def test_new_from_user_input_defaults(self, mock_check_chain_id):
client = eth.new_from_user_input({
"version": "1",
"name": "banana",
"chain_id": 1
})
self.assertEqual(client.chain_id, 1)
self.assertTrue(
bool(client.address)
) # Ensure we got an address (private key was generated for us)
self.assertEqual(
client.rpc_address,
"http://internal-Parity-Mainnet-Internal-1844666982.us-west-2.elb.amazonaws.com:8545"
)
mock_check_chain_id.return_value = 3
client = eth.new_from_user_input({
"version": "1",
"name": "banana",
"chain_id": 3
})
self.assertEqual(
client.rpc_address,
"http://internal-Parity-Ropsten-Internal-1699752391.us-west-2.elb.amazonaws.com:8545"
)
mock_check_chain_id.return_value = 1
client = eth.new_from_user_input({
"version": "1",
"name": "banana",
"chain_id": 61
})
self.assertEqual(
client.rpc_address,
"http://internal-Parity-Classic-Internal-2003699904.us-west-2.elb.amazonaws.com:8545"
)
self.assertEqual(client.chain_id,
61) # Ensure the chain id for ETC mainnet is correct
mock_check_chain_id.return_value = 2
client = eth.new_from_user_input({
"version": "1",
"name": "banana",
"chain_id": 62
})
self.assertEqual(
client.rpc_address,
"http://internal-Parity-Morden-Internal-26081757.us-west-2.elb.amazonaws.com:8545"
)
self.assertEqual(client.chain_id,
62) # Ensure the chain id for ETC testnet is correct
def create_ethereum_interchain_v1(user_data: Dict[str, Any], conflict_check: bool = True) -> Dict[str, Any]:
client = eth.new_from_user_input(user_data)
if conflict_check and interchain_dao.does_interchain_exist("ethereum", client.name):
_log.error("Ethereum network is already registered")
raise exceptions.InterchainConflict(f"An ethereum interchain network with the name {client.name} is already registered")
interchain_dao.save_interchain_client(client)
return _get_output_dto_v1(client)
def test_new_from_user_input_sets_good_private_keys(
self, mock_check_chain_id):
# Good hex key without 0x
clienta = eth.new_from_user_input({
"version":
"1",
"name":
"banana",
"chain_id":
1,
"private_key":
"7796b9ac433fab2a83d281e8064f29c935133139b62ec52c8e73de28440c0dc6"
})
# Good hex key with 0x
clientb = eth.new_from_user_input({
"version":
"1",
"name":
"banana",
"chain_id":
1,
"private_key":
"0x7796b9ac433fab2a83d281e8064f29c935133139b62ec52c8e73de28440c0dc6"
})
# Good base64 key
clientc = eth.new_from_user_input({
"version":
"1",
"name":
"banana",
"chain_id":
1,
"private_key":
"d5a5rEM/qyqD0oHoBk8pyTUTMTm2LsUsjnPeKEQMDcY="
})
self.assertEqual(
clienta.priv_key.to_bytes(),
b"w\x96\xb9\xacC?\xab*\x83\xd2\x81\xe8\x06O)\xc95\x1319\xb6.\xc5,\x8es\xde(D\x0c\r\xc6"
)
self.assertEqual(
clientb.priv_key.to_bytes(),
b"w\x96\xb9\xacC?\xab*\x83\xd2\x81\xe8\x06O)\xc95\x1319\xb6.\xc5,\x8es\xde(D\x0c\r\xc6"
)
self.assertEqual(
clientc.priv_key.to_bytes(),
b"w\x96\xb9\xacC?\xab*\x83\xd2\x81\xe8\x06O)\xc95\x1319\xb6.\xc5,\x8es\xde(D\x0c\r\xc6"
)
def create_ethereum_interchain_v1(user_data: Dict[str, Any]) -> Dict[str, Any]:
client = eth.new_from_user_input(user_data)
interchain_dao.save_interchain_client(client)
return _get_output_dto_v1(client)