def test_appointment_shutdown_teos_trigger_while_offline(bitcoin_cli):
global teosd_process
teos_pid = teosd_process.pid
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
locator = compute_locator(commitment_tx_id)
appointment, _ = add_appointment(appointment_data)
# Check that the appointment is still in the Watcher
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "being_watched"
assert appointment_info.get("appointment") == appointment.to_dict()
# Shutdown and trigger
teosd_process.terminate()
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
# Restart
teosd_process = run_teosd()
assert teos_pid != teosd_process.pid
# The appointment should have been moved to the Responder
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "dispute_responded"
teosd_process.terminate()
def test_appointment_wrong_decryption_key(bitcoin_cli):
# This tests an appointment encrypted with a key that has not been derived from the same source as the locator.
# Therefore the tower won't be able to decrypt the blob once the appointment is triggered.
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
# The appointment data is built using a random 32-byte value.
appointment_data = build_appointment_data(get_random_value_hex(32), penalty_tx)
# We cannot use teos_cli.add_appointment here since it computes the locator internally, so let's do it manually.
# We will encrypt the blob using the random value and derive the locator from the commitment tx.
appointment_data["locator"] = compute_locator(bitcoin_cli.decoderawtransaction(commitment_tx).get("txid"))
appointment_data["encrypted_blob"] = Cryptographer.encrypt(penalty_tx, get_random_value_hex(32))
appointment = Appointment.from_dict(appointment_data)
signature = Cryptographer.sign(appointment.serialize(), user_sk)
data = {"appointment": appointment.to_dict(), "signature": signature}
# Send appointment to the server.
response = teos_cli.post_request(data, teos_add_appointment_endpoint)
response_json = teos_cli.process_post_response(response)
# Check that the server has accepted the appointment
signature = response_json.get("signature")
rpk = Cryptographer.recover_pk(appointment.serialize(), signature)
assert teos_id == Cryptographer.get_compressed_pk(rpk)
assert response_json.get("locator") == appointment.locator
# Trigger the appointment
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
# The appointment should have been removed since the decryption failed.
with pytest.raises(TowerResponseError):
get_appointment_info(appointment.locator)
def test_add_appointment_trigger_on_cache_cannot_decrypt(bitcoin_cli):
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
# Let's send the commitment to the network and mine a block
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, bitcoin_cli.getnewaddress())
sleep(1)
# The appointment data is built using a random 32-byte value.
appointment_data = build_appointment_data(get_random_value_hex(32), penalty_tx)
# We cannot use teos_cli.add_appointment here since it computes the locator internally, so let's do it manually.
appointment_data["locator"] = compute_locator(bitcoin_cli.decoderawtransaction(commitment_tx).get("txid"))
appointment_data["encrypted_blob"] = Cryptographer.encrypt(penalty_tx, get_random_value_hex(32))
appointment = Appointment.from_dict(appointment_data)
signature = Cryptographer.sign(appointment.serialize(), user_sk)
data = {"appointment": appointment.to_dict(), "signature": signature}
# Send appointment to the server.
response = teos_cli.post_request(data, teos_add_appointment_endpoint)
response_json = teos_cli.process_post_response(response)
# Check that the server has accepted the appointment
signature = response_json.get("signature")
rpk = Cryptographer.recover_pk(appointment.serialize(), signature)
assert teos_id == Cryptographer.get_compressed_pk(rpk)
assert response_json.get("locator") == appointment.locator
# The appointment should should have been inmediately dropped
with pytest.raises(TowerResponseError):
get_appointment_info(appointment_data["locator"])
def test_appointment_malformed_penalty(bitcoin_cli):
# Lets start by creating two valid transaction
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
# Now we can modify the penalty so it is invalid when broadcast
mod_penalty_tx = Tx.from_hex(penalty_tx)
tx_in = mod_penalty_tx.tx_ins[0].copy(redeem_script=b"")
mod_penalty_tx = mod_penalty_tx.copy(tx_ins=[tx_in])
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, mod_penalty_tx.hex())
locator = compute_locator(commitment_tx_id)
appointment, _ = add_appointment(appointment_data)
# Get the information from the tower to check that it matches
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "being_watched"
assert appointment_info.get("locator") == locator
assert appointment_info.get("appointment") == appointment.to_dict()
# Broadcast the commitment transaction and mine a block
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
# The appointment should have been removed since the penalty_tx was malformed.
with pytest.raises(TowerResponseError):
get_appointment_info(locator)
def test_multiple_appointments_life_cycle(bitcoin_cli):
global appointments_in_watcher, appointments_in_responder
# Tests that get_all_appointments returns all the appointments the tower is storing at various stages in the
# appointment lifecycle.
appointments = []
commitment_txs, penalty_txs = create_txs(bitcoin_cli, n=5)
# Create five appointments.
for commitment_tx, penalty_tx in zip(commitment_txs, penalty_txs):
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
locator = compute_locator(commitment_tx_id)
appointment = {
"locator": locator,
"commitment_tx": commitment_tx,
"penalty_tx": penalty_tx,
"appointment_data": appointment_data,
}
appointments.append(appointment)
# Send all of them to watchtower.
for appt in appointments:
add_appointment(appt.get("appointment_data"))
appointments_in_watcher += 1
# Two of these appointments are breached, and the watchtower responds to them.
breached_appointments = []
for i in range(2):
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, appointments[i]["commitment_tx"], new_addr)
bitcoin_cli.generatetoaddress(1, new_addr)
breached_appointments.append(appointments[i]["locator"])
appointments_in_watcher -= 1
appointments_in_responder += 1
sleep(1)
# Test that they all show up in get_all_appointments at the correct stages.
all_appointments = get_all_appointments()
watching = all_appointments.get("watcher_appointments")
responding = all_appointments.get("responder_trackers")
assert len(watching) == appointments_in_watcher and len(responding) == appointments_in_responder
responder_locators = [appointment["locator"] for uuid, appointment in responding.items()]
assert set(responder_locators) == set(breached_appointments)
new_addr = bitcoin_cli.getnewaddress()
# Now let's mine some blocks so the appointment reaches its end. We need 100 + EXPIRY_DELTA -1
bitcoin_cli.generatetoaddress(100 + teos_config.get("EXPIRY_DELTA") - 1, new_addr)
# The appointment is no longer in the tower
with pytest.raises(TowerResponseError):
for appointment in appointments:
get_appointment_info(appointment["locator"])
def test_add_appointment_trigger_on_cache(bitcoin_cli):
# This tests sending an appointment whose trigger is in the cache
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
locator = compute_locator(commitment_tx_id)
# Let's send the commitment to the network and mine a block
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, bitcoin_cli.getnewaddress())
# Send the data to the tower and request it back. It should have gone straightaway to the Responder
add_appointment(appointment_data)
assert get_appointment_info(locator).get("status") == "dispute_responded"
def test_commands_non_registered(bitcoin_cli):
# All commands should fail if the user is not registered
# Add appointment
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
with pytest.raises(TowerResponseError):
assert add_appointment(appointment_data)
# Get appointment
with pytest.raises(TowerResponseError):
assert get_appointment_info(appointment_data.get("locator"))
def test_add_appointment_invalid_trigger_on_cache(bitcoin_cli):
# This tests sending an invalid appointment which trigger is in the cache
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
# We can just flip the justice tx so it is invalid
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx[::-1])
locator = compute_locator(commitment_tx_id)
# Let's send the commitment to the network and mine a block
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, bitcoin_cli.getnewaddress())
sleep(1)
# Send the data to the tower and request it back. It should get accepted but the data will be dropped.
add_appointment(appointment_data)
with pytest.raises(TowerResponseError):
get_appointment_info(locator)
def test_commands_registered(bitcoin_cli):
global appointments_in_watcher
# Test registering and trying again
teos_cli.register(user_id, teos_base_endpoint)
# Add appointment
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
appointment, available_slots = add_appointment(appointment_data)
assert isinstance(appointment, Appointment) and isinstance(available_slots, str)
# Get appointment
r = get_appointment_info(appointment_data.get("locator"))
assert r.get("locator") == appointment.locator
assert r.get("appointment") == appointment.to_dict()
appointments_in_watcher += 1
def test_two_appointment_same_locator_different_penalty_different_users(bitcoin_cli):
# This tests sending an appointment with two valid transaction with the same locator fro different users
commitment_tx, penalty_tx1 = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
# We need to create a second penalty spending from the same commitment
decoded_commitment_tx = bitcoin_cli.decoderawtransaction(commitment_tx)
new_addr = bitcoin_cli.getnewaddress()
penalty_tx2 = create_penalty_tx(bitcoin_cli, decoded_commitment_tx, new_addr)
appointment1_data = build_appointment_data(commitment_tx_id, penalty_tx1)
appointment2_data = build_appointment_data(commitment_tx_id, penalty_tx2)
locator = compute_locator(commitment_tx_id)
# tmp keys for a different user
tmp_user_sk = PrivateKey()
tmp_user_id = hexlify(tmp_user_sk.public_key.format(compressed=True)).decode("utf-8")
teos_cli.register(tmp_user_id, teos_base_endpoint)
appointment, _ = add_appointment(appointment1_data)
appointment_2, _ = add_appointment(appointment2_data, sk=tmp_user_sk)
# Broadcast the commitment transaction and mine a block
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
# One of the transactions must have made it to the Responder while the other must have been dropped for
# double-spending. That means that one of the responses from the tower should fail
appointment_info = None
with pytest.raises(TowerResponseError):
appointment_info = get_appointment_info(locator)
appointment2_info = get_appointment_info(locator, sk=tmp_user_sk)
if appointment_info is None:
appointment_info = appointment2_info
appointment1_data = appointment2_data
assert appointment_info.get("status") == "dispute_responded"
assert appointment_info.get("locator") == appointment1_data.get("locator")
assert appointment_info.get("appointment").get("penalty_tx") == appointment1_data.get("penalty_tx")
def test_two_identical_appointments(bitcoin_cli):
# Tests sending two identical appointments to the tower.
# This tests sending an appointment with two valid transaction with the same locator.
# If they come from the same user, the last one will be kept.
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
locator = compute_locator(commitment_tx_id)
# Send the appointment twice
add_appointment(appointment_data)
add_appointment(appointment_data)
# Broadcast the commitment transaction and mine a block
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
# The last appointment should have made it to the Responder
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "dispute_responded"
assert appointment_info.get("appointment").get("penalty_rawtx") == penalty_tx
def test_appointment_life_cycle(bitcoin_cli):
global appointments_in_watcher, appointments_in_responder
# First of all we need to register
response = teos_cli.register(user_id, teos_base_endpoint)
available_slots = response.get("available_slots")
# After that we can build an appointment and send it to the tower
commitment_tx, penalty_tx = create_txs(bitcoin_cli)
commitment_tx_id = bitcoin_cli.decoderawtransaction(commitment_tx).get("txid")
appointment_data = build_appointment_data(commitment_tx_id, penalty_tx)
locator = compute_locator(commitment_tx_id)
appointment, signature = add_appointment(appointment_data)
appointments_in_watcher += 1
# Get the information from the tower to check that it matches
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "being_watched"
assert appointment_info.get("locator") == locator
assert appointment_info.get("appointment") == appointment.to_dict()
# Check also the get_all_appointment endpoint
all_appointments = get_all_appointments()
watching = all_appointments.get("watcher_appointments")
responding = all_appointments.get("responder_trackers")
assert len(watching) == appointments_in_watcher and len(responding) == 0
# Trigger a breach and check again
new_addr = bitcoin_cli.getnewaddress()
broadcast_transaction_and_mine_block(bitcoin_cli, commitment_tx, new_addr)
appointment_info = get_appointment_info(locator)
assert appointment_info.get("status") == "dispute_responded"
assert appointment_info.get("locator") == locator
appointments_in_watcher -= 1
appointments_in_responder += 1
all_appointments = get_all_appointments()
watching = all_appointments.get("watcher_appointments")
responding = all_appointments.get("responder_trackers")
assert len(watching) == appointments_in_watcher and len(responding) == appointments_in_responder
# It can be also checked by ensuring that the penalty transaction made it to the network
penalty_tx_id = bitcoin_cli.decoderawtransaction(penalty_tx).get("txid")
try:
bitcoin_cli.getrawtransaction(penalty_tx_id)
assert True
except JSONRPCException:
# If the transaction is not found.
assert False
# Now let's mine some blocks so the appointment reaches its end. We need 100 + EXPIRY_DELTA -1
bitcoin_cli.generatetoaddress(100 + teos_config.get("EXPIRY_DELTA") - 1, new_addr)
appointments_in_responder -= 1
# The appointment is no longer in the tower
with pytest.raises(TowerResponseError):
get_appointment_info(locator)
# Check that the appointment is not in the Gatekeeper by checking the available slots (should have increase by 1)
# We can do so by topping up the subscription (FIXME: find a better way to check this).
response = teos_cli.register(user_id, teos_base_endpoint)
assert (
response.get("available_slots")
== available_slots
+ teos_config.get("SUBSCRIPTION_SLOTS")
+ 1
- appointments_in_watcher
- appointments_in_responder
)
