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convex-create-component

get-convex/agent-skills

Create reusable Convex components with isolated tables and app-facing APIs.

What is convex-create-component?

Builds self-contained Convex components that own their own tables, functions, and persistent state while maintaining clear boundaries with the main app. Use this when extracting reusable backend logic, building integrations, or packaging functionality for reuse across multiple apps.

  • Define component structure with isolated schema and functions using `defineComponent`
  • Create local components in `convex/components/<name>/` or packaged components for npm distribution
  • Wire components into the app via `convex.config.ts` and call them through `ctx.runQuery/runMutation/runAction`
  • Maintain clear boundaries by keeping authentication, environment access, and HTTP routing in the app layer
  • Generate component-specific types and imports from the component's own `_generated/server`
  • Use indexes and explicit type validators on all public component functions

How to install convex-create-component

npx skills add https://github.com/get-convex/agent-skills --skill convex-create-component
Prerequisites
  • Existing Convex project with `convex/` directory
  • Understanding of Convex tables, functions, and the app structure
  • Node.js and npm for installing the skill
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How to use convex-create-component

  1. 1.Determine the component shape (local, packaged, or hybrid) based on your use case
  2. 2.Plan the component: identify tables it owns, public functions, required inputs from the app
  3. 3.Create `convex/components/<name>/convex.config.ts` with `defineComponent()`
  4. 4.Define the component schema in `convex/components/<name>/schema.ts`
  5. 5.Implement component functions in files like `lib.ts`, importing from `./_generated/server`
  6. 6.Add the component to the app's `convex/convex.config.ts` using `app.use()`
  7. 7.Create app-side wrapper functions in `convex/` for client access and auth/env handling
  8. 8.Call component functions from the app using `ctx.runQuery/runMutation/runAction` with `components.<name>` paths

Use cases

Good for
  • Extracting a notifications system into a reusable component with its own tables and API
  • Building a third-party integration (e.g., payment processor, email service) that owns its data
  • Creating a local component for one app to organize backend logic into isolated modules
  • Packaging Convex functionality as an npm library for use across multiple applications
  • Implementing features like pagination, caching, or workflows that need persistent state
Who it's for
  • Backend developers building modular Convex applications
  • Teams sharing Convex functionality across multiple apps
  • Developers creating third-party Convex integrations
  • Architects designing component boundaries and reusable backend services

convex-create-component FAQ

When should I use a component instead of normal app code?

Use a component when you need isolated tables, reusable backend functions, or persistent state that should be packaged separately. Avoid components for one-off business logic, thin utilities, or app-level orchestration that belongs in the main `convex/` directory.

Can component functions access authentication or environment variables?

No. Components cannot access `ctx.auth` or `process.env`. Keep authentication and environment access in the app layer, then pass explicit values (like userId or API keys) to the component as function arguments.

How do I expose component functions to React clients?

Do not expose component functions directly. Instead, create wrapper functions in the app's `convex/` directory that handle authentication and call the component via `ctx.runQuery/runMutation`. Clients then call the app wrappers.

What is the difference between local and packaged components?

Local components live in `convex/components/<name>/` and are used within a single app. Packaged components are published to npm and can be installed across multiple apps. Default to local unless you explicitly need to share across projects.

How do I call component functions from the app?

Use `ctx.runQuery(components.<name>.<file>.<function>, args)`, `ctx.runMutation(...)`, or `ctx.runAction(...)`. The component path is generated automatically; for example, a function in `convex/components/notifications/lib.ts` is called as `components.notifications.lib.<functionName>`.

Full instructions (SKILL.md)

Source of truth, from get-convex/agent-skills.


name: convex-create-component description: Builds reusable Convex components with isolated tables and app-facing APIs. Use for new components, reusable backend modules, integrations, or component boundary work.

Convex Create Component

Create reusable Convex components with clear boundaries and a small app-facing API.

When to Use

  • Creating a new Convex component in an existing app
  • Extracting reusable backend logic into a component
  • Building a third-party integration that should own its own tables and workflows
  • Packaging Convex functionality for reuse across multiple apps

When Not to Use

  • One-off business logic that belongs in the main app
  • Thin utilities that do not need Convex tables or functions
  • App-level orchestration that should stay in convex/
  • Cases where a normal TypeScript library is enough

Workflow

  1. Ask the user what they are building and what the end goal is. If the repo already makes the answer obvious, say so and confirm before proceeding.
  2. Choose the shape using the decision tree below and read the matching reference file.
  3. Decide whether a component is justified. Prefer normal app code or a regular library if the feature does not need isolated tables, backend functions, or reusable persistent state.
  4. Make a short plan for:
    • what tables the component owns
    • what public functions it exposes
    • what data must be passed in from the app (auth, env vars, parent IDs)
    • what stays in the app as wrappers or HTTP mounts
  5. Create the component structure with convex.config.ts, schema.ts, and function files.
  6. Implement functions using the component's own ./_generated/server imports, not the app's generated files.
  7. Wire the component into the app with app.use(...). If the app does not already have convex/convex.config.ts, create it.
  8. Call the component from the app through components.<name> using ctx.runQuery, ctx.runMutation, or ctx.runAction.
  9. If React clients, HTTP callers, or public APIs need access, create wrapper functions in the app instead of exposing component functions directly.
  10. Run npx convex dev and fix codegen, type, or boundary issues before finishing.

Choose the Shape

Ask the user, then pick one path:

GoalShapeReference
Component for this app onlyLocalreferences/local-components.md
Publish or share across appsPackagedreferences/packaged-components.md
User explicitly needs local + shared library codeHybridreferences/hybrid-components.md
Not sureDefault to localreferences/local-components.md

Read exactly one reference file before proceeding.

Default Approach

Unless the user explicitly wants an npm package, default to a local component:

  • Put it under convex/components/<componentName>/
  • Define it with defineComponent(...) in its own convex.config.ts
  • Install it from the app's convex/convex.config.ts with app.use(...)
  • Let npx convex dev generate the component's own _generated/ files

Component Skeleton

A minimal local component with a table and two functions, plus the app wiring.

// convex/components/notifications/convex.config.ts
import { defineComponent } from "convex/server";

export default defineComponent("notifications");
// convex/components/notifications/schema.ts
import { defineSchema, defineTable } from "convex/server";
import { v } from "convex/values";

export default defineSchema({
  notifications: defineTable({
    userId: v.string(),
    message: v.string(),
    read: v.boolean(),
  }).index("by_user_read", ["userId", "read"]),
});
// convex/components/notifications/lib.ts
import { v } from "convex/values";
import { mutation, query } from "./_generated/server.js";

export const send = mutation({
  args: { userId: v.string(), message: v.string() },
  returns: v.id("notifications"),
  handler: async (ctx, args) => {
    return await ctx.db.insert("notifications", {
      userId: args.userId,
      message: args.message,
      read: false,
    });
  },
});

export const listUnread = query({
  args: { userId: v.string() },
  returns: v.array(
    v.object({
      _id: v.id("notifications"),
      _creationTime: v.number(),
      userId: v.string(),
      message: v.string(),
      read: v.boolean(),
    }),
  ),
  handler: async (ctx, args) => {
    return await ctx.db
      .query("notifications")
      .withIndex("by_user_read", (q) =>
        q.eq("userId", args.userId).eq("read", false),
      )
      .collect();
  },
});
// convex/convex.config.ts
import { defineApp } from "convex/server";
import notifications from "./components/notifications/convex.config.js";

const app = defineApp();
app.use(notifications);

export default app;
// convex/notifications.ts  (app-side wrapper)
import { v } from "convex/values";
import { mutation, query } from "./_generated/server";
import { components } from "./_generated/api";
import { getAuthUserId } from "@convex-dev/auth/server";

export const sendNotification = mutation({
  args: { message: v.string() },
  returns: v.null(),
  handler: async (ctx, args) => {
    const userId = await getAuthUserId(ctx);
    if (!userId) throw new Error("Not authenticated");

    await ctx.runMutation(components.notifications.lib.send, {
      userId,
      message: args.message,
    });
    return null;
  },
});

export const myUnread = query({
  args: {},
  handler: async (ctx) => {
    const userId = await getAuthUserId(ctx);
    if (!userId) throw new Error("Not authenticated");

    return await ctx.runQuery(components.notifications.lib.listUnread, {
      userId,
    });
  },
});

Note the reference path shape: a function in convex/components/notifications/lib.ts is called as components.notifications.lib.send from the app.

Critical Rules

  • Keep authentication in the app, because ctx.auth is not available inside components.
  • Keep environment access in the app, because component functions cannot read process.env.
  • Pass parent app IDs across the boundary as strings, because Id types become plain strings in the app-facing ComponentApi.
  • Do not use v.id("parentTable") for app-owned tables inside component args or schema, because the component has no access to the app's table namespace.
  • Import query, mutation, and action from the component's own ./_generated/server, not the app's generated files.
  • Do not expose component functions directly to clients. Create app wrappers when client access is needed, because components are internal and need auth/env wiring the app provides.
  • If the component defines HTTP handlers, mount the routes in the app's convex/http.ts, because components cannot register their own HTTP routes.
  • If the component needs pagination, use paginator from convex-helpers instead of built-in .paginate(), because .paginate() does not work across the component boundary.
  • Define indexes for queried fields instead of using Convex .filter() after a database query.
  • Add args and returns validators to all public component functions, because the component boundary requires explicit type contracts.

Patterns

Authentication and environment access

// Bad: component code cannot rely on app auth or env
const identity = await ctx.auth.getUserIdentity();
const apiKey = process.env.OPENAI_API_KEY;
// Good: the app resolves auth and env, then passes explicit values
const userId = await getAuthUserId(ctx);
if (!userId) throw new Error("Not authenticated");

await ctx.runAction(components.translator.translate, {
  userId,
  apiKey: process.env.OPENAI_API_KEY,
  text: args.text,
});

Client-facing API

// Bad: assuming a component function is directly callable by clients
export const send = components.notifications.send;
// Good: re-export through an app mutation or query
export const sendNotification = mutation({
  args: { message: v.string() },
  returns: v.null(),
  handler: async (ctx, args) => {
    const userId = await getAuthUserId(ctx);
    if (!userId) throw new Error("Not authenticated");

    await ctx.runMutation(components.notifications.lib.send, {
      userId,
      message: args.message,
    });
    return null;
  },
});

IDs across the boundary

// Bad: parent app table IDs are not valid component validators
args: {
  userId: v.id("users"),
}
// Good: treat parent-owned IDs as strings at the boundary
args: {
  userId: v.string(),
}

Advanced Patterns

For additional patterns including function handles for callbacks, deriving validators from schema, static configuration with a globals table, and class-based client wrappers, see references/advanced-patterns.md.

Validation

Try validation in this order:

  1. npx convex codegen --component-dir convex/components/<name>
  2. npx convex codegen
  3. npx convex dev

Important:

  • Fresh repos may fail these commands until CONVEX_DEPLOYMENT is configured.
  • Until codegen runs, component-local ./_generated/* imports and app-side components.<name>... references will not typecheck.
  • If validation blocks on Convex login or deployment setup, stop and ask the user for that exact step instead of guessing.

Reference Files

Read exactly one of these after the user confirms the goal:

  • references/local-components.md
  • references/packaged-components.md
  • references/hybrid-components.md

Official docs: Authoring Components

Checklist

  • Asked the user what they want to build and confirmed the shape
  • Read the matching reference file
  • Confirmed a component is the right abstraction
  • Planned tables, public API, boundaries, and app wrappers
  • Component lives under convex/components/<name>/ (or package layout if publishing)
  • Component imports from its own ./_generated/server
  • Auth, env access, and HTTP routes stay in the app
  • Parent app IDs cross the boundary as v.string()
  • Public functions have args and returns validators
  • Ran npx convex dev and fixed codegen or type issues