1use dynamic::{MsgPack, MsgUnpack};
2use rand::random_range;
3use scc::HashMap;
4use smol_str::SmolStr;
5
6use anyhow::{Result, anyhow};
7
8use super::sync_await;
9use crate::directory;
10use crate::node::Node;
11use fjall::{KeyspaceCreateOptions, OptimisticTxDatabase, OptimisticTxKeyspace};
12use redis::AsyncCommands;
13use redis::Commands;
14use std::sync::Arc;
15
16use rslock::LockManager;
17
18pub enum Mount<T> {
19 Memory(Arc<HashMap<SmolStr, Node<T>>>),
20 Redis { client: redis::Client, rl: LockManager },
21 Fjall { values: OptimisticTxKeyspace, write_lock: Arc<std::sync::Mutex<()>> },
22}
23
24impl<T: std::fmt::Debug + MsgPack + MsgUnpack + Default + Send> Mount<T> {
25 pub fn memory() -> Self {
26 Self::Memory(Arc::new(HashMap::new()))
27 }
28
29 pub fn redis(url: &str) -> Result<Self> {
30 let client = redis::Client::open(url)?;
31 let mut conn = client.get_connection()?;
32 directory::rebuild_once(&mut conn)?;
33 let rl = LockManager::new(vec![url]);
34 Ok(Self::Redis { client, rl })
35 }
36
37 pub fn fjall(data_dir: &str) -> Result<Self> {
38 let db = OptimisticTxDatabase::builder(data_dir).open()?;
39 let values = db.keyspace("root", KeyspaceCreateOptions::default)?;
40 Ok(Self::Fjall { values, write_lock: Arc::new(std::sync::Mutex::new(())) })
41 }
42
43 pub fn add(&self, name: &str, value: T) -> bool {
44 match self {
45 Self::Memory(m) => {
46 m.upsert_sync(name.into(), Node::Object(value));
47 true
48 }
49 Self::Redis { client, rl: _ } => {
50 let mut buf = Vec::new();
51 value.encode(&mut buf);
52 let Ok(mut conn) = client.get_connection() else {
53 return false;
54 };
55 conn.set::<&str, Vec<u8>, ()>(name, buf).is_ok() && directory::add_path(&mut conn, name).is_ok()
56 }
57 Self::Fjall { values, write_lock } => {
58 let mut buf = Vec::new();
59 value.encode(&mut buf);
60 let Ok(_guard) = write_lock.lock() else {
61 return false;
62 };
63 fjall_clear_node(values, name).is_ok() && values.insert(fjall_object_key(name), buf).is_ok()
64 }
65 }
66 }
67
68 pub fn contains(&self, name: &str) -> bool {
69 match self {
70 Self::Memory(m) => m.contains_sync(name),
71 Self::Redis { client, rl: _ } => client.get_connection().and_then(|mut conn| conn.exists::<&str, bool>(name)).unwrap_or(false),
72 Self::Fjall { values, .. } => values.contains_key(fjall_object_key(name)).unwrap_or(false) || values.contains_key(fjall_type_key(name)).unwrap_or(false),
73 }
74 }
75
76 pub fn get_mut<R: Send + 'static, F: FnMut(&mut T) -> R>(&self, name: &str, mut f: F) -> Result<R>
77 where
78 F: Send + 'static,
79 {
80 match self {
81 Self::Memory(m) => m
82 .update_sync(name, |_, v| match v {
83 Node::Object(v) => Some(f(v)),
84 _ => None,
85 })
86 .flatten()
87 .ok_or(anyhow!("{} 不存在", name)),
88 Self::Redis { client, rl } => {
89 let name = String::from(name);
90 let rl = rl.clone();
91 let client = client.clone();
92 sync_await!(async move {
93 loop {
94 let time_out = random_range(0..1000); if let Ok(lock) = rl.lock(name.as_str(), std::time::Duration::from_millis(time_out)).await {
96 let mut conn = client.get_multiplexed_async_connection().await?;
97 let mut buf: Vec<u8> = conn.get(name.as_str()).await?;
98 let (mut v, _) = T::decode(buf.as_slice())?;
99 let r = f(&mut v);
100 buf.clear();
101 v.encode(&mut buf);
102 conn.set::<&str, Vec<u8>, ()>(name.as_str(), buf).await?;
103 rl.unlock(&lock).await;
104 break Ok(r);
105 }
106 }
107 })
108 }
109 Self::Fjall { values, write_lock } => {
110 let _guard = write_lock.lock().map_err(|e| anyhow!("无法获取 fjall 写锁: {}", e))?;
111 let mut v = fjall_get_object::<T>(values, name)?;
112 let r = f(&mut v);
113 fjall_insert_object(values, name, &v)?;
114 Ok(r)
115 }
116 }
117 }
118
119 pub fn get<R, F: FnOnce(&T) -> R>(&self, name: &str, f: F) -> Result<R> {
120 match self {
121 Self::Memory(m) => m
122 .read_sync(name, |_, v| match v {
123 Node::Object(v) => Some(f(v)),
124 _ => None,
125 })
126 .flatten()
127 .ok_or(anyhow!("{} 不存在", name)),
128 Self::Redis { client, rl: _ } => {
129 let mut conn = client.get_connection()?;
130 let buf: Vec<u8> = conn.get(name)?;
131 let (v, _) = T::decode(buf.as_slice())?;
132 Ok(f(&v))
133 }
134 Self::Fjall { values, .. } => fjall_get_object(values, name).map(|v| f(&v)),
135 }
136 }
137
138 pub fn get_key_mut<'a, R: Send + 'static, F: FnOnce(&mut T) -> R>(&'a self, name: &'a str, key: &'a str, f: F) -> Result<R>
139 where
140 F: Send + 'static,
141 {
142 match self {
143 Self::Memory(m) => m
144 .update_sync(name, |_, v| match v {
145 Node::Map(m) => m.update_sync(key, |_, v| f(v)),
146 _ => None,
147 })
148 .flatten()
149 .ok_or(anyhow!("{} 不存在", name)),
150 Self::Redis { client, rl } => {
151 let name = String::from(name);
152 let key = String::from(key);
153 let rl = rl.clone();
154 let client = client.clone();
155 sync_await!(async move {
156 loop {
157 let time_out = random_range(0..1000); let lock_name = format!("{}::{}", name, key); if let Ok(lock) = rl.lock(lock_name.as_str(), std::time::Duration::from_millis(time_out)).await {
160 let mut conn = client.get_multiplexed_async_connection().await?;
161 let mut buf: Vec<u8> = conn.hget(name.as_str(), key.as_str()).await?;
162 let (mut v, _) = T::decode(buf.as_slice())?;
163 let r = f(&mut v);
164 buf.clear();
165 v.encode(&mut buf);
166 conn.hset::<&str, &str, Vec<u8>, ()>(name.as_str(), key.as_str(), buf).await?;
167 rl.unlock(&lock).await;
168 break Ok(r);
169 }
170 }
171 })
172 }
173 Self::Fjall { values, write_lock } => {
174 let _guard = write_lock.lock().map_err(|e| anyhow!("无法获取 fjall 写锁: {}", e))?;
175 let mut v = fjall_get_map_item::<T>(values, name, key)?;
176 let r = f(&mut v);
177 fjall_insert_map_item(values, name, key, &v)?;
178 Ok(r)
179 }
180 }
181 }
182
183 pub fn dir(&self, name: &str) -> Result<Vec<SmolStr>> {
184 let prefix = if name.is_empty() || name.ends_with('/') { name.to_string() } else { format!("{name}/") };
185 if let Self::Redis { client, rl: _ } = self {
186 let mut conn = client.get_connection()?;
187 return Ok(Self::dir_entries_from_children(&prefix, directory::children(&mut conn, name)?));
188 }
189
190 let raw = self.dir_raw(&prefix)?;
191 Ok(Self::dir_entries_from_raw(&prefix, raw))
192 }
193
194 fn dir_entries_from_children(prefix: &str, children: Vec<SmolStr>) -> Vec<SmolStr> {
195 children.into_iter().map(|child| if prefix.is_empty() { child } else { format!("{prefix}{child}").into() }).collect()
196 }
197
198 fn dir_entries_from_raw(prefix: &str, raw: Vec<SmolStr>) -> Vec<SmolStr> {
199 let mut seen = std::collections::HashSet::new();
200 let mut names = Vec::new();
201 for key in raw {
202 let Some(rest) = key.strip_prefix(&prefix) else {
203 continue;
204 };
205 let end = rest.find('/').unwrap_or(rest.len());
206 let entry = &rest[..end];
207 if !entry.is_empty() && seen.insert(entry.to_string()) {
208 names.push(format!("{prefix}{entry}").into());
209 }
210 }
211 names
212 }
213
214 pub fn dir_raw(&self, name: &str) -> Result<Vec<SmolStr>> {
215 let mut names = Vec::new();
216 match self {
217 Self::Memory(m) => {
218 m.iter_sync(|key, _| {
219 if key.starts_with(name) {
220 names.push(key.clone())
221 }
222 true
223 });
224 }
225 Self::Redis { client, rl: _ } => {
226 let mut conn = client.get_connection()?;
227 let prefix = if name.is_empty() || name.ends_with('/') { name.to_string() } else { format!("{name}/") };
228 names.append(&mut Self::dir_entries_from_children(&prefix, directory::children(&mut conn, name)?));
229 }
230 Self::Fjall { values, .. } => {
231 names.append(&mut fjall_paths_with_prefix(values, name)?);
232 }
233 }
234 Ok(names)
235 }
236
237 pub fn len(&self, name: &str) -> Result<usize> {
238 match self {
239 Self::Memory(m) => m.read_sync(name, |_, v| v.len()).ok_or(anyhow!("{} 不是列表", name)),
240 Self::Redis { client, rl: _ } => {
241 let mut conn = client.get_connection()?;
242 let ty: String = conn.key_type(name)?;
243 match ty.as_str() {
244 "list" => Ok(conn.llen(name)?),
245 "hash" => Ok(conn.hlen(name)?),
246 _ => Ok(1),
247 }
248 }
249 Self::Fjall { values, .. } => match fjall_node_type(values, name)? {
250 Some(FjallNodeType::List) => Ok(fjall_count_prefix(values, fjall_list_prefix(name))?),
251 Some(FjallNodeType::Map) => Ok(fjall_count_prefix(values, fjall_map_prefix(name))?),
252 None if values.contains_key(fjall_object_key(name))? => Ok(1),
253 None => Err(anyhow!("{} 不存在", name)),
254 },
255 }
256 }
257
258 pub fn remove(&self, name: &str) -> Result<T> {
259 match self {
260 Self::Memory(m) => m.remove_sync(name).and_then(|(_, v)| v.into_object()).ok_or(anyhow!("{} 不存在", name)),
261 Self::Redis { client, rl: _ } => {
262 let mut conn = client.get_connection()?;
263 let buf: Vec<u8> = conn.get(name)?;
264 let (v, _) = T::decode(buf.as_slice())?;
265 let removed: usize = conn.del(name)?;
266 if removed != 0 {
267 directory::remove_path(&mut conn, name)?;
268 }
269 Ok(v)
270 }
271 Self::Fjall { values, .. } => {
272 let v = fjall_get_object(values, name)?;
273 values.remove(fjall_object_key(name))?;
274 Ok(v)
275 }
276 }
277 }
278
279 pub fn add_list(&self, name: &str) {
280 match self {
281 Self::Memory(m) => {
282 m.upsert_sync(name.into(), Node::<T>::list());
283 } Self::Redis { client: _, rl: _ } => {}
285 Self::Fjall { values, write_lock } => {
286 if let Ok(_guard) = write_lock.lock() {
287 let _ = fjall_clear_node(values, name).and_then(|_| fjall_set_node_type(values, name, FjallNodeType::List));
288 }
289 }
290 }
291 }
292
293 pub fn add_map(&self, name: &str) {
294 match self {
295 Self::Memory(m) => {
296 m.upsert_sync(name.into(), Node::<T>::map());
297 } Self::Redis { client: _, rl: _ } => {}
299 Self::Fjall { values, write_lock } => {
300 if let Ok(_guard) = write_lock.lock() {
301 let _ = fjall_clear_node(values, name).and_then(|_| fjall_set_node_type(values, name, FjallNodeType::Map));
302 }
303 }
304 }
305 }
306
307 pub fn push(&self, name: &str, value: T) -> Result<usize> {
308 match self {
309 Self::Memory(m) => m.update_sync(name, |_, v| v.push(value)).flatten().ok_or(anyhow!("push {} 失败", name)),
310 Self::Redis { client, rl: _ } => {
311 let mut conn = client.get_connection()?;
312 let mut buf = Vec::new();
313 value.encode(&mut buf);
314 let len = conn.rpush(name, buf)?;
315 directory::add_path(&mut conn, name)?;
316 Ok(len)
317 }
318 Self::Fjall { values, write_lock } => {
319 let _guard = write_lock.lock().map_err(|e| anyhow!("无法获取 fjall 写锁: {}", e))?;
320 match fjall_node_type(values, name)? {
321 Some(FjallNodeType::List) => {}
322 Some(FjallNodeType::Map) => return Err(anyhow!("push {} 失败", name)),
323 None => fjall_set_node_type(values, name, FjallNodeType::List)?,
324 }
325 let idx = fjall_next_list_idx(values, name)?;
326 fjall_insert_list_item(values, name, idx, &value)?;
327 Ok(idx)
328 }
329 }
330 }
331
332 pub fn get_idx<R, F: FnOnce(&T) -> R>(&self, name: &str, idx: usize, f: F) -> Result<R> {
333 match self {
334 Self::Memory(m) => m.read_sync(name, |_, v| v.get_idx(idx, f)).flatten().ok_or(anyhow!("get_idx {} 失败", name)),
335 Self::Redis { client, rl: _ } => {
336 let mut conn = client.get_connection()?;
337 let buf: Vec<u8> = conn.lindex(name, idx as isize)?;
338 let (v, _) = T::decode(buf.as_slice())?;
339 Ok(f(&v))
340 }
341 Self::Fjall { values, .. } => fjall_get_list_item(values, name, idx).map(|v| f(&v)),
342 }
343 }
344
345 pub fn get_idx_mut<R, F: FnMut(&mut T) -> R>(&self, name: &str, idx: usize, mut f: F) -> Result<R> {
346 match self {
347 Self::Memory(m) => m.update_sync(name, |_, v| v.get_idx_mut(idx, f)).flatten().ok_or(anyhow!("get_idx {} 失败", name)),
348 Self::Redis { client, rl: _ } => {
349 let mut conn = client.get_connection()?;
350 let buf: Vec<u8> = conn.lindex(name, idx as isize)?;
351 let (mut v, _) = T::decode(buf.as_slice())?;
352 Ok(f(&mut v))
353 }
354 Self::Fjall { values, write_lock } => {
355 let _guard = write_lock.lock().map_err(|e| anyhow!("无法获取 fjall 写锁: {}", e))?;
356 let mut v = fjall_get_list_item::<T>(values, name, idx)?;
357 let r = f(&mut v);
358 fjall_insert_list_item(values, name, idx, &v)?;
359 Ok(r)
360 }
361 }
362 }
363
364 pub fn remove_idx(&self, name: &str, idx: usize) -> Result<T> {
365 match self {
366 Self::Memory(m) => m.update_sync(name, |_, v| v.remove_idx(idx)).flatten().ok_or(anyhow!("remove_idx {} 失败", name)),
367 Self::Redis { client, rl: _ } => {
368 let mut conn = client.get_connection()?;
369 let buf: Vec<u8> = conn.lindex(name, idx as isize)?;
370 let v = T::decode(buf.as_slice()).map(|(v, _)| v).unwrap_or(T::default());
371 let _: () = conn.lset(name, idx as isize, Vec::new())?;
372 Ok(v)
373 }
374 Self::Fjall { values, .. } => {
375 let key = fjall_list_item_key(name, idx);
376 let buf = values.get(&key)?.ok_or(anyhow!("remove_idx {} 失败", name))?;
377 let (v, _) = T::decode(buf.as_ref())?;
378 values.remove(key)?;
379 Ok(v)
380 }
381 }
382 }
383
384 pub fn insert(&self, name: &str, key: &str, value: T) -> Option<T> {
385 match self {
386 Self::Memory(m) => m.update_sync(name, |_, v| v.insert(key.into(), value)).flatten(),
387 Self::Redis { client, rl: _ } => {
388 if let Ok(mut conn) = client.get_connection() {
389 let mut buf = Vec::new();
390 value.encode(&mut buf);
391 if conn.hset::<&str, &str, Vec<u8>, ()>(name, key, buf).is_ok() {
392 let _ = directory::add_path(&mut conn, name);
393 }
394 }
395 None
396 }
397 Self::Fjall { values, write_lock } => {
398 let _guard = write_lock.lock().ok()?;
399 match fjall_node_type(values, name).ok()? {
400 Some(FjallNodeType::Map) => {}
401 Some(FjallNodeType::List) => return None,
402 None => fjall_set_node_type(values, name, FjallNodeType::Map).ok()?,
403 }
404 let old = fjall_get_map_item(values, name, key).ok();
405 fjall_insert_map_item(values, name, key, &value).ok()?;
406 old
407 }
408 }
409 }
410
411 pub fn get_key<R, F: FnOnce(&T) -> R>(&self, name: &str, key: &str, f: F) -> Result<R> {
412 match self {
413 Self::Memory(m) => m.read_sync(name, |_, v| v.get_key(key, f)).flatten().ok_or(anyhow!("get_key {} 失败", name)),
414 Self::Redis { client, rl: _ } => {
415 let mut conn = client.get_connection()?;
416 let buf: Vec<u8> = conn.hget(name, key)?;
417 let (v, _) = T::decode(buf.as_slice())?;
418 Ok(f(&v))
419 }
420 Self::Fjall { values, .. } => fjall_get_map_item(values, name, key).map(|v| f(&v)),
421 }
422 }
423
424 pub fn keys(&self, name: &str) -> Result<Vec<SmolStr>> {
425 match self {
426 Self::Memory(m) => m.read_sync(name, |_, v| v.keys()).flatten().ok_or(anyhow!("get_key {} 失败", name)),
427 Self::Redis { client, rl: _ } => {
428 let mut conn = client.get_connection()?;
429 let keys: Vec<String> = conn.hkeys(name).unwrap_or(Vec::new());
430 Ok(keys.into_iter().map(|k| k.into()).collect())
431 }
432 Self::Fjall { values, .. } => fjall_map_keys(values, name),
433 }
434 }
435
436 pub fn remove_key(&self, name: &str, key: &str) -> Result<T> {
437 match self {
438 Self::Memory(m) => m.update_sync(name, |_, v| v.remove_key(key)).flatten().ok_or(anyhow!("remove_key {} 失败", name)),
439 Self::Redis { client, rl: _ } => {
440 let mut conn = client.get_connection()?;
441 let buf: Vec<u8> = conn.hget(name, key)?;
442 let v = T::decode(buf.as_slice())?.0;
443 let _: usize = conn.hdel(name, key)?;
444 if !conn.exists::<_, bool>(name)? {
445 directory::remove_path(&mut conn, name)?;
446 }
447 Ok(v)
448 }
449 Self::Fjall { values, .. } => {
450 let item_key = fjall_map_item_key(name, key);
451 let buf = values.get(&item_key)?.ok_or(anyhow!("remove_key {} 失败", name))?;
452 let (v, _) = T::decode(buf.as_ref())?;
453 values.remove(item_key)?;
454 Ok(v)
455 }
456 }
457 }
458}
459
460#[derive(Clone, Copy)]
461enum FjallNodeType {
462 List,
463 Map,
464}
465
466const FJALL_OBJECT_PREFIX: u8 = b'o';
467const FJALL_TYPE_PREFIX: u8 = b't';
468const FJALL_LIST_PREFIX: u8 = b'l';
469const FJALL_LIST_COUNTER_PREFIX: u8 = b'c';
470const FJALL_MAP_PREFIX: u8 = b'm';
471const FJALL_SEPARATOR: u8 = 0;
472
473fn fjall_key(prefix: u8, name: &str) -> Vec<u8> {
474 let mut key = Vec::with_capacity(2 + name.len());
475 key.push(prefix);
476 key.push(FJALL_SEPARATOR);
477 key.extend_from_slice(name.as_bytes());
478 key
479}
480
481fn fjall_object_key(name: &str) -> Vec<u8> {
482 fjall_key(FJALL_OBJECT_PREFIX, name)
483}
484
485fn fjall_type_key(name: &str) -> Vec<u8> {
486 fjall_key(FJALL_TYPE_PREFIX, name)
487}
488
489fn fjall_list_counter_key(name: &str) -> Vec<u8> {
490 fjall_key(FJALL_LIST_COUNTER_PREFIX, name)
491}
492
493fn fjall_item_prefix(prefix: u8, name: &str) -> Vec<u8> {
494 let mut key = fjall_key(prefix, name);
495 key.push(FJALL_SEPARATOR);
496 key
497}
498
499fn fjall_list_prefix(name: &str) -> Vec<u8> {
500 fjall_item_prefix(FJALL_LIST_PREFIX, name)
501}
502
503fn fjall_map_prefix(name: &str) -> Vec<u8> {
504 fjall_item_prefix(FJALL_MAP_PREFIX, name)
505}
506
507fn fjall_list_item_key(name: &str, idx: usize) -> Vec<u8> {
508 let mut key = fjall_list_prefix(name);
509 key.extend_from_slice(&(idx as u64).to_be_bytes());
510 key
511}
512
513fn fjall_map_item_key(name: &str, key: &str) -> Vec<u8> {
514 let mut item_key = fjall_map_prefix(name);
515 item_key.extend_from_slice(key.as_bytes());
516 item_key
517}
518
519fn fjall_decode_value<T: MsgUnpack>(buf: &[u8]) -> Result<T> {
520 T::decode(buf).map(|(value, _)| value)
521}
522
523fn fjall_encode_value<T: MsgPack>(value: &T) -> Vec<u8> {
524 let mut buf = Vec::new();
525 value.encode(&mut buf);
526 buf
527}
528
529fn fjall_get_object<T: MsgUnpack>(values: &OptimisticTxKeyspace, name: &str) -> Result<T> {
530 let buf = values.get(fjall_object_key(name))?.ok_or(anyhow!("{} 不存在", name))?;
531 fjall_decode_value(buf.as_ref())
532}
533
534fn fjall_insert_object<T: MsgPack>(values: &OptimisticTxKeyspace, name: &str, value: &T) -> Result<()> {
535 Ok(values.insert(fjall_object_key(name), fjall_encode_value(value))?)
536}
537
538fn fjall_get_list_item<T: MsgUnpack>(values: &OptimisticTxKeyspace, name: &str, idx: usize) -> Result<T> {
539 let buf = values.get(fjall_list_item_key(name, idx))?.ok_or(anyhow!("get_idx {} 失败", name))?;
540 fjall_decode_value(buf.as_ref())
541}
542
543fn fjall_insert_list_item<T: MsgPack>(values: &OptimisticTxKeyspace, name: &str, idx: usize, value: &T) -> Result<()> {
544 Ok(values.insert(fjall_list_item_key(name, idx), fjall_encode_value(value))?)
545}
546
547fn fjall_get_map_item<T: MsgUnpack>(values: &OptimisticTxKeyspace, name: &str, key: &str) -> Result<T> {
548 let buf = values.get(fjall_map_item_key(name, key))?.ok_or(anyhow!("get_key {} 失败", name))?;
549 fjall_decode_value(buf.as_ref())
550}
551
552fn fjall_insert_map_item<T: MsgPack>(values: &OptimisticTxKeyspace, name: &str, key: &str, value: &T) -> Result<()> {
553 Ok(values.insert(fjall_map_item_key(name, key), fjall_encode_value(value))?)
554}
555
556fn fjall_node_type(values: &OptimisticTxKeyspace, name: &str) -> Result<Option<FjallNodeType>> {
557 Ok(values.get(fjall_type_key(name))?.and_then(|value| match value.as_ref() {
558 b"L" => Some(FjallNodeType::List),
559 b"M" => Some(FjallNodeType::Map),
560 _ => None,
561 }))
562}
563
564fn fjall_set_node_type(values: &OptimisticTxKeyspace, name: &str, node_type: FjallNodeType) -> Result<()> {
565 let value = match node_type {
566 FjallNodeType::List => b"L".as_slice(),
567 FjallNodeType::Map => b"M".as_slice(),
568 };
569 Ok(values.insert(fjall_type_key(name), value)?)
570}
571
572fn fjall_clear_node(values: &OptimisticTxKeyspace, name: &str) -> Result<()> {
573 values.remove(fjall_object_key(name))?;
574 values.remove(fjall_type_key(name))?;
575 values.remove(fjall_list_counter_key(name))?;
576 fjall_remove_prefix(values, fjall_list_prefix(name))?;
577 fjall_remove_prefix(values, fjall_map_prefix(name))?;
578 Ok(())
579}
580
581fn fjall_remove_prefix(values: &OptimisticTxKeyspace, prefix: Vec<u8>) -> Result<()> {
582 let mut keys = Vec::new();
583 for item in values.inner().prefix(prefix) {
584 keys.push(item.key()?);
585 }
586 for key in keys {
587 values.remove(key)?;
588 }
589 Ok(())
590}
591
592fn fjall_next_list_idx(values: &OptimisticTxKeyspace, name: &str) -> Result<usize> {
593 let key = fjall_list_counter_key(name);
594 let current = values.get(&key)?.and_then(|buf| buf.as_ref().try_into().ok().map(u64::from_be_bytes)).unwrap_or(0);
595 values.insert(key, (current + 1).to_be_bytes())?;
596 Ok(current as usize)
597}
598
599fn fjall_count_prefix(values: &OptimisticTxKeyspace, prefix: Vec<u8>) -> Result<usize> {
600 let mut count = 0;
601 for item in values.inner().prefix(prefix) {
602 item.key()?;
603 count += 1;
604 }
605 Ok(count)
606}
607
608fn fjall_paths_with_prefix(values: &OptimisticTxKeyspace, prefix: &str) -> Result<Vec<SmolStr>> {
609 let mut names = Vec::new();
610 names.extend(fjall_paths_for_key_prefix(values, FJALL_OBJECT_PREFIX, prefix)?);
611 names.extend(fjall_paths_for_key_prefix(values, FJALL_TYPE_PREFIX, prefix)?);
612 names.sort();
613 names.dedup();
614 Ok(names)
615}
616
617fn fjall_paths_for_key_prefix(values: &OptimisticTxKeyspace, key_prefix: u8, path_prefix: &str) -> Result<Vec<SmolStr>> {
618 let mut scan_prefix = fjall_key(key_prefix, path_prefix);
619 if path_prefix.is_empty() {
620 scan_prefix.truncate(2);
621 }
622 let mut names = Vec::new();
623 for item in values.inner().prefix(scan_prefix) {
624 let key = item.key()?;
625 let Some(path) = key.get(2..) else {
626 continue;
627 };
628 if let Ok(path) = std::str::from_utf8(path) {
629 names.push(path.into());
630 }
631 }
632 Ok(names)
633}
634
635fn fjall_map_keys(values: &OptimisticTxKeyspace, name: &str) -> Result<Vec<SmolStr>> {
636 let prefix = fjall_map_prefix(name);
637 let mut keys = Vec::new();
638 for item in values.inner().prefix(&prefix) {
639 let key = item.key()?;
640 let Some(map_key) = key.get(prefix.len()..) else {
641 continue;
642 };
643 if let Ok(map_key) = std::str::from_utf8(map_key) {
644 keys.push(map_key.into());
645 }
646 }
647 Ok(keys)
648}
649
650use std::sync::RwLock;
651
652#[derive(Debug)]
653pub struct Root<T> {
654 mounts: Arc<RwLock<Vec<(SmolStr, Mount<T>)>>>,
655}
656
657impl<T: std::fmt::Debug> std::fmt::Debug for Mount<T> {
658 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
659 match self {
660 Self::Memory(_) => write!(f, "Mount::Memory"),
661 Self::Redis { client: _, rl: _ } => write!(f, "Mount::Redis"),
662 Self::Fjall { .. } => write!(f, "Mount::Fjall"),
663 }
664 }
665}
666
667impl<T> Clone for Mount<T> {
668 fn clone(&self) -> Self {
669 match self {
670 Self::Memory(m) => Self::Memory(m.clone()),
671 Self::Redis { client, rl } => Self::Redis { client: client.clone(), rl: rl.clone() },
672 Self::Fjall { values, write_lock } => Self::Fjall { values: values.clone(), write_lock: write_lock.clone() },
673 }
674 }
675}
676
677impl<T: std::fmt::Debug + MsgPack + MsgUnpack + Default + Send> Root<T> {
678 pub fn new() -> Self {
679 Self { mounts: Arc::new(RwLock::new(vec![("local".into(), Mount::<T>::memory())])) }
680 }
681
682 pub fn mount_memory(&self, name: &str) -> bool {
683 let mounts = self.mounts.write();
684 match mounts {
685 Ok(mut mounts) => {
686 if mounts.iter().any(|(n, _)| n == name) {
687 return false;
688 }
689 mounts.push((name.into(), Mount::<T>::memory()));
690 true
691 }
692 Err(_) => false,
693 }
694 }
695
696 pub fn mount_redis(&self, name: &str, url: &str) -> Result<bool> {
697 let mounts = self.mounts.write();
698 match mounts {
699 Ok(mut mounts) => {
700 if mounts.iter().any(|(n, _)| n == name) {
701 return Ok(false);
702 }
703 mounts.push((name.into(), Mount::<T>::redis(url)?));
704 Ok(true)
705 }
706 Err(e) => Err(anyhow!("无法获取写锁: {}", e)),
707 }
708 }
709
710 pub fn mount_fjall(&self, name: &str, data_dir: &str) -> Result<bool> {
711 let mounts = self.mounts.write();
712 match mounts {
713 Ok(mut mounts) => {
714 if mounts.iter().any(|(n, _)| n == name) {
715 return Ok(false);
716 }
717 mounts.push((name.into(), Mount::<T>::fjall(data_dir)?));
718 Ok(true)
719 }
720 Err(e) => Err(anyhow!("无法获取写锁: {}", e)),
721 }
722 }
723
724 pub fn get_mount<'a>(&self, name: &'a str) -> Result<(Mount<T>, &'a str)> {
725 let (mount, name) = name.split_once('/').ok_or(anyhow!("{} 没有 root 路径", name))?;
726 let mounts = self.mounts.read().map_err(|e| anyhow!("无法获取读锁: {}", e))?;
727 let m = mounts.iter().find_map(|m| if m.0 == mount { Some(m.1.clone()) } else { None }).ok_or(anyhow!("没有找到 {}", name))?;
728 Ok((m, name))
729 }
730}
731
732#[cfg(test)]
733mod tests {
734 use super::*;
735 use dynamic::Dynamic;
736
737 #[test]
738 fn dir_returns_only_immediate_children() {
739 let root = Root::<Dynamic>::new();
740 let (mount, name) = root.get_mount("local/test/dir/a").unwrap();
741 assert!(mount.add(name, 1.into()));
742 let (mount, name) = root.get_mount("local/test/dir/sub/item").unwrap();
743 assert!(mount.add(name, 2.into()));
744 let (mount, name) = root.get_mount("local/test/dir2/x").unwrap();
745 assert!(mount.add(name, 3.into()));
746
747 let (mount, name) = root.get_mount("local/test/dir").unwrap();
748 let mut entries = mount.dir(name).unwrap();
749 entries.sort();
750
751 assert_eq!(entries, vec![SmolStr::new("test/dir/a"), SmolStr::new("test/dir/sub")]);
752 }
753
754 #[test]
755 fn dir_accepts_trailing_slash() {
756 let root = Root::<Dynamic>::new();
757 let (mount, name) = root.get_mount("local/test/slash/a").unwrap();
758 assert!(mount.add(name, 1.into()));
759
760 let (mount, name) = root.get_mount("local/test/slash/").unwrap();
761 assert_eq!(mount.dir(name).unwrap(), vec![SmolStr::new("test/slash/a")]);
762 }
763
764 #[test]
765 fn fjall_mount_persists_values_and_dirs() {
766 let data_dir = std::env::temp_dir().join(format!("zust-root-fjall-{}", uuid::Uuid::new_v4()));
767 let data_dir_str = data_dir.to_str().unwrap();
768
769 {
770 let root = Root::<Dynamic>::new();
771 assert!(root.mount_fjall("fjall", data_dir_str).unwrap());
772 let (mount, name) = root.get_mount("fjall/test/kv/a").unwrap();
773 assert!(mount.add(name, 42.into()));
774 let (mount, name) = root.get_mount("fjall/test/kv/b").unwrap();
775 assert!(mount.add(name, "persisted".into()));
776 let (mount, name) = root.get_mount("fjall/test/list").unwrap();
777 mount.add_list(name);
778 assert_eq!(mount.push(name, 7.into()).unwrap(), 0);
779 let (mount, name) = root.get_mount("fjall/test/map").unwrap();
780 mount.add_map(name);
781 mount.insert(name, "answer", 42.into());
782 }
783
784 {
785 let root = Root::<Dynamic>::new();
786 assert!(root.mount_fjall("fjall", data_dir_str).unwrap());
787 let (mount, name) = root.get_mount("fjall/test/kv/a").unwrap();
788 assert_eq!(mount.get(name, |v| v.as_int()).unwrap(), Some(42));
789 let (mount, name) = root.get_mount("fjall/test").unwrap();
790 let mut entries = mount.dir(name).unwrap();
791 entries.sort();
792 assert_eq!(entries, vec![SmolStr::new("test/kv"), SmolStr::new("test/list"), SmolStr::new("test/map")]);
793 let (mount, name) = root.get_mount("fjall/test/list").unwrap();
794 assert_eq!(mount.get_idx(name, 0, |v| v.as_int()).unwrap(), Some(7));
795 let (mount, name) = root.get_mount("fjall/test/map").unwrap();
796 assert_eq!(mount.get_key(name, "answer", |v| v.as_int()).unwrap(), Some(42));
797 }
798
799 let _ = std::fs::remove_dir_all(data_dir);
800 }
801}