def testCreateTx(self):
addrA = PyBtcAddress().createFromPrivateKey(hex_to_int('aa' * 32))
addrB = PyBtcAddress().createFromPrivateKey(hex_to_int('bb' * 32))
# This TxIn will be completely ignored, so it can contain garbage
txinA = PyTxIn()
txinA.outpoint = PyOutPoint().unserialize(hex_to_binary('00' * 36))
txinA.binScript = hex_to_binary('99' * 4)
txinA.intSeq = hex_to_int('ff' * 4)
# test binary unpacker in unserialize
testTxIn = PyTxIn().unserialize(txinA.serialize())
self.assertEqual(txinA.getScript(), testTxIn.getScript())
self.assertEqual(txinA.intSeq, testTxIn.intSeq)
self.assertEqual(txinA.outpoint.txHash, testTxIn.outpoint.txHash)
txoutA = PyTxOut()
txoutA.value = 50 * ONE_BTC
txoutA.binScript = '\x76\xa9\x14' + addrA.getAddr160() + '\x88\xac'
# Test pprint
print '\nTest pretty print PyTxIn, expect PrevTXHash all 0s'
testTxIn.pprint()
# test binary unpacker in unserialize
testTxOut = PyTxOut().unserialize(txoutA.serialize())
self.assertEqual(txoutA.getScript(), testTxOut.getScript())
self.assertEqual(txoutA.value, testTxOut.getValue())
# Test pprint
print '\nTest pretty print PyTxOut'
testTxOut.pprint()
tx1 = PyTx()
tx1.version = 1
tx1.numInputs = 1
tx1.inputs = [txinA]
tx1.numOutputs = 1
tx1.outputs = [txoutA]
tx1.locktime = 0
tx1hash = tx1.getHash()
recipientList = tx1.makeRecipientsList()
self.assertEqual(len(recipientList), 1)
self.assertEqual(recipientList[0][0], 0)
self.assertEqual(recipientList[0][1], 50 * ONE_BTC)
self.assertEqual(tx1.getHashHex(), binary_to_hex(tx1hash))
# Creating transaction to send coins from A to B
tx2 = PyCreateAndSignTx_old([[addrA, tx1, 0]], [[addrB, 50 * ONE_BTC]])
psp = PyScriptProcessor()
psp.setTxObjects(tx1, tx2, 0)
self.assertTrue(psp.verifyTransactionValid())
def testCreateTx(self):
addrA = PyBtcAddress().createFromPrivateKey(hex_to_int('aa' * 32))
addrB = PyBtcAddress().createFromPrivateKey(hex_to_int('bb' * 32))
# This TxIn will be completely ignored, so it can contain garbage
txinA = PyTxIn()
txinA.outpoint = PyOutPoint().unserialize(hex_to_binary('00'*36))
txinA.binScript = hex_to_binary('99'*4)
txinA.intSeq = hex_to_int('ff'*4)
# test binary unpacker in unserialize
testTxIn = PyTxIn().unserialize(txinA.serialize())
self.assertEqual(txinA.getScript(), testTxIn.getScript())
self.assertEqual(txinA.intSeq, testTxIn.intSeq)
self.assertEqual(txinA.outpoint.txHash, testTxIn.outpoint.txHash)
txoutA = PyTxOut()
txoutA.value = 50 * ONE_BTC
txoutA.binScript = '\x76\xa9\x14' + addrA.getAddr160() + '\x88\xac'
# Test pprint
print '\nTest pretty print PyTxIn, expect PrevTXHash all 0s'
testTxIn.pprint()
# test binary unpacker in unserialize
testTxOut = PyTxOut().unserialize(txoutA.serialize())
self.assertEqual(txoutA.getScript(), testTxOut.getScript())
self.assertEqual(txoutA.value, testTxOut.getValue())
# Test pprint
print '\nTest pretty print PyTxOut'
testTxOut.pprint()
tx1 = PyTx()
tx1.version = 1
tx1.numInputs = 1
tx1.inputs = [txinA]
tx1.numOutputs = 1
tx1.outputs = [txoutA]
tx1.locktime = 0
tx1hash = tx1.getHash()
recipientList = tx1.makeRecipientsList()
self.assertEqual(len(recipientList), 1)
self.assertEqual(recipientList[0][0], 0)
self.assertEqual(recipientList[0][1], 50 * ONE_BTC)
self.assertEqual(tx1.getHashHex(), binary_to_hex(tx1hash))
# Creating transaction to send coins from A to B
tx2 = PyCreateAndSignTx_old( [[ addrA, tx1, 0 ]], [[addrB, 50*ONE_BTC]])
psp = PyScriptProcessor()
psp.setTxObjects(tx1, tx2, 0)
self.assertTrue(psp.verifyTransactionValid())
def testEncryptedAddress(self):
# test serialization and unserialization of an empty PyBtcAddrss
# Should serialize to a string that starts with 20 bytes of zeros
# Unserialize should throw an UnserializeError caused by checksum mismatch
emptyBtcAddr = PyBtcAddress()
emptyBtcAddrSerialized = emptyBtcAddr.serialize()
self.assertEqual(emptyBtcAddrSerialized[:20], hex_to_binary('00'*20))
self.assertRaises(UnserializeError, PyBtcAddress().unserialize, emptyBtcAddrSerialized)
# Test non-crashing
testAddr1 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20)
testAddr2 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20, chksum=PRIVATE_CHECKSUM)
testAddr3 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20, publicKey65=PUBLIC_KEY)
testAddr4 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20, publicKey65=PUBLIC_KEY, skipCheck=True)
testAddr5 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20, skipPubCompute=True)
testString = testAddr1.toString()
self.assertTrue(len(testString) > 0)
testAddr = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20, publicKey65=PUBLIC_KEY)
serializedAddr1 = testAddr.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr1)
serializedRetest1 = retestAddr.serialize()
self.assertEqual(serializedAddr1, serializedRetest1)
theIV = SecureBinaryData(hex_to_binary(INIT_VECTOR))
testAddr.enableKeyEncryption(theIV)
testAddr.lock(FAKE_KDF_OUTPUT1)
self.assertTrue(testAddr.useEncryption)
self.assertTrue(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
serializedAddr2 = testAddr.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr2)
serializedRetest2 = retestAddr.serialize()
self.assertEqual(serializedAddr2, serializedRetest2)
testAddr.unlock(FAKE_KDF_OUTPUT1)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
testAddr.changeEncryptionKey(None, FAKE_KDF_OUTPUT1)
self.assertTrue(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
# Save off this data for a later test
addr20_1 = testAddr.getAddr160()
encryptedKey1 = testAddr.binPrivKey32_Encr
encryptionIV1 = testAddr.binInitVect16
plainPubKey1 = testAddr.binPublicKey65
# OP(Key1 --> Unencrypted)
testAddr.changeEncryptionKey(FAKE_KDF_OUTPUT1, None)
self.assertFalse(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), '')
# OP(Unencrypted --> Key2)
if not testAddr.isKeyEncryptionEnabled():
testAddr.enableKeyEncryption(theIV)
testAddr.changeEncryptionKey(None, FAKE_KDF_OUTPUT2)
self.assertTrue(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR2)
# Save off this data for a later test
addr20_2 = testAddr.getAddr160()
encryptedKey2 = testAddr.binPrivKey32_Encr
encryptionIV2 = testAddr.binInitVect16
plainPubKey2 = testAddr.binPublicKey65
# OP(Key2 --> Key1)
testAddr.changeEncryptionKey(FAKE_KDF_OUTPUT2, FAKE_KDF_OUTPUT1)
self.assertTrue(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
# OP(Key1 --> Lock --> Key2)
testAddr.lock(FAKE_KDF_OUTPUT1)
testAddr.changeEncryptionKey(FAKE_KDF_OUTPUT1, FAKE_KDF_OUTPUT2)
self.assertTrue(testAddr.useEncryption)
self.assertTrue(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR2)
# OP(Key2 --> Lock --> Unencrypted)
testAddr.changeEncryptionKey(FAKE_KDF_OUTPUT2, None)
self.assertFalse(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), '')
# Encryption Key Tests:
self.assertEqual(testAddr.serializePlainPrivateKey(), PRIVATE_KEY.toBinStr())
# Test loading pre-encrypted key data
testAddr = PyBtcAddress().createFromEncryptedKeyData(addr20_1, encryptedKey1, encryptionIV1)
self.assertTrue(testAddr.useEncryption)
self.assertTrue(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
# OP(EncrAddr --> Unlock1)
testAddr.unlock(FAKE_KDF_OUTPUT1)
self.assertTrue(testAddr.useEncryption)
self.assertFalse(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
# OP(Unlock1 --> Lock1)
testAddr.lock()
self.assertTrue(testAddr.useEncryption)
self.assertTrue(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR1)
# OP(Lock1 --> Lock2)
testAddr.changeEncryptionKey(FAKE_KDF_OUTPUT1, FAKE_KDF_OUTPUT2)
self.assertTrue(testAddr.useEncryption)
self.assertTrue(testAddr.isLocked)
self.assertEqual(testAddr.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(testAddr.binPrivKey32_Encr.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR2)
# Test serializing locked wallet from pre-encrypted data'
serializedAddr = testAddr.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
#############################################################################
# Now testing chained-key (deterministic) address generation
# Test chained priv key generation
# Starting with plain key data
chaincode = SecureBinaryData(hex_to_binary('ee'*32))
addr0 = PyBtcAddress().createFromPlainKeyData(PRIVATE_KEY, ADDRESS_20)
addr0.markAsRootAddr(chaincode)
pub0 = addr0.binPublicKey65
# Test serializing address-chain-root
serializedAddr = addr0.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
self.assertEqual(retestAddr.binPrivKey32_Plain.toHexStr(), PRIVATE_KEY.toHexStr())
# Generate chained PRIVATE key address
# OP(addr[0] --> addr[1])
addr1 = addr0.extendAddressChain()
self.assertEqual(addr1.binPrivKey32_Plain.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR3)
# OP(addr[0] --> addr[1]) [again]'
addr1a = addr0.extendAddressChain()
self.assertEqual(addr1a.binPrivKey32_Plain.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR3)
# OP(addr[1] --> addr[2])
addr2 = addr1.extendAddressChain()
pub2 = addr2.binPublicKey65.copy()
priv2 = addr2.binPrivKey32_Plain.copy()
self.assertEqual(priv2.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR4)
# Addr1.PRIVATE_KEY == Addr1a.PRIVATE_KEY:',
self.assertEqual(addr1.binPublicKey65, addr1a.binPublicKey65)
# Test serializing priv-key-chained',
serializedAddr = addr2.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
#############################################################################
# Generate chained PUBLIC key address
# addr[0]
addr0 = PyBtcAddress().createFromPublicKeyData(pub0)
addr0.markAsRootAddr(chaincode)
self.assertEqual(addr0.chainIndex, -1)
self.assertEqual(addr0.chaincode, chaincode)
# Test serializing pub-key-only-root',
serializedAddr = addr0.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
# OP(addr[0] --> addr[1])'
addr1 = addr0.extendAddressChain()
self.assertEqual(addr1.binPrivKey32_Plain.toHexStr(), '')
# OP(addr[1] --> addr[2])'
addr2 = addr1.extendAddressChain()
pub2a = addr2.binPublicKey65.copy()
self.assertEqual(addr2.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(pub2a.toHexStr(), TEST_PUB_KEY1)
# Addr2.PublicKey == Addr2a.PublicKey:'
# Test serializing pub-key-from-chain'
serializedAddr = addr2.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
#############################################################################
# Generate chained keys from locked addresses
addr0 = PyBtcAddress().createFromPlainKeyData( PRIVATE_KEY, \
willBeEncr=True, IV16=theIV)
addr0.markAsRootAddr(chaincode)
# OP(addr[0] plain)
# Test serializing unlocked addr-chain-root
serializedAddr = addr0.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
self.assertFalse(retestAddr.useEncryption)
# OP(addr[0] locked)
addr0.lock(FAKE_KDF_OUTPUT1)
self.assertEqual(addr0.binPrivKey32_Plain.toHexStr(), '')
# OP(addr[0] w/Key --> addr[1])
addr1 = addr0.extendAddressChain(FAKE_KDF_OUTPUT1, newIV=theIV)
self.assertEqual(addr1.binPrivKey32_Plain.toHexStr(), '')
# OP(addr[1] w/Key --> addr[2])
addr2 = addr1.extendAddressChain(FAKE_KDF_OUTPUT1, newIV=theIV)
addr2.unlock(FAKE_KDF_OUTPUT1)
priv2a = addr2.binPrivKey32_Plain.copy()
addr2.lock()
self.assertEqual(addr2.binPrivKey32_Plain.toHexStr(), '')
# Addr2.priv == Addr2a.priv:
self.assertEqual(priv2, priv2a)
# Test serializing chained address from locked root
serializedAddr = addr2.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
#############################################################################
# Generate chained keys from locked addresses, no unlocking
addr0 = PyBtcAddress().createFromPlainKeyData( PRIVATE_KEY, \
willBeEncr=True, IV16=theIV)
addr0.markAsRootAddr(chaincode)
# OP(addr[0] locked)
addr0.lock(FAKE_KDF_OUTPUT1)
self.assertEqual(addr0.binPrivKey32_Plain.toHexStr(), '')
# OP(addr[0] locked --> addr[1] locked)'
addr1 = addr0.extendAddressChain(newIV=theIV)
self.assertEqual(addr1.binPrivKey32_Plain.toHexStr(), '')
# OP(addr[1] locked --> addr[2] locked)
addr2 = addr1.extendAddressChain(newIV=theIV)
pub2b = addr2.binPublicKey65.copy()
self.assertEqual(addr2.binPrivKey32_Plain.toHexStr(), '')
self.assertEqual(pub2b.toHexStr(), TEST_PUB_KEY1)
# Addr2.Pub == Addr2b.pub:
# Test serializing priv-key-bearing address marked for unlock
serializedAddr = addr2.serialize()
retestAddr = PyBtcAddress().unserialize(serializedAddr)
serializedRetest = retestAddr.serialize()
self.assertEqual(serializedAddr, serializedRetest)
addr2.unlock(FAKE_KDF_OUTPUT1)
priv2b = addr2.binPrivKey32_Plain.copy()
# OP(addr[2] locked --> unlocked)
self.assertEqual(priv2b.toHexStr(), TEST_ADDR1_PRIV_KEY_ENCR4)
addr2.lock()
# OP(addr[2] unlocked --> locked)'
# Addr2.priv == Addr2b.priv:
self.assertEqual(priv2, priv2b)
