Frank Goortani CV MCP Server

By FrankGoortani GitHub

This is an MCP Server that provides static answers about Frank Goortani's CV

Overview

what is cv-mcp?

cv-mcp is an MCP Server designed to provide static answers regarding Frank Goortani's CV.

how to use cv-mcp?

To use cv-mcp, simply access the server through its GitHub page and query for specific information about Frank Goortani's CV.

key features of cv-mcp?

Provides quick and static responses about CV details.
Easy access through a dedicated server interface.
Focused on delivering accurate information about Frank Goortani's professional background.

use cases of cv-mcp?

Quickly retrieving information about Frank Goortani's work experience.
Accessing educational qualifications and skills listed in the CV.
Providing a reference for networking or professional inquiries.

FAQ from cv-mcp?

What type of information can I get from cv-mcp?

You can get static information about Frank Goortani's work experience, education, and skills.

Is cv-mcp free to use?

Yes! cv-mcp is free to access for anyone interested in Frank Goortani's CV.

How accurate is the information provided by cv-mcp?

The information is static and directly sourced from Frank Goortani's CV, ensuring high accuracy.

Content

Frank Goortani CV MCP Server

A Model Context Protocol (MCP) server specifically designed to serve Frank Goortani's CV information. This server provides structured access to CV data, enabling AI assistants and other MCP-compatible clients to retrieve, search, and present professional information in a standardized format.

Project Overview

Purpose

This project implements an MCP server that exposes Frank Goortani's curriculum vitae information through a standardized interface. The server allows AI assistants and MCP-compatible applications to access structured CV data, including professional profile, skills, work experience, and more.

Architecture Overview

The project is built using the FastMCP framework and follows the Model Context Protocol specification. It's designed with a modular architecture:

Core Module: Contains data structures, tool implementations, and resource definitions
Server Module: Provides transport handlers for stdio and HTTP communication
Deployment: Configured for seamless deployment to Cloudflare Workers

graph TD
    LLM[LLM Systems] -->|MCP Protocol| API[CV MCP API]
    API -->|Tools| CV[CV Data]
    API -->|Resource| MD[CV Markdown]

    subgraph "Frank Goortani CV MCP Server"
        API
        subgraph "Data Sources"
            CV
            MD
        end
    end

    API -->|Deployment| CFW[Cloudflare Workers]

Key Features

CV Data Access: Structured access to profile information, skills, interests, and work experience
Markdown Resource: Full CV available as a markdown resource
Search Capabilities: Text search across all CV sections
Company Experience Filtering: Targeted retrieval of experience at specific companies
Media Access: Direct links to resume PDF and profile picture
Deployment Ready: Configured for Cloudflare Workers deployment
Dual Transport: Support for both stdio (local) and HTTP (remote) communication

Resources and Tools

Available Resources

URI	Description	Type
`cv://frankgoortani`	Frank Goortani's complete CV in markdown format	text/markdown

Available Tools

`get_profile`

Returns Frank Goortani's profile information including name, title, and professional description.

Parameters: None
Returns: JSON object with profile information

Example:

// Request
const result = await client.callTool("get_profile", {});

// Response
{
  "name": "Frank Goortani",
  "title": "Hands on Solution Architect | LLM, Web, Cloud, Mobile, Strategy",
  "certifications": ["TOGAF", "PMP"],
  "email": "frank@goortani.com",
  "description": "Visionary technology executive and AI leader with over 25 years of experience..."
}

`get_skills`

Returns a list of Frank Goortani's professional skills.

Parameters: None
Returns: JSON array of skills

Example:

// Request
const result = await client.callTool("get_skills", {});

// Response
[
  "Distributed Systems, API platforms, Microservices, integrations, Workflow systems",
  "Generative AI, Large Language Models (LLMs), AI agents, AI automation, Machine Learning",
  "Reactive and Functional Programming in Go, Python, Java, Swift, Typescript and JavaScript",
  // ...additional skills
]

`get_interests`

Returns a list of Frank Goortani's professional interests.

Parameters: None
Returns: JSON array of interests

Example:

// Request
const result = await client.callTool("get_interests", {});

// Response
[
  "Startups", "GoLang", "Python", "Typescript", "LangChain", "LLMs", "Microservices", "MCPs"
]

`search_cv`

Searches throughout the CV for specific terms and returns matching sections.

Parameters:
- query (string): The search term to look for in the CV
Returns: JSON object with matching sections

Example:

// Request
const result = await client.callTool("search_cv", {
  query: "generative ai"
});

// Response
{
  "matches": [
    {
      "section": "profile",
      "content": "Visionary technology executive and AI leader with over 25 years of experience driving strategic innovation in generative AI..."
    },
    {
      "section": "skills",
      "content": "Generative AI, Large Language Models (LLMs), AI agents, AI automation, Machine Learning"
    }
    // ...additional matches
  ]
}

`get_company_experience`

Retrieves work experience at a specific company.

Parameters:
- company (string): Company name to get experience for
Returns: JSON object with matching experiences

Example:

// Request
const result = await client.callTool("get_company_experience", {
  company: "Uber"
});

// Response
{
  "found": true,
  "experiences": [
    {
      "company": "Uber",
      "period": "2021-now",
      "title": "Solution Architect",
      "highlights": [
        "Worked on UDE (User Data Extraction) and DSAR (Data Subject Access Request) Automation...",
        // ...additional highlights
      ]
    }
  ]
}

`get_resume_link`

Returns the URL to Frank Goortani's resume PDF.

Parameters: None
Returns: JSON object with resume URL

Example:

// Request
const result = await client.callTool("get_resume_link", {});

// Response
{
  "resumeLink": "media/Frank Goortani Resume--solution-architect-2024.pdf"
}

`get_profile_picture`

Returns the URL to Frank Goortani's profile picture.

Parameters: None
Returns: JSON object with profile picture URL

Example:

// Request
const result = await client.callTool("get_profile_picture", {});

// Response
{
  "pictureLink": "media/frankgoortani.png"
}

Deployment Instructions

Prerequisites

Bun or Node.js (v18+)
Wrangler CLI (for Cloudflare deployment)
Cloudflare account (for deployment)

Local Development

Clone the repository
```
git clone <repository-url>
cd cv-mcp
```

Install dependencies

# Using Bun (recommended)
bun install
# OR using npm
npm install

Start the server locally with stdio transport (for CLI tools)
```
# Using Bun
bun start
# OR using npm
npm start
```

Start the server locally with HTTP transport (for web applications)

# Using Bun
bun run start:http
# OR using npm
npm run start:http

For development with auto-reload

# Using Bun with stdio transport
bun run dev
# Using Bun with HTTP transport
bun run dev:http

Cloudflare Deployment

Login to your Cloudflare account
```
wrangler login
```
Update wrangler.toml if needed

The configuration is already set up in the wrangler.toml file. You may want to customize:
- Custom domain routes
- Environment variables
- KV namespace connections

Deploy to Cloudflare

# Deploy to production
npm run deploy

# OR deploy to development environment
npm run deploy:dev

For local testing of Cloudflare Worker
```
npm run dev:cf
```

Environment Configuration

The project uses the following environment variables that can be configured:

PORT: HTTP port for local development (default: 3001)
HOST: Host binding for HTTP server (default: 0.0.0.0)
ENVIRONMENT: Current environment (development/production)

In Cloudflare, these variables are configured in the wrangler.toml file:

[vars]
ENVIRONMENT = "production"

[env.dev.vars]
ENVIRONMENT = "development"

Usage Examples

Connecting to the Server

Connecting from a CLI MCP Client

# Connect via stdio transport
npx fastmcp dev "bun run start"

# Connect via HTTP transport
npx fastmcp connect http://localhost:3001/sse

Connecting from Cursor

Open Cursor and go to Settings
Click on "Features" in the left sidebar
Scroll down to "MCP Servers" section
Click "Add new MCP server"
Enter the following details:
- Server name: frank-cv-mcp
- For stdio mode:
  - Type: command
  - Command: bun run start
- For SSE mode:
  - Type: url
  - URL: http://localhost:3001/sse
Click "Save"

Using mcp.json with Cursor

{
  "mcpServers": {
    "frank-cv-stdio": {
      "command": "bun",
      "args": ["run", "start"],
      "env": {
        "NODE_ENV": "development"
      }
    },
    "frank-cv-sse": {
      "url": "http://localhost:3001/sse"
    }
  }
}

Sample Request Flows

Retrieving Basic Information

// Get profile information
const profile = await client.callTool("get_profile", {});

// Get skills list
const skills = await client.callTool("get_skills", {});

// Get the CV as a markdown document
const cvMarkdown = await client.accessResource("cv://frankgoortani");

Searching for Specific Experience

// Search for AI experience
const aiExperience = await client.callTool("search_cv", {
  query: "ai"
});

// Get specific company experience
const uberExperience = await client.callTool("get_company_experience", {
  company: "Uber"
});

Getting Media Links

// Get resume PDF link
const resumeLink = await client.callTool("get_resume_link", {});

// Get profile picture link
const pictureLink = await client.callTool("get_profile_picture", {});

Running with Docker

This project can be run inside a Docker container, which is useful for deployment on platforms like Synology NAS or other container orchestration systems.

Prerequisites

Docker installed on your system.

Building the Docker Image

Navigate to the project root directory (where the Dockerfile is located).
Run the following command to build the Docker image. Replace cv-mcp with your desired image name if needed.
```
docker build -t cv-mcp .
```

Running the Docker Container

Once the image is built, you can run it as a container. The application inside the container listens on port 3001. You need to map a port from your host machine to the container's port 3001.
```
docker run -d -p 8080:3001 --name cv-mcp-container cv-mcp
```
- -d: Runs the container in detached mode (in the background).
- -p 8080:3001: Maps port 8080 on your host machine to port 3001 inside the container. You can change 8080 to any available port on your host.
- --name cv-mcp-container: Assigns a name to the running container for easier management.
- cv-mcp: Specifies the image to run.
After running the container, the MCP server should be accessible. If you mapped host port 8080, the SSE endpoint would typically be http://localhost:8080/sse.
For deployment on Synology NAS, you would typically use the Synology Docker UI or command line to run the container, mapping the appropriate host port. The target URL for accessing the service via reverse proxy would be https://mcp.goortani.synology.me/. Ensure your reverse proxy is configured to forward requests to the host port you mapped (e.g., 8080).

Stopping and Removing the Container

To stop the container:
```
docker stop cv-mcp-container
```
To remove the container (after stopping):
```
docker rm cv-mcp-container
```

License

This project is licensed under the MIT License.

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