feat(jobs): persist async batch job state in PostgreSQL

- Add jobs table to database schema (job_id, status, progress, result_json, etc.) - Add DatabaseClient methods: create_job, update_job, get_job, list_jobs - Add mark_stale_jobs_failed() called at startup to handle interrupted jobs - Refactor _run_batch_job and job endpoints to read/write from PostgreSQL - Remove in-memory _jobs dict; job state now survives API restarts - Update init_database.py to list all tables in output Closes leeworks-agents/SPARC#8 Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-03-26 04:22:57 +00:00
5 changed files with 387 additions and 219 deletions
@@ -16,13 +16,11 @@ from SPARC.analyzer import CompanyAnalyzer
 from SPARC.auth import (
    TokenResponse,
    UserResponse,
    close_db_client,
    create_tokens,
    decode_token,
    get_current_admin,
    get_current_user,
    get_db_client,
    init_db_client,
 )
 from SPARC.types import BatchAnalysisResult, CompanyAnalysisResult
@@ -116,8 +114,7 @@ class AnalyticsResponse(BaseModel):
    period_days: int
-# In-memory job storage (for demo; production would use Redis/DB)
+# Job counter for generating unique IDs (the actual state is in PostgreSQL)
 _jobs: dict[str, JobStatus] = {}
 _job_counter = 0
@@ -152,12 +149,20 @@ _analyzer: CompanyAnalyzer | None = None
 async def lifespan(app: FastAPI):
    """Initialize resources on startup, clean up on shutdown."""
    global _analyzer
    init_db_client()
    _analyzer = CompanyAnalyzer()
    # Mark any jobs that were running/pending before the restart as failed
    from SPARC.database import DatabaseClient
    _db = DatabaseClient(config.database_url)
    _db.connect()
    _db.initialize_schema()
    stale = _db.mark_stale_jobs_failed()
    if stale:
        import logging
        logging.getLogger(__name__).warning("Marked %d stale jobs as failed on startup", stale)
    _db.close()
    yield
-    # Cleanup
+    # Cleanup if needed
    _analyzer = None
    close_db_client()
 app = FastAPI(
@@ -426,20 +431,52 @@ async def analyze_companies_batch(
    return _convert_batch_result(result)
 def _get_job_db() -> "DatabaseClient":
    """Get a DatabaseClient for job persistence."""
    from SPARC.database import DatabaseClient
    db = DatabaseClient(config.database_url)
    return db
 def _job_row_to_status(row: dict) -> JobStatus:
    """Convert a database job row to a JobStatus model."""
    import json as _json
    result = None
    if row.get("result_json"):
        result_data = row["result_json"]
        if isinstance(result_data, str):
            result_data = _json.loads(result_data)
        result = BatchAnalysisResponse(**result_data)
    return JobStatus(
        job_id=row["job_id"],
        status=row["status"],
        progress=row["progress"],
        total_companies=row["total_companies"],
        completed_companies=row["completed_companies"],
        result=result,
        error=row.get("error"),
    )
 def _run_batch_job(job_id: str, companies: list[str], max_workers: int):
    """Background task for batch analysis."""
-    global _jobs, _analyzer
+    import json as _json
    global _analyzer
    db = _get_job_db()
    if not _analyzer:
-        _jobs[job_id].status = "failed"
+        db.update_job(job_id, status="failed", error="Analyzer not initialized")
        _jobs[job_id].error = "Analyzer not initialized"
        return
-    _jobs[job_id].status = "running"
+    db.update_job(job_id, status="running")
    def progress_callback(company: str, completed: int, total: int):
-        _jobs[job_id].completed_companies = completed
+        db.update_job(
-        _jobs[job_id].progress = int((completed / total) * 100)
+            job_id,
            completed_companies=completed,
            progress=int((completed / total) * 100),
        )
    try:
        result = _analyzer.analyze_companies(
@@ -447,12 +484,15 @@ def _run_batch_job(job_id: str, companies: list[str], max_workers: int):
            max_workers=max_workers,
            progress_callback=progress_callback,
        )
-        _jobs[job_id].status = "completed"
+        batch_response = _convert_batch_result(result)
-        _jobs[job_id].progress = 100
+        db.update_job(
-        _jobs[job_id].result = _convert_batch_result(result)
+            job_id,
            status="completed",
            progress=100,
            result_json=_json.dumps(batch_response.model_dump(), default=str),
        )
    except Exception as e:
-        _jobs[job_id].status = "failed"
+        db.update_job(job_id, status="failed", error=str(e))
        _jobs[job_id].error = str(e)
@app.post("/analyze/batch/async", response_model=JobStatus, tags=["Analysis"])
@@ -477,19 +517,14 @@ async def analyze_companies_async(
    _job_counter += 1
    job_id = f"job_{_job_counter}_{datetime.now().strftime('%Y%m%d%H%M%S')}"
-    _jobs[job_id] = JobStatus(
+    db = _get_job_db()
-        job_id=job_id,
+    job_row = db.create_job(job_id=job_id, total_companies=len(request.companies))
        status="pending",
        progress=0,
        total_companies=len(request.companies),
        completed_companies=0,
    )
    background_tasks.add_task(
        _run_batch_job, job_id, request.companies, request.max_workers
    )
-    return _jobs[job_id]
+    return _job_row_to_status(job_row)
@app.get("/jobs/{job_id}", response_model=JobStatus, tags=["Jobs"])
@@ -505,10 +540,13 @@ async def get_job_status(
    Returns:
        Current job status including progress and results when complete
    """
-    if job_id not in _jobs:
+    db = _get_job_db()
    job_row = db.get_job(job_id)
    if not job_row:
        raise HTTPException(status_code=404, detail=f"Job {job_id} not found")
-    return _jobs[job_id]
+    return _job_row_to_status(job_row)
@app.get("/jobs", response_model=list[JobStatus], tags=["Jobs"])
@@ -529,12 +567,6 @@ async def list_jobs(
    Returns:
        List of job statuses
    """
-    jobs = list(_jobs.values())
+    db = _get_job_db()
-
+    job_rows = db.list_jobs(status=status, limit=limit)
-    if status:
+    return [_job_row_to_status(row) for row in job_rows]
        jobs = [j for j in jobs if j.status == status]
    # Return most recent first
    jobs.sort(key=lambda j: j.job_id, reverse=True)
    return jobs[:limit]
@@ -132,36 +132,11 @@ def decode_token(token: str) -> Optional[TokenPayload]:
        return None
 # Shared database client singleton, initialized at startup via init_db_client()
 _db_client: DatabaseClient | None = None
 def init_db_client() -> None:
    """Initialize the shared database client. Call once at app startup."""
    global _db_client
    _db_client = DatabaseClient(config.database_url)
    _db_client.connect()
 def close_db_client() -> None:
    """Close the shared database client. Call at app shutdown."""
    global _db_client
    if _db_client:
        _db_client.close()
        _db_client = None
 def get_db_client() -> DatabaseClient:
-    """Get the shared pooled database client for auth operations.
+    """Get database client for auth operations."""
-
+    client = DatabaseClient(config.database_url)
-    Returns the module-level singleton DatabaseClient. If not yet initialized
+    client.connect()
-    (e.g., during tests), creates a new instance as a fallback.
+    return client
    """
    global _db_client
    if _db_client is None:
        _db_client = DatabaseClient(config.database_url)
        _db_client.connect()
    return _db_client
 async def get_current_user(
@@ -171,6 +171,26 @@ class DatabaseClient:
                ON serp_queries(query_hash)
            """)
            # Create jobs table for persisting async batch job state
            cursor.execute("""
                CREATE TABLE IF NOT EXISTS jobs (
                    job_id VARCHAR(128) PRIMARY KEY,
                    status VARCHAR(20) NOT NULL DEFAULT 'pending',
                    progress INTEGER NOT NULL DEFAULT 0,
                    total_companies INTEGER NOT NULL DEFAULT 0,
                    completed_companies INTEGER NOT NULL DEFAULT 0,
                    result_json JSONB,
                    error TEXT,
                    created_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
                    updated_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP
                )
            """)
            cursor.execute("""
                CREATE INDEX IF NOT EXISTS idx_jobs_status
                ON jobs(status)
            """)
            self.conn.commit()
    @staticmethod
@@ -201,6 +221,8 @@ class DatabaseClient:
        Returns:
            Cached message dict if found, None otherwise
        """
        self.connect()
        prompt_hash = self.hash_prompt(prompt)
        query = """
@@ -223,11 +245,10 @@ class DatabaseClient:
        query += " ORDER BY timestamp DESC LIMIT 1"
-        with self.get_conn() as conn:
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+            cursor.execute(query, params)
-                cursor.execute(query, params)
+            result = cursor.fetchone()
-                result = cursor.fetchone()
+            return dict(result) if result else None
                return dict(result) if result else None
    def store_message(
        self,
@@ -255,32 +276,33 @@ class DatabaseClient:
        Returns:
            The ID of the inserted record
        """
        self.connect()
        prompt_hash = self.hash_prompt(prompt)
-        with self.get_conn() as conn:
+        with self.conn.cursor() as cursor:
-            with conn.cursor() as cursor:
+            cursor.execute(
-                cursor.execute(
+                """
-                    """
+                INSERT INTO llm_messages
-                    INSERT INTO llm_messages
+                (prompt, prompt_hash, response, company_name, analysis_type, model, metadata, token_usage, is_cached)
-                    (prompt, prompt_hash, response, company_name, analysis_type, model, metadata, token_usage, is_cached)
+                VALUES (%s, %s, %s, %s, %s, %s, %s, %s, %s)
-                    VALUES (%s, %s, %s, %s, %s, %s, %s, %s, %s)
+                RETURNING id
-                    RETURNING id
+                """,
-                    """,
+                (
-                    (
+                    prompt,
-                        prompt,
+                    prompt_hash,
-                        prompt_hash,
+                    response,
-                        response,
+                    company_name,
-                        company_name,
+                    analysis_type,
-                        analysis_type,
+                    model,
-                        model,
+                    json.dumps(metadata) if metadata else None,
-                        json.dumps(metadata) if metadata else None,
+                    json.dumps(token_usage) if token_usage else None,
-                        json.dumps(token_usage) if token_usage else None,
+                    is_cached,
-                        is_cached,
+                ),
-                    ),
+            )
                )
-                message_id = cursor.fetchone()[0]
+            message_id = cursor.fetchone()[0]
-            conn.commit()
+            self.conn.commit()
            return message_id
@@ -302,6 +324,8 @@ class DatabaseClient:
        Returns:
            List of message dictionaries
        """
        self.connect()
        query = "SELECT * FROM llm_messages WHERE 1=1"
        params = []
@@ -316,10 +340,9 @@ class DatabaseClient:
        query += " ORDER BY timestamp DESC LIMIT %s OFFSET %s"
        params.extend([limit, offset])
-        with self.get_conn() as conn:
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+            cursor.execute(query, params)
-                cursor.execute(query, params)
+            return [dict(row) for row in cursor.fetchall()]
                return [dict(row) for row in cursor.fetchall()]
    def get_analytics(self, days: int = 30) -> Dict:
        """Get analytics on message usage.
@@ -330,52 +353,53 @@ class DatabaseClient:
        Returns:
            Dictionary with analytics data
        """
-        with self.get_conn() as conn:
+        self.connect()
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                # Total messages
                cursor.execute(
                    """
                    SELECT COUNT(*) as total_messages
                    FROM llm_messages
                    WHERE timestamp >= NOW() - INTERVAL '%s days'
                    """,
                    (days,),
                )
                total = cursor.fetchone()["total_messages"]
-                # Messages by company
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                cursor.execute(
+            # Total messages
-                    """
+            cursor.execute(
-                    SELECT company_name, COUNT(*) as count
+                """
-                    FROM llm_messages
+                SELECT COUNT(*) as total_messages
-                    WHERE timestamp >= NOW() - INTERVAL '%s days'
+                FROM llm_messages
-                    GROUP BY company_name
+                WHERE timestamp >= NOW() - INTERVAL '%s days'
-                    ORDER BY count DESC
+                """,
-                    LIMIT 10
+                (days,),
-                    """,
+            )
-                    (days,),
+            total = cursor.fetchone()["total_messages"]
                )
                by_company = cursor.fetchall()
-                # Messages by type
+            # Messages by company
-                cursor.execute(
+            cursor.execute(
-                    """
+                """
-                    SELECT analysis_type, COUNT(*) as count
+                SELECT company_name, COUNT(*) as count
-                    FROM llm_messages
+                FROM llm_messages
-                    WHERE timestamp >= NOW() - INTERVAL '%s days'
+                WHERE timestamp >= NOW() - INTERVAL '%s days'
-                    GROUP BY analysis_type
+                GROUP BY company_name
-                    ORDER BY count DESC
+                ORDER BY count DESC
-                    """,
+                LIMIT 10
-                    (days,),
+                """,
-                )
+                (days,),
-                by_type = cursor.fetchall()
+            )
            by_company = cursor.fetchall()
-                return {
+            # Messages by type
-                    "total_messages": total,
+            cursor.execute(
-                    "by_company": [dict(row) for row in by_company],
+                """
-                    "by_type": [dict(row) for row in by_type],
+                SELECT analysis_type, COUNT(*) as count
-                    "period_days": days,
+                FROM llm_messages
-                }
+                WHERE timestamp >= NOW() - INTERVAL '%s days'
                GROUP BY analysis_type
                ORDER BY count DESC
                """,
                (days,),
            )
            by_type = cursor.fetchall()
            return {
                "total_messages": total,
                "by_company": [dict(row) for row in by_company],
                "by_type": [dict(row) for row in by_type],
                "period_days": days,
            }
    # Patent Cache Methods
@@ -458,6 +482,131 @@ class DatabaseClient:
                )
            conn.commit()
    # Job Persistence Methods
    def create_job(
        self,
        job_id: str,
        total_companies: int,
    ) -> Dict:
        """Create a new job record.
        Args:
            job_id: Unique job identifier
            total_companies: Number of companies in the batch
        Returns:
            Job dict
        """
        with self.get_conn() as conn:
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                cursor.execute(
                    """
                    INSERT INTO jobs (job_id, status, progress, total_companies, completed_companies)
                    VALUES (%s, 'pending', 0, %s, 0)
                    RETURNING *
                    """,
                    (job_id, total_companies),
                )
                job = cursor.fetchone()
            conn.commit()
            return dict(job)
    def update_job(
        self,
        job_id: str,
        status: Optional[str] = None,
        progress: Optional[int] = None,
        completed_companies: Optional[int] = None,
        result_json: Optional[str] = None,
        error: Optional[str] = None,
    ) -> Optional[Dict]:
        """Update a job's state.
        Only non-None fields are updated.
        """
        updates = []
        params = []
        if status is not None:
            updates.append("status = %s")
            params.append(status)
        if progress is not None:
            updates.append("progress = %s")
            params.append(progress)
        if completed_companies is not None:
            updates.append("completed_companies = %s")
            params.append(completed_companies)
        if result_json is not None:
            updates.append("result_json = %s")
            params.append(result_json)
        if error is not None:
            updates.append("error = %s")
            params.append(error)
        if not updates:
            return self.get_job(job_id)
        updates.append("updated_at = CURRENT_TIMESTAMP")
        params.append(job_id)
        with self.get_conn() as conn:
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                cursor.execute(
                    f"UPDATE jobs SET {', '.join(updates)} WHERE job_id = %s RETURNING *",
                    params,
                )
                job = cursor.fetchone()
            conn.commit()
            return dict(job) if job else None
    def get_job(self, job_id: str) -> Optional[Dict]:
        """Get a job by ID."""
        with self.get_conn() as conn:
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                cursor.execute("SELECT * FROM jobs WHERE job_id = %s", (job_id,))
                job = cursor.fetchone()
                return dict(job) if job else None
    def list_jobs(
        self,
        status: Optional[str] = None,
        limit: int = 10,
    ) -> List[Dict]:
        """List jobs, optionally filtered by status."""
        query = "SELECT * FROM jobs"
        params: list = []
        if status:
            query += " WHERE status = %s"
            params.append(status)
        query += " ORDER BY created_at DESC LIMIT %s"
        params.append(limit)
        with self.get_conn() as conn:
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                cursor.execute(query, params)
                return [dict(row) for row in cursor.fetchall()]
    def mark_stale_jobs_failed(self) -> int:
        """Mark any jobs in 'running' or 'pending' state as 'failed'.
        Called at startup to clean up jobs that were interrupted by a restart.
        Returns:
            Number of jobs marked as failed.
        """
        with self.get_conn() as conn:
            with conn.cursor() as cursor:
                cursor.execute(
                    """
                    UPDATE jobs SET status = 'failed', error = 'Interrupted by server restart',
                    updated_at = CURRENT_TIMESTAMP
                    WHERE status IN ('running', 'pending')
                    """
                )
                count = cursor.rowcount
            conn.commit()
            return count
    # User Authentication Methods
    @staticmethod
@@ -501,23 +650,25 @@ class DatabaseClient:
        Returns:
            Created user dict or None if email exists
        """
        self.connect()
        password_hash = self.hash_password(password)
        try:
-            with self.get_conn() as conn:
+            with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+                cursor.execute(
-                    cursor.execute(
+                    """
-                        """
+                    INSERT INTO users (email, password_hash, role)
-                        INSERT INTO users (email, password_hash, role)
+                    VALUES (%s, %s, %s)
-                        VALUES (%s, %s, %s)
+                    RETURNING id, email, role, created_at
-                        RETURNING id, email, role, created_at
+                    """,
-                        """,
+                    (email, password_hash, role),
-                        (email, password_hash, role),
+                )
-                    )
+                user = cursor.fetchone()
-                    user = cursor.fetchone()
+                self.conn.commit()
                conn.commit()
                return dict(user) if user else None
        except psycopg2.errors.UniqueViolation:
            self.conn.rollback()
            return None
    def authenticate_user(self, email: str, password: str) -> Optional[Dict]:
@@ -530,22 +681,23 @@ class DatabaseClient:
        Returns:
            User dict if authenticated, None otherwise
        """
-        with self.get_conn() as conn:
+        self.connect()
            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
                cursor.execute(
                    "SELECT * FROM users WHERE email = %s",
                    (email,),
                )
                user = cursor.fetchone()
-                if user and self.verify_password(password, user["password_hash"]):
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                    return {
+            cursor.execute(
-                        "id": user["id"],
+                "SELECT * FROM users WHERE email = %s",
-                        "email": user["email"],
+                (email,),
-                        "role": user["role"],
+            )
-                        "created_at": user["created_at"],
+            user = cursor.fetchone()
-                    }
+
-                return None
+            if user and self.verify_password(password, user["password_hash"]):
                return {
                    "id": user["id"],
                    "email": user["email"],
                    "role": user["role"],
                    "created_at": user["created_at"],
                }
            return None
    def get_user_by_id(self, user_id: int) -> Optional[Dict]:
        """Get a user by ID.
@@ -556,14 +708,15 @@ class DatabaseClient:
        Returns:
            User dict or None
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+
-                cursor.execute(
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                    "SELECT id, email, role, created_at FROM users WHERE id = %s",
+            cursor.execute(
-                    (user_id,),
+                "SELECT id, email, role, created_at FROM users WHERE id = %s",
-                )
+                (user_id,),
-                user = cursor.fetchone()
+            )
-                return dict(user) if user else None
+            user = cursor.fetchone()
            return dict(user) if user else None
    def get_user_by_email(self, email: str) -> Optional[Dict]:
        """Get a user by email.
@@ -574,14 +727,15 @@ class DatabaseClient:
        Returns:
            User dict or None
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+
-                cursor.execute(
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                    "SELECT id, email, role, created_at FROM users WHERE email = %s",
+            cursor.execute(
-                    (email,),
+                "SELECT id, email, role, created_at FROM users WHERE email = %s",
-                )
+                (email,),
-                user = cursor.fetchone()
+            )
-                return dict(user) if user else None
+            user = cursor.fetchone()
            return dict(user) if user else None
    def get_all_users(self, limit: int = 100, offset: int = 0) -> List[Dict]:
        """Get all users (admin only).
@@ -593,18 +747,19 @@ class DatabaseClient:
        Returns:
            List of user dicts
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+
-                cursor.execute(
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                    """
+            cursor.execute(
-                    SELECT id, email, role, created_at
+                """
-                    FROM users
+                SELECT id, email, role, created_at
-                    ORDER BY created_at DESC
+                FROM users
-                    LIMIT %s OFFSET %s
+                ORDER BY created_at DESC
-                    """,
+                LIMIT %s OFFSET %s
-                    (limit, offset),
+                """,
-                )
+                (limit, offset),
-                return [dict(row) for row in cursor.fetchall()]
+            )
            return [dict(row) for row in cursor.fetchall()]
    def update_user_role(self, user_id: int, role: str) -> Optional[Dict]:
        """Update a user's role (admin only).
@@ -616,19 +771,20 @@ class DatabaseClient:
        Returns:
            Updated user dict or None
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor(cursor_factory=RealDictCursor) as cursor:
+
-                cursor.execute(
+        with self.conn.cursor(cursor_factory=RealDictCursor) as cursor:
-                    """
+            cursor.execute(
-                    UPDATE users
+                """
-                    SET role = %s, updated_at = CURRENT_TIMESTAMP
+                UPDATE users
-                    WHERE id = %s
+                SET role = %s, updated_at = CURRENT_TIMESTAMP
-                    RETURNING id, email, role, created_at
+                WHERE id = %s
-                    """,
+                RETURNING id, email, role, created_at
-                    (role, user_id),
+                """,
-                )
+                (role, user_id),
-                user = cursor.fetchone()
+            )
-            conn.commit()
+            user = cursor.fetchone()
            self.conn.commit()
            return dict(user) if user else None
    def delete_user(self, user_id: int) -> bool:
@@ -640,11 +796,12 @@ class DatabaseClient:
        Returns:
            True if deleted
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor() as cursor:
+
-                cursor.execute("DELETE FROM users WHERE id = %s", (user_id,))
+        with self.conn.cursor() as cursor:
-                deleted = cursor.rowcount > 0
+            cursor.execute("DELETE FROM users WHERE id = %s", (user_id,))
-            conn.commit()
+            deleted = cursor.rowcount > 0
            self.conn.commit()
            return deleted
    def get_user_count(self) -> int:
@@ -653,7 +810,8 @@ class DatabaseClient:
        Returns:
            Number of users
        """
-        with self.get_conn() as conn:
+        self.connect()
-            with conn.cursor() as cursor:
+
-                cursor.execute("SELECT COUNT(*) FROM users")
+        with self.conn.cursor() as cursor:
-                return cursor.fetchone()[0]
+            cursor.execute("SELECT COUNT(*) FROM users")
            return cursor.fetchone()[0]
@@ -40,6 +40,9 @@ def main():
        print("\nTables created:")
        print("  - llm_messages: Stores all LLM prompts and responses")
        print("  - users: Stores user accounts")
        print("  - jobs: Stores async batch job state")
        print("  - patents: Patent PDF cache")
        print("  - serp_queries: SERP query result cache")
        print("\nIndexes created:")
        print("  - idx_messages_timestamp: For time-based queries")
        print("  - idx_messages_company: For company-specific queries")
@@ -5,7 +5,7 @@ from datetime import datetime
 from unittest.mock import Mock, patch
 from fastapi.testclient import TestClient
-from SPARC.api import app, _analyzer, _jobs
+from SPARC.api import app
 from SPARC.types import CompanyAnalysisResult, BatchAnalysisResult