--- /dev/null
+use bdk_bitcoind_rpc::{Emitter, bitcoincore_rpc::RpcApi};
+use bdk_esplora::EsploraAsyncExt;
+use bdk_wallet::{
+ bitcoin::{Transaction, Txid},
+ chain::CanonicalizationParams,
+};
+// #[cfg(any(
+// feature = "electrum",
+// feature = "esplora",
+// feature = "rpc",
+// feature = "cbf"
+// ))]
+use {
+ crate::commands::{ClientType, WalletOpts},
+ crate::error::BDKCliError as Error,
+ bdk_wallet::Wallet,
+ std::path::PathBuf,
+};
+
+// #[cfg(feature = "cbf")]
+use {
+ crate::utils::trace_logger,
+ bdk_kyoto::{BuilderExt, LightClient},
+};
+
+// #[cfg(any(
+// feature = "electrum",
+// feature = "esplora",
+// feature = "rpc",
+// feature = "cbf"
+// ))]
+pub(crate) enum BlockchainClient {
+ // #[cfg(feature = "electrum")]
+ Electrum {
+ client: Box<bdk_electrum::BdkElectrumClient<bdk_electrum::electrum_client::Client>>,
+ batch_size: usize,
+ },
+ // #[cfg(feature = "esplora")]
+ Esplora {
+ client: Box<bdk_esplora::esplora_client::AsyncClient>,
+ parallel_requests: usize,
+ },
+ // #[cfg(feature = "rpc")]
+ RpcClient {
+ client: Box<bdk_bitcoind_rpc::bitcoincore_rpc::Client>,
+ },
+
+ // #[cfg(feature = "cbf")]
+ KyotoClient {
+ client: Box<KyotoClientHandle>,
+ },
+}
+
+impl BlockchainClient {
+ pub async fn broadcast(&self, tx: Transaction) -> Result<Txid, Error> {
+ match self {
+ // #[cfg(feature = "electrum")]
+ Self::Electrum { client, .. } => client
+ .transaction_broadcast(&tx)
+ .map_err(|e| Error::Generic(e.to_string())),
+
+ // #[cfg(feature = "esplora")]
+ Self::Esplora { client, .. } => client
+ .broadcast(&tx)
+ .await
+ .map(|()| tx.compute_txid())
+ .map_err(|e| Error::Generic(e.to_string())),
+
+ // #[cfg(feature = "rpc")]
+ Self::RpcClient { client } => client
+ .send_raw_transaction(&tx)
+ .map_err(|e| Error::Generic(e.to_string())),
+
+ // #[cfg(feature = "cbf")]
+ Self::KyotoClient { client } => {
+ // ... (Kyoto broadcast logic from your online.rs) ...
+ Ok(tx.compute_txid())
+ }
+ }
+ }
+
+ pub async fn sync_wallet(&self, wallet: &mut Wallet) -> Result<(), Error> {
+ // #[cfg(any(feature = "electrum", feature = "esplora"))]
+ let request = wallet
+ .start_sync_with_revealed_spks()
+ .inspect(|item, progress| {
+ let pc = (100 * progress.consumed()) as f32 / progress.total() as f32;
+ eprintln!("[ SCANNING {pc:03.0}% ] {item}");
+ });
+ match self {
+ // #[cfg(feature = "electrum")]
+ Self::Electrum { client, batch_size } => {
+ // Populate the electrum client's transaction cache so it doesn't re-download transaction we
+ // already have.
+ client.populate_tx_cache(wallet.tx_graph().full_txs().map(|tx_node| tx_node.tx));
+
+ let update = client.sync(request, *batch_size, false)?;
+ wallet
+ .apply_update(update)
+ .map_err(|e| Error::Generic(e.to_string()))
+ }
+ // #[cfg(feature = "esplora")]
+ Self::Esplora {
+ client,
+ parallel_requests,
+ } => {
+ let update = client
+ .sync(request, *parallel_requests)
+ .await
+ .map_err(|e| *e)?;
+ wallet
+ .apply_update(update)
+ .map_err(|e| Error::Generic(e.to_string()))
+ }
+ // #[cfg(feature = "rpc")]
+ Self::RpcClient { client } => {
+ let blockchain_info = client.get_blockchain_info()?;
+ let wallet_cp = wallet.latest_checkpoint();
+
+ // reload the last 200 blocks in case of a reorg
+ let emitter_height = wallet_cp.height().saturating_sub(200);
+ let mut emitter = Emitter::new(
+ client.as_ref(),
+ wallet_cp,
+ emitter_height,
+ wallet
+ .tx_graph()
+ .list_canonical_txs(
+ wallet.local_chain(),
+ wallet.local_chain().tip().block_id(),
+ CanonicalizationParams::default(),
+ )
+ .filter(|tx| tx.chain_position.is_unconfirmed()),
+ );
+
+ while let Some(block_event) = emitter.next_block()? {
+ if block_event.block_height() % 10_000 == 0 {
+ let percent_done = f64::from(block_event.block_height())
+ / f64::from(blockchain_info.headers as u32)
+ * 100f64;
+ println!(
+ "Applying block at height: {}, {:.2}% done.",
+ block_event.block_height(),
+ percent_done
+ );
+ }
+
+ wallet.apply_block_connected_to(
+ &block_event.block,
+ block_event.block_height(),
+ block_event.connected_to(),
+ )?;
+ }
+
+ let mempool_txs = emitter.mempool()?;
+ wallet.apply_unconfirmed_txs(mempool_txs.update);
+ Ok(())
+ }
+ // #[cfg(feature = "cbf")]
+ Self::KyotoClient { client } => sync_kyoto_client(wallet, client)
+ .await
+ .map_err(|e| Error::Generic(e.to_string())),
+ }
+ }
+}
+
+/// Handle for the Kyoto client after the node has been started.
+/// Contains only the components needed for sync and broadcast operations.
+// #[cfg(feature = "cbf")]
+pub struct KyotoClientHandle {
+ pub requester: bdk_kyoto::Requester,
+ pub update_subscriber: tokio::sync::Mutex<bdk_kyoto::UpdateSubscriber>,
+}
+
+// #[cfg(any(
+// feature = "electrum",
+// feature = "esplora",
+// feature = "rpc",
+// feature = "cbf",
+// ))]
+/// Create a new blockchain from the wallet configuration options.
+pub(crate) fn new_blockchain_client(
+ wallet_opts: &WalletOpts,
+ _wallet: &Wallet,
+ _datadir: PathBuf,
+) -> Result<BlockchainClient, Error> {
+ // #[cfg(any(feature = "electrum", feature = "esplora", feature = "rpc"))]
+ let url = &wallet_opts.url;
+ let client = match wallet_opts.client_type {
+ // #[cfg(feature = "electrum")]
+ ClientType::Electrum => {
+ let client = bdk_electrum::electrum_client::Client::new(url)
+ .map(bdk_electrum::BdkElectrumClient::new)?;
+ BlockchainClient::Electrum {
+ client: Box::new(client),
+ batch_size: wallet_opts.batch_size,
+ }
+ }
+ // #[cfg(feature = "esplora")]
+ ClientType::Esplora => {
+ let client = bdk_esplora::esplora_client::Builder::new(url).build_async()?;
+ BlockchainClient::Esplora {
+ client: Box::new(client),
+ parallel_requests: wallet_opts.parallel_requests,
+ }
+ }
+
+ // #[cfg(feature = "rpc")]
+ ClientType::Rpc => {
+ let auth = match &wallet_opts.cookie {
+ Some(cookie) => bdk_bitcoind_rpc::bitcoincore_rpc::Auth::CookieFile(cookie.into()),
+ None => bdk_bitcoind_rpc::bitcoincore_rpc::Auth::UserPass(
+ wallet_opts.basic_auth.0.clone(),
+ wallet_opts.basic_auth.1.clone(),
+ ),
+ };
+ let client = bdk_bitcoind_rpc::bitcoincore_rpc::Client::new(url, auth)
+ .map_err(|e| Error::Generic(e.to_string()))?;
+ BlockchainClient::RpcClient {
+ client: Box::new(client),
+ }
+ }
+
+ // #[cfg(feature = "cbf")]
+ ClientType::Cbf => {
+ let scan_type = bdk_kyoto::ScanType::Sync;
+ let builder = bdk_kyoto::builder::Builder::new(_wallet.network());
+
+ let light_client = builder
+ .required_peers(wallet_opts.compactfilter_opts.conn_count)
+ .data_dir(&_datadir)
+ .build_with_wallet(_wallet, scan_type)?;
+
+ let LightClient {
+ requester,
+ info_subscriber,
+ warning_subscriber,
+ update_subscriber,
+ node,
+ } = light_client;
+
+ let subscriber = tracing_subscriber::FmtSubscriber::new();
+ let _ = tracing::subscriber::set_global_default(subscriber);
+
+ tokio::task::spawn(async move { node.run().await });
+ tokio::task::spawn(
+ async move { trace_logger(info_subscriber, warning_subscriber).await },
+ );
+
+ BlockchainClient::KyotoClient {
+ client: Box::new(KyotoClientHandle {
+ requester,
+ update_subscriber: tokio::sync::Mutex::new(update_subscriber),
+ }),
+ }
+ }
+ };
+ Ok(client)
+}
+
+// Handle Kyoto Client sync
+// #[cfg(feature = "cbf")]
+pub async fn sync_kyoto_client(
+ wallet: &mut Wallet,
+ handle: &KyotoClientHandle,
+) -> Result<(), Error> {
+ if !handle.requester.is_running() {
+ tracing::error!("Kyoto node is not running");
+ return Err(Error::Generic("Kyoto node failed to start".to_string()));
+ }
+ tracing::info!("Kyoto node is running");
+
+ let update = handle.update_subscriber.lock().await.update().await?;
+ tracing::info!("Received update: applying to wallet");
+ wallet
+ .apply_update(update)
+ .map_err(|e| Error::Generic(format!("Failed to apply update: {e}")))?;
+
+ tracing::info!(
+ "Chain tip: {}, Transactions: {}, Balance: {}",
+ wallet.local_chain().tip().height(),
+ wallet.transactions().count(),
+ wallet.balance().total().to_sat()
+ );
+
+ tracing::info!(
+ "Sync completed: tx_count={}, balance={}",
+ wallet.transactions().count(),
+ wallet.balance().total().to_sat()
+ );
+
+ Ok(())
+}
--- /dev/null
+// Copyright (c) 2020-2025 Bitcoin Dev Kit Developers
+//
+// This file is licensed under the Apache License, Version 2.0 <LICENSE-APACHE
+// or http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
+// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your option.
+// You may not use this file except in accordance with one or both of these
+// licenses.
+
+//! bdk-cli Command structure
+//!
+//! This module defines all the bdk-cli commands structure.
+//! All optional args are defined in the structs below.
+//! All subcommands are defined in the below enums.
+
+#![allow(clippy::large_enum_variant)]
+use crate::{
+ error::BDKCliError as Error,
+ handlers::{
+ AppCommand,
+ offline::{
+ BalanceCommand, BumpFeeCommand, CombinePsbtCommand, CreateTxCommand,
+ ExtractPsbtCommand, FinalizePsbtCommand, NewAddressCommand, PoliciesCommand,
+ PublicDescriptorCommand, SignCommand, SignMessageCommand, TransactionsCommand,
+ UnspentCommand, UnusedAddressCommand, VerifyMessageCommand,
+ },
+ online::{
+ BroadcastCommand, FullScanCommand, ReceivePayjoinCommand, SendPayjoinCommand,
+ SyncCommand,
+ },
+ },
+ utils::output::FormatOutput,
+};
+use bdk_wallet::bitcoin::{
+ Address, Network, OutPoint, ScriptBuf,
+ bip32::{DerivationPath, Xpriv},
+};
+use clap::{Args, Parser, Subcommand, ValueEnum, value_parser};
+use clap_complete::Shell;
+
+use crate::{
+ handlers::AppContext,
+ utils::{parse_address, parse_outpoint, parse_recipient},
+};
+
+// #[cfg(any(feature = "electrum", feature = "esplora", feature = "rpc"))]
+use crate::utils::parse_proxy_auth;
+
+/// The BDK Command Line Wallet App
+///
+/// bdk-cli is a lightweight command line bitcoin wallet, powered by BDK.
+/// This app can be used as a playground as well as testing environment to simulate
+/// various wallet testing situations. If you are planning to use BDK in your wallet, bdk-cli
+/// is also a great intro tool to get familiar with the BDK API.
+///
+/// But this is not just any toy.
+/// bdk-cli is also a fully functioning Bitcoin wallet with taproot support!
+///
+/// For more information checkout <https://bitcoindevkit.org/>
+#[derive(PartialEq, Clone, Debug, Parser)]
+#[command(version, about, long_about = None)]
+pub struct CliOpts {
+ /// Sets the network.
+ #[arg(
+ env = "NETWORK",
+ short = 'n',
+ long = "network",
+ default_value = "testnet",
+ value_parser = value_parser!(Network)
+ )]
+ pub network: Network,
+ /// Sets the wallet data directory.
+ /// Default value : ~/.bdk-bitcoin
+ #[arg(env = "DATADIR", short = 'd', long = "datadir")]
+ pub datadir: Option<std::path::PathBuf>,
+ /// Output results in pretty format (instead of JSON).
+ #[arg(long = "pretty", global = true)]
+ pub pretty: bool,
+ /// Top level cli sub-commands.
+ #[command(subcommand)]
+ pub subcommand: CliSubCommand,
+}
+
+/// Top level cli sub-commands.
+#[derive(Debug, Subcommand, Clone, PartialEq)]
+#[command(rename_all = "snake")]
+pub enum CliSubCommand {
+ /// Wallet operations.
+ ///
+ /// bdk-cli wallet operations includes all the basic wallet level tasks.
+ /// Most commands can be used without connecting to any backend. To use commands that
+ /// needs backend like `sync` and `broadcast`, compile the binary with specific backend feature
+ /// and use the configuration options below to configure for that backend.
+ Wallet {
+ /// Selects the wallet to use.
+ #[arg(env = "WALLET_NAME", short = 'w', long = "wallet", required = true)]
+ wallet: String,
+
+ #[command(subcommand)]
+ subcommand: WalletSubCommand,
+ },
+ /// Key management operations.
+ ///
+ /// Provides basic key operations that are not related to a specific wallet such as generating a
+ /// new random master extended key or restoring a master extended key from mnemonic words.
+ ///
+ /// These sub-commands are **EXPERIMENTAL** and should only be used for testing. Do not use this
+ /// feature to create keys that secure actual funds on the Bitcoin mainnet.
+ Key {
+ #[clap(subcommand)]
+ subcommand: KeySubCommand,
+ },
+ /// Compile a miniscript policy to an output descriptor.
+ // #[cfg(feature = "compiler")]
+ #[clap(long_about = "Miniscript policy compiler")]
+ Compile {
+ /// Sets the spending policy to compile.
+ #[arg(env = "POLICY", required = true, index = 1)]
+ policy: String,
+ /// Sets the script type used to embed the compiled policy.
+ #[arg(env = "TYPE", short = 't', long = "type", default_value = "wsh", value_parser = ["sh","wsh", "sh-wsh", "tr"]
+ )]
+ script_type: String,
+ },
+ // #[cfg(feature = "repl")]
+ /// REPL command loop mode.
+ ///
+ /// REPL command loop can be used to make recurring callbacks to an already loaded wallet.
+ /// This mode is useful for hands on live testing of wallet operations.
+ Repl {
+ /// Wallet name for this REPL session
+ #[arg(env = "WALLET_NAME", short = 'w', long = "wallet", required = true)]
+ wallet: String,
+ },
+ /// Output Descriptors operations.
+ ///
+ /// Generate output descriptors from either extended key (Xprv/Xpub) or mnemonic phrase.
+ /// This feature is intended for development and testing purposes only.
+ Descriptor {
+ /// Descriptor type (script type)
+ #[arg(
+ long = "type",
+ short = 't',
+ value_parser = ["pkh", "wpkh", "sh", "wsh", "tr"],
+ default_value = "wsh"
+ )]
+ desc_type: String,
+ /// Optional key: xprv, xpub, or mnemonic phrase
+ key: Option<String>,
+ },
+ /// List all saved wallet configurations.
+ Wallets,
+ /// Generate tab-completion scripts for your shell.
+ ///
+ /// The completion script is output on stdout, allowing you to redirect
+ /// it to a file of your choosing. Where you place the file will depend
+ /// on your shell and operating system.
+ ///
+ /// Here are common setups for supported shells:
+ ///
+ /// Bash:
+ ///
+ /// Completion files are commonly stored in
+ /// `~/.local/share/bash-completion/completions` for user-specific commands.
+ /// Run the commands:
+ ///
+ /// $ mkdir -p ~/.local/share/bash-completion/completions
+ /// $ bdk-cli completions bash > ~/.local/share/bash-completion/completions/bdk-cli
+ ///
+ /// Zsh:
+ ///
+ /// Completion files are commonly stored in a directory listed in your `fpath`.
+ /// Run the commands:
+ ///
+ /// $ mkdir -p ~/.zfunc
+ /// $ bdk-cli completions zsh > ~/.zfunc/_bdk-cli
+ ///
+ /// Make sure `~/.zfunc` is in your fpath by adding to your `.zshrc`:
+ ///
+ /// fpath=(~/.zfunc $fpath)
+ /// autoload -Uz compinit && compinit
+ ///
+ /// Fish:
+ ///
+ /// Completion files are commonly stored in
+ /// `~/.config/fish/completions`. Run the commands:
+ ///
+ /// $ mkdir -p ~/.config/fish/completions
+ /// $ bdk-cli completions fish > ~/.config/fish/completions/bdk-cli.fish
+ ///
+ /// PowerShell:
+ ///
+ /// $ bdk-cli completions powershell >> $PROFILE
+ ///
+ /// Elvish:
+ ///
+ /// $ bdk-cli completions elvish >> ~/.elvish/rc.elv
+ ///
+ /// After installing the completion script, restart your shell or source
+ /// the configuration file for the changes to take effect.
+ #[command(verbatim_doc_comment)]
+ Completions {
+ /// Target shell syntax
+ #[arg(value_enum)]
+ shell: Shell,
+ },
+}
+
+impl CliSubCommand {
+ pub async fn execute(
+ &self,
+ ctx: &mut AppContext<'_>,
+ cli_opts: &CliOpts,
+ #[cfg(feature = "repl")] wallet_opts: &mut WalletOpts,
+ datadir: std::path::PathBuf,
+ ) -> Result<String, Error> {
+ match self {
+ CliSubCommand::Wallet { subcommand, wallet } => {
+ match subcommand {
+ WalletSubCommand::OfflineWalletSubCommand(cmd) => {
+ cmd.execute(ctx, cli_opts.pretty)
+ }
+ // #[cfg(any(feature = "electrum", feature = "esplora", feature = "cbf", feature = "rpc"))]
+ WalletSubCommand::OnlineWalletSubCommand(cmd) => {
+ cmd.execute(ctx, cli_opts.pretty).await
+ }
+ WalletSubCommand::Config { force, wallet_opts } => {}
+ }
+ }
+
+ CliSubCommand::Key { subcommand } => subcommand.execute(ctx, cli_opts.pretty),
+
+ CliSubCommand::Descriptor { desc_type, key } => {
+ cmd.execute(ctx).and_then(|out| out.format(cli_opts.pretty))
+ }
+
+ // #[cfg(feature = "compiler")]
+ CliSubCommand::Compile {
+ policy,
+ script_type,
+ } => cmd.execute(ctx).and_then(|out| out.format(cli_opts.pretty)),
+
+ CliSubCommand::Wallets(cmd) => {
+ cmd.execute(ctx).and_then(|out| out.format(cli_opts.pretty))
+ }
+
+ CliSubCommand::Config(cmd) => {
+ cmd.execute(ctx).and_then(|out| out.format(cli_opts.pretty))
+ }
+
+ CliSubCommand::Completions { shell } => {
+ use clap::CommandFactory;
+ clap_complete::generate(
+ *shell,
+ &mut CliOpts::command(),
+ "bdk-cli",
+ &mut std::io::stdout(),
+ );
+ Ok("".to_string())
+ }
+ }
+ }
+}
+
+/// Wallet operation subcommands.
+#[derive(Debug, Subcommand, Clone, PartialEq)]
+pub enum WalletSubCommand {
+ /// Save wallet configuration to `config.toml`.
+ Config {
+ /// Overwrite existing wallet configuration if it exists.
+ #[arg(short = 'f', long = "force", default_value_t = false)]
+ force: bool,
+
+ #[command(flatten)]
+ wallet_opts: WalletOpts,
+ },
+ // #[cfg(any(
+ // feature = "electrum",
+ // feature = "esplora",
+ // feature = "cbf",
+ // feature = "rpc"
+ // ))]
+ #[command(flatten)]
+ OnlineWalletSubCommand(OnlineWalletSubCommand),
+ #[command(flatten)]
+ OfflineWalletSubCommand(OfflineWalletSubCommand),
+}
+
+#[derive(Clone, ValueEnum, Debug, Eq, PartialEq)]
+pub enum DatabaseType {
+ /// Sqlite database
+ #[cfg(feature = "sqlite")]
+ Sqlite,
+ /// Redb database
+ #[cfg(feature = "redb")]
+ Redb,
+}
+
+// #[cfg(any(
+// feature = "electrum",
+// feature = "esplora",
+// feature = "rpc",
+// feature = "cbf"
+// ))]
+#[derive(Clone, ValueEnum, Debug, Eq, PartialEq)]
+pub enum ClientType {
+ // #[cfg(feature = "electrum")]
+ Electrum,
+ // #[cfg(feature = "esplora")]
+ Esplora,
+ // #[cfg(feature = "rpc")]
+ Rpc,
+ // #[cfg(feature = "cbf")]
+ Cbf,
+}
+
+/// Config options wallet operations can take.
+#[derive(Debug, Args, Clone, PartialEq, Eq)]
+pub struct WalletOpts {
+ /// Selects the wallet to use.
+ #[arg(skip)]
+ pub wallet: Option<String>,
+ /// Adds verbosity, returns PSBT in JSON format alongside serialized, displays expanded objects.
+ #[arg(env = "VERBOSE", short = 'v', long = "verbose")]
+ pub verbose: bool,
+ /// Sets the descriptor to use for the external addresses.
+ #[arg(env = "EXT_DESCRIPTOR", short = 'e', long, required = true)]
+ pub ext_descriptor: String,
+ /// Sets the descriptor to use for internal/change addresses.
+ #[arg(env = "INT_DESCRIPTOR", short = 'i', long)]
+ pub int_descriptor: Option<String>,
+ // #[cfg(any(
+ // feature = "electrum",
+ // feature = "esplora",
+ // feature = "rpc",
+ // feature = "cbf"
+ // ))]
+ #[arg(env = "CLIENT_TYPE", short = 'c', long, value_enum, required = true)]
+ pub client_type: ClientType,
+ #[cfg(any(feature = "sqlite", feature = "redb"))]
+ #[arg(env = "DATABASE_TYPE", short = 'd', long, value_enum, required = true)]
+ pub database_type: DatabaseType,
+ /// Sets the server url.
+ // #[cfg(any(feature = "electrum", feature = "esplora", feature = "rpc"))]
+ #[arg(env = "SERVER_URL", short = 'u', long, required = true)]
+ pub url: String,
+ /// Electrum batch size.
+ // #[cfg(feature = "electrum")]
+ #[arg(env = "ELECTRUM_BATCH_SIZE", short = 'b', long, default_value = "10")]
+ pub batch_size: usize,
+ /// Esplora parallel requests.
+ // #[cfg(feature = "esplora")]
+ #[arg(
+ env = "ESPLORA_PARALLEL_REQUESTS",
+ short = 'p',
+ long,
+ default_value = "5"
+ )]
+ pub parallel_requests: usize,
+ // #[cfg(feature = "rpc")]
+ /// Sets the rpc basic authentication.
+ #[arg(
+ env = "USER:PASSWD",
+ short = 'a',
+ long,
+ value_parser = parse_proxy_auth,
+ default_value = "user:password",
+ )]
+ pub basic_auth: (String, String),
+ // #[cfg(feature = "rpc")]
+ /// Sets an optional cookie authentication.
+ #[arg(env = "COOKIE")]
+ pub cookie: Option<String>,
+ // #[cfg(feature = "cbf")]
+ #[clap(flatten)]
+ pub compactfilter_opts: CompactFilterOpts,
+}
+
+/// Options to configure a SOCKS5 proxy for a blockchain client connection.
+// #[cfg(any(feature = "electrum", feature = "esplora"))]
+#[derive(Debug, Args, Clone, PartialEq, Eq)]
+pub struct ProxyOpts {
+ /// Sets the SOCKS5 proxy for a blockchain client.
+ #[arg(env = "PROXY_ADDRS:PORT", long = "proxy", short = 'p')]
+ pub proxy: Option<String>,
+
+ /// Sets the SOCKS5 proxy credential.
+ #[arg(env = "PROXY_USER:PASSWD", long="proxy_auth", short='a', value_parser = parse_proxy_auth)]
+ pub proxy_auth: Option<(String, String)>,
+
+ /// Sets the SOCKS5 proxy retries for the blockchain client.
+ #[arg(
+ env = "PROXY_RETRIES",
+ short = 'r',
+ long = "retries",
+ default_value = "5"
+ )]
+ pub retries: u8,
+
+ /// Sets the SOCKS5 proxy timeout for the blockchain client.
+ #[arg(env = "PROXY_TIMEOUT", short = 't', long = "timeout")]
+ pub timeout: Option<u8>,
+}
+
+/// Options to configure a BIP157 Compact Filter backend.
+// #[cfg(feature = "cbf")]
+#[derive(Debug, Args, Clone, PartialEq, Eq)]
+pub struct CompactFilterOpts {
+ /// Sets the number of parallel node connections.
+ #[clap(name = "CONNECTIONS", long = "cbf-conn-count", default_value = "2", value_parser = value_parser!(u8).range(1..=15))]
+ pub conn_count: u8,
+}
+
+/// Wallet subcommands that can be issued without a blockchain backend.
+#[derive(Debug, Subcommand, Clone, PartialEq)]
+#[command(rename_all = "snake")]
+pub enum OfflineWalletSubCommand {
+ /// Get a new external address.
+ NewAddress(NewAddressCommand),
+ /// Get the first unused external address.
+ UnusedAddress(UnusedAddressCommand),
+ /// Lists the available spendable UTXOs.
+ Unspent(UnspentCommand),
+ /// Lists all the incoming and outgoing transactions of the wallet.
+ Transactions(TransactionsCommand),
+ /// Returns the current wallet balance.
+ Balance(BalanceCommand),
+ /// Creates a new unsigned transaction.
+ CreateTx(CreateTxCommand),
+ // CreateTx {
+ // /// Adds a recipient to the transaction.
+ // // Clap Doesn't support complex vector parsing https://github.com/clap-rs/clap/issues/1704.
+ // // Address and amount parsing is done at run time in handler function.
+ // #[arg(env = "ADDRESS:SAT", long = "to", required = true, value_parser = parse_recipient)]
+ // recipients: Vec<(ScriptBuf, u64)>,
+ // /// Sends all the funds (or all the selected utxos). Requires only one recipient with value 0.
+ // #[arg(long = "send_all", short = 'a')]
+ // send_all: bool,
+ // /// Enables Replace-By-Fee (BIP125).
+ // #[arg(long = "enable_rbf", short = 'r', default_value_t = true)]
+ // enable_rbf: bool,
+ // /// Make a PSBT that can be signed by offline signers and hardware wallets. Forces the addition of `non_witness_utxo` and more details to let the signer identify the change output.
+ // #[arg(long = "offline_signer")]
+ // offline_signer: bool,
+ // /// Selects which utxos *must* be spent.
+ // #[arg(env = "MUST_SPEND_TXID:VOUT", long = "utxos", value_parser = parse_outpoint)]
+ // utxos: Option<Vec<OutPoint>>,
+ // /// Marks a utxo as unspendable.
+ // #[arg(env = "CANT_SPEND_TXID:VOUT", long = "unspendable", value_parser = parse_outpoint)]
+ // unspendable: Option<Vec<OutPoint>>,
+ // /// Fee rate to use in sat/vbyte.
+ // #[arg(env = "SATS_VBYTE", short = 'f', long = "fee_rate")]
+ // fee_rate: Option<f32>,
+ // /// Selects which policy should be used to satisfy the external descriptor.
+ // #[arg(env = "EXT_POLICY", long = "external_policy")]
+ // external_policy: Option<String>,
+ // /// Selects which policy should be used to satisfy the internal descriptor.
+ // #[arg(env = "INT_POLICY", long = "internal_policy")]
+ // internal_policy: Option<String>,
+ // /// Optionally create an OP_RETURN output containing given String in utf8 encoding (max 80 bytes)
+ // #[arg(
+ // env = "ADD_STRING",
+ // long = "add_string",
+ // short = 's',
+ // conflicts_with = "add_data"
+ // )]
+ // add_string: Option<String>,
+ // /// Optionally create an OP_RETURN output containing given base64 encoded String. (max 80 bytes)
+ // #[arg(
+ // env = "ADD_DATA",
+ // long = "add_data",
+ // short = 'o',
+ // conflicts_with = "add_string"
+ // )]
+ // add_data: Option<String>, //base 64 econding
+ // },
+ /// Bumps the fees of an RBF transaction.
+ BumpFee(BumpFeeCommand),
+ // BumpFee {
+ // /// TXID of the transaction to update.
+ // #[arg(env = "TXID", long = "txid")]
+ // txid: String,
+ // /// Allows the wallet to reduce the amount to the specified address in order to increase fees.
+ // #[arg(env = "SHRINK_ADDRESS", long = "shrink", value_parser = parse_address)]
+ // shrink_address: Option<Address>,
+ // /// Make a PSBT that can be signed by offline signers and hardware wallets. Forces the addition of `non_witness_utxo` and more details to let the signer identify the change output.
+ // #[arg(long = "offline_signer")]
+ // offline_signer: bool,
+ // /// Selects which utxos *must* be added to the tx. Unconfirmed utxos cannot be used.
+ // #[arg(env = "MUST_SPEND_TXID:VOUT", long = "utxos", value_parser = parse_outpoint)]
+ // utxos: Option<Vec<OutPoint>>,
+ // /// Marks an utxo as unspendable, in case more inputs are needed to cover the extra fees.
+ // #[arg(env = "CANT_SPEND_TXID:VOUT", long = "unspendable", value_parser = parse_outpoint)]
+ // unspendable: Option<Vec<OutPoint>>,
+ // /// The new targeted fee rate in sat/vbyte.
+ // #[arg(
+ // env = "SATS_VBYTE",
+ // short = 'f',
+ // long = "fee_rate",
+ // default_value = "1.0"
+ // )]
+ // fee_rate: f32,
+ // },
+ /// Returns the available spending policies for the descriptor.
+ Policies(PoliciesCommand),
+ /// Returns the public version of the wallet's descriptor(s).
+ PublicDescriptor(PublicDescriptorCommand),
+ /// Signs and tries to finalize a PSBT.
+ Sign(SignCommand),
+ // Sign {
+ // /// Sets the PSBT to sign.
+ // #[arg(env = "BASE64_PSBT")]
+ // psbt: String,
+ // /// Assume the blockchain has reached a specific height. This affects the transaction finalization, if there are timelocks in the descriptor.
+ // #[arg(env = "HEIGHT", long = "assume_height")]
+ // assume_height: Option<u32>,
+ // /// Whether the signer should trust the witness_utxo, if the non_witness_utxo hasn’t been provided.
+ // #[arg(env = "WITNESS", long = "trust_witness_utxo")]
+ // trust_witness_utxo: Option<bool>,
+ // },
+ /// Extracts a raw transaction from a PSBT.
+ // ExtractPsbt {
+ // /// Sets the PSBT to extract
+ // #[arg(env = "BASE64_PSBT")]
+ // psbt: String,
+ // },
+ ExtractPsbt(ExtractPsbtCommand),
+ /// Finalizes a PSBT.
+ // FinalizePsbt {
+ // /// Sets the PSBT to finalize.
+ // #[arg(env = "BASE64_PSBT")]
+ // psbt: String,
+ // /// Assume the blockchain has reached a specific height.
+ // #[arg(env = "HEIGHT", long = "assume_height")]
+ // assume_height: Option<u32>,
+ // /// Whether the signer should trust the witness_utxo, if the non_witness_utxo hasn’t been provided.
+ // #[arg(env = "WITNESS", long = "trust_witness_utxo")]
+ // trust_witness_utxo: Option<bool>,
+ // },
+ FinalizePsbt(FinalizePsbtCommand),
+ /// Combines multiple PSBTs into one.
+ // CombinePsbt {
+ // /// Add one PSBT to combine. This option can be repeated multiple times, one for each PSBT.
+ // #[arg(env = "BASE64_PSBT", required = true)]
+ // psbt: Vec<String>,
+ // },
+ CombinePsbt(CombinePsbtCommand),
+ /// Sign a message using BIP322
+ // #[cfg(feature = "bip322")]
+ // SignMessage {
+ // /// The message to sign
+ // #[arg(long)]
+ // message: String,
+ // /// The signature format (e.g., Legacy, Simple, Full)
+ // #[arg(long, default_value = "simple")]
+ // signature_type: String,
+ // /// Address to sign
+ // #[arg(long)]
+ // address: String,
+ // /// Optional list of specific UTXOs for proof-of-funds (only for `FullWithProofOfFunds`)
+ // #[arg(long)]
+ // utxos: Option<Vec<OutPoint>>,
+ // },
+ SignMessage(SignMessageCommand),
+ /// Verify a BIP322 signature
+ // #[cfg(feature = "bip322")]
+ // VerifyMessage {
+ // /// The signature proof to verify
+ // #[arg(long)]
+ // proof: String,
+ // /// The message that was signed
+ // #[arg(long)]
+ // message: String,
+ // /// The address associated with the signature
+ // #[arg(long)]
+ // address: String,
+ // },
+ VerifyMessage(VerifyMessageCommand),
+}
+
+/// Wallet subcommands that needs a blockchain backend.
+#[derive(Debug, Subcommand, Clone, PartialEq, Eq)]
+#[command(rename_all = "snake")]
+// #[cfg(any(
+// feature = "electrum",
+// feature = "esplora",
+// feature = "cbf",
+// feature = "rpc"
+// ))]
+pub enum OnlineWalletSubCommand {
+ /// Full Scan with the chosen blockchain server.
+ // FullScan {
+ // /// Stop searching addresses for transactions after finding an unused gap of this length.
+ // #[arg(env = "STOP_GAP", long = "scan-stop-gap", default_value = "20")]
+ // stop_gap: usize,
+ // },
+ FullScan(FullScanCommand),
+ /// Syncs with the chosen blockchain server.
+ Sync(SyncCommand),
+ /// Broadcasts a transaction to the network. Takes either a raw transaction or a PSBT to extract.
+ // Broadcast {
+ // /// Sets the PSBT to sign.
+ // #[arg(
+ // env = "BASE64_PSBT",
+ // long = "psbt",
+ // required_unless_present = "tx",
+ // conflicts_with = "tx"
+ // )]
+ // psbt: Option<String>,
+ // /// Sets the raw transaction to broadcast.
+ // #[arg(
+ // env = "RAWTX",
+ // long = "tx",
+ // required_unless_present = "psbt",
+ // conflicts_with = "psbt"
+ // )]
+ // tx: Option<String>,
+ // },
+ Broadcast(BroadcastCommand),
+ /// Generates a Payjoin receive URI and processes the sender's Payjoin proposal.
+ // ReceivePayjoin {
+ // /// Amount to be received in sats.
+ // #[arg(env = "PAYJOIN_AMOUNT", long = "amount", required = true)]
+ // amount: u64,
+ // /// Payjoin directory which will be used to store the PSBTs which are pending action
+ // /// from one of the parties.
+ // #[arg(env = "PAYJOIN_DIRECTORY", long = "directory", required = true)]
+ // directory: String,
+ // /// URL of the Payjoin OHTTP relay. Can be repeated multiple times to attempt the
+ // /// operation with multiple relays for redundancy.
+ // #[arg(env = "PAYJOIN_OHTTP_RELAY", long = "ohttp_relay", required = true)]
+ // ohttp_relay: Vec<String>,
+ // /// Maximum effective fee rate the receiver is willing to pay for their own input/output contributions.
+ // #[arg(env = "PAYJOIN_RECEIVER_MAX_FEE_RATE", long = "max_fee_rate")]
+ // max_fee_rate: Option<u64>,
+ // },
+ ReceivePayjoin(ReceivePayjoinCommand),
+ /// Sends an original PSBT to a BIP 21 URI and broadcasts the returned Payjoin PSBT.
+ // SendPayjoin {
+ // /// BIP 21 URI for the Payjoin.
+ // #[arg(env = "PAYJOIN_URI", long = "uri", required = true)]
+ // uri: String,
+ // /// URL of the Payjoin OHTTP relay. Can be repeated multiple times to attempt the
+ // /// operation with multiple relays for redundancy.
+ // #[arg(env = "PAYJOIN_OHTTP_RELAY", long = "ohttp_relay", required = true)]
+ // ohttp_relay: Vec<String>,
+ // /// Fee rate to use in sat/vbyte.
+ // #[arg(
+ // env = "PAYJOIN_SENDER_FEE_RATE",
+ // short = 'f',
+ // long = "fee_rate",
+ // required = true
+ // )]
+ // fee_rate: u64,
+ // },
+ SendPayjoin(SendPayjoinCommand),
+}
+
+/// Subcommands for Key operations.
+#[derive(Debug, Subcommand, Clone, PartialEq, Eq)]
+pub enum KeySubCommand {
+ /// Generates new random seed mnemonic phrase and corresponding master extended key.
+ Generate {
+ /// Entropy level based on number of random seed mnemonic words.
+ #[arg(
+ env = "WORD_COUNT",
+ short = 'e',
+ long = "entropy",
+ default_value = "12"
+ )]
+ word_count: usize,
+ /// Seed password.
+ #[arg(env = "PASSWORD", short = 'p', long = "password")]
+ password: Option<String>,
+ },
+ /// Restore a master extended key from seed backup mnemonic words.
+ Restore {
+ /// Seed mnemonic words, must be quoted (eg. "word1 word2 ...").
+ #[arg(env = "MNEMONIC", short = 'm', long = "mnemonic")]
+ mnemonic: String,
+ /// Seed password.
+ #[arg(env = "PASSWORD", short = 'p', long = "password")]
+ password: Option<String>,
+ },
+ /// Derive a child key pair from a master extended key and a derivation path string (eg. "m/84'/1'/0'/0" or "m/84h/1h/0h/0").
+ Derive {
+ /// Extended private key to derive from.
+ #[arg(env = "XPRV", short = 'x', long = "xprv")]
+ xprv: Xpriv,
+ /// Path to use to derive extended public key from extended private key.
+ #[arg(env = "PATH", short = 'p', long = "path")]
+ path: DerivationPath,
+ },
+}
+
+/// Subcommands available in REPL mode.
+#[cfg(any(feature = "repl", target_arch = "wasm32"))]
+#[derive(Debug, Parser)]
+#[command(rename_all = "lower", multicall = true)]
+pub enum ReplSubCommand {
+ /// Execute wallet commands.
+ Wallet {
+ #[command(subcommand)]
+ subcommand: WalletSubCommand,
+ },
+ /// Execute key commands.
+ Key {
+ #[command(subcommand)]
+ subcommand: KeySubCommand,
+ },
+ /// Generate descriptors
+ Descriptor {
+ /// Descriptor type (script type).
+ #[arg(
+ long = "type",
+ short = 't',
+ value_parser = ["pkh", "wpkh", "sh", "wsh", "tr"],
+ default_value = "wsh"
+ )]
+ desc_type: String,
+ /// Optional key: xprv, xpub, or mnemonic phrase
+ key: Option<String>,
+ },
+ /// Exit REPL loop.
+ Exit,
+}