lukechilds
/
electrum
mirror of https://github.com/lukechilds/electrum.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity
Browse Source

compact serialized format for unsigned and partially signed transactions.

283
ThomasV 11 years ago
parent
378633e6fa
commit
0636ef8b32
8 changed files with 252 additions and 178 deletions
Whitespace
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
Unified View
Diff Options
Show Stats Download Patch File Download Diff File
  1. 2
      electrum
  2. 33
      gui/qt/main_window.py
  3. 8
      gui/qt/transaction_dialog.py
  4. 73
      lib/account.py
  5. 4
      lib/commands.py
  6. 191
      lib/transaction.py
  7. 109
      lib/wallet.py
  8. 10
      plugins/qrscanner.py

2
electrum
View File

@ -336,7 +336,7 @@ if __name__ == '__main__':
args.append(prompt_password('Enter PrivateKey (will not echo):', False)) args.append(prompt_password('Enter PrivateKey (will not echo):', False))
elif cmd.name == 'signrawtransaction': elif cmd.name == 'signrawtransaction':
args = [cmd, args[1], json.loads(args[2]) if len(args) > 2 else [], json.loads(args[3]) if len(args) > 3 else []] args = [cmd, args[1], json.loads(args[2]) if len(args) > 2 else [] ]
elif cmd.name == 'createmultisig': elif cmd.name == 'createmultisig':
args = [cmd, int(args[1]), json.loads(args[2])] args = [cmd, int(args[1]), json.loads(args[2])]

33
gui/qt/main_window.py
View File

@ -1024,7 +1024,7 @@ class ElectrumWindow(QMainWindow):
def sign_thread(): def sign_thread():
time.sleep(0.1) time.sleep(0.1)
keypairs = {} keypairs = {}
self.wallet.add_keypairs_from_wallet(tx, keypairs, password) self.wallet.add_keypairs(tx, keypairs, password)
self.wallet.sign_transaction(tx, keypairs, password) self.wallet.sign_transaction(tx, keypairs, password)
return tx, fee, label return tx, fee, label
@ -1814,7 +1814,6 @@ class ElectrumWindow(QMainWindow):
def show_qrcode(self, data, title = _("QR code")): def show_qrcode(self, data, title = _("QR code")):
if not data: if not data:
return return
print_error("qrcode:", data)
d = QRDialog(data, self, title) d = QRDialog(data, self, title)
d.exec_() d.exec_()
@ -2046,24 +2045,29 @@ class ElectrumWindow(QMainWindow):
"json or raw hexadecimal" "json or raw hexadecimal"
try: try:
txt.decode('hex') txt.decode('hex')
tx = Transaction(txt) is_hex = True
return tx except:
except Exception: is_hex = False
pass
if is_hex:
try:
return Transaction(txt)
except:
traceback.print_exc(file=sys.stdout)
QMessageBox.critical(None, _("Unable to parse transaction"), _("Electrum was unable to parse your transaction"))
return
try: try:
tx_dict = json.loads(str(txt)) tx_dict = json.loads(str(txt))
assert "hex" in tx_dict.keys() assert "hex" in tx_dict.keys()
tx = Transaction(tx_dict["hex"]) tx = Transaction(tx_dict["hex"])
if tx_dict.has_key("input_info"): #if tx_dict.has_key("input_info"):
input_info = json.loads(tx_dict['input_info']) # input_info = json.loads(tx_dict['input_info'])
tx.add_input_info(input_info) # tx.add_input_info(input_info)
return tx return tx
except Exception: except Exception:
traceback.print_exc(file=sys.stdout) traceback.print_exc(file=sys.stdout)
pass QMessageBox.critical(None, _("Unable to parse transaction"), _("Electrum was unable to parse your transaction"))
QMessageBox.critical(None, _("Unable to parse transaction"), _("Electrum was unable to parse your transaction"))
@ -2081,10 +2085,11 @@ class ElectrumWindow(QMainWindow):
@protected @protected
def sign_raw_transaction(self, tx, input_info, password): def sign_raw_transaction(self, tx, password):
try: try:
self.wallet.signrawtransaction(tx, input_info, [], password) self.wallet.signrawtransaction(tx, [], password)
except Exception as e: except Exception as e:
traceback.print_exc(file=sys.stdout)
QMessageBox.warning(self, _("Error"), str(e)) QMessageBox.warning(self, _("Error"), str(e))
def do_process_from_text(self): def do_process_from_text(self):

8
gui/qt/transaction_dialog.py
View File

@ -105,17 +105,15 @@ class TxDialog(QDialog):
def show_qr(self): def show_qr(self):
text = self.tx.raw.decode('hex')
try: try:
json_text = json.dumps(self.tx.as_dict()).replace(' ', '') self.parent.show_qrcode(text, 'Transaction')
self.parent.show_qrcode(json_text, 'Transaction')
except Exception as e: except Exception as e:
self.show_message(str(e)) self.show_message(str(e))
def sign(self): def sign(self):
tx_dict = self.tx.as_dict() self.parent.sign_raw_transaction(self.tx)
input_info = json.loads(tx_dict["input_info"])
self.parent.sign_raw_transaction(self.tx, input_info)
self.update() self.update()

73
lib/account.py
View File

@ -16,10 +16,11 @@
# You should have received a copy of the GNU General Public License # You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>. # along with this program. If not, see <http://www.gnu.org/licenses/>.
import bitcoin
from bitcoin import * from bitcoin import *
from i18n import _ from i18n import _
from transaction import Transaction from transaction import Transaction, is_extended_pubkey
from util import print_msg
class Account(object): class Account(object):
@ -38,7 +39,7 @@ class Account(object):
n = len(addresses) n = len(addresses)
address = self.get_address( for_change, n) address = self.get_address( for_change, n)
addresses.append(address) addresses.append(address)
print address print_msg(address)
return address return address
def get_address(self, for_change, n): def get_address(self, for_change, n):
@ -149,26 +150,30 @@ class OldAccount(Account):
seed = hashlib.sha256(seed + oldseed).digest() seed = hashlib.sha256(seed + oldseed).digest()
return string_to_number( seed ) return string_to_number( seed )
def get_sequence(self, for_change, n): @classmethod
return string_to_number( Hash( "%d:%d:"%(n,for_change) + self.mpk ) ) def get_sequence(self, mpk, for_change, n):
return string_to_number( Hash( "%d:%d:"%(n,for_change) + mpk ) )
def get_address(self, for_change, n): def get_address(self, for_change, n):
pubkey = self.get_pubkey(for_change, n) pubkey = self.get_pubkey(for_change, n)
address = public_key_to_bc_address( pubkey.decode('hex') ) address = public_key_to_bc_address( pubkey.decode('hex') )
return address return address
def get_pubkey(self, for_change, n): @classmethod
def get_pubkey_from_mpk(self, mpk, for_change, n):
curve = SECP256k1 curve = SECP256k1
mpk = self.mpk z = self.get_sequence(mpk, for_change, n)
z = self.get_sequence(for_change, n)
master_public_key = ecdsa.VerifyingKey.from_string( mpk, curve = SECP256k1 ) master_public_key = ecdsa.VerifyingKey.from_string( mpk, curve = SECP256k1 )
pubkey_point = master_public_key.pubkey.point + z*curve.generator pubkey_point = master_public_key.pubkey.point + z*curve.generator
public_key2 = ecdsa.VerifyingKey.from_public_point( pubkey_point, curve = SECP256k1 ) public_key2 = ecdsa.VerifyingKey.from_public_point( pubkey_point, curve = SECP256k1 )
return '04' + public_key2.to_string().encode('hex') return '04' + public_key2.to_string().encode('hex')
def get_pubkey(self, for_change, n):
return self.get_pubkey_from_mpk(self.mpk, for_change, n)
def get_private_key_from_stretched_exponent(self, for_change, n, secexp): def get_private_key_from_stretched_exponent(self, for_change, n, secexp):
order = generator_secp256k1.order() order = generator_secp256k1.order()
secexp = ( secexp + self.get_sequence(for_change, n) ) % order secexp = ( secexp + self.get_sequence(self.mpk, for_change, n) ) % order
pk = number_to_string( secexp, generator_secp256k1.order() ) pk = number_to_string( secexp, generator_secp256k1.order() )
compressed = False compressed = False
return SecretToASecret( pk, compressed ) return SecretToASecret( pk, compressed )
@ -206,6 +211,25 @@ class OldAccount(Account):
a, b = sequence a, b = sequence
return 'old(%s,%d,%d)'%(self.mpk.encode('hex'),a,b) return 'old(%s,%d,%d)'%(self.mpk.encode('hex'),a,b)
def get_xpubkeys(self, sequence):
s = ''.join(map(lambda x: bitcoin.int_to_hex(x,2), sequence))
mpk = self.mpk.encode('hex')
x_pubkey = 'fe' + mpk + s
return [ x_pubkey ]
@classmethod
def parse_xpubkey(self, x_pubkey):
assert is_extended_pubkey(x_pubkey)
pk = x_pubkey[2:]
mpk = pk[0:128]
dd = pk[128:]
s = []
while dd:
n = int(bitcoin.rev_hex(dd[0:4]), 16)
dd = dd[4:]
s.append(n)
assert len(s) == 2
return mpk, s
class BIP32_Account(Account): class BIP32_Account(Account):
@ -230,6 +254,7 @@ class BIP32_Account(Account):
def get_master_pubkeys(self): def get_master_pubkeys(self):
return [self.xpub] return [self.xpub]
@classmethod
def get_pubkey_from_x(self, xpub, for_change, n): def get_pubkey_from_x(self, xpub, for_change, n):
_, _, _, c, cK = deserialize_xkey(xpub) _, _, _, c, cK = deserialize_xkey(xpub)
for i in [for_change, n]: for i in [for_change, n]:
@ -264,9 +289,33 @@ class BIP32_Account(Account):
def get_type(self): def get_type(self):
return _('Standard 1 of 1') return _('Standard 1 of 1')
def get_keyID(self, sequence): def get_xpubkeys(self, sequence):
s = '/' + '/'.join( map(lambda x:str(x), sequence) ) s = ''.join(map(lambda x: bitcoin.int_to_hex(x,2), sequence))
return '&'.join( map(lambda x: 'bip32(%s,%s)'%(x, s), self.get_master_pubkeys() ) ) mpks = self.get_master_pubkeys()
out = []
for xpub in mpks:
pubkey = self.get_pubkey_from_x(xpub, *sequence)
x_pubkey = 'ff' + bitcoin.DecodeBase58Check(xpub).encode('hex') + s
out.append( (pubkey, x_pubkey ) )
# sort it, so that x_pubkeys are in the same order as pubkeys
out.sort()
return map(lambda x:x[1], out )
@classmethod
def parse_xpubkey(self, pubkey):
assert is_extended_pubkey(pubkey)
pk = pubkey.decode('hex')
pk = pk[1:]
xkey = bitcoin.EncodeBase58Check(pk[0:78])
dd = pk[78:]
s = []
while dd:
n = int( bitcoin.rev_hex(dd[0:2].encode('hex')), 16)
dd = dd[2:]
s.append(n)
assert len(s) == 2
return xkey, s
def get_name(self, k): def get_name(self, k):
name = "Unnamed account" name = "Unnamed account"

4
lib/commands.py
View File

@ -170,9 +170,9 @@ class Commands:
return tx return tx
def signrawtransaction(self, raw_tx, input_info, private_keys): def signrawtransaction(self, raw_tx, private_keys):
tx = Transaction(raw_tx) tx = Transaction(raw_tx)
self.wallet.signrawtransaction(tx, input_info, private_keys, self.password) self.wallet.signrawtransaction(tx, private_keys, self.password)
return tx return tx
def decoderawtransaction(self, raw): def decoderawtransaction(self, raw):

191
lib/transaction.py
View File

@ -20,6 +20,7 @@
# Note: The deserialization code originally comes from ABE. # Note: The deserialization code originally comes from ABE.
import bitcoin
from bitcoin import * from bitcoin import *
from util import print_error from util import print_error
import time import time
@ -295,6 +296,33 @@ def match_decoded(decoded, to_match):
return False return False
return True return True
def parse_sig(x_sig):
s = []
for sig in x_sig:
if sig[-2:] == '01':
s.append(sig[:-2])
else:
assert sig == 'ff'
return s
def is_extended_pubkey(x_pubkey):
return x_pubkey[0:2] in ['fe', 'ff']
def parse_xpub(x_pubkey):
if x_pubkey[0:2] == 'ff':
from account import BIP32_Account
xpub, s = BIP32_Account.parse_xpubkey(x_pubkey)
pubkey = BIP32_Account.get_pubkey_from_x(xpub, s[0], s[1])
elif x_pubkey[0:2] == 'fe':
from account import OldAccount
mpk, s = OldAccount.parse_xpubkey(x_pubkey)
pubkey = OldAccount.get_pubkey_from_mpk(mpk.decode('hex'), s[0], s[1])
else:
pubkey = x_pubkey
return pubkey
def parse_scriptSig(d, bytes): def parse_scriptSig(d, bytes):
try: try:
decoded = [ x for x in script_GetOp(bytes) ] decoded = [ x for x in script_GetOp(bytes) ]
@ -314,41 +342,52 @@ def parse_scriptSig(d, bytes):
match = [ opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4 ] match = [ opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4 ]
if match_decoded(decoded, match): if match_decoded(decoded, match):
sig = decoded[0][1].encode('hex') sig = decoded[0][1].encode('hex')
pubkey = decoded[1][1].encode('hex') x_pubkey = decoded[1][1].encode('hex')
if sig[-2:] == '01': try:
sig = sig[:-2] signatures = parse_sig([sig])
d['pubkeys'] = [pubkey] pubkey = parse_xpub(x_pubkey)
d['signatures'] = {pubkey:sig} except:
d['address'] = public_key_to_bc_address(pubkey.decode('hex')) import traceback
return traceback.print_exc(file=sys.stdout)
else:
print_error("cannot find address in input script", bytes.encode('hex')) print_error("cannot find address in input script", bytes.encode('hex'))
return return
d['signatures'] = signatures
d['x_pubkeys'] = [x_pubkey]
d['num_sig'] = 1
d['pubkeys'] = [pubkey]
d['address'] = public_key_to_bc_address(pubkey.decode('hex'))
return
# p2sh transaction, 2 of n # p2sh transaction, 2 of n
match = [ opcodes.OP_0 ] match = [ opcodes.OP_0 ]
while len(match) < len(decoded): while len(match) < len(decoded):
match.append(opcodes.OP_PUSHDATA4) match.append(opcodes.OP_PUSHDATA4)
if match_decoded(decoded, match): if not match_decoded(decoded, match):
redeemScript = decoded[-1][1] print_error("cannot find address in input script", bytes.encode('hex'))
num = len(match) - 2
d['signatures'] = map(lambda x:x[1][:-1].encode('hex'), decoded[1:-1])
d['address'] = hash_160_to_bc_address(hash_160(redeemScript), 5)
d['redeemScript'] = redeemScript.encode('hex')
dec2 = [ x for x in script_GetOp(redeemScript) ]
match_2of2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ]
match_2of3 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_3, opcodes.OP_CHECKMULTISIG ]
if match_decoded(dec2, match_2of2):
pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex') ]
elif match_decoded(dec2, match_2of3):
pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex'), dec2[3][1].encode('hex') ]
else:
return
d['pubkeys'] = pubkeys
return return
print_error("cannot find address in input script", bytes.encode('hex')) x_sig = map(lambda x:x[1].encode('hex'), decoded[1:-1])
d['signatures'] = parse_sig(x_sig)
d['num_sig'] = 2
dec2 = [ x for x in script_GetOp(decoded[-1][1]) ]
match_2of2 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_2, opcodes.OP_CHECKMULTISIG ]
match_2of3 = [ opcodes.OP_2, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_PUSHDATA4, opcodes.OP_3, opcodes.OP_CHECKMULTISIG ]
if match_decoded(dec2, match_2of2):
x_pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex') ]
elif match_decoded(dec2, match_2of3):
x_pubkeys = [ dec2[1][1].encode('hex'), dec2[2][1].encode('hex'), dec2[3][1].encode('hex') ]
else:
print_error("cannot find address in input script", bytes.encode('hex'))
return
d['x_pubkeys'] = x_pubkeys
pubkeys = map(parse_xpub, x_pubkeys)
d['pubkeys'] = pubkeys
redeemScript = Transaction.multisig_script(pubkeys,2)
d['redeemScript'] = redeemScript
d['address'] = hash_160_to_bc_address(hash_160(redeemScript.decode('hex')), 5)
@ -437,7 +476,7 @@ class Transaction:
raise raise
for k in public_keys: for k in public_keys:
s += var_int(len(k)/2) s += op_push(len(k)/2)
s += k s += k
if n==2: if n==2:
s += '52' s += '52'
@ -471,43 +510,50 @@ class Transaction:
@classmethod @classmethod
def serialize( klass, inputs, outputs, for_sig = None ): def serialize( klass, inputs, outputs, for_sig = None ):
NO_SIGNATURE = 'ff'
push_script = lambda x: op_push(len(x)/2) + x push_script = lambda x: op_push(len(x)/2) + x
s = int_to_hex(1,4) # version s = int_to_hex(1,4) # version
s += var_int( len(inputs) ) # number of inputs s += var_int( len(inputs) ) # number of inputs
for i in range(len(inputs)): for i in range(len(inputs)):
txin = inputs[i] txin = inputs[i]
s += txin['prevout_hash'].decode('hex')[::-1].encode('hex') # prev hash s += txin['prevout_hash'].decode('hex')[::-1].encode('hex') # prev hash
s += int_to_hex(txin['prevout_n'],4) # prev index s += int_to_hex(txin['prevout_n'],4) # prev index
signatures = txin.get('signatures', {}) p2sh = txin.get('redeemScript') is not None
if for_sig is None and not signatures: n_sig = 2 if p2sh else 1
script = ''
pubkeys = txin['pubkeys'] # pubkeys should always be known
address = txin['address']
if for_sig is None:
elif for_sig is None: # list of signatures
pubkeys = txin['pubkeys'] signatures = txin.get('signatures',[])
sig_list = '' sig_list = []
for pubkey in pubkeys: for signature in signatures:
sig = signatures.get(pubkey) sig_list.append(signature + '01')
if not sig: if len(sig_list) > n_sig:
continue sig_list = sig_list[:n_sig]
sig = sig + '01' while len(sig_list) < n_sig:
sig_list += push_script(sig) sig_list.append(NO_SIGNATURE)
sig_list = ''.join( map( lambda x: push_script(x), sig_list))
if not txin.get('redeemScript'):
# extended pubkeys (with bip32 derivation)
x_pubkeys = txin['x_pubkeys']
if not p2sh:
script = sig_list script = sig_list
script += push_script(pubkeys[0]) script += push_script(x_pubkeys[0])
else: else:
script = '00' # op_0 script = '00' # op_0
script += sig_list script += sig_list
redeem_script = klass.multisig_script(pubkeys,2) redeem_script = klass.multisig_script(x_pubkeys,2)
assert redeem_script == txin.get('redeemScript')
script += push_script(redeem_script) script += push_script(redeem_script)
elif for_sig==i: elif for_sig==i:
if txin.get('redeemScript'): script = txin['redeemScript'] if p2sh else klass.pay_script(address)
script = txin['redeemScript'] # p2sh uses the inner script
else:
script = txin['scriptPubKey'] # scriptsig
else: else:
script = '' script = ''
s += var_int( len(script)/2 ) # script length s += var_int( len(script)/2 ) # script length
@ -536,20 +582,26 @@ class Transaction:
def add_signature(self, i, pubkey, sig): def add_signature(self, i, pubkey, sig):
txin = self.inputs[i] txin = self.inputs[i]
signatures = txin.get("signatures",{}) signatures = txin.get("signatures",[])
signatures[pubkey] = sig if sig not in signatures:
signatures.append(sig)
txin["signatures"] = signatures txin["signatures"] = signatures
self.inputs[i] = txin self.inputs[i] = txin
print_error("adding signature for", pubkey) print_error("adding signature for", pubkey)
# replace x_pubkey
i = txin['pubkeys'].index(pubkey)
txin['x_pubkeys'][i] = pubkey
self.raw = self.serialize( self.inputs, self.outputs ) self.raw = self.serialize( self.inputs, self.outputs )
def is_complete(self): def is_complete(self):
for i, txin in enumerate(self.inputs): for i, txin in enumerate(self.inputs):
redeem_script = txin.get('redeemScript') #redeem_script = txin.get('redeemScript')
num, redeem_pubkeys = parse_redeemScript(redeem_script) if redeem_script else (1, [txin.get('redeemPubkey')]) #num, redeem_pubkeys = parse_redeemScript(redeem_script) if redeem_script else (1, [txin.get('redeemPubkey')])
pubkeys = txin['pubkeys']
signatures = txin.get("signatures",{}) signatures = txin.get("signatures",{})
if len(signatures) == num: if len(signatures) == txin['num_sig']:
continue continue
else: else:
return False return False
@ -563,11 +615,14 @@ class Transaction:
for i, txin in enumerate(self.inputs): for i, txin in enumerate(self.inputs):
# if the input is multisig, parse redeem script # if the input is multisig, parse redeem script
redeem_script = txin.get('redeemScript') #redeem_script = txin.get('redeemScript')
num, redeem_pubkeys = parse_redeemScript(redeem_script) if redeem_script else (1, [txin.get('redeemPubkey')]) #num, redeem_pubkeys = parse_redeemScript(redeem_script) if redeem_script else (1, [txin.get('redeemPubkey')])
redeem_pubkeys = txin['pubkeys']
num = len(redeem_pubkeys)
# add pubkeys # add pubkeys
txin["pubkeys"] = redeem_pubkeys ### txin["pubkeys"] = redeem_pubkeys
# get list of already existing signatures # get list of already existing signatures
signatures = txin.get("signatures",{}) signatures = txin.get("signatures",{})
# continue if this txin is complete # continue if this txin is complete
@ -724,30 +779,12 @@ class Transaction:
return is_relevant, is_send, v, fee return is_relevant, is_send, v, fee
def get_input_info(self):
keys = ['prevout_hash', 'prevout_n', 'address', 'KeyID', 'scriptPubKey', 'redeemScript', 'redeemPubkey', 'pubkeys', 'signatures', 'is_coinbase']
info = []
for i in self.inputs:
item = {}
for k in keys:
v = i.get(k)
if v is not None:
item[k] = v
info.append(item)
return info
def as_dict(self): def as_dict(self):
import json import json
out = { out = {
"hex":self.raw, "hex":self.raw,
"complete":self.is_complete() "complete":self.is_complete()
} }
if not self.is_complete():
input_info = self.get_input_info()
out['input_info'] = json.dumps(input_info).replace(' ','')
return out return out
@ -772,11 +809,3 @@ class Transaction:
def add_input_info(self, input_info):
for i, txin in enumerate(self.inputs):
item = input_info[i]
txin['scriptPubKey'] = item['scriptPubKey']
txin['redeemScript'] = item.get('redeemScript')
txin['redeemPubkey'] = item.get('redeemPubkey')
txin['KeyID'] = item.get('KeyID')
txin['signatures'] = item.get('signatures',{})

109
lib/wallet.py
View File

@ -34,7 +34,7 @@ import math
from util import print_msg, print_error, format_satoshis from util import print_msg, print_error, format_satoshis
from bitcoin import * from bitcoin import *
from account import * from account import *
from transaction import Transaction from transaction import Transaction, is_extended_pubkey
from plugins import run_hook from plugins import run_hook
import bitcoin import bitcoin
from synchronizer import WalletSynchronizer from synchronizer import WalletSynchronizer
@ -392,73 +392,56 @@ class Abstract_Wallet:
return self.accounts[account_id].get_pubkeys(sequence) return self.accounts[account_id].get_pubkeys(sequence)
def add_keypairs_from_wallet(self, tx, keypairs, password): def add_keypairs(self, tx, keypairs, password):
# first check the provided password
seed = self.get_seed(password)
for txin in tx.inputs: for txin in tx.inputs:
x_pubkeys = txin['x_pubkeys']
address = txin['address'] address = txin['address']
if not self.is_mine(address):
continue
private_keys = self.get_private_key(address, password)
for sec in private_keys:
pubkey = public_key_from_private_key(sec)
keypairs[ pubkey ] = sec
if self.is_mine(address):
private_keys = self.get_private_key(address, password)
for sec in private_keys:
pubkey = public_key_from_private_key(sec)
keypairs[ pubkey ] = sec
def add_keypairs_from_KeyID(self, tx, keypairs, password): else:
# first check the provided password
seed = self.get_seed(password)
for txin in tx.inputs: from account import BIP32_Account
keyid = txin.get('KeyID') print "scanning", x_pubkeys
if keyid:
roots = []
for s in keyid.split('&'):
m = re.match("bip32\((.*),(/\d+/\d+)\)", s)
if not m: continue
xpub = m.group(1)
sequence = m.group(2)
root = self.find_root_by_master_key(xpub)
if not root: continue
sequence = map(lambda x:int(x), sequence.strip('/').split('/'))
root = root + '%d'%sequence[0]
sequence = sequence[1:]
roots.append((root,sequence))
account_id = " & ".join( map(lambda x:x[0], roots) )
account = self.accounts.get(account_id)
if not account: continue
addr = account.get_address(*sequence)
txin['address'] = addr # fixme: side effect
pk = self.get_private_key(addr, password)
for sec in pk:
pubkey = public_key_from_private_key(sec)
keypairs[pubkey] = sec
for x_pubkey in x_pubkeys:
if not is_extended_pubkey(x_pubkey):
continue
xpub, sequence = BIP32_Account.parse_xpubkey(x_pubkey)
print "xpub", xpub
def signrawtransaction(self, tx, input_info, private_keys, password): # look for account that can sign
for k, account in self.accounts.items():
if xpub in account.get_master_pubkeys():
break
else:
continue
print "found xpub", xpub, sequence
addr = account.get_address(*sequence)
print addr, txin['address']
assert txin['address'] == addr
pk = self.get_private_key(addr, password)
for sec in pk:
pubkey = public_key_from_private_key(sec)
keypairs[pubkey] = sec
# check that the password is correct
seed = self.get_seed(password)
# if input_info is not known, build it using wallet UTXOs
if not input_info:
input_info = []
unspent_coins = self.get_unspent_coins()
for txin in tx.inputs:
for item in unspent_coins:
if txin['prevout_hash'] == item['prevout_hash'] and txin['prevout_n'] == item['prevout_n']:
info = { 'address':item['address'], 'scriptPubKey':item['scriptPubKey'] }
self.add_input_info(info)
input_info.append(info)
break
else:
print_error( "input not in UTXOs" )
input_info.append(None)
# add input_info to the transaction
print_error("input_info", input_info) def signrawtransaction(self, tx, private_keys, password):
tx.add_input_info(input_info)
# check that the password is correct
seed = self.get_seed(password)
# build a list of public/private keys # build a list of public/private keys
keypairs = {} keypairs = {}
@ -468,10 +451,9 @@ class Abstract_Wallet:
pubkey = public_key_from_private_key(sec) pubkey = public_key_from_private_key(sec)
keypairs[ pubkey ] = sec keypairs[ pubkey ] = sec
# add private_keys from KeyID # add private_keys
self.add_keypairs_from_KeyID(tx, keypairs, password) self.add_keypairs(tx, keypairs, password)
# add private keys from wallet
self.add_keypairs_from_wallet(tx, keypairs, password)
# sign the transaction # sign the transaction
self.sign_transaction(tx, keypairs, password) self.sign_transaction(tx, keypairs, password)
@ -869,7 +851,7 @@ class Abstract_Wallet:
def mktx(self, outputs, password, fee=None, change_addr=None, domain= None, coins = None ): def mktx(self, outputs, password, fee=None, change_addr=None, domain= None, coins = None ):
tx = self.make_unsigned_transaction(outputs, fee, change_addr, domain, coins) tx = self.make_unsigned_transaction(outputs, fee, change_addr, domain, coins)
keypairs = {} keypairs = {}
self.add_keypairs_from_wallet(tx, keypairs, password) self.add_keypairs(tx, keypairs, password)
if keypairs: if keypairs:
self.sign_transaction(tx, keypairs, password) self.sign_transaction(tx, keypairs, password)
return tx return tx
@ -879,12 +861,15 @@ class Abstract_Wallet:
address = txin['address'] address = txin['address']
account_id, sequence = self.get_address_index(address) account_id, sequence = self.get_address_index(address)
account = self.accounts[account_id] account = self.accounts[account_id]
txin['KeyID'] = account.get_keyID(sequence)
redeemScript = account.redeem_script(sequence) redeemScript = account.redeem_script(sequence)
txin['x_pubkeys'] = account.get_xpubkeys(sequence)
txin['pubkeys'] = account.get_pubkeys(sequence)
if redeemScript: if redeemScript:
txin['redeemScript'] = redeemScript txin['redeemScript'] = redeemScript
txin['num_sig'] = 2
else: else:
txin['redeemPubkey'] = account.get_pubkey(*sequence) txin['redeemPubkey'] = account.get_pubkey(*sequence)
txin['num_sig'] = 1
def sign_transaction(self, tx, keypairs, password): def sign_transaction(self, tx, keypairs, password):

10
plugins/qrscanner.py
View File

@ -82,7 +82,15 @@ class Plugin(BasePlugin):
qrcode = self.scan_qr() qrcode = self.scan_qr()
if not qrcode: if not qrcode:
return return
tx = self.win.tx_from_text(qrcode) data = qrcode
# transactions are binary, but qrcode seems to return utf8...
z = data.decode('utf8')
s = ''
for b in z:
s += chr(ord(b))
data = s.encode('hex')
tx = self.win.tx_from_text(data)
if not tx: if not tx:
return return
self.win.show_transaction(tx) self.win.show_transaction(tx)

Write Preview
Loading…
Cancel
Save