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[bdk_chain_redesign] chain_oracle::Cache

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Introduce `chain_oracle::Cache` which is a cache for requests to the
chain oracle. `ChainOracle` has also been moved to the `chain_oracle`
module.

Introduce `get_tip_in_best_chain` method to the `ChainOracle` trait.
This allows for guaranteeing that chain state can be consistent across
operations with `IndexedTxGraph`.
This commit is contained in:
志宇 2023-04-05 10:57:26 +08:00
parent a7eaebbb77
commit 6e59dce10b
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GPG Key ID: F6345C9837C2BDE8
6 changed files with 186 additions and 36 deletions
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162
crates/chain/src/chain_oracle.rs Normal file
View File

@ -0,0 +1,162 @@
use core::{convert::Infallible, marker::PhantomData};
use alloc::collections::BTreeMap;
use bitcoin::BlockHash;
use crate::BlockId;
/// Represents a service that tracks the best chain history.
/// TODO: How do we ensure the chain oracle is consistent across a single call?
/// * We need to somehow lock the data! What if the ChainOracle is remote?
/// * Get tip method! And check the tip still exists at the end! And every internal call
/// does not go beyond the initial tip.
pub trait ChainOracle {
/// Error type.
type Error: core::fmt::Debug;
/// Get the height and hash of the tip in the best chain.
fn get_tip_in_best_chain(&self) -> Result<Option<BlockId>, Self::Error>;
/// Returns the block hash (if any) of the given `height`.
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error>;
/// Determines whether the block of [`BlockId`] exists in the best chain.
fn is_block_in_best_chain(&self, block_id: BlockId) -> Result<bool, Self::Error> {
Ok(matches!(self.get_block_in_best_chain(block_id.height)?, Some(h) if h == block_id.hash))
}
}
// [TODO] We need stuff for smart pointers. Maybe? How does rust lib do this?
// Box<dyn ChainOracle>, Arc<dyn ChainOracle> ????? I will figure it out
impl<C: ChainOracle> ChainOracle for &C {
type Error = C::Error;
fn get_tip_in_best_chain(&self) -> Result<Option<BlockId>, Self::Error> {
<C as ChainOracle>::get_tip_in_best_chain(self)
}
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error> {
<C as ChainOracle>::get_block_in_best_chain(self, height)
}
fn is_block_in_best_chain(&self, block_id: BlockId) -> Result<bool, Self::Error> {
<C as ChainOracle>::is_block_in_best_chain(self, block_id)
}
}
/// This structure increases the performance of getting chain data.
#[derive(Debug)]
pub struct Cache<C> {
assume_final_depth: u32,
tip_height: u32,
cache: BTreeMap<u32, BlockHash>,
marker: PhantomData<C>,
}
impl<C> Cache<C> {
/// Creates a new [`Cache`].
///
/// `assume_final_depth` represents the minimum number of blocks above the block in question
/// when we can assume the block is final (reorgs cannot happen). I.e. a value of 0 means the
/// tip is assumed to be final. The cache only caches blocks that are assumed to be final.
pub fn new(assume_final_depth: u32) -> Self {
Self {
assume_final_depth,
tip_height: 0,
cache: Default::default(),
marker: Default::default(),
}
}
}
impl<C: ChainOracle> Cache<C> {
/// This is the topmost (highest) block height that we assume as final (no reorgs possible).
///
/// Blocks higher than this height are not cached.
pub fn assume_final_height(&self) -> u32 {
self.tip_height.saturating_sub(self.assume_final_depth)
}
/// Update the `tip_height` with the [`ChainOracle`]'s tip.
///
/// `tip_height` is used with `assume_final_depth` to determine whether we should cache a
/// certain block height (`tip_height` - `assume_final_depth`).
pub fn try_update_tip_height(&mut self, chain: C) -> Result<(), C::Error> {
let tip = chain.get_tip_in_best_chain()?;
if let Some(BlockId { height, .. }) = tip {
self.tip_height = height;
}
Ok(())
}
/// Get a block from the cache with the [`ChainOracle`] as fallback.
///
/// If the block does not exist in cache, the logic fallbacks to fetching from the internal
/// [`ChainOracle`]. If the block is at or below the "assume final height", we will also store
/// the missing block in the cache.
pub fn try_get_block(&mut self, chain: C, height: u32) -> Result<Option<BlockHash>, C::Error> {
if let Some(&hash) = self.cache.get(&height) {
return Ok(Some(hash));
}
let hash = chain.get_block_in_best_chain(height)?;
if hash.is_some() && height > self.tip_height {
self.tip_height = height;
}
// only cache block if at least as deep as `assume_final_depth`
let assume_final_height = self.tip_height.saturating_sub(self.assume_final_depth);
if height <= assume_final_height {
if let Some(hash) = hash {
self.cache.insert(height, hash);
}
}
Ok(hash)
}
/// Determines whether the block of `block_id` is in the chain using the cache.
///
/// This uses [`try_get_block`] internally.
///
/// [`try_get_block`]: Self::try_get_block
pub fn try_is_block_in_chain(&mut self, chain: C, block_id: BlockId) -> Result<bool, C::Error> {
match self.try_get_block(chain, block_id.height)? {
Some(hash) if hash == block_id.hash => Ok(true),
_ => Ok(false),
}
}
}
impl<C: ChainOracle<Error = Infallible>> Cache<C> {
/// Updates the `tip_height` with the [`ChainOracle`]'s tip.
///
/// This is the no-error version of [`try_update_tip_height`].
///
/// [`try_update_tip_height`]: Self::try_update_tip_height
pub fn update_tip_height(&mut self, chain: C) {
self.try_update_tip_height(chain)
.expect("chain oracle error is infallible")
}
/// Get a block from the cache with the [`ChainOracle`] as fallback.
///
/// This is the no-error version of [`try_get_block`].
///
/// [`try_get_block`]: Self::try_get_block
pub fn get_block(&mut self, chain: C, height: u32) -> Option<BlockHash> {
self.try_get_block(chain, height)
.expect("chain oracle error is infallible")
}
/// Determines whether the block at `block_id` is in the chain using the cache.
///
/// This is the no-error version of [`try_is_block_in_chain`].
///
/// [`try_is_block_in_chain`]: Self::try_is_block_in_chain
pub fn is_block_in_best_chain(&mut self, chain: C, block_id: BlockId) -> bool {
self.try_is_block_in_chain(chain, block_id)
.expect("chain oracle error is infallible")
}
}

2
crates/chain/src/lib.rs
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@ -31,6 +31,8 @@ pub mod sparse_chain;
mod tx_data_traits;
pub mod tx_graph;
pub use tx_data_traits::*;
mod chain_oracle;
pub use chain_oracle::*;
#[doc(hidden)]
pub mod example_utils;

10
crates/chain/src/local_chain.rs
View File

@ -22,6 +22,14 @@ pub struct LocalChain {
impl ChainOracle for LocalChain {
type Error = Infallible;
fn get_tip_in_best_chain(&self) -> Result<Option<BlockId>, Self::Error> {
Ok(self
.blocks
.iter()
.last()
.map(|(&height, &hash)| BlockId { height, hash }))
}
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error> {
Ok(self.blocks.get(&height).cloned())
}
@ -153,7 +161,7 @@ impl Deref for ChangeSet {
}
}
/// Represents an update failure of [`LocalChain`].j
/// Represents an update failure of [`LocalChain`].
#[derive(Clone, Debug, PartialEq)]
pub enum UpdateError {
/// The update cannot be applied to the chain because the chain suffix it represents did not

11
crates/chain/src/sparse_chain.rs
View File

@ -307,6 +307,7 @@
//! );
//! ```
use core::{
convert::Infallible,
fmt::Debug,
ops::{Bound, RangeBounds},
};
@ -457,7 +458,15 @@ impl<P: core::fmt::Debug> core::fmt::Display for UpdateError<P> {
impl<P: core::fmt::Debug> std::error::Error for UpdateError<P> {}
impl<P: ChainPosition> ChainOracle for SparseChain<P> {
type Error = ();
type Error = Infallible;
fn get_tip_in_best_chain(&self) -> Result<Option<BlockId>, Self::Error> {
Ok(self
.checkpoints
.iter()
.last()
.map(|(&height, &hash)| BlockId { height, hash }))
}
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error> {
Ok(self.checkpoint_at(height).map(|b| b.hash))

32
crates/chain/src/tx_data_traits.rs
View File

@ -56,38 +56,6 @@ impl BlockAnchor for (u32, BlockHash) {
}
}
/// Represents a service that tracks the best chain history.
/// TODO: How do we ensure the chain oracle is consistent across a single call?
/// * We need to somehow lock the data! What if the ChainOracle is remote?
/// * Get tip method! And check the tip still exists at the end! And every internal call
/// does not go beyond the initial tip.
pub trait ChainOracle {
/// Error type.
type Error: core::fmt::Debug;
/// Returns the block hash (if any) of the given `height`.
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error>;
/// Determines whether the block of [`BlockId`] exists in the best chain.
fn is_block_in_best_chain(&self, block_id: BlockId) -> Result<bool, Self::Error> {
Ok(matches!(self.get_block_in_best_chain(block_id.height)?, Some(h) if h == block_id.hash))
}
}
// [TODO] We need stuff for smart pointers. Maybe? How does rust lib do this?
// Box<dyn ChainOracle>, Arc<dyn ChainOracle> ????? I will figure it out
impl<C: ChainOracle> ChainOracle for &C {
type Error = C::Error;
fn get_block_in_best_chain(&self, height: u32) -> Result<Option<BlockHash>, Self::Error> {
<C as ChainOracle>::get_block_in_best_chain(self, height)
}
fn is_block_in_best_chain(&self, block_id: BlockId) -> Result<bool, Self::Error> {
<C as ChainOracle>::is_block_in_best_chain(self, block_id)
}
}
/// Represents an index of transaction data.
pub trait TxIndex {
/// The resultant "additions" when new transaction data is indexed.

5
crates/chain/src/tx_graph.rs
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@ -586,11 +586,12 @@ impl<A: Clone + Ord> TxGraph<A> {
impl<A: BlockAnchor> TxGraph<A> {
/// Get all heights that are relevant to the graph.
pub fn relevant_heights(&self) -> BTreeSet<u32> {
pub fn relevant_heights(&self) -> impl Iterator<Item = u32> + '_ {
let mut visited = HashSet::new();
self.anchors
.iter()
.map(|(a, _)| a.anchor_block().height)
.collect()
.filter(move |&h| visited.insert(h))
}
/// Determines whether a transaction of `txid` is in the best chain.