Files
pezkuwi-subxt/substrate/primitives/state-machine/src/trie_backend_essence.rs
T
Bastian Köcher 73d9ae3284 Introduce trie level cache and remove state cache (#11407)
* trie state cache

* Also cache missing access on read.

* fix comp

* bis

* fix

* use has_lru

* remove local storage cache on size 0.

* No cache.

* local cache only

* trie cache and local cache

* storage cache (with local)

* trie cache no local cache

* Add state access benchmark

* Remove warnings etc

* Add trie cache benchmark

* No extra "clone" required

* Change benchmark to use multiple blocks

* Use patches

* Integrate shitty implementation

* More stuff

* Revert "Merge branch 'master' into trie_state_cache"

This reverts commit 947cd8e6d43fced10e21b76d5b92ffa57b57c318, reversing
changes made to 29ff036463.

* Improve benchmark

* Adapt to latest changes

* Adapt to changes in trie

* Add a test that uses iterator

* Start fixing it

* Remove obsolete file

* Make it compile

* Start rewriting the trie node cache

* More work on the cache

* More docs and code etc

* Make data cache an optional

* Tests

* Remove debug stuff

* Recorder

* Some docs and a simple test for the recorder

* Compile fixes

* Make it compile

* More fixes

* More fixes

* Fix fix fix

* Make sure cache and recorder work together for basic stuff

* Test that data caching and recording works

* Test `TrieDBMut` with caching

* Try something

* Fixes, fixes, fixes

* Forward the recorder

* Make it compile

* Use recorder in more places

* Switch to new `with_optional_recorder` fn

* Refactor and cleanups

* Move `ProvingBackend` tests

* Simplify

* Move over all functionality to the essence

* Fix compilation

* Implement estimate encoded size for StorageProof

* Start using the `cache` everywhere

* Use the cache everywhere

* Fix compilation

* Fix tests

* Adds `TrieBackendBuilder` and enhances the tests

* Ensure that recorder drain checks that values are found as expected

* Switch over to `TrieBackendBuilder`

* Start fixing the problem with child tries and recording

* Fix recording of child tries

* Make it compile

* Overwrite `storage_hash` in `TrieBackend`

* Add `storage_cache` to  the benchmarks

* Fix `no_std` build

* Speed up cache lookup

* Extend the state access benchmark to also hash a runtime

* Fix build

* Fix compilation

* Rewrite value cache

* Add lru cache

* Ensure that the cache lru works

* Value cache should not be optional

* Add support for keeping the shared node cache in its bounds

* Make the cache configurable

* Check that the cache respects the bounds

* Adds a new test

* Fixes

* Docs and some renamings

* More docs

* Start using the new recorder

* Fix more code

* Take `self` argument

* Remove warnings

* Fix benchmark

* Fix accounting

* Rip off the state cache

* Start fixing fallout after removing the state cache

* Make it compile after trie changes

* Fix test

* Add some logging

* Some docs

* Some fixups and clean ups

* Fix benchmark

* Remove unneeded file

* Use git for patching

* Make CI happy

* Update primitives/trie/Cargo.toml

Co-authored-by: Koute <koute@users.noreply.github.com>

* Update primitives/state-machine/src/trie_backend.rs

Co-authored-by: cheme <emericchevalier.pro@gmail.com>

* Introduce new `AsTrieBackend` trait

* Make the LocalTrieCache not clonable

* Make it work in no_std and add docs

* Remove duplicate dependency

* Switch to ahash for better performance

* Speedup value cache merge

* Output errors on underflow

* Ensure the internal LRU map doesn't grow too much

* Use const fn to calculate the value cache element size

* Remove cache configuration

* Fix

* Clear the cache in between for more testing

* Try to come up with a failing test case

* Make the test fail

* Fix the child trie recording

* Make everything compile after the changes to trie

* Adapt to latest trie-db changes

* Fix on stable

* Update primitives/trie/src/cache.rs

Co-authored-by: cheme <emericchevalier.pro@gmail.com>

* Fix wrong merge

* Docs

* Fix warnings

* Cargo.lock

* Bump pin-project

* Fix warnings

* Switch to released crate version

* More fixes

* Make clippy and rustdocs happy

* More clippy

* Print error when using deprecated `--state-cache-size`

* 🤦

* Fixes

* Fix storage_hash linkings

* Update client/rpc/src/dev/mod.rs

Co-authored-by: Arkadiy Paronyan <arkady.paronyan@gmail.com>

* Review feedback

* encode bound

* Rework the shared value cache

Instead of using a `u64` to represent the key we now use an `Arc<[u8]>`. This arc is also stored in
some extra `HashSet`. We store the key are in an extra `HashSet` to de-duplicate the keys accross
different storage roots. When the latest key usage is dropped in the lru, we also remove the key
from the `HashSet`.

* Improve of the cache by merging the old and new solution

* FMT

* Please stop coming back all the time :crying:

* Update primitives/trie/src/cache/shared_cache.rs

Co-authored-by: Arkadiy Paronyan <arkady.paronyan@gmail.com>

* Fixes

* Make clippy happy

* Ensure we don't deadlock

* Only use one lock to simplify the code

* Do not depend on `Hasher`

* Fix tests

* FMT

* Clippy 🤦

Co-authored-by: cheme <emericchevalier.pro@gmail.com>
Co-authored-by: Koute <koute@users.noreply.github.com>
Co-authored-by: Arkadiy Paronyan <arkady.paronyan@gmail.com>
2022-08-18 18:59:22 +00:00

966 lines
26 KiB
Rust

// This file is part of Substrate.
// Copyright (C) 2017-2022 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! Trie-based state machine backend essence used to read values
//! from storage.
use crate::{
backend::Consolidate, debug, trie_backend::AsLocalTrieCache, warn, StorageKey, StorageValue,
};
use codec::Codec;
use hash_db::{self, AsHashDB, HashDB, HashDBRef, Hasher, Prefix};
#[cfg(feature = "std")]
use parking_lot::RwLock;
use sp_core::storage::{ChildInfo, ChildType, StateVersion};
#[cfg(not(feature = "std"))]
use sp_std::marker::PhantomData;
use sp_std::{boxed::Box, vec::Vec};
#[cfg(feature = "std")]
use sp_trie::recorder::Recorder;
use sp_trie::{
child_delta_trie_root, delta_trie_root, empty_child_trie_root, read_child_trie_hash,
read_child_trie_value, read_trie_value,
trie_types::{TrieDBBuilder, TrieError},
DBValue, KeySpacedDB, NodeCodec, Trie, TrieCache, TrieDBIterator, TrieDBKeyIterator,
TrieRecorder,
};
#[cfg(feature = "std")]
use std::{collections::HashMap, sync::Arc};
// In this module, we only use layout for read operation and empty root,
// where V1 and V0 are equivalent.
use sp_trie::LayoutV1 as Layout;
#[cfg(not(feature = "std"))]
macro_rules! format {
( $message:expr, $( $arg:expr )* ) => {
{
$( let _ = &$arg; )*
crate::DefaultError
}
};
}
type Result<V> = sp_std::result::Result<V, crate::DefaultError>;
/// Patricia trie-based storage trait.
pub trait Storage<H: Hasher>: Send + Sync {
/// Get a trie node.
fn get(&self, key: &H::Out, prefix: Prefix) -> Result<Option<DBValue>>;
}
/// Local cache for child root.
#[cfg(feature = "std")]
pub(crate) struct Cache<H> {
pub child_root: HashMap<Vec<u8>, Option<H>>,
}
#[cfg(feature = "std")]
impl<H> Cache<H> {
fn new() -> Self {
Cache { child_root: HashMap::new() }
}
}
/// Patricia trie-based pairs storage essence.
pub struct TrieBackendEssence<S: TrieBackendStorage<H>, H: Hasher, C> {
storage: S,
root: H::Out,
empty: H::Out,
#[cfg(feature = "std")]
pub(crate) cache: Arc<RwLock<Cache<H::Out>>>,
#[cfg(feature = "std")]
pub(crate) trie_node_cache: Option<C>,
#[cfg(feature = "std")]
pub(crate) recorder: Option<Recorder<H>>,
#[cfg(not(feature = "std"))]
_phantom: PhantomData<C>,
}
impl<S: TrieBackendStorage<H>, H: Hasher, C> TrieBackendEssence<S, H, C> {
/// Create new trie-based backend.
pub fn new(storage: S, root: H::Out) -> Self {
TrieBackendEssence {
storage,
root,
empty: H::hash(&[0u8]),
#[cfg(feature = "std")]
cache: Arc::new(RwLock::new(Cache::new())),
#[cfg(feature = "std")]
trie_node_cache: None,
#[cfg(feature = "std")]
recorder: None,
#[cfg(not(feature = "std"))]
_phantom: PhantomData,
}
}
/// Create new trie-based backend.
#[cfg(feature = "std")]
pub fn new_with_cache_and_recorder(
storage: S,
root: H::Out,
cache: Option<C>,
recorder: Option<Recorder<H>>,
) -> Self {
TrieBackendEssence {
storage,
root,
empty: H::hash(&[0u8]),
cache: Arc::new(RwLock::new(Cache::new())),
trie_node_cache: cache,
recorder,
}
}
/// Get backend storage reference.
pub fn backend_storage(&self) -> &S {
&self.storage
}
/// Get backend storage mutable reference.
pub fn backend_storage_mut(&mut self) -> &mut S {
&mut self.storage
}
/// Get trie root.
pub fn root(&self) -> &H::Out {
&self.root
}
/// Set trie root. This is useful for testing.
pub fn set_root(&mut self, root: H::Out) {
// If root did change so can have cached content.
self.reset_cache();
self.root = root;
}
#[cfg(feature = "std")]
fn reset_cache(&mut self) {
self.cache = Arc::new(RwLock::new(Cache::new()));
}
#[cfg(not(feature = "std"))]
fn reset_cache(&mut self) {}
/// Consumes self and returns underlying storage.
pub fn into_storage(self) -> S {
self.storage
}
}
impl<S: TrieBackendStorage<H>, H: Hasher, C: AsLocalTrieCache<H>> TrieBackendEssence<S, H, C> {
/// Call the given closure passing it the recorder and the cache.
///
/// If the given `storage_root` is `None`, `self.root` will be used.
#[cfg(feature = "std")]
fn with_recorder_and_cache<R>(
&self,
storage_root: Option<H::Out>,
callback: impl FnOnce(
Option<&mut dyn TrieRecorder<H::Out>>,
Option<&mut dyn TrieCache<NodeCodec<H>>>,
) -> R,
) -> R {
let storage_root = storage_root.unwrap_or_else(|| self.root);
let mut recorder = self.recorder.as_ref().map(|r| r.as_trie_recorder());
let recorder = recorder.as_mut().map(|r| r as _);
let mut cache = self
.trie_node_cache
.as_ref()
.map(|c| c.as_local_trie_cache().as_trie_db_cache(storage_root));
let cache = cache.as_mut().map(|c| c as _);
callback(recorder, cache)
}
#[cfg(not(feature = "std"))]
fn with_recorder_and_cache<R>(
&self,
_: Option<H::Out>,
callback: impl FnOnce(
Option<&mut dyn TrieRecorder<H::Out>>,
Option<&mut dyn TrieCache<NodeCodec<H>>>,
) -> R,
) -> R {
callback(None, None)
}
/// Call the given closure passing it the recorder and the cache.
///
/// This function must only be used when the operation in `callback` is
/// calculating a `storage_root`. It is expected that `callback` returns
/// the new storage root. This is required to register the changes in the cache
/// for the correct storage root.
#[cfg(feature = "std")]
fn with_recorder_and_cache_for_storage_root<R>(
&self,
callback: impl FnOnce(
Option<&mut dyn TrieRecorder<H::Out>>,
Option<&mut dyn TrieCache<NodeCodec<H>>>,
) -> (Option<H::Out>, R),
) -> R {
let mut recorder = self.recorder.as_ref().map(|r| r.as_trie_recorder());
let recorder = recorder.as_mut().map(|r| r as _);
let result = if let Some(local_cache) = self.trie_node_cache.as_ref() {
let mut cache = local_cache.as_local_trie_cache().as_trie_db_mut_cache();
let (new_root, r) = callback(recorder, Some(&mut cache));
if let Some(new_root) = new_root {
cache.merge_into(local_cache.as_local_trie_cache(), new_root);
}
r
} else {
callback(recorder, None).1
};
result
}
#[cfg(not(feature = "std"))]
fn with_recorder_and_cache_for_storage_root<R>(
&self,
callback: impl FnOnce(
Option<&mut dyn TrieRecorder<H::Out>>,
Option<&mut dyn TrieCache<NodeCodec<H>>>,
) -> (Option<H::Out>, R),
) -> R {
callback(None, None).1
}
}
impl<S: TrieBackendStorage<H>, H: Hasher, C: AsLocalTrieCache<H> + Send + Sync>
TrieBackendEssence<S, H, C>
where
H::Out: Codec + Ord,
{
/// Return the next key in the trie i.e. the minimum key that is strictly superior to `key` in
/// lexicographic order.
pub fn next_storage_key(&self, key: &[u8]) -> Result<Option<StorageKey>> {
self.next_storage_key_from_root(&self.root, None, key)
}
/// Access the root of the child storage in its parent trie
fn child_root(&self, child_info: &ChildInfo) -> Result<Option<H::Out>> {
#[cfg(feature = "std")]
{
if let Some(result) = self.cache.read().child_root.get(child_info.storage_key()) {
return Ok(*result)
}
}
let result = self.storage(child_info.prefixed_storage_key().as_slice())?.map(|r| {
let mut hash = H::Out::default();
// root is fetched from DB, not writable by runtime, so it's always valid.
hash.as_mut().copy_from_slice(&r[..]);
hash
});
#[cfg(feature = "std")]
{
self.cache.write().child_root.insert(child_info.storage_key().to_vec(), result);
}
Ok(result)
}
/// Return the next key in the child trie i.e. the minimum key that is strictly superior to
/// `key` in lexicographic order.
pub fn next_child_storage_key(
&self,
child_info: &ChildInfo,
key: &[u8],
) -> Result<Option<StorageKey>> {
let child_root = match self.child_root(child_info)? {
Some(child_root) => child_root,
None => return Ok(None),
};
self.next_storage_key_from_root(&child_root, Some(child_info), key)
}
/// Return next key from main trie or child trie by providing corresponding root.
fn next_storage_key_from_root(
&self,
root: &H::Out,
child_info: Option<&ChildInfo>,
key: &[u8],
) -> Result<Option<StorageKey>> {
let dyn_eph: &dyn HashDBRef<_, _>;
let keyspace_eph;
if let Some(child_info) = child_info.as_ref() {
keyspace_eph = KeySpacedDB::new(self, child_info.keyspace());
dyn_eph = &keyspace_eph;
} else {
dyn_eph = self;
}
self.with_recorder_and_cache(Some(*root), |recorder, cache| {
let trie = TrieDBBuilder::<H>::new(dyn_eph, root)
.with_optional_recorder(recorder)
.with_optional_cache(cache)
.build();
let mut iter = trie.key_iter().map_err(|e| format!("TrieDB iteration error: {}", e))?;
// The key just after the one given in input, basically `key++0`.
// Note: We are sure this is the next key if:
// * size of key has no limit (i.e. we can always add 0 to the path),
// * and no keys can be inserted between `key` and `key++0` (this is ensured by sp-io).
let mut potential_next_key = Vec::with_capacity(key.len() + 1);
potential_next_key.extend_from_slice(key);
potential_next_key.push(0);
iter.seek(&potential_next_key)
.map_err(|e| format!("TrieDB iterator seek error: {}", e))?;
let next_element = iter.next();
let next_key = if let Some(next_element) = next_element {
let next_key =
next_element.map_err(|e| format!("TrieDB iterator next error: {}", e))?;
Some(next_key)
} else {
None
};
Ok(next_key)
})
}
/// Returns the hash value
pub fn storage_hash(&self, key: &[u8]) -> Result<Option<H::Out>> {
let map_e = |e| format!("Trie lookup error: {}", e);
self.with_recorder_and_cache(None, |recorder, cache| {
TrieDBBuilder::new(self, &self.root)
.with_optional_cache(cache)
.with_optional_recorder(recorder)
.build()
.get_hash(key)
.map_err(map_e)
})
}
/// Get the value of storage at given key.
pub fn storage(&self, key: &[u8]) -> Result<Option<StorageValue>> {
let map_e = |e| format!("Trie lookup error: {}", e);
self.with_recorder_and_cache(None, |recorder, cache| {
read_trie_value::<Layout<H>, _>(self, &self.root, key, recorder, cache).map_err(map_e)
})
}
/// Returns the hash value
pub fn child_storage_hash(&self, child_info: &ChildInfo, key: &[u8]) -> Result<Option<H::Out>> {
let child_root = match self.child_root(child_info)? {
Some(root) => root,
None => return Ok(None),
};
let map_e = |e| format!("Trie lookup error: {}", e);
self.with_recorder_and_cache(Some(child_root), |recorder, cache| {
read_child_trie_hash::<Layout<H>, _>(
child_info.keyspace(),
self,
&child_root,
key,
recorder,
cache,
)
.map_err(map_e)
})
}
/// Get the value of child storage at given key.
pub fn child_storage(
&self,
child_info: &ChildInfo,
key: &[u8],
) -> Result<Option<StorageValue>> {
let child_root = match self.child_root(child_info)? {
Some(root) => root,
None => return Ok(None),
};
let map_e = |e| format!("Trie lookup error: {}", e);
self.with_recorder_and_cache(Some(child_root), |recorder, cache| {
read_child_trie_value::<Layout<H>, _>(
child_info.keyspace(),
self,
&child_root,
key,
recorder,
cache,
)
.map_err(map_e)
})
}
/// Retrieve all entries keys of storage and call `f` for each of those keys.
/// Aborts as soon as `f` returns false.
///
/// Returns `true` when all keys were iterated.
pub fn apply_to_key_values_while(
&self,
child_info: Option<&ChildInfo>,
prefix: Option<&[u8]>,
start_at: Option<&[u8]>,
f: impl FnMut(Vec<u8>, Vec<u8>) -> bool,
allow_missing_nodes: bool,
) -> Result<bool> {
let root = if let Some(child_info) = child_info.as_ref() {
match self.child_root(child_info)? {
Some(child_root) => child_root,
None => return Ok(true),
}
} else {
self.root
};
self.trie_iter_inner(&root, prefix, f, child_info, start_at, allow_missing_nodes)
}
/// Retrieve all entries keys of a storage and call `f` for each of those keys.
/// Aborts as soon as `f` returns false.
pub fn apply_to_keys_while<F: FnMut(&[u8]) -> bool>(
&self,
child_info: Option<&ChildInfo>,
prefix: Option<&[u8]>,
start_at: Option<&[u8]>,
f: F,
) {
let root = if let Some(child_info) = child_info.as_ref() {
match self.child_root(child_info) {
Ok(Some(v)) => v,
// If the child trie doesn't exist, there is no need to continue.
Ok(None) => return,
Err(e) => {
debug!(target: "trie", "Error while iterating child storage: {}", e);
return
},
}
} else {
self.root
};
self.trie_iter_key_inner(&root, prefix, f, child_info, start_at)
}
/// Execute given closure for all keys starting with prefix.
pub fn for_child_keys_with_prefix(
&self,
child_info: &ChildInfo,
prefix: &[u8],
mut f: impl FnMut(&[u8]),
) {
let root = match self.child_root(child_info) {
Ok(Some(v)) => v,
// If the child trie doesn't exist, there is no need to continue.
Ok(None) => return,
Err(e) => {
debug!(target: "trie", "Error while iterating child storage: {}", e);
return
},
};
self.trie_iter_key_inner(
&root,
Some(prefix),
|k| {
f(k);
true
},
Some(child_info),
None,
)
}
/// Execute given closure for all keys starting with prefix.
pub fn for_keys_with_prefix<F: FnMut(&[u8])>(&self, prefix: &[u8], mut f: F) {
self.trie_iter_key_inner(
&self.root,
Some(prefix),
|k| {
f(k);
true
},
None,
None,
)
}
fn trie_iter_key_inner<F: FnMut(&[u8]) -> bool>(
&self,
root: &H::Out,
maybe_prefix: Option<&[u8]>,
mut f: F,
child_info: Option<&ChildInfo>,
maybe_start_at: Option<&[u8]>,
) {
let mut iter = move |db| -> sp_std::result::Result<(), Box<TrieError<H::Out>>> {
self.with_recorder_and_cache(Some(*root), |recorder, cache| {
let trie = TrieDBBuilder::<H>::new(db, root)
.with_optional_recorder(recorder)
.with_optional_cache(cache)
.build();
let prefix = maybe_prefix.unwrap_or(&[]);
let iter = match maybe_start_at {
Some(start_at) =>
TrieDBKeyIterator::new_prefixed_then_seek(&trie, prefix, start_at),
None => TrieDBKeyIterator::new_prefixed(&trie, prefix),
}?;
for x in iter {
let key = x?;
debug_assert!(maybe_prefix
.as_ref()
.map(|prefix| key.starts_with(prefix))
.unwrap_or(true));
if !f(&key) {
break
}
}
Ok(())
})
};
let result = if let Some(child_info) = child_info {
let db = KeySpacedDB::new(self, child_info.keyspace());
iter(&db)
} else {
iter(self)
};
if let Err(e) = result {
debug!(target: "trie", "Error while iterating by prefix: {}", e);
}
}
fn trie_iter_inner<F: FnMut(Vec<u8>, Vec<u8>) -> bool>(
&self,
root: &H::Out,
prefix: Option<&[u8]>,
mut f: F,
child_info: Option<&ChildInfo>,
start_at: Option<&[u8]>,
allow_missing_nodes: bool,
) -> Result<bool> {
let mut iter = move |db| -> sp_std::result::Result<bool, Box<TrieError<H::Out>>> {
self.with_recorder_and_cache(Some(*root), |recorder, cache| {
let trie = TrieDBBuilder::<H>::new(db, root)
.with_optional_recorder(recorder)
.with_optional_cache(cache)
.build();
let prefix = prefix.unwrap_or(&[]);
let iterator = if let Some(start_at) = start_at {
TrieDBIterator::new_prefixed_then_seek(&trie, prefix, start_at)?
} else {
TrieDBIterator::new_prefixed(&trie, prefix)?
};
for x in iterator {
let (key, value) = x?;
debug_assert!(key.starts_with(prefix));
if !f(key, value) {
return Ok(false)
}
}
Ok(true)
})
};
let result = if let Some(child_info) = child_info {
let db = KeySpacedDB::new(self, child_info.keyspace());
iter(&db)
} else {
iter(self)
};
match result {
Ok(completed) => Ok(completed),
Err(e) if matches!(*e, TrieError::IncompleteDatabase(_)) && allow_missing_nodes =>
Ok(false),
Err(e) => Err(format!("TrieDB iteration error: {}", e)),
}
}
/// Execute given closure for all key and values starting with prefix.
pub fn for_key_values_with_prefix<F: FnMut(&[u8], &[u8])>(&self, prefix: &[u8], mut f: F) {
let _ = self.trie_iter_inner(
&self.root,
Some(prefix),
|k, v| {
f(&k, &v);
true
},
None,
None,
false,
);
}
/// Returns all `(key, value)` pairs in the trie.
pub fn pairs(&self) -> Vec<(StorageKey, StorageValue)> {
let collect_all = || -> sp_std::result::Result<_, Box<TrieError<H::Out>>> {
self.with_recorder_and_cache(None, |recorder, cache| {
let trie = TrieDBBuilder::<H>::new(self, self.root())
.with_optional_cache(cache)
.with_optional_recorder(recorder)
.build();
let mut v = Vec::new();
for x in trie.iter()? {
let (key, value) = x?;
v.push((key.to_vec(), value.to_vec()));
}
Ok(v)
})
};
match collect_all() {
Ok(v) => v,
Err(e) => {
debug!(target: "trie", "Error extracting trie values: {}", e);
Vec::new()
},
}
}
/// Returns all keys that start with the given `prefix`.
pub fn keys(&self, prefix: &[u8]) -> Vec<StorageKey> {
let mut keys = Vec::new();
self.for_keys_with_prefix(prefix, |k| keys.push(k.to_vec()));
keys
}
/// Return the storage root after applying the given `delta`.
pub fn storage_root<'a>(
&self,
delta: impl Iterator<Item = (&'a [u8], Option<&'a [u8]>)>,
state_version: StateVersion,
) -> (H::Out, S::Overlay) {
let mut write_overlay = S::Overlay::default();
let root = self.with_recorder_and_cache_for_storage_root(|recorder, cache| {
let mut eph = Ephemeral::new(self.backend_storage(), &mut write_overlay);
let res = match state_version {
StateVersion::V0 => delta_trie_root::<sp_trie::LayoutV0<H>, _, _, _, _, _>(
&mut eph, self.root, delta, recorder, cache,
),
StateVersion::V1 => delta_trie_root::<sp_trie::LayoutV1<H>, _, _, _, _, _>(
&mut eph, self.root, delta, recorder, cache,
),
};
match res {
Ok(ret) => (Some(ret), ret),
Err(e) => {
warn!(target: "trie", "Failed to write to trie: {}", e);
(None, self.root)
},
}
});
(root, write_overlay)
}
/// Returns the child storage root for the child trie `child_info` after applying the given
/// `delta`.
pub fn child_storage_root<'a>(
&self,
child_info: &ChildInfo,
delta: impl Iterator<Item = (&'a [u8], Option<&'a [u8]>)>,
state_version: StateVersion,
) -> (H::Out, bool, S::Overlay) {
let default_root = match child_info.child_type() {
ChildType::ParentKeyId => empty_child_trie_root::<sp_trie::LayoutV1<H>>(),
};
let mut write_overlay = S::Overlay::default();
let child_root = match self.child_root(child_info) {
Ok(Some(hash)) => hash,
Ok(None) => default_root,
Err(e) => {
warn!(target: "trie", "Failed to read child storage root: {}", e);
default_root
},
};
let new_child_root = self.with_recorder_and_cache_for_storage_root(|recorder, cache| {
let mut eph = Ephemeral::new(self.backend_storage(), &mut write_overlay);
match match state_version {
StateVersion::V0 =>
child_delta_trie_root::<sp_trie::LayoutV0<H>, _, _, _, _, _, _>(
child_info.keyspace(),
&mut eph,
child_root,
delta,
recorder,
cache,
),
StateVersion::V1 =>
child_delta_trie_root::<sp_trie::LayoutV1<H>, _, _, _, _, _, _>(
child_info.keyspace(),
&mut eph,
child_root,
delta,
recorder,
cache,
),
} {
Ok(ret) => (Some(ret), ret),
Err(e) => {
warn!(target: "trie", "Failed to write to trie: {}", e);
(None, child_root)
},
}
});
let is_default = new_child_root == default_root;
(new_child_root, is_default, write_overlay)
}
}
pub(crate) struct Ephemeral<'a, S: 'a + TrieBackendStorage<H>, H: 'a + Hasher> {
storage: &'a S,
overlay: &'a mut S::Overlay,
}
impl<'a, S: 'a + TrieBackendStorage<H>, H: 'a + Hasher> AsHashDB<H, DBValue>
for Ephemeral<'a, S, H>
{
fn as_hash_db<'b>(&'b self) -> &'b (dyn HashDB<H, DBValue> + 'b) {
self
}
fn as_hash_db_mut<'b>(&'b mut self) -> &'b mut (dyn HashDB<H, DBValue> + 'b) {
self
}
}
impl<'a, S: TrieBackendStorage<H>, H: Hasher> Ephemeral<'a, S, H> {
pub fn new(storage: &'a S, overlay: &'a mut S::Overlay) -> Self {
Ephemeral { storage, overlay }
}
}
impl<'a, S: 'a + TrieBackendStorage<H>, H: Hasher> hash_db::HashDB<H, DBValue>
for Ephemeral<'a, S, H>
{
fn get(&self, key: &H::Out, prefix: Prefix) -> Option<DBValue> {
HashDB::get(self.overlay, key, prefix).or_else(|| {
self.storage.get(key, prefix).unwrap_or_else(|e| {
warn!(target: "trie", "Failed to read from DB: {}", e);
None
})
})
}
fn contains(&self, key: &H::Out, prefix: Prefix) -> bool {
HashDB::get(self, key, prefix).is_some()
}
fn insert(&mut self, prefix: Prefix, value: &[u8]) -> H::Out {
HashDB::insert(self.overlay, prefix, value)
}
fn emplace(&mut self, key: H::Out, prefix: Prefix, value: DBValue) {
HashDB::emplace(self.overlay, key, prefix, value)
}
fn remove(&mut self, key: &H::Out, prefix: Prefix) {
HashDB::remove(self.overlay, key, prefix)
}
}
impl<'a, S: 'a + TrieBackendStorage<H>, H: Hasher> HashDBRef<H, DBValue> for Ephemeral<'a, S, H> {
fn get(&self, key: &H::Out, prefix: Prefix) -> Option<DBValue> {
HashDB::get(self, key, prefix)
}
fn contains(&self, key: &H::Out, prefix: Prefix) -> bool {
HashDB::contains(self, key, prefix)
}
}
/// Key-value pairs storage that is used by trie backend essence.
pub trait TrieBackendStorage<H: Hasher>: Send + Sync {
/// Type of in-memory overlay.
type Overlay: HashDB<H, DBValue> + Default + Consolidate;
/// Get the value stored at key.
fn get(&self, key: &H::Out, prefix: Prefix) -> Result<Option<DBValue>>;
}
impl<T: TrieBackendStorage<H>, H: Hasher> TrieBackendStorage<H> for &T {
type Overlay = T::Overlay;
fn get(&self, key: &H::Out, prefix: Prefix) -> Result<Option<DBValue>> {
(*self).get(key, prefix)
}
}
// This implementation is used by normal storage trie clients.
#[cfg(feature = "std")]
impl<H: Hasher> TrieBackendStorage<H> for Arc<dyn Storage<H>> {
type Overlay = sp_trie::PrefixedMemoryDB<H>;
fn get(&self, key: &H::Out, prefix: Prefix) -> Result<Option<DBValue>> {
Storage::<H>::get(std::ops::Deref::deref(self), key, prefix)
}
}
impl<H, KF> TrieBackendStorage<H> for sp_trie::GenericMemoryDB<H, KF>
where
H: Hasher,
KF: sp_trie::KeyFunction<H> + Send + Sync,
{
type Overlay = Self;
fn get(&self, key: &H::Out, prefix: Prefix) -> Result<Option<DBValue>> {
Ok(hash_db::HashDB::get(self, key, prefix))
}
}
impl<S: TrieBackendStorage<H>, H: Hasher, C: AsLocalTrieCache<H> + Send + Sync> AsHashDB<H, DBValue>
for TrieBackendEssence<S, H, C>
{
fn as_hash_db<'b>(&'b self) -> &'b (dyn HashDB<H, DBValue> + 'b) {
self
}
fn as_hash_db_mut<'b>(&'b mut self) -> &'b mut (dyn HashDB<H, DBValue> + 'b) {
self
}
}
impl<S: TrieBackendStorage<H>, H: Hasher, C: AsLocalTrieCache<H> + Send + Sync> HashDB<H, DBValue>
for TrieBackendEssence<S, H, C>
{
fn get(&self, key: &H::Out, prefix: Prefix) -> Option<DBValue> {
if *key == self.empty {
return Some([0u8].to_vec())
}
match self.storage.get(key, prefix) {
Ok(x) => x,
Err(e) => {
warn!(target: "trie", "Failed to read from DB: {}", e);
None
},
}
}
fn contains(&self, key: &H::Out, prefix: Prefix) -> bool {
HashDB::get(self, key, prefix).is_some()
}
fn insert(&mut self, _prefix: Prefix, _value: &[u8]) -> H::Out {
unimplemented!();
}
fn emplace(&mut self, _key: H::Out, _prefix: Prefix, _value: DBValue) {
unimplemented!();
}
fn remove(&mut self, _key: &H::Out, _prefix: Prefix) {
unimplemented!();
}
}
impl<S: TrieBackendStorage<H>, H: Hasher, C: AsLocalTrieCache<H> + Send + Sync>
HashDBRef<H, DBValue> for TrieBackendEssence<S, H, C>
{
fn get(&self, key: &H::Out, prefix: Prefix) -> Option<DBValue> {
HashDB::get(self, key, prefix)
}
fn contains(&self, key: &H::Out, prefix: Prefix) -> bool {
HashDB::contains(self, key, prefix)
}
}
#[cfg(test)]
mod test {
use super::*;
use sp_core::{Blake2Hasher, H256};
use sp_trie::{
cache::LocalTrieCache, trie_types::TrieDBMutBuilderV1 as TrieDBMutBuilder, KeySpacedDBMut,
PrefixedMemoryDB, TrieMut,
};
#[test]
fn next_storage_key_and_next_child_storage_key_work() {
let child_info = ChildInfo::new_default(b"MyChild");
let child_info = &child_info;
// Contains values
let mut root_1 = H256::default();
// Contains child trie
let mut root_2 = H256::default();
let mut mdb = PrefixedMemoryDB::<Blake2Hasher>::default();
{
let mut trie = TrieDBMutBuilder::new(&mut mdb, &mut root_1).build();
trie.insert(b"3", &[1]).expect("insert failed");
trie.insert(b"4", &[1]).expect("insert failed");
trie.insert(b"6", &[1]).expect("insert failed");
}
{
let mut mdb = KeySpacedDBMut::new(&mut mdb, child_info.keyspace());
// reuse of root_1 implicitly assert child trie root is same
// as top trie (contents must remain the same).
let mut trie = TrieDBMutBuilder::new(&mut mdb, &mut root_1).build();
trie.insert(b"3", &[1]).expect("insert failed");
trie.insert(b"4", &[1]).expect("insert failed");
trie.insert(b"6", &[1]).expect("insert failed");
}
{
let mut trie = TrieDBMutBuilder::new(&mut mdb, &mut root_2).build();
trie.insert(child_info.prefixed_storage_key().as_slice(), root_1.as_ref())
.expect("insert failed");
};
let essence_1 = TrieBackendEssence::<_, _, LocalTrieCache<_>>::new(mdb, root_1);
assert_eq!(essence_1.next_storage_key(b"2"), Ok(Some(b"3".to_vec())));
assert_eq!(essence_1.next_storage_key(b"3"), Ok(Some(b"4".to_vec())));
assert_eq!(essence_1.next_storage_key(b"4"), Ok(Some(b"6".to_vec())));
assert_eq!(essence_1.next_storage_key(b"5"), Ok(Some(b"6".to_vec())));
assert_eq!(essence_1.next_storage_key(b"6"), Ok(None));
let mdb = essence_1.backend_storage().clone();
let essence_2 = TrieBackendEssence::<_, _, LocalTrieCache<_>>::new(mdb, root_2);
assert_eq!(essence_2.next_child_storage_key(child_info, b"2"), Ok(Some(b"3".to_vec())));
assert_eq!(essence_2.next_child_storage_key(child_info, b"3"), Ok(Some(b"4".to_vec())));
assert_eq!(essence_2.next_child_storage_key(child_info, b"4"), Ok(Some(b"6".to_vec())));
assert_eq!(essence_2.next_child_storage_key(child_info, b"5"), Ok(Some(b"6".to_vec())));
assert_eq!(essence_2.next_child_storage_key(child_info, b"6"), Ok(None));
}
}