508 lines
21 KiB
TypeScript
508 lines
21 KiB
TypeScript
import { describe, expect, onTestFinished, vi } from "vitest";
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// db.server + splitMode are mocked so the idempotency dedup client resolves to
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// the container prisma passed into the concern (split stays off).
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vi.mock("~/db.server", () => ({
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prisma: {},
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$replica: {},
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runOpsNewPrisma: {},
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runOpsLegacyPrisma: {},
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}));
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vi.mock("~/v3/runOpsMigration/splitMode.server", () => ({ isSplitEnabled: async () => false }));
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vi.mock("~/services/platform.v3.server", async (importOriginal) => {
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const actual = (await importOriginal()) as Record<string, unknown>;
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return {
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...actual,
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getEntitlement: vi.fn(),
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};
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});
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import { RunEngine } from "@internal/run-engine";
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import { setupAuthenticatedEnvironment, setupBackgroundWorker } from "@internal/run-engine/tests";
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import { containerTest } from "@internal/testcontainers";
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import { trace } from "@opentelemetry/api";
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import { IdempotencyKeyConcern } from "~/runEngine/concerns/idempotencyKeys.server";
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import { DefaultQueueManager } from "~/runEngine/concerns/queues.server";
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import type { ValidationResult } from "~/runEngine/types";
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import { RunEngineTriggerTaskService } from "../../app/runEngine/services/triggerTask.server";
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import {
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MOCK_SPAN_ID,
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MOCK_TRACE_ID,
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MockPayloadProcessor,
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MockTraceEventConcern,
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MockTriggerTaskValidator,
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} from "./triggerTaskTestHelpers";
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vi.setConfig({ testTimeout: 60_000, hookTimeout: 60_000 });
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describe("RunEngineTriggerTaskService", () => {
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// ─── Mollifier integration ──────────────────────────────────────────────────
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//
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// These tests pin the call-site behaviour of the mollifier hooks inside
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// RunEngineTriggerTaskService.call. They use the optional DI ports
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// (`evaluateGate`, `getMollifierBuffer`) added on the service constructor —
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// production wiring is unchanged (defaults to the live module-level imports).
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// Each test's regression intent lives in its own setup comment.
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class CapturingMollifierBuffer {
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public accepted: Array<{ runId: string; envId: string; orgId: string; payload: string }> = [];
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async accept(input: { runId: string; envId: string; orgId: string; payload: string }) {
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this.accepted.push(input);
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return true;
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}
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async pop() {
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return null;
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}
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async ack() {}
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async requeue() {}
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async fail() {
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return false;
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}
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async getEntry() {
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return null;
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}
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async listEnvs(): Promise<string[]> {
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return [];
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}
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async getEntryTtlSeconds(): Promise<number> {
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return -1;
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}
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async evaluateTrip() {
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return { tripped: false, count: 0 };
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}
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async close() {}
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}
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containerTest(
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"mollifier · validation throws before the gate is consulted; no buffer write",
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async ({ prisma, redisOptions }) => {
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const engine = new RunEngine({
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prisma,
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worker: { redis: redisOptions, workers: 1, tasksPerWorker: 10, pollIntervalMs: 100 },
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queue: { redis: redisOptions },
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runLock: { redis: redisOptions },
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machines: {
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defaultMachine: "small-1x",
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machines: {
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"small-1x": { name: "small-1x" as const, cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
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},
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baseCostInCents: 0.0005,
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},
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tracer: trace.getTracer("test", "0.0.0"),
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});
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onTestFinished(() => engine.quit());
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const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
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const taskIdentifier = "test-task";
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await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
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// Validator that fails on maxAttempts. Any validation throw must abort
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// the call BEFORE the gate runs — otherwise the gate could leak a
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// buffer write for an invalid request.
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class FailingMaxAttemptsValidator extends MockTriggerTaskValidator {
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validateMaxAttempts(): ValidationResult {
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return { ok: false, error: new Error("synthetic max-attempts failure") };
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}
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}
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const buffer = new CapturingMollifierBuffer();
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const evaluateGateSpy = vi.fn(async () => ({
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action: "mollify" as const,
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decision: {
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divert: true as const,
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reason: "per_env_rate" as const,
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count: 99,
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threshold: 1,
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windowMs: 200,
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holdMs: 500,
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},
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}));
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const triggerTaskService = new RunEngineTriggerTaskService({
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engine,
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prisma,
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payloadProcessor: new MockPayloadProcessor(),
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queueConcern: new DefaultQueueManager(prisma, engine),
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idempotencyKeyConcern: new IdempotencyKeyConcern(
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prisma,
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engine,
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new MockTraceEventConcern()
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),
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validator: new FailingMaxAttemptsValidator(),
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traceEventConcern: new MockTraceEventConcern(),
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tracer: trace.getTracer("test", "0.0.0"),
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metadataMaximumSize: 1024 * 1024,
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evaluateGate: evaluateGateSpy,
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getMollifierBuffer: () => buffer as never,
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isMollifierGloballyEnabled: () => true,
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});
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await expect(
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triggerTaskService.call({
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taskId: taskIdentifier,
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environment: authenticatedEnvironment,
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body: { payload: { test: "x" } },
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})
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).rejects.toThrow(/synthetic max-attempts failure/);
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// Critical: the gate must NEVER be consulted when validation fails.
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// If this assertion fires, validation has been re-ordered after the
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// mollifier gate — a regression that would let invalid triggers land
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// in the buffer.
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expect(evaluateGateSpy).not.toHaveBeenCalled();
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expect(buffer.accepted).toHaveLength(0);
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}
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);
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containerTest(
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"mollifier · mollify action writes to buffer and returns synthetic result (no Postgres row)",
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async ({ prisma, redisOptions }) => {
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// When the gate decides mollify, the call site
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// invokes `mollifyTrigger` which writes the engine.trigger snapshot
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// to the buffer and returns a synthesised `MollifySyntheticResult`
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// (run.friendlyId + notice + isCached:false). `engine.trigger` is
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// NEVER invoked on this path — the run materialises in Postgres
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// later, when the drainer replays the snapshot. The replay is
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// covered by `mollifierDrainerHandler.test.ts`; this test pins the
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// call-site integration: synthetic result + buffer write + no
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// Postgres side effect.
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const engine = new RunEngine({
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prisma,
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worker: { redis: redisOptions, workers: 1, tasksPerWorker: 10, pollIntervalMs: 100 },
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queue: { redis: redisOptions },
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runLock: { redis: redisOptions },
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machines: {
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defaultMachine: "small-1x",
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machines: {
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"small-1x": { name: "small-1x" as const, cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
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},
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baseCostInCents: 0.0005,
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},
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tracer: trace.getTracer("test", "0.0.0"),
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});
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onTestFinished(() => engine.quit());
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const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
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const taskIdentifier = "test-task";
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await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
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// Buffer override records the time of the accept call so we can
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// assert that traceRun fired strictly before the buffer was
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// touched. If a future change re-introduces the "skip traceRun on
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// mollify" shortcut, traceConcern.traceRunEnteredAt stays
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// undefined and the ordering assertion fails.
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class TimestampedBuffer extends CapturingMollifierBuffer {
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public acceptedAt: number | undefined;
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override async accept(input: {
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runId: string;
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envId: string;
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orgId: string;
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payload: string;
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}) {
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this.acceptedAt = Date.now();
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return await super.accept(input);
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}
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}
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const buffer = new TimestampedBuffer();
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const trippedDecision = {
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divert: true as const,
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reason: "per_env_rate" as const,
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count: 150,
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threshold: 100,
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windowMs: 200,
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holdMs: 500,
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};
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const traceConcern = new MockTraceEventConcern();
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const triggerTaskService = new RunEngineTriggerTaskService({
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engine,
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prisma,
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payloadProcessor: new MockPayloadProcessor(),
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queueConcern: new DefaultQueueManager(prisma, engine),
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idempotencyKeyConcern: new IdempotencyKeyConcern(
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prisma,
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engine,
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new MockTraceEventConcern()
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),
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validator: new MockTriggerTaskValidator(),
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traceEventConcern: traceConcern,
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tracer: trace.getTracer("test", "0.0.0"),
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metadataMaximumSize: 1024 * 1024,
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evaluateGate: async () => ({ action: "mollify", decision: trippedDecision }),
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getMollifierBuffer: () => buffer as never,
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isMollifierGloballyEnabled: () => true,
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});
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const result = await triggerTaskService.call({
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taskId: taskIdentifier,
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environment: authenticatedEnvironment,
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body: { payload: { hello: "world" } },
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});
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// Pre-modifier span creation: traceRun must run BEFORE the buffer
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// is touched. Customer-visible effect — the run span lands in
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// ClickHouse from the moment the trigger returns, even when the
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// drainer is offline, so buffered runs are visible in the trace
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// view immediately rather than only after drain.
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expect(traceConcern.traceRunEnteredAt).toBeDefined();
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expect(buffer.acceptedAt).toBeDefined();
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expect(traceConcern.traceRunEnteredAt!).toBeLessThanOrEqual(buffer.acceptedAt!);
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// Synthetic result is returned with the `mollifier.queued` notice
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// (the call-site casts the synthetic shape to `TriggerTaskServiceResult`;
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// at runtime the `notice` and `isCached: false` fields are present
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// and read by the api.v1.tasks.$taskId.trigger.ts route handler).
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expect(result).toBeDefined();
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expect(result?.run.friendlyId).toBeDefined();
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const synthetic = result as unknown as {
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run: { friendlyId: string };
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isCached: false;
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notice: { code: string; message: string; docs: string };
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};
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expect(synthetic.isCached).toBe(false);
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expect(synthetic.notice.code).toBe("mollifier.queued");
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expect(synthetic.notice.message).toBeTypeOf("string");
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expect(synthetic.notice.docs).toBeTypeOf("string");
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// The mollify branch must flag `isMollified: true` on the result so
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// the trigger route can skip `saveRequestIdempotency`. Caching the
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// synthetic runId in the request-idempotency table would mean a
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// lost-response SDK retry (same `x-trigger-request-idempotency-key`
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// header) hits a PG miss in `handleRequestIdempotency` and falls
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// through to a fresh trigger — producing a duplicate buffer entry
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// for trigger calls without a task-level idempotency key. The
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// bounded behaviour (accept retry-as-fresh-trigger during the
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// buffer window) is the deliberate choice; a stale-cache lookup
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// returning null is not.
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expect(result?.isMollified).toBe(true);
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// buffer.accept ran — Redis has the canonical engine.trigger snapshot
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// under the synthesised friendlyId. The drainer will read this and
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// replay it through engine.trigger to materialise the run.
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expect(buffer.accepted).toHaveLength(1);
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expect(buffer.accepted[0]!.runId).toBe(result!.run.friendlyId);
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expect(buffer.accepted[0]!.envId).toBe(authenticatedEnvironment.id);
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expect(buffer.accepted[0]!.orgId).toBe(authenticatedEnvironment.organizationId);
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// Payload is a JSON-serialised MollifierSnapshot (the engine.trigger
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// input). Schema is internal to the engine, so we only assert that
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// it parses and references the friendlyId — anything more specific
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// would couple the mollifier-layer test to engine-layer fields.
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const snapshot = JSON.parse(buffer.accepted[0]!.payload) as {
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traceId?: string;
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spanId?: string;
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traceContext?: { traceparent?: string };
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};
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// Regression guard for the dashboard trace-tree bug: the mollifier
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// snapshot MUST carry a W3C `traceparent` in `traceContext`,
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// seeded from the same span traceRun opened. Without it, the
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// drainer replays through engine.trigger with empty traceContext
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// and every downstream `recordRunDebugLog`
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// (QUEUED/EXECUTING/FINISHED/run:notify…) gets a fresh traceId +
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// null parentId — the run-detail page can only show the root
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// span. Both the mollify and pass-through paths now flow through
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// `traceEventConcern.traceRun`; this assertion pins the
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// seeding-from-the-run-span contract.
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expect(snapshot.traceContext?.traceparent).toMatch(
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/^00-[0-9a-f]{32}-[0-9a-f]{16}-[0-9a-f]{2}$/
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);
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expect(snapshot.traceContext!.traceparent).toContain(snapshot.traceId);
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expect(snapshot.traceContext!.traceparent).toContain(snapshot.spanId);
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// The snapshot inherits the *run span's* traceId/spanId (from the
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// event handed in by traceRun), not a separately-generated OTel
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// span. This is what lets the drainer's `mollifier.drained` span
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// and downstream engine.trigger materialisation parent on the
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// same ClickHouse trace the customer sees from the moment trigger
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// returns.
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expect(snapshot.traceId).toBe(MOCK_TRACE_ID);
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expect(snapshot.spanId).toBe(MOCK_SPAN_ID);
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// Postgres has NOT been written: engine.trigger was never called on
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// the mollify path. The run materialises only when the drainer
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// replays the snapshot. Regression intent: if a future change makes
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// the mollify branch fall through to engine.trigger (re-introducing
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// phase-1 dual-write), this assertion fails loudly.
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const pgRun = await prisma.taskRun.findFirst({
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where: { friendlyId: result!.run.friendlyId },
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});
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expect(pgRun).toBeNull();
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}
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);
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containerTest(
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"mollifier · pass_through action does NOT call buffer.accept",
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async ({ prisma, redisOptions }) => {
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const engine = new RunEngine({
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prisma,
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worker: { redis: redisOptions, workers: 1, tasksPerWorker: 10, pollIntervalMs: 100 },
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queue: { redis: redisOptions },
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runLock: { redis: redisOptions },
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machines: {
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defaultMachine: "small-1x",
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machines: {
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"small-1x": { name: "small-1x" as const, cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
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},
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baseCostInCents: 0.0005,
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},
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tracer: trace.getTracer("test", "0.0.0"),
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});
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onTestFinished(() => engine.quit());
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const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
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const taskIdentifier = "test-task";
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await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
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const buffer = new CapturingMollifierBuffer();
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const getBufferSpy = vi.fn(() => buffer as never);
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const triggerTaskService = new RunEngineTriggerTaskService({
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engine,
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prisma,
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payloadProcessor: new MockPayloadProcessor(),
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queueConcern: new DefaultQueueManager(prisma, engine),
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idempotencyKeyConcern: new IdempotencyKeyConcern(
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prisma,
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engine,
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new MockTraceEventConcern()
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),
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validator: new MockTriggerTaskValidator(),
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traceEventConcern: new MockTraceEventConcern(),
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tracer: trace.getTracer("test", "0.0.0"),
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metadataMaximumSize: 1024 * 1024,
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evaluateGate: async () => ({ action: "pass_through" }),
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getMollifierBuffer: getBufferSpy,
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isMollifierGloballyEnabled: () => true,
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});
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const result = await triggerTaskService.call({
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taskId: taskIdentifier,
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environment: authenticatedEnvironment,
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body: { payload: { test: "x" } },
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});
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expect(result).toBeDefined();
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// Postgres has the run, no buffer side-effects
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expect(buffer.accepted).toHaveLength(0);
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// getMollifierBuffer must not be called either — the call site short-circuits
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// before touching the singleton when the gate says pass_through.
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expect(getBufferSpy).not.toHaveBeenCalled();
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// Pass-through must NOT set `isMollified` — `result.run` is a real
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// PG row, and the trigger route's `saveRequestIdempotency` is
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// safe to call. Setting the flag here would silently skip the
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// request-idempotency cache for every non-mollified trigger on a
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// mollifier-enabled org, breaking lost-response retry dedup.
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expect(result?.isMollified).toBeFalsy();
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}
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);
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containerTest(
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"mollifier · idempotency-key match short-circuits BEFORE the gate is consulted",
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async ({ prisma, redisOptions }) => {
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// SCENARIO: a trigger arrives with an idempotency key matching an
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// already-created run. `IdempotencyKeyConcern.handleTriggerRequest`
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// (line 236 of triggerTask.server.ts) detects the match BEFORE the
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// mollifier gate runs and returns `{ isCached: true, run }`. The
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// service early-returns. The gate is never consulted, buffer.accept
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// never fires, no orphan entry is created.
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//
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// Regression intent: if IdempotencyKeyConcern were re-ordered to run
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// AFTER evaluateGate, every idempotent retry on a flagged org would
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// produce an orphan buffer entry — the audit-trail invariant ("every
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// buffered runId has a matching TaskRun") would silently start failing
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// for retries. This test pins the current order.
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const engine = new RunEngine({
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prisma,
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worker: { redis: redisOptions, workers: 1, tasksPerWorker: 10, pollIntervalMs: 100 },
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queue: { redis: redisOptions },
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runLock: { redis: redisOptions },
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machines: {
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defaultMachine: "small-1x",
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machines: {
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"small-1x": { name: "small-1x" as const, cpu: 0.5, memory: 0.5, centsPerMs: 0.0001 },
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},
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baseCostInCents: 0.0005,
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},
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tracer: trace.getTracer("test", "0.0.0"),
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});
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onTestFinished(() => engine.quit());
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const authenticatedEnvironment = await setupAuthenticatedEnvironment(prisma, "PRODUCTION");
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const taskIdentifier = "test-task";
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await setupBackgroundWorker(engine, authenticatedEnvironment, taskIdentifier);
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const idempotencyKeyConcern = new IdempotencyKeyConcern(
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prisma,
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engine,
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new MockTraceEventConcern()
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);
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// Setup: normal trigger to create the cached run (no mollifier).
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const baseline = new RunEngineTriggerTaskService({
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engine,
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prisma,
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payloadProcessor: new MockPayloadProcessor(),
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queueConcern: new DefaultQueueManager(prisma, engine),
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idempotencyKeyConcern,
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validator: new MockTriggerTaskValidator(),
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traceEventConcern: new MockTraceEventConcern(),
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tracer: trace.getTracer("test", "0.0.0"),
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metadataMaximumSize: 1024 * 1024,
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});
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const first = await baseline.call({
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taskId: taskIdentifier,
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environment: authenticatedEnvironment,
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body: { payload: { test: "x" }, options: { idempotencyKey: "regression-key-5" } },
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});
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expect(first?.isCached).toBe(false);
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// Action: same idempotency key, with a mollify-stub gate that WOULD
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// create an orphan if reached. The concern must short-circuit first.
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const buffer = new CapturingMollifierBuffer();
|
|
const evaluateGateSpy = vi.fn(async () => ({
|
|
action: "mollify" as const,
|
|
decision: {
|
|
divert: true as const,
|
|
reason: "per_env_rate" as const,
|
|
count: 150,
|
|
threshold: 100,
|
|
windowMs: 200,
|
|
holdMs: 500,
|
|
},
|
|
}));
|
|
|
|
const mollifierService = new RunEngineTriggerTaskService({
|
|
engine,
|
|
prisma,
|
|
payloadProcessor: new MockPayloadProcessor(),
|
|
queueConcern: new DefaultQueueManager(prisma, engine),
|
|
idempotencyKeyConcern,
|
|
validator: new MockTriggerTaskValidator(),
|
|
traceEventConcern: new MockTraceEventConcern(),
|
|
tracer: trace.getTracer("test", "0.0.0"),
|
|
metadataMaximumSize: 1024 * 1024,
|
|
evaluateGate: evaluateGateSpy,
|
|
getMollifierBuffer: () => buffer as never,
|
|
isMollifierGloballyEnabled: () => true,
|
|
});
|
|
|
|
const cached = await mollifierService.call({
|
|
taskId: taskIdentifier,
|
|
environment: authenticatedEnvironment,
|
|
body: { payload: { test: "x" }, options: { idempotencyKey: "regression-key-5" } },
|
|
});
|
|
|
|
// Customer sees the cached run, isCached=true
|
|
expect(cached).toBeDefined();
|
|
expect(cached?.isCached).toBe(true);
|
|
expect(cached?.run.friendlyId).toBe(first?.run.friendlyId);
|
|
|
|
// Critical: the gate must NEVER be consulted on a cached-idempotency replay.
|
|
expect(evaluateGateSpy).not.toHaveBeenCalled();
|
|
expect(buffer.accepted).toHaveLength(0);
|
|
}
|
|
);
|
|
});
|