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Version: 1.1.0

Deploying a Token on Casper Livenet

In this tutorial, we will take the token we created in the previous one and deploy it on the Livenet Casper network, using the Odra Livenet backend.

We will also take a look at the tools that Casper Ecosystem provides to interact with our newly deployed token.

info

Most of this tutorial will work with any Casper contract.

Casper Wallet

We will be using Casper Wallet to do some tasks in this tutorial. To install it, please follow the instructions on the official website.

After setting up the wallet, extract the private key of the account you want to use for our testing. You can do this by clicking on the Menu > Download account keys.

danger

You are solely responsible for the security of your private keys. We recommend creating a new account for the testing purposes.

Why do we need the private key? We will use it in Odra to deploy our contract to the Casper network using Livenet backend.

Getting tokens

To deploy the contract on the Livenet, we need to have some CSPR. The easiest way to get them is to use the faucet, which will send us 1000 CSPR for free. Unfortunately, only on the Testnet.

To use the faucet, go to the Casper Testnet Faucet. Log in using your Casper Wallet account and click on the "Request Tokens" button.

note

One account can request tokens only once. If you run out of tokens, you can either ask someone in the Casper community to send you some, or simply create a new account in the wallet.

Now, when we have the tokens, we can deploy the contract. Let's do it using Odra!

Odra Livenet

Odra Livenet is described in detail in the backends section of this documentation. We will then briefly describe how to use set it up in this tutorial.

In your contract code, create a new file in the bin folder:

bin/our_token_livenet.rs
//! Deploys a new OurToken contract on the Casper livenet and mints some tokens for the tutorial
//! creator.
use std::str::FromStr;

use odra::casper_types::U256;
use odra::host::{Deployer, HostEnv, HostRef, HostRefLoader};
use odra::Address;
use ourcoin::token::{OurTokenHostRef, OurTokenInitArgs};

fn main() {
// Load the Casper livenet environment.
let env = odra_casper_livenet_env::env();

// Caller is the deployer and the owner of the private key.
let owner = env.caller();
// Just some random address...
let recipient = "hash-48bd92253a1370d1d913c56800296145547a243d13ff4f059ba4b985b1e94c26";
let recipient = Address::from_str(recipient).unwrap();

// Deploy new contract.
let mut token = deploy_our_token(&env);
println!("Token address: {}", token.address().to_string());

// Propose minting new tokens.
env.set_gas(1_000_000_000u64);
token.propose_new_mint(recipient, U256::from(1_000));

// Vote, we are the only voter.
env.set_gas(1_000_000_000u64);
token.vote(true, U256::from(1_000));

// Let's advance the block time by 11 minutes, as
// we set the voting time to 10 minutes.
// OH NO! It is the Livenet, so we need to wait real time...
// Hopefully you are not in a hurry.
env.advance_block_time(11 * 60 * 1000);

// Tally the votes.
env.set_gas(1_500_000_000u64);
token.tally();

// Check the balances.
println!("Owner's balance: {:?}", token.balance_of(&owner));
println!(
"Tutorial creator's balance: {:?}",
token.balance_of(&recipient)
);
}

/// Deploys a contract.
pub fn deploy_our_token(env: &HostEnv) -> OurTokenHostRef {
let name = String::from("OurToken");
let symbol = String::from("OT");
let decimals = 0;
let initial_supply = U256::from(1_000);

let init_args = OurTokenInitArgs {
name,
symbol,
decimals,
initial_supply,
};

env.set_gas(300_000_000_000u64);
OurTokenHostRef::deploy(env, init_args)
}

/// Loads a contract. Just in case you need to load an existing contract later...
fn _load_cep18(env: &HostEnv) -> OurTokenHostRef {
let address = "hash-XXXXX";
let address = Address::from_str(address).unwrap();
OurTokenHostRef::load(env, address)
}

In your Cargo.toml file, we need to add a new dependency, a feature and register the new binary. In the end, it should look like this:

Cargo.toml
[package]
name = "ourcoin"
version = "0.1.0"
edition = "2021"

[dependencies]
odra = { version = "1.1.0", features = [], default-features = false }
odra-modules = { version = "1.1.0", features = [], default-features = false }
odra-casper-livenet-env = { version = "1.1.0", optional = true }

[dev-dependencies]
odra-test = { version = "1.1.0", features = [], default-features = false }

[build-dependencies]
odra-build = { version = "1.1.0", features = [], default-features = false }

[features]
default = []
livenet = ["odra-casper-livenet-env"]

[[bin]]
name = "ourcoin_build_contract"
path = "bin/build_contract.rs"
test = false

[[bin]]
name = "ourcoin_build_schema"
path = "bin/build_schema.rs"
test = false

[[bin]]
name = "our_token_livenet"
path = "bin/our_token_livenet.rs"
required-features = ["livenet"]

[profile.release]
codegen-units = 1
lto = true

[profile.dev.package."*"]
opt-level = 3

Finally, add the .env file with the following content:

.env
# Path to the secret key of the account that will be used to deploy the contracts.
ODRA_CASPER_LIVENET_SECRET_KEY_PATH=folder_with_your_secret_key/secret_key_file.pem

# RPC address of the node that will be used to deploy the contracts.
ODRA_CASPER_LIVENET_NODE_ADDRESS=http://138.201.80.141:7777

# Chain name of the network.
ODRA_CASPER_LIVENET_CHAIN_NAME=casper-test

Of course, you need to replace the secret key's path with the path to the secret key file you downloaded from the Casper Wallet.

note

One of the problems you may encounter is that the node you are using will be down or will not accept your calls. In this case, you will have to find and use another node IP address.

Now, we will run our code:

cargo run --bin our_token_livenet --features livenet

If everything is set up correctly, you should see the output similar to this:

     Running `target/debug/our_token_livenet`
💁 INFO : Deploying "OurToken".
💁 INFO : Found wasm under "wasm/OurToken.wasm".
🙄 WAIT : Waiting 15s for "e6b34772ebc3682702674102db87c633b0544242eafd5944e680371be4ea1227".
🙄 WAIT : Waiting 15s for "e6b34772ebc3682702674102db87c633b0544242eafd5944e680371be4ea1227".
💁 INFO : Deploy "e6b34772ebc3682702674102db87c633b0544242eafd5944e680371be4ea1227" successfully executed.
💁 INFO : Contract "hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857" deployed.

Token address: hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857

💁 INFO : Calling "hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857" with entrypoint "propose_new_mint".
🙄 WAIT : Waiting 15s for "2f89cc96b6f8f05b88f8e75bef3a2f0ba39e9ab761693afff49e4112aa9d7361".
🙄 WAIT : Waiting 15s for "2f89cc96b6f8f05b88f8e75bef3a2f0ba39e9ab761693afff49e4112aa9d7361".
💁 INFO : Deploy "2f89cc96b6f8f05b88f8e75bef3a2f0ba39e9ab761693afff49e4112aa9d7361" successfully executed.
💁 INFO : Calling "hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857" with entrypoint "vote".
🙄 WAIT : Waiting 15s for "aca9ae847cfcb97c81b4c64992515ff14d6f63a60f7c141558463f5b752058a5".
🙄 WAIT : Waiting 15s for "aca9ae847cfcb97c81b4c64992515ff14d6f63a60f7c141558463f5b752058a5".
💁 INFO : Deploy "aca9ae847cfcb97c81b4c64992515ff14d6f63a60f7c141558463f5b752058a5" successfully executed.
💁 INFO : advance_block_time called - Waiting for 660000 ms
💁 INFO : Calling "hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857" with entrypoint "tally".
🙄 WAIT : Waiting 15s for "223b135edbeadd88425183abaec0b0afb7d7770ffc57eba9054e3ea60e9e9cef".
🙄 WAIT : Waiting 15s for "223b135edbeadd88425183abaec0b0afb7d7770ffc57eba9054e3ea60e9e9cef".
💁 INFO : Deploy "223b135edbeadd88425183abaec0b0afb7d7770ffc57eba9054e3ea60e9e9cef" successfully executed.

Owner's balance: 1000
Tutorial creator's balance: 1000

Congratulations, your contract is now deployed on the Casper network! Before we move on, note the address of the token!

We will use it in the next section to interact with the token. In our case it is hash-565bd0bde39c8c3dd79e49c037e05eac8add2b2193e86a91a6bac068e0de7857.

Cspr.live

The first thing we will do is to explore Casper's network block explorer, cspr.live. We can put the address of our token in the search bar to find it.

note

If you deployed your contract on the Testnet, remember to make sure that the Testnet network is selected in the dropdown menu in the top right corner.

If everything is set up correctly, you should see the contract package's details. Besides the owner, keys etc., you can also see the contract's metdata, if it was developed using a standard that cspr.live supports.

Indeed, we can see that it detected that our contract is a CEP-18 token! We see the name, symbol and total supply. All the mentions of the contract on the website will use the token name instead of the contract address.

contract.png

Additionally, on the Token Txs tab, we can see the transactions that happened with the token. We can see the minting transaction we did in the previous section and transfers done during the voting process.

transactions.png

If we click on one of the accounts that recieved the tokens, we will go to the account page. Here, on the Tokens tab, we can see all the tokens that the account has - and OurToken is one of them!

If you wish, you can check the status of the contract deployed during the development of this tutorial here.

Transferring Tokens using Casper Wallet

Casper wallet can do much more than just logging in to the faucet, exporting the private keys and transferring CSPR. It can also interact with the contracts deployed on the network.

If you deployed the contract and left some OT tokens to yourself, you should see them in the Casper Wallet window.

You should also be able to transfer them to another account!

wallet.png

Conclusion

We've successfully deployed a token on the Casper network and interacted with it using the Odra backend and Casper Wallet. We've also learned how to use the cspr.live block explorer to check the status of your contract.

Odra, Cspr.live and Casper Wallet are just a few of the tools that the Casper ecosystem provides. Feel free to explore them on casperecosystem.io.