import os import time import json import logging import typing import asyncio import random from functools import partial from hashlib import sha256 from string import hexdigits from typing import Type, Dict, Tuple, Optional, Any, List import ecdsa from lbry.error import InvalidPasswordError from lbry.crypto.crypt import aes_encrypt, aes_decrypt from .bip32 import PrivateKey, PubKey, from_extended_key_string from .mnemonic import Mnemonic from .constants import COIN, CLAIM_TYPES, TXO_TYPES from .transaction import Transaction, Input, Output if typing.TYPE_CHECKING: from .ledger import Ledger from .wallet import Wallet log = logging.getLogger(__name__) def validate_claim_id(claim_id): if not len(claim_id) == 40: raise Exception("Incorrect claimid length: %i" % len(claim_id)) if isinstance(claim_id, bytes): claim_id = claim_id.decode('utf-8') if set(claim_id).difference(hexdigits): raise Exception("Claim id is not hex encoded") class AddressManager: name: str __slots__ = 'account', 'public_key', 'chain_number', 'address_generator_lock' def __init__(self, account, public_key, chain_number): self.account = account self.public_key = public_key self.chain_number = chain_number self.address_generator_lock = asyncio.Lock() @classmethod def from_dict(cls, account: 'Account', d: dict) \ -> Tuple['AddressManager', 'AddressManager']: raise NotImplementedError @classmethod def to_dict(cls, receiving: 'AddressManager', change: 'AddressManager') -> Dict: d: Dict[str, Any] = {'name': cls.name} receiving_dict = receiving.to_dict_instance() if receiving_dict: d['receiving'] = receiving_dict change_dict = change.to_dict_instance() if change_dict: d['change'] = change_dict return d def merge(self, d: dict): pass def to_dict_instance(self) -> Optional[dict]: raise NotImplementedError def _query_addresses(self, **constraints): return self.account.ledger.db.get_addresses( read_only=constraints.pop("read_only", False), accounts=[self.account], chain=self.chain_number, **constraints ) def get_private_key(self, index: int) -> PrivateKey: raise NotImplementedError def get_public_key(self, index: int) -> PubKey: raise NotImplementedError async def get_max_gap(self): raise NotImplementedError async def ensure_address_gap(self): raise NotImplementedError def get_address_records(self, only_usable: bool = False, **constraints): raise NotImplementedError async def get_addresses(self, only_usable: bool = False, **constraints) -> List[str]: records = await self.get_address_records(only_usable=only_usable, **constraints) return [r['address'] for r in records] async def get_or_create_usable_address(self) -> str: addresses = await self.get_addresses(only_usable=True, limit=10) if addresses: return random.choice(addresses) addresses = await self.ensure_address_gap() return addresses[0] class HierarchicalDeterministic(AddressManager): """ Implements simple version of Bitcoin Hierarchical Deterministic key management. """ name: str = "deterministic-chain" __slots__ = 'gap', 'maximum_uses_per_address' def __init__(self, account: 'Account', chain: int, gap: int, maximum_uses_per_address: int) -> None: super().__init__(account, account.public_key.child(chain), chain) self.gap = gap self.maximum_uses_per_address = maximum_uses_per_address @classmethod def from_dict(cls, account: 'Account', d: dict) -> Tuple[AddressManager, AddressManager]: return ( cls(account, 0, **d.get('receiving', {'gap': 20, 'maximum_uses_per_address': 1})), cls(account, 1, **d.get('change', {'gap': 6, 'maximum_uses_per_address': 1})) ) def merge(self, d: dict): self.gap = d.get('gap', self.gap) self.maximum_uses_per_address = d.get('maximum_uses_per_address', self.maximum_uses_per_address) def to_dict_instance(self): return {'gap': self.gap, 'maximum_uses_per_address': self.maximum_uses_per_address} def get_private_key(self, index: int) -> PrivateKey: return self.account.private_key.child(self.chain_number).child(index) def get_public_key(self, index: int) -> PubKey: return self.account.public_key.child(self.chain_number).child(index) async def get_max_gap(self) -> int: addresses = await self._query_addresses(order_by="n asc") max_gap = 0 current_gap = 0 for address in addresses: if address['used_times'] == 0: current_gap += 1 else: max_gap = max(max_gap, current_gap) current_gap = 0 return max_gap async def ensure_address_gap(self) -> List[str]: async with self.address_generator_lock: addresses = await self._query_addresses(limit=self.gap, order_by="n desc") existing_gap = 0 for address in addresses: if address['used_times'] == 0: existing_gap += 1 else: break if existing_gap == self.gap: return [] start = addresses[0]['pubkey'].n+1 if addresses else 0 end = start + (self.gap - existing_gap) new_keys = await self._generate_keys(start, end-1) await self.account.ledger.announce_addresses(self, new_keys) return new_keys async def _generate_keys(self, start: int, end: int) -> List[str]: if not self.address_generator_lock.locked(): raise RuntimeError('Should not be called outside of address_generator_lock.') keys = [self.public_key.child(index) for index in range(start, end+1)] await self.account.ledger.db.add_keys(self.account, self.chain_number, keys) return [key.address for key in keys] def get_address_records(self, only_usable: bool = False, **constraints): if only_usable: constraints['used_times__lt'] = self.maximum_uses_per_address if 'order_by' not in constraints: constraints['order_by'] = "used_times asc, n asc" return self._query_addresses(**constraints) class SingleKey(AddressManager): """ Single Key address manager always returns the same address for all operations. """ name: str = "single-address" __slots__ = () @classmethod def from_dict(cls, account: 'Account', d: dict) \ -> Tuple[AddressManager, AddressManager]: same_address_manager = cls(account, account.public_key, 0) return same_address_manager, same_address_manager def to_dict_instance(self): return None def get_private_key(self, index: int) -> PrivateKey: return self.account.private_key def get_public_key(self, index: int) -> PubKey: return self.account.public_key async def get_max_gap(self) -> int: return 0 async def ensure_address_gap(self) -> List[str]: async with self.address_generator_lock: exists = await self.get_address_records() if not exists: await self.account.ledger.db.add_keys(self.account, self.chain_number, [self.public_key]) new_keys = [self.public_key.address] await self.account.ledger.announce_addresses(self, new_keys) return new_keys return [] def get_address_records(self, only_usable: bool = False, **constraints): return self._query_addresses(**constraints) class Account: mnemonic_class = Mnemonic private_key_class = PrivateKey public_key_class = PubKey address_generators: Dict[str, Type[AddressManager]] = { SingleKey.name: SingleKey, HierarchicalDeterministic.name: HierarchicalDeterministic, } def __init__(self, ledger: 'Ledger', wallet: 'Wallet', name: str, seed: str, private_key_string: str, encrypted: bool, private_key: Optional[PrivateKey], public_key: PubKey, address_generator: dict, modified_on: float, channel_keys: dict) -> None: self.ledger = ledger self.wallet = wallet self.id = public_key.address self.name = name self.seed = seed self.modified_on = modified_on self.private_key_string = private_key_string self.init_vectors: Dict[str, bytes] = {} self.encrypted = encrypted self.private_key = private_key self.public_key = public_key generator_name = address_generator.get('name', HierarchicalDeterministic.name) self.address_generator = self.address_generators[generator_name] self.receiving, self.change = self.address_generator.from_dict(self, address_generator) self.address_managers = {am.chain_number: am for am in {self.receiving, self.change}} self.channel_keys = channel_keys ledger.add_account(self) wallet.add_account(self) def get_init_vector(self, key) -> Optional[bytes]: init_vector = self.init_vectors.get(key, None) if init_vector is None: init_vector = self.init_vectors[key] = os.urandom(16) return init_vector @classmethod def generate(cls, ledger: 'Ledger', wallet: 'Wallet', name: str = None, address_generator: dict = None): return cls.from_dict(ledger, wallet, { 'name': name, 'seed': cls.mnemonic_class().make_seed(), 'address_generator': address_generator or {} }) @classmethod def get_private_key_from_seed(cls, ledger: 'Ledger', seed: str, password: str): return cls.private_key_class.from_seed( ledger, cls.mnemonic_class.mnemonic_to_seed(seed, password or 'lbryum') ) @classmethod def keys_from_dict(cls, ledger: 'Ledger', d: dict) \ -> Tuple[str, Optional[PrivateKey], PubKey]: seed = d.get('seed', '') private_key_string = d.get('private_key', '') private_key = None public_key = None encrypted = d.get('encrypted', False) if not encrypted: if seed: private_key = cls.get_private_key_from_seed(ledger, seed, '') public_key = private_key.public_key elif private_key_string: private_key = from_extended_key_string(ledger, private_key_string) public_key = private_key.public_key if public_key is None: public_key = from_extended_key_string(ledger, d['public_key']) return seed, private_key, public_key @classmethod def from_dict(cls, ledger: 'Ledger', wallet: 'Wallet', d: dict): seed, private_key, public_key = cls.keys_from_dict(ledger, d) name = d.get('name') if not name: name = f'Account #{public_key.address}' return cls( ledger=ledger, wallet=wallet, name=name, seed=seed, private_key_string=d.get('private_key', ''), encrypted=d.get('encrypted', False), private_key=private_key, public_key=public_key, address_generator=d.get('address_generator', {}), modified_on=int(d.get('modified_on', time.time())), channel_keys=d.get('certificates', {}) ) def to_dict(self, encrypt_password: str = None, include_channel_keys: bool = True): private_key_string, seed = self.private_key_string, self.seed if not self.encrypted and self.private_key: private_key_string = self.private_key.extended_key_string() if not self.encrypted and encrypt_password: if private_key_string: private_key_string = aes_encrypt( encrypt_password, private_key_string, self.get_init_vector('private_key') ) if seed: seed = aes_encrypt(encrypt_password, self.seed, self.get_init_vector('seed')) d = { 'ledger': self.ledger.get_id(), 'name': self.name, 'seed': seed, 'encrypted': bool(self.encrypted or encrypt_password), 'private_key': private_key_string, 'public_key': self.public_key.extended_key_string(), 'address_generator': self.address_generator.to_dict(self.receiving, self.change), 'modified_on': self.modified_on } if include_channel_keys: d['certificates'] = self.channel_keys return d def merge(self, d: dict): if d.get('modified_on', 0) > self.modified_on: self.name = d['name'] self.modified_on = int(d.get('modified_on', time.time())) assert self.address_generator.name == d['address_generator']['name'] for chain_name in ('change', 'receiving'): if chain_name in d['address_generator']: chain_object = getattr(self, chain_name) chain_object.merge(d['address_generator'][chain_name]) self.channel_keys.update(d.get('certificates', {})) @property def hash(self) -> bytes: assert not self.encrypted, "Cannot hash an encrypted account." h = sha256(json.dumps(self.to_dict(include_channel_keys=False)).encode()) for cert in sorted(self.channel_keys.keys()): h.update(cert.encode()) return h.digest() async def get_details(self, show_seed=False, **kwargs): satoshis = await self.get_balance(**kwargs) details = { 'id': self.id, 'name': self.name, 'ledger': self.ledger.get_id(), 'coins': round(satoshis/COIN, 2), 'satoshis': satoshis, 'encrypted': self.encrypted, 'public_key': self.public_key.extended_key_string(), 'address_generator': self.address_generator.to_dict(self.receiving, self.change) } if show_seed: details['seed'] = self.seed details['certificates'] = len(self.channel_keys) return details def decrypt(self, password: str) -> bool: assert self.encrypted, "Key is not encrypted." try: seed = self._decrypt_seed(password) except (ValueError, InvalidPasswordError): return False try: private_key = self._decrypt_private_key_string(password) except (TypeError, ValueError, InvalidPasswordError): return False self.seed = seed self.private_key = private_key self.private_key_string = "" self.encrypted = False return True def _decrypt_private_key_string(self, password: str) -> Optional[PrivateKey]: if not self.private_key_string: return None private_key_string, self.init_vectors['private_key'] = aes_decrypt(password, self.private_key_string) if not private_key_string: return None return from_extended_key_string( self.ledger, private_key_string ) def _decrypt_seed(self, password: str) -> str: if not self.seed: return "" seed, self.init_vectors['seed'] = aes_decrypt(password, self.seed) if not seed: return "" try: Mnemonic().mnemonic_decode(seed) except IndexError: # failed to decode the seed, this either means it decrypted and is invalid # or that we hit an edge case where an incorrect password gave valid padding raise ValueError("Failed to decode seed.") return seed def encrypt(self, password: str) -> bool: assert not self.encrypted, "Key is already encrypted." if self.seed: self.seed = aes_encrypt(password, self.seed, self.get_init_vector('seed')) if isinstance(self.private_key, PrivateKey): self.private_key_string = aes_encrypt( password, self.private_key.extended_key_string(), self.get_init_vector('private_key') ) self.private_key = None self.encrypted = True return True async def ensure_address_gap(self): addresses = [] for address_manager in self.address_managers.values(): new_addresses = await address_manager.ensure_address_gap() addresses.extend(new_addresses) return addresses async def get_addresses(self, read_only=False, **constraints) -> List[str]: rows = await self.ledger.db.select_addresses('address', read_only=read_only, accounts=[self], **constraints) return [r['address'] for r in rows] def get_address_records(self, **constraints): return self.ledger.db.get_addresses(accounts=[self], **constraints) def get_address_count(self, **constraints): return self.ledger.db.get_address_count(accounts=[self], **constraints) def get_private_key(self, chain: int, index: int) -> PrivateKey: assert not self.encrypted, "Cannot get private key on encrypted wallet account." return self.address_managers[chain].get_private_key(index) def get_public_key(self, chain: int, index: int) -> PubKey: return self.address_managers[chain].get_public_key(index) def get_balance(self, confirmations=0, include_claims=False, read_only=False, **constraints): if not include_claims: constraints.update({'txo_type__in': (TXO_TYPES['other'], TXO_TYPES['purchase'])}) if confirmations > 0: height = self.ledger.headers.height - (confirmations-1) constraints.update({'height__lte': height, 'height__gt': 0}) return self.ledger.db.get_balance(accounts=[self], read_only=read_only, **constraints) async def get_max_gap(self): change_gap = await self.change.get_max_gap() receiving_gap = await self.receiving.get_max_gap() return { 'max_change_gap': change_gap, 'max_receiving_gap': receiving_gap, } def get_txos(self, **constraints): return self.ledger.get_txos(wallet=self.wallet, accounts=[self], **constraints) def get_txo_count(self, **constraints): return self.ledger.get_txo_count(wallet=self.wallet, accounts=[self], **constraints) def get_utxos(self, **constraints): return self.ledger.get_utxos(wallet=self.wallet, accounts=[self], **constraints) def get_utxo_count(self, **constraints): return self.ledger.get_utxo_count(wallet=self.wallet, accounts=[self], **constraints) def get_transactions(self, **constraints): return self.ledger.get_transactions(wallet=self.wallet, accounts=[self], **constraints) def get_transaction_count(self, **constraints): return self.ledger.get_transaction_count(wallet=self.wallet, accounts=[self], **constraints) async def fund(self, to_account, amount=None, everything=False, outputs=1, broadcast=False, **constraints): assert self.ledger == to_account.ledger, 'Can only transfer between accounts of the same ledger.' if everything: utxos = await self.get_utxos(**constraints) await self.ledger.reserve_outputs(utxos) tx = await Transaction.create( inputs=[Input.spend(txo) for txo in utxos], outputs=[], funding_accounts=[self], change_account=to_account ) elif amount > 0: to_address = await to_account.change.get_or_create_usable_address() to_hash160 = to_account.ledger.address_to_hash160(to_address) tx = await Transaction.create( inputs=[], outputs=[ Output.pay_pubkey_hash(amount//outputs, to_hash160) for _ in range(outputs) ], funding_accounts=[self], change_account=self ) else: raise ValueError('An amount is required.') if broadcast: await self.ledger.broadcast(tx) else: await self.ledger.release_tx(tx) return tx def add_channel_private_key(self, private_key): public_key_bytes = private_key.get_verifying_key().to_der() channel_pubkey_hash = self.ledger.public_key_to_address(public_key_bytes) self.channel_keys[channel_pubkey_hash] = private_key.to_pem().decode() async def get_channel_private_key(self, public_key_bytes): channel_pubkey_hash = self.ledger.public_key_to_address(public_key_bytes) private_key_pem = self.channel_keys.get(channel_pubkey_hash) if private_key_pem: return await asyncio.get_event_loop().run_in_executor( None, ecdsa.SigningKey.from_pem, private_key_pem, sha256 ) async def maybe_migrate_certificates(self): def to_der(private_key_pem): return ecdsa.SigningKey.from_pem(private_key_pem, hashfunc=sha256).get_verifying_key().to_der() if not self.channel_keys: return channel_keys = {} for private_key_pem in self.channel_keys.values(): if not isinstance(private_key_pem, str): continue if "-----BEGIN EC PRIVATE KEY-----" not in private_key_pem: continue public_key_der = await asyncio.get_event_loop().run_in_executor(None, to_der, private_key_pem) channel_keys[self.ledger.public_key_to_address(public_key_der)] = private_key_pem if self.channel_keys != channel_keys: self.channel_keys = channel_keys self.wallet.save() async def save_max_gap(self): if issubclass(self.address_generator, HierarchicalDeterministic): gap = await self.get_max_gap() gap_changed = False new_receiving_gap = max(20, gap['max_receiving_gap'] + 1) if self.receiving.gap != new_receiving_gap: self.receiving.gap = new_receiving_gap gap_changed = True new_change_gap = max(6, gap['max_change_gap'] + 1) if self.change.gap != new_change_gap: self.change.gap = new_change_gap gap_changed = True if gap_changed: self.wallet.save() async def get_detailed_balance(self, confirmations=0, read_only=False): constraints = {} if confirmations > 0: height = self.ledger.headers.height - (confirmations-1) constraints.update({'height__lte': height, 'height__gt': 0}) return await self.ledger.db.get_detailed_balance( accounts=[self], read_only=read_only, **constraints ) def get_transaction_history(self, read_only=False, **constraints): return self.ledger.get_transaction_history( read_only=read_only, wallet=self.wallet, accounts=[self], **constraints ) def get_transaction_history_count(self, read_only=False, **constraints): return self.ledger.get_transaction_history_count( read_only=read_only, wallet=self.wallet, accounts=[self], **constraints ) def get_claims(self, **constraints): return self.ledger.get_claims(wallet=self.wallet, accounts=[self], **constraints) def get_claim_count(self, **constraints): return self.ledger.get_claim_count(wallet=self.wallet, accounts=[self], **constraints) def get_streams(self, **constraints): return self.ledger.get_streams(wallet=self.wallet, accounts=[self], **constraints) def get_stream_count(self, **constraints): return self.ledger.get_stream_count(wallet=self.wallet, accounts=[self], **constraints) def get_channels(self, **constraints): return self.ledger.get_channels(wallet=self.wallet, accounts=[self], **constraints) def get_channel_count(self, **constraints): return self.ledger.get_channel_count(wallet=self.wallet, accounts=[self], **constraints) def get_collections(self, **constraints): return self.ledger.get_collections(wallet=self.wallet, accounts=[self], **constraints) def get_collection_count(self, **constraints): return self.ledger.get_collection_count(wallet=self.wallet, accounts=[self], **constraints) def get_supports(self, **constraints): return self.ledger.get_supports(wallet=self.wallet, accounts=[self], **constraints) def get_support_count(self, **constraints): return self.ledger.get_support_count(wallet=self.wallet, accounts=[self], **constraints) def get_support_summary(self): return self.ledger.db.get_supports_summary(wallet=self.wallet, accounts=[self]) async def release_all_outputs(self): await self.ledger.db.release_all_outputs(self)