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//! The [`RuntimePersistence`] trait implementation for [`Store`].
//!
//! This is the tokio-rusqlite port of the prior store's `persistence.rs`. The
//! public surface is byte-for-byte the prior store async trait: identical method
//! names and signatures, so consumers swap backends with a path rename only.
//!
//! The translation rules (see `conn.rs`, `lifecycle.rs`, `blobs.rs`):
//!
//! * Pure reads run through `self.conn.call(move |conn| { ... })`.
//! * Read-then-write paths run through `self.conn.write(move |tx| { ... })`
//! (`BEGIN IMMEDIATE`, commit on `Ok`, rollback on `Err`) — this is the
//! cross-process write-lock guard.
//! * Paths that may abandon partially-applied writes (the queued-work claim)
//! run through `self.conn.write_flow`, deciding commit vs rollback via
//! [`TxOutcome`].
//! * The shared `*_conn` helpers (`try_load_session_head_meta_from_conn`,
//! `Self::put_checkpoint_conn`, `Self::load_usage_deltas_conn`,
//! `Self::load_session_graph_from_conn`, the queued-work helpers, …) are
//! synchronous and take a `&rusqlite::Connection`, so they are reused from
//! inside these closures (a `&Transaction` derefs to `&Connection`).
//! * Closures must be `'static` + `Send`: every borrow of `self`/caller data is
//! cloned into an owned value before being moved in.
use super::*;
#[async_trait::async_trait]
impl RuntimePersistence for Store {
fn durability_tier(&self) -> DurabilityTier {
DurabilityTier::Durable
}
async fn load_session(
&self,
scope: SessionReadScope,
) -> Result<Option<PersistedSessionRead>, StoreError> {
self.conn
.call(move |conn| {
let outcome: Result<Option<PersistedSessionRead>, StoreError> = (|| {
let Some(meta) = try_load_session_head_meta_from_conn(conn)? else {
return Ok(None);
};
let leaf_node_id = match &scope {
SessionReadScope::FullGraph => meta.leaf_node_id.clone(),
SessionReadScope::ActivePath { leaf_node_id } => {
leaf_node_id.clone().or_else(|| meta.leaf_node_id.clone())
}
};
let mut graph = match scope {
SessionReadScope::FullGraph => {
Self::load_session_graph_from_conn(conn, meta.leaf_node_id.clone())
}
SessionReadScope::ActivePath { .. } => {
Self::load_active_path_session_graph_from_conn(
conn,
leaf_node_id.clone(),
)
.map_err(sqlite_error)?
}
};
graph.set_leaf_node_id(leaf_node_id);
let checkpoint = meta
.checkpoint_ref
.as_ref()
.and_then(|blob_ref| Self::get_checkpoint_conn(conn, blob_ref));
Ok(Some(PersistedSessionRead {
session_id: meta.session_id,
head_revision: meta.head_revision,
config: meta.config,
agent_frames: meta.agent_frames,
current_agent_frame_id: meta.current_agent_frame_id,
graph,
checkpoint_ref: meta.checkpoint_ref,
checkpoint,
token_ledger: merge_token_ledger_entries(Self::load_usage_deltas_conn(
conn,
)),
}))
})(
);
Ok(outcome)
})
.await
.map_err(sqlite_error)?
}
async fn load_node(
&self,
node_id: &str,
) -> Result<Option<lash_core::SessionNodeRecord>, StoreError> {
let node_id = node_id.to_string();
let row: Option<String> = self
.conn
.call(move |conn| {
conn.query_row(
"SELECT node_json FROM graph_nodes WHERE node_id = ?1 AND tombstoned = 0",
params![node_id],
|row| row.get(0),
)
.optional()
})
.await
.map_err(sqlite_error)?;
Ok(row.and_then(|json| serde_json::from_str(&json).ok()))
}
async fn commit_runtime_state(
&self,
commit: RuntimeCommit,
) -> Result<RuntimeCommitResult, StoreError> {
let blob_profile = self.options.blob_profile;
let result = self
.conn
.write_flow(move |tx| {
let outcome: Result<RuntimeCommitResult, StoreError> = (|| {
let existing = try_load_session_head_meta_from_conn(tx)?;
if let Some(bound_session_id) =
existing.as_ref().map(|meta| meta.session_id.as_str())
&& bound_session_id != commit.session_id
{
return Err(StoreError::SessionBindingMismatch {
bound_session_id: bound_session_id.to_string(),
attempted_session_id: commit.session_id.clone(),
});
}
if let Some(completed) = &commit.turn_commit {
if completed.session_id != commit.session_id {
return Err(StoreError::RuntimeTurnCommitConflict {
session_id: completed.session_id.clone(),
turn_id: completed.turn_id.clone(),
});
}
let prior: Option<(String, String)> = tx
.query_row(
"SELECT turn_commit_hash, result_json FROM runtime_turn_commits
WHERE session_id = ?1 AND turn_id = ?2",
params![completed.session_id, completed.turn_id],
|row| Ok((row.get(0)?, row.get(1)?)),
)
.optional()
.map_err(sqlite_error)?;
if let Some((turn_commit_hash, result_json)) = prior {
if turn_commit_hash == completed.turn_commit_hash {
let result: RuntimeCommitResult =
serde_json::from_str(&result_json).map_err(|err| {
StoreError::Backend(format!(
"failed to decode runtime turn commit result: {err}"
))
})?;
return Ok(result);
}
return Err(StoreError::RuntimeTurnCommitConflict {
session_id: completed.session_id.clone(),
turn_id: completed.turn_id.clone(),
});
}
}
let actual_revision = existing.as_ref().map_or(0, |meta| meta.head_revision);
if commit.expected_head_revision.is_some()
&& commit.expected_head_revision != Some(actual_revision)
{
return Err(StoreError::HeadRevisionConflict {
expected: commit.expected_head_revision,
actual: actual_revision,
});
}
for completed in &commit.completed_queue_claims {
if completed.session_id != commit.session_id {
return Err(StoreError::QueuedWorkClaimExpired {
session_id: completed.session_id.clone(),
claim_id: completed.claim_id.clone(),
});
}
ensure_queued_work_completion_conn(tx, completed)?;
}
let stored_checkpoint =
Self::put_checkpoint_conn(tx, &commit.checkpoint, blob_profile)
.map_err(sqlite_error)?;
if !commit.usage_deltas.is_empty() {
let mut stmt = tx
.prepare(
"INSERT INTO usage_deltas (
source, model, input_tokens, output_tokens, cached_input_tokens, reasoning_tokens
) VALUES (?1, ?2, ?3, ?4, ?5, ?6)",
)
.map_err(sqlite_error)?;
for entry in &commit.usage_deltas {
stmt.execute(params![
entry.source,
entry.model,
entry.usage.input_tokens,
entry.usage.output_tokens,
entry.usage.cached_input_tokens,
entry.usage.reasoning_tokens,
])
.map_err(sqlite_error)?;
}
}
let leaf_node_id = match &commit.graph {
GraphCommitDelta::Unchanged { leaf_node_id } => leaf_node_id.clone(),
GraphCommitDelta::Append {
nodes,
leaf_node_id,
} => {
for node in nodes {
let node_json = encode_json(node);
tx.execute(
"INSERT INTO graph_nodes (node_id, node_json) VALUES (?1, ?2)",
params![node.node_id, node_json],
)
.map_err(sqlite_error)?;
}
leaf_node_id.clone()
}
GraphCommitDelta::ReplaceFull(graph) => {
tx.execute("DELETE FROM graph_nodes", [])
.map_err(sqlite_error)?;
for node in &graph.nodes {
let node_json = encode_json(node);
tx.execute(
"INSERT INTO graph_nodes (node_id, node_json) VALUES (?1, ?2)",
params![node.node_id, node_json],
)
.map_err(sqlite_error)?;
}
graph.leaf_node_id.clone()
}
};
let graph_node_count: usize = tx
.query_row(
"SELECT COUNT(*) FROM graph_nodes WHERE tombstoned = 0",
[],
|row| row.get::<_, i64>(0),
)
.map_err(sqlite_error)? as usize;
let next_revision = actual_revision + 1;
let meta = SessionHeadMeta {
session_id: commit.session_id.clone(),
head_revision: next_revision,
config: commit.config.clone(),
agent_frames: commit.agent_frames.clone(),
current_agent_frame_id: commit.current_agent_frame_id.clone(),
checkpoint_ref: Some(stored_checkpoint.checkpoint_ref.clone()),
leaf_node_id,
graph_node_count,
token_ledger: Vec::new(),
};
tx.execute(
"INSERT OR REPLACE INTO session_head (singleton, session_id, head_json, head_revision)
VALUES (1, ?1, ?2, ?3)",
params![
meta.session_id,
encode_json(&meta),
meta.head_revision as i64
],
)
.map_err(sqlite_error)?;
for completed in &commit.completed_queue_claims {
for batch_id in &completed.batch_ids {
tx.execute(
"DELETE FROM queued_work_batches
WHERE session_id = ?1
AND batch_id = ?2
AND claim_id = ?3
AND claim_token = ?4",
params![
completed.session_id,
batch_id,
completed.claim_id,
completed.lease_token
],
)
.map_err(sqlite_error)?;
}
}
if !commit.committed_attachment_ids.is_empty() {
let now = current_epoch_ms() as i64;
let mut stmt = tx
.prepare(
"UPDATE attachment_manifest
SET committed_at_ms = COALESCE(committed_at_ms, ?1)
WHERE attachment_id = ?2 AND session_id = ?3",
)
.map_err(sqlite_error)?;
for id in &commit.committed_attachment_ids {
stmt.execute(params![now, id.as_str(), commit.session_id])
.map_err(sqlite_error)?;
}
}
let result = RuntimeCommitResult {
head_revision: next_revision,
checkpoint_ref: stored_checkpoint.checkpoint_ref,
manifest: stored_checkpoint.manifest,
};
if let Some(completed) = &commit.turn_commit {
tx.execute(
"INSERT INTO runtime_turn_commits (
session_id, turn_id, turn_commit_hash, result_json, committed_at_ms
)
VALUES (?1, ?2, ?3, ?4, ?5)",
params![
completed.session_id,
completed.turn_id,
completed.turn_commit_hash,
encode_json(&result),
current_epoch_ms() as i64
],
)
.map_err(sqlite_error)?;
}
Ok(result)
})();
// Roll back on a `StoreError` so a failure after the first
// write (e.g. a head-revision conflict surfaced mid-commit, or a
// backend write error) does not leave the partial transaction
// committed, while still carrying the typed error to the caller.
match outcome {
Ok(value) => Ok(TxOutcome::Commit(Ok(value))),
Err(err) => Ok(TxOutcome::Rollback(Err(err))),
}
})
.await
.map_err(sqlite_error)??;
self.maybe_auto_gc().await;
Ok(result)
}
async fn enqueue_queued_work(
&self,
batch: QueuedWorkBatchDraft,
) -> Result<QueuedWorkBatch, StoreError> {
let nonce = self.commit_count.fetch_add(1, AtomicOrdering::Relaxed);
self.conn
.write_flow(move |tx| {
let outcome: Result<QueuedWorkBatch, StoreError> = (|| {
if let Some(source_key) = batch.source_key.as_deref() {
let existing_id: Option<String> = tx
.query_row(
"SELECT batch_id
FROM queued_work_batches
WHERE session_id = ?1 AND source_key = ?2",
params![batch.session_id, source_key],
|row| row.get(0),
)
.optional()
.map_err(sqlite_error)?;
if let Some(batch_id) = existing_id {
let existing = load_queued_batch_by_id_conn(tx, &batch_id)?
.ok_or_else(|| {
StoreError::Backend(
"queued work source row disappeared".to_string(),
)
})?;
return Ok(existing);
}
}
let now = current_epoch_ms();
let batch_id = format!(
"qwb:{:x}",
Sha256::digest(
format!("{}:{:?}:{now}:{nonce}", batch.session_id, batch.source_key)
.as_bytes()
)
);
tx.execute(
"INSERT INTO queued_work_batches (
batch_id, session_id, source_key, delivery_policy, slot_policy,
merge_key_json, available_at_ms, enqueued_at_ms
)
VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8)",
params![
batch_id,
batch.session_id,
batch.source_key.as_deref(),
batch.delivery_policy.as_str(),
batch.slot_policy.as_str(),
encode_json(&batch.merge_key),
batch.available_at_ms as i64,
now as i64,
],
)
.map_err(sqlite_error)?;
for (index, payload) in batch.payloads.iter().enumerate() {
let item_id = format!("{batch_id}:item:{index}");
tx.execute(
"INSERT INTO queued_work_items (batch_id, item_index, item_id, payload_json)
VALUES (?1, ?2, ?3, ?4)",
params![batch_id, index as i64, item_id, encode_json(payload)],
)
.map_err(sqlite_error)?;
}
load_queued_batch_by_id_conn(tx, &batch_id)?.ok_or_else(|| {
StoreError::Backend("queued work insert disappeared".to_string())
})
})();
// Roll back the partially-inserted batch/items on a
// `StoreError` while still returning the typed error.
match outcome {
Ok(value) => Ok(TxOutcome::Commit(Ok(value))),
Err(err) => Ok(TxOutcome::Rollback(Err(err))),
}
})
.await
.map_err(sqlite_error)?
}
async fn claim_ready_queued_work(
&self,
session_id: &str,
owner_id: &str,
boundary: QueuedWorkClaimBoundary,
lease_ttl_ms: u64,
max_batches: usize,
) -> Result<Option<QueuedWorkClaim>, StoreError> {
if max_batches == 0 {
return Ok(None);
}
let session_id = session_id.to_string();
let owner_id = owner_id.to_string();
self.conn
.write_flow(move |tx| {
let outcome: Result<TxOutcome<Option<QueuedWorkClaim>>, StoreError> = (|| {
let now = current_epoch_ms();
let candidate_rows = {
let mut stmt = tx
.prepare(
"SELECT enqueue_seq, batch_id, session_id, source_key, delivery_policy,
slot_policy, merge_key_json, available_at_ms, enqueued_at_ms,
claim_fencing_token
FROM queued_work_batches
WHERE session_id = ?1
AND available_at_ms <= ?2
AND (claim_token IS NULL OR claim_expires_at_ms <= ?2)
ORDER BY enqueue_seq ASC
LIMIT ?3",
)
.map_err(sqlite_error)?;
let rows = stmt
.query_map(
params![
session_id,
now as i64,
(max_batches as i64).saturating_add(32)
],
queued_batch_row_from_sql,
)
.map_err(sqlite_error)?;
rows.collect::<Result<Vec<_>, _>>().map_err(sqlite_error)?
};
let Some(first_row) = candidate_rows.first() else {
return Ok(TxOutcome::Commit(None));
};
let first_delivery = decode_delivery_policy(first_row.delivery_policy.clone())?;
if boundary == QueuedWorkClaimBoundary::ActiveTurnCheckpoint
&& first_delivery != DeliveryPolicy::EarliestSafeBoundary
{
return Ok(TxOutcome::Commit(None));
}
let first_slot = decode_slot_policy(first_row.slot_policy.clone())?;
let first_merge_key = decode_merge_key(first_row.merge_key_json.clone())?;
let mut selected = Vec::new();
for row in candidate_rows {
if selected.len() >= max_batches {
break;
}
let delivery = decode_delivery_policy(row.delivery_policy.clone())?;
let slot = decode_slot_policy(row.slot_policy.clone())?;
let merge_key = decode_merge_key(row.merge_key_json.clone())?;
if selected.is_empty() {
selected.push(row);
if first_slot == SlotPolicy::Exclusive {
break;
}
continue;
}
if first_slot != SlotPolicy::Join
|| slot != SlotPolicy::Join
|| delivery != first_delivery
|| merge_key != first_merge_key
{
break;
}
selected.push(row);
}
let Some(first) = selected.first() else {
return Ok(TxOutcome::Commit(None));
};
let fencing_token = first.claim_fencing_token.saturating_add(1);
let claim_id = format!("qwc:{}:{fencing_token}", first.enqueue_seq);
let lease_token = format!(
"{:x}",
Sha256::digest(
format!("{session_id}:{owner_id}:{claim_id}:{now}").as_bytes()
)
);
let expires_at = now.saturating_add(lease_ttl_ms);
for row in &selected {
// Under `BEGIN IMMEDIATE` this connection already holds
// the write lock, but the row could still have been
// claimed by an earlier committed writer (its
// `claim_token` set and not yet expired). The `WHERE`
// clause filters those out, so a 0-row update means we
// lost the race for this batch: treat the whole claim as
// not-won rather than returning a claim that doesn't
// actually own the row.
let claimed = tx
.execute(
"UPDATE queued_work_batches
SET claim_id = ?3,
claim_owner_id = ?4,
claim_token = ?5,
claim_fencing_token = claim_fencing_token + 1,
claim_claimed_at_ms = ?6,
claim_expires_at_ms = ?7
WHERE session_id = ?1
AND batch_id = ?2
AND (claim_token IS NULL OR claim_expires_at_ms <= ?6)",
params![
session_id,
row.batch_id,
claim_id,
owner_id,
lease_token,
now as i64,
expires_at as i64
],
)
.map_err(sqlite_error)?;
if claimed == 0 {
// Lost the race for this batch. Roll back any sibling
// rows we already claimed in this transaction so we
// never return a half-owned claim.
return Ok(TxOutcome::Rollback(None));
}
}
let mut batches = Vec::new();
for row in selected {
batches.push(queued_work_batch_from_conn(tx, row)?);
}
Ok(TxOutcome::Commit(Some(QueuedWorkClaim {
session_id: session_id.clone(),
claim_id,
owner_id: owner_id.clone(),
lease_token,
fencing_token,
claimed_at_epoch_ms: now,
expires_at_epoch_ms: expires_at,
batches,
})))
})();
// Lower a `StoreError` into the rollback arm so the closure body
// can keep using `?` while still propagating the error to the
// caller. Encode it as a `Result` carried out of the flow.
match outcome {
Ok(TxOutcome::Commit(value)) => Ok(TxOutcome::Commit(Ok(value))),
Ok(TxOutcome::Rollback(value)) => Ok(TxOutcome::Rollback(Ok(value))),
Err(err) => Ok(TxOutcome::Rollback(Err(err))),
}
})
.await
.map_err(sqlite_error)?
}
async fn renew_queued_work_claim(
&self,
claim: &QueuedWorkClaim,
lease_ttl_ms: u64,
) -> Result<QueuedWorkClaim, StoreError> {
let now = current_epoch_ms();
let expires_at = now.saturating_add(lease_ttl_ms);
let session_id = claim.session_id.clone();
let claim_id = claim.claim_id.clone();
let lease_token = claim.lease_token.clone();
let batch_count = claim.batches.len();
let changed = self
.conn
.write(move |tx| {
tx.execute(
"UPDATE queued_work_batches
SET claim_expires_at_ms = ?4
WHERE session_id = ?1 AND claim_id = ?2 AND claim_token = ?3",
params![session_id, claim_id, lease_token, expires_at as i64],
)
})
.await
.map_err(sqlite_error)?;
if changed != batch_count {
return Err(StoreError::QueuedWorkClaimExpired {
session_id: claim.session_id.clone(),
claim_id: claim.claim_id.clone(),
});
}
Ok(QueuedWorkClaim {
expires_at_epoch_ms: expires_at,
..claim.clone()
})
}
async fn abandon_queued_work_claim(&self, claim: &QueuedWorkClaim) -> Result<(), StoreError> {
let session_id = claim.session_id.clone();
let claim_id = claim.claim_id.clone();
let lease_token = claim.lease_token.clone();
self.conn
.write(move |tx| {
tx.execute(
"UPDATE queued_work_batches
SET claim_id = NULL,
claim_owner_id = NULL,
claim_token = NULL,
claim_claimed_at_ms = 0,
claim_expires_at_ms = 0
WHERE session_id = ?1 AND claim_id = ?2 AND claim_token = ?3",
params![session_id, claim_id, lease_token],
)
})
.await
.map_err(sqlite_error)?;
Ok(())
}
async fn cancel_queued_work_batch(
&self,
session_id: &str,
batch_id: &str,
) -> Result<Option<QueuedWorkBatch>, StoreError> {
let session_id = session_id.to_string();
let batch_id = batch_id.to_string();
self.conn
.write_flow(move |tx| {
let outcome: Result<Option<QueuedWorkBatch>, StoreError> = (|| {
let now = current_epoch_ms() as i64;
let row = tx
.query_row(
"SELECT enqueue_seq, batch_id, session_id, source_key, delivery_policy,
slot_policy, merge_key_json, available_at_ms, enqueued_at_ms,
claim_fencing_token
FROM queued_work_batches
WHERE session_id = ?1
AND batch_id = ?2
AND (claim_token IS NULL OR claim_expires_at_ms <= ?3)",
params![session_id, batch_id, now],
queued_batch_row_from_sql,
)
.optional()
.map_err(sqlite_error)?;
let Some(row) = row else {
return Ok(None);
};
let batch = queued_work_batch_from_conn(tx, row)?;
tx.execute(
"DELETE FROM queued_work_batches
WHERE session_id = ?1
AND batch_id = ?2
AND (claim_token IS NULL OR claim_expires_at_ms <= ?3)",
params![session_id, batch_id, now],
)
.map_err(sqlite_error)?;
Ok(Some(batch))
})();
match outcome {
Ok(value) => Ok(TxOutcome::Commit(Ok(value))),
Err(err) => Ok(TxOutcome::Rollback(Err(err))),
}
})
.await
.map_err(sqlite_error)?
}
async fn list_queued_work(&self, session_id: &str) -> Result<Vec<QueuedWorkBatch>, StoreError> {
let session_id = session_id.to_string();
self.conn
.call(move |conn| {
let outcome: Result<Vec<QueuedWorkBatch>, StoreError> = (|| {
let rows = {
let mut stmt = conn
.prepare(
"SELECT enqueue_seq, batch_id, session_id, source_key, delivery_policy,
slot_policy, merge_key_json, available_at_ms, enqueued_at_ms,
claim_fencing_token
FROM queued_work_batches
WHERE session_id = ?1
ORDER BY enqueue_seq ASC",
)
.map_err(sqlite_error)?;
let rows = stmt
.query_map(params![session_id], queued_batch_row_from_sql)
.map_err(sqlite_error)?;
rows.collect::<Result<Vec<_>, _>>().map_err(sqlite_error)?
};
rows.into_iter()
.map(|row| queued_work_batch_from_conn(conn, row))
.collect()
})();
Ok(outcome)
})
.await
.map_err(sqlite_error)?
}
async fn list_pending_queued_work(
&self,
session_id: &str,
) -> Result<Vec<QueuedWorkBatch>, StoreError> {
let session_id = session_id.to_string();
self.conn
.call(move |conn| {
let outcome: Result<Vec<QueuedWorkBatch>, StoreError> = (|| {
let now = current_epoch_ms();
let rows = {
let mut stmt = conn
.prepare(
"SELECT enqueue_seq, batch_id, session_id, source_key, delivery_policy,
slot_policy, merge_key_json, available_at_ms, enqueued_at_ms,
claim_fencing_token
FROM queued_work_batches
WHERE session_id = ?1
AND (claim_token IS NULL OR claim_expires_at_ms <= ?2)
ORDER BY enqueue_seq ASC",
)
.map_err(sqlite_error)?;
let rows = stmt
.query_map(
params![session_id, now as i64],
queued_batch_row_from_sql,
)
.map_err(sqlite_error)?;
rows.collect::<Result<Vec<_>, _>>().map_err(sqlite_error)?
};
rows.into_iter()
.map(|row| queued_work_batch_from_conn(conn, row))
.collect()
})();
Ok(outcome)
})
.await
.map_err(sqlite_error)?
}
async fn save_session_meta(&self, meta: SessionMeta) -> Result<(), StoreError> {
Store::save_session_meta(self, meta).await;
Ok(())
}
async fn load_session_meta(&self) -> Result<Option<SessionMeta>, StoreError> {
Ok(Store::load_session_meta(self).await)
}
async fn tombstone_nodes(&self, ids: &[String]) -> Result<(), StoreError> {
if ids.is_empty() {
return Ok(());
}
let ids = ids.to_vec();
self.conn
.write(move |tx| {
let mut stmt =
tx.prepare("UPDATE graph_nodes SET tombstoned = 1 WHERE node_id = ?1")?;
for id in &ids {
stmt.execute(params![id])?;
}
Ok(())
})
.await
.map_err(sqlite_error)
}
async fn vacuum(&self) -> Result<VacuumReport, StoreError> {
let removed = self
.conn
.write(move |tx| tx.execute("DELETE FROM graph_nodes WHERE tombstoned = 1", []))
.await
.map_err(sqlite_error)?;
Ok(VacuumReport {
removed_node_count: removed,
})
}
async fn gc_unreachable(&self) -> Result<GcReport, StoreError> {
Ok(Store::gc_unreachable(self).await)
}
}