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triggerdotdev--trigger.dev/packages/trigger-sdk/test/pending-message-drain.test.ts
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2026-07-13 13:32:57 +08:00

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TypeScript

// Import the test harness FIRST — this installs the resource catalog so
// `chat.agent()` calls below register their task functions correctly.
import { mockChatAgent } from "../src/v3/test/index.js";
import { describe, expect, it, vi } from "vitest";
import { chat } from "../src/v3/ai.js";
import { __setSessionOpenImplForTests, sessions } from "../src/v3/sessions.js";
import { apiClientManager, sessionStreams } from "@trigger.dev/core/v3";
import { runInMockTaskContext } from "@trigger.dev/core/v3/test";
import { simulateReadableStream, streamText } from "ai";
import { MockLanguageModelV3 } from "ai/test";
import type { LanguageModelV3StreamPart } from "@ai-sdk/provider";
// ── Helpers ────────────────────────────────────────────────────────────
function userMessage(text: string, id: string) {
return {
id,
role: "user" as const,
parts: [{ type: "text" as const, text }],
};
}
function textStreamChunks(text: string): LanguageModelV3StreamPart[] {
return [
{ type: "text-start", id: "t1" },
{ type: "text-delta", id: "t1", delta: text },
{ type: "text-end", id: "t1" },
{
type: "finish",
finishReason: { unified: "stop", raw: "stop" },
usage: {
inputTokens: { total: 10, noCache: 10, cacheRead: undefined, cacheWrite: undefined },
outputTokens: { total: 10, text: 10, reasoning: undefined },
},
},
];
}
/** Model that answers `ANSWER(<last user text>)`, slowly enough that
* records sent right after the turn starts arrive mid-stream. */
function echoModel() {
return new MockLanguageModelV3({
doStream: async ({ prompt }) => {
const users = prompt.filter((m) => m.role === "user");
const last = users[users.length - 1];
const text = Array.isArray(last?.content)
? last.content
.filter((p): p is { type: "text"; text: string } => p.type === "text")
.map((p) => p.text)
.join("")
: "";
return {
stream: simulateReadableStream({
chunks: textStreamChunks(`ANSWER(${text})`),
initialDelayInMs: 100,
chunkDelayInMs: 10,
}),
};
},
});
}
async function waitFor(check: () => boolean, timeoutMs = 10_000) {
const start = Date.now();
while (Date.now() - start < timeoutMs) {
if (check()) return;
await new Promise((r) => setTimeout(r, 20));
}
throw new Error("waitFor timed out");
}
function streamedText(harness: { allChunks: unknown[] }): string {
return (harness.allChunks as { type?: string; delta?: string }[])
.filter((c) => c.type === "text-delta")
.map((c) => c.delta ?? "")
.join("");
}
function turnCompleteCount(harness: { allRawChunks: unknown[] }): number {
return (harness.allRawChunks as { type?: string }[]).filter(
(c) => c.type === "trigger:turn-complete"
).length;
}
// ── Tests ──────────────────────────────────────────────────────────────
describe("chat.agent pending wire buffer", () => {
it("dispatches every message buffered during a turn, not just the first", async () => {
const agent = chat.agent({
id: "pending-drain.agent",
run: async ({ messages, signal }) => {
return streamText({ model: echoModel(), messages, abortSignal: signal });
},
});
const harness = mockChatAgent(agent, { chatId: "pending-drain-1" });
try {
const first = harness.sendMessage(userMessage("m1", "u-1"));
// Once m1's turn is streaming, land two more records back-to-back —
// both are consumed into the turn's buffer before the turn ends.
await waitFor(() => streamedText(harness).includes("ANSWER(m1)"));
void harness.sendMessage(userMessage("m2", "u-2"));
void harness.sendMessage(userMessage("m3", "u-3"));
await first;
await waitFor(() => turnCompleteCount(harness) >= 3);
const text = streamedText(harness);
const m2At = text.indexOf("ANSWER(m2)");
const m3At = text.indexOf("ANSWER(m3)");
expect(m2At).toBeGreaterThan(-1);
expect(m3At).toBeGreaterThan(-1);
expect(m3At).toBeGreaterThan(m2At);
} finally {
await harness.close();
}
});
});
describe("chat.agent errored turn", () => {
it(
"does not duplicate messages buffered after a turn that threw",
{ timeout: 20000 },
async () => {
// Throw from a pre-stream hook: throws inside the streaming section are
// already covered by its finally, but a hook throw used to leak the
// turn's message handler into the loop-level buffer.
let turnStarts = 0;
const agent = chat.agent({
id: "pending-drain.errored-turn",
onTurnStart: async () => {
turnStarts++;
if (turnStarts === 1) {
throw new Error("synthetic turn failure");
}
},
run: async ({ messages, signal }) => {
return streamText({ model: echoModel(), messages, abortSignal: signal });
},
});
const harness = mockChatAgent(agent, { chatId: "pending-drain-4" });
try {
// Turn 1 throws — pre-fix its message handler leaked past the turn.
await harness.sendMessage(userMessage("boom", "u-1"));
const second = harness.sendMessage(userMessage("m2", "u-2"));
// m3 lands mid-turn; a leaked handler would push it twice.
await waitFor(() => streamedText(harness).includes("ANSWER(m2)"));
void harness.sendMessage(userMessage("m3", "u-3"));
await second;
await waitFor(() => streamedText(harness).includes("ANSWER(m3)"));
await new Promise((r) => setTimeout(r, 500));
const text = streamedText(harness);
expect(text.match(/ANSWER\(m3\)/g)).toHaveLength(1);
} finally {
await harness.close();
}
}
);
});
describe("chat.createSession pending wire buffer", () => {
it("dispatches messages buffered during a turn as subsequent turns", async () => {
const agent = chat.customAgent({
id: "pending-drain.session",
run: async (payload) => {
const session = chat.createSession(payload, {
signal: new AbortController().signal,
idleTimeoutInSeconds: 2,
});
for await (const turn of session) {
const result = streamText({
model: echoModel(),
messages: turn.messages,
abortSignal: turn.signal,
});
await turn.complete(result);
}
},
});
const harness = mockChatAgent(agent, { chatId: "pending-drain-2" });
try {
const first = harness.sendMessage(userMessage("m1", "u-1"));
await waitFor(() => streamedText(harness).includes("ANSWER(m1)"));
void harness.sendMessage(userMessage("m2", "u-2"));
void harness.sendMessage(userMessage("m3", "u-3"));
await first;
await waitFor(() => turnCompleteCount(harness) >= 3);
const text = streamedText(harness);
expect(text).toContain("ANSWER(m2)");
expect(text).toContain("ANSWER(m3)");
} finally {
await harness.close();
}
});
});
describe("chat.createSession stop + immediate send", () => {
it(
"dispatches a message that arrives right after a stopped turn",
{ timeout: 20000 },
async () => {
const agent = chat.customAgent({
id: "pending-drain.session-stop",
run: async (payload) => {
const session = chat.createSession(payload, {
signal: new AbortController().signal,
idleTimeoutInSeconds: 2,
// Steering config active — the failure mode routed post-stream
// arrivals into the dead steering queue instead of the next turn.
pendingMessages: {},
});
for await (const turn of session) {
const result = streamText({
model: echoModel(),
messages: turn.messages,
abortSignal: turn.signal,
});
await turn.complete(result);
}
},
});
const harness = mockChatAgent(agent, { chatId: "pending-drain-3" });
try {
const first = harness.sendMessage(userMessage("write a long essay", "u-1"));
await waitFor(() => streamedText(harness).length > 0);
await harness.sendStop();
// Land the next message inside the stopped turn's post-stream window
// (the ~2s totalUsage race), after the abort has settled — previously
// the still-attached handler steering-routed it into the dead queue.
await new Promise((r) => setTimeout(r, 150));
void harness.sendMessage(userMessage("m2", "u-2"));
await first;
await waitFor(() => turnCompleteCount(harness) >= 2);
await waitFor(() => streamedText(harness).includes("ANSWER(m2)"));
} finally {
await harness.close();
}
}
);
});
describe("session.in.wait() consume cursor", () => {
it("advances lastDispatchedSeqNum alongside lastSeqNum on waitpoint delivery", async () => {
__setSessionOpenImplForTests(undefined);
await runInMockTaskContext(async () => {
vi.spyOn(apiClientManager, "clientOrThrow").mockReturnValue({
createSessionStreamWaitpoint: async () => ({ waitpointId: "wp_test_1" }),
waitForWaitpointToken: async () => ({ success: true }),
} as never);
const sessionId = "cursor-sess";
// Simulate records 0..4 already received via SSE before the suspend.
sessionStreams.setLastSeqNum(sessionId, "in", 4);
const result = await sessions.open(sessionId).in.wait();
expect(result.ok).toBe(true);
expect(sessionStreams.lastSeqNum(sessionId, "in")).toBe(5);
// The waitpoint-delivered record was consumed by this caller, so the
// committed-consume cursor (what turn-completes persist as
// `session-in-event-id`) must advance with it.
expect(sessionStreams.lastDispatchedSeqNum(sessionId, "in")).toBe(5);
});
});
});