WalletManager This guide provides step-by-step instructions on how to use WalletManager.
WalletManager The WalletManager constructor accepts an optional object to define its storage. The storage describes how and where the WalletManager will store its vaults of wallets. If storage is not provided, the WalletManager uses a default one that does not persist data.
For now, let's keep it simple and not worry about the storage. Later we will discuss it in more detail.
To instantiate a WalletManager you can simply:
const walletManager = new WalletManager();WalletManager Password By default, a WalletManager instance is locked when created. Before using it, you need to unlock it by setting a password. You can do this by calling the unlock method.
const password = 'my-password';
await walletManager.unlock(password); Once your WalletManager is unlocked, it can manage your wallets.
A vault in WalletManager serves as a secure container for wallets. The WalletManager manages wallets by interacting with these vaults, supporting operations such as getAccounts, which returns public information about all wallets stored in the vault, and exportAccount, which exports a private key for a given wallet address.
To add a vault, we utilize the addVault method. Here's how we can create a private key vault and add a private key from a wallet we own:
const myWallet = Wallet.generate({
provider,
});
const privateKey = myWallet.privateKey;
await walletManager.addVault({
type: 'privateKey',
secret: privateKey,
title: 'My first private key vault',
provider,
}); The addVault method requires an object with three properties: type, secret, and title. The WalletManager currently supports two types of vaults: privateKeyVault and mnemonicVault. For the secret, we use our wallet's private key, and for the title, we can provide a custom name.
By running this code, WalletManager creates a new vault instance of the type privateKey and adds one account (our wallet) to this newly created vault.
A key feature of the WalletManager is its ability to manage multiple vaults, even of the same type. This implies that if you run the addVault method again, with the same parameters, WalletManager will create another vault of the type privateKey, holding the same wallet. Here's an example:
await walletManager.addVault({
type: 'privateKey',
secret: privateKey,
title: 'My second private key vault',
provider,
}); After executing this, you will find that your WalletManager is managing two privateKey vaults, both storing the same wallet.
Remember, both title and secret are optional when adding vaults, but providing a title makes it easier to manage your vaults and wallets. If you add a vault without providing a secret, this will result in one new account (wallet) being generated by the vault it self.
WalletManager With your WalletManager set up, you can now access your vaults and wallets. Here's how to retrieve the details of your vaults:
const vaults = walletManager.getVaults();
console.log(vaults);This will output something like this:
[
{
title: 'My first private key vault',
type: 'privateKey',
vaultId: 0
},
{
title: 'My second private key vault',
type: 'privateKey',
vaultId: 1
}
] As you can see, the WalletManager assigns unique vaultIds for each vault. The first vault you added has a vaultId of 0, and the second one has a vaultId of 1.
Let's retrieve your wallet instance with the getWallet method:
const retrievedWallet = walletManager.getWallet(myWallet.address);This guide walked through the steps to instantiate a WalletManager, set up its first vault, and retrieve vault information. The following sections will explore more functionalities of WalletManager, and go deeper into the usage of its vaults and the details of its storage system.
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