import { describe, test, expect } from "bun:test" import path from "path" const projectRoot = path.join(import.meta.dir, "../..") const worker = path.join(import.meta.dir, "abort-leak-webfetch.ts") const MB = 1024 * 1024 const ITERATIONS = 50 const getHeapMB = () => { Bun.gc(true) return process.memoryUsage().heapUsed / MB } describe("memory: abort controller leak", () => { test("webfetch does not leak memory over many invocations", async () => { // Measure the abort-timed fetch path in a fresh process so shared tool // runtime state does not dominate the heap signal. const proc = Bun.spawn({ cmd: [process.execPath, worker], cwd: projectRoot, stdout: "pipe", stderr: "pipe", env: process.env, }) const [code, stdout, stderr] = await Promise.all([ proc.exited, new Response(proc.stdout).text(), new Response(proc.stderr).text(), ]) if (code !== 0) { throw new Error(stderr.trim() || stdout.trim() || `worker exited with code ${code}`) } const result = JSON.parse(stdout.trim()) as { baseline: number after: number growth: number } console.log(`Baseline: ${result.baseline.toFixed(2)} MB`) console.log(`After ${ITERATIONS} fetches: ${result.after.toFixed(2)} MB`) console.log(`Growth: ${result.growth.toFixed(2)} MB`) // Memory growth should be minimal - less than 1MB per 10 requests. expect(result.growth).toBeLessThan(ITERATIONS / 10) }, 60000) test("compare closure vs bind pattern directly", async () => { const ITERATIONS = 500 // Test OLD pattern: arrow function closure // Store closures in a map keyed by content to force retention const closureMap = new Map void>() const timers: Timer[] = [] const controllers: AbortController[] = [] Bun.gc(true) Bun.sleepSync(100) const baseline = getHeapMB() for (let i = 0; i < ITERATIONS; i++) { // Simulate large response body like webfetch would have const content = `${i}:${"x".repeat(50 * 1024)}` // 50KB unique per iteration const controller = new AbortController() controllers.push(controller) // OLD pattern - closure captures `content` const handler = () => { // Actually use content so it can't be optimized away if (content.length > 1000000000) controller.abort() } closureMap.set(content, handler) const timeoutId = setTimeout(handler, 30000) timers.push(timeoutId) } Bun.gc(true) Bun.sleepSync(100) const after = getHeapMB() const oldGrowth = after - baseline console.log(`OLD pattern (closure): ${oldGrowth.toFixed(2)} MB growth (${closureMap.size} closures)`) // Cleanup after measuring timers.forEach(clearTimeout) controllers.forEach((c) => c.abort()) closureMap.clear() // Test NEW pattern: bind Bun.gc(true) Bun.sleepSync(100) const baseline2 = getHeapMB() const handlers2: (() => void)[] = [] const timers2: Timer[] = [] const controllers2: AbortController[] = [] for (let i = 0; i < ITERATIONS; i++) { const _content = `${i}:${"x".repeat(50 * 1024)}` // 50KB - won't be captured const controller = new AbortController() controllers2.push(controller) // NEW pattern - bind doesn't capture surrounding scope const handler = controller.abort.bind(controller) handlers2.push(handler) const timeoutId = setTimeout(handler, 30000) timers2.push(timeoutId) } Bun.gc(true) Bun.sleepSync(100) const after2 = getHeapMB() const newGrowth = after2 - baseline2 // Cleanup after measuring timers2.forEach(clearTimeout) controllers2.forEach((c) => c.abort()) handlers2.length = 0 console.log(`NEW pattern (bind): ${newGrowth.toFixed(2)} MB growth`) console.log(`Improvement: ${(oldGrowth - newGrowth).toFixed(2)} MB saved`) expect(newGrowth).toBeLessThanOrEqual(oldGrowth) }) })