# @push.rocks/taskbuffer 🚀 > **Modern TypeScript task orchestration with constraint-based concurrency, smart buffering, scheduling, labels, and real-time event streaming** [![npm version](https://img.shields.io/npm/v/@push.rocks/taskbuffer.svg)](https://www.npmjs.com/package/@push.rocks/taskbuffer) [![TypeScript](https://img.shields.io/badge/TypeScript-5.x-blue.svg)](https://www.typescriptlang.org/) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT) ## Issue Reporting and Security For reporting bugs, issues, or security vulnerabilities, please visit [community.foss.global/](https://community.foss.global/). This is the central community hub for all issue reporting. Developers who sign and comply with our contribution agreement and go through identification can also get a [code.foss.global/](https://code.foss.global/) account to submit Pull Requests directly. ## 🌟 Features - **🎯 Type-Safe Task Management** — Full TypeScript support with generics and type inference - **🔒 Constraint-Based Concurrency** — Per-key mutual exclusion, group concurrency limits, and cooldown enforcement via `TaskConstraintGroup` - **📊 Real-Time Progress Tracking** — Step-based progress with percentage weights - **⚡ Smart Buffering** — Intelligent request debouncing and batching - **⏰ Cron Scheduling** — Schedule tasks with cron expressions - **🔗 Task Chains & Parallel Execution** — Sequential and parallel task orchestration - **🏷️ Labels** — Attach arbitrary `Record` metadata (userId, tenantId, etc.) for multi-tenant filtering - **📡 Push-Based Events** — rxjs `Subject` on every Task and TaskManager for real-time state change notifications - **🛡️ Error Handling** — Configurable error propagation with `catchErrors`, error tracking, and clear error state - **🎨 Web Component Dashboard** — Built-in Lit-based dashboard for real-time task visualization - **🌐 Distributed Coordination** — Abstract coordinator for multi-instance task deduplication ## 📦 Installation ```bash pnpm add @push.rocks/taskbuffer # or npm install @push.rocks/taskbuffer ``` ## 🚀 Quick Start ### Basic Task ```typescript import { Task } from '@push.rocks/taskbuffer'; const greetTask = new Task({ name: 'Greet', taskFunction: async (name) => { return `Hello, ${name}!`; }, }); const result = await greetTask.trigger('World'); console.log(result); // "Hello, World!" ``` ### Task with Typed Data 📦 Every task can carry a typed data bag — perfect for constraint matching, routing, and metadata: ```typescript const task = new Task({ name: 'update-dns', data: { domain: 'example.com', priority: 1 }, taskFunction: async () => { // task.data is fully typed here console.log(`Updating DNS for ${task.data.domain}`); }, }); task.data.domain; // string — fully typed task.data.priority; // number — fully typed ``` ### Task with Steps & Progress 📊 ```typescript const deployTask = new Task({ name: 'Deploy', steps: [ { name: 'build', description: 'Building app', percentage: 30 }, { name: 'test', description: 'Running tests', percentage: 20 }, { name: 'deploy', description: 'Deploying to server', percentage: 40 }, { name: 'verify', description: 'Verifying deployment', percentage: 10 }, ] as const, taskFunction: async () => { deployTask.notifyStep('build'); await buildApp(); deployTask.notifyStep('test'); await runTests(); deployTask.notifyStep('deploy'); await deployToServer(); deployTask.notifyStep('verify'); await verifyDeployment(); return 'Deployment successful!'; }, }); await deployTask.trigger(); console.log(deployTask.getProgress()); // 100 console.log(deployTask.getStepsMetadata()); // Step details with status ``` > **Note:** `notifyStep()` is fully type-safe — TypeScript only accepts step names you declared in the `steps` array when you use `as const`. ## 🔒 Task Constraints — Concurrency, Mutual Exclusion & Cooldowns `TaskConstraintGroup` is the unified mechanism for controlling how tasks run relative to each other. It replaces older patterns like task runners, blocking tasks, and execution delays with a single, composable, key-based constraint system. ### Per-Key Mutual Exclusion Ensure only one task runs at a time for a given key (e.g. per domain, per tenant, per resource): ```typescript import { Task, TaskManager, TaskConstraintGroup } from '@push.rocks/taskbuffer'; const manager = new TaskManager(); // Only one DNS update per domain at a time const domainMutex = new TaskConstraintGroup<{ domain: string }>({ name: 'domain-mutex', maxConcurrent: 1, constraintKeyForTask: (task) => task.data.domain, }); manager.addConstraintGroup(domainMutex); const task1 = new Task({ name: 'update-a.com', data: { domain: 'a.com' }, taskFunction: async () => { /* update DNS for a.com */ }, }); const task2 = new Task({ name: 'update-a.com-2', data: { domain: 'a.com' }, taskFunction: async () => { /* another update for a.com */ }, }); manager.addTask(task1); manager.addTask(task2); // task2 waits until task1 finishes (same domain key) await Promise.all([ manager.triggerTask(task1), manager.triggerTask(task2), ]); ``` ### Group Concurrency Limits Cap how many tasks can run concurrently across a group: ```typescript // Max 3 DNS updaters running globally at once const dnsLimit = new TaskConstraintGroup<{ group: string }>({ name: 'dns-concurrency', maxConcurrent: 3, constraintKeyForTask: (task) => task.data.group === 'dns' ? 'dns' : null, // null = skip constraint }); manager.addConstraintGroup(dnsLimit); ``` ### Cooldowns (Rate Limiting) Enforce a minimum time gap between consecutive executions for the same key: ```typescript // No more than one API call per domain every 11 seconds const rateLimiter = new TaskConstraintGroup<{ domain: string }>({ name: 'api-rate-limit', maxConcurrent: 1, cooldownMs: 11000, constraintKeyForTask: (task) => task.data.domain, }); manager.addConstraintGroup(rateLimiter); ``` ### Global Concurrency Cap Limit total concurrent tasks system-wide: ```typescript const globalCap = new TaskConstraintGroup({ name: 'global-cap', maxConcurrent: 10, constraintKeyForTask: () => 'all', // same key = shared limit }); manager.addConstraintGroup(globalCap); ``` ### Composing Multiple Constraints Multiple constraint groups stack — a task only runs when **all** applicable constraints allow it: ```typescript manager.addConstraintGroup(globalCap); // max 10 globally manager.addConstraintGroup(domainMutex); // max 1 per domain manager.addConstraintGroup(rateLimiter); // 11s cooldown per domain // A task must satisfy ALL three constraints before it starts await manager.triggerTask(dnsTask); ``` ### Selective Constraints Return `null` from `constraintKeyForTask` to exempt a task from a constraint group: ```typescript const constraint = new TaskConstraintGroup<{ priority: string }>({ name: 'low-priority-limit', maxConcurrent: 2, constraintKeyForTask: (task) => task.data.priority === 'low' ? 'low-priority' : null, // high priority tasks skip this constraint }); ``` ### How It Works When you trigger a task through `TaskManager` (via `triggerTask`, `triggerTaskByName`, `addExecuteRemoveTask`, or cron), the manager: 1. Evaluates all registered constraint groups against the task 2. If no constraints apply (all matchers return `null`) → runs immediately 3. If all applicable constraints have capacity → acquires slots and runs 4. If any constraint blocks → enqueues the task; when a running task completes, the queue is drained 5. Cooldown-blocked tasks auto-retry after the shortest remaining cooldown expires ## 🎯 Core Concepts ### Task Buffering — Intelligent Request Management Prevent overwhelming your system with rapid-fire requests: ```typescript const apiTask = new Task({ name: 'APIRequest', buffered: true, bufferMax: 5, // Maximum 5 concurrent executions taskFunction: async (endpoint) => { return await fetch(endpoint).then((r) => r.json()); }, }); // Rapid fire 100 calls — only bufferMax execute concurrently for (let i = 0; i < 100; i++) { apiTask.trigger(`/api/data/${i}`); } ``` **Buffer Behavior:** - First `bufferMax` calls execute immediately - Additional calls are queued - When buffer is full, new calls overwrite the last queued item - Perfect for real-time data streams where only recent data matters ### Task Chains — Sequential Workflows 🔗 Build complex workflows with automatic data flow between tasks: ```typescript import { Taskchain } from '@push.rocks/taskbuffer'; const fetchTask = new Task({ name: 'Fetch', taskFunction: async () => { const res = await fetch('/api/data'); return res.json(); }, }); const transformTask = new Task({ name: 'Transform', taskFunction: async (data) => { return data.map((item) => ({ ...item, transformed: true })); }, }); const saveTask = new Task({ name: 'Save', taskFunction: async (transformedData) => { await database.save(transformedData); return transformedData.length; }, }); const pipeline = new Taskchain({ name: 'DataPipeline', taskArray: [fetchTask, transformTask, saveTask], }); const savedCount = await pipeline.trigger(); console.log(`Saved ${savedCount} items`); ``` Taskchain also supports dynamic mutation: ```typescript pipeline.addTask(newTask); // Append to chain pipeline.removeTask(oldTask); // Remove by reference (returns boolean) pipeline.shiftTask(); // Remove & return first task ``` Error context is rich — a chain failure includes the chain name, failing task name, task index, and preserves the original error as `.cause`. ### Parallel Execution — Concurrent Processing ⚡ Execute multiple tasks simultaneously: ```typescript import { Taskparallel } from '@push.rocks/taskbuffer'; const parallel = new Taskparallel({ taskArray: [emailTask, smsTask, pushNotificationTask, webhookTask], }); await parallel.trigger(notificationData); ``` ### Debounced Tasks — Smart Trigger Coalescing 🕐 Coalesce rapid triggers into a single execution after a quiet period: ```typescript import { TaskDebounced } from '@push.rocks/taskbuffer'; const searchTask = new TaskDebounced({ name: 'Search', debounceTimeInMillis: 300, taskFunction: async (query) => { return await searchAPI(query); }, }); // Rapid calls — only the last triggers after 300ms of quiet searchTask.trigger('h'); searchTask.trigger('he'); searchTask.trigger('hel'); searchTask.trigger('hello'); // ← this one fires ``` ### TaskOnce — Single-Execution Guard Ensure a task only runs once, regardless of how many times it's triggered: ```typescript import { TaskOnce } from '@push.rocks/taskbuffer'; const initTask = new TaskOnce({ name: 'Init', taskFunction: async () => { await setupDatabase(); console.log('Initialized!'); }, }); await initTask.trigger(); // Runs await initTask.trigger(); // No-op await initTask.trigger(); // No-op console.log(initTask.hasTriggered); // true ``` ## 🏷️ Labels — Multi-Tenant Task Filtering Attach arbitrary key-value labels to any task for filtering, grouping, or multi-tenant isolation: ```typescript const task = new Task({ name: 'ProcessOrder', labels: { userId: 'u-42', tenantId: 'acme-corp', priority: 'high' }, taskFunction: async (order) => { /* ... */ }, }); // Manipulate labels at runtime task.setLabel('region', 'eu-west'); task.getLabel('userId'); // 'u-42' task.hasLabel('tenantId', 'acme-corp'); // true task.removeLabel('priority'); // true // Labels are included in metadata snapshots const meta = task.getMetadata(); console.log(meta.labels); // { userId: 'u-42', tenantId: 'acme-corp', region: 'eu-west' } ``` ### Filtering Tasks by Label in TaskManager ```typescript const manager = new TaskManager(); manager.addTask(orderTask1); // labels: { tenantId: 'acme' } manager.addTask(orderTask2); // labels: { tenantId: 'globex' } manager.addTask(orderTask3); // labels: { tenantId: 'acme' } const acmeTasks = manager.getTasksByLabel('tenantId', 'acme'); // → [orderTask1, orderTask3] const acmeMetadata = manager.getTasksMetadataByLabel('tenantId', 'acme'); // → [ITaskMetadata, ITaskMetadata] ``` ## 📡 Push-Based Events — Real-Time Task Lifecycle Every `Task` exposes an rxjs `Subject` that emits events as the task progresses through its lifecycle: ```typescript import type { ITaskEvent } from '@push.rocks/taskbuffer'; const task = new Task({ name: 'DataSync', steps: [ { name: 'fetch', description: 'Fetching data', percentage: 50 }, { name: 'save', description: 'Saving data', percentage: 50 }, ] as const, taskFunction: async () => { task.notifyStep('fetch'); const data = await fetchData(); task.notifyStep('save'); await saveData(data); }, }); // Subscribe to individual task events task.eventSubject.subscribe((event: ITaskEvent) => { console.log(`[${event.type}] ${event.task.name} @ ${new Date(event.timestamp).toISOString()}`); if (event.type === 'step') console.log(` Step: ${event.stepName}`); if (event.type === 'failed') console.log(` Error: ${event.error}`); }); await task.trigger(); // [started] DataSync @ 2025-01-26T... // [step] DataSync @ 2025-01-26T... // Step: fetch // [step] DataSync @ 2025-01-26T... // Step: save // [completed] DataSync @ 2025-01-26T... ``` ### Event Types | Type | When | Extra Fields | | --- | --- | --- | | `'started'` | Task begins execution | — | | `'step'` | `notifyStep()` is called | `stepName` | | `'completed'` | Task finishes successfully | — | | `'failed'` | Task throws an error | `error` (message string) | Every event includes a full `ITaskMetadata` snapshot (including labels) at the time of emission. ### Aggregated Events on TaskManager `TaskManager` automatically aggregates events from all added tasks into a single `taskSubject`: ```typescript const manager = new TaskManager(); manager.addTask(syncTask); manager.addTask(reportTask); manager.addTask(cleanupTask); // Single subscription for ALL task events manager.taskSubject.subscribe((event) => { sendToMonitoringDashboard(event); }); // Events stop flowing for a task after removal manager.removeTask(syncTask); ``` `manager.stop()` automatically cleans up all event subscriptions. ## 🛡️ Error Handling By default, `trigger()` **rejects** when the task function throws — errors propagate naturally: ```typescript const task = new Task({ name: 'RiskyOp', taskFunction: async () => { throw new Error('something broke'); }, }); try { await task.trigger(); } catch (err) { console.error(err.message); // "something broke" } ``` ### Swallowing Errors with `catchErrors` Set `catchErrors: true` to swallow errors and return `undefined` instead of rejecting: ```typescript const task = new Task({ name: 'BestEffort', catchErrors: true, taskFunction: async () => { throw new Error('non-critical'); }, }); const result = await task.trigger(); // undefined (no throw) ``` ### Error State Tracking Regardless of `catchErrors`, the task tracks errors: ```typescript console.log(task.lastError); // Error object (or undefined) console.log(task.errorCount); // Number of failures across all runs console.log(task.getMetadata().status); // 'failed' task.clearError(); // Resets lastError to undefined (errorCount stays) ``` On a subsequent successful run, `lastError` is automatically cleared. ## 📋 TaskManager — Centralized Orchestration ```typescript const manager = new TaskManager(); // Add tasks manager.addTask(dataProcessor); manager.addTask(deployTask); // Schedule with cron expressions manager.addAndScheduleTask(backupTask, '0 2 * * *'); // Daily at 2 AM manager.addAndScheduleTask(healthCheck, '*/5 * * * *'); // Every 5 minutes // Register constraint groups manager.addConstraintGroup(globalCap); manager.addConstraintGroup(perDomainMutex); // Query metadata const meta = manager.getTaskMetadata('Deploy'); console.log(meta); // { // name: 'Deploy', // status: 'completed', // steps: [...], // currentProgress: 100, // runCount: 3, // labels: { env: 'production' }, // lastError: undefined, // errorCount: 0, // ... // } // All tasks at once const allMeta = manager.getAllTasksMetadata(); // Scheduled task info const scheduled = manager.getScheduledTasks(); const nextRuns = manager.getNextScheduledRuns(5); // Trigger by name (routes through constraints) await manager.triggerTaskByName('Deploy'); // One-shot: add, execute, collect report, remove const report = await manager.addExecuteRemoveTask(temporaryTask); console.log(report); // { // taskName: 'TempTask', // startTime: 1706284800000, // endTime: 1706284801523, // duration: 1523, // steps: [...], // stepsCompleted: ['step1', 'step2'], // progress: 100, // result: any // } // Lifecycle await manager.start(); // Starts cron scheduling + distributed coordinator await manager.stop(); // Stops scheduling, cleans up event subscriptions ``` ### Remove Tasks ```typescript manager.removeTask(task); // Removes from map and unsubscribes event forwarding manager.descheduleTaskByName('Deploy'); // Remove cron schedule only ``` ### Remove Constraint Groups ```typescript manager.removeConstraintGroup('domain-mutex'); // By name ``` ## 🎨 Web Component Dashboard Visualize your tasks in real-time with the included Lit-based web component: ```html ``` The dashboard provides: - 📊 Real-time progress bars with step indicators - 📈 Task execution history and metadata - ⏰ Scheduled task information with next-run times - 🌓 Light/dark theme support ## 🌐 Distributed Coordination For multi-instance deployments, extend `AbstractDistributedCoordinator` to prevent duplicate task execution: ```typescript import { TaskManager, distributedCoordination } from '@push.rocks/taskbuffer'; class RedisCoordinator extends distributedCoordination.AbstractDistributedCoordinator { async fireDistributedTaskRequest(request) { // Implement leader election / distributed lock via Redis return { shouldTrigger: true, considered: true, rank: 1, reason: 'elected', ...request }; } async updateDistributedTaskRequest(request) { /* update status */ } async start() { /* connect */ } async stop() { /* disconnect */ } } const manager = new TaskManager({ distributedCoordinator: new RedisCoordinator(), }); ``` When a distributed coordinator is configured, scheduled tasks consult it before executing — only the elected instance runs the task. ## 🧩 Advanced Patterns ### Pre-Task & After-Task Hooks Run setup/teardown tasks automatically: ```typescript const mainTask = new Task({ name: 'MainWork', preTask: new Task({ name: 'Setup', taskFunction: async () => { console.log('Setting up...'); }, }), afterTask: new Task({ name: 'Cleanup', taskFunction: async () => { console.log('Cleaning up...'); }, }), taskFunction: async () => { console.log('Doing work...'); return 'done'; }, }); await mainTask.trigger(); // Setting up... → Doing work... → Cleaning up... ``` ### One-Time Setup Functions Run an expensive initialization exactly once, before the first execution: ```typescript const task = new Task({ name: 'DBQuery', taskSetup: async () => { const pool = await createConnectionPool(); return pool; // This becomes `setupValue` }, taskFunction: async (input, pool) => { return await pool.query(input); }, }); await task.trigger('SELECT * FROM users'); // Setup runs here await task.trigger('SELECT * FROM orders'); // Setup skipped, pool reused ``` ### Database Migration Pipeline ```typescript const migration = new Taskchain({ name: 'DatabaseMigration', taskArray: [backupTask, validateSchemaTask, runMigrationsTask, verifyIntegrityTask], }); try { await migration.trigger(); console.log('Migration successful!'); } catch (error) { // error includes chain name, failing task name, index, and original cause console.error(error.message); await rollbackTask.trigger(); } ``` ### Multi-Tenant SaaS Monitoring Combine labels + events + constraints for a real-time multi-tenant system: ```typescript const manager = new TaskManager(); // Per-tenant concurrency limit const tenantLimit = new TaskConstraintGroup<{ tenantId: string }>({ name: 'tenant-concurrency', maxConcurrent: 2, constraintKeyForTask: (task) => task.data.tenantId, }); manager.addConstraintGroup(tenantLimit); // Create tenant-scoped tasks function createTenantTask(tenantId: string, taskName: string, fn: () => Promise) { const task = new Task({ name: `${tenantId}:${taskName}`, data: { tenantId }, labels: { tenantId }, taskFunction: fn, }); manager.addTask(task); return task; } createTenantTask('acme', 'sync', async () => syncData('acme')); createTenantTask('globex', 'sync', async () => syncData('globex')); // Stream events to tenant-specific WebSocket channels manager.taskSubject.subscribe((event) => { const tenantId = event.task.labels?.tenantId; if (tenantId) { wss.broadcast(tenantId, JSON.stringify(event)); } }); // Query tasks for a specific tenant const acmeTasks = manager.getTasksMetadataByLabel('tenantId', 'acme'); ``` ## 📚 API Reference ### Classes | Class | Description | | --- | --- | | `Task` | Core task unit with typed data, optional step tracking, labels, and event streaming | | `TaskManager` | Centralized orchestrator with constraint groups, scheduling, label queries, and aggregated events | | `TaskConstraintGroup` | Concurrency, mutual exclusion, and cooldown constraints with key-based grouping | | `Taskchain` | Sequential task executor with data flow between tasks | | `Taskparallel` | Concurrent task executor via `Promise.all()` | | `TaskOnce` | Single-execution guard | | `TaskDebounced` | Debounced task using rxjs | | `TaskStep` | Step tracking unit (internal, exposed via metadata) | ### Task Constructor Options | Option | Type | Default | Description | | --- | --- | --- | --- | | `taskFunction` | `ITaskFunction` | *required* | The async function to execute | | `name` | `string` | — | Task identifier (required for TaskManager) | | `data` | `TData` | `{}` | Typed data bag for constraint matching and routing | | `steps` | `ReadonlyArray<{name, description, percentage}>` | — | Step definitions for progress tracking | | `buffered` | `boolean` | — | Enable request buffering | | `bufferMax` | `number` | — | Max buffered calls | | `preTask` | `Task \| () => Task` | — | Task to run before | | `afterTask` | `Task \| () => Task` | — | Task to run after | | `taskSetup` | `() => Promise` | — | One-time setup function | | `catchErrors` | `boolean` | `false` | Swallow errors instead of rejecting | | `labels` | `Record` | `{}` | Initial labels | ### Task Methods | Method | Returns | Description | | --- | --- | --- | | `trigger(input?)` | `Promise` | Execute the task | | `notifyStep(name)` | `void` | Advance to named step (type-safe) | | `getProgress()` | `number` | Current progress 0–100 | | `getStepsMetadata()` | `ITaskStep[]` | Step details with status | | `getMetadata()` | `ITaskMetadata` | Full task metadata snapshot | | `setLabel(key, value)` | `void` | Set a label | | `getLabel(key)` | `string \| undefined` | Get a label value | | `removeLabel(key)` | `boolean` | Remove a label | | `hasLabel(key, value?)` | `boolean` | Check label existence / value | | `clearError()` | `void` | Reset `lastError` to undefined | ### Task Properties | Property | Type | Description | | --- | --- | --- | | `name` | `string` | Task identifier | | `data` | `TData` | Typed data bag | | `running` | `boolean` | Whether the task is currently executing | | `idle` | `boolean` | Inverse of `running` | | `labels` | `Record` | Attached labels | | `eventSubject` | `Subject` | rxjs Subject emitting lifecycle events | | `lastError` | `Error \| undefined` | Last error encountered | | `errorCount` | `number` | Total error count across all runs | | `runCount` | `number` | Total execution count | | `lastRun` | `Date \| undefined` | Timestamp of last execution | ### TaskConstraintGroup Constructor Options | Option | Type | Default | Description | | --- | --- | --- | --- | | `name` | `string` | *required* | Constraint group identifier | | `constraintKeyForTask` | `(task) => string \| null` | *required* | Returns key for grouping, or `null` to skip | | `maxConcurrent` | `number` | `Infinity` | Max concurrent tasks per key | | `cooldownMs` | `number` | `0` | Minimum ms between completions per key | ### TaskConstraintGroup Methods | Method | Returns | Description | | --- | --- | --- | | `getConstraintKey(task)` | `string \| null` | Get the constraint key for a task | | `canRun(key)` | `boolean` | Check if a slot is available | | `acquireSlot(key)` | `void` | Claim a running slot | | `releaseSlot(key)` | `void` | Release a slot and record completion time | | `getCooldownRemaining(key)` | `number` | Milliseconds until cooldown expires | | `getRunningCount(key)` | `number` | Current running count for key | | `reset()` | `void` | Clear all state | ### TaskManager Methods | Method | Returns | Description | | --- | --- | --- | | `addTask(task)` | `void` | Register a task (wires event forwarding) | | `removeTask(task)` | `void` | Remove task and unsubscribe events | | `getTaskByName(name)` | `Task \| undefined` | Look up by name | | `triggerTaskByName(name)` | `Promise` | Trigger by name (routes through constraints) | | `triggerTask(task)` | `Promise` | Trigger directly (routes through constraints) | | `triggerTaskConstrained(task, input?)` | `Promise` | Core constraint evaluation entry point | | `addConstraintGroup(group)` | `void` | Register a constraint group | | `removeConstraintGroup(name)` | `void` | Remove a constraint group by name | | `addAndScheduleTask(task, cron)` | `void` | Register + schedule | | `scheduleTaskByName(name, cron)` | `void` | Schedule existing task | | `descheduleTaskByName(name)` | `void` | Remove schedule | | `getTaskMetadata(name)` | `ITaskMetadata \| null` | Single task metadata | | `getAllTasksMetadata()` | `ITaskMetadata[]` | All tasks metadata | | `getScheduledTasks()` | `IScheduledTaskInfo[]` | Scheduled task info | | `getNextScheduledRuns(limit?)` | `Array<{...}>` | Upcoming scheduled runs | | `getTasksByLabel(key, value)` | `Task[]` | Filter tasks by label | | `getTasksMetadataByLabel(key, value)` | `ITaskMetadata[]` | Filter metadata by label | | `addExecuteRemoveTask(task, opts?)` | `Promise` | One-shot execution with report | | `start()` | `Promise` | Start cron + coordinator | | `stop()` | `Promise` | Stop cron + clean up subscriptions | ### TaskManager Properties | Property | Type | Description | | --- | --- | --- | | `taskSubject` | `Subject` | Aggregated events from all added tasks | | `taskMap` | `ObjectMap` | Internal task registry | | `constraintGroups` | `TaskConstraintGroup[]` | Registered constraint groups | ### Exported Types ```typescript import type { ITaskMetadata, ITaskExecutionReport, IScheduledTaskInfo, ITaskEvent, TTaskEventType, ITaskStep, ITaskFunction, ITaskConstraintGroupOptions, StepNames, } from '@push.rocks/taskbuffer'; ``` ## License and Legal Information This repository contains open-source code licensed under the MIT License. A copy of the license can be found in the [LICENSE](./LICENSE) file. **Please note:** The MIT License does not grant permission to use the trade names, trademarks, service marks, or product names of the project, except as required for reasonable and customary use in describing the origin of the work and reproducing the content of the NOTICE file. ### Trademarks This project is owned and maintained by Task Venture Capital GmbH. The names and logos associated with Task Venture Capital GmbH and any related products or services are trademarks of Task Venture Capital GmbH or third parties, and are not included within the scope of the MIT license granted herein. Use of these trademarks must comply with Task Venture Capital GmbH's Trademark Guidelines or the guidelines of the respective third-party owners, and any usage must be approved in writing. Third-party trademarks used herein are the property of their respective owners and used only in a descriptive manner, e.g. for an implementation of an API or similar. ### Company Information Task Venture Capital GmbH Registered at District Court Bremen HRB 35230 HB, Germany For any legal inquiries or further information, please contact us via email at hello@task.vc. By using this repository, you acknowledge that you have read this section, agree to comply with its terms, and understand that the licensing of the code does not imply endorsement by Task Venture Capital GmbH of any derivative works.