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scripts: Scripts to replay and generate samba traffic

Scripts to generate representative network traffic and replay this to a
samba instance.  For load testing, performance profiling and capacity
planning.

traffic_learner  process a file generated by traffic_summary and
                 generate a model that can be used by traffic_replay to
                 generate samba network traffic.

traffic_replay   Replay a summary file generated by traffic_summary, or
                 use a model created by traffic_learner to generate
                 network traffic.

Signed-off-by: Gary Lockyer <gary@catalyst.net.nz>
Signed-off-by: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>

Reviewed-by: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
Reviewed-by: Garming Sam <garming@catalyst.net.nz>
Pair-programmed-with: Garming Sam <garming@catalyst.net.nz>
Pair-programmed-with: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
Pair-Programmed-With: Andrew Bartlett <abartlet@samba.org>
Pair-Programmed-With: Tim Beale <timbeale@catalyst.net.nz>
This commit is contained in:
Gary Lockyer 2017-06-29 11:08:37 +12:00 committed by Douglas Bagnall
parent 74ebcf6dfc
commit 7057abcfcd
21 changed files with 5534 additions and 4 deletions

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<?xml version="1.0" encoding="iso-8859-1"?>
<!DOCTYPE refentry PUBLIC "-//Samba-Team//DTD DocBook V4.2-Based Variant V1.0//EN" "http://www.samba.org/samba/DTD/samba-doc">
<refentry id="traffic_learner.7">
<refmeta>
<refentrytitle>traffic_learner</refentrytitle>
<manvolnum>7</manvolnum>
<refmiscinfo class="source">Samba</refmiscinfo>
<refmiscinfo class="manual">User Commands</refmiscinfo>
<refmiscinfo class="version">4.7</refmiscinfo>
</refmeta>
<refnamediv>
<refname>traffic_learner</refname>
<refpurpose>Samba tool to assist with traffic generation.
</refpurpose>
</refnamediv>
<refsynopsisdiv>
<cmdsynopsis>
<command>traffic_learner</command>
<arg choice="req">-o OUTPUT_FILE ...</arg>
<arg choice="opt">-h</arg>
<arg choice="opt">--dns-mode {inline|count}</arg>
<arg choice="opt">SUMMARY_FILE</arg>
<arg choice="opt">SUMMARY_FILE ...</arg>
</cmdsynopsis>
</refsynopsisdiv>
<refsect1>
<title>DESCRIPTION</title>
<para>This tool is part of the <citerefentry><refentrytitle>samba</refentrytitle>
<manvolnum>7</manvolnum></citerefentry> suite.</para>
<para>This tool assists with generation of Samba traffic.
It takes a traffic-summary file (produced by
<command>traffic_summary.pl</command>) as input and produces a
traffic-model file that can be used by <command>traffic_replay</command>
for traffic generation.</para>
<para>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.</para>
</refsect1>
<refsect1>
<title>OPTIONS</title>
<variablelist>
<varlistentry>
<term>-h|--help</term>
<listitem><para>
Print a summary of command line options.
</para></listitem>
</varlistentry>
<varlistentry>
<term>SUMMARY_FILE</term>
<listitem><para>
File containing a network traffic-summary. The traffic-summary file
should be generated by <command>traffic_summary.pl</command> 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.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-o|--out OUTPUT_FILE</term>
<listitem><para>
The traffic-model that is produced will be written to this file. The
OUTPUT_FILE can then be passed to <command>traffic_replay</command>
to generate (and manipulate) Samba network traffic.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--dns-mode [inline|count]</term>
<listitem><para>
How DNS traffic should be handled by the model.
</para></listitem>
</varlistentry>
</variablelist>
</refsect1>
<refsect1>
<title>EXAMPLES</title>
<para>To take a traffic-summary file and produce a traffic-model
file, use:</para>
<para><command>traffic_learner traffic-summary.txt
-o traffic-model.txt</command></para>
<para>To generate a traffic-model from a packet capture, you can
pipe the traffic summary to STDIN using:</para>
<para><command>tshark -r capture.pcapng -T pdml |
traffic_summary.pl | traffic_learner -o traffic-model.txt</command></para>
</refsect1>
<refsect1>
<title>OUTPUT FILE FORMAT</title>
<para>The output model file describes a Markov model estimating the
probability of a packet occurring given the last two packets.</para>
<para>The count of each continuation after a pair of
successive packets is stored, and the ratios of these counts
is used to calculate probabilities for the next packet.
</para>
<para>The model is stored in JSON format, and also contains
information about the conversation rate and DNS traffic
rate.</para>
<refsect2>
<title>Example ngram listing</title>
<para>The following listing shows a contrived example of a single ngram entry.
</para>
<programlisting>
"ngrams": {
"ldap:0\tdcerpc:11": {
"lsarpc:77": 1,
"ldap:2": 370,
"ldap:3": 62,
"wait:3": 2,
"-": 1
}, <lineannotation>[...]</lineannotation>
}
</programlisting>
<para> 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
"<code>ldap:2</code>" 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.
</para>
<para> There are two special packet types here.
"<code>wait:3</code>" refers to a temporary pause in the
conversation, where the "<code>3</code>" pseudo-opcode indicates
the length of the wait on an exponential scale. That is, a
"<code>wait:4</code>" pause would be about 2.7 times longer that
a "<code>wait:3</code>", which in turn would be similarly longer
than a "<code>wait:2</code>".
</para>
<para>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 "<code>-\t-</code>".
</para>
</refsect2>
</refsect1>
<refsect1>
<title>VERSION</title>
<para>This man page is complete for version 4 of the Samba
suite.</para>
</refsect1>
<refsect1>
<title>SEE ALSO</title>
<para>
<citerefentry>
<refentrytitle>traffic_replay</refentrytitle><manvolnum>7</manvolnum>
</citerefentry>.
</para>
</refsect1>
<refsect1>
<title>AUTHOR</title>
<para>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.</para>
<para>The traffic_learner tool was developed by the Samba team at
Catalyst IT Ltd.</para>
<para>The traffic_learner manpage was written by Tim Beale.</para>
</refsect1>
</refentry>

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<?xml version="1.0" encoding="iso-8859-1"?>
<!DOCTYPE refentry PUBLIC "-//Samba-Team//DTD DocBook V4.2-Based Variant V1.0//EN" "http://www.samba.org/samba/DTD/samba-doc">
<refentry id="traffic_replay.7">
<refmeta>
<refentrytitle>traffic_replay</refentrytitle>
<manvolnum>7</manvolnum>
<refmiscinfo class="source">Samba</refmiscinfo>
<refmiscinfo class="manual">User Commands</refmiscinfo>
<refmiscinfo class="version">4.7</refmiscinfo>
</refmeta>
<refnamediv>
<refname>traffic_replay</refname>
<refpurpose>Samba traffic generation tool.
</refpurpose>
</refnamediv>
<refsynopsisdiv>
<cmdsynopsis>
<command>traffic_replay</command>
<arg choice="opt">-F, --fixed-password &lt;test-password&gt;</arg>
<arg choice="opt">-S, --scale-traffic &lt;scale by factor&gt;</arg>
<arg choice="opt">-r, --replay-rate &lt;scale by factor&gt;</arg>
<arg choice="opt">-D, --duration &lt;seconds&gt;</arg>
<arg choice="opt">--traffic-summary &lt;output file&gt;</arg>
<arg choice="opt">-I, --instance-id &lt;id&gt;</arg>
<arg choice="opt">-K, --prefer-kerberos</arg>
<arg choice="opt">-B, --badpassword-frequency &lt;frequency&gt;</arg>
<arg choice="opt">--dns-rate &lt;rate&gt;</arg>
<arg choice="opt">-t, --timing-data &lt;file&gt;</arg>
<arg choice="opt">-U, --username user</arg>
<arg choice="opt">--password &lt;password&gt;</arg>
<arg choice="opt">-W --workgroup &lt;workgroup&gt;</arg>
<arg choice="opt">--realm &lt;realm&gt;</arg>
<arg choice="opt">-s, --config-file &lt;file&gt;</arg>
<arg choice="opt">-k, --kerberos &lt;kerberos&gt;</arg>
<arg choice="opt">--ipaddress &lt;address&gt;</arg>
<arg choice="opt">-P, --machine-pass</arg>
<arg choice="opt">--option &lt;option&gt;</arg>
<arg choice="opt">-d, --debuglevel &lt;debug level&gt;</arg>
<arg choice="req">summary-file</arg>
<arg choice="req">dns-hostname</arg>
</cmdsynopsis>
<cmdsynopsis>
<command>traffic_replay</command>
<arg choice="opt">-G, --generate-users-only</arg>
<arg choice="opt">-F, --fixed-password &lt;test-password&gt;</arg>
<arg choice="opt">-n, --number-of-users &lt;total users&gt;</arg>
<arg choice="opt">--number-of-groups &lt;total groups&gt;</arg>
<arg choice="opt">--average-groups-per-user &lt;average number&gt;</arg>
<arg choice="opt">--group-memberships &lt;total memberships&gt;</arg>
<arg choice="req">dns-hostname</arg>
</cmdsynopsis>
<cmdsynopsis>
<command>traffic_replay</command>
<arg choice="req">-c|--clean-up</arg>
<arg choice="req">dns-hostname</arg>
</cmdsynopsis>
<cmdsynopsis>
<command>traffic_replay</command>
<arg choice="opt">-h, --help</arg>
<arg choice="opt">-V, --version</arg>
</cmdsynopsis>
</refsynopsisdiv>
<refsect1>
<title>DESCRIPTION</title>
<para>This tool is part of the <citerefentry><refentrytitle>samba</refentrytitle>
<manvolnum>7</manvolnum></citerefentry> suite.</para>
<para>This tool generates traffic in order to measure the performance
of a Samba DC, and to test how well Samba will scale as a network
increases in size. It can simulate multiple different hosts making
multiple different types of requests to a DC.</para>
<para>This tool is intended to run against a dedicated test DC (rather
than a live DC that is handling real network traffic).</para>
<para>Note that a side-effect of running this tool is that user
accounts will be created on the DC, in order to test various Samba
operations. As creating accounts can be very time-consuming, these
users will remain on the DC by default. To remove these accounts, use
the --clean-up option.
</para>
</refsect1>
<refsect1>
<title>OPTIONS</title>
<variablelist>
<varlistentry>
<term>-h|--help</term>
<listitem><para>
Print a summary of command line options.
</para></listitem>
</varlistentry>
<varlistentry>
<term>summary-file</term>
<listitem><para>
File containing the network traffic to replay. This should either be
a traffic-summary (generated by <command>traffic_summary.pl</command>)
or a traffic-model (generated by <command>traffic_learner</command>).
Based on this file, this tool will generate 'conversations' which
represent Samba activity between a network host and the DC.
</para></listitem>
</varlistentry>
<varlistentry>
<term>dns-hostname</term>
<listitem><para>
The full DNS hostname of the DC that's being tested. The Samba activity
in the summary-file will be replicated and directed at this DC. It's
recommended that you use a dedicated DC for testing and don't try to run
this tool against a DC that's processing live network traffic.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-F|--fixed-password &lt;test-password&gt;</term>
<listitem><para>
Test users are created when this tool is run, so that actual Samba
activity, such as authorizing users, can be mimicked. This option
specifies the password that will be used for any test users that are
created.</para>
<para>Note that any users created by this tool will remain on the DC
until you run the --clean-up option. Therefore, the fixed-password
option needs to be the same each time the tool is run, otherwise the
test users won't authenticate correctly.
</para></listitem>
</varlistentry>
<varlistentry>
<term>Traffic Model Options</term>
<listitem><para>
When the summary-file is a traffic-model (produced by
<command>traffic_learner</command>), use these options to alter the
traffic that gets generated.</para>
<itemizedlist>
<varlistentry>
<term>-D|--duration &lt;seconds&gt;</term>
<listitem><para>
Specifies the approximate duration in seconds to generate
traffic for. The default is 60 seconds.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-r|--replay-rate &lt;factor&gt;</term>
<listitem><para>
Replays the traffic faster by this factor. This option won't
affect the number of conversations (which is based on the
traffic model), but the rate at which the packets are sent will
be increased.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-S|--scale-traffic &lt;factor&gt;</term>
<listitem><para>
Increases the number of conversations by this factor. This
option won't affect the rate at which packets get sent (which
is still based on the traffic model), but it will mean more
conversations get replayed.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--traffic-summary &lt;output-file&gt;</term>
<listitem><para>
Instead of replaying a traffic-model, this option generates a
traffic-summary file based on what traffic would be sent. Using
a traffic-model allows you to scale the packet rate and number
of packets sent. However, using a traffic-model introduces
some randomness into the traffic generation. So running the
same traffic_replay command multiple times using a model file
may result in some differences in the actual traffic sent.
However, running the same traffic_replay command multiple times
with a traffic-summary file will always result in the same
traffic being sent. </para>
<para>
For taking performance measurements over several test runs,
it's recommended to use this option and replay the traffic from
a traffic-summary file.
</para></listitem>
</varlistentry>
</itemizedlist>
</listitem>
</varlistentry>
<varlistentry>
<term>--generate-users-only</term>
<listitem><para>Add extra user/groups on the DC to increase the DB
size. By default, this tool automatically creates test users that map
to the traffic conversations being generated. This option allows extra
users to be created on top of this. Note that these extra users may
not actually used for traffic generation - the traffic generation is
still based on the number of conversations from the model/summary file.
</para>
<para>
Generating a large number of users can take a long time, so it this
option allows this to be done only once.</para>
<para>Note that the users created will remain on the DC until the
tool is run with the --clean-up option. This means that it is best to
only assign group memberships once, i.e. run --clean-up before
assigning a different allocation of group memberships.</para>
<itemizedlist>
<varlistentry>
<term>-n|--number-of-users &lt;total-users&gt;</term>
<listitem><para>
Specifies the total number of test users to create (excluding
any machine accounts required for the traffic). Note that these
extra users simply populate the DC's DB - the actual user
traffic generated is still based on the summary-file.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--number-of-groups &lt;total-groups&gt;</term>
<listitem><para>
Creates the specified number of groups, for assigning the test
users to. Note that users are not automatically assigned to
groups - use either --average-groups-per-user or
--group-membership to do this.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--average-groups-per-user &lt;average-groups&gt;</term>
<listitem><para>
Randomly assigns the test users to the test groups created.
The group memberships are distributed so that the overall
average groups that a user is member of matches this number.
Some users will belong to more groups and some users will
belong to fewer groups. This option is incompatible with
the --group-membership option.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--group-memberships &lt;total-memberships&gt;</term>
<listitem><para>
Randomly assigns the test users to the test groups created.
The group memberships are distributed so that the total
groups that a user is member of, across all users, matches
this number. For example, with 100 users and 10 groups,
--group-memberships=300 would assign a user to 3 groups
on average. Some users will belong to more groups and some
users will belong to fewer groups, but the total of all
member linked attributes would be 300. This option is
incompatible with the --group-membership option.
</para></listitem>
</varlistentry>
</itemizedlist>
</listitem>
</varlistentry>
<varlistentry>
<term>--clean-up</term>
<listitem><para>
Cleans up any users and groups that were created by previously running
this tool. It is recommended you always clean up after running the tool.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-I|--instance-id &lt;id&gt;</term>
<listitem><para>
Use this option to run multiple instances of the tool on the same DC at
the same time. This adds a prefix to the test users generated to keep
them separate on the DC.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-K|--prefer-kerberos</term>
<listitem><para>
Use Kerberos to authenticate the test users.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-B|--badpassword-frequency &lt;frequency&gt;</term>
<listitem><para>
Use this option to simulate users trying to authenticate with an
incorrect password.
</para></listitem>
</varlistentry>
<varlistentry>
<term>--dns-rate &lt;rate&gt;</term>
<listitem><para>
Increase the rate at which DNS packets get sent.
</para></listitem>
</varlistentry>
<varlistentry>
<term>-t|--timing-data &lt;file&gt;</term>
<listitem><para>
This writes extra timing data to the file specified. This is mostly
used for reporting options, such as generating graphs.
</para></listitem>
</varlistentry>
<varlistentry>
<term>Samba Common Options</term>
<listitem>
<itemizedlist>
&stdarg.client.debug;
&stdarg.configfile;
&stdarg.option;
<varlistentry>
<term>--realm=REALM</term>
<listitem><para>
Set the realm name
</para></listitem>
</varlistentry>
&stdarg.version;
</itemizedlist>
</listitem>
</varlistentry>
<varlistentry>
<term>Credential Options</term>
<listitem>
<itemizedlist>
<varlistentry>
<term>--simple-bind-dn=DN</term>
<listitem><para>
DN to use for a simple bind
</para></listitem>
</varlistentry>
<varlistentry>
<term>--password=PASSWORD</term>
<listitem><para>
Password
</para></listitem>
</varlistentry>
<varlistentry>
<term>-U USERNAME|--username=USERNAME</term>
<listitem><para>
Username
</para></listitem>
</varlistentry>
<varlistentry>
<term>-W WORKGROUP|--workgroup=WORKGROUP</term>
<listitem><para>
Workgroup
</para></listitem>
</varlistentry>
&stdarg.kerberos;
<varlistentry>
<term>--ipaddress=IPADDRESS</term>
<listitem><para>
IP address of the server
</para></listitem>
</varlistentry>
&stdarg.machinepass;
</itemizedlist>
</listitem>
</varlistentry>
</variablelist>
</refsect1>
<refsect1>
<title>OPERATIONS</title>
<refsect2>
<title>Generating a traffic-summary file</title>
<para>To use this tool, you need either a traffic-summary file or a
traffic-model file. To generate either of these files, you will need a
packet capture of actual Samba activity on your network.</para>
<para>Use Wireshark to take a packet capture on your network of the
traffic you want to generate. For example, if you want to simulate lots
of users logging on, then take a capture at 8:30am when users are
logging in.</para>
<para>Next, you need to convert your packet capture into a traffic
summary file, using <command>traffic_summary.pl</command>. Basically
this removes any sensitive information from the capture and summarizes
what type of packet was sent and when.</para>
<para>Refer to the <command>traffic_summary.pl --help</command> help for more
details, but the basic command will look something like:</para>
<para><command>tshark -r capture.pcapng -T pdml |
traffic_summary.pl &gt; traffic-summary.txt</command></para>
</refsect2>
<refsect2>
<title>Replaying a traffic-summary file</title>
<para>Once you have a traffic-summary file, you can use it to generate
traffic. The traffic_replay tool gets passed the traffic-summary file,
along with the full DNS hostname of the DC being tested. You also need
to provide some user credentials, and possibly the Samba realm and
workgroup (although the realm and workgroup may be determined
automatically, for example from the /etc/smb.conf file, if one is
present). E.g.</para>
<para><command>traffic_replay traffic-summary.txt
my-dc.samdom.example.com -UAdmin%password -W samdom
--realm=samdom.example.com --fixed-password=blahblah123!</command>
</para>
<para>This simply regenerates Samba activity seen in the traffic
summary. The traffic is grouped into 'conversations' between a host and
the DC. A user and machine account is created on the DC for each
conversation, in order to allow logon and other operations to succeed.
The script generates the same types of packets as those seen in the
summary.</para>
<para>Creating users can be quite a time-consuming process, especially
if a lot of conversations are being generated. To save time, the test
users remain on the DC by default. You will need to run the --clean-up
option to remove them, once you have finished generating traffic.
Because the same test users are used across multiple runs of the tool,
a consistent password for these users needs to be used - this is
specified by the --fixed-password option.
</para>
<para>The benefit of this tool over simply using tcprelay is that the
traffic generated is independent of any specific network. No setup is
needed beforehand on the test DC. The traffic no longer contains
sensitive details, so the traffic summary could be potentially shared
with other Samba developers.</para>
<para>However, replaying a traffic-summary directly is somewhat limited
in what you can actually do. A more flexible approach is to generate
the traffic using a model file.</para>
</refsect2>
<refsect2>
<title>Generating a traffic-model file</title>
<para>To create a traffic-model file, simply pass the traffic-summary
file to the <command>traffic_learner</command> script. E.g.</para>
<para><command>traffic_learner traffic-summary.txt
-o traffic-model.txt</command></para>
<para>This generates a model of the Samba activity in your network.
This model-file can now be used to generate traffic.</para>
</refsect2>
<refsect2>
<title>Replaying the traffic-model file</title>
<para>Packet generation using a traffic-model file uses the same
command as a traffic-summary file, e.g.</para>
<para><command>traffic_replay traffic-model.txt
my-dc.samdom.example.com -UAdmin%password</command>
</para>
<para>By default, this will generate 60 seconds worth of traffic based
on the model. You can specify longer using the --duration parameter.
</para>
<para>The traffic generated is an approximation of what was seen in
the network capture. The traffic generation involves some randomness,
so running the same command multiple times may result in slightly
different traffic being generated.</para>
<para>As well as changing how long the model runs for, you can also
change how many conversations get generated and how fast the traffic
gets replayed. To roughly double the number of conversations that get
replayed, use --scale-traffic=2 or to approximately halve the number
use --scale-traffic=0.5. To approximately double how quickly the
conversations get replayed, use --replay-rate=2, or to halve this use
--replay-rate=0.5</para>
<para>For example, to generate approximately 10 times the amount of
traffic seen over a two-minute period (based on the network capture),
use:</para>
<para><command>traffic_replay traffic-model.txt
my-dc.samdom.example.com -UAdmin%password --fixed-password=blahblah123!
--scale-traffic=10 --duration=120</command></para>
</refsect2>
<refsect2>
<title>Scaling the number of users</title>
<para>The performance of a Samba DC running a small subset of test
users will be different to a fully-populated Samba DC running in a
network. As the number of users increases, the size of the DB
increases, and a very large DB will perform worse than a smaller DB.
</para>
<para>To increase the size of the Samba DB, this tool can also create
extra users and groups. These extra users are basically 'filler' for
the DB. They won't actually be used to generate traffic, but they may
slow down authentication of the test users.</para>
<para>For example, to populate the DB with an extra 5000 users (note
this will take a while), use the command:</para>
<para><command>traffic_replay my-dc.samdom.example.com
-UAdmin%password --generate-users-only --fixed-password=blahblah123!
--number-of-users=5000</command></para>
<para>You can also create groups and assign users to groups. The users
can be randomly assigned to groups - this includes any extra users
created as well as the users that map to conversations. Use either
--average-groups-per-user or --group-memberships to specify how many
group memberships should be assigned to the test users.</para>
<para>For example, to assign the users in the replayed conversations
into 10 groups on average, use a command like:</para>
<para><command>traffic_replay traffic-model.txt my-dc.samdom.example.com
-UAdmin%password --fixed-password=blahblah123!
--generate-users-only --number-of-groups=25 --average-groups-per-user=10
</command></para>
<para>The users created by the test will have names like STGU-0-xyz.
The groups generated have names like STGG-0-xyz.</para>
</refsect2>
</refsect1>
<refsect1>
<title>VERSION</title>
<para>This man page is complete for version 4 of the Samba
suite.</para>
</refsect1>
<refsect1>
<title>SEE ALSO</title>
<para>
<citerefentry>
<refentrytitle>traffic_learner</refentrytitle><manvolnum>7</manvolnum>
</citerefentry>.
</para>
</refsect1>
<refsect1>
<title>AUTHOR</title>
<para>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.</para>
<para>The traffic_replay tool was developed by the Samba team at
Catalyst IT Ltd.</para>
<para>The traffic_replay manpage was written by Tim Beale.</para>
</refsect1>
</refentry>

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@ -46,6 +46,8 @@ manpages='''
manpages/smbtar.1 manpages/smbtar.1
manpages/smbtree.1 manpages/smbtree.1
manpages/testparm.1 manpages/testparm.1
manpages/traffic_replay.7
manpages/traffic_learner.7
manpages/vfs_acl_tdb.8 manpages/vfs_acl_tdb.8
manpages/vfs_acl_xattr.8 manpages/vfs_acl_xattr.8
manpages/vfs_aio_fork.8 manpages/vfs_aio_fork.8

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@ -0,0 +1,16 @@
# Package level initialisation
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.

File diff suppressed because it is too large Load Diff

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@ -0,0 +1,935 @@
# Dispatch for various request types.
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import os
import ctypes
import random
from samba.net import Net
from samba.dcerpc import security, drsuapi, nbt, lsa, netlogon, ntlmssp
from samba.dcerpc.netlogon import netr_WorkstationInformation
from samba.dcerpc.security import dom_sid
from samba.netbios import Node
from samba.ndr import ndr_pack
from samba.credentials import (
CLI_CRED_NTLMv2_AUTH,
MUST_USE_KERBEROS,
DONT_USE_KERBEROS
)
from samba import NTSTATUSError
from samba.ntstatus import NT_STATUS_OBJECT_NAME_NOT_FOUND
from samba.dcerpc.misc import SEC_CHAN_WKSTA
import samba
samba.ensure_third_party_module("dns", "dnspython")
import dns.resolver
def uint32(v):
return ctypes.c_uint32(v).value
def check_runtime_error(runtime, val):
if runtime is None:
return False
err32 = uint32(runtime[0])
if err32 == val:
return True
return False
name_formats = [
drsuapi.DRSUAPI_DS_NAME_FORMAT_FQDN_1779,
drsuapi.DRSUAPI_DS_NAME_FORMAT_NT4_ACCOUNT,
drsuapi.DRSUAPI_DS_NAME_FORMAT_DISPLAY,
drsuapi.DRSUAPI_DS_NAME_FORMAT_GUID,
drsuapi.DRSUAPI_DS_NAME_FORMAT_CANONICAL,
drsuapi.DRSUAPI_DS_NAME_FORMAT_USER_PRINCIPAL,
drsuapi.DRSUAPI_DS_NAME_FORMAT_CANONICAL_EX,
drsuapi.DRSUAPI_DS_NAME_FORMAT_SERVICE_PRINCIPAL,
drsuapi.DRSUAPI_DS_NAME_FORMAT_SID_OR_SID_HISTORY,
drsuapi.DRSUAPI_DS_NAME_FORMAT_DNS_DOMAIN,
drsuapi.DRSUAPI_DS_NAME_FORMAT_UPN_AND_ALTSECID,
drsuapi.DRSUAPI_DS_NAME_FORMAT_NT4_ACCOUNT_NAME_SANS_DOMAIN_EX,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_GLOBAL_CATALOG_SERVERS,
drsuapi.DRSUAPI_DS_NAME_FORMAT_UPN_FOR_LOGON,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_SERVERS_WITH_DCS_IN_SITE,
drsuapi.DRSUAPI_DS_NAME_FORMAT_STRING_SID_NAME,
drsuapi.DRSUAPI_DS_NAME_FORMAT_ALT_SECURITY_IDENTITIES_NAME,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_NCS,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_DOMAINS,
drsuapi.DRSUAPI_DS_NAME_FORMAT_MAP_SCHEMA_GUID,
drsuapi.DRSUAPI_DS_NAME_FORMAT_NT4_ACCOUNT_NAME_SANS_DOMAIN,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_ROLES,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_INFO_FOR_SERVER,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_SERVERS_FOR_DOMAIN_IN_SITE,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_DOMAINS_IN_SITE,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_SERVERS_IN_SITE,
drsuapi.DRSUAPI_DS_NAME_FORMAT_LIST_SITES,
]
def warning(message):
print "\033[37;41;1m" "Warning: %s" "\033[00m" % (message)
###############################################################################
#
# Packet generation functions:
#
# All the packet generation functions have the following form:
# packet_${protocol}_${opcode}(packet, conversation, context)
#
# The functions return true, if statistics should be collected for the packet
# false, the packet has been ignored.
#
# Where:
# protocol is the protocol, i.e. cldap, dcerpc, ...
# opcode is the protocol op code i.e. type of the packet to be
# generated.
#
# packet contains data about the captured/generated packet
# provides any extra data needed to generate the packet
#
# conversation Details of the current client/server interaction
#
# context state data for the current interaction
#
#
#
# The following protocols are not currently handled:
# smb
# smb2
# browser
# smb_netlogon
#
# The following drsuapi replication packets are currently ignored:
# DsReplicaSync
# DsGetNCChanges
# DsReplicaUpdateRefs
# Packet generators that do NOTHING are assigned to the null_packet
# function which allows the conversation generators to notice this and
# avoid a whole lot of pointless work.
def null_packet(packet, conversation, context):
return False
def packet_cldap_3(packet, conversation, context):
# searchRequest
net = Net(creds=context.creds, lp=context.lp)
net.finddc(domain=context.lp.get('realm'),
flags=(nbt.NBT_SERVER_LDAP |
nbt.NBT_SERVER_DS |
nbt.NBT_SERVER_WRITABLE))
return True
packet_cldap_5 = null_packet
# searchResDone
packet_dcerpc_0 = null_packet
# Request
# Can be ignored, it's the continuation of an existing conversation
packet_dcerpc_2 = null_packet
# Request
# Server response, so should be ignored
packet_dcerpc_3 = null_packet
packet_dcerpc_11 = null_packet
# Bind
# creation of the rpc dcerpc connection is managed by the higher level
# protocol drivers. So we ignore it when generating traffic
packet_dcerpc_12 = null_packet
# Bind_ack
# Server response, so should be ignored
packet_dcerpc_13 = null_packet
# Bind_nak
# Server response, so should be ignored
packet_dcerpc_14 = null_packet
# Alter_context
# Generated as part of the connect process
def packet_dcerpc_15(packet, conversation, context):
# Alter_context_resp
# This means it was GSSAPI/krb5 (probably)
# Check the kerberos_state and issue a diagnostic if kerberos not enabled
if context.user_creds.get_kerberos_state() == DONT_USE_KERBEROS:
warning("Kerberos disabled but have dcerpc Alter_context_resp "
"indicating Kerberos was used")
return False
def packet_dcerpc_16(packet, conversation, context):
# AUTH3
# This means it was NTLMSSP
# Check the kerberos_state and issue a diagnostic if kerberos enabled
if context.user_creds.get_kerberos_state() == MUST_USE_KERBEROS:
warning("Kerberos enabled but have dcerpc AUTH3 "
"indicating NTLMSSP was used")
return False
def packet_dns_0(packet, conversation, context):
# query
name, rtype = context.guess_a_dns_lookup()
dns.resolver.query(name, rtype)
return True
packet_dns_1 = null_packet
# response
# Server response, so should be ignored
def packet_drsuapi_0(packet, conversation, context):
# DsBind
context.get_drsuapi_connection_pair(True)
return True
NAME_FORMATS = [getattr(drsuapi, _x) for _x in dir(drsuapi)
if 'NAME_FORMAT' in _x]
def packet_drsuapi_12(packet, conversation, context):
# DsCrackNames
drs, handle = context.get_drsuapi_connection_pair()
names = drsuapi.DsNameString()
names.str = context.server
req = drsuapi.DsNameRequest1()
req.format_flags = 0
req.format_offered = 7
req.format_desired = random.choice(name_formats)
req.codepage = 1252
req.language = 1033 # German, I think
req.format_flags = 0
req.count = 1
req.names = [names]
(result, ctr) = drs.DsCrackNames(handle, 1, req)
return True
def packet_drsuapi_13(packet, conversation, context):
# DsWriteAccountSpn
req = drsuapi.DsWriteAccountSpnRequest1()
req.operation = drsuapi.DRSUAPI_DS_SPN_OPERATION_ADD
(drs, handle) = context.get_drsuapi_connection_pair()
(level, res) = drs.DsWriteAccountSpn(handle, 1, req)
return True
def packet_drsuapi_1(packet, conversation, context):
# DsUnbind
(drs, handle) = context.get_drsuapi_connection_pair()
drs.DsUnbind(handle)
del context.drsuapi_connections[-1]
return True
packet_drsuapi_2 = null_packet
# DsReplicaSync
# This is between DCs, triggered on a DB change
# Ignoring for now
packet_drsuapi_3 = null_packet
# DsGetNCChanges
# This is between DCs, trigger with DB operation,
# or DsReplicaSync between DCs.
# Ignoring for now
packet_drsuapi_4 = null_packet
# DsReplicaUpdateRefs
# Ignoring for now
packet_epm_3 = null_packet
# Map
# Will be generated by higher level protocol calls
def packet_kerberos_(packet, conversation, context):
# Use the presence of kerberos packets as a hint to enable kerberos
# for the rest of the conversation.
# i.e. kerberos packets are not explicitly generated.
context.user_creds.set_kerberos_state(MUST_USE_KERBEROS)
context.user_creds_bad.set_kerberos_state(MUST_USE_KERBEROS)
context.machine_creds.set_kerberos_state(MUST_USE_KERBEROS)
context.machine_creds_bad.set_kerberos_state(MUST_USE_KERBEROS)
context.creds.set_kerberos_state(MUST_USE_KERBEROS)
return False
packet_ldap_ = null_packet
# Unknown
# The ldap payload was probably encrypted so just ignore it.
def packet_ldap_0(packet, conversation, context):
# bindRequest
if packet.extra[5] == "simple":
# Perform a simple bind.
context.get_ldap_connection(new=True, simple=True)
else:
# Perform a sasl bind.
context.get_ldap_connection(new=True, simple=False)
return True
packet_ldap_1 = null_packet
# bindResponse
# Server response ignored for traffic generation
def packet_ldap_2(packet, conversation, context):
# unbindRequest
# pop the last one off -- most likely we're in a bind/unbind ping.
del context.ldap_connections[-1:]
return False
def packet_ldap_3(packet, conversation, context):
# searchRequest
(scope, dn_sig, filter, attrs, extra, desc, oid) = packet.extra
if not scope:
scope = 0
samdb = context.get_ldap_connection()
dn = context.get_matching_dn(dn_sig)
samdb.search(dn, scope=int(scope), attrs=attrs.split(','))
return True
packet_ldap_4 = null_packet
# searchResEntry
# Server response ignored for traffic generation
packet_ldap_5 = null_packet
# Server response ignored for traffic generation
packet_ldap_6 = null_packet
packet_ldap_7 = null_packet
packet_ldap_8 = null_packet
packet_ldap_9 = null_packet
packet_ldap_16 = null_packet
packet_lsarpc_0 = null_packet
# lsarClose
packet_lsarpc_1 = null_packet
# lsarDelete
packet_lsarpc_2 = null_packet
# lsarEnumeratePrivileges
packet_lsarpc_3 = null_packet
# LsarQuerySecurityObject
packet_lsarpc_4 = null_packet
# LsarSetSecurityObject
packet_lsarpc_5 = null_packet
# LsarChangePassword
packet_lsarpc_6 = null_packet
# lsa_OpenPolicy
# We ignore this, but take it as a hint that the lsarpc handle should
# be over a named pipe.
#
def packet_lsarpc_14(packet, conversation, context):
# lsa_LookupNames
c = context.get_lsarpc_named_pipe_connection()
objectAttr = lsa.ObjectAttribute()
pol_handle = c.OpenPolicy2(u'', objectAttr,
security.SEC_FLAG_MAXIMUM_ALLOWED)
sids = lsa.TransSidArray()
names = [lsa.String("This Organization"),
lsa.String("Digest Authentication")]
level = 5
count = 0
c.LookupNames(pol_handle, names, sids, level, count)
return True
def packet_lsarpc_15(packet, conversation, context):
# lsa_LookupSids
c = context.get_lsarpc_named_pipe_connection()
objectAttr = lsa.ObjectAttribute()
pol_handle = c.OpenPolicy2(u'', objectAttr,
security.SEC_FLAG_MAXIMUM_ALLOWED)
sids = lsa.SidArray()
sid = lsa.SidPtr()
x = dom_sid("S-1-5-7")
sid.sid = x
sids.sids = [sid]
sids.num_sids = 1
names = lsa.TransNameArray()
level = 5
count = 0
c.LookupSids(pol_handle, sids, names, level, count)
return True
def packet_lsarpc_39(packet, conversation, context):
# lsa_QueryTrustedDomainInfoBySid
# Samba does not support trusted domains, so this call is expected to fail
#
c = context.get_lsarpc_named_pipe_connection()
objectAttr = lsa.ObjectAttribute()
pol_handle = c.OpenPolicy2(u'', objectAttr,
security.SEC_FLAG_MAXIMUM_ALLOWED)
domsid = security.dom_sid(context.domain_sid)
level = 1
try:
c.QueryTrustedDomainInfoBySid(pol_handle, domsid, level)
except NTSTATUSError as error:
# Object Not found is the expected result, anything else is a
# failure.
if not check_runtime_error(error, NT_STATUS_OBJECT_NAME_NOT_FOUND):
raise
return True
packet_lsarpc_40 = null_packet
# lsa_SetTrustedDomainInfo
# Not currently supported
packet_lsarpc_43 = null_packet
# LsaStorePrivateData
packet_lsarpc_44 = null_packet
# LsaRetrievePrivateData
packet_lsarpc_68 = null_packet
# LsarLookupNames3
def packet_lsarpc_76(packet, conversation, context):
# lsa_LookupSids3
c = context.get_lsarpc_connection()
sids = lsa.SidArray()
sid = lsa.SidPtr()
# Need a set
x = dom_sid("S-1-5-7")
sid.sid = x
sids.sids = [sid]
sids.num_sids = 1
names = lsa.TransNameArray2()
level = 5
count = 0
lookup_options = 0
client_revision = 2
c.LookupSids3(sids, names, level, count, lookup_options, client_revision)
return True
def packet_lsarpc_77(packet, conversation, context):
# lsa_LookupNames4
c = context.get_lsarpc_connection()
sids = lsa.TransSidArray3()
names = [lsa.String("This Organization"),
lsa.String("Digest Authentication")]
level = 5
count = 0
lookup_options = 0
client_revision = 2
c.LookupNames4(names, sids, level, count, lookup_options, client_revision)
return True
def packet_nbns_0(packet, conversation, context):
# query
n = Node()
try:
n.query_name("ANAME", context.server, timeout=4, broadcast=False)
except:
pass
return True
packet_nbns_1 = null_packet
# response
# Server response, not generated by the client
packet_rpc_netlogon_0 = null_packet
packet_rpc_netlogon_1 = null_packet
packet_rpc_netlogon_4 = null_packet
# NetrServerReqChallenge
# generated by higher level protocol drivers
# ignored for traffic generation
packet_rpc_netlogon_14 = null_packet
packet_rpc_netlogon_15 = null_packet
packet_rpc_netlogon_21 = null_packet
# NetrLogonDummyRoutine1
# Used to determine security settings. Triggered from schannel setup
# So no need for an explicit generator
packet_rpc_netlogon_26 = null_packet
# NetrServerAuthenticate3
# Triggered from schannel set up, no need for an explicit generator
def packet_rpc_netlogon_29(packet, conversation, context):
# NetrLogonGetDomainInfo [531]
c = context.get_netlogon_connection()
(auth, succ) = context.get_authenticator()
query = netr_WorkstationInformation()
c.netr_LogonGetDomainInfo(context.server,
context.netbios_name,
auth,
succ,
2, # TODO are there other values?
query)
return True
def packet_rpc_netlogon_30(packet, conversation, context):
# NetrServerPasswordSet2
c = context.get_netlogon_connection()
(auth, succ) = context.get_authenticator()
DATA_LEN = 512
# Set the new password to the existing password, this generates the same
# work load as a new value, and leaves the account password intact for
# subsequent runs
newpass = context.machine_creds.get_password().encode('utf-16-le')
pwd_len = len(newpass)
filler = [ord(x) for x in os.urandom(DATA_LEN - pwd_len)]
pwd = netlogon.netr_CryptPassword()
pwd.length = pwd_len
pwd.data = filler + [ord(x) for x in newpass]
context.machine_creds.encrypt_netr_crypt_password(pwd)
c.netr_ServerPasswordSet2(context.server,
context.machine_creds.get_workstation(),
SEC_CHAN_WKSTA,
context.netbios_name,
auth,
pwd)
return True
packet_rpc_netlogon_34 = null_packet
def packet_rpc_netlogon_39(packet, conversation, context):
# NetrLogonSamLogonEx [4331]
def connect(creds):
c = context.get_netlogon_connection()
# Disable Kerberos in cli creds to extract NTLM response
old_state = creds.get_kerberos_state()
creds.set_kerberos_state(DONT_USE_KERBEROS)
logon = samlogon_logon_info(context.domain,
context.netbios_name,
creds)
logon_level = netlogon.NetlogonNetworkTransitiveInformation
validation_level = netlogon.NetlogonValidationSamInfo4
netr_flags = 0
c.netr_LogonSamLogonEx(context.server,
context.machine_creds.get_workstation(),
logon_level,
logon,
validation_level,
netr_flags)
creds.set_kerberos_state(old_state)
context.last_samlogon_bad =\
context.with_random_bad_credentials(connect,
context.user_creds,
context.user_creds_bad,
context.last_samlogon_bad)
return True
def samlogon_target(domain_name, computer_name):
target_info = ntlmssp.AV_PAIR_LIST()
target_info.count = 3
computername = ntlmssp.AV_PAIR()
computername.AvId = ntlmssp.MsvAvNbComputerName
computername.Value = computer_name
domainname = ntlmssp.AV_PAIR()
domainname.AvId = ntlmssp.MsvAvNbDomainName
domainname.Value = domain_name
eol = ntlmssp.AV_PAIR()
eol.AvId = ntlmssp.MsvAvEOL
target_info.pair = [domainname, computername, eol]
return ndr_pack(target_info)
def samlogon_logon_info(domain_name, computer_name, creds):
target_info_blob = samlogon_target(domain_name, computer_name)
challenge = b"abcdefgh"
# User account under test
response = creds.get_ntlm_response(flags=CLI_CRED_NTLMv2_AUTH,
challenge=challenge,
target_info=target_info_blob)
logon = netlogon.netr_NetworkInfo()
logon.challenge = [ord(x) for x in challenge]
logon.nt = netlogon.netr_ChallengeResponse()
logon.nt.length = len(response["nt_response"])
logon.nt.data = [ord(x) for x in response["nt_response"]]
logon.identity_info = netlogon.netr_IdentityInfo()
(username, domain) = creds.get_ntlm_username_domain()
logon.identity_info.domain_name.string = domain
logon.identity_info.account_name.string = username
logon.identity_info.workstation.string = creds.get_workstation()
return logon
def packet_rpc_netlogon_40(packet, conversation, context):
# DsrEnumerateDomainTrusts
c = context.get_netlogon_connection()
c.netr_DsrEnumerateDomainTrusts(
context.server,
netlogon.NETR_TRUST_FLAG_IN_FOREST |
netlogon.NETR_TRUST_FLAG_OUTBOUND |
netlogon.NETR_TRUST_FLAG_INBOUND)
return True
def packet_rpc_netlogon_45(packet, conversation, context):
# NetrLogonSamLogonWithFlags [7]
def connect(creds):
c = context.get_netlogon_connection()
(auth, succ) = context.get_authenticator()
# Disable Kerberos in cli creds to extract NTLM response
old_state = creds.get_kerberos_state()
creds.set_kerberos_state(DONT_USE_KERBEROS)
logon = samlogon_logon_info(context.domain,
context.netbios_name,
creds)
logon_level = netlogon.NetlogonNetworkTransitiveInformation
validation_level = netlogon.NetlogonValidationSamInfo4
netr_flags = 0
c.netr_LogonSamLogonWithFlags(context.server,
context.machine_creds.get_workstation(),
auth,
succ,
logon_level,
logon,
validation_level,
netr_flags)
creds.set_kerberos_state(old_state)
context.last_samlogon_bad =\
context.with_random_bad_credentials(connect,
context.user_creds,
context.user_creds_bad,
context.last_samlogon_bad)
return True
def packet_samr_0(packet, conversation, context):
# Open
c = context.get_samr_context()
c.get_handle()
return True
def packet_samr_1(packet, conversation, context):
# Close
c = context.get_samr_context()
s = c.get_connection()
# close the last opened handle, may not always be accurate
# but will do for load simulation
if c.user_handle is not None:
s.Close(c.user_handle)
c.user_handle = None
elif c.group_handle is not None:
s.Close(c.group_handle)
c.group_handle = None
elif c.domain_handle is not None:
s.Close(c.domain_handle)
c.domain_handle = None
c.rids = None
elif c.handle is not None:
s.Close(c.handle)
c.handle = None
c.domain_sid = None
return True
def packet_samr_3(packet, conversation, context):
# QuerySecurity
c = context.get_samr_context()
s = c.get_connection()
if c.user_handle is None:
packet_samr_34(packet, conversation, context)
s.QuerySecurity(c.user_handle, 1)
return True
def packet_samr_5(packet, conversation, context):
# LookupDomain
c = context.get_samr_context()
s = c.get_connection()
h = c.get_handle()
d = lsa.String()
d.string = context.domain
c.domain_sid = s.LookupDomain(h, d)
return True
def packet_samr_6(packet, conversation, context):
# EnumDomains
c = context.get_samr_context()
s = c.get_connection()
h = c.get_handle()
s.EnumDomains(h, 0, 0)
return True
def packet_samr_7(packet, conversation, context):
# OpenDomain
c = context.get_samr_context()
s = c.get_connection()
h = c.get_handle()
if c.domain_sid is None:
packet_samr_5(packet, conversation, context)
c.domain_handle = s.OpenDomain(h,
security.SEC_FLAG_MAXIMUM_ALLOWED,
c.domain_sid)
return True
SAMR_QUERY_DOMAIN_INFO_LEVELS = [8, 12]
def packet_samr_8(packet, conversation, context):
# QueryDomainInfo [228]
c = context.get_samr_context()
s = c.get_connection()
if c.domain_handle is None:
packet_samr_7(packet, conversation, context)
level = random.choice(SAMR_QUERY_DOMAIN_INFO_LEVELS)
s.QueryDomainInfo(c.domain_handle, level)
return True
packet_samr_14 = null_packet
# CreateDomainAlias
# Ignore these for now.
def packet_samr_15(packet, conversation, context):
# EnumDomainAliases
c = context.get_samr_context()
s = c.get_connection()
if c.domain_handle is None:
packet_samr_7(packet, conversation, context)
s.EnumDomainAliases(c.domain_handle, 100, 0)
return True
def packet_samr_16(packet, conversation, context):
# GetAliasMembership
c = context.get_samr_context()
s = c.get_connection()
if c.domain_handle is None:
packet_samr_7(packet, conversation, context)
sids = lsa.SidArray()
sid = lsa.SidPtr()
sid.sid = c.domain_sid
sids.sids = [sid]
s.GetAliasMembership(c.domain_handle, sids)
return True
def packet_samr_17(packet, conversation, context):
# LookupNames
c = context.get_samr_context()
s = c.get_connection()
if c.domain_handle is None:
packet_samr_7(packet, conversation, context)
name = lsa.String(context.username)
c.rids = s.LookupNames(c.domain_handle, [name])
return True
def packet_samr_18(packet, conversation, context):
# LookupRids
c = context.get_samr_context()
s = c.get_connection()
if c.rids is None:
packet_samr_17(packet, conversation, context)
rids = []
for r in c.rids:
for i in r.ids:
rids.append(i)
s.LookupRids(c.domain_handle, rids)
return True
def packet_samr_19(packet, conversation, context):
# OpenGroup
c = context.get_samr_context()
s = c.get_connection()
if c.domain_handle is None:
packet_samr_7(packet, conversation, context)
rid = 0x202 # Users I think.
c.group_handle = s.OpenGroup(c.domain_handle,
security.SEC_FLAG_MAXIMUM_ALLOWED,
rid)
return True
def packet_samr_25(packet, conversation, context):
# QueryGroupMember
c = context.get_samr_context()
s = c.get_connection()
if c.group_handle is None:
packet_samr_19(packet, conversation, context)
s.QueryGroupMember(c.group_handle)
return True
def packet_samr_34(packet, conversation, context):
# OpenUser
c = context.get_samr_context()
s = c.get_connection()
if c.rids is None:
packet_samr_17(packet, conversation, context)
c.user_handle = s.OpenUser(c.domain_handle,
security.SEC_FLAG_MAXIMUM_ALLOWED,
c.rids[0].ids[0])
return True
def packet_samr_36(packet, conversation, context):
# QueryUserInfo
c = context.get_samr_context()
s = c.get_connection()
if c.user_handle is None:
packet_samr_34(packet, conversation, context)
level = 1
s.QueryUserInfo(c.user_handle, level)
return True
packet_samr_37 = null_packet
def packet_samr_39(packet, conversation, context):
# GetGroupsForUser
c = context.get_samr_context()
s = c.get_connection()
if c.user_handle is None:
packet_samr_34(packet, conversation, context)
s.GetGroupsForUser(c.user_handle)
return True
packet_samr_40 = null_packet
packet_samr_44 = null_packet
def packet_samr_57(packet, conversation, context):
# Connect2
c = context.get_samr_context()
c.get_handle()
return True
def packet_samr_64(packet, conversation, context):
# Connect5
c = context.get_samr_context()
c.get_handle()
return True
packet_samr_68 = null_packet
def packet_srvsvc_16(packet, conversation, context):
# NetShareGetInfo
s = context.get_srvsvc_connection()
server_unc = "\\\\" + context.server
share_name = "netlogon"
level = 1
s.NetShareGetInfo(server_unc, share_name, level)
return True
def packet_srvsvc_21(packet, conversation, context):
# NetSrvGetInfo
srvsvc = context.get_srvsvc_connection()
server_unc = "\\\\" + context.server
level = 102
srvsvc.NetSrvGetInfo(server_unc, level)
return True

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@ -0,0 +1,60 @@
{
"ngrams": {
"-\t-": {
"cldap:3": 1,
"ldap:3": 1
},
"-\tldap:3": {
"wait:0": 1
},
"wait:0\trpc_netlogon:29": {
"kerberos:": 1
},
"rpc_netlogon:29\tkerberos:": {
"ldap:3": 1
},
"cldap:3\twait:0": {
"rpc_netlogon:29": 1
},
"-\tcldap:3": {
"cldap:3": 1
},
"ldap:3\twait:0": {
"ldap:2": 1
},
"cldap:3\tcldap:3": {
"cldap:3": 1,
"wait:0": 1
},
"kerberos:\tldap:3": {
"-": 1
}
},
"conversation_rate": [
2,
0.12712717056274414
],
"dns": {
"1": 9,
"0": 9
},
"query_details": {
"rpc_netlogon:29": {
"-": 1
},
"cldap:3": {
"\t\t\tNetlogon\t\t\t": 3
},
"ldap:3": {
"\t\t\tsubschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities\t\t\t": 1,
"2\tDC,DC\t\tcn\t\t\t": 1
},
"ldap:2": {
"\t\t\t\t\t\t": 1
},
"kerberos:": {
"": 1
}
},
"cumulative_duration": 0.39243292808532715
}

View File

@ -0,0 +1,50 @@
1487921562.592126000 11 3 1 dns 0 query
1487921562.592285000 11 1 4 dns 0 query
1487921562.592636000 11 4 1 dns 1 response
1487921562.592911000 11 1 3 dns 1 response
1487921562.593315000 06 3 5 1 ldap 3 searchRequest 2 DC,DC cn
1487921562.596247000 11 3 1 dns 0 query
1487921562.596362000 11 1 4 dns 0 query
1487921562.596697000 11 4 1 dns 1 response
1487921562.596921000 11 1 3 dns 1 response
1487921562.598308000 11 3 1 dns 0 query
1487921562.598414000 11 1 4 dns 0 query
1487921562.598729000 11 4 1 dns 1 response
1487921562.598963000 11 1 3 dns 1 response
1487921562.607624000 11 6 1 dns 0 query
1487921562.607956000 11 6 1 dns 0 query
1487921562.608009000 11 1 6 dns 1 response
1487921562.608232000 11 1 6 dns 1 response
1487921562.612424000 11 6 1 dns 0 query
1487921562.612648000 11 1 6 dns 1 response
1487921562.720442000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.720706000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.721004000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.724801000 11 1 6 cldap 5 searchResDone
1487921562.728632000 11 1 6 cldap 5 searchResDone
1487921562.732508000 11 1 6 cldap 5 searchResDone
1487921562.748004000 06 3 1 5 ldap 5 searchResDone
1487921562.820387000 06 3 5 1 ldap 2 unbindRequest
1487921562.831445000 06 14 6 1 dcerpc 11 Bind
1487921562.831565000 06 14 1 6 dcerpc 12 Bind_ack
1487921562.831776000 06 14 6 1 epm 3 Map
1487921562.832483000 06 14 1 6 epm 3 Map
1487921562.833521000 06 15 6 1 dcerpc 11 Bind
1487921562.833775000 06 15 1 6 dcerpc 12 Bind_ack
1487921562.833955000 06 15 6 1 rpc_netlogon 4 NetrServerReqChallenge
1487921562.834039000 06 15 1 6 rpc_netlogon 4 NetrServerReqChallenge
1487921562.834325000 06 15 6 1 rpc_netlogon 26 NetrServerAuthenticate3
1487921562.834895000 06 15 1 6 rpc_netlogon 26 NetrServerAuthenticate3
1487921562.835515000 06 16 6 1 dcerpc 11 Bind
1487921562.836417000 06 16 1 6 dcerpc 12 Bind_ack
1487921562.836694000 06 16 6 1 rpc_netlogon 21 NetrLogonDummyRoutine1
1487921562.836917000 06 16 1 6 rpc_netlogon 21 NetrLogonDummyRoutine1
1487921562.852041000 06 14 6 1 epm 3 Map
1487921562.852687000 06 14 1 6 epm 3 Map
1487921562.876310000 06 16 6 1 rpc_netlogon 29 NetrLogonGetDomainInfo
1487921562.880868000 06 18 6 1 kerberos
1487921562.881074000 06 16 1 6 rpc_netlogon 29 NetrLogonGetDomainInfo
1487921562.884476000 06 19 6 1 ldap 3 searchRequest subschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities
1487921562.885803000 06 18 1 6 kerberos
1487921562.892086000 06 19 1 6 ldap 5 searchResDone
1487921562.916946000 06 20 6 1 smb 0x72 Negotiate Protocol (0x72)

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{
"ngrams": {
"-\t-": {
"cldap:3": 1,
"ldap:3": 1
},
"-\tldap:3": {
"wait:0": 1
},
"wait:0\trpc_netlogon:29": {
"kerberos:": 1
},
"rpc_netlogon:29\tkerberos:": {
"ldap:3": 1
},
"cldap:3\twait:0": {
"rpc_netlogon:29": 1
},
"-\tcldap:3": {
"cldap:3": 1
},
"ldap:3\twait:0": {
"ldap:2": 1
},
"cldap:3\tcldap:3": {
"cldap:3": 1,
"wait:0": 1
},
"kerberos:\tldap:3": {
"-": 1
}
},
"conversation_rate": [
2,
0.12712717056274414
],
"dns": {
"1": 9,
"0": 9
},
"query_details": {
"rpc_netlogon:29": {
"-": 1
},
"cldap:3": {
"\t\t\tNetlogon\t\t\t": 3
},
"ldap:3": {
"\t\t\tsubschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities\t\t\t": 1,
"2\tDC,DC\t\tcn\t\t\t": 1
},
"ldap:2": {
"\t\t\t\t\t\t": 1
},
"kerberos:": {
"": 1
}
},
"cumulative_duration": 0.39243292808532715
}

View File

@ -0,0 +1,10 @@
0.000000 06 3 5 1 ldap 3 searchRequest 2 DC,DC cn
0.127127 11 6 1 cldap 3 searchRequest Netlogon
0.127391 11 6 1 cldap 3 searchRequest Netlogon
0.127689 11 6 1 cldap 3 searchRequest Netlogon
0.227072 06 3 5 1 ldap 2 unbindRequest
0.282995 06 16 6 1 rpc_netlogon 29 NetrLogonGetDomainInfo
0.287553 06 18 6 1 kerberos
0.287759 06 16 1 6 rpc_netlogon 29 NetrLogonGetDomainInfo
0.291161 06 19 6 1 ldap 3 searchRequest subschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities
0.292488 06 18 1 6 kerberos

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# Black box tests for script/traffic_leaner
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""Blackbox tests for traffic_leaner"""
from contextlib import contextmanager
import os
import tempfile
from samba.tests import BlackboxTestCase
LEARNER = "script/traffic_learner"
DATA_DIR = "python/samba/tests/blackbox/testdata"
@contextmanager
def temp_file(temp_dir):
try:
tf = tempfile.NamedTemporaryFile(dir=temp_dir)
name = tf.name
tf.close()
yield name
finally:
if os.path.exists(name):
os.remove(name)
class TrafficLearnerTests(BlackboxTestCase):
def test_no_output_file(self):
"""Run the script with no output file specified"""
expected = ("No output file was specified to write the model to.\n"
"Please specify a filename using the --out option.\n")
actual = self.check_output(LEARNER)
self.assertEquals(expected, actual)
def test_model_generation(self):
"""Ensure a model is generated from a summary file and it is
correct"""
with temp_file(self.tempdir) as output:
summary = os.path.join(DATA_DIR, "traffic-sample-very-short.txt")
command = "%s %s --out %s" % (LEARNER, summary, output)
self.check_run(command)
expected_fn = os.path.join(DATA_DIR, "traffic_learner.expected")
expected = open(expected_fn).readlines()
actual = open(output).readlines()
self.assertEquals(expected, actual)

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# Black box tests for script/traffic_leaner
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""Blackbox tests for traffic_replay"""
from contextlib import contextmanager
import os
import tempfile
from samba.tests import BlackboxTestCase
DATA_DIR = "python/samba/tests/blackbox/testdata"
SCRIPT = "script/traffic_replay"
FIXED = "--fixed-password trafficreplay01%"
SERVER = os.environ["SERVER"]
PASSWORD = os.environ["PASSWORD"]
USER = os.environ["USERNAME"]
STD_OPTIONS = "-U%s%%%s %s" % (USER, PASSWORD, SERVER)
SUMMARY = os.path.join(DATA_DIR, "traffic-sample-very-short.txt")
EXPECTED_NAME = os.path.join(DATA_DIR, "traffic_replay.expected")
@contextmanager
def temp_file(temp_dir):
try:
tf = tempfile.NamedTemporaryFile(dir=temp_dir)
name = tf.name
tf.close()
yield name
finally:
if os.path.exists(name):
os.remove(name)
class TrafficLearnerTests(BlackboxTestCase):
def tearDown(self):
options = "--clean-up"
command = "%s %s %s" % (SCRIPT, options, STD_OPTIONS)
self.check_run(command)
def test_generate_users_only(self):
"""Ensure the generate users only option functions correctly
"""
options = ("--generate-users-only --number-of-users 20 "
"--number-of-groups 5 --average-groups-per-user 2")
command = "%s %s %s %s %s" % (
SCRIPT, SUMMARY, options, FIXED, STD_OPTIONS)
self.check_run(command)
def test_summary_generation(self):
"""Ensure a summary file is generated and the contents are correct"""
with temp_file(self.tempdir) as output:
options = "--traffic-summary %s " % (output)
command = "%s %s %s %s %s" % (
SCRIPT, SUMMARY, options, FIXED, STD_OPTIONS)
self.check_run(command)
expected = (open(EXPECTED_NAME).readlines())
actual = open(output).readlines()
self.assertEquals(expected, actual)
def test_summary_replay(self):
"""Ensure a summary file can be replayed against a DC
"""
command = "%s %s %s %s" % (SCRIPT, SUMMARY, FIXED, STD_OPTIONS)
self.check_run(command)
def test_summary_replay_no_fixed(self):
"""Ensure a summary file with no fixed password fails
"""
command = "%s %s %s" % (SCRIPT, SUMMARY, STD_OPTIONS)
self.check_exit_code(command, 1)
def test_model_replay(self):
"""Ensure a model can be replayed against a DC
"""
model = "testdata/traffic-sample-very-short.model"
command = "%s %s-D 5 %s %s" % (SCRIPT, model, FIXED, STD_OPTIONS)
self.check_run(command)
def test_generate_users_only_no_password(self):
"""Ensure the generate users only fails if no fixed_password supplied"
"""
options = ("--generate-users-only --number-of-users 20 "
"--number-of-groups 5 --average-groups-per-user 2")
summary = "testdata/traffic-sample-very-short.txt"
command = "%s %s %s %s" % (SCRIPT, summary, options, STD_OPTIONS)
self.check_exit_code(command, 1)

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@ -0,0 +1,17 @@
# Package initialisation
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#

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@ -0,0 +1,160 @@
# Unit and integration tests for traffic.py
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
# from pprint import pprint
from cStringIO import StringIO
import samba.tests
from samba.emulate import traffic
TEST_FILE = 'testdata/traffic-sample-very-short.txt'
class TrafficEmulatorTests(samba.tests.TestCase):
def setUp(self):
self.model = traffic.TrafficModel()
def tearDown(self):
del self.model
def test_parse_ngrams_dns_included(self):
model = traffic.TrafficModel()
f = open(TEST_FILE)
(conversations,
interval,
duration,
dns_counts) = traffic.ingest_summaries([f], dns_mode='include')
f.close()
model.learn(conversations)
expected_ngrams = {
('-', '-'): ['dns:0', 'dns:0', 'dns:0', 'ldap:3'],
('-', 'dns:0'): ['dns:0', 'dns:0', 'dns:0'],
('-', 'ldap:3'): ['wait:0'],
('cldap:3', 'cldap:3'): ['cldap:3', 'wait:0'],
('cldap:3', 'wait:0'): ['rpc_netlogon:29'],
('dns:0', 'dns:0'): ['dns:0', 'dns:0', 'dns:0', 'wait:0'],
('dns:0', 'wait:0'): ['cldap:3'],
('kerberos:', 'ldap:3'): ['-'],
('ldap:3', 'wait:0'): ['ldap:2'],
('rpc_netlogon:29', 'kerberos:'): ['ldap:3'],
('wait:0', 'cldap:3'): ['cldap:3'],
('wait:0', 'rpc_netlogon:29'): ['kerberos:']
}
expected_query_details = {
'cldap:3': [('', '', '', 'Netlogon', '', '', ''),
('', '', '', 'Netlogon', '', '', ''),
('', '', '', 'Netlogon', '', '', '')],
'dns:0': [(), (), (), (), (), (), (), (), ()],
'kerberos:': [('',)],
'ldap:2': [('', '', '', '', '', '', '')],
'ldap:3': [('',
'',
'',
'subschemaSubentry,dsServiceName,namingContexts,'
'defaultNamingContext,schemaNamingContext,'
'configurationNamingContext,rootDomainNamingContext,'
'supportedControl,supportedLDAPVersion,'
'supportedLDAPPolicies,supportedSASLMechanisms,'
'dnsHostName,ldapServiceName,serverName,'
'supportedCapabilities',
'',
'',
''),
('2', 'DC,DC', '', 'cn', '', '', '')],
'rpc_netlogon:29': [()]
}
self.maxDiff = 5000
ngrams = {k: sorted(v) for k, v in model.ngrams.items()}
details = {k: sorted(v) for k, v in model.query_details.items()}
self.assertEqual(expected_ngrams, ngrams)
self.assertEqual(expected_query_details, details)
# We use a stringIO instead of a temporary file
f = StringIO()
model.save(f)
model2 = traffic.TrafficModel()
f.seek(0)
model2.load(f)
self.assertEqual(expected_ngrams, model2.ngrams)
self.assertEqual(expected_query_details, model2.query_details)
def test_parse_ngrams(self):
f = open(TEST_FILE)
(conversations,
interval,
duration,
dns_counts) = traffic.ingest_summaries([f])
f.close()
self.model.learn(conversations, dns_counts)
# print 'ngrams'
# pprint(self.model.ngrams, width=50)
# print 'query_details'
# pprint(self.model.query_details, width=55)
expected_ngrams = {
('-', '-'): ['cldap:3', 'ldap:3'],
('-', 'cldap:3'): ['cldap:3'],
('-', 'ldap:3'): ['wait:0'],
('cldap:3', 'cldap:3'): ['cldap:3', 'wait:0'],
('cldap:3', 'wait:0'): ['rpc_netlogon:29'],
('kerberos:', 'ldap:3'): ['-'],
('ldap:3', 'wait:0'): ['ldap:2'],
('rpc_netlogon:29', 'kerberos:'): ['ldap:3'],
('wait:0', 'rpc_netlogon:29'): ['kerberos:']
}
expected_query_details = {
'cldap:3': [('', '', '', 'Netlogon', '', '', ''),
('', '', '', 'Netlogon', '', '', ''),
('', '', '', 'Netlogon', '', '', '')],
'kerberos:': [('',)],
'ldap:2': [('', '', '', '', '', '', '')],
'ldap:3': [('',
'',
'',
'subschemaSubentry,dsServiceName,namingContexts,'
'defaultNamingContext,schemaNamingContext,'
'configurationNamingContext,rootDomainNamingContext,'
'supportedControl,supportedLDAPVersion,'
'supportedLDAPPolicies,supportedSASLMechanisms,'
'dnsHostName,ldapServiceName,serverName,'
'supportedCapabilities',
'',
'',
''),
('2', 'DC,DC', '', 'cn', '', '', '')],
'rpc_netlogon:29': [()]
}
self.maxDiff = 5000
ngrams = {k: sorted(v) for k, v in self.model.ngrams.items()}
details = {k: sorted(v) for k, v in self.model.query_details.items()}
self.assertEqual(expected_ngrams, ngrams)
self.assertEqual(expected_query_details, details)
# We use a stringIO instead of a temporary file
f = StringIO()
self.model.save(f)
model2 = traffic.TrafficModel()
f.seek(0)
model2.load(f)
self.assertEqual(expected_ngrams, model2.ngrams)
self.assertEqual(expected_query_details, model2.query_details)

View File

@ -0,0 +1,724 @@
# Unit and integration tests for traffic_packet.py
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import os
import shutil
import tempfile
from samba.auth import system_session
from samba.credentials import MUST_USE_KERBEROS, DONT_USE_KERBEROS
from samba.emulate import traffic_packets as p
from samba.emulate import traffic
from samba.samdb import SamDB
import samba.tests
class TrafficEmulatorPacketTests(samba.tests.TestCase):
def setUp(self):
super(TrafficEmulatorPacketTests, self).setUp()
self.server = os.environ["SERVER"]
self.domain = os.environ["DOMAIN"]
self.host = os.environ["SERVER_IP"]
self.lp = self.get_loadparm()
self.session = system_session()
self.credentials = self.get_credentials()
self.ldb = SamDB(url="ldap://%s" % self.host,
session_info=self.session,
credentials=self.credentials,
lp=self.lp)
self.domain_sid = self.ldb.get_domain_sid()
traffic.clean_up_accounts(self.ldb, 1)
self.tempdir = tempfile.mkdtemp(prefix="traffic_packet_test_")
self.context = traffic.ReplayContext(server=self.server,
lp=self.lp,
creds=self.credentials,
tempdir=self.tempdir,
ou=traffic.ou_name(self.ldb, 1),
domain_sid=self.domain_sid)
self.conversation = traffic.Conversation()
self.conversation.conversation_id = 1
self.machinename = "STGM-1-1"
self.machinepass = samba.generate_random_password(32, 32)
self.username = "STGU-1-1"
self.userpass = samba.generate_random_password(32, 32)
account = traffic.ConversationAccounts(
self.machinename,
self.machinepass,
self.username,
self.userpass)
traffic.create_ou(self.ldb, 1)
traffic.create_machine_account(self.ldb,
1,
self.machinename,
self.machinepass)
traffic.create_user_account(self.ldb,
1,
self.username,
self.userpass)
self.context.generate_process_local_config(account, self.conversation)
def tearDown(self):
super(TrafficEmulatorPacketTests, self).tearDown()
traffic.clean_up_accounts(self.ldb, 1)
shutil.rmtree(self.tempdir)
def test_packet_cldap_03(self):
packet = traffic.Packet("0.0\t11\t1\t2\t1\tcldap\t3\tsearchRequest\t")
self.assertTrue(p.packet_cldap_3(packet,
self.conversation,
self. context))
def test_packet_cldap_05(self):
packet = traffic.Packet("0.0\t11\t1\t1\t2\tcldap\t5\tsearchResDone\t")
self.assertFalse(p.packet_cldap_5(packet,
self.conversation,
self. context))
def test_packet_dcerpc_00(self):
packet = traffic.Packet("0.0\t11\t1\t2\t1\tdcerpc\t0\tRequest\t")
self.assertFalse(p.packet_dcerpc_0(packet,
self.conversation,
self. context))
def test_packet_dcerpc_02(self):
packet = traffic.Packet("0.0\t11\t1\t1\t2\tdcerpc\t2\tResponse\t")
self.assertFalse(p.packet_dcerpc_2(packet,
self.conversation,
self. context))
def test_packet_dcerpc_03(self):
packet = traffic.Packet("0.0\t11\t1\t1\t2\tdcerpc\t3\t\t")
self.assertFalse(p.packet_dcerpc_3(packet,
self.conversation,
self. context))
def test_packet_dcerpc_11(self):
packet = traffic.Packet("0.0\t11\t1\t2\t1\tdcerpc\t11\tBind\t")
self.assertFalse(p.packet_dcerpc_11(packet,
self.conversation,
self. context))
def test_packet_dcerpc_13(self):
packet = traffic.Packet("0.0\t11\t1\t2\t1\tdcerpc\t13\t\t")
self.assertFalse(p.packet_dcerpc_13(packet,
self.conversation,
self. context))
def test_packet_dcerpc_14(self):
packet = traffic.Packet(
"0.0\t11\t1\t2\t1\tdcerpc\t14\tAlter_context\t")
self.assertFalse(p.packet_dcerpc_14(packet,
self.conversation,
self. context))
def test_packet_dcerpc_15(self):
packet = traffic.Packet(
"0.0\t11\t1\t1\t2\tdcerpc\t15\tAlter_context_resp\t")
# Set user_creds MUST_USE_KERBEROS to suppress the warning message.
self.context.user_creds.set_kerberos_state(MUST_USE_KERBEROS)
self.assertFalse(p.packet_dcerpc_15(packet,
self.conversation,
self. context))
def test_packet_dcerpc_16(self):
packet = traffic.Packet(
"0.0\t11\t1\t1\t2\tdcerpc\t16\tAUTH3\t")
self.assertFalse(p.packet_dcerpc_16(packet,
self.conversation,
self. context))
def test_packet_dns_01(self):
packet = traffic.Packet(
"0.0\t11\t1\t1\t2\tdns\t1\tresponse\t")
self.assertFalse(p.packet_dns_1(packet,
self.conversation,
self. context))
def test_packet_drsuapi_00(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t0\tDsBind\t")
self.assertTrue(p.packet_drsuapi_0(packet,
self.conversation,
self. context))
def test_packet_drsuapi_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t1\tDsUnBind\t")
self.assertTrue(p.packet_drsuapi_1(packet,
self.conversation,
self. context))
def test_packet_drsuapi_02(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t2\tDsReplicaSync\t")
self.assertFalse(p.packet_drsuapi_2(packet,
self.conversation,
self. context))
def test_packet_drsuapi_03(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t3\tDsGetNCChanges\t")
self.assertFalse(p.packet_drsuapi_3(packet,
self.conversation,
self. context))
def test_packet_drsuapi_04(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t4\tDsReplicaUpdateRefs\t")
self.assertFalse(p.packet_drsuapi_4(packet,
self.conversation,
self. context))
def test_packet_drsuapi_12(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t12\tDsCrackNames\t")
self.assertTrue(p.packet_drsuapi_12(packet,
self.conversation,
self. context))
def test_packet_drsuapi_13(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tdrsuapi\t13\tDsWriteAccountSpn\t")
self.assertTrue(p.packet_drsuapi_13(packet,
self.conversation,
self. context))
def test_packet_epm_03(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tepm\t3\tMap\t")
self.assertFalse(p.packet_epm_3(packet,
self.conversation,
self. context))
def test_packet_kerberos(self):
"""Kerberos packets are not generated, but are used as a hint to
favour kerberos.
"""
packet = traffic.Packet(
"0.0\t11\t1\t1\t2\tkerberos\t\t\t")
self.assertFalse(p.packet_kerberos_(packet,
self.conversation,
self. context))
self.assertEqual(MUST_USE_KERBEROS,
self.context.user_creds.get_kerberos_state())
self.assertEqual(MUST_USE_KERBEROS,
self.context.user_creds_bad.get_kerberos_state())
self.assertEqual(MUST_USE_KERBEROS,
self.context.machine_creds.get_kerberos_state())
self.assertEqual(MUST_USE_KERBEROS,
self.context.machine_creds_bad.get_kerberos_state())
self.assertEqual(MUST_USE_KERBEROS,
self.context.creds.get_kerberos_state())
# Need to restore kerberos creds on the admin creds otherwise
# subsequent tests fail
self.credentials.set_kerberos_state(DONT_USE_KERBEROS)
def test_packet_ldap(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t\t*** Unknown ***\t")
self.assertFalse(p.packet_ldap_(packet,
self.conversation,
self. context))
def test_packet_ldap_00_sasl(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t0\tbindRequest"
"\t\t\t\t\t3\tsasl\t1.3.6.1.5.5.2")
self.assertTrue(p.packet_ldap_0(packet,
self.conversation,
self. context))
def test_packet_ldap_00_simple(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t0\tbindRequest"
"\t\t\t\t\t0\tsimple\t")
self.assertTrue(p.packet_ldap_0(packet,
self.conversation,
self. context))
def test_packet_ldap_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t1\tbindResponse\t")
self.assertFalse(p.packet_ldap_1(packet,
self.conversation,
self. context))
def test_packet_ldap_02(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t2\tunbindRequest\t")
self.assertFalse(p.packet_ldap_2(packet,
self.conversation,
self. context))
def test_packet_ldap_03(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t3\tsearchRequest"
"\t2\tDC,DC\t\tcn\t\t\t")
self.assertTrue(p.packet_ldap_3(packet,
self.conversation,
self. context))
def test_packet_ldap_04(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t4\tsearchResEntry\t")
self.assertFalse(p.packet_ldap_4(packet,
self.conversation,
self. context))
def test_packet_ldap_05(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t5\tsearchResDone\t")
self.assertFalse(p.packet_ldap_5(packet,
self.conversation,
self. context))
def test_packet_ldap_06(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t6\tmodifyRequest\t"
"\t\t\t\t0\tadd")
self.assertFalse(p.packet_ldap_6(packet,
self.conversation,
self. context))
def test_packet_ldap_07(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t7\tmodifyResponse\t")
self.assertFalse(p.packet_ldap_7(packet,
self.conversation,
self. context))
def test_packet_ldap_08(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t8\taddRequest\t")
self.assertFalse(p.packet_ldap_8(packet,
self.conversation,
self. context))
def test_packet_ldap_09(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tldap\t9\taddResponse\t")
self.assertFalse(p.packet_ldap_9(packet,
self.conversation,
self. context))
def test_packet_ldap_16(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tldap\t16\tabandonRequest\t")
self.assertFalse(p.packet_ldap_16(packet,
self.conversation,
self. context))
def test_packet_lsarpc_00(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t0\tlsa_Close\t")
self.assertFalse(p.packet_lsarpc_1(packet,
self.conversation,
self. context))
def test_packet_lsarpc_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t1\tlsa_Delete\t")
self.assertFalse(p.packet_lsarpc_1(packet,
self.conversation,
self. context))
def test_packet_lsarpc_02(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t2\tlsa_EnumeratePrivileges\t")
self.assertFalse(p.packet_lsarpc_2(packet,
self.conversation,
self. context))
def test_packet_lsarpc_03(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t3\tlsa_QuerySecurityObject\t")
self.assertFalse(p.packet_lsarpc_3(packet,
self.conversation,
self. context))
def test_packet_lsarpc_04(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t4\tlsa_SetSecurityObject\t")
self.assertFalse(p.packet_lsarpc_4(packet,
self.conversation,
self. context))
def test_packet_lsarpc_05(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t5\tlsa_ChangePassword\t")
self.assertFalse(p.packet_lsarpc_5(packet,
self.conversation,
self. context))
def test_packet_lsarpc_06(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t6\tlsa_OpenPolicy\t")
self.assertFalse(p.packet_lsarpc_6(packet,
self.conversation,
self. context))
def test_packet_lsarpc_14(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t14\tlsa_LookupNames\t")
self.assertTrue(p.packet_lsarpc_14(packet,
self.conversation,
self. context))
def test_packet_lsarpc_15(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t15\tlsa_LookupSids\t")
self.assertTrue(p.packet_lsarpc_15(packet,
self.conversation,
self. context))
def test_packet_lsarpc_39(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t39\tlsa_QueryTrustedDomainInfoBySid\t")
self.assertTrue(p.packet_lsarpc_39(packet,
self.conversation,
self. context))
def test_packet_lsarpc_40(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t40\tlsa_SetTrustedDomainInfo\t")
self.assertFalse(p.packet_lsarpc_40(packet,
self.conversation,
self. context))
def test_packet_lsarpc_43(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t43\tlsa_StorePrivateData\t")
self.assertFalse(p.packet_lsarpc_43(packet,
self.conversation,
self. context))
def test_packet_lsarpc_44(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t44\tlsa_RetrievePrivateData\t")
self.assertFalse(p.packet_lsarpc_44(packet,
self.conversation,
self. context))
def test_packet_lsarpc_68(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t68\tlsa_LookupNames3\t")
self.assertFalse(p.packet_lsarpc_68(packet,
self.conversation,
self. context))
def test_packet_lsarpc_76(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t76\tlsa_LookupSids3\t")
self.assertTrue(p.packet_lsarpc_76(packet,
self.conversation,
self. context))
def test_packet_lsarpc_77(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tlsarpc\t77\tlsa_LookupNames4\t")
self.assertTrue(p.packet_lsarpc_77(packet,
self.conversation,
self. context))
def test_packet_nbns_00(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tnbns\t0\tquery\t")
self.assertTrue(p.packet_nbns_0(packet,
self.conversation,
self. context))
def test_packet_nbns_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t1\t2\tnbns\t1\tresponse\t")
self.assertTrue(p.packet_nbns_0(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_00(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t0\tNetrLogonUasLogon\t")
self.assertFalse(p.packet_rpc_netlogon_0(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t1\tNetrLogonUasLogoff\t")
self.assertFalse(p.packet_rpc_netlogon_1(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_04(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t4\tNetrServerReqChallenge\t")
self.assertFalse(p.packet_rpc_netlogon_4(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_14(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t14\tNetrLogonControl2\t")
self.assertFalse(p.packet_rpc_netlogon_14(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_15(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t15\tNetrServerAuthenticate2\t")
self.assertFalse(p.packet_rpc_netlogon_15(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_21(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t21\tNetrLogonDummyRoutine1\t")
self.assertFalse(p.packet_rpc_netlogon_21(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_26(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t26\tNetrServerAuthenticate3\t")
self.assertFalse(p.packet_rpc_netlogon_26(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_29(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t29\tNetrLogonGetDomainInfo\t")
self.assertTrue(p.packet_rpc_netlogon_29(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_30(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t30\tNetrServerPasswordSet2\t")
self.assertTrue(p.packet_rpc_netlogon_30(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_34(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t34\tDsrGetDcNameEx2\t")
self.assertFalse(p.packet_rpc_netlogon_34(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_39(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t39\tNetrLogonSamLogonEx\t")
self.assertTrue(p.packet_rpc_netlogon_39(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_40(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t40\tDsrEnumerateDomainTrusts\t")
self.assertTrue(p.packet_rpc_netlogon_40(packet,
self.conversation,
self. context))
def test_packet_rpc_netlogon_45(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\trpc_netlogon\t45\tNetrLogonSamLogonWithFlags\t")
self.assertTrue(p.packet_rpc_netlogon_45(packet,
self.conversation,
self. context))
def test_packet_samr_00(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t0\tConnect\t")
self.assertTrue(p.packet_samr_0(packet,
self.conversation,
self. context))
def test_packet_samr_01(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t1\tClose\t")
self.assertTrue(p.packet_samr_1(packet,
self.conversation,
self. context))
def test_packet_samr_03(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t3\tQuerySecurity\t")
self.assertTrue(p.packet_samr_3(packet,
self.conversation,
self. context))
def test_packet_samr_05(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t5\tLookupDomain\t")
self.assertTrue(p.packet_samr_5(packet,
self.conversation,
self. context))
def test_packet_samr_06(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t6\tEnumDomains\t")
self.assertTrue(p.packet_samr_6(packet,
self.conversation,
self. context))
def test_packet_samr_07(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t7\tOpenDomain\t")
self.assertTrue(p.packet_samr_7(packet,
self.conversation,
self. context))
def test_packet_samr_08(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t8\tQueryDomainInfo'\t")
self.assertTrue(p.packet_samr_8(packet,
self.conversation,
self. context))
def test_packet_samr_14(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t14\tCreateDomAlias\t")
self.assertFalse(p.packet_samr_14(packet,
self.conversation,
self. context))
def test_packet_samr_15(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t15\tEnumDomainAliases\t")
self.assertTrue(p.packet_samr_15(packet,
self.conversation,
self. context))
def test_packet_samr_16(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t16\tGetAliasMembership\t")
self.assertTrue(p.packet_samr_16(packet,
self.conversation,
self. context))
def test_packet_samr_17(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t17\tLookupNames\t")
self.assertTrue(p.packet_samr_17(packet,
self.conversation,
self. context))
def test_packet_samr_18(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t18\tLookupRids\t")
self.assertTrue(p.packet_samr_18(packet,
self.conversation,
self. context))
def test_packet_samr_19(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t19\tOpenGroup\t")
self.assertTrue(p.packet_samr_19(packet,
self.conversation,
self. context))
def test_packet_samr_25(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t25\tQueryGroupMember\t")
self.assertTrue(p.packet_samr_25(packet,
self.conversation,
self. context))
def test_packet_samr_34(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t34\tOpenUser\t")
self.assertTrue(p.packet_samr_34(packet,
self.conversation,
self. context))
def test_packet_samr_36(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t36\tQueryUserInfo\t")
self.assertTrue(p.packet_samr_36(packet,
self.conversation,
self. context))
def test_packet_samr_37(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t37\tSetUserInfo\t")
self.assertFalse(p.packet_samr_37(packet,
self.conversation,
self. context))
def test_packet_samr_39(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t39\tGetGroupsForUser\t")
self.assertTrue(p.packet_samr_39(packet,
self.conversation,
self. context))
def test_packet_samr_40(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t40\tQueryDisplayInfo\t")
self.assertFalse(p.packet_samr_40(packet,
self.conversation,
self. context))
def test_packet_samr_44(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t44\tGetUserPwInfo\t")
self.assertFalse(p.packet_samr_44(packet,
self.conversation,
self. context))
def test_packet_samr_57(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t57\tConnect2\t")
self.assertTrue(p.packet_samr_57(packet,
self.conversation,
self. context))
def test_packet_samr_64(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t64\tConnect5\t")
self.assertTrue(p.packet_samr_64(packet,
self.conversation,
self. context))
def test_packet_samr_68(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsamr\t68\t\t")
self.assertFalse(p.packet_samr_68(packet,
self.conversation,
self. context))
def test_packet_srvsvc_16(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsrvsvc\t16\tNetShareGetInfo\t")
self.assertTrue(p.packet_srvsvc_16(packet,
self.conversation,
self. context))
def test_packet_srvsvc_21(self):
packet = traffic.Packet(
"0.0\t06\t1\t2\t1\tsrvsvc\t21\tNetSrvGetInfo\t")
self.assertTrue(p.packet_srvsvc_21(packet,
self.conversation,
self. context))

63
script/traffic_learner Executable file
View File

@ -0,0 +1,63 @@
#!/usr/bin/env python
# Generate a traffic model from a traffic summary file
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import sys
import argparse
sys.path.insert(0, "bin/python")
from samba.emulate import traffic
def main():
parser = argparse.ArgumentParser(description=__doc__,
formatter_class=argparse.RawDescriptionHelpFormatter)
parser.add_argument('-o', '--out', type=argparse.FileType('w'),
help="write model here")
parser.add_argument('--dns-mode', choices=['inline', 'count'],
help='how to deal with DNS', default='count')
parser.add_argument('SUMMARY_FILE', nargs='*', type=argparse.FileType('r'),
default=[sys.stdin],
help="read from this file (default STDIN)")
args = parser.parse_args()
if not args.out:
print >> sys.stdout, "No output file was specified to write the model to."
print >> sys.stdout, "Please specify a filename using the --out option."
return
if args.SUMMARY_FILE is sys.stdin:
print >> sys.stderr, "reading from STDIN..."
(conversations,
interval,
duration,
dns_counts) = traffic.ingest_summaries(args.SUMMARY_FILE,
dns_mode=args.dns_mode)
model = traffic.TrafficModel()
print >> sys.stderr, "learning model"
if args.dns_mode == 'count':
model.learn(conversations, dns_counts)
else:
model.learn(conversations)
model.save(args.out)
main()

362
script/traffic_replay Executable file
View File

@ -0,0 +1,362 @@
#!/usr/bin/env python
# Generates samba network traffic
#
# Copyright (C) Catalyst IT Ltd. 2017
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import sys
import os
import optparse
import tempfile
import shutil
sys.path.insert(0, "bin/python")
from samba.emulate import traffic
import samba.getopt as options
def main():
desc = ("Generates network traffic 'conversations' based on <summary-file>"
" (which should the output file produced by either traffic_learner"
" or traffic_summary.pl). This traffic is sent to <dns-hostname>,"
" which is the full DNS hostname of the DC being tested.")
parser = optparse.OptionParser(
"%prog [--help|options] <summary-file> <dns-hostname>",
description=desc)
parser.add_option('--dns-rate', type='float', default=0,
help='fire extra DNS packets at this rate')
parser.add_option('-B', '--badpassword-frequency',
type='float', default=0.0,
help='frequency of connections with bad passwords')
parser.add_option('-K', '--prefer-kerberos',
action="store_true",
help='prefer kerberos when authenticating test users')
parser.add_option('-I', '--instance-id', type='int', default=0,
help='Instance number, when running multiple instances')
parser.add_option('-t', '--timing-data',
help=('write individual message timing data here '
'(- for stdout)'))
parser.add_option('--preserve-tempdir', default=False, action="store_true",
help='do not delete temporary files')
parser.add_option('-F', '--fixed-password',
type='string', default=None,
help=('Password used for the test users created. '
'Required'))
parser.add_option('-c', '--clean-up',
action="store_true",
help='Clean up the generated groups and user accounts')
model_group = optparse.OptionGroup(parser, 'Traffic Model Options',
'These options alter the traffic '
'generated when the summary-file is a '
'traffic-model (produced by '
'traffic_learner)')
model_group.add_option('-S', '--scale-traffic', type='float', default=1.0,
help='Increase the number of conversations by '
'this factor')
model_group.add_option('-D', '--duration', type='float', default=None,
help=('Run model for this long (approx). '
'Default 60s for models'))
model_group.add_option('-r', '--replay-rate', type='float', default=1.0,
help='Replay the traffic faster by this factor')
model_group.add_option('--traffic-summary',
help=('Generate a traffic summary file and write '
'it here (- for stdout)'))
parser.add_option_group(model_group)
user_gen_group = optparse.OptionGroup(parser, 'Generate User Options',
"Add extra user/groups on the DC to "
"increase the DB size. These extra "
"users aren't used for traffic "
"generation.")
user_gen_group.add_option('-G', '--generate-users-only',
action="store_true",
help='Generate the users, but do not replay '
'the traffic')
user_gen_group.add_option('-n', '--number-of-users', type='int', default=0,
help='Total number of test users to create')
user_gen_group.add_option('--number-of-groups', type='int', default=0,
help='Create this many groups')
user_gen_group.add_option('--average-groups-per-user',
type='int', default=0,
help='Assign the test users to this '
'many groups on average')
user_gen_group.add_option('--group-memberships', type='int', default=0,
help='Total memberships to assign across all '
'test users and all groups')
parser.add_option_group(user_gen_group)
sambaopts = options.SambaOptions(parser)
parser.add_option_group(sambaopts)
parser.add_option_group(options.VersionOptions(parser))
credopts = options.CredentialsOptions(parser)
parser.add_option_group(credopts)
# the --no-password credential doesn't make sense for this tool
if parser.has_option('-N'):
parser.remove_option('-N')
opts, args = parser.parse_args()
# First ensure we have reasonable arguments
if len(args) == 1:
summary = None
host = args[0]
elif len(args) == 2:
summary, host = args
else:
parser.print_usage()
return
if opts.clean_up:
print >>sys.stderr, "Removing user and machine accounts"
lp = sambaopts.get_loadparm()
creds = credopts.get_credentials(lp)
ldb = traffic.openLdb(host, creds, lp)
traffic.clean_up_accounts(ldb, opts.instance_id)
exit(0)
if summary:
if not os.path.exists(summary):
print >>sys.stderr, "Summary file %s doesn't exist" % summary
sys.exit(1)
# the summary-file can be ommitted for --generate-users-only and
# --cleanup-up, but it should be specified in all other cases
elif not opts.generate_users_only:
print >>sys.stderr, "No summary-file specified to replay traffic from"
sys.exit(1)
if not opts.fixed_password:
print >>sys.stderr, ("Please use --fixed-password to specify a password"
" for the users created as part of this test")
sys.exit(1)
lp = sambaopts.get_loadparm()
creds = credopts.get_credentials(lp)
domain = opts.workgroup
if domain:
lp.set("workgroup", domain)
else:
domain = lp.get("workgroup")
if domain == "WORKGROUP":
print >>sys.stderr, ("NETBIOS domain does not appear to be "
"specified, use the --workgroup option")
sys.exit(1)
if not opts.realm and not lp.get('realm'):
print >>sys.stderr, "Realm not specified, use the --realm option"
sys.exit(1)
if opts.generate_users_only and not (opts.number_of_users or
opts.number_of_groups):
print >>sys.stderr, ("Please specify the number of users and/or groups "
"to generate.")
sys.exit(1)
if opts.group_memberships and opts.average_groups_per_user:
print >>sys.stderr, ("--group-memberships and --average-groups-per-user"
" are incompatible options - use one or the other")
sys.exit(1)
if not opts.number_of_groups and opts.average_groups_per_user:
print >>sys.stderr, ("--average-groups-per-user requires "
"--number-of-groups")
sys.exit(1)
if not opts.number_of_groups and opts.group_memberships:
print >>sys.stderr, "--group-memberships requires --number-of-groups"
sys.exit(1)
if opts.timing_data not in ('-', None):
try:
open(opts.timing_data, 'w').close()
except IOError as e:
print >> sys.stderr, ("the supplied timing data destination "
"(%s) is not writable" % opts.timing_data)
print >> sys.stderr, e
sys.exit()
if opts.traffic_summary not in ('-', None):
try:
open(opts.traffic_summary, 'w').close()
except IOError as e:
print >> sys.stderr, ("the supplied traffic summary destination "
"(%s) is not writable" % opts.traffic_summary)
print >> sys.stderr, e
sys.exit()
traffic.DEBUG_LEVEL = opts.debuglevel
duration = opts.duration
if duration is None:
duration = 60.0
# ingest the model or traffic summary
if summary:
try:
conversations, interval, duration, dns_counts = \
traffic.ingest_summaries([summary])
print >>sys.stderr, ("Using conversations from the traffic summary "
"file specified")
# honour the specified duration if it's different to the
# capture duration
if opts.duration is not None:
duration = opts.duration
except ValueError as e:
if not e.message.startswith('need more than'):
raise
model = traffic.TrafficModel()
try:
model.load(summary)
except ValueError:
print >>sys.stderr, ("Could not parse %s. The summary file "
"should be the output from either the "
"traffic_summary.pl or "
"traffic_learner scripts."
% summary)
sys.exit()
print >>sys.stderr, ("Using the specified model file to "
"generate conversations")
conversations = model.generate_conversations(opts.scale_traffic,
duration,
opts.replay_rate)
else:
conversations = []
if opts.debuglevel > 5:
for c in conversations:
for p in c.packets:
print " ", p
print '=' * 72
if opts.number_of_users and opts.number_of_users < len(conversations):
print >>sys.stderr, ("--number-of-users (%d) is less than the "
"number of conversations to replay (%d)"
% (opts.number_of_users, len(conversations)))
sys.exit(1)
number_of_users = max(opts.number_of_users, len(conversations))
max_memberships = number_of_users * opts.number_of_groups
if not opts.group_memberships and opts.average_groups_per_user:
opts.group_memberships = opts.average_groups_per_user * number_of_users
print >>sys.stderr, ("Using %d group-memberships based on %u average "
"memberships for %d users"
% (opts.group_memberships,
opts.average_groups_per_user, number_of_users))
if opts.group_memberships > max_memberships:
print >>sys.stderr, ("The group memberships specified (%d) exceeds "
"the total users (%d) * total groups (%d)"
% (opts.group_memberships, number_of_users,
opts.number_of_groups))
sys.exit(1)
try:
ldb = traffic.openLdb(host, creds, lp)
except:
print >>sys.stderr, ("\nInitial LDAP connection failed! Did you supply "
"a DNS host name and the correct credentials?")
sys.exit(1)
if opts.generate_users_only:
traffic.generate_users_and_groups(ldb,
opts.instance_id,
opts.fixed_password,
opts.number_of_users,
opts.number_of_groups,
opts.group_memberships)
sys.exit()
tempdir = tempfile.mkdtemp(prefix="samba_tg_")
print >>sys.stderr, "Using temp dir %s" % tempdir
traffic.generate_users_and_groups(ldb,
opts.instance_id,
opts.fixed_password,
number_of_users,
opts.number_of_groups,
opts.group_memberships)
accounts = traffic.generate_replay_accounts(ldb,
opts.instance_id,
len(conversations),
opts.fixed_password)
statsdir = traffic.mk_masked_dir(tempdir, 'stats')
if opts.traffic_summary:
if opts.traffic_summary == '-':
summary_dest = sys.stdout
else:
summary_dest = open(opts.traffic_summary, 'w')
print >>sys.stderr, "Writing traffic summary"
summaries = []
for c in conversations:
summaries += c.replay_as_summary_lines()
summaries.sort()
for (time, line) in summaries:
print >>summary_dest, line
exit(0)
traffic.replay(conversations, host,
lp=lp,
creds=creds,
accounts=accounts,
dns_rate=opts.dns_rate,
duration=duration,
badpassword_frequency=opts.badpassword_frequency,
prefer_kerberos=opts.prefer_kerberos,
statsdir=statsdir,
domain=domain,
base_dn=ldb.domain_dn(),
ou=traffic.ou_name(ldb, opts.instance_id),
tempdir=tempdir,
domain_sid=ldb.get_domain_sid())
if opts.timing_data == '-':
timing_dest = sys.stdout
elif opts.timing_data is None:
timing_dest = None
else:
timing_dest = open(opts.timing_data, 'w')
print >>sys.stderr, "Generating statistics"
traffic.generate_stats(statsdir, timing_dest)
if not opts.preserve_tempdir:
print >>sys.stderr, "Removing temporary directory"
shutil.rmtree(tempdir)
main()

View File

@ -132,10 +132,6 @@ planpythontestsuite("none", "samba.tests.kcc.graph_utils")
planpythontestsuite("none", "samba.tests.kcc.kcc_utils") planpythontestsuite("none", "samba.tests.kcc.kcc_utils")
planpythontestsuite("none", "samba.tests.kcc.ldif_import_export") planpythontestsuite("none", "samba.tests.kcc.ldif_import_export")
plantestsuite("wafsamba.duplicate_symbols", "none", [os.path.join(srcdir(), "buildtools/wafsamba/test_duplicate_symbol.sh")]) plantestsuite("wafsamba.duplicate_symbols", "none", [os.path.join(srcdir(), "buildtools/wafsamba/test_duplicate_symbol.sh")])
plantestsuite(
"script.traffic_summary", "none",
[os.path.join(srcdir(), "script/tests/test_traffic_summary.sh"),
configuration])
planpythontestsuite("none", "samba.tests.glue", py3_compatible=True) planpythontestsuite("none", "samba.tests.glue", py3_compatible=True)
planpythontestsuite("none", "samba.tests.tdb_util", py3_compatible=True) planpythontestsuite("none", "samba.tests.tdb_util", py3_compatible=True)

View File

@ -688,6 +688,18 @@ for env in ["ad_dc_ntvfs", "vampire_dc", "promoted_dc"]:
planoldpythontestsuite(env, planoldpythontestsuite(env,
"samba.tests.py_credentials", "samba.tests.py_credentials",
extra_args=['-U"$USERNAME%$PASSWORD"']) extra_args=['-U"$USERNAME%$PASSWORD"'])
planoldpythontestsuite("ad_dc_ntvfs",
"samba.tests.emulate.traffic",
extra_args=['-U"$USERNAME%$PASSWORD"'])
planoldpythontestsuite("ad_dc_ntvfs",
"samba.tests.emulate.traffic_packet",
extra_args=['-U"$USERNAME%$PASSWORD"'])
planoldpythontestsuite("ad_dc_ntvfs",
"samba.tests.blackbox.traffic_replay",
extra_args=['-U"$USERNAME%$PASSWORD"'])
planoldpythontestsuite("ad_dc_ntvfs",
"samba.tests.blackbox.traffic_learner",
extra_args=['-U"$USERNAME%$PASSWORD"'])
plantestsuite_loadlist("samba4.ldap.python(ad_dc_ntvfs)", "ad_dc_ntvfs", [python, os.path.join(samba4srcdir, "dsdb/tests/python/ldap.py"), '$SERVER', '-U"$USERNAME%$PASSWORD"', '--workgroup=$DOMAIN', '$LOADLIST', '$LISTOPT']) plantestsuite_loadlist("samba4.ldap.python(ad_dc_ntvfs)", "ad_dc_ntvfs", [python, os.path.join(samba4srcdir, "dsdb/tests/python/ldap.py"), '$SERVER', '-U"$USERNAME%$PASSWORD"', '--workgroup=$DOMAIN', '$LOADLIST', '$LISTOPT'])
plantestsuite_loadlist("samba4.tokengroups.krb5.python(ad_dc_ntvfs)", "ad_dc_ntvfs:local", [python, os.path.join(samba4srcdir, "dsdb/tests/python/token_group.py"), '$SERVER', '-U"$USERNAME%$PASSWORD"', '--workgroup=$DOMAIN', '-k', 'yes', '$LOADLIST', '$LISTOPT']) plantestsuite_loadlist("samba4.tokengroups.krb5.python(ad_dc_ntvfs)", "ad_dc_ntvfs:local", [python, os.path.join(samba4srcdir, "dsdb/tests/python/token_group.py"), '$SERVER', '-U"$USERNAME%$PASSWORD"', '--workgroup=$DOMAIN', '-k', 'yes', '$LOADLIST', '$LISTOPT'])

View File

@ -0,0 +1,60 @@
{
"ngrams": {
"-\t-": {
"cldap:3": 1,
"ldap:3": 1
},
"-\tldap:3": {
"wait:0": 1
},
"wait:0\trpc_netlogon:29": {
"kerberos:": 1
},
"rpc_netlogon:29\tkerberos:": {
"ldap:3": 1
},
"cldap:3\twait:0": {
"rpc_netlogon:29": 1
},
"-\tcldap:3": {
"cldap:3": 1
},
"ldap:3\twait:0": {
"ldap:2": 1
},
"cldap:3\tcldap:3": {
"cldap:3": 1,
"wait:0": 1
},
"kerberos:\tldap:3": {
"-": 1
}
},
"conversation_rate": [
2,
0.12712717056274414
],
"dns": {
"1": 9,
"0": 9
},
"query_details": {
"rpc_netlogon:29": {
"-": 1
},
"cldap:3": {
"\t\t\tNetlogon\t\t\t": 3
},
"ldap:3": {
"\t\t\tsubschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities\t\t\t": 1,
"2\tDC,DC\t\tcn\t\t\t": 1
},
"ldap:2": {
"\t\t\t\t\t\t": 1
},
"kerberos:": {
"": 1
}
},
"cumulative_duration": 0.39243292808532715
}

50
testdata/traffic-sample-very-short.txt vendored Normal file
View File

@ -0,0 +1,50 @@
1487921562.592126000 11 3 1 dns 0 query
1487921562.592285000 11 1 4 dns 0 query
1487921562.592636000 11 4 1 dns 1 response
1487921562.592911000 11 1 3 dns 1 response
1487921562.593315000 06 3 5 1 ldap 3 searchRequest 2 DC,DC cn
1487921562.596247000 11 3 1 dns 0 query
1487921562.596362000 11 1 4 dns 0 query
1487921562.596697000 11 4 1 dns 1 response
1487921562.596921000 11 1 3 dns 1 response
1487921562.598308000 11 3 1 dns 0 query
1487921562.598414000 11 1 4 dns 0 query
1487921562.598729000 11 4 1 dns 1 response
1487921562.598963000 11 1 3 dns 1 response
1487921562.607624000 11 6 1 dns 0 query
1487921562.607956000 11 6 1 dns 0 query
1487921562.608009000 11 1 6 dns 1 response
1487921562.608232000 11 1 6 dns 1 response
1487921562.612424000 11 6 1 dns 0 query
1487921562.612648000 11 1 6 dns 1 response
1487921562.720442000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.720706000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.721004000 11 6 1 cldap 3 searchRequest Netlogon
1487921562.724801000 11 1 6 cldap 5 searchResDone
1487921562.728632000 11 1 6 cldap 5 searchResDone
1487921562.732508000 11 1 6 cldap 5 searchResDone
1487921562.748004000 06 3 1 5 ldap 5 searchResDone
1487921562.820387000 06 3 5 1 ldap 2 unbindRequest
1487921562.831445000 06 14 6 1 dcerpc 11 Bind
1487921562.831565000 06 14 1 6 dcerpc 12 Bind_ack
1487921562.831776000 06 14 6 1 epm 3 Map
1487921562.832483000 06 14 1 6 epm 3 Map
1487921562.833521000 06 15 6 1 dcerpc 11 Bind
1487921562.833775000 06 15 1 6 dcerpc 12 Bind_ack
1487921562.833955000 06 15 6 1 rpc_netlogon 4 NetrServerReqChallenge
1487921562.834039000 06 15 1 6 rpc_netlogon 4 NetrServerReqChallenge
1487921562.834325000 06 15 6 1 rpc_netlogon 26 NetrServerAuthenticate3
1487921562.834895000 06 15 1 6 rpc_netlogon 26 NetrServerAuthenticate3
1487921562.835515000 06 16 6 1 dcerpc 11 Bind
1487921562.836417000 06 16 1 6 dcerpc 12 Bind_ack
1487921562.836694000 06 16 6 1 rpc_netlogon 21 NetrLogonDummyRoutine1
1487921562.836917000 06 16 1 6 rpc_netlogon 21 NetrLogonDummyRoutine1
1487921562.852041000 06 14 6 1 epm 3 Map
1487921562.852687000 06 14 1 6 epm 3 Map
1487921562.876310000 06 16 6 1 rpc_netlogon 29 NetrLogonGetDomainInfo
1487921562.880868000 06 18 6 1 kerberos
1487921562.881074000 06 16 1 6 rpc_netlogon 29 NetrLogonGetDomainInfo
1487921562.884476000 06 19 6 1 ldap 3 searchRequest subschemaSubentry,dsServiceName,namingContexts,defaultNamingContext,schemaNamingContext,configurationNamingContext,rootDomainNamingContext,supportedControl,supportedLDAPVersion,supportedLDAPPolicies,supportedSASLMechanisms,dnsHostName,ldapServiceName,serverName,supportedCapabilities
1487921562.885803000 06 18 1 6 kerberos
1487921562.892086000 06 19 1 6 ldap 5 searchResDone
1487921562.916946000 06 20 6 1 smb 0x72 Negotiate Protocol (0x72)