562cb81cad
ab41679368be79e8645915b40be554cc07557931 Add fee_amount() and fee_rate() functions to PsbtUtils trait (Steve Myers) Pull request description: ### Description The purpose of the PR is to provide a more convenient way to calculate the transaction fee amount and fee rate for a PSBT. This PR adds `fee_amount` and `fee_rate` functions to the existing `PsbtUtils` trait and implements them for `PartiallySignedBitcoinTransaction`. The `fee_rate` value is only valid if the PSBT it is called on is fully signed and finalized. See related discussion: https://github.com/bitcoindevkit/bdk-ffi/issues/179 ### Changelog Added - PsbtUtils.fee_amount(), calculates the PSBT total transaction fee amount in Sats. - PsbtUtils.fee_rate(), calculates the PSBT FeeRate, the value is only accurate AFTER the PSBT is finalized. ### Notes to the reviewers Ideally I'd like `fee_rate` to return an `Option` and return `None` if the PSBT isn't finalized. But I'm not quite sure how to determine if a PSBT is finalized without having a `Wallet` and running it through the finalize code first. Or there might be a way to fill in missing signatures with properly sized fake data prior to calculating the fee rate. For now I think it's enough to do this simple approach with usage warning in the rust docs. ### Checklists #### All Submissions: * [x] I've signed all my commits * [x] I followed the [contribution guidelines](https://github.com/bitcoindevkit/bdk/blob/master/CONTRIBUTING.md) * [x] I ran `cargo fmt` and `cargo clippy` before committing #### New Features: * [x] I've added tests for the new feature * [x] I've added docs for the new feature ACKs for top commit: afilini: ACK ab41679368be79e8645915b40be554cc07557931 Tree-SHA512: 5386109c9ffcf63160f18b4c51eb2c582f4121b669c7276aaba489d186cf9b97343d46f887469b1407ccd7a24448b5e7aee4c6832d86768239b21f4e68054a0f
BDK
A modern, lightweight, descriptor-based wallet library written in Rust!
Project Homepage | Documentation
About
The bdk library aims to be the core building block for Bitcoin wallets of any kind.
- It uses Miniscript to support descriptors with generalized conditions. This exact same library can be used to build single-sig wallets, multisigs, timelocked contracts and more.
- It supports multiple blockchain backends and databases, allowing developers to choose exactly what's right for their projects.
- It's built to be cross-platform: the core logic works on desktop, mobile, and even WebAssembly.
- It's very easy to extend: developers can implement customized logic for blockchain backends, databases, signers, coin selection, and more, without having to fork and modify this library.
Examples
Sync the balance of a descriptor
use bdk::Wallet;
use bdk::database::MemoryDatabase;
use bdk::blockchain::ElectrumBlockchain;
use bdk::SyncOptions;
use bdk::electrum_client::Client;
use bdk::bitcoin::Network;
fn main() -> Result<(), bdk::Error> {
let blockchain = ElectrumBlockchain::from(Client::new("ssl://electrum.blockstream.info:60002")?);
let wallet = Wallet::new(
"wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/0/*)",
Some("wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/1/*)"),
Network::Testnet,
MemoryDatabase::default(),
)?;
wallet.sync(&blockchain, SyncOptions::default())?;
println!("Descriptor balance: {} SAT", wallet.get_balance()?);
Ok(())
}
Generate a few addresses
use bdk::{Wallet, database::MemoryDatabase};
use bdk::wallet::AddressIndex::New;
fn main() -> Result<(), bdk::Error> {
let wallet = Wallet::new(
"wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/0/*)",
Some("wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/1/*)"),
bitcoin::Network::Testnet,
MemoryDatabase::default(),
)?;
println!("Address #0: {}", wallet.get_address(New)?);
println!("Address #1: {}", wallet.get_address(New)?);
println!("Address #2: {}", wallet.get_address(New)?);
Ok(())
}
Create a transaction
use bdk::{FeeRate, Wallet, SyncOptions};
use bdk::database::MemoryDatabase;
use bdk::blockchain::ElectrumBlockchain;
use bdk::electrum_client::Client;
use bdk::wallet::AddressIndex::New;
use bitcoin::base64;
use bitcoin::consensus::serialize;
fn main() -> Result<(), bdk::Error> {
let blockchain = ElectrumBlockchain::from(Client::new("ssl://electrum.blockstream.info:60002")?);
let wallet = Wallet::new(
"wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/0/*)",
Some("wpkh([c258d2e4/84h/1h/0h]tpubDDYkZojQFQjht8Tm4jsS3iuEmKjTiEGjG6KnuFNKKJb5A6ZUCUZKdvLdSDWofKi4ToRCwb9poe1XdqfUnP4jaJjCB2Zwv11ZLgSbnZSNecE/1/*)"),
bitcoin::Network::Testnet,
MemoryDatabase::default(),
)?;
wallet.sync(&blockchain, SyncOptions::default())?;
let send_to = wallet.get_address(New)?;
let (psbt, details) = {
let mut builder = wallet.build_tx();
builder
.add_recipient(send_to.script_pubkey(), 50_000)
.enable_rbf()
.do_not_spend_change()
.fee_rate(FeeRate::from_sat_per_vb(5.0));
builder.finish()?
};
println!("Transaction details: {:#?}", details);
println!("Unsigned PSBT: {}", base64::encode(&serialize(&psbt)));
Ok(())
}
Sign a transaction
use bdk::{Wallet, SignOptions, database::MemoryDatabase};
use bitcoin::base64;
use bitcoin::consensus::deserialize;
fn main() -> Result<(), bdk::Error> {
let wallet = Wallet::new(
"wpkh([c258d2e4/84h/1h/0h]tprv8griRPhA7342zfRyB6CqeKF8CJDXYu5pgnj1cjL1u2ngKcJha5jjTRimG82ABzJQ4MQe71CV54xfn25BbhCNfEGGJZnxvCDQCd6JkbvxW6h/0/*)",
Some("wpkh([c258d2e4/84h/1h/0h]tprv8griRPhA7342zfRyB6CqeKF8CJDXYu5pgnj1cjL1u2ngKcJha5jjTRimG82ABzJQ4MQe71CV54xfn25BbhCNfEGGJZnxvCDQCd6JkbvxW6h/1/*)"),
bitcoin::Network::Testnet,
MemoryDatabase::default(),
)?;
let psbt = "...";
let mut psbt = deserialize(&base64::decode(psbt).unwrap())?;
let finalized = wallet.sign(&mut psbt, SignOptions::default())?;
Ok(())
}
Testing
Unit testing
cargo test
Integration testing
Integration testing require testing features, for example:
cargo test --features test-electrum
The other options are test-esplora, test-rpc or test-rpc-legacy which runs against an older version of Bitcoin Core.
Note that electrs and bitcoind binaries are automatically downloaded (on mac and linux), to specify you already have installed binaries you must use --no-default-features and provide BITCOIND_EXE and ELECTRS_EXE as environment variables.
License
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.