Quickstart: Create and deploy functions to Azure Functions using the Azure Developer CLI
In this Quickstart, you use Azure Developer command-line tools to create functions that respond to HTTP requests. After testing the code locally, you deploy it to a new serverless function app you create running in a Flex Consumption plan in Azure Functions.
The project source uses the Azure Developer CLI (azd) to simplify deploying your code to Azure. This deployment follows current best practices for secure and scalable Azure Functions deployments.
By default, the Flex Consumption plan follows a pay-for-what-you-use billing model, which means to complete this quickstart incurs a small cost of a few USD cents or less in your Azure account.
Prerequisites
An Azure account with an active subscription. Create an account for free.
- Java 17 Developer Kit
- If you use another supported version of Java, you must update the project's pom.xml file.
- The
JAVA_HOME
environment variable must be set to the install location of the correct version of the JDK.
- Apache Maven 3.8.x
- A secure HTTP test tool for sending requests with JSON payloads to your function endpoints. This article uses
curl
.
Initialize the project
You can use the azd init
command to create a local Azure Functions code project from a template.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template functions-quickstart-dotnet-azd -e flexquickstart-dotnet
This command pulls the project files from the template repository and initializes the project in the current folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Run this command to navigate to the
http
app folder:cd http
Create a file named local.settings.json in the
http
folder that contains this JSON data:{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "dotnet-isolated" } }
This file is required when running locally.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template azure-functions-java-flex-consumption-azd -e flexquickstart-java
This command pulls the project files from the template repository and initializes the project in the current folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Run this command to navigate to the
http
app folder:cd http
Create a file named local.settings.json in the
http
folder that contains this JSON data:{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "java" } }
This file is required when running locally.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template functions-quickstart-javascript-azd -e flexquickstart-js
This command pulls the project files from the template repository and initializes the project in the root folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Create a file named local.settings.json in the root folder that contains this JSON data:
{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "node" } }
This file is required when running locally.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template functions-quickstart-powershell-azd -e flexquickstart-ps
This command pulls the project files from the template repository and initializes the project in the root folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Run this command to navigate to the
src
app folder:cd src
Create a file named local.settings.json in the
src
folder that contains this JSON data:{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "powershell", "FUNCTIONS_WORKER_RUNTIME_VERSION": "7.2" } }
This file is required when running locally.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template functions-quickstart-typescript-azd -e flexquickstart-ts
This command pulls the project files from the template repository and initializes the project in the root folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Create a file named local.settings.json in the root folder that contains this JSON data:
{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "node" } }
This file is required when running locally.
In your local terminal or command prompt, run this
azd init
command in an empty folder:azd init --template functions-quickstart-python-http-azd -e flexquickstart-py
This command pulls the project files from the template repository and initializes the project in the root folder. The
-e
flag sets a name for the current environment. Inazd
, the environment is used to maintain a unique deployment context for your app, and you can define more than one. It's also used in the name of the resource group you create in Azure.Create a file named local.settings.json in the root folder that contains this JSON data:
{ "IsEncrypted": false, "Values": { "AzureWebJobsStorage": "UseDevelopmentStorage=true", "FUNCTIONS_WORKER_RUNTIME": "python" } }
This file is required when running locally.
Create and activate a virtual environment
In the root folder, run these commands to create and activate a virtual environment named .venv
:
python3 -m venv .venv
source .venv/bin/activate
If Python didn't install the venv package on your Linux distribution, run the following command:
sudo apt-get install python3-venv
Run in your local environment
Run this command from your app folder in a terminal or command prompt:
func start
mvn clean package mvn azure-functions:run
npm install func start
npm install npm start
When the Functions host starts in your local project folder, it writes the URL endpoints of your HTTP triggered functions to the terminal output.
In your browser, navigate to the
httpget
endpoint, which should look like this URL:From a new terminal or command prompt window, run this
curl
command to send a POST request with a JSON payload to thehttppost
endpoint:curl -i http://localhost:7071/api/httppost -H "Content-Type: text/json" -d @testdata.json
curl -i http://localhost:7071/api/httppost -H "Content-Type: text/json" -d "@src/functions/testdata.json"
This command reads JSON payload data from the
testdata.json
project file. You can find examples of both HTTP requests in thetest.http
project file.When you're done, press Ctrl+C in the terminal window to stop the
func.exe
host process.
- Run
deactivate
to shut down the virtual environment.
Review the code (optional)
You can review the code that defines the two HTTP trigger function endpoints:
[Function("httpget")]
public IActionResult Run([HttpTrigger(AuthorizationLevel.Function, "get")]
HttpRequest req,
string name)
{
var returnValue = string.IsNullOrEmpty(name)
? "Hello, World."
: $"Hello, {name}.";
_logger.LogInformation($"C# HTTP trigger function processed a request for {returnValue}.");
return new OkObjectResult(returnValue);
}
@FunctionName("httpget")
public HttpResponseMessage run(
@HttpTrigger(
name = "req",
methods = {HttpMethod.GET},
authLevel = AuthorizationLevel.FUNCTION)
HttpRequestMessage<Optional<String>> request,
final ExecutionContext context) {
context.getLogger().info("Java HTTP trigger processed a request.");
// Parse query parameter
String name = Optional.ofNullable(request.getQueryParameters().get("name")).orElse("World");
return request.createResponseBuilder(HttpStatus.OK).body("Hello, " + name).build();
}
const { app } = require('@azure/functions');
app.http('httpget', {
methods: ['GET'],
authLevel: 'function',
handler: async (request, context) => {
context.log(`Http function processed request for url "${request.url}"`);
const name = request.query.get('name') || await request.text() || 'world';
return { body: `Hello, ${name}!` };
}
});
import { app, HttpRequest, HttpResponseInit, InvocationContext } from "@azure/functions";
export async function httpGetFunction(request: HttpRequest, context: InvocationContext): Promise<HttpResponseInit> {
context.log(`Http function processed request for url "${request.url}"`);
const name = request.query.get('name') || await request.text() || 'world';
return { body: `Hello, ${name}!` };
};
app.http('httpget', {
methods: ['GET'],
authLevel: 'function',
handler: httpGetFunction
});
This function.json
file defines the httpget
function:
{
"bindings": [
{
"authLevel": "function",
"type": "httpTrigger",
"direction": "in",
"name": "Request",
"methods": [
"get"
],
"route": "httpget"
},
{
"type": "http",
"direction": "out",
"name": "Response"
}
]
}
This run.ps1
file implements the function code:
using namespace System.Net
# Input bindings are passed in via param block.
param($Request, $TriggerMetadata)
# Write to the Azure Functions log stream.
Write-Host "PowerShell HTTP trigger function processed a request."
# Interact with query parameters
$name = $Request.Query.name
$body = "This HTTP triggered function executed successfully. Pass a name in the query string for a personalized response."
if ($name) {
$body = "Hello, $name. This HTTP triggered function executed successfully."
}
# Associate values to output bindings by calling 'Push-OutputBinding'.
Push-OutputBinding -Name Response -Value ([HttpResponseContext]@{
StatusCode = [HttpStatusCode]::OK
Body = $body
})
@app.route(route="httpget", methods=["GET"])
def http_get(req: func.HttpRequest) -> func.HttpResponse:
name = req.params.get("name", "World")
logging.info(f"Processing GET request. Name: {name}")
return func.HttpResponse(f"Hello, {name}!")
You can review the complete template project here.
You can review the complete template project here.
You can review the complete template project here.
You can review the complete template project here.
You can review the complete template project here.
You can review the complete template project here.
After you verify your functions locally, it's time to publish them to Azure.
Create Azure resources
This project is configured to use the azd provision
command to create a function app in a Flex Consumption plan, along with other required Azure resources.
Note
This project includes a set of Bicep files that azd
uses to create a secure deployment to a Flex consumption plan that follows best practices.
The azd up
and azd deploy
commands aren't currently supported for Java apps.
In the root folder of the project, run this command to create the required Azure resources:
azd provision
The root folder contains the
azure.yaml
definition file required byazd
.If you aren't already signed-in, you're asked to authenticate with your Azure account.
When prompted, provide these required deployment parameters:
Parameter Description Azure subscription Subscription in which your resources are created. Azure location Azure region in which to create the resource group that contains the new Azure resources. Only regions that currently support the Flex Consumption plan are shown. The
azd provision
command uses your response to these prompts with the Bicep configuration files to create and configure these required Azure resources:- Flex Consumption plan and function app
- Azure Storage (required) and Application Insights (recommended)
- Access policies and roles for your account
- Service-to-service connections using managed identities (instead of stored connection strings)
- Virtual network to securely run both the function app and the other Azure resources
After the command completes successfully, you can deploy your project code to this new function app in Azure.
Deploy to Azure
You can use Core Tools to package your code and deploy it to Azure from the target
output folder.
Navigate to the app folder equivalent in the
target
output folder:cd http/target/azure-functions/contoso-functions
This folder should have a host.json file, which indicates that it's the root of your compiled Java function app.
Run these commands to deploy your compiled Java code project to the new function app resource in Azure using Core Tools:
The
azd env get-value
command gets your function app name from the local environment, which is required for deployment usingfunc azure functionapp publish
. After publishing completes successfully, you see links to the HTTP trigger endpoints in Azure.
Deploy to Azure
This project is configured to use the azd up
command to deploy this project to a new function app in a Flex Consumption plan in Azure.
Tip
This project includes a set of Bicep files that azd
uses to create a secure deployment to a Flex consumption plan that follows best practices.
Run this command to have
azd
create the required Azure resources in Azure and deploy your code project to the new function app:azd up
The root folder contains the
azure.yaml
definition file required byazd
.If you aren't already signed-in, you're asked to authenticate with your Azure account.
When prompted, provide these required deployment parameters:
Parameter Description Azure subscription Subscription in which your resources are created. Azure location Azure region in which to create the resource group that contains the new Azure resources. Only regions that currently support the Flex Consumption plan are shown. The
azd up
command uses your response to these prompts with the Bicep configuration files to complete these deployment tasks:Create and configure these required Azure resources (equivalent to
azd provision
):- Flex Consumption plan and function app
- Azure Storage (required) and Application Insights (recommended)
- Access policies and roles for your account
- Service-to-service connections using managed identities (instead of stored connection strings)
- Virtual network to securely run both the function app and the other Azure resources
Package and deploy your code to the deployment container (equivalent to
azd deploy
). The app is then started and runs in the deployed package.
After the command completes successfully, you see links to the resources you created.
Invoke the function on Azure
You can now invoke your function endpoints in Azure by making HTTP requests to their URLs using your HTTP test tool or from the browser (for GET requests). When your functions run in Azure, access key authorization is enforced, and you must provide a function access key with your request.
You can use the Core Tools to obtain the URL endpoints of your functions running in Azure.
In your local terminal or command prompt, run these commands to get the URL endpoint values:
$APP_NAME = azd env get-value AZURE_FUNCTION_NAME func azure functionapp list-functions $APP_NAME --show-keys
The
azd env get-value
command gets your function app name from the local environment. Using the--show-keys
option withfunc azure functionapp list-functions
means that the returned Invoke URL: value for each endpoint includes a function-level access key.As before, use your HTTP test tool to validate these URLs in your function app running in Azure.
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.
Your initial responses to azd
prompts and any environment variables generated by azd
are stored locally in your named environment. Use the azd env get-values
command to review all of the variables in your environment that were used when creating Azure resources.
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 --no-prompt
Note
The --no-prompt
option instructs azd
to delete your resource group without a confirmation from you.
This command doesn't affect your local code project.