import os import shutil import asyncio import zipfile import tarfile import logging import tempfile import subprocess import importlib from binascii import hexlify from typing import Type, Optional import urllib.request from torba.server.server import Server from torba.server.env import Env from torba.client.wallet import Wallet from torba.client.baseledger import BaseLedger, BlockHeightEvent from torba.client.basemanager import BaseWalletManager from torba.client.baseaccount import BaseAccount log = logging.getLogger(__name__) def get_manager_from_environment(default_manager=BaseWalletManager): if 'TORBA_MANAGER' not in os.environ: return default_manager module_name = os.environ['TORBA_MANAGER'].split('-')[-1] # tox support return importlib.import_module(module_name) def get_ledger_from_environment(): if 'TORBA_LEDGER' not in os.environ: raise ValueError('Environment variable TORBA_LEDGER must point to a torba based ledger module.') module_name = os.environ['TORBA_LEDGER'].split('-')[-1] # tox support return importlib.import_module(module_name) def get_spvserver_from_ledger(ledger_module): spvserver_path, regtest_class_name = ledger_module.__spvserver__.rsplit('.', 1) spvserver_module = importlib.import_module(spvserver_path) return getattr(spvserver_module, regtest_class_name) def get_blockchain_node_from_ledger(ledger_module): return BlockchainNode( ledger_module.__node_url__, os.path.join(ledger_module.__node_bin__, ledger_module.__node_daemon__), os.path.join(ledger_module.__node_bin__, ledger_module.__node_cli__) ) def set_logging(ledger_module, level, handler=None): modules = [ 'torba', 'torba.client', 'torba.server', 'blockchain', ledger_module.__name__ ] for module_name in modules: module = logging.getLogger(module_name) module.setLevel(level) if handler is not None: module.addHandler(handler) class Conductor: def __init__(self, ledger_module=None, manager_module=None, verbosity=logging.WARNING): self.ledger_module = ledger_module or get_ledger_from_environment() self.manager_module = manager_module or get_manager_from_environment() self.spv_module = get_spvserver_from_ledger(self.ledger_module) self.blockchain_node = get_blockchain_node_from_ledger(self.ledger_module) self.spv_node = SPVNode(self.spv_module) self.wallet_node = WalletNode(self.manager_module, self.ledger_module.RegTestLedger) set_logging(self.ledger_module, verbosity) self.blockchain_started = False self.spv_started = False self.wallet_started = False self.log = log.getChild('conductor') async def start_blockchain(self): if not self.blockchain_started: await self.blockchain_node.start() await self.blockchain_node.generate(200) self.blockchain_started = True async def stop_blockchain(self): if self.blockchain_started: await self.blockchain_node.stop(cleanup=True) self.blockchain_started = False async def start_spv(self): if not self.spv_started: await self.spv_node.start(self.blockchain_node) self.spv_started = True async def stop_spv(self): if self.spv_started: await self.spv_node.stop(cleanup=True) self.spv_started = False async def start_wallet(self): if not self.wallet_started: await self.wallet_node.start(self.spv_node) self.wallet_started = True async def stop_wallet(self): if self.wallet_started: await self.wallet_node.stop(cleanup=True) self.wallet_started = False async def start(self): await self.start_blockchain() await self.start_spv() await self.start_wallet() async def stop(self): all_the_stops = [ self.stop_wallet, self.stop_spv, self.stop_blockchain ] for stop in all_the_stops: try: await stop() except Exception as e: log.exception('Exception raised while stopping services:', exc_info=e) class WalletNode: def __init__(self, manager_class: Type[BaseWalletManager], ledger_class: Type[BaseLedger], verbose: bool = False, port: int = 5280) -> None: self.manager_class = manager_class self.ledger_class = ledger_class self.verbose = verbose self.manager: Optional[BaseWalletManager] = None self.ledger: Optional[BaseLedger] = None self.wallet: Optional[Wallet] = None self.account: Optional[BaseAccount] = None self.data_path: Optional[str] = None self.port = port async def start(self, spv_node: 'SPVNode', seed=None, connect=True): self.data_path = tempfile.mkdtemp() wallet_file_name = os.path.join(self.data_path, 'my_wallet.json') with open(wallet_file_name, 'w') as wallet_file: wallet_file.write('{"version": 1, "accounts": []}\n') self.manager = self.manager_class.from_config({ 'ledgers': { self.ledger_class.get_id(): { 'api_port': self.port, 'default_servers': [(spv_node.hostname, spv_node.port)], 'data_path': self.data_path } }, 'wallets': [wallet_file_name] }) self.ledger = self.manager.ledgers[self.ledger_class] self.wallet = self.manager.default_wallet if seed is None and self.wallet is not None: self.wallet.generate_account(self.ledger) elif self.wallet is not None: self.ledger.account_class.from_dict( self.ledger, self.wallet, {'seed': seed} ) else: raise ValueError('Wallet is required.') self.account = self.wallet.default_account if connect: await self.manager.start() async def stop(self, cleanup=True): try: await self.manager.stop() finally: cleanup and self.cleanup() def cleanup(self): shutil.rmtree(self.data_path, ignore_errors=True) class SPVNode: def __init__(self, coin_class): self.coin_class = coin_class self.controller = None self.data_path = None self.server = None self.hostname = 'localhost' self.port = 50001 + 1 # avoid conflict with default daemon async def start(self, blockchain_node: 'BlockchainNode'): self.data_path = tempfile.mkdtemp() conf = { 'DB_DIRECTORY': self.data_path, 'DAEMON_URL': blockchain_node.rpc_url, 'REORG_LIMIT': '100', 'HOST': self.hostname, 'TCP_PORT': str(self.port) } # TODO: don't use os.environ os.environ.update(conf) self.server = Server(Env(self.coin_class)) self.server.mempool.refresh_secs = self.server.bp.prefetcher.polling_delay = 0.5 await self.server.start() async def stop(self, cleanup=True): try: await self.server.stop() finally: cleanup and self.cleanup() def cleanup(self): shutil.rmtree(self.data_path, ignore_errors=True) class BlockchainProcess(asyncio.SubprocessProtocol): IGNORE_OUTPUT = [ b'keypool keep', b'keypool reserve', b'keypool return', ] def __init__(self): self.ready = asyncio.Event() self.stopped = asyncio.Event() self.log = log.getChild('blockchain') def pipe_data_received(self, fd, data): if self.log and not any(ignore in data for ignore in self.IGNORE_OUTPUT): if b'Error:' in data: self.log.error(data.decode()) else: self.log.info(data.decode()) if b'Error:' in data: self.ready.set() raise SystemError(data.decode()) if b'Done loading' in data: self.ready.set() def process_exited(self): self.stopped.set() class BlockchainNode: def __init__(self, url, daemon, cli): self.latest_release_url = url self.project_dir = os.path.dirname(os.path.dirname(__file__)) self.bin_dir = os.path.join(self.project_dir, 'bin') self.daemon_bin = os.path.join(self.bin_dir, daemon) self.cli_bin = os.path.join(self.bin_dir, cli) self.log = log.getChild('blockchain') self.data_path = None self.protocol = None self.transport = None self._block_expected = 0 self.hostname = 'localhost' self.peerport = 9246 + 2 # avoid conflict with default peer port self.rpcport = 9245 + 2 # avoid conflict with default rpc port self.rpcuser = 'rpcuser' self.rpcpassword = 'rpcpassword' @property def rpc_url(self): return f'http://{self.rpcuser}:{self.rpcpassword}@{self.hostname}:{self.rpcport}/' def is_expected_block(self, e: BlockHeightEvent): return self._block_expected == e.height @property def exists(self): return ( os.path.exists(self.cli_bin) and os.path.exists(self.daemon_bin) ) def download(self): downloaded_file = os.path.join( self.bin_dir, self.latest_release_url[self.latest_release_url.rfind('/')+1:] ) if not os.path.exists(self.bin_dir): os.mkdir(self.bin_dir) if not os.path.exists(downloaded_file): self.log.info('Downloading: %s', self.latest_release_url) with urllib.request.urlopen(self.latest_release_url) as response: with open(downloaded_file, 'wb') as out_file: shutil.copyfileobj(response, out_file) self.log.info('Extracting: %s', downloaded_file) if downloaded_file.endswith('.zip'): with zipfile.ZipFile(downloaded_file) as dotzip: dotzip.extractall(self.bin_dir) # zipfile bug https://bugs.python.org/issue15795 os.chmod(self.cli_bin, 0o755) os.chmod(self.daemon_bin, 0o755) elif downloaded_file.endswith('.tar.gz'): with tarfile.open(downloaded_file) as tar: tar.extractall(self.bin_dir) return self.exists def ensure(self): return self.exists or self.download() async def start(self): assert self.ensure() self.data_path = tempfile.mkdtemp() loop = asyncio.get_event_loop() asyncio.get_child_watcher().attach_loop(loop) command = ( self.daemon_bin, f'-datadir={self.data_path}', '-printtoconsole', '-regtest', '-server', '-txindex', f'-rpcuser={self.rpcuser}', f'-rpcpassword={self.rpcpassword}', f'-rpcport={self.rpcport}', f'-port={self.peerport}' ) self.log.info(' '.join(command)) self.transport, self.protocol = await loop.subprocess_exec( BlockchainProcess, *command ) await self.protocol.ready.wait() async def stop(self, cleanup=True): try: self.transport.terminate() await self.protocol.stopped.wait() self.transport.close() finally: if cleanup: self.cleanup() def cleanup(self): shutil.rmtree(self.data_path, ignore_errors=True) async def _cli_cmnd(self, *args): cmnd_args = [ self.cli_bin, f'-datadir={self.data_path}', '-regtest', f'-rpcuser={self.rpcuser}', f'-rpcpassword={self.rpcpassword}', f'-rpcport={self.rpcport}' ] + list(args) self.log.info(' '.join(cmnd_args)) loop = asyncio.get_event_loop() asyncio.get_child_watcher().attach_loop(loop) process = await asyncio.create_subprocess_exec( *cmnd_args, stdout=subprocess.PIPE, stderr=subprocess.STDOUT ) out, _ = await process.communicate() self.log.info(out.decode().strip()) return out.decode().strip() def generate(self, blocks): self._block_expected += blocks return self._cli_cmnd('generate', str(blocks)) def invalidateblock(self, blockhash): return self._cli_cmnd('invalidateblock', blockhash) def get_raw_change_address(self): return self._cli_cmnd('getrawchangeaddress') async def get_balance(self): return float(await self._cli_cmnd('getbalance')) def send_to_address(self, address, amount): return self._cli_cmnd('sendtoaddress', address, str(amount)) def send_raw_transaction(self, tx): return self._cli_cmnd('sendrawtransaction', tx.decode()) def decode_raw_transaction(self, tx): return self._cli_cmnd('decoderawtransaction', hexlify(tx.raw).decode()) def get_raw_transaction(self, txid): return self._cli_cmnd('getrawtransaction', txid, '1')