SOFTFLOWD(8) BSD System Manager’s Manual SOFTFLOWD(8)

NAME

softflowd — Traffic flow monitoring

SYNOPSIS

softflowd [-6dDhbalN] [-L hoplimit] [-T track_level] [-c ctl_sock] [

-i  [
if_ndx
:]interface ] [-m max_flows] [-n host:port] [-p pidfile] [-r pcap_file] [-t timeout_name=seconds] [-v netflow_version] [-P transport_protocol] [-A time_format] [-s sampling_rate] [-C capture_length] [-R receive_port] [-S send_interface_name] [-x number_of_mpls_labels] [bpf_expression]

DESCRIPTION

softflowd is a software implementation of a flow-based network traffic monitor. softflowd reads network traffic and gathers information about active traffic flows. A "traffic flow" is communication between two IP addresses or (if the overlying protocol is TCP or UDP) address/port tuples.

The intended use of softflowd is as a software implementation of Cisco’s NetFlow(tm) traffic account system. softflowd supports data export using versions 1, 5, 9 or 10 (a.k.a. IPFIX) of the NetFlow protocol. softflowd can also run in statistics-only mode, where it just collects summary information. However, too few statistics are collected to make this mode really useful for anything other than debugging.

Network traffic may be obtained by listening on a promiscuous network interface (unless the -N option is given) or by reading stored pcap(3) files, such as those written by tcpdump(8). Traffic may be filtered with an optional bpf(4) program, specified on the command-line as bpf_expression. softflowd is IPv6 capable and will track IPv6 flows if the NetFlow export protocol supports it (currently only NetFlow v.9 possesses an IPv6 export capability).

softflowd tries to track only active traffic flows. When the flow has been quiescent for a period of time it is expired automatically. Flows may also be expired early if they approach their traffic counts exceed 2 Gib or if the number of flows being tracked exceeds max_flows (default: 8192). In this last case, flows are expired oldest-first.

Upon expiry, the flow information is accumulated into statistics which may be viewed using softflowctl(8). If the -n option has been specified the flow information is formatted in a UDP datagram which is compatible with versions 1, 5 or 9 of Cisco’s NetFlow(tm) accounting export format. These records are sent to the specified host and port. The host may represent a unicast host or a multicast group.

The command-line options are as follows:

-n host:port

Specify the host and port that the accounting datagrams are to be sent to. The host may be specified using a hostname or using a numeric IPv4 or IPv6 address. Numeric IPv6 addresses should be enclosed in square brackets to avoid ambiguity between the address and the port. The destination port may be a portname listed in services(5) or a numeric port. Comma can be used for specifying multiple destinations.

-N

Do not put the interface into promiscuous mode. Note that the interface might be in promiscuous mode for some other reason.

-i
[
if_ndx
:]interface

Specify a network interface on which to listen for traffic. Either the -i or the -r options must be specified.

-r pcap_file

Specify that softflowd should read from a pcap(3) packet capture file (such as one created with the -w option of tcpdump(8)) file rather than a network interface. softflowd processes the whole capture file and only expires flows when max_flows is exceeded. In this mode, softflowd will not fork and will automatically print summary statistics before exiting.

-p pidfile

Specify an alternate location to store the process ID when in daemon mode. Default is /var/run/softflowd.pid

-c ctlsock

Specify an alternate location for the remote control socket in daemon mode. Default is /var/run/softflowd.ctl

-m max_flows

Specify the maximum number of flows to concurrently track. If this limit is exceeded, the flows which have least recently seen traffic are forcibly expired. In practice, the actual maximum may briefly exceed this limit by a small amount as expiry processing happens less frequently than traffic collection. The default is 8192 flows, which corresponds to slightly less than 800k of working data.

-t timeout_name=time

Set the timeout names timeout_name to time. Refer to the Timeouts section for the valid timeout names and their meanings. The time parameter may be specified using one of the formats explained in the Time Formats section below.

-d

Specify that softflowd should not fork and daemonise itself.

-6

Force softflowd to track IPv6 flows even if the NetFlow export protocol does not support reporting them. This is useful for debugging and statistics gathering only.

-D

Places softflowd in a debugging mode. This implies the -d and -6 flags and turns on additional debugging output.

-B size_bytes

Libpcap buffer size in bytes

-b

Bidirectional mode in IPFIX (-b work with -v 10)

-a

Adjusting time for reading pcap file (-a work with -r)

-l

Load balancing mode for multiple destinations which are specified with -n

-x number_of_mpls_labels

specify number of mpls labels for export

-h

Display command-line usage information.

-L hoplimit

Set the IPv4 TTL or the IPv6 hop limit to hoplimit. softflowd will use the default system TTL when exporting flows to a unicast host. When exporting to a multicast group, the default TTL will be 1 (i.e. link-local).

-T track_level

Specify which flow elements softflowd should be used to define a flow. track_level may be one of: “ether” (track everything including source and destination addresses, source and destination port, source and destination ethernet address, vlanid and protocol), “vlan” (track source and destination addresses, source and destination port, vlanid and protocol), “full” (track source and destination addresses, source and destination port and protocol in the flow, the default), “proto” (track source and destination addresses and protocol), or “ip” (only track source and destination addresses). Selecting either of the latter options will produce flows with less information in them (e.g. TCP/UDP ports will not be recorded). This will cause flows to be consolidated, reducing the quantity of output and CPU load that softflowd will place on the system at the cost of some detail being lost.

-v netflow_version

Specify which version of the NetFlow(tm) protocol softflowd should use for export of the flow data. Supported versions are 1, 5, 9, 10(IPFIX), and psamp. Default is version 5.

-P transport_protocol

Specify transport layer protocol for exporting packets. Supported transport layer protocols are udp, tcp, and sctp.

-A time_format

Specify absolute time format form exporting records. Supported time formats are sec, milli, micro, and nano.

-s sampling_rate

Specify periodical sampling rate (denominator).

-C capture_length

Specify length for packet capture (snaplen).

-R receive_port

Specify port number for PSAMP receive mode.

-S send_interface_name

Specify send interface name. (This option works on Linux only because of use of SO_BINDTODEVICE for setsockopt.)

Any further command-line arguments will be concatenated together and applied as a bpf(4) packet filter. This filter will cause softflowd to ignore the specified traffic.

Timeouts
softflowd
will expire quiescent flows after user-configurable periods. The exact timeout used depends on the nature of the flow. The various timeouts that may be set from the command-line (using the -t option) and their meanings are:

general

This is the general timeout applied to all traffic unless overridden by one of the other timeouts.

tcp

This is the general TCP timeout, applied to open TCP connections.

tcp.rst

This timeout is applied to a TCP connection when a RST packet has been sent by one or both endpoints.

tcp.fin

This timeout is applied to a TCP connection when a FIN packet has been sent by both endpoints.

udp

This is the general UDP timeout, applied to all UDP connections.

maxlife

This is the maximum lifetime that a flow may exist for. All flows are forcibly expired when they pass maxlife seconds. To disable this feature, specify a maxlife of 0.

expint

Specify the interval between expiry checks. Increase this to group more flows into a NetFlow packet. To disable this feature, specify a expint of 0.

Flows may also be expired if there are not enough flow entries to hold them or if their traffic exceeds 2 Gib in either direction. softflowctl(8) may be used to print information on the average lifetimes of flows and the reasons for their expiry.

Time Formats
softflowd
command-line arguments that specify time may be expressed using a sequence of the form: time[qualifier], where time is a positive integer value and qualifier is one of the following:

<none>

seconds

s | S

seconds

m | M

minutes

h | H

hours

d | D

days

w | W

weeks

Each member of the sequence is added together to calculate the total time value.

Time format examples:

600

600 seconds (10 minutes)

10m

10 minutes

1h30m

1 hour 30 minutes (90 minutes)

Run-time Control
A daemonised softflowd instance may be controlled using the softflowctl(8) command. This interface allows one to shut down the daemon, force expiry of all tracked flows and extract debugging and summary data. Also, receipt of a SIGTERM or SIGINT will cause softflowd to exit, after expiring all flows (and thus sending flow export packets if -n was specified on the command-line). If you do not want to export flows upon shutdown, clear them first with softflowctl(8) or use softflowctl(8) ’s “exit” command.

EXAMPLES
softflowd -i fxp0

This command-line will cause softflowd to listen on interface fxp0 and to run in statistics gathering mode only (i.e. no NetFlow data export).

softflowd -i fxp0 -n 10.1.0.2:4432

This command-line will cause softflowd to listen on interface fxp0 and to export NetFlow v.5 datagrams on flow expiry to a flow collector running on 10.1.0.2 port 4432.

softflowd -i fxp0 -n 10.1.0.2:4432,10.1.0.3:4432

This command-line will cause softflowd to listen on interface fxp0 and to export NetFlow v.5 datagrams on flow expiry to a flow collector running on 10.1.0.2 port 4432 and 10.1.0.3 port 4432.

softflowd -i fxp0 -l -n 10.1.0.2:4432,10.1.0.3:4432

This command-line will cause softflowd to listen on interface fxp0 and to export NetFlow v.5 datagrams on flow expiry to a flow collector running on 10.1.0.2 port 4432 and 10.1.0.3 port 4432 with load balncing mode. Odd netflow packets will be sent to 10.1.0.2 port 4432 and even netflow packets will be sent to 10.1.0.3 port 4432.

softflowd -v 5 -i fxp0 -n 10.1.0.2:4432 -m 65536 -t udp=1m30s

This command-line increases the number of concurrent flows that softflowd will track to 65536 and increases the timeout for UDP flows to 90 seconds.

softflowd -v 9 -i fxp0 -n 224.0.1.20:4432 -L 64

This command-line will export NetFlow v.9 flows to the multicast group 224.0.1.20. The export datagrams will have their TTL set to 64, so multicast receivers can be many hops away.

softflowd -i fxp0 -p /var/run/sfd.pid.fxp0 -c /var/run/sfd.ctl.fxp0

This command-line specifies alternate locations for the control socket and pid file. Similar command-lines are useful when running multiple instances of softflowd on a single machine.

FILES
/var/run/softflowd.pid

This file stores the process ID when softflowd is in daemon mode. This location may be overridden using the -p command-line option.

/var/run/softflowd.ctl

This is the remote control socket. softflowd listens on this socket for commands from softflowctl(8). This location may be overridden using the -c command-line option.

BUGS

Currently softflowd does not handle maliciously fragmented packets properly, i.e. packets fragemented such that the UDP or TCP header does not fit into the first fragment. It will product correct traffic counts when presented with maliciously fragmented packets, but will not record TCP or UDP port information. Please report bugs in softflowd to https://github.com/irino/softflowd/issues

AUTHORS

Damien Miller <djm@mindrot.org>
Hitoshi Irino (current maintainer) <irino@sfc.wide.ad.jp>

SEE ALSO

softflowctl(8), tcpdump(8), pcap(3), bpf(4)

http://www.ietf.org/rfc/rfc3954.txt
http://www.cisco.com/en/US/products/sw/netmgtsw/ps1964/products_implementation_design_guide09186a00800d6a11.html
http://www.ietf.org/rfc/rfc5101.txt
http://www.ietf.org/rfc/rfc5103.txt

BSD November 17, 2019 BSD