eth2.0-specs/deposit_contract/tests/contracts/test_deposit.py

213 lines
7.0 KiB
Python

from hashlib import (
sha256,
)
from random import (
randint,
)
import pytest
import eth_utils
from tests.contracts.conftest import (
DEPOSIT_CONTRACT_TREE_DEPTH,
FULL_DEPOSIT_AMOUNT,
MIN_DEPOSIT_AMOUNT,
)
from eth2spec.utils.minimal_ssz import (
SSZType,
hash_tree_root,
)
from eth2spec.phase0.spec import (
DepositData,
)
def hash(data):
return sha256(data).digest()
def compute_merkle_root(leaf_nodes):
assert len(leaf_nodes) >= 1
empty_node = b'\x00' * 32
child_nodes = leaf_nodes[:]
for _ in range(DEPOSIT_CONTRACT_TREE_DEPTH):
parent_nodes = []
if len(child_nodes) % 2 == 1:
child_nodes.append(empty_node)
for j in range(0, len(child_nodes), 2):
parent_nodes.append(hash(child_nodes[j] + child_nodes[j + 1]))
child_nodes = parent_nodes
empty_node = hash(empty_node + empty_node)
return child_nodes[0]
@pytest.fixture
def deposit_input():
"""
pubkey: bytes[48]
withdrawal_credentials: bytes[32]
signature: bytes[96]
"""
return (
b'\x11' * 48,
b'\x22' * 32,
b'\x33' * 96,
)
@pytest.mark.parametrize(
'value,success',
[
(0, True),
(10, True),
(55555, True),
(2**64 - 1, True),
(2**64, False),
]
)
def test_to_little_endian_64(registration_contract, value, success, assert_tx_failed):
call = registration_contract.functions.to_little_endian_64(value)
if success:
little_endian_64 = call.call()
assert little_endian_64 == (value).to_bytes(8, 'little')
else:
assert_tx_failed(
lambda: call.call()
)
def test_from_little_endian_64(registration_contract, assert_tx_failed):
values = [0, 2**64 - 1] + [randint(1, 2**64 - 2) for _ in range(10)]
for value in values:
call = registration_contract.functions.from_little_endian_64((value).to_bytes(8, 'little'))
assert call.call() == value
@pytest.mark.parametrize(
'success,deposit_amount',
[
(True, FULL_DEPOSIT_AMOUNT),
(True, MIN_DEPOSIT_AMOUNT),
(False, MIN_DEPOSIT_AMOUNT - 1),
(True, FULL_DEPOSIT_AMOUNT + 1)
]
)
def test_deposit_amount(registration_contract,
w3,
success,
deposit_amount,
assert_tx_failed,
deposit_input):
call = registration_contract.functions.deposit(*deposit_input)
if success:
assert call.transact({"value": deposit_amount * eth_utils.denoms.gwei})
else:
assert_tx_failed(
lambda: call.transact({"value": deposit_amount * eth_utils.denoms.gwei})
)
def test_deposit_log(registration_contract, a0, w3, deposit_input):
log_filter = registration_contract.events.Deposit.createFilter(
fromBlock='latest',
)
deposit_amount_list = [randint(MIN_DEPOSIT_AMOUNT, FULL_DEPOSIT_AMOUNT * 2) for _ in range(3)]
for i in range(3):
registration_contract.functions.deposit(
*deposit_input,
).transact({"value": deposit_amount_list[i] * eth_utils.denoms.gwei})
logs = log_filter.get_new_entries()
assert len(logs) == 1
log = logs[0]['args']
assert log['pubkey'] == deposit_input[0]
assert log['withdrawal_credentials'] == deposit_input[1]
assert log['amount'] == deposit_amount_list[i].to_bytes(8, 'little')
assert log['signature'] == deposit_input[2]
assert log['merkle_tree_index'] == i.to_bytes(8, 'little')
def test_deposit_tree(registration_contract, w3, assert_tx_failed, deposit_input):
log_filter = registration_contract.events.Deposit.createFilter(
fromBlock='latest',
)
deposit_amount_list = [randint(MIN_DEPOSIT_AMOUNT, FULL_DEPOSIT_AMOUNT * 2) for _ in range(10)]
leaf_nodes = []
for i in range(0, 10):
tx_hash = registration_contract.functions.deposit(
*deposit_input,
).transact({"value": deposit_amount_list[i] * eth_utils.denoms.gwei})
receipt = w3.eth.getTransactionReceipt(tx_hash)
print("deposit transaction consumes %d gas" % receipt['gasUsed'])
logs = log_filter.get_new_entries()
assert len(logs) == 1
log = logs[0]['args']
assert log["merkle_tree_index"] == i.to_bytes(8, 'little')
deposit_data = DepositData(
pubkey=deposit_input[0][:20],
withdrawal_credentials=deposit_input[1],
amount=deposit_amount_list[i],
signature=deposit_input[2],
)
hash_tree_root_result = hash_tree_root(deposit_data)
leaf_nodes.append(hash_tree_root_result)
root = compute_merkle_root(leaf_nodes)
assert root == registration_contract.functions.get_deposit_root().call()
def test_chain_start(modified_registration_contract, w3, assert_tx_failed, deposit_input):
t = getattr(modified_registration_contract, 'chain_start_full_deposit_threshold')
# CHAIN_START_FULL_DEPOSIT_THRESHOLD is set to t
min_deposit_amount = MIN_DEPOSIT_AMOUNT * eth_utils.denoms.gwei # in wei
full_deposit_amount = FULL_DEPOSIT_AMOUNT * eth_utils.denoms.gwei
log_filter = modified_registration_contract.events.Eth2Genesis.createFilter(
fromBlock='latest',
)
index_not_full_deposit = randint(0, t - 1)
for i in range(t):
if i == index_not_full_deposit:
# Deposit with value below FULL_DEPOSIT_AMOUNT
modified_registration_contract.functions.deposit(
*deposit_input,
).transact({"value": min_deposit_amount})
logs = log_filter.get_new_entries()
# Eth2Genesis event should not be triggered
assert len(logs) == 0
else:
# Deposit with value FULL_DEPOSIT_AMOUNT
modified_registration_contract.functions.deposit(
*deposit_input,
).transact({"value": full_deposit_amount})
logs = log_filter.get_new_entries()
# Eth2Genesis event should not be triggered
assert len(logs) == 0
# Make 1 more deposit with value FULL_DEPOSIT_AMOUNT to trigger Eth2Genesis event
modified_registration_contract.functions.deposit(
*deposit_input,
).transact({"value": full_deposit_amount})
logs = log_filter.get_new_entries()
assert len(logs) == 1
timestamp = int(w3.eth.getBlock(w3.eth.blockNumber)['timestamp'])
timestamp_day_boundary = timestamp + (86400 - timestamp % 86400) + 86400
log = logs[0]['args']
assert log['deposit_root'] == modified_registration_contract.functions.get_deposit_root().call()
assert int.from_bytes(log['time'], byteorder='little') == timestamp_day_boundary
assert modified_registration_contract.functions.chainStarted().call() is True
# Make 1 deposit with value FULL_DEPOSIT_AMOUNT and
# check that Eth2Genesis event is not triggered
modified_registration_contract.functions.deposit(
*deposit_input,
).transact({"value": full_deposit_amount})
logs = log_filter.get_new_entries()
assert len(logs) == 0