The transfer()
method lets you transfer a single asset, but what if you needed to move all of your assets to a different wallet? You could repeatably call transfer()
, initiating a transaction each time, or you bundle all the transfers into a single transaction. This chapter guides you through crafting your custom transaction for transferring all assets owned by a wallet.
Lets quickly go over the setup:
let mut wallet_1 = WalletUnlocked::new_random(None);
let mut wallet_2 = WalletUnlocked::new_random(None);
const NUM_ASSETS: u64 = 5;
const AMOUNT: u64 = 100_000;
const NUM_COINS: u64 = 1;
let (coins, _) =
setup_multiple_assets_coins(wallet_1.address(), NUM_ASSETS, NUM_COINS, AMOUNT);
let (provider, _) = setup_test_provider(coins, vec![], None, None).await;
wallet_1.set_provider(provider.clone());
wallet_2.set_provider(provider.clone());
We prepare two wallets with randomized addresses. Next, we want one of our wallets to have some random assets, so we set them up with setup_multiple_assets_coins()
. Having created the coins, we can start a provider and assign it to the previously created wallets.
Transactions require us to define input and output coins. Let's assume we do not know the assets owned by wallet_1
. We retrieve its balances, i.e. tuples consisting of a string representing the asset id and the respective amount. This lets us use the helpers get_asset_inputs_for_amount()
, get_asset_outputs_for_amount()
to create the appropriate inputs and outputs.
For the sake of simplicity, we avoid transferring the base asset so we don't have to worry about transaction fees:
let balances = wallet_1.get_balances().await?;
let mut inputs = vec![];
let mut outputs = vec![];
for (id_string, amount) in balances {
let id = AssetId::from_str(&id_string).unwrap();
// leave the base asset to cover transaction fees
if id == BASE_ASSET_ID {
continue;
}
let input = wallet_1.get_asset_inputs_for_amount(id, amount).await?;
inputs.extend(input);
let output = wallet_1.get_asset_outputs_for_amount(wallet_2.address(), id, amount);
outputs.extend(output);
}
All that is left is to build the transaction via ScriptTransactionBuilder
, have wallet_1
sign it, and we can send it. We confirm this by checking the number of balances present in the receiving wallet and their amount:
let mut tb =
ScriptTransactionBuilder::prepare_transfer(inputs, outputs, TxParameters::default());
wallet_1.sign_transaction(&mut tb);
let tx = tb.build()?;
provider.send_transaction(tx).await?;
let balances = wallet_2.get_balances().await?;
assert_eq!(balances.len(), (NUM_ASSETS - 1) as usize);
for (_, balance) in balances {
assert_eq!(balance, AMOUNT);
}