def test_applyMultiSigSignatures(self): "Test the applyMultiSigSignatures function" tx = dummy_interfaces.Tracer() bitcoinutils.applyMultiSigSignatures(tx, "sig1", "sig2") self.assertTrue(tx.trace, [("signInputWithSignatures", (0, [OP.ZERO, None, None], ["sig1", "sig2"]), {})])
def test_applyMultiSigSignatures(self): "Test the applyMultiSigSignatures function" tx = dummy_interfaces.Tracer() bitcoinutils.applyMultiSigSignatures(tx, "sig1", "sig2") self.assertTrue(tx.trace, [( "signInputWithSignatures", (0, [OP.ZERO, None, None], ["sig1", "sig2"]), {} )])
if outputHash == "": tx = sendToMultiSigPubKey(d, amount, key1.getPublicKey(), key2.getPublicKey(), keyHash2, fee=fee) else: outputIndex = 0 tx = makeSpendMultiSigTransaction(outputHash, outputIndex, amount, keyHash1, fee) sig1 = signMultiSigTransaction( tx, outputIndex, [key1.getPublicKey(), key2.getPublicKey()], key1) sig2 = signMultiSigTransaction( tx, outputIndex, [key1.getPublicKey(), key2.getPublicKey()], key2) applyMultiSigSignatures(tx, sig1, sig2) print "Tx:", tx.serialize().encode("hex") print "Tx ID:", tx.getTransactionID()[::-1].encode("hex") tx_s = tx.serialize() #d.sendRawTransaction(tx_s) tx = bitcointransaction.Transaction.deserialize(tx_s) tx_s2 = tx.serialize() print "Serialization remains constant: ", tx_s == tx_s2