fix(ai-chat): explicit give-up ERROR + accurate retry-window comment (#184 round-4)

F12 [suggestion]: finalizeRun's "all retries exhausted" path only logged
per-attempt warns ("attempt 3/3") then silently restored the in-memory
entry, giving no clear signal that the run row was left non-terminal
('running') pending recovery. Emit ONE greppable ERROR with context
(runId, chatId, final error) on give-up, matching the import-attachment
retry-loop pattern, so an operator can tell a survived blip from a give-up.

F13 [suggestion]: the "ORDER MATTERS (F6)" doc overclaimed that a later
settle "can retry" the terminal write as an in-process retrier. Correct it:
in-process retry is only POSSIBLE (not guaranteed) and only once the entry
is restored AND a fresh settler arrives afterwards; a concurrent settler in
the retry window is consumed at the synchronous active.delete claim, and the
no-streamText path has no second settler at all. The UNCONDITIONAL backstop
in every case is the boot sweep on the next restart.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>

.env.example

@@ -170,6 +170,20 @@ MCP_DOCMOST_PASSWORD=
 # Default 900000 (15 min).
 # AI_MCP_CALL_TIMEOUT_MS=900000
 
+# --- Autonomous / detached agent runs (settings.ai.autonomousRuns) ---
+# Opt-in per workspace (AI settings; off by default). When on, a chat turn becomes
+# a server-side RUN that survives a browser disconnect — only an explicit Stop ends
+# it, and a client reconnects/live-follows the run.
+#
+# DEPLOY CONSTRAINT — SINGLE-INSTANCE ONLY in phase 1: Stop and the in-process
+# AbortController that backs it are process-local, so a Stop only aborts a run
+# executing on the SAME replica that owns it (cross-instance pub/sub stop is phase
+# 2 and not yet reliable). Do NOT enable autonomousRuns on a horizontally-scaled
+# deployment (multiple replicas behind a load balancer, or Docmost cloud
+# CLOUD=true) — run a single instance instead. The server logs a startup WARNING
+# when it detects a multi-instance deployment (CLOUD=true) so the constraint is
+# visible, and a startup sweep settles any run left dangling by a restart.
+
 # --- Anonymous public-share AI assistant ---
 # Opt-in per workspace (AI settings -> "public share assistant"; off by default).
 # When enabled, anonymous visitors of a published share can ask an AI about that

AGENTS.md

@@ -259,6 +259,7 @@ The API server is a Fastify app with a global `/api` prefix (`main.ts` excludes
    - `core/ai-chat/tools/` — the agent's ~40 read+write tools. Every tool runs under the **calling user's** CASL permissions via a per-user loopback access token (`docmost-client.loader.ts`), so the agent can never exceed what the user could do. Only **reversible** operations are exposed (page history + trash; no permanent delete). Agent edits get an "AI agent" provenance badge in page history (`20260616T130000-agent-provenance` migration).
    - `core/ai-chat/embedding/` — RAG indexer + a BullMQ consumer on `AI_QUEUE` that embeds pages into `page_embeddings` (vector search), complementing Postgres full-text search. Pages are (re)indexed on edit; `AI_EMBEDDING_TIMEOUT_MS` bounds a hung embeddings endpoint.
    - `core/ai-chat/external-mcp/` — admins can attach external MCP servers (e.g. Tavily) to give the agent web access. **`ssrf-guard.ts` validates outbound MCP URLs against SSRF** — keep that guard in the path when touching external-MCP connection logic.
+   - `core/ai-chat/ai-chat-run.service.ts` + `ai_chat_runs` — **detached/autonomous agent runs** (`#184`), behind the per-workspace `settings.ai.autonomousRuns` flag (off by default). When on, a turn becomes a server-side RUN that survives a browser disconnect; only an explicit `POST /ai-chat/stop` ends it, and a client reconnects/live-follows via `POST /ai-chat/run`. **DEPLOY CONSTRAINT — single-instance only in phase 1:** Stop and the AbortController that backs it are process-local, so a Stop only aborts a run executing on the **same** replica that owns it (cross-instance pub/sub stop is phase 2). Do **not** enable `autonomousRuns` on a horizontally-scaled deployment (multiple replicas behind a load balancer, or Docmost cloud `CLOUD=true`) — run a single instance instead. The server logs a startup WARNING when it detects a multi-instance deployment (`CLOUD=true`) so the constraint is visible. The startup sweep settles any run left dangling by a restart.
 
 ### Client structure
 Vite SPA. Code is organized by feature under `apps/client/src/features/*` (mirrors the server domains: `page`, `space`, `comment`, `ai-chat`, `editor`, …). Conventions:

CHANGELOG.md

@@ -58,6 +58,19 @@ and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0
   append/prepend fragments, nor to COMMENT bodies — a comment may legitimately
   contain a standalone footnote definition, which canonicalization would drop.
   (#228)
+- **Detached, autonomous agent runs that survive a browser disconnect.** When the
+  new `settings.ai.autonomousRuns` workspace flag is on (off by default), an
+  AI-chat turn becomes a first-class, server-side RUN tracked in a new
+  `ai_chat_runs` table instead of a socket-bound stream: closing the tab or
+  losing the connection no longer aborts the turn — it keeps executing and
+  persisting server-side, and only an explicit Stop ends it. A client can
+  reconnect and live-follow (or stop) an in-flight run via `POST /ai-chat/run`
+  (resolve the latest run + its assistant message for a chat) and
+  `POST /ai-chat/stop` (stop by `runId` or `chatId`). A partial unique index
+  enforces one active run per chat, and a startup sweep settles any run left
+  dangling by a restart. Phase 1 is single-instance-only (cross-instance Stop is
+  not yet reliable); the server warns at startup on a horizontally-scaled
+  deployment. (#184)
 
 ### Changed
 

apps/client/src/features/ai-chat/components/ai-chat-window.tsx

@@ -17,7 +17,7 @@ import {
   IconPlus,
   IconX,
 } from "@tabler/icons-react";
-import { useAtom, useSetAtom } from "jotai";
+import { useAtom, useAtomValue, useSetAtom } from "jotai";
 import { useMatch } from "react-router-dom";
 import { useTranslation } from "react-i18next";
 import { useQueryClient } from "@tanstack/react-query";
@@ -34,9 +34,12 @@ import {
   AI_CHATS_RQ_KEY,
   AI_CHAT_MESSAGES_RQ_KEY,
   useAiChatMessagesQuery,
+  useAiChatRunQuery,
   useAiChatsQuery,
   useAiRolesQuery,
 } from "@/features/ai-chat/queries/ai-chat-query.ts";
+import { shouldObserveRun } from "@/features/ai-chat/utils/run-polling.ts";
+import { workspaceAtom } from "@/features/user/atoms/current-user-atom";
 import ConversationList from "@/features/ai-chat/components/conversation-list.tsx";
 import ChatThread from "@/features/ai-chat/components/chat-thread.tsx";
 import { exportAiChat } from "@/features/ai-chat/services/ai-chat-service.ts";
@@ -162,6 +165,61 @@ export default function AiChatWindow() {
   const { data: messageRows, isLoading: messagesLoading } =
     useAiChatMessagesQuery(activeChatId ?? undefined);
 
+  // #184 reconnect-and-live-follow. Whether detached agent runs are enabled for
+  // this workspace. The reconnect endpoint itself is NOT flag-gated server-side
+  // (it is only owner-gated and returns `{ run: null }` when the chat has no
+  // run); but when the feature is off no runs are ever created, so polling it
+  // would always come back empty — we gate it off here to avoid pointless polls.
+  const workspace = useAtomValue(workspaceAtom);
+  const autonomousRunsEnabled =
+    workspace?.settings?.ai?.autonomousRuns === true;
+
+  // Whether THIS tab is the one actively streaming the open chat's run locally
+  // (it started the run here and holds the SSE). Reported up from ChatThread. We
+  // are the STREAMER while true and a passive OBSERVER while false — the basis of
+  // the observer-vs-streamer detection. Reset to false by the fresh ChatThread's
+  // mount effect on every chat switch.
+  const [localStreaming, setLocalStreaming] = useState(false);
+  const onStreamingChange = useCallback((streaming: boolean) => {
+    setLocalStreaming(streaming);
+  }, []);
+
+  // Poll the latest run of the open chat ONLY when we are a passive observer:
+  // feature on, a chat is open, and we are NOT the local streamer (the streamer
+  // already has the live SSE — polling/merging too would double-render). The
+  // query's own status-keyed refetchInterval stops once the run is terminal.
+  const { data: runData } = useAiChatRunQuery(
+    activeChatId ?? undefined,
+    autonomousRunsEnabled && !localStreaming,
+  );
+  const run = runData?.run ?? null;
+  // The run's incrementally-persisted assistant message to merge into the thread,
+  // but only while we are an observer (never when we are the streamer — guards
+  // against a stale poll fighting the live stream). Includes a terminal run so the
+  // final persisted output is shown on reopen.
+  const observedRow = shouldObserveRun(run, localStreaming)
+    ? (runData?.message ?? null)
+    : null;
+
+  // When the observed run reaches a terminal status, do a final messages refetch
+  // so the persisted final state (token/context badge, export source) is shown,
+  // then the query's refetchInterval has already stopped polling. Deduped per run
+  // id so it fires exactly once per run, not on every subsequent poll-less render.
+  const finalizedRunIdRef = useRef<string | null>(null);
+  useEffect(() => {
+    if (!run || !activeChatId) return;
+    if (run.status === "pending" || run.status === "running") {
+      // Active again (a new run) — re-arm so its terminal transition fires once.
+      finalizedRunIdRef.current = null;
+      return;
+    }
+    if (finalizedRunIdRef.current === run.id) return;
+    finalizedRunIdRef.current = run.id;
+    queryClient.invalidateQueries({
+      queryKey: AI_CHAT_MESSAGES_RQ_KEY(activeChatId),
+    });
+  }, [run, activeChatId, queryClient]);
+
   // The page the user is currently viewing. AiChatWindow lives in a pathless
   // parent layout route, so useParams() can't see :pageSlug. Match the full
   // pathname against the authenticated page route instead so "the current page"
@@ -636,6 +694,12 @@ export default function AiChatWindow() {
               assistantName={currentRole?.name}
               onTurnFinished={onTurnFinished}
               onServerChatId={onServerChatId}
+              // #184: live-follow a still-running run when we reopened the chat as
+              // a passive observer; null when there is nothing to observe or this
+              // tab is the streamer. onStreamingChange lets the window stop polling
+              // while we are the streamer.
+              observedRow={observedRow}
+              onStreamingChange={onStreamingChange}
             />
           )}
         </div>

apps/client/src/features/ai-chat/components/chat-thread.test.tsx

@@ -11,6 +11,7 @@ const h = vi.hoisted(() => ({
     onFinish: null as null | ((arg: Record<string, unknown>) => void),
     sendMessage: vi.fn(),
     stop: vi.fn(),
+    setMessages: vi.fn(),
     transport: null as null | {
       prepareSendMessagesRequest: (arg: {
         messages: unknown[];
@@ -30,6 +31,8 @@ vi.mock("@ai-sdk/react", () => ({
       status: h.state.status,
       stop: h.state.stop,
       error: null,
+      // #184: ChatThread reads setMessages to merge a polled observer run.
+      setMessages: h.state.setMessages,
     };
   },
 }));
@@ -140,3 +143,56 @@ describe("ChatThread — send now (#198)", () => {
     expect(prep({ messages: [], body: {} }).body.interrupted).toBe(false);
   });
 });
+
+// #184 passive-observer merge: when reconnecting to a still-running run, the
+// parent feeds the polled run message via `observedRow`; ChatThread merges it via
+// setMessages — but ONLY when this tab is NOT itself streaming (the streamer's
+// SSE owns the view, so a stale observedRow must never overwrite it).
+describe("ChatThread — observer run merge (#184)", () => {
+  beforeEach(() => {
+    h.state.onFinish = null;
+    h.state.setMessages.mockReset();
+  });
+
+  const observedRow = {
+    id: "a-run",
+    role: "assistant",
+    content: "step 1\nstep 2",
+    metadata: {
+      parts: [{ type: "text", text: "step 1\nstep 2" }],
+    },
+    createdAt: "2026-01-01T00:00:00Z",
+  } as const;
+
+  function renderObserver(status: string) {
+    h.state.status = status;
+    render(
+      <MantineProvider>
+        <ChatThread
+          chatId="c1"
+          initialRows={[]}
+          onTurnFinished={vi.fn()}
+          observedRow={observedRow as never}
+        />
+      </MantineProvider>,
+    );
+  }
+
+  it("merges the polled run message when this tab is a passive observer", () => {
+    renderObserver("ready");
+    expect(h.state.setMessages).toHaveBeenCalledTimes(1);
+    // The updater replaces/append the observed assistant row by id.
+    const updater = h.state.setMessages.mock.calls[0][0] as (
+      prev: { id: string; parts: { text: string }[] }[],
+    ) => { id: string; parts: { text: string }[] }[];
+    const merged = updater([{ id: "u1", parts: [{ text: "hi" }] }]);
+    expect(merged).toHaveLength(2);
+    expect(merged[1].id).toBe("a-run");
+    expect(merged[1].parts[0].text).toBe("step 1\nstep 2");
+  });
+
+  it("does NOT merge while THIS tab is the streamer (no double-render)", () => {
+    renderObserver("streaming");
+    expect(h.state.setMessages).not.toHaveBeenCalled();
+  });
+});

apps/client/src/features/ai-chat/components/chat-thread.tsx

@@ -24,6 +24,7 @@ import {
 } from "@/features/ai-chat/utils/role-launch.ts";
 import { describeChatError } from "@/features/ai-chat/utils/error-message.ts";
 import { extractServerChatId } from "@/features/ai-chat/utils/adopt-chat-id.ts";
+import { mergeObservedMessage } from "@/features/ai-chat/utils/run-polling.ts";
 import {
   dequeue,
   enqueueMessage,
@@ -86,6 +87,19 @@ interface ChatThreadProps {
    *  Copy/export button available mid-stream). Distinct from onTurnFinished,
    *  which fires only at the terminal outcome. */
   onServerChatId?: (serverChatId?: string) => void;
+  /** #184 reconnect-and-live-follow. When THIS tab reopened a chat whose agent
+   *  run is still going (it is a PASSIVE OBSERVER — it did not start the run here),
+   *  the parent polls the reconnect endpoint and feeds the run's incrementally-
+   *  persisted assistant message here; we merge it into the live list so new
+   *  steps/tool-calls appear as they are persisted. Null when there is nothing to
+   *  observe (no run, feature off, or this tab IS the streamer). The merge is
+   *  ADDITIONALLY guarded by our own `isStreaming`, so a stale value can never
+   *  fight the local stream when we are the streamer. */
+  observedRow?: IAiChatMessageRow | null;
+  /** Report this tab's live streaming status up to the parent, so it can stop
+   *  polling the run while WE are the active streamer (the SSE owns the view) and
+   *  resume once we go idle. Called from an effect on every transition. */
+  onStreamingChange?: (streaming: boolean) => void;
 }
 
 /**
@@ -131,6 +145,8 @@ export default function ChatThread({
   assistantName,
   onTurnFinished,
   onServerChatId,
+  observedRow,
+  onStreamingChange,
 }: ChatThreadProps) {
   const { t } = useTranslation();
 
@@ -274,7 +290,7 @@ export default function ChatThread({
     [],
   );
 
-  const { messages, sendMessage, status, stop, error } = useChat({
+  const { messages, sendMessage, status, stop, error, setMessages } = useChat({
     // Stable per-mount key. Existing chats use their real id; new chats use a
     // generated client id (never `undefined`) so the store is NOT re-created on
     // every render mid-stream (see `chatStoreId` above).
@@ -378,6 +394,27 @@ export default function ChatThread({
 
   const isStreaming = status === "submitted" || status === "streaming";
 
+  // #184: report our live streaming status up so the parent stops polling the run
+  // while WE are the streamer (the SSE owns the view) and resumes once we go idle.
+  // Effect (not render) so it never updates parent state during our own render;
+  // fires on mount with `false`, which also re-syncs the parent after a chat
+  // switch remounts this thread (a fresh mount is idle until the user sends).
+  useEffect(() => {
+    onStreamingChange?.(isStreaming);
+  }, [isStreaming, onStreamingChange]);
+
+  // #184 passive-observer merge: when the parent feeds a polled run message (we
+  // reopened a chat whose run is still going and did NOT start it here), merge it
+  // into the live list so new steps/tool-calls appear as they are persisted. Hard-
+  // gated by `!isStreaming`: if THIS tab is actually the streamer, the local SSE
+  // owns the view and a stale observedRow must never overwrite it. `observedRow`
+  // is a stable per-poll object, so this runs once per poll, not per render.
+  useEffect(() => {
+    if (isStreaming || !observedRow) return;
+    const observed = rowToUiMessage(observedRow);
+    setMessages((prev) => mergeObservedMessage(prev, observed));
+  }, [observedRow, isStreaming, setMessages]);
+
   // "Send now" on a queued message: interrupt the current turn and immediately
   // send THIS message, keeping the agent's partial output. Other queued messages
   // stay queued and flush normally after the new turn. Reuses the existing

apps/client/src/features/ai-chat/queries/ai-chat-query.ts

@@ -12,6 +12,7 @@ import {
   deleteAiChat,
   deleteAiRole,
   getAiChatMessages,
+  getAiChatRun,
   getAiChats,
   getAiRoleCatalog,
   getAiRoleCatalogBundle,
@@ -24,6 +25,7 @@ import {
 import {
   IAiChat,
   IAiChatMessageRow,
+  IAiChatRunResponse,
   IAiRole,
   IAiRoleCatalog,
   IAiRoleCatalogBundle,
@@ -34,6 +36,7 @@ import {
   IAiRoleUpdateFromCatalogResult,
 } from "@/features/ai-chat/types/ai-chat.types.ts";
 import { IPagination } from "@/lib/types.ts";
+import { runPollInterval } from "@/features/ai-chat/utils/run-polling.ts";
 
 export const AI_CHATS_RQ_KEY = ["ai-chats"];
 export const AI_ROLES_RQ_KEY = ["ai-roles"];
@@ -51,16 +54,18 @@ export const AI_CHAT_MESSAGES_RQ_KEY = (chatId: string) => [
   "ai-chat-messages",
   chatId,
 ];
+export const AI_CHAT_RUN_RQ_KEY = (chatId: string) => ["ai-chat-run", chatId];
 
 /** Paginated list of the current user's chats (auto-loads further pages). */
 export function useAiChatsQuery() {
   const query = useInfiniteQuery({
     queryKey: AI_CHATS_RQ_KEY,
-    queryFn: ({ pageParam }) =>
-      getAiChats({ cursor: pageParam, limit: 50 }),
+    queryFn: ({ pageParam }) => getAiChats({ cursor: pageParam, limit: 50 }),
     initialPageParam: undefined as string | undefined,
     getNextPageParam: (lastPage) =>
-      lastPage.meta.hasNextPage ? (lastPage.meta.nextCursor ?? undefined) : undefined,
+      lastPage.meta.hasNextPage
+        ? (lastPage.meta.nextCursor ?? undefined)
+        : undefined,
   });
 
   const data = useMemo<IPagination<IAiChat> | undefined>(() => {
@@ -90,7 +95,9 @@ export function useAiChatMessagesQuery(chatId: string | undefined) {
       getAiChatMessages({ chatId: chatId as string, cursor: pageParam }),
     initialPageParam: undefined as string | undefined,
     getNextPageParam: (lastPage) =>
-      lastPage.meta.hasNextPage ? (lastPage.meta.nextCursor ?? undefined) : undefined,
+      lastPage.meta.hasNextPage
+        ? (lastPage.meta.nextCursor ?? undefined)
+        : undefined,
     enabled: !!chatId,
   });
 
@@ -131,6 +138,34 @@ export function useAiChatMessagesQuery(chatId: string | undefined) {
   };
 }
 
+/**
+ * Reconnect to a chat's latest agent run and LIVE-FOLLOW it (#184). While the run
+ * is active the query re-polls every {@link runPollInterval} ms (driven off the
+ * fetched `run.status`, the same status-keyed refetchInterval pattern as the
+ * embeddings reindex polling); once the run reaches a terminal status — or there
+ * is no run — the interval returns `false` and polling stops on its own. Polling
+ * is thus naturally bounded by the run terminating; no separate timeout cap.
+ *
+ * `enabled` gates the whole thing: callers pass `false` when the autonomous-runs
+ * feature is off (the endpoint is NOT flag-gated server-side, but with the feature
+ * off the chat has no runs, so polling would only ever return `{ run: null }`) OR
+ * when THIS tab is the one actively streaming the run (the live SSE owns the view,
+ * so we must not also poll/merge). The global `retry: false` means a failed fetch
+ * leaves `data` undefined, so refetchInterval(undefined run) returns false — a
+ * failed fetch can never spin a tight loop.
+ */
+export function useAiChatRunQuery(
+  chatId: string | undefined,
+  enabled: boolean,
+) {
+  return useQuery<IAiChatRunResponse, Error>({
+    queryKey: AI_CHAT_RUN_RQ_KEY(chatId ?? ""),
+    queryFn: () => getAiChatRun(chatId as string),
+    enabled: !!chatId && enabled,
+    refetchInterval: (query) => runPollInterval(query.state.data?.run),
+  });
+}
+
 export function useRenameAiChatMutation() {
   const queryClient = useQueryClient();
   const { t } = useTranslation();
@@ -280,11 +315,14 @@ export function useImportAiRolesFromCatalogMutation() {
     mutationFn: (payload) => importAiRolesFromCatalog(payload),
     onSuccess: (result) => {
       notifications.show({
-        message: t("Imported {{created}}, renamed {{renamed}}, skipped {{skipped}}", {
-          created: result.created,
-          renamed: result.renamed,
-          skipped: result.skipped,
-        }),
+        message: t(
+          "Imported {{created}}, renamed {{renamed}}, skipped {{skipped}}",
+          {
+            created: result.created,
+            renamed: result.renamed,
+            skipped: result.skipped,
+          },
+        ),
       });
       // Surface partial failures (e.g. unique-name races) as a red warning.
       if (result.errors.length > 0) {

apps/client/src/features/ai-chat/queries/ai-chat-run-query.test.tsx

@@ -0,0 +1,92 @@
+import { describe, it, expect, vi, beforeEach } from "vitest";
+import React from "react";
+import { renderHook, waitFor } from "@testing-library/react";
+import { QueryClient, QueryClientProvider } from "@tanstack/react-query";
+import type { IAiChatRunResponse } from "@/features/ai-chat/types/ai-chat.types.ts";
+
+// react-i18next is pulled in transitively by ai-chat-query.ts (the mutation hooks
+// use it); stub it so the module imports cleanly in this hook test.
+vi.mock("react-i18next", () => ({
+  useTranslation: () => ({ t: (key: string) => key }),
+}));
+
+vi.mock("@mantine/notifications", () => ({
+  notifications: { show: vi.fn() },
+}));
+
+// Mock the whole service module; only getAiChatRun is exercised here, but the
+// other named exports must exist so ai-chat-query.ts imports resolve.
+vi.mock("@/features/ai-chat/services/ai-chat-service.ts", () => ({
+  getAiChatRun: vi.fn(),
+  getAiChatMessages: vi.fn(),
+  getAiChats: vi.fn(),
+  getAiRoleCatalog: vi.fn(),
+  getAiRoleCatalogBundle: vi.fn(),
+  getAiRoles: vi.fn(),
+  importAiRolesFromCatalog: vi.fn(),
+  createAiRole: vi.fn(),
+  deleteAiChat: vi.fn(),
+  deleteAiRole: vi.fn(),
+  renameAiChat: vi.fn(),
+  updateAiRole: vi.fn(),
+  updateAiRoleFromCatalog: vi.fn(),
+}));
+
+import { getAiChatRun } from "@/features/ai-chat/services/ai-chat-service.ts";
+import { useAiChatRunQuery } from "@/features/ai-chat/queries/ai-chat-query.ts";
+
+function createWrapper() {
+  const queryClient = new QueryClient({
+    defaultOptions: { queries: { retry: false } },
+  });
+  return function Wrapper({ children }: { children: React.ReactNode }) {
+    return (
+      <QueryClientProvider client={queryClient}>{children}</QueryClientProvider>
+    );
+  };
+}
+
+const runningResponse: IAiChatRunResponse = {
+  run: { id: "run-1", chatId: "c1", status: "running" },
+  message: {
+    id: "a1",
+    role: "assistant",
+    content: "working...",
+    createdAt: "2026-01-01T00:00:00Z",
+  },
+};
+
+describe("useAiChatRunQuery — enable gating", () => {
+  beforeEach(() => {
+    vi.clearAllMocks();
+  });
+
+  it("fetches the run when enabled (passive observer, feature on)", async () => {
+    vi.mocked(getAiChatRun).mockResolvedValue(runningResponse);
+    const { result } = renderHook(() => useAiChatRunQuery("c1", true), {
+      wrapper: createWrapper(),
+    });
+    await waitFor(() => expect(result.current.isSuccess).toBe(true));
+    expect(getAiChatRun).toHaveBeenCalledWith("c1");
+    expect(result.current.data?.run?.status).toBe("running");
+  });
+
+  it("does NOT fetch when disabled (this tab is the streamer / feature off)", async () => {
+    vi.mocked(getAiChatRun).mockResolvedValue(runningResponse);
+    renderHook(() => useAiChatRunQuery("c1", false), {
+      wrapper: createWrapper(),
+    });
+    // Give any errant fetch a chance to fire, then assert none did.
+    await new Promise((r) => setTimeout(r, 20));
+    expect(getAiChatRun).not.toHaveBeenCalled();
+  });
+
+  it("does NOT fetch when there is no chat id", async () => {
+    vi.mocked(getAiChatRun).mockResolvedValue(runningResponse);
+    renderHook(() => useAiChatRunQuery(undefined, true), {
+      wrapper: createWrapper(),
+    });
+    await new Promise((r) => setTimeout(r, 20));
+    expect(getAiChatRun).not.toHaveBeenCalled();
+  });
+});

apps/client/src/features/ai-chat/services/ai-chat-service.ts

@@ -5,6 +5,7 @@ import {
   IAiChatListParams,
   IAiChatMessageRow,
   IAiChatMessagesParams,
+  IAiChatRunResponse,
   IAiRole,
   IAiRoleCatalog,
   IAiRoleCatalogBundle,
@@ -42,6 +43,23 @@ export async function getAiChatMessages(
   return req.data;
 }
 
+/**
+ * Reconnect to the latest agent run of a chat (#184). Returns the run's
+ * persisted lifecycle state and the assistant message it materializes (the
+ * partial output while the run is in-flight, the final output once it finished).
+ * The DB is the source of truth, so this works for an in-flight run (the browser
+ * dropped, the run kept going) and a finished one alike; `{ run: null }` when the
+ * chat has never had a run. Owner-gated server-side (the requesting user must own
+ * the chat); it is NOT flag-gated — when the feature is off the chat simply has no
+ * runs, so the endpoint returns `{ run: null }`.
+ */
+export async function getAiChatRun(
+  chatId: string,
+): Promise<IAiChatRunResponse> {
+  const req = await api.post<IAiChatRunResponse>("/ai-chat/run", { chatId });
+  return req.data;
+}
+
 /**
  * Resolve the chat bound to a document (the current user's most-recent chat
  * created on that page), or null when there is none. Drives auto-open-on-page.

apps/client/src/features/ai-chat/types/ai-chat.types.ts

@@ -200,6 +200,38 @@ export interface IAiChatMessageRow {
   createdAt: string;
 }
 
+/**
+ * A persisted agent-run row (#184), mirroring the `ai_chat_runs` fields the
+ * client reads from `POST /ai-chat/run`. Only `status` is load-bearing for the
+ * reconnect-and-live-update UX (it drives the poll cadence); the rest are carried
+ * for display/diagnostics. The DB is the source of truth, so this resolves for an
+ * in-flight run (the browser dropped, the run kept going) and a finished one.
+ */
+export interface IAiChatRun {
+  id: string;
+  chatId: string;
+  // 'pending' | 'running' | 'succeeded' | 'failed' | 'aborted'. The first two are
+  // ACTIVE (keep polling); the rest are TERMINAL (stop polling).
+  status: "pending" | "running" | "succeeded" | "failed" | "aborted" | string;
+  error?: string | null;
+  stepCount?: number;
+  assistantMessageId?: string | null;
+  startedAt?: string | null;
+  finishedAt?: string | null;
+  createdAt?: string;
+  updatedAt?: string;
+}
+
+/**
+ * Response of `POST /ai-chat/run` (#184): the latest run of a chat and the
+ * assistant message it materializes (the partial/final output, projected from the
+ * persisted rows). Both are `null` when the chat has never had a run.
+ */
+export interface IAiChatRunResponse {
+  run: IAiChatRun | null;
+  message: IAiChatMessageRow | null;
+}
+
 export interface IAiChatListParams extends QueryParams {}
 
 export interface IAiChatMessagesParams {

apps/client/src/features/ai-chat/utils/run-polling.test.ts

@@ -0,0 +1,104 @@
+import { describe, it, expect } from "vitest";
+import type { UIMessage } from "@ai-sdk/react";
+import type { IAiChatRun } from "@/features/ai-chat/types/ai-chat.types.ts";
+import {
+  RUN_POLL_INTERVAL_MS,
+  isRunActive,
+  runPollInterval,
+  shouldObserveRun,
+  mergeObservedMessage,
+} from "./run-polling.ts";
+
+function makeRun(status: string): IAiChatRun {
+  return { id: "run-1", chatId: "c1", status };
+}
+
+function makeMsg(id: string, text: string): UIMessage {
+  return {
+    id,
+    role: "assistant",
+    parts: [{ type: "text", text }],
+  } as UIMessage;
+}
+
+describe("isRunActive", () => {
+  it("treats pending and running as active", () => {
+    expect(isRunActive(makeRun("pending"))).toBe(true);
+    expect(isRunActive(makeRun("running"))).toBe(true);
+  });
+
+  it("treats terminal / unknown / nullish as not active", () => {
+    expect(isRunActive(makeRun("succeeded"))).toBe(false);
+    expect(isRunActive(makeRun("failed"))).toBe(false);
+    expect(isRunActive(makeRun("aborted"))).toBe(false);
+    expect(isRunActive(makeRun("weird-future-status"))).toBe(false);
+    expect(isRunActive(null)).toBe(false);
+    expect(isRunActive(undefined)).toBe(false);
+  });
+});
+
+describe("runPollInterval (the refetchInterval helper)", () => {
+  it("returns 2000ms while the run is pending/running", () => {
+    expect(runPollInterval(makeRun("pending"))).toBe(RUN_POLL_INTERVAL_MS);
+    expect(runPollInterval(makeRun("running"))).toBe(RUN_POLL_INTERVAL_MS);
+    expect(RUN_POLL_INTERVAL_MS).toBe(2000);
+  });
+
+  it("returns false (stop polling) once the run is terminal", () => {
+    expect(runPollInterval(makeRun("succeeded"))).toBe(false);
+    expect(runPollInterval(makeRun("failed"))).toBe(false);
+    expect(runPollInterval(makeRun("aborted"))).toBe(false);
+  });
+
+  it("returns false (no polling) when there is no run", () => {
+    expect(runPollInterval(null)).toBe(false);
+    expect(runPollInterval(undefined)).toBe(false);
+  });
+});
+
+describe("shouldObserveRun (observer-vs-streamer decision)", () => {
+  it("observes an active run when this tab is NOT the local streamer", () => {
+    expect(shouldObserveRun(makeRun("running"), false)).toBe(true);
+    expect(shouldObserveRun(makeRun("pending"), false)).toBe(true);
+  });
+
+  it("observes a terminal run too (so the final output shows on reopen)", () => {
+    expect(shouldObserveRun(makeRun("succeeded"), false)).toBe(true);
+  });
+
+  it("does NOT observe when this tab IS the streamer (no double-render)", () => {
+    expect(shouldObserveRun(makeRun("running"), true)).toBe(false);
+    expect(shouldObserveRun(makeRun("succeeded"), true)).toBe(false);
+  });
+
+  it("does NOT observe when there is no run", () => {
+    expect(shouldObserveRun(null, false)).toBe(false);
+    expect(shouldObserveRun(undefined, false)).toBe(false);
+  });
+});
+
+describe("mergeObservedMessage", () => {
+  it("replaces the message with the same id in place (per-step growth)", () => {
+    const prev = [makeMsg("u1", "hi"), makeMsg("a1", "step 1")];
+    const observed = makeMsg("a1", "step 1\nstep 2");
+    const next = mergeObservedMessage(prev, observed);
+    expect(next).toHaveLength(2);
+    expect(next[1]).toBe(observed);
+    expect(next[0]).toBe(prev[0]); // untouched
+    expect(next).not.toBe(prev); // new array (never mutates input)
+  });
+
+  it("appends when the observed message is not yet present", () => {
+    const prev = [makeMsg("u1", "hi")];
+    const observed = makeMsg("a1", "first token");
+    const next = mergeObservedMessage(prev, observed);
+    expect(next).toHaveLength(2);
+    expect(next[1]).toBe(observed);
+  });
+
+  it("returns the original list unchanged when there is nothing to merge", () => {
+    const prev = [makeMsg("u1", "hi")];
+    expect(mergeObservedMessage(prev, null)).toBe(prev);
+    expect(mergeObservedMessage(prev, undefined)).toBe(prev);
+  });
+});

apps/client/src/features/ai-chat/utils/run-polling.ts

@@ -0,0 +1,71 @@
+import type { UIMessage } from "@ai-sdk/react";
+import type { IAiChatRun } from "@/features/ai-chat/types/ai-chat.types.ts";
+
+/**
+ * Reconnect-and-live-follow helpers (#184). When a chat is reopened while its
+ * agent run is STILL going, this tab is a PASSIVE OBSERVER: it did not start the
+ * run here (no local SSE stream), so it catches up by POLLING the reconnect
+ * endpoint (`POST /ai-chat/run`) and merging the run's incrementally-persisted
+ * assistant message into the rendered thread. These are the small pure decisions
+ * that machinery hangs off, extracted so they can be unit-tested in isolation
+ * (mirrors how reindex polling / editor-sync-state are tested).
+ */
+
+/** How often to re-poll the reconnect endpoint while a run is ACTIVE. */
+export const RUN_POLL_INTERVAL_MS = 2000;
+
+// 'pending' and 'running' are the two ACTIVE statuses; 'succeeded' | 'failed' |
+// 'aborted' are TERMINAL (and any unknown future status is treated as terminal,
+// so a stale/odd value never polls forever).
+const ACTIVE_STATUSES = new Set(["pending", "running"]);
+
+/** Whether a run is still going (worth polling / merging live updates from). */
+export function isRunActive(run: IAiChatRun | null | undefined): boolean {
+  return !!run && ACTIVE_STATUSES.has(run.status);
+}
+
+/**
+ * The TanStack Query `refetchInterval` value for the run query: poll every
+ * {@link RUN_POLL_INTERVAL_MS} while the run is active, and `false` (stop) once
+ * it is terminal or there is no run. Polling is thus naturally bounded by the run
+ * reaching a terminal status — no separate timeout cap is needed.
+ */
+export function runPollInterval(
+  run: IAiChatRun | null | undefined,
+): number | false {
+  return isRunActive(run) ? RUN_POLL_INTERVAL_MS : false;
+}
+
+/**
+ * Observer-vs-streamer decision. We render the polled run message (catch up +
+ * keep advancing) ONLY when this tab is a passive observer: there IS a run AND
+ * this tab is NOT the one locally streaming it (we reconnected, we didn't start
+ * it here). When this tab is the streamer, the live SSE stream owns the view, so
+ * we neither poll nor merge — avoiding a double-render fight. Terminal runs still
+ * merge (so the final persisted output is shown on reopen); the poll itself is
+ * stopped separately by {@link runPollInterval}.
+ */
+export function shouldObserveRun(
+  run: IAiChatRun | null | undefined,
+  localStreaming: boolean,
+): boolean {
+  return !!run && !localStreaming;
+}
+
+/**
+ * Merge an observed assistant message into the rendered list: replace the message
+ * with the same id in place (the in-progress assistant row is already seeded from
+ * history, so per-step growth replaces it), or append it when absent. Returns a
+ * new array; the input is never mutated.
+ */
+export function mergeObservedMessage(
+  messages: UIMessage[],
+  observed: UIMessage | null | undefined,
+): UIMessage[] {
+  if (!observed) return messages;
+  const idx = messages.findIndex((m) => m.id === observed.id);
+  if (idx === -1) return [...messages, observed];
+  const next = messages.slice();
+  next[idx] = observed;
+  return next;
+}

apps/client/src/features/workspace/types/workspace.types.ts

@@ -65,6 +65,9 @@ export interface IWorkspaceAiSettings {
   dictation?: boolean;
   dictationStreaming?: boolean;
   publicShareAssistant?: boolean;
+  // #184: detached agent runs (a run survives a browser disconnect and can be
+  // reconnected to / live-followed on reopen). Gates the run-reconnect polling.
+  autonomousRuns?: boolean;
 }
 
 export interface IWorkspaceSharingSettings {

apps/server/src/core/ai-chat/ai-chat-run.service.spec.ts

@@ -0,0 +1,492 @@
+import { Logger } from '@nestjs/common';
+import {
+  AiChatRunService,
+  RunAlreadyActiveError,
+  ONE_ACTIVE_RUN_PER_CHAT_INDEX,
+  mapTurnStatusToRun,
+} from './ai-chat-run.service';
+
+/** Shape a Postgres unique-violation the way the postgres.js driver surfaces it:
+ *  SQLSTATE 23505 + the offending index in `constraint_name`. */
+function uniqueViolation(constraintName: string): Error & {
+  code: string;
+  constraint_name: string;
+} {
+  return Object.assign(
+    new Error('duplicate key value violates unique constraint'),
+    {
+      code: '23505',
+      constraint_name: constraintName,
+    },
+  );
+}
+
+/**
+ * Unit coverage for the #184 phase-1 run lifecycle (AiChatRunService) with a
+ * hand-rolled mock repo — no Nest graph, no DB. The invariant under test is the
+ * one that makes a run "autonomous": a run keeps going when its SUBSCRIBER (the
+ * browser) detaches, and ONLY an explicit stop aborts it. We assert that at the
+ * abort-signal level (the signal the agent loop actually consumes).
+ */
+
+/** Minimal EnvironmentService stub. Single-instance (CLOUD unset) by default. */
+function makeEnv(isCloud = false) {
+  return { isCloud: () => isCloud };
+}
+
+function makeRepo(overrides: Record<string, jest.Mock> = {}) {
+  return {
+    insert: jest.fn(async (v: any) => ({
+      id: 'run-1',
+      status: v.status ?? 'running',
+      chatId: v.chatId,
+      workspaceId: v.workspaceId,
+    })),
+    update: jest.fn(async () => ({ id: 'run-1' })),
+    markStopRequested: jest.fn(async () => ({ id: 'run-1' })),
+    findActiveByChat: jest.fn(async () => undefined),
+    findLatestByChat: jest.fn(async () => undefined),
+    findById: jest.fn(async () => undefined),
+    sweepRunning: jest.fn(async () => 0),
+    ...overrides,
+  };
+}
+
+describe('mapTurnStatusToRun', () => {
+  it('maps the turn terminal status to the run terminal status', () => {
+    expect(mapTurnStatusToRun('completed')).toBe('succeeded');
+    expect(mapTurnStatusToRun('error')).toBe('failed');
+    expect(mapTurnStatusToRun('aborted')).toBe('aborted');
+  });
+});
+
+describe('AiChatRunService.onModuleInit (startup sweep)', () => {
+  afterEach(() => jest.restoreAllMocks());
+
+  it('calls sweepRunning and resolves; logs when > 0', async () => {
+    const repo = makeRepo({ sweepRunning: jest.fn(async () => 2) });
+    const logSpy = jest
+      .spyOn(Logger.prototype, 'log')
+      .mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(svc.onModuleInit()).resolves.toBeUndefined();
+    expect(repo.sweepRunning).toHaveBeenCalledTimes(1);
+    expect(logSpy).toHaveBeenCalledTimes(1);
+    expect(String(logSpy.mock.calls[0][0])).toContain('2');
+  });
+
+  it('a sweep failure is swallowed (never blocks startup)', async () => {
+    const repo = makeRepo({
+      sweepRunning: jest.fn(async () => {
+        throw new Error('db down');
+      }),
+    });
+    const warnSpy = jest
+      .spyOn(Logger.prototype, 'warn')
+      .mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(svc.onModuleInit()).resolves.toBeUndefined();
+    // The first warn is the sweep failure (the multi-instance warn never fires
+    // single-instance), so the message is the db error.
+    expect(String(warnSpy.mock.calls[0][0])).toContain('db down');
+  });
+
+  it('F1 (DECISION C): the boot sweep is UNCONDITIONAL — sweepRunning is called with NO staleness window, so a fresh running run (updatedAt = now) is settled, not skipped', async () => {
+    // The bug: a fast restart (deploy/OOM within minutes of the last step) left a
+    // run stuck 'running' under the old 10-min window, 409ing every later turn in
+    // the chat. The fix settles ALL pending|running on boot. We assert the service
+    // invokes sweepRunning with no `staleMs` (the unconditional path); the repo's
+    // own spec proves no-window => no updatedAt filter.
+    const repo = makeRepo({ sweepRunning: jest.fn(async () => 1) });
+    jest.spyOn(Logger.prototype, 'log').mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.onModuleInit();
+    expect(repo.sweepRunning).toHaveBeenCalledTimes(1);
+    const callArgs = repo.sweepRunning.mock.calls[0] as unknown[];
+    const firstArg = callArgs[0] as { staleMs?: number } | undefined;
+    // Either no opts at all, or opts without a staleMs window => unconditional.
+    expect(firstArg?.staleMs).toBeUndefined();
+  });
+
+  it('F2 (DECISION A): warns at startup that autonomousRuns is single-instance-only when a horizontally-scaled deployment (CLOUD) is detected', async () => {
+    const repo = makeRepo();
+    const warnSpy = jest
+      .spyOn(Logger.prototype, 'warn')
+      .mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv(true) as never);
+    await svc.onModuleInit();
+    const warned = warnSpy.mock.calls.some((c) =>
+      /single-instance-only/i.test(String(c[0])),
+    );
+    expect(warned).toBe(true);
+  });
+
+  it('F2: does NOT warn about multi-instance on a single-instance (CLOUD unset) deployment', async () => {
+    const repo = makeRepo();
+    const warnSpy = jest
+      .spyOn(Logger.prototype, 'warn')
+      .mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv(false) as never);
+    await svc.onModuleInit();
+    const warned = warnSpy.mock.calls.some((c) =>
+      /single-instance-only/i.test(String(c[0])),
+    );
+    expect(warned).toBe(false);
+  });
+});
+
+describe('AiChatRunService run lifecycle', () => {
+  it('beginRun inserts a running row and registers a live abort controller', async () => {
+    const repo = makeRepo();
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const handle = await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+    expect(repo.insert).toHaveBeenCalledWith(
+      expect.objectContaining({
+        chatId: 'chat-1',
+        workspaceId: 'ws-1',
+        createdBy: 'user-1',
+        status: 'running',
+        trigger: 'user',
+      }),
+    );
+    expect(handle.runId).toBe('run-1');
+    expect(handle.signal.aborted).toBe(false);
+    expect(svc.isLocallyActive('run-1')).toBe(true);
+  });
+
+  it('beginRun REJECTS the racer: a 23505 on the one-active-per-chat index throws RunAlreadyActiveError (not swallowed) and registers no controller', async () => {
+    // The race: the controller's cheap pre-check passed for BOTH concurrent
+    // turns, so the loser's INSERT hits the partial unique index. That rejection
+    // is the authoritative gate — it must surface, not be swallowed into an
+    // untracked turn.
+    const repo = makeRepo({
+      insert: jest.fn(async () => {
+        throw uniqueViolation(ONE_ACTIVE_RUN_PER_CHAT_INDEX);
+      }),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(
+      svc.beginRun({ chatId: 'chat-1', workspaceId: 'ws-1', userId: 'user-1' }),
+    ).rejects.toBeInstanceOf(RunAlreadyActiveError);
+    // No controller leaked for a rejected start.
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+  });
+
+  it('beginRun does NOT mask an unrelated unique violation as already-active', async () => {
+    // A 23505 on some OTHER constraint is a real bug, not the race — it must
+    // propagate unchanged so it is never silently treated as "already active".
+    const other = uniqueViolation('ai_chat_runs_pkey');
+    const repo = makeRepo({
+      insert: jest.fn(async () => {
+        throw other;
+      }),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(
+      svc.beginRun({ chatId: 'chat-1', workspaceId: 'ws-1', userId: 'user-1' }),
+    ).rejects.toBe(other);
+  });
+
+  it('beginRun propagates a non-unique insert failure unchanged', async () => {
+    const boom = new Error('connection reset');
+    const repo = makeRepo({
+      insert: jest.fn(async () => {
+        throw boom;
+      }),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(
+      svc.beginRun({ chatId: 'chat-1', workspaceId: 'ws-1', userId: 'user-1' }),
+    ).rejects.toBe(boom);
+  });
+
+  it('two concurrent begins on one chat: exactly one wins, the other is rejected as already-active', async () => {
+    // Integration-style: model the DB partial unique index with a one-shot slot.
+    // The first insert claims it; the second hits a 23505 on the active index.
+    let slotTaken = false;
+    const repo = makeRepo({
+      insert: jest.fn(async (v: any) => {
+        if (slotTaken) throw uniqueViolation(ONE_ACTIVE_RUN_PER_CHAT_INDEX);
+        slotTaken = true;
+        return { id: 'run-win', status: v.status, chatId: v.chatId };
+      }),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const results = await Promise.allSettled([
+      svc.beginRun({ chatId: 'chat-1', workspaceId: 'ws-1', userId: 'user-1' }),
+      svc.beginRun({ chatId: 'chat-1', workspaceId: 'ws-1', userId: 'user-1' }),
+    ]);
+    const fulfilled = results.filter((r) => r.status === 'fulfilled');
+    const rejected = results.filter((r) => r.status === 'rejected');
+    expect(fulfilled).toHaveLength(1);
+    expect(rejected).toHaveLength(1);
+    expect((rejected[0] as PromiseRejectedResult).reason).toBeInstanceOf(
+      RunAlreadyActiveError,
+    );
+    // Exactly the winner is locally active.
+    expect(svc.isLocallyActive('run-win')).toBe(true);
+  });
+
+  it('a SUBSCRIBER detaching does NOT abort the run (only an explicit stop does)', async () => {
+    const repo = makeRepo();
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const handle = await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+    // Model a browser disconnect: nothing in the run service is told to stop.
+    // The signal the agent loop consumes must stay un-aborted and the run stays
+    // locally active — i.e. it keeps running server-side.
+    expect(handle.signal.aborted).toBe(false);
+    expect(svc.isLocallyActive('run-1')).toBe(true);
+    // markStopRequested was never called by a mere detach.
+    expect(repo.markStopRequested).not.toHaveBeenCalled();
+  });
+
+  it('requestStop aborts the live controller, marks the row, and reports true', async () => {
+    const repo = makeRepo();
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const handle = await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+    const aborted = jest.fn();
+    handle.signal.addEventListener('abort', aborted);
+
+    const result = await svc.requestStop('run-1', 'ws-1');
+
+    expect(result).toBe(true);
+    expect(handle.signal.aborted).toBe(true);
+    expect(aborted).toHaveBeenCalledTimes(1);
+    expect(repo.markStopRequested).toHaveBeenCalledWith('run-1', 'ws-1');
+  });
+
+  it('requestStop on a run this replica does NOT hold still marks the row (true)', async () => {
+    // e.g. after a restart, or a sibling replica owns the controller. The row is
+    // marked so the owning replica/sweep settles it; we report a stop took effect.
+    const repo = makeRepo({
+      markStopRequested: jest.fn(async () => ({ id: 'run-9' })),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const result = await svc.requestStop('run-9', 'ws-1');
+    expect(result).toBe(true);
+    expect(svc.isLocallyActive('run-9')).toBe(false);
+  });
+
+  it('requestStop on an already-settled run (nothing active) reports false', async () => {
+    const repo = makeRepo({
+      markStopRequested: jest.fn(async () => undefined),
+    });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    const result = await svc.requestStop('run-done', 'ws-1');
+    expect(result).toBe(false);
+  });
+
+  it('finalizeRun settles the row to the mapped status with finishedAt and drops the in-memory entry', async () => {
+    const repo = makeRepo();
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+    expect(svc.isLocallyActive('run-1')).toBe(true);
+
+    await svc.finalizeRun('run-1', 'ws-1', 'error', 'provider blew up');
+
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+    expect(repo.update).toHaveBeenCalledWith(
+      'run-1',
+      'ws-1',
+      expect.objectContaining({
+        status: 'failed',
+        error: 'provider blew up',
+        finishedAt: expect.any(Date),
+      }),
+    );
+  });
+
+  it('finalizeRun is IDEMPOTENT: a second settle no-ops (single terminal write)', async () => {
+    // The #184 review fix: AiChatService.stream wraps the turn in a safety-net
+    // catch that settles a failed turn AND streamText's terminal callback may
+    // also settle — both routes call finalizeRun. Only the FIRST may write the
+    // terminal row; the second must no-op so a late settle can never clobber the
+    // real terminal status or double-write the row.
+    const repo = makeRepo();
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+
+    await svc.finalizeRun('run-1', 'ws-1', 'error', 'first');
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+    // A second settle (e.g. a streamText callback firing after the catch) no-ops.
+    await svc.finalizeRun('run-1', 'ws-1', 'completed', undefined);
+
+    expect(repo.update).toHaveBeenCalledTimes(1);
+    expect(repo.update).toHaveBeenCalledWith(
+      'run-1',
+      'ws-1',
+      expect.objectContaining({ status: 'failed', error: 'first' }),
+    );
+  });
+
+  it('CONCURRENCY: two simultaneous finalizeRun on the same run write the terminal row EXACTLY ONCE (the 2nd caller exits synchronously at the atomic claim)', async () => {
+    // The CRITICAL race: AiChatService.stream's safety-net catch settles the turn
+    // to 'error' while a streamText terminal callback also settles it — both call
+    // finalizeRun for the SAME runId. The once-gate must close ATOMICALLY: a
+    // `settled.has` check alone is read BEFORE the awaited UPDATE, so both callers
+    // would pass it and BOTH write the row (last-write-wins clobber + double
+    // write). The fix claims the run with a SYNCHRONOUS `active.delete` before any
+    // await, so the second caller returns in the same tick, before the UPDATE.
+    //
+    // We force the two calls to overlap by making `update` return a promise we
+    // resolve only AFTER both finalizeRun calls have run their synchronous bodies.
+    let resolveUpdate!: (v: unknown) => void;
+    const updateGate = new Promise((res) => {
+      resolveUpdate = res;
+    });
+    const update = jest.fn(() => updateGate);
+    const repo = makeRepo({ update });
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+
+    // Fire both before the (pending) update resolves. The first synchronously
+    // claims the entry (active.delete) and awaits update; the second, started in
+    // the same macrotask, finds the entry already gone and returns at the claim
+    // WITHOUT ever calling update.
+    const p1 = svc.finalizeRun('run-1', 'ws-1', 'completed');
+    const p2 = svc.finalizeRun('run-1', 'ws-1', 'error', 'safety-net');
+
+    // The decisive assertion: exactly one caller reached the terminal UPDATE.
+    expect(update).toHaveBeenCalledTimes(1);
+
+    // Let the single in-flight update land; both calls resolve cleanly.
+    resolveUpdate({ id: 'run-1' });
+    await Promise.all([p1, p2]);
+
+    expect(update).toHaveBeenCalledTimes(1);
+    // The winner is the FIRST caller ('completed' -> 'succeeded'); the late
+    // 'error' settle never wrote, so it could not clobber the real status.
+    expect(update).toHaveBeenCalledWith(
+      'run-1',
+      'ws-1',
+      expect.objectContaining({ status: 'succeeded' }),
+    );
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+  });
+
+  it('F6: a TRANSIENT terminal-write failure is ridden out by the bounded retry — the run is settled, not stranded', async () => {
+    // The bug: finalizeRun used to DROP the in-memory entry BEFORE the terminal
+    // UPDATE, then only warn-log a failure. A single transient blip (pool
+    // exhaustion / deadlock / connection hiccup) on that PK UPDATE left the row
+    // 'running' with nothing left to recover it -> every later turn in that chat
+    // 409s until a restart. The fix updates FIRST and retries.
+    let calls = 0;
+    const repo = makeRepo({
+      update: jest.fn(async () => {
+        calls += 1;
+        if (calls === 1) throw new Error('deadlock detected');
+        return { id: 'run-1' };
+      }),
+    });
+    jest.spyOn(Logger.prototype, 'warn').mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+
+    await svc.finalizeRun('run-1', 'ws-1', 'completed');
+
+    // The retry landed the terminal write: the entry is dropped (slot freed) and
+    // the row carries the real terminal status — NOT stranded at 'running'.
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+    expect(repo.update).toHaveBeenCalledTimes(2);
+    expect(repo.update).toHaveBeenLastCalledWith(
+      'run-1',
+      'ws-1',
+      expect.objectContaining({ status: 'succeeded' }),
+    );
+  });
+
+  it('F6: if the terminal write keeps failing, the entry is RETAINED and a LATER settle completes it (chat not permanently 409d)', async () => {
+    // Worst case: the DB is down for the whole first finalize (all attempts fail).
+    // The run must NOT be silently lost — the entry stays so a subsequent settle
+    // (a streamText callback, requestStop -> onAbort, or a future sweep) can retry.
+    let healthy = false;
+    const repo = makeRepo({
+      update: jest.fn(async () => {
+        if (!healthy) throw new Error('pool exhausted');
+        return { id: 'run-1' };
+      }),
+    });
+    jest.spyOn(Logger.prototype, 'warn').mockImplementation(() => undefined);
+    const errorSpy = jest
+      .spyOn(Logger.prototype, 'error')
+      .mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await svc.beginRun({
+      chatId: 'chat-1',
+      workspaceId: 'ws-1',
+      userId: 'user-1',
+    });
+
+    // First settle: every bounded attempt fails -> entry retained, NOT settled.
+    await svc.finalizeRun('run-1', 'ws-1', 'completed');
+    expect(svc.isLocallyActive('run-1')).toBe(true);
+    // F12: the give-up emits ONE explicit, greppable ERROR (run + chat context)
+    // so an operator can tell "gave up, run held in memory" from a per-attempt
+    // blip — distinct from the per-attempt warns.
+    const gaveUp = errorSpy.mock.calls.some(
+      (c) =>
+        /NON-TERMINAL/.test(String(c[0])) &&
+        /run-1/.test(String(c[0])) &&
+        /chat-1/.test(String(c[0])),
+    );
+    expect(gaveUp).toBe(true);
+
+    // The DB recovers; a later settle now succeeds and frees the slot.
+    healthy = true;
+    await svc.finalizeRun('run-1', 'ws-1', 'completed');
+    expect(svc.isLocallyActive('run-1')).toBe(false);
+    expect(repo.update).toHaveBeenLastCalledWith(
+      'run-1',
+      'ws-1',
+      expect.objectContaining({ status: 'succeeded' }),
+    );
+
+    // And it is now idempotent: a further settle no-ops (terminal row already
+    // written), so a double-settle can never clobber the real status.
+    const callsBefore = repo.update.mock.calls.length;
+    await svc.finalizeRun('run-1', 'ws-1', 'error', 'late');
+    expect(repo.update).toHaveBeenCalledTimes(callsBefore);
+  });
+
+  it('recordStep / linkAssistantMessage are best-effort: a repo failure is swallowed', async () => {
+    const repo = makeRepo({
+      update: jest.fn(async () => {
+        throw new Error('transient');
+      }),
+    });
+    jest.spyOn(Logger.prototype, 'warn').mockImplementation(() => undefined);
+    const svc = new AiChatRunService(repo as never, makeEnv() as never);
+    await expect(svc.recordStep('run-1', 'ws-1', 3)).resolves.toBeUndefined();
+    await expect(
+      svc.linkAssistantMessage('run-1', 'ws-1', 'msg-1'),
+    ).resolves.toBeUndefined();
+  });
+});

apps/server/src/core/ai-chat/ai-chat-run.service.ts

@@ -0,0 +1,426 @@
+import { Injectable, Logger, OnModuleInit } from '@nestjs/common';
+import { AiChatRunRepo } from '@docmost/db/repos/ai-chat/ai-chat-run.repo';
+import { AiChatRun } from '@docmost/db/types/entity.types';
+import { isUniqueViolation, violatedConstraint } from '@docmost/db/utils';
+import { EnvironmentService } from '../../integrations/environment/environment.service';
+
+/** Name of the partial unique index enforcing "one active run per chat" (see the
+ *  ai_chat_runs migration). A 23505 on THIS constraint is the race-safe signal
+ *  that a concurrent turn already owns the chat — distinct from any other unique
+ *  collision, which must NOT be silently treated as "already active". */
+export const ONE_ACTIVE_RUN_PER_CHAT_INDEX = 'ai_chat_runs_one_active_per_chat';
+
+/**
+ * Thrown by {@link AiChatRunService.beginRun} when the run-row INSERT loses the
+ * race for a chat's single active slot (the partial unique index rejects it with
+ * a 23505). This is the AUTHORITATIVE concurrency gate: the controller's cheap
+ * pre-check is only a fast-path, and a request that slips past it must NOT run
+ * untracked. The caller (AiChatService.stream) translates this into a 409 and
+ * aborts the turn BEFORE any AI/provider call.
+ */
+export class RunAlreadyActiveError extends Error {
+  constructor(public readonly chatId: string) {
+    super(`An agent run is already in progress for chat ${chatId}`);
+    this.name = 'RunAlreadyActiveError';
+  }
+}
+
+/**
+ * The terminal status of a TURN (the #183 assistant-row lifecycle) maps onto the
+ * terminal status of a RUN (#184). A turn that completed -> the run succeeded; a
+ * turn that errored -> the run failed; a turn aborted (explicit user stop) -> the
+ * run aborted. Pure + unit-testable.
+ */
+export type TurnTerminalStatus = 'completed' | 'error' | 'aborted';
+export type RunTerminalStatus = 'succeeded' | 'failed' | 'aborted';
+
+export function mapTurnStatusToRun(
+  status: TurnTerminalStatus,
+): RunTerminalStatus {
+  switch (status) {
+    case 'completed':
+      return 'succeeded';
+    case 'error':
+      return 'failed';
+    case 'aborted':
+      return 'aborted';
+  }
+}
+
+/** An in-flight run held in process memory: its AbortController is the ONLY thing
+ *  that can stop the turn (an explicit user stop), independent of the browser
+ *  socket. A mere disconnect never touches it, so the run keeps going. */
+interface ActiveRun {
+  controller: AbortController;
+  chatId: string;
+  workspaceId: string;
+}
+
+/** The live handle the streaming path drives a run through (returned by
+ *  {@link AiChatRunService.beginRun}). The `signal` governs the agent loop's
+ *  abort — wired to the run, NOT to the HTTP socket. */
+export interface RunHandle {
+  runId: string;
+  signal: AbortSignal;
+}
+
+/**
+ * AiChatRunService (#184 phase 1) — owns the agent RUN as a first-class,
+ * server-side lifecycle object detached from the HTTP request / browser window.
+ *
+ * Responsibilities:
+ *  - create a run row when a turn starts (pending -> running) and register an
+ *    in-memory AbortController for it (the explicit-stop lever);
+ *  - finalize the run row (succeeded / failed / aborted) and unregister it;
+ *  - service an EXPLICIT user stop (`requestStop`) — the ONLY thing that aborts a
+ *    run; a browser disconnect deliberately does NOT;
+ *  - crash-recovery sweep of dangling runs on startup.
+ *
+ * The agent loop itself still runs in AiChatService.stream (reusing #183's
+ * step-granular durable write path, `consumeStream` already drains it independent
+ * of the socket); this service only wraps it in a durable lifecycle and an
+ * abort handle that outlives the subscriber.
+ */
+@Injectable()
+export class AiChatRunService implements OnModuleInit {
+  private readonly logger = new Logger(AiChatRunService.name);
+
+  // runId -> ActiveRun. Process-local on purpose (phase 1 is single-process /
+  // in-memory transport; a cross-process BullMQ runner + Redis stop-signal is
+  // deferred to phase 2). A stop for a runId not in this map (e.g. after a
+  // restart) still records `stop_requested_at` on the row.
+  private readonly active = new Map<string, ActiveRun>();
+
+  // runIds whose TERMINAL row write has SUCCEEDED — the idempotency once-gate
+  // (F6). A finalize must short-circuit only AFTER the terminal write has landed,
+  // NOT merely after the in-memory entry was dropped: a transient UPDATE failure
+  // has to stay retryable, so "already settled" means "row already terminal", not
+  // "entry already gone". Grows by one short UUID per finished run over process
+  // uptime — negligible in phase 1's single process.
+  private readonly settled = new Set<string>();
+
+  // Bounded retry for the terminal write (F6): a single PK UPDATE can fail
+  // transiently under many fire-and-forget writes (pool exhaustion, deadlock, a
+  // brief connection blip). Riding out that blip in-place matters because the
+  // dominant success path (streamText onFinish) settles exactly ONCE — if that
+  // write is dropped and never retried, the row is stranded 'running' and the
+  // one-active-run gate 409s every future turn in the chat until a restart (no
+  // periodic sweep in phase 1).
+  private static readonly FINALIZE_MAX_ATTEMPTS = 3;
+  private static readonly FINALIZE_RETRY_BASE_MS = 50;
+
+  constructor(
+    private readonly runRepo: AiChatRunRepo,
+    private readonly environment: EnvironmentService,
+  ) {}
+
+  /**
+   * Crash-recovery sweep on server start: settle EVERY run still left
+   * pending/running to 'aborted' (F1 / DECISION C). The boot sweep is
+   * UNCONDITIONAL — no staleness window — because phase 1 is single-process: on a
+   * fresh boot any pending|running run is definitionally hung (no live runner owns
+   * it), so even a fast restart (deploy/OOM within minutes of the last step) can
+   * no longer leave a run stuck 'running' forever (which would make the
+   * one-active-run gate 409 every future turn in that chat). The staleness window
+   * is reintroduced only for the phase-2 multi-instance timer sweep, where a
+   * booting replica must not abort a run another replica is actively executing.
+   * Best-effort — a sweep failure is logged but MUST NOT block startup (mirrors
+   * AiChatService.onModuleInit for #183).
+   */
+  async onModuleInit(): Promise<void> {
+    this.warnIfMultiInstance();
+    try {
+      // No `staleMs`: unconditional boot sweep (F1). See AiChatRunRepo.sweepRunning.
+      const swept = await this.runRepo.sweepRunning();
+      if (swept > 0) {
+        this.logger.log(
+          `Startup sweep: marked ${swept} dangling agent run(s) as 'aborted'.`,
+        );
+      }
+    } catch (err) {
+      this.logger.warn(
+        `Startup sweep of dangling runs failed: ${
+          err instanceof Error ? err.message : 'unknown error'
+        }`,
+      );
+    }
+  }
+
+  /**
+   * F2 (DECISION A): autonomous runs are SINGLE-INSTANCE-ONLY in phase 1. An
+   * explicit Stop, and the in-memory AbortController that backs it, are
+   * process-local: a Stop only aborts the live turn if it lands on the SAME
+   * replica that owns the run (it still stamps `stop_requested_at` cross-instance,
+   * but nothing reads that flag during an active run yet). Cross-instance pub/sub
+   * stop is phase 2. So if the deployment is horizontally scaled, warn loudly at
+   * startup that a Stop may not reach a run executing on another replica.
+   *
+   * DETECTION: this codebase always wires the socket.io Redis adapter (REDIS_URL
+   * is mandatory), so the adapter alone is NOT a horizontal-scaling signal. The
+   * authoritative signal the codebase has is `CLOUD=true` (EnvironmentService
+   * .isCloud()), the Docmost-cloud multi-replica deployment. We warn whenever that
+   * is set, because any workspace could enable settings.ai.autonomousRuns. A
+   * self-hosted operator running multiple replicas behind a load balancer is also
+   * multi-instance; the deploy docs (.env.example / AGENTS.md) spell out the
+   * single-instance constraint for that case.
+   */
+  private warnIfMultiInstance(): void {
+    if (this.environment.isCloud()) {
+      this.logger.warn(
+        'Autonomous agent runs (settings.ai.autonomousRuns) are SINGLE-INSTANCE-ONLY ' +
+          'in phase 1: a horizontally-scaled deployment was detected (CLOUD=true). ' +
+          'An explicit Stop only aborts a run executing on the same replica that owns ' +
+          'it (cross-instance Stop is not yet reliable — phase 2). Run a single ' +
+          'instance if you enable autonomousRuns, or keep the flag off.',
+      );
+    }
+  }
+
+  /**
+   * Start a run for a turn: insert the run row (status 'running', startedAt now),
+   * register a fresh AbortController for it, and return a {@link RunHandle} whose
+   * `signal` the agent loop uses. The DB partial unique index guarantees at most
+   * one active run per chat — a second concurrent start on the same chat REJECTS
+   * at the insert (a 23505 on {@link ONE_ACTIVE_RUN_PER_CHAT_INDEX}). That
+   * rejection is the AUTHORITATIVE race gate: it is surfaced as a distinct
+   * {@link RunAlreadyActiveError} (NOT swallowed), so the caller turns it into a
+   * 409 and never streams an untracked turn. The controller is registered AFTER a
+   * successful insert so a rejected start leaks nothing.
+   */
+  async beginRun(args: {
+    chatId: string;
+    workspaceId: string;
+    userId: string;
+    trigger?: string;
+  }): Promise<RunHandle> {
+    let run: AiChatRun;
+    try {
+      run = await this.runRepo.insert({
+        chatId: args.chatId,
+        workspaceId: args.workspaceId,
+        createdBy: args.userId,
+        trigger: args.trigger ?? 'user',
+        status: 'running',
+        startedAt: new Date(),
+      });
+    } catch (err) {
+      // The race backstop: a concurrent turn already holds this chat's single
+      // active slot, so the partial unique index rejected our insert. Surface a
+      // distinct signal — the caller MUST reject this turn (409), not run it
+      // untracked. Any OTHER error propagates unchanged.
+      if (
+        isUniqueViolation(err) &&
+        violatedConstraint(err) === ONE_ACTIVE_RUN_PER_CHAT_INDEX
+      ) {
+        throw new RunAlreadyActiveError(args.chatId);
+      }
+      throw err;
+    }
+    const controller = new AbortController();
+    this.active.set(run.id, {
+      controller,
+      chatId: args.chatId,
+      workspaceId: args.workspaceId,
+    });
+    return { runId: run.id, signal: controller.signal };
+  }
+
+  /** Link the assistant message (the #183 projection) to its run. Best-effort. */
+  async linkAssistantMessage(
+    runId: string,
+    workspaceId: string,
+    assistantMessageId: string,
+  ): Promise<void> {
+    try {
+      await this.runRepo.update(runId, workspaceId, { assistantMessageId });
+    } catch (err) {
+      this.logger.warn(
+        `Failed to link assistant message to run ${runId}: ${
+          err instanceof Error ? err.message : 'unknown error'
+        }`,
+      );
+    }
+  }
+
+  /** Persist progress: bump the run's finished-step count. Best-effort (never
+   *  blocks or breaks the stream). */
+  async recordStep(
+    runId: string,
+    workspaceId: string,
+    stepCount: number,
+  ): Promise<void> {
+    try {
+      await this.runRepo.update(runId, workspaceId, { stepCount });
+    } catch (err) {
+      this.logger.warn(
+        `Failed to record step for run ${runId}: ${
+          err instanceof Error ? err.message : 'unknown error'
+        }`,
+      );
+    }
+  }
+
+  /**
+   * Finalize a run to its terminal status (succeeded / failed / aborted),
+   * stamping finishedAt + any error. Best-effort, but ROBUST against a transient
+   * terminal-write failure (F6) AND atomically safe against a concurrent settle.
+   *
+   * ATOMIC ONCE-CLAIM (the gate must close in ONE synchronous tick): two
+   * finalizeRun calls for the SAME run can race — the documented real path is
+   * AiChatService.stream's safety-net catch settling the turn to 'error' while a
+   * streamText terminal callback (onFinish/onAbort/onError) ALSO settles it. The
+   * `settled.has` check alone is NOT a gate: it is read BEFORE the awaited UPDATE,
+   * so two callers can both see `false` and both write the row (last-write-wins
+   * clobbers the real terminal status, and the bounded retry only widens that
+   * window). The claim therefore happens via `active.delete`, a SYNCHRONOUS
+   * check-and-clear with NO await between the gate and the entry removal: the
+   * second concurrent caller finds the entry already gone and returns in the same
+   * tick, before any UPDATE. The transition "nobody is finalizing" -> "I am
+   * finalizing" is thus a single atomic step.
+   *
+   * ORDER MATTERS (F6): once we own the claim, the terminal UPDATE happens FIRST;
+   * only once it SUCCEEDS do we record the run as settled. If the UPDATE fails on
+   * every bounded attempt we RESTORE the in-memory entry, leave the run UNsettled,
+   * and emit an ERROR signal that the row is left non-terminal 'running' (which
+   * would 409 every future turn in the chat until recovery). An in-process retry
+   * by a LATER settle is only POSSIBLE, never guaranteed: it needs (a) the entry
+   * to have been restored at the give-up path AND (b) a fresh settler to arrive
+   * AFTER that restore. A concurrent settler that arrives DURING the retry window
+   * — while the entry is deleted for backoff and not yet restored — is consumed at
+   * the synchronous `active.delete` claim (it finds nothing to delete and returns
+   * a no-op), so it does NOT become an in-process retrier. The NO-streamText path
+   * (the turn threw before streamText was wired, so ONLY the safety-net ever
+   * settles) likewise has no second in-process settler at all. The UNCONDITIONAL
+   * backstop in every case is the boot sweep on the next restart (phase 1 has no
+   * periodic in-process sweep); the retained entry is bounded (cleared on restart)
+   * and harmless meanwhile.
+   *
+   * IDEMPOTENT on SUCCESS (#184 review): the terminal write happens AT MOST ONCE
+   * per run. After a successful write the once-gate keys off {@link settled} (the
+   * terminal row already written) so a settle arriving AFTER the entry was already
+   * dropped-and-settled returns early; a settle racing the in-flight write is
+   * stopped earlier still, by the `active.delete` claim. Either way a genuine
+   * double-settle collapses to a single write and a late settle can never clobber
+   * the real terminal status or double-write the row.
+   */
+  async finalizeRun(
+    runId: string,
+    workspaceId: string,
+    turnStatus: TurnTerminalStatus,
+    error?: string,
+  ): Promise<void> {
+    // ---- Atomic once-claim (synchronous; NO await before the gate closes) ----
+    // Already terminally written -> idempotent no-op.
+    if (this.settled.has(runId)) return;
+    // Capture the entry BEFORE the delete so a total-failure path can restore it.
+    const entry = this.active.get(runId);
+    // SYNCHRONOUS check-and-clear: the FIRST caller deletes (claims) the entry;
+    // any concurrent SECOND caller finds nothing to delete and returns HERE, in
+    // the same tick, before any await — so it can never reach the UPDATE.
+    if (!this.active.delete(runId)) return;
+
+    let lastError: unknown;
+    for (
+      let attempt = 1;
+      attempt <= AiChatRunService.FINALIZE_MAX_ATTEMPTS;
+      attempt++
+    ) {
+      try {
+        await this.runRepo.update(runId, workspaceId, {
+          status: mapTurnStatusToRun(turnStatus),
+          finishedAt: new Date(),
+          error: error ?? null,
+        });
+        // Terminal write landed: arm the once-gate. The entry is already gone
+        // (claimed above); we do NOT restore it. The slot is now free.
+        this.settled.add(runId);
+        return;
+      } catch (err) {
+        lastError = err;
+        this.logger.warn(
+          `Failed to finalize run ${runId} (attempt ${attempt}/${
+            AiChatRunService.FINALIZE_MAX_ATTEMPTS
+          }): ${err instanceof Error ? err.message : 'unknown error'}`,
+        );
+        if (attempt < AiChatRunService.FINALIZE_MAX_ATTEMPTS) {
+          await this.delay(AiChatRunService.FINALIZE_RETRY_BASE_MS * attempt);
+        }
+      }
+    }
+    // Every attempt failed: this is a give-up, materially worse than a per-attempt
+    // blip — the row is left NON-TERMINAL ('running'), so emit ONE explicit,
+    // greppable ERROR so an operator can tell "survived a blip" from "gave up, run
+    // held in memory until recovery" (the last warn alone says only "attempt 3/3").
+    this.logger.error(
+      `Run ${runId} (chat ${entry?.chatId ?? 'unknown'}) left NON-TERMINAL ` +
+        `('running'): terminal write failed after ${
+          AiChatRunService.FINALIZE_MAX_ATTEMPTS
+        } attempts; entry retained in memory, recovery deferred to next settle / ` +
+        `boot sweep`,
+      lastError,
+    );
+    // RESTORE the claimed entry (and leave the run UNsettled) so a LATER settle
+    // that arrives AFTER this restore MAY retry the terminal write — but that
+    // in-process retry is NOT guaranteed (a concurrent settler caught in the retry
+    // window above is consumed at the `active.delete` claim, and the no-streamText
+    // path has no second settler at all). The UNCONDITIONAL backstop in every case
+    // is the boot sweep on the next restart; the restored entry is bounded and
+    // cleared on restart.
+    if (entry) this.active.set(runId, entry);
+  }
+
+  /** Small async backoff between terminal-write retries (F6). Isolated so it is
+   *  trivial to stub/fake-time in tests. */
+  private delay(ms: number): Promise<void> {
+    return new Promise((resolve) => setTimeout(resolve, ms));
+  }
+
+  /**
+   * Request an EXPLICIT stop of a run (the user pressed Stop). This is the ONLY
+   * thing that aborts a run — distinct from a browser disconnect, which leaves
+   * the run going. Records `stop_requested_at` on the row (only while active) and
+   * aborts the in-process controller if this replica owns the run. Returns true
+   * when a stop took effect (row marked and/or controller aborted), false when
+   * there was nothing active to stop.
+   */
+  async requestStop(runId: string, workspaceId: string): Promise<boolean> {
+    const marked = await this.runRepo.markStopRequested(runId, workspaceId);
+    const entry = this.active.get(runId);
+    if (entry) {
+      // Abort the live turn -> streamText onAbort fires -> the partial is
+      // persisted (#183) and finalizeRun settles the row as 'aborted'.
+      entry.controller.abort();
+    }
+    return Boolean(marked) || Boolean(entry);
+  }
+
+  /** Latest persisted run for a chat — the reconnect target (an in-flight or
+   *  finished run). Pure read-through to the repo. */
+  getLatestForChat(
+    chatId: string,
+    workspaceId: string,
+  ): Promise<AiChatRun | undefined> {
+    return this.runRepo.findLatestByChat(chatId, workspaceId);
+  }
+
+  /** Fetch a run by id (workspace-scoped). Used to resolve + ownership-check an
+   *  explicit stop targeting a runId. */
+  getRun(runId: string, workspaceId: string): Promise<AiChatRun | undefined> {
+    return this.runRepo.findById(runId, workspaceId);
+  }
+
+  /** The active run on a chat, if any (used to reject a concurrent start with a
+   *  clean 409 before committing to the stream). */
+  getActiveForChat(
+    chatId: string,
+    workspaceId: string,
+  ): Promise<AiChatRun | undefined> {
+    return this.runRepo.findActiveByChat(chatId, workspaceId);
+  }
+
+  /** Test/diagnostic seam: whether this replica is holding a live controller for
+   *  the run. */
+  isLocallyActive(runId: string): boolean {
+    return this.active.has(runId);
+  }
+}

apps/server/src/core/ai-chat/ai-chat.controller.bound-chat.spec.ts

@@ -19,6 +19,7 @@ describe('AiChatController.boundChat', () => {
     };
     const controller = new AiChatController(
       {} as never,
+      {} as never, // aiChatRunService
       aiChatRepo as never,
       {} as never,
       {} as never,

apps/server/src/core/ai-chat/ai-chat.controller.export.spec.ts

@@ -53,6 +53,7 @@ describe('AiChatController.export', () => {
     };
     const controller = new AiChatController(
       {} as never,
+      {} as never, // aiChatRunService
       aiChatRepo as never,
       aiChatMessageRepo as never,
       {} as never,

apps/server/src/core/ai-chat/ai-chat.controller.run.spec.ts

@@ -0,0 +1,163 @@
+import { BadRequestException, ForbiddenException } from '@nestjs/common';
+import { AiChatController } from './ai-chat.controller';
+import type { User, Workspace } from '@docmost/db/types/entity.types';
+
+/**
+ * Wiring spec for the #184 run-reconnect / run-stop endpoints
+ * (`POST /ai-chat/run` and `POST /ai-chat/stop`). Both are OWNER-gated via
+ * assertOwnedChat (the requesting user must own the chat) and NOT flag-gated.
+ * Exercised with hand-rolled mocks — no Nest graph, no DB. The controller's
+ * constructor order is (aiChatService, aiChatRunService, aiChatRepo,
+ * aiChatMessageRepo, aiTranscription).
+ */
+describe('AiChatController run endpoints (#184)', () => {
+  const user = { id: 'u1' } as User;
+  const workspace = { id: 'ws1' } as Workspace;
+
+  function makeController(opts: {
+    chat?: unknown; // what aiChatRepo.findById returns (owner-gate)
+    run?: unknown; // getLatestForChat / getRun result
+    activeRun?: unknown; // getActiveForChat result
+    message?: unknown; // aiChatMessageRepo.findById result
+    stopped?: boolean; // requestStop result
+  }) {
+    const aiChatRunService = {
+      getLatestForChat: jest.fn().mockResolvedValue(opts.run),
+      getRun: jest.fn().mockResolvedValue(opts.run),
+      getActiveForChat: jest.fn().mockResolvedValue(opts.activeRun),
+      requestStop: jest.fn().mockResolvedValue(opts.stopped ?? false),
+    };
+    const aiChatRepo = {
+      findById: jest.fn().mockResolvedValue(opts.chat),
+    };
+    const aiChatMessageRepo = {
+      findById: jest.fn().mockResolvedValue(opts.message),
+    };
+    const controller = new AiChatController(
+      {} as never, // aiChatService
+      aiChatRunService as never,
+      aiChatRepo as never,
+      aiChatMessageRepo as never,
+      {} as never, // aiTranscription
+    );
+    return { controller, aiChatRunService, aiChatRepo, aiChatMessageRepo };
+  }
+
+  describe('POST /ai-chat/run (getRun)', () => {
+    it('owner-gates: a chat the user does not own throws ForbiddenException', async () => {
+      const { controller, aiChatRunService } = makeController({
+        chat: { id: 'c1', creatorId: 'someone-else' },
+      });
+      await expect(
+        controller.getRun({ chatId: 'c1' }, user, workspace),
+      ).rejects.toBeInstanceOf(ForbiddenException);
+      // It must NOT reach the run lookup once the owner-gate fails.
+      expect(aiChatRunService.getLatestForChat).not.toHaveBeenCalled();
+    });
+
+    it('returns { run: null, message: null } when the chat has never had a run', async () => {
+      const { controller, aiChatRunService } = makeController({
+        chat: { id: 'c1', creatorId: 'u1' },
+        run: undefined,
+      });
+      const res = await controller.getRun({ chatId: 'c1' }, user, workspace);
+      expect(res).toEqual({ run: null, message: null });
+      expect(aiChatRunService.getLatestForChat).toHaveBeenCalledWith(
+        'c1',
+        'ws1',
+      );
+    });
+
+    it('returns the run and its projected assistant message', async () => {
+      const run = { id: 'run-1', chatId: 'c1', assistantMessageId: 'm1' };
+      const message = { id: 'm1', role: 'assistant' };
+      const { controller, aiChatMessageRepo } = makeController({
+        chat: { id: 'c1', creatorId: 'u1' },
+        run,
+        message,
+      });
+      const res = await controller.getRun({ chatId: 'c1' }, user, workspace);
+      expect(res).toEqual({ run, message });
+      expect(aiChatMessageRepo.findById).toHaveBeenCalledWith('m1', 'ws1');
+    });
+
+    it('returns message: null when the run has no linked assistant message', async () => {
+      const run = { id: 'run-1', chatId: 'c1', assistantMessageId: null };
+      const { controller, aiChatMessageRepo } = makeController({
+        chat: { id: 'c1', creatorId: 'u1' },
+        run,
+      });
+      const res = await controller.getRun({ chatId: 'c1' }, user, workspace);
+      expect(res).toEqual({ run, message: null });
+      expect(aiChatMessageRepo.findById).not.toHaveBeenCalled();
+    });
+  });
+
+  describe('POST /ai-chat/stop (stopRun)', () => {
+    it('throws BadRequestException when neither runId nor chatId is given', async () => {
+      const { controller } = makeController({});
+      await expect(
+        controller.stopRun({}, user, workspace),
+      ).rejects.toBeInstanceOf(BadRequestException);
+    });
+
+    it('stops by runId: owner-gates via the run’s chat, then requests the stop', async () => {
+      const { controller, aiChatRunService, aiChatRepo } = makeController({
+        run: { id: 'run-1', chatId: 'c1' },
+        chat: { id: 'c1', creatorId: 'u1' },
+        stopped: true,
+      });
+      const res = await controller.stopRun({ runId: 'run-1' }, user, workspace);
+      expect(res).toEqual({ stopped: true });
+      expect(aiChatRunService.getRun).toHaveBeenCalledWith('run-1', 'ws1');
+      expect(aiChatRepo.findById).toHaveBeenCalledWith('c1', 'ws1');
+      expect(aiChatRunService.requestStop).toHaveBeenCalledWith('run-1', 'ws1');
+    });
+
+    it('stops by runId: a foreign run’s chat throws ForbiddenException (no stop)', async () => {
+      const { controller, aiChatRunService } = makeController({
+        run: { id: 'run-1', chatId: 'c1' },
+        chat: { id: 'c1', creatorId: 'someone-else' },
+      });
+      await expect(
+        controller.stopRun({ runId: 'run-1' }, user, workspace),
+      ).rejects.toBeInstanceOf(ForbiddenException);
+      expect(aiChatRunService.requestStop).not.toHaveBeenCalled();
+    });
+
+    it('stops by runId: an unknown run reports { stopped: false }', async () => {
+      const { controller, aiChatRunService } = makeController({
+        run: undefined,
+      });
+      const res = await controller.stopRun({ runId: 'gone' }, user, workspace);
+      expect(res).toEqual({ stopped: false });
+      expect(aiChatRunService.requestStop).not.toHaveBeenCalled();
+    });
+
+    it('stops by chatId: owner-gates, resolves the active run, requests the stop', async () => {
+      const { controller, aiChatRunService, aiChatRepo } = makeController({
+        chat: { id: 'c1', creatorId: 'u1' },
+        activeRun: { id: 'run-9' },
+        stopped: true,
+      });
+      const res = await controller.stopRun({ chatId: 'c1' }, user, workspace);
+      expect(res).toEqual({ stopped: true });
+      expect(aiChatRepo.findById).toHaveBeenCalledWith('c1', 'ws1');
+      expect(aiChatRunService.getActiveForChat).toHaveBeenCalledWith(
+        'c1',
+        'ws1',
+      );
+      expect(aiChatRunService.requestStop).toHaveBeenCalledWith('run-9', 'ws1');
+    });
+
+    it('stops by chatId: reports { stopped: false } when no run is active', async () => {
+      const { controller, aiChatRunService } = makeController({
+        chat: { id: 'c1', creatorId: 'u1' },
+        activeRun: undefined,
+      });
+      const res = await controller.stopRun({ chatId: 'c1' }, user, workspace);
+      expect(res).toEqual({ stopped: false });
+      expect(aiChatRunService.requestStop).not.toHaveBeenCalled();
+    });
+  });
+});

apps/server/src/core/ai-chat/ai-chat.controller.ts

@@ -1,6 +1,7 @@
 import {
   BadRequestException,
   Body,
+  ConflictException,
   Controller,
   ForbiddenException,
   HttpCode,
@@ -20,14 +21,25 @@ import { JwtAuthGuard } from '../../common/guards/jwt-auth.guard';
 import { AuthUser } from '../../common/decorators/auth-user.decorator';
 import { AuthWorkspace } from '../../common/decorators/auth-workspace.decorator';
 import { SkipTransform } from '../../common/decorators/skip-transform.decorator';
-import { AiChat, User, Workspace } from '@docmost/db/types/entity.types';
+import {
+  AiChat,
+  AiChatMessage,
+  AiChatRun,
+  User,
+  Workspace,
+} from '@docmost/db/types/entity.types';
 import { PaginationOptions } from '@docmost/db/pagination/pagination-options';
 import { AiChatRepo } from '@docmost/db/repos/ai-chat/ai-chat.repo';
 import { AiChatMessageRepo } from '@docmost/db/repos/ai-chat/ai-chat-message.repo';
 import { UserThrottlerGuard } from '../../integrations/throttle/user-throttler.guard';
 import { AI_CHAT_THROTTLER } from '../../integrations/throttle/throttler-names';
 import { FileInterceptor } from '../../common/interceptors/file.interceptor';
-import { AiChatService, AiChatStreamBody } from './ai-chat.service';
+import {
+  AiChatRunHooks,
+  AiChatService,
+  AiChatStreamBody,
+} from './ai-chat.service';
+import { AiChatRunService } from './ai-chat-run.service';
 import { AiTranscriptionService } from './ai-transcription.service';
 import {
   BoundChatDto,
@@ -35,7 +47,9 @@ import {
   ExportChatDto,
   GeneratePageTitleDto,
   GetChatMessagesDto,
+  GetRunDto,
   RenameChatDto,
+  StopRunDto,
 } from './dto/ai-chat.dto';
 import { describeProviderError } from '../../integrations/ai/ai-error.util';
 import { buildChatMarkdown } from './chat-markdown.util';
@@ -52,6 +66,7 @@ export class AiChatController {
 
   constructor(
     private readonly aiChatService: AiChatService,
+    private readonly aiChatRunService: AiChatRunService,
     private readonly aiChatRepo: AiChatRepo,
     private readonly aiChatMessageRepo: AiChatMessageRepo,
     private readonly aiTranscription: AiTranscriptionService,
@@ -137,6 +152,75 @@ export class AiChatController {
     return { markdown };
   }
 
+  /**
+   * Reconnect to the latest run of a chat (#184 phase 1). Returns the run's
+   * persisted lifecycle state ({ status, error, stepCount, timings, ... }) plus
+   * the assistant message it projects (the partial/final output) — the DB is the
+   * source of truth, so this works for an in-flight run (the browser dropped, the
+   * run kept going) and a finished one alike. Owner-gated via assertOwnedChat.
+   * `{ run: null }` when the chat has never had a run.
+   */
+  @HttpCode(HttpStatus.OK)
+  @Post('run')
+  async getRun(
+    @Body() dto: GetRunDto,
+    @AuthUser() user: User,
+    @AuthWorkspace() workspace: Workspace,
+  ): Promise<{ run: AiChatRun | null; message: AiChatMessage | null }> {
+    await this.assertOwnedChat(dto.chatId, user, workspace);
+    const run = await this.aiChatRunService.getLatestForChat(
+      dto.chatId,
+      workspace.id,
+    );
+    if (!run) return { run: null, message: null };
+    const message = run.assistantMessageId
+      ? await this.aiChatMessageRepo.findById(
+          run.assistantMessageId,
+          workspace.id,
+        )
+      : undefined;
+    return { run, message: message ?? null };
+  }
+
+  /**
+   * Explicitly STOP an agent run (#184 phase 1) — the user pressed Stop. This is
+   * the ONLY thing that ends a detached run; a browser disconnect deliberately
+   * does not. Target by `runId` (from the streamed start metadata) or by `chatId`
+   * (stop whatever run is active on it). Owner-gated. Returns
+   * `{ stopped }` — false when there was nothing active to stop.
+   */
+  @HttpCode(HttpStatus.OK)
+  @Post('stop')
+  async stopRun(
+    @Body() dto: StopRunDto,
+    @AuthUser() user: User,
+    @AuthWorkspace() workspace: Workspace,
+  ): Promise<{ stopped: boolean }> {
+    let runId = dto.runId;
+    if (!runId && !dto.chatId) {
+      throw new BadRequestException('runId or chatId is required');
+    }
+    if (runId) {
+      // Resolve the run to its chat and owner-gate via that chat.
+      const run = await this.aiChatRunService.getRun(runId, workspace.id);
+      if (!run) return { stopped: false };
+      await this.assertOwnedChat(run.chatId, user, workspace);
+    } else {
+      await this.assertOwnedChat(dto.chatId!, user, workspace);
+      const active = await this.aiChatRunService.getActiveForChat(
+        dto.chatId!,
+        workspace.id,
+      );
+      if (!active) return { stopped: false };
+      runId = active.id;
+    }
+    const stopped = await this.aiChatRunService.requestStop(
+      runId,
+      workspace.id,
+    );
+    return { stopped };
+  }
+
   /** Rename a chat. */
   @HttpCode(HttpStatus.OK)
   @Post('rename')
@@ -188,11 +272,20 @@ export class AiChatController {
     @AuthWorkspace() workspace: Workspace,
   ): Promise<void> {
     // A7 gate: the workspace must have AI chat explicitly enabled.
-    const settings = (workspace.settings ?? {}) as { ai?: { chat?: boolean } };
+    const settings = (workspace.settings ?? {}) as {
+      ai?: { chat?: boolean; autonomousRuns?: boolean };
+    };
     if (settings.ai?.chat !== true) {
       throw new ForbiddenException('AI chat is disabled');
     }
 
+    // #184 phase 1 flag: when ON, the turn becomes a detached, durable RUN — its
+    // lifecycle is tracked in ai_chat_runs, a browser disconnect no longer aborts
+    // it, and only an explicit /ai-chat/stop ends it. When OFF (the default) the
+    // turn is socket-bound exactly as before, so existing deployments are
+    // unaffected.
+    const autonomousRuns = settings.ai?.autonomousRuns === true;
+
     const sessionId = (req.raw as { sessionId?: string }).sessionId;
     if (!sessionId) {
       // The chat requires an interactive session to mint loopback tokens
@@ -216,6 +309,58 @@ export class AiChatController {
     // HttpException) instead of breaking mid-stream.
     const model = await this.aiChatService.getChatModel(workspace.id, role);
 
+    // #184: one active run per chat. For an EXISTING chat reject a concurrent
+    // start with a clean 409 BEFORE hijack (the common double-submit / second-tab
+    // case), so the user gets JSON, not a mid-stream error. A brand-new chat
+    // (no chatId) cannot have a prior run, and the DB partial unique index is the
+    // backstop against any race that slips past this check.
+    if (autonomousRuns && body.chatId) {
+      const active = await this.aiChatRunService.getActiveForChat(
+        body.chatId,
+        workspace.id,
+      );
+      if (active) {
+        throw new ConflictException({
+          message: 'An agent run is already in progress for this chat',
+          code: 'A_RUN_ALREADY_ACTIVE',
+        });
+      }
+    }
+
+    // Run-lifecycle hooks (#184), only when the flag is on. They wrap the turn in
+    // a durable run whose abort is governed by the run (explicit stop), persist
+    // its progress, and settle its terminal status — see AiChatRunService.
+    const runHooks: AiChatRunHooks | undefined = autonomousRuns
+      ? {
+          begin: (chatId) =>
+            this.aiChatRunService.beginRun({
+              chatId,
+              workspaceId: workspace.id,
+              userId: user.id,
+              trigger: 'user',
+            }),
+          onAssistantSeeded: (runId, messageId) =>
+            this.aiChatRunService.linkAssistantMessage(
+              runId,
+              workspace.id,
+              messageId,
+            ),
+          onStep: (runId, stepCount) =>
+            void this.aiChatRunService.recordStep(
+              runId,
+              workspace.id,
+              stepCount,
+            ),
+          onSettled: (runId, status, error) =>
+            this.aiChatRunService.finalizeRun(
+              runId,
+              workspace.id,
+              status,
+              error,
+            ),
+        }
+      : undefined;
+
     // Abort the agent loop when the client disconnects. `close` also fires on
     // normal completion, so only abort when the response has not finished
     // writing (a genuine disconnect). `once` fires at most once and self-removes;
@@ -230,18 +375,44 @@ export class AiChatController {
       // A genuine disconnect leaves the response unfinished (unlike a normal
       // completion, which also fires `close`). Such a drop — e.g. a reverse
       // proxy cutting the SSE mid-answer — is otherwise invisible server-side,
-      // so log it here before aborting the agent loop.
+      // so log it here.
       if (!res.raw.writableEnded) {
-        this.logger.warn(
-          `AI chat stream: client disconnected before completion; aborting turn ` +
-            `(elapsed=${Date.now() - reqStartedAt}ms since request received)`,
-        );
-        controller.abort();
+        if (autonomousRuns) {
+          // #184: the turn is a DETACHED run. A disconnect must NOT abort it —
+          // the run keeps executing and persisting server-side; the client
+          // reconnects via /ai-chat/run (or re-stops via /ai-chat/stop). Log only.
+          this.logger.log(
+            `AI chat stream: client disconnected; run continues server-side ` +
+              `(elapsed=${Date.now() - reqStartedAt}ms since request received)`,
+          );
+        } else {
+          this.logger.warn(
+            `AI chat stream: client disconnected before completion; aborting turn ` +
+              `(elapsed=${Date.now() - reqStartedAt}ms since request received)`,
+          );
+          controller.abort();
+        }
       }
     };
     req.raw.once('close', onClose);
     res.raw.once('finish', () => req.raw.off('close', onClose));
 
+    // #184: in detached mode the turn is NOT aborted on disconnect, so the SDK's
+    // pipe keeps writing to a socket the client may have dropped — for the rest of
+    // the (continuing) run. A write to the dead socket can emit an 'error' on the
+    // raw response; without a listener that surfaces as an unhandled error event.
+    // Swallow it (the run continues server-side regardless). Legacy mode aborts on
+    // disconnect, so it does not need this and keeps its exact prior behavior.
+    if (autonomousRuns) {
+      res.raw.on('error', (err) => {
+        this.logger.debug(
+          `AI chat detached stream: post-disconnect socket error swallowed: ${
+            err instanceof Error ? err.message : String(err)
+          }`,
+        );
+      });
+    }
+
     // Commit to streaming: hijack so Fastify stops managing the response and
     // the AI SDK can write the UI-message stream directly to the Node socket.
     res.hijack();
@@ -256,15 +427,32 @@ export class AiChatController {
         signal: controller.signal,
         model,
         role,
+        // #184: present only when the flag is on; wraps the turn in a durable run.
+        runHooks,
       });
     } catch (err) {
-      // Any failure AFTER hijack can no longer send a clean JSON error, so emit
-      // a minimal error on the raw socket if nothing has been written yet.
-      this.logger.error('AI chat stream failed', err as Error);
+      // Any failure AFTER hijack can no longer go through Nest's exception
+      // filter, so emit the error on the raw socket if nothing has been written
+      // yet. The lost-the-race 409 (RunAlreadyActiveError -> ConflictException)
+      // is raised by stream() BEFORE it writes a byte, so headers are still
+      // unsent here: honor the HttpException's real status + body (a clean 409),
+      // not a blanket 500. Everything else stays a 500.
+      const isHttp = err instanceof HttpException;
+      if (!isHttp) {
+        this.logger.error('AI chat stream failed', err as Error);
+      }
       if (!res.raw.headersSent) {
-        res.raw.statusCode = 500;
+        const status = isHttp ? err.getStatus() : 500;
+        const payload = isHttp
+          ? err.getResponse()
+          : { error: 'Internal server error' };
+        res.raw.statusCode = status;
         res.raw.setHeader('Content-Type', 'application/json');
-        res.raw.end(JSON.stringify({ error: 'Internal server error' }));
+        res.raw.end(
+          JSON.stringify(
+            typeof payload === 'string' ? { message: payload } : payload,
+          ),
+        );
       } else if (!res.raw.writableEnded) {
         res.raw.end();
       }

apps/server/src/core/ai-chat/ai-chat.generate-page-title.spec.ts

@@ -57,6 +57,7 @@ describe('AiChatController.generatePageTitle', () => {
     const aiChatService = { generatePageTitle: generate };
     const controller = new AiChatController(
       aiChatService as never,
+      {} as never, // aiChatRunService
       {} as never,
       {} as never,
       {} as never,

apps/server/src/core/ai-chat/ai-chat.module.ts

@@ -3,6 +3,7 @@ import { AiModule } from '../../integrations/ai/ai.module';
 import { TokenModule } from '../auth/token.module';
 import { AiChatController } from './ai-chat.controller';
 import { AiChatService } from './ai-chat.service';
+import { AiChatRunService } from './ai-chat-run.service';
 import { AiTranscriptionService } from './ai-transcription.service';
 import { AiChatToolsService } from './tools/ai-chat-tools.service';
 import { EmbeddingModule } from './embedding/embedding.module';
@@ -42,6 +43,7 @@ import { PublicShareChatToolsService } from './tools/public-share-chat-tools.ser
   controllers: [AiChatController, PublicShareChatController],
   providers: [
     AiChatService,
+    AiChatRunService,
     AiTranscriptionService,
     AiChatToolsService,
     PublicShareChatService,

apps/server/src/core/ai-chat/ai-chat.service.lifecycle.spec.ts

@@ -1,5 +1,7 @@
 import { Logger } from '@nestjs/common';
-import { AiChatService } from './ai-chat.service';
+import { AiChatService, AiChatRunHooks } from './ai-chat.service';
+import { AiChatRunService } from './ai-chat-run.service';
+import type { User, Workspace } from '@docmost/db/types/entity.types';
 
 /**
  * Lifecycle unit tests for AiChatService.onModuleInit (#183 crash-recovery
@@ -59,3 +61,97 @@ describe('AiChatService.onModuleInit (startup sweep)', () => {
     expect(String(warnSpy.mock.calls[0][0])).toContain('db unavailable');
   });
 });
+
+/**
+ * #184 CRITICAL run-lifecycle safety net (review fix). A transient failure
+ * AFTER a successful beginRun but BEFORE streamText's terminal callbacks own the
+ * lifecycle must STILL settle the run — otherwise the run row is stuck 'running'
+ * forever (sweepRunning only runs at startup) and the partial unique index + the
+ * controller pre-check 409 every future turn in that chat until a restart. Here
+ * we model the very first bare await after beginRun (the user-message insert)
+ * throwing, wiring the run hooks to a REAL AiChatRunService (mock repo) exactly
+ * as the controller does, and assert the run is settled to 'error' and its
+ * in-memory entry dropped (so a follow-up turn would NOT be 409'd).
+ */
+describe('AiChatService.stream run-lifecycle safety net (#184)', () => {
+  const user = { id: 'u1' } as User;
+  const workspace = { id: 'ws1' } as Workspace;
+
+  afterEach(() => jest.restoreAllMocks());
+
+  it('an exception after beginRun settles the run to error and drops the in-memory entry', async () => {
+    jest.spyOn(Logger.prototype, 'error').mockImplementation(() => undefined);
+
+    // Real run service over a mock repo, so finalizeRun's in-memory bookkeeping
+    // (active.delete) is exercised for real.
+    const runRepo = {
+      insert: jest.fn().mockResolvedValue({ id: 'run-1', status: 'running' }),
+      update: jest.fn().mockResolvedValue({ id: 'run-1' }),
+    };
+    const runService = new AiChatRunService(runRepo as never, { isCloud: () => false } as never);
+
+    // The user-message insert (the first bare await after beginRun) throws.
+    const aiChatMessageRepo = {
+      insert: jest.fn().mockRejectedValue(new Error('insert boom')),
+    };
+    const aiChatRepo = {
+      // Existing chat -> chatId stays, no new-chat insert path.
+      findById: jest.fn().mockResolvedValue({ id: 'chat-1', creatorId: 'u1' }),
+    };
+
+    const service = new AiChatService(
+      {} as never, // ai
+      aiChatRepo as never,
+      aiChatMessageRepo as never,
+      {} as never, // aiSettings
+      {} as never, // tools
+      {} as never, // mcpClients
+      {} as never, // aiAgentRoleRepo
+      {} as never, // pageRepo
+      {} as never, // pageAccess
+    );
+
+    const runHooks: AiChatRunHooks = {
+      begin: (chatId) =>
+        runService.beginRun({
+          chatId,
+          workspaceId: workspace.id,
+          userId: user.id,
+          trigger: 'user',
+        }),
+      onSettled: (runId, status, error) =>
+        runService.finalizeRun(runId, workspace.id, status, error),
+    };
+
+    await expect(
+      service.stream({
+        user,
+        workspace,
+        sessionId: 'sess',
+        body: {
+          chatId: 'chat-1',
+          messages: [
+            { id: 'm', role: 'user', parts: [{ type: 'text', text: 'hi' }] },
+          ],
+        },
+        res: {} as never,
+        signal: new AbortController().signal,
+        model: {} as never,
+        role: null,
+        runHooks,
+      }),
+    ).rejects.toThrow('insert boom');
+
+    // The run was begun...
+    expect(runRepo.insert).toHaveBeenCalledTimes(1);
+    // ...then settled to a terminal FAILED status by the safety net...
+    expect(runRepo.update).toHaveBeenCalledTimes(1);
+    expect(runRepo.update).toHaveBeenCalledWith(
+      'run-1',
+      'ws1',
+      expect.objectContaining({ status: 'failed' }),
+    );
+    // ...and the in-memory entry is gone, so a follow-up turn is NOT 409'd.
+    expect(runService.isLocallyActive('run-1')).toBe(false);
+  });
+});

apps/server/src/core/ai-chat/ai-chat.service.run-race.spec.ts

@@ -0,0 +1,337 @@
+import { ConflictException, Logger } from '@nestjs/common';
+
+// Mock the AI SDK so we can PROVE no provider call is made for the turn we are
+// about to reject. The race rejection happens at runHooks.begin(), long before
+// any streamText/generateText, so these never resolve a real model.
+jest.mock('ai', () => ({
+  streamText: jest.fn(),
+  generateText: jest.fn(),
+  convertToModelMessages: jest.fn(() => []),
+  stepCountIs: jest.fn(() => () => false),
+}));
+
+import { streamText, generateText } from 'ai';
+import { AiChatService } from './ai-chat.service';
+import { RunAlreadyActiveError } from './ai-chat-run.service';
+
+/**
+ * Race-closure coverage for the "one active run per chat" guard (#184).
+ *
+ * THE BUG: two simultaneous POST /ai-chat/stream on the same chat both pass the
+ * controller's cheap pre-check (TOCTOU), so the loser's run-row INSERT hits the
+ * partial unique index. Previously that 23505 was SWALLOWED and the second turn
+ * streamed UNTRACKED (no runId, not stoppable). THE FIX: beginRun surfaces a
+ * RunAlreadyActiveError and stream() turns it into a 409 BEFORE any AI call —
+ * the second turn never runs.
+ */
+describe('AiChatService.stream — concurrent-run race rejection (#184)', () => {
+  const streamTextMock = streamText as unknown as jest.Mock;
+  const generateTextMock = generateText as unknown as jest.Mock;
+
+  beforeEach(() => {
+    streamTextMock.mockReset();
+    generateTextMock.mockReset();
+  });
+
+  // Minimal service whose only reachable deps before begin() are aiChatRepo
+  // (resolve the existing chat) — everything past begin must remain untouched.
+  function makeService(beginImpl: () => Promise<unknown>) {
+    const aiChatMessageRepo = { insert: jest.fn() };
+    const aiChatRepo = {
+      // An existing chat: stream keeps the supplied chatId and skips creation.
+      findById: jest.fn(async () => ({ id: 'chat-1', workspaceId: 'ws-1' })),
+      insert: jest.fn(),
+    };
+    const svc = new AiChatService(
+      {} as never, // ai
+      aiChatRepo as never,
+      aiChatMessageRepo as never,
+      {} as never, // aiSettings
+      {} as never, // tools
+      {} as never, // mcpClients
+      {} as never, // aiAgentRoleRepo
+      {} as never, // pageRepo
+      {} as never, // pageAccess
+    );
+    const begin = jest.fn(beginImpl);
+    return { svc, begin, aiChatRepo, aiChatMessageRepo };
+  }
+
+  const baseArgs = (begin: jest.Mock) => ({
+    user: { id: 'user-1' } as never,
+    workspace: { id: 'ws-1' } as never,
+    sessionId: 'sess-1',
+    body: { chatId: 'chat-1', messages: [] } as never,
+    res: { raw: {} } as never,
+    signal: new AbortController().signal,
+    model: {} as never,
+    role: null,
+    runHooks: {
+      begin,
+      onAssistantSeeded: jest.fn(),
+      onStep: jest.fn(),
+      onSettled: jest.fn(),
+    } as never,
+  });
+
+  it('rejects the racer with a 409 ConflictException BEFORE any AI call, and never persists an untracked turn', async () => {
+    // begin loses the unique-index race -> RunAlreadyActiveError.
+    const { svc, begin, aiChatMessageRepo } = makeService(() => {
+      throw new RunAlreadyActiveError('chat-1');
+    });
+
+    const promise = svc.stream(baseArgs(begin));
+
+    await expect(promise).rejects.toBeInstanceOf(ConflictException);
+    await promise.catch((err: ConflictException) => {
+      expect(err.getStatus()).toBe(409);
+      expect((err.getResponse() as { code?: string }).code).toBe(
+        'A_RUN_ALREADY_ACTIVE',
+      );
+    });
+
+    // The decisive assertions: the rejected racer spent NO tokens and left NO
+    // untracked turn behind.
+    expect(begin).toHaveBeenCalledTimes(1);
+    expect(streamTextMock).not.toHaveBeenCalled();
+    expect(generateTextMock).not.toHaveBeenCalled();
+    expect(aiChatMessageRepo.insert).not.toHaveBeenCalled();
+  });
+});
+
+/**
+ * F3 — the LOAD-BEARING run-detach wiring: `effectiveSignal = handle.signal`
+ * after runHooks.begin, then `abortSignal: effectiveSignal` passed to streamText.
+ * That single line is what makes a run survive a browser disconnect (the agent
+ * loop's abort is governed by the RUN's signal, not the socket): a regression to
+ * the socket-bound signal would still pass every other test green while silently
+ * breaking Stop + durability. These two tests pin the exact signal streamText
+ * consumes on both paths.
+ */
+describe('AiChatService.stream — abortSignal wiring (#184 F3)', () => {
+  const streamTextMock = streamText as unknown as jest.Mock;
+
+  // A streamText result stub: the post-call drain + pipe are no-ops here; we only
+  // care WHICH abortSignal streamText was handed.
+  function makeStreamResult() {
+    return {
+      consumeStream: jest.fn(),
+      pipeUIMessageStreamToResponse: jest.fn(),
+    };
+  }
+
+  // A raw-response stub sufficient for the post-streamText wiring
+  // (stripStreamingHopByHopHeaders binds writeHead; startSseHeartbeat registers
+  // close/finish listeners; flushHeaders is belt-and-braces).
+  function makeRes() {
+    return {
+      raw: {
+        writeHead: jest.fn(),
+        write: jest.fn(),
+        once: jest.fn(),
+        on: jest.fn(),
+        flushHeaders: jest.fn(),
+        writableEnded: false,
+        destroyed: false,
+      },
+    };
+  }
+
+  // Wire only the deps reached on the way to streamText: resolve the existing
+  // chat, persist the user + seed the assistant row, load (empty) history, the
+  // admin settings, an empty external toolset + Docmost toolset.
+  function makeService() {
+    const aiChatRepo = {
+      findById: jest.fn(async () => ({ id: 'chat-1', workspaceId: 'ws-1' })),
+      insert: jest.fn(),
+    };
+    const aiChatMessageRepo = {
+      insert: jest.fn(async () => ({ id: 'msg-1' })),
+      findAllByChat: jest.fn(async () => []),
+      update: jest.fn(async () => ({ id: 'msg-1' })),
+    };
+    const aiSettings = { resolve: jest.fn(async () => ({})) };
+    const tools = { forUser: jest.fn(async () => ({})) };
+    const mcpClients = {
+      toolsFor: jest.fn(async () => ({
+        tools: {},
+        clients: [],
+        outcomes: [],
+        instructions: [],
+      })),
+    };
+    const svc = new AiChatService(
+      {} as never, // ai
+      aiChatRepo as never,
+      aiChatMessageRepo as never,
+      aiSettings as never,
+      tools as never,
+      mcpClients as never,
+      {} as never, // aiAgentRoleRepo
+      {} as never, // pageRepo (openPage undefined -> never touched)
+      {} as never, // pageAccess
+    );
+    return { svc };
+  }
+
+  const body = {
+    chatId: 'chat-1',
+    messages: [
+      { id: 'm1', role: 'user', parts: [{ type: 'text', text: 'hi' }] },
+    ],
+  };
+
+  beforeEach(() => {
+    streamTextMock.mockReset();
+    streamTextMock.mockImplementation(() => makeStreamResult());
+    jest
+      .spyOn(Logger.prototype, 'log')
+      .mockImplementation(() => undefined as never);
+  });
+
+  afterEach(() => jest.restoreAllMocks());
+
+  it('happy path (run-wrapped): streamText is driven with abortSignal === handle.signal (the RUN signal, NOT the socket)', async () => {
+    const { svc } = makeService();
+    const runController = new AbortController();
+    const runSignal = runController.signal;
+    const socketSignal = new AbortController().signal;
+
+    const begin = jest.fn(async () => ({ runId: 'run-1', signal: runSignal }));
+    await svc.stream({
+      user: { id: 'user-1' } as never,
+      workspace: { id: 'ws-1' } as never,
+      sessionId: 'sess-1',
+      body: body as never,
+      res: makeRes() as never,
+      signal: socketSignal,
+      model: {} as never,
+      role: null,
+      runHooks: {
+        begin,
+        onAssistantSeeded: jest.fn(),
+        onStep: jest.fn(),
+        onSettled: jest.fn(),
+      } as never,
+    });
+
+    expect(begin).toHaveBeenCalledTimes(1);
+    expect(streamTextMock).toHaveBeenCalledTimes(1);
+    // THE assertion: the agent loop's abort is wired to the RUN, so a browser
+    // disconnect (which aborts only `socketSignal`) cannot end the turn.
+    expect(streamTextMock.mock.calls[0][0].abortSignal).toBe(runSignal);
+    expect(streamTextMock.mock.calls[0][0].abortSignal).not.toBe(socketSignal);
+  });
+
+  it('legacy path (no runHooks): streamText is driven with the SOCKET signal', async () => {
+    const { svc } = makeService();
+    const socketSignal = new AbortController().signal;
+
+    await svc.stream({
+      user: { id: 'user-1' } as never,
+      workspace: { id: 'ws-1' } as never,
+      sessionId: 'sess-1',
+      body: body as never,
+      res: makeRes() as never,
+      signal: socketSignal,
+      model: {} as never,
+      role: null,
+      // No runHooks -> the turn stays socket-bound (flag off / default).
+    });
+
+    expect(streamTextMock).toHaveBeenCalledTimes(1);
+    expect(streamTextMock.mock.calls[0][0].abortSignal).toBe(socketSignal);
+  });
+
+  /**
+   * F9 — streamText's TERMINAL callbacks carry the #184 run lifecycle:
+   *   onStepFinish -> runHooks.onStep(runId, stepCount)
+   *   onFinish     -> runHooks.onSettled(runId, 'completed')   (dominant path)
+   *   onAbort      -> runHooks.onSettled(runId, 'aborted')
+   *   onError      -> runHooks.onSettled(runId, 'error', cause)
+   * makeStreamResult() ignores the streamText options, so these callbacks never
+   * fire on their own — a regression in this wiring (esp. the success path) would
+   * strand the run with NO test catching it. Here we CAPTURE the options streamText
+   * was handed and invoke each callback with the real wiring, asserting the run
+   * hooks fire with the right args.
+   */
+  // Drive stream() to the point streamText is called, capturing the options object
+  // (which carries onStepFinish/onFinish/onError/onAbort) and the run hooks.
+  async function captureStreamCallbacks() {
+    const { svc } = makeService();
+    let capturedOpts: any;
+    streamTextMock.mockImplementation((opts: any) => {
+      capturedOpts = opts;
+      return makeStreamResult();
+    });
+    const runHooks = {
+      begin: jest.fn(async () => ({
+        runId: 'run-1',
+        signal: new AbortController().signal,
+      })),
+      onAssistantSeeded: jest.fn(),
+      onStep: jest.fn(),
+      onSettled: jest.fn(),
+    };
+    await svc.stream({
+      user: { id: 'user-1' } as never,
+      workspace: { id: 'ws-1' } as never,
+      sessionId: 'sess-1',
+      body: body as never,
+      res: makeRes() as never,
+      signal: new AbortController().signal,
+      model: {} as never,
+      role: null,
+      runHooks: runHooks as never,
+    });
+    expect(capturedOpts).toBeDefined();
+    return { capturedOpts, runHooks };
+  }
+
+  it('F9: onStepFinish bumps the run step count, onFinish settles the run "completed" (the dominant autonomous-run path)', async () => {
+    const { capturedOpts, runHooks } = await captureStreamCallbacks();
+
+    // A finished step -> onStep(runId, finishedStepCount).
+    capturedOpts.onStepFinish({ text: 'step one', toolCalls: [], content: [] });
+    expect(runHooks.onStep).toHaveBeenCalledWith('run-1', 1);
+    capturedOpts.onStepFinish({ text: 'step two', toolCalls: [], content: [] });
+    expect(runHooks.onStep).toHaveBeenLastCalledWith('run-1', 2);
+
+    // The success terminal callback settles the run.
+    await capturedOpts.onFinish({
+      text: 'done',
+      finishReason: 'stop',
+      totalUsage: {},
+      usage: {},
+      steps: [],
+    });
+    expect(runHooks.onSettled).toHaveBeenCalledWith('run-1', 'completed');
+  });
+
+  it('F9: onAbort settles the run "aborted"', async () => {
+    jest
+      .spyOn(Logger.prototype, 'warn')
+      .mockImplementation(() => undefined as never);
+    const { capturedOpts, runHooks } = await captureStreamCallbacks();
+
+    await capturedOpts.onAbort({ steps: [] });
+    expect(runHooks.onSettled).toHaveBeenCalledWith('run-1', 'aborted');
+  });
+
+  it('F9: onError settles the run "error" carrying the provider cause', async () => {
+    jest
+      .spyOn(Logger.prototype, 'error')
+      .mockImplementation(() => undefined as never);
+    jest
+      .spyOn(Logger.prototype, 'warn')
+      .mockImplementation(() => undefined as never);
+    const { capturedOpts, runHooks } = await captureStreamCallbacks();
+
+    await capturedOpts.onError({ error: new Error('provider exploded') });
+    expect(runHooks.onSettled).toHaveBeenCalledWith(
+      'run-1',
+      'error',
+      expect.stringContaining('provider exploded'),
+    );
+  });
+});

apps/server/src/core/ai-chat/ai-chat.service.spec.ts

@@ -371,6 +371,12 @@ describe('chatStreamMetadata', () => {
     });
   });
 
+  it('attaches the runId on the start part when a run wraps the turn (#184)', () => {
+    expect(
+      chatStreamMetadata({ type: 'start' }, 'chat-1', undefined, 'run-1'),
+    ).toEqual({ chatId: 'chat-1', runId: 'run-1' });
+  });
+
   it('returns the CUMULATIVE step usage passed in for the finish-step part', () => {
     // finish-step usage is per-step in v6; the caller accumulates and passes the
     // running sum, which this just wraps.

apps/server/src/core/ai-chat/dto/ai-chat.dto.ts

@@ -43,6 +43,30 @@ export class BoundChatDto {
   pageId: string;
 }
 
+/**
+ * Reconnect to the latest run of a chat (#184): fetch its persisted lifecycle
+ * state (and the assistant message it projects) for an in-flight or finished run.
+ */
+export class GetRunDto {
+  @IsString()
+  chatId: string;
+}
+
+/**
+ * Explicitly STOP an agent run (#184): the user pressed Stop — distinct from a
+ * browser disconnect, which never stops a run. Either the run id (preferred, from
+ * the streamed start metadata) or the chat id (stop whatever run is active on it).
+ */
+export class StopRunDto {
+  @IsOptional()
+  @IsString()
+  runId?: string;
+
+  @IsOptional()
+  @IsString()
+  chatId?: string;
+}
+
 /** Export a chat to Markdown (#183). `lang` localizes the few fixed
  *  role/tool-action labels; defaults to English server-side. */
 export class ExportChatDto {

apps/server/src/database/database.module.ts

@@ -31,6 +31,7 @@ import { FavoriteRepo } from '@docmost/db/repos/favorite/favorite.repo';
 import { TemplateRepo } from '@docmost/db/repos/template/template.repo';
 import { AiChatRepo } from '@docmost/db/repos/ai-chat/ai-chat.repo';
 import { AiChatMessageRepo } from '@docmost/db/repos/ai-chat/ai-chat-message.repo';
+import { AiChatRunRepo } from '@docmost/db/repos/ai-chat/ai-chat-run.repo';
 import { AiProviderCredentialsRepo } from '@docmost/db/repos/ai-chat/ai-provider-credentials.repo';
 import { AiMcpServerRepo } from '@docmost/db/repos/ai-chat/ai-mcp-server.repo';
 import { AiAgentRoleRepo } from '@docmost/db/repos/ai-agent-roles/ai-agent-roles.repo';
@@ -104,6 +105,7 @@ import { normalizePostgresUrl } from '../common/helpers';
     TemplateRepo,
     AiChatRepo,
     AiChatMessageRepo,
+    AiChatRunRepo,
     AiProviderCredentialsRepo,
     AiMcpServerRepo,
     AiAgentRoleRepo,
@@ -137,6 +139,7 @@ import { normalizePostgresUrl } from '../common/helpers';
     TemplateRepo,
     AiChatRepo,
     AiChatMessageRepo,
+    AiChatRunRepo,
     AiProviderCredentialsRepo,
     AiMcpServerRepo,
     AiAgentRoleRepo,

apps/server/src/database/migrations/20260627T130000-ai-chat-runs.ts

@@ -0,0 +1,104 @@
+import { type Kysely, sql } from 'kysely';
+
+/**
+ * `ai_chat_runs` — the agent RUN as a first-class, server-side lifecycle object
+ * (#184 phase 1: autonomous agent runs detached from the browser window).
+ *
+ * Until now an agent turn lived ONLY as long as the HTTP request was open
+ * (`res.hijack()` in ai-chat.controller.ts); a browser disconnect aborted it.
+ * This table makes a turn a persistent object the server owns: it is created
+ * when a run starts, transitions pending -> running -> succeeded|failed|aborted,
+ * and survives the subscriber (browser) going away. The DB is the source of
+ * truth — a later client reconnects/sees the result by reading this row plus the
+ * assistant message it projects (`assistant_message_id`).
+ *
+ * The assistant message row (#183 step-granular durability) is the PROJECTION of
+ * a run's output; this row is the run's LIFECYCLE. They are linked by
+ * `assistant_message_id` (SET NULL if the message is later pruned).
+ *
+ * `status`  : 'pending' | 'running' | 'succeeded' | 'failed' | 'aborted'.
+ * `trigger` : 'user' | 'autostart' | 'schedule' | 'api' | 'continue' — only
+ *             'user' is produced in phase 1; the others are reserved for the
+ *             autonomy triggers deferred to phase 2 so they need no later
+ *             migration.
+ *
+ * ONE ACTIVE RUN PER CHAT is enforced by a partial unique index on `chat_id`
+ * WHERE status IN ('pending','running'): an autonomous run and a user run can
+ * never trample each other on the same chat. Settled runs (succeeded/failed/
+ * aborted) are excluded from the index so a chat can accumulate any number of
+ * historical runs.
+ */
+export async function up(db: Kysely<any>): Promise<void> {
+  await db.schema
+    .createTable('ai_chat_runs')
+    .ifNotExists()
+    .addColumn('id', 'uuid', (col) =>
+      col.primaryKey().defaultTo(sql`gen_uuid_v7()`),
+    )
+    .addColumn('chat_id', 'uuid', (col) =>
+      col.references('ai_chats.id').onDelete('cascade').notNull(),
+    )
+    .addColumn('workspace_id', 'uuid', (col) =>
+      col.references('workspaces.id').onDelete('cascade').notNull(),
+    )
+    // The human who triggered the run (audit). SET NULL on user deletion so the
+    // run history outlives its author; NULL is also the natural value for a
+    // future system/cron/api trigger with no human actor.
+    .addColumn('created_by', 'uuid', (col) =>
+      col.references('users.id').onDelete('set null'),
+    )
+    // The assistant message this run materializes (the #183 projection). SET NULL
+    // if that message row is later deleted; nullable because the run row is
+    // created a moment BEFORE the assistant row is seeded.
+    .addColumn('assistant_message_id', 'uuid', (col) =>
+      col.references('ai_chat_messages.id').onDelete('set null'),
+    )
+    .addColumn('trigger', 'varchar(20)', (col) =>
+      col.notNull().defaultTo('user'),
+    )
+    .addColumn('status', 'varchar(20)', (col) =>
+      col.notNull().defaultTo('pending'),
+    )
+    // Terminal error message for a failed run (provider/transport cause),
+    // mirroring the assistant message's metadata.error.
+    .addColumn('error', 'text', (col) => col)
+    // Number of agent steps finished so far (kept monotonic with the projection).
+    .addColumn('step_count', 'integer', (col) => col.notNull().defaultTo(0))
+    // Set when an EXPLICIT user stop is requested (distinct from a mere browser
+    // disconnect, which never stops a run). The runner aborts the turn and the
+    // run settles as 'aborted'.
+    .addColumn('stop_requested_at', 'timestamptz', (col) => col)
+    .addColumn('started_at', 'timestamptz', (col) => col)
+    .addColumn('finished_at', 'timestamptz', (col) => col)
+    .addColumn('created_at', 'timestamptz', (col) =>
+      col.notNull().defaultTo(sql`now()`),
+    )
+    .addColumn('updated_at', 'timestamptz', (col) =>
+      col.notNull().defaultTo(sql`now()`),
+    )
+    .execute();
+
+  // Reconnect / "latest run for this chat" reads hit chat_id first.
+  await db.schema
+    .createIndex('ai_chat_runs_chat_id_idx')
+    .ifNotExists()
+    .on('ai_chat_runs')
+    .column('chat_id')
+    .execute();
+
+  // One ACTIVE run per chat (advisory at the DB level): a second pending/running
+  // run on the same chat is rejected, so a user turn and an autonomous turn can
+  // never race on the same chat. Partial so settled runs do not collide.
+  await db.schema
+    .createIndex('ai_chat_runs_one_active_per_chat')
+    .ifNotExists()
+    .on('ai_chat_runs')
+    .column('chat_id')
+    .unique()
+    .where(sql.ref('status'), 'in', sql`('pending','running')`)
+    .execute();
+}
+
+export async function down(db: Kysely<any>): Promise<void> {
+  await db.schema.dropTable('ai_chat_runs').execute();
+}

apps/server/src/database/repos/ai-chat/ai-chat-message.repo.ts

@@ -121,6 +121,23 @@ export class AiChatMessageRepo {
     return rows.reverse();
   }
 
+  /** Fetch a single message by id + workspace (e.g. a run's projection row for
+   *  the #184 reconnect read). Returns undefined when nothing matches. */
+  async findById(
+    id: string,
+    workspaceId: string,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatMessage | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .selectFrom('aiChatMessages')
+      .select(this.baseFields)
+      .where('id', '=', id)
+      .where('workspaceId', '=', workspaceId)
+      .where('deletedAt', 'is', null)
+      .executeTakeFirst();
+  }
+
   async insert(
     insertable: InsertableAiChatMessage,
     trx?: KyselyTransaction,

apps/server/src/database/repos/ai-chat/ai-chat-run.repo.spec.ts

@@ -0,0 +1,84 @@
+import { AiChatRunRepo, SWEEP_RUN_STALE_MS } from './ai-chat-run.repo';
+import type { KyselyDB } from '../../types/kysely.types';
+
+/**
+ * Unit coverage for AiChatRunRepo.sweepRunning over a chainable builder mock (no
+ * live DB). The F1 invariant under test (DECISION C): the BOOT sweep is
+ * UNCONDITIONAL — it adds NO `updatedAt <` predicate, so a fresh 'running' run
+ * (updatedAt = now) IS settled rather than skipped by a staleness window. The
+ * window is added ONLY when an explicit `staleMs` is supplied (the future phase-2
+ * multi-instance timer sweep). We assert the EXACT predicates the spec mandates.
+ */
+describe('AiChatRunRepo.sweepRunning', () => {
+  type Recorded = {
+    table?: string;
+    set?: Record<string, unknown>;
+    wheres: Array<[string, string, unknown]>;
+    returning?: string;
+  };
+
+  function makeDb(swept: Array<{ id: string }>): {
+    db: KyselyDB;
+    rec: Recorded;
+  } {
+    const rec: Recorded = { wheres: [] };
+    const builder: Record<string, unknown> = {};
+    const chain = () => builder;
+    builder.set = (v: Record<string, unknown>) => {
+      rec.set = v;
+      return builder;
+    };
+    builder.where = (col: string, op: string, val: unknown) => {
+      rec.wheres.push([col, op, val]);
+      return builder;
+    };
+    builder.returning = (col: string) => {
+      rec.returning = col;
+      return builder;
+    };
+    builder.execute = () => Promise.resolve(swept);
+    void chain;
+    const db = {
+      updateTable: (table: string) => {
+        rec.table = table;
+        return builder;
+      },
+    } as unknown as KyselyDB;
+    return { db, rec };
+  }
+
+  it('F1: the boot sweep (no staleMs) is UNCONDITIONAL — only a status filter, NO updatedAt window', async () => {
+    const { db, rec } = makeDb([{ id: 'r1' }, { id: 'r2' }]);
+    const repo = new AiChatRunRepo(db);
+
+    const swept = await repo.sweepRunning();
+
+    expect(swept).toBe(2);
+    expect(rec.table).toBe('aiChatRuns');
+    // The status filter is always present...
+    expect(rec.wheres).toContainEqual([
+      'status',
+      'in',
+      expect.arrayContaining(['pending', 'running']),
+    ]);
+    // ...but a fresh 'running' run (updatedAt = now) must NOT be skipped: no
+    // updatedAt predicate at all on the boot path.
+    expect(rec.wheres.some(([col]) => col === 'updatedAt')).toBe(false);
+    // It flips to 'aborted' and stamps finishedAt.
+    expect(rec.set).toEqual(
+      expect.objectContaining({ status: 'aborted', finishedAt: expect.any(Date) }),
+    );
+  });
+
+  it('phase-2 path: an explicit staleMs reintroduces the updatedAt window', async () => {
+    const { db, rec } = makeDb([]);
+    const repo = new AiChatRunRepo(db);
+
+    await repo.sweepRunning({ staleMs: SWEEP_RUN_STALE_MS });
+
+    const updatedAtWhere = rec.wheres.find(([col]) => col === 'updatedAt');
+    expect(updatedAtWhere).toBeDefined();
+    expect(updatedAtWhere![1]).toBe('<');
+    expect(updatedAtWhere![2]).toBeInstanceOf(Date);
+  });
+});

apps/server/src/database/repos/ai-chat/ai-chat-run.repo.ts

@@ -0,0 +1,212 @@
+import { Injectable, Logger } from '@nestjs/common';
+import { InjectKysely } from 'nestjs-kysely';
+import { sql } from 'kysely';
+import { KyselyDB, KyselyTransaction } from '../../types/kysely.types';
+import { dbOrTx } from '../../utils';
+import {
+  AiChatRun,
+  InsertableAiChatRun,
+} from '@docmost/db/types/entity.types';
+
+// Statuses that count as "the run is still live" (an autonomous and a user run
+// must never both be live on one chat — enforced by the partial unique index and
+// checked here for friendly 409s before the insert races the constraint).
+export const ACTIVE_RUN_STATUSES = ['pending', 'running'] as const;
+
+// Crash-recovery sweep recency threshold (mirrors AiChatMessageRepo.sweepStreaming,
+// #183): when a staleness window is supplied, a 'running'/'pending' run is only
+// swept to 'aborted' once it has been UNTOUCHED for this long, so a sibling
+// replica's boot-sweep can never abort a run another replica is actively
+// executing. The runner bumps `updatedAt` on every step, so a live run never
+// matches. PHASE 1 is single-process and the boot sweep passes NO window (every
+// dangling run is settled unconditionally — see sweepRunning / F1). This constant
+// is the window to reintroduce for the phase-2 multi-instance timer sweep.
+export const SWEEP_RUN_STALE_MS = 10 * 60 * 1000; // 10 minutes
+
+/**
+ * Repository for `ai_chat_runs` (#184 phase 1): the agent run as a first-class,
+ * server-side lifecycle object detached from the HTTP request. The run row is the
+ * point a client subscribes/reconnects to (by `id` or by chat); the assistant
+ * message it links to (`assistantMessageId`) is the #183 projection of its output.
+ */
+@Injectable()
+export class AiChatRunRepo {
+  private readonly logger = new Logger(AiChatRunRepo.name);
+
+  private baseFields: Array<keyof AiChatRun> = [
+    'id',
+    'chatId',
+    'workspaceId',
+    'createdBy',
+    'assistantMessageId',
+    'trigger',
+    'status',
+    'error',
+    'stepCount',
+    'stopRequestedAt',
+    'startedAt',
+    'finishedAt',
+    'createdAt',
+    'updatedAt',
+  ];
+
+  constructor(@InjectKysely() private readonly db: KyselyDB) {}
+
+  async insert(
+    insertable: InsertableAiChatRun,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .insertInto('aiChatRuns')
+      .values(insertable)
+      .returning(this.baseFields)
+      .executeTakeFirst();
+  }
+
+  async findById(
+    id: string,
+    workspaceId: string,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .selectFrom('aiChatRuns')
+      .select(this.baseFields)
+      .where('id', '=', id)
+      .where('workspaceId', '=', workspaceId)
+      .executeTakeFirst();
+  }
+
+  /** The currently-active (pending|running) run for a chat, if any. At most one
+   *  exists thanks to the partial unique index. */
+  async findActiveByChat(
+    chatId: string,
+    workspaceId: string,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .selectFrom('aiChatRuns')
+      .select(this.baseFields)
+      .where('chatId', '=', chatId)
+      .where('workspaceId', '=', workspaceId)
+      .where('status', 'in', ACTIVE_RUN_STATUSES as unknown as string[])
+      .executeTakeFirst();
+  }
+
+  /** The most-recent run for a chat (active or settled) — the reconnect target. */
+  async findLatestByChat(
+    chatId: string,
+    workspaceId: string,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .selectFrom('aiChatRuns')
+      .select(this.baseFields)
+      .where('chatId', '=', chatId)
+      .where('workspaceId', '=', workspaceId)
+      .orderBy('createdAt', 'desc')
+      .orderBy('id', 'desc')
+      .limit(1)
+      .executeTakeFirst();
+  }
+
+  /**
+   * Patch a run by id + workspace; always bumps `updatedAt`. Used for every
+   * lifecycle transition (mark running, link the assistant message, bump
+   * step_count, finalize succeeded/failed/aborted). Returns the updated row or
+   * undefined when nothing matched (e.g. a foreign workspace).
+   */
+  async update(
+    id: string,
+    workspaceId: string,
+    patch: Partial<{
+      status: string;
+      error: string | null;
+      stepCount: number;
+      assistantMessageId: string | null;
+      stopRequestedAt: Date | null;
+      startedAt: Date | null;
+      finishedAt: Date | null;
+    }>,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .updateTable('aiChatRuns')
+      .set({ ...(patch as Record<string, unknown>), updatedAt: new Date() })
+      .where('id', '=', id)
+      .where('workspaceId', '=', workspaceId)
+      .returning(this.baseFields)
+      .executeTakeFirst();
+  }
+
+  /**
+   * Mark an EXPLICIT stop request on an active run (distinct from a browser
+   * disconnect, which never stops a run). Stamps `stop_requested_at` ONLY while
+   * the run is still active, so a late stop on an already-settled run is a no-op.
+   * Returns the row when a stop was recorded, else undefined (nothing active).
+   */
+  async markStopRequested(
+    id: string,
+    workspaceId: string,
+    trx?: KyselyTransaction,
+  ): Promise<AiChatRun | undefined> {
+    const db = dbOrTx(this.db, trx);
+    return db
+      .updateTable('aiChatRuns')
+      .set({ stopRequestedAt: new Date(), updatedAt: new Date() })
+      .where('id', '=', id)
+      .where('workspaceId', '=', workspaceId)
+      .where('status', 'in', ACTIVE_RUN_STATUSES as unknown as string[])
+      .returning(this.baseFields)
+      .executeTakeFirst();
+  }
+
+  /**
+   * Crash-recovery sweep (mirrors AiChatMessageRepo.sweepStreaming): flip every
+   * run still left pending/running — a run whose process died before reaching a
+   * terminal status — to 'aborted', stamping `finished_at`. Returns the number
+   * swept. Workspace-wide on purpose (a crash can dangle runs in any workspace).
+   *
+   * F1 (DECISION C): the BOOT sweep is UNCONDITIONAL — it passes no `staleMs`, so
+   * EVERY dangling run is settled regardless of how recently it was touched. On a
+   * fresh single-process boot any pending|running run is definitionally hung (no
+   * runner is alive to own it), so a fast restart (deploy/OOM within minutes of
+   * the last step) no longer leaves a run stuck 'running' forever — which would
+   * make the one-active-run gate 409 every future turn in that chat.
+   *
+   * The optional `staleMs` window is reintroduced ONLY for the future phase-2
+   * multi-instance timer sweep (see {@link SWEEP_RUN_STALE_MS}): there a booting
+   * replica must NOT abort a run another replica is actively executing, so it
+   * sweeps only runs UNTOUCHED past the window. Phase 1 is single-process, so the
+   * boot path supplies no window.
+   */
+  async sweepRunning(
+    opts: { staleMs?: number } = {},
+    trx?: KyselyTransaction,
+  ): Promise<number> {
+    const db = dbOrTx(this.db, trx);
+    const now = new Date();
+    let query = db
+      .updateTable('aiChatRuns')
+      .set({
+        status: 'aborted',
+        finishedAt: now,
+        updatedAt: now,
+        error: sql`coalesce(error, ${'Run interrupted by a server restart.'})`,
+      })
+      .where('status', 'in', ACTIVE_RUN_STATUSES as unknown as string[]);
+    // Multi-instance (phase 2) only: skip runs touched within the window so a
+    // sibling replica's live run is never aborted. Omitted on the phase-1 boot
+    // sweep -> unconditional.
+    if (typeof opts.staleMs === 'number') {
+      const staleBefore = new Date(now.getTime() - opts.staleMs);
+      query = query.where('updatedAt', '<', staleBefore);
+    }
+    const rows = await query.returning('id').execute();
+    return rows.length;
+  }
+}

apps/server/src/database/types/db.d.ts

@@ -644,6 +644,35 @@ export interface AiChatMessages {
   deletedAt: Timestamp | null;
 }
 
+// The agent RUN as a first-class server-side lifecycle object (#184 phase 1).
+// Mirrors migration 20260627T130000-ai-chat-runs.ts. A run is created when an
+// agent turn starts and survives the browser disconnecting; the DB is the source
+// of truth a later client reconnects to. `assistantMessageId` links to the #183
+// projection row (the assistant message this run materializes).
+export interface AiChatRuns {
+  id: Generated<string>;
+  chatId: string;
+  workspaceId: string;
+  // SET NULL on user deletion (the run history outlives its author); also NULL
+  // for a future non-human trigger (cron/api).
+  createdBy: string | null;
+  // The assistant message this run materializes; SET NULL if it is pruned.
+  assistantMessageId: string | null;
+  // 'user' | 'autostart' | 'schedule' | 'api' | 'continue' (only 'user' is
+  // produced in phase 1; the rest are reserved for the deferred autonomy triggers).
+  trigger: Generated<string>;
+  // 'pending' | 'running' | 'succeeded' | 'failed' | 'aborted'.
+  status: Generated<string>;
+  error: string | null;
+  stepCount: Generated<number>;
+  // Set when an EXPLICIT user stop is requested (distinct from a disconnect).
+  stopRequestedAt: Timestamp | null;
+  startedAt: Timestamp | null;
+  finishedAt: Timestamp | null;
+  createdAt: Generated<Timestamp>;
+  updatedAt: Generated<Timestamp>;
+}
+
 export interface UserSessions {
   id: Generated<string>;
   userId: string;
@@ -663,6 +692,7 @@ export interface DB {
   aiAgentRoles: AiAgentRoles;
   aiChats: AiChats;
   aiChatMessages: AiChatMessages;
+  aiChatRuns: AiChatRuns;
   apiKeys: ApiKeys;
   attachments: Attachments;
   audit: Audit;

apps/server/src/database/types/entity.types.ts

@@ -3,6 +3,7 @@ import {
   AiAgentRoles,
   AiChats,
   AiChatMessages,
+  AiChatRuns,
   Attachments,
   Comments,
   Groups,
@@ -55,10 +56,12 @@ export type UpdatableAiChat = Updateable<Omit<AiChats, 'id'>>;
 // full-text search. It is omitted from the public type so it never leaks
 // into HTTP responses or the chat history fed to the language model.
 export type AiChatMessage = Omit<Selectable<AiChatMessages>, 'tsv'>;
-export type InsertableAiChatMessage = Omit<
-  Insertable<AiChatMessages>,
-  'tsv'
->;
+export type InsertableAiChatMessage = Omit<Insertable<AiChatMessages>, 'tsv'>;
+
+// AI Chat Run (#184 phase 1): the agent run as a first-class lifecycle object,
+// detached from the HTTP request / browser window.
+export type AiChatRun = Selectable<AiChatRuns>;
+export type InsertableAiChatRun = Insertable<AiChatRuns>;
 
 // AI Provider Credentials
 // SECURITY (D9/§8.1): holds encrypted per-workspace provider API keys.
@@ -204,11 +207,14 @@ export type UpdatableFavorite = Updateable<Omit<Favorites, 'id'>>;
 // Page Transclusion
 export type PageTransclusion = Selectable<PageTransclusions>;
 export type InsertablePageTransclusion = Insertable<PageTransclusions>;
-export type UpdatablePageTransclusion = Updateable<Omit<PageTransclusions, 'id'>>;
+export type UpdatablePageTransclusion = Updateable<
+  Omit<PageTransclusions, 'id'>
+>;
 
 // Page Transclusion Reference
 export type PageTransclusionReference = Selectable<PageTransclusionReferences>;
-export type InsertablePageTransclusionReference = Insertable<PageTransclusionReferences>;
+export type InsertablePageTransclusionReference =
+  Insertable<PageTransclusionReferences>;
 export type UpdatablePageTransclusionReference = Updateable<
   Omit<PageTransclusionReferences, 'id'>
 >;
@@ -278,7 +284,9 @@ export type UpdatablePagePermission = Updateable<Omit<_PagePermissions, 'id'>>;
 // Page Verification
 export type PageVerification = Selectable<_PageVerifications>;
 export type InsertablePageVerification = Insertable<_PageVerifications>;
-export type UpdatablePageVerification = Updateable<Omit<_PageVerifications, 'id'>>;
+export type UpdatablePageVerification = Updateable<
+  Omit<_PageVerifications, 'id'>
+>;
 
 // Page Verifier
 export type PageVerifier = Selectable<_PageVerifiers>;

apps/server/test/integration/ai-chat-run.int-spec.ts

@@ -0,0 +1,304 @@
+import { Kysely } from 'kysely';
+import {
+  AiChatRunRepo,
+  SWEEP_RUN_STALE_MS,
+} from '@docmost/db/repos/ai-chat/ai-chat-run.repo';
+import { AiChatMessageRepo } from '@docmost/db/repos/ai-chat/ai-chat-message.repo';
+import { AiChatRunService } from '../../src/core/ai-chat/ai-chat-run.service';
+import {
+  getTestDb,
+  destroyTestDb,
+  createWorkspace,
+  createUser,
+  createChat,
+} from './db';
+
+/**
+ * Integration coverage for the #184 phase-1 durable agent run: real SQL against
+ * docmost_test. Proves the core invariant primitives — a run is a first-class
+ * lifecycle row, at most one is active per chat, a detached run's progress
+ * survives with NO subscriber, an explicit stop settles it as aborted, a
+ * reconnect read returns the persisted state, and a crash sweep recovers
+ * dangling runs.
+ */
+describe('AiChatRun durable lifecycle [integration]', () => {
+  let db: Kysely<any>;
+  let runRepo: AiChatRunRepo;
+  let messageRepo: AiChatMessageRepo;
+  let service: AiChatRunService;
+  let workspaceId: string;
+  let otherWorkspaceId: string;
+  let userId: string;
+  let chatId: string;
+
+  beforeAll(async () => {
+    db = getTestDb();
+    runRepo = new AiChatRunRepo(db as any);
+    messageRepo = new AiChatMessageRepo(db as any);
+    // Boot-sweep isn't triggered here; the isCloud stub is all the service needs
+    // for these direct-call integration cases (F7).
+    service = new AiChatRunService(runRepo, { isCloud: () => false } as never);
+    workspaceId = (await createWorkspace(db)).id;
+    otherWorkspaceId = (await createWorkspace(db)).id;
+    userId = (await createUser(db, workspaceId)).id;
+    chatId = (await createChat(db, { workspaceId, creatorId: userId })).id;
+  });
+
+  afterAll(async () => {
+    await destroyTestDb();
+  });
+
+  // Each test that creates an active run settles it (or uses its own chat) so the
+  // partial unique index does not bleed across tests.
+
+  it('insert + findById round-trips a run row, defaulting status/trigger', async () => {
+    const run = await runRepo.insert({
+      chatId,
+      workspaceId,
+      createdBy: userId,
+    });
+    expect(run.status).toBe('pending');
+    expect(run.trigger).toBe('user');
+    expect(run.stepCount).toBe(0);
+
+    const found = await runRepo.findById(run.id, workspaceId);
+    expect(found!.id).toBe(run.id);
+    // Workspace-scoped: a foreign workspace sees nothing.
+    expect(await runRepo.findById(run.id, otherWorkspaceId)).toBeUndefined();
+
+    // settle so it does not occupy the active slot
+    await runRepo.update(run.id, workspaceId, {
+      status: 'succeeded',
+      finishedAt: new Date(),
+    });
+  });
+
+  it('enforces ONE ACTIVE run per chat (partial unique index rejects a second)', async () => {
+    const activeChat = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const first = await runRepo.insert({
+      chatId: activeChat,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    // A second pending/running run on the SAME chat must be rejected by the DB.
+    await expect(
+      runRepo.insert({
+        chatId: activeChat,
+        workspaceId,
+        createdBy: userId,
+        status: 'running',
+      }),
+    ).rejects.toThrow();
+
+    // findActiveByChat returns exactly the one active run.
+    const active = await runRepo.findActiveByChat(activeChat, workspaceId);
+    expect(active!.id).toBe(first.id);
+
+    // Once it settles, the slot frees and a new run may start.
+    await runRepo.update(first.id, workspaceId, {
+      status: 'succeeded',
+      finishedAt: new Date(),
+    });
+    expect(
+      await runRepo.findActiveByChat(activeChat, workspaceId),
+    ).toBeUndefined();
+    const second = await runRepo.insert({
+      chatId: activeChat,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    expect(second.id).not.toBe(first.id);
+    await runRepo.update(second.id, workspaceId, {
+      status: 'aborted',
+      finishedAt: new Date(),
+    });
+  });
+
+  it('DETACHED run: persists + finalizes succeeded with NO subscriber, reconnect returns state', async () => {
+    // A dedicated chat so the active-run slot is clean.
+    const runChat = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+
+    // beginRun = the runner starts the turn (registers an in-memory controller).
+    const handle = await service.beginRun({
+      chatId: runChat,
+      workspaceId,
+      userId,
+    });
+    expect(handle.signal.aborted).toBe(false);
+    expect(service.isLocallyActive(handle.runId)).toBe(true);
+
+    // The assistant projection row (#183) is seeded + linked.
+    const seeded = await messageRepo.insert({
+      chatId: runChat,
+      workspaceId,
+      userId,
+      role: 'assistant',
+      content: '',
+      status: 'streaming',
+      metadata: { parts: [] } as never,
+    });
+    await service.linkAssistantMessage(handle.runId, workspaceId, seeded.id);
+
+    // Progress is persisted as steps finish — NO HTTP socket involved here at all.
+    await service.recordStep(handle.runId, workspaceId, 1);
+    await messageRepo.update(seeded.id, workspaceId, {
+      content: 'partial work',
+      metadata: { parts: [{ type: 'text', text: 'partial work' }] },
+    });
+
+    // The turn completes; finalize the projection then the run.
+    await messageRepo.update(seeded.id, workspaceId, {
+      content: 'final answer',
+      status: 'completed',
+    });
+    await service.finalizeRun(handle.runId, workspaceId, 'completed');
+
+    expect(service.isLocallyActive(handle.runId)).toBe(false);
+
+    // Reconnect: the latest run for the chat + its projected message, from the DB.
+    const run = await service.getLatestForChat(runChat, workspaceId);
+    expect(run!.status).toBe('succeeded');
+    expect(run!.stepCount).toBe(1);
+    expect(run!.assistantMessageId).toBe(seeded.id);
+    expect(run!.finishedAt).toBeTruthy();
+    const message = await messageRepo.findById(seeded.id, workspaceId);
+    expect(message!.status).toBe('completed');
+    expect(message!.content).toBe('final answer');
+  });
+
+  it('EXPLICIT stop aborts the run signal, marks the row, and settles as aborted', async () => {
+    const runChat = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const handle = await service.beginRun({
+      chatId: runChat,
+      workspaceId,
+      userId,
+    });
+
+    // User presses Stop.
+    const stopped = await service.requestStop(handle.runId, workspaceId);
+    expect(stopped).toBe(true);
+    expect(handle.signal.aborted).toBe(true);
+
+    // The row carries the stop request (distinct from a disconnect, which would
+    // leave stop_requested_at NULL).
+    const afterStop = await runRepo.findById(handle.runId, workspaceId);
+    expect(afterStop!.stopRequestedAt).toBeTruthy();
+
+    // The terminal callback (onAbort) settles the run.
+    await service.finalizeRun(handle.runId, workspaceId, 'aborted');
+    const run = await service.getLatestForChat(runChat, workspaceId);
+    expect(run!.status).toBe('aborted');
+  });
+
+  it('markStopRequested is a no-op on an already-settled run (returns undefined)', async () => {
+    const runChat = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const run = await runRepo.insert({
+      chatId: runChat,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    await runRepo.update(run.id, workspaceId, {
+      status: 'succeeded',
+      finishedAt: new Date(),
+    });
+    const marked = await runRepo.markStopRequested(run.id, workspaceId);
+    expect(marked).toBeUndefined();
+  });
+
+  it('sweepRunning aborts STALE dangling runs but not fresh or settled ones', async () => {
+    const sweepChat1 = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const sweepChat2 = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const sweepChat3 = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+
+    const stale = await runRepo.insert({
+      chatId: sweepChat1,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    const fresh = await runRepo.insert({
+      chatId: sweepChat2,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    const settled = await runRepo.insert({
+      chatId: sweepChat3,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    await runRepo.update(settled.id, workspaceId, {
+      status: 'succeeded',
+      finishedAt: new Date(),
+    });
+    // Backdate the stale run's updatedAt past the 10-minute staleness window.
+    await db
+      .updateTable('aiChatRuns')
+      .set({ updatedAt: new Date(Date.now() - 20 * 60 * 1000) })
+      .where('id', '=', stale.id)
+      .execute();
+
+    // WINDOWED sweep (phase-2 multi-instance timer path): only runs older than the
+    // staleness window are aborted, so a sibling replica's fresh run survives. The
+    // no-arg boot sweep (variant C) is unconditional — covered separately below.
+    const swept = await runRepo.sweepRunning({ staleMs: SWEEP_RUN_STALE_MS });
+    expect(swept).toBeGreaterThanOrEqual(1);
+
+    expect((await runRepo.findById(stale.id, workspaceId))!.status).toBe(
+      'aborted',
+    );
+    // Fresh (recently-updated) running run survives the WINDOWED sweep — a sibling
+    // replica may still be executing it.
+    expect((await runRepo.findById(fresh.id, workspaceId))!.status).toBe(
+      'running',
+    );
+    expect((await runRepo.findById(settled.id, workspaceId))!.status).toBe(
+      'succeeded',
+    );
+
+    // cleanup active fresh run
+    await runRepo.update(fresh.id, workspaceId, {
+      status: 'aborted',
+      finishedAt: new Date(),
+    });
+  });
+
+  it('sweepRunning() with NO args (boot sweep / variant C) aborts even a FRESH running run', async () => {
+    // F1/DECISION C at the SQL level: the unconditional boot sweep has NO
+    // staleness window, so a run updated just now (a fast restart) is settled too
+    // — otherwise it would stay 'running' forever and 409 every future turn.
+    const bootChat = (
+      await createChat(db, { workspaceId, creatorId: userId })
+    ).id;
+    const fresh = await runRepo.insert({
+      chatId: bootChat,
+      workspaceId,
+      createdBy: userId,
+      status: 'running',
+    });
+    // updatedAt = now (fresh, untouched). The no-arg sweep settles it anyway.
+    const swept = await runRepo.sweepRunning();
+    expect(swept).toBeGreaterThanOrEqual(1);
+    expect((await runRepo.findById(fresh.id, workspaceId))!.status).toBe(
+      'aborted',
+    );
+  });
+});