def get_signature_vrs(raw):
try:
hashed_raw = sha256(raw)
wallet = get_aquarius_wallet()
keys_pk = keys.PrivateKey(wallet.key)
prefix = "\x19Ethereum Signed Message:\n32"
signable_hash = Web3.solidityKeccak(
["bytes", "bytes"],
[Web3.toBytes(text=prefix),
Web3.toBytes(hashed_raw.digest())],
)
signed = keys.ecdsa_sign(message_hash=signable_hash,
private_key=keys_pk)
values = {
"hash": "0x" + hashed_raw.hexdigest(),
"publicKey": wallet.address
}
values["v"] = (signed.v + 27) if signed.v <= 1 else signed.v
values["r"] = (Web3.toHex(Web3.toBytes(signed.r).rjust(32, b"\0")), )
values["s"] = (Web3.toHex(Web3.toBytes(signed.s).rjust(32, b"\0")), )
except AquariusPrivateKeyException:
values = {"hash": "", "publicKey": "", "r": "", "s": "", "v": ""}
return values
def sign_message(self,
account: str,
message: bytes,
content_type: str = None,
validator_address: str = None,
**kwargs) -> HexBytes:
"""
See https://github.com/ethereum/go-ethereum/blob/a32a2b933ad6793a2fe4172cd46c5c5906da259a/signer/core/signed_data.go#L185
"""
if isinstance(message, bytes):
message = Web3.toHex(message)
if not content_type:
content_type = self.DEFAULT_CONTENT_TYPE
elif content_type not in self.SIGN_DATA_CONTENT_TYPES:
raise ValueError(f'{content_type} is not a valid content type. '
f'Valid types are {self.SIGN_DATA_CONTENT_TYPES}')
if content_type == self.SIGN_DATA_FOR_VALIDATOR:
if not validator_address or validator_address == NULL_ADDRESS:
raise ValueError(
'When using the intended validator type, a validator address is required.'
)
data = {'address': validator_address, 'message': message}
elif content_type == self.SIGN_DATA_FOR_ECRECOVER:
data = message
else:
raise NotImplementedError
signed_data = self.__ipc_request("account_signData", content_type,
account, data)
return HexBytes(signed_data)
def convert_to_string(data: bytes) -> HexStr:
"""
:param data:
:return:
"""
return Web3.toHex(data)
def ec_revoverable_message(msg, private_key):
signed_message = sign_message(msg, private_key)
ec_recover_args = (msghash, v, r, s) = (
Web3.toHex(signed_message.messageHash),
signed_message.v,
to_32byte_hex(signed_message.r),
to_32byte_hex(signed_message.s),
)
return ec_recover_args
def get_signature_bytes(raw):
try:
wallet = get_aquarius_wallet()
keys_pk = keys.PrivateKey(wallet.key)
message_hash = Web3.solidityKeccak(
["bytes"],
[Web3.toBytes(text=raw)],
)
prefix = "\x19Ethereum Signed Message:\n32"
signable_hash = Web3.solidityKeccak(
["bytes", "bytes"],
[Web3.toBytes(text=prefix),
Web3.toBytes(message_hash)])
signed = keys.ecdsa_sign(message_hash=signable_hash,
private_key=keys_pk)
v = str(Web3.toHex(Web3.toBytes(signed.v)))
r = str(Web3.toHex(Web3.toBytes(signed.r).rjust(32, b"\0")))
s = str(Web3.toHex(Web3.toBytes(signed.s).rjust(32, b"\0")))
signature = "0x" + r[2:] + s[2:] + v[2:]
except AquariusPrivateKeyException:
signature = None
return signature
def to_32byte_hex(val):
return Web3.toHex(Web3.toBytes(val).rjust(32, b'\0'))
def int_to_hex(value: int) -> HexStr:
hexString = str(Web3.toHex(value))
if len(hexString) < 66:
leftPadding = '0' * (66 - len(hexString))
hexString = f'0x{leftPadding}{hexString[2:]}'
return hexString
def test_order_started(events_object, client, base_ddo_url):
web3 = events_object._web3 # get_web3()
block = web3.eth.block_number
_ddo = new_ddo(test_account1, web3, f"dt.{block}")
did = _ddo.id
_, dt_contract, erc20_address = send_create_update_tx(
"create", _ddo, bytes([2]), test_account1)
events_object.process_current_blocks()
token_contract = web3.eth.contract(
abi=ERC20Template.abi, address=web3.toChecksumAddress(erc20_address))
token_contract.functions.mint(
web3.toChecksumAddress(test_account3.address),
web3.toWei(10, "ether")).transact({"from": test_account1.address})
# mock provider fees
provider_wallet = get_aquarius_wallet()
provider_fee_amount = 0
provider_data = json.dumps({"timeout": 0}, separators=(",", ":"))
provider_fee_address = provider_wallet.address
provider_fee_token = "0x0000000000000000000000000000000000000000"
message_hash = Web3.solidityKeccak(
["bytes", "address", "address", "uint256", "uint256"],
[
Web3.toHex(Web3.toBytes(text=provider_data)),
provider_fee_address,
provider_fee_token,
provider_fee_amount,
0,
],
)
pk = keys.PrivateKey(provider_wallet.key)
prefix = "\x19Ethereum Signed Message:\n32"
signable_hash = Web3.solidityKeccak(
["bytes", "bytes"],
[Web3.toBytes(text=prefix),
Web3.toBytes(message_hash)])
signed = keys.ecdsa_sign(message_hash=signable_hash, private_key=pk)
provider_fee = {
"providerFeeAddress": web3.toChecksumAddress(provider_fee_address),
"providerFeeToken": web3.toChecksumAddress(provider_fee_token),
"providerFeeAmount": provider_fee_amount,
"providerData": Web3.toHex(Web3.toBytes(text=provider_data)),
# make it compatible with last openzepellin https://github.com/OpenZeppelin/openzeppelin-contracts/pull/1622
"v": (signed.v + 27) if signed.v <= 1 else signed.v,
"r": Web3.toHex(Web3.toBytes(signed.r).rjust(32, b"\0")),
"s": Web3.toHex(Web3.toBytes(signed.s).rjust(32, b"\0")),
"validUntil": 0,
}
txn = token_contract.functions.startOrder(
web3.toChecksumAddress(test_account3.address),
1,
(
web3.toChecksumAddress(provider_fee["providerFeeAddress"]),
web3.toChecksumAddress(provider_fee["providerFeeToken"]),
provider_fee["providerFeeAmount"],
provider_fee["v"],
provider_fee["r"],
provider_fee["s"],
provider_fee["validUntil"],
provider_fee["providerData"],
),
(
"0x0000000000000000000000000000000000000000",
"0x0000000000000000000000000000000000000000",
0,
),
).transact({"from": test_account3.address})
web3.eth.wait_for_transaction_receipt(txn)
events_object.process_current_blocks()
published_ddo = get_ddo(client, base_ddo_url, did)
assert published_ddo["stats"]["orders"] == 1
