308 lines
11 KiB
Python
308 lines
11 KiB
Python
from asn1crypto.keys import PrivateKeyInfo, ECPrivateKey
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from coincurve import PublicKey as cPublicKey, PrivateKey as cPrivateKey
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from coincurve.utils import (
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pem_to_der, lib as libsecp256k1, ffi as libsecp256k1_ffi
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)
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from coincurve.ecdsa import CDATA_SIG_LENGTH
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from lbry.crypto.hash import hmac_sha512, hash160, double_sha256
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from lbry.crypto.base58 import Base58
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from .util import cachedproperty
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class KeyPath:
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RECEIVE = 0
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CHANGE = 1
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CHANNEL = 2
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class DerivationError(Exception):
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""" Raised when an invalid derivation occurs. """
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class _KeyBase:
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""" A BIP32 Key, public or private. """
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def __init__(self, ledger, chain_code, n, depth, parent):
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if not isinstance(chain_code, (bytes, bytearray)):
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raise TypeError('chain code must be raw bytes')
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if len(chain_code) != 32:
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raise ValueError('invalid chain code')
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if not 0 <= n < 1 << 32:
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raise ValueError('invalid child number')
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if not 0 <= depth < 256:
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raise ValueError('invalid depth')
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if parent is not None:
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if not isinstance(parent, type(self)):
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raise TypeError('parent key has bad type')
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self.ledger = ledger
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self.chain_code = chain_code
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self.n = n
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self.depth = depth
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self.parent = parent
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def _hmac_sha512(self, msg):
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""" Use SHA-512 to provide an HMAC, returned as a pair of 32-byte objects. """
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hmac = hmac_sha512(self.chain_code, msg)
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return hmac[:32], hmac[32:]
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def _extended_key(self, ver_bytes, raw_serkey):
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""" Return the 78-byte extended key given prefix version bytes and serialized key bytes. """
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if not isinstance(ver_bytes, (bytes, bytearray)):
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raise TypeError('ver_bytes must be raw bytes')
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if len(ver_bytes) != 4:
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raise ValueError('ver_bytes must have length 4')
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if not isinstance(raw_serkey, (bytes, bytearray)):
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raise TypeError('raw_serkey must be raw bytes')
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if len(raw_serkey) != 33:
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raise ValueError('raw_serkey must have length 33')
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return (
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ver_bytes + bytes((self.depth,))
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+ self.parent_fingerprint() + self.n.to_bytes(4, 'big')
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+ self.chain_code + raw_serkey
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)
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def identifier(self):
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raise NotImplementedError
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def extended_key(self):
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raise NotImplementedError
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def fingerprint(self):
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""" Return the key's fingerprint as 4 bytes. """
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return self.identifier()[:4]
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def parent_fingerprint(self):
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""" Return the parent key's fingerprint as 4 bytes. """
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return self.parent.fingerprint() if self.parent else bytes((0,)*4)
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def extended_key_string(self):
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""" Return an extended key as a base58 string. """
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return Base58.encode_check(self.extended_key())
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class PublicKey(_KeyBase):
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""" A BIP32 public key. """
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def __init__(self, ledger, pubkey, chain_code, n, depth, parent=None):
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super().__init__(ledger, chain_code, n, depth, parent)
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if isinstance(pubkey, cPublicKey):
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self.verifying_key = pubkey
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else:
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self.verifying_key = self._verifying_key_from_pubkey(pubkey)
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@classmethod
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def _verifying_key_from_pubkey(cls, pubkey):
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""" Converts a 33-byte compressed pubkey into an coincurve.PublicKey object. """
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if not isinstance(pubkey, (bytes, bytearray)):
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raise TypeError('pubkey must be raw bytes')
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if len(pubkey) != 33:
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raise ValueError('pubkey must be 33 bytes')
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if pubkey[0] not in (2, 3):
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raise ValueError('invalid pubkey prefix byte')
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return cPublicKey(pubkey)
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@cachedproperty
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def pubkey_bytes(self):
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""" Return the compressed public key as 33 bytes. """
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return self.verifying_key.format(True)
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@cachedproperty
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def address(self):
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""" The public key as a P2PKH address. """
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return self.ledger.public_key_to_address(self.pubkey_bytes)
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def ec_point(self):
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return self.verifying_key.point()
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def child(self, n: int) -> 'PublicKey':
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""" Return the derived child extended pubkey at index N. """
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if not 0 <= n < (1 << 31):
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raise ValueError('invalid BIP32 public key child number')
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msg = self.pubkey_bytes + n.to_bytes(4, 'big')
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L_b, R_b = self._hmac_sha512(msg) # pylint: disable=invalid-name
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derived_key = self.verifying_key.add(L_b)
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return PublicKey(self.ledger, derived_key, R_b, n, self.depth + 1, self)
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def identifier(self):
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""" Return the key's identifier as 20 bytes. """
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return hash160(self.pubkey_bytes)
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def extended_key(self):
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""" Return a raw extended public key. """
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return self._extended_key(
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self.ledger.extended_public_key_prefix,
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self.pubkey_bytes
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)
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def verify(self, signature, data):
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""" Produce a signature for piece of data by double hashing it and signing the hash. """
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return self.verifying_key.verify(signature, data, hasher=double_sha256)
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class PrivateKey(_KeyBase):
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"""A BIP32 private key."""
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HARDENED = 1 << 31
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def __init__(self, ledger, privkey, chain_code, n, depth, parent=None):
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super().__init__(ledger, chain_code, n, depth, parent)
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if isinstance(privkey, cPrivateKey):
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self.signing_key = privkey
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else:
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self.signing_key = self._signing_key_from_privkey(privkey)
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@classmethod
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def _signing_key_from_privkey(cls, private_key):
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""" Converts a 32-byte private key into an coincurve.PrivateKey object. """
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return cPrivateKey.from_int(PrivateKey._private_key_secret_exponent(private_key))
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@classmethod
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def _private_key_secret_exponent(cls, private_key):
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""" Return the private key as a secret exponent if it is a valid private key. """
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if not isinstance(private_key, (bytes, bytearray)):
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raise TypeError('private key must be raw bytes')
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if len(private_key) != 32:
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raise ValueError('private key must be 32 bytes')
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return int.from_bytes(private_key, 'big')
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@classmethod
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def from_seed(cls, ledger, seed) -> 'PrivateKey':
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# This hard-coded message string seems to be coin-independent...
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hmac = hmac_sha512(b'Bitcoin seed', seed)
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privkey, chain_code = hmac[:32], hmac[32:]
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return cls(ledger, privkey, chain_code, 0, 0)
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@classmethod
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def from_pem(cls, ledger, pem) -> 'PrivateKey':
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der = pem_to_der(pem.encode())
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try:
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key_int = ECPrivateKey.load(der).native['private_key']
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except ValueError:
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key_int = PrivateKeyInfo.load(der).native['private_key']['private_key']
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private_key = cPrivateKey.from_int(key_int)
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return cls(ledger, private_key, bytes((0,)*32), 0, 0)
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@cachedproperty
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def private_key_bytes(self):
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""" Return the serialized private key (no leading zero byte). """
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return self.signing_key.secret
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@cachedproperty
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def public_key(self) -> PublicKey:
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""" Return the corresponding extended public key. """
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verifying_key = self.signing_key.public_key
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parent_pubkey = self.parent.public_key if self.parent else None
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return PublicKey(
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self.ledger, verifying_key, self.chain_code,
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self.n, self.depth, parent_pubkey
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)
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def ec_point(self):
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return self.public_key.ec_point()
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def secret_exponent(self):
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""" Return the private key as a secret exponent. """
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return self.signing_key.to_int()
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def wif(self):
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""" Return the private key encoded in Wallet Import Format. """
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return self.ledger.private_key_to_wif(self.private_key_bytes)
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@property
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def address(self):
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""" The public key as a P2PKH address. """
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return self.public_key.address
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def child(self, n) -> 'PrivateKey':
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""" Return the derived child extended private key at index N."""
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if not 0 <= n < (1 << 32):
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raise ValueError('invalid BIP32 private key child number')
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if n >= self.HARDENED:
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serkey = b'\0' + self.private_key_bytes
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else:
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serkey = self.public_key.pubkey_bytes
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msg = serkey + n.to_bytes(4, 'big')
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L_b, R_b = self._hmac_sha512(msg) # pylint: disable=invalid-name
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derived_key = self.signing_key.add(L_b)
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return PrivateKey(self.ledger, derived_key, R_b, n, self.depth + 1, self)
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def sign(self, data):
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""" Produce a signature for piece of data by double hashing it and signing the hash. """
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return self.signing_key.sign(data, hasher=double_sha256)
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def sign_compact(self, digest):
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""" Produce a compact signature. """
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key = self.signing_key
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signature = libsecp256k1_ffi.new('secp256k1_ecdsa_signature *')
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signed = libsecp256k1.secp256k1_ecdsa_sign(
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key.context.ctx, signature, digest, key.secret,
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libsecp256k1_ffi.NULL, libsecp256k1_ffi.NULL
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)
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if not signed:
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raise ValueError('The private key was invalid.')
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serialized = libsecp256k1_ffi.new('unsigned char[%d]' % CDATA_SIG_LENGTH)
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compacted = libsecp256k1.secp256k1_ecdsa_signature_serialize_compact(
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key.context.ctx, serialized, signature
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)
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if compacted != 1:
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raise ValueError('The signature could not be compacted.')
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return bytes(libsecp256k1_ffi.buffer(serialized, CDATA_SIG_LENGTH))
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def identifier(self):
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"""Return the key's identifier as 20 bytes."""
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return self.public_key.identifier()
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def extended_key(self):
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"""Return a raw extended private key."""
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return self._extended_key(
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self.ledger.extended_private_key_prefix,
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b'\0' + self.private_key_bytes
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)
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def to_pem(self):
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return self.signing_key.to_pem()
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def _from_extended_key(ledger, ekey):
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"""Return a PublicKey or PrivateKey from an extended key raw bytes."""
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if not isinstance(ekey, (bytes, bytearray)):
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raise TypeError('extended key must be raw bytes')
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if len(ekey) != 78:
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raise ValueError('extended key must have length 78')
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depth = ekey[4]
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n = int.from_bytes(ekey[9:13], 'big')
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chain_code = ekey[13:45]
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if ekey[:4] == ledger.extended_public_key_prefix:
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pubkey = ekey[45:]
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key = PublicKey(ledger, pubkey, chain_code, n, depth)
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elif ekey[:4] == ledger.extended_private_key_prefix:
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if ekey[45] != 0:
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raise ValueError('invalid extended private key prefix byte')
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privkey = ekey[46:]
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key = PrivateKey(ledger, privkey, chain_code, n, depth)
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else:
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raise ValueError('version bytes unrecognised')
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return key
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def from_extended_key_string(ledger, ekey_str):
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"""Given an extended key string, such as
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xpub6BsnM1W2Y7qLMiuhi7f7dbAwQZ5Cz5gYJCRzTNainXzQXYjFwtuQXHd
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3qfi3t3KJtHxshXezfjft93w4UE7BGMtKwhqEHae3ZA7d823DVrL
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return a PublicKey or PrivateKey.
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"""
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return _from_extended_key(ledger, Base58.decode_check(ekey_str))
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