def test_segwit_create_tx(self):
from pycoin_grs.tx.tx_utils import create_tx, sign_tx
from pycoin_grs.tx.Spendable import Spendable
from pycoin_grs.tx.pay_to.ScriptPayToAddress import ScriptPayToAddress
from pycoin_grs.tx.pay_to.ScriptPayToAddressWit import ScriptPayToAddressWit
from pycoin_grs.ui import address_for_pay_to_script_wit, script_obj_from_address
key1 = Key(1)
coin_value = 5000000
script = ScriptPayToAddressWit(b'\0', key1.hash160()).script()
tx_hash = b'\ee' * 32
tx_out_index = 0
spendable = Spendable(coin_value, script, tx_hash, tx_out_index)
key2 = Key(2)
tx = create_tx([spendable], [(key2.address(), coin_value)])
self.check_unsigned(tx)
sign_tx(tx, [key1.wif()])
self.check_signed(tx)
self.assertEqual(len(tx.txs_in[0].witness), 2)
s1 = ScriptPayToAddress(key1.hash160()).script()
address = address_for_pay_to_script_wit(s1)
spendable.script = script_obj_from_address(address).script()
tx = create_tx([spendable], [(key2.address(), coin_value)])
self.check_unsigned(tx)
sign_tx(tx, [key1.wif()], p2sh_lookup=build_p2sh_lookup([s1]))
self.check_signed(tx)
def create_unsigned_send_tx(self, address, amount):
total_input_value = 0
estimated_fee = TX_FEE_PER_THOUSAND_BYTES
lbi = self.last_block_index()
with self._lock:
confirmations = 7
while confirmations > 0 and self.get_balance(
confirmations=confirmations) < amount + estimated_fee:
confirmations -= 1
spendables = []
for spendable in self.persistence.unspent_spendables(
lbi, confirmations=1):
spendables.append(spendable)
total_input_value += spendable.coin_value
if total_input_value >= amount + estimated_fee and len(
spendables) > 1:
break
if total_input_value < amount + estimated_fee:
raise ValueError("insufficient funds: only %d available" %
total_input_value)
payables = self.create_payables(address, amount)
tx = create_tx(spendables, payables, fee=estimated_fee)
# mark the given spendables as "unconfirmed_spent"
for spendable in spendables:
spendable.does_seem_spent = True
self.persistence.save_spendable(spendable)
self.persistence.commit()
return tx
def test_multisig_one_at_a_time(self):
M = 3
N = 3
keys = [Key(secret_exponent=i) for i in range(1, N + 2)]
tx_in = TxIn.coinbase_tx_in(script=b'')
script = ScriptMultisig(m=M, sec_keys=[key.sec()
for key in keys[:N]]).script()
tx_out = TxOut(1000000, script)
tx1 = Tx(version=1, txs_in=[tx_in], txs_out=[tx_out])
tx2 = tx_utils.create_tx(tx1.tx_outs_as_spendable(),
[keys[-1].address()])
ids = [
"403e5bfc59e097bb197bf77a692d158dd3a4f7affb4a1fa41072dafe7bec7058",
"5931d9995e83721243dca24772d7012afcd4378996a8b953c458175f15a544db",
"9bb4421088190bbbb5b42a9eaa9baed7ec7574a407c25f71992ba56ca43d9c44",
"03a1dc2a63f93a5cf5a7cb668658eb3fc2eda88c06dc287b85ba3e6aff751771"
]
for i in range(1, N + 1):
self.assertEqual(tx2.bad_signature_count(), 1)
self.assertEqual(tx2.id(), ids[i - 1])
hash160_lookup = build_hash160_lookup(key.secret_exponent()
for key in keys[i - 1:i])
tx2.sign(hash160_lookup=hash160_lookup)
self.assertEqual(tx2.id(), ids[i])
self.assertEqual(tx2.bad_signature_count(), 0)
def multisig_M_of_N_individually(self, M, N):
keys = [Key(secret_exponent=i) for i in range(1, N+2)]
tx_in = TxIn.coinbase_tx_in(script=b'')
script = ScriptMultisig(m=M, sec_keys=[key.sec() for key in keys[:N]]).script()
tx_out = TxOut(1000000, script)
tx1 = Tx(version=1, txs_in=[tx_in], txs_out=[tx_out])
for partial_key_list in itertools.permutations(keys[:N], M):
tx2 = create_tx(tx1.tx_outs_as_spendable(), [keys[-1].address()])
for key in partial_key_list:
self.assertEqual(tx2.bad_signature_count(), 1)
hash160_lookup = build_hash160_lookup([key.secret_exponent()])
tx2.sign(hash160_lookup=hash160_lookup)
self.assertEqual(tx2.bad_signature_count(), 0)
def multisig_M_of_N(self, M, N, unsigned_id, signed_id):
keys = [Key(secret_exponent=i) for i in range(1, N+2)]
tx_in = TxIn.coinbase_tx_in(script=b'')
script = ScriptMultisig(m=M, sec_keys=[key.sec() for key in keys[:N]]).script()
tx_out = TxOut(1000000, script)
tx1 = Tx(version=1, txs_in=[tx_in], txs_out=[tx_out])
tx2 = tx_utils.create_tx(tx1.tx_outs_as_spendable(), [keys[-1].address()])
self.assertEqual(tx2.id(), unsigned_id)
self.assertEqual(tx2.bad_signature_count(), 1)
hash160_lookup = build_hash160_lookup(key.secret_exponent() for key in keys)
tx2.sign(hash160_lookup=hash160_lookup)
self.assertEqual(tx2.id(), signed_id)
self.assertEqual(tx2.bad_signature_count(), 0)
self.assertEqual(sorted(who_signed.who_signed_tx(tx2, 0)),
sorted(((key.address(), SIGHASH_ALL) for key in keys[:M])))
def test_sign_pay_to_script_multisig(self):
M, N = 3, 3
keys = [Key(secret_exponent=i) for i in range(1, N+2)]
tx_in = TxIn.coinbase_tx_in(script=b'')
underlying_script = ScriptMultisig(m=M, sec_keys=[key.sec() for key in keys[:N]]).script()
address = address_for_pay_to_script(underlying_script)
self.assertEqual(address, "39qEwuwyb2cAX38MFtrNzvq3KV9hSNov3q")
script = standard_tx_out_script(address)
tx_out = TxOut(1000000, script)
tx1 = Tx(version=1, txs_in=[tx_in], txs_out=[tx_out])
tx2 = tx_utils.create_tx(tx1.tx_outs_as_spendable(), [address])
hash160_lookup = build_hash160_lookup(key.secret_exponent() for key in keys[:N])
p2sh_lookup = build_p2sh_lookup([underlying_script])
tx2.sign(hash160_lookup=hash160_lookup, p2sh_lookup=p2sh_lookup)
self.assertEqual(tx2.bad_signature_count(), 0)
self.assertRaises(who_signed.NoAddressesForScriptTypeError, who_signed.who_signed_tx, tx2, 0)
def main():
if len(sys.argv) != 4:
print("usage: %s incoming_tx_hex_filename tx_out_index new_address" %
sys.argv[0])
sys.exit(-1)
with open(sys.argv[1], "r") as f:
tx_hex = f.readline().strip()
# get the spendable from the prior transaction
tx = Tx.from_hex(tx_hex)
tx_out_index = int(sys.argv[2])
spendable = tx.tx_outs_as_spendable()[tx_out_index]
# make sure the address is valid
payable = sys.argv[3]
assert is_address_valid(payable)
# create the unsigned transaction
tx = create_tx([spendable], [payable])
print("here is the transaction: %s" % tx.as_hex(include_unspents=True))