convex-security-check

majiayu000

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Testingconvexsecurityauthenticationauthorizationchecklist

About

This Claude Skill provides a security audit checklist for Convex applications, helping developers quickly review critical areas like authentication and access control. It covers function exposure, argument validation, row-level security, and environment variable handling. Use it for a rapid pre-deployment security review or when onboarding to the Convex platform.

Quick Install

Claude Code

Recommended

Plugin CommandRecommended

/plugin add https://github.com/majiayu000/claude-skill-registry

Git CloneAlternative

git clone https://github.com/majiayu000/claude-skill-registry.git ~/.claude/skills/convex-security-check

Copy and paste this command in Claude Code to install this skill

Documentation

Convex Security Check

A quick security audit checklist for Convex applications covering authentication, function exposure, argument validation, row-level access control, and environment variable handling.

Documentation Sources

Before implementing, do not assume; fetch the latest documentation:

Primary: https://docs.convex.dev/auth
Production Security: https://docs.convex.dev/production
Functions Auth: https://docs.convex.dev/auth/functions-auth
For broader context: https://docs.convex.dev/llms.txt

Instructions

Security Checklist

Use this checklist to quickly audit your Convex application's security:

1. Authentication

Authentication provider configured (Clerk, Auth0, etc.)
All sensitive queries check ctx.auth.getUserIdentity()
Unauthenticated access explicitly allowed where intended
Session tokens properly validated

2. Function Exposure

Public functions (query, mutation, action) reviewed
Internal functions use internalQuery, internalMutation, internalAction
No sensitive operations exposed as public functions
HTTP actions validate origin/authentication

3. Argument Validation

All functions have explicit args validators
All functions have explicit returns validators
No v.any() used for sensitive data
ID validators use correct table names

4. Row-Level Access Control

Users can only access their own data
Admin functions check user roles
Shared resources have proper access checks
Deletion functions verify ownership

5. Environment Variables

API keys stored in environment variables
No secrets in code or schema
Different keys for dev/prod environments
Environment variables accessed only in actions

Authentication Check

// convex/auth.ts
import { query, mutation } from "./_generated/server";
import { v } from "convex/values";
import { ConvexError } from "convex/values";

// Helper to require authentication
async function requireAuth(ctx: QueryCtx | MutationCtx) {
  const identity = await ctx.auth.getUserIdentity();
  if (!identity) {
    throw new ConvexError("Authentication required");
  }
  return identity;
}

// Secure query pattern
export const getMyProfile = query({
  args: {},
  returns: v.union(v.object({
    _id: v.id("users"),
    name: v.string(),
    email: v.string(),
  }), v.null()),
  handler: async (ctx) => {
    const identity = await requireAuth(ctx);
    
    return await ctx.db
      .query("users")
      .withIndex("by_tokenIdentifier", (q) => 
        q.eq("tokenIdentifier", identity.tokenIdentifier)
      )
      .unique();
  },
});

Function Exposure Check

// PUBLIC - Exposed to clients (review carefully!)
export const listPublicPosts = query({
  args: {},
  returns: v.array(v.object({ /* ... */ })),
  handler: async (ctx) => {
    // Anyone can call this - intentionally public
    return await ctx.db
      .query("posts")
      .withIndex("by_public", (q) => q.eq("isPublic", true))
      .collect();
  },
});

// INTERNAL - Only callable from other Convex functions
export const _updateUserCredits = internalMutation({
  args: { userId: v.id("users"), amount: v.number() },
  returns: v.null(),
  handler: async (ctx, args) => {
    // This cannot be called directly from clients
    await ctx.db.patch(args.userId, {
      credits: args.amount,
    });
    return null;
  },
});

Argument Validation Check

// GOOD: Strict validation
export const createPost = mutation({
  args: {
    title: v.string(),
    content: v.string(),
    category: v.union(
      v.literal("tech"),
      v.literal("news"),
      v.literal("other")
    ),
  },
  returns: v.id("posts"),
  handler: async (ctx, args) => {
    const identity = await requireAuth(ctx);
    return await ctx.db.insert("posts", {
      ...args,
      authorId: identity.tokenIdentifier,
    });
  },
});

// BAD: Weak validation
export const createPostUnsafe = mutation({
  args: {
    data: v.any(), // DANGEROUS: Allows any data
  },
  returns: v.id("posts"),
  handler: async (ctx, args) => {
    return await ctx.db.insert("posts", args.data);
  },
});

Row-Level Access Control Check

// Verify ownership before update
export const updateTask = mutation({
  args: {
    taskId: v.id("tasks"),
    title: v.string(),
  },
  returns: v.null(),
  handler: async (ctx, args) => {
    const identity = await requireAuth(ctx);
    
    const task = await ctx.db.get(args.taskId);
    
    // Check ownership
    if (!task || task.userId !== identity.tokenIdentifier) {
      throw new ConvexError("Not authorized to update this task");
    }
    
    await ctx.db.patch(args.taskId, { title: args.title });
    return null;
  },
});

// Verify ownership before delete
export const deleteTask = mutation({
  args: { taskId: v.id("tasks") },
  returns: v.null(),
  handler: async (ctx, args) => {
    const identity = await requireAuth(ctx);
    
    const task = await ctx.db.get(args.taskId);
    
    if (!task || task.userId !== identity.tokenIdentifier) {
      throw new ConvexError("Not authorized to delete this task");
    }
    
    await ctx.db.delete(args.taskId);
    return null;
  },
});

Environment Variables Check

// convex/actions.ts
"use node";

import { action } from "./_generated/server";
import { v } from "convex/values";

export const sendEmail = action({
  args: {
    to: v.string(),
    subject: v.string(),
    body: v.string(),
  },
  returns: v.object({ success: v.boolean() }),
  handler: async (ctx, args) => {
    // Access API key from environment
    const apiKey = process.env.RESEND_API_KEY;
    
    if (!apiKey) {
      throw new Error("RESEND_API_KEY not configured");
    }
    
    const response = await fetch("https://api.resend.com/emails", {
      method: "POST",
      headers: {
        "Authorization": `Bearer ${apiKey}`,
        "Content-Type": "application/json",
      },
      body: JSON.stringify({
        from: "[email protected]",
        to: args.to,
        subject: args.subject,
        html: args.body,
      }),
    });
    
    return { success: response.ok };
  },
});

Examples

Complete Security Pattern

// convex/secure.ts
import { query, mutation, internalMutation } from "./_generated/server";
import { v } from "convex/values";
import { ConvexError } from "convex/values";

// Authentication helper
async function getAuthenticatedUser(ctx: QueryCtx | MutationCtx) {
  const identity = await ctx.auth.getUserIdentity();
  if (!identity) {
    throw new ConvexError({
      code: "UNAUTHENTICATED",
      message: "You must be logged in",
    });
  }
  
  const user = await ctx.db
    .query("users")
    .withIndex("by_tokenIdentifier", (q) => 
      q.eq("tokenIdentifier", identity.tokenIdentifier)
    )
    .unique();
    
  if (!user) {
    throw new ConvexError({
      code: "USER_NOT_FOUND",
      message: "User profile not found",
    });
  }
  
  return user;
}

// Check admin role
async function requireAdmin(ctx: QueryCtx | MutationCtx) {
  const user = await getAuthenticatedUser(ctx);
  
  if (user.role !== "admin") {
    throw new ConvexError({
      code: "FORBIDDEN",
      message: "Admin access required",
    });
  }
  
  return user;
}

// Public: List own tasks
export const listMyTasks = query({
  args: {},
  returns: v.array(v.object({
    _id: v.id("tasks"),
    title: v.string(),
    completed: v.boolean(),
  })),
  handler: async (ctx) => {
    const user = await getAuthenticatedUser(ctx);
    
    return await ctx.db
      .query("tasks")
      .withIndex("by_user", (q) => q.eq("userId", user._id))
      .collect();
  },
});

// Admin only: List all users
export const listAllUsers = query({
  args: {},
  returns: v.array(v.object({
    _id: v.id("users"),
    name: v.string(),
    role: v.string(),
  })),
  handler: async (ctx) => {
    await requireAdmin(ctx);
    
    return await ctx.db.query("users").collect();
  },
});

// Internal: Update user role (never exposed)
export const _setUserRole = internalMutation({
  args: {
    userId: v.id("users"),
    role: v.union(v.literal("user"), v.literal("admin")),
  },
  returns: v.null(),
  handler: async (ctx, args) => {
    await ctx.db.patch(args.userId, { role: args.role });
    return null;
  },
});

Best Practices

Never run npx convex deploy unless explicitly instructed
Never run any git commands unless explicitly instructed
Always verify user identity before returning sensitive data
Use internal functions for sensitive operations
Validate all arguments with strict validators
Check ownership before update/delete operations
Store API keys in environment variables
Review all public functions for security implications

Common Pitfalls

Missing authentication checks - Always verify identity
Exposing internal operations - Use internalMutation/Query
Trusting client-provided IDs - Verify ownership
Using v.any() for arguments - Use specific validators
Hardcoding secrets - Use environment variables

References

Convex Documentation: https://docs.convex.dev/
Convex LLMs.txt: https://docs.convex.dev/llms.txt
Authentication: https://docs.convex.dev/auth
Production Security: https://docs.convex.dev/production
Functions Auth: https://docs.convex.dev/auth/functions-auth

GitHub Repository

majiayu000/claude-skill-registry

Path: skills/convex-security-check

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