// Copyright 2022 IOTA Stiftung // SPDX-License-Identifier: Apache-2.0 //! In this example we will create all output types in a single transaction. //! //! Rename `.env.example` to `.env` first, then run the command: //! ```sh //! cargo run --release --example all //! ``` use iota_sdk::{ client::{ api::GetAddressesOptions, node_api::indexer::query_parameters::QueryParameter, request_funds_from_faucet, secret::SecretManager, Client, Result, }, types::block::{ address::{AliasAddress, ToBech32Ext}, output::{ feature::{IssuerFeature, MetadataFeature, SenderFeature}, unlock_condition::{ AddressUnlockCondition, ExpirationUnlockCondition, GovernorAddressUnlockCondition, ImmutableAliasAddressUnlockCondition, StateControllerAddressUnlockCondition, StorageDepositReturnUnlockCondition, TimelockUnlockCondition, }, AliasId, AliasOutputBuilder, BasicOutputBuilder, FoundryId, FoundryOutputBuilder, NativeToken, NftId, NftOutputBuilder, Output, OutputId, SimpleTokenScheme, TokenId, TokenScheme, }, payload::Payload, }, }; #[tokio::main] async fn main() -> Result<()> { // This example uses secrets in environment variables for simplicity which should not be done in production. // Configure your own mnemonic in the ".env" file. Since the output amount cannot be zero, the seed must contain // non-zero balance. dotenvy::dotenv().ok(); for var in ["NODE_URL", "MNEMONIC", "FAUCET_URL", "EXPLORER_URL"] { std::env::var(var).expect(&format!(".env variable '{var}' is undefined, see .env.example")); } // Create a node client. let client = Client::builder() .with_node(&std::env::var("NODE_URL").unwrap())? .finish() .await?; let secret_manager = SecretManager::try_from_mnemonic(std::env::var("MNEMONIC").unwrap())?; let token_supply = client.get_token_supply().await?; let address = secret_manager .generate_ed25519_addresses(GetAddressesOptions::from_client(&client).await?.with_range(0..1)) .await?[0]; println!( "Requesting funds (waiting 15s): {}", request_funds_from_faucet(&std::env::var("FAUCET_URL").unwrap(), &address).await?, ); tokio::time::sleep(std::time::Duration::from_secs(15)).await; ////////////////////////////////// // create new alias and nft output ////////////////////////////////// let alias_output_builder = AliasOutputBuilder::new_with_amount(2_000_000, AliasId::null()) .add_feature(SenderFeature::new(address)) .add_feature(MetadataFeature::new([1, 2, 3])?) .add_immutable_feature(IssuerFeature::new(address)) .add_unlock_condition(StateControllerAddressUnlockCondition::new(address)) .add_unlock_condition(GovernorAddressUnlockCondition::new(address)); // address of the owner of the NFT let nft_output_builder = NftOutputBuilder::new_with_amount(1_000_000, NftId::null()) .add_unlock_condition(AddressUnlockCondition::new(address)); let outputs = [ alias_output_builder .clone() .with_state_index(0) .with_foundry_counter(0) .finish_output(token_supply)?, nft_output_builder .clone() // address of the minter of the NFT // .add_feature(IssuerFeature::new(address)) .finish_output(token_supply)?, ]; let block = client .build_block() .with_secret_manager(&secret_manager) .with_outputs(outputs)? .finish() .await?; println!( "Block with new nft and alias output sent: {}/block/{}", std::env::var("EXPLORER_URL").unwrap(), block.id() ); let _ = client.retry_until_included(&block.id(), None, None).await?; /////////////////////////////////////////////// // create foundry, native tokens and nft output /////////////////////////////////////////////// let alias_output_id = get_alias_output_id(block.payload().unwrap())?; let alias_id = AliasId::from(&alias_output_id); let nft_output_id = get_nft_output_id(block.payload().unwrap())?; let nft_id = NftId::from(&nft_output_id); let token_scheme = TokenScheme::Simple(SimpleTokenScheme::new(50, 0, 100)?); let foundry_id = FoundryId::build( &AliasAddress::from(AliasId::from(&alias_output_id)), 1, token_scheme.kind(), ); let token_id = TokenId::from(foundry_id); let foundry_output_builder = FoundryOutputBuilder::new_with_amount(1_000_000, 1, token_scheme) .add_unlock_condition(ImmutableAliasAddressUnlockCondition::new(AliasAddress::from(alias_id))); let outputs = [ alias_output_builder .clone() .with_amount(1_000_000) .with_alias_id(alias_id) .with_state_index(1) .with_foundry_counter(1) .finish_output(token_supply)?, foundry_output_builder .clone() // Mint native tokens .add_native_token(NativeToken::new(token_id, 50)?) .finish_output(token_supply)?, nft_output_builder .clone() .with_nft_id(nft_id) .finish_output(token_supply)?, ]; let block = client .build_block() .with_secret_manager(&secret_manager) .with_input(nft_output_id.into())? .with_input(alias_output_id.into())? .with_outputs(outputs)? .finish() .await?; println!( "Block with foundry output, minted tokens and nft sent: {}/block/{}", std::env::var("EXPLORER_URL").unwrap(), block.id() ); let _ = client.retry_until_included(&block.id(), None, None).await?; ////////////////////////////////// // create all outputs ////////////////////////////////// let alias_output_id = get_alias_output_id(block.payload().unwrap())?; let foundry_output_id = get_foundry_output_id(block.payload().unwrap())?; let nft_output_id = get_nft_output_id(block.payload().unwrap())?; let basic_output_builder = BasicOutputBuilder::new_with_amount(1_000_000).add_unlock_condition(AddressUnlockCondition::new(address)); let outputs = [ alias_output_builder .with_amount(1_000_000) .with_alias_id(alias_id) .with_state_index(2) .with_foundry_counter(1) .finish_output(token_supply)?, foundry_output_builder.finish_output(token_supply)?, nft_output_builder.with_nft_id(nft_id).finish_output(token_supply)?, // with native token basic_output_builder .clone() .add_native_token(NativeToken::new(token_id, 50)?) .finish_output(token_supply)?, // with most simple output basic_output_builder.clone().finish_output(token_supply)?, // with metadata feature block basic_output_builder .clone() .add_feature(MetadataFeature::new([13, 37])?) .finish_output(token_supply)?, // with storage deposit return basic_output_builder .clone() .with_amount(234_100) .add_unlock_condition(StorageDepositReturnUnlockCondition::new( address, 234_000, token_supply, )?) .finish_output(token_supply)?, // with expiration basic_output_builder .clone() .add_unlock_condition(ExpirationUnlockCondition::new(address, 1)?) .finish_output(token_supply)?, // with timelock basic_output_builder .clone() .add_unlock_condition(TimelockUnlockCondition::new(1)?) .finish_output(token_supply)?, ]; // get additional input for the new basic output without extra unlock conditions let output_ids_response = client .basic_output_ids([ QueryParameter::Address(address.to_bech32(client.get_bech32_hrp().await?)), QueryParameter::HasStorageDepositReturn(false), QueryParameter::HasTimelock(false), QueryParameter::HasExpiration(false), ]) .await?; let block = client .build_block() .with_secret_manager(&secret_manager) .with_input(output_ids_response.items[0].into())? .with_input(nft_output_id.into())? .with_input(alias_output_id.into())? .with_input(foundry_output_id.into())? .with_outputs(outputs)? .finish() .await?; println!( "Block with all outputs sent: {}/block/{}", std::env::var("EXPLORER_URL").unwrap(), block.id(), ); let _ = client.retry_until_included(&block.id(), None, None).await?; Ok(()) } // helper function to get the output id for the first alias output fn get_alias_output_id(payload: &Payload) -> Result { match payload { Payload::Transaction(tx_payload) => { for (index, output) in tx_payload.essence().as_regular().outputs().iter().enumerate() { if let Output::Alias(_alias_output) = output { return Ok(OutputId::new(tx_payload.id(), index.try_into().unwrap())?); } } panic!("No alias output in transaction essence") } _ => panic!("No tx payload"), } } // helper function to get the output id for the first foundry output fn get_foundry_output_id(payload: &Payload) -> Result { match payload { Payload::Transaction(tx_payload) => { for (index, output) in tx_payload.essence().as_regular().outputs().iter().enumerate() { if let Output::Foundry(_foundry_output) = output { return Ok(OutputId::new(tx_payload.id(), index.try_into().unwrap())?); } } panic!("No foundry output in transaction essence") } _ => panic!("No tx payload"), } } // helper function to get the output id for the first NFT output fn get_nft_output_id(payload: &Payload) -> Result { match payload { Payload::Transaction(tx_payload) => { for (index, output) in tx_payload.essence().as_regular().outputs().iter().enumerate() { if let Output::Nft(_nft_output) = output { return Ok(OutputId::new(tx_payload.id(), index.try_into().unwrap())?); } } panic!("No nft output in transaction essence") } _ => panic!("No tx payload"), } }