243 lines
9.2 KiB
TypeScript
243 lines
9.2 KiB
TypeScript
import { containerTest } from "@internal/testcontainers";
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import { trace } from "@internal/tracing";
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import { setTimeout } from "timers/promises";
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import { describe, expect, vi } from "vitest";
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import type { TriggerScheduledTaskParams } from "../src/engine/types.js";
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import { ScheduleEngine } from "../src/index.js";
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describe("ScheduleEngine Integration", () => {
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containerTest(
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"should process full schedule lifecycle through worker with multiple executions",
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{ timeout: 240_000 }, // Increase timeout for multiple executions (4 minutes)
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async ({ prisma, redisOptions }) => {
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// Real callback function for testing expectations
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const mockDevConnectedHandler = vi.fn().mockResolvedValue(true);
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const triggerCalls: Array<{
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params: TriggerScheduledTaskParams;
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executionTime: Date;
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}> = [];
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const engine = new ScheduleEngine({
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prisma,
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redis: redisOptions,
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distributionWindow: { seconds: 10 },
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worker: {
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concurrency: 1,
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disabled: false, // Enable worker for full integration test
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pollIntervalMs: 100, // Poll frequently for faster test execution
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},
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tracer: trace.getTracer("test", "0.0.0"),
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onTriggerScheduledTask: async (params) => {
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const executionTime = new Date(); // Capture when callback is actually called
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console.log(
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`TriggerScheduledTask called at: ${executionTime.toISOString()} (execution #${
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triggerCalls.length + 1
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})`
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);
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console.log("TriggerScheduledTask", params);
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triggerCalls.push({ params, executionTime });
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return { success: true };
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},
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isDevEnvironmentConnectedHandler: mockDevConnectedHandler,
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});
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try {
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// Create real database records
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const organization = await prisma.organization.create({
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data: {
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title: "Test Organization",
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slug: "test-org",
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},
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});
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const project = await prisma.project.create({
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data: {
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name: "Test Project",
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slug: "test-project",
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externalRef: "test-ref",
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organizationId: organization.id,
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},
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});
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const environment = await prisma.runtimeEnvironment.create({
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data: {
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slug: "test-env",
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type: "PRODUCTION",
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projectId: project.id,
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organizationId: organization.id,
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apiKey: "tr_test_1234",
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pkApiKey: "pk_test_1234",
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shortcode: "test-short",
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},
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});
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const taskSchedule = await prisma.taskSchedule.create({
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data: {
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friendlyId: "sched_abc123",
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taskIdentifier: "test-task",
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projectId: project.id,
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deduplicationKey: "test-dedup",
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userProvidedDeduplicationKey: false,
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generatorExpression: "* * * * *", // Every minute
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generatorDescription: "Every minute",
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timezone: "UTC",
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type: "DECLARATIVE",
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active: true,
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externalId: "ext-123",
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},
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});
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const scheduleInstance = await prisma.taskScheduleInstance.create({
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data: {
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taskScheduleId: taskSchedule.id,
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environmentId: environment.id,
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projectId: project.id,
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active: true,
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},
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});
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// Manually enqueue the first scheduled task to kick off the lifecycle.
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// Anchor expectations to the first observed `exactScheduleTime` rather
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// than a precomputed wall-clock value — registration that happens to
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// straddle a minute boundary used to flake tests asserting against a
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// pre-baked "next minute".
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await engine.registerNextTaskScheduleInstance({ instanceId: scheduleInstance.id });
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// Wait for the first execution
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console.log("Waiting for first execution...");
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const startTime = Date.now();
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const maxWaitTime = 70_000; // 70 seconds max wait for first execution
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while (triggerCalls.length === 0 && Date.now() - startTime < maxWaitTime) {
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await setTimeout(100);
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}
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expect(triggerCalls.length).toBeGreaterThanOrEqual(1);
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// Verify the first execution
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const firstExecution = triggerCalls[0];
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console.log("First execution verified, waiting for second execution...");
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// Wait for the second execution (should happen ~1 minute after the first)
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const secondExecutionStartTime = Date.now();
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const maxWaitForSecond = 80_000; // 80 seconds max wait for second execution
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while (
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triggerCalls.length < 2 &&
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Date.now() - secondExecutionStartTime < maxWaitForSecond
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) {
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await setTimeout(100);
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}
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expect(triggerCalls.length).toBeGreaterThanOrEqual(2);
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const secondExecution = triggerCalls[1];
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console.log("Second execution verified!");
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// Give a small delay for database updates to complete before checking
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await setTimeout(500);
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// Verify both executions have correct timing and distribution window behavior
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for (let i = 0; i < 2; i++) {
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const execution = triggerCalls[i];
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const expectedScheduleTime = execution.params.exactScheduleTime;
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if (expectedScheduleTime) {
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// Calculate the distribution window (10 seconds before the scheduled time)
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const distributionWindowStart = new Date(expectedScheduleTime);
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distributionWindowStart.setSeconds(distributionWindowStart.getSeconds() - 10);
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console.log(`Execution ${i + 1}:`);
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console.log(" Scheduled time:", expectedScheduleTime.toISOString());
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console.log(" Distribution window start:", distributionWindowStart.toISOString());
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console.log(" Actual execution time:", execution.executionTime.toISOString());
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// Verify the callback was executed within the distribution window
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expect(execution.executionTime.getTime()).toBeGreaterThanOrEqual(
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distributionWindowStart.getTime()
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);
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expect(execution.executionTime.getTime()).toBeLessThanOrEqual(
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expectedScheduleTime.getTime()
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);
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}
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}
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// Anchor all expectations to what the engine actually fired with, so
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// the test stays deterministic regardless of when within a minute it
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// started.
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const firstScheduledTime = firstExecution.params.exactScheduleTime;
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const secondScheduledTime = secondExecution.params.exactScheduleTime;
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expect(firstScheduledTime).toBeDefined();
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expect(secondScheduledTime).toBeDefined();
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// Each cron slot for "* * * * *" is exactly 60s apart.
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expect(secondScheduledTime!.getTime() - firstScheduledTime!.getTime()).toBe(60_000);
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// Verify the first execution parameters
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expect(firstExecution.params).toEqual({
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taskIdentifier: "test-task",
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environment: expect.objectContaining({
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id: environment.id,
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type: "PRODUCTION",
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project: expect.objectContaining({
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id: project.id,
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name: "Test Project",
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slug: "test-project",
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}),
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organization: expect.objectContaining({
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id: organization.id,
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title: "Test Organization",
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slug: "test-org",
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}),
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}),
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payload: {
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scheduleId: "sched_abc123",
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type: "DECLARATIVE",
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timestamp: firstScheduledTime,
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// First-ever fire: no `lastScheduleTime` carried in the worker
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// payload and `instance.lastScheduledTimestamp` is null on a
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// fresh instance, so lastTimestamp is undefined. This preserves
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// the `if (!payload.lastTimestamp)` first-run sentinel customers
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// rely on.
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lastTimestamp: undefined,
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externalId: "ext-123",
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timezone: "UTC",
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upcoming: expect.arrayContaining([expect.any(Date)]),
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},
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scheduleInstanceId: scheduleInstance.id,
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scheduleId: taskSchedule.id,
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exactScheduleTime: firstScheduledTime,
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});
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// Verify the second execution parameters
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expect(secondExecution.params).toEqual({
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taskIdentifier: "test-task",
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environment: expect.objectContaining({
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id: environment.id,
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type: "PRODUCTION",
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}),
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payload: {
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scheduleId: "sched_abc123",
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type: "DECLARATIVE",
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timestamp: secondScheduledTime,
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// The previous fire's exactScheduleTime is carried through the
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// worker payload as `lastScheduleTime` and surfaced here.
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lastTimestamp: firstScheduledTime,
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externalId: "ext-123",
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timezone: "UTC",
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upcoming: expect.arrayContaining([expect.any(Date)]),
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},
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scheduleInstanceId: scheduleInstance.id,
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scheduleId: taskSchedule.id,
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exactScheduleTime: secondScheduledTime,
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});
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} finally {
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// Clean up: stop the worker
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await engine.quit();
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}
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}
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);
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});
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