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use anyhow::{bail, Result};
use serde::{Deserialize, Deserializer, Serialize, Serializer};
use im::{OrdMap, OrdSet, ordset};
use aero_bayou::*;
use crate::unique_ident::UniqueIdent;
/// Parents are only persisted in the event log,
/// not in the checkpoints.
pub type Parents = Vec<UniqueIdent>;
pub type Etag = String;
pub type FileName = String;
pub type IndexEntry = (FileName, Etag);
#[derive(Clone, Default)]
pub struct DavDag {
/// Source of trust
pub table: OrdMap<UniqueIdent, IndexEntry>,
/// Indexes optimized for queries
pub idx_by_filename: OrdMap<FileName, UniqueIdent>,
/// Partial synchronization graph
/// parent -> direct children
pub successors: OrdMap<UniqueIdent, OrdSet<UniqueIdent>>,
pub ancestors: OrdMap<UniqueIdent, OrdSet<UniqueIdent>>,
/// All nodes
pub all_nodes: OrdSet<UniqueIdent>,
/// Head nodes
pub heads: OrdSet<UniqueIdent>,
/// Origin nodes
pub origins: OrdSet<UniqueIdent>,
}
#[derive(Clone, Serialize, Deserialize, Debug)]
pub enum DavDagOp {
/// Merge is a virtual operation run when multiple heads are discovered
Merge(Parents, UniqueIdent),
/// Add an item to the collection
Put(Parents, UniqueIdent, IndexEntry),
/// Delete an item from the collection
Delete(Parents, UniqueIdent),
}
impl DavDag {
pub fn op_merge(&self, ident: UniqueIdent) -> DavDagOp {
DavDagOp::Merge(self.heads_vec(), ident)
}
pub fn op_put(&self, ident: UniqueIdent, entry: IndexEntry) -> DavDagOp {
DavDagOp::Put(self.heads_vec(), ident, entry)
}
pub fn op_delete(&self, ident: UniqueIdent) -> DavDagOp {
DavDagOp::Delete(self.heads_vec(), ident)
}
// HELPER functions
/// All HEAD events
pub fn heads_vec(&self) -> Vec<UniqueIdent> {
self.heads.clone().into_iter().collect()
}
/// Resolve a sync token
pub fn resolve(&self, known: UniqueIdent) -> Result<OrdSet<UniqueIdent>> {
let already_known = self.all_ancestors(known);
// We can't capture all missing events if we are not connected
// to all sinks of the graph, ie. if we don't already know all the sinks.
if !self.origins.is_subset(already_known.clone()) {
bail!("Not enough history to produce a correct diff, a full resync is needed");
}
// Missing items are all existing graph items from which
// we removed all items known by the given node.
// In other words, all values in all_nodes that are not in already_known.
Ok(self.all_nodes.clone().relative_complement(already_known))
}
/// Find all ancestors of a given
fn all_ancestors(&self, known: UniqueIdent) -> OrdSet<UniqueIdent> {
let mut all_known: OrdSet<UniqueIdent> = OrdSet::new();
let mut to_collect = vec![known];
loop {
let cursor = match to_collect.pop() {
// Loop stops here
None => break,
Some(v) => v,
};
if all_known.insert(cursor).is_some() {
// Item already processed
continue
}
// Collect parents
let parents = match self.ancestors.get(&cursor) {
None => continue,
Some(c) => c,
};
to_collect.extend(parents.iter());
}
all_known
}
// INTERNAL functions
/// Register a WebDAV item (put, copy, move)
fn register(&mut self, ident: UniqueIdent, entry: IndexEntry) {
// Insert item in the source of trust
self.table.insert(ident, entry.clone());
// Update the cache
let (filename, _etag) = entry;
self.idx_by_filename.insert(filename, ident);
}
/// Unregister a WebDAV item (delete, move)
fn unregister(&mut self, ident: &UniqueIdent) {
// Query the source of truth to get the information we
// need to clean the indexes
let (filename, _etag) = match self.table.get(ident) {
Some(v) => v,
None => return,
};
self.idx_by_filename.remove(filename);
// Finally clear item from the source of trust
self.table.remove(ident);
}
// @FIXME: maybe in case of error we could simply disable the sync graph
// and ask the client to rely on manual sync. For now, we are skipping the event
// which is midly satisfying.
/// When an event is processed, update the synchronization DAG
fn sync_dag(&mut self, child: &UniqueIdent, parents: &[UniqueIdent]) -> bool {
// --- Update SUCCESSORS
// All parents must exist in successors otherwise we can't accept item:
// do the check + update successors
let mut try_successors = self.successors.clone();
for par in parents.iter() {
match try_successors.get_mut(par) {
None => {
tracing::warn!("Unable to push a Dav DAG sync op into the graph, an event is missing, it's a bug");
return false
},
Some(v) => v.insert(*child),
};
}
self.successors = try_successors;
// This event is also a future successor
self.successors.insert(*child, ordset![]);
// --- Update ANCESTORS
// We register ancestors as it is required for the sync algorithm
self.ancestors.insert(*child, parents.iter().fold(ordset![], |mut acc, p| {
acc.insert(*p);
acc
}));
// --- Update ORIGINS
// If this event has no parents, it's an origin
if parents.is_empty() {
self.origins.insert(*child);
}
// --- Update HEADS
// Remove from HEADS this event's parents
parents.iter().for_each(|par| { self.heads.remove(par); });
// This event becomes a new HEAD in turn
self.heads.insert(*child);
true
}
}
impl BayouState for DavDag {
type Op = DavDagOp;
fn apply(&self, op: &Self::Op) -> Self {
let mut new = self.clone();
match op {
DavDagOp::Put(parents, ident, entry) => {
if new.sync_dag(ident, parents.as_slice()) {
new.register(*ident, entry.clone());
}
},
DavDagOp::Delete(parents, ident) => {
if new.sync_dag(ident, parents.as_slice()) {
new.unregister(ident);
}
},
DavDagOp::Merge(parents, ident) => {
new.sync_dag(ident, parents.as_slice());
}
}
new
}
}
// CUSTOM SERIALIZATION & DESERIALIZATION
#[derive(Serialize, Deserialize)]
struct DavDagSerializedRepr {
items: Vec<(UniqueIdent, IndexEntry)>,
heads: Vec<UniqueIdent>,
}
impl<'de> Deserialize<'de> for DavDag {
fn deserialize<D>(d: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let val: DavDagSerializedRepr = DavDagSerializedRepr::deserialize(d)?;
let mut davdag = DavDag::default();
// Build the table + index
val.items.into_iter().for_each(|(ident, entry)| davdag.register(ident, entry));
// Initialize the synchronization DAG with its roots
val.heads.into_iter().for_each(|ident| {
davdag.successors.insert(ident, ordset![]);
davdag.heads.insert(ident);
davdag.origins.insert(ident);
davdag.all_nodes.insert(ident);
});
Ok(davdag)
}
}
impl Serialize for DavDag {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
// Indexes are rebuilt on the fly, we serialize only the core database
let items = self.table.iter().map(|(ident, entry)| (*ident, entry.clone())).collect();
// We keep only the head entries from the sync graph,
// these entries will be used to initialize it back when deserializing
let heads = self.heads_vec();
// Finale serialization object
let val = DavDagSerializedRepr { items, heads };
val.serialize(serializer)
}
}
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