lbry-sdk/lbry/wallet/transaction.py

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import struct
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import hashlib
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import logging
import typing
from binascii import hexlify, unhexlify
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from typing import List, Iterable, Optional, Tuple
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import ecdsa
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from cryptography.hazmat.backends import default_backend
from cryptography.hazmat.primitives.serialization import load_der_public_key
from cryptography.hazmat.primitives import hashes
from cryptography.hazmat.primitives.asymmetric import ec
from cryptography.hazmat.primitives.asymmetric.utils import Prehashed
from cryptography.exceptions import InvalidSignature
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from lbry.error import InsufficientFundsError
from lbry.crypto.hash import hash160, sha256
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from lbry.crypto.base58 import Base58
from lbry.schema.url import normalize_name
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from lbry.schema.claim import Claim
from lbry.schema.purchase import Purchase
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from .script import InputScript, OutputScript
from .constants import COIN, NULL_HASH32
from .bcd_data_stream import BCDataStream
from .hash import TXRef, TXRefImmutable
from .util import ReadOnlyList
if typing.TYPE_CHECKING:
from lbry.wallet.account import Account
from lbry.wallet.ledger import Ledger
from lbry.wallet.wallet import Wallet
log = logging.getLogger()
class TXRefMutable(TXRef):
__slots__ = ('tx',)
def __init__(self, tx: 'Transaction') -> None:
super().__init__()
self.tx = tx
@property
def id(self):
if self._id is None:
self._id = hexlify(self.hash[::-1]).decode()
return self._id
@property
def hash(self):
if self._hash is None:
self._hash = sha256(sha256(self.tx.raw_sans_segwit))
return self._hash
@property
def height(self):
return self.tx.height
def reset(self):
self._id = None
self._hash = None
class TXORef:
__slots__ = 'tx_ref', 'position'
def __init__(self, tx_ref: TXRef, position: int) -> None:
self.tx_ref = tx_ref
self.position = position
@property
def id(self):
return f'{self.tx_ref.id}:{self.position}'
@property
def hash(self):
return self.tx_ref.hash + BCDataStream.uint32.pack(self.position)
@property
def is_null(self):
return self.tx_ref.is_null
@property
def txo(self) -> Optional['Output']:
return None
class TXORefResolvable(TXORef):
__slots__ = ('_txo',)
def __init__(self, txo: 'Output') -> None:
assert txo.tx_ref is not None
assert txo.position is not None
super().__init__(txo.tx_ref, txo.position)
self._txo = txo
@property
def txo(self):
return self._txo
class InputOutput:
__slots__ = 'tx_ref', 'position'
def __init__(self, tx_ref: TXRef = None, position: int = None) -> None:
self.tx_ref = tx_ref
self.position = position
@property
def size(self) -> int:
""" Size of this input / output in bytes. """
stream = BCDataStream()
self.serialize_to(stream)
return len(stream.get_bytes())
def get_fee(self, ledger):
return self.size * ledger.fee_per_byte
def serialize_to(self, stream, alternate_script=None):
raise NotImplementedError
class Input(InputOutput):
NULL_SIGNATURE = b'\x00'*72
NULL_PUBLIC_KEY = b'\x00'*33
__slots__ = 'txo_ref', 'sequence', 'coinbase', 'script'
def __init__(self, txo_ref: TXORef, script: InputScript, sequence: int = 0xFFFFFFFF,
tx_ref: TXRef = None, position: int = None) -> None:
super().__init__(tx_ref, position)
self.txo_ref = txo_ref
self.sequence = sequence
self.coinbase = script if txo_ref.is_null else None
self.script = script if not txo_ref.is_null else None
@property
def is_coinbase(self):
return self.coinbase is not None
@classmethod
def spend(cls, txo: 'Output') -> 'Input':
""" Create an input to spend the output."""
assert txo.script.is_pay_pubkey_hash, 'Attempting to spend unsupported output.'
script = InputScript.redeem_pubkey_hash(cls.NULL_SIGNATURE, cls.NULL_PUBLIC_KEY)
return cls(txo.ref, script)
@property
def amount(self) -> int:
""" Amount this input adds to the transaction. """
if self.txo_ref.txo is None:
raise ValueError('Cannot resolve output to get amount.')
return self.txo_ref.txo.amount
@property
def is_my_input(self) -> Optional[bool]:
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""" True if the output this input spends is yours. """
if self.txo_ref.txo is None:
return False
return self.txo_ref.txo.is_my_output
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@classmethod
def deserialize_from(cls, stream):
tx_ref = TXRefImmutable.from_hash(stream.read(32), -1)
position = stream.read_uint32()
script = stream.read_string()
sequence = stream.read_uint32()
return cls(
TXORef(tx_ref, position),
InputScript(script) if not tx_ref.is_null else script,
sequence
)
def serialize_to(self, stream, alternate_script=None):
stream.write(self.txo_ref.tx_ref.hash)
stream.write_uint32(self.txo_ref.position)
if alternate_script is not None:
stream.write_string(alternate_script)
else:
if self.is_coinbase:
stream.write_string(self.coinbase)
else:
stream.write_string(self.script.source)
stream.write_uint32(self.sequence)
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class OutputEffectiveAmountEstimator:
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__slots__ = 'txo', 'txi', 'fee', 'effective_amount'
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def __init__(self, ledger: 'Ledger', txo: 'Output') -> None:
self.txo = txo
self.txi = Input.spend(txo)
self.fee: int = self.txi.get_fee(ledger)
self.effective_amount: int = txo.amount - self.fee
def __lt__(self, other):
return self.effective_amount < other.effective_amount
class Output(InputOutput):
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__slots__ = (
'amount', 'script', 'is_internal_transfer', 'is_spent', 'is_my_output', 'is_my_input',
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'channel', 'private_key', 'meta', 'sent_supports', 'sent_tips', 'received_tips',
'purchase', 'purchased_claim', 'purchase_receipt',
'reposted_claim', 'claims',
)
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def __init__(self, amount: int, script: OutputScript,
tx_ref: TXRef = None, position: int = None,
is_internal_transfer: Optional[bool] = None, is_spent: Optional[bool] = None,
is_my_output: Optional[bool] = None, is_my_input: Optional[bool] = None,
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sent_supports: Optional[int] = None, sent_tips: Optional[int] = None,
received_tips: Optional[int] = None,
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channel: Optional['Output'] = None, private_key: Optional[str] = None
) -> None:
super().__init__(tx_ref, position)
self.amount = amount
self.script = script
self.is_internal_transfer = is_internal_transfer
self.is_spent = is_spent
self.is_my_output = is_my_output
self.is_my_input = is_my_input
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self.sent_supports = sent_supports
self.sent_tips = sent_tips
self.received_tips = received_tips
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self.channel = channel
self.private_key = private_key
self.purchase: 'Output' = None # txo containing purchase metadata
self.purchased_claim: 'Output' = None # resolved claim pointed to by purchase
self.purchase_receipt: 'Output' = None # txo representing purchase receipt for this claim
self.reposted_claim: 'Output' = None # txo representing claim being reposted
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self.claims: List['Output'] = None # resolved claims for collection
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self.meta = {}
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def update_annotations(self, annotated: 'Output'):
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if annotated is None:
self.is_internal_transfer = None
self.is_spent = None
self.is_my_output = None
self.is_my_input = None
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self.sent_supports = None
self.sent_tips = None
self.received_tips = None
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else:
self.is_internal_transfer = annotated.is_internal_transfer
self.is_spent = annotated.is_spent
self.is_my_output = annotated.is_my_output
self.is_my_input = annotated.is_my_input
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self.sent_supports = annotated.sent_supports
self.sent_tips = annotated.sent_tips
self.received_tips = annotated.received_tips
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self.channel = annotated.channel if annotated else None
self.private_key = annotated.private_key if annotated else None
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@property
def ref(self):
return TXORefResolvable(self)
@property
def id(self):
return self.ref.id
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@property
def hash(self):
return self.ref.hash
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@property
def pubkey_hash(self):
return self.script.values['pubkey_hash']
@property
def has_address(self):
return 'pubkey_hash' in self.script.values
def get_address(self, ledger):
return ledger.hash160_to_address(self.pubkey_hash)
def get_estimator(self, ledger):
return OutputEffectiveAmountEstimator(ledger, self)
@classmethod
def pay_pubkey_hash(cls, amount, pubkey_hash):
return cls(amount, OutputScript.pay_pubkey_hash(pubkey_hash))
@classmethod
def deserialize_from(cls, stream):
return cls(
amount=stream.read_uint64(),
script=OutputScript(stream.read_string())
)
def serialize_to(self, stream, alternate_script=None):
stream.write_uint64(self.amount)
stream.write_string(self.script.source)
def get_fee(self, ledger):
name_fee = 0
if self.script.is_claim_name:
name_fee = len(self.script.values['claim_name']) * ledger.fee_per_name_char
return max(name_fee, super().get_fee(ledger))
@property
def is_claim(self) -> bool:
return self.script.is_claim_name or self.script.is_update_claim
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@property
def is_support(self) -> bool:
return self.script.is_support_claim
@property
def claim_hash(self) -> bytes:
if self.script.is_claim_name:
return hash160(self.tx_ref.hash + struct.pack('>I', self.position))
elif self.script.is_update_claim or self.script.is_support_claim:
return self.script.values['claim_id']
else:
raise ValueError('No claim_id associated.')
@property
def claim_id(self) -> str:
return hexlify(self.claim_hash[::-1]).decode()
@property
def claim_name(self) -> str:
if self.script.is_claim_involved:
return self.script.values['claim_name'].decode()
raise ValueError('No claim_name associated.')
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@property
def normalized_name(self) -> str:
return normalize_name(self.claim_name)
@property
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def claim(self) -> Claim:
if self.is_claim:
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if not isinstance(self.script.values['claim'], Claim):
self.script.values['claim'] = Claim.from_bytes(self.script.values['claim'])
return self.script.values['claim']
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raise ValueError('Only claim name and claim update have the claim payload.')
@property
def can_decode_claim(self):
try:
return self.claim
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except: # pylint: disable=bare-except
return False
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@property
def permanent_url(self) -> str:
if self.script.is_claim_involved:
return f"lbry://{self.claim_name}#{self.claim_id}"
raise ValueError('No claim associated.')
@property
def has_private_key(self):
return self.private_key is not None
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def get_signature_digest(self, ledger):
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if self.claim.unsigned_payload:
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pieces = [
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Base58.decode(self.get_address(ledger)),
self.claim.unsigned_payload,
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self.claim.signing_channel_hash[::-1]
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]
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else:
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pieces = [
self.tx_ref.tx.inputs[0].txo_ref.hash,
self.claim.signing_channel_hash,
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self.claim.to_message_bytes()
]
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return sha256(b''.join(pieces))
def get_encoded_signature(self):
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signature = hexlify(self.claim.signature)
r = int(signature[:int(len(signature)/2)], 16)
s = int(signature[int(len(signature)/2):], 16)
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return ecdsa.util.sigencode_der(r, s, len(signature)*4)
@staticmethod
def is_signature_valid(encoded_signature, signature_digest, public_key_bytes):
try:
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public_key = load_der_public_key(public_key_bytes, default_backend())
public_key.verify(encoded_signature, signature_digest, ec.ECDSA(Prehashed(hashes.SHA256())))
return True
except (ValueError, InvalidSignature):
pass
return False
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def is_signed_by(self, channel: 'Output', ledger=None):
return self.is_signature_valid(
self.get_encoded_signature(),
self.get_signature_digest(ledger),
channel.claim.channel.public_key_bytes
)
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def sign(self, channel: 'Output', first_input_id=None):
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self.channel = channel
self.claim.signing_channel_hash = channel.claim_hash
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digest = sha256(b''.join([
first_input_id or self.tx_ref.tx.inputs[0].txo_ref.hash,
self.claim.signing_channel_hash,
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self.claim.to_message_bytes()
]))
self.claim.signature = channel.private_key.sign_digest_deterministic(digest, hashfunc=hashlib.sha256)
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self.script.generate()
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def clear_signature(self):
self.channel = None
self.claim.clear_signature()
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def generate_channel_private_key(self):
self.private_key = ecdsa.SigningKey.generate(curve=ecdsa.SECP256k1, hashfunc=hashlib.sha256)
self.claim.channel.public_key_bytes = self.private_key.get_verifying_key().to_der()
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self.script.generate()
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return self.private_key
def is_channel_private_key(self, private_key):
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return self.claim.channel.public_key_bytes == private_key.get_verifying_key().to_der()
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@classmethod
def pay_claim_name_pubkey_hash(
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cls, amount: int, claim_name: str, claim: Claim, pubkey_hash: bytes) -> 'Output':
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script = OutputScript.pay_claim_name_pubkey_hash(
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claim_name.encode(), claim, pubkey_hash)
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return cls(amount, script)
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@classmethod
def pay_update_claim_pubkey_hash(
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cls, amount: int, claim_name: str, claim_id: str, claim: Claim, pubkey_hash: bytes) -> 'Output':
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script = OutputScript.pay_update_claim_pubkey_hash(
claim_name.encode(), unhexlify(claim_id)[::-1], claim, pubkey_hash
)
return cls(amount, script)
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@classmethod
def pay_support_pubkey_hash(cls, amount: int, claim_name: str, claim_id: str, pubkey_hash: bytes) -> 'Output':
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script = OutputScript.pay_support_pubkey_hash(
claim_name.encode(), unhexlify(claim_id)[::-1], pubkey_hash
)
return cls(amount, script)
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@classmethod
def add_purchase_data(cls, purchase: Purchase) -> 'Output':
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script = OutputScript.return_data(purchase)
return cls(0, script)
@property
def is_purchase_data(self) -> bool:
return self.script.is_return_data and (
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isinstance(self.script.values['data'], Purchase) or
Purchase.has_start_byte(self.script.values['data'])
)
@property
def purchase_data(self) -> Purchase:
if self.is_purchase_data:
if not isinstance(self.script.values['data'], Purchase):
self.script.values['data'] = Purchase.from_bytes(self.script.values['data'])
return self.script.values['data']
raise ValueError('Output does not have purchase data.')
@property
def can_decode_purchase_data(self):
try:
return self.purchase_data
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except: # pylint: disable=bare-except
return False
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@property
def purchased_claim_id(self):
if self.purchase is not None:
return self.purchase.purchase_data.claim_id
if self.purchased_claim is not None:
return self.purchased_claim.claim_id
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@property
def purchased_claim_hash(self):
if self.purchase is not None:
return self.purchase.purchase_data.claim_hash
if self.purchased_claim is not None:
return self.purchased_claim.claim_hash
@property
def has_price(self):
if self.can_decode_claim:
claim = self.claim
if claim.is_stream:
stream = claim.stream
return stream.has_fee and stream.fee.amount and stream.fee.amount > 0
return False
@property
def price(self):
return self.claim.stream.fee
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class Transaction:
def __init__(self, raw=None, version: int = 1, locktime: int = 0, is_verified: bool = False,
height: int = -2, position: int = -1, julian_day: int = None) -> None:
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self._raw = raw
self._raw_sans_segwit = None
self.is_segwit_flag = 0
self.witnesses: List[bytes] = []
self.ref = TXRefMutable(self)
self.version = version
self.locktime = locktime
self._inputs: List[Input] = []
self._outputs: List[Output] = []
self.is_verified = is_verified
# Height Progression
# -2: not broadcast
# -1: in mempool but has unconfirmed inputs
# 0: in mempool and all inputs confirmed
# +num: confirmed in a specific block (height)
self.height = height
self.position = position
self._day = julian_day
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if raw is not None:
self._deserialize()
@property
def is_broadcast(self):
return self.height > -2
@property
def is_mempool(self):
return self.height in (-1, 0)
@property
def is_confirmed(self):
return self.height > 0
@property
def id(self):
return self.ref.id
@property
def hash(self):
return self.ref.hash
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def get_ordinal_day(self, ledger):
if self._day is None and self.height > 0:
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self._day = ledger.headers.estimated_date(self.height).toordinal()
return self._day
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@property
def raw(self):
if self._raw is None:
self._raw = self._serialize()
return self._raw
@property
def raw_sans_segwit(self):
if self.is_segwit_flag:
if self._raw_sans_segwit is None:
self._raw_sans_segwit = self._serialize(sans_segwit=True)
return self._raw_sans_segwit
return self.raw
def _reset(self):
self._raw = None
self._raw_sans_segwit = None
self.ref.reset()
@property
def inputs(self) -> ReadOnlyList[Input]:
return ReadOnlyList(self._inputs)
@property
def outputs(self) -> ReadOnlyList[Output]:
return ReadOnlyList(self._outputs)
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def _add(self, existing_ios: List, new_ios: Iterable[InputOutput], reset=False) -> 'Transaction':
for txio in new_ios:
txio.tx_ref = self.ref
txio.position = len(existing_ios)
existing_ios.append(txio)
if reset:
self._reset()
return self
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def add_inputs(self, inputs: Iterable[Input]) -> 'Transaction':
return self._add(self._inputs, inputs, True)
def add_outputs(self, outputs: Iterable[Output]) -> 'Transaction':
return self._add(self._outputs, outputs, True)
@property
def size(self) -> int:
""" Size in bytes of the entire transaction. """
return len(self.raw)
@property
def base_size(self) -> int:
""" Size of transaction without inputs or outputs in bytes. """
return (
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self.size
- sum(txi.size for txi in self._inputs)
- sum(txo.size for txo in self._outputs)
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)
@property
def input_sum(self):
return sum(i.amount for i in self.inputs if i.txo_ref.txo is not None)
@property
def output_sum(self):
return sum(o.amount for o in self.outputs)
@property
def net_account_balance(self) -> int:
balance = 0
for txi in self.inputs:
if txi.txo_ref.txo is None:
continue
if txi.is_my_input is True:
balance -= txi.amount
elif txi.is_my_input is None:
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raise ValueError(
"Cannot access net_account_balance if inputs do not "
"have is_my_input set properly."
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)
for txo in self.outputs:
if txo.is_my_output is True:
balance += txo.amount
elif txo.is_my_output is None:
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raise ValueError(
"Cannot access net_account_balance if outputs do not "
"have is_my_output set properly."
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)
return balance
@property
def fee(self) -> int:
return self.input_sum - self.output_sum
def get_base_fee(self, ledger) -> int:
""" Fee for base tx excluding inputs and outputs. """
return self.base_size * ledger.fee_per_byte
def get_effective_input_sum(self, ledger) -> int:
""" Sum of input values *minus* the cost involved to spend them. """
return sum(txi.amount - txi.get_fee(ledger) for txi in self._inputs)
def get_total_output_sum(self, ledger) -> int:
""" Sum of output values *plus* the cost involved to spend them. """
return sum(txo.amount + txo.get_fee(ledger) for txo in self._outputs)
def _serialize(self, with_inputs: bool = True, sans_segwit: bool = False) -> bytes:
stream = BCDataStream()
stream.write_uint32(self.version)
if with_inputs:
stream.write_compact_size(len(self._inputs))
for txin in self._inputs:
txin.serialize_to(stream)
stream.write_compact_size(len(self._outputs))
for txout in self._outputs:
txout.serialize_to(stream)
stream.write_uint32(self.locktime)
return stream.get_bytes()
def _serialize_for_signature(self, signing_input: int) -> bytes:
stream = BCDataStream()
stream.write_uint32(self.version)
stream.write_compact_size(len(self._inputs))
for i, txin in enumerate(self._inputs):
if signing_input == i:
assert txin.txo_ref.txo is not None
txin.serialize_to(stream, txin.txo_ref.txo.script.source)
else:
txin.serialize_to(stream, b'')
stream.write_compact_size(len(self._outputs))
for txout in self._outputs:
txout.serialize_to(stream)
stream.write_uint32(self.locktime)
stream.write_uint32(self.signature_hash_type(1)) # signature hash type: SIGHASH_ALL
return stream.get_bytes()
def _deserialize(self, stream=None):
if self._raw is not None or stream is not None:
stream = stream or BCDataStream(self._raw)
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self.version = stream.read_uint32()
input_count = stream.read_compact_size()
if input_count == 0:
self.is_segwit_flag = stream.read_uint8()
input_count = stream.read_compact_size()
self._add(self._inputs, [
Input.deserialize_from(stream) for _ in range(input_count)
])
output_count = stream.read_compact_size()
self._add(self._outputs, [
Output.deserialize_from(stream) for _ in range(output_count)
])
if self.is_segwit_flag:
# drain witness portion of transaction
# too many witnesses for no crime
self.witnesses = []
for _ in range(input_count):
for _ in range(stream.read_compact_size()):
self.witnesses.append(stream.read(stream.read_compact_size()))
self.locktime = stream.read_uint32()
return self
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@classmethod
def ensure_all_have_same_ledger_and_wallet(
cls, funding_accounts: Iterable['Account'],
change_account: 'Account' = None) -> Tuple['Ledger', 'Wallet']:
ledger = wallet = None
for account in funding_accounts:
if ledger is None:
ledger = account.ledger
wallet = account.wallet
if ledger != account.ledger:
raise ValueError(
'All funding accounts used to create a transaction must be on the same ledger.'
)
if wallet != account.wallet:
raise ValueError(
'All funding accounts used to create a transaction must be from the same wallet.'
)
if change_account is not None:
if change_account.ledger != ledger:
raise ValueError('Change account must use same ledger as funding accounts.')
if change_account.wallet != wallet:
raise ValueError('Change account must use same wallet as funding accounts.')
if ledger is None:
raise ValueError('No ledger found.')
if wallet is None:
raise ValueError('No wallet found.')
return ledger, wallet
@classmethod
async def create(cls, inputs: Iterable[Input], outputs: Iterable[Output],
funding_accounts: Iterable['Account'], change_account: 'Account',
sign: bool = True):
""" Find optimal set of inputs when only outputs are provided; add change
outputs if only inputs are provided or if inputs are greater than outputs. """
tx = cls() \
.add_inputs(inputs) \
.add_outputs(outputs)
ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
# value of the outputs plus associated fees
cost = (
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tx.get_base_fee(ledger) +
tx.get_total_output_sum(ledger)
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)
# value of the inputs less the cost to spend those inputs
payment = tx.get_effective_input_sum(ledger)
try:
for _ in range(5):
if payment < cost:
deficit = cost - payment
spendables = await ledger.get_spendable_utxos(deficit, funding_accounts)
if not spendables:
raise InsufficientFundsError()
payment += sum(s.effective_amount for s in spendables)
tx.add_inputs(s.txi for s in spendables)
cost_of_change = (
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tx.get_base_fee(ledger) +
Output.pay_pubkey_hash(COIN, NULL_HASH32).get_fee(ledger)
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)
if payment > cost:
change = payment - cost
if change > cost_of_change:
change_address = await change_account.change.get_or_create_usable_address()
change_hash160 = change_account.ledger.address_to_hash160(change_address)
change_amount = change - cost_of_change
change_output = Output.pay_pubkey_hash(change_amount, change_hash160)
change_output.is_internal_transfer = True
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tx.add_outputs([Output.pay_pubkey_hash(change_amount, change_hash160)])
if tx._outputs:
break
# this condition and the outer range(5) loop cover an edge case
# whereby a single input is just enough to cover the fee and
# has some change left over, but the change left over is less
# than the cost_of_change: thus the input is completely
# consumed and no output is added, which is an invalid tx.
# to be able to spend this input we must increase the cost
# of the TX and run through the balance algorithm a second time
# adding an extra input and change output, making tx valid.
# we do this 5 times in case the other UTXOs added are also
# less than the fee, after 5 attempts we give up and go home
cost += cost_of_change + 1
if sign:
await tx.sign(funding_accounts)
except Exception as e:
log.exception('Failed to create transaction:')
await ledger.release_tx(tx)
raise e
return tx
@staticmethod
def signature_hash_type(hash_type):
return hash_type
async def sign(self, funding_accounts: Iterable['Account']):
ledger, wallet = self.ensure_all_have_same_ledger_and_wallet(funding_accounts)
for i, txi in enumerate(self._inputs):
assert txi.script is not None
assert txi.txo_ref.txo is not None
txo_script = txi.txo_ref.txo.script
if txo_script.is_pay_pubkey_hash:
address = ledger.hash160_to_address(txo_script.values['pubkey_hash'])
private_key = await ledger.get_private_key_for_address(wallet, address)
assert private_key is not None, 'Cannot find private key for signing output.'
tx = self._serialize_for_signature(i)
txi.script.values['signature'] = \
private_key.sign(tx) + bytes((self.signature_hash_type(1),))
txi.script.values['pubkey'] = private_key.public_key.pubkey_bytes
txi.script.generate()
else:
raise NotImplementedError("Don't know how to spend this output.")
self._reset()
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@classmethod
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def pay(cls, amount: int, address: bytes, funding_accounts: List['Account'], change_account: 'Account'):
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ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
output = Output.pay_pubkey_hash(amount, ledger.address_to_hash160(address))
return cls.create([], [output], funding_accounts, change_account)
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@classmethod
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def claim_create(
cls, name: str, claim: Claim, amount: int, holding_address: str,
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funding_accounts: List['Account'], change_account: 'Account', signing_channel: Output = None):
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ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
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claim_output = Output.pay_claim_name_pubkey_hash(
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amount, name, claim, ledger.address_to_hash160(holding_address)
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)
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if signing_channel is not None:
claim_output.sign(signing_channel, b'placeholder txid:nout')
return cls.create([], [claim_output], funding_accounts, change_account, sign=False)
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@classmethod
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def claim_update(
cls, previous_claim: Output, claim: Claim, amount: int, holding_address: str,
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funding_accounts: List['Account'], change_account: 'Account', signing_channel: Output = None):
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ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
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updated_claim = Output.pay_update_claim_pubkey_hash(
amount, previous_claim.claim_name, previous_claim.claim_id,
claim, ledger.address_to_hash160(holding_address)
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)
if signing_channel is not None:
updated_claim.sign(signing_channel, b'placeholder txid:nout')
else:
updated_claim.clear_signature()
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return cls.create(
[Input.spend(previous_claim)], [updated_claim], funding_accounts, change_account, sign=False
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)
@classmethod
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def support(cls, claim_name: str, claim_id: str, amount: int, holding_address: str,
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funding_accounts: List['Account'], change_account: 'Account'):
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ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
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support_output = Output.pay_support_pubkey_hash(
amount, claim_name, claim_id, ledger.address_to_hash160(holding_address)
)
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return cls.create([], [support_output], funding_accounts, change_account)
@classmethod
def purchase(cls, claim_id: str, amount: int, merchant_address: bytes,
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funding_accounts: List['Account'], change_account: 'Account'):
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ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account)
payment = Output.pay_pubkey_hash(amount, ledger.address_to_hash160(merchant_address))
data = Output.add_purchase_data(Purchase(claim_id))
return cls.create([], [payment, data], funding_accounts, change_account)
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@property
def my_inputs(self):
for txi in self.inputs:
if txi.txo_ref.txo is not None and txi.txo_ref.txo.is_my_output:
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yield txi
def _filter_my_outputs(self, f):
for txo in self.outputs:
if txo.is_my_output and f(txo.script):
yield txo
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def _filter_other_outputs(self, f):
for txo in self.outputs:
if not txo.is_my_output and f(txo.script):
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yield txo
def _filter_any_outputs(self, f):
for txo in self.outputs:
if f(txo):
yield txo
@property
def my_claim_outputs(self):
return self._filter_my_outputs(lambda s: s.is_claim_name)
@property
def my_update_outputs(self):
return self._filter_my_outputs(lambda s: s.is_update_claim)
@property
def my_support_outputs(self):
return self._filter_my_outputs(lambda s: s.is_support_claim)
@property
def any_purchase_outputs(self):
return self._filter_any_outputs(lambda o: o.purchase is not None)
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@property
def other_support_outputs(self):
return self._filter_other_outputs(lambda s: s.is_support_claim)
@property
def my_abandon_outputs(self):
for txi in self.inputs:
abandon = txi.txo_ref.txo
if abandon is not None and abandon.is_my_output and abandon.script.is_claim_involved:
is_update = False
if abandon.script.is_claim_name or abandon.script.is_update_claim:
for update in self.my_update_outputs:
if abandon.claim_id == update.claim_id:
is_update = True
break
if not is_update:
yield abandon