# Electrum - lightweight Bitcoin client # Copyright (C) 2018 The Electrum Developers # # Permission is hereby granted, free of charge, to any person # obtaining a copy of this software and associated documentation files # (the "Software"), to deal in the Software without restriction, # including without limitation the rights to use, copy, modify, merge, # publish, distribute, sublicense, and/or sell copies of the Software, # and to permit persons to whom the Software is furnished to do so, # subject to the following conditions: # # The above copyright notice and this permission notice shall be # included in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, # EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS # BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN # ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN # CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. import asyncio import threading import itertools from collections import defaultdict from typing import TYPE_CHECKING, Dict, Optional, Set, Tuple, NamedTuple, Sequence, List from .crypto import sha256 from . import bitcoin, util from .bitcoin import COINBASE_MATURITY from .util import profiler, bfh, TxMinedInfo, UnrelatedTransactionException, with_lock, OldTaskGroup from .transaction import Transaction, TxOutput, TxInput, PartialTxInput, TxOutpoint, PartialTransaction from .synchronizer import Synchronizer from .verifier import SPV from .blockchain import hash_header, Blockchain from .i18n import _ from .logging import Logger from .util import EventListener, event_listener if TYPE_CHECKING: from .network import Network from .wallet_db import WalletDB TX_HEIGHT_FUTURE = -3 TX_HEIGHT_LOCAL = -2 TX_HEIGHT_UNCONF_PARENT = -1 TX_HEIGHT_UNCONFIRMED = 0 class HistoryItem(NamedTuple): txid: str tx_mined_status: TxMinedInfo delta: int fee: Optional[int] balance: int class AddressSynchronizer(Logger, EventListener): """ address database """ network: Optional['Network'] asyncio_loop: Optional['asyncio.AbstractEventLoop'] = None synchronizer: Optional['Synchronizer'] verifier: Optional['SPV'] def __init__(self, db: 'WalletDB', config): self.db = db self.config = config self.network = None Logger.__init__(self) # verifier (SPV) and synchronizer are started in start_network self.synchronizer = None self.verifier = None # locks: if you need to take multiple ones, acquire them in the order they are defined here! self.lock = threading.RLock() self.transaction_lock = threading.RLock() self.future_tx = {} # type: Dict[str, int] # txid -> wanted height # Txs the server claims are mined but still pending verification: self.unverified_tx = defaultdict(int) # type: Dict[str, int] # txid -> height. Access with self.lock. # Txs the server claims are in the mempool: self.unconfirmed_tx = defaultdict(int) # type: Dict[str, int] # txid -> height. Access with self.lock. # true when synchronized self._up_to_date = False # considers both Synchronizer and Verifier # thread local storage for caching stuff self.threadlocal_cache = threading.local() self._get_balance_cache = {} self.load_and_cleanup() def with_transaction_lock(func): def func_wrapper(self: 'AddressSynchronizer', *args, **kwargs): with self.transaction_lock: return func(self, *args, **kwargs) return func_wrapper def load_and_cleanup(self): self.load_local_history() self.check_history() self.load_unverified_transactions() self.remove_local_transactions_we_dont_have() def is_mine(self, address: Optional[str]) -> bool: """Returns whether an address is in our set Note: This class has a larget set of addresses than the wallet """ if not address: return False return self.db.is_addr_in_history(address) def get_addresses(self): return sorted(self.db.get_history()) def get_address_history(self, addr: str) -> Sequence[Tuple[str, int]]: """Returns the history for the address, in the format that would be returned by a server. Note: The difference between db.get_addr_history and this method is that db.get_addr_history stores the response from a server, so it only includes txns a server sees, i.e. that does not contain local and future txns. """ h = [] # we need self.transaction_lock but get_tx_height will take self.lock # so we need to take that too here, to enforce order of locks with self.lock, self.transaction_lock: related_txns = self._history_local.get(addr, set()) for tx_hash in related_txns: tx_height = self.get_tx_height(tx_hash).height h.append((tx_hash, tx_height)) return h def get_address_history_len(self, addr: str) -> int: """Return number of transactions where address is involved.""" return len(self._history_local.get(addr, ())) def get_txin_address(self, txin: TxInput) -> Optional[str]: if isinstance(txin, PartialTxInput): if txin.address: return txin.address prevout_hash = txin.prevout.txid.hex() prevout_n = txin.prevout.out_idx for addr in self.db.get_txo_addresses(prevout_hash): d = self.db.get_txo_addr(prevout_hash, addr) if prevout_n in d: return addr tx = self.db.get_transaction(prevout_hash) if tx: return tx.outputs()[prevout_n].address return None def get_txin_value(self, txin: TxInput, *, address: str = None) -> Optional[int]: if txin.value_sats() is not None: return txin.value_sats() prevout_hash = txin.prevout.txid.hex() prevout_n = txin.prevout.out_idx if address is None: address = self.get_txin_address(txin) if address: d = self.db.get_txo_addr(prevout_hash, address) try: v, cb = d[prevout_n] return v except KeyError: pass tx = self.db.get_transaction(prevout_hash) if tx: return tx.outputs()[prevout_n].value return None def load_unverified_transactions(self): # review transactions that are in the history for addr in self.db.get_history(): hist = self.db.get_addr_history(addr) for tx_hash, tx_height in hist: # add it in case it was previously unconfirmed self.add_unverified_or_unconfirmed_tx(tx_hash, tx_height) def start_network(self, network: Optional['Network']) -> None: self.network = network if self.network is not None: self.synchronizer = Synchronizer(self) self.verifier = SPV(self.network, self) self.asyncio_loop = network.asyncio_loop self.register_callbacks() @event_listener def on_event_blockchain_updated(self, *args): self._get_balance_cache = {} # invalidate cache async def stop(self): if self.network: try: async with OldTaskGroup() as group: if self.synchronizer: await group.spawn(self.synchronizer.stop()) if self.verifier: await group.spawn(self.verifier.stop()) finally: # even if we get cancelled self.synchronizer = None self.verifier = None self.unregister_callbacks() self.db.put('stored_height', self.get_local_height()) def add_address(self, address): if address not in self.db.history: self.db.history[address] = [] self.set_up_to_date(False) if self.synchronizer: self.synchronizer.add(address) def get_conflicting_transactions(self, tx_hash, tx: Transaction, include_self=False): """Returns a set of transaction hashes from the wallet history that are directly conflicting with tx, i.e. they have common outpoints being spent with tx. include_self specifies whether the tx itself should be reported as a conflict (if already in wallet history) """ conflicting_txns = set() with self.transaction_lock: for txin in tx.inputs(): if txin.is_coinbase_input(): continue prevout_hash = txin.prevout.txid.hex() prevout_n = txin.prevout.out_idx spending_tx_hash = self.db.get_spent_outpoint(prevout_hash, prevout_n) if spending_tx_hash is None: continue # this outpoint has already been spent, by spending_tx # annoying assert that has revealed several bugs over time: assert self.db.get_transaction(spending_tx_hash), "spending tx not in wallet db" conflicting_txns |= {spending_tx_hash} if tx_hash in conflicting_txns: # this tx is already in history, so it conflicts with itself if len(conflicting_txns) > 1: raise Exception('Found conflicting transactions already in wallet history.') if not include_self: conflicting_txns -= {tx_hash} return conflicting_txns def get_transaction(self, txid: str) -> Transaction: return self.db.get_transaction(txid) def add_transaction(self, tx: Transaction, *, allow_unrelated=False, notify_GUI=True) -> bool: """ Returns whether the tx was successfully added to the wallet history. Note that a transaction may need to be added several times, if our list of addresses has increased. This will return True even if the transaction was already in self.db. """ assert tx, tx # note: tx.is_complete() is not necessarily True; tx might be partial # but it *needs* to have a txid: tx_hash = tx.txid() if tx_hash is None: raise Exception("cannot add tx without txid to wallet history") # we need self.transaction_lock but get_tx_height will take self.lock # so we need to take that too here, to enforce order of locks with self.lock, self.transaction_lock: # NOTE: returning if tx in self.transactions might seem like a good idea # BUT we track is_mine inputs in a txn, and during subsequent calls # of add_transaction tx, we might learn of more-and-more inputs of # being is_mine, as we roll the gap_limit forward is_coinbase = tx.inputs()[0].is_coinbase_input() tx_height = self.get_tx_height(tx_hash).height if not allow_unrelated: # note that during sync, if the transactions are not properly sorted, # it could happen that we think tx is unrelated but actually one of the inputs is is_mine. # this is the main motivation for allow_unrelated is_mine = any([self.is_mine(self.get_txin_address(txin)) for txin in tx.inputs()]) is_for_me = any([self.is_mine(txo.address) for txo in tx.outputs()]) if not is_mine and not is_for_me: raise UnrelatedTransactionException() # Find all conflicting transactions. # In case of a conflict, # 1. confirmed > mempool > local # 2. this new txn has priority over existing ones # When this method exits, there must NOT be any conflict, so # either keep this txn and remove all conflicting (along with dependencies) # or drop this txn conflicting_txns = self.get_conflicting_transactions(tx_hash, tx) if conflicting_txns: existing_mempool_txn = any( self.get_tx_height(tx_hash2).height in (TX_HEIGHT_UNCONFIRMED, TX_HEIGHT_UNCONF_PARENT) for tx_hash2 in conflicting_txns) existing_confirmed_txn = any( self.get_tx_height(tx_hash2).height > 0 for tx_hash2 in conflicting_txns) if existing_confirmed_txn and tx_height <= 0: # this is a non-confirmed tx that conflicts with confirmed txns; drop. return False if existing_mempool_txn and tx_height == TX_HEIGHT_LOCAL: # this is a local tx that conflicts with non-local txns; drop. return False # keep this txn and remove all conflicting for tx_hash2 in conflicting_txns: self.remove_transaction(tx_hash2) # add inputs def add_value_from_prev_output(): # note: this takes linear time in num is_mine outputs of prev_tx addr = self.get_txin_address(txi) if addr and self.is_mine(addr): outputs = self.db.get_txo_addr(prevout_hash, addr) try: v, is_cb = outputs[prevout_n] except KeyError: pass else: self.db.add_txi_addr(tx_hash, addr, ser, v) self._get_balance_cache.clear() # invalidate cache for txi in tx.inputs(): if txi.is_coinbase_input(): continue prevout_hash = txi.prevout.txid.hex() prevout_n = txi.prevout.out_idx ser = txi.prevout.to_str() self.db.set_spent_outpoint(prevout_hash, prevout_n, tx_hash) add_value_from_prev_output() # add outputs for n, txo in enumerate(tx.outputs()): v = txo.value ser = tx_hash + ':%d'%n scripthash = bitcoin.script_to_scripthash(txo.scriptpubkey.hex()) self.db.add_prevout_by_scripthash(scripthash, prevout=TxOutpoint.from_str(ser), value=v) addr = txo.address if addr and self.is_mine(addr): self.db.add_txo_addr(tx_hash, addr, n, v, is_coinbase) self._get_balance_cache.clear() # invalidate cache # give v to txi that spends me next_tx = self.db.get_spent_outpoint(tx_hash, n) if next_tx is not None: self.db.add_txi_addr(next_tx, addr, ser, v) self._add_tx_to_local_history(next_tx) # add to local history self._add_tx_to_local_history(tx_hash) # save self.db.add_transaction(tx_hash, tx) self.db.add_num_inputs_to_tx(tx_hash, len(tx.inputs())) util.trigger_callback('adb_added_tx', self, tx_hash, notify_GUI) return True def remove_transaction(self, tx_hash: str) -> None: """Removes a transaction AND all its dependents/children from the wallet history. """ with self.lock, self.transaction_lock: to_remove = {tx_hash} to_remove |= self.get_depending_transactions(tx_hash) for txid in to_remove: self._remove_transaction(txid) def _remove_transaction(self, tx_hash: str) -> None: """Removes a single transaction from the wallet history, and attempts to undo all effects of the tx (spending inputs, creating outputs, etc). """ def remove_from_spent_outpoints(): # undo spends in spent_outpoints if tx is not None: # if we have the tx, this branch is faster for txin in tx.inputs(): if txin.is_coinbase_input(): continue prevout_hash = txin.prevout.txid.hex() prevout_n = txin.prevout.out_idx self.db.remove_spent_outpoint(prevout_hash, prevout_n) else: # expensive but always works for prevout_hash, prevout_n in self.db.list_spent_outpoints(): spending_txid = self.db.get_spent_outpoint(prevout_hash, prevout_n) if spending_txid == tx_hash: self.db.remove_spent_outpoint(prevout_hash, prevout_n) with self.lock, self.transaction_lock: self.logger.info(f"removing tx from history {tx_hash}") tx = self.db.remove_transaction(tx_hash) remove_from_spent_outpoints() self._remove_tx_from_local_history(tx_hash) for addr in itertools.chain(self.db.get_txi_addresses(tx_hash), self.db.get_txo_addresses(tx_hash)): self._get_balance_cache.clear() # invalidate cache self.db.remove_txi(tx_hash) self.db.remove_txo(tx_hash) self.db.remove_tx_fee(tx_hash) self.db.remove_verified_tx(tx_hash) self.unverified_tx.pop(tx_hash, None) self.unconfirmed_tx.pop(tx_hash, None) if tx: for idx, txo in enumerate(tx.outputs()): scripthash = bitcoin.script_to_scripthash(txo.scriptpubkey.hex()) prevout = TxOutpoint(bfh(tx_hash), idx) self.db.remove_prevout_by_scripthash(scripthash, prevout=prevout, value=txo.value) def get_depending_transactions(self, tx_hash: str) -> Set[str]: """Returns all (grand-)children of tx_hash in this wallet.""" with self.transaction_lock: children = set() for n in self.db.get_spent_outpoints(tx_hash): other_hash = self.db.get_spent_outpoint(tx_hash, n) children.add(other_hash) children |= self.get_depending_transactions(other_hash) return children def receive_tx_callback(self, tx_hash: str, tx: Transaction, tx_height: int) -> None: self.add_unverified_or_unconfirmed_tx(tx_hash, tx_height) self.add_transaction(tx, allow_unrelated=True) def receive_history_callback(self, addr: str, hist, tx_fees: Dict[str, int]): with self.lock: old_hist = self.get_address_history(addr) for tx_hash, height in old_hist: if (tx_hash, height) not in hist: # make tx local self.unverified_tx.pop(tx_hash, None) self.unconfirmed_tx.pop(tx_hash, None) self.db.remove_verified_tx(tx_hash) if self.verifier: self.verifier.remove_spv_proof_for_tx(tx_hash) self.db.set_addr_history(addr, hist) for tx_hash, tx_height in hist: # add it in case it was previously unconfirmed self.add_unverified_or_unconfirmed_tx(tx_hash, tx_height) # if addr is new, we have to recompute txi and txo tx = self.db.get_transaction(tx_hash) if tx is None: continue self.add_transaction(tx, allow_unrelated=True, notify_GUI=False) # Store fees for tx_hash, fee_sat in tx_fees.items(): self.db.add_tx_fee_from_server(tx_hash, fee_sat) @profiler def load_local_history(self): self._history_local = {} # type: Dict[str, Set[str]] # address -> set(txid) self._address_history_changed_events = defaultdict(asyncio.Event) # address -> Event for txid in itertools.chain(self.db.list_txi(), self.db.list_txo()): self._add_tx_to_local_history(txid) @profiler def check_history(self): hist_addrs_mine = list(filter(lambda k: self.is_mine(k), self.db.get_history())) hist_addrs_not_mine = list(filter(lambda k: not self.is_mine(k), self.db.get_history())) for addr in hist_addrs_not_mine: self.db.remove_addr_history(addr) for addr in hist_addrs_mine: hist = self.db.get_addr_history(addr) for tx_hash, tx_height in hist: if self.db.get_txi_addresses(tx_hash) or self.db.get_txo_addresses(tx_hash): continue tx = self.db.get_transaction(tx_hash) if tx is not None: self.add_transaction(tx, allow_unrelated=True) def remove_local_transactions_we_dont_have(self): for txid in itertools.chain(self.db.list_txi(), self.db.list_txo()): tx_height = self.get_tx_height(txid).height if tx_height == TX_HEIGHT_LOCAL and not self.db.get_transaction(txid): self.remove_transaction(txid) def clear_history(self): with self.lock: with self.transaction_lock: self.db.clear_history() self._history_local.clear() self._get_balance_cache.clear() # invalidate cache def get_txpos(self, tx_hash: str) -> Tuple[int, int]: """Returns (height, txpos) tuple, even if the tx is unverified.""" with self.lock: verified_tx_mined_info = self.db.get_verified_tx(tx_hash) if verified_tx_mined_info: height = verified_tx_mined_info.height txpos = verified_tx_mined_info.txpos assert height > 0, height assert txpos is not None return height, txpos elif tx_hash in self.unverified_tx: height = self.unverified_tx[tx_hash] assert height > 0, height return height, -1 elif tx_hash in self.unconfirmed_tx: height = self.unconfirmed_tx[tx_hash] assert height <= 0, height return (10**9 - height), -1 else: return (10**9 + 1), -1 def with_local_height_cached(func): # get local height only once, as it's relatively expensive. # take care that nested calls work as expected def f(self, *args, **kwargs): orig_val = getattr(self.threadlocal_cache, 'local_height', None) self.threadlocal_cache.local_height = orig_val or self.get_local_height() try: return func(self, *args, **kwargs) finally: self.threadlocal_cache.local_height = orig_val return f @with_lock @with_transaction_lock @with_local_height_cached def get_history(self, domain) -> Sequence[HistoryItem]: domain = set(domain) # 1. Get the history of each address in the domain, maintain the # delta of a tx as the sum of its deltas on domain addresses tx_deltas = defaultdict(int) # type: Dict[str, int] for addr in domain: h = self.get_address_history(addr) for tx_hash, height in h: tx_deltas[tx_hash] += self.get_tx_delta(tx_hash, addr) # 2. create sorted history history = [] for tx_hash in tx_deltas: delta = tx_deltas[tx_hash] tx_mined_status = self.get_tx_height(tx_hash) fee = self.get_tx_fee(tx_hash) history.append((tx_hash, tx_mined_status, delta, fee)) history.sort(key = lambda x: self.get_txpos(x[0])) # 3. add balance h2 = [] balance = 0 for tx_hash, tx_mined_status, delta, fee in history: balance += delta h2.append(HistoryItem( txid=tx_hash, tx_mined_status=tx_mined_status, delta=delta, fee=fee, balance=balance)) # sanity check c, u, x = self.get_balance(domain) if balance != c + u + x: raise Exception("wallet.get_history() failed balance sanity-check") return h2 def _add_tx_to_local_history(self, txid): with self.transaction_lock: for addr in itertools.chain(self.db.get_txi_addresses(txid), self.db.get_txo_addresses(txid)): cur_hist = self._history_local.get(addr, set()) cur_hist.add(txid) self._history_local[addr] = cur_hist self._mark_address_history_changed(addr) def _remove_tx_from_local_history(self, txid): with self.transaction_lock: for addr in itertools.chain(self.db.get_txi_addresses(txid), self.db.get_txo_addresses(txid)): cur_hist = self._history_local.get(addr, set()) try: cur_hist.remove(txid) except KeyError: pass else: self._history_local[addr] = cur_hist self._mark_address_history_changed(addr) def _mark_address_history_changed(self, addr: str) -> None: def set_and_clear(): event = self._address_history_changed_events[addr] # history for this address changed, wake up coroutines: event.set() # clear event immediately so that coroutines can wait() for the next change: event.clear() if self.asyncio_loop: self.asyncio_loop.call_soon_threadsafe(set_and_clear) async def wait_for_address_history_to_change(self, addr: str) -> None: """Wait until the server tells us about a new transaction related to addr. Unconfirmed and confirmed transactions are not distinguished, and so e.g. SPV is not taken into account. """ assert self.is_mine(addr), "address needs to be is_mine to be watched" await self._address_history_changed_events[addr].wait() def add_unverified_or_unconfirmed_tx(self, tx_hash, tx_height): if self.db.is_in_verified_tx(tx_hash): if tx_height <= 0: # tx was previously SPV-verified but now in mempool (probably reorg) with self.lock: self.db.remove_verified_tx(tx_hash) self.unconfirmed_tx[tx_hash] = tx_height if self.verifier: self.verifier.remove_spv_proof_for_tx(tx_hash) else: with self.lock: if tx_height > 0: self.unverified_tx[tx_hash] = tx_height else: self.unconfirmed_tx[tx_hash] = tx_height def remove_unverified_tx(self, tx_hash, tx_height): with self.lock: new_height = self.unverified_tx.get(tx_hash) if new_height == tx_height: self.unverified_tx.pop(tx_hash, None) def add_verified_tx(self, tx_hash: str, info: TxMinedInfo): # Remove from the unverified map and add to the verified map with self.lock: self.unverified_tx.pop(tx_hash, None) self.db.add_verified_tx(tx_hash, info) util.trigger_callback('adb_added_verified_tx', self, tx_hash) def get_unverified_txs(self) -> Dict[str, int]: '''Returns a map from tx hash to transaction height''' with self.lock: return dict(self.unverified_tx) # copy def undo_verifications(self, blockchain: Blockchain, above_height: int) -> Set[str]: '''Used by the verifier when a reorg has happened''' txs = set() with self.lock: for tx_hash in self.db.list_verified_tx(): info = self.db.get_verified_tx(tx_hash) tx_height = info.height if tx_height > above_height: header = blockchain.read_header(tx_height) if not header or hash_header(header) != info.header_hash: self.db.remove_verified_tx(tx_hash) # NOTE: we should add these txns to self.unverified_tx, # but with what height? # If on the new fork after the reorg, the txn is at the # same height, we will not get a status update for the # address. If the txn is not mined or at a diff height, # we should get a status update. Unless we put tx into # unverified_tx, it will turn into local. So we put it # into unverified_tx with the old height, and if we get # a status update, that will overwrite it. self.unverified_tx[tx_hash] = tx_height txs.add(tx_hash) for tx_hash in txs: util.trigger_callback('adb_removed_verified_tx', self, tx_hash) return txs def get_local_height(self) -> int: """ return last known height if we are offline """ cached_local_height = getattr(self.threadlocal_cache, 'local_height', None) if cached_local_height is not None: return cached_local_height return self.network.get_local_height() if self.network else self.db.get('stored_height', 0) def set_future_tx(self, txid:str, wanted_height: int): with self.lock: self.future_tx[txid] = wanted_height def get_tx_height(self, tx_hash: str) -> TxMinedInfo: if tx_hash is None: # ugly backwards compat... return TxMinedInfo(height=TX_HEIGHT_LOCAL, conf=0) with self.lock: verified_tx_mined_info = self.db.get_verified_tx(tx_hash) if verified_tx_mined_info: conf = max(self.get_local_height() - verified_tx_mined_info.height + 1, 0) return verified_tx_mined_info._replace(conf=conf) elif tx_hash in self.unverified_tx: height = self.unverified_tx[tx_hash] return TxMinedInfo(height=height, conf=0) elif tx_hash in self.unconfirmed_tx: height = self.unconfirmed_tx[tx_hash] return TxMinedInfo(height=height, conf=0) elif tx_hash in self.future_tx: num_blocks_remainining = self.future_tx[tx_hash] - self.get_local_height() if num_blocks_remainining > 0: return TxMinedInfo(height=TX_HEIGHT_FUTURE, conf=-num_blocks_remainining) else: return TxMinedInfo(height=TX_HEIGHT_LOCAL, conf=0) else: # local transaction return TxMinedInfo(height=TX_HEIGHT_LOCAL, conf=0) def set_up_to_date(self, up_to_date): with self.lock: status_changed = self._up_to_date != up_to_date self._up_to_date = up_to_date # fire triggers util.trigger_callback('adb_set_up_to_date', self) if status_changed: self.logger.info(f'set_up_to_date: {up_to_date}') def is_up_to_date(self): return self._up_to_date def reset_netrequest_counters(self) -> None: if self.synchronizer: self.synchronizer.reset_request_counters() if self.verifier: self.verifier.reset_request_counters() def get_history_sync_state_details(self) -> Tuple[int, int]: nsent, nans = 0, 0 if self.synchronizer: n1, n2 = self.synchronizer.num_requests_sent_and_answered() nsent += n1 nans += n2 if self.verifier: n1, n2 = self.verifier.num_requests_sent_and_answered() nsent += n1 nans += n2 return nsent, nans @with_transaction_lock def get_tx_delta(self, tx_hash: str, address: str) -> int: """effect of tx on address""" delta = 0 # subtract the value of coins sent from address d = self.db.get_txi_addr(tx_hash, address) for n, v in d: delta -= v # add the value of the coins received at address d = self.db.get_txo_addr(tx_hash, address) for n, (v, cb) in d.items(): delta += v return delta def get_tx_fee(self, txid: str) -> Optional[int]: """ Returns tx_fee or None. Use server fee only if tx is unconfirmed and not mine""" # check if stored fee is available fee = self.db.get_tx_fee(txid, trust_server=False) if fee is not None: return fee # delete server-sent fee for confirmed txns confirmed = self.get_tx_height(txid).conf > 0 if confirmed: self.db.add_tx_fee_from_server(txid, None) # if all inputs are ismine, try to calc fee now; # otherwise, return stored value num_all_inputs = self.db.get_num_all_inputs_of_tx(txid) if num_all_inputs is not None: # check if tx is mine num_ismine_inputs = self.db.get_num_ismine_inputs_of_tx(txid) assert num_ismine_inputs <= num_all_inputs, (num_ismine_inputs, num_all_inputs) # trust server if tx is unconfirmed and not mine if num_ismine_inputs < num_all_inputs: return None if confirmed else self.db.get_tx_fee(txid, trust_server=True) # lookup tx and deserialize it. # note that deserializing is expensive, hence above hacks tx = self.db.get_transaction(txid) if not tx: return None # compute fee if possible v_in = v_out = 0 with self.lock, self.transaction_lock: for txin in tx.inputs(): addr = self.get_txin_address(txin) value = self.get_txin_value(txin, address=addr) if value is None: v_in = None elif v_in is not None: v_in += value for txout in tx.outputs(): v_out += txout.value if v_in is not None: fee = v_in - v_out else: fee = None # save result self.db.add_tx_fee_we_calculated(txid, fee) self.db.add_num_inputs_to_tx(txid, len(tx.inputs())) return fee def get_addr_io(self, address): with self.lock, self.transaction_lock: h = self.get_address_history(address) received = {} sent = {} for tx_hash, height in h: d = self.db.get_txo_addr(tx_hash, address) for n, (v, is_cb) in d.items(): received[tx_hash + ':%d'%n] = (height, v, is_cb) for tx_hash, height in h: l = self.db.get_txi_addr(tx_hash, address) for txi, v in l: sent[txi] = tx_hash, height return received, sent def get_addr_outputs(self, address: str) -> Dict[TxOutpoint, PartialTxInput]: coins, spent = self.get_addr_io(address) out = {} for prevout_str, v in coins.items(): tx_height, value, is_cb = v prevout = TxOutpoint.from_str(prevout_str) utxo = PartialTxInput(prevout=prevout, is_coinbase_output=is_cb) utxo._trusted_address = address utxo._trusted_value_sats = value utxo.block_height = tx_height if prevout_str in spent: txid, height = spent[prevout_str] utxo.spent_txid = txid utxo.spent_height = height else: utxo.spent_txid = None utxo.spent_height = None out[prevout] = utxo return out def get_addr_utxo(self, address: str) -> Dict[TxOutpoint, PartialTxInput]: out = self.get_addr_outputs(address) for k, v in list(out.items()): if v.spent_height is not None: out.pop(k) return out # return the total amount ever received by an address def get_addr_received(self, address): received, sent = self.get_addr_io(address) return sum([v for height, v, is_cb in received.values()]) @with_local_height_cached def get_balance(self, domain, *, excluded_addresses: Set[str] = None, excluded_coins: Set[str] = None) -> Tuple[int, int, int]: """Return the balance of a set of addresses: confirmed and matured, unconfirmed, unmatured """ if excluded_addresses is None: excluded_addresses = set() assert isinstance(excluded_addresses, set), f"excluded_addresses should be set, not {type(excluded_addresses)}" domain = set(domain) - excluded_addresses if excluded_coins is None: excluded_coins = set() assert isinstance(excluded_coins, set), f"excluded_coins should be set, not {type(excluded_coins)}" cache_key = sha256(','.join(sorted(domain)) + ';' + ','.join(sorted(excluded_coins))) cached_value = self._get_balance_cache.get(cache_key) if cached_value: return cached_value coins = {} for address in domain: coins.update(self.get_addr_outputs(address)) c = u = x = 0 mempool_height = self.get_local_height() + 1 # height of next block for utxo in coins.values(): if utxo.spent_height is not None: continue if utxo.prevout.to_str() in excluded_coins: continue v = utxo.value_sats() tx_height = utxo.block_height is_cb = utxo._is_coinbase_output if is_cb and tx_height + COINBASE_MATURITY > mempool_height: x += v elif tx_height > 0: c += v else: txid = utxo.prevout.txid.hex() tx = self.db.get_transaction(txid) assert tx is not None # txid comes from get_addr_io # we look at the outputs that are spent by this transaction # if those outputs are ours and confirmed, we count this coin as confirmed confirmed_spent_amount = 0 for txin in tx.inputs(): if txin.prevout in coins: coin = coins[txin.prevout] if coin.block_height > 0: confirmed_spent_amount += coin.value_sats() # Compare amount, in case tx has confirmed and unconfirmed inputs, or is a coinjoin. # (fixme: tx may have multiple change outputs) if confirmed_spent_amount >= v: c += v else: c += confirmed_spent_amount u += v - confirmed_spent_amount result = c, u, x # cache result. # Cache needs to be invalidated if a transaction is added to/ # removed from history; or on new blocks (maturity...) self._get_balance_cache[cache_key] = result return result @with_local_height_cached def get_utxos( self, domain, *, excluded_addresses=None, mature_only: bool = False, confirmed_funding_only: bool = False, confirmed_spending_only: bool = False, nonlocal_only: bool = False, block_height: int = None, ) -> Sequence[PartialTxInput]: if block_height is not None: # caller wants the UTXOs we had at a given height; check other parameters assert confirmed_funding_only assert confirmed_spending_only assert nonlocal_only else: block_height = self.get_local_height() coins = [] domain = set(domain) if excluded_addresses: domain = set(domain) - set(excluded_addresses) mempool_height = block_height + 1 # height of next block for addr in domain: txos = self.get_addr_outputs(addr) for txo in txos.values(): if txo.spent_height is not None: if not confirmed_spending_only: continue if confirmed_spending_only and 0 < txo.spent_height <= block_height: continue if confirmed_funding_only and not (0 < txo.block_height <= block_height): continue if nonlocal_only and txo.block_height in (TX_HEIGHT_LOCAL, TX_HEIGHT_FUTURE): continue if (mature_only and txo.is_coinbase_output() and txo.block_height + COINBASE_MATURITY > mempool_height): continue coins.append(txo) continue return coins def is_used(self, address: str) -> bool: return self.get_address_history_len(address) != 0 def is_empty(self, address: str) -> bool: coins = self.get_addr_utxo(address) return not bool(coins) @with_local_height_cached def address_is_old(self, address: str, *, req_conf: int = 3) -> bool: """Returns whether address has any history that is deeply confirmed. Used for reorg-safe(ish) gap limit roll-forward. """ max_conf = -1 h = self.db.get_addr_history(address) needs_spv_check = not self.config.get("skipmerklecheck", False) for tx_hash, tx_height in h: if needs_spv_check: tx_age = self.get_tx_height(tx_hash).conf else: if tx_height <= 0: tx_age = 0 else: tx_age = self.get_local_height() - tx_height + 1 max_conf = max(max_conf, tx_age) return max_conf >= req_conf