zksync2 0.6.0b1

zkSync2 python client sdk

zkSync2 client sdk

Contents

• Getting started
• Provider
• Account
• Signer
• Transactions
• Contract interfaces
• Examples

Getting started

Requirements

Tool	Required
python	3.8, 3.9, 3.10
package manager	pip

how to install

pip install zksync2

Provider (zkSyncBuilder)

Design

ZkSync 2.0 is designed with the same styling as web3.
It defines the zksync module based on Ethereum and extends it with zkSync-specific methods.

How to construct

For usage, there is ZkSyncBuilder that returns a Web3 object with an instance of zksync module.
Construction only needs the URL to the zkSync blockchain.

Example:

from zksync2.module.module_builder import ZkSyncBuilder
...
web3 = ZkSyncBuilder.build("ZKSYNC_NET_URL")

Module parameters and methods

ZkSync module attributes:

Attribute	Description
chain_id	Returns an integer value for the currently configured "ChainId"
gas_price	Returns the current gas price in Wei

ZkSync module methods:

Method	Parameters	Return value	Description
zks_estimate_fee	zkSync Transaction	Fee structure	Gets Fee for ZkSync transaction
zks_main_contract	-	Address of main contract	Return address of main contract
zks_get_confirmed_tokens	from, limit	List[Token]	Returns all tokens in the set range by global index
zks_l1_chain_id	-	ChainID	Return ethereum chain ID
zks_get_all_account_balances	Address	Dict[str, int]	Return dictionary of token address and its value
zks_get_bridge_contracts	-	BridgeAddresses	Returns addresses of all bridge contracts that are interacting with L1 layer
eth_estimate_gas	Transaction	estimated gas	Overloaded method of eth_estimate_gas for ZkSync transaction gas estimation
wait_for_transaction_receipt	Tx Hash, optional timeout,poll_latency	TxReceipt	Waits for the transaction to be included into block by its hash and returns its receipt. Optional arguments are timeout and poll_latency in seconds
wait_finalized	Tx Hash, optional timeout, poll_latency	TxReceipt	Waits for the transaction to be finalized when finalized block occurs and it's number >= Tx block number

Account

Account encapsulate private key and, frequently based on it, the unique user identifier in the network.
This unique identifier also mean by wallet address.

Account construction

ZkSync2 Python SDK account is compatible with eth_account package In most cases user has its private key and gets account instance by using it.

Example:

from eth_account import Account
from eth_account.signers.local import LocalAccount
...
account: LocalAccount = Account.from_key("PRIVATE_KEY")

The base property that is used directly of account is: Account.address

Signer

Signer is used to generate signature of provided transaction based on your account(your private key)
This signature is added to the final EIP712 transaction for its validation

Singer construction

zkSync2 already has implementation of signer. For constructing the instance it needs only account and chain_id

Example:

from zksync2.signer.eth_signer import PrivateKeyEthSigner
from eth_account import Account
from zksync2.module.module_builder import ZkSyncBuilder


account = Account.from_key("PRIVATE_KEY")
zksync_web3 = ZkSyncBuilder.build("ZKSYNC_NETWORK_URL")
...
chain_id = zksync_web3.zksync.chain_id
signer = PrivateKeyEthSigner(account, chain_id)

Methods

Signer has a few methods to generate signature and verify message

Method	Parameters	Return value	Description
sign_typed_data	EIP712 Structure, optional domain	Web3 py SignedMessage	Builds SignedMessage based on the encoded in EIP712 format Transaction
verify_typed_data	signature, EIP712 structure, optional domain	bool	return True if this encoded transaction is signed with provided signature

Signer class also has the following properties:

Attribute	Description
address	Account address
domain	domain that is used to generate signature. It's depends on chain_id of network

Transactions

Basic type of ZkSync transaction is quite similar to the Web3 based one
It's defined in the package: zksync2.module.request_type

But for sending and signed transaction it's necessary to sign and encode it in EIP712 structure
EIP712 transaction type can be found in package: zksync2.transaction.transaction712 There are transaction builders in assistance for
convert ordinary transaction to EIP712 :

• TxFunctionCall
• TxCreateContract
• TxCreate2Contract
• TxWithdraw

Usage will be described in the examples [section][#Examples]

Contract interfaces

There is a set of system contract that helps execute and interact with ZkSync2 network
For user needs there are the following contracts:

• ZkSyncContract
• L1Bridge
• L2Bridge
• NonceHolder
• ERC20Encoder
• PrecomputeContractDeployer
• ContractEncoder
• PaymasterFlowEncoder

ZkSyncContract

ZkSyncContract is the implementation of ZkSync main contract functionality.
It's deployed on the L1 network and used like a bridge for providing functionality between L1 and L2
For instance, it handles things relate to the withdrawal operation

To construct object it needs contract main address, L1 Web3 instance and L1 account
Example:

from web3 import Web3
from zksync2.manage_contracts.zksync_contract import ZkSyncContract
from zksync2.module.module_builder import ZkSyncBuilder
from eth_account import Account
from eth_account.signers.local import LocalAccount

zksync = ZkSyncBuilder.build('URL_TO_ZKSYNC_NETWORK')
eth_web3 = Web3(Web3.HTTPProvider('URL_TO_ETH_NETWORK'))
account: LocalAccount = Account.from_key('YOUR_PRIVATE_KEY')
zksync_contract = ZkSyncContract(zksync.zksync.zks_main_contract(),
                                      eth_web3,
                                      account)

NonceHolder

NonceHolder contract is handling the deployment nonce
It's useful to precompute address for contract that is going to be deployer in the network.
To construct it there are need only account and Web3 object with integrated zksync module

from zksync2.manage_contracts.nonce_holder import NonceHolder
from eth_account import Account
from eth_account.signers.local import LocalAccount
from zksync2.module.module_builder import ZkSyncBuilder

zksync_web3 = ZkSyncBuilder.build("ZKSYNC_NETWORK_URL")
account: LocalAccount = Account.from_key("PRIVATE_KEY")
nonce_holder = NonceHolder(zksync_web3, account)

Methods:

Method	Parameters	Return value	Description
get_account_nonce	-	Nonce	returns account nonce
get_deployment_nonce	-	Nonce	return current deployment nonce that is going to be used
increment_deployment_nonce	Address	Nothing	Manually increments deployment nonce by provided account address

ERC20Encoder

This is the helper for encoding ERC20 methods. It's used for transfer non-native tokens

Construction needs only Web3 object with appended zksync module(ZkSyncBuilder)

It has only 1 single method: encode_method with arguments of function name, and it's args Usage example you may find in section Transfer funds (ERC20 tokens)

PrecomputeContractDeployer

PrecomputeContractDeployer is utility contract represented as type to cover the following functionality:

• encode binary contract representation by create method for further deploying
• encode binary contract representation by create2 method for further deploying
• Precompute contract address for create and create2 methods

Construction: needs only web3 object with appended zksync module

Example:

from zksync2.manage_contracts.precompute_contract_deployer import PrecomputeContractDeployer
from zksync2.module.module_builder import ZkSyncBuilder

zksync_web3 = ZkSyncBuilder.build("ZKSYNC_NETWORK_URL")
deployer = PrecomputeContractDeployer(zksync_web3)

The most functionality is hidden in the function builder helper types. See transaction section

Methods:

Method	Parameters	Return value	Description
encode_create	bytecode, optional call_data & salt	HexStr	create binary representation of contract in internal deploying format. bytecode - contract binary representation, call_data is used for ctor bytecode only, salt is used to generate unique identifier of deploying contract
encode_create2	bytecode, optional call_data & salt	HexStr	create binary representation of contract in internal deploying format. bytecode - contract binary representation, call_data is used for ctor bytecode only, salt is used to generate unique identifier of deploying contract
compute_l2_create_address	Address, Nonce	Address	Accepts address of deployer and current deploying nonce and returns address of contract that is going to be deployed by encode_create method
compute_l2_create2_address	Address, bytecode, ctor bytecode, salt	Address	Accepts address of deployer, binary representation of contract, if needed it's constructor in binary format and self. By default constructor can be b'0' value. Returns address of contract that is going to be deployed by encode_create2 method

ContractEncoder

This is type that helps with encoding contract methods and constructor
that are used as the data for transaction building

Example of construction:

from pathlib import Path
from zksync2.manage_contracts.contract_encoder_base import ContractEncoder
from zksync2.module.module_builder import ZkSyncBuilder

zksync_web3 = ZkSyncBuilder.build('ZKSYNC_TEST_URL')
counter_contract = ContractEncoder.from_json(zksync_web3, Path("./Counter.json"))

Methods:

Method	Parameters	Return value	Description
encode_method	function name, function arguments	HexStr	encode contract function method with it's arguments in binary representation
encode_constructor	constructor arguments	bytes	encode constructor with arguments in binary representation

PaymasterFlowEncoder

PaymasterFlowEncoder is utility contract for encoding Paymaster parameters.
Construction contract needs only Web3 Module object. It can be Eth or ZkSync.

Example:

from zksync2.manage_contracts.paymaster_utils import PaymasterFlowEncoder
from zksync2.module.module_builder import ZkSyncBuilder

zksync_web3 = ZkSyncBuilder.build("ZKSYNC_NETWORK_URL")
paymaster_encoder = PaymasterFlowEncoder(zksync_web3)

This utility contract has 2 methods wrapped directly to python:

• encode_approval_based
• encode_general

For example and usage, please have a look into example section

Examples

• check balance
• deposit funds
• transfer
• transfer erc20 tokens
• withdraw funds
• finalize withdrawal
• deploy contract, precompute address by create
• deploy contract with constructor(create method) and interact with contract
• deploy contract with dependent contract(create method)
• deploy contract, precompute address by create2
• deploy contract with dependency, precompute address by create2
• how to compile solidity contracts