forked from Deuxfleurs/garage
273 lines
7.6 KiB
Rust
273 lines
7.6 KiB
Rust
use core::borrow::Borrow;
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use std::sync::Arc;
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use serde_bytes::ByteBuf;
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use sled::Transactional;
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use tokio::sync::Notify;
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use garage_util::data::*;
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use garage_util::error::*;
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use garage_util::sled_counter::SledCountedTree;
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use garage_rpc::system::System;
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use crate::crdt::Crdt;
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use crate::gc::GcTodoEntry;
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use crate::metrics::*;
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use crate::replication::*;
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use crate::schema::*;
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pub struct TableData<F: TableSchema, R: TableReplication> {
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system: Arc<System>,
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pub(crate) instance: F,
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pub(crate) replication: R,
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pub store: sled::Tree,
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pub(crate) merkle_tree: sled::Tree,
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pub(crate) merkle_todo: sled::Tree,
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pub(crate) merkle_todo_notify: Notify,
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pub(crate) gc_todo: SledCountedTree,
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pub(crate) metrics: TableMetrics,
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}
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impl<F, R> TableData<F, R>
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where
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F: TableSchema,
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R: TableReplication,
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{
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pub fn new(system: Arc<System>, instance: F, replication: R, db: &sled::Db) -> Arc<Self> {
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let store = db
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.open_tree(&format!("{}:table", F::TABLE_NAME))
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.expect("Unable to open DB tree");
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let merkle_tree = db
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.open_tree(&format!("{}:merkle_tree", F::TABLE_NAME))
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.expect("Unable to open DB Merkle tree tree");
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let merkle_todo = db
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.open_tree(&format!("{}:merkle_todo", F::TABLE_NAME))
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.expect("Unable to open DB Merkle TODO tree");
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let gc_todo = db
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.open_tree(&format!("{}:gc_todo_v2", F::TABLE_NAME))
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.expect("Unable to open DB tree");
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let gc_todo = SledCountedTree::new(gc_todo);
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let metrics = TableMetrics::new(F::TABLE_NAME, merkle_todo.clone(), gc_todo.clone());
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Arc::new(Self {
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system,
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instance,
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replication,
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store,
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merkle_tree,
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merkle_todo,
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merkle_todo_notify: Notify::new(),
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gc_todo,
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metrics,
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})
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}
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// Read functions
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pub fn read_entry(&self, p: &F::P, s: &F::S) -> Result<Option<ByteBuf>, Error> {
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let tree_key = self.tree_key(p, s);
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if let Some(bytes) = self.store.get(&tree_key)? {
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Ok(Some(ByteBuf::from(bytes.to_vec())))
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} else {
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Ok(None)
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}
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}
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pub fn read_range(
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&self,
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p: &F::P,
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s: &Option<F::S>,
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filter: &Option<F::Filter>,
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limit: usize,
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) -> Result<Vec<Arc<ByteBuf>>, Error> {
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let partition_hash = p.hash();
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let first_key = match s {
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None => partition_hash.to_vec(),
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Some(sk) => self.tree_key(p, sk),
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};
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let mut ret = vec![];
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for item in self.store.range(first_key..) {
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let (key, value) = item?;
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if &key[..32] != partition_hash.as_slice() {
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break;
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}
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let keep = match filter {
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None => true,
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Some(f) => {
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let entry = self.decode_entry(value.as_ref())?;
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F::matches_filter(&entry, f)
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}
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};
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if keep {
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ret.push(Arc::new(ByteBuf::from(value.as_ref())));
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}
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if ret.len() >= limit {
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break;
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}
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}
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Ok(ret)
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}
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// Mutation functions
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// When changing this code, take care of propagating modifications correctly:
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// - When an entry is modified or deleted, call the updated() function
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// on the table instance
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// - When an entry is modified or deleted, add it to the merkle updater's todo list.
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// This has to be done atomically with the modification for the merkle updater
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// to maintain consistency. The merkle updater must then be notified with todo_notify.
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// - When an entry is updated to be a tombstone, add it to the gc_todo tree
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pub(crate) fn update_many<T: Borrow<ByteBuf>>(&self, entries: &[T]) -> Result<(), Error> {
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for update_bytes in entries.iter() {
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self.update_entry(update_bytes.borrow().as_slice())?;
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}
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Ok(())
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}
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pub(crate) fn update_entry(&self, update_bytes: &[u8]) -> Result<(), Error> {
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let update = self.decode_entry(update_bytes)?;
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let tree_key = self.tree_key(update.partition_key(), update.sort_key());
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let changed = (&self.store, &self.merkle_todo).transaction(|(store, mkl_todo)| {
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let (old_entry, old_bytes, new_entry) = match store.get(&tree_key)? {
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Some(old_bytes) => {
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let old_entry = self
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.decode_entry(&old_bytes)
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.map_err(sled::transaction::ConflictableTransactionError::Abort)?;
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let mut new_entry = old_entry.clone();
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new_entry.merge(&update);
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(Some(old_entry), Some(old_bytes), new_entry)
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}
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None => (None, None, update.clone()),
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};
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// Scenario 1: the value changed, so of course there is a change
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let value_changed = Some(&new_entry) != old_entry.as_ref();
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// Scenario 2: the value didn't change but due to a migration in the
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// data format, the messagepack encoding changed. In this case
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// we have to write the migrated value in the table and update
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// the associated Merkle tree entry.
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let new_bytes = rmp_to_vec_all_named(&new_entry)
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.map_err(Error::RmpEncode)
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.map_err(sled::transaction::ConflictableTransactionError::Abort)?;
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let encoding_changed = Some(&new_bytes[..]) != old_bytes.as_ref().map(|x| &x[..]);
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if value_changed || encoding_changed {
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let new_bytes_hash = blake2sum(&new_bytes[..]);
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mkl_todo.insert(tree_key.clone(), new_bytes_hash.as_slice())?;
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store.insert(tree_key.clone(), new_bytes)?;
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Ok(Some((old_entry, new_entry, new_bytes_hash)))
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} else {
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Ok(None)
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}
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})?;
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if let Some((old_entry, new_entry, new_bytes_hash)) = changed {
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self.metrics.internal_update_counter.add(1);
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let is_tombstone = new_entry.is_tombstone();
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self.instance.updated(old_entry, Some(new_entry));
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self.merkle_todo_notify.notify_one();
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if is_tombstone {
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// We are only responsible for GC'ing this item if we are the
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// "leader" of the partition, i.e. the first node in the
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// set of nodes that replicates this partition.
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// This avoids GC loops and does not change the termination properties
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// of the GC algorithm, as in all cases GC is suspended if
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// any node of the partition is unavailable.
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let pk_hash = Hash::try_from(&tree_key[..32]).unwrap();
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let nodes = self.replication.write_nodes(&pk_hash);
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if nodes.first() == Some(&self.system.id) {
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GcTodoEntry::new(tree_key, new_bytes_hash).save(&self.gc_todo)?;
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}
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}
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}
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Ok(())
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}
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pub(crate) fn delete_if_equal(self: &Arc<Self>, k: &[u8], v: &[u8]) -> Result<bool, Error> {
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let removed = (&self.store, &self.merkle_todo).transaction(|(store, mkl_todo)| {
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if let Some(cur_v) = store.get(k)? {
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if cur_v == v {
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store.remove(k)?;
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mkl_todo.insert(k, vec![])?;
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return Ok(true);
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}
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}
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Ok(false)
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})?;
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if removed {
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self.metrics.internal_delete_counter.add(1);
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let old_entry = self.decode_entry(v)?;
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self.instance.updated(Some(old_entry), None);
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self.merkle_todo_notify.notify_one();
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}
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Ok(removed)
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}
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pub(crate) fn delete_if_equal_hash(
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self: &Arc<Self>,
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k: &[u8],
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vhash: Hash,
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) -> Result<bool, Error> {
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let removed = (&self.store, &self.merkle_todo).transaction(|(store, mkl_todo)| {
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if let Some(cur_v) = store.get(k)? {
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if blake2sum(&cur_v[..]) == vhash {
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store.remove(k)?;
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mkl_todo.insert(k, vec![])?;
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return Ok(Some(cur_v));
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}
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}
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Ok(None)
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})?;
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if let Some(old_v) = removed {
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let old_entry = self.decode_entry(&old_v[..])?;
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self.instance.updated(Some(old_entry), None);
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self.merkle_todo_notify.notify_one();
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Ok(true)
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} else {
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Ok(false)
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}
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}
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// ---- Utility functions ----
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pub(crate) fn tree_key(&self, p: &F::P, s: &F::S) -> Vec<u8> {
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let mut ret = p.hash().to_vec();
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ret.extend(s.sort_key());
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ret
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}
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pub(crate) fn decode_entry(&self, bytes: &[u8]) -> Result<F::E, Error> {
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match rmp_serde::decode::from_read_ref::<_, F::E>(bytes) {
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Ok(x) => Ok(x),
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Err(e) => match F::try_migrate(bytes) {
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Some(x) => Ok(x),
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None => {
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warn!("Unable to decode entry of {}: {}", F::TABLE_NAME, e);
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for line in hexdump::hexdump_iter(bytes) {
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debug!("{}", line);
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}
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Err(e.into())
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}
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},
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}
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}
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pub fn gc_todo_len(&self) -> usize {
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self.gc_todo.len()
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}
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}
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