Barebones Python 3.6+ implementation (no dependencies/standard lib only) of some common cryptographic functions for educational purposes. Feel free to fork the repo and play around with it. Performance is ..abysmal but otherwise it works fine. Please do not use this for anything serious because I am not a security expert.
$ pip install git+https://github.com/mcdallas/cryptotools.git@master#egg=cryptotoolsHD Wallets
from cryptotools.BTC import Xprv
>>> m = Xprv.from_mnemonic('impulse prize erode winner pupil fun off addict ...')
>>> m.encode()
'xprv9s21ZrQH143K38bNJiHY54kkjio8o6aw3bRjCbzi8KgRxNy98avUribz1wk85ToSUV2VwVuc73NJWc2YGwpMtqz7bBFUh9Q77RtJeuh2zvy'
>>> m/44/0/0/0
Xprv(path=m/44/0/0/0, key=L1WKXyMwKnp8wPwAtjwiKWunACY5RSUXAzmS6jDRRHcHnDbeRiKu)
>>> m/0./123/5. # Use floats for hardened path, alternative is // e.g m//0/123//5
Xprv(path=m/0h/123/5h, key=L3qskbdzgNu4kwjx2QU63q59khpEHVaSbqd2Pc268Jngiha6mbfQ)
>>> M = m.to_xpub()
>>> (m/123/456).to_xpub() == M/123/456
True
>>> (m/44./0./0./0/0).address('P2PKH') # bip44
'1BTYXdyrBh1yRCDpqyDhoQG896bnzqtaPz'
>>> (m/84./0./0./0/0).address('P2WPKH') # bip84
'bc1qjnx8cq32z2t72tsmuwql3wz22lywlpcm3w52lk'Sign/Verify message:
from cryptotools.ECDSA.secp256k1 import generate_keypair, Message
private, public = generate_keypair()
>>> message = Message.from_str('kinakuta')
>>> signature = message.sign(private)
>>> message.verify(signature, public)
TrueVerify a transaction:
from cryptotools.BTC import Transaction
tx = Transaction.get('454e575aa1ed4427985a9732d753b37dc711675eb7c977637b1eea7f600ed214')
>>> tx
Transaction(inputs=1, outputs=2)
>>> tx.outputs
[Output(type=P2SH, value=0.0266 BTC),
Output(type=P2WSH, value=0.00468 BTC)]
>>> tx.verify() # this runs the bitcoin script
TrueCreate a transaction and submit it automatically
import os
os.environ['CRYPTOTOOLS_NETWORK'] = 'test' # sets network to testnet (before library import)
from cryptotools.BTC import PrivateKey, send
key = PrivateKey.from_hex('mysupersecretkey')
>>> send(source='n4SbPWR6EmQMsWaQVYYFXiJgjweGKE4XnQ', to={'n2NGrooSecJaiD6ssp4YqFoj9eZ7GrCJ66': 0.46}, fee=0.01, private=key)
'907b92969cb3a16ddb45591bf2530f177b7f10cef4e62c331596a84f66c3b8c3' # txidCreate and broadcast manually
import os
os.environ['CRYPTOTOOLS_NETWORK'] = 'test'
from cryptotools.BTC import PrivateKey, Address
private = PrivateKey.from_hex('mysupersecretkey')
address = Address('n2NGrooSecJaiD6ssp4YqFoj9eZ7GrCJ66')
>>> address.balance()
0.55
>>> send_to = {'n4SbPWR6EmQMsWaQVYYFXiJgjweGKE4XnQ': 0.1, 'n2NGrooSecJaiD6ssp4YqFoj9eZ7GrCJ66': 0.4}
>>> tx = address.send(to=send_to, fee=0.05, private=private)
>>> tx
Transaction(inputs=1, outputs=2)
>>> tx.inputs[0].is_signed()
True
>>> tx.verify() # Make sure transaction is valid before broadcasting
True
>>> tx.broadcast()
'Transaction Submitted'Create keys/addresses (including segwit)
from cryptotools.BTC import generate_keypair, push, script_to_address, OP
private, public = generate_keypair()
>>> private.hex()
'de4f177274d29f88a5805333e10525f5dd41634455dfadc8849b977802481ccd'
>>> private.wif(compressed=False)
'5KWCAYLo35uZ9ibPTzTUDXESTE6ne8p1eXviYMHwaoS4tpvYCAp'
>>> public.hex()
'047e30fd478b44869850352daef8f5f7a7b5233044018d465431afdc0b436c973e8df1244189d25ae73d90c90cc0f998eb9784adecaecc46e8c536d7d6845fa26e'
>>> public.to_address('P2PKH')
'19dFXDxiD4KrUTNFfcgeekFpQmUC553GzW'
# Simple <key> <OP_CHECKSIG> script
>>> script = push(public.encode(compressed=True)) + OP.CHECKSIG.byte
>>> script_to_address(script, 'P2WSH')
'bc1q8yh8l8ft3220q328hlapqhflpzy6xvkq6u36mctk8gq5pyxm3rwqv5h5dg'
# nested P2WSH into P2SH -- use with caution
>>> script_to_address(script, 'P2WSH-P2SH')
'34eBzenHJEdk5PK9ojuuBZvCRtNhvvysYZ'from cryptotools.ECDSA.secp256k1 import CURVE, PrivateKey
private = PrivateKey.random()
>>> private.int()
8034465994996476238286561766373949549982328752707977290709076444881813294372
>>> public = private.to_public()
>>> public
PublicKey(102868560361119050321154887315228169307787313299675114268359376451780341556078, 83001804479408277471207716276761041184203185393579361784723900699449806360826)
>>> public.point in CURVE
True
>>> public.to_address('P2WPKH')
'bc1qh2egksgfejqpktc3kkdtuqqrukrpzzp9lr0phn'Vanity address generator
from cryptotools.BTC.address import vanity
>>> private, public, address = vanity('Bob') # Takes forever
Found address starting with Bob in 1:17:55 after 80,111 triesRSA
from cryptotools import RSA
private, public = RSA.generate_keypair(512)
>>> txt = 'deadbeef'
>>> message = RSA.Message.from_hex(txt)
>>> message
b'\xde\xad\xbe\xef'
>>> message.encrypt(public)
>>> message
b'\x05\xe3q\x92\x1c=)\xaev\xe8\x8d\x8c\x9f\x8d\xde\x17\xdc\x95y\x1e\x90N\xf1A\x816\xb7|z\x83...'
>>> message.decrypt(private)
>>> message.hex() == txt
True
>>> message.encrypt(private)
>>> message.decrypt(public)
>>> message.hex() == txt
Trueto run tests
$ python -m unittestfrom the project directory