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#!/usr/bin/env python
#
# Electrum - lightweight Bitcoin client
# Copyright (C) 2015 Thomas Voegtlin
#
# Permission is hereby granted, free of charge, to any person
# obtaining a copy of this software and associated documentation files
# (the "Software"), to deal in the Software without restriction,
# including without limitation the rights to use, copy, modify, merge,
# publish, distribute, sublicense, and/or sell copies of the Software,
# and to permit persons to whom the Software is furnished to do so,
# subject to the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
"""
Wallet classes:
- Imported_Wallet: imported address, no keystore
- Standard_Wallet: one keystore, P2PKH
- Multisig_Wallet: several keystores, P2SH
"""
import os
import hashlib
import ast
import threading
import random
import time
import json
import copy
import re
import stat
from functools import partial
from collections import namedtuple, defaultdict
from i18n import _
from util import NotEnoughFunds, PrintError, UserCancelled, profiler
from bitcoin import *
from version import *
from keystore import load_keystore, Hardware_KeyStore
from storage import multisig_type
from transaction import Transaction
from plugins import run_hook
import bitcoin
import coinchooser
from synchronizer import Synchronizer
from verifier import SPV
from mnemonic import Mnemonic
import paymentrequest
from storage import WalletStorage
TX_STATUS = [
_('Replaceable'),
_('Unconfirmed parent'),
_('Low fee'),
_('Unconfirmed'),
_('Not Verified'),
]
class Abstract_Wallet(PrintError):
"""
Wallet classes are created to handle various address generation methods.
Completion states (watching-only, single account, no seed, etc) are handled inside classes.
"""
max_change_outputs = 3
def __init__(self, storage):
self.electrum_version = ELECTRUM_VERSION
self.storage = storage
self.network = None
# verifier (SPV) and synchronizer are started in start_threads
self.synchronizer = None
self.verifier = None
self.gap_limit_for_change = 6 # constant
# saved fields
self.use_change = storage.get('use_change', True)
self.multiple_change = storage.get('multiple_change', False)
self.labels = storage.get('labels', {})
self.frozen_addresses = set(storage.get('frozen_addresses',[]))
self.stored_height = storage.get('stored_height', 0) # last known height (for offline mode)
self.history = storage.get('addr_history',{}) # address -> list(txid, height)
self.load_keystore()
self.load_addresses()
self.load_transactions()
self.build_reverse_history()
# load requests
self.receive_requests = self.storage.get('payment_requests', {})
# Transactions pending verification. A map from tx hash to transaction
# height. Access is not contended so no lock is needed.
self.unverified_tx = defaultdict(int)
# Verified transactions. Each value is a (height, timestamp, block_pos) tuple. Access with self.lock.
self.verified_tx = storage.get('verified_tx3', {})
# there is a difference between wallet.up_to_date and interface.is_up_to_date()
# interface.is_up_to_date() returns true when all requests have been answered and processed
# wallet.up_to_date is true when the wallet is synchronized (stronger requirement)
self.up_to_date = False
self.lock = threading.Lock()
self.transaction_lock = threading.Lock()
self.check_history()
# save wallet type the first time
if self.storage.get('wallet_type') is None:
self.storage.put('wallet_type', self.wallet_type)
def diagnostic_name(self):
return self.basename()
def __str__(self):
return self.basename()
def get_master_public_key(self):
return None
@profiler
def load_transactions(self):
self.txi = self.storage.get('txi', {})
self.txo = self.storage.get('txo', {})
self.tx_fees = self.storage.get('tx_fees', {})
self.pruned_txo = self.storage.get('pruned_txo', {})
tx_list = self.storage.get('transactions', {})
self.transactions = {}
for tx_hash, raw in tx_list.items():
tx = Transaction(raw)
self.transactions[tx_hash] = tx
if self.txi.get(tx_hash) is None and self.txo.get(tx_hash) is None and (tx_hash not in self.pruned_txo.values()):
self.print_error("removing unreferenced tx", tx_hash)
self.transactions.pop(tx_hash)
@profiler
def save_transactions(self, write=False):
with self.transaction_lock:
tx = {}
for k,v in self.transactions.items():
tx[k] = str(v)
self.storage.put('transactions', tx)
self.storage.put('txi', self.txi)
self.storage.put('txo', self.txo)
self.storage.put('tx_fees', self.tx_fees)
self.storage.put('pruned_txo', self.pruned_txo)
self.storage.put('addr_history', self.history)
if write:
self.storage.write()
def clear_history(self):
with self.transaction_lock:
self.txi = {}
self.txo = {}
self.tx_fees = {}
self.pruned_txo = {}
self.save_transactions()
with self.lock:
self.history = {}
self.tx_addr_hist = {}
@profiler
def build_reverse_history(self):
self.tx_addr_hist = {}
for addr, hist in self.history.items():
for tx_hash, h in hist:
s = self.tx_addr_hist.get(tx_hash, set())
s.add(addr)
self.tx_addr_hist[tx_hash] = s
@profiler
def check_history(self):
save = False
for addr, hist in self.history.items():
if not self.is_mine(addr):
self.history.pop(addr)
save = True
continue
for tx_hash, tx_height in hist:
if tx_hash in self.pruned_txo.values() or self.txi.get(tx_hash) or self.txo.get(tx_hash):
continue
tx = self.transactions.get(tx_hash)
if tx is not None:
self.add_transaction(tx_hash, tx)
save = True
if save:
self.save_transactions()
def basename(self):
return os.path.basename(self.storage.path)
def save_pubkeys(self):
self.storage.put('pubkeys', {'receiving':self.receiving_pubkeys, 'change':self.change_pubkeys})
def load_addresses(self):
d = self.storage.get('pubkeys', {})
self.receiving_pubkeys = d.get('receiving', [])
self.change_pubkeys = d.get('change', [])
self.receiving_addresses = map(self.pubkeys_to_address, self.receiving_pubkeys)
self.change_addresses = map(self.pubkeys_to_address, self.change_pubkeys)
def synchronize(self):
pass
def set_up_to_date(self, up_to_date):
with self.lock:
self.up_to_date = up_to_date
if up_to_date:
self.save_transactions(write=True)
def is_up_to_date(self):
with self.lock: return self.up_to_date
def set_label(self, name, text = None):
changed = False
old_text = self.labels.get(name)
if text:
if old_text != text:
self.labels[name] = text
changed = True
else:
if old_text:
self.labels.pop(name)
changed = True
if changed:
run_hook('set_label', self, name, text)
self.storage.put('labels', self.labels)
return changed
def is_mine(self, address):
return address in self.get_addresses()
def is_change(self, address):
if not self.is_mine(address):
return False
return address in self.change_addresses
def get_address_index(self, address):
if self.keystore.can_import():
i = self.receiving_addresses.index(address)
return self.receiving_pubkeys[i]
elif address in self.receiving_addresses:
return False, self.receiving_addresses.index(address)
if address in self.change_addresses:
return True, self.change_addresses.index(address)
raise Exception("Address not found", address)
def get_pubkey_index(self, pubkey):
if self.keystore.can_import():
assert pubkey in self.receiving_pubkeys
return pubkey
elif pubkey in self.receiving_pubkeys:
return False, self.receiving_pubkeys.index(pubkey)
if pubkey in self.change_pubkeys:
return True, self.change_pubkeys.index(pubkey)
raise Exception("Pubkey not found", pubkey)
def get_private_key(self, address, password):
if self.is_watching_only():
return []
index = self.get_address_index(address)
pk = self.keystore.get_private_key(index, password)
return [pk]
def get_public_key(self, address):
if self.keystore.can_import():
i = self.receiving_addresses.index(address)
pubkey = self.receiving_pubkeys[i]
else:
sequence = self.get_address_index(address)
pubkey = self.get_pubkey(*sequence)
return pubkey
def get_public_keys(self, address):
sequence = self.get_address_index(address)
return self.get_pubkeys(*sequence)
def add_unverified_tx(self, tx_hash, tx_height):
# tx will be verified only if height > 0
if tx_hash not in self.verified_tx:
self.unverified_tx[tx_hash] = tx_height
def add_verified_tx(self, tx_hash, info):
# Remove from the unverified map and add to the verified map and
self.unverified_tx.pop(tx_hash, None)
with self.lock:
self.verified_tx[tx_hash] = info # (tx_height, timestamp, pos)
self.storage.put('verified_tx3', self.verified_tx)
height, conf, timestamp = self.get_tx_height(tx_hash)
self.network.trigger_callback('verified', tx_hash, height, conf, timestamp)
def get_unverified_txs(self):
'''Returns a map from tx hash to transaction height'''
return self.unverified_tx
def undo_verifications(self, height):
'''Used by the verifier when a reorg has happened'''
txs = []
with self.lock:
for tx_hash, item in self.verified_tx:
tx_height, timestamp, pos = item
if tx_height >= height:
self.verified_tx.pop(tx_hash, None)
txs.append(tx_hash)
return txs
def get_local_height(self):
""" return last known height if we are offline """
return self.network.get_local_height() if self.network else self.stored_height
def get_tx_height(self, tx_hash):
""" return the height and timestamp of a verified transaction. """
with self.lock:
if tx_hash in self.verified_tx:
height, timestamp, pos = self.verified_tx[tx_hash]
conf = max(self.get_local_height() - height + 1, 0)
return height, conf, timestamp
else:
height = self.unverified_tx[tx_hash]
return height, 0, False
def get_txpos(self, tx_hash):
"return position, even if the tx is unverified"
with self.lock:
x = self.verified_tx.get(tx_hash)
y = self.unverified_tx.get(tx_hash)
if x:
height, timestamp, pos = x
return height, pos
elif y > 0:
return y, 0
else:
return 1e12, 0
def is_found(self):
return self.history.values() != [[]] * len(self.history)
def get_num_tx(self, address):
""" return number of transactions where address is involved """
return len(self.history.get(address, []))
def get_tx_delta(self, tx_hash, address):
"effect of tx on address"
# pruned
if tx_hash in self.pruned_txo.values():
return None
delta = 0
# substract the value of coins sent from address
d = self.txi.get(tx_hash, {}).get(address, [])
for n, v in d:
delta -= v
# add the value of the coins received at address
d = self.txo.get(tx_hash, {}).get(address, [])
for n, v, cb in d:
delta += v
return delta
def get_wallet_delta(self, tx):
""" effect of tx on wallet """
addresses = self.get_addresses()
is_relevant = False
is_mine = False
is_pruned = False
is_partial = False
v_in = v_out = v_out_mine = 0
for item in tx.inputs():
addr = item.get('address')
if addr in addresses:
is_mine = True
is_relevant = True
d = self.txo.get(item['prevout_hash'], {}).get(addr, [])
for n, v, cb in d:
if n == item['prevout_n']:
value = v
break
else:
value = None
if value is None:
is_pruned = True
else:
v_in += value
else:
is_partial = True
if not is_mine:
is_partial = False
for addr, value in tx.get_outputs():
v_out += value
if addr in addresses:
v_out_mine += value
is_relevant = True
if is_pruned:
# some inputs are mine:
fee = None
if is_mine:
v = v_out_mine - v_out
else:
# no input is mine
v = v_out_mine
else:
v = v_out_mine - v_in
if is_partial:
# some inputs are mine, but not all
fee = None
else:
# all inputs are mine
fee = v_in - v_out
if not is_mine:
fee = None
return is_relevant, is_mine, v, fee
def get_tx_info(self, tx):
is_relevant, is_mine, v, fee = self.get_wallet_delta(tx)
exp_n = None
can_broadcast = False
can_bump = False
label = ''
height = conf = timestamp = None
if tx.is_complete():
tx_hash = tx.hash()
if tx_hash in self.transactions.keys():
label = self.get_label(tx_hash)
height, conf, timestamp = self.get_tx_height(tx_hash)
if height > 0:
if conf:
status = _("%d confirmations") % conf
else:
status = _('Not verified')
else:
status = _('Unconfirmed')
if fee is None:
fee = self.tx_fees.get(tx_hash)
if fee:
size = tx.estimated_size()
fee_per_kb = fee * 1000 / size
exp_n = self.network.reverse_dynfee(fee_per_kb)
can_bump = is_mine and not tx.is_final()
else:
status = _("Signed")
can_broadcast = self.network is not None
else:
s, r = tx.signature_count()
status = _("Unsigned") if s == 0 else _('Partially signed') + ' (%d/%d)'%(s,r)
tx_hash = None
if is_relevant:
if is_mine:
if fee is not None:
amount = v + fee
else:
amount = v
else:
amount = v
else:
amount = None
return tx_hash, status, label, can_broadcast, can_bump, amount, fee, height, conf, timestamp, exp_n
def get_addr_io(self, address):
h = self.history.get(address, [])
received = {}
sent = {}
for tx_hash, height in h:
l = self.txo.get(tx_hash, {}).get(address, [])
for n, v, is_cb in l:
received[tx_hash + ':%d'%n] = (height, v, is_cb)
for tx_hash, height in h:
l = self.txi.get(tx_hash, {}).get(address, [])
for txi, v in l:
sent[txi] = height
return received, sent
def get_addr_utxo(self, address):
coins, spent = self.get_addr_io(address)
for txi in spent:
coins.pop(txi)
out = []
for txo, v in coins.items():
tx_height, value, is_cb = v
prevout_hash, prevout_n = txo.split(':')
x = {
'address':address,
'value':value,
'prevout_n':int(prevout_n),
'prevout_hash':prevout_hash,
'height':tx_height,
'coinbase':is_cb
}
out.append(x)
return out
# return the total amount ever received by an address
def get_addr_received(self, address):
received, sent = self.get_addr_io(address)
return sum([v for height, v, is_cb in received.values()])
# return the balance of a bitcoin address: confirmed and matured, unconfirmed, unmatured
def get_addr_balance(self, address):
received, sent = self.get_addr_io(address)
c = u = x = 0
for txo, (tx_height, v, is_cb) in received.items():
if is_cb and tx_height + COINBASE_MATURITY > self.get_local_height():
x += v
elif tx_height > 0:
c += v
else:
u += v
if txo in sent:
if sent[txo] > 0:
c -= v
else:
u -= v
return c, u, x
def get_spendable_coins(self, domain = None, exclude_frozen = True):
coins = []
if domain is None:
domain = self.get_addresses()
if exclude_frozen:
domain = set(domain) - self.frozen_addresses
for addr in domain:
utxos = self.get_addr_utxo(addr)
for x in utxos:
if x['coinbase'] and x['height'] + COINBASE_MATURITY > self.get_local_height():
continue
coins.append(x)
continue
return coins
def dummy_address(self):
return self.get_receiving_addresses()[0]
def get_max_amount(self, config, inputs, recipient, fee):
sendable = sum(map(lambda x:x['value'], inputs))
if fee is None:
for i in inputs:
self.add_input_info(i)
_type, addr = recipient
outputs = [(_type, addr, sendable)]
dummy_tx = Transaction.from_io(inputs, outputs)
fee = self.estimate_fee(config, dummy_tx.estimated_size())
amount = max(0, sendable - fee)
return amount, fee
def get_addresses(self):
out = []
out += self.get_receiving_addresses()
out += self.get_change_addresses()
return out
def get_frozen_balance(self):
return self.get_balance(self.frozen_addresses)
def get_balance(self, domain=None):
if domain is None:
domain = self.get_addresses()
cc = uu = xx = 0
for addr in domain:
c, u, x = self.get_addr_balance(addr)
cc += c
uu += u
xx += x
return cc, uu, xx
def get_address_history(self, address):
with self.lock:
return self.history.get(address, [])
def find_pay_to_pubkey_address(self, prevout_hash, prevout_n):
dd = self.txo.get(prevout_hash, {})
for addr, l in dd.items():
for n, v, is_cb in l:
if n == prevout_n:
self.print_error("found pay-to-pubkey address:", addr)
return addr
def add_transaction(self, tx_hash, tx):
is_coinbase = tx.inputs()[0].get('is_coinbase') == True
with self.transaction_lock:
# add inputs
self.txi[tx_hash] = d = {}
for txi in tx.inputs():
addr = txi.get('address')
if not txi.get('is_coinbase'):
prevout_hash = txi['prevout_hash']
prevout_n = txi['prevout_n']
ser = prevout_hash + ':%d'%prevout_n
if addr == "(pubkey)":
addr = self.find_pay_to_pubkey_address(prevout_hash, prevout_n)
# find value from prev output
if addr and self.is_mine(addr):
dd = self.txo.get(prevout_hash, {})
for n, v, is_cb in dd.get(addr, []):
if n == prevout_n:
if d.get(addr) is None:
d[addr] = []
d[addr].append((ser, v))
break
else:
self.pruned_txo[ser] = tx_hash
# add outputs
self.txo[tx_hash] = d = {}
for n, txo in enumerate(tx.outputs()):
ser = tx_hash + ':%d'%n
_type, x, v = txo
if _type == TYPE_ADDRESS:
addr = x
elif _type == TYPE_PUBKEY:
addr = public_key_to_bc_address(x.decode('hex'))
else:
addr = None
if addr and self.is_mine(addr):
if d.get(addr) is None:
d[addr] = []
d[addr].append((n, v, is_coinbase))
# give v to txi that spends me
next_tx = self.pruned_txo.get(ser)
if next_tx is not None:
self.pruned_txo.pop(ser)
dd = self.txi.get(next_tx, {})
if dd.get(addr) is None:
dd[addr] = []
dd[addr].append((ser, v))
# save
self.transactions[tx_hash] = tx
def remove_transaction(self, tx_hash):
with self.transaction_lock:
self.print_error("removing tx from history", tx_hash)
#tx = self.transactions.pop(tx_hash)
for ser, hh in self.pruned_txo.items():
if hh == tx_hash:
self.pruned_txo.pop(ser)
# add tx to pruned_txo, and undo the txi addition
for next_tx, dd in self.txi.items():
for addr, l in dd.items():
ll = l[:]
for item in ll:
ser, v = item
prev_hash, prev_n = ser.split(':')
if prev_hash == tx_hash:
l.remove(item)
self.pruned_txo[ser] = next_tx
if l == []:
dd.pop(addr)
else:
dd[addr] = l
try:
self.txi.pop(tx_hash)
self.txo.pop(tx_hash)
except KeyError:
self.print_error("tx was not in history", tx_hash)
def receive_tx_callback(self, tx_hash, tx, tx_height):
self.add_transaction(tx_hash, tx)
self.save_transactions()
self.add_unverified_tx(tx_hash, tx_height)
def receive_history_callback(self, addr, hist, tx_fees):
with self.lock:
old_hist = self.history.get(addr, [])
for tx_hash, height in old_hist:
if (tx_hash, height) not in hist:
# remove tx if it's not referenced in histories
self.tx_addr_hist[tx_hash].remove(addr)
if not self.tx_addr_hist[tx_hash]:
self.remove_transaction(tx_hash)
self.history[addr] = hist
for tx_hash, tx_height in hist:
# add it in case it was previously unconfirmed
self.add_unverified_tx(tx_hash, tx_height)
# add reference in tx_addr_hist
s = self.tx_addr_hist.get(tx_hash, set())
s.add(addr)
self.tx_addr_hist[tx_hash] = s
# if addr is new, we have to recompute txi and txo
tx = self.transactions.get(tx_hash)
if tx is not None and self.txi.get(tx_hash, {}).get(addr) is None and self.txo.get(tx_hash, {}).get(addr) is None:
self.add_transaction(tx_hash, tx)
# Write updated TXI, TXO etc.
self.save_transactions()
# Store fees
self.tx_fees.update(tx_fees)
def get_history(self, domain=None):
# get domain
if domain is None:
domain = self.get_addresses()
# 1. Get the history of each address in the domain, maintain the
# delta of a tx as the sum of its deltas on domain addresses
tx_deltas = defaultdict(int)
for addr in domain:
h = self.get_address_history(addr)
for tx_hash, height in h:
delta = self.get_tx_delta(tx_hash, addr)
if delta is None or tx_deltas[tx_hash] is None:
tx_deltas[tx_hash] = None
else:
tx_deltas[tx_hash] += delta
# 2. create sorted history
history = []
for tx_hash in tx_deltas:
delta = tx_deltas[tx_hash]
height, conf, timestamp = self.get_tx_height(tx_hash)
history.append((tx_hash, height, conf, timestamp, delta))
history.sort(key = lambda x: self.get_txpos(x[0]))
history.reverse()
# 3. add balance
c, u, x = self.get_balance(domain)
balance = c + u + x
h2 = []
for tx_hash, height, conf, timestamp, delta in history:
h2.append((tx_hash, height, conf, timestamp, delta, balance))
if balance is None or delta is None:
balance = None
else:
balance -= delta
h2.reverse()
# fixme: this may happen if history is incomplete
if balance not in [None, 0]:
self.print_error("Error: history not synchronized")
return []
return h2
def get_label(self, tx_hash):
label = self.labels.get(tx_hash, '')
if label is '':
label = self.get_default_label(tx_hash)
return label
def get_default_label(self, tx_hash):
if self.txi.get(tx_hash) == {}:
d = self.txo.get(tx_hash, {})
labels = []
for addr in d.keys():
label = self.labels.get(addr)
if label:
labels.append(label)
return ', '.join(labels)
return ''
def fee_per_kb(self, config):
b = config.get('dynamic_fees', True)
i = config.get('fee_level', 2)
if b and self.network and self.network.dynfee(i):
return self.network.dynfee(i)
else:
return config.get('fee_per_kb', bitcoin.RECOMMENDED_FEE)
def get_tx_status(self, tx_hash, height, conf, timestamp):
from util import format_time
if conf == 0:
tx = self.transactions.get(tx_hash)
if not tx:
return 3, 'unknown'
is_final = tx and tx.is_final()
fee = self.tx_fees.get(tx_hash)
if fee and self.network and self.network.dynfee(0):
size = len(tx.raw)/2
low_fee = int(self.network.dynfee(0)*size/1000)
is_lowfee = fee < low_fee * 0.5
else:
is_lowfee = False
if height==0 and not is_final:
status = 0
elif height < 0:
status = 1
elif height == 0 and is_lowfee:
status = 2
elif height == 0:
status = 3
else:
status = 4
else:
status = 4 + min(conf, 6)
time_str = format_time(timestamp) if timestamp else _("unknown")
status_str = TX_STATUS[status] if status < 5 else time_str
return status, status_str
def relayfee(self):
RELAY_FEE = 5000
MAX_RELAY_FEE = 50000
f = self.network.relay_fee if self.network and self.network.relay_fee else RELAY_FEE
return min(f, MAX_RELAY_FEE)
def dust_threshold(self):
# Change <= dust threshold is added to the tx fee
return 182 * 3 * self.relayfee() / 1000
def get_tx_fee(self, tx):
# this method can be overloaded
return tx.get_fee()
def make_unsigned_transaction(self, coins, outputs, config, fixed_fee=None, change_addr=None):
# check outputs
for type, data, value in outputs:
if type == TYPE_ADDRESS:
if not is_address(data):
raise BaseException("Invalid bitcoin address:" + data)
# Avoid index-out-of-range with coins[0] below
if not coins:
raise NotEnoughFunds()
for item in coins:
self.add_input_info(item)
# change address
if change_addr:
change_addrs = [change_addr]
else:
addrs = self.get_change_addresses()[-self.gap_limit_for_change:]
if self.use_change and addrs:
# New change addresses are created only after a few
# confirmations. Select the unused addresses within the
# gap limit; if none take one at random
change_addrs = [addr for addr in addrs if
self.get_num_tx(addr) == 0]
if not change_addrs:
change_addrs = [random.choice(addrs)]
else:
change_addrs = [coins[0]['address']]
# Fee estimator
if fixed_fee is None:
fee_estimator = partial(self.estimate_fee, config)
else:
fee_estimator = lambda size: fixed_fee
# Let the coin chooser select the coins to spend
max_change = self.max_change_outputs if self.multiple_change else 1
coin_chooser = coinchooser.get_coin_chooser(config)
tx = coin_chooser.make_tx(coins, outputs, change_addrs[:max_change],
fee_estimator, self.dust_threshold())
# Sort the inputs and outputs deterministically
tx.BIP_LI01_sort()
run_hook('make_unsigned_transaction', self, tx)
return tx
def estimate_fee(self, config, size):
fee = int(self.fee_per_kb(config) * size / 1000.)
return fee
def mktx(self, outputs, password, config, fee=None, change_addr=None, domain=None):
coins = self.get_spendable_coins(domain)
tx = self.make_unsigned_transaction(coins, outputs, config, fee, change_addr)
self.sign_transaction(tx, password)
return tx
def sweep(self, privkeys, network, config, recipient, fee=None, imax=100):
inputs = []
keypairs = {}
for privkey in privkeys:
pubkey = public_key_from_private_key(privkey)
address = address_from_private_key(privkey)
u = network.synchronous_get(('blockchain.address.listunspent', [address]))
pay_script = Transaction.pay_script(TYPE_ADDRESS, address)
for item in u:
if len(inputs) >= imax:
break
item['scriptPubKey'] = pay_script
item['redeemPubkey'] = pubkey
item['address'] = address
item['prevout_hash'] = item['tx_hash']
item['prevout_n'] = item['tx_pos']
item['pubkeys'] = [pubkey]
item['x_pubkeys'] = [pubkey]
item['signatures'] = [None]
item['num_sig'] = 1
inputs.append(item)
keypairs[pubkey] = privkey
if not inputs:
return
total = sum(i.get('value') for i in inputs)
if fee is None:
outputs = [(TYPE_ADDRESS, recipient, total)]
tx = Transaction.from_io(inputs, outputs)
fee = self.estimate_fee(config, tx.estimated_size())
outputs = [(TYPE_ADDRESS, recipient, total - fee)]
tx = Transaction.from_io(inputs, outputs)
tx.sign(keypairs)
return tx
def is_frozen(self, addr):
return addr in self.frozen_addresses
def set_frozen_state(self, addrs, freeze):
'''Set frozen state of the addresses to FREEZE, True or False'''
if all(self.is_mine(addr) for addr in addrs):
if freeze:
self.frozen_addresses |= set(addrs)
else:
self.frozen_addresses -= set(addrs)
self.storage.put('frozen_addresses', list(self.frozen_addresses))
return True
return False
def prepare_for_verifier(self):
# review transactions that are in the history
for addr, hist in self.history.items():
for tx_hash, tx_height in hist:
# add it in case it was previously unconfirmed
self.add_unverified_tx(tx_hash, tx_height)
# if we are on a pruning server, remove unverified transactions
with self.lock:
vr = self.verified_tx.keys() + self.unverified_tx.keys()
for tx_hash in self.transactions.keys():
if tx_hash not in vr:
self.print_error("removing transaction", tx_hash)
self.transactions.pop(tx_hash)
def start_threads(self, network):
self.network = network
if self.network is not None:
self.prepare_for_verifier()
self.verifier = SPV(self.network, self)
self.synchronizer = Synchronizer(self, network)
network.add_jobs([self.verifier, self.synchronizer])
else:
self.verifier = None
self.synchronizer = None
def stop_threads(self):
if self.network:
self.network.remove_jobs([self.synchronizer, self.verifier])
self.synchronizer.release()
self.synchronizer = None
self.verifier = None
# Now no references to the syncronizer or verifier
# remain so they will be GC-ed
self.storage.put('stored_height', self.get_local_height())
self.storage.write()
def wait_until_synchronized(self, callback=None):
def wait_for_wallet():
self.set_up_to_date(False)
while not self.is_up_to_date():
if callback:
msg = "%s\n%s %d"%(
_("Please wait..."),
_("Addresses generated:"),
len(self.addresses(True)))
callback(msg)
time.sleep(0.1)
def wait_for_network():
while not self.network.is_connected():
if callback:
msg = "%s \n" % (_("Connecting..."))
callback(msg)
time.sleep(0.1)
# wait until we are connected, because the user
# might have selected another server
if self.network:
wait_for_network()
wait_for_wallet()
else:
self.synchronize()
def can_export(self):
return not self.is_watching_only()
def is_used(self, address):
h = self.history.get(address,[])
c, u, x = self.get_addr_balance(address)
return len(h) > 0 and c + u + x == 0
def is_empty(self, address):
c, u, x = self.get_addr_balance(address)
return c+u+x == 0
def address_is_old(self, address, age_limit=2):
age = -1
h = self.history.get(address, [])
for tx_hash, tx_height in h:
if tx_height == 0:
tx_age = 0
else:
tx_age = self.get_local_height() - tx_height + 1
if tx_age > age:
age = tx_age
return age > age_limit
def bump_fee(self, tx, delta):
if tx.is_final():
raise BaseException(_("Cannot bump fee: transaction is final"))
inputs = copy.deepcopy(tx.inputs())
outputs = copy.deepcopy(tx.outputs())
for txin in inputs:
txin['signatures'] = [None] * len(txin['signatures'])
self.add_input_info(txin)
# use own outputs
s = filter(lambda x: self.is_mine(x[1]), outputs)
# ... unless there is none
if not s:
s = outputs
# prioritize low value outputs, to get rid of dust
s = sorted(s, key=lambda x: x[2])
for o in s:
i = outputs.index(o)
otype, address, value = o
if value - delta >= self.dust_threshold():
outputs[i] = otype, address, value - delta
delta = 0
break
else:
del outputs[i]
delta -= value
if delta > 0:
continue
if delta > 0:
raise BaseException(_('Cannot bump fee: cound not find suitable outputs'))
return Transaction.from_io(inputs, outputs)
def add_input_info(self, txin):
# Add address for utxo that are in wallet
coins = self.get_spendable_coins()
if txin.get('scriptSig') == '':
for item in coins:
if txin.get('prevout_hash') == item.get('prevout_hash') and txin.get('prevout_n') == item.get('prevout_n'):
txin['address'] = item.get('address')
address = txin['address']
if self.is_mine(address):
self.add_input_sig_info(txin, address)
def can_sign(self, tx):
if tx.is_complete():
return False
for k in self.get_keystores():
if k.can_sign(tx):
return True
return False
def get_input_tx(self, tx_hash):
# First look up an input transaction in the wallet where it
# will likely be. If co-signing a transaction it may not have
# all the input txs, in which case we ask the network.
tx = self.transactions.get(tx_hash)
if not tx and self.network:
request = ('blockchain.transaction.get', [tx_hash])
tx = Transaction(self.network.synchronous_get(request))
return tx
def add_hw_info(self, tx):
# add previous tx for hw wallets
for txin in tx.inputs():
tx_hash = txin['prevout_hash']
txin['prev_tx'] = self.get_input_tx(tx_hash)
# add output info for hw wallets
info = {}
xpubs = self.get_master_public_keys()
for txout in tx.outputs():
_type, addr, amount = txout
if self.is_change(addr):
index = self.get_address_index(addr)
pubkeys = self.get_public_keys(addr)
# sort xpubs using the order of pubkeys
sorted_pubkeys, sorted_xpubs = zip(*sorted(zip(pubkeys, xpubs)))
info[addr] = index, sorted_xpubs, self.m if isinstance(self, Multisig_Wallet) else None
tx.output_info = info
def sign_transaction(self, tx, password):
if self.is_watching_only():
return
# hardware wallets require extra info
if any([(isinstance(k, Hardware_KeyStore) and k.can_sign(tx)) for k in self.get_keystores()]):
self.add_hw_info(tx)
# sign
for k in self.get_keystores():
try:
if k.can_sign(tx):
k.sign_transaction(tx, password)
except UserCancelled:
continue
def get_unused_addresses(self):
# fixme: use slots from expired requests
domain = self.get_receiving_addresses()
return [addr for addr in domain if not self.history.get(addr)
and addr not in self.receive_requests.keys()]
def get_unused_address(self):
addrs = self.get_unused_addresses()
if addrs:
return addrs[0]
def get_payment_status(self, address, amount):
local_height = self.get_local_height()
received, sent = self.get_addr_io(address)
l = []
for txo, x in received.items():
h, v, is_cb = x
txid, n = txo.split(':')
info = self.verified_tx.get(txid)
if info:
tx_height, timestamp, pos = info
conf = local_height - tx_height
else:
conf = 0
l.append((conf, v))
vsum = 0
for conf, v in reversed(sorted(l)):
vsum += v
if vsum >= amount:
return True, conf
return False, None
def get_payment_request(self, addr, config):
import util
r = self.receive_requests.get(addr)
if not r:
return
out = copy.copy(r)
out['URI'] = 'bitcoin:' + addr + '?amount=' + util.format_satoshis(out.get('amount'))
status, conf = self.get_request_status(addr)
out['status'] = status
if conf is not None:
out['confirmations'] = conf
# check if bip70 file exists
rdir = config.get('requests_dir')
if rdir:
key = out.get('id', addr)
path = os.path.join(rdir, 'req', key[0], key[1], key)
if os.path.exists(path):
baseurl = 'file://' + rdir
rewrite = config.get('url_rewrite')
if rewrite:
baseurl = baseurl.replace(*rewrite)
out['request_url'] = os.path.join(baseurl, 'req', key[0], key[1], key, key)
out['URI'] += '&r=' + out['request_url']
out['index_url'] = os.path.join(baseurl, 'index.html') + '?id=' + key
websocket_server_announce = config.get('websocket_server_announce')
if websocket_server_announce:
out['websocket_server'] = websocket_server_announce
else:
out['websocket_server'] = config.get('websocket_server', 'localhost')
websocket_port_announce = config.get('websocket_port_announce')
if websocket_port_announce:
out['websocket_port'] = websocket_port_announce
else:
out['websocket_port'] = config.get('websocket_port', 9999)
return out
def get_request_status(self, key):
from paymentrequest import PR_PAID, PR_UNPAID, PR_UNKNOWN, PR_EXPIRED
r = self.receive_requests.get(key)
if r is None:
return PR_UNKNOWN
address = r['address']
amount = r.get('amount')
timestamp = r.get('time', 0)
if timestamp and type(timestamp) != int:
timestamp = 0
expiration = r.get('exp')
if expiration and type(expiration) != int:
expiration = 0
conf = None
if amount:
if self.up_to_date:
paid, conf = self.get_payment_status(address, amount)
status = PR_PAID if paid else PR_UNPAID
if status == PR_UNPAID and expiration is not None and time.time() > timestamp + expiration:
status = PR_EXPIRED
else:
status = PR_UNKNOWN
else:
status = PR_UNKNOWN
return status, conf
def make_payment_request(self, addr, amount, message, expiration):
timestamp = int(time.time())
_id = Hash(addr + "%d"%timestamp).encode('hex')[0:10]
r = {'time':timestamp, 'amount':amount, 'exp':expiration, 'address':addr, 'memo':message, 'id':_id}
return r
def sign_payment_request(self, key, alias, alias_addr, password):
req = self.receive_requests.get(key)
alias_privkey = self.get_private_key(alias_addr, password)[0]
pr = paymentrequest.make_unsigned_request(req)
paymentrequest.sign_request_with_alias(pr, alias, alias_privkey)
req['name'] = pr.pki_data
req['sig'] = pr.signature.encode('hex')
self.receive_requests[key] = req
self.storage.put('payment_requests', self.receive_requests)
def add_payment_request(self, req, config):
import os
addr = req['address']
amount = req.get('amount')
message = req.get('memo')
self.receive_requests[addr] = req
self.storage.put('payment_requests', self.receive_requests)
self.set_label(addr, message) # should be a default label
rdir = config.get('requests_dir')
if rdir and amount is not None:
key = req.get('id', addr)
pr = paymentrequest.make_request(config, req)
path = os.path.join(rdir, 'req', key[0], key[1], key)
if not os.path.exists(path):
try:
os.makedirs(path)
except OSError as exc:
if exc.errno != errno.EEXIST:
raise
with open(os.path.join(path, key), 'w') as f:
f.write(pr.SerializeToString())
# reload
req = self.get_payment_request(addr, config)
with open(os.path.join(path, key + '.json'), 'w') as f:
f.write(json.dumps(req))
return req
def remove_payment_request(self, addr, config):
if addr not in self.receive_requests:
return False
r = self.receive_requests.pop(addr)
rdir = config.get('requests_dir')
if rdir:
key = r.get('id', addr)
for s in ['.json', '']:
n = os.path.join(rdir, 'req', key[0], key[1], key, key + s)
if os.path.exists(n):
os.unlink(n)
self.storage.put('payment_requests', self.receive_requests)
return True
def get_sorted_requests(self, config):
def f(x):
try:
addr = x.get('address')
return self.get_address_index(addr)
except:
return -1, (0, 0)
return sorted(map(lambda x: self.get_payment_request(x, config), self.receive_requests.keys()), key=f)
def get_fingerprint(self):
raise NotImplementedError()
def can_import_privkey(self):
return False
def can_import_address(self):
return False
def can_delete_address(self):
return False
def add_address(self, address):
if address not in self.history:
self.history[address] = []
if self.synchronizer:
self.synchronizer.add(address)
def has_password(self):
return self.storage.get('use_encryption', False)
class Imported_Wallet(Abstract_Wallet):
# wallet made of imported addresses
wallet_type = 'imported'
def __init__(self, storage):
Abstract_Wallet.__init__(self, storage)
def load_keystore(self):
pass
def load_addresses(self):
self.addresses = self.storage.get('addresses', [])
self.receiving_addresses = self.addresses
self.change_addresses = []
def get_keystores(self):
return []
def has_password(self):
return False
def can_change_password(self):
return False
def can_import_address(self):
return True
def is_watching_only(self):
return True
def has_seed(self):
return False
def is_deterministic(self):
return False
def is_used(self, address):
return False
def get_master_public_keys(self):
return []
def is_beyond_limit(self, address, is_change):
return False
def get_fingerprint(self):
return ''
def get_addresses(self, include_change=False):
return self.addresses
def import_address(self, address):
if address in self.addresses:
return
self.addresses.append(address)
self.storage.put('addresses', self.addresses)
self.storage.write()
self.add_address(address)
return address
def can_delete_address(self):
return True
def delete_address(self, address):
if address not in self.addresses:
return
self.addresses.remove(address)
self.storage.put('addresses', self.addresses)
self.storage.write()
def get_receiving_addresses(self):
return self.addresses[:]
def get_change_addresses(self):
return []
def add_input_sig_info(self, txin, address):
addrtype, hash160 = bc_address_to_hash_160(address)
xpubkey = 'fd' + (chr(addrtype) + hash160).encode('hex')
txin['x_pubkeys'] = [ xpubkey ]
txin['pubkeys'] = [ xpubkey ]
txin['signatures'] = [None]
class P2PK_Wallet(Abstract_Wallet):
def pubkeys_to_address(self, pubkey):
return public_key_to_bc_address(pubkey.decode('hex'))
def load_keystore(self):
self.keystore = load_keystore(self.storage, 'keystore')
def get_pubkey(self, c, i):
pubkey_list = self.change_pubkeys if c else self.receiving_pubkeys
return pubkey_list[i]
def get_public_keys(self, address):
return [self.get_public_key(address)]
def add_input_sig_info(self, txin, address):
if not self.keystore.can_import():
txin['derivation'] = derivation = self.get_address_index(address)
x_pubkey = self.keystore.get_xpubkey(*derivation)
pubkey = self.get_pubkey(*derivation)
else:
pubkey = self.get_public_key(address)
assert pubkey is not None
x_pubkey = pubkey
txin['x_pubkeys'] = [x_pubkey]
txin['pubkeys'] = [pubkey]
txin['signatures'] = [None]
txin['redeemPubkey'] = pubkey
txin['num_sig'] = 1
def sign_message(self, address, message, password):
index = self.get_address_index(address)
return self.keystore.sign_message(index, message, password)
def decrypt_message(self, pubkey, message, password):
index = self.get_pubkey_index(pubkey)
return self.keystore.decrypt_message(index, message, password)
class Deterministic_Wallet(Abstract_Wallet):
def __init__(self, storage):
Abstract_Wallet.__init__(self, storage)
self.gap_limit = storage.get('gap_limit', 20)
def has_seed(self):
return self.keystore.has_seed()
def is_deterministic(self):
return self.keystore.is_deterministic()
def get_receiving_addresses(self):
return self.receiving_addresses
def get_change_addresses(self):
return self.change_addresses
def get_seed(self, password):
return self.keystore.get_seed(password)
def add_seed(self, seed, pw):
self.keystore.add_seed(seed, pw)
def change_gap_limit(self, value):
'''This method is not called in the code, it is kept for console use'''
if value >= self.gap_limit:
self.gap_limit = value
self.storage.put('gap_limit', self.gap_limit)
return True
elif value >= self.min_acceptable_gap():
addresses = self.get_receiving_addresses()
k = self.num_unused_trailing_addresses(addresses)
n = len(addresses) - k + value
self.receiving_pubkeys = self.receiving_pubkeys[0:n]
self.receiving_addresses = self.receiving_addresses[0:n]
self.gap_limit = value
self.storage.put('gap_limit', self.gap_limit)
self.save_pubkeys()
return True
else:
return False
def num_unused_trailing_addresses(self, addresses):
k = 0
for a in addresses[::-1]:
if self.history.get(a):break
k = k + 1
return k
def min_acceptable_gap(self):
# fixme: this assumes wallet is synchronized
n = 0
nmax = 0
addresses = self.account.get_receiving_addresses()
k = self.num_unused_trailing_addresses(addresses)
for a in addresses[0:-k]:
if self.history.get(a):
n = 0
else:
n += 1
if n > nmax: nmax = n
return nmax + 1
def create_new_address(self, for_change):
pubkey_list = self.change_pubkeys if for_change else self.receiving_pubkeys
n = len(pubkey_list)
x = self.new_pubkeys(for_change, n)
pubkey_list.append(x)
self.save_pubkeys()
address = self.pubkeys_to_address(x)
addr_list = self.change_addresses if for_change else self.receiving_addresses
addr_list.append(address)
self.add_address(address)
return address
def synchronize_sequence(self, for_change):
limit = self.gap_limit_for_change if for_change else self.gap_limit
while True:
addresses = self.get_change_addresses() if for_change else self.get_receiving_addresses()
if len(addresses) < limit:
self.create_new_address(for_change)
continue
if map(lambda a: self.address_is_old(a), addresses[-limit:] ) == limit*[False]:
break
else:
self.create_new_address(for_change)
def synchronize(self):
with self.lock:
if self.is_deterministic():
self.synchronize_sequence(False)
self.synchronize_sequence(True)
else:
if len(self.receiving_pubkeys) != len(self.keystore.keypairs):
self.receiving_pubkeys = self.keystore.keypairs.keys()
self.save_pubkeys()
self.receiving_addresses = map(self.pubkeys_to_address, self.receiving_pubkeys)
for addr in self.receiving_addresses:
self.add_address(addr)
def is_beyond_limit(self, address, is_change):
addr_list = self.get_change_addresses() if is_change else self.get_receiving_addresses()
i = addr_list.index(address)
prev_addresses = addr_list[:max(0, i)]
limit = self.gap_limit_for_change if is_change else self.gap_limit
if len(prev_addresses) < limit:
return False
prev_addresses = prev_addresses[max(0, i - limit):]
for addr in prev_addresses:
if self.history.get(addr):
return False
return True
def get_master_public_keys(self):
return [self.get_master_public_key()]
def get_fingerprint(self):
return self.get_master_public_key()
class Standard_Wallet(Deterministic_Wallet, P2PK_Wallet):
wallet_type = 'standard'
def __init__(self, storage):
Deterministic_Wallet.__init__(self, storage)
def get_master_public_key(self):
return self.keystore.get_master_public_key()
def new_pubkeys(self, c, i):
return self.keystore.derive_pubkey(c, i)
def get_keystore(self):
return self.keystore
def get_keystores(self):
return [self.keystore]
def is_watching_only(self):
return self.keystore.is_watching_only()
def can_change_password(self):
return self.keystore.can_change_password()
def check_password(self, password):
self.keystore.check_password(password)
def update_password(self, old_pw, new_pw):
self.keystore.update_password(old_pw, new_pw)
self.save_keystore()
self.storage.put('use_encryption', (new_pw is not None))
self.storage.write()
def save_keystore(self):
self.storage.put('keystore', self.keystore.dump())
def can_delete_address(self):
return self.keystore.can_import()
def delete_address(self, address):
pubkey = self.get_public_key(address)
self.keystore.delete_imported_key(pubkey)
self.save_keystore()
self.receiving_pubkeys.remove(pubkey)
self.receiving_addresses.remove(address)
self.storage.write()
def can_import_privkey(self):
return self.keystore.can_import()
def import_key(self, pk, pw):
pubkey = self.keystore.import_key(pk, pw)
self.save_keystore()
self.receiving_pubkeys.append(pubkey)
self.save_pubkeys()
addr = self.pubkeys_to_address(pubkey)
self.receiving_addresses.append(addr)
self.storage.write()
self.add_address(addr)
return addr
class Multisig_Wallet(Deterministic_Wallet):
# generic m of n
gap_limit = 20
def __init__(self, storage):
self.wallet_type = storage.get('wallet_type')
self.m, self.n = multisig_type(self.wallet_type)
Deterministic_Wallet.__init__(self, storage)
def get_pubkeys(self, c, i):
pubkey_list = self.change_pubkeys if c else self.receiving_pubkeys
return pubkey_list[i]
def redeem_script(self, c, i):
pubkeys = self.get_pubkeys(c, i)
return Transaction.multisig_script(sorted(pubkeys), self.m)
def pubkeys_to_address(self, pubkeys):
redeem_script = Transaction.multisig_script(sorted(pubkeys), self.m)
address = hash_160_to_bc_address(hash_160(redeem_script.decode('hex')), 5)
return address
def new_pubkeys(self, c, i):
return [k.derive_pubkey(c, i) for k in self.get_keystores()]
def load_keystore(self):
self.keystores = {}
for i in range(self.n):
name = 'x%d/'%(i+1)
self.keystores[name] = load_keystore(self.storage, name)
self.keystore = self.keystores['x1/']
def save_keystore(self):
for name, k in self.keystores.items():
self.storage.put(name, k.dump())
def get_keystore(self):
return self.keystores.get('x1/')
def get_keystores(self):
return [self.keystores[i] for i in sorted(self.keystores.keys())]
def update_password(self, old_pw, new_pw):
for name, keystore in self.keystores.items():
keystore.update_password(old_pw, new_pw)
self.storage.put(name, keystore.dump())
self.storage.put('use_encryption', (new_pw is not None))
def check_password(self, password):
self.keystore.check_password(password)
def has_seed(self):
return self.keystore.has_seed()
def can_change_password(self):
return self.keystore.can_change_password()
def is_watching_only(self):
return not any([not k.is_watching_only() for k in self.get_keystores()])
def get_master_public_key(self):
return self.keystore.get_master_public_key()
def get_master_public_keys(self):
return [k.get_master_public_key() for k in self.get_keystores()]
def get_fingerprint(self):
return ''.join(sorted(self.get_master_public_keys()))
def add_input_sig_info(self, txin, address):
txin['derivation'] = derivation = self.get_address_index(address)
pubkeys = self.get_pubkeys(*derivation)
x_pubkeys = [k.get_xpubkey(*derivation) for k in self.get_keystores()]
# sort pubkeys and x_pubkeys, using the order of pubkeys
pubkeys, x_pubkeys = zip(*sorted(zip(pubkeys, x_pubkeys)))
txin['pubkeys'] = list(pubkeys)
txin['x_pubkeys'] = list(x_pubkeys)
txin['signatures'] = [None] * len(pubkeys)
txin['redeemScript'] = self.redeem_script(*derivation)
txin['num_sig'] = self.m
wallet_types = ['standard', 'multisig', 'imported']
def register_wallet_type(category):
wallet_types.append(category)
wallet_constructors = {
'standard': Standard_Wallet,
'old': Standard_Wallet,
'xpub': Standard_Wallet,
'imported': Imported_Wallet
}
def register_constructor(wallet_type, constructor):
wallet_constructors[wallet_type] = constructor
# former WalletFactory
class Wallet(object):
"""The main wallet "entry point".
This class is actually a factory that will return a wallet of the correct
type when passed a WalletStorage instance."""
def __new__(self, storage):
wallet_type = storage.get('wallet_type')
WalletClass = Wallet.wallet_class(wallet_type)
wallet = WalletClass(storage)
# Convert hardware wallets restored with older versions of
# Electrum to BIP44 wallets. A hardware wallet does not have
# a seed and plugins do not need to handle having one.
rwc = getattr(wallet, 'restore_wallet_class', None)
if rwc and storage.get('seed', ''):
storage.print_error("converting wallet type to " + rwc.wallet_type)
storage.put('wallet_type', rwc.wallet_type)
wallet = rwc(storage)
return wallet
@staticmethod
def wallet_class(wallet_type):
if multisig_type(wallet_type):
return Multisig_Wallet
if wallet_type in wallet_constructors:
return wallet_constructors[wallet_type]
raise RuntimeError("Unknown wallet type: " + wallet_type)