199 lines
9.4 KiB
TypeScript
199 lines
9.4 KiB
TypeScript
/**
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* QueryPool — the off-loop worker pool that keeps the shared daemon's main
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* event loop free for the MCP transport under concurrent read load (the
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* "10 subagents time out" report). These tests drive the pool's queue / growth /
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* crash-recovery / backstop logic with INJECTED fake workers, so they exercise
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* the real scheduling code without spawning threads or needing a built dist.
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*
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* End-to-end behavior with real worker threads (a worker opens its own WAL read
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* connection and runs codegraph_explore) is validated separately against a real
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* index; here we pin the orchestration that makes that safe and fair.
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*/
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import { describe, it, expect } from 'vitest';
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import { QueryPool, resolvePoolSize, type PoolWorker } from '../src/mcp/query-pool';
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import type { ToolResult } from '../src/mcp/tools';
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const sleep = (ms: number) => new Promise((r) => setTimeout(r, ms));
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interface CallMsg { type: 'call'; id: number; toolName: string; args: Record<string, unknown> }
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type Action = { result: ToolResult } | { crash: true } | { hang: true } | { wait: Promise<ToolResult> };
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/**
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* Fake worker speaking the same {type:'ready'|'result'} protocol as the real
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* one. `behavior` decides per call whether to return a result, crash (exit≠0),
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* hang (never reply — exercises the backstop), or wait on a promise (lets a test
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* hold a call in-flight to observe concurrency). Emits 'ready' on a macrotask so
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* the pool has wired its listeners first.
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*/
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class FakeWorker implements PoolWorker {
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private msgCb?: (m: unknown) => void;
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private exitCb?: (code: number) => void;
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alive = true;
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constructor(private behavior: (m: CallMsg) => Action, readyOk = true) {
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setTimeout(() => { if (this.alive) this.msgCb?.({ type: 'ready', ok: readyOk }); }, 0);
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}
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on(event: string, cb: (...args: any[]) => void): void {
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if (event === 'message') this.msgCb = cb;
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else if (event === 'exit') this.exitCb = cb;
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// 'error' unused by the fakes
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}
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private reply(id: number, result: ToolResult): void {
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if (this.alive) this.msgCb?.({ type: 'result', id, result });
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}
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postMessage(msg: unknown): void {
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const m = msg as CallMsg;
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if (!m || m.type !== 'call') return;
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const action = this.behavior(m);
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if ('crash' in action) {
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this.alive = false;
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setTimeout(() => this.exitCb?.(13), 0); // simulate a crash exit
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return;
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}
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if ('hang' in action) return; // never reply
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if ('wait' in action) { void action.wait.then((r) => this.reply(m.id, r)); return; }
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setTimeout(() => this.reply(m.id, action.result), 0);
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}
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terminate(): Promise<number> { this.alive = false; return Promise.resolve(0); }
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}
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const ok = (text: string): ToolResult => ({ content: [{ type: 'text', text }] });
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describe('resolvePoolSize', () => {
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it('honors a numeric override and disables on 0', () => {
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expect(resolvePoolSize('0', 8)).toBe(0);
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expect(resolvePoolSize('3', 8)).toBe(3);
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});
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it('caps the override at the hard ceiling', () => {
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expect(resolvePoolSize('999', 8)).toBe(16);
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});
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it('defaults to clamp(cores-1, 1, 16) when unset/blank/non-numeric', () => {
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expect(resolvePoolSize(undefined, 8)).toBe(7);
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expect(resolvePoolSize('', 8)).toBe(7);
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expect(resolvePoolSize('abc', 8)).toBe(7);
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expect(resolvePoolSize(undefined, 1)).toBe(1); // never zero
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expect(resolvePoolSize(undefined, 64)).toBe(16); // never above the ceiling
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});
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});
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describe('QueryPool', () => {
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it('dispatches a call and returns the worker result', async () => {
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const pool = new QueryPool({ root: '/x', size: 1, createWorker: () => new FakeWorker((m) => ({ result: ok(`r:${m.toolName}`) })) });
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const res = await pool.run('codegraph_explore', { query: 'q' });
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expect(res.content[0].text).toBe('r:codegraph_explore');
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await pool.destroy();
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});
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it('runs N concurrent calls in parallel (not serialized)', async () => {
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let active = 0, maxActive = 0;
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let release!: () => void;
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const gate = new Promise<void>((r) => { release = r; });
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// Each call holds in-flight until the gate opens, so max concurrency across
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// the pool is observable: with size=5 and 5 calls, all 5 should run at once.
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const behavior = (m: CallMsg): Action => ({
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wait: (async () => {
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active++; maxActive = Math.max(maxActive, active);
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await gate;
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active--;
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return ok(`r${m.id}`);
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})(),
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});
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const pool = new QueryPool({ root: '/x', size: 5, createWorker: () => new FakeWorker(behavior) });
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const calls = Promise.all(Array.from({ length: 5 }, (_, i) => pool.run('codegraph_search', { i })));
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await sleep(40); // let all workers spawn (cold-start cap → a few generations) + dispatch
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expect(maxActive).toBe(5);
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release();
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const results = await calls;
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expect(results.every((r) => /^r\d+$/.test(r.content[0].text))).toBe(true);
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await pool.destroy();
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});
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it('does not spawn the whole pool for a single call (pending-aware growth)', async () => {
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let created = 0;
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const pool = new QueryPool({ root: '/x', size: 8, createWorker: () => { created++; return new FakeWorker((m) => ({ result: ok(`r${m.id}`) })); } });
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await pool.run('codegraph_node', { symbol: 's' });
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// One eager worker + at most the cold-start cap — never all 8.
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expect(created).toBeLessThanOrEqual(2);
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await pool.destroy();
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});
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it('recovers from a worker crash: retries the in-flight call and respawns', async () => {
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let calls = 0;
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const pool = new QueryPool({
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root: '/x', size: 2, maxRetries: 1,
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// First dispatch crashes its worker; the retry (on a respawn/other worker) succeeds.
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createWorker: () => new FakeWorker((m) => (++calls === 1 ? { crash: true } : { result: ok(`recovered:${m.id}`) })),
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});
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const res = await pool.run('codegraph_explore', { query: 'q' });
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expect(res.isError).toBeFalsy();
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expect(res.content[0].text).toBe('recovered:1');
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await sleep(10);
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// The pool grows lazily, so one call keeps one worker — but the crash must
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// have been replaced (not dropped to zero) and the pool stays healthy and
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// keeps serving.
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expect(pool.liveWorkers).toBeGreaterThanOrEqual(1);
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expect(pool.healthy).toBe(true);
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const again = await pool.run('codegraph_node', { symbol: 's' });
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expect(again.isError).toBeFalsy();
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await pool.destroy();
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});
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it('fails a poison call gracefully without wedging the pool', async () => {
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// This specific call always crashes its worker; a normal call still works.
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const poison = (m: CallMsg) => m.toolName === 'codegraph_explore';
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const pool = new QueryPool({
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root: '/x', size: 3, maxRetries: 1,
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createWorker: () => new FakeWorker((m) => (poison(m) ? { crash: true } : { result: ok(`ok:${m.id}`) })),
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});
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const bad = await pool.run('codegraph_explore', { query: 'boom' });
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expect(bad.isError).toBe(true); // graceful, after retries
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const good = await pool.run('codegraph_search', { query: 'fine' });
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expect(good.isError).toBeFalsy();
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expect(good.content[0].text).toMatch(/^ok:/);
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await pool.destroy();
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});
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it('graceful backstop: a call that can\'t be served in time gets success-shaped busy guidance', async () => {
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// 1 worker, every call hangs; soft-timeout small → the caller gets guidance,
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// never a hard error, never a hang.
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const pool = new QueryPool({ root: '/x', size: 1, softTimeoutMs: 60, createWorker: () => new FakeWorker(() => ({ hang: true })) });
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const res = await pool.run('codegraph_explore', { query: 'q' });
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expect(res.isError).toBeFalsy(); // NOT an error (abandonment rule)
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expect(res.content[0].text).toMatch(/busy|retry/i);
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await pool.destroy();
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});
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it('destroy settles outstanding calls instead of hanging', async () => {
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const pool = new QueryPool({ root: '/x', size: 1, softTimeoutMs: 10_000, createWorker: () => new FakeWorker(() => ({ hang: true })) });
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const pending = pool.run('codegraph_explore', { query: 'q' });
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await sleep(5);
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await pool.destroy();
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const res = await pending; // must resolve, not hang
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expect(res.isError).toBe(true);
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expect(pool.healthy).toBe(false);
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});
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it('is not `ready` until a worker completes its cold start (#662 first-call stall)', async () => {
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// A worker cold start is seconds (tens under load); a call queued behind it
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// waits for the 45s busy backstop with nothing served. The ToolHandler must
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// be able to see "no warm worker yet" and dispatch in-process instead — so
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// `ready` is false before the first 'ready' handshake and true after.
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// (FakeWorker posts 'ready' on a macrotask — the synchronous check below
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// observes the cold-start window.)
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const pool = new QueryPool({ root: '/x', size: 1, createWorker: () => new FakeWorker((m) => ({ result: ok(`r:${m.toolName}`) })) });
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expect(pool.ready).toBe(false); // eager worker spawned but not yet warm
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await sleep(5); // let the ready handshake land
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expect(pool.ready).toBe(true);
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const res = await pool.run('codegraph_status', {});
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expect(res.content[0].text).toBe('r:codegraph_status');
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await pool.destroy();
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expect(pool.ready).toBe(false); // destroyed pool must not be selected
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});
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it('a failed cold start (ready ok:false) does not mark the pool ready', async () => {
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const pool = new QueryPool({ root: '/x', size: 1, createWorker: () => new FakeWorker(() => ({ hang: true }), /* readyOk */ false) });
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await sleep(5);
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expect(pool.ready).toBe(false); // hard open failure — keep serving in-process
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await pool.destroy();
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});
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});
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