In a previous post, I covered what SQL MCP Server is, why it matters, and why getting the security model right is non-negotiable. If you haven't read that one, please start there. This post is the follow-up where I'll walk through the full setup and usage. We'll install the tools, configure the server, expose a couple tables, and connect Claude Desktop to query live SQL Server data. It's a simple example of the how-to beginning to end.
What you need before you start
Three things:
| Prerequisite | Notes |
|---|---|
| .NET 8 SDK | Required to install the DAB CLI. Download from Microsoft — SDK column, Windows x64 installer. |
| Node.js (LTS) | Required for the mcp-remote bridge. Download from nodejs.org — the LTS button on the left. |
| Claude Desktop | The MCP client. Free download at claude.com/download — Windows version. Requires a paid Claude plan. |
Both .NET and Node.js are safe, standard installs. Neither runs as a background service, neither touches SQL Server, and both coexist cleanly with whatever else is on your machine. Verify them after install:
dotnet --version node --version
Step 1: Install the Data API Builder CLI
SQL MCP Server ships as part of Data API Builder (DAB), Microsoft's open source engine for exposing SQL Server data as REST, GraphQL, and MCP endpoints. Version 1.7 is what added MCP support. Install it at commmand line as a global .NET tool:
dotnet tool install -g Microsoft.DataApiBuilder
You'll see some first-run .NET output, then confirmation. Verify the install:
dab --version
You're looking for version 1.7 or later. Mine is 1.7.90, which is current as of this writing.
Step 2: Create a working folder and initialize the config
DAB is driven entirely by a JSON config file. Create a folder to work in and initialize the config against your SQL Server instance:
mkdir C:\dab-mcp cd C:\dab-mcp dab init --database-type mssql --connection-string "Server=SQLFINGERSMINI\V2025;Database=Orders;Trusted_Connection=True;TrustServerCertificate=True;" --config dab-config.json --host-mode development
Regarding that connection string, Windows authentication works fine here. There is no reason to switch to SQL auth just for this. Also, TrustServerCertificate=True is needed for local dev instances without a trusted SSL cert, and --host-mode development enables verbose logging, which you'll want while getting set up.
If it works, you'll see something like this:
Step 3: Add your tables
The config file defines the connection. Now you tell DAB which tables to expose. I'm using an Orders database with two tables — Customer (500K rows) and SalesOrder (1M rows) — both exposed as read-only:
dab add Customer --source dbo.Customer --source.type table --permissions "anonymous:read" --description "Customer records"
dab add SalesOrder --source dbo.SalesOrder --source.type table --permissions "anonymous:read" --description "Sales order records"
One gotcha worth calling out: DAB accepts the dab add command without validating that the table actually exists. I mistyped dbo.SalesOrders with a trailing S, and the server threw an 'Invalid object name' error on startup. Another helpful tip: there is no dab remove command. Fixing a typo means opening dab-config.json directly in a text editor and correcting it by hand. Double-check your object names before you add them.
Step 4: Start the server
dab start
DAB connects to SQL Server, pulls schema for each entity, and starts listening on http://localhost:5000. Keep this command prompt window open — it's your running server. The dab start has a fairly large return. This image is just the end of the output and reflects that the DAB server is now running:
Now you want to verify the REST endpoint is working by calling this in a browser:
http://localhost:5000/api/Customer
You should get back a JSON payload with Customer records.
Now verify the MCP endpoint:
http://localhost:5000/mcp
That's not a failure — that's the MCP endpoint working correctly. A browser isn't a valid MCP client, so it's rejecting the connection because no session handshake was initiated. The endpoint is alive and enforcing the protocol. Good.
Step 5: Connect Claude Desktop
Claude Desktop supports MCP connections through a JSON config file. The tricky part on Windows is finding it — the MSIX-packaged version stores it somewhere non-obvious:
%LOCALAPPDATA%\Packages\Claude_pzs8sxrjxfjjc\LocalCache\Roaming\Claude\claude_desktop_config.json
Once you've found it, open in Notepad and add an mcpServers block after your existing preferences section:
{
"preferences": {
"coworkWebSearchEnabled": true,
"ccdScheduledTasksEnabled": true,
"coworkScheduledTasksEnabled": false
},
"mcpServers": {
"sql-mcp": {
"command": "npx",
"args": [
"mcp-remote@latest",
"http://localhost:5000/mcp",
"--allow-http"
]
}
}
}
What this does: Claude Desktop expects MCP servers to communicate over stdio — a local process it launches itself. DAB uses HTTP. The mcp-remote package (run via npx, which ships with Node.js) bridges the two, and --allow-http tells it that an unencrypted local connection is acceptable — totally fine for a dev setup.
Save the file, then fully quit Claude Desktop. Closing the window isn't enough — it stays running in the background. Use Task Manager, find Claude, and End Task. Then relaunch it from the Start menu.
Once it's back up, click the + button at the bottom of the chat input, then click Connectors. You should see sql-mcp listed and enabled.
Ok. So how does it work?
Start a new chat in Claude Desktop and ask something simple, like 'How many customers do I have?'
Look at that. My question followed by Claude's processing notes and answer at the bottom. Response time? It took just under 2 minutes for Claude to find my server, the Orders database and the Customer table. Important note: DAB doesn't execute arbitrary SQL. It exposes typed CRUD operations against defined entities. There's no SELECT COUNT(*) happening. Claude is calling the read_records tool, paginating the results, and inferring the count from what comes back. For 500K rows with zero efficient query techniques, under 2 minutes is not that bad.
And that's it. The longer response time may be a trade-off for a controlled, auditable surface, but again, I did not use any smarts to optimize the MCP call, and it's on my local instance with limited memory and zero indexes. Just like any other SQL call, do it properly. Think carefully about what you expose and how the agent will interact with it. Large tables with no natural filtering strategy will be slow. If you're building something real, consider exposing scoped views or stored procedures instead of raw tables, and you can also isolate workloads by running AI-generated queries from the MCP server on a separate instance (or replica) to avoid unnecessary overhead. Lastly, you should use the --description flag to give the agent enough context to query intelligently. As I've tried to emphasize in my other sp_BlitzCache/AI posts, the AI is only as good as the data it's given. You need to help the AI do its job effectively.
What this setup actually is
This is a local development configuration. The DAB server runs on your machine, listens on localhost, and only Claude Desktop on that same machine can reach it. That's the right place to start learning the tool, but it's not how you'd deploy this for a customer. Production means containerizing DAB, deploying behind proper authentication, scoping a dedicated low-privilege login, and running over HTTPS. I covered the security concerns in the previous post — and all of that still applies here.
This post shows that the full path from a cold machine to Claude-querying-live-data through a controlled MCP interface is achievable in a couple hours. The tooling works and the configuration is straightforward. I believe this is a good starting point for anyone looking to understand the SQL MCP server as a bridge between AI and your SQL Server databases.
More to Read:
SQL MCP Server overview — Microsoft Learn
What is Data API Builder? — Microsoft Learn
DAB CLI reference — Microsoft Learn
SQL Server MCP: The Bridge Between Your Database and AI — sqlfingers.com
