import { CommandLane } from "./lanes.js"; import { diagnosticLogger as diag, logLaneDequeue, logLaneEnqueue } from "../logging/diagnostic.js"; // Minimal in-process queue to serialize command executions. // Default lane ("main") preserves the existing behavior. Additional lanes allow // low-risk parallelism (e.g. cron jobs) without interleaving stdin / logs for // the main auto-reply workflow. type QueueEntry = { task: () => Promise; resolve: (value: unknown) => void; reject: (reason?: unknown) => void; enqueuedAt: number; warnAfterMs: number; onWait?: (waitMs: number, queuedAhead: number) => void; }; type LaneState = { lane: string; queue: QueueEntry[]; active: number; maxConcurrent: number; draining: boolean; }; const lanes = new Map(); function getLaneState(lane: string): LaneState { const existing = lanes.get(lane); if (existing) return existing; const created: LaneState = { lane, queue: [], active: 0, maxConcurrent: 1, draining: false, }; lanes.set(lane, created); return created; } function drainLane(lane: string) { const state = getLaneState(lane); if (state.draining) return; state.draining = true; const pump = () => { while (state.active < state.maxConcurrent && state.queue.length > 0) { const entry = state.queue.shift() as QueueEntry; const waitedMs = Date.now() - entry.enqueuedAt; if (waitedMs >= entry.warnAfterMs) { entry.onWait?.(waitedMs, state.queue.length); diag.warn( `lane wait exceeded: lane=${lane} waitedMs=${waitedMs} queueAhead=${state.queue.length}`, ); } logLaneDequeue(lane, waitedMs, state.queue.length); state.active += 1; void (async () => { const startTime = Date.now(); try { const result = await entry.task(); state.active -= 1; diag.debug( `lane task done: lane=${lane} durationMs=${Date.now() - startTime} active=${state.active} queued=${state.queue.length}`, ); pump(); entry.resolve(result); } catch (err) { state.active -= 1; const isProbeLane = lane.startsWith("auth-probe:") || lane.startsWith("session:probe-"); if (!isProbeLane) { diag.error( `lane task error: lane=${lane} durationMs=${Date.now() - startTime} error="${String(err)}"`, ); } pump(); entry.reject(err); } })(); } state.draining = false; }; pump(); } export function setCommandLaneConcurrency(lane: string, maxConcurrent: number) { const cleaned = lane.trim() || CommandLane.Main; const state = getLaneState(cleaned); state.maxConcurrent = Math.max(1, Math.floor(maxConcurrent)); drainLane(cleaned); } export function enqueueCommandInLane( lane: string, task: () => Promise, opts?: { warnAfterMs?: number; onWait?: (waitMs: number, queuedAhead: number) => void; }, ): Promise { const cleaned = lane.trim() || CommandLane.Main; const warnAfterMs = opts?.warnAfterMs ?? 2_000; const state = getLaneState(cleaned); return new Promise((resolve, reject) => { state.queue.push({ task: () => task(), resolve: (value) => resolve(value as T), reject, enqueuedAt: Date.now(), warnAfterMs, onWait: opts?.onWait, }); logLaneEnqueue(cleaned, state.queue.length + state.active); drainLane(cleaned); }); } export function enqueueCommand( task: () => Promise, opts?: { warnAfterMs?: number; onWait?: (waitMs: number, queuedAhead: number) => void; }, ): Promise { return enqueueCommandInLane(CommandLane.Main, task, opts); } export function getQueueSize(lane: string = CommandLane.Main) { const resolved = lane.trim() || CommandLane.Main; const state = lanes.get(resolved); if (!state) return 0; return state.queue.length + state.active; } export function getTotalQueueSize() { let total = 0; for (const s of lanes.values()) { total += s.queue.length + s.active; } return total; } export function clearCommandLane(lane: string = CommandLane.Main) { const cleaned = lane.trim() || CommandLane.Main; const state = lanes.get(cleaned); if (!state) return 0; const removed = state.queue.length; state.queue.length = 0; return removed; }