1use super::*;
2use crate::storage::unified::entity_cache::EntityCache;
3use parking_lot::RwLock;
4
5const META_PAGE_CONTENT_CAP: usize =
24 crate::storage::engine::PAGE_SIZE - crate::storage::engine::HEADER_SIZE;
25const META_V3_PAGE1_HEADER: usize = reddb_file::METADATA_OVERFLOW_HEADER_BYTES;
26const META_V3_OVERFLOW_HEADER: usize = reddb_file::METADATA_OVERFLOW_CONTINUATION_HEADER_BYTES;
27const META_V3_FIRST_PAYLOAD_CAP: usize = META_PAGE_CONTENT_CAP - META_V3_PAGE1_HEADER;
28const META_V3_OVERFLOW_PAYLOAD_CAP: usize = META_PAGE_CONTENT_CAP - META_V3_OVERFLOW_HEADER;
29
30fn free_existing_overflow_chain(pager: &Pager) -> Result<(), PagerError> {
31 let cs = crate::storage::engine::HEADER_SIZE;
32 let page = match pager.read_page(1) {
33 Ok(p) => p,
34 Err(_) => return Ok(()),
35 };
36 let bytes = page.as_bytes();
37 if bytes.len() < cs + META_V3_PAGE1_HEADER {
38 return Ok(());
39 }
40 let Some(header) =
41 reddb_file::decode_native_metadata_overflow_header(&bytes[cs..]).map_err(|err| {
42 PagerError::InvalidDatabase(format!("invalid metadata overflow header: {err}"))
43 })?
44 else {
45 return Ok(());
46 };
47 let mut next = header.next_overflow_page_id;
48 while next != 0 {
49 let ov = match pager.read_page(next) {
50 Ok(p) => p,
51 Err(_) => break,
52 };
53 let ob = ov.as_bytes();
54 let nn = match reddb_file::decode_native_metadata_overflow_continuation_header(&ob[cs..]) {
55 Ok(header) => header.next_overflow_page_id,
56 Err(_) => 0,
57 };
58 let _ = pager.free_page(next);
59 next = nn;
60 }
61 Ok(())
62}
63
64fn build_meta_page1_with_overflow(
65 pager: &Pager,
66 meta_data: &[u8],
67) -> Result<crate::storage::engine::Page, PagerError> {
68 use crate::storage::engine::{Page, PageType, HEADER_SIZE};
69 free_existing_overflow_chain(pager)?;
70
71 let mut page1 = Page::new(PageType::Header, 1);
72 let cs = HEADER_SIZE;
73
74 if meta_data.len() <= META_PAGE_CONTENT_CAP {
75 let buf = page1.as_bytes_mut();
77 buf[cs..cs + meta_data.len()].copy_from_slice(meta_data);
78 return Ok(page1);
79 }
80
81 let first_chunk = &meta_data[..META_V3_FIRST_PAYLOAD_CAP];
85 let mut tail = &meta_data[META_V3_FIRST_PAYLOAD_CAP..];
86 let mut chunks: Vec<&[u8]> = Vec::new();
87 while !tail.is_empty() {
88 let take = tail.len().min(META_V3_OVERFLOW_PAYLOAD_CAP);
89 chunks.push(&tail[..take]);
90 tail = &tail[take..];
91 }
92
93 let mut overflow_pages: Vec<Page> = Vec::with_capacity(chunks.len());
94 let mut overflow_ids: Vec<u32> = Vec::with_capacity(chunks.len());
95 for _ in 0..chunks.len() {
96 let pg = pager.allocate_page(PageType::Overflow)?;
97 overflow_ids.push(pg.page_id());
98 overflow_pages.push(pg);
99 }
100
101 for i in 0..chunks.len() {
102 let next = if i + 1 < chunks.len() {
103 overflow_ids[i + 1]
104 } else {
105 0u32
106 };
107 let len = chunks[i].len() as u32;
108 let buf = overflow_pages[i].as_bytes_mut();
109 reddb_file::encode_native_metadata_overflow_continuation_header(
110 &mut buf[cs..cs + META_V3_OVERFLOW_HEADER],
111 reddb_file::NativeMetadataOverflowContinuationHeader {
112 next_overflow_page_id: next,
113 chunk_bytes: len,
114 },
115 )
116 .map_err(|err| PagerError::InvalidDatabase(err.to_string()))?;
117 buf[cs + 8..cs + 8 + chunks[i].len()].copy_from_slice(chunks[i]);
118 }
119 for (idx, page) in overflow_pages.into_iter().enumerate() {
120 let id = overflow_ids[idx];
121 pager.write_page(id, page)?;
122 }
123
124 let format_version = reddb_file::decode_native_paged_metadata_header(meta_data)
126 .ok()
127 .flatten()
128 .map_or(0, |header| header.format_version);
129
130 let buf = page1.as_bytes_mut();
131 reddb_file::encode_native_metadata_overflow_header(
132 &mut buf[cs..cs + META_V3_PAGE1_HEADER],
133 reddb_file::NativeMetadataOverflowHeader {
134 format_version,
135 total_payload_bytes: meta_data.len() as u32,
136 next_overflow_page_id: overflow_ids[0],
137 },
138 )
139 .map_err(|err| PagerError::InvalidDatabase(err.to_string()))?;
140 buf[cs + META_V3_PAGE1_HEADER..cs + META_V3_PAGE1_HEADER + first_chunk.len()]
141 .copy_from_slice(first_chunk);
142
143 Ok(page1)
144}
145
146fn storage_integrity(
147 zone: &str,
148 id: impl Into<String>,
149 collection: Option<String>,
150 detail: impl Into<String>,
151) -> StoreError {
152 StoreError::StorageIntegrity(crate::api::StorageIntegrityError::new(
153 zone, id, collection, detail,
154 ))
155}
156
157fn page_integrity(
158 page_id: u32,
159 collection: Option<String>,
160 detail: impl Into<String>,
161) -> StoreError {
162 storage_integrity("page", page_id.to_string(), collection, detail)
163}
164
165fn read_meta_payload(pager: &Pager) -> Result<Option<Vec<u8>>, StoreError> {
177 let cs = crate::storage::engine::HEADER_SIZE;
178 let meta_page = pager.read_manifest_page().map_err(|err| {
179 storage_integrity(
180 "manifest",
181 "manifest",
182 None,
183 format!("internal manifest zone read failed ({err})"),
184 )
185 })?;
186 let bytes = meta_page.as_bytes();
187 if bytes.len() < cs + 4 {
188 return Ok(Some(bytes.get(cs..).unwrap_or(&[]).to_vec()));
189 }
190 let header = match reddb_file::decode_native_metadata_overflow_header(&bytes[cs..])
191 .map_err(|err| page_integrity(1, None, err.to_string()))?
192 {
193 Some(header) => header,
194 None => {
195 return Ok(Some(bytes[cs..].to_vec()));
196 }
197 };
198 if bytes.len() < cs + META_V3_PAGE1_HEADER {
199 return Err(page_integrity(
200 1,
201 None,
202 "metadata overflow header is truncated",
203 ));
204 }
205 let total = header.total_payload_bytes as usize;
206 let mut next = header.next_overflow_page_id;
207 let mut payload: Vec<u8> = Vec::with_capacity(total);
208 let first_take = total.min(META_V3_FIRST_PAYLOAD_CAP);
209 payload.extend_from_slice(
210 &bytes[cs + META_V3_PAGE1_HEADER..cs + META_V3_PAGE1_HEADER + first_take],
211 );
212 while next != 0 && payload.len() < total {
213 let ov = pager
214 .read_page(next)
215 .map_err(|err| page_integrity(next, None, err.to_string()))?;
216 let ob = ov.as_bytes();
217 if ob.len() < cs + META_V3_OVERFLOW_HEADER {
218 return Err(page_integrity(
219 next,
220 None,
221 "metadata overflow continuation is truncated",
222 ));
223 }
224 let continuation =
225 reddb_file::decode_native_metadata_overflow_continuation_header(&ob[cs..])
226 .map_err(|err| page_integrity(next, None, err.to_string()))?;
227 let nn = continuation.next_overflow_page_id;
228 let len = continuation.chunk_bytes as usize;
229 let remaining = total - payload.len();
230 let take = len.min(remaining).min(META_V3_OVERFLOW_PAYLOAD_CAP);
231 payload.extend_from_slice(
232 &ob[cs + META_V3_OVERFLOW_HEADER..cs + META_V3_OVERFLOW_HEADER + take],
233 );
234 next = nn;
235 }
236 Ok(Some(payload))
237}
238
239impl UnifiedStore {
240 pub(crate) fn mark_paged_registry_dirty(&self) {
241 self.paged_registry_dirty.store(true, Ordering::Release);
242 }
243
244 pub(crate) fn get_or_create_btree(&self, collection: &str) -> Option<Arc<BTree>> {
250 let pager = self.pager.as_ref()?;
251 if let Some(btree) = self.btree_indices.read().get(collection).cloned() {
252 return Some(btree);
253 }
254 let mut write = self.btree_indices.write();
255 let btree = write
256 .entry(collection.to_string())
257 .or_insert_with(|| Arc::new(BTree::new(Arc::clone(pager))))
258 .clone();
259 Some(btree)
260 }
261
262 pub(crate) fn flush_paged_state(&self) -> Result<(), StoreError> {
263 let Some(pager) = &self.pager else {
264 return Ok(());
265 };
266
267 if self.paged_registry_dirty.load(Ordering::Acquire) {
268 self.flush_paged_registry()?;
269 self.paged_registry_dirty.store(false, Ordering::Release);
270 return Ok(());
271 }
272
273 pager
274 .flush()
275 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))
276 }
277
278 pub(crate) fn flush_paged_registry(&self) -> Result<(), StoreError> {
279 let Some(pager) = &self.pager else {
280 return Ok(());
281 };
282
283 match pager.read_page(1) {
284 Ok(_) => {}
285 Err(PagerError::PageNotFound(_)) => {
286 let meta_page = pager
287 .allocate_page(crate::storage::engine::PageType::Header)
288 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
289 pager
290 .write_page(meta_page.page_id(), meta_page)
291 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
292 }
293 Err(e) => {
294 return Err(StoreError::Io(std::io::Error::other(e.to_string())));
295 }
296 }
297
298 let format_version = STORE_VERSION_V11;
299 self.set_format_version(format_version);
300
301 let collections = self.collections.read();
302 let btree_indices = self.btree_indices.read();
303 let mut collection_roots = Vec::with_capacity(collections.len());
304 for (name, _) in collections.iter() {
305 let root_page = btree_indices
306 .get(name)
307 .map_or(0, |btree| btree.root_page_id());
308 collection_roots.push((name.clone(), root_page));
309 }
310 drop(btree_indices);
311 drop(collections);
312
313 let mut meta_data = Vec::with_capacity(4096);
314 reddb_file::encode_native_paged_metadata_header(
315 &mut meta_data,
316 reddb_file::NativePagedMetadataHeader {
317 format_version,
318 collection_count: collection_roots.len() as u32,
319 },
320 );
321 for (name, root_page) in &collection_roots {
322 reddb_file::encode_native_paged_collection_root(&mut meta_data, name, *root_page);
323 }
324
325 let cross_refs = self.cross_refs.read();
326 let total_refs: usize = cross_refs.values().map(|v| v.len()).sum();
327 meta_data.extend_from_slice(&(total_refs as u32).to_le_bytes());
328 for (source_id, refs) in cross_refs.iter() {
329 for (target_id, ref_type, collection) in refs {
330 reddb_file::encode_native_paged_cross_ref(
331 &mut meta_data,
332 source_id.raw(),
333 target_id.raw(),
334 ref_type.to_byte(),
335 collection,
336 );
337 }
338 }
339
340 let meta_page = build_meta_page1_with_overflow(pager, &meta_data)
341 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
342
343 pager
344 .write_page(1, meta_page)
345 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
346 pager
347 .flush()
348 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
349
350 Ok(())
351 }
352
353 pub fn pager(&self) -> Option<&Arc<Pager>> {
355 self.pager.as_ref()
356 }
357
358 pub fn page_cache_bytes_in_use(&self) -> u64 {
362 self.pager.as_ref().map_or(0, |pager| {
363 pager.cache_len() as u64 * crate::storage::memory_pools::PAGE_CACHE_PAGE_SIZE_BYTES
364 })
365 }
366
367 pub fn wal_buffer_bytes_in_use(&self) -> u64 {
370 self.commit
371 .as_ref()
372 .map_or(0, |commit| commit.buffered_bytes())
373 }
374
375 pub fn segment_memory_bytes(&self) -> u64 {
379 let managers: Vec<Arc<SegmentManager>> =
380 self.collections.read().values().map(Arc::clone).collect();
381
382 managers
383 .iter()
384 .map(|manager| manager.memory_bytes())
385 .fold(0, u64::saturating_add)
386 }
387
388 pub fn config(&self) -> &UnifiedStoreConfig {
392 &self.config
393 }
394
395 pub fn with_config(config: UnifiedStoreConfig) -> Self {
396 Self {
397 config,
398 format_version: AtomicU32::new(STORE_VERSION_V11),
399 next_entity_id: AtomicU64::new(1),
400 collections: RwLock::new(HashMap::new()),
401 cross_refs: RwLock::new(HashMap::new()),
402 reverse_refs: RwLock::new(HashMap::new()),
403 pager: None,
404 db_path: None,
405 btree_indices: RwLock::new(HashMap::new()),
406 context_index: ContextIndex::new(),
407 entity_cache: EntityCache::new(),
408 graph_label_index: RwLock::new(HashMap::new()),
409 paged_registry_dirty: AtomicBool::new(false),
410 commit: None,
411 unindex_cross_refs_fast_path: AtomicU64::new(0),
412 replayed_turbo_inserts: parking_lot::Mutex::new(HashMap::new()),
413 replayed_probabilistic_deltas: parking_lot::Mutex::new(Vec::new()),
414 aux_metadata: RwLock::new(Vec::new()),
415 }
416 }
417
418 pub fn open(path: impl AsRef<Path>) -> Result<Self, StoreError> {
436 Self::open_with_config(path, UnifiedStoreConfig::default())
437 }
438
439 pub fn open_with_config(
440 path: impl AsRef<Path>,
441 config: UnifiedStoreConfig,
442 ) -> Result<Self, StoreError> {
443 let path = path.as_ref();
444 let mut pager_config = PagerConfig::default();
445 if let Some(slots) = config.page_cache_slots {
449 pager_config.cache_size = slots;
450 }
451 if matches!(
459 std::env::var("REDDB_DOUBLE_WRITE").ok().as_deref(),
460 Some("0") | Some("false") | Some("off")
461 ) {
462 pager_config.double_write = false;
463 }
464 let pager = Pager::open(path, pager_config)
465 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
466
467 let wal_path = reddb_file::layout::unified_wal_path(path);
468 let commit = if StoreCommitCoordinator::should_open(&wal_path, config.durability_mode) {
469 Some(Arc::new(
470 StoreCommitCoordinator::open(wal_path, config.durability_mode, config.group_commit)
471 .map_err(StoreError::Io)?,
472 ))
473 } else {
474 None
475 };
476
477 let store = Self {
478 config,
479 format_version: AtomicU32::new(STORE_VERSION_V11),
480 next_entity_id: AtomicU64::new(1),
481 collections: RwLock::new(HashMap::new()),
482 cross_refs: RwLock::new(HashMap::new()),
483 reverse_refs: RwLock::new(HashMap::new()),
484 pager: Some(Arc::new(pager)),
485 db_path: Some(path.to_path_buf()),
486 btree_indices: RwLock::new(HashMap::new()),
487 context_index: ContextIndex::new(),
488 entity_cache: EntityCache::new(),
489 graph_label_index: RwLock::new(HashMap::new()),
490 paged_registry_dirty: AtomicBool::new(false),
491 commit,
492 unindex_cross_refs_fast_path: AtomicU64::new(0),
493 replayed_turbo_inserts: parking_lot::Mutex::new(HashMap::new()),
494 replayed_probabilistic_deltas: parking_lot::Mutex::new(Vec::new()),
495 aux_metadata: RwLock::new(Vec::new()),
496 };
497
498 store.load_from_pages()?;
500 if let Some(commit) = &store.commit {
501 commit.replay_into(&store).map_err(StoreError::Io)?;
502 }
503 store.recover_operational_manifest()?;
504
505 Ok(store)
506 }
507
508 pub(crate) fn recover_operational_manifest(&self) -> Result<(), StoreError> {
509 let Some(path) = &self.db_path else {
510 return Ok(());
511 };
512 let mut collections = self.list_collections();
513 collections.sort();
514 let pending_drops =
515 crate::storage::operational_manifest::OperationalManifest::for_db_path(path)
516 .recover_or_bootstrap(&collections)
517 .map_err(|err| storage_integrity("manifest", "current", None, err.to_string()))?;
518 for name in pending_drops {
519 if self.get_collection(&name).is_some() {
520 self.drop_collection(&name)?;
521 }
522 }
523 Ok(())
524 }
525
526 pub(crate) fn publish_operational_collection_create(
527 &self,
528 name: &str,
529 ) -> Result<(), StoreError> {
530 let Some(path) = &self.db_path else {
531 return Ok(());
532 };
533 crate::storage::operational_manifest::OperationalManifest::for_db_path(path)
534 .create_collection(name)
535 .map_err(StoreError::Io)
536 }
537
538 pub(crate) fn publish_operational_collection_pending_drop(
539 &self,
540 name: &str,
541 ) -> Result<(), StoreError> {
542 let Some(path) = &self.db_path else {
543 return Ok(());
544 };
545 crate::storage::operational_manifest::OperationalManifest::for_db_path(path)
546 .begin_drop_collection(name)
547 .map_err(StoreError::Io)
548 }
549
550 pub(crate) fn publish_operational_collection_drop_finished(
551 &self,
552 name: &str,
553 ) -> Result<(), StoreError> {
554 let Some(path) = &self.db_path else {
555 return Ok(());
556 };
557 crate::storage::operational_manifest::OperationalManifest::for_db_path(path)
558 .finish_drop_collection(name)
559 .map_err(StoreError::Io)
560 }
561
562 fn load_from_pages(&self) -> Result<(), StoreError> {
566 let pager = match &self.pager {
567 Some(p) => p,
568 None => return Ok(()), };
570
571 let page_count = pager.page_count().map_err(|e| {
573 StoreError::Io(std::io::Error::other(format!(
574 "failed to read page count: {}",
575 e
576 )))
577 })?;
578 if page_count <= 1 {
579 return Ok(());
581 }
582
583 if let Some(content_vec) = read_meta_payload(pager)? {
588 let content: &[u8] = &content_vec;
589 if content.len() >= 4 {
590 let mut pos = 0;
591 let mut format_version = STORE_VERSION_V1;
592
593 let collection_count = if let Some(header) =
594 reddb_file::decode_native_paged_metadata_header(content)
595 .map_err(|err| StoreError::Serialization(err.to_string()))?
596 {
597 format_version = header.format_version;
598 pos += reddb_file::METADATA_HEADER_BYTES;
599 header.collection_count as usize
600 } else {
601 let count = u32::from_le_bytes([
602 content[pos],
603 content[pos + 1],
604 content[pos + 2],
605 content[pos + 3],
606 ]) as usize;
607 pos += 4;
608 count
609 };
610
611 self.set_format_version(format_version);
612
613 if pos > content.len() {
614 return Ok(());
615 }
616
617 for _ in 0..collection_count {
619 if let Ok(root) =
620 reddb_file::decode_native_paged_collection_root(content, &mut pos)
621 {
622 let root_page = root.root_page;
624 let name = root.collection;
625
626 let _ = self.create_collection_in_memory(&name);
630
631 if root_page > 0 {
633 let btree = BTree::with_root(Arc::clone(pager), root_page);
634
635 let mut cursor = btree.cursor_first().map_err(|err| {
637 page_integrity(root_page, Some(name.clone()), err.to_string())
638 })?;
639 let manager = self.get_collection(&name);
640 loop {
641 let next = cursor.next().map_err(|err| {
642 page_integrity(root_page, Some(name.clone()), err.to_string())
643 })?;
644 let Some((key, value)) = next else {
645 break;
646 };
647 if let Ok((entity, metadata)) =
649 Self::deserialize_entity_record(&value, self.format_version())
650 {
651 if let Some(m) = &manager {
652 let id = entity.id;
653 if let EntityKind::TableRow { row_id, .. } = &entity.kind {
654 m.register_row_id(*row_id);
655 }
656 self.context_index.index_entity(&name, &entity);
657 let _ = m.insert(entity.clone());
658 if let Some(metadata) = metadata {
659 let _ = m.set_metadata(id, metadata);
660 }
661 self.register_entity_id(id);
662 if self.config.auto_index_refs {
663 self.index_cross_refs(&entity, &name)?;
664 }
665 }
666 }
667 }
668
669 self.btree_indices.write().insert(name, Arc::new(btree));
671 }
672 } else {
673 break;
674 }
675 }
676
677 if format_version >= STORE_VERSION_V2 && pos + 4 <= content.len() {
678 let cross_ref_count = u32::from_le_bytes([
679 content[pos],
680 content[pos + 1],
681 content[pos + 2],
682 content[pos + 3],
683 ]) as usize;
684 pos += 4;
685
686 for _ in 0..cross_ref_count {
687 let Ok(cross_ref) =
688 reddb_file::decode_native_paged_cross_ref(content, &mut pos)
689 else {
690 break;
691 };
692 let source_id = EntityId::new(cross_ref.source_id);
693 let target_id = EntityId::new(cross_ref.target_id);
694 let ref_type = RefType::from_byte(cross_ref.ref_type);
695 let target_collection = cross_ref.target_collection;
696
697 self.cross_refs.write().entry(source_id).or_default().push((
698 target_id,
699 ref_type,
700 target_collection.clone(),
701 ));
702
703 if let Some((collection, mut entity)) = self.get_any(source_id) {
704 let exists = entity.cross_refs().iter().any(|xref| {
705 xref.target == target_id
706 && xref.ref_type == ref_type
707 && xref.target_collection == target_collection
708 });
709 if !exists {
710 entity.cross_refs_mut().push(CrossRef::new(
711 source_id,
712 target_id,
713 target_collection.clone(),
714 ref_type,
715 ));
716 if let Some(manager) = self.get_collection(&collection) {
717 let _ = manager.update(entity);
718 }
719 }
720 }
721 }
722 }
723 }
724 }
725
726 if self.format_version() < STORE_VERSION_V11 {
727 self.set_format_version(STORE_VERSION_V11);
728 }
729
730 Ok(())
731 }
732
733 pub(crate) fn deserialize_entity(
735 data: &[u8],
736 format_version: u32,
737 ) -> Result<UnifiedEntity, StoreError> {
738 let mut pos = 0;
739 Self::read_entity_binary(data, &mut pos, format_version)
740 .map_err(|e| StoreError::Serialization(e.to_string()))
741 }
742
743 pub(crate) fn serialize_entity(entity: &UnifiedEntity, format_version: u32) -> Vec<u8> {
745 let mut buf = Vec::with_capacity(256);
750 Self::write_entity_binary(&mut buf, entity, format_version);
751 buf
752 }
753
754 pub(crate) fn serialize_entity_record(
755 entity: &UnifiedEntity,
756 metadata: Option<&Metadata>,
757 format_version: u32,
758 ) -> Vec<u8> {
759 let entity_bytes = Self::serialize_entity(entity, format_version);
760 let has_meta = matches!(metadata, Some(m) if !m.fields.is_empty());
766 if has_meta {
767 let metadata_bytes = serialize_metadata(metadata);
768 reddb_file::encode_native_entity_record_frame(&entity_bytes, Some(&metadata_bytes))
769 } else {
770 reddb_file::encode_native_entity_record_frame(&entity_bytes, None)
771 }
772 }
773
774 pub(crate) fn deserialize_entity_record(
775 data: &[u8],
776 format_version: u32,
777 ) -> Result<(UnifiedEntity, Option<Metadata>), StoreError> {
778 let Some(frame) = reddb_file::decode_native_entity_record_frame(data)
779 .map_err(|err| StoreError::Serialization(err.to_string()))?
780 else {
781 return Self::deserialize_entity(data, format_version).map(|entity| (entity, None));
782 };
783
784 let entity = Self::deserialize_entity(frame.entity, format_version)?;
785 let metadata = if frame.metadata.is_empty() {
786 None
787 } else {
788 let metadata = deserialize_metadata(frame.metadata)?;
789 if metadata.is_empty() {
790 None
791 } else {
792 Some(metadata)
793 }
794 };
795
796 Ok((entity, metadata))
797 }
798
799 pub fn persist(&self) -> Result<(), StoreError> {
804 let pager = match &self.pager {
805 Some(p) => p,
806 None => {
807 if let Some(path) = &self.db_path {
809 return self
810 .save_to_file(path)
811 .map_err(|e| StoreError::Serialization(e.to_string()));
812 }
813 return Err(StoreError::Io(std::io::Error::other(
814 "No pager or path configured for persistence",
815 )));
816 }
817 };
818
819 match pager.read_page(1) {
820 Ok(_) => {}
821 Err(PagerError::PageNotFound(_)) => {
822 let meta_page = pager
823 .allocate_page(crate::storage::engine::PageType::Header)
824 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
825 pager
826 .write_page(meta_page.page_id(), meta_page)
827 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
828 }
829 Err(e) => {
830 return Err(StoreError::Io(std::io::Error::other(e.to_string())));
831 }
832 }
833
834 if let Some(commit) = &self.commit {
835 commit.force_sync().map_err(StoreError::Io)?;
836 }
837
838 let collections = self.collections.read();
839 let mut btree_indices = self.btree_indices.write();
840
841 let mut collection_roots: Vec<(String, u32)> = Vec::new();
843
844 for (name, manager) in collections.iter() {
847 let btree = btree_indices
848 .entry(name.clone())
849 .or_insert_with(|| Arc::new(BTree::new(Arc::clone(pager))));
850
851 let mut existing_keys = Vec::new();
852 if !btree.is_empty() {
853 let mut cursor = btree.cursor_first().map_err(|e| {
854 StoreError::Io(std::io::Error::other(format!(
855 "B-tree cursor error while rebuilding '{name}': {e}"
856 )))
857 })?;
858 while let Some((key, _)) = cursor.next().map_err(|e| {
859 StoreError::Io(std::io::Error::other(format!(
860 "B-tree scan error while rebuilding '{name}': {e}"
861 )))
862 })? {
863 existing_keys.push(key);
864 }
865 }
866
867 for key in existing_keys {
868 btree.delete(&key).map_err(|e| {
869 StoreError::Io(std::io::Error::other(format!(
870 "B-tree delete error while rebuilding '{name}': {e}"
871 )))
872 })?;
873 }
874
875 let mut records: Vec<(Vec<u8>, Vec<u8>)> = manager
876 .query_all(|_| true)
877 .into_iter()
878 .map(|entity| {
879 let metadata = manager.get_metadata(entity.id);
880 (
881 entity.id.raw().to_be_bytes().to_vec(),
882 Self::serialize_entity_record(
883 &entity,
884 metadata.as_ref(),
885 self.format_version(),
886 ),
887 )
888 })
889 .collect();
890 records.sort_by(|left, right| left.0.cmp(&right.0));
891
892 if !records.is_empty() {
900 btree.bulk_insert_sorted(&records).map_err(|e| {
901 StoreError::Io(std::io::Error::other(format!(
902 "B-tree bulk rebuild error for '{name}': {e}"
903 )))
904 })?;
905 }
906
907 collection_roots.push((name.clone(), btree.root_page_id()));
908 }
909
910 let mut meta_data = Vec::with_capacity(4096);
912
913 let format_version = STORE_VERSION_V11;
914 self.set_format_version(format_version);
915
916 reddb_file::encode_native_paged_metadata_header(
917 &mut meta_data,
918 reddb_file::NativePagedMetadataHeader {
919 format_version,
920 collection_count: collection_roots.len() as u32,
921 },
922 );
923
924 for (name, root_page) in &collection_roots {
926 reddb_file::encode_native_paged_collection_root(&mut meta_data, name, *root_page);
927 }
928
929 let cross_refs = self.cross_refs.read();
931 let total_refs: usize = cross_refs.values().map(|v| v.len()).sum();
932 meta_data.extend_from_slice(&(total_refs as u32).to_le_bytes());
933 for (source_id, refs) in cross_refs.iter() {
934 for (target_id, ref_type, collection) in refs {
935 reddb_file::encode_native_paged_cross_ref(
936 &mut meta_data,
937 source_id.raw(),
938 target_id.raw(),
939 ref_type.to_byte(),
940 collection,
941 );
942 }
943 }
944
945 let meta_page = build_meta_page1_with_overflow(pager, &meta_data)
947 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
948
949 pager
953 .write_page(1, meta_page)
954 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
955
956 pager
958 .sync()
959 .map_err(|e| StoreError::Io(std::io::Error::other(e.to_string())))?;
960
961 if let Some(commit) = &self.commit {
962 commit.truncate().map_err(StoreError::Io)?;
963 }
964
965 Ok(())
966 }
967
968 pub fn is_paged(&self) -> bool {
970 self.pager.is_some()
971 }
972
973 pub(crate) fn collection_root_page(&self, collection: &str) -> Option<u32> {
976 self.btree_indices
977 .read()
978 .get(collection)
979 .map(|btree| btree.root_page_id())
980 .filter(|root| *root != 0)
981 }
982
983 pub fn db_path(&self) -> Option<&Path> {
985 self.db_path.as_deref()
986 }
987}
988
989fn serialize_metadata(metadata: Option<&Metadata>) -> Vec<u8> {
990 let Some(metadata) = metadata else {
991 return Vec::new();
992 };
993 if metadata.is_empty() {
994 return Vec::new();
995 }
996
997 let mut entries: Vec<_> = metadata.iter().collect();
998 entries.sort_by_key(|(a, _)| *a);
999
1000 let mut buf = Vec::new();
1001 buf.extend_from_slice(&(entries.len() as u32).to_le_bytes());
1002 for (key, value) in entries {
1003 write_string(&mut buf, key);
1004 write_metadata_value(&mut buf, value);
1005 }
1006 buf
1007}
1008
1009fn deserialize_metadata(data: &[u8]) -> Result<Metadata, StoreError> {
1010 let mut pos = 0usize;
1011 let count = read_u32(data, &mut pos)? as usize;
1012 let mut metadata = Metadata::new();
1013 for _ in 0..count {
1014 let key = read_string(data, &mut pos)?;
1015 let value = read_metadata_value(data, &mut pos)?;
1016 metadata.set(key, value);
1017 }
1018 Ok(metadata)
1019}
1020
1021fn write_string(buf: &mut Vec<u8>, value: &str) {
1022 reddb_file::encode_native_len_prefixed_str(buf, value);
1023}
1024
1025fn write_bytes(buf: &mut Vec<u8>, value: &[u8]) {
1026 reddb_file::encode_native_len_prefixed_bytes(buf, value);
1027}
1028
1029fn write_ref_target(buf: &mut Vec<u8>, target: &crate::storage::unified::RefTarget) {
1030 use crate::storage::unified::RefTarget;
1031
1032 match target {
1033 RefTarget::TableRow { table, row_id } => {
1034 buf.push(0);
1035 write_string(buf, table);
1036 buf.extend_from_slice(&row_id.to_le_bytes());
1037 }
1038 RefTarget::Node {
1039 collection,
1040 node_id,
1041 } => {
1042 buf.push(1);
1043 write_string(buf, collection);
1044 buf.extend_from_slice(&node_id.raw().to_le_bytes());
1045 }
1046 RefTarget::Edge {
1047 collection,
1048 edge_id,
1049 } => {
1050 buf.push(2);
1051 write_string(buf, collection);
1052 buf.extend_from_slice(&edge_id.raw().to_le_bytes());
1053 }
1054 RefTarget::Vector {
1055 collection,
1056 vector_id,
1057 } => {
1058 buf.push(3);
1059 write_string(buf, collection);
1060 buf.extend_from_slice(&vector_id.raw().to_le_bytes());
1061 }
1062 RefTarget::Entity {
1063 collection,
1064 entity_id,
1065 } => {
1066 buf.push(4);
1067 write_string(buf, collection);
1068 buf.extend_from_slice(&entity_id.raw().to_le_bytes());
1069 }
1070 }
1071}
1072
1073fn write_metadata_value(buf: &mut Vec<u8>, value: &MetadataValue) {
1074 match value {
1075 MetadataValue::Null => buf.push(0),
1076 MetadataValue::Bool(v) => {
1077 buf.push(1);
1078 buf.push(u8::from(*v));
1079 }
1080 MetadataValue::Int(v) => {
1081 buf.push(2);
1082 buf.extend_from_slice(&v.to_le_bytes());
1083 }
1084 MetadataValue::Float(v) => {
1085 buf.push(3);
1086 buf.extend_from_slice(&v.to_le_bytes());
1087 }
1088 MetadataValue::String(v) => {
1089 buf.push(4);
1090 write_string(buf, v);
1091 }
1092 MetadataValue::Bytes(v) => {
1093 buf.push(5);
1094 write_bytes(buf, v);
1095 }
1096 MetadataValue::Array(values) => {
1097 buf.push(6);
1098 buf.extend_from_slice(&(values.len() as u32).to_le_bytes());
1099 for value in values {
1100 write_metadata_value(buf, value);
1101 }
1102 }
1103 MetadataValue::Object(values) => {
1104 buf.push(7);
1105 let mut entries: Vec<_> = values.iter().collect();
1106 entries.sort_by_key(|(a, _)| *a);
1107 buf.extend_from_slice(&(entries.len() as u32).to_le_bytes());
1108 for (key, value) in entries {
1109 write_string(buf, key);
1110 write_metadata_value(buf, value);
1111 }
1112 }
1113 MetadataValue::Timestamp(v) => {
1114 buf.push(8);
1115 buf.extend_from_slice(&v.to_le_bytes());
1116 }
1117 MetadataValue::Geo { lat, lon } => {
1118 buf.push(9);
1119 buf.extend_from_slice(&lat.to_le_bytes());
1120 buf.extend_from_slice(&lon.to_le_bytes());
1121 }
1122 MetadataValue::Reference(target) => {
1123 buf.push(10);
1124 write_ref_target(buf, target);
1125 }
1126 MetadataValue::References(targets) => {
1127 buf.push(11);
1128 buf.extend_from_slice(&(targets.len() as u32).to_le_bytes());
1129 for target in targets {
1130 write_ref_target(buf, target);
1131 }
1132 }
1133 }
1134}
1135
1136fn read_exact_slice<'a>(
1137 data: &'a [u8],
1138 pos: &mut usize,
1139 len: usize,
1140) -> Result<&'a [u8], StoreError> {
1141 if *pos + len > data.len() {
1142 return Err(StoreError::Serialization(
1143 "truncated metadata payload".to_string(),
1144 ));
1145 }
1146 let slice = &data[*pos..*pos + len];
1147 *pos += len;
1148 Ok(slice)
1149}
1150
1151fn read_u32(data: &[u8], pos: &mut usize) -> Result<u32, StoreError> {
1152 let bytes = read_exact_slice(data, pos, 4)?;
1153 let mut raw = [0u8; 4];
1154 raw.copy_from_slice(bytes);
1155 Ok(u32::from_le_bytes(raw))
1156}
1157
1158fn read_u64(data: &[u8], pos: &mut usize) -> Result<u64, StoreError> {
1159 let bytes = read_exact_slice(data, pos, 8)?;
1160 let mut raw = [0u8; 8];
1161 raw.copy_from_slice(bytes);
1162 Ok(u64::from_le_bytes(raw))
1163}
1164
1165fn read_i64(data: &[u8], pos: &mut usize) -> Result<i64, StoreError> {
1166 let bytes = read_exact_slice(data, pos, 8)?;
1167 let mut raw = [0u8; 8];
1168 raw.copy_from_slice(bytes);
1169 Ok(i64::from_le_bytes(raw))
1170}
1171
1172fn read_f64(data: &[u8], pos: &mut usize) -> Result<f64, StoreError> {
1173 let bytes = read_exact_slice(data, pos, 8)?;
1174 let mut raw = [0u8; 8];
1175 raw.copy_from_slice(bytes);
1176 Ok(f64::from_le_bytes(raw))
1177}
1178
1179fn read_u8(data: &[u8], pos: &mut usize) -> Result<u8, StoreError> {
1180 let bytes = read_exact_slice(data, pos, 1)?;
1181 Ok(bytes[0])
1182}
1183
1184fn read_string(data: &[u8], pos: &mut usize) -> Result<String, StoreError> {
1185 reddb_file::decode_native_len_prefixed_string(data, pos)
1186 .map_err(|err| StoreError::Serialization(err.to_string()))
1187}
1188
1189fn read_bytes(data: &[u8], pos: &mut usize) -> Result<Vec<u8>, StoreError> {
1190 reddb_file::decode_native_len_prefixed_bytes(data, pos)
1191 .map(|bytes| bytes.to_vec())
1192 .map_err(|err| StoreError::Serialization(err.to_string()))
1193}
1194
1195fn read_ref_target(
1196 data: &[u8],
1197 pos: &mut usize,
1198) -> Result<crate::storage::unified::RefTarget, StoreError> {
1199 use crate::storage::unified::RefTarget;
1200
1201 match read_u8(data, pos)? {
1202 0 => Ok(RefTarget::TableRow {
1203 table: read_string(data, pos)?,
1204 row_id: read_u64(data, pos)?,
1205 }),
1206 1 => Ok(RefTarget::Node {
1207 collection: read_string(data, pos)?,
1208 node_id: EntityId::new(read_u64(data, pos)?),
1209 }),
1210 2 => Ok(RefTarget::Edge {
1211 collection: read_string(data, pos)?,
1212 edge_id: EntityId::new(read_u64(data, pos)?),
1213 }),
1214 3 => Ok(RefTarget::Vector {
1215 collection: read_string(data, pos)?,
1216 vector_id: EntityId::new(read_u64(data, pos)?),
1217 }),
1218 4 => Ok(RefTarget::Entity {
1219 collection: read_string(data, pos)?,
1220 entity_id: EntityId::new(read_u64(data, pos)?),
1221 }),
1222 tag => Err(StoreError::Serialization(format!(
1223 "unknown metadata ref target tag {tag}"
1224 ))),
1225 }
1226}
1227
1228fn read_metadata_value(data: &[u8], pos: &mut usize) -> Result<MetadataValue, StoreError> {
1229 match read_u8(data, pos)? {
1230 0 => Ok(MetadataValue::Null),
1231 1 => Ok(MetadataValue::Bool(read_u8(data, pos)? != 0)),
1232 2 => Ok(MetadataValue::Int(read_i64(data, pos)?)),
1233 3 => Ok(MetadataValue::Float(read_f64(data, pos)?)),
1234 4 => Ok(MetadataValue::String(read_string(data, pos)?)),
1235 5 => Ok(MetadataValue::Bytes(read_bytes(data, pos)?)),
1236 6 => {
1237 let count = read_u32(data, pos)? as usize;
1238 let mut values = Vec::with_capacity(count);
1239 for _ in 0..count {
1240 values.push(read_metadata_value(data, pos)?);
1241 }
1242 Ok(MetadataValue::Array(values))
1243 }
1244 7 => {
1245 let count = read_u32(data, pos)? as usize;
1246 let mut values = std::collections::HashMap::with_capacity(count);
1247 for _ in 0..count {
1248 let key = read_string(data, pos)?;
1249 let value = read_metadata_value(data, pos)?;
1250 values.insert(key, value);
1251 }
1252 Ok(MetadataValue::Object(values))
1253 }
1254 8 => Ok(MetadataValue::Timestamp(read_u64(data, pos)?)),
1255 9 => Ok(MetadataValue::Geo {
1256 lat: read_f64(data, pos)?,
1257 lon: read_f64(data, pos)?,
1258 }),
1259 10 => Ok(MetadataValue::Reference(read_ref_target(data, pos)?)),
1260 11 => {
1261 let count = read_u32(data, pos)? as usize;
1262 let mut targets = Vec::with_capacity(count);
1263 for _ in 0..count {
1264 targets.push(read_ref_target(data, pos)?);
1265 }
1266 Ok(MetadataValue::References(targets))
1267 }
1268 tag => Err(StoreError::Serialization(format!(
1269 "unknown metadata value tag {tag}"
1270 ))),
1271 }
1272}