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87 lines
2.9 KiB
TypeScript
87 lines
2.9 KiB
TypeScript
/**
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* Per-key serial task queue for Feishu inbound message handling.
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*
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* Tasks enqueued under the same key run in FIFO order. Different keys run
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* concurrently. This preserves the channel's same-chat ordering contract
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* (see #64324) while letting cross-chat work proceed in parallel.
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*
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* `taskTimeoutMs` bounds how long the queue will block subsequent same-key
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* tasks behind a single in-flight task. After the cap, the in-flight task
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* is evicted from the blocking chain so newer messages for the same key
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* can proceed. The original task is NOT aborted — it continues running in
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* the background; it just stops starving the queue.
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*
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* Without this cap, a single hung dispatch (e.g. an agent call that never
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* resolves) keeps later same-chat messages in `queued` state until the
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* gateway is restarted. See #70133.
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*/
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const DEFAULT_TASK_TIMEOUT_MS = 5 * 60 * 1000;
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export interface SequentialQueueOptions {
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/**
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* Maximum time (ms) to block subsequent same-key tasks behind a single
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* in-flight task. Pass 0 (or a non-finite value) to disable the cap and
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* restore unbounded legacy behavior.
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*
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* Default: 5 minutes.
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*/
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taskTimeoutMs?: number;
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/**
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* Optional callback fired when a task exceeds `taskTimeoutMs`. The task
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* itself is not awaited further; this callback is the only signal the
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* caller gets that the queue moved on without it.
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*/
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onTaskTimeout?: (key: string, timeoutMs: number) => void;
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}
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export function createSequentialQueue(options: SequentialQueueOptions = {}) {
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const queues = new Map<string, Promise<void>>();
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const taskTimeoutMs = options.taskTimeoutMs ?? DEFAULT_TASK_TIMEOUT_MS;
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const onTaskTimeout = options.onTaskTimeout;
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return (key: string, task: () => Promise<void>): Promise<void> => {
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const previous = queues.get(key) ?? Promise.resolve();
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const wrapped = () => boundedRun(key, task, taskTimeoutMs, onTaskTimeout);
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const next = previous.then(wrapped, wrapped);
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queues.set(key, next);
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const cleanup = () => {
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if (queues.get(key) === next) {
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queues.delete(key);
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}
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};
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next.then(cleanup, cleanup);
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return next;
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};
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}
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async function boundedRun(
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key: string,
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task: () => Promise<void>,
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timeoutMs: number,
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onTaskTimeout: ((key: string, timeoutMs: number) => void) | undefined,
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): Promise<void> {
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if (!Number.isFinite(timeoutMs) || timeoutMs <= 0) {
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return task();
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}
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let timeoutHandle: ReturnType<typeof setTimeout> | undefined;
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const timeoutPromise = new Promise<void>((resolve) => {
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timeoutHandle = setTimeout(() => {
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try {
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onTaskTimeout?.(key, timeoutMs);
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} catch {
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// Swallow logging errors so they cannot poison the queue chain.
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}
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resolve();
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}, timeoutMs);
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});
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try {
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await Promise.race([task(), timeoutPromise]);
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} finally {
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if (timeoutHandle) {
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clearTimeout(timeoutHandle);
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}
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}
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}
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