lbry-sdk/torba/baseledger.py

import os
import asyncio
import logging
from binascii import hexlify, unhexlify
from io import StringIO

from typing import Dict, Type, Iterable
from operator import itemgetter
from collections import namedtuple

from torba import baseaccount
from torba import basenetwork
from torba import basetransaction
from torba.basedatabase import BaseDatabase
from torba.baseheader import BaseHeaders
from torba.coinselection import CoinSelector
from torba.constants import COIN, NULL_HASH32
from torba.stream import StreamController
from torba.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 BlockHeightEvent(namedtuple('BlockHeightEvent', ('height', 'change'))):
    pass


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.receive_status)
        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_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._transaction_processing_locks = {}
        self._utxo_reservation_lock = asyncio.Lock()
        self._header_processing_lock = 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 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)

    async def get_local_status(self, address):
        address_details = await self.db.get_address(address=address)
        history = address_details['history'] or ''
        h = sha256(history.encode())
        return hexlify(h)

    async def get_local_history(self, address):
        address_details = await self.db.get_address(address=address)
        history = address_details['history'] or ''
        parts = history.split(':')[:-1]
        return 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 validate_transaction_and_set_position(self, tx, height):
        if not height <= len(self.headers):
            return False
        merkle = await self.network.get_merkle(tx.id, height)
        merkle_root = self.get_root_of_merkle_tree(merkle['merkle'], merkle['pos'], tx.hash)
        header = self.headers[height]
        tx.position = merkle['pos']
        tx.is_verified = merkle_root == header['merkle_root']

    async def start(self):
        if not os.path.exists(self.path):
            os.mkdir(self.path)
        await asyncio.gather(
            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.update_accounts()

    async def stop(self):
        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 update_accounts(self):
        return await asyncio.gather(*(
            self.update_account(a) for a in self.accounts
        ))

    async def update_account(self, account: baseaccount.BaseAccount):
        # Before subscribing, download history for any addresses that don't have any,
        # this avoids situation where we're getting status updates to addresses we know
        # need to update anyways. Continue to get history and create more addresses until
        # all missing addresses are created and history for them is fully restored.
        await account.ensure_address_gap()
        addresses = await account.get_addresses(used_times=0)
        while addresses:
            await asyncio.gather(*(self.update_history(a) for a in addresses))
            addresses = await account.ensure_address_gap()

        # By this point all of the addresses should be restored and we
        # can now subscribe all of them to receive updates.
        all_addresses = await account.get_addresses()
        await asyncio.gather(*(self.subscribe_history(a) for a in all_addresses))

    async def update_history(self, address):
        remote_history = await self.network.get_history(address)
        local_history = await self.get_local_history(address)

        synced_history = StringIO()
        for i, (hex_id, remote_height) in enumerate(map(itemgetter('tx_hash', 'height'), remote_history)):

            synced_history.write('{}:{}:'.format(hex_id, remote_height))

            if i < len(local_history) and local_history[i] == (hex_id, remote_height):
                continue

            lock = self._transaction_processing_locks.setdefault(hex_id, asyncio.Lock())

            await lock.acquire()

            try:

                # see if we have a local copy of transaction, otherwise fetch it from server
                tx = await self.db.get_transaction(txid=hex_id)
                save_tx = None
                if tx is None:
                    _raw = await self.network.get_transaction(hex_id)
                    tx = self.transaction_class(unhexlify(_raw))
                    save_tx = 'insert'

                tx.height = remote_height

                if remote_height > 0 and (not tx.is_verified or tx.position == -1):
                    await self.validate_transaction_and_set_position(tx, remote_height)
                    if save_tx is None:
                        save_tx = 'update'

                await self.db.save_transaction_io(
                    save_tx, tx, address, self.address_to_hash160(address), synced_history.getvalue()
                )

                log.debug(
                    "%s: sync'ed tx %s for address: %s, height: %s, verified: %s",
                    self.get_id(), hex_id, address, tx.height, tx.is_verified
                )

                self._on_transaction_controller.add(TransactionEvent(address, tx))

            finally:
                lock.release()
                if not lock.locked() and hex_id in self._transaction_processing_locks:
                    del self._transaction_processing_locks[hex_id]

    async def subscribe_history(self, address):
        remote_status = await self.network.subscribe_address(address)
        local_status = await self.get_local_status(address)
        if local_status != remote_status:
            await self.update_history(address)

    async def receive_status(self, response):
        address, remote_status = response
        local_status = await self.get_local_status(address)
        if local_status != remote_status:
            await self.update_history(address)

    def broadcast(self, tx):
        return self.network.broadcast(hexlify(tx.raw).decode())