PayloadsAllTheThings/Insecure Direct Object References/README.md

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Insecure Direct Object References

Insecure Direct Object References occur when an application provides direct access to objects based on user-supplied input. As a result of this vulnerability attackers can bypass authorization and access resources in the system directly, for example database records or files. - OWASP

Summary

Tools

Labs

Exploit

IDOR stands for Insecure Direct Object Reference. It's a type of security vulnerability that arises when an application provides direct access to objects based on user-supplied input. As a result, attackers can bypass authorization and access resources in the system directly, potentially leading to unauthorized information disclosure, modification, or deletion.

Example of IDOR

Imagine a web application that allows users to view their profile by clicking a link https://example.com/profile?user_id=123:

<?php
    $user_id = $_GET['user_id'];
    $user_info = get_user_info($user_id);
    ...

Here, user_id=123 is a direct reference to a specific user's profile. If the application doesn't properly check that the logged-in user has the right to view the profile associated with user_id=123, an attacker could simply change the user_id parameter to view other users' profiles:

https://example.com/profile?user_id=124

https://lh5.googleusercontent.com/VmLyyGH7dGxUOl60h97Lr57F7dcnDD8DmUMCZTD28BKivVI51BLPIqL0RmcxMPsmgXgvAqY8WcQ-Jyv5FhRiCBueX9Wj0HSCBhE-_SvrDdA6_wvDmtMSizlRsHNvTJHuy36LG47lstLpTqLK

Numeric Value Parameter

Increment and decrement these values to access sensitive informations.

  • Decimal value: 287789, 287790, 287791, ...
  • Hexadecimal: 0x4642d, 0x4642e, 0x4642f, ...
  • Unix epoch timestamp: 1695574808, 1695575098, ...

Examples

Common Identifiers Parameter

Some identifiers can be guessed like names and emails, they might grant you access to customer data.

  • Name: john, doe, john.doe, ...
  • Email: john.doe@mail.com
  • Base64 encoded value: am9obi5kb2VAbWFpbC5jb20=

Examples

Weak Pseudo Random Number Generator

  • UUID/GUID v1 can be predicted if you know the time they were created: 95f6e264-bb00-11ec-8833-00155d01ef00
  • MongoDB Object Ids are generated in a predictable manner: 5ae9b90a2c144b9def01ec37
    • a 4-byte value representing the seconds since the Unix epoch
    • a 3-byte machine identifier
    • a 2-byte process id
    • a 3-byte counter, starting with a random value

Examples

Hashed Parameter

Sometimes we see websites using hashed values to generate a random user id or token, like sha1(username), md5(email), ...

  • MD5: 098f6bcd4621d373cade4e832627b4f6
  • SHA1: a94a8fe5ccb19ba61c4c0873d391e987982fbbd3
  • SHA2: 9f86d081884c7d659a2feaa0c55ad015a3bf4f1b2b0b822cd15d6c15b0f00a08

Examples

Wildcard Parameter

Send a wilcard instead of an ID, some backend might respond with the data of all the users.

  • GET /api/users/* HTTP/1.1
  • GET /api/users/% HTTP/1.1
  • GET /api/users/_ HTTP/1.1
  • GET /api/users/. HTTP/1.1

Examples

  • TODO

IDOR Tips

  • Change the HTTP request: POST → PUT
  • Change the content type: XML → JSON
  • Transform numerical values to arrays: {"id":19} → {"id":[19]}
  • Use Parameter Pollution: user_id=hacker_id&user_id=victim_id

References