import os import copy import time import asyncio import logging from datetime import datetime from functools import partial from operator import itemgetter from collections import defaultdict from binascii import hexlify, unhexlify from typing import Dict, Tuple, Type, Iterable, List, Optional, DefaultDict, NamedTuple from lbry.schema.result import Outputs, INVALID, NOT_FOUND from lbry.schema.url import URL from lbry.crypto.hash import hash160, double_sha256, sha256 from lbry.crypto.base58 import Base58 from lbry.utils import LRUCacheWithMetrics from lbry.wallet.tasks import TaskGroup from lbry.wallet.database import Database from lbry.wallet.stream import StreamController from lbry.wallet.dewies import dewies_to_lbc from lbry.wallet.account import Account, AddressManager, SingleKey from lbry.wallet.network import Network from lbry.wallet.transaction import Transaction, Output from lbry.wallet.header import Headers, UnvalidatedHeaders from lbry.wallet.checkpoints import HASHES from lbry.wallet.constants import TXO_TYPES, CLAIM_TYPES, COIN, NULL_HASH32 from lbry.wallet.bip32 import PublicKey, PrivateKey from lbry.wallet.coinselection import CoinSelector 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, \ f'Ledger with id "{ledger_id}" already registered.' 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): address: str tx: Transaction class AddressesGeneratedEvent(NamedTuple): address_manager: AddressManager addresses: List[str] class BlockHeightEvent(NamedTuple): height: int change: int class TransactionCacheItem: __slots__ = '_tx', 'lock', 'has_tx', 'pending_verifications' def __init__(self, tx: Optional[Transaction] = None, lock: Optional[asyncio.Lock] = None): self.has_tx = asyncio.Event() self.lock = lock or asyncio.Lock() self._tx = self.tx = tx self.pending_verifications = 0 @property def tx(self) -> Optional[Transaction]: return self._tx @tx.setter def tx(self, tx: Transaction): self._tx = tx if tx is not None: self.has_tx.set() class Ledger(metaclass=LedgerRegistry): name = 'LBRY Credits' symbol = 'LBC' network_name = 'mainnet' headers_class = Headers secret_prefix = bytes((0x1c,)) pubkey_address_prefix = bytes((0x55,)) script_address_prefix = bytes((0x7a,)) extended_public_key_prefix = unhexlify('0488b21e') extended_private_key_prefix = unhexlify('0488ade4') max_target = 0x0000ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff genesis_hash = '9c89283ba0f3227f6c03b70216b9f665f0118d5e0fa729cedf4fb34d6a34f463' genesis_bits = 0x1f00ffff target_timespan = 150 default_fee_per_byte = 50 default_fee_per_name_char = 0 checkpoints = HASHES def __init__(self, config=None): self.config = config or {} self.db: Database = self.config.get('db') or Database( os.path.join(self.path, "blockchain.db") ) self.db.ledger = self self.headers: Headers = self.config.get('headers') or self.headers_class( os.path.join(self.path, "headers") ) self.headers.checkpoints = self.checkpoints self.network: Network = self.config.get('network') or Network(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._download_height = 0 self._on_ready_controller = StreamController() self.on_ready = self._on_ready_controller.stream self._tx_cache = LRUCacheWithMetrics(self.config.get("tx_cache_size", 1024), metric_name='tx') self._update_tasks = TaskGroup() self._other_tasks = TaskGroup() # that we dont need to start self._utxo_reservation_lock = asyncio.Lock() self._header_processing_lock = asyncio.Lock() self._address_update_locks: DefaultDict[str, asyncio.Lock] = defaultdict(asyncio.Lock) self._history_lock = asyncio.Lock() self.coin_selection_strategy = None self._known_addresses_out_of_sync = set() self.fee_per_name_char = self.config.get('fee_per_name_char', self.default_fee_per_name_char) self._balance_cache = LRUCacheWithMetrics(2 ** 15) @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])) @classmethod def hash160_to_script_address(cls, h160): raw_address = cls.script_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_pubkey_address(cls, address): decoded = Base58.decode_check(address) return decoded[0] == cls.pubkey_address_prefix[0] @classmethod def is_script_address(cls, address): decoded = Base58.decode_check(address) return decoded[0] == cls.script_address_prefix[0] @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: Account): self.accounts.append(account) async def _get_account_and_address_info_for_address(self, wallet, address): match = await self.db.get_address(accounts=wallet.accounts, address=address) if match: for account in wallet.accounts: if match['account'] == account.public_key.address: return account, match async def get_private_key_for_address(self, wallet, address) -> Optional[PrivateKey]: match = await self._get_account_and_address_info_for_address(wallet, address) if match: account, address_info = match return account.get_private_key(address_info['chain'], address_info['pubkey'].n) return None async def get_public_key_for_address(self, wallet, address) -> Optional[PublicKey]: match = await self._get_account_and_address_info_for_address(wallet, address) if match: _, address_info = match return address_info['pubkey'] return None async def get_account_for_address(self, wallet, address): match = await self._get_account_and_address_info_for_address(wallet, address) if match: return match[0] async def get_effective_amount_estimators(self, funding_accounts: Iterable[Account]): estimators = [] for account in funding_accounts: utxos = await account.get_utxos(no_tx=True, no_channel_info=True) for utxo in utxos: estimators.append(utxo.get_estimator(self)) return estimators async def get_addresses(self, **constraints): return await self.db.get_addresses(**constraints) def get_address_count(self, **constraints): return self.db.get_address_count(**constraints) async def get_spendable_utxos(self, amount: int, funding_accounts: Optional[Iterable['Account']], min_amount=1): min_amount = min(amount // 10, min_amount) fee = Output.pay_pubkey_hash(COIN, NULL_HASH32).get_fee(self) selector = CoinSelector(amount, fee) async with self._utxo_reservation_lock: if self.coin_selection_strategy == 'sqlite': return await self.db.get_spendable_utxos(self, amount + fee, funding_accounts, min_amount=min_amount, fee_per_byte=self.fee_per_byte) txos = await self.get_effective_amount_estimators(funding_accounts) spendables = selector.select(txos, self.coin_selection_strategy) 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]) def get_utxos(self, **constraints): self.constraint_spending_utxos(constraints) return self.db.get_utxos(**constraints) def get_utxo_count(self, **constraints): self.constraint_spending_utxos(constraints) return self.db.get_utxo_count(**constraints) async def get_txos(self, resolve=False, **constraints) -> List[Output]: txos = await self.db.get_txos(**constraints) if resolve: return await self._resolve_for_local_results(constraints.get('accounts', []), txos) return txos def get_txo_count(self, **constraints): return self.db.get_txo_count(**constraints) def get_txo_sum(self, **constraints): return self.db.get_txo_sum(**constraints) def get_txo_plot(self, **constraints): return self.db.get_txo_plot(**constraints) def get_transactions(self, **constraints): return self.db.get_transactions(**constraints) def get_transaction_count(self, **constraints): return self.db.get_transaction_count(**constraints) async def get_local_status_and_history(self, address, history=None): if not history: address_details = await self.db.get_address(address=address) history = (address_details['history'] if address_details else '') 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() ]) fully_synced = self.on_ready.first asyncio.create_task(self.network.start()) await self.network.on_connected.first async with self._header_processing_lock: await self._update_tasks.add(self.initial_headers_sync()) self.network.on_connected.listen(self.join_network) asyncio.ensure_future(self.join_network()) await fully_synced await self.db.release_all_outputs() await asyncio.gather(*(a.maybe_migrate_certificates() for a in self.accounts)) await asyncio.gather(*(a.save_max_gap() for a in self.accounts)) if len(self.accounts) > 10: log.info("Loaded %i accounts", len(self.accounts)) else: await self._report_state() self.on_transaction.listen(self._reset_balance_cache) async def join_network(self, *_): log.info("Subscribing and updating accounts.") await self._update_tasks.add(self.subscribe_accounts()) await self._update_tasks.done.wait() self._on_ready_controller.add(True) async def stop(self): self._update_tasks.cancel() self._other_tasks.cancel() await self._update_tasks.done.wait() await self._other_tasks.done.wait() await self.network.stop() await self.db.close() await self.headers.close() async def tasks_are_done(self): await self._update_tasks.done.wait() await self._other_tasks.done.wait() @property def local_height_including_downloaded_height(self): return max(self.headers.height, self._download_height) async def initial_headers_sync(self): get_chunk = partial(self.network.retriable_call, self.network.get_headers, count=1000, b64=True) self.headers.chunk_getter = get_chunk async def doit(): for height in reversed(sorted(self.headers.known_missing_checkpointed_chunks)): async with self._header_processing_lock: await self.headers.ensure_chunk_at(height) self._other_tasks.add(doit()) await self.update_headers() 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.retriable_call(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 ) self._tx_cache.clear() else: raise IndexError(f"headers.connect() returned negative number ({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: log.info("Subscribe to %i accounts", len(self.accounts)) await asyncio.wait([ self.subscribe_account(a) for a in self.accounts ]) async def subscribe_account(self, account: Account): for address_manager in account.address_managers.values(): await self.subscribe_addresses(address_manager, await address_manager.get_addresses()) await account.ensure_address_gap() await account.deterministic_channel_keys.ensure_cache_primed() async def unsubscribe_account(self, account: Account): for address in await account.get_addresses(): await self.network.unsubscribe_address(address) async def announce_addresses(self, address_manager: 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: AddressManager, addresses: List[str], batch_size: int = 1000): if self.network.is_connected and addresses: addresses_remaining = list(addresses) while addresses_remaining: batch = addresses_remaining[:batch_size] results = await self.network.subscribe_address(*batch) for address, remote_status in zip(batch, results): self._update_tasks.add(self.update_history(address, remote_status, address_manager)) addresses_remaining = addresses_remaining[batch_size:] if self.network.client and self.network.client.server_address_and_port: log.info("subscribed to %i/%i addresses on %s:%i", len(addresses) - len(addresses_remaining), len(addresses), *self.network.client.server_address_and_port) if self.network.client and self.network.client.server_address_and_port: log.info( "finished subscribing to %i addresses on %s:%i", len(addresses), *self.network.client.server_address_and_port ) 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: AddressManager = None, reattempt_update: bool = True): async with self._address_update_locks[address]: self._known_addresses_out_of_sync.discard(address) local_status, local_history = await self.get_local_status_and_history(address) if local_status == remote_status: return True remote_history = await self.network.retriable_call(self.network.get_history, address) remote_history = list(map(itemgetter('tx_hash', 'height'), remote_history)) we_need = set(remote_history) - set(local_history) if not we_need: remote_missing = set(local_history) - set(remote_history) if remote_missing: log.warning( "%i transactions we have for %s are not in the remote address history", len(remote_missing), address ) return True to_request = {} pending_synced_history = {} already_synced = set() already_synced_offset = 0 for i, (txid, remote_height) in enumerate(remote_history): if i == already_synced_offset and i < len(local_history) and local_history[i] == (txid, remote_height): pending_synced_history[i] = f'{txid}:{remote_height}:' already_synced.add((txid, remote_height)) already_synced_offset += 1 continue tx_indexes = {} for i, (txid, remote_height) in enumerate(remote_history): tx_indexes[txid] = i if (txid, remote_height) in already_synced: continue to_request[i] = (txid, remote_height) log.debug( "request %i transactions, %i/%i for %s are already synced", len(to_request), len(already_synced), len(remote_history), address ) remote_history_txids = {txid for txid, _ in remote_history} async for tx in self.request_synced_transactions(to_request, remote_history_txids, address): self.maybe_has_channel_key(tx) pending_synced_history[tx_indexes[tx.id]] = f"{tx.id}:{tx.height}:" if len(pending_synced_history) % 100 == 0: log.info("Syncing address %s: %d/%d", address, len(pending_synced_history), len(to_request)) log.info("Sync finished for address %s: %d/%d", address, len(pending_synced_history), len(to_request)) assert len(pending_synced_history) == len(remote_history), \ f"{len(pending_synced_history)} vs {len(remote_history)} for {address}" synced_history = "" for remote_i, i in zip(range(len(remote_history)), sorted(pending_synced_history.keys())): assert i == remote_i, f"{i} vs {remote_i}" txid, height = remote_history[remote_i] if f"{txid}:{height}:" != pending_synced_history[i]: log.warning("history mismatch: %s vs %s", remote_history[remote_i], pending_synced_history[i]) synced_history += pending_synced_history[i] await self.db.set_address_history(address, synced_history) 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() local_status, local_history = \ await self.get_local_status_and_history(address, synced_history) if local_status != remote_status: if local_history == remote_history: log.warning( "%s has a synced history but a mismatched status", address ) return True remote_set = set(remote_history) local_set = set(local_history) log.warning( "%s is out of sync after syncing.\n" "Remote: %s with %d items (%i unique), local: %s with %d items (%i unique).\n" "Histories are mismatched on %i items.\n" "Local is missing\n" "%s\n" "Remote is missing\n" "%s\n" "******", address, remote_status, len(remote_history), len(remote_set), local_status, len(local_history), len(local_set), len(remote_set.symmetric_difference(local_set)), "\n".join([f"{txid} - {height}" for txid, height in local_set.difference(remote_set)]), "\n".join([f"{txid} - {height}" for txid, height in remote_set.difference(local_set)]) ) self._known_addresses_out_of_sync.add(address) return False else: log.debug("finished syncing transaction history for %s, %i known txs", address, len(local_history)) return True async def maybe_verify_transaction(self, tx, remote_height, merkle=None): tx.height = remote_height if 0 < remote_height < len(self.headers): # can't be tx.pending_verifications == 1 because we have to handle the transaction_show case if not merkle: merkle = await self.network.retriable_call(self.network.get_merkle, tx.id, remote_height) if 'merkle' not in merkle: return merkle_root = self.get_root_of_merkle_tree(merkle['merkle'], merkle['pos'], tx.hash) header = await self.headers.get(remote_height) tx.position = merkle['pos'] tx.is_verified = merkle_root == header['merkle_root'] return tx def maybe_has_channel_key(self, tx): for txo in tx._outputs: if txo.can_decode_claim and txo.claim.is_channel: for account in self.accounts: account.deterministic_channel_keys.maybe_generate_deterministic_key_for_channel(txo) async def request_transactions(self, to_request: Tuple[Tuple[str, int], ...], cached=False): batches = [[]] remote_heights = {} cache_hits = set() for txid, height in sorted(to_request, key=lambda x: x[1]): if cached: cached_tx = self._tx_cache.get(txid) if cached_tx is not None: if cached_tx.tx is not None and cached_tx.tx.is_verified: cache_hits.add(txid) continue else: self._tx_cache[txid] = TransactionCacheItem() remote_heights[txid] = height if len(batches[-1]) == 100: batches.append([]) batches[-1].append(txid) if not batches[-1]: batches.pop() if cached and cache_hits: yield {txid: self._tx_cache[txid].tx for txid in cache_hits} for batch in batches: txs = await self._single_batch(batch, remote_heights) if cached: for txid, tx in txs.items(): self._tx_cache[txid].tx = tx yield txs async def request_synced_transactions(self, to_request, remote_history, address): async for txs in self.request_transactions(((txid, height) for txid, height in to_request.values())): for tx in txs.values(): yield tx await self._sync_and_save_batch(address, remote_history, txs) async def _single_batch(self, batch, remote_heights): heights = {remote_heights[txid] for txid in batch} unrestriced = 0 < min(heights) < max(heights) < max(self.headers.checkpoints or [0]) batch_result = await self.network.retriable_call(self.network.get_transaction_batch, batch, not unrestriced) txs = {} for txid, (raw, merkle) in batch_result.items(): remote_height = remote_heights[txid] tx = Transaction(unhexlify(raw), height=remote_height) txs[tx.id] = tx await self.maybe_verify_transaction(tx, remote_height, merkle) return txs async def _sync_and_save_batch(self, address, remote_history, pending_txs): await asyncio.gather(*(self._sync(tx, remote_history, pending_txs) for tx in pending_txs.values())) await self.db.save_transaction_io_batch( pending_txs.values(), address, self.address_to_hash160(address), "" ) while pending_txs: self._on_transaction_controller.add(TransactionEvent(address, pending_txs.popitem()[1])) async def _sync(self, tx, remote_history, pending_txs): check_db_for_txos = {} for txi in tx.inputs: if txi.txo_ref.txo is not None: continue wanted_txid = txi.txo_ref.tx_ref.id if wanted_txid not in remote_history: continue if wanted_txid in pending_txs: txi.txo_ref = pending_txs[wanted_txid].outputs[txi.txo_ref.position].ref else: check_db_for_txos[txi] = txi.txo_ref.id referenced_txos = {} if not check_db_for_txos else { txo.id: txo for txo in await self.db.get_txos( txoid__in=list(check_db_for_txos.values()), order_by='txo.txoid', no_tx=True ) } for txi in check_db_for_txos: if txi.txo_ref.id in referenced_txos: txi.txo_ref = referenced_txos[txi.txo_ref.id].ref else: tx_from_db = await self.db.get_transaction(txid=txi.txo_ref.tx_ref.id) if tx_from_db is None: log.warning("%s not on db, not on cache, but on remote history!", txi.txo_ref.id) else: txi.txo_ref = tx_from_db.outputs[txi.txo_ref.position].ref return tx async def get_address_manager_for_address(self, address) -> Optional[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 async def broadcast_or_release(self, tx, blocking=False): try: await self.broadcast(tx) except: await self.release_tx(tx) raise if blocking: await self.wait(tx, timeout=None) def broadcast(self, tx): # broadcast can't be a retriable call yet return self.network.broadcast(hexlify(tx.raw).decode()) async def wait(self, tx: Transaction, height=-1, timeout=1): timeout = timeout or 600 # after 10 minutes there is almost 0 hope 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.pubkey_hash) ) for txo in tx.outputs: if txo.is_pubkey_hash: addresses.add(self.hash160_to_address(txo.pubkey_hash)) elif txo.is_script_hash: addresses.add(self.hash160_to_script_address(txo.script_hash)) start = int(time.perf_counter()) while timeout and (int(time.perf_counter()) - start) <= timeout: if await self._wait_round(tx, height, addresses): return raise asyncio.TimeoutError(f'Timed out waiting for transaction. {tx.id}') async def _wait_round(self, tx: Transaction, height: int, addresses: Iterable[str]): records = await self.db.get_addresses(address__in=addresses) _, pending = 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 ], timeout=1) if not pending: return True records = await self.db.get_addresses(address__in=addresses) for record in records: local_history = (await self.get_local_status_and_history( record['address'], history=record['history'] ))[1] if record['history'] else [] for txid, local_height in local_history: if txid == tx.id: if local_height >= height or (local_height == 0 and height > local_height): return True log.warning( "local history has higher height than remote for %s (%i vs %i)", txid, local_height, height ) return False log.warning( "local history does not contain %s, requested height %i", tx.id, height ) return False async def _inflate_outputs( self, query, accounts, include_purchase_receipt=False, include_is_my_output=False, include_sent_supports=False, include_sent_tips=False, include_received_tips=False) -> Tuple[List[Output], dict, int, int]: encoded_outputs = await query outputs = Outputs.from_base64(encoded_outputs or '') # TODO: why is the server returning None? txs: List[Transaction] = [] if len(outputs.txs) > 0: async for tx in self.request_transactions(tuple(outputs.txs), cached=True): txs.extend(tx.values()) _txos, blocked = outputs.inflate(txs) txos = [] for txo in _txos: if isinstance(txo, Output): # transactions and outputs are cached and shared between wallets # we don't want to leak informaion between wallet so we add the # wallet specific metadata on throw away copies of the txos txo = copy.copy(txo) channel = txo.channel txo.purchase_receipt = None txo.update_annotations(None) txo.channel = channel txos.append(txo) includes = ( include_purchase_receipt, include_is_my_output, include_sent_supports, include_sent_tips ) if accounts and any(includes): receipts = {} if include_purchase_receipt: priced_claims = [] for txo in txos: if isinstance(txo, Output) and txo.has_price: priced_claims.append(txo) if priced_claims: receipts = { txo.purchased_claim_id: txo for txo in await self.db.get_purchases( accounts=accounts, purchased_claim_id__in=[c.claim_id for c in priced_claims] ) } for txo in txos: if isinstance(txo, Output) and txo.can_decode_claim: if include_purchase_receipt: txo.purchase_receipt = receipts.get(txo.claim_id) if include_is_my_output: mine = await self.db.get_txo_count( claim_id=txo.claim_id, txo_type__in=CLAIM_TYPES, is_my_output=True, is_spent=False, accounts=accounts ) if mine: txo.is_my_output = True else: txo.is_my_output = False if include_sent_supports: supports = await self.db.get_txo_sum( claim_id=txo.claim_id, txo_type=TXO_TYPES['support'], is_my_input=True, is_my_output=True, is_spent=False, accounts=accounts ) txo.sent_supports = supports if include_sent_tips: tips = await self.db.get_txo_sum( claim_id=txo.claim_id, txo_type=TXO_TYPES['support'], is_my_input=True, is_my_output=False, accounts=accounts ) txo.sent_tips = tips if include_received_tips: tips = await self.db.get_txo_sum( claim_id=txo.claim_id, txo_type=TXO_TYPES['support'], is_my_input=False, is_my_output=True, accounts=accounts ) txo.received_tips = tips return txos, blocked, outputs.offset, outputs.total async def resolve(self, accounts, urls, **kwargs): txos = [] urls_copy = list(urls) resolve = partial(self.network.retriable_call, self.network.resolve) while urls_copy: batch, urls_copy = urls_copy[:100], urls_copy[100:] txos.extend( (await self._inflate_outputs( resolve(batch), accounts, **kwargs ))[0] ) assert len(urls) == len(txos), "Mismatch between urls requested for resolve and responses received." result = {} for url, txo in zip(urls, txos): if txo: if isinstance(txo, Output) and URL.parse(url).has_stream_in_channel: if not txo.channel or not txo.is_signed_by(txo.channel, self): txo = {'error': {'name': INVALID, 'text': f'{url} has invalid channel signature'}} else: txo = {'error': {'name': NOT_FOUND, 'text': f'{url} did not resolve to a claim'}} result[url] = txo return result async def sum_supports(self, new_sdk_server, **kwargs) -> List[Dict]: return await self.network.sum_supports(new_sdk_server, **kwargs) async def claim_search( self, accounts, include_purchase_receipt=False, include_is_my_output=False, **kwargs) -> Tuple[List[Output], dict, int, int]: return await self._inflate_outputs( self.network.claim_search(**kwargs), accounts, include_purchase_receipt=include_purchase_receipt, include_is_my_output=include_is_my_output ) # async def get_claim_by_claim_id(self, accounts, claim_id, **kwargs) -> Output: # return await self.network.get_claim_by_id(claim_id) async def get_claim_by_claim_id(self, claim_id, accounts=None, include_purchase_receipt=False, include_is_my_output=False): accounts = accounts or [] # return await self.network.get_claim_by_id(claim_id) inflated = await self._inflate_outputs( self.network.get_claim_by_id(claim_id), accounts, include_purchase_receipt=include_purchase_receipt, include_is_my_output=include_is_my_output, ) txos = inflated[0] if txos: return txos[0] async def _report_state(self): try: for account in self.accounts: balance = dewies_to_lbc(await account.get_balance(include_claims=True)) channel_count = await account.get_channel_count() claim_count = await account.get_claim_count() if isinstance(account.receiving, SingleKey): log.info("Loaded single key account %s with %s LBC. " "%d channels, %d certificates and %d claims", account.id, balance, channel_count, len(account.channel_keys), claim_count) else: total_receiving = len(await account.receiving.get_addresses()) total_change = len(await account.change.get_addresses()) log.info("Loaded account %s with %s LBC, %d receiving addresses (gap: %d), " "%d change addresses (gap: %d), %d channels, %d certificates and %d claims. ", account.id, balance, total_receiving, account.receiving.gap, total_change, account.change.gap, channel_count, len(account.channel_keys), claim_count) except Exception: log.exception( 'Failed to display wallet state, please file issue ' 'for this bug along with the traceback you see below:') async def _reset_balance_cache(self, e: TransactionEvent): account_ids = [ r['account'] for r in await self.db.get_addresses(('account',), address=e.address) ] for account_id in account_ids: if account_id in self._balance_cache: del self._balance_cache[account_id] @staticmethod def constraint_spending_utxos(constraints): constraints['txo_type__in'] = (0, TXO_TYPES['purchase']) async def get_purchases(self, resolve=False, **constraints): purchases = await self.db.get_purchases(**constraints) if resolve: claim_ids = [p.purchased_claim_id for p in purchases] try: resolved, _, _, _ = await self.claim_search([], claim_ids=claim_ids) except Exception: log.exception("Resolve failed while looking up purchased claim ids:") resolved = [] lookup = {claim.claim_id: claim for claim in resolved} for purchase in purchases: purchase.purchased_claim = lookup.get(purchase.purchased_claim_id) return purchases def get_purchase_count(self, resolve=False, **constraints): return self.db.get_purchase_count(**constraints) async def _resolve_for_local_results(self, accounts, txos): txos = await self._resolve_for_local_claim_results(accounts, txos) txos = await self._resolve_for_local_support_results(accounts, txos) return txos async def _resolve_for_local_claim_results(self, accounts, txos): results = [] response = await self.resolve( accounts, [txo.permanent_url for txo in txos if txo.can_decode_claim] ) for txo in txos: resolved = response.get(txo.permanent_url) if txo.can_decode_claim else None if isinstance(resolved, Output): resolved.update_annotations(txo) results.append(resolved) else: if isinstance(resolved, dict) and 'error' in resolved: txo.meta['error'] = resolved['error'] results.append(txo) return results async def _resolve_for_local_support_results(self, accounts, txos): channel_ids = set() signed_support_txos = [] for txo in txos: support = txo.can_decode_support if support and support.signing_channel_id: channel_ids.add(support.signing_channel_id) signed_support_txos.append(txo) if channel_ids: channels = { channel.claim_id: channel for channel in (await self.claim_search(accounts, claim_ids=list(channel_ids)))[0] } for txo in signed_support_txos: txo.channel = channels.get(txo.support.signing_channel_id) return txos async def get_claims(self, resolve=False, **constraints): claims = await self.db.get_claims(**constraints) if resolve: return await self._resolve_for_local_results(constraints.get('accounts', []), claims) return claims def get_claim_count(self, **constraints): return self.db.get_claim_count(**constraints) async def get_streams(self, resolve=False, **constraints): streams = await self.db.get_streams(**constraints) if resolve: return await self._resolve_for_local_results(constraints.get('accounts', []), streams) return streams def get_stream_count(self, **constraints): return self.db.get_stream_count(**constraints) async def get_channels(self, resolve=False, **constraints): channels = await self.db.get_channels(**constraints) if resolve: return await self._resolve_for_local_results(constraints.get('accounts', []), channels) return channels def get_channel_count(self, **constraints): return self.db.get_channel_count(**constraints) async def resolve_collection(self, collection, offset=0, page_size=1): claim_ids = collection.claim.collection.claims.ids[offset:page_size + offset] try: resolve_results, _, _, _ = await self.claim_search([], claim_ids=claim_ids) except Exception: log.exception("Resolve failed while looking up collection claim ids:") return [] claims = [] for claim_id in claim_ids: found = False for txo in resolve_results: if txo.claim_id == claim_id: claims.append(txo) found = True break if not found: claims.append(None) return claims async def get_collections(self, resolve_claims=0, resolve=False, **constraints): collections = await self.db.get_collections(**constraints) if resolve: collections = await self._resolve_for_local_results(constraints.get('accounts', []), collections) if resolve_claims > 0: for collection in collections: collection.claims = await self.resolve_collection(collection, page_size=resolve_claims) return collections def get_collection_count(self, resolve_claims=0, **constraints): return self.db.get_collection_count(**constraints) def get_supports(self, **constraints): return self.db.get_supports(**constraints) def get_support_count(self, **constraints): return self.db.get_support_count(**constraints) async def get_transaction_history(self, read_only=False, **constraints): txs: List[Transaction] = await self.db.get_transactions( include_is_my_output=True, include_is_spent=True, read_only=read_only, **constraints ) headers = self.headers history = [] for tx in txs: # pylint: disable=too-many-nested-blocks ts = headers.estimated_timestamp(tx.height) item = { 'txid': tx.id, 'timestamp': ts, 'date': datetime.fromtimestamp(ts).isoformat(' ')[:-3] if tx.height > 0 else None, 'confirmations': (headers.height + 1) - tx.height if tx.height > 0 else 0, 'claim_info': [], 'update_info': [], 'support_info': [], 'abandon_info': [], 'purchase_info': [] } is_my_inputs = all(txi.is_my_input for txi in tx.inputs) if is_my_inputs: # fees only matter if we are the ones paying them item['value'] = dewies_to_lbc(tx.net_account_balance + tx.fee) item['fee'] = dewies_to_lbc(-tx.fee) else: # someone else paid the fees item['value'] = dewies_to_lbc(tx.net_account_balance) item['fee'] = '0.0' for txo in tx.my_claim_outputs: item['claim_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(-txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'nout': txo.position, 'is_spent': txo.is_spent, }) for txo in tx.my_update_outputs: if is_my_inputs: # updating my own claim previous = None for txi in tx.inputs: if txi.txo_ref.txo is not None: other_txo = txi.txo_ref.txo if (other_txo.is_claim or other_txo.script.is_support_claim) \ and other_txo.claim_id == txo.claim_id: previous = other_txo break if previous is not None: item['update_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(previous.amount - txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'nout': txo.position, 'is_spent': txo.is_spent, }) else: # someone sent us their claim item['update_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(0), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'nout': txo.position, 'is_spent': txo.is_spent, }) for txo in tx.my_support_outputs: item['support_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(txo.amount if not is_my_inputs else -txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'is_tip': not is_my_inputs, 'nout': txo.position, 'is_spent': txo.is_spent, }) if is_my_inputs: for txo in tx.other_support_outputs: item['support_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(-txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'is_tip': is_my_inputs, 'nout': txo.position, 'is_spent': txo.is_spent, }) for txo in tx.my_abandon_outputs: item['abandon_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.claim_id, 'claim_name': txo.claim_name, 'nout': txo.position }) for txo in tx.any_purchase_outputs: item['purchase_info'].append({ 'address': txo.get_address(self), 'balance_delta': dewies_to_lbc(txo.amount if not is_my_inputs else -txo.amount), 'amount': dewies_to_lbc(txo.amount), 'claim_id': txo.purchased_claim_id, 'nout': txo.position, 'is_spent': txo.is_spent, }) history.append(item) return history def get_transaction_history_count(self, read_only=False, **constraints): return self.db.get_transaction_count(read_only=read_only, **constraints) async def get_detailed_balance(self, accounts, confirmations=0): result = { 'total': 0, 'available': 0, 'reserved': 0, 'reserved_subtotals': { 'claims': 0, 'supports': 0, 'tips': 0 } } for account in accounts: balance = self._balance_cache.get(account.id) if not balance: balance = self._balance_cache[account.id] = \ await account.get_detailed_balance(confirmations) for key, value in balance.items(): if key == 'reserved_subtotals': for subkey, subvalue in value.items(): result['reserved_subtotals'][subkey] += subvalue else: result[key] += value return result class TestNetLedger(Ledger): network_name = 'testnet' pubkey_address_prefix = bytes((111,)) script_address_prefix = bytes((196,)) extended_public_key_prefix = unhexlify('043587cf') extended_private_key_prefix = unhexlify('04358394') checkpoints = {} class RegTestLedger(Ledger): network_name = 'regtest' headers_class = UnvalidatedHeaders pubkey_address_prefix = bytes((111,)) script_address_prefix = bytes((196,)) extended_public_key_prefix = unhexlify('043587cf') extended_private_key_prefix = unhexlify('04358394') max_target = 0x7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff genesis_hash = '6e3fcf1299d4ec5d79c3a4c91d624a4acf9e2e173d95a1a0504f677669687556' genesis_bits = 0x207fffff target_timespan = 1 checkpoints = {}