As a Python enthusiast, I’m always on the lookout for efficient ways to secure data and protect it from unauthorized access. One powerful technique I’ve come across is creating a SHA3-512 hash of a string with salt. In this blog post, I’m excited to guide you through the process of accomplishing this in Python. By the end, you’ll have a solid understanding of how to leverage the SHA3-512 hashing algorithm with salt to enhance the security of your data. So, let’s dive in and explore the fascinating world of secure hashing in Python!
SHA3-512 is (atleast when it was created) a standardized 1-way function that takes in data input of any form and maps it to a fixed-size output string, irrespective of the size of the input string.
A salt is a randomly generated string of characters that is used as an additional input to a one-way hash function. Salts are used to protect against dictionary attacks and rainbow table attacks.
The SHA3-512 hash with salt is generated by concatenating the salt to the password and then hashing the resulting string. The salt is then appended to the generated hash to form the complete hash. This complete hash is then stored in the database. When a user attempts to login, the salt is retrieved from the database and used to generate a hash from the provided password. The generated hash is then compared to the hash stored in the database. If the two hashes match, the user is authenticated.
We can create an SHA3-512 hash of a string in Python without using an hash as well. In this article we will create a hash by using a salt.
The method below is for creating it in Python i.e., on the server side.
SHA3-512 hash with salt in Python
SHA3-512 hash can be created using the python’s default module hashlib. There are many more hash functions defined in the hashlib library.
The process of creating an SHA3-512 hash in python is very simple. First import hashlib, then encode your string that you want to hash i.e., converts the string into the byte equivalent using encode(), then pass it through the hashlib.sha3_512() function. Here, we also concat the salt. We print the hexdigest value of the hash m, which is the hexadecimal equivalent encoded string.
Working code example-
import hashlib
text = 'Hello!'
salt = '80zzm081sr@nd0m'
m = hashlib.sha3_512(text.encode('UTF-8') + salt.encode('UTF-8'))
print(m.hexdigest())Output of the above code-
5163363675bb7266e6cb8f09b5e0434112a23b122c4cf4fd3b40da7c27ceca20The value you see here 5163363675bb7266e6cb8f09b5e0434112a23b122c4cf4fd3b40da7c27ceca20 is the SHA3-512 hash of the string Hello! with salt 80zzm081sr@nd0m.
The functions used in the above code-
- encode() : Converts the string into bytes to be acceptable by hash function.
- hexdigest() : Returns the encoded data in hexadecimal format.
As you see, the SHA3-512 hash of a string with salt using Python is as simple as this code.
In case you are looking to create SHA3-512 hash of a file or a blob check out the article.
I’m glad that you found the content useful. And there you have it, my fellow Pythonistas! We’ve reached the end of our journey exploring how to create a SHA3-512 hash of a string with salt in Python. By utilizing this powerful hashing algorithm along with salt, you now possess a valuable tool to safeguard your data from prying eyes. Remember to apply these techniques responsibly and in alignment with best security practices. With Python by your side, you can ensure the confidentiality and integrity of your sensitive information. Happy coding and secure hashing!
