Bitmessage/PyBitmessage-2025-01-23
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PyBitmessage-2025-01-23/src/pyelliptic
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jai.s f409b15535
Added buytes in the malloc method
2020-09-23 19:59:48 +05:30
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__init__.py Changed the remaining src path to pybitmessage path 2020-08-07 22:58:57 +05:30
arithmetic.py Changed path to src to pybitmessage 2020-07-31 20:42:13 +05:30
cipher.py Changed the remaining src path to pybitmessage path 2020-08-07 22:58:57 +05:30
ecc.py Override the get and put of addressGeneratorQueue 2020-09-11 20:47:10 +05:30
eccblind.py Made changes in the malloc function in openssl, removed unrequired loggers and prints 2020-09-19 19:07:52 +05:30
eccblindchain.py Blind signature updates 2020-03-31 14:13:32 +08:00
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LICENSE Initial commit for test cases python3 porting 2020-07-16 15:36:49 +05:30
openssl.py Added buytes in the malloc method 2020-09-23 19:59:48 +05:30
README.md Initial commit for test cases python3 porting 2020-07-16 15:36:49 +05:30

README.md

PyElliptic

PyElliptic is a high level wrapper for the cryptographic library : OpenSSL. Under the GNU General Public License

Python3 compatible. For GNU/Linux and Windows. Require OpenSSL

Features

Asymmetric cryptography using Elliptic Curve Cryptography (ECC)

  • Key agreement : ECDH
  • Digital signatures : ECDSA
  • Hybrid encryption : ECIES (like RSA)

Symmetric cryptography

  • AES-128 (CBC, OFB, CFB)
  • AES-256 (CBC, OFB, CFB)
  • Blowfish (CFB and CBC)
  • RC4

Other

  • CSPRNG
  • HMAC (using SHA512)
  • PBKDF2 (SHA256 and SHA512)

Example

#!/usr/bin/python

import pyelliptic

# Symmetric encryption
iv = pyelliptic.Cipher.gen_IV('aes-256-cfb')
ctx = pyelliptic.Cipher("secretkey", iv, 1, ciphername='aes-256-cfb')

ciphertext = ctx.update('test1')
ciphertext += ctx.update('test2')
ciphertext += ctx.final()

ctx2 = pyelliptic.Cipher("secretkey", iv, 0, ciphername='aes-256-cfb')
print ctx2.ciphering(ciphertext)

# Asymmetric encryption
alice = pyelliptic.ECC() # default curve: sect283r1
bob = pyelliptic.ECC(curve='sect571r1')

ciphertext = alice.encrypt("Hello Bob", bob.get_pubkey())
print bob.decrypt(ciphertext)

signature = bob.sign("Hello Alice")
# alice's job :
print pyelliptic.ECC(pubkey=bob.get_pubkey()).verify(signature, "Hello Alice")

# ERROR !!!
try:
    key = alice.get_ecdh_key(bob.get_pubkey())
except: print("For ECDH key agreement, the keys must be defined on the same curve !")

alice = pyelliptic.ECC(curve='sect571r1')
print alice.get_ecdh_key(bob.get_pubkey()).encode('hex')
print bob.get_ecdh_key(alice.get_pubkey()).encode('hex')