Cheggin/convex-best-practices
skills/convex-best-practices/SKILL.md
Guidelines for building production-ready Convex apps covering function organization, query patterns, validation, TypeScript usage, error handling, and the Zen of Convex design philosophy
development
Updated Apr 25, 2026
$ install --global
skillsauthnpx skillsauth add Cheggin/skill-chain convex-best-practicesInstall this skill globally with one command. Works with Claude Code, Cursor, and Windsurf.
Security Scan Results
3 of 9 scanners reported clean
Some scanners were skipped, did not run, or reported a non-clean status. Review each row below.
3
Scanners Passed
9
Scanners in report
Clean
TrivyContainer and dependency vulnerability scanner
95%
Clean
SemgrepStatic code analysis for vulnerabilities
95%
Clean
mcp-scan (Snyk)Model Context Protocol security validation
95%
Skipped
Snyk (dep)Open source security scanning
50%
Skipped
Socket.devSupply chain security analysis
50%
Skipped
VirusTotalMulti-engine malware detection
50%
Skipped
CrowdStrikeAdvanced threat intelligence
50%
Skipped
OSV-ScannerOpen Source Vulnerability database check
50%
Skipped
OWASP Dep-Check
50%
Last scanned: Apr 25, 2026, 8:34 PM32.4s1 file scanned
SKILL.md
- name:
- convex-best-practices
- description:
- Guidelines for building production-ready Convex apps covering function organization, query patterns, validation, TypeScript usage, error handling, and the Zen of Convex design philosophy
- user-invocable:
- true
- group:
- build
- prerequisites:
- [convex]
- next:
- [convex-component-authoring]
- workflows:
- [full-startup]
Convex Best Practices
Build production-ready Convex applications by following established patterns for function organization, query optimization, validation, TypeScript usage, and error handling.
Code Quality
All patterns in this skill comply with @convex-dev/eslint-plugin. Install it for build-time validation:
npm i @convex-dev/eslint-plugin --save-dev
// eslint.config.js
import { defineConfig } from "eslint/config";
import convexPlugin from "@convex-dev/eslint-plugin";
export default defineConfig([
...convexPlugin.configs.recommended,
]);
The plugin enforces four rules:
| Rule | What it enforces |
| ----------------------------------- | --------------------------------- |
| no-old-registered-function-syntax | Object syntax with handler |
| require-argument-validators | args: {} on all functions |
| explicit-table-ids | Table name in db operations |
| import-wrong-runtime | No Node imports in Convex runtime |
Docs: https://docs.convex.dev/eslint
Documentation Sources
Before implementing, do not assume; fetch the latest documentation:
- Primary: https://docs.convex.dev/understanding/best-practices/
- Error Handling: https://docs.convex.dev/functions/error-handling
- Write Conflicts: https://docs.convex.dev/error#1
- For broader context: https://docs.convex.dev/llms.txt
Instructions
The Zen of Convex
- Convex manages the hard parts - Let Convex handle caching, real-time sync, and consistency
- Functions are the API - Design your functions as your application's interface
- Schema is truth - Define your data model explicitly in schema.ts
- TypeScript everywhere - Leverage end-to-end type safety
- Queries are reactive - Think in terms of subscriptions, not requests
Function Organization
Organize your Convex functions by domain:
// convex/users.ts - User-related functions
import { query, mutation } from "./_generated/server";
import { v } from "convex/values";
export const get = query({
args: { userId: v.id("users") },
returns: v.union(
v.object({
_id: v.id("users"),
_creationTime: v.number(),
name: v.string(),
email: v.string(),
}),
v.null(),
),
handler: async (ctx, args) => {
return await ctx.db.get("users", args.userId);
},
});
Argument and Return Validation
Always define validators for arguments AND return types:
export const createTask = mutation({
args: {
title: v.string(),
description: v.optional(v.string()),
priority: v.union(v.literal("low"), v.literal("medium"), v.literal("high")),
},
returns: v.id("tasks"),
handler: async (ctx, args) => {
return await ctx.db.insert("tasks", {
title: args.title,
description: args.description,
priority: args.priority,
completed: false,
createdAt: Date.now(),
});
},
});
Query Patterns
Use indexes instead of filters for efficient queries:
// Schema with index
export default defineSchema({
tasks: defineTable({
userId: v.id("users"),
status: v.string(),
createdAt: v.number(),
})
.index("by_user", ["userId"])
.index("by_user_and_status", ["userId", "status"]),
});
// Query using index
export const getTasksByUser = query({
args: { userId: v.id("users") },
returns: v.array(
v.object({
_id: v.id("tasks"),
_creationTime: v.number(),
userId: v.id("users"),
status: v.string(),
createdAt: v.number(),
}),
),
handler: async (ctx, args) => {
return await ctx.db
.query("tasks")
.withIndex("by_user", (q) => q.eq("userId", args.userId))
.order("desc")
.collect();
},
});
Error Handling
Use ConvexError for user-facing errors:
import { ConvexError } from "convex/values";
export const updateTask = mutation({
args: {
taskId: v.id("tasks"),
title: v.string(),
},
returns: v.null(),
handler: async (ctx, args) => {
const task = await ctx.db.get("tasks", args.taskId);
if (!task) {
throw new ConvexError({
code: "NOT_FOUND",
message: "Task not found",
});
}
await ctx.db.patch("tasks", args.taskId, { title: args.title });
return null;
},
});
Avoiding Write Conflicts (Optimistic Concurrency Control)
Convex uses OCC. Follow these patterns to minimize conflicts:
// GOOD: Make mutations idempotent
export const completeTask = mutation({
args: { taskId: v.id("tasks") },
returns: v.null(),
handler: async (ctx, args) => {
const task = await ctx.db.get("tasks", args.taskId);
// Early return if already complete (idempotent)
if (!task || task.status === "completed") {
return null;
}
await ctx.db.patch("tasks", args.taskId, {
status: "completed",
completedAt: Date.now(),
});
return null;
},
});
// GOOD: Patch directly without reading first when possible
export const updateNote = mutation({
args: { id: v.id("notes"), content: v.string() },
returns: v.null(),
handler: async (ctx, args) => {
// Patch directly - ctx.db.patch throws if document doesn't exist
await ctx.db.patch("notes", args.id, { content: args.content });
return null;
},
});
// GOOD: Use Promise.all for parallel independent updates
export const reorderItems = mutation({
args: { itemIds: v.array(v.id("items")) },
returns: v.null(),
handler: async (ctx, args) => {
const updates = args.itemIds.map((id, index) =>
ctx.db.patch("items", id, { order: index }),
);
await Promise.all(updates);
return null;
},
});
TypeScript Best Practices
import { Id, Doc } from "./_generated/dataModel";
// Use Id type for document references
type UserId = Id<"users">;
// Use Doc type for full documents
type User = Doc<"users">;
// Define Record types properly
const userScores: Record<Id<"users">, number> = {};
Internal vs Public Functions
// Public function - exposed to clients
export const getUser = query({
args: { userId: v.id("users") },
returns: v.union(
v.null(),
v.object({
/* ... */
}),
),
handler: async (ctx, args) => {
// ...
},
});
// Internal function - only callable from other Convex functions
export const _updateUserStats = internalMutation({
args: { userId: v.id("users") },
returns: v.null(),
handler: async (ctx, args) => {
// ...
},
});
Examples
Complete CRUD Pattern
// convex/tasks.ts
import { query, mutation } from "./_generated/server";
import { v } from "convex/values";
import { ConvexError } from "convex/values";
const taskValidator = v.object({
_id: v.id("tasks"),
_creationTime: v.number(),
title: v.string(),
completed: v.boolean(),
userId: v.id("users"),
});
export const list = query({
args: { userId: v.id("users") },
returns: v.array(taskValidator),
handler: async (ctx, args) => {
return await ctx.db
.query("tasks")
.withIndex("by_user", (q) => q.eq("userId", args.userId))
.collect();
},
});
export const create = mutation({
args: {
title: v.string(),
userId: v.id("users"),
},
returns: v.id("tasks"),
handler: async (ctx, args) => {
return await ctx.db.insert("tasks", {
title: args.title,
completed: false,
userId: args.userId,
});
},
});
export const update = mutation({
args: {
taskId: v.id("tasks"),
title: v.optional(v.string()),
completed: v.optional(v.boolean()),
},
returns: v.null(),
handler: async (ctx, args) => {
const { taskId, ...updates } = args;
// Remove undefined values
const cleanUpdates = Object.fromEntries(
Object.entries(updates).filter(([_, v]) => v !== undefined),
);
if (Object.keys(cleanUpdates).length > 0) {
await ctx.db.patch("tasks", taskId, cleanUpdates);
}
return null;
},
});
export const remove = mutation({
args: { taskId: v.id("tasks") },
returns: v.null(),
handler: async (ctx, args) => {
await ctx.db.delete("tasks", args.taskId);
return null;
},
});
Best Practices
- Never run
npx convex deployunless explicitly instructed - Never run any git commands unless explicitly instructed
- Always define return validators for functions
- Use indexes for all queries that filter data
- Make mutations idempotent to handle retries gracefully
- Use ConvexError for user-facing error messages
- Organize functions by domain (users.ts, tasks.ts, etc.)
- Use internal functions for sensitive operations
- Leverage TypeScript's Id and Doc types
Common Pitfalls
- Using filter instead of withIndex - Always define indexes and use withIndex
- Missing return validators - Always specify the returns field
- Non-idempotent mutations - Check current state before updating
- Reading before patching unnecessarily - Patch directly when possible
- Not handling null returns - Document IDs might not exist
References
- Convex Documentation: https://docs.convex.dev/
- Convex LLMs.txt: https://docs.convex.dev/llms.txt
- Best Practices: https://docs.convex.dev/understanding/best-practices/
- Error Handling: https://docs.convex.dev/functions/error-handling
- Write Conflicts: https://docs.convex.dev/error#1
Related Skills
Cheggin/make-interfaces-feel-better
development
VerifiedTrustedCommunity
Design engineering principles for making interfaces feel polished. Use when building UI components, reviewing frontend code, implementing animations, hover states, shadows, borders, typography, micro-interactions, enter/exit animations, or any visual detail work. Triggers on UI polish, design details, "make it feel better", "feels off", stagger animations, border radius, optical alignment, font smoothing, tabular numbers, image outlines, box shadows.
1SKILL.mdUpdated Apr 29, 2026
Cheggin/writer-memory
documentation
VerifiedTrustedCommunity
Agentic memory system for writers - track characters, relationships, scenes, and themes
SKILL.mdUpdated Apr 25, 2026
Cheggin/wiki
documentation
VerifiedTrustedCommunity
LLM Wiki — persistent markdown knowledge base that compounds across sessions (Karpathy model)
SKILL.mdUpdated Apr 25, 2026
Cheggin/website-creation
development
VerifiedTrustedCommunity
Build production-quality SaaS websites with opinionated design presets. Use when creating any startup website. The user MUST pick a design style before building. Enforces shadcn/ui, Figma design principles, specific CSS values per style, and anti-AI-writing. Load alongside anti-ai-writing skill. LIGHT MODE ONLY.
SKILL.mdUpdated Apr 25, 2026