use std::path::Path;
use redb::{Database, ReadableTable, TableDefinition};
use tracing::{debug, info};
use nodedb_raft::message::LogEntry;
use nodedb_raft::state::HardState;
use nodedb_raft::storage::LogStorage;
const ENTRIES: TableDefinition<&[u8], &[u8]> = TableDefinition::new("raft.entries");
const META: TableDefinition<&str, &[u8]> = TableDefinition::new("raft.meta");
const KEY_HARD_STATE: &str = "hard_state";
const KEY_SNAPSHOT_INDEX: &str = "snapshot_index";
const KEY_SNAPSHOT_TERM: &str = "snapshot_term";
pub struct RedbLogStorage {
db: Database,
}
impl RedbLogStorage {
pub fn open(path: &Path) -> crate::Result<Self> {
if let Some(parent) = path.parent() {
std::fs::create_dir_all(parent).map_err(|e| crate::ClusterError::Storage {
detail: format!("create raft storage dir: {e}"),
})?;
}
let db = Database::create(path).map_err(|e| crate::ClusterError::Storage {
detail: format!("open raft storage: {e}"),
})?;
let write_txn = db.begin_write().map_err(|e| crate::ClusterError::Storage {
detail: format!("init raft tables: {e}"),
})?;
{
write_txn
.open_table(ENTRIES)
.map_err(|e| crate::ClusterError::Storage {
detail: format!("create entries table: {e}"),
})?;
write_txn
.open_table(META)
.map_err(|e| crate::ClusterError::Storage {
detail: format!("create meta table: {e}"),
})?;
}
write_txn
.commit()
.map_err(|e| crate::ClusterError::Storage {
detail: format!("commit raft init: {e}"),
})?;
info!(path = %path.display(), "raft log storage opened");
Ok(Self { db })
}
}
fn index_key(index: u64) -> [u8; 8] {
index.to_be_bytes()
}
impl LogStorage for RedbLogStorage {
fn append(&mut self, entries: &[LogEntry]) -> nodedb_raft::error::Result<()> {
if entries.is_empty() {
return Ok(());
}
let write_txn =
self.db
.begin_write()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("write txn: {e}"),
})?;
{
let mut table = write_txn.open_table(ENTRIES).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("open entries: {e}"),
}
})?;
for entry in entries {
let key = index_key(entry.index);
let value = zerompk::to_msgpack_vec(entry).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("serialize entry: {e}"),
}
})?;
table
.insert(key.as_slice(), value.as_slice())
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("insert entry: {e}"),
})?;
}
}
write_txn
.commit()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("commit append: {e}"),
})?;
debug!(count = entries.len(), "raft log appended");
Ok(())
}
fn truncate(&mut self, index: u64) -> nodedb_raft::error::Result<()> {
let write_txn =
self.db
.begin_write()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("write txn: {e}"),
})?;
{
let mut table = write_txn.open_table(ENTRIES).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("open entries: {e}"),
}
})?;
let start = index_key(index);
let keys_to_remove: Vec<[u8; 8]> = table
.range(start.as_slice()..)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("range: {e}"),
})?
.filter_map(|r| {
r.ok().map(|(k, _)| {
let mut buf = [0u8; 8];
buf.copy_from_slice(k.value());
buf
})
})
.collect();
for key in &keys_to_remove {
table.remove(key.as_slice()).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("remove: {e}"),
}
})?;
}
}
write_txn
.commit()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("commit truncate: {e}"),
})?;
debug!(from_index = index, "raft log truncated");
Ok(())
}
fn load_entries_after(&self, snapshot_index: u64) -> nodedb_raft::error::Result<Vec<LogEntry>> {
let read_txn =
self.db
.begin_read()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("read txn: {e}"),
})?;
let table =
read_txn
.open_table(ENTRIES)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("open entries: {e}"),
})?;
let start = index_key(snapshot_index + 1);
let mut entries = Vec::new();
for result in
table
.range(start.as_slice()..)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("range: {e}"),
})?
{
let (_, value) = result.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("entry read: {e}"),
})?;
let entry: LogEntry = zerompk::from_msgpack(value.value()).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("deserialize entry: {e}"),
}
})?;
entries.push(entry);
}
debug!(
count = entries.len(),
after = snapshot_index,
"raft log loaded"
);
Ok(entries)
}
fn compact(&mut self, index: u64, term: u64) -> nodedb_raft::error::Result<()> {
let write_txn =
self.db
.begin_write()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("write txn: {e}"),
})?;
{
let mut table = write_txn.open_table(ENTRIES).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("open entries: {e}"),
}
})?;
let end = index_key(index + 1);
let keys_to_remove: Vec<[u8; 8]> = table
.range(..end.as_slice())
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("range: {e}"),
})?
.filter_map(|r| {
r.ok().map(|(k, _)| {
let mut buf = [0u8; 8];
buf.copy_from_slice(k.value());
buf
})
})
.collect();
for key in &keys_to_remove {
table.remove(key.as_slice()).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("remove: {e}"),
}
})?;
}
let mut meta =
write_txn
.open_table(META)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("open meta: {e}"),
})?;
let idx_bytes = zerompk::to_msgpack_vec(&index).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("serialize: {e}"),
}
})?;
let term_bytes = zerompk::to_msgpack_vec(&term).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("serialize: {e}"),
}
})?;
meta.insert(KEY_SNAPSHOT_INDEX, idx_bytes.as_slice())
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("insert meta: {e}"),
})?;
meta.insert(KEY_SNAPSHOT_TERM, term_bytes.as_slice())
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("insert meta: {e}"),
})?;
}
write_txn
.commit()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("commit compact: {e}"),
})?;
debug!(index, term, "raft log compacted");
Ok(())
}
fn snapshot_metadata(&self) -> (u64, u64) {
let Ok(read_txn) = self.db.begin_read() else {
return (0, 0);
};
let Ok(table) = read_txn.open_table(META) else {
return (0, 0);
};
let index = table
.get(KEY_SNAPSHOT_INDEX)
.ok()
.flatten()
.and_then(|v| zerompk::from_msgpack::<u64>(v.value()).ok())
.unwrap_or(0);
let term = table
.get(KEY_SNAPSHOT_TERM)
.ok()
.flatten()
.and_then(|v| zerompk::from_msgpack::<u64>(v.value()).ok())
.unwrap_or(0);
(index, term)
}
fn save_hard_state(&mut self, state: &HardState) -> nodedb_raft::error::Result<()> {
let write_txn =
self.db
.begin_write()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("write txn: {e}"),
})?;
{
let mut table =
write_txn
.open_table(META)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("open meta: {e}"),
})?;
let bytes = zerompk::to_msgpack_vec(state).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("serialize: {e}"),
}
})?;
table
.insert(KEY_HARD_STATE, bytes.as_slice())
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("insert: {e}"),
})?;
}
write_txn
.commit()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("commit: {e}"),
})?;
debug!(
term = state.current_term,
voted_for = state.voted_for,
"raft hard state saved"
);
Ok(())
}
fn load_hard_state(&self) -> nodedb_raft::error::Result<HardState> {
let read_txn =
self.db
.begin_read()
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("read txn: {e}"),
})?;
let table =
read_txn
.open_table(META)
.map_err(|e| nodedb_raft::error::RaftError::Storage {
detail: format!("open meta: {e}"),
})?;
match table.get(KEY_HARD_STATE) {
Ok(Some(value)) => {
let state: HardState = zerompk::from_msgpack(value.value()).map_err(|e| {
nodedb_raft::error::RaftError::Storage {
detail: format!("deserialize: {e}"),
}
})?;
Ok(state)
}
Ok(None) => Ok(HardState::default()),
Err(e) => Err(nodedb_raft::error::RaftError::Storage {
detail: format!("get hard state: {e}"),
}),
}
}
}
#[cfg(test)]
mod tests {
use super::*;
fn open_temp() -> (RedbLogStorage, tempfile::TempDir) {
let dir = tempfile::tempdir().unwrap();
let path = dir.path().join("test-raft.redb");
let storage = RedbLogStorage::open(&path).unwrap();
(storage, dir)
}
#[test]
fn append_and_load() {
let (mut s, _dir) = open_temp();
let entries = vec![
LogEntry {
term: 1,
index: 1,
data: b"cmd-a".to_vec(),
},
LogEntry {
term: 1,
index: 2,
data: b"cmd-b".to_vec(),
},
LogEntry {
term: 2,
index: 3,
data: b"cmd-c".to_vec(),
},
];
s.append(&entries).unwrap();
let loaded = s.load_entries_after(0).unwrap();
assert_eq!(loaded.len(), 3);
assert_eq!(loaded[0].data, b"cmd-a");
assert_eq!(loaded[2].term, 2);
}
#[test]
fn truncate_removes_tail() {
let (mut s, _dir) = open_temp();
for i in 1..=5 {
s.append(&[LogEntry {
term: 1,
index: i,
data: vec![],
}])
.unwrap();
}
s.truncate(3).unwrap();
let loaded = s.load_entries_after(0).unwrap();
assert_eq!(loaded.len(), 2);
assert_eq!(loaded.last().unwrap().index, 2);
}
#[test]
fn compact_removes_prefix() {
let (mut s, _dir) = open_temp();
for i in 1..=10 {
s.append(&[LogEntry {
term: 1,
index: i,
data: vec![],
}])
.unwrap();
}
s.compact(5, 1).unwrap();
assert_eq!(s.snapshot_metadata(), (5, 1));
let loaded = s.load_entries_after(5).unwrap();
assert_eq!(loaded.len(), 5);
assert_eq!(loaded[0].index, 6);
}
#[test]
fn hard_state_roundtrip() {
let (mut s, _dir) = open_temp();
let hs = HardState {
current_term: 7,
voted_for: 3,
};
s.save_hard_state(&hs).unwrap();
let loaded = s.load_hard_state().unwrap();
assert_eq!(loaded, hs);
}
#[test]
fn survives_reopen() {
let dir = tempfile::tempdir().unwrap();
let path = dir.path().join("reopen-raft.redb");
{
let mut s = RedbLogStorage::open(&path).unwrap();
s.append(&[LogEntry {
term: 1,
index: 1,
data: b"durable".to_vec(),
}])
.unwrap();
s.save_hard_state(&HardState {
current_term: 3,
voted_for: 1,
})
.unwrap();
}
let s = RedbLogStorage::open(&path).unwrap();
let loaded = s.load_entries_after(0).unwrap();
assert_eq!(loaded.len(), 1);
assert_eq!(loaded[0].data, b"durable");
let hs = s.load_hard_state().unwrap();
assert_eq!(hs.current_term, 3);
}
}