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remote-mcp-functions-python
2025-04-10
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Getting Started with Remote MCP Servers using Azure Functions (Python)
This is a quickstart template to easily build and deploy a custom remote MCP server to the cloud using Azure Functions with Python. You can clone/restore/run on your local machine with debugging, and azd up to have it in the cloud in a couple minutes. The MCP server is secured by design using keys and HTTPS, and allows more options for OAuth using built-in auth and/or API Management as well as network isolation using VNET.
If you're looking for this sample in more languages check out the .NET/C# and Node.js/TypeScript versions.
Below is the architecture diagram for the Remote MCP Server using Azure Functions:
Prerequisites
- Python version 3.11 or higher
- Azure Functions Core Tools
- Azure Developer CLI
- To use Visual Studio Code to run and debug locally:
Prepare your local environment
An Azure Storage Emulator is needed for this particular sample because we will save and get snippets from blob storage.
-
Start Azurite
docker run -p 10000:10000 -p 10001:10001 -p 10002:10002 \ mcr.microsoft.com/azure-storage/azurite
Note if you use Azurite coming from VS Code extension you need to run
Azurite: Startnow or you will see errors.
Run your MCP Server locally from the terminal
-
Change to the src folder in a new terminal window:
cd src -
Install Python dependencies:
pip install -r requirements.txt
Note it is a best practice to create a Virtual Environment before doing the
pip installto avoid dependency issues/collisions, or if you are running in CodeSpaces. See Python Environments in VS Code for more information.
-
Start the Functions host locally:
func start
Note by default this will use the webhooks route:
/runtime/webhooks/mcp/sse. Later we will use this in Azure to set the key on client/host calls:/runtime/webhooks/mcp/sse?code=<system_key>
Connect to the local MCP server from a client/host
VS Code - Copilot agent mode
-
Add MCP Server from command palette and add URL to your running Function app's SSE endpoint:
http://0.0.0.0:7071/runtime/webhooks/mcp/sse -
List MCP Servers from command palette and start the server
-
In Copilot chat agent mode enter a prompt to trigger the tool, e.g., select some code and enter this prompt
Say HelloSave this snippet as snippet1Retrieve snippet1 and apply to newFile.py -
When prompted to run the tool, consent by clicking Continue
-
When you're done, press Ctrl+C in the terminal window to stop the Functions host process.
MCP Inspector
-
In a new terminal window, install and run MCP Inspector
npx @modelcontextprotocol/inspector -
CTRL click to load the MCP Inspector web app from the URL displayed by the app (e.g. http://0.0.0.0:5173/#resources)
-
Set the transport type to
SSE -
Set the URL to your running Function app's SSE endpoint and Connect:
http://0.0.0.0:7071/runtime/webhooks/mcp/sse
Note this step will not work in CodeSpaces. Please move on to Deploy to Remote MCP.
- List Tools. Click on a tool and Run Tool.
Deploy to Azure for Remote MCP
Run this azd command to provision the function app, with any required Azure resources, and deploy your code:
azd up
You can opt-in to a VNet being used in the sample. To do so, do this before azd up
azd env set VNET_ENABLED true
Additionally, API Management can be used for improved security and policies over your MCP Server, and App Service built-in authentication can be used to set up your favorite OAuth provider including Entra.
Connect to your remote MCP server function app from a client
Your client will need a key in order to invoke the new hosted SSE endpoint, which will be of the form https://<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse. The hosted function requires a system key by default which can be obtained from the portal or the CLI (az functionapp keys list --resource-group <resource_group> --name <function_app_name>). Obtain the system key named mcp_extension.
Connect to remote MCP server in MCP Inspector
For MCP Inspector, you can include the key in the URL:
https://<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse?code=<your-mcp-extension-system-key>
Connect to remote MCP server in VS Code - GitHub Copilot
For GitHub Copilot within VS Code, you should instead set the key as the x-functions-key header in mcp.json, and you would just use https://<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse for the URL. The following example uses an input and will prompt you to provide the key when you start the server from VS Code. Note mcp.json has already been included in this repo and will be picked up by VS Code. Click Start on the server to be prompted for values including functionapp-name (in your /.azure/*/.env file) and functions-mcp-extension-system-key which can be obtained from CLI command above or API Keys in the portal for the Function App.
{
"inputs": [
{
"type": "promptString",
"id": "functions-mcp-extension-system-key",
"description": "Azure Functions MCP Extension System Key",
"password": true
},
{
"type": "promptString",
"id": "functionapp-name",
"description": "Azure Functions App Name"
}
],
"servers": {
"remote-mcp-function": {
"type": "sse",
"url": "https://${input:functionapp-name}.azurewebsites.net/runtime/webhooks/mcp/sse",
"headers": {
"x-functions-key": "${input:functions-mcp-extension-system-key}"
}
},
"local-mcp-function": {
"type": "sse",
"url": "http://0.0.0.0:7071/runtime/webhooks/mcp/sse"
}
}
}
For MCP Inspector, you can include the key in the URL: https://<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse?code=<your-mcp-extension-system-key>.
For GitHub Copilot within VS Code, you should instead set the key as the x-functions-key header in mcp.json, and you would just use https://<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse for the URL. The following example uses an input and will prompt you to provide the key when you start the server from VS Code:
{
"inputs": [
{
"type": "promptString",
"id": "functions-mcp-extension-system-key",
"description": "Azure Functions MCP Extension System Key",
"password": true
}
],
"servers": {
"my-mcp-server": {
"type": "sse",
"url": "<funcappname>.azurewebsites.net/runtime/webhooks/mcp/sse",
"headers": {
"x-functions-key": "${input:functions-mcp-extension-system-key}"
}
}
}
}
Redeploy your code
You can run the azd up command as many times as you need to both provision your Azure resources and deploy code updates to your function app.
[!NOTE] Deployed code files are always overwritten by the latest deployment package.
Clean up resources
When you're done working with your function app and related resources, you can use this command to delete the function app and its related resources from Azure and avoid incurring any further costs:
azd down
Helpful Azure Commands
Once your application is deployed, you can use these commands to manage and monitor your application:
# Get your function app name from the environment file
FUNCTION_APP_NAME=$(cat .azure/$(cat .azure/config.json | jq -r '.defaultEnvironment')/env.json | jq -r '.FUNCTION_APP_NAME')
echo $FUNCTION_APP_NAME
# Get resource group
RESOURCE_GROUP=$(cat .azure/$(cat .azure/config.json | jq -r '.defaultEnvironment')/env.json | jq -r '.AZURE_RESOURCE_GROUP')
echo $RESOURCE_GROUP
# View function app logs
az webapp log tail --name $FUNCTION_APP_NAME --resource-group $RESOURCE_GROUP
# Redeploy the application without provisioning new resources
azd deploy
Source Code
The function code for the get_snippet and save_snippet endpoints are defined in the Python files in the src directory. The MCP function annotations expose these functions as MCP Server tools.
Here's the actual code from the function_app.py file:
@app.generic_trigger(arg_name="context", type="mcpToolTrigger", toolName="hello",
description="Hello world.",
toolProperties="[]")
def hello_mcp(context) -> None:
"""
A simple function that returns a greeting message.
Args:
context: The trigger context (not used in this function).
Returns:
str: A greeting message.
"""
return "Hello I am MCPTool!"
@app.generic_trigger(
arg_name="context",
type="mcpToolTrigger",
toolName="getsnippet",
description="Retrieve a snippet by name.",
toolProperties=tool_properties_get_snippets_json
)
@app.generic_input_binding(
arg_name="file",
type="blob",
connection="AzureWebJobsStorage",
path=_BLOB_PATH
)
def get_snippet(file: func.InputStream, context) -> str:
"""
Retrieves a snippet by name from Azure Blob Storage.
Args:
file (func.InputStream): The input binding to read the snippet from Azure Blob Storage.
context: The trigger context containing the input arguments.
Returns:
str: The content of the snippet or an error message.
"""
snippet_content = file.read().decode("utf-8")
logging.info(f"Retrieved snippet: {snippet_content}")
return snippet_content
@app.generic_trigger(
arg_name="context",
type="mcpToolTrigger",
toolName="savesnippet",
description="Save a snippet with a name.",
toolProperties=tool_properties_save_snippets_json
)
@app.generic_output_binding(
arg_name="file",
type="blob",
connection="AzureWebJobsStorage",
path=_BLOB_PATH
)
def save_snippet(file: func.Out[str], context) -> str:
content = json.loads(context)
snippet_name_from_args = content["arguments"][_SNIPPET_NAME_PROPERTY_NAME]
snippet_content_from_args = content["arguments"][_SNIPPET_PROPERTY_NAME]
if not snippet_name_from_args:
return "No snippet name provided"
if not snippet_content_from_args:
return "No snippet content provided"
file.set(snippet_content_from_args)
logging.info(f"Saved snippet: {snippet_content_from_args}")
return f"Snippet '{snippet_content_from_args}' saved successfully"
Note that the host.json file also includes a reference to the experimental bundle, which is required for apps using this feature:
"extensionBundle": {
"id": "Microsoft.Azure.Functions.ExtensionBundle.Experimental",
"version": "[4.*, 5.0.0)"
}
Next Steps
- Add API Management to your MCP server (auth, gateway, policies, more!)
- Add built-in auth to your MCP server
- Enable VNET using VNET_ENABLED=true flag
- Learn more about related MCP efforts from Microsoft
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Reviews
1
(1)
user_AD3ALMpX
2025-04-17
I have been using the remote-mcp-functions-python sample by Azure-Samples, and it has significantly simplified my remote management tasks. The repository is well-documented and the example code is easy to follow, making it an excellent resource for integrating MCP functions with Python. Highly recommended for anyone looking to streamline their cloud operations.