Warning
Development of this SDK has been put on the community support. There is no active development of the repository, but the pull requests will be reviewed and merged.
In order to provide easy access to all the features of ZKsync Era, the zksync2-swift
Swift SDK was created,
which is made in a way that has an interface very similar to those of web3swift. In
fact, web3swift
is a peer dependency of our library is inherited from the corresponding web3swift
.
While most of the existing SDKs should work out of the box, deploying smart contracts or using unique ZKsync Era features, like account abstraction, requires providing additional fields to those that Ethereum transactions have by default.
The library is made in such a way that after replacing web3swift
with zksync2-swift
most client apps will work out of
box.
π For a detailed walkthrough, refer to the official documentation.
To begin, it is useful to have a basic understanding of the types of objects available and what they are responsible for, at a high level:
ZkSyncClient
provides connection to the ZKsync Era blockchain, which allows querying the blockchain state, such as account, block or transaction details, querying event logs or evaluating read-only code using call. Additionally, the client facilitates writing to the blockchain by sending transactions.Wallet
wraps all operations that interact with an account. An account generally has a private key, which can be used to sign a variety of types of payloads. It provides easy usage of the most common features.
IOS: >=13.0
MacOS: >=11.0
To install ZKsync via CocoaPods, add zksync2-swift
pod to the Podfile:
pod 'zkSync2-swift'
To install ZKsync via Swift Package Manager, add zksync2-swift
to the Package Dependencies:
'github.com/zksync-sdk/zksync2-swift'
Once you have integrated zksync2-swift
dependencies, connect to ZKsync using the endpoint of the operator node.
var zkSync: ZkSyncClient= BaseClient(URL(string: "https://sepolia.era.zksync.dev"))
var blockNumber = try await zkSync.web3.eth.blockNumber()
var block = try await zkSync.web3.eth.block(by: .latest)
let walletL1 = WalletL1(self.zkSync, ethClient: self.l1Web3, web3: self.l1Web3.web3, ethSigner: self.signer)
let walletL2 = WalletL2(self.zkSync, ethClient: self.l1Web3, web3: self.zkSync.web3, ethSigner: self.signerL2)
let baseDeployer = BaseDeployer(adapterL2: walletL2, signer: self.signerL2)
let wallet = wallet = Wallet(walletL1: walletL1, walletL2: walletL2, deployer: baseDeployer)
let balanceL1 = await wallet.walletL1.balanceL1()
let balanceL2 = try! await wallet.walletL2.getBalance()
Transfer funds among accounts on L2 network.
let result = await wallet.walletL2.transfer("<RECEIVER_ADDRESS>", amount: BigUInt(10000000))
Transfer funds from L1 to L2 network.
let tx = DepositTransaction(token: ZkSyncAddresses.EthAddress,
amount: BigUInt(10000000))
let result = try! await wallet.walletL1.deposit(transaction: tx)
Transfer funds from L2 to L1 network.
let result = try! await wallet.walletL2.withdraw(amount, to: nil, token: ZkSyncAddresses.EthAddress)
In order to run test you need to run local-setup on your machine. For running tests, use:
swift test --filter EIP712EncoderTests --skip EIP712EncoderTests.testEncodeDomainMemberValues;
swift test --filter Transaction712Tests --skip Transaction712Tests.testSerializeToEIP712Message;
swift test --filter ContractDeployerTests;
swift test --filter EthereumKeystoreV3Tests;
swift test --filter ZKSyncWeb3RpcIntegrationTests;
swift test --filter ZkSyncWalletIntegrationTests;
We welcome contributions from the community! If you're interested in contributing to the zksync2-swift
Swift SDK,
please take a look at our CONTRIBUTING.md for guidelines and details on the process.
Thank you for making zksync2-swift
Swift SDK better! π