug in libpcap, tcpstat will hang indefinitely under Linux when no packets arrive.
     This is because the timeout in pcap_open_live() is ignored under Linux when the interface is
     idle, which causes pcap_dispatch() to never return.

     Not tested with link types other than Ethernet, PPP, and "None" types.

     There may be problems reading non-IPv4 packets across platforms when reading null type link
     layers.  This is due to a lack of a standardized packet type descriptor in libpcap for this
     link type.

     Snoop file formats cannot be read from stdin or named pipes.