コード例 #1
0
        def do_test(exp_hex, wif, c_wif, public_pair_sec, c_public_pair_sec,
                    address_b58, c_address_b58):
            secret_exponent = int(exp_hex, 16)
            sec = h2b(public_pair_sec)
            c_sec = h2b(c_public_pair_sec)

            self.assertEqual(
                secret_exponent_to_wif(secret_exponent, compressed=False), wif)
            self.assertEqual(
                secret_exponent_to_wif(secret_exponent, compressed=True),
                c_wif)

            key = BitcoinMainnet.ui.parse(wif)
            exponent = key.secret_exponent()
            compressed = not key._use_uncompressed()
            self.assertEqual(exponent, secret_exponent)
            self.assertFalse(compressed)

            key = BitcoinMainnet.ui.parse(c_wif)
            exponent = key.secret_exponent()
            compressed = not key._use_uncompressed()
            self.assertEqual(exponent, secret_exponent)
            self.assertTrue(compressed)

            public_pair = secret_exponent * secp256k1_generator

            pk_public_pair = sec_to_public_pair(sec, secp256k1_generator)
            compressed = is_sec_compressed(sec)
            self.assertEqual(pk_public_pair, public_pair)
            self.assertFalse(is_sec_compressed(sec))
            self.assertEqual(
                public_pair_to_sec(pk_public_pair, compressed=False), sec)

            pk_public_pair = sec_to_public_pair(c_sec, secp256k1_generator)
            compressed = is_sec_compressed(c_sec)
            self.assertEqual(pk_public_pair, public_pair)
            self.assertTrue(compressed)
            self.assertEqual(
                public_pair_to_sec(pk_public_pair, compressed=True), c_sec)

            bca = public_pair_to_bitcoin_address(pk_public_pair,
                                                 compressed=True)
            self.assertEqual(bca, c_address_b58)

            self.assertEqual(
                bitcoin_address_to_hash160_sec(c_address_b58),
                public_pair_to_hash160_sec(pk_public_pair, compressed=True))

            bca = public_pair_to_bitcoin_address(pk_public_pair,
                                                 compressed=False)
            self.assertEqual(bca, address_b58)

            self.assertEqual(
                bitcoin_address_to_hash160_sec(address_b58),
                public_pair_to_hash160_sec(pk_public_pair, compressed=False))
コード例 #2
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ファイル: SECParser.py プロジェクト: alanxu89/pycoin
 def info_for_sec(self, prefix, text):
     sec = h2b(text)
     public_pair = sec_to_public_pair(sec, self._generator)
     is_compressed = is_sec_compressed(sec)
     kwargs = dict(public_pair=public_pair, is_compressed=is_compressed)
     return dict(type="key", key_type="sec", is_private=False, kwargs=kwargs,
                 key_class=self._key_class, create_f=lambda: self._key_class(**kwargs))
コード例 #3
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ファイル: Key.py プロジェクト: alanxu89/pycoin
 def from_sec(class_, sec, generator=None):
     """
     Create a key from an sec bytestream (which is an encoding of a public pair).
     """
     generator = generator or class_._default_generator
     public_pair = sec_to_public_pair(sec, generator)
     return class_(public_pair=public_pair, is_compressed=is_sec_compressed(sec))
コード例 #4
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ファイル: SECParser.py プロジェクト: litecoinmessiah/m5
 def info_for_sec(self, prefix, text):
     sec = h2b(text)
     public_pair = sec_to_public_pair(sec, self._generator)
     is_compressed = is_sec_compressed(sec)
     kwargs = dict(public_pair=public_pair, is_compressed=is_compressed)
     return dict(type="key", key_type="sec", is_private=False, kwargs=kwargs,
                 key_class=self._key_class, create_f=lambda: self._key_class(**kwargs))
コード例 #5
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 def from_sec(class_, sec, generator):
     """
     Create a key from an sec bytestream (which is an encoding of a public pair).
     """
     public_pair = sec_to_public_pair(sec, generator)
     return class_(public_pair=public_pair,
                   is_compressed=is_sec_compressed(sec))
コード例 #6
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        def do_test(exp_hex, wif, c_wif, public_pair_sec, c_public_pair_sec, address_b58, c_address_b58):
            secret_exponent = int(exp_hex, 16)
            sec = h2b(public_pair_sec)
            c_sec = h2b(c_public_pair_sec)

            self.assertEqual(secret_exponent_to_wif(secret_exponent, compressed=False), wif)
            self.assertEqual(secret_exponent_to_wif(secret_exponent, compressed=True), c_wif)

            key = network.parse.wif(wif)
            exponent = key.secret_exponent()
            compressed = key.is_compressed()
            self.assertEqual(exponent, secret_exponent)
            self.assertFalse(compressed)

            key = network.parse.wif(c_wif)
            exponent = key.secret_exponent()
            compressed = key.is_compressed()
            self.assertEqual(exponent, secret_exponent)
            self.assertTrue(compressed)

            public_pair = secret_exponent * key._generator

            pk_public_pair = sec_to_public_pair(sec, key._generator)
            compressed = is_sec_compressed(sec)
            self.assertEqual(pk_public_pair, public_pair)
            self.assertFalse(is_sec_compressed(sec))
            self.assertEqual(public_pair_to_sec(pk_public_pair, compressed=False), sec)

            pk_public_pair = sec_to_public_pair(c_sec, key._generator)
            compressed = is_sec_compressed(c_sec)
            self.assertEqual(pk_public_pair, public_pair)
            self.assertTrue(compressed)
            self.assertEqual(public_pair_to_sec(pk_public_pair, compressed=True), c_sec)

            bca = public_pair_to_bitcoin_address(pk_public_pair, compressed=True)
            self.assertEqual(bca, c_address_b58)

            self.assertEqual(bitcoin_address_to_hash160_sec(c_address_b58),
                             public_pair_to_hash160_sec(pk_public_pair, compressed=True))

            bca = public_pair_to_bitcoin_address(pk_public_pair, compressed=False)
            self.assertEqual(bca, address_b58)

            self.assertEqual(bitcoin_address_to_hash160_sec(address_b58),
                             public_pair_to_hash160_sec(pk_public_pair, compressed=False))
コード例 #7
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ファイル: encoding_test.py プロジェクト: alanxu89/pycoin
        def do_test(as_public_pair, as_sec, is_compressed, as_hash160_sec, as_bitcoin_address):
            self.assertEqual(sec_to_public_pair(as_sec, secp256k1_generator), as_public_pair)
            self.assertEqual(public_pair_to_sec(as_public_pair, compressed=is_compressed), as_sec)
            self.assertEqual(is_sec_compressed(as_sec), is_compressed)
            self.assertEqual(public_pair_to_hash160_sec(as_public_pair, compressed=is_compressed),
                             as_hash160_sec)

            self.assertEqual(BitcoinMainnet.ui.address_for_p2pkh(as_hash160_sec), as_bitcoin_address)
            self.assertTrue(is_address_valid(as_bitcoin_address))
            bad_address = as_bitcoin_address[:17] + chr(ord(as_bitcoin_address[17]) + 1) + as_bitcoin_address[18:]
            self.assertFalse(is_address_valid(bad_address))
コード例 #8
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        def do_test(as_public_pair, as_sec, is_compressed, as_hash160_sec,
                    as_bitcoin_address):
            self.assertEqual(sec_to_public_pair(as_sec, secp256k1_generator),
                             as_public_pair)
            self.assertEqual(
                public_pair_to_sec(as_public_pair, compressed=is_compressed),
                as_sec)
            self.assertEqual(is_sec_compressed(as_sec), is_compressed)
            self.assertEqual(
                public_pair_to_hash160_sec(as_public_pair,
                                           compressed=is_compressed),
                as_hash160_sec)

            self.assertEqual(network.address.for_p2pkh(as_hash160_sec),
                             as_bitcoin_address)
            self.assertIsNotNone(network.parse.address(as_bitcoin_address))
            bad_address = as_bitcoin_address[:17] + chr(
                ord(as_bitcoin_address[17]) + 1) + as_bitcoin_address[18:]
            self.assertIsNone(network.parse.address(bad_address))
コード例 #9
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        def do_test(as_public_pair, as_sec, is_compressed, as_hash160_sec,
                    as_bitcoin_address):
            self.assertEqual(sec_to_public_pair(as_sec, secp256k1_generator),
                             as_public_pair)
            self.assertEqual(
                public_pair_to_sec(as_public_pair, compressed=is_compressed),
                as_sec)
            self.assertEqual(is_sec_compressed(as_sec), is_compressed)
            self.assertEqual(
                public_pair_to_hash160_sec(as_public_pair,
                                           compressed=is_compressed),
                as_hash160_sec)

            self.assertEqual(
                BitcoinMainnet.ui.address_for_p2pkh(as_hash160_sec),
                as_bitcoin_address)
            self.assertTrue(is_address_valid(as_bitcoin_address))
            bad_address = as_bitcoin_address[:17] + chr(
                ord(as_bitcoin_address[17]) + 1) + as_bitcoin_address[18:]
            self.assertFalse(is_address_valid(bad_address))
コード例 #10
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ファイル: annotate.py プロジェクト: mebagger/pycoin-1
 def annotate_pubkey(self, blob, da):
     is_compressed = is_sec_compressed(blob)
     address = self._address.for_p2pkh(hash160(blob))
     da[blob].append("SEC for %scompressed %s" % ("" if is_compressed else "un", address))