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TRAFFIC_LEARNER(7) User Commands TRAFFIC_LEARNER(7)
NAME
traffic_learner - Samba tool to assist with traffic generation.
SYNOPSIS
traffic_learner {-o OUTPUT_FILE ...} [-h] [--dns-mode {inline|count}]
[SUMMARY_FILE] [SUMMARY_FILE ...]
DESCRIPTION
This tool is part of the samba(7) suite.
This tool assists with generation of Samba traffic. It takes a
traffic-summary file (produced by traffic_summary.pl) as input and
produces a traffic-model file that can be used by traffic_replay for
traffic generation.
The model file summarizes the types of traffic ('conversations' between
a host and a Samba DC) that occur on a network. The model file
describes the traffic in a way that allows it to be scaled so that
either more (or fewer) packets get sent, and the packets can be sent at
a faster (or slower) rate than that seen in the network.
OPTIONS
-h|--help
Print a summary of command line options.
SUMMARY_FILE
File containing a network traffic-summary. The traffic-summary file
should be generated by traffic_summary.pl from a packet capture of
actual network traffic. More than one file can be specified, in
which case the traffic will be combined into a single
traffic-model. If no SUMMARY_FILE is specified, this tool will read
the traffic-summary from STDIN, i.e. you can pipe the output from
traffic_summary.pl directly to this tool.
-o|--out OUTPUT_FILE
The traffic-model that is produced will be written to this file.
The OUTPUT_FILE can then be passed to traffic_replay to generate
(and manipulate) Samba network traffic.
--dns-mode [inline|count]
How DNS traffic should be handled by the model.
EXAMPLES
To take a traffic-summary file and produce a traffic-model file, use:
traffic_learner traffic-summary.txt -o traffic-model.txt
To generate a traffic-model from a packet capture, you can pipe the
traffic summary to STDIN using:
tshark -r capture.pcapng -T pdml | traffic_summary.pl | traffic_learner
-o traffic-model.txt
OUTPUT FILE FORMAT
The output model file describes a Markov model estimating the
probability of a packet occurring given the last two packets.
Example ngram listing
The following listing shows a contrived example of a single ngram
entry.
"ngrams": {
"ldap:0\tdcerpc:11": {
"lsarpc:77": 1,
"ldap:2": 370,
"ldap:3": 62,
"wait:3": 2,
"-": 1
}, [...]
}
This counts the observed continuations after an ldap packet with opcode
0 (a bind) followed by a dcerpc packet with opcode 11 (also a bind).
The most common next packet is "ldap:2" which is an unbind, so this is
the most likely packet type to be selected in replay. At the other
extreme, lsarpc opcode 77 (lookup names) has been seen only once, and
it is unlikely but possible that this will be selected in replay.
There are two special packet types here. "wait:3" refers to a temporary
pause in the conversation, where the "3" pseudo-opcode indicates the
length of the wait on an exponential scale. That is, a "wait:4" pause
would be about 2.7 times longer that a "wait:3", which in turn would be
similarly longer than a "wait:2".
The other special packet is "-", which represents the limit of the
conversation. In the example, this indicates that one observed
conversation ended after this particular ngram. This special opcode is
also used at the beginning of conversations, which are indicated by the
ngram "-\t-".
VERSION
This man page is complete for version 4.13.17 of the Samba suite.
SEE ALSO
traffic_replay(7).
AUTHOR
The original Samba software and related utilities were created by
Andrew Tridgell. Samba is now developed by the Samba Team as an Open
Source project similar to the way the Linux kernel is developed.
The traffic_learner tool was developed by the Samba team at Catalyst IT
Ltd.
The traffic_learner manpage was written by Tim Beale.
Samba 4.13.17 01/31/2022 TRAFFIC_LEARNER(7)