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

343 lines
12 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 { assertNonNullable, containerTest } from "@internal/testcontainers";
import { trace } from "@opentelemetry/api";
import { Redis } from "ioredis";
import { IdempotencyKeyConcern } from "~/runEngine/concerns/idempotencyKeys.server";
import { DefaultQueueManager } from "~/runEngine/concerns/queues.server";
import { RedisTaskMetadataCache } from "~/services/taskMetadataCache.server";
import { RunEngineTriggerTaskService } from "../../app/runEngine/services/triggerTask.server";
import { setTimeout } from "node:timers/promises";
import {
MockPayloadProcessor,
MockTraceEventConcern,
MockTriggerTaskValidator,
} from "./triggerTaskTestHelpers";
vi.setConfig({ testTimeout: 60_000, hookTimeout: 60_000 });
describe("DefaultQueueManager task metadata cache", () => {
containerTest(
"warm cache returns metadata without falling through to PG",
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", cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const environment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "cached-task";
const setup = await setupBackgroundWorker(engine, environment, taskIdentifier);
const redis = new Redis(redisOptions);
onTestFinished(() => redis.quit());
const cache = new RedisTaskMetadataCache({ redis });
// Pre-populate cache with AGENT triggerSource; DB row has the default STANDARD.
// If the read path hits the cache, the resulting TaskRun.taskKind reflects the
// cached value. If it falls through to PG, it reflects STANDARD.
await cache.populateByCurrentWorker(environment.id, setup.worker.id, [
{
slug: taskIdentifier,
ttl: null,
triggerSource: "AGENT",
queueId: null,
queueName: `task/${taskIdentifier}`,
},
]);
const queuesManager = new DefaultQueueManager(prisma, engine, undefined, cache);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern: new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
),
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024,
});
const result = await triggerTaskService.call({
taskId: taskIdentifier,
environment,
body: { payload: { test: "x" } },
});
assertNonNullable(result);
expect(result.run.taskIdentifier).toBe(taskIdentifier);
expect((result.run.annotations as { taskKind?: string } | null)?.taskKind).toBe("AGENT");
}
);
containerTest(
"cache miss falls through to PG and back-fills the cache",
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", cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const environment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "miss-task";
await setupBackgroundWorker(engine, environment, taskIdentifier);
const redis = new Redis(redisOptions);
onTestFinished(() => redis.quit());
const cache = new RedisTaskMetadataCache({ redis });
// Cache starts empty. Sanity-check both keyspaces.
expect(await cache.getCurrent(environment.id, taskIdentifier)).toBeNull();
const queuesManager = new DefaultQueueManager(prisma, engine, undefined, cache);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern: new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
),
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024,
});
const result = await triggerTaskService.call({
taskId: taskIdentifier,
environment,
body: { payload: { test: "x" } },
});
assertNonNullable(result);
expect((result.run.annotations as { taskKind?: string } | null)?.taskKind).toBe("STANDARD");
// Back-fill is fire-and-forget; poll with a bounded timeout to avoid CI flakes.
let backfilled = await cache.getCurrent(environment.id, taskIdentifier);
for (let i = 0; i < 40 && !backfilled; i++) {
await setTimeout(25);
backfilled = await cache.getCurrent(environment.id, taskIdentifier);
}
expect(backfilled).not.toBeNull();
expect(backfilled?.triggerSource).toBe("STANDARD");
expect(backfilled?.queueName).toBe(`task/${taskIdentifier}`);
}
);
containerTest(
"queue-override + ttl path returns taskKind from cache without a BWT lookup",
async ({ prisma, redisOptions }) => {
const engine = new RunEngine({
prisma,
worker: { redis: redisOptions, workers: 1, tasksPerWorker: 10, pollIntervalMs: 100 },
queue: { redis: redisOptions },
runLock: { redis: redisOptions },
machines: {
defaultMachine: "small-1x",
machines: {
"small-1x": { name: "small-1x", cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const environment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "override-task";
const setup = await setupBackgroundWorker(engine, environment, taskIdentifier);
const redis = new Redis(redisOptions);
onTestFinished(() => redis.quit());
const cache = new RedisTaskMetadataCache({ redis });
// Cache says AGENT; DB row says STANDARD. Caller provides both a queue
// override and an explicit TTL — the hot path the PR regressed.
await cache.populateByCurrentWorker(environment.id, setup.worker.id, [
{
slug: taskIdentifier,
ttl: null,
triggerSource: "AGENT",
queueId: null,
queueName: `task/${taskIdentifier}`,
},
]);
const queuesManager = new DefaultQueueManager(prisma, engine, undefined, cache);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern: new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
),
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024,
});
const result = await triggerTaskService.call({
taskId: taskIdentifier,
environment,
body: {
payload: { test: "x" },
options: {
queue: { name: "caller-queue" },
ttl: "5m",
},
},
});
assertNonNullable(result);
expect(result.run.queue).toBe("caller-queue");
expect((result.run.annotations as { taskKind?: string } | null)?.taskKind).toBe("AGENT");
}
);
containerTest(
"locked-version trigger reads from by-worker keyspace, not env keyspace",
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", cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
},
baseCostInCents: 0.0005,
},
tracer: trace.getTracer("test", "0.0.0"),
});
onTestFinished(() => engine.quit());
const environment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
const taskIdentifier = "keyspace-task";
const worker = await setupBackgroundWorker(engine, environment, taskIdentifier);
const redis = new Redis(redisOptions);
onTestFinished(() => redis.quit());
const cache = new RedisTaskMetadataCache({ redis });
// Populate the two keyspaces with conflicting triggerSource values so we
// can tell which keyspace the read used. The real worker's by-worker
// hash gets AGENT; the env hash gets SCHEDULED (seeded via a throwaway
// worker id since `populateByCurrentWorker` writes both keyspaces and
// we want the real worker's by-worker hash untouched).
await cache.populateByWorker(worker.worker.id, [
{
slug: taskIdentifier,
ttl: null,
triggerSource: "AGENT",
queueId: null,
queueName: `task/${taskIdentifier}`,
},
]);
await cache.populateByCurrentWorker(environment.id, "dummy-worker-for-env-seed", [
{
slug: taskIdentifier,
ttl: null,
triggerSource: "SCHEDULED",
queueId: null,
queueName: `task/${taskIdentifier}`,
},
]);
const queuesManager = new DefaultQueueManager(prisma, engine, undefined, cache);
const triggerTaskService = new RunEngineTriggerTaskService({
engine,
prisma,
payloadProcessor: new MockPayloadProcessor(),
queueConcern: queuesManager,
idempotencyKeyConcern: new IdempotencyKeyConcern(
prisma,
engine,
new MockTraceEventConcern()
),
validator: new MockTriggerTaskValidator(),
traceEventConcern: new MockTraceEventConcern(),
tracer: trace.getTracer("test", "0.0.0"),
metadataMaximumSize: 1024 * 1024,
});
// Locked → by-worker keyspace → AGENT
const locked = await triggerTaskService.call({
taskId: taskIdentifier,
environment,
body: {
payload: { test: "x" },
options: { lockToVersion: worker.worker.version },
},
});
assertNonNullable(locked);
expect((locked.run.annotations as { taskKind?: string } | null)?.taskKind).toBe("AGENT");
// Not locked → env keyspace → SCHEDULED
const current = await triggerTaskService.call({
taskId: taskIdentifier,
environment,
body: { payload: { test: "y" } },
});
assertNonNullable(current);
expect((current.run.annotations as { taskKind?: string } | null)?.taskKind).toBe("SCHEDULED");
}
);
});