Generate typed TypeScript SDKs for AI agents to interact with MCP servers. Converts verbose JSON-RPC curl commands to clean function calls (docs.createDocument() vs curl). Auto-detects MCP tools from server modules, generates TypeScript types and client methods, creates runnable example scripts. Use when: building MCP-enabled applications, need typed programmatic access to MCP tools, want Claude Code to manage apps via scripts, eliminating manual JSON-RPC curl commands, validating MCP inputs/outputs, or creating reusable agent automation.
apm install @microck/ts-agent-sdk
[](https://apm-p1ls2dz87-atlamors-projects.vercel.app/packages/@microck/ts-agent-sdk)---
name: ts-agent-sdk
description: |
Generate typed TypeScript SDKs for AI agents to interact with MCP servers. Converts verbose JSON-RPC curl commands to clean function calls (docs.createDocument() vs curl). Auto-detects MCP tools from server modules, generates TypeScript types and client methods, creates runnable example scripts.
Use when: building MCP-enabled applications, need typed programmatic access to MCP tools, want Claude Code to manage apps via scripts, eliminating manual JSON-RPC curl commands, validating MCP inputs/outputs, or creating reusable agent automation.
---
# ts-agent-sdk
## Overview
This skill generates typed TypeScript SDKs that allow AI agents (primarily Claude Code) to interact with web applications via MCP servers. It replaces verbose JSON-RPC curl commands with clean function calls.
## Template Location
The core SDK template files are bundled with this skill at:
`templates/`
Copy these files to the target project's `scripts/sdk/` directory as a starting point:
```bash
cp -r ~/.claude/skills/ts-agent-sdk/templates/* ./scripts/sdk/
```
## SDK Generation Workflow
### Step 1: Detect MCP Servers
Scan the project for MCP server modules:
```
src/server/modules/mcp*/server.ts
```
Each server.ts file contains tool definitions using the pattern:
```typescript
server.tool(
'tool_name',
'Tool description',
zodInputSchema,
async (params) => { ... }
)
```
### Step 2: Extract Tool Definitions
For each tool, extract:
1. **name**: The tool identifier (e.g., 'create_document')
2. **description**: Tool description for JSDoc
3. **inputSchema**: Zod schema defining input parameters
4. **endpoint**: The MCP endpoint path (e.g., '/api/mcp-docs/message')
### Step 3: Generate TypeScript Interfaces
Convert Zod schemas to TypeScript interfaces:
```typescript
// From: z.object({ name: z.string(), email: z.string().email() })
// To:
export interface CreateEnquiryInput {
name: string;
email: string;
}
```
### Step 4: Generate Module Client
Create a client class with methods for each tool:
```typescript
// scripts/sdk/docs/client.ts
import { MCPClient, defaultClient } from '../client';
import type { CreateDocumentInput, CreateDocumentOutput } from './types';
const ENDPOINT = '/api/mcp-docs/message';
export class DocsClient {
private mcp: MCPClient;
constructor(client?: MCPClient) {
this.mcp = client || defaultClient;
}
async createDocument(input: CreateDocumentInput): Promise<CreateDocumentOutput> {
return this.mcp.callTool(ENDPOINT, 'create_document', input);
}
async listDocuments(input: ListDocumentsInput): Promise<ListDocumentsOutput> {
return this.mcp.callTool(ENDPOINT, 'list_documents', input);
}
// ... one method per tool
}
export const docs = new DocsClient();
```
### Step 5: Generate Example Scripts
Create runnable examples in `scripts/sdk/examples/`:
```typescript
#!/usr/bin/env npx tsx
// scripts/sdk/examples/create-doc.ts
import { docs } from '../';
async function main() {
const result = await docs.createDocument({
spaceId: 'wiki',
title: 'Getting Started',
content: '# Welcome\n\nThis is the intro.',
});
console.log(`Created document: ${result.document.id}`);
}
main().catch(console.error);
```
### Step 6: Update Index Exports
Add module exports to `scripts/sdk/index.ts`:
```typescript
export { docs } from './docs';
export { enquiries } from './enquiries';
```
## Output Structure
```
project/
└── scripts/sdk/
├── index.ts # Main exports
├── config.ts # Environment config
├── errors.ts # Error classes
├── client.ts # MCP client
│
├── docs/ # Generated module
│ ├── types.ts # TypeScript interfaces
│ ├── client.ts # Typed methods
│ └── index.ts # Module exports
│
├── enquiries/ # Another module
│ ├── types.ts
│ ├── client.ts
│ └── index.ts
│
└── examples/ # Runnable scripts
├── create-doc.ts
├── list-spaces.ts
└── create-enquiry.ts
```
## Environment Variables
The SDK uses these environment variables:
| Variable | Description | Default |
|----------|-------------|---------|
| `SDK_MODE` | Execution mode: 'local', 'remote', 'auto' | 'auto' |
| `SDK_BASE_URL` | Target Worker URL | http://localhost:8787 |
| `SDK_API_TOKEN` | Bearer token for auth | (none) |
## Execution
Run generated scripts with:
```bash
SDK_API_TOKEN="your-token" SDK_BASE_URL="https://app.workers.dev" npx tsx scripts/sdk/examples/create-doc.ts
```
## Naming Conventions
- **Module names**: Lowercase, from MCP server name (e.g., 'mcp-docs' → 'docs')
- **Method names**: camelCase from tool name (e.g., 'create_document' → 'createDocument')
- **Type names**: PascalCase (e.g., 'CreateDocumentInput', 'CreateDocumentOutput')
## Error Handling
The SDK provides typed errors:
- `AuthError` - 401, invalid token
- `ValidationError` - Invalid input
- `NotFoundError` - Resource not found
- `RateLimitError` - 429, too many requests
- `MCPError` - MCP protocol errors
- `NetworkError` - Connection failures
## Regeneration
When MCP tools change, regenerate the SDK:
1. Re-scan `src/server/modules/mcp*/server.ts`
2. Update types.ts with new/changed schemas
3. Update client.ts with new/changed methods
4. Preserve any custom code in examples/