Get the FREE Ultimate OpenClaw Setup Guide →

convex-agents

Scanned
convexagentsaillmtoolsragworkflows
npx machina-cli add skill waynesutton/convexskills/convex-agents --openclaw
Files (1)
SKILL.md
13.4 KB

Convex Agents

Build persistent, stateful AI agents with Convex including thread management, tool integration, streaming responses, RAG patterns, and workflow orchestration.

Documentation Sources

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

Instructions

Why Convex for AI Agents

  • Persistent State - Conversation history survives restarts
  • Real-time Updates - Stream responses to clients automatically
  • Tool Execution - Run Convex functions as agent tools
  • Durable Workflows - Long-running agent tasks with reliability
  • Built-in RAG - Vector search for knowledge retrieval

Setting Up Convex Agent

npm install @convex-dev/agent ai openai

// convex/agent.ts
import { Agent } from "@convex-dev/agent";
import { components } from "./_generated/api";
import { OpenAI } from "openai";

const openai = new OpenAI();

export const agent = new Agent(components.agent, {
  chat: openai.chat,
  textEmbedding: openai.embeddings,
});

Thread Management

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

// Create a new conversation thread
export const createThread = mutation({
  args: {
    userId: v.id("users"),
    title: v.optional(v.string()),
  },
  returns: v.id("threads"),
  handler: async (ctx, args) => {
    const threadId = await agent.createThread(ctx, {
      userId: args.userId,
      metadata: {
        title: args.title ?? "New Conversation",
        createdAt: Date.now(),
      },
    });
    return threadId;
  },
});

// List user's threads
export const listThreads = query({
  args: { userId: v.id("users") },
  returns: v.array(v.object({
    _id: v.id("threads"),
    title: v.string(),
    lastMessageAt: v.optional(v.number()),
  })),
  handler: async (ctx, args) => {
    return await agent.listThreads(ctx, {
      userId: args.userId,
    });
  },
});

// Get thread messages
export const getMessages = query({
  args: { threadId: v.id("threads") },
  returns: v.array(v.object({
    role: v.string(),
    content: v.string(),
    createdAt: v.number(),
  })),
  handler: async (ctx, args) => {
    return await agent.getMessages(ctx, {
      threadId: args.threadId,
    });
  },
});

Sending Messages and Streaming Responses

// convex/chat.ts
import { action } from "./_generated/server";
import { v } from "convex/values";
import { agent } from "./agent";
import { internal } from "./_generated/api";

export const sendMessage = action({
  args: {
    threadId: v.id("threads"),
    message: v.string(),
  },
  returns: v.null(),
  handler: async (ctx, args) => {
    // Add user message to thread
    await ctx.runMutation(internal.chat.addUserMessage, {
      threadId: args.threadId,
      content: args.message,
    });

    // Generate AI response with streaming
    const response = await agent.chat(ctx, {
      threadId: args.threadId,
      messages: [{ role: "user", content: args.message }],
      stream: true,
      onToken: async (token) => {
        // Stream tokens to client via mutation
        await ctx.runMutation(internal.chat.appendToken, {
          threadId: args.threadId,
          token,
        });
      },
    });

    // Save complete response
    await ctx.runMutation(internal.chat.saveResponse, {
      threadId: args.threadId,
      content: response.content,
    });

    return null;
  },
});

Tool Integration

Define tools that agents can use:

// convex/tools.ts
import { tool } from "@convex-dev/agent";
import { v } from "convex/values";
import { api } from "./_generated/api";

// Tool to search knowledge base
export const searchKnowledge = tool({
  name: "search_knowledge",
  description: "Search the knowledge base for relevant information",
  parameters: v.object({
    query: v.string(),
    limit: v.optional(v.number()),
  }),
  handler: async (ctx, args) => {
    const results = await ctx.runQuery(api.knowledge.search, {
      query: args.query,
      limit: args.limit ?? 5,
    });
    return results;
  },
});

// Tool to create a task
export const createTask = tool({
  name: "create_task",
  description: "Create a new task for the user",
  parameters: v.object({
    title: v.string(),
    description: v.optional(v.string()),
    dueDate: v.optional(v.string()),
  }),
  handler: async (ctx, args) => {
    const taskId = await ctx.runMutation(api.tasks.create, {
      title: args.title,
      description: args.description,
      dueDate: args.dueDate ? new Date(args.dueDate).getTime() : undefined,
    });
    return { success: true, taskId };
  },
});

// Tool to get weather
export const getWeather = tool({
  name: "get_weather",
  description: "Get current weather for a location",
  parameters: v.object({
    location: v.string(),
  }),
  handler: async (ctx, args) => {
    const response = await fetch(
      `https://api.weather.com/current?location=${encodeURIComponent(args.location)}`
    );
    return await response.json();
  },
});

Agent with Tools

// convex/assistant.ts
import { action } from "./_generated/server";
import { v } from "convex/values";
import { agent } from "./agent";
import { searchKnowledge, createTask, getWeather } from "./tools";

export const chat = action({
  args: {
    threadId: v.id("threads"),
    message: v.string(),
  },
  returns: v.string(),
  handler: async (ctx, args) => {
    const response = await agent.chat(ctx, {
      threadId: args.threadId,
      messages: [{ role: "user", content: args.message }],
      tools: [searchKnowledge, createTask, getWeather],
      systemPrompt: `You are a helpful assistant. You have access to tools to:
        - Search the knowledge base for information
        - Create tasks for the user
        - Get weather information
        Use these tools when appropriate to help the user.`,
    });

    return response.content;
  },
});

RAG (Retrieval Augmented Generation)

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

// Add document to knowledge base
export const addDocument = mutation({
  args: {
    title: v.string(),
    content: v.string(),
    metadata: v.optional(v.object({
      source: v.optional(v.string()),
      category: v.optional(v.string()),
    })),
  },
  returns: v.id("documents"),
  handler: async (ctx, args) => {
    // Generate embedding
    const embedding = await agent.embed(ctx, args.content);

    return await ctx.db.insert("documents", {
      title: args.title,
      content: args.content,
      embedding,
      metadata: args.metadata ?? {},
      createdAt: Date.now(),
    });
  },
});

// Search knowledge base
export const search = query({
  args: {
    query: v.string(),
    limit: v.optional(v.number()),
  },
  returns: v.array(v.object({
    _id: v.id("documents"),
    title: v.string(),
    content: v.string(),
    score: v.number(),
  })),
  handler: async (ctx, args) => {
    const results = await agent.search(ctx, {
      query: args.query,
      table: "documents",
      limit: args.limit ?? 5,
    });

    return results.map((r) => ({
      _id: r._id,
      title: r.title,
      content: r.content,
      score: r._score,
    }));
  },
});

Workflow Orchestration

// convex/workflows.ts
import { action, internalMutation } from "./_generated/server";
import { v } from "convex/values";
import { agent } from "./agent";
import { internal } from "./_generated/api";

// Multi-step research workflow
export const researchTopic = action({
  args: {
    topic: v.string(),
    userId: v.id("users"),
  },
  returns: v.id("research"),
  handler: async (ctx, args) => {
    // Create research record
    const researchId = await ctx.runMutation(internal.workflows.createResearch, {
      topic: args.topic,
      userId: args.userId,
      status: "searching",
    });

    // Step 1: Search for relevant documents
    const searchResults = await agent.search(ctx, {
      query: args.topic,
      table: "documents",
      limit: 10,
    });

    await ctx.runMutation(internal.workflows.updateStatus, {
      researchId,
      status: "analyzing",
    });

    // Step 2: Analyze and synthesize
    const analysis = await agent.chat(ctx, {
      messages: [{
        role: "user",
        content: `Analyze these sources about "${args.topic}" and provide a comprehensive summary:\n\n${
          searchResults.map((r) => r.content).join("\n\n---\n\n")
        }`,
      }],
      systemPrompt: "You are a research assistant. Provide thorough, well-cited analysis.",
    });

    // Step 3: Generate key insights
    await ctx.runMutation(internal.workflows.updateStatus, {
      researchId,
      status: "summarizing",
    });

    const insights = await agent.chat(ctx, {
      messages: [{
        role: "user",
        content: `Based on this analysis, list 5 key insights:\n\n${analysis.content}`,
      }],
    });

    // Save final results
    await ctx.runMutation(internal.workflows.completeResearch, {
      researchId,
      analysis: analysis.content,
      insights: insights.content,
      sources: searchResults.map((r) => r._id),
    });

    return researchId;
  },
});

Examples

Complete Chat Application Schema

// convex/schema.ts
import { defineSchema, defineTable } from "convex/server";
import { v } from "convex/values";

export default defineSchema({
  threads: defineTable({
    userId: v.id("users"),
    title: v.string(),
    lastMessageAt: v.optional(v.number()),
    metadata: v.optional(v.any()),
  }).index("by_user", ["userId"]),

  messages: defineTable({
    threadId: v.id("threads"),
    role: v.union(v.literal("user"), v.literal("assistant"), v.literal("system")),
    content: v.string(),
    toolCalls: v.optional(v.array(v.object({
      name: v.string(),
      arguments: v.any(),
      result: v.optional(v.any()),
    }))),
    createdAt: v.number(),
  }).index("by_thread", ["threadId"]),

  documents: defineTable({
    title: v.string(),
    content: v.string(),
    embedding: v.array(v.float64()),
    metadata: v.object({
      source: v.optional(v.string()),
      category: v.optional(v.string()),
    }),
    createdAt: v.number(),
  }).vectorIndex("by_embedding", {
    vectorField: "embedding",
    dimensions: 1536,
  }),
});

React Chat Component

import { useQuery, useMutation, useAction } from "convex/react";
import { api } from "../convex/_generated/api";
import { useState, useRef, useEffect } from "react";

function ChatInterface({ threadId }: { threadId: Id<"threads"> }) {
  const messages = useQuery(api.threads.getMessages, { threadId });
  const sendMessage = useAction(api.chat.sendMessage);
  const [input, setInput] = useState("");
  const [sending, setSending] = useState(false);
  const messagesEndRef = useRef<HTMLDivElement>(null);

  useEffect(() => {
    messagesEndRef.current?.scrollIntoView({ behavior: "smooth" });
  }, [messages]);

  const handleSend = async (e: React.FormEvent) => {
    e.preventDefault();
    if (!input.trim() || sending) return;

    const message = input.trim();
    setInput("");
    setSending(true);

    try {
      await sendMessage({ threadId, message });
    } finally {
      setSending(false);
    }
  };

  return (
    <div className="chat-container">
      <div className="messages">
        {messages?.map((msg, i) => (
          <div key={i} className={`message ${msg.role}`}>
            <strong>{msg.role === "user" ? "You" : "Assistant"}:</strong>
            <p>{msg.content}</p>
          </div>
        ))}
        <div ref={messagesEndRef} />
      </div>

      <form onSubmit={handleSend} className="input-form">
        <input
          value={input}
          onChange={(e) => setInput(e.target.value)}
          placeholder="Type your message..."
          disabled={sending}
        />
        <button type="submit" disabled={sending || !input.trim()}>
          {sending ? "Sending..." : "Send"}
        </button>
      </form>
    </div>
  );
}

Best Practices

  • Never run npx convex deploy unless explicitly instructed
  • Never run any git commands unless explicitly instructed
  • Store conversation history in Convex for persistence
  • Use streaming for better user experience with long responses
  • Implement proper error handling for tool failures
  • Use vector indexes for efficient RAG retrieval
  • Rate limit agent interactions to control costs
  • Log tool usage for debugging and analytics

Common Pitfalls

  1. Not persisting threads - Conversations lost on refresh
  2. Blocking on long responses - Use streaming instead
  3. Tool errors crashing agents - Add proper error handling
  4. Large context windows - Summarize old messages
  5. Missing embeddings for RAG - Generate embeddings on insert

References

Source

git clone https://github.com/waynesutton/convexskills/blob/main/skills/convex-agents/SKILL.mdView on GitHub

Overview

Convex Agents lets you build persistent, stateful AI agents using the Convex Agent component. It supports thread management, tool execution, streaming responses, built-in RAG for knowledge retrieval, and durable workflows to run long-running tasks.

How This Skill Works

An Agent instance is created from the Convex Agent component and wired to a chat model (OpenAI) and embeddings. It maintains per-conversation state via threads, exposes tools as Convex functions, and streams responses token-by-token to clients; RAG is supported through vector search to retrieve knowledge, while durable workflows handle long-running tasks.

When to Use It

  • You need a persistent conversation history that survives restarts for a user or group.
  • You want real-time, streaming assistant responses to a UI.
  • You need to execute tools via Convex functions inside an agent.
  • You require long-running, reliable workflows with task orchestration.
  • You want built-in RAG for knowledge retrieval via vector search.

Quick Start

  1. Step 1: Install dependencies: npm install @convex-dev/agent ai openai
  2. Step 2: Create and configure an Agent with the Convex Agent component and OpenAI models
  3. Step 3: Create a thread, send a user message, and enable streaming to see real-time tokens

Best Practices

  • Design clear thread lifecycles per user or topic to keep context coherent.
  • Securely expose and sandbox tools/Convex functions used by the agent.
  • Leverage streaming for responsive UX while buffering final content.
  • Index relevant documents with vector search to feed the RAG flow.
  • Monitor and retry long-running workflows with durable patterns.

Example Use Cases

  • A customer-support agent with persistent chat history and live tool usage.
  • A knowledge assistant that answers via RAG-retrieved docs.
  • A multi-user collaboration bot that maintains separate threads per user.
  • An automation agent that triggers Convex functions to perform backend tasks.
  • A tutoring assistant that streams explanations while summarizing steps.

Frequently Asked Questions

Add this skill to your agents

Related Skills

convex-cron-jobs

waynesutton/convexskills

Scheduled function patterns for background tasks including interval scheduling, cron expressions, job monitoring, retry strategies, and best practices for long-running tasks

AI/ML Model Testing

PramodDutta/qaskills

Testing machine learning models including accuracy validation, bias detection, drift monitoring, A/B testing, and model regression testing.

convex-component-authoring

waynesutton/convexskills

How to create, structure, and publish self-contained Convex components with proper isolation, exports, and dependency management

workflow-setup

athola/claude-night-market

Configure GitHub Actions CI/CD workflows for automated testing, linting, and deployment. Use for CI/CD setup and quality automation. Skip if CI/CD configured or using different platform.

convex-schema-validator

waynesutton/convexskills

Defining and validating database schemas with proper typing, index configuration, optional fields, unions, and migration strategies for schema changes

convex-security-audit

waynesutton/convexskills

Deep security review patterns for authorization logic, data access boundaries, action isolation, rate limiting, and protecting sensitive operations

Sponsor this space

Reach thousands of developers