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clawdbot/src/web/auto-reply.web-auto-reply.reconnects-after-connection-close.test.ts
Peter Steinberger c379191f80 chore: migrate to oxlint and oxfmt 
Co-authored-by: Christoph Nakazawa <christoph.pojer@gmail.com>
2026-01-14 15:02:19 +00:00

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TypeScript
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import "./test-helpers.js";
import fs from "node:fs/promises";
import os from "node:os";
import path from "node:path";
import { afterEach, beforeEach, describe, expect, it, vi } from "vitest";
vi.mock("../agents/pi-embedded.js", () => ({
abortEmbeddedPiRun: vi.fn().mockReturnValue(false),
isEmbeddedPiRunActive: vi.fn().mockReturnValue(false),
isEmbeddedPiRunStreaming: vi.fn().mockReturnValue(false),
runEmbeddedPiAgent: vi.fn(),
queueEmbeddedPiMessage: vi.fn().mockReturnValue(false),
resolveEmbeddedSessionLane: (key: string) => `session:${key.trim() || "main"}`,
}));
import { resetInboundDedupe } from "../auto-reply/reply/inbound-dedupe.js";
import { resetLogger, setLoggerOverride } from "../logging.js";
import { monitorWebChannel } from "./auto-reply.js";
import { resetBaileysMocks, resetLoadConfigMock, setLoadConfigMock } from "./test-helpers.js";
let previousHome: string | undefined;
let tempHome: string | undefined;
const rmDirWithRetries = async (dir: string): Promise<void> => {
// Some tests can leave async session-store writes in-flight; recursive deletion can race and throw ENOTEMPTY.
for (let attempt = 0; attempt < 10; attempt += 1) {
try {
await fs.rm(dir, { recursive: true, force: true });
return;
} catch (err) {
const code =
err && typeof err === "object" && "code" in err
? String((err as { code?: unknown }).code)
: null;
if (code === "ENOTEMPTY" || code === "EBUSY" || code === "EPERM") {
await new Promise((resolve) => setTimeout(resolve, 25));
continue;
}
throw err;
}
}
await fs.rm(dir, { recursive: true, force: true });
};
beforeEach(async () => {
resetInboundDedupe();
previousHome = process.env.HOME;
tempHome = await fs.mkdtemp(path.join(os.tmpdir(), "clawdbot-web-home-"));
process.env.HOME = tempHome;
});
afterEach(async () => {
process.env.HOME = previousHome;
if (tempHome) {
await rmDirWithRetries(tempHome);
tempHome = undefined;
}
});
const makeSessionStore = async (
entries: Record<string, unknown> = {},
): Promise<{ storePath: string; cleanup: () => Promise<void> }> => {
const dir = await fs.mkdtemp(path.join(os.tmpdir(), "clawdbot-session-"));
const storePath = path.join(dir, "sessions.json");
await fs.writeFile(storePath, JSON.stringify(entries));
const cleanup = async () => {
// Session store writes can be in-flight when the test finishes (e.g. updateLastRoute
// after a message flush). `fs.rm({ recursive })` can race and throw ENOTEMPTY.
for (let attempt = 0; attempt < 10; attempt += 1) {
try {
await fs.rm(dir, { recursive: true, force: true });
return;
} catch (err) {
const code =
err && typeof err === "object" && "code" in err
? String((err as { code?: unknown }).code)
: null;
if (code === "ENOTEMPTY" || code === "EBUSY" || code === "EPERM") {
await new Promise((resolve) => setTimeout(resolve, 25));
continue;
}
throw err;
}
}
await fs.rm(dir, { recursive: true, force: true });
};
return {
storePath,
cleanup,
};
};
describe("web auto-reply", () => {
beforeEach(() => {
vi.clearAllMocks();
resetBaileysMocks();
resetLoadConfigMock();
});
afterEach(() => {
resetLogger();
setLoggerOverride(null);
vi.useRealTimers();
});
it("reconnects after a connection close", async () => {
const closeResolvers: Array<() => void> = [];
const sleep = vi.fn(async () => {});
const listenerFactory = vi.fn(async () => {
let _resolve!: () => void;
const onClose = new Promise<void>((res) => {
_resolve = res;
closeResolvers.push(res);
});
return { close: vi.fn(), onClose };
});
const runtime = {
log: vi.fn(),
error: vi.fn(),
exit: vi.fn(),
};
const controller = new AbortController();
const run = monitorWebChannel(
false,
listenerFactory,
true,
async () => ({ text: "ok" }),
runtime as never,
controller.signal,
{
heartbeatSeconds: 1,
reconnect: { initialMs: 10, maxMs: 10, maxAttempts: 3, factor: 1.1 },
sleep,
},
);
await Promise.resolve();
expect(listenerFactory).toHaveBeenCalledTimes(1);
closeResolvers[0]?.();
const waitForSecondCall = async () => {
const started = Date.now();
while (listenerFactory.mock.calls.length < 2 && Date.now() - started < 200) {
await new Promise((resolve) => setTimeout(resolve, 10));
}
};
await waitForSecondCall();
expect(listenerFactory).toHaveBeenCalledTimes(2);
expect(runtime.error).toHaveBeenCalledWith(expect.stringContaining("Retry 1"));
controller.abort();
closeResolvers[1]?.();
await new Promise((resolve) => setTimeout(resolve, 5));
await run;
});
it("forces reconnect when watchdog closes without onClose", async () => {
vi.useFakeTimers();
const sleep = vi.fn(async () => {});
const closeResolvers: Array<(reason: unknown) => void> = [];
let capturedOnMessage:
| ((msg: import("./inbound.js").WebInboundMessage) => Promise<void>)
| undefined;
const listenerFactory = vi.fn(
async (opts: {
onMessage: (msg: import("./inbound.js").WebInboundMessage) => Promise<void>;
}) => {
capturedOnMessage = opts.onMessage;
let resolveClose: (reason: unknown) => void = () => {};
const onClose = new Promise<unknown>((res) => {
resolveClose = res;
closeResolvers.push(res);
});
return {
close: vi.fn(),
onClose,
signalClose: (reason?: unknown) => resolveClose(reason),
};
},
);
const runtime = {
log: vi.fn(),
error: vi.fn(),
exit: vi.fn(),
};
const controller = new AbortController();
const run = monitorWebChannel(
false,
listenerFactory,
true,
async () => ({ text: "ok" }),
runtime as never,
controller.signal,
{
heartbeatSeconds: 1,
reconnect: { initialMs: 10, maxMs: 10, maxAttempts: 3, factor: 1.1 },
sleep,
},
);
await Promise.resolve();
expect(listenerFactory).toHaveBeenCalledTimes(1);
const reply = vi.fn().mockResolvedValue(undefined);
const sendComposing = vi.fn();
const sendMedia = vi.fn();
await capturedOnMessage?.({
body: "hi",
from: "+1",
to: "+2",
id: "m1",
sendComposing,
reply,
sendMedia,
});
await vi.advanceTimersByTimeAsync(31 * 60 * 1000);
await Promise.resolve();
await vi.advanceTimersByTimeAsync(1);
await Promise.resolve();
expect(listenerFactory).toHaveBeenCalledTimes(2);
controller.abort();
closeResolvers[1]?.({ status: 499, isLoggedOut: false });
await Promise.resolve();
await run;
}, 15_000);
it("stops after hitting max reconnect attempts", { timeout: 20000 }, async () => {
const closeResolvers: Array<() => void> = [];
const sleep = vi.fn(async () => {});
const listenerFactory = vi.fn(async () => {
const onClose = new Promise<void>((res) => closeResolvers.push(res));
return { close: vi.fn(), onClose };
});
const runtime = {
log: vi.fn(),
error: vi.fn(),
exit: vi.fn(),
};
const run = monitorWebChannel(
false,
listenerFactory,
true,
async () => ({ text: "ok" }),
runtime as never,
undefined,
{
heartbeatSeconds: 1,
reconnect: { initialMs: 5, maxMs: 5, maxAttempts: 2, factor: 1.1 },
sleep,
},
);
await Promise.resolve();
expect(listenerFactory).toHaveBeenCalledTimes(1);
closeResolvers.shift()?.();
await new Promise((resolve) => setTimeout(resolve, 15));
expect(listenerFactory).toHaveBeenCalledTimes(2);
closeResolvers.shift()?.();
await new Promise((resolve) => setTimeout(resolve, 15));
await run;
expect(runtime.error).toHaveBeenCalledWith(expect.stringContaining("max attempts reached"));
});
it("processes inbound messages without batching and preserves timestamps", async () => {
const originalTz = process.env.TZ;
process.env.TZ = "Europe/Vienna";
const originalMax = process.getMaxListeners();
process.setMaxListeners?.(1); // force low to confirm bump
const store = await makeSessionStore({
main: { sessionId: "sid", updatedAt: Date.now() },
});
try {
const sendMedia = vi.fn();
const reply = vi.fn().mockResolvedValue(undefined);
const sendComposing = vi.fn();
const resolver = vi.fn().mockResolvedValue({ text: "ok" });
let capturedOnMessage:
| ((msg: import("./inbound.js").WebInboundMessage) => Promise<void>)
| undefined;
const listenerFactory = async (opts: {
onMessage: (msg: import("./inbound.js").WebInboundMessage) => Promise<void>;
}) => {
capturedOnMessage = opts.onMessage;
return { close: vi.fn() };
};
setLoadConfigMock(() => ({
session: { store: store.storePath },
}));
await monitorWebChannel(false, listenerFactory, false, resolver);
expect(capturedOnMessage).toBeDefined();
// Two messages from the same sender with fixed timestamps
await capturedOnMessage?.({
body: "first",
from: "+1",
to: "+2",
id: "m1",
timestamp: 1735689600000, // Jan 1 2025 00:00:00 UTC
sendComposing,
reply,
sendMedia,
});
await capturedOnMessage?.({
body: "second",
from: "+1",
to: "+2",
id: "m2",
timestamp: 1735693200000, // Jan 1 2025 01:00:00 UTC
sendComposing,
reply,
sendMedia,
});
expect(resolver).toHaveBeenCalledTimes(2);
const firstArgs = resolver.mock.calls[0][0];
const secondArgs = resolver.mock.calls[1][0];
expect(firstArgs.Body).toContain("[WhatsApp +1 2025-01-01T00:00Z] [clawdbot] first");
expect(firstArgs.Body).not.toContain("second");
expect(secondArgs.Body).toContain("[WhatsApp +1 2025-01-01T01:00Z] [clawdbot] second");
expect(secondArgs.Body).not.toContain("first");
// Max listeners bumped to avoid warnings in multi-instance test runs
expect(process.getMaxListeners?.()).toBeGreaterThanOrEqual(50);
} finally {
process.setMaxListeners?.(originalMax);
process.env.TZ = originalTz;
await store.cleanup();
}
});
});
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