Category:OWASP WSFuzzer Project

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Overview
WSFuzzer is a LGPL'd program, written in Python, that currently targets Web Services. In the current version HTTP based SOAP services are the main target. This tool was created based on, and to automate, some real-world manual SOAP pen testing work. This tool is NOT meant to be a replacement for solid manual human analysis. Please view WSFuzzer as a tool to augment analysis performed by competent and knowledgable professionals. Web Services are not trivial in nature so expertise in this area is a must for proper pen testing.

Goals

 * To automate some of the more intense SOAP fuzzing processes that would be quite time consuming if performed manually
 * To do attack vector generation in a dynamic and intelligent fashion based on the specific target
 * Providing its functionality/resulting data to other tools in a seamless fashion
 * To facilitate the repeatable use of known successful attack vectors, especially against specific targets
 * To be part of a solid web application pen testing toolkit
 * To be as easy to use within the spectrum of understanding, and working with, SOAP services

It is not the goal of WSFuzzer to replace human analysis. As a matter of fact, WSFuzzer does not currently do much analysis of the results gathered. The job of analysis is left to the analyst/engineer running a given pen test.

This tool is ultimately meant to augment a pen tester's job with respect to SOAP based web services.

Check out a video of WSFuzzer in action @ http://www.neurofuzz.com/modules/software/vidz.php

Current Version
1.9.5

Install
Pre-requisites:

Python 2.6/2.7 PyXML Java 1.6.X

Tar and Gzip are used in concert to create the wsfuzzer* "gzipped archives". Hence they have the .tar.gz extension. The install process is to simply:

1. extract the files from this tarball (archive) 2. alter the "JAVA_HOME" value in file "parseWsdl.sh" (parseWsdl.bat for windows) - this is the full path up to the java home (currently Java 1.6 is required)

So for example that value may look like this on a Mac:

JAVA_HOME="/System/Library/Frameworks/JavaVM.framework/Versions/1.6.0/Home"

To extract the program one can obviously use the tar and gzip commands separately. But an easier way takes into account that tar's -z option feeds the archive gzip after unpacking, Thus:

tar -xvzf wsfuzzer*.tar.gz

extracts all files from the gzipped archive and places them into a directory that reflects the version number. For example:

cd /to/location/of/tarball tar -xvzf wsfuzzer-1.9.4.tar.gz

extracts all files to a directory named:

version1.9.4

based on the location of the tarball. So if the tarball is in dir:

/opt/wsfuzzer

one would end up with:

/opt/wsfuzzer/version1.9.3/

Upon proper tarball extraction perform step 2 as listed above and the install is complete. You can move on to running the program.

Get the tarball from sourceforge: http://sourceforge.net/project/showfiles.php?group_id=155697


 * Code has been updated to be compatible with the 2.6/3.X families of Python. If you are running something older like Python2.4 then you will have to install some libraries...

Hashlib is one of those lib's that needs to get installed, find it here: http://code.krypto.org/python/hashlib/

Features

 * Pen tests an HTTP SOAP web service based on either valid WSDL, known good XML payload, or a valid endpoint & namespace.
 * It can try to intelligently detect WSDL for a given target.
 * Includes a simple TCP port scanner.
 * WSFuzzer has the ability to Fuzz methods with multiple parameters. There are 2 modes of attack/fuzzing: "individual" and "simultaneous". Each parameter is either handled as a unique entity (individual mode), and can either be attacked or left alone, or multiple parameters are attacked simultaneously (hence the name - simultaneous mode) with a given data set.
 * The fuzz generation (attack strings) consists of a combination of a dictionary file, some optional dynamic large injection patterns, and some optional method specific attacks including automated XXE and WSSE attack generation.
 * It intelligently records attack vectors that can cause XDoS conditions and then uses them based on your response to execute a XDoS attack.
 * The tool also provides the option of using some IDS Evasion techniques which makes for a powerful security infrastructure (IDS/IPS) testing experience.
 * A time measurement of each round trip between request and response is now provided to potentially aid in results analysis.
 * For any given program run, the generated attack vectors are saved out to an XML file. The XML file is named XXX and is located in the same directory where the results HTML file is saved.
 * Output includes CSV and PDF files
 * A previously generated XML file of attack vectors can be utilized instead of the dictionary/automated combo. This is for the sake of repeatability when the same vectors need to be used over and over again.

One source of the WSFuzzer feature set is our user community. So if you feel a feature would be useful, please submit it to us at: sourceforge

Dictionary file structure
As of version 1.9.4 the structure of the dictionary file has changed to that of:

vector:::type

A snippet from the included All_attack.txt file looks like this:

?x=>:::Meta-Character Injection ABCD|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|%8.8x|:::Meta-Character Injection /,%ENV,/:::OS Commanding &lt;!--#exec%20cmd=&quot;/bin/cat%20/etc/passwd&quot;--&gt;:::OS Commanding %3cscript%3ealert("XSS");%3c/script%3e:::XSS :::XSS 0 or 1=1:::SQL Injection (SQLi) ' or 0=0 --:::SQL Injection (SQLi) *(|(mail=*)):::LDAP Injection *(|(objectclass=*)):::LDAP Injection count(/child::node):::XPath Injection

Command line usage
Usage: python WSFuzzer.py [ -w wsdl_url | -e endpoint -n namespace | --xml |''' -h host | --conf | --bauser username --bapass password | --xsseuser username --xssepass password | --keyfile keyfile --certfile certfile | --proxy proxyserver --proxyport port | --attacks ]

-w WSDL_URL --- A FQDN WSDL URL - i.e. http://host/service/service.asmx?wsdl -e endpoint -n namespace --- -e and -n are used together -e is the web service endpoint --- i.e. WSDL URL -n is the web service namespace --- i.e. URI ** When using -e and -n you will have to manually establish the method to be attacked --xml --- A text file of the XML payload to be used against the target -h host --- A URL of the target host. This option will do some digging into the target URL, it will scrape for anything WSDL or DISCO related and construct"               a list of verified WSDL URL's     --conf file --- A file containing some config data so as to automate some of the" normally interactive parts of WSFuzzer --bauser username --bapass password --- these 2 optional arguments are used together whenever HTTP Basic Auth needs to be used --bauser is a Basic Auth username --bapass is a Basic Auth password to be used with the "bauser" username --xsseuser username --xssepass password --- these 2 optional arguments are used together whenever WS-Security Auth needs to be used --xsseuser is a WS-Security username --xssepass is a WS-Security password to be used with the "xsseuser" username --keyfile keyfile --certfile certfile --- these 2 optional arguments are used together whenever client-side certs need to be used --keyfile is the PEM formatted file that contains the respective private key to be used --certfile is the PEM formatted file that contains the X.509 certificate to be used with the "keyfile" --proxy server_info --proxyport port --- these 2 optional arguments are used together --proxy is a Proxy server's IP address or FQDN --proxyport is the number of the TCP port for the server identified in switch --proxy --attacks is the name of a XML attack vector file previously generated by WSFuzzer

Configuration File Examples
The basic story with the config files is that the more info you add in to them the less questions you will be asked by the program.

The following represents the possible values per option for proper use of the config files:

wsdl - full path to the WSDL resource, including protocol xml - full path to the file holding an XML payload endpoint - full URL representing the target endpoint namespace - the namespace for the target method - name of the target method parameters - comma separated list of parameter names, for example: param1, param2, param3 simultaneous - 'yes' host - full URL, if the protocol is not present "http" will be used uri - path to the resource soapaction - name of the action idsevasion - 'yes' or 'no' idsevasionopt - '0','1','2','3','4','5','6','7','8','9','10','11','12','13','14','R'   directory - the name of the directory you want to use for a given program run alternatehost - either the string representing the alternate host or 'no' attacks - full path to the XML file holding the attack vectors you want to use dictionary - full path to an attack dictionary automate - 'yes' or 'no' bauser - basic auth username bapass - basic auth password xsseuser - WS-Security username xssepass - WS-Security password keyfile - full path to the key file certfile - full path to the cert file proxy - full URL of the proxy server to be used proxyport - number of port to be used

The following represents the options that each mode will read in:

Mode 1 will read in: wsdl simultaneous bauser bapass xsseuser xssepass keyfile certfile proxy proxyport idsevasion idsevasionopt directory alternatehost attacks dictionary automate Mode 2 will read in: endpoint namespace method parameters simultaneous soapaction bauser bapass xsseuser xssepass keyfile certfile proxy proxyport idsevasion idsevasionopt directory alternatehost attacks dictionary automate Mode 3 will read in: xml host uri soapaction bauser bapass xsseuser xssepass keyfile certfile proxy proxyport idsevasion idsevasionopt directory alternatehost attacks dictionary automate

The structure of the files should resemble these examples:

# Mode 1 automates some parts of the -w switch Mode = 1 wsdl = http://target/resource.asmx?wsdl idsevasion = no   simultaneous = yes directory = directoryName dictionary = attack2.txt automate = no   alternatehost = no

# Mode 2 automates some of the endpoint (-e) and namespace (-n) options Mode = 2 endpoint = http://your.end.point namespace = the_namespace method = target_method parameters = param1, param2, param3 simultaneous = yes dictionary = dict.txt automate = no   idsevasion = yes idsevasionopt = 5 directory = directoryName

# Mode 3 automates some parts of the --xml switch Mode = 3 xml = payload.xml dictionary = dict.txt host = http://target:port automate = no   idsevasion = yes idsevasionopt = R   uri = /path/to/resource.jws simultaneous = yes directory = directoryName

Run-Time Examples
Here are examples of different types of runs:


 * python WSFuzzer --conf confmode3.txt
 * python WSFuzzer -w http://target/service/service.asmx?wsdl
 * python WSFuzzer -e http://target/service/service.asmx -n urn:service
 * python WSFuzzer --xml file.xml
 * python WSFuzzer -h http://target

Upon completion of a run the current output is based on a directory the prog will create. That dir is created within the root dir where the program is installed and run from. By default the pattern for dir creation is based on the string FuzzingResults-N. N is dynamically calculated based on existing directories fitting the pattern. So if you run the prog from "/opt/WSFuzzer" for instance you will end up with something like:


 * /opt/WSFuzzer/FuzzingResults-0
 * /opt/WSFuzzer/FuzzingResults-1
 * /opt/WSFuzzer/FuzzingResults-N
 * /opt/WSFuzzer/FuzzingResults-N

In each one of these directories there will be an index.html file and a dir called HeaderData.

index.html will give you an overview of the results as such:

Method 	Request Params 	       IDS evasion 	                Response 	Http Info 	Round Trip xpath 	{'parameters': '%00'} 	/WSDIGGeR_WS/WSDiggER_WS.AsMX 	Soap Fault 	HTTP Log 	276.2158 M   xpath 	{'parameters': 'TRUE'} 	/WSDIggER_WS/WSDIgGer_WS.AsMx 	Soap Fault 	HTTP Log 	2.88 S

In the HeaderData dir you will find files that hold a Request / Response pair for each of the attacks sent to the target. One file has one Request and one Response. In some cases there will be no response if the attack Request caused some sort of crash on the server (500 status response, etc). Each one of the links in the Http Info column will provide you a path into the respective file as per the rest of the data in that row.

In reference to the "Round Trip" values:

M = milliseconds S = seconds

Using a known good XML payload (the --xml switch)
This is a snippet from a run using the Static XML option (--xml)

python2.4 WSFuzzer.py --xml xpath.xml Running WSFuzzer 1.9, the latest version Local "All_attack.txt" data matches that on neurofuzz.com Local "dirs.txt" data matches that on neurofuzz.com Local "filetypes.txt" data matches that on neurofuzz.com If you would like to establish the directory name for the results then type it in now (leave blank for the default): xmltest Since you are using the static XML feature we need some data from you...   Host to attack (i.e. sec.neurofuzz.com): 192.168.1.207 URI to attack (i.e. /axis/EchoHeaders.jws): /WSDigger_WS/WSDigger_WS.asmx Unless some serious masking/spoofing is in place, it seems you are targeting a .Net host so you will need to use a SOAPAction header ...   Enter the SOAPAction value: http://foundstone.com/Stringproc/xpath Method: xpath Param discovered: query, of type: xsi:string Simultaneous Mode activated Input name of Fuzzing dictionary(full path): attack.txt Dictionary Chosen: attack.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: n   Parameter: query Would you like to fuzz this param: y   Fuzzing this param adding parameter Would you like to enable IDS evasion(y/n)? Answer: n   Not using IDS evasion Shall I begin Fuzzing(y/n)? Answer: y   Commencing the fuzz ....    Starting to fuzz method (xpath) Generated 4 parameter based Attack Strings ...    Fuzzing completed for method (xpath)

The following represents an example of the payload contained as the content of the xml file passed in via the --xml switch. In reference to the example above, the file xpath.xml has the following as its contents:

    WHATEVER  


 * This option (--xml) is ideal for the use of WSFuzzer when targeting .Net services/hosts. In order to use this option successfully you need to know/have the following in reference to your target:


 * A valid XML payload. All you need to do is use whatever method you'd like to generate a valid payload based on your target. As a pen tester this is usually no problem since you are working closely with the target's developers/engineers.
 * Proper host data in the form of host.domain or an IP address, i.e. sec.neurofuzz.com or 192.168.1.207
 * Proper resource data (URI), i.e. /WSDigger_WS/WSDigger_WS.asmx
 * If you are targeting a .Net service you will also need to know the value for a valid SOAPAction HTTP header, this could be the name of the method or a FQDN - it totally depends on how the target services were built. For instance in the example above the SOAPAction value is: http://foundstone.com/Stringproc/xpath

Individual Mode / No IDS Evasion
Here is a snippet from a run utilizing individual mode and no IDS Evasion:

WSFuzzer.py -w http://jboss_target.example.com/ws4ee/services/LoginService?wsdl Running WSFuzzer 1.9, the latest version Local "All_attack.txt" data matches that on neurofuzz.com Local "dirs.txt" data matches that on neurofuzz.com Local "filetypes.txt" data matches that on neurofuzz.com WSDL Discovered (http://jboss_target.example.com/ws4ee/services/LoginService?wsdl) If you would like to establish the directory name for the results then type it in now (leave blank for the default): mytest Method(0): authenticateUser Params: in0(string) in1(string) in2(string) Method(1): setToken Params: in0(string) Select the methods you want to Fuzz(ex: 0,1,2,3 or A for All) Methods: 0 Would you like to attack all the chosen params simultaneously? n   Method: authenticateUser Parameter: in0 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 1 Fuzzing using dictionary Input name of dictionary(full path): attack1.txt Dictionary Chosen: attack1.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: y   adding parameter Parameter: in1 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 0 Not fuzzing this param adding parameter Parameter: in2 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 1 Fuzzing using dictionary Input name of dictionary(full path): attack2.txt Dictionary Chosen: attack2.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: n   Would you like to enable IDS evasion(y/n)? Answer: n  Not using IDS evasion Shall I begin Fuzzing(y/n)? Answer: y   Commencing the fuzz ....    starting fuzzing method (authenticateUser) Generated 6101 Attack Strings ...   <<< Baseline XML Payload with Random data val's >>>     xdeiykUzTnXTlFPrEiyJvAszywDojsxbAQNDxVnysdjJrQKCYqGsrNeTQaHWfAZIuhcrohfygMilBDCTCJRGvplQi suDtTvYwFdbJxDSuvgnnUhzzXbsFrLQuTKfPPNTejarrVATMXUqD gGdVVAKWMmARMSBBlZhQdnBHzVVHGfgHwUoxFItflzKaTbxMNppRtWevzQxCJcXhdF</v3> </authenticateUser> </SOAP-ENV:Body> </SOAP-ENV:Envelope> <<<<<<<<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>>>>>>>>>>>>   Fuzzing completed for method (authenticateUser)

And here is a snippet from the results output of the run above:

Method 	       Request Params 	                           IDS Evasion 	Response   Http Info 	Round Trip authenticateUser 	{'in0': '/*', 'in1': None, 'in2': None}   None 	0 	   HTTP Log 	276.2158 M    authenticateUser 	{'in0': '\\00', 'in1': None, 'in2': None}  None 	0 	   HTTP Log 	2.88 S

Simultaneous Mode / No IDS Evasion
Here is a snippet from a run utilizing simultaneous mode and no IDS Evasion:

python WSFuzzer.py -w http://jboss_target.example.com/ws4ee/services/LoginService?wsdl Running WSFuzzer 1.9, the latest version Local "All_attack.txt" data matches that on neurofuzz.com Local "dirs.txt" data matches that on neurofuzz.com Local "filetypes.txt" data matches that on neurofuzz.com WSDL Discovered (http://jboss_target.example.com/ws4ee/services/LoginService?wsdl) If you would like to establish the directory name for the results then type it in now (leave blank for the default): mytest Method(0): authenticateUser Params: in0(string) in1(string) in2(string) Method(1): setToken Params: in0(string) Select the methods you want to Fuzz(ex: 0,1,2,3 or A for All) Methods: 0 Would you like to attack all the chosen params simultaneously? y  Input name of Fuzzing dictionary(full path): attack3.txt Dictionary Chosen: attack3.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: n   Method: authenticateUser Parameter: in0 Type: string Would you like to fuzz this param: y  Fuzzing using dictionary adding parameter Method: authenticateUser Parameter: in1 Type: string Would you like to fuzz this param: y  Fuzzing using dictionary adding parameter Method: authenticateUser Parameter: in2 Type: string Would you like to fuzz this param: y  Fuzzing using dictionary adding parameter Would you like to enable IDS evasion(y/n)? Answer: n  Not using IDS evasion Shall I begin Fuzzing(y/n)? Answer: y   Commencing the fuzz ....    starting fuzzing method (authenticateUser) <<< Baseline XML Payload with Random data val's >>> <?xml version="1.0" encoding="UTF-8"?> <SOAP-ENV:Envelope SOAP-ENV:encodingStyle="http://schemas.xmlsoap.org/soap/encoding/" xmlns:SOAP-ENC="http://schemas.xmlsoap.org/soap/encoding/" xmlns:xsi="http://www.w3.org/1999/XMLSchema-instance" xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/" xmlns:xsd="http://www.w3.org/1999/XMLSchema"> <SOAP-ENV:Body> <authenticateUser SOAP-ENC:root="1"> <v1 xsi:type="xsd:string">xdeiykUzTnXTlFPrEiyJvAszywDojsxbAQNDxVnysdjJrQKCYqGsrNeTQaHWfAZIuhcrohfygMilBDCTCJRGvplQi</v1> <v2 xsi:type="xsd:string">suDtTvYwFdbJxDSuvgnnUhzzXbsFrLQuTKfPPNTejarrVATMXUqD</v2> <v3 xsi:type="xsd:string">gGdVVAKWMmARMSBBlZhQdnBHzVVHGfgHwUoxFItflzKaTbxMNppRtWevzQxCJcXhdF</v3> </authenticateUser> </SOAP-ENV:Body> </SOAP-ENV:Envelope> <<<<<<<<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>>>>>>>>>>>>   Fuzzing completed for method (authenticateUser)

And here is a snippet from the results output of the run above:

Method 	       Request Params 	                                IDS Evasion 	Response 	Http Info 	Round Trip authenticateUser 	{'in0': '/*', 'in1': '/*', 'in2': '/*'} 	None 	       0 	        HTTP Log 	2.88 S    authenticateUser 	{'in0': '\\00', 'in1': '\\00', 'in2': '\\00'} 	None 	        0 	        HTTP Log 	276.2158 M

Discovery / IDS Evasion
Now here is a run utilizing one of the IDS Evasion techniques:

python WSFuzzer.py -h http://jboss_target.example.com Running WSFuzzer 1.9 If you would like to establish the directory name for the results then type it in now (leave blank for the default): mytest 0) Basic Discovery (faster but less accurate)  1) Advanced Discovery (slower and more intrusive but more thorough and accurate) 2) Advanced Discovery (like #1) with port scanning first   Probe Type: 2   Beginning TCP port for scan: 1   Ending TCP port for scan: 9090    Open TCP ports discovered for target localhost:   [0] 80   [1] 8080   [2] 8088   Pick one via numeric index (i.e. 1 for [1]): 0    Would you like to Spider the target on top of the advanced probe: y    Checking 10077696 maximum number of dir combo's based on a depth of 7    Discovered WSDL links:   0 => http://jboss_target.example.com/ws4ee/services/ERSService?wsdl   1 => http://jboss_target.example.com/ws4ee/services/AuditService?wsdl   2 => http://jboss_target.example.com/ws4ee/services/SyncService?wsdl   3 => http://jboss_target.example.com/ws4ee/services/ThumbnailService?wsdl   4 => http://jboss_target.example.com/ws4ee/services/OfficeDataService?wsdl   5 => http://jboss_target.example.com/ws4ee/services/TestService?wsdl   6 => http://jboss_target.example.com/ws4ee/services/LogsService?wsdl 7 => http://jboss_target.example.com/ws4ee/services/LoginService?wsdl 8 => http://jboss_target.example.com/ws4ee/services/AdminService?wsdl 9 => http://jboss_target.example.com/ws4ee/services/VersionService?wsdl 10 => http://jboss_target.example.com/ws4ee/services/UserService?wsdl 11 => http://jboss_target.example.com/ws4ee/services/IKSService?wsdl 12 => http://jboss_target.example.com/ws4ee/services/ExcelService?wsdl 13 => http://jboss_target.example.com/ws4ee/services/AdminService2?wsdl 14 => http://jboss_target.example.com/ws4ee/services/DirService?wsdl Please choose ONE link, via numeric index, from the above list 7   Method(0): authenticateUser Params: in0(string) in1(string) in2(string) Method(1): setToken Params: in0(string) Select the methods you want to Fuzz(ex: 0,1,2,3 or A for All) Methods: 0 Would you like to attack all the chosen params simultaneously? n  Method: authenticateUser Parameter: in0 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 1 Fuzzing using dictionary Input name of dictionary(full path): attack1.txt Dictionary Chosen: attack1.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: y   adding parameter Parameter: in1 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 0 Not fuzzing this param adding parameter Parameter: in2 Type: string Choose fuzz type(ex. 1) 0) Do not fuzz this parameter  1) Dictionary (One entry per line) FuzzType: 1 Fuzzing using dictionary Input name of dictionary(full path): attack2.txt Dictionary Chosen: attack2.txt Would you like to enable automated fuzzing to augment what you have already chosen? This option generates a lot of traffic, mostly with a bad attitude &-> Answer: n  adding parameter Would you like to enable IDS evasion(y/n)? Answer: y  Choose an option for IDS Evasion. 0) null method processing - ** Windows targets only  1) random URI (non-UTF8) encoding 2) directory self-reference (/./)  3) premature URL ending 4) prepend long random string  5) fake parameter 6) TAB as request spacer  7) random case sensitivity - ** Windows targets only 8) directory separator (\) - ** Windows targets only  10) URI (non-UTF8) encoding R) choose an option at random  Option: 1    Shall I begin Fuzzing(y/n)?   Answer: y    Commencing the fuzz ....    starting fuzzing method (authenticateUser)    Generated 6101 Attack Strings ...    <<< Baseline XML Payload with Random data val's >>>    <?xml version="1.0" encoding="UTF-8"?>   <SOAP-ENV:Envelope SOAP-ENV:encodingStyle="http://schemas.xmlsoap.org/soap/encoding/"    xmlns:SOAP-ENC="http://schemas.xmlsoap.org/soap/encoding/"   xmlns:xsi="http://www.w3.org/1999/XMLSchema-instance" xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/"   xmlns:xsd="http://www.w3.org/1999/XMLSchema">   <SOAP-ENV:Body>   <authenticateUser SOAP-ENC:root="1">   <v1 xsi:type="xsd:string">xdeiykUzTnXTlFPrEiyJvAszywDojsxbAQNDxVnysdjJrQKCYqGsrNeTQaHWfAZIuhcrohfygMilBDCTCJRGvplQi</v1>   <v2 xsi:type="xsd:string">suDtTvYwFdbJxDSuvgnnUhzzXbsFrLQuTKfPPNTejarrVATMXUqD</v2>   <v3 xsi:type="xsd:string">gGdVVAKWMmARMSBBlZhQdnBHzVVHGfgHwUoxFItflzKaTbxMNppRtWevzQxCJcXhdF</v3> </authenticateUser> </SOAP-ENV:Body> </SOAP-ENV:Envelope> <<<<<<<<<<<<<<<<<<<<<<<<>>>>>>>>>>>>>>>>>>>>>>>>>>>   Fuzzing completed for method (authenticateUser)

And here is a snippet from the results output of the run above:

Method 	       Request Params 	                          IDS Evasion                                                       Response ...     authenticateUser 	{'in0': '/*', 'in1': None, 'in2': None}   /L%75g%68%53e%72vic%65/%41o%74hS%65%72vic%65S%65rv%69%63%65 	    0 ... authenticateUser 	{'in0': '\\00', 'in1': None, 'in2': None} /L%75%74i%53%65%72v%69%63%65/%41o%74%68Servi%63%65%53%65rv%69%63e 0 ...

IDS Evasion
The following options are currently available for purposes of IDS Evasion:

0) null method processing - ** Windows targets only 1) random URI (non-UTF8) encoding 2) directory self-reference (/./) 3) premature URL ending 4) prepend long random string 5) fake parameter 6) TAB as request spacer 7) random case sensitivity - ** Windows targets only 8) directory separator (\) - ** Windows targets only 10) URI (non-UTF8) encoding 11) double percent hex encoding - ** Windows targets only 12) double nibble hex encoding - ** Windows targets only 13) first nibble hex encoding - ** Windows targets only 14) second nibble hex encoding - ** Windows targets only R) choose an option at random

Working with the following target URI: "/WSDigger_WS/WSDigger_WS.asmx" here is an idea of what the URI data would look like when IDS Evasion is in use for the HTTP POST's:

* null method processing: %00%20/WSDigger_WS/WSDigger_WS.asmx * random URI (non-UTF8): /%57SDi%67g%65r%5fW%53/%57%53D%69gge%72_%57%53.asm%78 * directory self-reference (/./): /./WSDigger_WS/./WSDigger_WS.asmx * premature URL ending: /%20HTTP/1.1%0D%0A%0D%0AAccept%3A%20PTdOoYWl2A/../../WSDigger_WS/WSDigger_WS.asmx * prepend long random string: /UCD8SiuHKgBhOrUmmdRtn15khQD17fWScHMz6Wa3x65ihPOzBPCkj2M3e4Lr0lwAYgx0zrDAh7ZOUlAqE1vHpqvIFKj2hHQjUS4VdyUyOewrIDnEsaX5 WrpOYIphWuzZIT3J1nezbYxjwvg0R5u6QVbBJFiafkY2t5mIPexZd9Zwq9f9Nu3lHRJzRauoDP2VpewGimw9TVrcynp0NJFCEefV6ETCMbhdn9fUPC3dYN8 MyubOeLQqOMWDKI4y35prsntMfGX2WWbRFii912f75zVuaYDOR5CxVopXT6bU7eDbCea8YSAZAWxdt0kuGtEmFbH46WXl6cInovsY3nLmTgZ77XX 4JncWWatypv34az9iuMmr0GqyCgOuxLIW0600zGhTlAuZYf3I6rs0Lm4NHaEmLi7ZNdPywNV0IUs2Wwlu2EsbHcTXnNbZ00Za2ixKuIJGqVKTrgS7LhfP5e 16rR2D9mvBWkxVXIHhj30iniGoHhRl1XPs2mnO0ROb6CS0Xy3Nquzv/../WSDigger_WS/WSDigger_WS.asmx * fake parameter: /eLCk3rV3v1.html%3fyW0TziI2SP=/..//WSDigger_WS/WSDigger_WS.asmx * TAB as request spacer: /WSDigger_WS/WSDigger_WS.asmx * random case sensitivity: /WSDiggER_WS/WSDIgGER_WS.AsmX * directory separator (\): /WSDigger_WS\WSDigger_WS.asmx * URI (non-UTF8): /%57%53%44%69%67%67%65%72%5f%57%53/%57%53%44%69%67%67%65%72%5f%57%53%2e%61%73%6d%78 * double percent hex encoding: /%2557%2553%2544%2569%2567%2567%2565%2572%255f%2557%2553%2557%2553%2544%2569%2567%2567%2565%2572%255f%2557%2553%252e%2561%2573%256d%2578 * double nibble hex encoding: /%%35%37%%35%33%%34%34%%36%39%%36%37%%36%37%%36%35%%37%32%%35%66%%35%37%%35%33/%%35%37%%35%33%%34%34 %%36%39%%36%37%%36%37%%36%35%%37%32%%35%66%%35%37%%35%33%%32%65%%36%31%%37%33%%36%64%%37%38    * first nibble hex encoding: /%%357%%353%%344%%369%%367%%367%%365%%372%%35f%%357%%353/%%357%%353%%344%%369%%367%%367%%365%%372%%35f %%357%%353%%32e%%361%%373%%36d%%378 * second nibble hex encoding: /%5%37%5%33%4%34%6%39%6%37%6%37%6%35%7%32%5%66%5%37%5%33/%5%37%5%33%4%34%6%39%6%37%6%37%6%35%7%32%5%66 %5%37%5%33%2%65%6%31%7%33%6%64%7%38

Future Development
‡ More types of dynamic and intelligent XML content based attacks ‡ Further development of attack vectors for: o	WS-Security o	SAML o	XML Security (Digital Signatures, XML Encryption, etc) ‡ Different results output formats (possibly AVDL, NBE, etc)

Known Limitations/Issues
‡ We have gotten reports from a few users stating that the automated fuzzing is causing client side memory errors. Admittedly the automated fuzzing generates a lot of data and is intense :-) But that is one of the MO's of attacks so this is not accidental. As of version 1.7 we have toned down these type of attacks a bit and it seems to be playing nicer. So keep us posted on these types of issues but remember that the point with some of these attack vectors is to break the rules and force anomalies in order to see how the server side target holds up. In other words dont write us complaining about the fact that the tool is generating and sending bad XML, yes that is one of the things this tool purposely does. ‡ There is no GUI - Not quite sure that is entirely a limitation.

Feedback and Participation
We hope you find the OWASP WSFuzzer Project useful. Please contribute to the Project by volunteering for one of the Tasks, sending your comments, questions, and suggestions to owasp@owasp.org. To join the OWASP WSFuzzer Project mailing list or view the archives, please visit the subscription page.

WSFuzzer is intended to benefit all of us in this application security field. It is entirely open source and to keep this tool as a useful player in a pen testers toolkit the project can use help in the areas of:

* Python coding * regular testing of the tool * web services security expertise * plain old feedback

If one person has even 2 of these 3 qualifications then that person would be an ideal addition to this project. If you are interested drop a note to wsfuzzer [at] neurofuzz dot com. Additionally any feedback is useful since the SOAP and Web Services space is so wide in scope.

Project Contributors
Current software vision/development/engineering for WSFuzzer is performed by: Andres Andreu <andres [at] neurofuzz dot com> Cosmin Banciu <ccbanciu [at] gmail dot com>  QA testing services performed by:  Shelly Saunders <shelly  [at] poppywood dot eu> Cynthia Gonzalez <cynth dot gonzalez [at] gmail dot com> Christopher Elias <chris dot ec dot pr [at] gmail dot com>

Project Sponsors
neuroFuzz, LLC

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