import os import asyncio import logging from functools import partial from binascii import hexlify, unhexlify from io import StringIO from typing import Dict, Type, Iterable, List, Optional from operator import itemgetter from collections import namedtuple from torba.tasks import TaskGroup from torba.client import baseaccount, basenetwork, basetransaction from torba.client.basedatabase import BaseDatabase from torba.client.baseheader import BaseHeaders from torba.client.coinselection import CoinSelector from torba.client.constants import COIN, NULL_HASH32 from torba.stream import StreamController from torba.client.hash import hash160, double_sha256, sha256, Base58 log = logging.getLogger(__name__) LedgerType = Type['BaseLedger'] class LedgerRegistry(type): ledgers: Dict[str, LedgerType] = {} def __new__(mcs, name, bases, attrs): cls: LedgerType = super().__new__(mcs, name, bases, attrs) if not (name == 'BaseLedger' and not bases): ledger_id = cls.get_id() assert ledger_id not in mcs.ledgers,\ 'Ledger with id "{}" already registered.'.format(ledger_id) mcs.ledgers[ledger_id] = cls return cls @classmethod def get_ledger_class(mcs, ledger_id: str) -> LedgerType: return mcs.ledgers[ledger_id] class TransactionEvent(namedtuple('TransactionEvent', ('address', 'tx'))): pass class AddressesGeneratedEvent(namedtuple('AddressesGeneratedEvent', ('address_manager', 'addresses'))): pass class BlockHeightEvent(namedtuple('BlockHeightEvent', ('height', 'change'))): pass class TransactionCacheItem: __slots__ = '_tx', 'lock', 'has_tx' def __init__(self, tx: Optional[basetransaction.BaseTransaction] = None, lock: Optional[asyncio.Lock] = None): self.has_tx = asyncio.Event() self.lock = lock or asyncio.Lock() self._tx = self.tx = tx @property def tx(self) -> Optional[basetransaction.BaseTransaction]: return self._tx @tx.setter def tx(self, tx: basetransaction.BaseTransaction): self._tx = tx if tx is not None: self.has_tx.set() class BaseLedger(metaclass=LedgerRegistry): name: str symbol: str network_name: str database_class = BaseDatabase account_class = baseaccount.BaseAccount network_class = basenetwork.BaseNetwork transaction_class = basetransaction.BaseTransaction headers_class: Type[BaseHeaders] pubkey_address_prefix: bytes script_address_prefix: bytes extended_public_key_prefix: bytes extended_private_key_prefix: bytes default_fee_per_byte = 10 def __init__(self, config=None): self.config = config or {} self.db: BaseDatabase = self.config.get('db') or self.database_class( os.path.join(self.path, "blockchain.db") ) self.db.ledger = self self.headers: BaseHeaders = self.config.get('headers') or self.headers_class( os.path.join(self.path, "headers") ) self.network = self.config.get('network') or self.network_class(self) self.network.on_header.listen(self.receive_header) self.network.on_status.listen(self.process_status_update) self.accounts = [] self.fee_per_byte: int = self.config.get('fee_per_byte', self.default_fee_per_byte) self._on_transaction_controller = StreamController() self.on_transaction = self._on_transaction_controller.stream self.on_transaction.listen( lambda e: log.info( '(%s) on_transaction: address=%s, height=%s, is_verified=%s, tx.id=%s', self.get_id(), e.address, e.tx.height, e.tx.is_verified, e.tx.id ) ) self._on_address_controller = StreamController() self.on_address = self._on_address_controller.stream self.on_address.listen( lambda e: log.info('(%s) on_address: %s', self.get_id(), e.addresses) ) self._on_header_controller = StreamController() self.on_header = self._on_header_controller.stream self.on_header.listen( lambda change: log.info( '%s: added %s header blocks, final height %s', self.get_id(), change, self.headers.height ) ) self._tx_cache = {} self._update_tasks = TaskGroup() self._utxo_reservation_lock = asyncio.Lock() self._header_processing_lock = asyncio.Lock() self._address_update_locks: Dict[str, asyncio.Lock] = {} @classmethod def get_id(cls): return '{}_{}'.format(cls.symbol.lower(), cls.network_name.lower()) @classmethod def hash160_to_address(cls, h160): raw_address = cls.pubkey_address_prefix + h160 return Base58.encode(bytearray(raw_address + double_sha256(raw_address)[0:4])) @staticmethod def address_to_hash160(address): return Base58.decode(address)[1:21] @classmethod def is_valid_address(cls, address): decoded = Base58.decode(address) return decoded[0] == cls.pubkey_address_prefix @classmethod def public_key_to_address(cls, public_key): return cls.hash160_to_address(hash160(public_key)) @staticmethod def private_key_to_wif(private_key): return b'\x1c' + private_key + b'\x01' @property def path(self): return os.path.join(self.config['data_path'], self.get_id()) def add_account(self, account: baseaccount.BaseAccount): self.accounts.append(account) async def get_private_key_for_address(self, address): match = await self.db.get_address(address=address) if match: for account in self.accounts: if match['account'] == account.public_key.address: return account.get_private_key(match['chain'], match['position']) async def get_effective_amount_estimators(self, funding_accounts: Iterable[baseaccount.BaseAccount]): estimators = [] for account in funding_accounts: utxos = await account.get_utxos() for utxo in utxos: estimators.append(utxo.get_estimator(self)) return estimators async def get_spendable_utxos(self, amount: int, funding_accounts): async with self._utxo_reservation_lock: txos = await self.get_effective_amount_estimators(funding_accounts) selector = CoinSelector( txos, amount, self.transaction_class.output_class.pay_pubkey_hash(COIN, NULL_HASH32).get_fee(self) ) spendables = selector.select() if spendables: await self.reserve_outputs(s.txo for s in spendables) return spendables def reserve_outputs(self, txos): return self.db.reserve_outputs(txos) def release_outputs(self, txos): return self.db.release_outputs(txos) def release_tx(self, tx): return self.release_outputs([txi.txo_ref.txo for txi in tx.inputs]) async def get_local_status_and_history(self, address): address_details = await self.db.get_address(address=address) history = address_details['history'] or '' parts = history.split(':')[:-1] return ( hexlify(sha256(history.encode())).decode() if history else None, list(zip(parts[0::2], map(int, parts[1::2]))) ) @staticmethod def get_root_of_merkle_tree(branches, branch_positions, working_branch): for i, branch in enumerate(branches): other_branch = unhexlify(branch)[::-1] other_branch_on_left = bool((branch_positions >> i) & 1) if other_branch_on_left: combined = other_branch + working_branch else: combined = working_branch + other_branch working_branch = double_sha256(combined) return hexlify(working_branch[::-1]) async def start(self): if not os.path.exists(self.path): os.mkdir(self.path) await asyncio.wait([ self.db.open(), self.headers.open() ]) first_connection = self.network.on_connected.first asyncio.ensure_future(self.network.start()) await first_connection await self.join_network() self.network.on_connected.listen(self.join_network) async def join_network(self, *args): log.info("Subscribing and updating accounts.") await self.update_headers() await self.network.subscribe_headers() await self.subscribe_accounts() await self._update_tasks.done.wait() async def stop(self): self._update_tasks.cancel() await self._update_tasks.done.wait() await self.network.stop() await self.db.close() await self.headers.close() async def update_headers(self, height=None, headers=None, subscription_update=False): rewound = 0 while True: if height is None or height > len(self.headers): # sometimes header subscription updates are for a header in the future # which can't be connected, so we do a normal header sync instead height = len(self.headers) headers = None subscription_update = False if not headers: header_response = await self.network.get_headers(height, 2001) headers = header_response['hex'] if not headers: # Nothing to do, network thinks we're already at the latest height. return added = await self.headers.connect(height, unhexlify(headers)) if added > 0: height += added self._on_header_controller.add( BlockHeightEvent(self.headers.height, added)) if rewound > 0: # we started rewinding blocks and apparently found # a new chain rewound = 0 await self.db.rewind_blockchain(height) if subscription_update: # subscription updates are for latest header already # so we don't need to check if there are newer / more # on another loop of update_headers(), just return instead return elif added == 0: # we had headers to connect but none got connected, probably a reorganization height -= 1 rewound += 1 log.warning( "Blockchain Reorganization: attempting rewind to height %s from starting height %s", height, height+rewound ) else: raise IndexError("headers.connect() returned negative number ({})".format(added)) if height < 0: raise IndexError( "Blockchain reorganization rewound all the way back to genesis hash. " "Something is very wrong. Maybe you are on the wrong blockchain?" ) if rewound >= 100: raise IndexError( "Blockchain reorganization dropped {} headers. This is highly unusual. " "Will not continue to attempt reorganizing. Please, delete the ledger " "synchronization directory inside your wallet directory (folder: '{}') and " "restart the program to synchronize from scratch." .format(rewound, self.get_id()) ) headers = None # ready to download some more headers # if we made it this far and this was a subscription_update # it means something went wrong and now we're doing a more # robust sync, turn off subscription update shortcut subscription_update = False async def receive_header(self, response): async with self._header_processing_lock: header = response[0] await self.update_headers( height=header['height'], headers=header['hex'], subscription_update=True ) async def subscribe_accounts(self): if self.network.is_connected and self.accounts: await asyncio.wait([ self.subscribe_account(a) for a in self.accounts ]) async def subscribe_account(self, account: baseaccount.BaseAccount): for address_manager in account.address_managers.values(): await self.subscribe_addresses(address_manager, await address_manager.get_addresses()) await account.ensure_address_gap() async def announce_addresses(self, address_manager: baseaccount.AddressManager, addresses: List[str]): await self.subscribe_addresses(address_manager, addresses) await self._on_address_controller.add( AddressesGeneratedEvent(address_manager, addresses) ) async def subscribe_addresses(self, address_manager: baseaccount.AddressManager, addresses: List[str]): if self.network.is_connected and addresses: await asyncio.wait([ self.subscribe_address(address_manager, address) for address in addresses ]) async def subscribe_address(self, address_manager: baseaccount.AddressManager, address: str): remote_status = await self.network.subscribe_address(address) self._update_tasks.add(self.update_history(address, remote_status, address_manager)) def process_status_update(self, update): address, remote_status = update self._update_tasks.add(self.update_history(address, remote_status)) async def update_history(self, address, remote_status, address_manager: baseaccount.AddressManager = None): async with self._address_update_locks.setdefault(address, asyncio.Lock()): local_status, local_history = await self.get_local_status_and_history(address) if local_status == remote_status: return remote_history = await self.network.get_history(address) cache_tasks = [] synced_history = StringIO() for i, (txid, remote_height) in enumerate(map(itemgetter('tx_hash', 'height'), remote_history)): if i < len(local_history) and local_history[i] == (txid, remote_height): synced_history.write(f'{txid}:{remote_height}:') else: cache_tasks.append(asyncio.ensure_future( self.cache_transaction(txid, remote_height) )) for task in cache_tasks: tx = await task check_db_for_txos = [] for txi in tx.inputs: if txi.txo_ref.txo is not None: continue cache_item = self._tx_cache.get(txi.txo_ref.tx_ref.id) if cache_item is not None: if cache_item.tx is None: await cache_item.has_tx.wait() assert cache_item.tx is not None txi.txo_ref = cache_item.tx.outputs[txi.txo_ref.position].ref else: check_db_for_txos.append(txi.txo_ref.id) referenced_txos = { txo.id: txo for txo in await self.db.get_txos(txoid__in=check_db_for_txos) } for txi in tx.inputs: if txi.txo_ref.txo is not None: continue referenced_txo = referenced_txos.get(txi.txo_ref.id) if referenced_txo is not None: txi.txo_ref = referenced_txo.ref synced_history.write(f'{tx.id}:{tx.height}:') await self.db.save_transaction_io( tx, address, self.address_to_hash160(address), synced_history.getvalue() ) await self._on_transaction_controller.add(TransactionEvent(address, tx)) if address_manager is None: address_manager = await self.get_address_manager_for_address(address) if address_manager is not None: await address_manager.ensure_address_gap() async def cache_transaction(self, txid, remote_height): cache_item = self._tx_cache.get(txid) if cache_item is None: cache_item = self._tx_cache[txid] = TransactionCacheItem() elif cache_item.tx is not None and \ cache_item.tx.height >= remote_height and \ (cache_item.tx.is_verified or remote_height < 1): return cache_item.tx # cached tx is already up-to-date async with cache_item.lock: tx = cache_item.tx if tx is None: # check local db tx = cache_item.tx = await self.db.get_transaction(txid=txid) if tx is None: # fetch from network _raw = await self.network.get_transaction(txid) if _raw: tx = self.transaction_class(unhexlify(_raw)) await self.maybe_verify_transaction(tx, remote_height) await self.db.insert_transaction(tx) cache_item.tx = tx # make sure it's saved before caching it return tx if tx is None: raise ValueError(f'Transaction {txid} was not in database and not on network.') if remote_height > 0 and not tx.is_verified: # tx from cache / db is not up-to-date await self.maybe_verify_transaction(tx, remote_height) await self.db.update_transaction(tx) return tx async def maybe_verify_transaction(self, tx, remote_height): tx.height = remote_height if 0 < remote_height <= len(self.headers): merkle = await self.network.get_merkle(tx.id, remote_height) merkle_root = self.get_root_of_merkle_tree(merkle['merkle'], merkle['pos'], tx.hash) header = self.headers[remote_height] tx.position = merkle['pos'] tx.is_verified = merkle_root == header['merkle_root'] async def get_address_manager_for_address(self, address) -> Optional[baseaccount.AddressManager]: details = await self.db.get_address(address=address) for account in self.accounts: if account.id == details['account']: return account.address_managers[details['chain']] return None def broadcast(self, tx): return self.network.broadcast(hexlify(tx.raw).decode()) async def wait(self, tx: basetransaction.BaseTransaction, height=-1): addresses = set() for txi in tx.inputs: if txi.txo_ref.txo is not None: addresses.add( self.hash160_to_address(txi.txo_ref.txo.script.values['pubkey_hash']) ) for txo in tx.outputs: addresses.add( self.hash160_to_address(txo.script.values['pubkey_hash']) ) records = await self.db.get_addresses(cols=('address',), address__in=addresses) await asyncio.wait([ self.on_transaction.where(partial( lambda a, e: a == e.address and e.tx.height >= height and e.tx.id == tx.id, address_record['address'] )) for address_record in records ])