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bbce6c0ac0b6294630743f44eb36e915c04bf89a
deer-flow/frontend/tests/e2e/thread-history.spec.ts
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DanielWalnut aa015462a7 feat(im): Add user-owned IM channel connections (#3487) 
* Add user-owned IM channel connections

* Fix dev startup and channel connect popup

* Use async channel connect flow

* Harden dev service daemon startup

* Support local IM channel connections

* Align IM connections with local channels

* Fix safe user id digest algorithm

* Address Copilot IM channel feedback

* Address IM channel review comments

* Support all integrated IM channel connections

* Format additional channel connection tests

* Keep unavailable channel connect buttons clickable

* Fix IM channel provider icons

* Add runtime setup for enabled IM channels

* Guard global shortcut key handling

* Keep configured IM channels editable

* Avoid password autofill for channel secrets

* Make channel threads visible to connection owners

* Persist IM runtime config locally

* Allow disconnecting runtime IM channels

* Route no-auth channel sessions to local user

* Use default user for auth-disabled local mode

* Show IM channel source on threads

* Prefill IM channel runtime config

* Reflect IM channel runtime health

* Ignore Feishu message read events

* Ignore Feishu non-content message events

* Let setup wizard enable IM channels

* Fix frontend formatting after merge

* Stabilize backend tests without local config

* Isolate channel runtime config tests

* Address channel connection review comments

* Use sha256 user buckets with legacy migration

* Ensure runtime IM channels are ready after restart

* Persist disconnected IM channel state

* Address channel connection review comments

* Address channel connection review findings

Frontend connect flow:
- Open the runtime-config dialog only when a provider still needs
  credentials; configured providers go straight to the connect flow, so
  the binding-code/deep-link path is reachable from the UI again.
- After saving credentials, continue into the connect flow when a user
  binding is still required (multi-user mode) instead of stopping at a
  "Connected" toast.
- Extract shared provider-state helpers to core/channels/provider-state
  and add unit + e2e coverage for the direct-connect and
  configure-then-connect paths.

Provider status semantics:
- Report connection_status from the user's newest connection row;
  with no binding it is not_connected, except in auth-disabled local
  mode where a configured running channel is effectively connected.

Concurrency and event-loop correctness:
- Offload ChannelRuntimeConfigStore construction and writes, channel
  service construction, and Slack connection replies to threads; add a
  tests/blocking_io/ anchor for the runtime-config handlers.
- Consume binding codes with a conditional UPDATE so a code can only be
  used once under concurrent workers; retry upsert_connection as an
  update when a concurrent insert wins the unique constraint.
- Serialize ensure_channel_ready per channel so concurrent provider
  polls cannot double-start a channel worker.

Config and migration hardening:
- Stop mutating the get_app_config()-cached Telegram provider config;
  the runtime store now owns the UI-entered bot username.
- Register channel_connections in STARTUP_ONLY_FIELDS with the
  standardized startup-only Field description.
- Match the legacy unsafe-id bucket by recomputing its exact SHA-1 name
  so another user's same-prefix bucket can never be migrated.
- Remove the unused Telegram process_webhook_update path and document
  src/core/channels in the frontend docs.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

* Address PR review comments on authz scoping and channel runtime

Security (review feedback from ShenAC-SAC):
- Scope internal-token callers to the connection owner carried in
  X-DeerFlow-Owner-User-Id instead of bypassing owner checks outright,
  in both require_permission(owner_check=True) and the stateless run
  endpoints. Internal callers keep access to their own and
  shared/legacy threads, and may claim a default-owned channel thread
  for its real owner, but a leaked internal token no longer grants
  cross-user thread access.
- Require admin privileges for POST/DELETE /api/channels/{provider}/
  runtime-config: runtime credentials and channel workers are
  instance-wide shared state (same model as the MCP config API).
  Read-only provider listing stays available to all users.

Performance (review feedback from willem-bd):
- Skip the redundant thread channel-metadata PATCH after the first
  successful backfill per thread.
- Reuse the per-connection Slack WebClient until its token changes
  instead of constructing one per outbound message.
- Reconcile channel readiness for all providers concurrently in
  GET /api/channels/providers.

Also resolve the code-quality unused-import flag in the blocking-io
anchor by pre-importing the channel service via importlib.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

* Fix prettier formatting in provider-state test

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

* Reconcile UI runtime channel config with config reload on restart

Main now reloads a channel's config.yaml entry on restart_channel()
(#3514, issue #3497). Adapt the user-owned connection flow to coexist:

- configure_channel() restarts with reload_config=False — the caller
  just supplied the authoritative config (browser-entered credentials
  that are never written to config.yaml), so a file reload must not
  clobber it with the stale on-disk entry.
- _load_channel_config() re-applies the UI runtime-store overlay used
  at startup, so an operator-triggered restart keeps browser-entered
  credentials for channels without a config.yaml entry and does not
  resurrect a channel disconnected from the UI.
- Offload the reload's disk IO (config.yaml + runtime store) with
  asyncio.to_thread, matching the blocking-IO policy on this branch.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

---------

Co-authored-by: Claude Fable 5 <noreply@anthropic.com>
2026-06-12 15:24:58 +08:00

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import { expect, test, type Route } from "@playwright/test";
import {
mockLangGraphAPI,
MOCK_THREAD_ID,
MOCK_THREAD_ID_2,
} from "./utils/mock-api";
const THREADS = [
{
thread_id: MOCK_THREAD_ID,
title: "First conversation",
updated_at: "2025-06-01T12:00:00Z",
},
{
thread_id: MOCK_THREAD_ID_2,
title: "Second conversation",
updated_at: "2025-06-02T12:00:00Z",
},
];
const DEMO_THREAD_ID = "7cfa5f8f-a2f8-47ad-acbd-da7137baf990";
const SVG_PROMPT_THREAD_ID = "00000000-0000-0000-0000-000000000777";
const SVG_PROMPT_MARKER = "LEAK-STRICT-SVG-PROMPT-SHOULD-DISAPPEAR";
const OPTIMISTIC_PROMPT_MARKER = "LEAK-OPTIMISTIC-SVG-PROMPT-SHOULD-DISAPPEAR";
test.describe("Thread history", () => {
test("sidebar shows existing threads", async ({ page }) => {
mockLangGraphAPI(page, { threads: THREADS });
await page.goto("/workspace/chats/new");
// Both thread titles should appear in the sidebar
await expect(page.getByText("First conversation")).toBeVisible({
timeout: 15_000,
});
await expect(page.getByText("Second conversation")).toBeVisible();
});
test("clicking a thread in sidebar navigates to it", async ({ page }) => {
mockLangGraphAPI(page, { threads: THREADS });
await page.goto("/workspace/chats/new");
// Wait for sidebar to populate
const firstThread = page.getByText("First conversation");
await expect(firstThread).toBeVisible({ timeout: 15_000 });
// Click on the first thread
await firstThread.click();
// Should navigate to that thread's URL
await page.waitForURL(`**/workspace/chats/${MOCK_THREAD_ID}`);
await expect(page).toHaveURL(new RegExp(MOCK_THREAD_ID));
});
test("existing thread loads historical messages", async ({ page }) => {
mockLangGraphAPI(page, { threads: THREADS });
// Navigate directly to an existing thread
await page.goto(`/workspace/chats/${MOCK_THREAD_ID}`);
// The historical AI response should be displayed
await expect(
page.getByText("Response in thread First conversation"),
).toBeVisible({ timeout: 15_000 });
});
test("new chat does not show previous thread messages after client-side navigation", async ({
page,
}) => {
mockLangGraphAPI(page, {
threads: [
{
thread_id: SVG_PROMPT_THREAD_ID,
title: "SVG artifact prompt",
updated_at: "2025-06-03T12:00:00Z",
messages: [
{
type: "human",
id: "msg-human-svg-prompt",
content: [
{
type: "text",
text: `请严格执行:\n1. 使用 write_file 创建 /mnt/user-data/outputs/shared.svg,内容包含 ${SVG_PROMPT_MARKER}\n2. 最终回复只输出 Markdown 图片。`,
},
],
},
{
type: "ai",
id: "msg-ai-svg-prompt",
content: "![shared artifact](/mnt/user-data/outputs/shared.svg)",
},
],
},
],
});
await page.goto(`/workspace/chats/${SVG_PROMPT_THREAD_ID}`);
await expect(page.getByText(SVG_PROMPT_MARKER)).toBeVisible({
timeout: 15_000,
});
await page.getByRole("link", { name: /new chat/i }).click();
await page.waitForURL("**/workspace/chats/new");
await expect(page.getByText(SVG_PROMPT_MARKER)).toBeHidden();
await expect(page.getByPlaceholder(/how can i assist you/i)).toBeVisible();
});
test("new chat does not show previous optimistic user message after client-side navigation", async ({
page,
}) => {
mockLangGraphAPI(page, {
threads: [
{
thread_id: MOCK_THREAD_ID_2,
title: "Destination conversation",
updated_at: "2025-06-04T12:00:00Z",
},
],
});
const metadataOnlyStream = async (route: Route) => {
const body = [
{
event: "metadata",
data: {
run_id: "00000000-0000-0000-0000-000000000778",
thread_id: MOCK_THREAD_ID,
},
},
{ event: "end", data: {} },
]
.map((e) => `event: ${e.event}\ndata: ${JSON.stringify(e.data)}\n\n`)
.join("");
await route.fulfill({
status: 200,
contentType: "text/event-stream",
body,
});
};
await page.route("**/api/langgraph/runs/stream", metadataOnlyStream);
await page.route(
"**/api/langgraph/threads/*/runs/stream",
metadataOnlyStream,
);
await page.goto("/workspace/chats/new");
const textarea = page.getByPlaceholder(/how can i assist you/i);
await expect(textarea).toBeVisible({ timeout: 15_000 });
await textarea.fill(
`请严格执行:使用 write_file 创建 shared.svg,内容包含 ${OPTIMISTIC_PROMPT_MARKER}`,
);
await textarea.press("Enter");
await expect(page.getByText(OPTIMISTIC_PROMPT_MARKER)).toBeVisible();
await page.getByText("Destination conversation").click();
await page.waitForURL(`**/workspace/chats/${MOCK_THREAD_ID_2}`);
await expect(page.getByText(OPTIMISTIC_PROMPT_MARKER)).toHaveCount(0);
await page.getByRole("link", { name: /new chat/i }).click();
await page.waitForURL("**/workspace/chats/new");
await expect(page.getByText(OPTIMISTIC_PROMPT_MARKER)).toHaveCount(0);
await expect(page.getByPlaceholder(/how can i assist you/i)).toBeVisible();
});
test("mock thread does not load real backend run history", async ({
page,
}) => {
mockLangGraphAPI(page, {
threads: [
{
thread_id: DEMO_THREAD_ID,
title: "Forecasting 2026 Trends and Opportunities",
updated_at: "2025-06-01T12:00:00Z",
messages: [
{
type: "human",
id: `run-human-${DEMO_THREAD_ID}`,
content: [
{
type: "text",
text: "This run-message endpoint should not be called.",
},
],
},
],
},
],
});
const backendRunHistoryUrls: string[] = [];
await page.route(
/\/api\/langgraph\/threads\/[^/]+\/runs(?:\?|$)/,
(route) => {
if (
route.request().method() === "GET" &&
route
.request()
.url()
.includes(`/api/langgraph/threads/${DEMO_THREAD_ID}/runs`)
) {
backendRunHistoryUrls.push(route.request().url());
return route.fulfill({
status: 500,
contentType: "application/json",
body: JSON.stringify({
error: "mock=true must not load real runs",
}),
});
}
return route.fallback();
},
);
await page.route(
/\/api\/threads\/[^/]+\/runs\/[^/]+\/messages(?:\?|$)/,
(route) => {
if (
route.request().method() === "GET" &&
route.request().url().includes(`/api/threads/${DEMO_THREAD_ID}/runs/`)
) {
backendRunHistoryUrls.push(route.request().url());
return route.fulfill({
status: 500,
contentType: "application/json",
body: JSON.stringify({
error: "mock=true must not load real run messages",
}),
});
}
return route.fallback();
},
);
await page.goto(`/workspace/chats/${DEMO_THREAD_ID}?mock=true`);
await expect(
page.getByText("What might be the trends and opportunities in 2026?"),
).toBeVisible({ timeout: 15_000 });
await expect(
page.getByText("I've created a modern, minimalist website"),
).toBeVisible();
expect(backendRunHistoryUrls).toEqual([]);
});
test("chats list page shows all threads", async ({ page }) => {
mockLangGraphAPI(page, { threads: THREADS });
await page.goto("/workspace/chats");
// Both threads should be listed in the main content area
const main = page.locator("main");
await expect(main.getByText("First conversation")).toBeVisible({
timeout: 15_000,
});
await expect(main.getByText("Second conversation")).toBeVisible();
});
test("IM channel threads show their source in thread lists", async ({
page,
}) => {
mockLangGraphAPI(page, {
threads: [
{
thread_id: MOCK_THREAD_ID,
title: "Feishu conversation",
updated_at: "2025-06-03T12:00:00Z",
metadata: {
channel_source: {
type: "im_channel",
provider: "feishu",
chat_id: "oc_mock",
},
},
},
],
});
await page.goto("/workspace/chats/new");
const sidebarThread = page.locator(
`a[href='/workspace/chats/${MOCK_THREAD_ID}']`,
);
await expect(sidebarThread).toBeVisible({ timeout: 15_000 });
await expect(sidebarThread.getByLabel("Feishu channel")).toBeVisible();
await page.goto("/workspace/chats");
const mainThread = page
.locator("main")
.locator(`a[href='/workspace/chats/${MOCK_THREAD_ID}']`);
await expect(mainThread.getByText("Feishu conversation")).toBeVisible({
timeout: 15_000,
});
await expect(mainThread.getByText("Feishu", { exact: true })).toBeVisible();
});
});
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