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Comrad/p2p/crypto.py
2020-08-18 07:43:50 +01:00

138 lines
3.8 KiB
Python

from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives.asymmetric import rsa
from cryptography.hazmat.primitives import serialization
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.asymmetric import padding
import os
key_dir = os.path.join(os.path.expanduser('~'),'.keys','komrade')
if not os.path.exists(key_dir): os.makedirs(key_dir)
PATH_PRIVATE_KEY=os.path.join(key_dir,'private_key.pem')
PATH_PUBLIC_KEY=os.path.join(key_dir,'public_key.pem')
### CREATING KEYS
def new_keys(save=True,password=None):
private_key = rsa.generate_private_key(
public_exponent=65537,
key_size=2048,
backend=default_backend()
)
public_key = private_key.public_key()
if save:
save_private_key(private_key,password=password)
save_public_key(public_key)
return private_key,public_key
def save_private_key(private_key,fn=PATH_PRIVATE_KEY,password=None, return_instead=False):
pem = private_key.private_bytes(
encoding=serialization.Encoding.PEM,
format=serialization.PrivateFormat.PKCS8,
encryption_algorithm=serialization.NoEncryption() if not password else serialization.BestAvailableEncryption(password.encode())
)
if return_instead: return pem
with open(fn,'wb') as f: f.write(pem)
def save_public_key(public_key,fn=PATH_PUBLIC_KEY,return_instead=False):
pem = public_key.public_bytes(
encoding=serialization.Encoding.PEM,
format=serialization.PublicFormat.SubjectPublicKeyInfo
)
if return_instead: return pem
with open(fn,'wb') as f: f.write(pem)
### LOADING KEYS
def load_keys():
return (load_private_key_from_file(), load_public_key_from_file())
def load_private_key(pem,password=None):
return serialization.load_pem_private_key(
pem,
password=password.encode() if password else None,
backend=default_backend()
)
def load_private_key_from_file(fn=PATH_PRIVATE_KEY,password=None):
with open(fn, "rb") as key_file:
return load_private_key(key_file.read(), password)
def load_public_key(pem):
return serialization.load_pem_public_key(
pem,
backend=default_backend()
)
def load_public_key_from_file(fn=PATH_PUBLIC_KEY):
with open(fn, "rb") as key_file:
return load_public_key(key_file.read())
### DE/ENCRYPTING
def encrypt_msg(message, public_key):
return public_key.encrypt(
str(message).encode(),
padding.OAEP(
mgf=padding.MGF1(algorithm=hashes.SHA256()),
algorithm=hashes.SHA256(),
label=None
)
)
def decrypt_msg(encrypted, private_key):
return private_key.decrypt(
encrypted,
padding.OAEP(
mgf=padding.MGF1(algorithm=hashes.SHA256()),
algorithm=hashes.SHA256(),
label=None
)
)
### SIGNING/VERIFYING
def sign_msg(message, private_key):
return private_key.sign(
message,
padding.PSS(
mgf=padding.MGF1(hashes.SHA256()),
salt_length=padding.PSS.MAX_LENGTH
),
hashes.SHA256()
)
def verify_msg(message, signature, public_key):
return public_key.verify(
signature,
message,
padding.PSS(
mgf=padding.MGF1(hashes.SHA256()),
salt_length=padding.PSS.MAX_LENGTH
),
hashes.SHA256()
)
# #private_key,public_key = new_keys()
# private_key,public_key = load_keys()
# #print(private_key)
# #print(public_key)
# #enc = encrypt_msg('Drive your plow over the bones of the dead', public_key)
# #print(enc)
# dec = decrypt_msg(enc,private_key)
# #print(dec)
# msg = b'hello'
# signature = sign_msg(msg,private_key)
# #print(encrypt_msg(b'hello',public_key))
# print(verify_msg(msg+b'!!',signature,public_key))