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For obtaining a deep understanding of this technique check the original report in [https://portswigger.net/research/smashing-the-state-machine](https://portswigger.net/research/smashing-the-state-machine)
The main hurdle in taking advantage of race conditions is making sure that multiple requests are handled at the same time, with **very little difference in their processing times—ideally, less than 1ms**.
* **HTTP/2**: Supports sending two requests over a single TCP connection, reducing network jitter impact. However, due to server-side variations, two requests may not suffice for a consistent race condition exploit.
* **HTTP/1.1 'Last-Byte Sync'**: Enables the pre-sending of most parts of 20-30 requests, withholding a small fragment, which is then sent together, achieving simultaneous arrival at the server.
The subsequent sending of withheld frames should result in their arrival in a single packet, verifiable via Wireshark. This method does not apply to static files, which are not typically involved in RC attacks.
Frameworks like PHP's session handler serialize requests by session, potentially obscuring vulnerabilities. Utilizing different session tokens for each request can circumvent this issue.
If connection warming is ineffective, triggering web servers' rate or resource limit delays intentionally through a flood of dummy requests might facilitate the single-packet attack by inducing a server-side delay conducive to race conditions.
* **Tubo Intruder - HTTP2 single-packet attack (1 endpoint)**: You can send the request to **Turbo intruder** (`Extensions` -> `Turbo Intruder` -> `Send to Turbo Intruder`), you can change in the request the value you want to brute force for **`%s`** like in `csrf=Bn9VQB8OyefIs3ShR2fPESR0FzzulI1d&username=carlos&password=%s` and then select the **`examples/race-single-packer-attack.py`** from the drop down:
* **Tubo Intruder - HTTP2 single-packet attack (Several endpoints)**: In case you need to send a request to 1 endpoint and then multiple to other endpoints to trigger the RCE, you can change the `race-single-packet-attack.py` script with something like:
* It's also available in **Repeater** via the new '**Send group in parallel**' option in Burp Suite.
* For **limit-overrun** you could just add the **same request 50 times** in the group.
* For **connection warming**, you could **add** at the **beginning** of the **group** some **requests** to some non static part of the web server.
* For **delaying** the process **between** processing **one request and another** in a 2 substates steps, you could **add extra requests between** both requests.
* For a **multi-endpoint** RC you could start sending the **request** that **goes to the hidden state** and then **50 requests** just after it that **exploits the hidden state**.
* **Repeater:** Check the examples from the previous section.
* **Intruder**: Send the **request** to **Intruder**, set the **number of threads** to **30** inside the **Options menu and,** select as payload **Null payloads** and generate **30.**
This is the most basic type of race condition where **vulnerabilities** that **appear** in places that **limit the number of times you can perform an action**. Like using the same discount code in a web store several times. A very easy example can be found in [**this report**](https://medium.com/@pravinponnusamy/race-condition-vulnerability-found-in-bug-bounty-program-573260454c43) or in [**this bug**](https://hackerone.com/reports/759247)**.**
Exploiting complex race conditions often involves taking advantage of brief opportunities to interact with hidden or **unintended machine substates**. Here’s how to approach this:
* Start by pinpointing endpoints that modify or interact with critical data, such as user profiles or password reset processes. Focus on:
* **Storage**: Prefer endpoints that manipulate server-side persistent data over those handling data client-side.
* **Action**: Look for operations that alter existing data, which are more likely to create exploitable conditions compared to those that add new data.
* **Keying**: Successful attacks usually involve operations keyed on the same identifier, e.g., username or reset token.
* Test the identified endpoints with race condition attacks, observing for any deviations from expected outcomes. Unexpected responses or changes in application behavior can signal a vulnerability.
* Narrow down the attack to the minimal number of requests needed to exploit the vulnerability, often just two. This step might require multiple attempts or automation due to the precise timing involved.
Precision in timing requests can reveal vulnerabilities, especially when predictable methods like timestamps are used for security tokens. For instance, generating password reset tokens based on timestamps could allow identical tokens for simultaneous requests.
Check this [**PortSwigger Lab**](https://portswigger.net/web-security/logic-flaws/examples/lab-logic-flaws-insufficient-workflow-validation) to see how to **pay** in a store and **add an extra** item you that **won't need to pay for it**.
According to [**this research**](https://portswigger.net/research/smashing-the-state-machine) Gitlab was vulnerable to a takeover this way because it might **send** the **email verification token of one email to the other email**.
If **2 different writes** are used to **add****information** inside a **database**, there is a small portion of time where **only the first data has been written** inside the database. For example, when creating a user the **username** and **password** might be **written** and **then the token** to confirm the newly created account is written. This means that for a small time the **token to confirm an account is null**.
Therefore **registering an account and sending several requests with an empty token** (`token=` or `token[]=` or any other variation) to confirm the account right away could allow to c**onfirm an account** where you don't control the email.
There are several [**OAUth providers**](https://en.wikipedia.org/wiki/List\_of\_OAuth\_providers). Theses services will allow you to create an application and authenticate users that the provider has registered. In order to do so, the **client** will need to **permit your application** to access some of their data inside of the **OAUth provider**.\
So, until here just a common login with google/linkedin/github... where you are prompted with a page saying: "_Application \<InsertCoolName> wants to access you information, do you want to allow it?_"
The **problem** appears when you **accept it** and automatically sends an **`authorization_code`** to the malicious application. Then, this **application abuses a Race Condition in the OAUth service provider to generate more that one AT/RT** (_Authentication Token/Refresh Token_) from the **`authorization_code`** for your account. Basically, it will abuse the fact that you have accept the application to access your data to **create several accounts**. Then, if you **stop allowing the application to access your data one pair of AT/RT will be deleted, but the other ones will still be valid**.
Once you have **obtained a valid RT** you could try to **abuse it to generate several AT/RT** and **even if the user cancels the permissions** for the malicious application to access his data, **several RTs will still be valid.**
In [**WS\_RaceCondition\_PoC**](https://github.com/redrays-io/WS\_RaceCondition\_PoC) you can find a PoC in Java to send websocket messages in **parallel** to abuse **Race Conditions also in Web Sockets**.
<summary><strong>Learn AWS hacking from zero to hero with</strong><ahref="https://training.hacktricks.xyz/courses/arte"><strong>htARTE (HackTricks AWS Red Team Expert)</strong></a><strong>!</strong></summary>
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