Integrating LlamaIndex with SQL Analysis Services Data via CData Connect AI
LlamaIndex is a data framework for building LLM applications — agents, RAG pipelines, and structured workflows that reason over external data. By integrating LlamaIndex with CData Connect AI through the built-in MCP Server, your agents can discover and query live SQL Analysis Services data as native tools without writing custom connectors.
CData Connect AI offers a secure, low-code environment to connect SQL Analysis Services and other data sources, removing the need for complex ETL and enabling seamless automation across business applications with live data.
This article outlines how to configure SQL Analysis Services connectivity in CData Connect AI, register the MCP server with LlamaIndex, and build a ReAct agent that queries SQL Analysis Services data in real time.
Prerequisites
- An account in CData Connect AI
- Python version 3.10 or higher, to install the LlamaIndex packages
- Generate and save an OpenAI API key
- Install Visual Studio Code in your system
Step 1: Configure SQL Analysis Services Connectivity for LlamaIndex
Before LlamaIndex can access SQL Analysis Services, a SQL Analysis Services connection must be created in CData Connect AI. This connection is then exposed to LlamaIndex through the remote MCP server.
- Log in to Connect AI, click Sources, and then click + Add Connection
- From the available data sources, choose SQL Analysis Services
-
Enter the necessary authentication properties to connect to SQL Analysis Services
To connect, provide authentication and set the Url property to a valid SQL Server Analysis Services endpoint. You can connect to SQL Server Analysis Services instances hosted over HTTP with XMLA access. See the Microsoft documentation to configure HTTP access to SQL Server Analysis Services.
To secure connections and authenticate, set the corresponding connection properties, below. The data provider supports the major authentication schemes, including HTTP and Windows, as well as SSL/TLS.
-
HTTP Authentication
Set AuthScheme to "Basic" or "Digest" and set User and Password. Specify other authentication values in CustomHeaders.
-
Windows (NTLM)
Set the Windows User and Password and set AuthScheme to "NTLM".
-
Kerberos and Kerberos Delegation
To authenticate with Kerberos, set AuthScheme to NEGOTIATE. To use Kerberos delegation, set AuthScheme to KERBEROSDELEGATION. If needed, provide the User, Password, and KerberosSPN. By default, the data provider attempts to communicate with the SPN at the specified Url.
-
SSL/TLS:
By default, the data provider attempts to negotiate SSL/TLS by checking the server's certificate against the system's trusted certificate store. To specify another certificate, see the SSLServerCert property for the available formats.
You can then access any cube as a relational table: When you connect the data provider retrieves SSAS metadata and dynamically updates the table schemas. Instead of retrieving metadata every connection, you can set the CacheLocation property to automatically cache to a simple file-based store.
See the Getting Started section of the CData documentation, under Retrieving Analysis Services Data, to execute SQL-92 queries to the cubes.
-
HTTP Authentication
- Click Save & Test
- Once authenticated, open the Permissions tab in the SQL Analysis Services connection and configure user-based permissions as required
Generate a Personal Access Token (PAT)
LlamaIndex authenticates to Connect AI using an account email and a Personal Access Token (PAT). Creating separate PATs for each integration is recommended to maintain access control granularity.
- In Connect AI, select the Gear icon in the top-right to open Settings
- Under Access Tokens, select Create PAT
- Provide a descriptive name for the token and select Create
- Copy the token and store it securely. The PAT will only be visible during creation
With the SQL Analysis Services connection configured and a PAT generated, LlamaIndex is prepared to connect to SQL Analysis Services data through the CData MCP server.
Step 2: Connect to the MCP server in LlamaIndex
To connect LlamaIndex with CData Connect AI Remote MCP Server and use OpenAI for reasoning, configure your MCP server endpoint and authentication in a
config.pyfile. These values let LlamaIndex’s MCP tool spec call the MCP server tools, while OpenAI handles the natural language reasoning.
- Create a folder for the LlamaIndex MCP project
- Create two Python files within the folder:
config.py
andllamaindex_agent.py
- In
config.py
, define your MCP server URL and your Base64-encoded CData Connect AI email and PAT (obtained in the prerequisites):class Config: MCP_BASE_URL = "https://mcp.cloud.cdata.com/mcp" # MCP Server URL MCP_AUTH = "base64encoded(EMAIL:PAT)" # Base64 encoded Connect AI Email:PATNote: You can create the base64 encoded version of MCP_AUTH using any Base64 encoding tool.
- In
llamaindex_agent.py
, wire up the MCP tool spec and a ReAct agent:""" Integrates a LlamaIndex ReAct agent with the CData Connect AI MCP server. The script discovers MCP tools, wraps them as LlamaIndex tools, and runs an agent loop driven by OpenAI for reasoning. """ import asyncio from llama_index.tools.mcp import BasicMCPClient, McpToolSpec from llama_index.core.agent.workflow import ReActAgent from llama_index.llms.openai import OpenAI from config import Config async def main(): # Initialize the MCP client pointed at Connect AI mcp_client = BasicMCPClient( Config.MCP_BASE_URL, headers={"Authorization": f"Basic {Config.MCP_AUTH}"}, ) # Discover tools the MCP server exposes (getCatalogs, queryData, etc.) tool_spec = McpToolSpec(client=mcp_client) tools = await tool_spec.to_tool_list_async() print("Discovered MCP tools:", [t.metadata.name for t in tools]) # Configure the LLM that drives the ReAct loop llm = OpenAI( model="gpt-4o", temperature=0.2, api_key="YOUR_OPENAI_API_KEY", # https://platform.openai.com/ ) # Build the agent with the MCP-backed tools agent = ReActAgent(tools=tools, llm=llm) user_prompt = "How many tables are available in SSAS1?" # Change as needed print(f" User prompt: {user_prompt}") response = await agent.run(user_prompt) print("Agent final response:", response) if __name__ == "__main__": asyncio.run(main())
Step 3: Install the LlamaIndex packages
Since this workflow uses LlamaIndex together with the CData Connect AI MCP server and OpenAI for reasoning, install the required Python packages.
Run the following command in your project terminal:
pip install llama-index llama-index-tools-mcp llama-index-llms-openai
Step 4: Prompt SQL Analysis Services using LlamaIndex (via the MCP server)
- When the installation finishes, run
python llamaindex_agent.py
to execute the script - The script connects to the MCP server and discovers the CData Connect AI MCP tools available for querying your connected data
- Supply a prompt (e.g., "How many tables are available in SQL Analysis Services?")
- The agent reasons over the available tools, calls
queryData
against SQL Analysis Services, and responds with the result
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