alee/golfgame
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases 2 Wiki Activity
Files
b8bc432175baf8b867e8bb960088e8c7c594956f
golfgame/tests/soak/scenarios/shared/multiplayer-game.ts
adlee-was-taken b8bc432175 feat(soak): artifacts, graceful shutdown, health probes, smoke script, v3.3.4 
Batched remaining harness tasks (27-30, 33):

Task 27 — Artifact capture on failure: screenshots, HTML snapshots,
game state JSON, and console error tails are captured into
tests/soak/artifacts/<run-id>/ when a scenario throws. Successful
runs get a summary.json. Old runs (>7d) are pruned on startup.

Task 28 — Graceful shutdown: first SIGINT/SIGTERM flips the abort
signal (scenarios finish current turn then unwind). 10s after, a
hard-kill fires if cleanup hangs. Double Ctrl-C = immediate exit.
Exit codes: 0 success, 1 errors, 2 interrupted.

Task 29 — Periodic health probes: every 30s GET /health against the
target server. Three consecutive failures abort the run with
health_fatal, preventing staging outages from being misattributed
to harness bugs. Corrected endpoint from /api/health to /health
per server/routers/health.py.

Task 30 — Smoke test script: tests/soak/scripts/smoke.sh, a 60s
end-to-end canary that health-probes the target, seeds if needed,
and runs one minimal populate game.

Task 33 — Version bump to v3.3.4: both index.html footers (was
v3.1.6), new footer added to admin.html (had none), pyproject.toml.

Also fixes discovered during stress testing:
- SessionPool sets baseURL on all contexts so relative goto('/')
  resolves correctly between games (was "invalid URL" error)
- RoomCoordinator key is now unique per game-start (Date.now
  suffix) so Deferred promises don't carry stale room codes from
  previous games

Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
2026-04-11 22:57:15 -04:00

134 lines
4.4 KiB
TypeScript
Raw Blame History

/**
* runOneMultiplayerGame — the shared "play one game in one room" loop.
*
* Host creates the room, announces the code via RoomCoordinator,
* joiners wait for the code and join concurrently, host adds CPUs and
* starts the game, then every session loops on isMyTurn/playTurn until
* the game ends (or the abort signal fires, or maxDurationMs elapses).
*
* Used by both the populate and stress scenarios so the turn loop
* lives in exactly one place.
*/
import type { Session, ScenarioContext } from '../../core/types';
export interface MultiplayerGameOptions {
roomId: string;
holes: number;
decks: number;
cpusPerRoom: number;
cpuPersonality?: string;
/** Per-turn think time in [min, max] ms. */
thinkTimeMs: [number, number];
/** Max wall-clock time before giving up on the game (ms). */
maxDurationMs?: number;
}
export interface MultiplayerGameResult {
completed: boolean;
turns: number;
durationMs: number;
error?: string;
}
function randomInt(min: number, max: number): number {
return Math.floor(Math.random() * (max - min + 1)) + min;
}
async function sleep(ms: number): Promise<void> {
return new Promise((resolve) => setTimeout(resolve, ms));
}
export async function runOneMultiplayerGame(
ctx: ScenarioContext,
sessions: Session[],
opts: MultiplayerGameOptions,
): Promise<MultiplayerGameResult> {
const start = Date.now();
const [host, ...joiners] = sessions;
const maxDuration = opts.maxDurationMs ?? 5 * 60_000;
try {
// Reset every session back to the lobby before starting.
// After the first game ends each session is parked on the
// game_over screen, which hides the lobby's Create Room button.
// goto('/') bounces them back; localStorage-cached auth persists.
await Promise.all(sessions.map((s) => s.bot.goto('/')));
// Use a unique coordinator key per game-start so Deferreds don't
// carry stale room codes from previous games. The coordinator's
// Promises only resolve once — reusing `opts.roomId` across games
// would make joiners receive the first game's code on every game.
const coordKey = `${opts.roomId}-${Date.now()}`;
// Host creates game and announces the code
const code = await host.bot.createGame(host.account.username);
ctx.coordinator.announce(coordKey, code);
ctx.heartbeat(opts.roomId);
ctx.dashboard.update(opts.roomId, { phase: 'lobby' });
ctx.logger.info('room_created', { room: opts.roomId, code });
// Joiners join concurrently
await Promise.all(
joiners.map(async (joiner) => {
const awaited = await ctx.coordinator.await(coordKey);
await joiner.bot.joinGame(awaited, joiner.account.username);
}),
);
ctx.heartbeat(opts.roomId);
// Host adds CPUs (if any) and starts
for (let i = 0; i < opts.cpusPerRoom; i++) {
await host.bot.addCPU(opts.cpuPersonality);
}
await host.bot.startGame({ holes: opts.holes, decks: opts.decks });
ctx.heartbeat(opts.roomId);
ctx.dashboard.update(opts.roomId, { phase: 'playing', totalHoles: opts.holes });
// Concurrent turn loops — one per session
const turnCounts = new Array(sessions.length).fill(0);
async function sessionLoop(sessionIdx: number): Promise<void> {
const session = sessions[sessionIdx];
while (true) {
if (ctx.signal.aborted) return;
if (Date.now() - start > maxDuration) return;
const phase = await session.bot.getGamePhase();
if (phase === 'game_over' || phase === 'round_over') return;
if (await session.bot.isMyTurn()) {
await session.bot.playTurn();
turnCounts[sessionIdx]++;
ctx.heartbeat(opts.roomId);
ctx.dashboard.update(opts.roomId, {
currentPlayer: session.account.username,
moves: turnCounts.reduce((a, b) => a + b, 0),
});
const thinkMs = randomInt(opts.thinkTimeMs[0], opts.thinkTimeMs[1]);
await sleep(thinkMs);
} else {
await sleep(200);
}
}
}
await Promise.all(sessions.map((_, i) => sessionLoop(i)));
const totalTurns = turnCounts.reduce((a, b) => a + b, 0);
ctx.dashboard.update(opts.roomId, { phase: 'round_over' });
return {
completed: true,
turns: totalTurns,
durationMs: Date.now() - start,
};
} catch (err) {
return {
completed: false,
turns: 0,
durationMs: Date.now() - start,
error: err instanceof Error ? err.message : String(err),
};
}
}
Reference in New Issue View Git Blame Copy Permalink