# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
+import datetime
import time
-from util import *
-from bitcoin import *
+import copy
+from util import print_msg, format_satoshis
+from bitcoin import is_valid, hash_160_to_bc_address, hash_160
from decimal import Decimal
import bitcoin
from transaction import Transaction
+
class Command:
def __init__(self, name, min_args, max_args, requires_network, requires_wallet, requires_password, description, syntax = '', options_syntax = ''):
self.name = name
self.syntax = syntax
self.options = options_syntax
+
known_commands = {}
+
+
def register_command(*args):
global known_commands
name = args[0]
register_command('setconfig', 2, 2, False, False, False, 'Set a configuration variable', 'setconfig <name> <value>')
register_command('setlabel', 2,-1, False, True, False, 'Assign a label to an item', 'setlabel <tx_hash> <label>')
register_command('sendrawtransaction', 1, 1, True, False, False, 'Broadcasts a transaction to the network.', 'sendrawtransaction <tx in hexadecimal>')
-register_command('signrawtransaction', 1, 3, False, True, True, 'similar to bitcoind\'s command')
+register_command('signrawtransaction', 1, 3, False, True, True, 'Sign a serailized transaction','signrawtransaction <tx in hexadecimal>')
register_command('signmessage', 2,-1, False, True, True, 'Sign a message with a key', signmessage_syntax)
register_command('unfreeze', 1, 1, False, True, False, 'Unfreeze the funds at one of your wallet\'s address', 'unfreeze <address>')
register_command('validateaddress', 1, 1, False, False, False, 'Check that the address is valid', 'validateaddress <address>')
register_command('sweep', 2, 3, True, False, False, 'Sweep a private key.', 'sweep privkey addr [fee]')
-
-
class Commands:
def __init__(self, wallet, network, callback = None):
self._callback = callback
self.password = None
-
def _run(self, method, args, password_getter):
cmd = known_commands[method]
if cmd.requires_password and self.wallet.use_encryption:
apply(self._callback, ())
return result
-
def getaddresshistory(self, addr):
return self.network.synchronous_get([ ('blockchain.address.get_history',[addr]) ])[0]
-
def daemon(self, arg):
if arg=='stop':
return self.network.stop()
elif arg=='status':
- return {
- 'server':self.network.main_server(),
+ return {
+ 'server':self.network.main_server(),
'connected':self.network.is_connected()
}
else:
return "unknown command \"%s\""% arg
-
def listunspent(self):
- import copy
l = copy.deepcopy(self.wallet.get_unspent_coins())
for i in l: i["value"] = str(Decimal(i["value"])/100000000)
return l
-
def getaddressunspent(self, addr):
return self.network.synchronous_get([ ('blockchain.address.listunspent',[addr]) ])[0]
-
def getutxoaddress(self, txid, num):
r = self.network.synchronous_get([ ('blockchain.utxo.get_address',[txid, num]) ])
- if r:
+ if r:
return {'address':r[0] }
-
def createrawtransaction(self, inputs, outputs):
for i in inputs:
i['prevout_hash'] = i['txid']
tx = Transaction.from_io(inputs, outputs)
return tx
-
def signrawtransaction(self, raw_tx, private_keys):
tx = Transaction(raw_tx)
self.wallet.signrawtransaction(tx, private_keys, self.password)
redeem_script = Transaction.multisig_script(pubkeys, num)
address = hash_160_to_bc_address(hash_160(redeem_script.decode('hex')), 5)
return {'address':address, 'redeemScript':redeem_script}
-
+
def freeze(self,addr):
return self.wallet.freeze(addr)
-
+
def unfreeze(self,addr):
return self.wallet.unfreeze(addr)
def getpubkeys(self, addr):
out = { 'address':addr }
- out['pubkeys'] = self.wallet.getpubkeys(addr)
+ out['pubkeys'] = self.wallet.get_public_keys(addr)
return out
-
def getbalance(self, account= None):
if account is None:
c, u = self.wallet.get_balance()
out["unconfirmed"] = str(Decimal(out["unconfirmed"])/100000000)
return out
-
def getproof(self, addr):
p = self.network.synchronous_get([ ('blockchain.address.get_proof',[addr]) ])[0]
out = []
return self.network.get_servers()
def getversion(self):
- import electrum
+ import electrum # Needs to stay here to prevent ciruclar imports
return electrum.ELECTRUM_VERSION
-
+
def getmpk(self):
- return self.wallet.get_master_public_key()
+ return self.wallet.get_master_public_keys()
def getseed(self):
mnemonic = self.wallet.get_mnemonic(self.password)
out = "Error: Keypair import failed: " + str(e)
return out
-
def sweep(self, privkey, to_address, fee = 0.0001):
fee = int(Decimal(fee)*100000000)
return Transaction.sweep([privkey], self.network, to_address, fee)
-
def signmessage(self, address, message):
return self.wallet.sign_message(address, message, self.password)
-
def verifymessage(self, address, signature, message):
return bitcoin.verify_message(address, signature, message)
-
def _mktx(self, outputs, fee = None, change_addr = None, domain = None):
-
for to_address, amount in outputs:
if not is_valid(to_address):
raise Exception("Invalid Bitcoin address", to_address)
for addr in domain:
if not is_valid(addr):
raise Exception("invalid Bitcoin address", addr)
-
+
if not self.wallet.is_mine(addr):
raise Exception("address not in wallet", addr)
break
amount = int(100000000*amount)
- final_outputs.append((to_address, amount))
-
+ final_outputs.append(('address', to_address, amount))
+
if fee: fee = int(100000000*fee)
return self.wallet.mktx(final_outputs, self.password, fee , change_addr, domain)
-
def mktx(self, to_address, amount, fee = None, change_addr = None, domain = None):
tx = self._mktx([(to_address, amount)], fee, change_addr, domain)
return tx
tx = self._mktx(outputs, fee, change_addr, domain)
return tx
-
def payto(self, to_address, amount, fee = None, change_addr = None, domain = None):
tx = self._mktx([(to_address, amount)], fee, change_addr, domain)
r, h = self.wallet.sendtx( tx )
r, h = self.wallet.sendtx( tx )
return h
-
def history(self):
- import datetime
balance = 0
out = []
for item in self.wallet.get_tx_history():
out.append({'txid':tx_hash, 'date':"%16s"%time_str, 'label':label, 'value':format_satoshis(value)})
return out
-
-
def setlabel(self, key, label):
self.wallet.set_label(key, label)
-
-
def contacts(self):
c = {}
for addr in self.wallet.addressbook:
c[addr] = self.wallet.labels.get(addr)
return c
-
def listaddresses(self, show_all = False, show_label = False):
out = []
for addr in self.wallet.addresses(True):
item = addr
out.append( item )
return out
-
+
def help(self, cmd=None):
if cmd not in known_commands:
print_msg("\nList of commands:", ', '.join(sorted(known_commands)))
if cmd.options: print_msg("options:\n" + cmd.options)
return None
-
def getrawtransaction(self, tx_hash):
- import transaction
if self.wallet:
tx = self.wallet.transactions.get(tx_hash)
if tx:
r = self.network.synchronous_get([ ('blockchain.transaction.get',[tx_hash]) ])[0]
if r:
- return transaction.Transaction(r)
+ return Transaction(r)
else:
return "unknown transaction"
-
def encrypt(self, pubkey, message):
return bitcoin.encrypt_message(message, pubkey)
-
def decrypt(self, pubkey, message):
return self.wallet.decrypt_message(pubkey, message, self.password)
-
-
-