import logging import typing from typing import List, Iterable, Optional from binascii import hexlify from torba.client.basescript import BaseInputScript, BaseOutputScript from torba.client.baseaccount import BaseAccount from torba.client.constants import COIN, NULL_HASH32 from torba.client.bcd_data_stream import BCDataStream from torba.client.hash import sha256, TXRef, TXRefImmutable from torba.client.util import ReadOnlyList if typing.TYPE_CHECKING: from torba.client import baseledger log = logging.getLogger() class TXRefMutable(TXRef): __slots__ = ('tx',) def __init__(self, tx: 'BaseTransaction') -> 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)) 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 hash(self): return self.tx_ref.hash @property def id(self): return '{}:{}'.format(self.tx_ref.id, self.position) @property def is_null(self): return self.tx_ref.is_null @property def txo(self) -> Optional['BaseOutput']: return None class TXORefResolvable(TXORef): __slots__ = ('_txo',) def __init__(self, txo: 'BaseOutput') -> 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 BaseInput(InputOutput): script_class = BaseInputScript NULL_SIGNATURE = b'\x00'*72 NULL_PUBLIC_KEY = b'\x00'*33 __slots__ = 'txo_ref', 'sequence', 'coinbase', 'script' def __init__(self, txo_ref: TXORef, script: BaseInputScript, 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: 'BaseOutput') -> 'BaseInput': """ Create an input to spend the output.""" assert txo.script.is_pay_pubkey_hash, 'Attempting to spend unsupported output.' script = cls.script_class.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), cls.script_class(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 BaseOutputEffectiveAmountEstimator: __slots__ = 'txo', 'txi', 'fee', 'effective_amount' def __init__(self, ledger: 'baseledger.BaseLedger', txo: 'BaseOutput') -> None: self.txo = txo self.txi = ledger.transaction_class.input_class.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 BaseOutput(InputOutput): script_class = BaseOutputScript estimator_class = BaseOutputEffectiveAmountEstimator __slots__ = 'amount', 'script', 'is_change', 'is_my_account' def __init__(self, amount: int, script: BaseOutputScript, tx_ref: TXRef = None, position: int = None, is_change: Optional[bool] = None, is_my_account: Optional[bool] = None ) -> None: super().__init__(tx_ref, position) self.amount = amount self.script = script self.is_change = is_change self.is_my_account = is_my_account def update_annotations(self, annotated): if annotated is None: self.is_change = False self.is_my_account = False else: self.is_change = annotated.is_change self.is_my_account = annotated.is_my_account @property def ref(self): return TXORefResolvable(self) @property def id(self): return self.ref.id def get_address(self, ledger): return ledger.hash160_to_address( self.script.values['pubkey_hash'] ) def get_estimator(self, ledger): return self.estimator_class(ledger, self) @classmethod def pay_pubkey_hash(cls, amount, pubkey_hash): return cls(amount, cls.script_class.pay_pubkey_hash(pubkey_hash)) @classmethod def deserialize_from(cls, stream): return cls( amount=stream.read_uint64(), script=cls.script_class(stream.read_string()) ) def serialize_to(self, stream, alternate_script=None): stream.write_uint64(self.amount) stream.write_string(self.script.source) class BaseTransaction: input_class = BaseInput output_class = BaseOutput 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.ref = TXRefMutable(self) self.version = version self.locktime = locktime self._inputs: List[BaseInput] = [] self._outputs: List[BaseOutput] = [] 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 def _reset(self): self._raw = None self.ref.reset() @property def inputs(self) -> ReadOnlyList[BaseInput]: return ReadOnlyList(self._inputs) @property def outputs(self) -> ReadOnlyList[BaseOutput]: return ReadOnlyList(self._outputs) def _add(self, new_ios: Iterable[InputOutput], existing_ios: List) -> 'BaseTransaction': for txio in new_ios: txio.tx_ref = self.ref txio.position = len(existing_ios) existing_ios.append(txio) self._reset() return self def add_inputs(self, inputs: Iterable[BaseInput]) -> 'BaseTransaction': return self._add(inputs, self._inputs) def add_outputs(self, outputs: Iterable[BaseOutput]) -> 'BaseTransaction': return self._add(outputs, self._outputs) @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) -> 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() self.add_inputs([ self.input_class.deserialize_from(stream) for _ in range(input_count) ]) output_count = stream.read_compact_size() self.add_outputs([ self.output_class.deserialize_from(stream) for _ in range(output_count) ]) self.locktime = stream.read_uint32() @classmethod def ensure_all_have_same_ledger(cls, funding_accounts: Iterable[BaseAccount], change_account: BaseAccount = None) -> 'baseledger.BaseLedger': ledger = None for account in funding_accounts: if ledger is None: ledger = account.ledger if ledger != account.ledger: raise ValueError( 'All funding accounts used to create a transaction must be on the same ledger.' ) if change_account is not None and change_account.ledger != ledger: raise ValueError('Change account must use same ledger as funding accounts.') if ledger is None: raise ValueError('No ledger found.') return ledger @classmethod async def create(cls, inputs: Iterable[BaseInput], outputs: Iterable[BaseOutput], funding_accounts: Iterable[BaseAccount], change_account: BaseAccount): """ 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(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 ValueError('Not enough funds to cover this transaction.') 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) + cls.output_class.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 = cls.output_class.pay_pubkey_hash(change_amount, change_hash160) change_output.is_change = True tx.add_outputs([cls.output_class.pay_pubkey_hash(change_amount, change_hash160)]) if tx._outputs: break else: # 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 await tx.sign(funding_accounts) except Exception as e: log.exception('Failed to create transaction:') await ledger.release_outputs(tx.outputs) raise e return tx @staticmethod def signature_hash_type(hash_type): return hash_type async def sign(self, funding_accounts: Iterable[BaseAccount]): ledger = self.ensure_all_have_same_ledger(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(address) 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()