コード例 #1
0
    def test_from_seed_and_path(self):
        for test in TEST_VECT_BIP32:
            # Create from seed
            bip32_ctx = Bip32.FromSeedAndPath(binascii.unhexlify(test["seed"]), "m")
            # Test master key
            self.assertEqual(test["master"]["ex_pub"] , bip32_ctx.PublicKey().ToExtended())
            self.assertEqual(test["master"]["ex_priv"], bip32_ctx.PrivateKey().ToExtended())

            # Test derivation paths
            for chain in test["der_paths"]:
                # Try to build from path and test again
                bip32_from_path = Bip32.FromSeedAndPath(binascii.unhexlify(test["seed"]), chain["path"])
                # Test keys
                self.assertEqual(chain["ex_pub"] , bip32_from_path.PublicKey().ToExtended())
                self.assertEqual(chain["ex_priv"], bip32_from_path.PrivateKey().ToExtended())
コード例 #2
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ファイル: hdnode.py プロジェクト: vechain/thor-devkit.py
    def from_mnemonic(words: List[str], init_path=VET_EXTERNAL_PATH):
        '''
        Construct an HD Node from a set of words.
        The init_path is m/44'/818'/0'/0 by default on VeChain.

        Note
        ----
            The words will generate a seed,
            which will be further developed into
            a "m" secret key and "chain code".

        Parameters
        ----------
        words : List[str]
            Mnemonic words, usually 12 words.
        init_path : str, optional
            The initial derivation path, by default VET_EXTERNAL_PATH

        Returns
        -------
        HDNode
            A new HDNode.
        '''

        seed = derive_seed(words)  # 64 bytes
        bip32_ctx = Bip32.FromSeedAndPath(seed, init_path)
        return HDNode(bip32_ctx)
コード例 #3
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ファイル: hdnode.py プロジェクト: vechain/thor-devkit.py
    def from_seed(seed: bytes, init_path=VET_EXTERNAL_PATH):
        '''
        Construct an HD Node from a seed (64 bytes).
        The init_path is m/44'/818'/0'/0 for starting.
        or you can simply put in 44'/818'/0'/0

        Note
        ----
            The seed will be further developed into
            a "m" secret key and "chain code".

        Parameters
        ----------
        seed : bytes
            Seed itself.
        init_path : str, optional
            The derive path, by default VET_EXTERNAL_PATH

        Returns
        -------
        HDNode
            A new HDNode.
        '''
        bip32_ctx = Bip32.FromSeedAndPath(seed, init_path)
        return HDNode(bip32_ctx)
コード例 #4
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ファイル: vanity_bip.py プロジェクト: EggPool/rtm-vanity
def get_addresses_from(mnemonic):
    seed_bytes = Bip39SeedGenerator(mnemonic).Generate()
    addresses = []
    # TODO: manually derive last index from one parent to save some time, allow other derive paths
    for i in range(0, options.indices - 1):
        bip32_ctx = Bip32.FromSeedAndPath(seed_bytes, f"m/0'/2'/{i}")
        key = Key(bip32_ctx.PrivateKey().Raw().ToHex())
        addresses.append(key.address)
    return addresses
コード例 #5
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def get_account_from_words(words: str,
                           index: int = 0,
                           hd_path: str = ETHEREUM_PATH) -> Account:
    """
    :param words: Mnemonic words generated using Bip39
    :param index: Index of account
    :param hd_path: Bip44 Path. By default Ethereum is used
    :return: List of ethereum public addresses
    """
    seed = Bip39SeedGenerator(words).Generate()
    bip32_ctx = Bip32.FromSeedAndPath(seed, hd_path)
    return Account.from_key(
        bip32_ctx.ChildKey(index).PrivateKey().Raw().ToBytes())
コード例 #6
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def get_address_from_words(words: str,
                           index: int = 0,
                           hd_path: str = ETHEREUM_PATH) -> str:
    """
    :param words: Mnemonic words generated using Bip39
    :param index: Index of account
    :param hd_path: Bip44 Path. By default Ethereum is used
    :return: List of ethereum public addresses
    """
    seed = Bip39SeedGenerator(words).Generate()
    bip32_ctx = Bip32.FromSeedAndPath(seed, hd_path)
    pub_key = bip32_ctx.ChildKey(index).m_ver_key.pubkey
    return checksum_encode(
        sha3(
            encode_int32(pub_key.point.x()) +
            encode_int32(pub_key.point.y()))[12:])
コード例 #7
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def generate_bitcoin_wallet(query_params={}):
    if blockchain_validator.generate_litecoin_wallet(query_params):
        if query_params != {}:
            mnemonic = query_params['mnemonic']
        else:
            mnemonic = wallet.generate_mnemonic(strength=256)

        if Bip39MnemonicValidator(mnemonic).Validate():
            seed_bytes = Bip39SeedGenerator(mnemonic).Generate()
            bip32_ctx = Bip32.FromSeedAndPath(seed_bytes, "m/44'/0'/0'/0")
            return {
                "xpriv": bip32_ctx.PrivateKey().ToExtended(),
                "xpub": bip32_ctx.PublicKey().ToExtended(),
                "mnemonic": mnemonic
            }
        else:
            return 'Mnemonic is not valid!'
コード例 #8
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def derive_private_key(words: List[str], index: int = 0) -> bytes:
    '''
    Get a private key from the mnemonic wallet,
    default to the 0 index of the deviration. (first key)

    Parameters
    ----------
    words : List[str]
        A list of english words.
    index : int, optional
        The private key index, first private key., by default 0

    Returns
    -------
    bytes
        [description]
    '''
    seed = derive_seed(words)
    bip32_ctx = Bip32.FromSeedAndPath(seed, _get_vet_key_path(index))
    return bip32_ctx.PrivateKey().Raw().ToBytes()
コード例 #9
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from avaxpython.utils.formatting.encoding import Encoding
from bip_utils import Bip32
import  ref
import json

sample_wallet = next(generator.generate(1, Config.KEY_SIZE))
word_length = len(sample_wallet.split(" "))

if len(sys.argv) != word_length+1:
    print("Invalid phrase length provided. Got {} expected {}.".format(len(sys.argv)-1, word_length))
    exit(1)

seed = Mnemonic("english").to_seed(" ".join(sys.argv[1:]), passphrase="")

masterHdKey = Bip32.FromSeed(seed)
accountHdKey = Bip32.FromSeedAndPath(seed, WalletConfig.AVA_ACCOUNT_PATH)

# the first private key generated by an HD wallet seeded from this mnemonic phrase
firstHDKey = BIP32.derive_master_key(accountHdKey, '0/0')

masterKey = masterHdKey.PrivateKey().Raw().ToBytes()
accountKey = accountHdKey.PrivateKey().Raw().ToBytes()
firstKey = firstHDKey.PrivateKey().Raw().ToBytes()

enc = Encoding()
pkey_prefix = "PrivateKey-{}"

masterKeyEncoded = pkey_prefix.format(enc.Encode(masterKey))
accountKeyEncoded = pkey_prefix.format(enc.Encode(accountKey))
firstKeyEncoded = pkey_prefix.format(enc.Encode(firstKey))
コード例 #10
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    print("No mnemonic given")
    exit(1)

mnemonic = sys.argv[1]

words = mnemonic.split(" ")
print("BIP39 mnemonic starts with: {} {} ...".format(words[0], words[1]))

seed_bytes = Bip39SeedGenerator(mnemonic).Generate()
print("BIP39 seed: {}".format(hexlify(seed_bytes).decode("utf-8")))

bip32 = Bip32.FromSeed(seed_bytes)
print("BIP32 root key: {}".format(bip32.PrivateKey().ToExtended()))

derivation_path = "m/44'/60'/0'/0"

extended = Bip32.FromSeedAndPath(seed_bytes, derivation_path)
print("BIP32 extended public key: {}".format(
    extended.PublicKey().ToExtended()))
print("BIP32 extended private key: {}".format(
    extended.PrivateKey().ToExtended()))

derived_0_path = f"{derivation_path}/0"
derived_0_address = extended.DerivePath("0")
print("Derived {} public key: {}".format(
    derived_0_path,
    derived_0_address.EcdsaPublicKey().RawCompressed().ToHex()))
print("Derived {} private key: {}".format(
    derived_0_path,
    derived_0_address.EcdsaPrivateKey().Raw().ToHex()))