Files
2026-07-13 13:32:57 +08:00

463 lines
14 KiB
TypeScript

import { describe, expect, onTestFinished, vi } from "vitest";
// db.server + splitMode are mocked so the idempotency dedup client resolves to
// the container prisma passed into the concern (split stays off).
vi.mock("~/db.server", () => ({
prisma: {},
$replica: {},
runOpsNewPrisma: {},
runOpsLegacyPrisma: {},
}));
vi.mock("~/v3/runOpsMigration/splitMode.server", () => ({ isSplitEnabled: async () => false }));
vi.mock("~/services/platform.v3.server", async (importOriginal) => {
const actual = (await importOriginal()) as Record<string, unknown>;
return {
...actual,
getEntitlement: vi.fn(),
};
});
import { RunEngine } from "@internal/run-engine";
import { setupAuthenticatedEnvironment, setupBackgroundWorker } from "@internal/run-engine/tests";
import { containerTest } from "@internal/testcontainers";
import { trace } from "@opentelemetry/api";
import type { IOPacket } from "@trigger.dev/core/v3";
import { IdempotencyKeyConcern } from "~/runEngine/concerns/idempotencyKeys.server";
import { DefaultQueueManager } from "~/runEngine/concerns/queues.server";
import type { PayloadProcessor, TriggerTaskRequest } from "~/runEngine/types";
import { RunEngineTriggerTaskService } from "../../app/runEngine/services/triggerTask.server";
import { setTimeout } from "node:timers/promises";
import {
MockPayloadProcessor,
MockTraceEventConcern,
MockTriggerRacepointSystem,
MockTriggerTaskValidator,
} from "./triggerTaskTestHelpers";
vi.setConfig({ testTimeout: 60_000, hookTimeout: 60_000 });
describe("RunEngineTriggerTaskService", () => {
containerTest(
"should preserve runFriendlyId across retries when RunDuplicateIdempotencyKeyError is thrown",
async ({ prisma, redisOptions }) => {
const engine = new RunEngine({
prisma,
worker: {
redis: redisOptions,
workers: 1,
tasksPerWorker: 10,
pollIntervalMs: 100,
},
queue: {
redis: redisOptions,
},
runLock: {
redis: redisOptions,
},
machines: {
defaultMachine: "small-1x",
machines: {
"small-1x": {
name: "small-1x" as const,
cpu: 0.5,
memory: 0.5,
centsPerMs: 0.0001,
},
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
logLevel: "debug",
});
onTestFinished(() => engine.quit());
const parentTask = "parent-task";
const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "test-task";
// Create background worker
await setupBackgroundWorker(engine, authenticatedEnvironment, [parentTask, taskIdentifier]);
// Create parent runs and start their attempts (required for resumeParentOnCompletion)
const parentRun1 = await engine.trigger(
{
number: 1,
friendlyId: "run_cmqxvncxq0000kaulzpafkicv",
environment: authenticatedEnvironment,
taskIdentifier: parentTask,
payload: "{}",
payloadType: "application/json",
context: {},
traceContext: {},
traceId: "t12345",
spanId: "s12345",
queue: `task/${parentTask}`,
isTest: false,
tags: [],
workerQueue: "main",
},
prisma
);
await setTimeout(500);
const dequeued = await engine.dequeueFromWorkerQueue({
consumerId: "test_12345",
workerQueue: "main",
});
await engine.startRunAttempt({
runId: parentRun1.id,
snapshotId: dequeued[0].snapshot.id,
});
const parentRun2 = await engine.trigger(
{
number: 2,
friendlyId: "run_cmqxvncxr0001kauldv9mqa9z",
environment: authenticatedEnvironment,
taskIdentifier: parentTask,
payload: "{}",
payloadType: "application/json",
context: {},
traceContext: {},
traceId: "t12346",
spanId: "s12346",
queue: `task/${parentTask}`,
isTest: false,
tags: [],
workerQueue: "main",
},
prisma
);
await setTimeout(500);
const dequeued2 = await engine.dequeueFromWorkerQueue({
consumerId: "test_12345",
workerQueue: "main",
});
await engine.startRunAttempt({
runId: parentRun2.id,
snapshotId: dequeued2[0].snapshot.id,
});
const queuesManager = new DefaultQueueManager(prisma, engine);
const idempotencyKeyConcern = new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
);
const triggerRacepointSystem = new MockTriggerRacepointSystem();
// Track all friendlyIds passed to the payload processor
const processedFriendlyIds: string[] = [];
class TrackingPayloadProcessor implements PayloadProcessor {
async process(request: TriggerTaskRequest): Promise<IOPacket> {
processedFriendlyIds.push(request.friendlyId);
return {
data: JSON.stringify(request.body.payload),
dataType: "application/json",
};
}
}
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new TrackingPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern,
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024 * 1, // 1MB
triggerRacepointSystem,
});
const idempotencyKey = "test-preserve-friendly-id";
const racepoint = triggerRacepointSystem.registerRacepoint("idempotencyKey", idempotencyKey);
// Trigger two concurrent requests with same idempotency key
// One will succeed, one will fail with RunDuplicateIdempotencyKeyError and retry
const childTriggerPromise1 = triggerTaskService.call({
taskId: taskIdentifier,
environment: authenticatedEnvironment,
body: {
payload: { test: "test1" },
options: {
idempotencyKey,
parentRunId: parentRun1.friendlyId,
resumeParentOnCompletion: true,
},
},
});
const childTriggerPromise2 = triggerTaskService.call({
taskId: taskIdentifier,
environment: authenticatedEnvironment,
body: {
payload: { test: "test2" },
options: {
idempotencyKey,
parentRunId: parentRun2.friendlyId,
resumeParentOnCompletion: true,
},
},
});
await setTimeout(500);
// Resolve the racepoint to allow both requests to proceed
racepoint.resolve();
const result1 = await childTriggerPromise1;
const result2 = await childTriggerPromise2;
// Both should return the same run (one created, one cached)
expect(result1).toBeDefined();
expect(result2).toBeDefined();
expect(result1?.run.friendlyId).toBe(result2?.run.friendlyId);
// The key assertion: When a retry happens due to RunDuplicateIdempotencyKeyError,
// the same friendlyId should be used. We expect exactly 2 calls to payloadProcessor
// (one for each concurrent request), not 3 (which would indicate a new friendlyId on retry)
// Since the retry returns early from the idempotency cache, payloadProcessor is not called again.
expect(processedFriendlyIds.length).toBe(2);
// Verify that we have exactly 2 unique friendlyIds (one per original request)
const uniqueFriendlyIds = new Set(processedFriendlyIds);
expect(uniqueFriendlyIds.size).toBe(2);
}
);
containerTest(
"should reject invalid debounce.delay when no explicit delay is provided",
async ({ prisma, redisOptions }) => {
const engine = new RunEngine({
prisma,
worker: {
redis: redisOptions,
workers: 1,
tasksPerWorker: 10,
pollIntervalMs: 100,
},
queue: {
redis: redisOptions,
},
runLock: {
redis: redisOptions,
},
machines: {
defaultMachine: "small-1x",
machines: {
"small-1x": {
name: "small-1x" as const,
cpu: 0.5,
memory: 0.5,
centsPerMs: 0.0001,
},
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "test-task";
await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
const queuesManager = new DefaultQueueManager(prisma, engine);
const idempotencyKeyConcern = new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern,
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024 * 1,
});
// Invalid debounce.delay format (ms not supported)
await expect(
triggerTaskService.call({
taskId: taskIdentifier,
environment: authenticatedEnvironment,
body: {
payload: { test: "test" },
options: {
debounce: {
key: "test-key",
delay: "300ms", // Invalid - ms not supported
},
},
},
})
).rejects.toThrow("Debounce requires a valid delay duration");
}
);
containerTest(
"should reject invalid debounce.delay even when explicit delay is valid",
async ({ prisma, redisOptions }) => {
const engine = new RunEngine({
prisma,
worker: {
redis: redisOptions,
workers: 1,
tasksPerWorker: 10,
pollIntervalMs: 100,
},
queue: {
redis: redisOptions,
},
runLock: {
redis: redisOptions,
},
machines: {
defaultMachine: "small-1x",
machines: {
"small-1x": {
name: "small-1x" as const,
cpu: 0.5,
memory: 0.5,
centsPerMs: 0.0001,
},
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "test-task";
await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
const queuesManager = new DefaultQueueManager(prisma, engine);
const idempotencyKeyConcern = new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern,
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024 * 1,
});
// Valid explicit delay but invalid debounce.delay
// This is the bug case: the explicit delay passes validation,
// but debounce.delay would fail later when rescheduling
await expect(
triggerTaskService.call({
taskId: taskIdentifier,
environment: authenticatedEnvironment,
body: {
payload: { test: "test" },
options: {
delay: "5m", // Valid explicit delay
debounce: {
key: "test-key",
delay: "invalid-delay", // Invalid debounce delay
},
},
},
})
).rejects.toThrow("Invalid debounce delay");
}
);
containerTest("should accept valid debounce.delay formats", async ({ prisma, redisOptions }) => {
const engine = new RunEngine({
prisma,
worker: {
redis: redisOptions,
workers: 1,
tasksPerWorker: 10,
pollIntervalMs: 100,
},
queue: {
redis: redisOptions,
},
runLock: {
redis: redisOptions,
},
machines: {
defaultMachine: "small-1x",
machines: {
"small-1x": {
name: "small-1x" as const,
cpu: 0.5,
memory: 0.5,
centsPerMs: 0.0001,
},
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "test-task";
await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
const queuesManager = new DefaultQueueManager(prisma, engine);
const idempotencyKeyConcern = new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern,
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024 * 1,
});
// Valid debounce.delay format
const result = await triggerTaskService.call({
taskId: taskIdentifier,
environment: authenticatedEnvironment,
body: {
payload: { test: "test" },
options: {
debounce: {
key: "test-key",
delay: "5s", // Valid format
},
},
},
});
expect(result).toBeDefined();
expect(result?.run.friendlyId).toBeDefined();
});
});