Connecting Pipedream with JSON Services via CData Connect AI MCP Server
Pipedream is a cloud-based workflow automation platform that allows developers to connect APIs, automate tasks, and build event-driven workflows using serverless functions. When combined with CData Connect AI Remote MCP, Pipedream can interact with JSON data in real time using natural language, without the need for data replication to a natively supported database.
CData Connect AI offers a dedicated cloud-to-cloud interface for connecting to JSON data. The CData Connect AI Remote MCP Server enables secure communication between Pipedream and JSON, making it possible to ask questions and retrieve data from JSON using Pipedream workflows, all powered by an LLM that intelligently discovers data sources and generates SQL queries on the fly.
This article covers how to build a simple natural language data query workflow in Pipedream to conversationally explore JSON data. The connectivity principles apply to any Pipedream workflow. With Connect AI, workflows and agents can be built with access to live JSON data, plus hundreds of other sources.
Prerequisites
- A CData Connect AI account with at least one active connection (e.g., JSON)
- A Pipedream account
- An OpenAI account with API Key
-
CData Connect AI credentials:
- Email (used as username for Basic Auth)
- Personal Access Token (PAT) generated from the CData Connect AI Settings page
Step 1: Configure JSON connectivity for Pipedream
Connectivity to JSON from Pipedream is made possible through CData Connect AI Remote MCP. To interact with JSON from Pipedream, we start by creating and configuring a JSON connection in CData Connect AI.
- Log into Connect AI, click Sources, and then click Add Connection
- Select "JSON" from the Add Connection panel
-
Enter the necessary authentication properties to connect to JSON.
See the Getting Started chapter in the data provider documentation to authenticate to your data source: The data provider models JSON APIs as bidirectional database tables and JSON files as read-only views (local files, files stored on popular cloud services, and FTP servers). The major authentication schemes are supported, including HTTP Basic, Digest, NTLM, OAuth, and FTP. See the Getting Started chapter in the data provider documentation for authentication guides.
After setting the URI and providing any authentication values, set DataModel to more closely match the data representation to the structure of your data.
The DataModel property is the controlling property over how your data is represented into tables and toggles the following basic configurations.
- Document (default): Model a top-level, document view of your JSON data. The data provider returns nested elements as aggregates of data.
- FlattenedDocuments: Implicitly join nested documents and their parents into a single table.
- Relational: Return individual, related tables from hierarchical data. The tables contain a primary key and a foreign key that links to the parent document.
See the Modeling JSON Data chapter for more information on configuring the relational representation. You will also find the sample data used in the following examples. The data includes entries for people, the cars they own, and various maintenance services performed on those cars.
- Click Save & Test
-
Navigate to the Permissions tab in the Add JSON Connection page and update the User-based permissions.
Add a Personal Access Token
A Personal Access Token (PAT) is used to authenticate the connection to Connect AI from Pipedream. It is best practice to create a separate PAT for each service to maintain granularity of access.
- Click on the Gear icon () at the top right of the Connect AI app to open the settings page.
- On the Settings page, go to the Access Tokens section and click Create PAT.
- Give the PAT a name and click Create.

- The personal access token is only visible at creation, so be sure to copy it and store it securely for future use.
With the connection configured and a PAT generated, we are ready to connect to JSON from Pipedream.
Step 2: Set up environment variables in Pipedream
Store credentials securely as environment variables in Pipedream.
- In Pipedream, go to Settings, then Environment Variables
- Click on New Variable and add the following variables:
| Variable name | Value |
|---|---|
| CDATA_EMAIL | CData Connect AI login email |
| CDATA_PAT | CData Personal Access Token |
| OPENAI_API_KEY | OpenAI API Key |
Step 3: Create the Pipedream workflow
3.1 Configure the HTTP trigger
- Create a new workflow in Pipedream
- Select HTTP / Webhook as the trigger
- Set HTTP Response to "Return a custom response from your workflow"
3.2 Add the LLM step
Add a Node.js code step named LLM. This step extracts the natural language query from the incoming request.
Replace the default code in the step with the following:
import OpenAI from "openai";
export default defineComponent({
async run({ steps }) {
if (steps.trigger.event.method === "OPTIONS") {
return { userQuery: null, isOptions: true };
}
const body = steps.trigger.event.body;
const parsed = typeof body === "string" ? JSON.parse(body) : body;
const userQuery = parsed?.query;
console.log("USER QUERY:", userQuery);
if (!userQuery) throw new Error("No query found in request body");
return { userQuery };
}
});
3.3 Add the MCP step
Add a Node.js code step named MCP. This step implements the full agentic MCP flow, it automatically discovers all available connections, selects the most relevant one based on the question, discovers the schema and tables dynamically, generates a SQL query using the LLM, and executes it against JSON data.
The step uses the following CData Connect AI MCP tools in sequence:
| MCP Tool | Purpose |
|---|---|
| getCatalogs | Retrieves all available connections from CData Connect AI |
| getSchemas | Retrieves the database schemas for the selected connection |
| getTables | Retrieves all tables and views for the selected schema |
| queryData | Executes the generated SQL query and returns results |
Replace the default code in the step with the following:
import fetch from "node-fetch";
import OpenAI from "openai";
export default defineComponent({
async run({ steps }) {
const email = process.env.CDATA_EMAIL;
const pat = process.env.CDATA_PAT;
const credentials = email + ":" + pat;
const auth = Buffer.from(credentials).toString("base64");
const llmOutput = steps.LLM;
const userQuery = llmOutput.return_value.userQuery; // In Pipedream replace with: steps.LLM.$return_value.userQuery
const MCP_URL = "https://mcp.cloud.cdata.com/mcp";
const NL = String.fromCharCode(10);
const CRNL = String.fromCharCode(13) + String.fromCharCode(10);
const headers = {
"Content-Type": "application/json",
"Accept": "application/json, text/event-stream",
"Authorization": "Basic " + auth
};
function parseSSE(raw) {
try {
const lines = raw.split(NL);
for (let i = 0; i < lines.length; i++) {
const line = lines.at(i);
const trimmed = line.trim();
if (trimmed.indexOf("data:") === 0) {
const jsonStr = trimmed.slice(5).trim();
if (jsonStr) {
const json = JSON.parse(jsonStr);
const result = json && json.result;
const content = result && result.content;
if (Array.isArray(content)) {
return {
parsed: content.map(function(c) { return c.text || ""; }).join(NL),
isError: (result && result.isError) || false,
full: json
};
}
}
}
}
} catch (e) {
console.log("SSE parse error:", e.message);
}
return { parsed: raw, isError: false, full: null };
}
function parseCSV(text) {
let clean = text || "";
if (clean.charAt(0) === '"' && clean.charAt(clean.length - 1) === '"') {
clean = clean.slice(1, -1);
}
const ESC_CRNL = String.fromCharCode(92) + "r" + String.fromCharCode(92) + "n";
const ESC_QUOTE = String.fromCharCode(92) + '"';
const ESC_SLASH = String.fromCharCode(92) + String.fromCharCode(92);
const SINGLE_SLASH = String.fromCharCode(92);
clean = clean.split(ESC_CRNL).join(CRNL).split(ESC_QUOTE).join('"').split(ESC_SLASH).join(SINGLE_SLASH);
const lines = clean.split(CRNL).filter(function(l) { return l.trim(); });
return lines.slice(1).map(function(l) { return l.split(",").at(0).trim(); }).filter(Boolean);
}
async function initSession() {
const res = await fetch(MCP_URL, {
method: "POST",
headers: headers,
body: JSON.stringify({
jsonrpc: "2.0",
id: 1,
method: "initialize",
params: {
protocolVersion: "2024-11-05",
capabilities: {},
clientInfo: { name: "pipedream", version: "1.0" }
}
})
});
return res.headers.get("mcp-session-id");
}
async function callMCP(id, method, args, sessionId) {
const reqHeaders = Object.assign({}, headers);
if (sessionId) {
Object.assign(reqHeaders, { "mcp-session-id": sessionId });
}
const res = await fetch(MCP_URL, {
method: "POST",
headers: reqHeaders,
body: JSON.stringify({
jsonrpc: "2.0",
id: id,
method: "tools/call",
params: { name: method, arguments: args }
})
});
const raw = await res.text();
const result = parseSSE(raw);
result.raw = raw;
return result;
}
const client = new OpenAI({ apiKey: process.env.OPENAI_API_KEY });
const completions = client.chat.completions;
const session1 = await initSession();
const catalogsResult = await callMCP(2, "getCatalogs", {}, session1);
const catalogs = parseCSV(catalogsResult.parsed);
const systemMsg1 = "You are a data routing expert. Pick the MOST relevant connection name from the list. Return ONLY the connection name. Available connections: " + catalogs.join(", ");
const connectionResponse = await completions.create({
model: "gpt-4o-mini",
messages: new Array(
{ role: "system", content: systemMsg1 },
{ role: "user", content: userQuery }
)
});
const connectionName = connectionResponse.choices.at(0).message.content.trim();
const session2 = await initSession();
const schemasResult = await callMCP(2, "getSchemas", {
connectionName: connectionName,
catalogName: connectionName
}, session2);
const schemas = parseCSV(schemasResult.parsed);
const schemaName = schemas.at(0) || "REST";
const session3 = await initSession();
const tablesResult = await callMCP(2, "getTables", {
connectionName: connectionName,
catalogName: connectionName,
schemaName: schemaName
}, session3);
const tableNames = parseCSV(tablesResult.parsed);
const queryLower = userQuery.toLowerCase();
const isListTablesQuery =
queryLower.indexOf("list") !== -1 ||
queryLower.indexOf("what tables") !== -1 ||
queryLower.indexOf("show tables") !== -1;
if (isListTablesQuery) {
return {
success: true,
connection: connectionName,
message: "Available tables in " + connectionName + "." + schemaName,
tables: tableNames
};
}
const tableList = tableNames.map(function(t) {
return connectionName + "." + schemaName + "." + t;
}).join(", ");
const systemMsg2 = "You are a SQL expert. Generate SQL for CData. Use format: connectionName.schemaName.TableName. Available tables: " + tableList + ". Return ONLY SQL. No markdown. No brackets.";
const sqlResponse = await completions.create({
model: "gpt-4o-mini",
messages: new Array(
{ role: "system", content: systemMsg2 },
{ role: "user", content: userQuery }
)
});
const sql = sqlResponse.choices.at(0).message.content.trim();
if (!sql) { return { error: "LLM returned empty SQL" }; }
const session4 = await initSession();
const queryResult = await callMCP(2, "queryData", {
query: sql,
connectionName: connectionName
}, session4);
if (queryResult.full) {
const content = queryResult.full.result && queryResult.full.result.content;
if (Array.isArray(content)) {
try {
const parsed = JSON.parse(content.at(0).text);
const results = parsed.results && parsed.results.at(0);
return {
sql: sql,
connection: connectionName,
data: (results && results.rows) || new Array(),
schema: (results && results.schema) || new Array(),
success: true
};
} catch (e) {
return { sql: sql, connection: connectionName, raw: content.at(0).text, success: true };
}
}
}
return { sql: sql, connection: connectionName, raw: queryResult.raw };
}
});
Note: When pasting into Pipedream, replace llmOutput.return_value.userQuery with steps.LLM.$return_value.userQuery as indicated in the comment on that line.
3.4 Configure the response step
- Add a Return HTTP Response step and name it Response
- Set Response Status Code to 200
- Set Response Body to {{steps.mcp.$return_value}}
- Add the following Response Headers by clicking Response Headers then :
| Key | Value |
|---|---|
| Access-Control-Allow-Origin | * |
| Access-Control-Allow-Methods | POST, OPTIONS |
| Access-Control-Allow-Headers | Content-Type |
Step 4: Test the flow and interact with JSON data
Set a test event on the trigger:
- Click the trigger step in the workflow
- Click Generate Test Event
- Edit the event body and set it to:
{
"query": "list all tables"
}
Run the full workflow
- Click Test workflow at the bottom of the trigger step
- Pipedream will run all steps in sequence using the test event
- Watch each step turn green as it completes successfully
View results in each step
After the test run completes, click each step tab and check the Exports tab to inspect outputs:
| Step | What to look for in exports |
|---|---|
| trigger | body.query - confirms the query was received |
| LLM | userQuery - confirms the query was extracted |
| MCP | connection, sql, data, schema - confirms data was fetched |
| Response | $response.body - the final JSON response |
The Logs tab inside any step shows detailed outputs including the generated SQL, selected connection, and raw MCP responses.
Note: The Response step's Exports tab only shows a summary like { "success": true } with "status 200"; this confirms the workflow ran successfully but does not show the full data.
To see the complete output including data rows, SQL, and schema, click the MCP step tab and check the Exports tab. Expand $return_value to see the full response:
The workflow automatically:
- Discovers all CData connections
- Selects the most relevant connection for the question
- Discovers the schema and tables dynamically
- Generates and executes the appropriate SQL query
- Returns the results
How it works
The integration uses the following CData Connect AI MCP tools in sequence:
| MCP tool | Purpose |
|---|---|
| getCatalogs | Retrieves all available connections from CData Connect AI |
| getSchemas | Retrieves the database schemas for a specific connection |
| getTables | Retrieves all tables and views for a specific schema |
| queryData | Executes SQL queries and returns results |
The OpenAI LLM acts as the intelligent layer between the natural language question and the CData MCP tools, selecting the right connection, discovering the data structure, and generating accurate SQL queries automatically.
Build real-time, data-aware workflows with Pipedream and CData
Pipedream and CData Connect AI together enable intelligent, AI-driven workflows where natural language queries are automatically translated into live data operations across enterprise systems, without ETL pipelines, data sync jobs, or custom integration logic. This streamlined approach delivers stronger governance, lower operational overhead, and faster, more grounded responses from AI-powered workflows.
Start a free trial today to see how CData Connect AI can empower Pipedream with live, secure access to hundreds of external systems.