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bdk/src/blockchain/electrum.rs
LLFourn 326bfe82a8
Remove Blockchain from wallet 
Although somewhat convenient to have, coupling the Wallet with
the blockchain trait causes development friction and complexity.
What if sometimes the wallet is "offline" (no access to the blockchain)
but sometimes its online?
The only thing the Wallet needs the blockchain for is to sync.
But not all applications will even use the sync method and the sync
method doesn't require the full blockchain functionality.
So we instead pass the blockchain in when we want to sync.

- To further reduce the coupling with blockchain I removed the get_height call from `new` and just use the height of the
last sync in the database.
- I split up the blockchain trait a bit into subtraits.
2022-02-24 20:39:00 +11:00

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// Bitcoin Dev Kit
// Written in 2020 by Alekos Filini <alekos.filini@gmail.com>
//
// Copyright (c) 2020-2021 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.
//! Electrum
//!
//! This module defines a [`Blockchain`] struct that wraps an [`electrum_client::Client`]
//! and implements the logic required to populate the wallet's [database](crate::database::Database) by
//! querying the inner client.
//!
//! ## Example
//!
//! ```no_run
//! # use bdk::blockchain::electrum::ElectrumBlockchain;
//! let client = electrum_client::Client::new("ssl://electrum.blockstream.info:50002")?;
//! let blockchain = ElectrumBlockchain::from(client);
//! # Ok::<(), bdk::Error>(())
//! ```
use std::collections::{HashMap, HashSet};
#[allow(unused_imports)]
use log::{debug, error, info, trace};
use bitcoin::{Transaction, Txid};
use electrum_client::{Client, ConfigBuilder, ElectrumApi, Socks5Config};
use super::script_sync::Request;
use super::*;
use crate::database::{BatchDatabase, Database};
use crate::error::Error;
use crate::{BlockTime, FeeRate};
/// Wrapper over an Electrum Client that implements the required blockchain traits
///
/// ## Example
/// See the [`blockchain::electrum`](crate::blockchain::electrum) module for a usage example.
pub struct ElectrumBlockchain {
client: Client,
stop_gap: usize,
}
impl std::convert::From<Client> for ElectrumBlockchain {
fn from(client: Client) -> Self {
ElectrumBlockchain {
client,
stop_gap: 20,
}
}
}
impl Blockchain for ElectrumBlockchain {
fn get_capabilities(&self) -> HashSet<Capability> {
vec![
Capability::FullHistory,
Capability::GetAnyTx,
Capability::AccurateFees,
]
.into_iter()
.collect()
}
fn get_tx(&self, txid: &Txid) -> Result<Option<Transaction>, Error> {
Ok(self.client.transaction_get(txid).map(Option::Some)?)
}
fn broadcast(&self, tx: &Transaction) -> Result<(), Error> {
Ok(self.client.transaction_broadcast(tx).map(|_| ())?)
}
fn estimate_fee(&self, target: usize) -> Result<FeeRate, Error> {
Ok(FeeRate::from_btc_per_kvb(
self.client.estimate_fee(target)? as f32
))
}
}
impl GetHeight for ElectrumBlockchain {
fn get_height(&self) -> Result<u32, Error> {
// TODO: unsubscribe when added to the client, or is there a better call to use here?
Ok(self
.client
.block_headers_subscribe()
.map(|data| data.height as u32)?)
}
}
impl WalletSync for ElectrumBlockchain {
fn wallet_setup<D: BatchDatabase, P: Progress>(
&self,
database: &mut D,
_progress_update: P,
) -> Result<(), Error> {
let mut request = script_sync::start(database, self.stop_gap)?;
let mut block_times = HashMap::<u32, u32>::new();
let mut txid_to_height = HashMap::<Txid, u32>::new();
let mut tx_cache = TxCache::new(database, &self.client);
let chunk_size = self.stop_gap;
// The electrum server has been inconsistent somehow in its responses during sync. For
// example, we do a batch request of transactions and the response contains less
// tranascations than in the request. This should never happen but we don't want to panic.
let electrum_goof = || Error::Generic("electrum server misbehaving".to_string());
let batch_update = loop {
request = match request {
Request::Script(script_req) => {
let scripts = script_req.request().take(chunk_size);
let txids_per_script: Vec<Vec<_>> = self
.client
.batch_script_get_history(scripts)
.map_err(Error::Electrum)?
.into_iter()
.map(|txs| {
txs.into_iter()
.map(|tx| {
let tx_height = match tx.height {
none if none <= 0 => None,
height => {
txid_to_height.insert(tx.tx_hash, height as u32);
Some(height as u32)
}
};
(tx.tx_hash, tx_height)
})
.collect()
})
.collect();
script_req.satisfy(txids_per_script)?
}
Request::Conftime(conftime_req) => {
// collect up to chunk_size heights to fetch from electrum
let needs_block_height = {
let mut needs_block_height_iter = conftime_req
.request()
.filter_map(|txid| txid_to_height.get(txid).cloned())
.filter(|height| block_times.get(height).is_none());
let mut needs_block_height = HashSet::new();
while needs_block_height.len() < chunk_size {
match needs_block_height_iter.next() {
Some(height) => needs_block_height.insert(height),
None => break,
};
}
needs_block_height
};
let new_block_headers = self
.client
.batch_block_header(needs_block_height.iter().cloned())?;
for (height, header) in needs_block_height.into_iter().zip(new_block_headers) {
block_times.insert(height, header.time);
}
let conftimes = conftime_req
.request()
.take(chunk_size)
.map(|txid| {
let confirmation_time = txid_to_height
.get(txid)
.map(|height| {
let timestamp =
*block_times.get(height).ok_or_else(electrum_goof)?;
Result::<_, Error>::Ok(BlockTime {
height: *height,
timestamp: timestamp.into(),
})
})
.transpose()?;
Ok(confirmation_time)
})
.collect::<Result<_, Error>>()?;
conftime_req.satisfy(conftimes)?
}
Request::Tx(tx_req) => {
let needs_full = tx_req.request().take(chunk_size);
tx_cache.save_txs(needs_full.clone())?;
let full_transactions = needs_full
.map(|txid| tx_cache.get(*txid).ok_or_else(electrum_goof))
.collect::<Result<Vec<_>, _>>()?;
let input_txs = full_transactions.iter().flat_map(|tx| {
tx.input
.iter()
.filter(|input| !input.previous_output.is_null())
.map(|input| &input.previous_output.txid)
});
tx_cache.save_txs(input_txs)?;
let full_details = full_transactions
.into_iter()
.map(|tx| {
let mut input_index = 0usize;
let prev_outputs = tx
.input
.iter()
.map(|input| {
if input.previous_output.is_null() {
return Ok(None);
}
let prev_tx = tx_cache
.get(input.previous_output.txid)
.ok_or_else(electrum_goof)?;
let txout = prev_tx
.output
.get(input.previous_output.vout as usize)
.ok_or_else(electrum_goof)?;
input_index += 1;
Ok(Some(txout.clone()))
})
.collect::<Result<Vec<_>, Error>>()?;
Ok((prev_outputs, tx))
})
.collect::<Result<Vec<_>, Error>>()?;
tx_req.satisfy(full_details)?
}
Request::Finish(batch_update) => break batch_update,
}
};
database.commit_batch(batch_update)?;
Ok(())
}
}
struct TxCache<'a, 'b, D> {
db: &'a D,
client: &'b Client,
cache: HashMap<Txid, Transaction>,
}
impl<'a, 'b, D: Database> TxCache<'a, 'b, D> {
fn new(db: &'a D, client: &'b Client) -> Self {
TxCache {
db,
client,
cache: HashMap::default(),
}
}
fn save_txs<'c>(&mut self, txids: impl Iterator<Item = &'c Txid>) -> Result<(), Error> {
let mut need_fetch = vec![];
for txid in txids {
if self.cache.get(txid).is_some() {
continue;
} else if let Some(transaction) = self.db.get_raw_tx(txid)? {
self.cache.insert(*txid, transaction);
} else {
need_fetch.push(txid);
}
}
if !need_fetch.is_empty() {
let txs = self
.client
.batch_transaction_get(need_fetch.clone())
.map_err(Error::Electrum)?;
for (tx, _txid) in txs.into_iter().zip(need_fetch) {
debug_assert_eq!(*_txid, tx.txid());
self.cache.insert(tx.txid(), tx);
}
}
Ok(())
}
fn get(&self, txid: Txid) -> Option<Transaction> {
self.cache.get(&txid).map(Clone::clone)
}
}
/// Configuration for an [`ElectrumBlockchain`]
#[derive(Debug, serde::Deserialize, serde::Serialize, Clone, PartialEq)]
pub struct ElectrumBlockchainConfig {
/// URL of the Electrum server (such as ElectrumX, Esplora, BWT) may start with `ssl://` or `tcp://` and include a port
///
/// eg. `ssl://electrum.blockstream.info:60002`
pub url: String,
/// URL of the socks5 proxy server or a Tor service
pub socks5: Option<String>,
/// Request retry count
pub retry: u8,
/// Request timeout (seconds)
pub timeout: Option<u8>,
/// Stop searching addresses for transactions after finding an unused gap of this length
pub stop_gap: usize,
}
impl ConfigurableBlockchain for ElectrumBlockchain {
type Config = ElectrumBlockchainConfig;
fn from_config(config: &Self::Config) -> Result<Self, Error> {
let socks5 = config.socks5.as_ref().map(Socks5Config::new);
let electrum_config = ConfigBuilder::new()
.retry(config.retry)
.timeout(config.timeout)?
.socks5(socks5)?
.build();
Ok(ElectrumBlockchain {
client: Client::from_config(config.url.as_str(), electrum_config)?,
stop_gap: config.stop_gap,
})
}
}
#[cfg(test)]
#[cfg(feature = "test-electrum")]
crate::bdk_blockchain_tests! {
fn test_instance(test_client: &TestClient) -> ElectrumBlockchain {
ElectrumBlockchain::from(Client::new(&test_client.electrsd.electrum_url).unwrap())
}
}
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