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Getting started

Create a new Rust app

The very first step is to create a binary rust project.

cargo new zilliqa-rs-demo

then we need to add zilliqa-rs and tokio to the project's dependencies:

cargo add zilliqa-rs tokio

Call a simple JSON-RPC API

Run the isolated-server using docker

Here we run an isolated server using docker to use it as the target network, but you can use any zilliqa network you want.

docker run -d -p 5555:5555 --name iso-server zilliqa-isolated-server:latest

Call GetBalance

First, we need to create a provider. In the first line of the main, we create an HTTP provider. We use the URL of the isolated server we ran in the previous step. The chain ID of this network is 222. Then we can call the get_balance function of the provider, passing the address of the account we want its balance.

use std::error::Error;

use zilliqa_rs::middlewares::Middleware;
use zilliqa_rs::providers::{Http, Provider};

#[tokio::main]
async fn main() -> Result<(), Box<dyn Error>> {
    let provider = Provider::<Http>::try_from("http://127.0.0.1:5555")?.with_chain_id(222);
    let balance = provider
        .get_balance("0x381f4008505e940ad7681ec3468a719060caf796")
        .await;

    println!("{balance:?}");
    Ok(())
}

Sending transactions

Provider with a signer

To start sending transactions, we need to change the provider. The provider we had so far, didn't have a signer. That was because we didn't want to send transactions. But now we want, so we need to provide a signer for it:

    let wallet = "0xe53d1c3edaffc7a7bab5418eb836cf75819a82872b4a1a0f1c7fcf5c3e020b89"
        .parse::<LocalWallet>()?;

    let provider = Provider::<Http>::try_from("http://127.0.0.1:5555")?
        .with_chain_id(222)
        .with_signer(wallet.clone());

Here, we create a new wallet from a private key and a provider with that signer. This provider now can be used to send transactions.

Let's transfer some ZIL to a random address. First, we create a random wallet:

    let receiver = LocalWallet::create_random()?;

Then we need to compose a transaction. TransactionBuilder is used to build a transaction:

    let tx = TransactionBuilder::default()
        .to_address(receiver.address.clone())
        .amount(parse_zil("2.0")?)
        .gas_price(2000000000u128)
        .gas_limit(50u64)
        .build();

Here we are going to transfer 2.0 ZIL to the receiver. Now we need to send the transaction:

    provider
        .send_transaction_without_confirm::<CreateTransactionResponse>(tx)
        .await?;

Now, let's check the balance:

    let balance = provider.get_balance(&receiver.address).await;
    println!("{balance:?}");
cargo run

Ok(BalanceResponse { nonce: 138, balance: 899999994124734000000000 })
Ok(BalanceResponse { nonce: 0, balance: 2000000000000 })

Using pay function

TransactionBuilder has an auxiliary function named pay to simplify payment transaction creation:

    let tx = TransactionBuilder::default().pay(amount, receiver.address.clone()).build();

Working with contracts

Technical notes

One of the coolest features of zilliqa-rs is generating rust code for your scilla contracts during build time. It means if your contract has a transition like transfer, you can call it the same as a normal rust function. If it has a parameter of an address, you must pass an address to this function. And this means all of the beauties of type-checking of rust come to working with scilla contracts.

Generating rust code from scilla contracts

We want to deploy a simple contract named HelloWorld and call its setHello transition. First, we need to create a folder next to src. Let's call it contracts. Then we move HelloWorld.scilla to this folder. To let zilliqa-rs scilla-to-rust code generation know about the contracts path, we need to export CONTRACTS_PATH environment variable. The simplest way is to create .cargo/config.toml file and change it like:

[env]
CONTRACTS_PATH = {value = "contracts", relative = true}

setting relative to true is crucial. Otherwise, your scilla contracts won't be transpiled to rust. Now, if you build the project using cargo build, your HelloWorld.scilla gets converted to rust under the hood.

The generated code is something like this:

impl<T: Middleware> HelloWorld<T> {
    pub async fn deploy(client: Arc<T> , owner: ZilAddress) -> Result<Self, Error> {
    }

    pub fn address(&self) -> &ZilAddress  {
    }
    
    pub fn set_hello(&self , msg: String) -> RefMut<'_, transition_call::TransitionCall<T>> {
    }

    pub fn get_hello(&self ) -> RefMut<'_, transition_call::TransitionCall<T>> {
    }

    pub async fn welcome_msg(&self) -> Result<String, Error> {
    }

    pub async fn owner(&self) -> Result<ZilAddress, Error> {
    }
}
  • The deploy deploys the contract to the network. Because HelloWorld.scilla contract accepts an address, owner, as a deployment parameter, the deploy function needs that too. It means you can't deploy it without providing a valid address.
  • The address function returns the address of the deployed contract.
  • set_hello corresponds to setHello transition in the contract. Again, because the transition accepts a string parameter, the set_hello function does too.
  • get_hello corresponds to the getHello transition.
  • The contract has a field named, welcome_msg, to get the value of this field, the welcome_msg function should be called.
  • The contract has an immutable state named, owner and we passed the value during deployment. To get the value of the owner, we need to call owner

Contract Deployment

Now it's time to deploy the contract:

    let contract = HelloWorld::deploy(provider.into(), wallet.address).await?;
    println!("Contract address: {:?}", contract.address());

The first parameter to deploy is the provider. The rest depends on the contract and how many immutable states it has. Here in HelloWorld.scilla we only have owner, so we just pass an address. It's type-safe, it means you can't pass an integer or even a raw string to deploy function as owner.

Run the code:

cargo run

Ok(BalanceResponse { nonce: 138, balance: 899999994124734000000000 })
Contract address: ZilAddress("0xC50C93831F6eAB4e4F011076dca6e887288cc872")

Instead of deploy, you can use deploy_compressed if you like to deploy a compressed version of the contract.

Getting contract states

Our contract has owner, an immutable state, and welcome_msg, a mutable one. We can get these states by calling the corresponding functions:

    println!("Contract owner: {:?}", contract.owner().await?);
    println!("Welcome msg: {}", contract.welcome_msg().await?);

Calling a transition

Our contract has a setHello transition. Calling this transition is not harder than calling a rust function:

    contract.set_hello("Salaam".to_string()).call().await?;

Pay attention, here we need to call call too. That's because everything you do before call is like configuring the transition call. For example, you can set the amount of ZIL you want to pass to a transition before calling call function:

    contract.transfer(receiver).amount(parse_zil("0.1")).call().await?;

OK, now if you get and print welcome_msg it should have the new value:

    println!("Welcome msg: {}", contract.welcome_msg().await?);

The final main:

use std::error::Error;

use zilliqa_rs::{
    contract::HelloWorld,
    core::CreateTransactionResponse,
    middlewares::Middleware,
    providers::{Http, Provider},
    signers::LocalWallet,
    transaction::TransactionBuilder,
    core::parse_zil,
};

#[tokio::main]
async fn main() -> Result<(), Box<dyn Error>> {
    // Create the signer.
    let wallet = "0xe53d1c3edaffc7a7bab5418eb836cf75819a82872b4a1a0f1c7fcf5c3e020b89"
        .parse::<LocalWallet>()?;

    // Create the provider with a signer.
    let provider = Provider::<Http>::try_from("http://127.0.0.1:5555")?
        .with_chain_id(222)
        .with_signer(wallet.clone());

    // Call a JSON-RPC endpoint.
    let balance = provider
        .get_balance("0x381f4008505e940ad7681ec3468a719060caf796")
        .await;

    println!("{balance:?}");

    // Send a transaction
    let receiver = LocalWallet::create_random()?;
    let tx = TransactionBuilder::default()
        .to_address(receiver.address.clone())
        .amount(parse_zil("2.0")?)
        .gas_price(2000000000u128)
        .gas_limit(50u64)
        .build();

    provider
        .send_transaction_without_confirm::<CreateTransactionResponse>(tx)
        .await?;

    let balance = provider.get_balance(&receiver.address).await;
    println!("{balance:?}");

    // Deploy a contract
    let contract = HelloWorld::deploy(provider.into(), wallet.address).await?;
    println!("Contract address: {:?}", contract.address());

    println!("Contract owner: {:?}", contract.owner().await?);
    println!("Welcome msg: {}", contract.welcome_msg().await?);

    contract.set_hello("Salaam".to_string()).call().await?;
    println!("Welcome msg: {}", contract.welcome_msg().await?);
    Ok(())
}

Let's run the code:

cargo run

Ok(BalanceResponse { nonce: 138, balance: 899999994124734000000000 })
Contract address: ZilAddress("0xB84De4A67E1640D9259c502AAb6751678B593185")
Contract owner: ZilAddress("0xd90f2e538CE0Df89c8273CAd3b63ec44a3c4ed82")
Welcome msg: Hello world!
Welcome msg: Salaam