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bitcoinbook/code/ec-math.py

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import ecdsa
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import os
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# secp256k1, http://www.oid-info.com/get/1.3.132.0.10
_p = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F
_r = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141
_b = 0x0000000000000000000000000000000000000000000000000000000000000007
_a = 0x0000000000000000000000000000000000000000000000000000000000000000
_Gx = 0x79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798
_Gy = 0x483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8
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curve_secp256k1 = ecdsa.ellipticcurve.CurveFp(_p, _a, _b)
generator_secp256k1 = ecdsa.ellipticcurve.Point(curve_secp256k1, _Gx, _Gy, _r)
oid_secp256k1 = (1, 3, 132, 0, 10)
SECP256k1 = ecdsa.curves.Curve("SECP256k1", curve_secp256k1,
generator_secp256k1, oid_secp256k1)
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ec_order = _r
curve = curve_secp256k1
generator = generator_secp256k1
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def random_secret():
# Collect 256 bits of random data from the OS's cryptographically secure
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# random number generator
byte_array = (os.urandom(32)).hex()
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return int(byte_array,16)
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def get_point_pubkey(point):
if (point.y() % 2) == 1:
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key = '03' + '%064x' % point.x()
else:
key = '02' + '%064x' % point.x()
return key
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def get_point_pubkey_uncompressed(point):
key = ('04' +
'%064x' % point.x() +
'%064x' % point.y())
return key
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# Generate a new private key.
secret = random_secret()
print("Secret: ", secret)
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# Get the public key point.
point = secret * generator
print("Elliptic Curve point:", point)
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print("BTC public key:", get_point_pubkey(point))
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# Given the point (x, y) we can create the object using:
point1 = ecdsa.ellipticcurve.Point(curve, point.x(), point.y(), ec_order)
assert(point1 == point)