def test_exercise_4(self):
last_block_hex = '000000000d65610b5af03d73ed67704713c9b734d87cf4b970d39a0416dd80f9'
last_block = bytes.fromhex(last_block_hex)
secret = little_endian_to_int(
hash256(b'Jimmy Song Programming Blockchain'))
private_key = PrivateKey(secret=secret)
addr = private_key.point.address(testnet=True)
h160 = decode_base58(addr)
target_address = 'mwJn1YPMq7y5F8J3LkC5Hxg9PHyZ5K4cFv'
self.assertEqual(addr, target_address)
filter_size = 30
filter_num_functions = 5
filter_tweak = 90210 # FILL THIS IN
target_h160 = decode_base58(target_address)
target_script = p2pkh_script(target_h160)
fee = 5000 # fee in satoshis
node = SimpleNode('tbtc.programmingblockchain.com',
testnet=True,
logging=False)
bf = BloomFilter(filter_size, filter_num_functions, filter_tweak)
bf.add(h160)
node.handshake()
node.send(b'filterload', bf.filterload())
getheaders_message = GetHeadersMessage(start_block=last_block)
node.send(getheaders_message.command, getheaders_message.serialize())
headers_envelope = node.wait_for_commands([HeadersMessage.command])
stream = headers_envelope.stream()
headers = HeadersMessage.parse(stream)
get_data_message = GetDataMessage()
for block in headers.blocks:
self.assertTrue(block.check_pow())
if last_block is not None:
self.assertEqual(block.prev_block, last_block)
last_block = block.hash()
get_data_message.add_data(FILTERED_BLOCK_DATA_TYPE, last_block)
node.send(get_data_message.command, get_data_message.serialize())
prev_tx = None
while prev_tx is None:
envelope = node.wait_for_commands([b'merkleblock', b'tx'])
stream = envelope.stream()
if envelope.command == b'merkleblock':
mb = MerkleBlock.parse(stream)
self.assertTrue(mb.is_valid())
else:
prev = Tx.parse(stream, testnet=True)
for i, tx_out in enumerate(prev.tx_outs):
if tx_out.script_pubkey.address(testnet=True) == addr:
prev_tx = prev.hash()
prev_index = i
prev_amount = tx_out.amount
break
tx_in = TxIn(prev_tx, prev_index)
output_amount = prev_amount - fee
tx_out = TxOut(output_amount, target_script)
tx_obj = Tx(1, [tx_in], [tx_out], 0, testnet=True)
tx_obj.sign_input(0, private_key)
self.assertEqual(
tx_obj.serialize().hex(),
'010000000194e631abb9e1079ec72a1616a3aa0111c614e65b96a6a4420e2cc6af9e6cc96e000000006a47304402203cc8c56abe1c0dd043afa9eb125dafbebdde2dd4cd7abf0fb1aae0667a22006e02203c95b74d0f0735bbf1b261d36e077515b6939fc088b9d7c1b7030a5e494596330121021cdd761c7eb1c90c0af0a5963e94bf0203176b4662778d32bd6d7ab5d8628b32ffffffff01f8829800000000001976a914ad346f8eb57dee9a37981716e498120ae80e44f788ac00000000'
)
def test_exercise_2(self):
block_hash = bytes.fromhex(
'0000000053787814ed9dd8c029d0a0a9af4ab8ec0591dc31bdc4ab31fae88ce9')
passphrase = b'Jimmy Song Programming Blockchain' # FILL THIS IN
secret = little_endian_to_int(hash256(passphrase))
private_key = PrivateKey(secret=secret)
addr = private_key.point.address(testnet=True)
filter_size = 30
filter_num_functions = 5
filter_tweak = 90210 # FILL THIS IN
h160 = decode_base58(addr)
bf = BloomFilter(filter_size, filter_num_functions, filter_tweak)
bf.add(h160)
node = SimpleNode('tbtc.programmingblockchain.com',
testnet=True,
logging=False)
node.handshake()
node.send(b'filterload', bf.filterload())
getdata = GetDataMessage()
getdata.add_data(FILTERED_BLOCK_DATA_TYPE, block_hash)
node.send(getdata.command, getdata.serialize())
envelope = node.wait_for_commands([b'merkleblock'])
envelope = node.wait_for_commands([b'tx'])
self.assertEqual(
envelope.payload.hex(),
'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'
)
def test_example_5(self):
last_block_hex = '00000000000538d5c2246336644f9a4956551afb44ba47278759ec55ea912e19'
address = 'mwJn1YPMq7y5F8J3LkC5Hxg9PHyZ5K4cFv'
h160 = decode_base58(address)
node = SimpleNode('tbtc.programmingblockchain.com',
testnet=True,
logging=False)
bf = BloomFilter(30, 5, 90210)
bf.add(h160)
node.handshake()
node.send(b'filterload', bf.filterload())
start_block = bytes.fromhex(last_block_hex)
getheaders_message = GetHeadersMessage(start_block=start_block)
node.send(b'getheaders', getheaders_message.serialize())
headers_envelope = node.wait_for_commands({b'headers'})
stream = headers_envelope.stream()
headers = HeadersMessage.parse(stream)
get_data_message = GetDataMessage()
for b in headers.blocks:
if not b.check_pow():
raise RuntimeError('proof of work is invalid')
get_data_message.add_data(FILTERED_BLOCK_DATA_TYPE, b.hash())
node.send(b'getdata', get_data_message.serialize())
found = False
while not found:
envelope = node.wait_for_commands({b'merkleblock', b'tx'})
stream = envelope.stream()
if envelope.command == b'merkleblock':
mb = MerkleBlock.parse(stream)
if not mb.is_valid():
raise RuntimeError('invalid merkle proof')
else:
prev_tx_obj = Tx.parse(stream, testnet=True)
for i, tx_out in enumerate(prev_tx_obj.tx_outs):
if tx_out.script_pubkey.address(testnet=True) == address:
self.assertEqual(
prev_tx_obj.id(),
'e3930e1e566ca9b75d53b0eb9acb7607f547e1182d1d22bd4b661cfe18dcddf1'
)
self.assertEqual(i, 0)
found = True
break
def test_exercise_10(self):
block_hex = '0000000000044b01a9440b34f582fe171c7b8642fedd0ebfccf8fdf6a1810900'
block_hash = bytes.fromhex(block_hex)
node = SimpleNode('tbtc.programmingblockchain.com', testnet=True)
node.handshake()
getdata = GetDataMessage()
getdata.add_data(BLOCK_DATA_TYPE, block_hash)
node.send(getdata.command, getdata.serialize())
block_envelope = node.wait_for_commands([b'block'])
stream = block_envelope.stream()
b = Block.parse(stream)
self.assertTrue(b.check_pow())
num_txs = read_varint(stream)
tx_hashes = []
for _ in range(num_txs):
t = Tx.parse(stream)
tx_hashes.append(t.hash())
b.tx_hashes = tx_hashes
self.assertTrue(b.validate_merkle_root())
def test_exercise_5(self):
expected = [
'00000000864b744c5025331036aa4a16e9ed1cbb362908c625272150fa059b29',
'000000002e9ccffc999166ccf8d72129e1b2e9c754f6c90ad2f77cab0d9fb4c7',
'0000000009b9f0436a9c733e2c9a9d9c8fe3475d383bdc1beb7bfa995f90be70',
'000000000a9c9c79f246042b9e2819822287f2be7cd6487aecf7afab6a88bed5',
'000000003a7002e1247b0008cba36cd46f57cd7ce56ac9d9dc5644265064df09',
'00000000061e01e82afff6e7aaea4eb841b78cc0eed3af11f6706b14471fa9c8',
'000000003911e011ae2459e44d4581ac69ba703fb26e1421529bd326c538f12d',
'000000000a5984d6c73396fe40de392935f5fc2a8e48eedf38034ce0a3178a60',
'000000000786bdc642fa54c0a791d58b732ed5676516fffaeca04492be97c243',
'000000001359c49f9618f3ee69afbd1b3196f1832acc47557d42256fcc6b7f48',
'00000000270dde98d582af35dff5aed02087dad8529dc5c808c67573d6dabaf4',
'00000000425c160908c215c4adf998771a2d1c472051bc58320696f3a5eb0644',
'0000000006a5976471986377805d4a148d8822bb7f458138c83f167d197817c9',
'000000000318394ea17038ef369f3cccc79b3d7dfda957af6c8cd4a471ffa814',
'000000000ad4f9d0b8e86871478cc849f7bc42fb108ebec50e4a795afc284926',
'000000000207e63e68f2a7a4c067135883d726fd65e3620142fb9bdf50cce1f6',
'00000000003b426d2c12ee66b2eedb4dcc05d5e158685b222240d31e43687762',
'00000000017cf6ee86e3d483f9a978ded72be1fa5af37d287a71c5dfb87cdd83',
'00000000004b1d9fe16fc0c72cfa0395c98a3e460cd2affb8640e28bca295a4a'
]
node = SimpleNode('tbtc.programmingblockchain.com', testnet=True)
node.handshake()
last_block_hash = TESTNET_GENESIS_BLOCK_HASH
count = 1
while count <= 40000:
getheaders = GetHeadersMessage(start_block=last_block_hash)
node.send(getheaders.command, getheaders.serialize())
headers_envelope = node.wait_for_commands([b'headers'])
headers_message = HeadersMessage.parse(headers_envelope.stream())
for b in headers_message.blocks:
self.assertTrue(b.check_pow())
if last_block_hash != TESTNET_GENESIS_BLOCK_HASH:
print(count)
self.assertEqual(b.prev_block, last_block_hash)
count += 1
last_block_hash = b.hash()
if count % 2016 == 0:
self.assertEqual(b.id(), expected.pop(0))
def test_example_2(self):
expected = [
'00000000693067b0e6b440bc51450b9f3850561b07f6d3c021c54fbd6abb9763',
'00000000f037ad09d0b05ee66b8c1da83030abaf909d2b1bf519c3c7d2cd3fdf',
'000000006ce8b5f16fcedde13acbc9641baa1c67734f177d770a4069c06c9de8',
'00000000563298de120522b5ae17da21aaae02eee2d7fcb5be65d9224dbd601c',
'000000009b0a4b2833b4a0aa61171ee75b8eb301ac45a18713795a72e461a946',
'00000000fa8a7363e8f6fdc88ec55edf264c9c7b31268c26e497a4587c750584',
'000000008ac55b5cd76a5c176f2457f0e9df5ff1c719d939f1022712b1ba2092',
'000000007f0c796631f00f542c0b402d638d3518bc208f8c9e5d29d2f169c084',
'00000000ffb062296c9d4eb5f87bbf905d30669d26eab6bced341bd3f1dba5fd',
'0000000074c108842c3ec2252bba62db4050bf0dddfee3ddaa5f847076b8822f',
'0000000067dc2f84a73fbf5d3c70678ce4a1496ef3a62c557bc79cbdd1d49f22',
'00000000dbf06f47c0624262ecb197bccf6bdaaabc2d973708ac401ac8955acc',
'000000009260fe30ec89ef367122f429dcc59f61735760f2b2288f2e854f04ac',
'00000000f9f1a700898c4e0671af6efd441eaf339ba075a5c5c7b0949473c80b',
'000000005107662c86452e7365f32f8ffdc70d8d87aa6f78630a79f7d77fbfe6',
'00000000984f962134a7291e3693075ae03e521f0ee33378ec30a334d860034b',
'000000005e36047e39452a7beaaa6721048ac408a3e75bb60a8b0008713653ce',
'00000000128d789579ffbec00203a371cbb39cee27df35d951fd66e62ed59258',
'000000008dde642fb80481bb5e1671cb04c6716de5b7f783aa3388456d5c8a85'
]
node = SimpleNode('btc.programmingblockchain.com', testnet=False)
node.handshake()
last_block_hash = GENESIS_BLOCK_HASH
count = 1
for _ in range(20):
getheaders = GetHeadersMessage(start_block=last_block_hash)
node.send(getheaders.command, getheaders.serialize())
headers_envelope = node.wait_for_commands([b'headers'])
headers_message = HeadersMessage.parse(headers_envelope.stream())
for b in headers_message.blocks:
self.assertTrue(b.check_pow())
if last_block_hash != GENESIS_BLOCK_HASH:
self.assertEqual(b.prev_block, last_block_hash)
count += 1
last_block_hash = b.hash()
if count % 2016 == 0:
self.assertEqual(b.id(), expected.pop(0))
def test_example_1(self):
node = SimpleNode('btc.programmingblockchain.com', testnet=False)
node.handshake()
last_block_hash = GENESIS_BLOCK_HASH
first_epoch_block = None
expected_bits = None
count = 1
want = ('ffff001d', 'ffff001d', 'ffff001d', 'ffff001d', 'ffff001d',
'ffff001d', 'ffff001d', 'ffff001d', 'ffff001d', 'ffff001d',
'ffff001d', 'ffff001d', 'ffff001d', 'ffff001d', 'ffff001d',
'ffff001d', '6ad8001d', '28c4001d')
for bits in want:
getheaders = GetHeadersMessage(start_block=last_block_hash)
node.send(getheaders.command, getheaders.serialize())
headers_envelope = node.wait_for_commands([b'headers'])
headers_message = HeadersMessage.parse(headers_envelope.stream())
for block in headers_message.blocks:
if not block.check_pow():
raise RuntimeError(
'bad proof of work at block {}'.format(count))
if last_block_hash != GENESIS_BLOCK_HASH and block.prev_block != last_block_hash:
raise RuntimeError(
'discontinuous block at {}'.format(count))
if expected_bits and block.bits != expected_bits:
raise RuntimeError('bad bits at block {} {} vs {}'.format(
count, block.bits.hex(), expected_bits.hex()))
if first_epoch_block and count % 2016 == 2015:
expected_bits = calculate_new_bits(
expected_bits,
block.timestamp - first_epoch_block.timestamp)
self.assertEqual(expected_bits.hex(), bits)
elif first_epoch_block is None:
expected_bits = block.bits
if count % 2016 == 0 or not first_epoch_block:
first_epoch_block = block
count += 1
last_block_hash = block.hash()
def test_exercise_6(self):
last_block_hex = '00000000000538d5c2246336644f9a4956551afb44ba47278759ec55ea912e19'
secret = little_endian_to_int(
hash256(b'Jimmy Song Programming Blockchain'))
private_key = PrivateKey(secret=secret)
addr = private_key.point.address(testnet=True)
h160 = decode_base58(addr)
target_address = 'mwJn1YPMq7y5F8J3LkC5Hxg9PHyZ5K4cFv'
self.assertEqual(addr, target_address)
target_h160 = decode_base58(target_address)
target_script = p2pkh_script(target_h160)
fee = 5000
node = SimpleNode('tbtc.programmingblockchain.com', testnet=True)
bf = BloomFilter(30, 5, 90210)
bf.add(h160)
node.handshake()
node.send(b'filterload', bf.filterload())
start_block = bytes.fromhex(last_block_hex)
getheaders_message = GetHeadersMessage(start_block=start_block)
node.send(getheaders_message.command, getheaders_message.serialize())
headers_envelope = node.wait_for_commands({HeadersMessage.command})
stream = headers_envelope.stream()
headers = HeadersMessage.parse(stream)
last_block = None
get_data_message = GetDataMessage()
for b in headers.blocks:
if not b.check_pow():
raise RuntimeError('proof of work is invalid')
if last_block is not None and b.prev_block != last_block:
raise RuntimeError('chain broken')
get_data_message.add_data(FILTERED_BLOCK_DATA_TYPE, b.hash())
last_block = b.hash()
node.send(get_data_message.command, get_data_message.serialize())
prev_tx, prev_index, prev_tx_obj = None, None, None
while prev_tx is None:
envelope = node.wait_for_commands({b'merkleblock', b'tx'})
stream = envelope.stream()
if envelope.command == b'merkleblock':
mb = MerkleBlock.parse(stream)
if not mb.is_valid():
raise RuntimeError('invalid merkle proof')
else:
prev_tx_obj = Tx.parse(stream, testnet=True)
for i, tx_out in enumerate(prev_tx_obj.tx_outs):
if tx_out.script_pubkey.address(testnet=True) == addr:
prev_tx = prev_tx_obj.hash()
prev_index = i
self.assertEqual(
prev_tx_obj.id(),
'e3930e1e566ca9b75d53b0eb9acb7607f547e1182d1d22bd4b661cfe18dcddf1'
)
self.assertEqual(i, 0)
tx_in = TxIn(prev_tx, prev_index, Script([]), 0xffffff)
TxFetcher.cache[prev_tx] = prev_tx_obj
tx_ins = [tx_in]
total = prev_tx_obj.tx_outs[prev_index].amount
tx_outs = [TxOut(total - fee, target_script)]
tx_obj = Tx(1, tx_ins, tx_outs, 0, testnet=True)
tx_obj.sign_input(0, private_key)
self.assertEqual(
tx_obj.serialize().hex(),
'0100000001f1dddc18fe1c664bbd221d2d18e147f50776cb9aebb0535db7a96c561e0e93e3000000006a473044022046a49962540a89e83da0636455b6c81c11c2844b7f3cd414c02e1a13741f4d15022006eed4eeda994d2bfebb9f1a494bfa3c8bab96e7e4c82623f4a29736dfe309e70121021cdd761c7eb1c90c0af0a5963e94bf0203176b4662778d32bd6d7ab5d8628b32ffffff0001a1629ef5000000001976a914ad346f8eb57dee9a37981716e498120ae80e44f788ac00000000'
)
def test_example_1(self):
node = SimpleNode('tbtc.programmingblockchain.com', testnet=True, logging=False)
version = VersionMessage()
node.send(version.command, version.serialize())
verack = node.wait_for_commands([b'verack'])
self.assertEqual(verack.command, b'verack')
