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use crate::{
hash::ReversibleStorageHasher,
storage::{storage_prefix, unhashed},
StorageHasher, Twox128,
};
use codec::{Decode, Encode};
use sp_std::prelude::*;
use super::PrefixIterator;
pub struct StorageIterator<T> {
prefix: Vec<u8>,
previous_key: Vec<u8>,
drain: bool,
_phantom: ::sp_std::marker::PhantomData<T>,
}
impl<T> StorageIterator<T> {
#[deprecated(
note = "Please use the storage_iter or storage_iter_with_suffix functions instead"
)]
pub fn new(module: &[u8], item: &[u8]) -> Self {
#[allow(deprecated)]
Self::with_suffix(module, item, &[][..])
}
#[deprecated(
note = "Please use the storage_iter or storage_iter_with_suffix functions instead"
)]
pub fn with_suffix(module: &[u8], item: &[u8], suffix: &[u8]) -> Self {
let mut prefix = Vec::new();
let storage_prefix = storage_prefix(module, item);
prefix.extend_from_slice(&storage_prefix);
prefix.extend_from_slice(suffix);
let previous_key = prefix.clone();
Self { prefix, previous_key, drain: false, _phantom: Default::default() }
}
pub fn drain(mut self) -> Self {
self.drain = true;
self
}
}
impl<T: Decode + Sized> Iterator for StorageIterator<T> {
type Item = (Vec<u8>, T);
fn next(&mut self) -> Option<(Vec<u8>, T)> {
loop {
let maybe_next = sp_io::storage::next_key(&self.previous_key)
.filter(|n| n.starts_with(&self.prefix));
break match maybe_next {
Some(next) => {
self.previous_key = next.clone();
let maybe_value = frame_support::storage::unhashed::get::<T>(&next);
match maybe_value {
Some(value) => {
if self.drain {
frame_support::storage::unhashed::kill(&next);
}
Some((self.previous_key[self.prefix.len()..].to_vec(), value))
},
None => continue,
}
},
None => None,
}
}
}
}
pub struct StorageKeyIterator<K, T, H: ReversibleStorageHasher> {
prefix: Vec<u8>,
previous_key: Vec<u8>,
drain: bool,
_phantom: ::sp_std::marker::PhantomData<(K, T, H)>,
}
impl<K, T, H: ReversibleStorageHasher> StorageKeyIterator<K, T, H> {
#[deprecated(
note = "Please use the storage_key_iter or storage_key_iter_with_suffix functions instead"
)]
pub fn new(module: &[u8], item: &[u8]) -> Self {
#[allow(deprecated)]
Self::with_suffix(module, item, &[][..])
}
#[deprecated(
note = "Please use the storage_key_iter or storage_key_iter_with_suffix functions instead"
)]
pub fn with_suffix(module: &[u8], item: &[u8], suffix: &[u8]) -> Self {
let mut prefix = Vec::new();
let storage_prefix = storage_prefix(module, item);
prefix.extend_from_slice(&storage_prefix);
prefix.extend_from_slice(suffix);
let previous_key = prefix.clone();
Self { prefix, previous_key, drain: false, _phantom: Default::default() }
}
pub fn drain(mut self) -> Self {
self.drain = true;
self
}
}
impl<K: Decode + Sized, T: Decode + Sized, H: ReversibleStorageHasher> Iterator
for StorageKeyIterator<K, T, H>
{
type Item = (K, T);
fn next(&mut self) -> Option<(K, T)> {
loop {
let maybe_next = sp_io::storage::next_key(&self.previous_key)
.filter(|n| n.starts_with(&self.prefix));
break match maybe_next {
Some(next) => {
self.previous_key = next.clone();
let mut key_material = H::reverse(&next[self.prefix.len()..]);
match K::decode(&mut key_material) {
Ok(key) => {
let maybe_value = frame_support::storage::unhashed::get::<T>(&next);
match maybe_value {
Some(value) => {
if self.drain {
frame_support::storage::unhashed::kill(&next);
}
Some((key, value))
},
None => continue,
}
},
Err(_) => continue,
}
},
None => None,
}
}
}
}
pub fn storage_iter<T: Decode + Sized>(module: &[u8], item: &[u8]) -> PrefixIterator<(Vec<u8>, T)> {
storage_iter_with_suffix(module, item, &[][..])
}
pub fn storage_iter_with_suffix<T: Decode + Sized>(
module: &[u8],
item: &[u8],
suffix: &[u8],
) -> PrefixIterator<(Vec<u8>, T)> {
let mut prefix = Vec::new();
let storage_prefix = storage_prefix(module, item);
prefix.extend_from_slice(&storage_prefix);
prefix.extend_from_slice(suffix);
let previous_key = prefix.clone();
let closure = |raw_key_without_prefix: &[u8], raw_value: &[u8]| {
let value = T::decode(&mut &raw_value[..])?;
Ok((raw_key_without_prefix.to_vec(), value))
};
PrefixIterator { prefix, previous_key, drain: false, closure, phantom: Default::default() }
}
pub fn storage_key_iter<K: Decode + Sized, T: Decode + Sized, H: ReversibleStorageHasher>(
module: &[u8],
item: &[u8],
) -> PrefixIterator<(K, T)> {
storage_key_iter_with_suffix::<K, T, H>(module, item, &[][..])
}
pub fn storage_key_iter_with_suffix<
K: Decode + Sized,
T: Decode + Sized,
H: ReversibleStorageHasher,
>(
module: &[u8],
item: &[u8],
suffix: &[u8],
) -> PrefixIterator<(K, T)> {
let mut prefix = Vec::new();
let storage_prefix = storage_prefix(module, item);
prefix.extend_from_slice(&storage_prefix);
prefix.extend_from_slice(suffix);
let previous_key = prefix.clone();
let closure = |raw_key_without_prefix: &[u8], raw_value: &[u8]| {
let mut key_material = H::reverse(raw_key_without_prefix);
let key = K::decode(&mut key_material)?;
let value = T::decode(&mut &raw_value[..])?;
Ok((key, value))
};
PrefixIterator { prefix, previous_key, drain: false, closure, phantom: Default::default() }
}
pub fn have_storage_value(module: &[u8], item: &[u8], hash: &[u8]) -> bool {
get_storage_value::<()>(module, item, hash).is_some()
}
pub fn get_storage_value<T: Decode + Sized>(module: &[u8], item: &[u8], hash: &[u8]) -> Option<T> {
let mut key = vec![0u8; 32 + hash.len()];
let storage_prefix = storage_prefix(module, item);
key[0..32].copy_from_slice(&storage_prefix);
key[32..].copy_from_slice(hash);
frame_support::storage::unhashed::get::<T>(&key)
}
pub fn take_storage_value<T: Decode + Sized>(module: &[u8], item: &[u8], hash: &[u8]) -> Option<T> {
let mut key = vec![0u8; 32 + hash.len()];
let storage_prefix = storage_prefix(module, item);
key[0..32].copy_from_slice(&storage_prefix);
key[32..].copy_from_slice(hash);
frame_support::storage::unhashed::take::<T>(&key)
}
pub fn put_storage_value<T: Encode>(module: &[u8], item: &[u8], hash: &[u8], value: T) {
let mut key = vec![0u8; 32 + hash.len()];
let storage_prefix = storage_prefix(module, item);
key[0..32].copy_from_slice(&storage_prefix);
key[32..].copy_from_slice(hash);
frame_support::storage::unhashed::put(&key, &value);
}
pub fn remove_storage_prefix(module: &[u8], item: &[u8], hash: &[u8]) {
let mut key = vec![0u8; 32 + hash.len()];
let storage_prefix = storage_prefix(module, item);
key[0..32].copy_from_slice(&storage_prefix);
key[32..].copy_from_slice(hash);
frame_support::storage::unhashed::kill_prefix(&key, None);
}
pub fn take_storage_item<K: Encode + Sized, T: Decode + Sized, H: StorageHasher>(
module: &[u8],
item: &[u8],
key: K,
) -> Option<T> {
take_storage_value(module, item, key.using_encoded(H::hash).as_ref())
}
pub fn move_storage_from_pallet(
storage_name: &[u8],
old_pallet_name: &[u8],
new_pallet_name: &[u8],
) {
let new_prefix = storage_prefix(new_pallet_name, storage_name);
let old_prefix = storage_prefix(old_pallet_name, storage_name);
move_prefix(&old_prefix, &new_prefix);
if let Some(value) = unhashed::get_raw(&old_prefix) {
unhashed::put_raw(&new_prefix, &value);
unhashed::kill(&old_prefix);
}
}
pub fn move_pallet(old_pallet_name: &[u8], new_pallet_name: &[u8]) {
move_prefix(&Twox128::hash(old_pallet_name), &Twox128::hash(new_pallet_name))
}
pub fn move_prefix(from_prefix: &[u8], to_prefix: &[u8]) {
if from_prefix == to_prefix {
return
}
let iter = PrefixIterator::<_> {
prefix: from_prefix.to_vec(),
previous_key: from_prefix.to_vec(),
drain: true,
closure: |key, value| Ok((key.to_vec(), value.to_vec())),
phantom: Default::default(),
};
for (key, value) in iter {
let full_key = [to_prefix, &key].concat();
unhashed::put_raw(&full_key, &value);
}
}
#[cfg(test)]
mod tests {
use super::{
move_pallet, move_prefix, move_storage_from_pallet, storage_iter, storage_key_iter,
};
use crate::{
hash::StorageHasher,
pallet_prelude::{StorageMap, StorageValue, Twox128, Twox64Concat},
};
use sp_io::TestExternalities;
struct OldPalletStorageValuePrefix;
impl frame_support::traits::StorageInstance for OldPalletStorageValuePrefix {
const STORAGE_PREFIX: &'static str = "foo_value";
fn pallet_prefix() -> &'static str {
"my_old_pallet"
}
}
type OldStorageValue = StorageValue<OldPalletStorageValuePrefix, u32>;
struct OldPalletStorageMapPrefix;
impl frame_support::traits::StorageInstance for OldPalletStorageMapPrefix {
const STORAGE_PREFIX: &'static str = "foo_map";
fn pallet_prefix() -> &'static str {
"my_old_pallet"
}
}
type OldStorageMap = StorageMap<OldPalletStorageMapPrefix, Twox64Concat, u32, u32>;
struct NewPalletStorageValuePrefix;
impl frame_support::traits::StorageInstance for NewPalletStorageValuePrefix {
const STORAGE_PREFIX: &'static str = "foo_value";
fn pallet_prefix() -> &'static str {
"my_new_pallet"
}
}
type NewStorageValue = StorageValue<NewPalletStorageValuePrefix, u32>;
struct NewPalletStorageMapPrefix;
impl frame_support::traits::StorageInstance for NewPalletStorageMapPrefix {
const STORAGE_PREFIX: &'static str = "foo_map";
fn pallet_prefix() -> &'static str {
"my_new_pallet"
}
}
type NewStorageMap = StorageMap<NewPalletStorageMapPrefix, Twox64Concat, u32, u32>;
#[test]
fn test_move_prefix() {
TestExternalities::new_empty().execute_with(|| {
OldStorageValue::put(3);
OldStorageMap::insert(1, 2);
OldStorageMap::insert(3, 4);
move_prefix(&Twox128::hash(b"my_old_pallet"), &Twox128::hash(b"my_new_pallet"));
assert_eq!(OldStorageValue::get(), None);
assert_eq!(OldStorageMap::iter().collect::<Vec<_>>(), vec![]);
assert_eq!(NewStorageValue::get(), Some(3));
assert_eq!(NewStorageMap::iter().collect::<Vec<_>>(), vec![(1, 2), (3, 4)]);
})
}
#[test]
fn test_move_storage() {
TestExternalities::new_empty().execute_with(|| {
OldStorageValue::put(3);
OldStorageMap::insert(1, 2);
OldStorageMap::insert(3, 4);
move_storage_from_pallet(b"foo_map", b"my_old_pallet", b"my_new_pallet");
assert_eq!(OldStorageValue::get(), Some(3));
assert_eq!(OldStorageMap::iter().collect::<Vec<_>>(), vec![]);
assert_eq!(NewStorageValue::get(), None);
assert_eq!(NewStorageMap::iter().collect::<Vec<_>>(), vec![(1, 2), (3, 4)]);
move_storage_from_pallet(b"foo_value", b"my_old_pallet", b"my_new_pallet");
assert_eq!(OldStorageValue::get(), None);
assert_eq!(OldStorageMap::iter().collect::<Vec<_>>(), vec![]);
assert_eq!(NewStorageValue::get(), Some(3));
assert_eq!(NewStorageMap::iter().collect::<Vec<_>>(), vec![(1, 2), (3, 4)]);
})
}
#[test]
fn test_move_pallet() {
TestExternalities::new_empty().execute_with(|| {
OldStorageValue::put(3);
OldStorageMap::insert(1, 2);
OldStorageMap::insert(3, 4);
move_pallet(b"my_old_pallet", b"my_new_pallet");
assert_eq!(OldStorageValue::get(), None);
assert_eq!(OldStorageMap::iter().collect::<Vec<_>>(), vec![]);
assert_eq!(NewStorageValue::get(), Some(3));
assert_eq!(NewStorageMap::iter().collect::<Vec<_>>(), vec![(1, 2), (3, 4)]);
})
}
#[test]
fn test_storage_iter() {
TestExternalities::new_empty().execute_with(|| {
OldStorageValue::put(3);
OldStorageMap::insert(1, 2);
OldStorageMap::insert(3, 4);
assert_eq!(
storage_key_iter::<i32, i32, Twox64Concat>(b"my_old_pallet", b"foo_map")
.collect::<Vec<_>>(),
vec![(1, 2), (3, 4)],
);
assert_eq!(
storage_iter(b"my_old_pallet", b"foo_map")
.drain()
.map(|t| t.1)
.collect::<Vec<i32>>(),
vec![2, 4],
);
assert_eq!(OldStorageMap::iter().collect::<Vec<_>>(), vec![]);
assert_eq!(storage_iter::<i32>(b"my_old_pallet", b"foo_value").drain().next(), None);
assert_eq!(OldStorageValue::get(), Some(3));
});
}
}