* Added New Encryption Class Bush_Encryption, RSA_Encryption (ASymmetric)
* Added Doc For Every Function
* Added File Encryption
* Many Bugs Fixed
* Upgraded To Version 2.3
* Many Exceptions Catched Under Try Except
pip install Py-Encryptor
git clone https://github.com/pmk456/Encryptor
cd Encryptor
python setup.py install
from Encryptor import RSA_Encryption
RSA_Encryption.generate_keys()
# Supported Algorithms For Signing = ['SHA-1', 'SHA-224', 'SHA-256', 'SHA-384', 'SHA-512', "MD5"]
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem")
cipher.sign(b"data", algo="SHA-1")
# Output
# Signature Of Data:
# b'm\xa6\xf1(\xaa13\x03F5\x10g\xb0)\xf2\xae/7\xb1G\xbf\x00\xe8I-\xc8T\r\xcc\t\x830\x11\x02\xa2\xff\x93\xf1\xf5\t\xfa\xb4\x97\x03\xd5b\xdf\xa1\xa8B\xbcv\x12\x04\x97\xc0\\\x1c\xd6\xb3\xdc\xb8c\xd5'
# Supported Algorithms For Signing = ['SHA-1', 'SHA-224', 'SHA-256', 'SHA-384', 'SHA-512', "MD5"]
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem", private_file="private_key.pem")
data = b'm\xa6\xf1(\xaa13\x03F5\x10g\xb0)\xf2\xae/7\xb1G\xbf\x00\xe8I-\xc8T\r\xcc\t\x830\x11\x02\xa2\xff\x93\xf1\xf5\t\xfa\xb4\x97\x03\xd5b\xdf\xa1\xa8B\xbcv\x12\x04\x97\xc0\\\x1c\xd6\xb3\xdc\xb8c\xd5'
print(cipher.verify_signature(b"Data", data))
# Output
# (True, "SHA-1")
# Supported Algorithms For Signing = ['SHA-1', 'SHA-224', 'SHA-256', 'SHA-384', 'SHA-512', "MD5"]
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem", private_file="private_key.pem")
cipher.sign_file("path", algo="SHA-1")
# Output
# Signature Of File
# Supported Algorithms For Signing = ['SHA-1', 'SHA-224', 'SHA-256', 'SHA-384', 'SHA-512', "MD5"]
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem", private_file="private_key.pem")
data = b'4\xf5\x0bu\x10\xab\x9cA}\xce\x96Z,[\xd7Cp\xe0\xcb\x97Xew\xf7\n\xd9\x95\x1dy\x87\x11\x1d\xf88\xba2\xddR\xec\x13\x175sv@\x9f\xd0\xfe\xa2\xd7\n\x1c\x18O\xc4\xe8U\x94bg%\xec\xbfz'
cipher.verify_file("path", data)
# Output
# (True, "SHA-1")
from Encryptor import Bush_Encryption
cipher = Bush_Encryption("KeyToUse")
cipher.file_encrypt('path')
# Output
# Same File With .enc Extension
from Encryptor import Fernet_Encryption
cipher = Fernet_Encryption(key='keytouse')
cipher.file_encrypt('path')
# Output
"""
Encrypted File with Extension .enc will be In The Same Path
"""
from Encryptor import AES_Encryption
cipher = AES_Encryption(key='keytouse', iv='this is iv 45611')
print(cipher.file_encrypt('path'))
# Output
"""
File Successfully Encrypted With Given Key
In Case Of any exception:
Something Went Wrong During Encryption Of The File
path.enc // THIS IS ENCRYPTED FILE WHICH IS SAVED IN THE GIVEN PATH
"""
# Deprecated Warning
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem")
cipher.file_encrypt("pathtofile")
# Deprecated Warning
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(private_file="private_key.pem", public_file="public_key.pem")
cipher.file_decrypt("path.enc")
from Encryptor import Bush_Encryption
cipher = Bush_Encryption("KeyToUse")
cipher.file_decrypt("path.enc")
# Output
# Same File With Removed .enc Extension
from Encryptor import Fernet_Encryption
cipher = Fernet_Encryption(key='keywhichusedtoencrypt')
cipher.file_decrypt(path='path\to\file.enc')
# output
# Decrypted File will be in the same given path
from Encryptor import AES_Encryption
cipher = AES_Encryption(key='keytouse', iv='This is iv 45611')
print(cipher.file_decrypt('path'))
# OUTPUT
"""
File Successfully Decrypted With Given Key
In Case Of any exception:
Something Went Wrong During Decryption Of The File
If nothing went wrong:
path // THIS IS DECRYPTED FILE WHICH IS SAVED IN THE GIVEN PATH
"""
from Encryptor import Bush_Encryption
cipher = Bush_Encryption("keytouse")
cipher.encrypt("Hello, World!")
# Output varies Everytime You Run, Because Of IV Randomization
# b'ZISDJSjdcJmZ1jEtZq-TJ9f_-EK1LYms19_R0G4-Thw=ebOTwrjzmMP2l2kzHtMifQ==ew6pPaBG9QjE_TGD6xyMwA=='
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem")
cipher.encrypt("Hello, World!")
# Output
# b'{\x7f2\xbe\xa0\xee\x82\xac\x84#\x9b \x12$+\\V\xd5(\xa0\xc1\x11\x19\x9fQ\xacO\x1fJ\xd8XX\xbfR\xe8\xe9Cm\xe0\xd3`\xee\xf0\x7f|Cn\xcf\x00#H\xe2R_\xa4\x19\x1a\x06A\xa2kT\x9dQ'
from Encryptor import AES_Encryption
cipher = AES_Encryption(key='keytouse', iv='this is iv 45611')
cipher.encrypt("Hello")
### OUTPUT
# b'}%\x99\x00b3\xb0?\xe5\t\x07wc\xa8\xc6\x8d'
from Encryptor import Fernet_Encryption
cipher = Fernet_Encryption(key='keytouse')
cipher.encrypt('string')
# Output
# b'gAAAAABg4AFMaGOzEvKpJgArUvJrmhTPLZIio5qAz96PAHs4CWlInKHS-nA48G_2RwQKbHQcDy3fei1ctH5luGSThqkZC520AA=='
from Encryptor import AES_Encryption
cipher = AES_Encryption(key='keytouse', iv='this is iv 45611')
cipher.decrypt(b'}%\x99\x00b3\xb0?\xe5\t\x07wc\xa8\xc6\x8d')
### OUTPUT
# 'Hello'
from Encryptor import Bush_Encryption
cipher = Bush_Encryption("keytouse")
cipher.decrypt("data")
# Output
# Decrypted Data
from Encryptor import RSA_Encryption
cipher = RSA_Encryption(public_file="public_key.pem", private_file="private_key.pem")
cipher.decrypt(b'{\x7f2\xbe\xa0\xee\x82\xac\x84#\x9b \x12$+\\V\xd5(\xa0\xc1\x11\x19\x9fQ\xacO\x1fJ\xd8XX\xbfR\xe8\xe9Cm\xe0\xd3`\xee\xf0\x7f|Cn\xcf\x00#H\xe2R_\xa4\x19\x1a\x06A\xa2kT\x9dQ')
# Output
# b'Hello, World!'
from Encryptor import Fernet_Encryption
cipher = Fernet_Encryption(key='keytouse')
cipher.decrypt(b'gAAAAABg4AFMaGOzEvKpJgArUvJrmhTPLZIio5qAz96PAHs4CWlInKHS-nA48G_2RwQKbHQcDy3fei1ctH5luGSThqkZC520AA==')
# Output
# string
Hi, I Am Patan Musthakheem I Am The Author Of This Package.
I Created This Tool For Beginners Who Want to encrypt their string or file
using any encryption but they dont know how to use it because
for beginners it is bit of difficult for using Encryption like AES from scratch.
I Faced Many issues when learning how to encrypt strings and files in python when
when i am beginner i decided to create a very simple tool which will encrypt strings and files
in one line of code.
That day has came, Now you can encrypt and decrypt strings in one line of code.
Thanks To Me.