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use std::{
collections::{HashMap, HashSet},
num::NonZeroUsize,
sync::Arc,
thread,
time::{Duration, Instant},
};
use futures::{StreamExt, stream};
use tokio::sync::{Mutex, broadcast::error::TryRecvError};
use tokio::time;
use usvg::Transform;
use uuid::Uuid;
use crate::{
Lb, LbErrKind, LbResult,
io::network::ApiError,
model::{
ValidationFailure,
access_info::UserAccessMode,
account::Account,
api::{
ChangeDocRequestV2, GetDocRequest, GetFileIdsRequest, GetUpdatesRequestV2,
GetUsernameError, GetUsernameRequest, UpsertDebugInfoRequest, UpsertRequestV2,
},
crypto::{DecryptedDocument, EncryptedDocument},
errors::{LbErr, Unexpected},
file::ShareMode,
file_like::FileLike,
file_metadata::{DocumentHmac, FileDiff, FileType, Owner},
filename::{DocumentType, NameComponents},
lazy::LazyTree,
signed_meta::SignedMeta,
staged::StagedTreeLikeMut,
svg::{self, buffer::u_transform_to_bezier, element::Element},
symkey, text,
tree_like::TreeLike,
validate,
},
service::events::{Actor, Event, SyncIncrement},
};
pub type Syncer = Arc<Mutex<SyncState>>;
#[derive(Default)]
pub struct SyncState {
/// the starting point for updates for this sync pass
last_synced: u64,
/// if our pull is successful, this is the timestamp we will commit
updates_as_of: u64,
/// changes we pulled from the server, post deduplication
remote_changes: Vec<SignedMeta>,
/// did we pull a root on this pass?
new_root: Option<Uuid>,
/// what docs did we pull as a result of this sync
pulled_docs: Vec<Uuid>,
}
// we are gonna have a fetch metadata fn which will get the docs that it needs to get, the ones
// that match should_fetch
//
// should_fetch is going to be a tree fn that will return true if:
// is md or svg that descends from
impl Lb {
#[instrument(level = "debug", skip(self), err(Debug))]
pub async fn sync(&self) -> LbResult<()> {
let mut sync_state = self.syncer.lock().await;
self.events.sync_update(SyncIncrement::SyncStarted);
let pipeline: LbResult<()> = async {
self.pull_updates(&mut sync_state).await?;
self.push_local_changes().await?;
Ok(())
}
.await;
self.events.sync_update(SyncIncrement::SyncFinished(
pipeline.as_ref().err().map(|err| err.kind.clone()),
));
self.cleanup().await?;
pipeline?;
let account = self.get_account()?.clone();
#[cfg(not(target_family = "wasm"))]
if account.is_beta() {
self.send_debug_info(account).await;
}
Ok(())
}
pub(crate) async fn pull_updates(&self, sync_state: &mut SyncState) -> LbResult<()> {
self.inital_sync_state(sync_state).await?;
self.process_deletions().await?;
self.fetch_meta(sync_state).await?;
self.fetch_required_docs(sync_state).await?;
// todo: should this inform a re-pull?
self.merge(sync_state).await?;
self.commit_last_synced(sync_state).await?;
self.send_pull_events(sync_state).await?;
if !self.config.background_work {
self.populate_pk_cache().await?;
}
Ok(())
}
pub(crate) async fn push_local_changes(&self) -> LbResult<()> {
self.push_meta().await?;
self.push_docs().await?;
Ok(())
}
async fn inital_sync_state(&self, state: &mut SyncState) -> LbResult<()> {
let tx = self.ro_tx().await;
let db = tx.db();
*state = Default::default();
state.last_synced = db.last_synced.get().copied().unwrap_or_default() as u64;
Ok(())
}
pub(crate) async fn process_deletions(&self) -> LbResult<()> {
let server_ids = self
.client
.request(self.get_account()?, GetFileIdsRequest {})
.await?
.ids;
let mut tx = self.begin_tx().await;
let db = tx.db();
let mut local = db.base_metadata.stage(&db.local_metadata).to_lazy();
let base_ids = local.tree.base.ids();
let mut prunable_ids = base_ids;
prunable_ids.retain(|id| !server_ids.contains(id));
for id in prunable_ids.clone() {
prunable_ids.extend(local.descendants(&id)?.into_iter());
}
for id in &prunable_ids {
if let Some(base_file) = local.tree.base.maybe_find(id) {
self.docs
.delete(*id, base_file.document_hmac().copied())
.await?;
}
if let Some(local_file) = local.maybe_find(id) {
self.docs
.delete(*id, local_file.document_hmac().copied())
.await?;
}
}
let mut base_staged = (&mut db.base_metadata).to_lazy().stage(None);
base_staged.tree.removed = prunable_ids.iter().copied().collect();
base_staged.promote()?;
let mut local_staged = (&mut db.local_metadata).to_lazy().stage(None);
local_staged.tree.removed = prunable_ids.iter().copied().collect();
local_staged.promote()?;
if !prunable_ids.is_empty() {
self.events.meta_changed(Actor::Sync);
}
Ok(())
}
async fn fetch_meta(&self, state: &mut SyncState) -> LbResult<()> {
let updates = self
.client
.request(
self.get_account()?,
GetUpdatesRequestV2 { since_metadata_version: state.last_synced },
)
.await?;
let tx = self.ro_tx().await;
let db = tx.db();
// this loop implicitly prunes remote orphans
let mut without_orphans = Vec::new();
let me = Owner(self.keychain.get_pk()?);
let remote = db.base_metadata.stage(updates.file_metadata).to_lazy();
for id in remote.tree.staged.ids() {
let meta = remote.find(&id)?;
if remote.maybe_find_parent(meta).is_some()
|| meta
.user_access_keys()
.iter()
.any(|k| k.encrypted_for == me.0)
{
without_orphans.push(remote.find(&id)?.clone());
}
}
// this is what actually performs the deduplication
let pruned_tree = db.base_metadata.stage(without_orphans).pruned()?.to_lazy();
let (_, deduped_changes) = pruned_tree.unstage();
// initialize root if this is the first pull on this device
let mut root_id = None;
if db.root.get().is_none() {
let root = deduped_changes
.all_files()?
.into_iter()
.find(|f| f.is_root())
.ok_or(LbErrKind::RootNonexistent)?;
root_id = Some(*root.id());
}
state.remote_changes = deduped_changes;
state.updates_as_of = updates.as_of_metadata_version;
state.new_root = root_id;
Ok(())
}
async fn fetch_required_docs(&self, state: &mut SyncState) -> LbResult<()> {
let mut docs_to_pull = vec![];
let tx = self.ro_tx().await;
let db = tx.db();
let mut files_with_local_edits = vec![];
let local = db.base_metadata.stage(&db.local_metadata);
for id in local.staged.ids() {
if let Some(base) = local.base.maybe_find(&id) {
if let Some(local_hmac) = local.find(&id)?.document_hmac() {
if Some(local_hmac) != base.document_hmac() {
files_with_local_edits.push(id);
println!("local edits found");
}
}
}
}
let mut remote = db
.base_metadata
.stage(state.remote_changes.clone())
.to_lazy();
for id in remote.tree.staged.ids() {
if remote.calculate_deleted(&id)? {
continue;
}
let remote_hmac = remote.find(&id)?.document_hmac().cloned();
let base_hmac = remote
.tree
.base
.maybe_find(&id)
.and_then(|f| f.document_hmac())
.cloned();
if base_hmac == remote_hmac {
continue;
}
if let Some(remote_hmac) = remote_hmac {
// pull a file if we have a prior base, this is our heuristic -- do they have the
// ability to edit this file while we release the lock and are pulling all the
// files
if self.docs.exists(id, base_hmac) && !self.docs.exists(id, Some(remote_hmac)) {
docs_to_pull.push((id, remote_hmac));
}
// this clause captures documents which went from being new -> multiple parties
// having updates. We'll still need the updates
if files_with_local_edits.contains(&id)
&& !docs_to_pull
.iter()
.any(|(already_pulling, _)| already_pulling == &id)
{
if let Some(base_hmac) = base_hmac {
if !self.docs.exists(id, Some(base_hmac)) {
// this scenario basically only comes up in tests
// someone modifies a file directly without reading the prior version
docs_to_pull.push((id, base_hmac));
}
}
docs_to_pull.push((id, remote_hmac));
}
}
}
drop(tx);
let futures = docs_to_pull
.into_iter()
.map(|(id, hmac)| async move { self.fetch_doc(id, hmac).await.map(|_| id) });
let mut stream = stream::iter(futures).buffer_unordered(
thread::available_parallelism()
.unwrap_or(NonZeroUsize::new(4).unwrap())
.into(),
);
while let Some(fut) = stream.next().await {
let id = fut?;
state.pulled_docs.push(id);
}
Ok(())
}
pub(crate) async fn fetch_doc(
&self, id: Uuid, hmac: DocumentHmac,
) -> LbResult<EncryptedDocument> {
// todo: in a lot of cases there is a list of ids we're trying to get, it would be better
// if the caller managed the event updates, the status would be more meaningful for longer
// in this world, can we get stuck pushing a doc as well? Probably fine for now
if let Ok(Some(doc)) = self.docs.maybe_get(id, Some(hmac)).await {
return Ok(doc);
}
self.events
.sync_update(SyncIncrement::PullingDocument(id, true));
let remote_document = self
.client
.request(self.get_account()?, GetDocRequest { id, hmac })
.await?;
self.docs
.insert(id, Some(hmac), &remote_document.content)
.await?;
self.events
.sync_update(SyncIncrement::PullingDocument(id, false));
Ok(remote_document.content)
}
/// Pulls remote changes and constructs a changeset Merge such that Stage<Stage<Stage<Base, Remote>, Local>, Merge> is valid.
/// Promotes Base to Stage<Base, Remote> and Local to Stage<Local, Merge>
async fn merge(&self, state: &mut SyncState) -> LbResult<()> {
let mut tx = self.begin_tx().await;
let db = tx.db();
let start = Instant::now();
let remote_changes = &state.remote_changes;
// fetch document updates and local documents for merge
let me = Owner(self.keychain.get_pk()?);
// compute merge changes
let merge_changes = {
// assemble trees
let mut base = (&db.base_metadata).to_lazy();
let remote_unlazy = (&db.base_metadata).to_staged(remote_changes);
let mut remote = remote_unlazy.as_lazy();
let mut local = (&db.base_metadata).to_staged(&db.local_metadata).to_lazy();
// changeset constraints - these evolve as we try to assemble changes and encounter validation failures
let mut files_to_unmove: HashSet<Uuid> = HashSet::new();
let mut files_to_unshare: HashSet<Uuid> = HashSet::new();
let mut links_to_delete: HashSet<Uuid> = HashSet::new();
let mut rename_increments: HashMap<Uuid, usize> = HashMap::new();
let mut duplicate_file_ids: HashMap<Uuid, Uuid> = HashMap::new();
'merge_construction: loop {
// process just the edits which allow us to check deletions in the result
let mut deletions = {
let mut deletions = remote_unlazy.stage(Vec::new()).to_lazy();
// creations
let mut deletion_creations = HashSet::new();
for id in db.local_metadata.ids() {
if remote.maybe_find(&id).is_none() && !links_to_delete.contains(&id) {
deletion_creations.insert(id);
}
}
'drain_creations: while !deletion_creations.is_empty() {
'choose_a_creation: for id in &deletion_creations {
// create
let id = *id;
let local_file = local.find(&id)?.clone();
let result = deletions.create_unvalidated(
id,
symkey::generate_key(),
local_file.parent(),
&local.name(&id, &self.keychain)?,
local_file.file_type(),
&self.keychain,
);
match result {
Ok(_) => {
deletion_creations.remove(&id);
continue 'drain_creations;
}
Err(ref err) => match err.kind {
LbErrKind::FileParentNonexistent => {
continue 'choose_a_creation;
}
_ => {
result?;
}
},
}
}
return Err(LbErrKind::Unexpected(format!(
"sync failed to find a topomodelal order for file creations: {deletion_creations:?}"
))
.into());
}
// moves (creations happen first in case a file is moved into a new folder)
for id in db.local_metadata.ids() {
let local_file = local.find(&id)?.clone();
if let Some(base_file) = db.base_metadata.maybe_find(&id).cloned() {
if !local_file.explicitly_deleted()
&& local_file.parent() != base_file.parent()
&& !files_to_unmove.contains(&id)
{
// move
deletions.move_unvalidated(
&id,
local_file.parent(),
&self.keychain,
)?;
}
}
}
// deletions (moves happen first in case a file is moved into a deleted folder)
for id in db.local_metadata.ids() {
let local_file = local.find(&id)?.clone();
if local_file.explicitly_deleted() {
// delete
deletions.delete_unvalidated(&id, &self.keychain)?;
}
}
deletions
};
// process all edits, dropping non-deletion edits for files that will be implicitly deleted
let mut merge = {
let mut merge = remote_unlazy.stage(Vec::new()).to_lazy();
// creations and edits of created documents
let mut creations = HashSet::new();
for id in db.local_metadata.ids() {
if deletions.maybe_find(&id).is_some()
&& !deletions.calculate_deleted(&id)?
&& remote.maybe_find(&id).is_none()
&& !links_to_delete.contains(&id)
{
creations.insert(id);
}
}
'drain_creations: while !creations.is_empty() {
'choose_a_creation: for id in &creations {
// create
let id = *id;
let local_file = local.find(&id)?.clone();
let result = merge.create_unvalidated(
id,
local.decrypt_key(&id, &self.keychain)?,
local_file.parent(),
&local.name(&id, &self.keychain)?,
local_file.file_type(),
&self.keychain,
);
match result {
Ok(_) => {
creations.remove(&id);
continue 'drain_creations;
}
Err(ref err) => match err.kind {
LbErrKind::FileParentNonexistent => {
continue 'choose_a_creation;
}
_ => {
result?;
}
},
}
}
return Err(LbErrKind::Unexpected(format!(
"sync failed to find a topomodelal order for file creations: {creations:?}"
))
.into());
}
// moves, renames, edits, and shares
// creations happen first in case a file is moved into a new folder
for id in db.local_metadata.ids() {
// skip files that are already deleted or will be deleted
if deletions.maybe_find(&id).is_none()
|| deletions.calculate_deleted(&id)?
|| (remote.maybe_find(&id).is_some()
&& remote.calculate_deleted(&id)?)
{
continue;
}
let local_file = local.find(&id)?.clone();
let local_name = local.name(&id, &self.keychain)?;
let maybe_base_file = base.maybe_find(&id).cloned();
let maybe_remote_file = remote.maybe_find(&id).cloned();
if let Some(ref base_file) = maybe_base_file {
let base_name = base.name(&id, &self.keychain)?;
let remote_file = remote.find(&id)?.clone();
let remote_name = remote.name(&id, &self.keychain)?;
// move
if local_file.parent() != base_file.parent()
&& remote_file.parent() == base_file.parent()
&& !files_to_unmove.contains(&id)
{
merge.move_unvalidated(&id, local_file.parent(), &self.keychain)?;
}
// rename
if local_name != base_name && remote_name == base_name {
merge.rename_unvalidated(&id, &local_name, &self.keychain)?;
}
}
// share
let mut remote_keys = HashMap::new();
if let Some(ref remote_file) = maybe_remote_file {
for key in remote_file.user_access_keys() {
remote_keys.insert(
(Owner(key.encrypted_by), Owner(key.encrypted_for)),
(key.mode, key.deleted),
);
}
}
for key in local_file.user_access_keys() {
let (by, for_) = (Owner(key.encrypted_by), Owner(key.encrypted_for));
if let Some(&(remote_mode, remote_deleted)) =
remote_keys.get(&(by, for_))
{
// upgrade share
if key.mode > remote_mode || !key.deleted && remote_deleted {
let mode = match key.mode {
UserAccessMode::Read => ShareMode::Read,
UserAccessMode::Write => ShareMode::Write,
UserAccessMode::Owner => continue,
};
merge.add_share_unvalidated(id, for_, mode, &self.keychain)?;
}
// delete share
if key.deleted && !remote_deleted {
merge.delete_share_unvalidated(
&id,
Some(for_.0),
&self.keychain,
)?;
}
} else {
// add share
let mode = match key.mode {
UserAccessMode::Read => ShareMode::Read,
UserAccessMode::Write => ShareMode::Write,
UserAccessMode::Owner => continue,
};
merge.add_share_unvalidated(id, for_, mode, &self.keychain)?;
}
}
// share deletion due to conflicts
if files_to_unshare.contains(&id) {
merge.delete_share_unvalidated(&id, None, &self.keychain)?;
}
// rename due to path conflict
if let Some(&rename_increment) = rename_increments.get(&id) {
let name = NameComponents::from(&local_name)
.generate_incremented(rename_increment)
.to_name();
merge.rename_unvalidated(&id, &name, &self.keychain)?;
}
// edit
let base_hmac = maybe_base_file.and_then(|f| f.document_hmac().cloned());
let remote_hmac =
maybe_remote_file.and_then(|f| f.document_hmac().cloned());
let local_hmac = local_file.document_hmac().cloned();
if merge.access_mode(me, &id)? >= Some(UserAccessMode::Write)
&& local_hmac != base_hmac
{
if remote_hmac != base_hmac && remote_hmac != local_hmac {
// merge
let merge_name = merge.name(&id, &self.keychain)?;
let document_type =
DocumentType::from_file_name_using_extension(&merge_name);
// todo these accesses are potentially problematic
// maybe not if service/docs is the persion doing network io
let base_document =
self.read_document_helper(id, &mut base).await?;
let remote_document =
self.read_document_helper(id, &mut remote).await?;
let local_document =
self.read_document_helper(id, &mut local).await?;
match document_type {
DocumentType::Text => {
// 3-way merge
// todo: a couple more clones than necessary
let base_document =
String::from_utf8_lossy(&base_document).to_string();
let remote_document =
String::from_utf8_lossy(&remote_document).to_string();
let local_document =
String::from_utf8_lossy(&local_document).to_string();
let merged_document =
text::buffer::Buffer::from(base_document.as_str())
.merge(local_document, remote_document);
let encrypted_document = merge
.update_document_unvalidated(
&id,
&merged_document.into_bytes(),
&self.keychain,
)?;
let hmac = merge.find(&id)?.document_hmac().copied();
self.docs.insert(id, hmac, &encrypted_document).await?;
}
DocumentType::Drawing => {
let base_document =
String::from_utf8_lossy(&base_document).to_string();
let remote_document =
String::from_utf8_lossy(&remote_document).to_string();
let local_document =
String::from_utf8_lossy(&local_document).to_string();
let base_buffer = svg::buffer::Buffer::new(&base_document);
let remote_buffer =
svg::buffer::Buffer::new(&remote_document);
let mut local_buffer =
svg::buffer::Buffer::new(&local_document);
for (_, el) in local_buffer.elements.iter_mut() {
if let Element::Path(path) = el {
path.data.apply_transform(u_transform_to_bezier(
&Transform::from(
local_buffer
.weak_viewport_settings
.master_transform,
),
));
}
}
svg::buffer::Buffer::reload(
&mut local_buffer.elements,
&mut local_buffer.weak_images,
&mut local_buffer.weak_path_pressures,
&mut local_buffer.weak_viewport_settings,
&base_buffer,
&remote_buffer,
);
let merged_document = local_buffer.serialize();
let encrypted_document = merge
.update_document_unvalidated(
&id,
&merged_document.into_bytes(),
&self.keychain,
)?;
let hmac = merge.find(&id)?.document_hmac().copied();
self.docs.insert(id, hmac, &encrypted_document).await?;
}
DocumentType::Other => {
// duplicate file
let merge_parent = *merge.find(&id)?.parent();
let duplicate_id = if let Some(&duplicate_id) =
duplicate_file_ids.get(&id)
{
duplicate_id
} else {
let duplicate_id = Uuid::new_v4();
duplicate_file_ids.insert(id, duplicate_id);
rename_increments.insert(duplicate_id, 1);
duplicate_id
};
let mut merge_name = merge_name;
merge_name = NameComponents::from(&merge_name)
.generate_incremented(
rename_increments
.get(&duplicate_id)
.copied()
.unwrap_or_default(),
)
.to_name();
merge.create_unvalidated(
duplicate_id,
symkey::generate_key(),
&merge_parent,
&merge_name,
FileType::Document,
&self.keychain,
)?;
let encrypted_document = merge
.update_document_unvalidated(
&duplicate_id,
&local_document,
&self.keychain,
)?;
let duplicate_hmac =
merge.find(&duplicate_id)?.document_hmac().copied();
self.docs
.insert(
duplicate_id,
duplicate_hmac,
&encrypted_document,
)
.await?;
}
}
} else {
// overwrite (todo: avoid reading/decrypting/encrypting document)
let document = self.read_document_helper(id, &mut local).await?;
merge.update_document_unvalidated(
&id,
&document,
&self.keychain,
)?;
}
}
}
// deletes
// moves happen first in case a file is moved into a deleted folder
for id in db.local_metadata.ids() {
if db.base_metadata.maybe_find(&id).is_some()
&& deletions.calculate_deleted(&id)?
&& !merge.calculate_deleted(&id)?
{
// delete
merge.delete_unvalidated(&id, &self.keychain)?;
}
}
for &id in &links_to_delete {
// delete
if merge.maybe_find(&id).is_some() && !merge.calculate_deleted(&id)? {
merge.delete_unvalidated(&id, &self.keychain)?;
}
}
merge
};
// validate; handle failures by introducing changeset constraints
for link in merge.ids() {
if !merge.calculate_deleted(&link)? {
if let FileType::Link { target } = merge.find(&link)?.file_type() {
if merge.maybe_find(&target).is_some()
&& merge.calculate_deleted(&target)?
{
// delete links to deleted files
if links_to_delete.insert(link) {
continue 'merge_construction;
} else {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve broken link (deletion): {link:?}"
))
.into());
}
}
}
}
}
let validate_result = merge.validate(me);
match validate_result {
// merge changeset is valid
Ok(_) => {
let (_, merge_changes) = merge.unstage();
break merge_changes;
}
Err(ref err) => match err.kind {
LbErrKind::Validation(ref vf) => match vf {
// merge changeset has resolvable validation errors and needs modification
ValidationFailure::Cycle(ids) => {
// revert all local moves in the cycle
let mut progress = false;
for &id in ids {
if db.local_metadata.maybe_find(&id).is_some()
&& files_to_unmove.insert(id)
{
progress = true;
}
}
if !progress {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve cycle: {ids:?}"
))
.into());
}
}
ValidationFailure::PathConflict(ids) => {
// pick one local id and generate a non-conflicting filename
let mut progress = false;
for &id in ids {
if duplicate_file_ids.values().any(|&dup| dup == id) {
*rename_increments.entry(id).or_insert(0) += 1;
progress = true;
break;
}
}
if !progress {
for &id in ids {
if db.local_metadata.maybe_find(&id).is_some() {
*rename_increments.entry(id).or_insert(0) += 1;
progress = true;
break;
}
}
}
if !progress {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve path conflict: {ids:?}"
))
.into());
}
}
ValidationFailure::SharedLink { link, shared_ancestor } => {
// if ancestor is newly shared, delete share, otherwise delete link
let mut progress = false;
if let Some(base_shared_ancestor) = base.maybe_find(shared_ancestor)
{
if !base_shared_ancestor.is_shared()
&& files_to_unshare.insert(*shared_ancestor)
{
progress = true;
}
}
if !progress && links_to_delete.insert(*link) {
progress = true;
}
if !progress {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve shared link: link: {link:?}, shared_ancestor: {shared_ancestor:?}"
)).into());
}
}
ValidationFailure::DuplicateLink { target } => {
// delete local link with this target
let mut progress = false;
if let Some(link) = local.linked_by(target)? {
if links_to_delete.insert(link) {
progress = true;
}
}
if !progress {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve duplicate link: target: {target:?}"
))
.into());
}
}
ValidationFailure::BrokenLink(link) => {
// delete local link with this target
if !links_to_delete.insert(*link) {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve broken link: {link:?}"
))
.into());
}
}
ValidationFailure::OwnedLink(link) => {
// if target is newly owned, unmove target, otherwise delete link
let mut progress = false;
if let Some(remote_link) = remote.maybe_find(link) {
if let FileType::Link { target } = remote_link.file_type() {
let remote_target = remote.find(&target)?;
if remote_target.owner() != me
&& files_to_unmove.insert(target)
{
progress = true;
}
}
}
if !progress && links_to_delete.insert(*link) {
progress = true;
}
if !progress {
return Err(LbErrKind::Unexpected(format!(
"sync failed to resolve owned link: {link:?}"
))
.into());
}
}
// merge changeset has unexpected validation errors
ValidationFailure::Orphan(_)
| ValidationFailure::NonFolderWithChildren(_)
| ValidationFailure::FileWithDifferentOwnerParent(_)
| ValidationFailure::FileNameTooLong(_)
| ValidationFailure::DeletedFileUpdated(_)
| ValidationFailure::NonDecryptableFileName(_) => {
validate_result?;
}
},
// merge changeset has unexpected errors
_ => {
validate_result?;
}
},
}
}
};
// base = remote; local = merge
(&mut db.base_metadata)
.to_staged(remote_changes.clone())
.to_lazy()
.promote()?;
db.local_metadata.clear()?;
(&mut db.local_metadata)
.to_staged(merge_changes)
.to_lazy()
.promote()?;
// todo who else calls this did they manage locks right?
// self.cleanup_local_metadata()?;
db.base_metadata.stage(&mut db.local_metadata).prune()?;
if start.elapsed() > web_time::Duration::from_millis(100) {
warn!("sync merge held lock for {:?}", start.elapsed());
}
Ok(())
}
async fn send_pull_events(&self, state: &mut SyncState) -> LbResult<()> {
if state.new_root.is_some() {
self.events.signed_in();
}
if !state.remote_changes.is_empty() {
self.events.meta_changed(Actor::Sync);
let owner = Owner(self.keychain.get_pk()?);
if state.remote_changes.iter().any(|f| f.owner() != owner) {
self.events.pending_shares_changed();
}
}
for &doc in &state.pulled_docs {
self.events.doc_written(doc, Actor::Sync);
}
Ok(())
}
async fn commit_last_synced(&self, state: &mut SyncState) -> LbResult<()> {
let mut tx = self.begin_tx().await;
let db = tx.db();
db.last_synced.insert(state.updates_as_of as i64)?;
if let Some(root) = state.new_root {
db.root.insert(root)?;
}
Ok(())
}
async fn populate_pk_cache(&self) -> LbResult<()> {
// todo: is this the move?
let mut missing_owners = HashSet::new();
{
let tx = self.ro_tx().await;
let db = tx.db();
for file in db.base_metadata.get().values() {
for user_access_key in file.user_access_keys() {
let enc_by = Owner(user_access_key.encrypted_by);
let enc_for = Owner(user_access_key.encrypted_for);
if !db.pub_key_lookup.get().contains_key(&enc_by) {
missing_owners.insert(enc_by);
}
if !db.pub_key_lookup.get().contains_key(&enc_for) {
missing_owners.insert(enc_for);
}
}
}
}
let mut new_owners = HashMap::new();
{
for owner in missing_owners {
let username_result = self
.client
.request(self.get_account().unwrap(), GetUsernameRequest { key: owner.0 })
.await;
new_owners.insert(owner, username_result);
}
}
let mut tx = self.begin_tx().await;
let db = tx.db();
let have_updates = !new_owners.is_empty();
for (owner, username) in new_owners {
let username = match username {
Err(ApiError::Endpoint(GetUsernameError::UserNotFound)) => "<unknown>".to_string(),
Ok(username) => username.username,
_ => continue, // todo: possibly add some logging here
};
db.pub_key_lookup.insert(owner, username).unwrap();
}
if have_updates {
self.events.meta_changed(Actor::Sync);
}
Ok(())
}
/// Updates remote and base metadata to local.
async fn push_meta(&self) -> LbResult<()> {
let mut updates = vec![];
let mut local_changes_no_digests = Vec::new();
let tx = self.ro_tx().await;
let db = tx.db();
// remote = local
let local = db.base_metadata.stage(&db.local_metadata).to_lazy();
for id in local.tree.staged.ids() {
let mut local_change = local.tree.staged.find(&id)?.timestamped_value.value.clone();
let maybe_base_file = local.tree.base.maybe_find(&id);
// change everything but document hmac and re-sign
local_change.set_hmac_and_size(
maybe_base_file.and_then(|f| f.document_hmac().copied()),
maybe_base_file.and_then(|f| *f.timestamped_value.value.doc_size()),
);
let local_change = local_change.sign(&self.keychain)?;
local_changes_no_digests.push(local_change.clone());
let file_diff = FileDiff { old: maybe_base_file.cloned(), new: local_change };
updates.push(file_diff);
}
drop(tx);
if !updates.is_empty() {
self.client
.request(self.get_account()?, UpsertRequestV2 { updates: updates.clone() })
.await?;
}
let mut tx = self.begin_tx().await;
let db = tx.db();
// base = local
(&mut db.base_metadata)
.to_lazy()
.stage(local_changes_no_digests)
.promote()?;
db.base_metadata.stage(&mut db.local_metadata).prune()?;
tx.end();
Ok(())
}
/// Updates remote and base files to local. Assumes metadata is already pushed for all new files.
// todo: make this so that all document updates are attempted and we don't just return the
// first error. Once an attempt is made we can return any or all errors, either would be an
// improvement
async fn push_docs(&self) -> LbResult<()> {
let mut updates = vec![];
let mut local_changes_digests_only = vec![];
let tx = self.ro_tx().await;
let db = tx.db();
let start = Instant::now();
let local = db.base_metadata.stage(&db.local_metadata).to_lazy();
for id in local.tree.staged.ids() {
let base_file = local.tree.base.find(&id)?.clone();
// change only document hmac and re-sign
let mut local_change = base_file.timestamped_value.value.clone();
local_change.set_hmac_and_size(
local.find(&id)?.document_hmac().copied(),
*local.find(&id)?.timestamped_value.value.doc_size(),
);
if base_file.document_hmac() == local_change.document_hmac()
|| local_change.document_hmac().is_none()
{
continue;
}
let local_change = local_change.sign(&self.keychain)?;
updates.push(FileDiff { old: Some(base_file), new: local_change.clone() });
local_changes_digests_only.push(local_change);
self.events
.sync_update(SyncIncrement::PushingDocument(id, true));
}
drop(tx);
if start.elapsed() > web_time::Duration::from_millis(100) {
warn!("sync push_docs held lock for {:?}", start.elapsed());
}
let futures = updates.clone().into_iter().map(|diff| self.push_doc(diff));
let mut stream = stream::iter(futures).buffer_unordered(
thread::available_parallelism()
.unwrap_or(NonZeroUsize::new(4).unwrap())
.into(),
);
let mut docs_without_errors = vec![];
let mut last_error: Option<LbErr> = None;
while let Some(fut) = stream.next().await {
match fut {
Ok(id) => {
docs_without_errors.push(id);
self.events
.sync_update(SyncIncrement::PushingDocument(id, false));
}
Err(err) => {
last_error = Some(err);
}
}
}
local_changes_digests_only.retain(|f| docs_without_errors.contains(f.id()));
let mut tx = self.begin_tx().await;
let db = tx.db();
// base = local (metadata)
(&mut db.base_metadata)
.to_lazy()
.stage(local_changes_digests_only)
.promote()?;
db.base_metadata.stage(&mut db.local_metadata).prune()?;
tx.end();
if let Some(err) = last_error { Err(err) } else { Ok(()) }
}
async fn push_doc(&self, diff: FileDiff<SignedMeta>) -> LbResult<Uuid> {
let id = *diff.new.id();
let hmac = diff.new.document_hmac();
let local_document_change = self.docs.get(id, hmac.copied()).await?;
self.client
.request(
self.get_account()?,
ChangeDocRequestV2 { diff, new_content: local_document_change },
)
.await?;
Ok(id)
}
#[cfg(not(target_family = "wasm"))]
async fn send_debug_info(&self, account: Account) {
let debug_info = self
.debug_info("none provided - sync".to_string(), false)
.await
.unwrap();
if self.config.background_work {
let bg_self = self.clone();
tokio::spawn(async move {
bg_self
.client
.request(&account, UpsertDebugInfoRequest { debug_info })
.await
.log_and_ignore();
});
} else {
self.client
.request(&account, UpsertDebugInfoRequest { debug_info })
.await
.log_and_ignore();
}
}
async fn read_document_helper<T>(
&self, id: Uuid, tree: &mut LazyTree<T>,
) -> LbResult<DecryptedDocument>
where
T: TreeLike<F = SignedMeta>,
{
let file = tree.find(&id)?;
validate::is_document(file)?;
let hmac = file.document_hmac().copied();
if tree.calculate_deleted(&id)? {
return Err(LbErrKind::FileNonexistent.into());
}
let doc = match hmac {
Some(hmac) => {
let doc = self.docs.get(id, Some(hmac)).await?;
tree.decrypt_document(&id, &doc, &self.keychain)?
}
None => vec![],
};
Ok(doc)
}
/// for tests only
#[doc(hidden)]
pub async fn server_dirty_ids(&self) -> LbResult<Vec<Uuid>> {
let mut state = self.syncer.lock().await;
self.inital_sync_state(&mut state).await?;
self.process_deletions().await?;
self.fetch_meta(&mut state).await?;
let server_ids = state.remote_changes.iter().map(|f| *f.id()).collect();
Ok(server_ids)
}
pub(crate) fn setup_syncer(&self) {
if self.config.background_work {
self.clone().local_change_worker();
self.clone().periodic_sync_worker();
self.clone().post_sync_worker();
}
}
fn local_change_worker(self) {
#[cfg(not(target_family = "wasm"))]
tokio::spawn(async move {
let mut events = self.subscribe();
let sync_criteria = |e: Event| {
matches!(
e,
Event::MetadataChanged(Actor::User) | Event::DocumentWritten(_, Actor::User)
)
};
loop {
time::sleep(Duration::from_millis(500)).await;
let mut should_sync = false;
// drain the current channel, so we don't sync for each keystroke if they pile up
loop {
let event = events.try_recv();
match event {
Ok(event) => {
if sync_criteria(event) {
should_sync = true;
}
}
Err(TryRecvError::Empty) => break,
_ => {
panic!(
"unexpected broadcast receive error, returning local_change_worker"
);
}
}
}
// empty channel + nothing interesting has happened, sit and wait for something
// interesting
if !should_sync {
let event = events.recv().await.unwrap();
if sync_criteria(event) {
self.sync().await.map_unexpected().log_and_ignore();
} else {
continue;
}
}
}
});
}
fn periodic_sync_worker(self) {
#[cfg(not(target_family = "wasm"))]
tokio::spawn(async move {
loop {
self.sync().await.map_unexpected().log_and_ignore();
if self.user_active().await {
tokio::time::sleep(Duration::from_secs(3)).await;
} else {
tokio::time::sleep(Duration::from_secs(5 * 60)).await;
}
}
});
}
async fn user_active(&self) -> bool {
let last_seen = self.user_last_seen.read().await;
last_seen.elapsed() < Duration::from_secs(3 * 60)
}
fn post_sync_worker(self) {
#[cfg(not(target_family = "wasm"))]
tokio::spawn(async move {
let mut events = self.subscribe();
loop {
let event = events.recv().await.unwrap();
if let Event::Sync(SyncIncrement::SyncFinished(_)) = event {
self.fetcher().await.map_unexpected().log_and_ignore();
self.populate_pk_cache()
.await
.map_unexpected()
.log_and_ignore();
};
}
});
}
async fn fetcher(&self) -> LbResult<()> {
let mut files_to_pull = vec![];
let tx = self.ro_tx().await;
let db = tx.db();
let Some(root) = db.root.get() else {
return Ok(());
};
// we can only fetch things we know the server knows about
let mut tree = db.base_metadata.stage(None).to_lazy();
for id in tree.descendants_using_links(root)? {
let file = tree.find(&id)?;
let hmac = file.document_hmac().copied();
// skip non-documents
if !file.is_document() {
continue;
}
// skip deleted files
if tree.calculate_deleted(&id)? {
continue;
}
// skip non-first-party files
let name = tree.name(&id, &self.keychain)?;
if !name.ends_with(".md") && !name.ends_with(".svg") {
continue;
}
files_to_pull.push((id, hmac));
}
drop(tx);
// this could all be done in parallel, but for now going to not do it that way
// benefits: less work, but also ensures that a file that needs to be fetched immediately
// can be
for (id, hmac) in files_to_pull {
if let Some(hmac) = hmac {
self.fetch_doc(id, hmac).await?;
}
}
Ok(())
}
}