use std::{fs::File, io::Write, path::PathBuf, str::FromStr, sync::Arc}; use base64::{Engine, engine::general_purpose::STANDARD as BASE64}; use common::{ sequencer_client::SequencerClient, transaction::{EncodedTransaction, NSSATransaction}, }; use anyhow::Result; use chain_storage::WalletChainStore; use config::WalletConfig; use log::info; use nssa::{Account, Address}; use clap::{Parser, Subcommand}; use crate::{ helperfunctions::{ HumanReadableAccount, fetch_config, fetch_persistent_accounts, get_home, produce_account_addr_from_hex, produce_data_for_storage, }, poller::TxPoller, }; pub const HOME_DIR_ENV_VAR: &str = "NSSA_WALLET_HOME_DIR"; pub mod chain_storage; pub mod config; pub mod helperfunctions; pub mod poller; pub mod token_transfers; pub struct WalletCore { pub storage: WalletChainStore, pub poller: TxPoller, pub sequencer_client: Arc, } impl WalletCore { pub fn start_from_config_update_chain(config: WalletConfig) -> Result { let client = Arc::new(SequencerClient::new(config.sequencer_addr.clone())?); let tx_poller = TxPoller::new(config.clone(), client.clone()); let mut storage = WalletChainStore::new(config)?; let persistent_accounts = fetch_persistent_accounts()?; for pers_acc_data in persistent_accounts { storage.insert_account_data(pers_acc_data); } Ok(Self { storage, poller: tx_poller, sequencer_client: client.clone(), }) } ///Store persistent accounts at home pub fn store_persistent_accounts(&self) -> Result { let home = get_home()?; let accs_path = home.join("curr_accounts.json"); let data = produce_data_for_storage(&self.storage.user_data); let accs = serde_json::to_vec_pretty(&data)?; let mut accs_file = File::create(accs_path.as_path())?; accs_file.write_all(&accs)?; info!("Stored accounts data at {accs_path:#?}"); Ok(accs_path) } pub fn create_new_account_public(&mut self) -> Address { self.storage .user_data .generate_new_public_transaction_private_key() } pub fn create_new_account_private(&mut self) -> Address { self.storage .user_data .generate_new_privacy_preserving_transaction_key_chain() } ///Get account balance pub async fn get_account_balance(&self, acc: Address) -> Result { Ok(self .sequencer_client .get_account_balance(acc.to_string()) .await? .balance) } ///Get accounts nonces pub async fn get_accounts_nonces(&self, accs: Vec
) -> Result> { Ok(self .sequencer_client .get_accounts_nonces(accs.into_iter().map(|acc| acc.to_string()).collect()) .await? .nonces) } ///Get account pub async fn get_account(&self, addr: Address) -> Result { let response = self.sequencer_client.get_account(addr.to_string()).await?; Ok(response.account) } ///Poll transactions pub async fn poll_native_token_transfer(&self, hash: String) -> Result { let transaction_encoded = self.poller.poll_tx(hash).await?; let tx_base64_decode = BASE64.decode(transaction_encoded)?; let pub_tx = EncodedTransaction::from_bytes(tx_base64_decode); Ok(NSSATransaction::try_from(&pub_tx)?) } } ///Represents CLI command for a wallet #[derive(Subcommand, Debug, Clone)] #[clap(about)] pub enum Command { ///Send native token transfer from `from` to `to` for `amount` /// /// Public operation SendNativeTokenTransferPublic { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to - valid 32 byte hex string #[arg(long)] to: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Send native token transfer from `from` to `to` for `amount` /// /// Private operation SendNativeTokenTransferPrivate { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to - valid 32 byte hex string #[arg(long)] to: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Send native token transfer from `from` to `to` for `amount` /// /// Private operation SendNativeTokenTransferPrivateForeignAccount { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to_npk - valid 32 byte hex string #[arg(long)] to_npk: String, ///to_ipk - valid 33 byte hex string #[arg(long)] to_ipk: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Send native token transfer from `from` to `to` for `amount` /// /// Deshielded operation SendNativeTokenTransferDeshielded { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to - valid 32 byte hex string #[arg(long)] to: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Send native token transfer from `from` to `to` for `amount` /// /// Shielded operation SendNativeTokenTransferShielded { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to - valid 32 byte hex string #[arg(long)] to: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Send native token transfer from `from` to `to` for `amount` /// /// Shielded operation SendNativeTokenTransferShieldedForeignAccount { ///from - valid 32 byte hex string #[arg(long)] from: String, ///to_npk - valid 32 byte hex string #[arg(long)] to_npk: String, ///to_ipk - valid 33 byte hex string #[arg(long)] to_ipk: String, ///amount - amount of balance to move #[arg(long)] amount: u128, }, ///Register new public account RegisterAccountPublic {}, ///Register new private account RegisterAccountPrivate {}, ///Fetch transaction by `hash` FetchTx { #[arg(short, long)] tx_hash: String, }, ///Get account `addr` balance GetAccountBalance { #[arg(short, long)] addr: String, }, ///Get account `addr` nonce GetAccountNonce { #[arg(short, long)] addr: String, }, ///Get account at address `addr` GetAccount { #[arg(short, long)] addr: String, }, } ///To execute commands, env var NSSA_WALLET_HOME_DIR must be set into directory with config #[derive(Parser, Debug)] #[clap(version, about)] pub struct Args { /// Wallet command #[command(subcommand)] pub command: Command, } pub async fn execute_subcommand(command: Command) -> Result<()> { let wallet_config = fetch_config()?; let mut wallet_core = WalletCore::start_from_config_update_chain(wallet_config)?; match command { Command::SendNativeTokenTransferPublic { from, to, amount } => { let from = produce_account_addr_from_hex(from)?; let to = produce_account_addr_from_hex(to)?; let res = wallet_core .send_public_native_token_transfer(from, to, amount) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; println!("Transaction data is {transfer_tx:?}"); let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::SendNativeTokenTransferPrivate { from, to, amount } => { let from = produce_account_addr_from_hex(from)?; let to = produce_account_addr_from_hex(to)?; let (res, secret) = wallet_core .send_private_native_token_transfer(from, to, amount) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx { let from_ebc = tx.message.encrypted_private_post_states[0].clone(); let from_comm = tx.message.new_commitments[0].clone(); let to_ebc = tx.message.encrypted_private_post_states[1].clone(); let to_comm = tx.message.new_commitments[1].clone(); let res_acc_from = nssa_core::EncryptionScheme::decrypt( &from_ebc.ciphertext, &secret, &from_comm, 0, ) .unwrap(); let res_acc_to = nssa_core::EncryptionScheme::decrypt(&to_ebc.ciphertext, &secret, &to_comm, 1) .unwrap(); println!("Received new from acc {res_acc_from:#?}"); println!("Received new to acc {res_acc_to:#?}"); println!("Transaction data is {:?}", tx.message); wallet_core .storage .insert_private_account_data(from, res_acc_from); wallet_core .storage .insert_private_account_data(to, res_acc_to); } let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::SendNativeTokenTransferPrivateForeignAccount { from, to_npk, to_ipk, amount, } => { let from = produce_account_addr_from_hex(from)?; let to_npk_res = hex::decode(to_npk)?; let mut to_npk = [0; 32]; to_npk.copy_from_slice(&to_npk_res); let to_npk = nssa_core::NullifierPublicKey(to_npk); let to_ipk_res = hex::decode(to_ipk)?; let mut to_ipk = [0u8; 33]; to_ipk.copy_from_slice(&to_ipk_res); let to_ipk = nssa_core::encryption::shared_key_derivation::Secp256k1Point(to_ipk.to_vec()); let (res, secret) = wallet_core .send_private_native_token_transfer_outer_account(from, to_npk, to_ipk, amount) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx { let from_ebc = tx.message.encrypted_private_post_states[0].clone(); let from_comm = tx.message.new_commitments[0].clone(); let to_ebc = tx.message.encrypted_private_post_states[1].clone(); let to_comm = tx.message.new_commitments[1].clone(); let res_acc_from = nssa_core::EncryptionScheme::decrypt( &from_ebc.ciphertext, &secret, &from_comm, 0, ) .unwrap(); let res_acc_to = nssa_core::EncryptionScheme::decrypt(&to_ebc.ciphertext, &secret, &to_comm, 1) .unwrap(); println!("RES acc {res_acc_from:#?}"); println!("RES acc to {res_acc_to:#?}"); println!("Transaction data is {:?}", tx.message); wallet_core .storage .insert_private_account_data(from, res_acc_from); } let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::SendNativeTokenTransferDeshielded { from, to, amount } => { let from = produce_account_addr_from_hex(from)?; let to = produce_account_addr_from_hex(to)?; let (res, secret) = wallet_core .send_deshielded_native_token_transfer(from, to, amount) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx { let from_ebc = tx.message.encrypted_private_post_states[0].clone(); let from_comm = tx.message.new_commitments[0].clone(); let res_acc_from = nssa_core::EncryptionScheme::decrypt( &from_ebc.ciphertext, &secret, &from_comm, 0, ) .unwrap(); println!("RES acc {res_acc_from:#?}"); println!("Transaction data is {:?}", tx.message); wallet_core .storage .insert_private_account_data(from, res_acc_from); } let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::SendNativeTokenTransferShielded { from, to, amount } => { let from = produce_account_addr_from_hex(from)?; let to = produce_account_addr_from_hex(to)?; let (res, secret) = wallet_core .send_shiedled_native_token_transfer(from, to, amount) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx { let to_ebc = tx.message.encrypted_private_post_states[0].clone(); let to_comm = tx.message.new_commitments[0].clone(); let res_acc_to = nssa_core::EncryptionScheme::decrypt(&to_ebc.ciphertext, &secret, &to_comm, 0) .unwrap(); println!("RES acc to {res_acc_to:#?}"); println!("Transaction data is {:?}", tx.message); } let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::SendNativeTokenTransferShieldedForeignAccount { from, to_npk, to_ipk, amount, } => { let from = produce_account_addr_from_hex(from)?; let to_npk_res = hex::decode(to_npk)?; let mut to_npk = [0; 32]; to_npk.copy_from_slice(&to_npk_res); let to_npk = nssa_core::NullifierPublicKey(to_npk); let to_ipk_res = hex::decode(to_ipk)?; let mut to_ipk = [0u8; 33]; to_ipk.copy_from_slice(&to_ipk_res); let to_ipk = nssa_core::encryption::shared_key_derivation::Secp256k1Point(to_ipk.to_vec()); let (res, secret) = wallet_core .send_shielded_native_token_transfer_maybe_outer_account( from, to_npk, to_ipk, amount, ) .await?; println!("Results of tx send is {res:#?}"); let transfer_tx = wallet_core.poll_native_token_transfer(res.tx_hash).await?; if let NSSATransaction::PrivacyPreserving(tx) = transfer_tx { let to_ebc = tx.message.encrypted_private_post_states[0].clone(); let to_comm = tx.message.new_commitments[0].clone(); let res_acc_to = nssa_core::EncryptionScheme::decrypt(&to_ebc.ciphertext, &secret, &to_comm, 0) .unwrap(); println!("RES acc to {res_acc_to:#?}"); println!("Transaction data is {:?}", tx.message); } let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::RegisterAccountPublic {} => { let addr = wallet_core.create_new_account_public(); println!("Generated new account with addr {addr}"); let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::RegisterAccountPrivate {} => { let addr = wallet_core.create_new_account_private(); let (key, account) = wallet_core .storage .user_data .get_private_account(&addr) .unwrap(); println!("Generated new account with addr {addr:#?}"); println!("With key {key:#?}"); println!("With account {account:#?}"); let path = wallet_core.store_persistent_accounts()?; println!("Stored persistent accounts at {path:#?}"); } Command::FetchTx { tx_hash } => { let tx_obj = wallet_core .sequencer_client .get_transaction_by_hash(tx_hash) .await?; println!("Transaction object {tx_obj:#?}"); } Command::GetAccountBalance { addr } => { let addr = Address::from_str(&addr)?; let balance = wallet_core.get_account_balance(addr).await?; println!("Accounts {addr} balance is {balance}"); } Command::GetAccountNonce { addr } => { let addr = Address::from_str(&addr)?; let nonce = wallet_core.get_accounts_nonces(vec![addr]).await?[0]; println!("Accounts {addr} nonce is {nonce}"); } Command::GetAccount { addr } => { let addr: Address = addr.parse()?; let account: HumanReadableAccount = wallet_core.get_account(addr).await?.into(); println!("{}", serde_json::to_string(&account).unwrap()); } } Ok(()) }