mirror of
https://github.com/AppFlowy-IO/AppFlowy.git
synced 2024-08-30 18:12:39 +00:00
486 lines
15 KiB
Rust
486 lines
15 KiB
Rust
use crate::cache::memory::RevisionMemoryCacheDelegate;
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use crate::memory::RevisionMemoryCache;
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use crate::RevisionMergeable;
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use flowy_error::{internal_error, FlowyError, FlowyResult};
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use flowy_revision_persistence::{RevisionChangeset, RevisionDiskCache, RevisionState, SyncRecord};
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use revision_model::{Revision, RevisionRange};
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use std::collections::{HashMap, VecDeque};
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use std::{borrow::Cow, sync::Arc};
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use tokio::sync::RwLock;
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use tokio::task::spawn_blocking;
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pub const REVISION_WRITE_INTERVAL_IN_MILLIS: u64 = 600;
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#[derive(Clone)]
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pub struct RevisionPersistenceConfiguration {
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// If the number of revisions that didn't sync to the server greater than the max_merge_len
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// then these revisions will be merged into one revision.
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max_merge_len: usize,
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/// Indicates that the revisions that didn't sync to the server can be merged into one when
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/// `merge_lagging_revisions` get called.
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merge_lagging: bool,
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}
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impl RevisionPersistenceConfiguration {
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pub fn new(merge_max_length: usize, merge_lagging: bool) -> Self {
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debug_assert!(merge_max_length > 1);
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if merge_max_length > 1 {
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Self {
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max_merge_len: merge_max_length,
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merge_lagging,
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}
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} else {
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Self {
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max_merge_len: 100,
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merge_lagging,
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}
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}
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}
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}
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impl std::default::Default for RevisionPersistenceConfiguration {
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fn default() -> Self {
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Self {
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max_merge_len: 100,
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merge_lagging: false,
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}
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}
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}
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/// Represents as the persistence of revisions including memory or disk cache.
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/// The generic parameter, `Connection`, represents as the disk backend's connection.
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/// If the backend is SQLite, then the Connect will be SQLiteConnect.
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pub struct RevisionPersistence<Connection> {
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user_id: String,
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object_id: String,
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disk_cache: Arc<dyn RevisionDiskCache<Connection, Error = FlowyError>>,
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memory_cache: Arc<RevisionMemoryCache>,
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sync_seq: RwLock<DeferSyncSequence>,
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configuration: RevisionPersistenceConfiguration,
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}
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impl<Connection> RevisionPersistence<Connection>
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where
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Connection: 'static,
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{
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pub fn new<C>(
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user_id: &str,
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object_id: &str,
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disk_cache: C,
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configuration: RevisionPersistenceConfiguration,
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) -> RevisionPersistence<Connection>
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where
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C: 'static + RevisionDiskCache<Connection, Error = FlowyError>,
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{
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let disk_cache =
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Arc::new(disk_cache) as Arc<dyn RevisionDiskCache<Connection, Error = FlowyError>>;
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Self::from_disk_cache(user_id, object_id, disk_cache, configuration)
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}
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pub fn from_disk_cache(
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user_id: &str,
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object_id: &str,
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disk_cache: Arc<dyn RevisionDiskCache<Connection, Error = FlowyError>>,
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configuration: RevisionPersistenceConfiguration,
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) -> RevisionPersistence<Connection> {
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let object_id = object_id.to_owned();
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let user_id = user_id.to_owned();
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let sync_seq = RwLock::new(DeferSyncSequence::new());
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let memory_cache = Arc::new(RevisionMemoryCache::new(
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&object_id,
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Arc::new(disk_cache.clone()),
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));
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Self {
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user_id,
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object_id,
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disk_cache,
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memory_cache,
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sync_seq,
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configuration,
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}
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}
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/// Save the revision that comes from remote to disk.
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#[tracing::instrument(level = "trace", skip(self, revision), fields(rev_id, object_id=%self.object_id), err)]
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pub(crate) async fn add_ack_revision(&self, revision: &Revision) -> FlowyResult<()> {
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tracing::Span::current().record("rev_id", revision.rev_id);
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self.add(revision.clone(), RevisionState::Ack, true).await
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}
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#[tracing::instrument(level = "trace", skip_all, err)]
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pub async fn merge_lagging_revisions<'a>(
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&'a self,
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rev_compress: &Arc<dyn RevisionMergeable + 'a>,
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) -> FlowyResult<()> {
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if !self.configuration.merge_lagging {
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return Ok(());
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}
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let mut sync_seq = self.sync_seq.write().await;
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let compact_seq = sync_seq.pop_merge_rev_ids();
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if !compact_seq.is_empty() {
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let range = RevisionRange {
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start: *compact_seq.front().unwrap(),
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end: *compact_seq.back().unwrap(),
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};
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let revisions = self.revisions_in_range(&range).await?;
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let rev_ids = range.to_rev_ids();
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debug_assert_eq!(range.len() as usize, revisions.len());
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// compact multiple revisions into one
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let merged_revision =
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rev_compress.merge_revisions(&self.user_id, &self.object_id, revisions)?;
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tracing::Span::current().record("rev_id", merged_revision.rev_id);
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let record = SyncRecord {
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revision: merged_revision,
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state: RevisionState::Sync,
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write_to_disk: true,
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};
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self
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.disk_cache
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.delete_and_insert_records(&self.object_id, Some(rev_ids), vec![record])?;
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}
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Ok(())
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}
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/// Sync the each records' revisions to remote if its state is `RevisionState::Sync`.
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///
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pub(crate) async fn sync_revision_records(&self, records: &[SyncRecord]) -> FlowyResult<()> {
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let mut sync_seq = self.sync_seq.write().await;
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for record in records {
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if record.state == RevisionState::Sync {
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self
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.add(record.revision.clone(), RevisionState::Sync, false)
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.await?;
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sync_seq.recv(record.revision.rev_id)?; // Sync the records if their state is RevisionState::Sync.
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}
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}
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Ok(())
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}
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/// Save the revision to disk and append it to the end of the sync sequence.
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/// The returned value,rev_id, will be different with the passed-in revision's rev_id if
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/// multiple revisions are merged into one.
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#[tracing::instrument(level = "trace", skip_all, fields(rev_id, compact_range, object_id=%self.object_id), err)]
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pub(crate) async fn add_local_revision<'a>(
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&'a self,
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new_revision: Revision,
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rev_compress: &Arc<dyn RevisionMergeable + 'a>,
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) -> FlowyResult<i64> {
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let mut sync_seq = self.sync_seq.write().await;
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// Before the new_revision is pushed into the sync_seq, we check if the current `merge_length` of the
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// sync_seq is less equal to or greater than the `merge_max_length`. If yes, it's needs to merged
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// with the new_revision into one revision.
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let mut merge_rev_ids = VecDeque::default();
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// tracing::info!("{}", compact_seq)
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if sync_seq.merge_length >= self.configuration.max_merge_len - 1 {
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merge_rev_ids.extend(sync_seq.pop_merge_rev_ids());
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}
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if !merge_rev_ids.is_empty() {
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let range = RevisionRange {
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start: *merge_rev_ids.front().unwrap(),
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end: *merge_rev_ids.back().unwrap(),
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};
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tracing::Span::current().record("compact_range", format!("{}", range).as_str());
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let mut revisions = self.revisions_in_range(&range).await?;
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debug_assert_eq!(range.len() as usize, revisions.len());
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// append the new revision
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revisions.push(new_revision);
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// compact multiple revisions into one
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let merged_revision =
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rev_compress.merge_revisions(&self.user_id, &self.object_id, revisions)?;
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let new_rev_id = merged_revision.rev_id;
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tracing::Span::current().record("rev_id", merged_revision.rev_id);
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sync_seq.recv(new_rev_id)?;
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// replace the revisions in range with compact revision
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self.compact(&range, merged_revision).await?;
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Ok(new_rev_id)
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} else {
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let rev_id = new_revision.rev_id;
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tracing::Span::current().record("rev_id", rev_id);
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self.add(new_revision, RevisionState::Sync, true).await?;
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sync_seq.merge_recv(rev_id)?;
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Ok(rev_id)
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}
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}
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/// Remove the revision with rev_id from the sync sequence.
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pub(crate) async fn ack_revision(&self, rev_id: i64) -> FlowyResult<()> {
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if self.sync_seq.write().await.ack(&rev_id).is_ok() {
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self.memory_cache.ack(&rev_id).await;
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}
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Ok(())
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}
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pub(crate) async fn next_sync_revision(&self) -> FlowyResult<Option<Revision>> {
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match self.sync_seq.read().await.next_rev_id() {
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None => Ok(None),
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Some(rev_id) => Ok(self.get(rev_id).await.map(|record| record.revision)),
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}
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}
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pub(crate) async fn next_sync_rev_id(&self) -> Option<i64> {
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self.sync_seq.read().await.next_rev_id()
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}
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pub(crate) fn number_of_sync_records(&self) -> usize {
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self.memory_cache.number_of_sync_records()
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}
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pub(crate) fn number_of_records_in_disk(&self) -> usize {
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match self.disk_cache.read_revision_records(&self.object_id, None) {
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Ok(records) => records.len(),
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Err(e) => {
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tracing::error!("Read revision records failed: {:?}", e);
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0
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},
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}
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}
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/// The cache gets reset while it conflicts with the remote revisions.
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#[tracing::instrument(level = "trace", skip(self, revisions), err)]
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pub(crate) async fn reset(&self, revisions: Vec<Revision>) -> FlowyResult<()> {
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let records = revisions
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.into_iter()
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.map(|revision| SyncRecord {
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revision,
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state: RevisionState::Sync,
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write_to_disk: false,
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})
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.collect::<Vec<_>>();
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self
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.disk_cache
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.delete_and_insert_records(&self.object_id, None, records.clone())?;
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self.memory_cache.reset_with_revisions(records).await;
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self.sync_seq.write().await.clear();
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Ok(())
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}
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async fn add(
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&self,
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revision: Revision,
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state: RevisionState,
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write_to_disk: bool,
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) -> FlowyResult<()> {
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if self.memory_cache.contains(&revision.rev_id) {
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tracing::warn!(
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"Duplicate revision: {}:{}-{:?}",
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self.object_id,
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revision.rev_id,
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state
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);
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return Ok(());
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}
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let record = SyncRecord {
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revision,
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state,
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write_to_disk,
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};
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self.memory_cache.add(Cow::Owned(record)).await;
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Ok(())
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}
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async fn compact(&self, range: &RevisionRange, new_revision: Revision) -> FlowyResult<()> {
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self.memory_cache.remove_with_range(range);
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let rev_ids = range.to_rev_ids();
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self
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.disk_cache
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.delete_revision_records(&self.object_id, Some(rev_ids))?;
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self.add(new_revision, RevisionState::Sync, true).await?;
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Ok(())
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}
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pub async fn get(&self, rev_id: i64) -> Option<SyncRecord> {
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match self.memory_cache.get(&rev_id).await {
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None => match self
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.disk_cache
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.read_revision_records(&self.object_id, Some(vec![rev_id]))
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{
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Ok(mut records) => {
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let record = records.pop()?;
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assert!(records.is_empty());
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Some(record)
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},
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Err(e) => {
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tracing::error!("{}", e);
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None
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},
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},
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Some(revision) => Some(revision),
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}
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}
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pub fn load_all_records(&self, object_id: &str) -> FlowyResult<Vec<SyncRecord>> {
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let mut record_ids = HashMap::new();
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let mut records = vec![];
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for record in self.disk_cache.read_revision_records(object_id, None)? {
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let rev_id = record.revision.rev_id;
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if record_ids.get(&rev_id).is_none() {
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records.push(record);
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}
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record_ids.insert(rev_id, rev_id);
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}
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Ok(records)
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}
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// Read the revision which rev_id >= range.start && rev_id <= range.end
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pub async fn revisions_in_range(&self, range: &RevisionRange) -> FlowyResult<Vec<Revision>> {
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let range = range.clone();
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let mut records = self.memory_cache.get_with_range(&range).await?;
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let range_len = range.len() as usize;
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if records.len() != range_len {
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let disk_cache = self.disk_cache.clone();
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let object_id = self.object_id.clone();
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records =
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spawn_blocking(move || disk_cache.read_revision_records_with_range(&object_id, &range))
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.await
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.map_err(internal_error)??;
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if records.len() != range_len {
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tracing::error!(
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"Expect revision len {},but receive {}",
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range_len,
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records.len()
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);
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}
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}
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Ok(
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records
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.into_iter()
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.map(|record| record.revision)
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.collect::<Vec<Revision>>(),
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)
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}
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pub fn delete_revisions_from_range(&self, range: RevisionRange) -> FlowyResult<()> {
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self
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.disk_cache
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.delete_revision_records(&self.object_id, Some(range.to_rev_ids()))?;
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Ok(())
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}
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}
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impl<C> RevisionMemoryCacheDelegate for Arc<dyn RevisionDiskCache<C, Error = FlowyError>> {
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fn send_sync(&self, mut records: Vec<SyncRecord>) -> FlowyResult<()> {
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records.retain(|record| record.write_to_disk);
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if !records.is_empty() {
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tracing::Span::current().record(
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"checkpoint_result",
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format!("{} records were saved", records.len()).as_str(),
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);
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self.create_revision_records(records)?;
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}
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Ok(())
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}
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fn receive_ack(&self, object_id: &str, rev_id: i64) {
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let changeset = RevisionChangeset {
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object_id: object_id.to_string(),
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rev_id,
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state: RevisionState::Ack,
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};
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match self.update_revision_record(vec![changeset]) {
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Ok(_) => {},
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Err(e) => tracing::error!("{}", e),
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}
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}
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}
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#[derive(Default)]
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struct DeferSyncSequence {
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rev_ids: VecDeque<i64>,
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merge_start: Option<usize>,
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merge_length: usize,
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}
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impl DeferSyncSequence {
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fn new() -> Self {
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DeferSyncSequence::default()
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}
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/// Pushes the new_rev_id to the end of the list and marks this new_rev_id is mergeable.
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///
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fn merge_recv(&mut self, new_rev_id: i64) -> FlowyResult<()> {
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self.recv(new_rev_id)?;
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self.merge_length += 1;
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if self.merge_start.is_none() && !self.rev_ids.is_empty() {
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self.merge_start = Some(self.rev_ids.len() - 1);
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}
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Ok(())
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}
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/// Pushes the new_rev_id to the end of the list.
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fn recv(&mut self, new_rev_id: i64) -> FlowyResult<()> {
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// The last revision's rev_id must be greater than the new one.
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if let Some(rev_id) = self.rev_ids.back() {
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if *rev_id >= new_rev_id {
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tracing::error!("The new revision's id must be greater than {}", rev_id);
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return Ok(());
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}
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}
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self.rev_ids.push_back(new_rev_id);
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Ok(())
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}
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/// Removes the rev_id from the list
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fn ack(&mut self, rev_id: &i64) -> FlowyResult<()> {
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let cur_rev_id = self.rev_ids.front().cloned();
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if let Some(pop_rev_id) = cur_rev_id {
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if &pop_rev_id != rev_id {
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let desc = format!(
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"The ack rev_id:{} is not equal to the current rev_id:{}",
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rev_id, pop_rev_id
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);
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return Err(FlowyError::internal().context(desc));
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}
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let mut compact_rev_id = None;
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if let Some(compact_index) = self.merge_start {
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compact_rev_id = self.rev_ids.get(compact_index).cloned();
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}
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let pop_rev_id = self.rev_ids.pop_front();
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if let (Some(compact_rev_id), Some(pop_rev_id)) = (compact_rev_id, pop_rev_id) {
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if compact_rev_id <= pop_rev_id && self.merge_length > 0 {
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self.merge_length -= 1;
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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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fn next_rev_id(&self) -> Option<i64> {
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self.rev_ids.front().cloned()
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}
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fn clear(&mut self) {
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self.merge_start = None;
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self.merge_length = 0;
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self.rev_ids.clear();
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}
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// Returns the rev_ids into one except the current synchronizing rev_id.
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fn pop_merge_rev_ids(&mut self) -> VecDeque<i64> {
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let mut compact_seq = VecDeque::with_capacity(self.rev_ids.len());
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if let Some(start) = self.merge_start {
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if start < self.rev_ids.len() {
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let seq = self.rev_ids.split_off(start);
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compact_seq.extend(seq);
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}
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}
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self.merge_start = None;
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self.merge_length = 0;
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compact_seq
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}
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}
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