def runRawTransaction(operation, args):
invocation_tx = InvocationTransaction()
smartcontract_scripthash = UInt160.ParseString(CONTRACT_HASH)
sb = ScriptBuilder()
sb.EmitAppCallWithOperationAndArgs(
smartcontract_scripthash,
operation,
args)
invocation_tx.Script = binascii.unhexlify(sb.ToArray())
wallet = UserWallet.Create(
'neo-privnet.wallet', to_aes_key('coz'), generate_default_key=False)
private_key = KeyPair.PrivateKeyFromWIF(
"KxDgvEKzgSBPPfuVfw67oPQBSjidEiqTHURKSDL1R7yGaGYAeYnr")
wallet.CreateKey(private_key)
context = ContractParametersContext(invocation_tx)
wallet.Sign(context)
invocation_tx.scripts = context.GetScripts()
raw_tx = invocation_tx.ToArray()
payload = {"jsonrpc": "2.0", "id": 1,
"method": "sendrawtransaction",
"params": [raw_tx.decode("ascii")]}
res = requests.post(
"http://neo-nodes:30333/testNeoConnection", json=payload)
print("received POST result")
print(res.status_code)
result = res.text
print(result)
return result
def create_raw_sc_method_call_tx(
source_address,
source_address_wif,
smartcontract_scripthash,
smartcontract_method,
smartcontract_method_args,
):
source_script_hash = address_to_scripthash(source_address)
# start by creating a base InvocationTransaction
# the inputs, outputs and Type do not have to be set anymore.
invocation_tx = InvocationTransaction()
# often times smart contract developers use the function ``CheckWitness`` to determine if the transaction is signed by somebody eligible of calling a certain method
# in order to pass that check you want to add the corresponding script_hash as a transaction attribute (this is generally the script_hash of the public key you use for signing)
# Note that for public functions like the NEP-5 'getBalance' and alike this would not be needed, but it doesn't hurt either
invocation_tx.Attributes.append(
TransactionAttribute(usage=TransactionAttributeUsage.Script,
data=source_script_hash))
smartcontract_scripthash = UInt160.ParseString(smartcontract_scripthash)
# next we need to build a 'script' that gets executed against the smart contract.
# this is basically the script that calls the entry point of the contract with the necessary parameters
sb = ScriptBuilder()
# call the method on the contract (assumes contract address is a NEP-5 token)
sb.EmitAppCallWithOperationAndArgs(
smartcontract_scripthash,
smartcontract_method,
smartcontract_method_args,
)
invocation_tx.Script = binascii.unhexlify(sb.ToArray())
# at this point we've build our unsigned transaction and it's time to sign it before we get the raw output that we can send to the network via RPC
# we need to create a Wallet instance for helping us with signing
wallet = UserWallet.Create('path',
to_aes_key('mypassword'),
generate_default_key=False)
# if you have a WIF use the following
# this WIF comes from the `neo-test1-w.wallet` fixture wallet
private_key = KeyPair.PrivateKeyFromWIF(source_address_wif)
# if you have a NEP2 encrypted key use the following instead
# private_key = KeyPair.PrivateKeyFromNEP2("NEP2 key string", "password string")
# we add the key to our wallet
wallet.CreateKey(private_key)
# and now we're ready to sign
context = ContractParametersContext(invocation_tx)
wallet.Sign(context)
invocation_tx.scripts = context.GetScripts()
raw_tx = invocation_tx.ToArray()
print(raw_tx)
return raw_tx.decode()
def example2():
source_address = "AJQ6FoaSXDFzA6wLnyZ1nFN7SGSN2oNTc3"
source_script_hash = address_to_scripthash(source_address)
# start by creating a base InvocationTransaction
# the inputs, outputs and Type do not have to be set anymore.
invocation_tx = InvocationTransaction()
# Since we are building a raw transaction, we will add the raw_tx flag
invocation_tx.raw_tx = True
# often times smart contract developers use the function ``CheckWitness`` to determine if the transaction is signed by somebody eligible of calling a certain method
# in order to pass that check you want to add the corresponding script_hash as a transaction attribute (this is generally the script_hash of the public key you use for signing)
# Note that for public functions like the NEP-5 'getBalance' and alike this would not be needed, but it doesn't hurt either
invocation_tx.Attributes.append(
TransactionAttribute(usage=TransactionAttributeUsage.Script,
data=source_script_hash))
# next we need to build a 'script' that gets executed against the smart contract.
# this is basically the script that calls the entry point of the contract with the necessary parameters
smartcontract_scripthash = UInt160.ParseString(
"31730cc9a1844891a3bafd1aa929a4142860d8d3")
sb = ScriptBuilder()
# call the NEP-5 `name` method on the contract (assumes contract address is a NEP-5 token)
sb.EmitAppCallWithOperation(smartcontract_scripthash, 'name')
invocation_tx.Script = binascii.unhexlify(sb.ToArray())
# at this point we've build our unsigned transaction and it's time to sign it before we get the raw output that we can send to the network via RPC
# we need to create a Wallet instance for helping us with signing
wallet = UserWallet.Create('path',
to_aes_key('mypassword'),
generate_default_key=False)
# if you have a WIF use the following
# this WIF comes from the `neo-test1-w.wallet` fixture wallet
private_key = KeyPair.PrivateKeyFromWIF(
"Ky94Rq8rb1z8UzTthYmy1ApbZa9xsKTvQCiuGUZJZbaDJZdkvLRV")
# if you have a NEP2 encrypted key use the following instead
# private_key = KeyPair.PrivateKeyFromNEP2("NEP2 key string", "password string")
# we add the key to our wallet
wallet.CreateKey(private_key)
# and now we're ready to sign
context = ContractParametersContext(invocation_tx)
wallet.Sign(context)
invocation_tx.scripts = context.GetScripts()
raw_tx = invocation_tx.ToArray()
return raw_tx