feat(persistence): add ORM models, repositories, DB/JSONL event stores, RunJournal, and API endpoints

Phase 2-B: run persistence + event storage + token tracking.

- ORM models: RunRow (with token fields), ThreadMetaRow, RunEventRow
- RunRepository implements RunStore ABC via SQLAlchemy ORM
- ThreadMetaRepository with owner access control
- DbRunEventStore with trace content truncation and cursor pagination
- JsonlRunEventStore with per-run files and seq recovery from disk
- RunJournal (BaseCallbackHandler) captures LLM/tool/lifecycle events,
  accumulates token usage by caller type, buffers and flushes to store
- RunManager now accepts optional RunStore for persistent backing
- Worker creates RunJournal, writes human_message, injects callbacks
- Gateway deps use factory functions (RunRepository when DB available)
- New endpoints: messages, run messages, run events, token-usage
- ThreadCreateRequest gains assistant_id field
- 92 tests pass (33 new), zero regressions

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>

backend/packages/harness/deerflow/runtime/events/store/__init__.py

@@ -1,4 +1,26 @@
 from deerflow.runtime.events.store.base import RunEventStore
 from deerflow.runtime.events.store.memory import MemoryRunEventStore
 
-__all__ = ["MemoryRunEventStore", "RunEventStore"]
+
+def make_run_event_store(config=None) -> RunEventStore:
+    """Create a RunEventStore based on run_events.backend configuration."""
+    if config is None or config.backend == "memory":
+        return MemoryRunEventStore()
+    if config.backend == "db":
+        from deerflow.persistence.engine import get_session_factory
+
+        sf = get_session_factory()
+        if sf is None:
+            # database.backend=memory but run_events.backend=db -> fallback
+            return MemoryRunEventStore()
+        from deerflow.runtime.events.store.db import DbRunEventStore
+
+        return DbRunEventStore(sf, max_trace_content=config.max_trace_content)
+    if config.backend == "jsonl":
+        from deerflow.runtime.events.store.jsonl import JsonlRunEventStore
+
+        return JsonlRunEventStore()
+    raise ValueError(f"Unknown run_events backend: {config.backend!r}")
+
+
+__all__ = ["MemoryRunEventStore", "RunEventStore", "make_run_event_store"]

backend/packages/harness/deerflow/runtime/events/store/db.py

@@ -0,0 +1,148 @@
+"""SQLAlchemy-backed RunEventStore implementation.
+
+Persists events to the ``run_events`` table. Trace content is truncated
+at ``max_trace_content`` bytes to avoid bloating the database.
+"""
+
+from __future__ import annotations
+
+from datetime import UTC, datetime
+
+from sqlalchemy import delete, func, select
+from sqlalchemy.ext.asyncio import AsyncSession, async_sessionmaker
+
+from deerflow.persistence.models.run_event import RunEventRow
+from deerflow.runtime.events.store.base import RunEventStore
+
+
+class DbRunEventStore(RunEventStore):
+    def __init__(self, session_factory: async_sessionmaker[AsyncSession], *, max_trace_content: int = 10240):
+        self._sf = session_factory
+        self._max_trace_content = max_trace_content
+
+    @staticmethod
+    def _row_to_dict(row: RunEventRow) -> dict:
+        d = row.to_dict()
+        d["metadata"] = d.pop("event_metadata", {})
+        val = d.get("created_at")
+        if isinstance(val, datetime):
+            d["created_at"] = val.isoformat()
+        d.pop("id", None)
+        return d
+
+    def _truncate_trace(self, category: str, content: str, metadata: dict | None) -> tuple[str, dict]:
+        if category == "trace" and len(content) > self._max_trace_content:
+            content = content[: self._max_trace_content]
+            metadata = {**(metadata or {}), "content_truncated": True}
+        return content, metadata or {}
+
+    async def put(self, *, thread_id, run_id, event_type, category, content="", metadata=None, created_at=None):
+        content, metadata = self._truncate_trace(category, content, metadata)
+        async with self._sf() as session:
+            max_seq = await session.scalar(select(func.max(RunEventRow.seq)).where(RunEventRow.thread_id == thread_id))
+            seq = (max_seq or 0) + 1
+            row = RunEventRow(
+                thread_id=thread_id,
+                run_id=run_id,
+                event_type=event_type,
+                category=category,
+                content=content,
+                event_metadata=metadata,
+                seq=seq,
+                created_at=datetime.fromisoformat(created_at) if created_at else datetime.now(UTC),
+            )
+            session.add(row)
+            await session.commit()
+            await session.refresh(row)
+            return self._row_to_dict(row)
+
+    async def put_batch(self, events):
+        if not events:
+            return []
+        async with self._sf() as session:
+            # Get max seq for the thread (assume all events in batch belong to same thread)
+            thread_id = events[0]["thread_id"]
+            max_seq = await session.scalar(select(func.max(RunEventRow.seq)).where(RunEventRow.thread_id == thread_id))
+            seq = max_seq or 0
+            rows = []
+            for e in events:
+                seq += 1
+                content = e.get("content", "")
+                category = e.get("category", "trace")
+                metadata = e.get("metadata")
+                content, metadata = self._truncate_trace(category, content, metadata)
+                row = RunEventRow(
+                    thread_id=e["thread_id"],
+                    run_id=e["run_id"],
+                    event_type=e["event_type"],
+                    category=category,
+                    content=content,
+                    event_metadata=metadata,
+                    seq=seq,
+                    created_at=datetime.fromisoformat(e["created_at"]) if e.get("created_at") else datetime.now(UTC),
+                )
+                session.add(row)
+                rows.append(row)
+            await session.commit()
+            for row in rows:
+                await session.refresh(row)
+            return [self._row_to_dict(r) for r in rows]
+
+    async def list_messages(self, thread_id, *, limit=50, before_seq=None, after_seq=None):
+        stmt = select(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.category == "message")
+        if before_seq is not None:
+            stmt = stmt.where(RunEventRow.seq < before_seq)
+        if after_seq is not None:
+            stmt = stmt.where(RunEventRow.seq > after_seq)
+
+        if after_seq is not None:
+            # Forward pagination: first `limit` records after cursor
+            stmt = stmt.order_by(RunEventRow.seq.asc()).limit(limit)
+            async with self._sf() as session:
+                result = await session.execute(stmt)
+                return [self._row_to_dict(r) for r in result.scalars()]
+        else:
+            # before_seq or default (latest): take last `limit` records, return ascending
+            stmt = stmt.order_by(RunEventRow.seq.desc()).limit(limit)
+            async with self._sf() as session:
+                result = await session.execute(stmt)
+                rows = list(result.scalars())
+                return [self._row_to_dict(r) for r in reversed(rows)]
+
+    async def list_events(self, thread_id, run_id, *, event_types=None, limit=500):
+        stmt = select(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.run_id == run_id)
+        if event_types:
+            stmt = stmt.where(RunEventRow.event_type.in_(event_types))
+        stmt = stmt.order_by(RunEventRow.seq.asc()).limit(limit)
+        async with self._sf() as session:
+            result = await session.execute(stmt)
+            return [self._row_to_dict(r) for r in result.scalars()]
+
+    async def list_messages_by_run(self, thread_id, run_id):
+        stmt = select(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.run_id == run_id, RunEventRow.category == "message").order_by(RunEventRow.seq.asc())
+        async with self._sf() as session:
+            result = await session.execute(stmt)
+            return [self._row_to_dict(r) for r in result.scalars()]
+
+    async def count_messages(self, thread_id):
+        stmt = select(func.count()).select_from(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.category == "message")
+        async with self._sf() as session:
+            return await session.scalar(stmt) or 0
+
+    async def delete_by_thread(self, thread_id):
+        async with self._sf() as session:
+            count_stmt = select(func.count()).select_from(RunEventRow).where(RunEventRow.thread_id == thread_id)
+            count = await session.scalar(count_stmt) or 0
+            if count > 0:
+                await session.execute(delete(RunEventRow).where(RunEventRow.thread_id == thread_id))
+                await session.commit()
+            return count
+
+    async def delete_by_run(self, thread_id, run_id):
+        async with self._sf() as session:
+            count_stmt = select(func.count()).select_from(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.run_id == run_id)
+            count = await session.scalar(count_stmt) or 0
+            if count > 0:
+                await session.execute(delete(RunEventRow).where(RunEventRow.thread_id == thread_id, RunEventRow.run_id == run_id))
+                await session.commit()
+            return count

backend/packages/harness/deerflow/runtime/events/store/jsonl.py

@@ -0,0 +1,164 @@
+"""JSONL file-backed RunEventStore implementation.
+
+Each run's events are stored in a single file:
+``.deer-flow/threads/{thread_id}/runs/{run_id}.jsonl``
+
+All categories (message, trace, lifecycle) are in the same file.
+This backend is suitable for lightweight single-node deployments.
+
+Known trade-off: ``list_messages()`` must scan all run files for a
+thread since messages from multiple runs need unified seq ordering.
+``list_events()`` reads only one file -- the fast path.
+"""
+
+from __future__ import annotations
+
+import json
+import logging
+from datetime import UTC, datetime
+from pathlib import Path
+
+from deerflow.runtime.events.store.base import RunEventStore
+
+logger = logging.getLogger(__name__)
+
+
+class JsonlRunEventStore(RunEventStore):
+    def __init__(self, base_dir: str | Path | None = None):
+        self._base_dir = Path(base_dir) if base_dir else Path(".deer-flow")
+        self._seq_counters: dict[str, int] = {}  # thread_id -> current max seq
+
+    def _thread_dir(self, thread_id: str) -> Path:
+        return self._base_dir / "threads" / thread_id / "runs"
+
+    def _run_file(self, thread_id: str, run_id: str) -> Path:
+        return self._thread_dir(thread_id) / f"{run_id}.jsonl"
+
+    def _next_seq(self, thread_id: str) -> int:
+        self._seq_counters[thread_id] = self._seq_counters.get(thread_id, 0) + 1
+        return self._seq_counters[thread_id]
+
+    def _ensure_seq_loaded(self, thread_id: str) -> None:
+        """Load max seq from existing files if not yet cached."""
+        if thread_id in self._seq_counters:
+            return
+        max_seq = 0
+        thread_dir = self._thread_dir(thread_id)
+        if thread_dir.exists():
+            for f in thread_dir.glob("*.jsonl"):
+                for line in f.read_text(encoding="utf-8").strip().splitlines():
+                    try:
+                        record = json.loads(line)
+                        max_seq = max(max_seq, record.get("seq", 0))
+                    except json.JSONDecodeError:
+                        continue
+        self._seq_counters[thread_id] = max_seq
+
+    def _write_record(self, record: dict) -> None:
+        path = self._run_file(record["thread_id"], record["run_id"])
+        path.parent.mkdir(parents=True, exist_ok=True)
+        with open(path, "a", encoding="utf-8") as f:
+            f.write(json.dumps(record, default=str, ensure_ascii=False) + "\n")
+
+    def _read_thread_events(self, thread_id: str) -> list[dict]:
+        """Read all events for a thread, sorted by seq."""
+        events = []
+        thread_dir = self._thread_dir(thread_id)
+        if not thread_dir.exists():
+            return events
+        for f in sorted(thread_dir.glob("*.jsonl")):
+            for line in f.read_text(encoding="utf-8").strip().splitlines():
+                if not line:
+                    continue
+                try:
+                    events.append(json.loads(line))
+                except json.JSONDecodeError:
+                    continue
+        events.sort(key=lambda e: e.get("seq", 0))
+        return events
+
+    def _read_run_events(self, thread_id: str, run_id: str) -> list[dict]:
+        """Read events for a specific run file."""
+        path = self._run_file(thread_id, run_id)
+        if not path.exists():
+            return []
+        events = []
+        for line in path.read_text(encoding="utf-8").strip().splitlines():
+            if not line:
+                continue
+            try:
+                events.append(json.loads(line))
+            except json.JSONDecodeError:
+                continue
+        events.sort(key=lambda e: e.get("seq", 0))
+        return events
+
+    async def put(self, *, thread_id, run_id, event_type, category, content="", metadata=None, created_at=None):
+        self._ensure_seq_loaded(thread_id)
+        seq = self._next_seq(thread_id)
+        record = {
+            "thread_id": thread_id,
+            "run_id": run_id,
+            "event_type": event_type,
+            "category": category,
+            "content": content,
+            "metadata": metadata or {},
+            "seq": seq,
+            "created_at": created_at or datetime.now(UTC).isoformat(),
+        }
+        self._write_record(record)
+        return record
+
+    async def put_batch(self, events):
+        if not events:
+            return []
+        results = []
+        for ev in events:
+            record = await self.put(**ev)
+            results.append(record)
+        return results
+
+    async def list_messages(self, thread_id, *, limit=50, before_seq=None, after_seq=None):
+        all_events = self._read_thread_events(thread_id)
+        messages = [e for e in all_events if e.get("category") == "message"]
+
+        if before_seq is not None:
+            messages = [e for e in messages if e["seq"] < before_seq]
+            return messages[-limit:]
+        elif after_seq is not None:
+            messages = [e for e in messages if e["seq"] > after_seq]
+            return messages[:limit]
+        else:
+            return messages[-limit:]
+
+    async def list_events(self, thread_id, run_id, *, event_types=None, limit=500):
+        events = self._read_run_events(thread_id, run_id)
+        if event_types is not None:
+            events = [e for e in events if e.get("event_type") in event_types]
+        return events[:limit]
+
+    async def list_messages_by_run(self, thread_id, run_id):
+        events = self._read_run_events(thread_id, run_id)
+        return [e for e in events if e.get("category") == "message"]
+
+    async def count_messages(self, thread_id):
+        all_events = self._read_thread_events(thread_id)
+        return sum(1 for e in all_events if e.get("category") == "message")
+
+    async def delete_by_thread(self, thread_id):
+        all_events = self._read_thread_events(thread_id)
+        count = len(all_events)
+        thread_dir = self._thread_dir(thread_id)
+        if thread_dir.exists():
+            for f in thread_dir.glob("*.jsonl"):
+                f.unlink()
+        self._seq_counters.pop(thread_id, None)
+        return count
+
+    async def delete_by_run(self, thread_id, run_id):
+        events = self._read_run_events(thread_id, run_id)
+        count = len(events)
+        path = self._run_file(thread_id, run_id)
+        if path.exists():
+            path.unlink()
+        return count