IMPORTED_ACCOUNT = '/x'
-
-class WalletStorage:
+class WalletStorage(object):
def __init__(self, config):
- self.lock = threading.Lock()
+ self.lock = threading.RLock()
self.config = config
self.data = {}
self.file_exists = False
if self.path:
self.read(self.path)
-
def init_path(self, config):
"""Set the path of the wallet."""
return new_path
-
def read(self, path):
"""Read the contents of the wallet file."""
try:
self.data = d
self.file_exists = True
-
def get(self, key, default=None):
- v = self.data.get(key)
- if v is None:
- v = default
- return v
+
+ with self.lock:
+ v = self.data.get(key)
+ if v is None:
+ v = default
+ return v
def put(self, key, value, save = True):
os.chmod(self.path,stat.S_IREAD | stat.S_IWRITE)
-class Abstract_Wallet:
+class Abstract_Wallet(object):
"""
Wallet classes are created to handle various address generation methods.
Completion states (watching-only, single account, no seed, etc) are handled inside classes.
"""
-
def __init__(self, storage):
self.storage = storage
self.electrum_version = ELECTRUM_VERSION
self.fee = int(storage.get('fee_per_kb', 10000))
- self.master_public_keys = storage.get('master_public_keys',{})
- self.master_private_keys = storage.get('master_private_keys', {})
-
self.next_addresses = storage.get('next_addresses',{})
-
# This attribute is set when wallet.start_threads is called.
self.synchronizer = None
- self.load_accounts()
-
- self.transactions = {}
- tx_list = self.storage.get('transactions',{})
- for k, raw in tx_list.items():
- try:
- tx = Transaction.deserialize(raw)
- except Exception:
- print_msg("Warning: Cannot deserialize transactions. skipping")
- continue
-
- self.add_pubkey_addresses(tx)
- self.transactions[k] = tx
-
- for h,tx in self.transactions.items():
- if not self.check_new_tx(h, tx):
- print_error("removing unreferenced tx", h)
- self.transactions.pop(h)
+ # imported_keys is deprecated. The GUI should call convert_imported_keys
+ self.imported_keys = self.storage.get('imported_keys',{})
+ self.load_accounts()
+ self.load_transactions()
# not saved
self.prevout_values = {} # my own transaction outputs
self.spent_outputs = []
-
# spv
self.verifier = None
-
# 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()
for tx_hash, tx in self.transactions.items():
self.update_tx_outputs(tx_hash)
+ def load_transactions(self):
+ self.transactions = {}
+ tx_list = self.storage.get('transactions',{})
+ for k, raw in tx_list.items():
+ try:
+ tx = Transaction.deserialize(raw)
+ except Exception:
+ print_msg("Warning: Cannot deserialize transactions. skipping")
+ continue
+ self.add_pubkey_addresses(tx)
+ self.transactions[k] = tx
+ for h,tx in self.transactions.items():
+ if not self.check_new_tx(h, tx):
+ print_error("removing unreferenced tx", h)
+ self.transactions.pop(h)
+
def add_pubkey_addresses(self, tx):
# find the address corresponding to pay-to-pubkey inputs
h = tx.hash()
tx.add_pubkey_addresses(self.transactions)
# outputs of tx: inputs of tx2
- for x, v in tx.outputs:
- if x.startswith('pubkey:'):
+ for type, x, v in tx.outputs:
+ if type == 'pubkey':
for tx2 in self.transactions.values():
tx2.add_pubkey_addresses({h:tx})
def load_accounts(self):
self.accounts = {}
- self.imported_keys = self.storage.get('imported_keys',{})
d = self.storage.get('accounts', {})
for k, v in d.items():
return s[0] == 1
def get_address_index(self, address):
-
for account in self.accounts.keys():
for for_change in [0,1]:
addresses = self.accounts[account].get_addresses(for_change)
def get_public_keys(self, address):
account_id, sequence = self.get_address_index(address)
- return self.accounts[account_id].get_pubkeys(sequence)
-
- def can_sign(self, tx):
-
- if self.is_watching_only():
- return False
-
- if tx.is_complete():
- return False
-
- addr_list, xpub_list = tx.inputs_to_sign()
- for addr in addr_list:
- if self.is_mine(addr):
- return True
-
- mpk = [ self.master_public_keys[k] for k in self.master_private_keys.keys() ]
- for xpub, sequence in xpub_list:
- if xpub in mpk:
- return True
-
- return False
+ return self.accounts[account_id].get_pubkeys(*sequence)
def add_keypairs(self, tx, keypairs, password):
# first check the provided password. This will raise if invalid.
def signrawtransaction(self, tx, private_keys, password):
# check that the password is correct. This will raise if it's not.
- self.get_seed(password)
-
+ self.check_password(password)
# build a list of public/private keys
keypairs = {}
-
# add private keys from parameter
for sec in private_keys:
pubkey = public_key_from_private_key(sec)
keypairs[ pubkey ] = sec
-
# add private_keys
self.add_keypairs(tx, keypairs, password)
-
# sign the transaction
self.sign_transaction(tx, keypairs, password)
if address in tx.get_output_addresses(): n += 1
return n
- def get_address_flags(self, addr):
- flags = "C" if self.is_change(addr) else "I" if addr in self.imported_keys.keys() else "-"
- flags += "F" if addr in self.frozen_addresses else "-"
- return flags
-
def get_tx_value(self, tx, account=None):
domain = self.get_account_addresses(account)
return tx.get_value(domain, self.prevout_values)
# Insert the change output at a random position in the outputs
posn = random.randint(0, len(outputs))
- outputs[posn:posn] = [( change_addr, change_amount)]
+ outputs[posn:posn] = [( 'address', change_addr, change_amount)]
return outputs
def get_history(self, address):
return default_label
def make_unsigned_transaction(self, outputs, fee=None, change_addr=None, domain=None, coins=None ):
- for address, x in outputs:
- if address.startswith('OP_RETURN:'):
+ for type, address, x in outputs:
+ if type == 'op_return':
continue
- assert is_address(address), "Address " + address + " is invalid!"
- amount = sum( map(lambda x:x[1], outputs) )
+ if type == 'address':
+ assert is_address(address), "Address " + address + " is invalid!"
+ amount = sum( map(lambda x:x[2], outputs) )
inputs, total, fee = self.choose_tx_inputs( amount, fee, len(outputs), domain, coins )
if not inputs:
raise ValueError("Not enough funds")
imported_account.update_password(old_password, new_password)
self.save_accounts()
- for k, v in self.master_private_keys.items():
- b = pw_decode(v, old_password)
- c = pw_encode(b, new_password)
- self.master_private_keys[k] = c
- self.storage.put('master_private_keys', self.master_private_keys, True)
+ if hasattr(self, 'master_private_keys'):
+ for k, v in self.master_private_keys.items():
+ b = pw_decode(v, old_password)
+ c = pw_encode(b, new_password)
+ self.master_private_keys[k] = c
+ self.storage.put('master_private_keys', self.master_private_keys, True)
self.use_encryption = (new_password != None)
self.storage.put('use_encryption', self.use_encryption,True)
def is_beyond_limit(self, address, account, is_change):
return False
+
class Deterministic_Wallet(Abstract_Wallet):
def __init__(self, storage):
return False
prev_addresses = prev_addresses[max(0, i - limit):]
for addr in prev_addresses:
- if self.address_is_old(addr):
+ if self.history.get(addr):
return False
return True
def get_action(self):
- if not self.master_public_keys:
+ if not self.get_master_public_key():
return 'create_seed'
if not self.accounts:
return 'create_accounts'
def __init__(self, storage):
Deterministic_Wallet.__init__(self, storage)
+ self.master_public_keys = storage.get('master_public_keys', {})
+ self.master_private_keys = storage.get('master_private_keys', {})
def default_account(self):
return self.accounts["m/0'"]
self.add_master_public_key("m/", xpub)
self.add_master_private_key("m/", xpriv, password)
- def find_root_by_master_key(self, xpub):
- for key, xpub2 in self.master_public_keys.items():
- if key == "m/":continue
- if xpub == xpub2:
- return key
+ def can_sign(self, tx):
+ if self.is_watching_only():
+ return False
+ if tx.is_complete():
+ return False
+ addr_list, xpub_list = tx.inputs_to_sign()
+ for addr in addr_list:
+ if self.is_mine(addr):
+ return True
+ mpk = [ self.master_public_keys[k] for k in self.master_private_keys.keys() ]
+ for xpub, sequence in xpub_list:
+ if xpub in mpk:
+ return True
+ return False
def num_accounts(self):
keys = []
def check_pending_accounts(self):
pass
+ def can_sign(self, tx):
+ if self.is_watching_only():
+ return False
+ if tx.is_complete():
+ return False
+ addr_list, xpub_list = tx.inputs_to_sign()
+ for addr in addr_list:
+ if self.is_mine(addr):
+ return True
+ for xpub, sequence in xpub_list:
+ if xpub == self.master_public_key:
+ return True
+ return False
# former WalletFactory
class Wallet(object):