Azure Application Gateway features
Azure Application Gateway is a web traffic load balancer that enables you to manage traffic to your web applications.
Note
For web workloads, we highly recommend utilizing Azure DDoS protection and a web application firewall to safeguard against emerging DDoS attacks. Another option is to employ Azure Front Door along with a web application firewall. Azure Front Door offers platform-level protection against network-level DDoS attacks. For more information, see security baseline for Azure services.
Application Gateway includes the following features:
Secure Sockets Layer (SSL/TLS) termination
Application gateway supports SSL/TLS termination at the gateway, after which traffic typically flows unencrypted to the backend servers. This feature allows web servers to be unburdened from costly encryption and decryption overhead. But sometimes unencrypted communication to the servers isn't an acceptable option. This can be because of security requirements, compliance requirements, or the application may only accept a secure connection. For these applications, application gateway supports end to end SSL/TLS encryption.
For more information, see Overview of SSL termination and end to end SSL with Application Gateway
Autoscaling
Application Gateway Standard_v2 supports autoscaling and can scale up or down based on changing traffic load patterns. Autoscaling also removes the requirement to choose a deployment size or instance count during provisioning.
For more information about the Application Gateway Standard_v2 features, see What is Azure Application Gateway v2.
Zone redundancy
A Standard_v2 Application Gateway can span multiple Availability Zones, offering better fault resiliency and removing the need to provision separate Application Gateways in each zone.
Static VIP
The application gateway Standard_v2 SKU supports static VIP type exclusively. This ensures that the VIP associated with application gateway doesn't change even over the lifetime of the Application Gateway.
Web Application Firewall
Web Application Firewall (WAF) is a service that provides centralized protection of your web applications from common exploits and vulnerabilities. WAF is based on rules from the OWASP (Open Web Application Security Project) core rule sets 3.1 (WAF_v2 only), 3.0, and 2.2.9.
Web applications are increasingly targets of malicious attacks that exploit common known vulnerabilities. Common among these exploits are SQL injection attacks, cross site scripting attacks to name a few. Preventing such attacks in application code can be challenging and may require rigorous maintenance, patching and monitoring at many layers of the application topology. A centralized web application firewall helps make security management much simpler and gives better assurance to application administrators against threats or intrusions. A WAF solution can also react to a security threat faster by patching a known vulnerability at a central location versus securing each of individual web applications. Existing application gateways can be converted to a Web Application Firewall enabled application gateway easily.
Refer to Application DDoS protection for guidance on how to use Azure WAF with Application Gateway to protect against DDoS attacks. For more information, see What is Azure Web Application Firewall.
Ingress Controller for AKS
Application Gateway Ingress Controller (AGIC) allows you to use Application Gateway as the ingress for an Azure Kubernetes Service (AKS) cluster.
The ingress controller runs as a pod within the AKS cluster and consumes Kubernetes Ingress Resources and converts them to an Application Gateway configuration, which allows the gateway to load-balance traffic to the Kubernetes pods. The ingress controller only supports Application Gateway Standard_v2 and WAF_v2 SKUs.
For more information, see Application Gateway Ingress Controller (AGIC).
URL-based routing
URL Path Based Routing allows you to route traffic to backend server pools based on URL Paths of the request. One of the scenarios is to route requests for different content types to different pool.
For example, requests for http://contoso.com/video/*
are routed to VideoServerPool, and http://contoso.com/images/*
are routed to ImageServerPool. DefaultServerPool is selected if none of the path patterns match.
For more information, see URL Path Based Routing overview.
Multiple-site hosting
With Application Gateway, you can configure routing based on host name or domain name for more than one web application on the same application gateway. It allows you to configure a more efficient topology for your deployments by adding up to 100+ websites to one application gateway. Each website can be directed to its own backend pool. For example, three domains, contoso.com, fabrikam.com, and adatum.com, point to the IP address of the application gateway. You'd create three multi-site listeners and configure each listener for the respective port and protocol setting.
Requests for http://contoso.com
are routed to ContosoServerPool, http://fabrikam.com
are routed to FabrikamServerPool, and so on.
Similarly, two subdomains of the same parent domain can be hosted on the same application gateway deployment. Examples of using subdomains could include http://blog.contoso.com
and http://app.contoso.com
hosted on a single application gateway deployment. For more information, see Application Gateway multiple site hosting.
You can also define wildcard host names in a multi-site listener and up to 5 host names per listener. To learn more, see wildcard host names in listener.
Redirection
A common scenario for many web applications is to support automatic HTTP to HTTPS redirection to ensure all communication between an application and its users occurs over an encrypted path.
In the past, you may have used techniques such as dedicated pool creation whose sole purpose is to redirect requests it receives on HTTP to HTTPS. Application gateway supports the ability to redirect traffic on the Application Gateway. This simplifies application configuration, optimizes the resource usage, and supports new redirection scenarios, including global and path-based redirection. Application Gateway redirection support isn't limited to HTTP to HTTPS redirection alone. This is a generic redirection mechanism, so you can redirect from and to any port you define using rules. It also supports redirection to an external site as well.
Application Gateway redirection support offers the following capabilities:
- Global redirection from one port to another port on the Gateway. This enables HTTP to HTTPS redirection on a site.
- Path-based redirection. This type of redirection enables HTTP to HTTPS redirection only on a specific site area, for example a shopping cart area denoted by
/cart/*
. - Redirect to an external site.
For more information, see Application Gateway redirect overview.
Session affinity
The cookie-based session affinity feature is useful when you want to keep a user session on the same server. Using gateway-managed cookies, the Application Gateway can direct subsequent traffic from a user session to the same server for processing. This is important in cases where session state is saved locally on the server for a user session.
For more information, see How an application gateway works.
WebSocket and HTTP/2 traffic
Application Gateway provides native support for the WebSocket and HTTP/2 protocols. There's no user-configurable setting to selectively enable or disable WebSocket support.
The WebSocket and HTTP/2 protocols enable full duplex communication between a server and a client over a long running TCP connection. This allows for a more interactive communication between the web server and the client, which can be bidirectional without the need for polling as required in HTTP-based implementations. These protocols have low overhead, unlike HTTP, and can reuse the same TCP connection for multiple request/responses resulting in a more efficient resource utilization. These protocols are designed to work over traditional HTTP ports of 80 and 443.
For more information, see WebSocket support and HTTP/2 support.
Connection draining
Connection draining helps you achieve graceful removal of backend pool members during planned service updates or problems with backend health. This setting is enabled via the Backend Setting and is applied to all backend pool members during rule creation. Once enabled, the application gateway ensures all deregistering instances of a backend pool don't receive any new requests while allowing existing requests to complete within a configured time limit. It applies to cases where backend instances are:
- explicitly removed from the backend pool after a configuration change by a user, or
- reported as unhealthy by the health probes
The only exception is when requests continue to be proxied to the deregistering instances because of gateway-managed session affinity.
The connection draining is honored for WebSocket connections as well. Connection draining is invoked for every single update to the gateway. To prevent connection loss to existing members of the backend pool, make sure to enable connection draining.
For information on time limits, see Backend Settings configuration.
Custom error pages
Application Gateway allows you to create custom error pages instead of displaying default error pages. You can use your own branding and layout using a custom error page.
For more information, see Custom Errors.
Rewrite HTTP headers and URL
HTTP headers allow the client and server to pass additional information with the request or the response. Rewriting these HTTP headers helps you accomplish several important scenarios, such as:
- Adding security-related header fields like HSTS/ X-XSS-Protection.
- Removing response header fields that can reveal sensitive information.
- Stripping port information from X-Forwarded-For headers.
Application Gateway and WAF v2 SKU supports the capability to add, remove, or update HTTP request and response headers, while the request and response packets move between the client and backend pools. You can also rewrite URLs, query string parameters and host name. With URL rewrite and URL path-based routing, you can choose to either route requests to one of the backend pools based on the original path or the rewritten path, using the reevaluate path map option.
It also provides you with the capability to add conditions to ensure the specified headers or URL are rewritten only when certain conditions are met. These conditions are based on the request and response information.
For more information, see Rewrite HTTP headers and URL.
Sizing
Application Gateway Standard_v2 can be configured for autoscaling or fixed size deployments. The v2 SKU doesn't offer different instance sizes. For more information on v2 performance and pricing, see Autoscaling V2 and Understanding pricing.
The Application Gateway Standard (v1) is offered in three sizes: Small, Medium, and Large. Small instance sizes are intended for development and testing scenarios.
For a complete list of application gateway limits, see Application Gateway service limits.
The following table shows an average performance throughput for each application gateway v1 instance with SSL offload enabled:
Average backend page response size | Small | Medium | Large |
---|---|---|---|
6 KB | 7.5 Mbps | 13 Mbps | 50 Mbps |
100 KB | 35 Mbps | 100 Mbps | 200 Mbps |
Note
These values are approximate values for an application gateway throughput. The actual throughput depends on various environment details, such as average page size, location of backend instances, and processing time to serve a page. For exact performance numbers, you should run your own tests. These values are only provided for capacity planning guidance.
Version feature comparison
For an Application Gateway v1-v2 feature comparison, see What is Azure Application Gateway v2.