def transfer_sifchain_to_sifchain(
transfer_request: EthereumToSifchainTransferRequest,
credentials: SifchaincliCredentials,
max_seconds: int = 30):
logging.debug(
f"transfer_sifchain_to_sifchain: {transfer_request.as_json()}")
try:
sifchain_starting_balance = get_sifchain_addr_balance(
transfer_request.sifchain_destination_address,
transfer_request.sifnodecli_node, transfer_request.sifchain_symbol)
except Exception as e:
# this is a new account, so the balance is 0
sifchain_starting_balance = 0
status = {
"action": "transfer_sifchain_to_sifchain",
"sifchain_starting_balance": sifchain_starting_balance,
}
logging.info(status)
send_from_sifchain_to_sifchain(transfer_request, credentials)
target_balance = transfer_request.amount + sifchain_starting_balance
wait_for_sifchain_addr_balance(
sifchain_address=transfer_request.sifchain_destination_address,
symbol=transfer_request.sifchain_symbol,
target_balance=target_balance,
sifchaincli_node=transfer_request.sifnodecli_node,
max_seconds=max_seconds,
debug_prefix=f"transfer_sifchain_to_sifchain {transfer_request}")
return {
**status,
"sifchain_ending_balance": target_balance,
}
def transfer_sifchain_to_sifchain(
transfer_request: EthereumToSifchainTransferRequest,
credentials: SifchaincliCredentials,
):
logging.debug(
f"transfer_sifchain_to_sifchain: {transfer_request.as_json()}")
sifchain_starting_balance = get_sifchain_addr_balance(
transfer_request.sifchain_destination_address,
transfer_request.sifnodecli_node, transfer_request.sifchain_symbol)
status = {
"action": "transfer_sifchain_to_sifchain",
"sifchain_starting_balance": sifchain_starting_balance,
}
logging.info(status)
send_from_sifchain_to_sifchain(
from_address=transfer_request.sifchain_address,
to_address=transfer_request.sifchain_destination_address,
amount=transfer_request.amount,
currency=transfer_request.sifchain_symbol,
yes_password=credentials.keyring_passphrase)
target_balance = transfer_request.amount + sifchain_starting_balance
wait_for_sifchain_addr_balance(
transfer_request.sifchain_destination_address,
transfer_request.sifchain_symbol, transfer_request.sifnodecli_node,
target_balance, 30,
f"transfer_sifchain_to_sifchain {transfer_request}")
return {
**status,
"sifchain_ending_balance": target_balance,
}
def test_create_pools(
basic_transfer_request: EthereumToSifchainTransferRequest,
source_ethereum_address: str,
rowan_source_integrationtest_env_credentials: SifchaincliCredentials,
rowan_source_integrationtest_env_transfer_request:
EthereumToSifchainTransferRequest):
basic_transfer_request.ethereum_address = source_ethereum_address
basic_transfer_request.check_wait_blocks = True
target_rowan_balance = 10**19
target_ceth_balance = 10**19
request, credentials = generate_test_account(
basic_transfer_request,
rowan_source_integrationtest_env_transfer_request,
rowan_source_integrationtest_env_credentials,
target_ceth_balance=target_ceth_balance,
target_rowan_balance=target_rowan_balance)
sifaddress = request.sifchain_address
# wait for balance
test_utilities.wait_for_sifchain_addr_balance(
sifaddress, "rowan", target_rowan_balance,
basic_transfer_request.sifnodecli_node)
test_utilities.wait_for_sifchain_addr_balance(
sifaddress, "ceth", target_ceth_balance,
basic_transfer_request.sifnodecli_node)
pools = get_pools(basic_transfer_request.sifnodecli_node)
change_amount = 10**18
sifchain_fees = 100000 # Should probably make this a constant
basic_transfer_request.amount = change_amount
basic_transfer_request.sifchain_symbol = "ceth"
basic_transfer_request.sifchain_address = sifaddress
current_ceth_balance = target_ceth_balance
current_rowan_balance = target_rowan_balance
# Only works the first time, fails later. Make this flexible for manual and private net testing for now.
if pools is None:
create_pool(basic_transfer_request, credentials)
get_pools(basic_transfer_request.sifnodecli_node)
current_ceth_balance = current_ceth_balance - change_amount
current_rowan_balance = current_rowan_balance - change_amount - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"ceth") == current_ceth_balance)
# check for failure if we try to create a pool twice
txn = create_pool(basic_transfer_request, credentials)
assert (txn["code"] == 14)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"ceth") == current_ceth_balance)
def test_rescue_ceth(
basic_transfer_request: EthereumToSifchainTransferRequest,
source_ethereum_address: str,
rowan_source_integrationtest_env_credentials: SifchaincliCredentials,
rowan_source_integrationtest_env_transfer_request: EthereumToSifchainTransferRequest,
sifchain_fees_int,
ethbridge_module_address,
sifchain_admin_account
):
"""
does a lock of rowan (using another test) that should result
in ceth being sent to a place it can be rescued from
"""
basic_transfer_request.ethereum_address = source_ethereum_address
admin_user_credentials = SifchaincliCredentials(
from_key=sifchain_admin_account
)
small_amount = 100
test_account_request, test_account_credentials = generate_test_account(
basic_transfer_request,
rowan_source_integrationtest_env_transfer_request=rowan_source_integrationtest_env_transfer_request,
rowan_source_integrationtest_env_credentials=rowan_source_integrationtest_env_credentials,
target_ceth_balance=test_utilities.burn_gas_cost + small_amount,
target_rowan_balance=sifchain_fees_int
)
logging.info("get the starting balance for the ethbridge module - that's where fees should be going")
ethbridge_module_balance = test_utilities.get_sifchain_addr_balance(
ethbridge_module_address,
basic_transfer_request.sifnodecli_node,
"ceth"
)
test_account_request.amount = small_amount
burn_lock_functions.transfer_sifchain_to_ethereum(test_account_request, test_account_credentials)
logging.info(
f"test account {test_account_request.sifchain_address} should now have no ceth")
logging.info("ethbridge should have the fee that was paid")
test_utilities.wait_for_sifchain_addr_balance(
ethbridge_module_address,
"ceth",
ethbridge_module_balance + test_utilities.burn_gas_cost,
test_account_request.sifnodecli_node
)
logging.info(f"rescue ceth into {test_account_request.sifchain_address}")
test_utilities.rescue_ceth(
receiver_account=test_account_request.sifchain_address,
admin_account=sifchain_admin_account,
amount=test_utilities.burn_gas_cost,
transfer_request=basic_transfer_request,
credentials=admin_user_credentials
)
test_utilities.wait_for_sifchain_addr_balance(
test_account_request.sifchain_address,
"ceth",
test_utilities.burn_gas_cost,
test_account_request.sifnodecli_node,
max_seconds=10,
debug_prefix="wait for rescue ceth"
)
def test_ethereum_transactions_with_offline_relayer(
basic_transfer_request: EthereumToSifchainTransferRequest,
smart_contracts_dir,
source_ethereum_address,
bridgebank_address,
integration_dir,
):
logging.debug(
"need one transaction to make sure ebrelayer writes out relaydb")
basic_transfer_request.ethereum_address = source_ethereum_address
generate_minimal_test_account(base_transfer_request=basic_transfer_request,
target_ceth_balance=100)
logging.info("shut down ebrelayer")
time.sleep(10)
test_utilities.get_shell_output(f"pkill -9 ebrelayer || true")
logging.info("prepare transactions to be sent while ebrelayer is offline")
amount = 9000
new_addresses = list(map(lambda x: create_new_sifaddr(), range(3)))
logging.debug(f"new_addresses: {new_addresses}")
request: EthereumToSifchainTransferRequest = copy.deepcopy(
basic_transfer_request)
requests = list(
map(
lambda addr: {
"amount": amount,
"symbol": test_utilities.NULL_ADDRESS,
"sifchain_address": addr
}, new_addresses))
json_requests = json.dumps(requests)
logging.info("send ethereum transactions while ebrelayer is offline")
yarn_result = test_utilities.run_yarn_command(" ".join([
f"yarn --cwd {smart_contracts_dir}", "integrationtest:sendBulkLockTx",
f"--amount {amount}", f"--symbol eth",
f"--json_path {request.solidity_json_path}",
f"--sifchain_address {new_addresses[0]}",
f"--transactions \'{json_requests}\'",
f"--ethereum_address {source_ethereum_address}",
f"--bridgebank_address {bridgebank_address}"
]))
logging.debug(f"bulk result: {yarn_result}")
logging.info(
"restart ebrelayer with outstanding locks on the ethereum side")
test_utilities.get_shell_output(
f"{integration_dir}/sifchain_start_ebrelayer.sh")
time.sleep(5)
for _ in new_addresses:
# ebrelayer only reads blocks if there are new blocks generated
test_utilities.advance_n_ethereum_blocks(test_utilities.n_wait_blocks,
request.smart_contracts_dir)
for a in new_addresses:
test_utilities.wait_for_sif_account(
a, basic_transfer_request.sifnoded_node, 90)
test_utilities.wait_for_sifchain_addr_balance(
a, "ceth", amount, basic_transfer_request.sifnoded_node, 90)
def test_bulk_transfers(
basic_transfer_request: EthereumToSifchainTransferRequest,
smart_contracts_dir,
source_ethereum_address,
bridgebank_address,
integration_dir,
):
logging.info("shut down ebrelayer")
test_utilities.get_shell_output(f"pkill -9 ebrelayer || true")
logging.info("prepare transactions to be sent while ebrelayer is offline")
amount = 9000
new_addresses = list(map(lambda x: create_new_sifaddr(), range(3)))
logging.debug(f"new_addresses: {new_addresses}")
request: EthereumToSifchainTransferRequest = copy.deepcopy(
basic_transfer_request)
requests = list(
map(
lambda addr: {
"amount": amount,
"symbol": test_utilities.NULL_ADDRESS,
"sifchain_address": addr
}, new_addresses))
json_requests = json.dumps(requests)
logging.info("send ethereum transactions while ebrelayer is offline")
yarn_result = test_utilities.run_yarn_command(" ".join([
f"yarn --cwd {smart_contracts_dir}", "integrationtest:sendBulkLockTx",
f"--amount {amount}", f"--symbol eth",
f"--sifchain_address {new_addresses[0]}",
f"--transactions \'{json_requests}\'",
f"--ethereum_address {source_ethereum_address}",
f"--bridgebank_address {bridgebank_address}"
]))
logging.info(f"bulk result: {yarn_result}")
logging.info("restart ebrelayer")
test_utilities.get_shell_output(
f"{integration_dir}/sifchain_start_ebrelayer.sh")
test_utilities.advance_n_ethereum_blocks(test_utilities.n_wait_blocks,
request.smart_contracts_dir)
for a in new_addresses:
test_utilities.wait_for_sif_account(
a, basic_transfer_request.sifnodecli_node, 90)
test_utilities.wait_for_sifchain_addr_balance(
a, "ceth", amount, basic_transfer_request.sifnodecli_node, 90)
def test_bulk_transfers(
basic_transfer_request: EthereumToSifchainTransferRequest,
smart_contracts_dir,
source_ethereum_address,
bridgebank_address,
integration_dir,
ganache_timed_blocks,
):
n_transfers = int(test_utilities.get_optional_env_var("NTRANSFERS", 1))
ganache_delay = test_utilities.get_optional_env_var("GANACHE_DELAY", 1)
# test_utilities.get_shell_output(f"{integration_dir}/ganache_start.sh {ganache_delay}")
amount = 9000
new_addresses = list(
map(lambda x: create_new_sifaddr(), range(n_transfers)))
logging.debug(f"new_addresses: {new_addresses}")
request: EthereumToSifchainTransferRequest = copy.deepcopy(
basic_transfer_request)
requests = list(
map(
lambda addr: {
"amount": amount,
"symbol": test_utilities.NULL_ADDRESS,
"sifchain_address": addr
}, new_addresses))
json_requests = json.dumps(requests)
yarn_result = test_utilities.run_yarn_command(" ".join([
f"yarn --cwd {smart_contracts_dir}", "integrationtest:sendBulkLockTx",
f"--amount {amount}", f"--symbol eth",
f"--sifchain_address {new_addresses[0]}",
f"--transactions \'{json_requests}\'",
f"--ethereum_address {source_ethereum_address}",
f"--bridgebank_address {bridgebank_address}"
]))
logging.info(f"bulk result: {yarn_result}")
test_utilities.wait_for_ethereum_block_number(
yarn_result["blockNumber"] + test_utilities.n_wait_blocks,
basic_transfer_request)
for a in new_addresses:
test_utilities.wait_for_sif_account(
a, basic_transfer_request.sifnodecli_node, 90)
test_utilities.wait_for_sifchain_addr_balance(
a, "ceth", amount, basic_transfer_request.sifnodecli_node, 90)
def transfer_ethereum_to_sifchain(
transfer_request: EthereumToSifchainTransferRequest,
max_seconds: int = default_timeout_for_ganache):
logging.debug(
f"transfer_ethereum_to_sifchain {transfer_request.as_json()}")
assert transfer_request.ethereum_address
assert transfer_request.sifchain_address
# it's possible that this is the first transfer to the address, so there's
# no balance to retrieve. Catch that exception.
original_log_level = decrease_log_level()
try:
sifchain_starting_balance = get_sifchain_addr_balance(
transfer_request.sifchain_address,
transfer_request.sifnodecli_node, transfer_request.sifchain_symbol)
except:
logging.debug(
f"transfer_ethereum_to_sifchain failed to get starting balance, this is probably a new account"
)
sifchain_starting_balance = 0
status = {
"action": "transfer_ethereum_to_sifchain",
"sifchain_starting_balance": sifchain_starting_balance,
"transfer_request": transfer_request.__dict__,
}
logging.debug(
f"transfer_ethereum_to_sifchain_json: {json.dumps(status)}", )
force_log_level(original_log_level)
starting_block = send_from_ethereum_to_sifchain(transfer_request)
logging.debug(
f"send_from_ethereum_to_sifchain ethereum block number: {starting_block}"
)
original_log_level = decrease_log_level()
half_n_wait_blocks = n_wait_blocks / 2
logging.debug("wait half the blocks, transfer should not complete")
if transfer_request.manual_block_advance:
advance_n_ethereum_blocks(half_n_wait_blocks,
transfer_request.smart_contracts_dir)
time.sleep(5)
else:
wait_for_ethereum_block_number(block_number=starting_block +
half_n_wait_blocks,
transfer_request=transfer_request)
# we still may not have an account
try:
sifchain_balance_before_required_elapsed_blocks = get_sifchain_addr_balance(
transfer_request.sifchain_address,
transfer_request.sifnodecli_node, transfer_request.sifchain_symbol)
except:
sifchain_balance_before_required_elapsed_blocks = 0
if transfer_request.check_wait_blocks and sifchain_balance_before_required_elapsed_blocks != sifchain_starting_balance:
print_error_message(
f"balance should not have changed yet. Starting balance {sifchain_starting_balance},"
f" current balance {sifchain_balance_before_required_elapsed_blocks}"
)
if transfer_request.manual_block_advance:
advance_n_ethereum_blocks(half_n_wait_blocks,
transfer_request.smart_contracts_dir)
else:
wait_for_ethereum_block_number(block_number=starting_block +
n_wait_blocks,
transfer_request=transfer_request)
target_balance = sifchain_starting_balance + transfer_request.amount
# You can't get the balance of an account that doesn't exist yet,
# so wait for the account to be there before asking for the balance
logging.debug(f"wait for account {transfer_request.sifchain_address}")
wait_for_sif_account(sif_addr=transfer_request.sifchain_address,
sifchaincli_node=transfer_request.sifnodecli_node,
max_seconds=max_seconds)
wait_for_sifchain_addr_balance(
sifchain_address=transfer_request.sifchain_address,
symbol=transfer_request.sifchain_symbol,
sifchaincli_node=transfer_request.sifnodecli_node,
target_balance=target_balance,
max_seconds=max_seconds,
debug_prefix=
f"transfer_ethereum_to_sifchain waiting for balance {transfer_request}"
)
force_log_level(original_log_level)
result = {
**status,
"sifchain_ending_balance": target_balance,
}
logging.debug(f"transfer_ethereum_to_sifchain completed {result}")
return result
def test_pools(
basic_transfer_request: EthereumToSifchainTransferRequest,
source_ethereum_address: str,
rowan_source_integrationtest_env_credentials: SifchaincliCredentials,
rowan_source_integrationtest_env_transfer_request:
EthereumToSifchainTransferRequest, solidity_json_path):
# max symbol length in clp is 10
new_currency_symbol = ("a" +
get_shell_output("uuidgen").replace("-", ""))[:8]
target_new_currency_balance = 5 * 10**18
logging.info(f"create new currency")
new_currency = test_utilities.create_new_currency(
1000 * target_new_currency_balance,
new_currency_symbol,
smart_contracts_dir=smart_contracts_dir,
bridgebank_address=bridgebank_address,
solidity_json_path=solidity_json_path)
sifchain_symbol = ("c" + new_currency["newtoken_symbol"]).lower()
basic_transfer_request.ethereum_address = source_ethereum_address
basic_transfer_request.check_wait_blocks = True
target_rowan_balance = 5 * 10**18
target_ceth_balance = 10**18
request, credentials = generate_test_account(
basic_transfer_request,
rowan_source_integrationtest_env_transfer_request,
rowan_source_integrationtest_env_credentials,
target_ceth_balance=target_ceth_balance,
target_rowan_balance=target_rowan_balance)
logging.info(
f"transfer some of the new currency {new_currency_symbol} to the test sifchain address"
)
request.ethereum_symbol = new_currency["newtoken_address"]
request.sifchain_symbol = sifchain_symbol
request.amount = target_new_currency_balance
burn_lock_functions.transfer_ethereum_to_sifchain(request)
sifaddress = request.sifchain_address
sifchain_fees = 100000 # Should probably make this a constant
#from_key = credentials.from_key
# wait for balance
test_utilities.wait_for_sifchain_addr_balance(
sifaddress, "rowan", target_rowan_balance,
basic_transfer_request.sifnodecli_node)
test_utilities.wait_for_sifchain_addr_balance(
sifaddress, sifchain_symbol, target_new_currency_balance,
basic_transfer_request.sifnodecli_node)
pools = get_pools(basic_transfer_request.sifnodecli_node)
basic_transfer_request.sifchain_symbol = sifchain_symbol
basic_transfer_request.sifchain_address = sifaddress
current_coin_balance = target_new_currency_balance
current_rowan_balance = target_rowan_balance
change_amount = 10**19
basic_transfer_request.amount = change_amount
# Fail if amount is greater than user has
txn = create_pool(basic_transfer_request, credentials)
assert (txn["code"] == 12)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
change_amount = 10**17
basic_transfer_request.amount = change_amount
# Fail if amount is less than or equal to minimum
txn = create_pool(basic_transfer_request, credentials)
assert (txn["code"] == 7)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
change_amount = 10**18
basic_transfer_request.amount = change_amount
# Only works the first time, fails later.
txn = create_pool(basic_transfer_request, credentials)
assert (txn.get("code", 0) == 0)
get_pools(basic_transfer_request.sifnodecli_node)
current_coin_balance = current_coin_balance - change_amount
current_rowan_balance = current_rowan_balance - change_amount - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# check for failure if we try to create a pool twice
txn = create_pool(basic_transfer_request, credentials)
assert (txn["code"] == 14)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# ensure we can add liquidity, money gets transferred
txn = add_pool_liquidity(basic_transfer_request, credentials)
assert (txn.get("code", 0) == 0)
get_pools(basic_transfer_request.sifnodecli_node)
current_coin_balance = current_coin_balance - change_amount
current_rowan_balance = current_rowan_balance - change_amount - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# check for failure if we try to remove all liquidity
txn = remove_pool_liquidity(basic_transfer_request, credentials, 10000)
assert (txn["code"] == 26)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# ensure we can remove liquidity, money gets transferred
txn = remove_pool_liquidity(basic_transfer_request, credentials, 5000)
assert (txn.get("code", 0) == 0)
get_pools(basic_transfer_request.sifnodecli_node)
current_coin_balance = current_coin_balance + change_amount
current_rowan_balance = current_rowan_balance + change_amount - sifchain_fees
#assert(test_utilities.get_sifchain_addr_balance(sifaddress, basic_transfer_request.sifnodecli_node, "rowan") == current_rowan_balance)
#assert(test_utilities.get_sifchain_addr_balance(sifaddress, basic_transfer_request.sifnodecli_node, sifchain_symbol) == current_ceth_balance)
# no slippage if pool is perfectly balanced.
# TODO: compute this precisely?
slip_pct = 0.01
balance = test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node, "rowan")
slip_cost = (slip_pct * current_rowan_balance)
assert (balance >= current_rowan_balance - slip_cost
and balance <= current_rowan_balance + slip_cost)
current_rowan_balance = balance
balance = test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node, sifchain_symbol)
slip_cost = (slip_pct * current_coin_balance)
assert (balance >= current_coin_balance - slip_cost
and balance <= current_coin_balance + slip_cost)
current_coin_balance = balance
# check for failure if we try to add too much liquidity
basic_transfer_request.amount = 10**19
txn = add_pool_liquidity(basic_transfer_request, credentials)
assert (txn["code"] == 25)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# check for failure if we try to remove too much liquidity, only occurs now if not 100% liquidity provider
"""
txn = remove_pool_liquidity(basic_transfer_request, credentials, 10000)
assert(txn["code"] == 3)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert(test_utilities.get_sifchain_addr_balance(sifaddress, basic_transfer_request.sifnodecli_node, "rowan") == current_rowan_balance)
assert(test_utilities.get_sifchain_addr_balance(sifaddress, basic_transfer_request.sifnodecli_node, sifchain_symbol) == current_coin_balance)
"""
# check for failure if we try to swap too much for user
txn = swap_pool(basic_transfer_request, "rowan", sifchain_symbol,
credentials)
assert (txn["code"] == 27)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# check for failure if we try to swap too much for pool
basic_transfer_request.amount = 5 * 10**17
txn = swap_pool(basic_transfer_request, "rowan", sifchain_symbol,
credentials)
assert (txn["code"] == 31)
get_pools(basic_transfer_request.sifnodecli_node)
current_rowan_balance = current_rowan_balance - sifchain_fees
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
"rowan") == current_rowan_balance)
assert (test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node,
sifchain_symbol) == current_coin_balance)
# now try to do a swap that works
change_amount = 10**15
basic_transfer_request.amount = change_amount
txn = swap_pool(basic_transfer_request, "rowan", sifchain_symbol,
credentials)
# TODO: compute this precisely?
slip_pct = 0.01
balance = test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node, "rowan")
assert (balance < current_rowan_balance)
current_rowan_balance = balance
balance = test_utilities.get_sifchain_addr_balance(
sifaddress, basic_transfer_request.sifnodecli_node, sifchain_symbol)
assert (balance > current_coin_balance)
current_coin_balance = balance
def test_bulk_transfers_from_sifchain(
basic_transfer_request: EthereumToSifchainTransferRequest,
rowan_source_integrationtest_env_credentials: SifchaincliCredentials,
rowan_source_integrationtest_env_transfer_request: EthereumToSifchainTransferRequest,
smart_contracts_dir,
source_ethereum_address,
rowan_source,
rowan_source_key,
bridgebank_address,
bridgetoken_address,
ethereum_network,
):
basic_transfer_request.ethereum_address = source_ethereum_address
logging.info(f"transfer_request: {basic_transfer_request}")
# account_with_ceth, credentials_for_account_with_ceth = generate_test_account(
# base_transfer_request=basic_transfer_request,
# rowan_source_integrationtest_env_transfer_request=rowan_source_integrationtest_env_transfer_request,
# rowan_source_integrationtest_env_credentials=rowan_source_integrationtest_env_credentials,
# target_ceth_balance=5 * 10 ** 18,
# target_rowan_balance=50 * 10 ** 18
# )
n_transfers = int(test_utilities.get_optional_env_var("NTRANSFERS", 2))
amount = "{:d}".format(5 * test_utilities.highest_gas_cost)
new_addresses_and_keys = list(map(lambda x: create_new_sifaddr_and_key(), range(n_transfers)))
logging.info(f"aandk: {new_addresses_and_keys}")
new_addresses = list(map(lambda a: a[0], new_addresses_and_keys))
logging.debug(f"new_addresses: {new_addresses}")
new_eth_addrs = test_utilities.create_ethereum_addresses(smart_contracts_dir,
basic_transfer_request.ethereum_network,
len(new_addresses))
logging.info(f"new eth addrs: {new_eth_addrs}")
request: EthereumToSifchainTransferRequest = copy.deepcopy(basic_transfer_request)
requests = list(map(lambda addr: {
"amount": amount,
"symbol": test_utilities.NULL_ADDRESS,
"sifchain_address": addr
}, new_addresses))
request.amount = 5 * test_utilities.highest_gas_cost
credentials_for_account_with_ceth = SifchaincliCredentials(from_key=rowan_source_key)
for r in requests:
request.ethereum_address = source_ethereum_address
request.sifchain_address = rowan_source
request.sifchain_destination_address = r["sifchain_address"]
request.sifchain_symbol = "ceth"
request.ethereum_symbol = "eth"
logging.warning(f"requestis: {request}")
test_utilities.send_from_sifchain_to_sifchain(request, credentials_for_account_with_ceth)
time.sleep(3)
request.sifchain_symbol = "rowan"
request.ethereum_symbol = bridgetoken_address
test_utilities.send_from_sifchain_to_sifchain(request, credentials_for_account_with_ceth)
time.sleep(3)
for a in new_addresses:
test_utilities.wait_for_sif_account(a, basic_transfer_request.sifnodecli_node, 90)
test_utilities.wait_for_sifchain_addr_balance(a, "ceth", amount, basic_transfer_request.sifnodecli_node, 180)
test_utilities.wait_for_sifchain_addr_balance(a, "rowan", amount, basic_transfer_request.sifnodecli_node, 180)
text_file = open("pfile.cmds", "w")
simple_credentials = SifchaincliCredentials(
keyring_passphrase=None,
keyring_backend="test",
from_key=None,
sifnodecli_homedir=None
)
logging.info(f"all accounts are on sifchain and have the correct balance")
for sifaddr, ethaddr in zip(new_addresses_and_keys, new_eth_addrs):
r = copy.deepcopy(basic_transfer_request)
r.sifchain_address = sifaddr[0]
r.ethereum_address = ethaddr["address"]
r.amount = 100
simple_credentials.from_key = sifaddr[1]
c = test_utilities.send_from_sifchain_to_ethereum_cmd(r, simple_credentials)
text_file.write(f"{c}\n")
text_file.close()
test_utilities.get_shell_output("cat pfile.cmds | parallel --trim lr -v {}")
test_utilities.advance_n_ethereum_blocks(test_utilities.n_wait_blocks, smart_contracts_dir)
# test_utilities.get_shell_output("bash -x pfile.cmds")
for sifaddr, ethaddr in zip(new_addresses_and_keys, new_eth_addrs):
r = copy.deepcopy(basic_transfer_request)
r.ethereum_address = ethaddr["address"]
r.amount = 100
test_utilities.wait_for_eth_balance(r, 100, 6000 * (n_transfers + 1))
def test_rollback_chain(source_ethereum_address):
new_account_key = get_shell_output("uuidgen")
credentials = sifchain_cli_credentials_for_test(new_account_key)
new_account = burn_lock_functions.create_new_sifaddr(
credentials=credentials, keyname=new_account_key)
credentials.from_key = new_account["name"]
# Any amount will work
amount = 11000
request = EthereumToSifchainTransferRequest(
sifchain_address=new_account["address"],
smart_contracts_dir=get_required_env_var("SMART_CONTRACTS_DIR"),
ethereum_address=source_ethereum_address,
ethereum_private_key_env_var="ETHEREUM_PRIVATE_KEY",
bridgebank_address=get_required_env_var("BRIDGE_BANK_ADDRESS"),
ethereum_network=(os.environ.get("ETHEREUM_NETWORK") or ""),
amount=amount)
logging.info(f"create account with a balance of {request.amount}")
burn_lock_functions.transfer_ethereum_to_sifchain(request, 50)
new_addr = new_account["address"]
snapshot = get_shell_output(
f"{test_integration_dir}/snapshot_ganache_chain.sh")
logging.info(f"created new account, took ganache snapshot {snapshot}")
initial_user_balance = get_sifchain_addr_balance(new_addr, "",
request.sifchain_symbol)
logging.info(f"initial_user_balance {initial_user_balance}")
transfer_1 = send_from_ethereum_to_sifchain(transfer_request=request)
logging.info(f"transfer started but it will never complete (by design)")
logging.info("advance less than wait blocks")
advance_n_ethereum_blocks(n_wait_blocks / 2, request.smart_contracts_dir)
# the transaction should not have happened on the sifchain side yet
# since we haven't waited for the right number of blocks.
# roll back ganache to the snapshot and try another transfer that
# should succeed.
logging.info(
f"apply snapshot {snapshot} - this eliminates transfer_1 (block {transfer_1})"
)
get_shell_output(
f"{test_integration_dir}/apply_ganache_snapshot.sh {snapshot} 2>&1")
logging.info("advance past block wait")
advance_n_ethereum_blocks(n_wait_blocks * 2, request.smart_contracts_dir)
time.sleep(5)
second_user_balance = get_sifchain_addr_balance(new_addr, "",
request.sifchain_symbol)
if second_user_balance == initial_user_balance:
logging.info(
f"got expected outcome of no balance change @ {initial_user_balance}"
)
else:
raise Exception(
f"balance should be the same after applying snapshot and rolling forward n_wait_blocks * 2. initial_user_balance: {initial_user_balance} second_user_balance: {second_user_balance}"
)
request.amount = 10000
logging.info(f"sending more eth: {request.amount} to {new_addr}")
burn_lock_functions.transfer_ethereum_to_sifchain(request)
# We want to know that ebrelayer will never do a second transaction.
# We can't know that, so just delay a reasonable amount of time.
logging.info("delay to give ebrelayer time to make a mistake")
time.sleep(10)
balance_after_sleep = get_sifchain_addr_balance(new_addr, "",
request.sifchain_symbol)
logging.info(
f"get_sifchain_addr_balance after sleep is {balance_after_sleep} for {new_addr}"
)
expected_balance = initial_user_balance + request.amount
logging.info(f"look for a balance of {expected_balance}")
wait_for_sifchain_addr_balance(new_addr, request.sifchain_symbol,
expected_balance, "")
def test_bulk_transfers(
basic_transfer_request: EthereumToSifchainTransferRequest,
smart_contracts_dir,
source_ethereum_address,
bridgebank_address,
bridgetoken_address,
ethereum_network,
):
n_transfers = int(test_utilities.get_optional_env_var("NTRANSFERS", 2))
ganache_delay = test_utilities.get_optional_env_var("GANACHE_DELAY", 1)
# test_utilities.get_shell_output(f"{integration_dir}/ganache_start.sh {ganache_delay}")
amount = "{:d}".format(5 * test_utilities.highest_gas_cost)
new_addresses_and_keys = list(
map(lambda x: create_new_sifaddr_and_key(), range(n_transfers)))
logging.info(f"aandk: {new_addresses_and_keys}")
new_addresses = list(map(lambda a: a[0], new_addresses_and_keys))
logging.debug(f"new_addresses: {new_addresses}")
new_eth_addrs = test_utilities.create_ethereum_addresses(
smart_contracts_dir, basic_transfer_request.ethereum_network,
len(new_addresses))
logging.info(f"new eth addrs: {new_eth_addrs}")
request: EthereumToSifchainTransferRequest = copy.deepcopy(
basic_transfer_request)
requests = list(
map(
lambda addr: {
"amount": amount,
"symbol": test_utilities.NULL_ADDRESS,
"sifchain_address": addr
}, new_addresses))
json_requests = json.dumps(requests)
test_utilities.run_yarn_command(" ".join([
f"yarn --cwd {smart_contracts_dir}",
"integrationtest:sendBulkLockTx",
f"--amount {amount}",
f"--symbol eth",
f"--json_path {request.solidity_json_path}",
f"--sifchain_address {new_addresses[0]}",
f"--transactions \'{json_requests}\'",
f"--ethereum_address {source_ethereum_address}",
f"--bridgebank_address {bridgebank_address}",
f"--ethereum_network {ethereum_network}",
]))
requests = list(
map(
lambda addr: {
"amount": amount,
"symbol": bridgetoken_address,
"sifchain_address": addr
}, new_addresses))
json_requests = json.dumps(requests)
yarn_result = test_utilities.run_yarn_command(" ".join([
f"yarn --cwd {smart_contracts_dir}",
"integrationtest:sendBulkLockTx",
f"--amount {amount}",
"--lock_or_burn burn",
f"--symbol {bridgetoken_address}",
f"--json_path {request.solidity_json_path}",
f"--sifchain_address {new_addresses[0]}",
f"--transactions \'{json_requests}\'",
f"--ethereum_address {source_ethereum_address}",
f"--bridgebank_address {bridgebank_address}",
f"--ethereum_network {ethereum_network}",
]))
logging.info(f"bulk result: {yarn_result}")
manual_advance = False
if manual_advance:
test_utilities.advance_n_ethereum_blocks(test_utilities.n_wait_blocks,
smart_contracts_dir)
test_utilities.wait_for_ethereum_block_number(
yarn_result["blockNumber"] + test_utilities.n_wait_blocks,
basic_transfer_request)
for a in new_addresses:
test_utilities.wait_for_sif_account(
a, basic_transfer_request.sifnodecli_node, 90)
test_utilities.wait_for_sifchain_addr_balance(
a, "ceth", amount, basic_transfer_request.sifnodecli_node, 180)
test_utilities.wait_for_sifchain_addr_balance(
a, "rowan", amount, basic_transfer_request.sifnodecli_node, 180)
text_file = open("pfile.cmds", "w")
simple_credentials = SifchaincliCredentials(keyring_passphrase=None,
keyring_backend="test",
from_key=None,
sifnodecli_homedir=None)
logging.info(f"all accounts are on sifchain and have the correct balance")
for sifaddr, ethaddr in zip(new_addresses_and_keys, new_eth_addrs):
r = copy.deepcopy(basic_transfer_request)
r.sifchain_address = sifaddr[0]
r.ethereum_address = ethaddr["address"]
r.amount = 100
simple_credentials.from_key = sifaddr[1]
c = test_utilities.send_from_sifchain_to_ethereum_cmd(
r, simple_credentials)
text_file.write(f"{c}\n")
text_file.close()
# test_utilities.get_shell_output("cat pfile.cmds | parallel --trim lr -v {}")
test_utilities.get_shell_output("bash -x pfile.cmds")
for sifaddr, ethaddr in zip(new_addresses_and_keys, new_eth_addrs):
r = copy.deepcopy(basic_transfer_request)
r.ethereum_address = ethaddr["address"]
r.amount = 100
test_utilities.wait_for_eth_balance(r, 100, 300)
