Forensic Investigation: Windows Registry Analysis

In this article, we will learn how we can use RegRipper to analyze the windows registry in the forensic investigation environment.

Table of Content

Introduction to RegRipper

Creating a Registry Hives

SAM Hive

  • Analyzing Log: SAM
  • Analyzing Report: SAM

System Hive

  • Analyzing Log: System
  • Analyzing Report: System

Software Hive

  • Analyzing Log: Software
  • Analyzing Report: Software

Security Hive

  • Analyzing Log: Security
  • Analyzing Report: Security


Let’s begin the Forensic Investigation!!

Introduction to Regripper

RegRipper is an open-source tool, written in Perl. To extracting and parsing information like [keys, values, data] from the Registry and presenting it for analysis.

Its GUI version allows the analyst to select a hive to parse, an output file for the results. It also includes a command-line (CLI) tool called rip.

Rip can be pointed against a hive and can run either a profile (a list of plugins) or an individual plugin against that hive, with the results being sent to STDOUT.

Plugins are extremely valuable in the sense that they can be written to parse data in a manner that is useful to individual analysts.

To learn more about RegRipper click here.

We can download RegRipper for windows from here.

Creating a Registry Hives

A hive is a logical group of keys, subkeys, and values in the registry that has a set of supporting files loaded into memory when the OS is started or user login.

Each time a new user logs on a computer, a new hive file is created for that user with a separate file for the user profile hive.

A user’s hive contains specific registry information about user’s application settings, desktop, environment, network connections, and printers. User profile hives are located under the HKEY_USERS key.

We can learn more about Registry Hives from here.

Use these commands to save a copy of these Registry Hives [SAM, System, Software, and Security].

After saving all these Hive files, we can launch the RegRipper software.

In the Hive file tab, we need to select the location where we saved our Registry hive file. In the Report file tab, select that location where we want our report and log file both saved. Then click on a rip button to get the report and log file.

Now let us learn about all this file information.

SAM Hive

SAM stands for the Security Account Manager is a database file in windows that stores user’s information. The user passwords are stored in a hashed format in a Registry hive either as an LM hash or as an NTLM hash. This file can be found in “%SystemRoot%/system32/config/SAM” and is mounted on HKLM/SAM.

In an attempt to improve the security of the SAM database against offline software cracking, Microsoft introduced the SYSKEY function in Windows NT 4.0. When SYSKEY is enabled, the on-disk copy of the SAM file is partially encrypted, so that the password hash values for all local accounts stored in the SAM are encrypted with a key.

Now, open RegRipper and select the location of the Hive file and Report file. Then click on the Rip! Button to start the Investigation process.

After some time, it will showcase the message on the screen that our work for this investigation process is completed with zero plugins completed with errors.

It will create two files one with logs of the investigation and Second with a Report of the investigation.

Analyzing Log: SAM

Now check the log file with this command.

It will only tell about the environment of this hive file.

Analyzing Report: SAM

Secondly now its Report time. we can access this file with the following commands.

As we can see in the below screenshot it will tell about SAM version and User information.

Now, as we can see the main user account got spotted with its major details like.

Next, we have spotted Group Membership Information. With its group name Guests and its details.

Some more group membership information, the group’s name like Users, System Managed Accounts Group, and Administrators. Their details revel Lastwrite, Group Comment, and Its Users.

Lastly, RDP and some Analysis tips which would be handy for us in the Investigation.

System Hive

The system hive file consists of all basic information regarding the system information. Now, repeat the same steps for RegRipper and select the location of the Hive file and Report file. Then click on the Rip! Button to start the Investigation process.

After some time, it will showcase the message on the screen that our work for this investigation process is completed with zero plugins completed with errors. As we mentioned earlier it will create two files: Log and Report.

Analyzing Log: System

The first file is the log file regarding gathering information from that directory. After seeing the logs regarding system information.

Analyzing Report: System

we have opened its report with these commands.

The below screenshot tells about all the software installed with their default directory along with its path.

After that, we found out control set backups details in the victim’s system. Along with temp file details.

Now, this result is showing us about the HKLM [ HKEY_LOCAL_MACHINE] user’s BAM. It is a user-specific application.

Now it shows, Some device details, Computer name on diff-diff instances and crash control information.

Now the network media streaming devices connected with the system. In our case, it is from a Sony corporation. We can get along some interesting details with its hardware ID. It also gets some details regarding the connected USB devices no matter their currently connected or not.

After this, it will cover the hardware details along with NTFS disable the last access update. Like, ControlSet001\Control\Session Manager\Environment, Hardware details.

After this IP address and Domain name details with Hint. Analysis Tips and Mounted devices.

Now Finally in the System file, we got details regarding mounted devices details. It gets all details whether they are currently mounted or not.

Software Hive

Software Hive file consists, all the information regarding the software installed in this system.

Now, follow the previous steps for RegRipper and select the location of the Hive file and Report file. Then click on the Rip! Button to start the Investigation process.

After some time, it will showcase the message on the screen that our work for this investigation process is completed with zero plugins completed with errors.

Analyzing Log: Software

As usual, we opened the logfile first to check its log to understand through which file it is detecting to create an Investigation report for this file. Now run this command to view this file.

Analyzing Report: Software

Now we need to view the report file of the software hive file. So, run this command to get this file.

In this report, the first page shows details regarding AppInit DLLs values. AppInit DLLs is a mechanism that allows an arbitrary list of DLLs to be loaded into each user-mode process on the system.

The next page shows us the details regarding application details and the App Paths subkeys.

After this, it will showcase all the drivers regarding Input and output devices installed in the victim’s system. It will show us Bluetooth driver details and the system doesn’t have a webcam in the system.

Last page of this report regarding the CLSID key. Where CLSID is a globally unique identifier that identifies a COM class object. If your server or container allows linking to its embedded objects, you need to register a CLSID for each supported class of objects.

The CLSID key contains information used by the default COM handler to return information about a class when it is running. The CLSID is a 128-bit number, in hex, within a pair of curly braces.

Security Hive

Security hive helps us to understand the security measures of the victim’s system in the Forensic Investigation process.

Now, follow the previous steps for RegRipper and select the location of the Hive file and Report file. Then click on the Rip! Button to start the Investigation process.

After some time, it will showcase the message on the screen that our work for this investigation process is completed with zero plugins completed with errors.

Analyzing Log: Security

Now we checked its log file to deeply understand our Investigation report. Run these commands to view the log file in the command prompt.

Analyzing Report: Security

To view, the security hive file report follows this command.

This report page is all about the security hive file audit policy. An audit policy specifies account limits of one or multiple resources for a group of users.

This contains guidelines that establish policy limitations and workflows for processing breaches after they occur.

Where N means No audit, S means Success, and F means failure.


The Windows Registry is a hierarchical database that stores low-level settings for the operating system of Microsoft Windows and for programs choosing to use the registry. The register also offers access to counters for results in profiling systems. In other terms, on all models of Microsoft Windows operating systems, the registry or Windows registry contains information, settings, options, and other values for programs and hardware installed.

These details can be extracted with RegRipper to get a better result in the Forensic Investigation.

Author: Shubham Sharma is a Pentester and Cybersecurity Researcher, Contact Linkedin and twitter.

Comprehensive Guide on Unrestricted File Upload

A dynamic-web application, somewhere or the other allow its users to upload a file, whether its an image, a resume, a song, or anything specific. But what, if the application does not validate these uploaded files and pass them to the server directly?

Today, in this article, we’ll learn how such invalidations to the user-input and server mismanagement, opens up the gates for the attackers to host malicious content, over from the Unrestricted File Upload functionality in order to drop down the web-applications.

Table of Content

  • Introduction to Unrestricted File Upload
  • Impact of Unrestricted File Upload
  • File Upload Exploitation
    • Basic File Upload
    • Content-Type Restriction
    • Double Extension File Upload
    • Image Size Validation Bypass
    • Blacklisted Extension File Upload
  • How to mitigate?

Introduction to Unrestricted File Upload

“Upload Here” or “Drag Your File To Upload” you might have seen these two phrases almost everywhere, whether you are setting up your profile picture or you are simply applying for a job.

Developers scripts up File Upload HTML forms, which thus allows its users to upload files over onto the web-server.  However, this ease might bring up the danger, if he does not validate what files are being uploaded.

File upload vulnerability is one of the major problems within web-based applications. In many web servers, this vulnerability depends entirely on purpose, that allows an attacker to upload a file with malicious codes in it, that thus could be executed on the server.

Impact of Unrestricted File Upload

The consequences of this file upload vulnerability vary with every different web-application, as it depends on how the uploaded file is processed by the application or where it is stored.

Therefore, over from this vulnerability, the attacker is thus able to:

  • Take over the victim’s complete system with server-side attacks.
  • Injects files with malicious paths which can thus overwrite existing critical files as he can include .htaccessfile to execute specific scripts.
  • Reveal internal & sensitive information about the webserver.
  • Overload the file system or the database.
  • Inject phishing pages in order to simply deface the web-application.

However, this file upload vulnerability has thus been reported with a CVSS Score of “7.6” with High Severity under:

  • CWE-434: Unrestricted Upload of File with Dangerous Type

So, I guess, you are now aware of the concept of file upload and why it occurs and even the vulnerable consequences that the developer might face if the validations are not implemented properly. Thus, let’s try to dig deeper and learn how to exploit this File Upload vulnerability in all the major ways we can.

For this section, we have developed a basic web-application with some PHP scripts which is thus suffering from File Upload vulnerability.

Lets Start !!

Basic File upload

There are times when the developers are not aware of the consequences of the File Upload vulnerability and thus they write up the basic PHP scripts with ease to complete up their tasks. But this leniency opens up the gates to major sections.

Let’s check out the script which accepts the uploaded files over from the basic File upload HTML form on the webpage.

From the above code snippet, you can see that the developer hadn’t implemented any input validation condition i.e. the server won’t check for the file extension or the contenttype or anything specific arguments and simply accepts whatever we upload.

So let’s try to exploit this above web-application, by creating up a php backdoor using up our best msfvenom one-liner as

Copy and paste the highlighted code in your text editor and save as with PHP extension, here I did it as “Reverse.php” on the desktop.

Now, back into the application, click on Browse tag and opt Reverse.php over from the desktop.

So, let’s hit the upload button which will thus upload our file on the web-server.

From the above image, you can see that our file has been successfully uploaded. Thus we can check the same by clicking over at the “here” text.

But wait ✋, before hitting the “here” text let’s load up our Metasploit framework and start the multi handler with

Now, as we hit the here text, we’ll get our meterpreter session and we have got the victim’s server.

Content-Type Restriction

Until till now, we were only focusing on the fact that if the developer does not validate the things up, then only the web-application is vulnerable. But what, if he implements the validations whether they are basic or the major ones, will it still suffer from the File Upload vulnerability?

Let’s unlock this question too.

Here, back into our vulnerable web-application, let’s try to upload our Reverse.php file again.

Oops!! This time we faced up a Warning as it only accepts “PNG” files.

But why this all happened?  let’s get one step back and upload Reverse.php again, this time turn your burpsuite “ON” and capture the ongoing HTTP  Request.

From the below image, into my burpsuite monitor, you can see that the content-type is here as  “application/x-php”.

So what this content-type is?

“Content-Type” entity in the header indicates the internal media type of the message content.

Sometimes web applications use this parameter in order to recognize a file as a valid one. For instance, they only accept the files with the “Content-Type” of “text/plain”.

So it might possible that the developer uses this thing to validate his application.

Let’s try to bypass this protection by changing this contenttype parameter with “image/png” in the request header.

Hit the Forward button and check its response !!

From the above image, you can see that we’ve successfully bypassed this security. Again repeat the same process to run the multi handler at the background before clicking the “here”  text.

Great !! We ‘re back into the victim’s server.

Let’s check out its backend code in order to be more precise with why this all happened.

As guessed earlier, the developer might have used the content-type parameter to be a part of his validation process. Thus here, he validates the uploading to be not acceptable when the $igcontent value is not equal to “image/png”.

Double Extension File Upload

While going into the further section, when tried again by manipulating the content-type in the Request header as with of “image/png”, we got failed this time.


From the below image, you can see that the application halt us back on the screen with an error to upload a “PNG” file.

So, this might all happened because the application would be checking the file extension or it is only allowing files with “.png” extension to be uploaded over on the webserver and restricts other files as the error speaks out !!

Let’s check out the developer’s code here as:

Here, he sets up three new variables:

  1. “$igallowed” which contains up an array for the extension “png” e. the webserver will accept only that file which has .png at the end.
  2. Now over in the next variable $igsplit he used explode() function with a reference to “.”, thus the PHP interpreter will break up the complete filename as it encounters with over a dot “.”
  3. In the third variable over in the $igExtension, he is using the end() function for the value of $igsplit, which will thus contain up the end value of the filename.

For example:

Say we upload a file as “Reverse.php.png”, now first the $igsplit explodes up the file as it encounters with a dot i.e. the file is now in three parts as [Reverse] [php] [png]. Thus now $igExtension will take the end value of the filename i.e. [png].

  1. Now, he even placed up an if condition that will check for the content-type value and compare it with “image/png” and checks for png in the $igExtension and the $igallowed If any of the three conditions is mismanaged, thus it will drop out an error, else it will pass it.

Many techniques may help us to bypass this restriction, but the most common and most preferred way is implementing “Double Extension” which thus hides up the real nature of a file by inserting multiple extensions with a filename which creates confusion for security parameters.

For example, Reverse.php.png look like a png image which is a data, not an application but when the file is uploaded with the double extension it will execute a php file which is an application.

Let’s check out how!!

Here, I’ve renamed the previous file i.e. Reverse.php with “Reverse.php.png”.

From the below image, you can see that, when I clicked over at the “Upload” button, I was presented with a success window as

Great !! We’ve again bypassed this file extension security. Turn you Metasploit Framework back as we did earlier and then hit the here text in order to capture up the meterpreter session.

Wonder why this all happened?

This occurs due to one of the major reason – Server Misconfiguration

The web-server might be misconfigured with the following insecure configuration, which thus enables up the double-extension and makes the web-application vulnerable to double extension attacks.


In order to make a double extension attack possible,“$” should be removed from the end of the lines from the secured configuration using

Image Size Validation Bypass

You might have seen applications which restrict over at the file size, i.e. they do not allow a file to be uploaded over a specific size. This validation can simply be bypassed by uploading the smallest sized payload.

So in our case, we weren’t able to upload Reverse.php as it was about of size more than 3Kb, which thus didn’t satisfy the developer’s condition. Let’s check out the backend code over for it

Here, he used a new variable as $igdetails which is further calling up a php function i.e. getimagesize(). Therefore this predefined function is basically used to detect image files, which initially reads up the file and return the size of the image if the genuine image is uploaded else in case an invalid file is there, then getimagesize() fails. Further, in the section, he even used another variable as $igallowed which will thus only accepts the “gif” images.

So let’s try to call, one of the smallest payloads that is simple-backdoor.php from the webshells directory and paste it over on our Desktop.

Now, its time to set double extension over it, this time we’ll be making it into a gif.

Wait!! Before uploading this file, we need to set one more thing i.e. we need to add a Magic Number for GIF images, such that if the server doesn’t check up the extension and instead checked the header of the file, we won’t get caught. So in the case of “gif”, the magic number is “GIF89” or “GIF89a”, we can use either of the two.

Time to upload!!

From the below image, you can see that we have successfully uploaded our file over onto the web-server.

Hit the “here” text and check what we could grab over with it.

Great!! We have successfully bypassed this security too. Now, let’s try to grab some sensitive content.

Blacklisted Extension File Upload

So, uptill now we succeed just because the developer had validated everything, but he didn’t validate the php file, say with a not allowed condition or with any specific argument.

But here, this time we were encountered with the same, he blacklisted everything, say “php or Php extensions”, he did whatever he could.

But whenever there is a blacklist implemented for anything, it thus opens up the gates to other things too as – say if the developer backlist .php, thus here we could upload.PHP or.Php5 or anything specific.

Similar here, when we tried to bypass the file upload section with every possible method either its content type or double extension we got failed every time and we got the reply as

Thus further, I tried to do that same by renaming the file from “Reverse.php” to “Reverse.PHP”

And as I hit the Upload button I got success!!

But wait, let’ check whether the file was working or not, as I clicked over at the “here” text, and I was redirected to the new page but my file didn’t execute.

So why this all happened? We’ve bypassed the security, it should work.

This happened because the target’s web-server was not configured to execute files with.PHP extensions. i.e. we’ve bypassed the web-applications security but the server was not able to execute files other than .php extension.

So, in order to execute files with our desired extension, we need to upload an “htaccess” file i.e. a file with

Save the above content in a file and name it with “.htaccess”.

But, before uploading our file over onto the server, the server should accept and allow .htaccess files into the directory. Which thus can be turned “On” by setting up Allow Override to All from None.

Note: Many web-applications sets AllowOverride to “All” for some of their specific purposes.

Let’s change it over in our webserver at

Change it to all in the /var/www/ directory

Now restart the apache server with –

Back into our web-application, let’s try to upload our “.htaccess” file.

Great!! And with the successful uploading, let’s now try to upload our payload file over it there again.

Hit the upload button, but this time before clicking over at the “here” text, let’s set up our Metasploit framework again as we did earlier.

Cool!! From the below image, you can see that we’ve successfully bypassed this blacklisted validation too and we are back with the new meterpreter session.

How to Mitigate?

  • Rather than a blacklist, the developer should implement a set of acceptable files i.e. a whitelist over in his scripts.
  • The developer should allow specific file extensions.
  • Only allow authorized and authenticated users can use the feature to upload files.
  • Never display up the path of the uploaded file, if the review of the file is required then initially the file should be stored into the temp. directory with the least privileges.
  • Not even the web-application, the server should be patched-up properly i.e. it should not allow double extensions and the AllowOverride should be set to “None”, if not required.

Author: Chiragh Arora is a passionate Researcher and Technical Writer at Hacking Articles. He is a hacking enthusiast. Contact here

Penetration Testing on PostgreSQL (5432)

In this post, we will demonstrate how to set-up our own Vulnerable PostgreSQL for penetration testing on Ubuntu 20.04 and How to conduct PostgreSQL penetration testing.

Table of Content


PostgreSQL Setup on Ubuntu 20.04

PostgreSQL Penetration Testing

Scanning: Nmap

Brute force: Hydra

Access Postgres Shell

Exploiting: Metasploit

  • Module 1: Postgres Readfile
  • Module 2: Banner Grabbing for Postgres_sql
  • Module 3: Dumping Password Hashes
  • Module 4: Pwn Postgres Shell


Target:  Ubuntu

Attacker: Kali Linux

PostgreSQL Setup on Ubuntu 20.04

PostgreSQL is an open-source and advanced object-oriented relational database which is also known as Postgres. It is a powerful high-performance database management system released under a flexible BSD-style license.

In order to configure PostgreSQL in your Ubuntu platform, there are some prerequisites required for installation.

  • Ubuntu 20.04
  • Root Privileges

Install PostgreSQL and All Dependencies

PostgreSQL is available in the Ubuntu repository. So you just need to install them with the apt command.

on the time of installation, a prompt will display on your system that will ask you to confirm the installation process that either you want to continue or not. You need to press ‘y’ to continue the installation.

Once the installation is completed, start the PostgreSQL service and add it to the system boot by entering following command

Set PostgreSQL user Password

You can create the user password for PostgreSQL. Using the following command, you can change the default user password for PostgreSQL. During this process a prompt display on your system that will ask you to enter the new password. After that, a confirmation will be displayed ‘password updated successfully’. And then next, Now you will log in to the database as a user or working shell using the following command:

Create a database and user roles

You can create new databases and users using the PostgreSQL shell as follows:

Enter the following command to list the databases:

PostgreSQL by default listens at Local Interface which is But, for the remote access, you need to some changes in the configuration file. To Access the configuration file you will use the following command:

under the connection settings, you will set #listen_addresses= ‘*’

Now you will restart the PostgreSQL service by entering the following command

Let’s start Pentesting PostgreSQL

In this section, you will be learning how to compromise Databases credentials using different techniques.

Let’s fire up the Attacking machine kali-Linux


By-default PostgreSQL service is running on the port no. 5432, with the help of NMAP, let’s identify the state of Port.

As you can see, it has shown Open state for PostgreSQL at port 5432.

Password Cracking

Hydra is a parallelized login cracker which supports numerous protocols to attack. It is very fast and flexible, and new modules are easy to add. This tool makes it possible for researchers and security consultants to show how easy it would be to gain unauthorized access to a system remotely.

Let’s brute-force the target perform this attack you should go with the following command where -L option enables dictionary for username parameter and -P options enables dictionary for the password list.

As above you can see we have successfully dumped the credentials you can use these credentials in gaining access on the database.

Connect to Database Remotely

Kali Linux by default have the psql utility which allows you to authenticate with PostgreSQL database if the username and the password are already known.

As we have already right credentials of the database


As we know Metasploit comes preinstalled with Kali Linux, so our first step is to get to the Metasploit console.

Module 1: Postgres Readfile

The postgres_readfile module, when provided with credentials (e.g. superuser account) for a PostgreSQL server, will read and display files of your choosing on the server.

Module 2: Banner Grabbing for Postgres_sql

The postgres_sql module, when provided with valid credentials for a PostgreSQL server, will perform queries of your choosing and return the results.

Module 3: Dumping Password Hashes

As we have credentials of database admin then we use this one-liner exploit to dump all the user hashes in Metasploit:

Module 4:  Pwn Postgres Shell

Installations running Postgres 9.3 and above have functionality which allows for the superuser and users with ‘pg_execute_server_program’ to pipe to and from an external program using COPY. This allows arbitrary command execution as though you have console access. This module attempts to create a new table, then execute system commands in the context of copying the command output into the table

Now we gained access on the database, you can observe that here we obtain command session and latter we have to upgrade it into meterpreter sessions.

Now we have full access on the database, in this way we can test for postgres loopholes and submit the findings to the network admin 😊.

Author – Vijay is a Certified Ethical Hacker, Technical writer and Penetration Tester at Hacking Articles. Technology and Gadget freak. Contact Here

Comprehensive Guide on Open Redirect

URL commonly referred to as a web address, which determines up the exact location of a web resource over the internet. But what, if this URL gets redirects and takes you to the place where you never expected to? Today, in this article, we’ll take a tour on Open Redirection and would learn how an attacker can deface a website by simply redirecting its URL to a malicious one.

Table of Content

  • What is the URL?
  • Introduction to Open Redirection
  • Open Redirection Impact
  • Open Redirection Exploitation
    • Basic Redirection
    • Encoded Redirection
      • URL Encoded Redirection
      • Double URL Encoded Redirection
      • Base64 Redirection
    • URL Redirection with Hash values
    • Redirection with Hash values using salt.
    • Redirection over inside a Web page
    • DOM-based Open Redirection
  • Mitigation Steps

What is the URL?

A URL is an abbreviation to Uniform Resource Locator, which is nothing but an address to a unique resource or a file over the Internet. These resources can be anything, an HTML page, an image, or a CSS document.

A URL is composed of different segments – including a protocol, a domain name, or a path – which instructs the web browser about how to fetch a resource and thus are even managed by the webserver. However,  it is the responsibility of the developer to validate the resources and its associated URLs and even the user-input parameters.

A basic URL is structured in a way as:

Introduction to Open Redirect

Have you ever noticed about the response codes that the web-application offer as “301” or “302”, they simply speak out about the URL redirection!

Many developers set up their web-applications in order to request resources over from the web pages or to send their visitors to some different location, that reside within or outside the webinterface. To do so, they implement some basic functions such as header() in PHP, redirect() in Python, Response.Redirect() in C# and many others.

But this URL Redirection is often overlooked by the developers, as the function they use, sometimes are not properly validated or filtered or even they let the users enter their desired input which thus further, could lead to one of the most common vulnerabilities i.e. “Open Redirect”.

“Open Redirect” or “Unvalidated Redirection” is possible when a web application accepts untrusted input that could cause the web application to redirect the request to a URL contained within untrusted input. By modifying untrusted URL input to a malicious site, an attacker may successfully launch a phishing attack and steal user credentials.

Source – OWASP

Didn’t understood well, let’s check out the following scenario:

The user get’s a phishing email stating that “ – A movie booking web-app” is giving its users “a free movie ticket” over the URL specified in the email as:


The URL seems to be the genuine one, as it is having the domain name of “”, but the same URL is thus having a redirecting over to “” which is nothing but the attacker’s fake web application.

Now, when the user opens up the URL and enters her credentials over the “example’s login portal”, and as she clicks on the login button, she thus gets redirected to a different login page rather than example’s home page, as the Login button over was suffering from “Open Redirect Vulnerability”. Therefore, now when she enters up her credentials again, they got compromised and thus then she’ll get redirected to the home page.

Open redirection Impact

Open Redirection is itself a minor vulnerability, but, it thus itself can cause major damage to the web-application when integrated with others as with “RCE” or “XSS”.

Therefore, it thus has been reported with “Medium Severity” with a CVSS score of “6.1” under:

  • CWE-601: URL Redirection to Untrusted Site (‘Open Redirect’)

So, in order to exploit this all, we’ve developed some PHP codes as the similar way the developer creates them to enable URL redirections into their applications, further we’ve even used a bWAPP-a vulnerable web-application and the PortSwigger lab.

Let’s Start !!

Basic Redirection

There are chances when the developer does not care about the input validations or filtrations or anything specific and simply implements the redirection functions as header() and let the redirected URL be in the clear texts.

From the below image you can see that the redirected  URL over at the “here” text, is simply reflected as in the cleartext, which means that if we click over on it, we’ll be redirected to “”.

So, let’s try to capture this all in our burpsuite and check what we could manipulate over on.

From the above image, you can see that, in the “url=” parameter is travelling, let’s try to manipulate this simple clear text with “”.

Simple !! From the below image you can see that, we’ve been redirected to “” with a basic manipulation.

Encoded Redirection

In order to secure up the redirection process, sometimes the developers encode up the “url=” values and let the URL travel over on the internet as in with the redirection. The major encoding methods that a developer can implement are as the URL-encoding or the base-64 encoding.

But, as we are aware that encoding is a 1-way technique, thus this security can simply be breached if we know about what encoding methodology the developer used into all this.

URL Encoded Redirection

URL Encoding is one of the most common encoding methodologies that the developer use in order to disallow some vulnerable characters such as “<” or “>”, to get embedded into the URL.

The following PHP code snippet shows up a basic URL decoding redirection, which first decodes up the encoded input URL and then redirects it over to its desired destination.

Let’s try to bypass this encoding with some simple tricks.

From the following image, you can see that, as when I captured up the ongoing HTTP Request over of the “here” text, I was presented with the “url=” parameter containing the URL encoded redirection link.

By analyzing the captured request, it makes us clear that the “url=” parameter is having a simple basic URL encoded value. Though, let’s now try to encode our URL i.e. “”  over from the encode tab in our burpsuite.

Cool!! Let’s check whether this would work or not. Manipulate the “url=” parameter with the ignite’s encoded value.

From the below image, you can see that, we’ve successfully defaced the website over with the “Open Redirection” vulnerability with some simple clicks.

Double URL Encoded Redirection

Being a developer, he knows that, basic URL encoding can easily be bypassed with some simple clicks, therefore in order to make his application more secure with the redirection section, he implements “Double URL Encoding”, where he used the “urlencode() and urldecode()” function twice one after the other as in the home page and the redirection page respectively.

The following is the redirection code snippet which speaks out about how the decoding is to be performed, thus this first take up the encoded URL and decodes it up, further with another urldecode function, it will thus decode the previous decoded URL and then pass it for the redirection.

So now, as we hover on the “here” text, we’ll find that this time the URL is not in the readable format, thus to be more precise let’s capture this all over in the burpsuite.

From the below image, you can see that the “url=” parameter’s value is different from the one that we see earlier when we hovered on the text, which simply means that, there is some more encoding over it.

Let’s copy it out and check it over in the decode tab. From the below image, you can see that we got the decoded  URL to be as “” when we opted the “URL Decode” option for about two times.


Until now, we are aware that, this application is taking up the URL’s that are double-encoded. Let’s now try to deface this web-application by manipulating up its “url=” parameter value again with “”.

But wait, before that, we need to implement the double encoding methodology, which will thus make the redirection successful.

Copy the double encoded value, and paste it over to the “url=” value.

Great!! We are almost done, let’s click on the Forward button,  and check out what it displays to us.

Base64 Redirection

URL Encoding is not the only encoding methodology that the developer implements, thus in order to make the redirection process more secure, they may use base64, hex, octal, binary, HTML or anything specific.

From the above image, you can see that if we hover over the “here” text, we get the “url=” value in the encoded form. So, let’s try to bypass this encoding:

In my burp suite monitor, I’ve captured up the ongoing request and have copied the “url=” value.

Now, with the copied encoded value, I tried to decode it with different encoding methodologies, and thus there, I got it for Base64.

Cool !! As we are now aware of the encoding method, let’s now try to encode some other URL’s and check for their outcomes.

Back in the burpsuite, and in the decode tab, I’ve tried to encode “” over with Base64. There I’ve further copied up its encoded value.

Let’s now manipulate the “url=” parameter with the copied value and thus then fire up the Forward button and check the response over back in the browser.

Great!! From the below image, you can see that we’ve again successfully bypassed this security.

Let’s check out why this all happened:

From the below code snippet, you can see that the developer is again trusting his visitors and is reliable on the header() function which first decodes up the encoded input URL with URL decode and then with base-64 decoding, thus further redirects the user to his desired webpage.

URL Redirection with Hash values

Experienced developers use hash values, which immunes up the web –applications from the “Open Redirect” vulnerability, they could have used any hashing algorithm, whether it is MD5, SHA512 or SH1 or any other.

Some developers even implement the combination of URL and the hash values as we’ve used in this section i.e. when choose the Copy Link Location of heretext we’ll get the output

From the below image, you can see that this time rather than the “url=” parameter, we have one more as “hash=”.

Now, if we manipulate the “url=” with “” and leaves up the hash value the same as it was, thus then we will face the error.

“As when we clicked on the “here” text, the redirection script will catch the passed URL and generate its hash value and compare the generated hash value with the hash value we have sent with the request, if both the hash values match the redirection would work else it will fail.”

Here in this segment, the developer used the MD5 hash algorithm.

So, let’s now try to exploit this major security again with some manipulations, but this time we need to encrypt our URL over with the MD5 hash.

With a basic MD5 Hash generator, we’ve encrypted Copy this all and craft it in with the URL.

Great!! From the below image you can see that, as soon as I execute the above-manipulated URL in the browser, I got redirected to my desired result.

Redirection with Hash values using Salt

Encoded URL’s can be bypassed, URL parameter with a hash can even be misguided, but what, if the redirected URL is encrypted with a salt value?

Salt could be anything, it could be a combination of characters, digits, alphanumeric, special character or anything we want. A salt further increases the security for redirecting the URL or even it make up impossible to deface a web-application. But, there is still a chance to misguide the users, if we could guess up the salt value or even if the developer displays it in the URL itself.

From the below image, you can see that here the developer passed up his salt value in the URL as “ignite”. Cool!! This was all we need to deface this web-application, let’s try to do so.

Over in burpsuite, I’ve captured the ongoing HTTP Request that was generated with the “here” text.

Great!! So its time to manipulate the URL as we are now aware of the salt value, but wait we don’t know the type of hash it is using. Okay !! with some permutations and combinations and some hit & trial methods,  I got it as a SHA256 hash.

So let’s now try to deface this web-application by generating the hash value of our “URL” with the same procedure we decrypted that earlier.

Therefore you can do so over through this SHA256 hash generator.

Copy this all – the URL and the generated Hash value; and thus manipulate it over in our burpsuite.

Woah!! We’ve successfully bypassed this security level which was expected to the most secure one.    

Redirection over inside a Web-Page

So, up till now, we have seen that the developer redirects his visitors to the resources that were outside the web-application, but there are chances that he might set the redirect() or header() function to make its users, to travel the web-pages which reside inside the application’s interface.

Let’s boot into our vulnerable web-application bWAPP as “bee : bug” and set the “Choose your bug” option to Unvalidated Redirects & Forwards (2)”.

Thus, there on the page, if we hover the “here” text we can see that there is a “ReturnUrl=” parameter.

Let’s capture the passing HTTP Request over of the “here” text and check what we could grab with it.

From the below image, you can see that the “ReturnURL=”  parameter is forwarding the user back to the “portal.php” page, which is thus nothing but a URL redirection and therefore can be leveraged to an “Open Redirect” vulnerability.

Isn’t it great, that, if being a low privileged user, we can grab the content of the “configuration files” or anything specific for which we’re not authorized to, and this all happens, when the developer patch up the “LFI” vulnerability?

So let’s try to do so – as we’re aware, that the configuration files reside inside the web-applications default folder. Thus it would be easy to call that up over from the “here” text, by manipulating the captured request with our desired URL.

As soon as we hit the Forward button, we got redirected to the which thus contains up all the basic configurations.

Great!! We’re into the file and though we are now having more information about our target’s server.

DOM-based Open Redirect

DOM-based open-redirection vulnerabilities arise when a script writes attacker-controllable data into a sink that can trigger cross-domain navigation which thus facilitates phishing attacks against users of the websites.

So what is a sink?

A sink is a potentially dangerous JavaScript function or DOM object that can cause undesirable effects if attacker-controlled data is passed to it.

The major sinks that could lead to DOM-based Open Redirection vulnerability are “location”
“location.hostname” “location.href” “location.pathname”.

So, let’s try to implement it, in some real scenarios over at The Portswigger Academy and exploit this DOM-based Open Redirect vulnerability.

As we hit the “Access the lab” button, we get redirected over to a blog which is somewhere or the other suffering from “Open Redirection”.

But before that, we got something new as “Go to exploit server”, let’s check that out.

That’s nice, we’re having our exploit server here, let’s copy its URL and we’ll try to redirect that blog to our server.

So let’s open a specific blog-post, say the first one and check its source code with a simple right-click over any segment of the page.

Great!! From the below image, I was able to see that the “Back to Blog” text is with some URL and this seems to be an “Open Redirect” as “location” property is not validated or sanitized to user’s input and thus it is even having an onclick event over it as “url=(https”

However, if we manipulate the webpage URL by integrating our exploit server’s URL with “&url=” parameter as

From the above image, you can see that, now if I hover the “Back to Blog” section, I got the redirection link to as the one I manipulated earlier.

Let’s check out its output, by clicking over the “Back to Blog” text.

Great!! From the below image you can see that we’ve successfully solved this lab and we are thus redirected over to our exploit server.

Mitigation Steps

  • The user-input should be properly sanitized and must be validated.
  • The developer should set up a whitelist of his trustworthy URLs.
  • If the developer is setting up any hash or a salt value, it should be hidden and not to be displayed in the URL.
  • Instead of using the redirect function, the developer should implement specific links over on the text keywords.
  • The web-application should pop out a warning when a user tries to redirect to an untrusted domain.

Author: Chiragh Arora is a passionate Researcher and Technical Writer at Hacking Articles. He is a hacking enthusiast. Contact here