use std::collections::HashMap;
use std::sync::Arc;
use std::sync::Mutex as StdMutex;
use indexmap::IndexMap;
use meerkat_core::lifecycle::{InputId, RunBoundaryReceipt, RunId};
#[cfg(not(target_arch = "wasm32"))]
use tokio::sync::Mutex;
#[cfg(target_arch = "wasm32")]
use tokio_with_wasm::alias::sync::Mutex;
use super::{
AuthOAuthFlowSnapshotUpdate, MachineLifecycleCommit, MachineLifecycleSnapshot,
MachineLifecycleStoreRecord, RuntimeStore, RuntimeStoreError, SessionDelta,
};
use crate::identifiers::LogicalRuntimeId;
use crate::input_state::{InputStatePersistenceRecord, StoredInputState};
use crate::ops_lifecycle::PersistedOpsSnapshot;
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
struct ReceiptKey {
runtime_id: String,
run_id: RunId,
sequence: u64,
}
#[derive(Debug, Default)]
struct Inner {
input_states: HashMap<String, IndexMap<InputId, StoredInputState>>,
receipts: HashMap<ReceiptKey, RunBoundaryReceipt>,
sessions: HashMap<String, Vec<u8>>,
runtime_lifecycle: HashMap<String, MachineLifecycleSnapshot>,
ops_lifecycle_snapshots: HashMap<String, PersistedOpsSnapshot>,
}
#[derive(Debug, Clone)]
pub struct InMemoryRuntimeStore {
inner: Arc<Mutex<Inner>>,
auth_oauth_flow_snapshot: Arc<StdMutex<Option<Vec<u8>>>>,
}
impl InMemoryRuntimeStore {
pub fn new() -> Self {
Self {
inner: Arc::new(Mutex::new(Inner::default())),
auth_oauth_flow_snapshot: Arc::new(StdMutex::new(None)),
}
}
}
impl Default for InMemoryRuntimeStore {
fn default() -> Self {
Self::new()
}
}
fn is_runtime_placeholder_session(session: &meerkat_core::Session) -> bool {
session.transcript_history_state().ok().flatten().is_none()
&& matches!(
session.messages(),
[] | [meerkat_core::types::Message::System(_)]
)
}
#[cfg_attr(not(target_arch = "wasm32"), async_trait::async_trait)]
#[cfg_attr(target_arch = "wasm32", async_trait::async_trait(?Send))]
impl RuntimeStore for InMemoryRuntimeStore {
fn persist_auth_oauth_flow_snapshot(
&self,
snapshot_json: &[u8],
) -> Result<(), RuntimeStoreError> {
*self
.auth_oauth_flow_snapshot
.lock()
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))? =
Some(snapshot_json.to_vec());
Ok(())
}
fn load_auth_oauth_flow_snapshot(&self) -> Result<Option<Vec<u8>>, RuntimeStoreError> {
self.auth_oauth_flow_snapshot
.lock()
.map(|snapshot| snapshot.clone())
.map_err(|err| RuntimeStoreError::ReadFailed(err.to_string()))
}
fn update_auth_oauth_flow_snapshot(
&self,
update: &mut AuthOAuthFlowSnapshotUpdate<'_>,
) -> Result<(), RuntimeStoreError> {
let mut snapshot = self
.auth_oauth_flow_snapshot
.lock()
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))?;
let next = update(snapshot.as_deref())?;
*snapshot = Some(next);
Ok(())
}
async fn commit_session_snapshot(
&self,
runtime_id: &LogicalRuntimeId,
session_delta: SessionDelta,
) -> Result<(), RuntimeStoreError> {
let incoming: meerkat_core::Session =
serde_json::from_slice(&session_delta.session_snapshot)
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))?;
let mut inner = self.inner.lock().await;
let previous = inner
.sessions
.get(&runtime_id.0)
.map(|snapshot| {
serde_json::from_slice::<meerkat_core::Session>(snapshot)
.map_err(|err| RuntimeStoreError::ReadFailed(err.to_string()))
})
.transpose()?;
meerkat_core::session_store::run_boundary_snapshot_save_guard(&incoming, previous.as_ref())
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))?;
inner
.sessions
.insert(runtime_id.0.clone(), session_delta.session_snapshot);
Ok(())
}
async fn commit_session_transcript_rewrite_snapshot(
&self,
runtime_id: &LogicalRuntimeId,
session_delta: SessionDelta,
commit: &meerkat_core::TranscriptRewriteCommit,
) -> Result<(), RuntimeStoreError> {
let incoming: meerkat_core::Session =
serde_json::from_slice(&session_delta.session_snapshot)
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))?;
let mut inner = self.inner.lock().await;
let previous = inner
.sessions
.get(&runtime_id.0)
.map(|snapshot| {
serde_json::from_slice::<meerkat_core::Session>(snapshot)
.map_err(|err| RuntimeStoreError::ReadFailed(err.to_string()))
})
.transpose()?;
meerkat_core::session_store::transcript_rewrite_save_guard(
&incoming,
previous.as_ref(),
commit,
)
.map_err(|err| match err {
meerkat_core::SessionStoreError::TranscriptRevisionConflict {
expected,
actual,
..
} => RuntimeStoreError::TranscriptRevisionConflict { expected, actual },
other => RuntimeStoreError::WriteFailed(other.to_string()),
})?;
inner
.sessions
.insert(runtime_id.0.clone(), session_delta.session_snapshot);
Ok(())
}
async fn atomic_apply(
&self,
runtime_id: &LogicalRuntimeId,
session_delta: Option<SessionDelta>,
receipt: RunBoundaryReceipt,
input_updates: Vec<InputStatePersistenceRecord>,
session_store_key: Option<meerkat_core::types::SessionId>,
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
let rid = runtime_id.0.clone();
if let Some(delta) = session_delta {
let incoming_session =
serde_json::from_slice::<meerkat_core::Session>(&delta.session_snapshot);
let mut persist_session_snapshot = true;
match (incoming_session, session_store_key) {
(Ok(incoming_session), session_store_key) => {
if let Some(session_store_key) = session_store_key
&& incoming_session.id() != &session_store_key
{
return Err(RuntimeStoreError::SessionKeyMismatch {
expected: session_store_key,
actual: incoming_session.id().clone(),
});
}
let previous_session = inner.sessions.get(&rid).and_then(|snapshot| {
serde_json::from_slice::<meerkat_core::Session>(snapshot).ok()
});
if let Err(err) = meerkat_core::session_store::run_boundary_snapshot_save_guard(
&incoming_session,
previous_session.as_ref(),
) {
if previous_session
.as_ref()
.is_some_and(is_runtime_placeholder_session)
{
persist_session_snapshot = true;
} else if previous_session.as_ref().is_some_and(|previous_session| {
meerkat_core::session_store::run_boundary_snapshot_save_guard(
previous_session,
Some(&incoming_session),
)
.is_ok()
}) {
persist_session_snapshot = false;
} else {
return Err(RuntimeStoreError::WriteFailed(err.to_string()));
}
}
}
(Err(err), Some(session_store_key)) => {
return Err(RuntimeStoreError::WriteFailed(format!(
"session snapshot for {session_store_key} is not a Session: {err}"
)));
}
(Err(_), None) => {}
}
if persist_session_snapshot {
inner.sessions.insert(rid.clone(), delta.session_snapshot);
}
}
let key = ReceiptKey {
runtime_id: rid.clone(),
run_id: receipt.run_id.clone(),
sequence: receipt.sequence,
};
inner.receipts.insert(key, receipt);
let states = inner.input_states.entry(rid).or_default();
for record in input_updates {
let bundle = record.into_stored();
states.insert(bundle.state.input_id.clone(), bundle);
}
Ok(())
}
async fn load_input_states(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<Vec<StoredInputState>, RuntimeStoreError> {
let inner = self.inner.lock().await;
let states = inner
.input_states
.get(&runtime_id.0)
.map(|m| m.values().cloned().collect())
.unwrap_or_default();
Ok(states)
}
async fn load_boundary_receipt(
&self,
runtime_id: &LogicalRuntimeId,
run_id: &RunId,
sequence: u64,
) -> Result<Option<RunBoundaryReceipt>, RuntimeStoreError> {
let inner = self.inner.lock().await;
let key = ReceiptKey {
runtime_id: runtime_id.0.clone(),
run_id: run_id.clone(),
sequence,
};
Ok(inner.receipts.get(&key).cloned())
}
async fn load_session_snapshot(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<Option<Vec<u8>>, RuntimeStoreError> {
let inner = self.inner.lock().await;
Ok(inner.sessions.get(&runtime_id.0).cloned())
}
async fn clear_session_snapshot(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
inner.sessions.remove(&runtime_id.0);
Ok(())
}
async fn replace_session_snapshot_if_current(
&self,
runtime_id: &LogicalRuntimeId,
expected_current: &[u8],
replacement: Vec<u8>,
) -> Result<bool, RuntimeStoreError> {
let _: meerkat_core::Session = serde_json::from_slice(&replacement)
.map_err(|err| RuntimeStoreError::WriteFailed(err.to_string()))?;
let mut inner = self.inner.lock().await;
let Some(current) = inner.sessions.get_mut(&runtime_id.0) else {
return Ok(false);
};
if current.as_slice() != expected_current {
return Ok(false);
}
*current = replacement;
Ok(true)
}
async fn clear_session_snapshot_if_current(
&self,
runtime_id: &LogicalRuntimeId,
expected_current: &[u8],
) -> Result<bool, RuntimeStoreError> {
let mut inner = self.inner.lock().await;
let Some(current) = inner.sessions.get(&runtime_id.0) else {
return Ok(false);
};
if current.as_slice() != expected_current {
return Ok(false);
}
inner.sessions.remove(&runtime_id.0);
Ok(true)
}
async fn persist_input_state(
&self,
runtime_id: &LogicalRuntimeId,
state: &InputStatePersistenceRecord,
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
let states = inner.input_states.entry(runtime_id.0.clone()).or_default();
let bundle = state.as_stored();
states.insert(bundle.state.input_id.clone(), bundle.clone());
Ok(())
}
async fn load_input_state(
&self,
runtime_id: &LogicalRuntimeId,
input_id: &InputId,
) -> Result<Option<StoredInputState>, RuntimeStoreError> {
let inner = self.inner.lock().await;
let state = inner
.input_states
.get(&runtime_id.0)
.and_then(|m| m.get(input_id).cloned());
Ok(state)
}
async fn load_machine_lifecycle_record(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<Option<Vec<u8>>, RuntimeStoreError> {
let inner = self.inner.lock().await;
inner
.runtime_lifecycle
.get(&runtime_id.0)
.map(|snapshot| MachineLifecycleStoreRecord::from_snapshot(snapshot).encode())
.transpose()
}
async fn commit_machine_lifecycle(
&self,
runtime_id: &LogicalRuntimeId,
commit: MachineLifecycleCommit,
input_states: &[InputStatePersistenceRecord],
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
let rid = runtime_id.0.clone();
inner
.runtime_lifecycle
.insert(rid.clone(), commit.into_snapshot());
let states = inner.input_states.entry(rid).or_default();
for record in input_states {
let bundle = record.as_stored();
states.insert(bundle.state.input_id.clone(), bundle.clone());
}
Ok(())
}
async fn persist_ops_lifecycle(
&self,
runtime_id: &LogicalRuntimeId,
snapshot: &PersistedOpsSnapshot,
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
inner
.ops_lifecycle_snapshots
.insert(runtime_id.0.clone(), snapshot.clone());
Ok(())
}
async fn load_ops_lifecycle(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<Option<PersistedOpsSnapshot>, RuntimeStoreError> {
let inner = self.inner.lock().await;
Ok(inner.ops_lifecycle_snapshots.get(&runtime_id.0).cloned())
}
async fn delete_ops_lifecycle(
&self,
runtime_id: &LogicalRuntimeId,
) -> Result<(), RuntimeStoreError> {
let mut inner = self.inner.lock().await;
inner.ops_lifecycle_snapshots.remove(&runtime_id.0);
Ok(())
}
}
#[cfg(test)]
#[allow(clippy::unwrap_used)]
mod tests {
use super::*;
use crate::store::MachineLifecycleBindingFacts;
use meerkat_core::lifecycle::run_primitive::RunApplyBoundary;
fn make_receipt(run_id: RunId, seq: u64) -> RunBoundaryReceipt {
RunBoundaryReceipt {
run_id,
boundary: RunApplyBoundary::RunStart,
contributing_input_ids: vec![],
conversation_digest: None,
message_count: 0,
sequence: seq,
}
}
fn persistable(bundle: StoredInputState) -> InputStatePersistenceRecord {
InputStatePersistenceRecord::from_machine_snapshot(bundle).unwrap()
}
fn session_with_user(content: &str) -> meerkat_core::Session {
let mut session = meerkat_core::Session::new();
session.push(meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::text(content.to_string()),
));
session
}
#[tokio::test]
async fn atomic_apply_roundtrip() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("test-runtime");
let run_id = RunId::new();
let input_id = InputId::new();
let bundle = StoredInputState::new_accepted(input_id.clone());
let receipt = make_receipt(run_id.clone(), 0);
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: b"session-data".to_vec(),
}),
receipt.clone(),
vec![persistable(bundle)],
None,
)
.await
.unwrap();
let states = store.load_input_states(&rid).await.unwrap();
assert_eq!(states.len(), 1);
assert_eq!(states[0].state.input_id, input_id);
let loaded = store.load_boundary_receipt(&rid, &run_id, 0).await.unwrap();
assert!(loaded.is_some());
}
#[tokio::test]
async fn persist_and_load_single_state() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("test");
let input_id = InputId::new();
let bundle = StoredInputState::new_accepted(input_id.clone());
store
.persist_input_state(&rid, &persistable(bundle))
.await
.unwrap();
let loaded = store.load_input_state(&rid, &input_id).await.unwrap();
assert!(loaded.is_some());
assert_eq!(loaded.unwrap().state.input_id, input_id);
}
#[tokio::test]
async fn load_nonexistent_returns_none() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("test");
let states = store.load_input_states(&rid).await.unwrap();
assert!(states.is_empty());
let state = store.load_input_state(&rid, &InputId::new()).await.unwrap();
assert!(state.is_none());
let receipt = store
.load_boundary_receipt(&rid, &RunId::new(), 0)
.await
.unwrap();
assert!(receipt.is_none());
}
#[tokio::test]
async fn atomic_apply_updates_existing() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("test");
let input_id = InputId::new();
let bundle1 = StoredInputState::new_accepted(input_id.clone());
store
.atomic_apply(
&rid,
None,
make_receipt(RunId::new(), 0),
vec![persistable(bundle1)],
None,
)
.await
.unwrap();
let mut bundle2 = StoredInputState::new_accepted(input_id.clone());
bundle2.seed.phase = crate::input_state::InputLifecycleState::Queued;
store
.atomic_apply(
&rid,
None,
make_receipt(RunId::new(), 1),
vec![persistable(bundle2)],
None,
)
.await
.unwrap();
let states = store.load_input_states(&rid).await.unwrap();
assert_eq!(states.len(), 1);
assert_eq!(
states[0].seed.phase,
crate::input_state::InputLifecycleState::Queued
);
}
#[tokio::test]
async fn atomic_apply_validates_session_store_key_without_aliasing_snapshot() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-key");
let session = meerkat_core::Session::new();
let session_id = session.id().clone();
let snapshot = serde_json::to_vec(&session).unwrap();
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: snapshot.clone(),
}),
make_receipt(RunId::new(), 0),
vec![],
Some(session_id.clone()),
)
.await
.unwrap();
assert_eq!(
store.load_session_snapshot(&rid).await.unwrap(),
Some(snapshot)
);
assert!(
store
.load_session_snapshot(&LogicalRuntimeId::legacy_session_uuid_alias(&session_id))
.await
.unwrap()
.is_none(),
"session_store_key must validate the snapshot identity, not create a raw UUID runtime alias"
);
}
#[tokio::test]
async fn atomic_apply_rejects_mismatched_session_store_key() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-key");
let session = meerkat_core::Session::new();
let wrong_session_id = meerkat_core::Session::new().id().clone();
let snapshot = serde_json::to_vec(&session).unwrap();
let err = store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: snapshot,
}),
make_receipt(RunId::new(), 0),
vec![],
Some(wrong_session_id),
)
.await
.expect_err("mismatched session_store_key should fail");
assert!(matches!(err, RuntimeStoreError::SessionKeyMismatch { .. }));
assert!(store.load_session_snapshot(&rid).await.unwrap().is_none());
}
#[tokio::test]
async fn atomic_apply_persists_machine_owned_receipt() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("test");
let run_id = RunId::new();
let input_id = InputId::new();
let session = meerkat_core::Session::new();
let snapshot = serde_json::to_vec(&session).unwrap();
let receipt = RunBoundaryReceipt {
run_id: run_id.clone(),
boundary: RunApplyBoundary::Immediate,
contributing_input_ids: vec![input_id.clone()],
conversation_digest: Some("machine-owned-digest".to_string()),
message_count: 42,
sequence: 7,
};
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: snapshot,
}),
receipt.clone(),
vec![persistable(StoredInputState::new_accepted(input_id))],
None,
)
.await
.unwrap();
assert_eq!(receipt.run_id, run_id);
assert!(receipt.conversation_digest.is_some());
let loaded = store
.load_boundary_receipt(&rid, &receipt.run_id, receipt.sequence)
.await
.unwrap();
assert!(loaded.is_some(), "receipt should be persisted");
let Some(loaded) = loaded else {
unreachable!("asserted above");
};
assert_eq!(loaded, receipt);
}
#[tokio::test]
async fn multiple_runtimes_isolated() {
let store = InMemoryRuntimeStore::new();
let rid1 = LogicalRuntimeId::new("runtime-1");
let rid2 = LogicalRuntimeId::new("runtime-2");
store
.persist_input_state(
&rid1,
&persistable(StoredInputState::new_accepted(InputId::new())),
)
.await
.unwrap();
store
.persist_input_state(
&rid2,
&persistable(StoredInputState::new_accepted(InputId::new())),
)
.await
.unwrap();
store
.persist_input_state(
&rid2,
&persistable(StoredInputState::new_accepted(InputId::new())),
)
.await
.unwrap();
let s1 = store.load_input_states(&rid1).await.unwrap();
let s2 = store.load_input_states(&rid2).await.unwrap();
assert_eq!(s1.len(), 1);
assert_eq!(s2.len(), 2);
}
#[tokio::test]
async fn load_session_snapshot_roundtrip() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime");
let snapshot = serde_json::to_vec(&meerkat_core::Session::new()).unwrap();
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: snapshot.clone(),
}),
make_receipt(RunId::new(), 0),
vec![],
None,
)
.await
.unwrap();
let loaded = store.load_session_snapshot(&rid).await.unwrap();
assert_eq!(loaded, Some(snapshot));
}
#[tokio::test]
async fn commit_session_snapshot_rejects_stale_runtime_parent() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-stale-parent");
let accepted = session_with_user("accepted runtime turn");
let mut stale = meerkat_core::Session::with_id(accepted.id().clone());
stale.push(meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::text("stale runtime turn".to_string()),
));
let accepted_snapshot = serde_json::to_vec(&accepted).unwrap();
store
.commit_session_snapshot(
&rid,
SessionDelta {
session_snapshot: accepted_snapshot.clone(),
},
)
.await
.unwrap();
let err = store
.commit_session_snapshot(
&rid,
SessionDelta {
session_snapshot: serde_json::to_vec(&stale).unwrap(),
},
)
.await
.expect_err("stale non-continuation must not overwrite runtime snapshot");
assert!(matches!(err, RuntimeStoreError::WriteFailed(_)));
assert_eq!(
store.load_session_snapshot(&rid).await.unwrap(),
Some(accepted_snapshot)
);
}
#[tokio::test]
async fn atomic_apply_keeps_current_snapshot_when_incoming_is_superseded() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-superseded-terminal");
let incoming = session_with_user("turn input");
let mut current = incoming.clone();
current.push(meerkat_core::types::Message::Assistant(
meerkat_core::types::AssistantMessage {
content: "peer response already applied".to_string(),
tool_calls: Vec::new(),
stop_reason: meerkat_core::types::StopReason::EndTurn,
usage: meerkat_core::types::Usage::default(),
created_at: meerkat_core::types::message_timestamp_now(),
},
));
let current_snapshot = serde_json::to_vec(¤t).unwrap();
let receipt = make_receipt(RunId::new(), 11);
store
.commit_session_snapshot(
&rid,
SessionDelta {
session_snapshot: current_snapshot.clone(),
},
)
.await
.unwrap();
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: serde_json::to_vec(&incoming).unwrap(),
}),
receipt.clone(),
vec![],
Some(incoming.id().clone()),
)
.await
.unwrap();
assert_eq!(
store.load_session_snapshot(&rid).await.unwrap(),
Some(current_snapshot)
);
assert_eq!(
store
.load_boundary_receipt(&rid, &receipt.run_id, receipt.sequence)
.await
.unwrap(),
Some(receipt)
);
}
#[tokio::test]
async fn atomic_apply_allows_first_generated_snapshot_after_placeholder() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-placeholder");
let mut placeholder = meerkat_core::Session::new();
placeholder.set_system_prompt("base system".to_string());
let mut incoming = meerkat_core::Session::with_id(placeholder.id().clone());
incoming.set_system_prompt("base system".to_string());
incoming.push(meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::text("verbose first turn".to_string()),
));
let parent_revision = incoming.transcript_revision().unwrap();
incoming
.commit_transcript_rewrite(
meerkat_core::TranscriptRewriteSelection::MessageRange { start: 1, end: 2 },
vec![meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::compaction_summary(
"[Context compacted] first turn",
),
)],
meerkat_core::TranscriptRewriteReason::new("compaction"),
Some("meerkat-core".to_string()),
Some(parent_revision),
)
.unwrap();
let incoming_snapshot = serde_json::to_vec(&incoming).unwrap();
let receipt = make_receipt(RunId::new(), 12);
store
.commit_session_snapshot(
&rid,
SessionDelta {
session_snapshot: serde_json::to_vec(&placeholder).unwrap(),
},
)
.await
.unwrap();
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: incoming_snapshot.clone(),
}),
receipt.clone(),
vec![],
Some(incoming.id().clone()),
)
.await
.unwrap();
assert_eq!(
store.load_session_snapshot(&rid).await.unwrap(),
Some(incoming_snapshot)
);
assert_eq!(
store
.load_boundary_receipt(&rid, &receipt.run_id, receipt.sequence)
.await
.unwrap(),
Some(receipt)
);
}
#[tokio::test]
async fn atomic_apply_allows_generated_compaction_before_retained_tail() {
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-compaction-tail");
let mut previous = meerkat_core::Session::new();
previous.set_system_prompt("runtime system before context refresh".to_string());
previous.push(meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::text("Turn 1 request".to_string()),
));
previous.push(meerkat_core::types::Message::Assistant(
meerkat_core::types::AssistantMessage {
content: "Turn 1 answer".to_string(),
tool_calls: Vec::new(),
stop_reason: meerkat_core::types::StopReason::EndTurn,
usage: meerkat_core::types::Usage::default(),
created_at: meerkat_core::types::message_timestamp_now(),
},
));
let mut incoming = meerkat_core::Session::with_id(previous.id().clone());
incoming.set_system_prompt("runtime system after context refresh".to_string());
incoming.push(meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::text(
"Verbose context that will be compacted".to_string(),
),
));
for message in previous.messages()[1..].iter().cloned() {
incoming.push(message);
}
incoming.push(meerkat_core::types::Message::Assistant(
meerkat_core::types::AssistantMessage {
content: "Turn 2 generated answer".to_string(),
tool_calls: Vec::new(),
stop_reason: meerkat_core::types::StopReason::EndTurn,
usage: meerkat_core::types::Usage::default(),
created_at: meerkat_core::types::message_timestamp_now(),
},
));
let parent_revision = incoming.transcript_revision().unwrap();
incoming
.commit_transcript_rewrite(
meerkat_core::TranscriptRewriteSelection::MessageRange { start: 1, end: 2 },
vec![meerkat_core::types::Message::User(
meerkat_core::types::UserMessage::compaction_summary(
"[Context compacted] Earlier runtime context".to_string(),
),
)],
meerkat_core::TranscriptRewriteReason::new("compaction"),
Some("meerkat-core".to_string()),
Some(parent_revision),
)
.unwrap();
let incoming_snapshot = serde_json::to_vec(&incoming).unwrap();
let receipt = make_receipt(RunId::new(), 13);
store
.commit_session_snapshot(
&rid,
SessionDelta {
session_snapshot: serde_json::to_vec(&previous).unwrap(),
},
)
.await
.unwrap();
store
.atomic_apply(
&rid,
Some(SessionDelta {
session_snapshot: incoming_snapshot.clone(),
}),
receipt.clone(),
vec![],
Some(incoming.id().clone()),
)
.await
.unwrap();
assert_eq!(
store.load_session_snapshot(&rid).await.unwrap(),
Some(incoming_snapshot)
);
assert_eq!(
store
.load_boundary_receipt(&rid, &receipt.run_id, receipt.sequence)
.await
.unwrap(),
Some(receipt)
);
}
#[tokio::test]
async fn commit_machine_lifecycle_persists_binding_facts() {
use crate::runtime_state::RuntimeState;
let store = InMemoryRuntimeStore::new();
let rid = LogicalRuntimeId::new("runtime-binding");
let binding = MachineLifecycleBindingFacts::new(
Some("rt:session:abc".to_string()),
Some(7),
Some(3),
Some("epoch-1".to_string()),
);
store
.commit_machine_lifecycle(
&rid,
MachineLifecycleCommit::new_with_binding(RuntimeState::Retired, binding.clone()),
&[],
)
.await
.unwrap();
let lifecycle = crate::store::load_machine_lifecycle(&store, &rid)
.await
.unwrap()
.expect("machine lifecycle snapshot");
assert_eq!(lifecycle.runtime_state(), RuntimeState::Retired);
assert_eq!(lifecycle.binding(), &binding);
assert_eq!(
crate::store::load_runtime_state(&store, &rid)
.await
.unwrap(),
Some(RuntimeState::Retired)
);
}
}