claudecodeui/server/modules/database/repositories/sessions.db.ts

import { getConnection } from '@/modules/database/connection.js';
import { projectsDb } from '@/modules/database/repositories/projects.db.js';
import { normalizeProjectPath } from '@/shared/utils.js';

type SessionRow = {
  session_id: string;
  provider: string;
  provider_session_id: string | null;
  project_path: string | null;
  jsonl_path: string | null;
  custom_name: string | null;
  isArchived: number;
  created_at: string;
  updated_at: string;
};

const SESSION_ROW_COLUMNS =
  'session_id, provider, provider_session_id, project_path, jsonl_path, custom_name, isArchived, created_at, updated_at';

function normalizeTimestamp(value?: string): string | null {
  if (!value) return null;

  const parsed = new Date(value);
  if (Number.isNaN(parsed.getTime())) {
    return null;
  }

  return parsed.toISOString();
}

function normalizeProjectPathForProvider(provider: string, projectPath: string): string {
  void provider;
  return normalizeProjectPath(projectPath);
}

export const sessionsDb = {
  /**
   * Upserts one session row discovered on disk by a provider synchronizer.
   *
   * The given id is the provider-native session id. Rows are keyed by
   * `provider_session_id` so a session that was first created by the app
   * (with an app-allocated `session_id`) is updated in place once its
   * transcript shows up on disk, instead of producing a duplicate row.
   */
  createSession(
    providerSessionId: string,
    provider: string,
    projectPath: string,
    customName?: string,
    createdAt?: string,
    updatedAt?: string,
    jsonlPath?: string | null
  ): string {
    const db = getConnection();
    const createdAtValue = normalizeTimestamp(createdAt);
    const updatedAtValue = normalizeTimestamp(updatedAt);
    const normalizedProjectPath = normalizeProjectPathForProvider(provider, projectPath);

    // First, ensure the project path is recorded in the projects table,
    // since it's a foreign key in the sessions table.
    projectsDb.createProjectPath(normalizedProjectPath);

    const existing = db
      .prepare(
        `SELECT session_id FROM sessions
         WHERE provider_session_id = ? AND provider = ?
         LIMIT 1`
      )
      .get(providerSessionId, provider) as { session_id: string } | undefined;

    if (existing) {
      db.prepare(
        `UPDATE sessions SET
           provider = ?,
           updated_at = COALESCE(?, CURRENT_TIMESTAMP),
           project_path = ?,
           jsonl_path = ?,
           isArchived = 0,
           custom_name = COALESCE(?, custom_name)
         WHERE session_id = ?`
      ).run(
        provider,
        updatedAtValue,
        normalizedProjectPath,
        jsonlPath ?? null,
        customName ?? null,
        existing.session_id
      );

      return existing.session_id;
    }

    // Sessions created outside the app (directly via the provider CLI) are
    // keyed by the provider-native id for both columns. The ON CONFLICT path
    // covers legacy rows that predate the provider_session_id mapping.
    db.prepare(
      `INSERT INTO sessions (session_id, provider, provider_session_id, custom_name, project_path, jsonl_path, isArchived, created_at, updated_at)
       VALUES (?, ?, ?, ?, ?, ?, 0, COALESCE(?, CURRENT_TIMESTAMP), COALESCE(?, CURRENT_TIMESTAMP))
       ON CONFLICT(session_id) DO UPDATE SET
         provider = excluded.provider,
         provider_session_id = excluded.provider_session_id,
         updated_at = excluded.updated_at,
         project_path = excluded.project_path,
         jsonl_path = excluded.jsonl_path,
         isArchived = 0,
         custom_name = COALESCE(excluded.custom_name, sessions.custom_name)`
    ).run(
      providerSessionId,
      provider,
      providerSessionId,
      customName ?? null,
      normalizedProjectPath,
      jsonlPath ?? null,
      createdAtValue,
      updatedAtValue
    );

    return providerSessionId;
  },

  /**
   * Inserts one app-allocated session row before any provider run happens.
   *
   * The session gateway uses this when the frontend starts a brand-new chat:
   * `session_id` is the stable app-facing id, while `provider_session_id`
   * stays NULL until the provider runtime announces its own id and
   * `assignProviderSessionId` records the mapping.
   */
  createAppSession(sessionId: string, provider: string, projectPath: string): string {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPathForProvider(provider, projectPath);

    projectsDb.createProjectPath(normalizedProjectPath);

    db.prepare(
      `INSERT INTO sessions (session_id, provider, provider_session_id, custom_name, project_path, jsonl_path, isArchived, created_at, updated_at)
       VALUES (?, ?, NULL, NULL, ?, NULL, 0, CURRENT_TIMESTAMP, CURRENT_TIMESTAMP)`
    ).run(sessionId, provider, normalizedProjectPath);

    return sessionId;
  },

  /**
   * Records the provider-native session id for one app-allocated session.
   *
   * If the filesystem watcher indexed the provider transcript before this
   * mapping was recorded (a duplicate row keyed by the provider id exists),
   * the duplicate is merged into the app row: its transcript path and name
   * are adopted and the duplicate row is removed. Runs in a transaction so
   * the sidebar can never observe both rows at once.
   */
  assignProviderSessionId(sessionId: string, providerSessionId: string): void {
    const db = getConnection();

    const merge = db.transaction(() => {
      const duplicate = db
        .prepare(
          `SELECT ${SESSION_ROW_COLUMNS} FROM sessions
           WHERE (session_id = ? OR provider_session_id = ?)
             AND session_id <> ?
           LIMIT 1`
        )
        .get(providerSessionId, providerSessionId, sessionId) as SessionRow | undefined;

      if (duplicate) {
        db.prepare('DELETE FROM sessions WHERE session_id = ?').run(duplicate.session_id);
        db.prepare(
          `UPDATE sessions SET
             provider_session_id = ?,
             jsonl_path = COALESCE(jsonl_path, ?),
             custom_name = COALESCE(custom_name, ?),
             updated_at = CURRENT_TIMESTAMP
           WHERE session_id = ?`
        ).run(providerSessionId, duplicate.jsonl_path, duplicate.custom_name, sessionId);
        return;
      }

      db.prepare(
        `UPDATE sessions SET
           provider_session_id = ?,
           updated_at = CURRENT_TIMESTAMP
         WHERE session_id = ?`
      ).run(providerSessionId, sessionId);
    });

    merge();
  },

  updateSessionCustomName(sessionId: string, customName: string): void {
    const db = getConnection();
    db.prepare(
      `UPDATE sessions
       SET custom_name = ?
       WHERE session_id = ?`
    ).run(customName, sessionId);
  },

  getSessionById(sessionId: string): SessionRow | null {
    const db = getConnection();
    const row = db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE session_id = ?
         ORDER BY updated_at DESC
         LIMIT 1`
      )
      .get(sessionId) as SessionRow | undefined;

    return row ?? null;
  },

  /**
   * Resolves one session row through the provider-native id.
   *
   * The filesystem watcher only knows provider ids (they come from transcript
   * file names), so it uses this lookup to translate disk artifacts back to
   * the app-facing session row before broadcasting sidebar updates.
   */
  getSessionByProviderSessionId(providerSessionId: string): SessionRow | null {
    const db = getConnection();
    const row = db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE provider_session_id = ?
         ORDER BY updated_at DESC
         LIMIT 1`
      )
      .get(providerSessionId) as SessionRow | undefined;

    return row ?? null;
  },

  getAllSessions(): SessionRow[] {
    const db = getConnection();
    return db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE isArchived = 0`
      )
      .all() as SessionRow[];
  },

  /**
   * Archived rows are intentionally queried separately so the caller can render
   * them in a dedicated view without reintroducing them into active session lists.
   */
  getArchivedSessions(): SessionRow[] {
    const db = getConnection();
    return db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE isArchived = 1
         ORDER BY datetime(COALESCE(updated_at, created_at)) DESC, session_id DESC`
      )
      .all() as SessionRow[];
  },

  getSessionsByProjectPath(projectPath: string): SessionRow[] {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPath(projectPath);
    return db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE project_path = ?
           AND isArchived = 0`
      )
      .all(normalizedProjectPath) as SessionRow[];
  },

  /**
   * Permanent project deletion must see every session row for the path,
   * including archived ones, so their transcript files can be cleaned up.
   */
  getSessionsByProjectPathIncludingArchived(projectPath: string): SessionRow[] {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPath(projectPath);
    return db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE project_path = ?`
      )
      .all(normalizedProjectPath) as SessionRow[];
  },

  getSessionsByProjectPathPage(projectPath: string, limit: number, offset: number): SessionRow[] {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPath(projectPath);
    return db
      .prepare(
        `SELECT ${SESSION_ROW_COLUMNS}
         FROM sessions
         WHERE project_path = ?
           AND isArchived = 0
         ORDER BY datetime(COALESCE(updated_at, created_at)) DESC, session_id DESC
         LIMIT ? OFFSET ?`
      )
      .all(normalizedProjectPath, limit, offset) as SessionRow[];
  },

  countSessionsByProjectPath(projectPath: string): number {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPath(projectPath);
    const row = db
      .prepare(
        `SELECT COUNT(*) AS count
         FROM sessions
         WHERE project_path = ?
           AND isArchived = 0`
      )
      .get(normalizedProjectPath) as { count: number } | undefined;

    return Number(row?.count ?? 0);
  },

  deleteSessionsByProjectPath(projectPath: string): void {
    const db = getConnection();
    const normalizedProjectPath = normalizeProjectPath(projectPath);
    db.prepare(`DELETE FROM sessions WHERE project_path = ?`).run(normalizedProjectPath);
  },

  getSessionName(sessionId: string, provider: string): string | null {
    const db = getConnection();
    const row = db
      .prepare(
        `SELECT custom_name
         FROM sessions
         WHERE session_id = ? AND provider = ?`
      )
      .get(sessionId, provider) as { custom_name: string | null } | undefined;

    return row?.custom_name ?? null;
  },

  /**
   * Soft-delete and restore both use the same flag update so callers keep the
   * row, metadata, and file path intact while toggling visibility.
   */
  updateSessionIsArchived(sessionId: string, isArchived: boolean): void {
    const db = getConnection();
    db.prepare(
      `UPDATE sessions
       SET isArchived = ?
       WHERE session_id = ?`
    ).run(isArchived ? 1 : 0, sessionId);
  },

  deleteSessionById(sessionId: string): boolean {
    const db = getConnection();
    return db.prepare('DELETE FROM sessions WHERE session_id = ?').run(sessionId).changes > 0;
  },
};