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Quickstart

In this tutorial, you will build and deploy a unique dApp that requires confidentiality to work. By the end of the tutorial, you should feel comfortable setting up your EVM development environment to target Sapphire, and know how and when to use confidentiality.

The expected completion time of this tutorial is 15 minutes.

Create a Sapphire-Native dApp

Porting an existing EVM app is cool, and will provide benefits such as protection against MEV. However, starting from scratch with confidentiality in mind can unlock some really novel dApps and provide a higher level of security.

One simple-but-useful dApp that takes advantage of confidentiality is a dead person's switch that reveals a secret (let's say the encryption key to a data trove) if the operator fails to re-up before too long. Let's make it happen!

Init a new Hardhat project

We're going to use Hardhat, but Sapphire should be compatible with your dev environment of choice. Let us know if things are not as expected!

  1. Make & enter a new directory mkdir quickstart && cd quickstart
  2. npx hardhat@~2.19.4 init then create a TypeScript project and install the project dependencies.
  3. Add @oasisprotocol/sapphire-hardhat as dependency:
npm install -D @oasisprotocol/sapphire-hardhat

Add the Sapphire Testnet to Hardhat

Open up your hardhat.config.ts and drop in these lines.

hardhat.config.ts
 import { HardhatUserConfig } from "hardhat/config";
 import '@oasisprotocol/sapphire-hardhat';
 import "@nomicfoundation/hardhat-toolbox";

 const config: HardhatUserConfig = {
  solidity: "0.8.19",
  networks: {
    'sapphire-testnet': {
      // This is Testnet! If you want Mainnet, add a new network config item.
      url: "https://testnet.sapphire.oasis.io",
      accounts: process.env.PRIVATE_KEY
        ? [process.env.PRIVATE_KEY]
        : [],
      chainId: 0x5aff,
    },
  },
 };

 export default config;

By importing @oasisprotocol/sapphire-hardhat at the top of the config file, any network config entry corresponding to the Sapphire's chain ID will automatically be wrapped with Sapphire specifics for encrypting and signing the transactions.

Get some Sapphire Testnet tokens

Now for the fun part. As you have configured the Sapphire Test network, get some native TEST tokens. Hit up the one and only Oasis Testnet faucet, select "Sapphire" and enter your address. Submit the form and TEST be on your way.

Get the Contract

This is a Sapphire tutorial and you're already a Solidity expert, so let's not bore you with explaining the gritty details of the contract. Start by pasting Vigil.sol into contracts/Vigil.sol.

While you're there, also place run-vigil.ts into scripts/run-vigil.ts. We'll need that later.

Vigil.sol, the interesting parts

The key state variables are:

    SecretMetadata[] public _metas;
    bytes[] private _secrets;
  • _metas is marked with public visibility, so despite the state itself being encrypted and not readable directly, Solidity will generate a getter that will do the decryption for you.
  • _secrets is private and therefore truly secret; only the contract can access the data contained in this mapping.

And the methods we'll care most about are

  • createSecret, which adds an entry to both _metas and _secrets.
  • revealSecret, which acts as an access-controlled getter for the data contained with _secrets. Due to trusted execution and confidentiality, the only way that the secret will get revealed is if execution proceeds all the way to the end of the function and does not revert.

The rest of the methods are useful if you actually intended to use the contract, but they demonstrate that developing for Sapphire is essentially the same as for Ethereum. You can even write tests against the Hardhat network and use Hardhat plugins.

Run the Contract

And to wrap things up, we'll put Vigil through its paces. First, let's see what's actually going on.

After deploying the contract, we can create a secret, check that it's not readable, wait a bit, and then check that it has become readable. Pretty cool if you ask me!

Anyway, make it happen by running

PRIVATE_KEY="0x..." npx hardhat run scripts/run-vigil.ts --network sapphire-testnet

And if you see something like the following, you'll know you're well on the road to deploying confidential dApps on Sapphire.

Vigil deployed to: 0x74dC4879B152FDD1DDe834E9ba187b3e14f462f1
Storing a secret in 0x13125d868f5fb3cbc501466df26055ea063a90014b5ccc8dfd5164dc1dd67543
Checking the secret
failed to fetch secret: reverted: not expired
Waiting...
Checking the secret again
The secret ingredient is brussels sprouts

All done!

Congratulations, you made it through the Sapphire tutorial! If you have any questions, please check out the guide and join the discussion on the #sapphire-paratime Discord channel.

Best of luck on your future forays into confidentiality!

Example: Hardhat

Visit the Sapphire ParaTime repository to download the Hardhat example of this quickstart.

Example: Starter project

If your project involves building a web frontend, we recommend that you check out the official Oasis starter files.

Example: Go and Python

Are you building your dApp in languages other than TypeScript? Check out the official Oasis starter project for Go and the Oasis starter project for Python.

See also

📄️ Browser Support

Writing Sapphire dApp for browser and Metamask

📄️ ParaTime Client Node

These instructions are for setting up a ParaTime client node which only observes ParaTime activity and can submit transactions. If you want to run a ParaTime node instead, see the instructions for running a ParaTime node. Similarly, if you want to run a validator or a non-validator node instead, see the instructions for running a validator node or instructions for running a non-validator node.

📄️ Web3 Gateway

Web3 gateway for Emerald and Sapphire ParaTimes