from __future__ import division from . import der, ecdsa class UnknownCurveError(Exception): pass def orderlen(order): return (1+len("%x"%order))//2 # bytes # the NIST curves class Curve: def __init__(self, name, curve, generator, oid, openssl_name=None): self.name = name self.openssl_name = openssl_name # maybe None self.curve = curve self.generator = generator self.order = generator.order() self.baselen = orderlen(self.order) self.verifying_key_length = 2*self.baselen self.signature_length = 2*self.baselen self.oid = oid self.encoded_oid = der.encode_oid(*oid) NIST192p = Curve("NIST192p", ecdsa.curve_192, ecdsa.generator_192, (1, 2, 840, 10045, 3, 1, 1), "prime192v1") NIST224p = Curve("NIST224p", ecdsa.curve_224, ecdsa.generator_224, (1, 3, 132, 0, 33), "secp224r1") NIST256p = Curve("NIST256p", ecdsa.curve_256, ecdsa.generator_256, (1, 2, 840, 10045, 3, 1, 7), "prime256v1") NIST384p = Curve("NIST384p", ecdsa.curve_384, ecdsa.generator_384, (1, 3, 132, 0, 34), "secp384r1") NIST521p = Curve("NIST521p", ecdsa.curve_521, ecdsa.generator_521, (1, 3, 132, 0, 35), "secp521r1") SECP256k1 = Curve("SECP256k1", ecdsa.curve_secp256k1, ecdsa.generator_secp256k1, (1, 3, 132, 0, 10), "secp256k1") curves = [NIST192p, NIST224p, NIST256p, NIST384p, NIST521p, SECP256k1] def find_curve(oid_curve): for c in curves: if c.oid == oid_curve: return c raise UnknownCurveError("I don't know about the curve with oid %s." "I only know about these: %s" % (oid_curve, [c.name for c in curves]))