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If you ends in a code **using shift rights and lefts, xors and several arithmetic operations** it's highly possible that it's the implementation of a **cryptographic algorithm**. Here it's going to be showed some ways to **identify the algorithm that it's used without needing to reverse each step**.
Check here the table of possible algorithms and their assigned values: [https://docs.microsoft.com/en-us/windows/win32/seccrypto/alg-id](https://docs.microsoft.com/en-us/windows/win32/seccrypto/alg-id)
The **CryptAcquireContext** function is used to acquire a handle to a particular key container within a particular cryptographic service provider (CSP). **This returned handle is used in calls to CryptoAPI** functions that use the selected CSP.
Initiates the hashing of a stream of data. If this function is used, you can find which **algorithm is being used** checking the value of the second parameter:
Check here the table of possible algorithms and their assigned values: [https://docs.microsoft.com/en-us/windows/win32/seccrypto/alg-id](https://docs.microsoft.com/en-us/windows/win32/seccrypto/alg-id)
* **Initialization stage/**: Creates a **table of values from 0x00 to 0xFF** (256bytes in total, 0x100). This table is commonly call **Substitution Box** (or SBox).
* **Scrambling stage**: Will **loop through the table** crated before (loop of 0x100 iterations, again) creating modifying each value with **semi-random** bytes. In order to create this semi-random bytes, the RC4 **key is used**. RC4 **keys** can be **between 1 and 256 bytes in length**, however it is usually recommended that it is above 5 bytes. Commonly, RC4 keys are 16 bytes in length.
* **XOR stage**: Finally, the plain-text or cyphertext is **XORed with the values created before**. The function to encrypt and decrypt is the same. For this, a **loop through the created 256 bytes** will be performed as many times as necessary. This is usually recognized in a decompiled code with a **%256 (mod 256)**.
**In order to identify a RC4 in a disassembly/decompiled code you can check for 2 loops of size 0x100 (with the use of a key) and then a XOR of the input data with the 256 values created before in the 2 loops probably using a %256 (mod 256)**
* It's possible to **distinguish AES thanks to the use of specific lookup table values** (constants). _Note that the **constant** can be **stored** in the binary **or created** **dynamically**._
* The **encryption key** must be **divisible** by **16** (usually 32B) and usually an **IV** of 16B is used.
In the following image notice how the constant **0x9E3779B9** is used (note that this constant is also used by other crypto algorithms like **TEA** -Tiny Encryption Algorithm).\
Also note the **size of the loop** (**132**) and the **number of XOR operations** in the **disassembly** instructions and in the **code** example:
As it was mentioned before, this code can be visualized inside any decompiler as a **very long function** as there **aren't jumps** inside of it. The decompiled code can look like the following:
Therefore, it's possible to identify this algorithm checking the **magic number** and the **initial XORs**, seeing a **very long function** and **comparing** some **instructions** of the long function **with an implementation** (like the shift left by 7 and the rotate left by 22).
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