ape-starknet: An ape plugin for the StarkNet networks
Project description
Quick Start
Plugins for the StarkNet Ethereum L2 networks.
Dependencies
- python3 version 3.8 or greater, python3-dev
Installation
via pip
You can install the latest release via pip:
pip install ape-starknet
via setuptools
You can clone the repository and use setuptools for the most up-to-date version:
git clone https://github.com/ApeWorX/ape-starknet.git
cd ape-starknet
python3 setup.py install
Quick Usage
Account Management
Accounts are used to execute transactions and sign call data. Accounts are smart contracts in Starknet.
Out of the box, ape-starknet comes with development accounts.
Access them like this:
from ape import accounts
container = accounts.containers["starknet"]
owner = container.test_accounts[0]
See the section below about Testing to learn more about test accounts.
However, when using a live network, you will have to import or create an account first.
To import an account, use the import command:
ape starknet accounts import <ALIAS> --address 0x6b7111AA4111e5B2229c3332B66696888164440A773333143333B383333a183 --network starknet:testnet
To create a new account, you will use the create command:
ape starknet accounts create <NEW-ALIAS> --network starknet:testnet
The create command will first generate the public and private key combination and store a local keyfile for the account.
However, it does not deploy the account automatically.
The reason it does not deploy automatically is that the account needs funding to pay for its deployment and there are several ways to achieve this.
See this section of the Starknet official guides for more information.
NOTE: You cannot use an Ethereum account to send funds to a Starknet account directly. You must use the StarkNet L2 bridge to transfer existing Goerli L1 ETH to and from the L2 account.
For convenience purposes, if you already have a Starknet account in Ape, you can use that account to fund the creation of new ones.
To do this, use the --deployment-funder flag to specify the funder alias of your other account:
ape starknet accounts create <NEW-ALIAS> --network starknet:testnet --deployment-funder <EXISTING-ALIAS>
Otherwise, after you have funded your newly created account an alternative way, you can use the deploy command to deploy it:
ape starknet accounts deploy <NEW-ALIAS>
You can create the same account in multiple networks by adjusting the --network flag:
ape starknet accounts create <ALIAS> --network starknet:mainnet
See your accounts and all of their deployment addresses:
ape starknet accounts list
shows:
Alias - <ALIAS>
Public key - 0x123444444d716666dd88882bE2e99991555DE1c7
Contract address (testnet) - 0x6b7111AA4111e5B2229c3332B66696888164440A773333143333B383333a183
Contract address (mainnet) - 0x7873113A4111e5B2229c3332B66696388163440A373333143333B3833332122
You can also delete accounts:
ape starknet accounts delete <ALIAS> --network starknet:testnet
NOTE: You don't have to specify the network if your account is only deployed to a single network.
Auto-Sign Message
While generally bad practice, sometimes it is necessary to have unlocked keyfile accounts auto-signing messages.
An example would be during testnet automated deployments.
To achieve this, use the set_autosign() method available on the keyfile accounts:
import keyring
from ape import accounts
# Use keyring package to store secrets
password = keyring.get_password("starknet-testnet-automations", "ci-shared-account")
testnet_account = accounts.load("starknet-testnet-account")
testnet_account.set_autosign(True, passphrase=password)
# Won't prompt for signing or unlocking
testnet_account.sign_message([123])
Declare and Deploy Contracts
In Starknet, you can declare contract types by publishing them to the chain. This allows other contracts to create instances of them using the deploy system call.
To declare a contract using ape-starknet, do the following (in a script or console):
from ape import accounts, project
account = accounts.load("<MY_STARK_ACCOUNT>")
declaration = account.declare(project.MyContract)
print(declaration.class_hash)
Then, you can use the deploy method to deploy the contracts.
NOTE: The deploy method in ape-starknet makes an invoke-function call against the Starknet public UDC contract.
Learn more about UDC contracts here.
from ape import accounts, project
# This only works if `project.MyContract` was declared previously.
# The class hash is not necessary as an argument. Ape will look it up.
account = accounts.load("<MY_STARK_ACCOUNT>")
account.deploy(project.MyContact)
You can also deploy contracts by doing:
from ape import accounts, project
account = accounts.load("<MY_STARK_ACCOUNT>")
my_contract = project.MyContract.deploy(sender=account)
Alternatively, you can use the class hash in a deploy() system call in a local factory contract.
Let's say for example I have the following Cairo factory contract:
from starkware.cairo.common.alloc import alloc
from starkware.starknet.common.syscalls import deploy
from starkware.cairo.common.cairo_builtins import HashBuiltin
@storage_var
func class_hash() -> (class_hash: felt) {
}
@storage_var
func salt() -> (value: felt) {
}
@constructor
func constructor{syscall_ptr: felt*, pedersen_ptr: HashBuiltin*, range_check_ptr}(cls_hash: felt) {
class_hash.write(value=cls_hash);
return ();
}
@external
func deploy_my_contract{syscall_ptr: felt*, pedersen_ptr: HashBuiltin*, range_check_ptr}() {
let (cls_hash) = class_hash.read();
let (current_salt) = salt.read();
let (ctor_calldata) = alloc();
let (contract_addr) = deploy(
class_hash=cls_hash,
contract_address_salt=current_salt,
constructor_calldata_size=0,
constructor_calldata=ctor_calldata,
deploy_from_zero=FALSE,
);
salt.write(value=current_salt + 1);
return ();
}
This contract accepts a class hash of a declared contract deploys it. The following example shows how to use this factory class to deploy other contracts:
from ape import Contract, accounts, networks, project
account = accounts.load("<MY_STARK_ACCOUNT>")
declaration = account.declare(project.MyContract)
# NOTE: Assuming you have a contract named 'ContractFactory'.
factory = project.ContractFactory.deploy(declaration.class_hash, sender=account)
call_result = factory.deploy_my_contract()
contract_address = networks.starknet.decode_address(call_result)
contract = Contract(contract_address, contract_type=project.MyContract.contract_type)
Contract Interaction
After you have deployed your contracts, you can begin interacting with them.
deploy methods return a contract instance from which you can call methods on:
from ape import project
contract = project.MyContract.deploy(sender=account)
# Interact with deployed contract
receipt = contract.my_mutable_method(123)
value = contract.my_view_method()
You can access the return data from a mutable method's receipt:
receipt = contract.my_mutable_method(123)
result = receipt.return_value
Include a sender to delegate the transaction to an account contract:
from ape import accounts
account = accounts.load("my_account")
receipt = contract.my_mutable_method(123, sender=account)
NOTE: Currently, to pass in arrays as arguments, you have to also include the array size beforehand:
receipt = contract.store_my_list(3, [1, 2, 3])
Testing
Accounts
You can use starknet-devnet accounts in your tests.
import pytest
import ape
@pytest.fixture
def devnet_accounts():
return ape.accounts.containers["starknet"].test_accounts
@pytest.fixture
def owner(devnet_accounts):
return devnet_accounts[0]
Additionally, any accounts deployed in the local network are not saved to disk and are ephemeral.
import pytest
import ape
@pytest.fixture(scope="session")
def ephemeral_account():
accounts = ape.accounts.containers["starknet"]
accounts.deploy_account("ALIAS")
# This account only exists in the devnet and is not a key-file account.
return accounts.load("ALIAS")
Paying Fees
Starknet fees are currently paid in ETH, which is an ERC-20 on the Starknet chain.
To check your account balance (in ETH), use the balance property on the account:
from ape import accounts
acct = accounts.load("Alias")
print(acct.balance)
If your account has a positive balance, you can begin paying fees!
To pay fees, you can either manually set the max_fee kwarg on an invoke-transaction:
receipt = contract.my_mutable_method(123, max_fee=2900000000000)
NOTE: By not setting the max_fee, it will automatically get set to the value returned from the provider estimate_gas_cost() call.
You do not need to call estimate_gas_cost() explicitly.
Mainnet Alpha Whitelist Deployment Token
Currently, to deploy to Alpha-Mainnet, your contract needs to be whitelisted. You can provide your WL token in a variety of ways.
Via Python code:
from ape import project
my_contract = project.MyContract.deploy(token="MY_TOKEN")
Via an Environment Variable:
export ALPHA_MAINNET_WL_DEPLOY_TOKEN="MY_TOKEN"
Or, via the --token flag when deploying an account:
ape starknet accounts create MY_ACCOUNT --token MY_TOKEN
Development
This project is in development and should be considered a beta. Things might not be in their final state and breaking changes may occur. Comments, questions, criticisms and pull requests are welcomed.
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