// Copyright 2017-2019 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Substrate. If not, see .
//! Concrete externalities implementation.
use crate::{
backend::Backend, OverlayedChanges,
changes_trie::{
Storage as ChangesTrieStorage, CacheAction as ChangesTrieCacheAction, build_changes_trie,
},
};
use hash_db::Hasher;
use primitives::{
storage::{ChildStorageKey, well_known_keys::is_child_storage_key},
traits::Externalities, hexdisplay::HexDisplay, hash::H256,
};
use trie::{trie_types::Layout, MemoryDB, default_child_trie_root};
use externalities::Extensions;
use std::{error, fmt, any::{Any, TypeId}};
use log::{warn, trace};
const EXT_NOT_ALLOWED_TO_FAIL: &str = "Externalities not allowed to fail within runtime";
/// Errors that can occur when interacting with the externalities.
#[derive(Debug, Copy, Clone)]
pub enum Error {
/// Failure to load state data from the backend.
#[allow(unused)]
Backend(B),
/// Failure to execute a function.
#[allow(unused)]
Executor(E),
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::Backend(ref e) => write!(f, "Storage backend error: {}", e),
Error::Executor(ref e) => write!(f, "Sub-call execution error: {}", e),
}
}
}
impl error::Error for Error {
fn description(&self) -> &str {
match *self {
Error::Backend(..) => "backend error",
Error::Executor(..) => "executor error",
}
}
}
/// Wraps a read-only backend, call executor, and current overlayed changes.
pub struct Ext<'a, H, N, B, T> where H: Hasher, B: 'a + Backend {
/// The overlayed changes to write to.
overlay: &'a mut OverlayedChanges,
/// The storage backend to read from.
backend: &'a B,
/// The storage transaction necessary to commit to the backend. Is cached when
/// `storage_root` is called and the cache is cleared on every subsequent change.
storage_transaction: Option<(B::Transaction, H::Out)>,
/// Changes trie storage to read from.
changes_trie_storage: Option<&'a T>,
/// The changes trie transaction necessary to commit to the changes trie backend.
/// Set to Some when `storage_changes_root` is called. Could be replaced later
/// by calling `storage_changes_root` again => never used as cache.
/// This differs from `storage_transaction` behavior, because the moment when
/// `storage_changes_root` is called matters + we need to remember additional
/// data at this moment (block number).
changes_trie_transaction: Option<(MemoryDB, H::Out, ChangesTrieCacheAction)>,
/// Pseudo-unique id used for tracing.
pub id: u16,
/// Dummy usage of N arg.
_phantom: std::marker::PhantomData,
/// Extensions registered with this instance.
extensions: Option<&'a mut Extensions>,
}
impl<'a, H, N, B, T> Ext<'a, H, N, B, T>
where
H: Hasher,
B: 'a + Backend,
T: 'a + ChangesTrieStorage,
N: crate::changes_trie::BlockNumber,
{
/// Create a new `Ext` from overlayed changes and read-only backend
pub fn new(
overlay: &'a mut OverlayedChanges,
backend: &'a B,
changes_trie_storage: Option<&'a T>,
extensions: Option<&'a mut Extensions>,
) -> Self {
Ext {
overlay,
backend,
storage_transaction: None,
changes_trie_storage,
changes_trie_transaction: None,
id: rand::random(),
_phantom: Default::default(),
extensions,
}
}
/// Get the transaction necessary to update the backend.
pub fn transaction(&mut self) -> (
(B::Transaction, H256),
Option>,
) {
let _ = self.storage_root();
let (storage_transaction, changes_trie_transaction) = (
self.storage_transaction
.take()
.expect("storage_transaction always set after calling storage root; qed"),
self.changes_trie_transaction
.take()
.map(|(tx, _, cache)| (tx, cache)),
);
(
storage_transaction,
changes_trie_transaction,
)
}
/// Invalidates the currently cached storage root and the db transaction.
///
/// Called when there are changes that likely will invalidate the storage root.
fn mark_dirty(&mut self) {
self.storage_transaction = None;
}
}
#[cfg(test)]
impl<'a, H, N, B, T> Ext<'a, H, N, B, T>
where
H: Hasher,
B: 'a + Backend,
T: 'a + ChangesTrieStorage,
N: crate::changes_trie::BlockNumber,
{
pub fn storage_pairs(&self) -> Vec<(Vec, Vec)> {
use std::collections::HashMap;
self.backend.pairs().iter()
.map(|&(ref k, ref v)| (k.to_vec(), Some(v.to_vec())))
.chain(self.overlay.committed.top.clone().into_iter().map(|(k, v)| (k, v.value)))
.chain(self.overlay.prospective.top.clone().into_iter().map(|(k, v)| (k, v.value)))
.collect::>()
.into_iter()
.filter_map(|(k, maybe_val)| maybe_val.map(|val| (k, val)))
.collect()
}
}
impl<'a, H, B, T, N> Externalities for Ext<'a, H, N, B, T>
where
H: Hasher,
B: 'a + Backend,
T: 'a + ChangesTrieStorage,
N: crate::changes_trie::BlockNumber,
{
fn storage(&self, key: &[u8]) -> Option> {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.overlay.storage(key).map(|x| x.map(|x| x.to_vec())).unwrap_or_else(||
self.backend.storage(key).expect(EXT_NOT_ALLOWED_TO_FAIL));
trace!(target: "state-trace", "{:04x}: Get {}={:?}",
self.id,
HexDisplay::from(&key),
result.as_ref().map(HexDisplay::from)
);
result
}
fn storage_hash(&self, key: &[u8]) -> Option {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.overlay
.storage(key)
.map(|x| x.map(|x| H::hash(x)))
.unwrap_or_else(||
self.backend.storage_hash(key).expect(EXT_NOT_ALLOWED_TO_FAIL)
);
trace!(target: "state-trace", "{:04x}: Hash {}={:?}",
self.id,
HexDisplay::from(&key),
result,
);
result
}
fn original_storage(&self, key: &[u8]) -> Option> {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.backend.storage(key).expect(EXT_NOT_ALLOWED_TO_FAIL);
trace!(target: "state-trace", "{:04x}: GetOriginal {}={:?}",
self.id,
HexDisplay::from(&key),
result.as_ref().map(HexDisplay::from)
);
result
}
fn original_storage_hash(&self, key: &[u8]) -> Option {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.backend.storage_hash(key).expect(EXT_NOT_ALLOWED_TO_FAIL);
trace!(target: "state-trace", "{:04x}: GetOriginalHash {}={:?}",
self.id,
HexDisplay::from(&key),
result,
);
result
}
fn child_storage(&self, storage_key: ChildStorageKey, key: &[u8]) -> Option> {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.overlay
.child_storage(storage_key.as_ref(), key)
.map(|x| x.map(|x| x.to_vec()))
.unwrap_or_else(||
self.backend.child_storage(storage_key.as_ref(), key).expect(EXT_NOT_ALLOWED_TO_FAIL)
);
trace!(target: "state-trace", "{:04x}: GetChild({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
result.as_ref().map(HexDisplay::from)
);
result
}
fn child_storage_hash(&self, storage_key: ChildStorageKey, key: &[u8]) -> Option {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.overlay
.child_storage(storage_key.as_ref(), key)
.map(|x| x.map(|x| H::hash(x)))
.unwrap_or_else(||
self.backend.storage_hash(key).expect(EXT_NOT_ALLOWED_TO_FAIL)
);
trace!(target: "state-trace", "{:04x}: ChildHash({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
result,
);
result
}
fn original_child_storage(&self, storage_key: ChildStorageKey, key: &[u8]) -> Option> {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.backend
.child_storage(storage_key.as_ref(), key)
.expect(EXT_NOT_ALLOWED_TO_FAIL);
trace!(target: "state-trace", "{:04x}: ChildOriginal({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
result.as_ref().map(HexDisplay::from),
);
result
}
fn original_child_storage_hash(&self, storage_key: ChildStorageKey, key: &[u8]) -> Option {
let _guard = panic_handler::AbortGuard::force_abort();
let result = self.backend
.child_storage_hash(storage_key.as_ref(), key)
.expect(EXT_NOT_ALLOWED_TO_FAIL);
trace!(target: "state-trace", "{}: ChildHashOriginal({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
result,
);
result
}
fn exists_storage(&self, key: &[u8]) -> bool {
let _guard = panic_handler::AbortGuard::force_abort();
let result = match self.overlay.storage(key) {
Some(x) => x.is_some(),
_ => self.backend.exists_storage(key).expect(EXT_NOT_ALLOWED_TO_FAIL),
};
trace!(target: "state-trace", "{:04x}: Exists {}={:?}",
self.id,
HexDisplay::from(&key),
result,
);
result
}
fn exists_child_storage(&self, storage_key: ChildStorageKey, key: &[u8]) -> bool {
let _guard = panic_handler::AbortGuard::force_abort();
let result = match self.overlay.child_storage(storage_key.as_ref(), key) {
Some(x) => x.is_some(),
_ => self.backend
.exists_child_storage(storage_key.as_ref(), key)
.expect(EXT_NOT_ALLOWED_TO_FAIL),
};
trace!(target: "state-trace", "{:04x}: ChildExists({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
result,
);
result
}
fn place_storage(&mut self, key: Vec, value: Option>) {
trace!(target: "state-trace", "{:04x}: Put {}={:?}",
self.id,
HexDisplay::from(&key),
value.as_ref().map(HexDisplay::from)
);
let _guard = panic_handler::AbortGuard::force_abort();
if is_child_storage_key(&key) {
warn!(target: "trie", "Refuse to directly set child storage key");
return;
}
self.mark_dirty();
self.overlay.set_storage(key, value);
}
fn place_child_storage(
&mut self,
storage_key: ChildStorageKey,
key: Vec,
value: Option>,
) {
trace!(target: "state-trace", "{:04x}: PutChild({}) {}={:?}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&key),
value.as_ref().map(HexDisplay::from)
);
let _guard = panic_handler::AbortGuard::force_abort();
self.mark_dirty();
self.overlay.set_child_storage(storage_key.into_owned(), key, value);
}
fn kill_child_storage(&mut self, storage_key: ChildStorageKey) {
trace!(target: "state-trace", "{:04x}: KillChild({})",
self.id,
HexDisplay::from(&storage_key.as_ref()),
);
let _guard = panic_handler::AbortGuard::force_abort();
self.mark_dirty();
self.overlay.clear_child_storage(storage_key.as_ref());
self.backend.for_keys_in_child_storage(storage_key.as_ref(), |key| {
self.overlay.set_child_storage(storage_key.as_ref().to_vec(), key.to_vec(), None);
});
}
fn clear_prefix(&mut self, prefix: &[u8]) {
trace!(target: "state-trace", "{:04x}: ClearPrefix {}",
self.id,
HexDisplay::from(&prefix),
);
let _guard = panic_handler::AbortGuard::force_abort();
if is_child_storage_key(prefix) {
warn!(target: "trie", "Refuse to directly clear prefix that is part of child storage key");
return;
}
self.mark_dirty();
self.overlay.clear_prefix(prefix);
self.backend.for_keys_with_prefix(prefix, |key| {
self.overlay.set_storage(key.to_vec(), None);
});
}
fn clear_child_prefix(&mut self, storage_key: ChildStorageKey, prefix: &[u8]) {
trace!(target: "state-trace", "{:04x}: ClearChildPrefix({}) {}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&prefix),
);
let _guard = panic_handler::AbortGuard::force_abort();
self.mark_dirty();
self.overlay.clear_child_prefix(storage_key.as_ref(), prefix);
self.backend.for_child_keys_with_prefix(storage_key.as_ref(), prefix, |key| {
self.overlay.set_child_storage(storage_key.as_ref().to_vec(), key.to_vec(), None);
});
}
fn chain_id(&self) -> u64 {
42
}
fn storage_root(&mut self) -> H256 {
let _guard = panic_handler::AbortGuard::force_abort();
if let Some((_, ref root)) = self.storage_transaction {
trace!(target: "state-trace", "{:04x}: Root (cached) {}",
self.id,
HexDisplay::from(&root.as_ref()),
);
return root.clone();
}
let child_storage_keys =
self.overlay.prospective.children.keys()
.chain(self.overlay.committed.children.keys());
let child_delta_iter = child_storage_keys.map(|storage_key|
(storage_key.clone(), self.overlay.committed.children.get(storage_key)
.into_iter()
.flat_map(|map| map.iter().map(|(k, v)| (k.clone(), v.value.clone())))
.chain(self.overlay.prospective.children.get(storage_key)
.into_iter()
.flat_map(|map| map.iter().map(|(k, v)| (k.clone(), v.value.clone()))))));
// compute and memoize
let delta = self.overlay.committed.top.iter().map(|(k, v)| (k.clone(), v.value.clone()))
.chain(self.overlay.prospective.top.iter().map(|(k, v)| (k.clone(), v.value.clone())));
let (root, transaction) = self.backend.full_storage_root(delta, child_delta_iter);
self.storage_transaction = Some((transaction, root));
trace!(target: "state-trace", "{:04x}: Root {}",
self.id,
HexDisplay::from(&root.as_ref()),
);
root
}
fn child_storage_root(&mut self, storage_key: ChildStorageKey) -> Vec {
let _guard = panic_handler::AbortGuard::force_abort();
if self.storage_transaction.is_some() {
let root = self
.storage(storage_key.as_ref())
.unwrap_or(
default_child_trie_root::>(storage_key.as_ref())
);
trace!(target: "state-trace", "{:04x}: ChildRoot({}) (cached) {}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&root.as_ref()),
);
root
} else {
let storage_key = storage_key.as_ref();
let (root, is_empty, _) = {
let delta = self.overlay.committed.children.get(storage_key)
.into_iter()
.flat_map(|map| map.clone().into_iter().map(|(k, v)| (k, v.value)))
.chain(self.overlay.prospective.children.get(storage_key)
.into_iter()
.flat_map(|map| map.clone().into_iter().map(|(k, v)| (k, v.value))));
self.backend.child_storage_root(storage_key, delta)
};
if is_empty {
self.overlay.set_storage(storage_key.into(), None);
} else {
self.overlay.set_storage(storage_key.into(), Some(root.clone()));
}
trace!(target: "state-trace", "{:04x}: ChildRoot({}) {}",
self.id,
HexDisplay::from(&storage_key.as_ref()),
HexDisplay::from(&root.as_ref()),
);
root
}
}
fn storage_changes_root(&mut self, parent_hash: H256) -> Result, ()> {
let _guard = panic_handler::AbortGuard::force_abort();
self.changes_trie_transaction = build_changes_trie::<_, T, H, N>(
self.backend,
self.changes_trie_storage.clone(),
self.overlay,
parent_hash,
)?;
let result = Ok(self.changes_trie_transaction.as_ref().map(|(_, root, _)| root.clone()));
trace!(target: "state-trace", "{:04x}: ChangesRoot({}) {:?}",
self.id,
HexDisplay::from(&parent_hash.as_ref()),
result,
);
result
}
}
impl<'a, H, B, T, N> externalities::ExtensionStore for Ext<'a, H, N, B, T>
where
H: Hasher,
B: 'a + Backend,
T: 'a + ChangesTrieStorage,
N: crate::changes_trie::BlockNumber,
{
fn extension_by_type_id(&mut self, type_id: TypeId) -> Option<&mut dyn Any> {
self.extensions.as_mut().and_then(|exts| exts.get_mut(type_id))
}
}
#[cfg(test)]
mod tests {
use super::*;
use hex_literal::hex;
use codec::Encode;
use primitives::{Blake2Hasher, storage::well_known_keys::EXTRINSIC_INDEX};
use crate::{
changes_trie::{
Configuration as ChangesTrieConfiguration,
InMemoryStorage as InMemoryChangesTrieStorage,
}, backend::InMemory, overlayed_changes::OverlayedValue,
};
type TestBackend = InMemory;
type TestChangesTrieStorage = InMemoryChangesTrieStorage;
type TestExt<'a> = Ext<'a, Blake2Hasher, u64, TestBackend, TestChangesTrieStorage>;
fn prepare_overlay_with_changes() -> OverlayedChanges {
OverlayedChanges {
prospective: vec![
(EXTRINSIC_INDEX.to_vec(), OverlayedValue {
value: Some(3u32.encode()),
extrinsics: Some(vec![1].into_iter().collect())
}),
(vec![1], OverlayedValue {
value: Some(vec![100].into_iter().collect()),
extrinsics: Some(vec![1].into_iter().collect())
}),
].into_iter().collect(),
committed: Default::default(),
changes_trie_config: Some(ChangesTrieConfiguration {
digest_interval: 0,
digest_levels: 0,
}),
}
}
#[test]
fn storage_changes_root_is_none_when_storage_is_not_provided() {
let mut overlay = prepare_overlay_with_changes();
let backend = TestBackend::default();
let mut ext = TestExt::new(&mut overlay, &backend, None, None);
assert_eq!(ext.storage_changes_root(Default::default()).unwrap(), None);
}
#[test]
fn storage_changes_root_is_none_when_extrinsic_changes_are_none() {
let mut overlay = prepare_overlay_with_changes();
overlay.changes_trie_config = None;
let storage = TestChangesTrieStorage::with_blocks(vec![(100, Default::default())]);
let backend = TestBackend::default();
let mut ext = TestExt::new(&mut overlay, &backend, Some(&storage), None);
assert_eq!(ext.storage_changes_root(Default::default()).unwrap(), None);
}
#[test]
fn storage_changes_root_is_some_when_extrinsic_changes_are_non_empty() {
let mut overlay = prepare_overlay_with_changes();
let storage = TestChangesTrieStorage::with_blocks(vec![(99, Default::default())]);
let backend = TestBackend::default();
let mut ext = TestExt::new(&mut overlay, &backend, Some(&storage), None);
assert_eq!(
ext.storage_changes_root(Default::default()).unwrap(),
Some(hex!("bb0c2ef6e1d36d5490f9766cfcc7dfe2a6ca804504c3bb206053890d6dd02376").into()),
);
}
#[test]
fn storage_changes_root_is_some_when_extrinsic_changes_are_empty() {
let mut overlay = prepare_overlay_with_changes();
overlay.prospective.top.get_mut(&vec![1]).unwrap().value = None;
let storage = TestChangesTrieStorage::with_blocks(vec![(99, Default::default())]);
let backend = TestBackend::default();
let mut ext = TestExt::new(&mut overlay, &backend, Some(&storage), None);
assert_eq!(
ext.storage_changes_root(Default::default()).unwrap(),
Some(hex!("96f5aae4690e7302737b6f9b7f8567d5bbb9eac1c315f80101235a92d9ec27f4").into()),
);
}
}