Provided by: netsend_0.0~svnr250-1.3_amd64 bug

NAME

       netsend - a speedy filetransfer and network diagnostic program

SYNOPSIS

       netsend [OPTIONS] PROTOCOL MODE { COMMAND | HELP }

DESCRIPTION

PROTOCOL

       Protocol is one of

       tcp, udp, udplite, dccp, sctp or tipc.

       When using tipc, you must also specify a socket type, e.g. netsend tipc MODE -t
       SOCK_STREAM.

MODE

       Mode is either receive or transmit.

OPTIONS

       -r Nn,Nd,Nm,Nf
               Round trip probes options:

               Nn - Number of iterations of round trip probes. Default is to perform 10 attempts.
                    Don't set to less then 5 because measurement results will not very predicating.

               Nd - Size of rtt payload. This is the number of bytes piggybacking (plus the
                    netsend rtt header). Default is 500 byte, maybe your mtu minus netsend header
                    minus protocol header (tcp, udp) will better fit for your needs.

               Nm - for the round trip time probes netsend calculates a deviation. With this
                    flag you can adjust the filter. Default is 4. Lower values drain more probes
                    out, so be carefully with this option.

                    For example: if you have measured rtt probes of 4, 5, 5, 6 and 15 ms. The
                    average is 7. Covariance is 16.4 and deviation is 4.04. If you select 2 here as
                    the multiplier, then you filter all rtt probes with higher values then 8.08 (for
                    this example you filer 15ms out).

                    This will help to discard some nonesense probes who are evoked through cold code
                    paths (cache misses, page faults, ...) or network anomalies. Use this option
                    carefully!

             -f    forces to don't perform rtt probes but take N milliseconds as average value. With
                   this option you can figure out the behaviour of satelite links (e.g you say -D500f)

       -b
                   followed by a number: sets read/write buffer size to use. Default is 8192 for read/write and
                   size_of_file_to_send for mmap/sendfile.

       -m
                   followed by a memadvise(2) option: normal, sequential, random, willneed, dontneed, noreuse.

       -p
                   followed by a number: set TCP/UDP/DCCP/SCTP port to use. Default is 6666.

       -P
                   followed by scheduling policy: sched_rr, sched_fifo, sched_batch or sched_other

       -s
                   followed by a setsockopt(2) optname and optval. netsend maps setsockopt levels and
                   optlen internally.  running 'netsend -s list' will print a list of all setsockopt
                   optnames currently recognized by netsend.

       -T
                   followed by either human or machine: sets output format

       -u
                   followed by the transmit function to use. One of sendfile, mmap, splice or rw.
                   When not specified, rw (read/write) is used.
                   Note that not all protocols support all transfer methods, e.g. TIPCs connectionless sockets (SOCK_RDM and SOCK_DGRAM)
                   do not support the sendfile system call. Also, the amount of data that can be sent in a single operation may be limited
                   by the network protocol used.

EXAMPLES

        Listen for incoming SCTP connections, incoming data goes to stdout:

            ./netsend -T human -v stressful sctp receive

         Send file largefile via TCP with output in machine parseable format:

             ./netsend -T machine tcp transmit largefile host.example.org

          Receive data via TCP with MD5SIG from peer 10.0.0.1:

              ./netsend tcp transmit -C largefile ffff::10.0.0.1 ./netsend tcp receive -C
              ffff::10.0.0.1

EXIT STATUS

       netsend returns a zero exist status if it succeeds.  Non zero is returned in case of
       failure. Following failure codes are implemented:

         0 - succeed
         1 - failure in memory handling
         2 - command line option error
         3 - failure which fit in any categories
         4 - network error
         5 - failure in netsend header (maybe corrupted hardware)
         6 - netsend internal error (should never happen[tm])

AUTHOR

         Hagen Paul Pfeifer
         Florian Westphal

SEE ALSO

       http://netsend.berlios.de