import struct import hashlib import logging import typing from binascii import hexlify, unhexlify from typing import List, Iterable, Optional, Tuple import ecdsa 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 from lbry.error import InsufficientFundsError from lbry.crypto.hash import hash160, sha256 from lbry.crypto.base58 import Base58 from lbry.schema.url import normalize_name from lbry.schema.claim import Claim from lbry.schema.purchase import Purchase 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_account(self) -> Optional[bool]: """ 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_account @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) class OutputEffectiveAmountEstimator: __slots__ = 'txo', 'txi', 'fee', 'effective_amount' 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): __slots__ = ( 'amount', 'script', 'is_change', 'is_spent', 'is_received', 'is_my_account', 'channel', 'private_key', 'meta', 'purchase', 'purchased_claim', 'purchase_receipt', 'reposted_claim', 'claims', ) def __init__(self, amount: int, script: OutputScript, tx_ref: TXRef = None, position: int = None, is_change: Optional[bool] = None, is_spent: Optional[bool] = None, is_received: Optional[bool] = None, is_my_account: Optional[bool] = None, channel: Optional['Output'] = None, private_key: Optional[str] = None ) -> None: super().__init__(tx_ref, position) self.amount = amount self.script = script self.is_change = is_change self.is_spent = is_spent self.is_received = is_received self.is_my_account = is_my_account 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 self.claims: List['Output'] = None # resolved claims for collection self.meta = {} def update_annotations(self, annotated): if annotated is None: self.is_change = None self.is_spent = None self.is_my_account = None else: self.is_change = annotated.is_change self.is_spent = annotated.is_spent self.is_my_account = annotated.is_my_account self.channel = annotated.channel if annotated else None self.private_key = annotated.private_key if annotated else None @property def ref(self): return TXORefResolvable(self) @property def id(self): return self.ref.id @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 @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.') @property def normalized_name(self) -> str: return normalize_name(self.claim_name) @property def claim(self) -> Claim: if self.is_claim: if not isinstance(self.script.values['claim'], Claim): self.script.values['claim'] = Claim.from_bytes(self.script.values['claim']) return self.script.values['claim'] raise ValueError('Only claim name and claim update have the claim payload.') @property def can_decode_claim(self): try: return self.claim except: # pylint: disable=bare-except return False @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 def get_signature_digest(self, ledger): if self.claim.unsigned_payload: pieces = [ Base58.decode(self.get_address(ledger)), self.claim.unsigned_payload, self.claim.signing_channel_hash[::-1] ] else: pieces = [ self.tx_ref.tx.inputs[0].txo_ref.hash, self.claim.signing_channel_hash, self.claim.to_message_bytes() ] return sha256(b''.join(pieces)) def get_encoded_signature(self): signature = hexlify(self.claim.signature) r = int(signature[:int(len(signature)/2)], 16) s = int(signature[int(len(signature)/2):], 16) return ecdsa.util.sigencode_der(r, s, len(signature)*4) @staticmethod def is_signature_valid(encoded_signature, signature_digest, public_key_bytes): try: 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 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 ) def sign(self, channel: 'Output', first_input_id=None): self.channel = channel self.claim.signing_channel_hash = channel.claim_hash digest = sha256(b''.join([ first_input_id or self.tx_ref.tx.inputs[0].txo_ref.hash, self.claim.signing_channel_hash, self.claim.to_message_bytes() ])) self.claim.signature = channel.private_key.sign_digest_deterministic(digest, hashfunc=hashlib.sha256) self.script.generate() def clear_signature(self): self.channel = None self.claim.clear_signature() 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() self.script.generate() return self.private_key def is_channel_private_key(self, private_key): return self.claim.channel.public_key_bytes == private_key.get_verifying_key().to_der() @classmethod def pay_claim_name_pubkey_hash( cls, amount: int, claim_name: str, claim: Claim, pubkey_hash: bytes) -> 'Output': script = OutputScript.pay_claim_name_pubkey_hash( claim_name.encode(), claim, pubkey_hash) return cls(amount, script) @classmethod def pay_update_claim_pubkey_hash( cls, amount: int, claim_name: str, claim_id: str, claim: Claim, pubkey_hash: bytes) -> 'Output': script = OutputScript.pay_update_claim_pubkey_hash( claim_name.encode(), unhexlify(claim_id)[::-1], claim, pubkey_hash ) return cls(amount, script) @classmethod def pay_support_pubkey_hash(cls, amount: int, claim_name: str, claim_id: str, pubkey_hash: bytes) -> 'Output': script = OutputScript.pay_support_pubkey_hash( claim_name.encode(), unhexlify(claim_id)[::-1], pubkey_hash ) return cls(amount, script) @classmethod def add_purchase_data(cls, purchase: Purchase) -> 'Output': script = OutputScript.return_data(purchase) return cls(0, script) @property def is_purchase_data(self) -> bool: return self.script.is_return_data and ( 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 except: # pylint: disable=bare-except return False @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 @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 class Transaction: def __init__(self, raw=None, version: int = 1, locktime: int = 0, is_verified: bool = False, height: int = -2, position: int = -1) -> None: 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 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 @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) 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 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 ( self.size - sum(txi.size for txi in self._inputs) - sum(txo.size for txo in self._outputs) ) @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_account is None: raise ValueError( "Cannot access net_account_balance if inputs/outputs do not " "have is_my_account set properly." ) if txi.is_my_account: balance -= txi.amount for txo in self.outputs: if txo.is_my_account is None: raise ValueError( "Cannot access net_account_balance if inputs/outputs do not " "have is_my_account set properly." ) if txo.is_my_account: balance += txo.amount 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): if self._raw is not None: stream = BCDataStream(self._raw) 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() @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 = ( tx.get_base_fee(ledger) + tx.get_total_output_sum(ledger) ) # 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 = ( tx.get_base_fee(ledger) + Output.pay_pubkey_hash(COIN, NULL_HASH32).get_fee(ledger) ) 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_change = True 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() @classmethod def pay(cls, amount: int, address: bytes, funding_accounts: List['Account'], change_account: 'Account'): 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) @classmethod def claim_create( cls, name: str, claim: Claim, amount: int, holding_address: str, funding_accounts: List['Account'], change_account: 'Account', signing_channel: Output = None): ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account) claim_output = Output.pay_claim_name_pubkey_hash( amount, name, claim, ledger.address_to_hash160(holding_address) ) 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) @classmethod def claim_update( cls, previous_claim: Output, claim: Claim, amount: int, holding_address: str, funding_accounts: List['Account'], change_account: 'Account', signing_channel: Output = None): ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account) updated_claim = Output.pay_update_claim_pubkey_hash( amount, previous_claim.claim_name, previous_claim.claim_id, claim, ledger.address_to_hash160(holding_address) ) if signing_channel is not None: updated_claim.sign(signing_channel, b'placeholder txid:nout') else: updated_claim.clear_signature() return cls.create( [Input.spend(previous_claim)], [updated_claim], funding_accounts, change_account, sign=False ) @classmethod def support(cls, claim_name: str, claim_id: str, amount: int, holding_address: str, funding_accounts: List['Account'], change_account: 'Account'): ledger, _ = cls.ensure_all_have_same_ledger_and_wallet(funding_accounts, change_account) support_output = Output.pay_support_pubkey_hash( amount, claim_name, claim_id, ledger.address_to_hash160(holding_address) ) return cls.create([], [support_output], funding_accounts, change_account) @classmethod def purchase(cls, claim_id: str, amount: int, merchant_address: bytes, funding_accounts: List['Account'], change_account: 'Account'): 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) @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_account: yield txi def _filter_my_outputs(self, f): for txo in self.outputs: if txo.is_my_account and f(txo.script): yield txo def _filter_other_outputs(self, f): for txo in self.outputs: if not txo.is_my_account and f(txo.script): 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) @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_account 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