Java Platform, Enterprise Edition (Java EE) 8
The Java EE Tutorial
Every enterprise that has either sensitive resources that can be accessed by many users or resources that traverse unprotected, open networks, such as the Internet, needs to be protected.
Enterprise tier and web tier applications are made up of components that are deployed into various containers. These components are combined to build a multitier enterprise application. Security for components is provided by their containers. A container provides two kinds of security: declarative and programmatic.
Declarative security expresses an application component’s security requirements by using either deployment descriptors or annotations.
A deployment descriptor is an XML file that is external to the application and that expresses an application’s security structure, including security roles, access control, and authentication requirements. For more information about deployment descriptors, read Using Deployment Descriptors for Declarative Security.
Annotations, also called metadata, are used to specify information about security within a class file. When the application is deployed, this information can be either used by or overridden by the application deployment descriptor. Annotations save you from having to write declarative information inside XML descriptors. Instead, you simply put annotations on the code, and the required information gets generated. For this tutorial, annotations are used for securing applications wherever possible. For more information about annotations, see Using Annotations to Specify Security Information.
Programmatic security is embedded in an application and is used to make security decisions. Programmatic security is useful when declarative security alone is not sufficient to express the security model of an application. For more information about programmatic security, read Using Programmatic Security.
Java EE 8 includes a Security API specification that defines portable, plug-in interfaces for authentication and identity stores, and a new injectable-type SecurityContext interface that provides an access point for programmatic security. You can use the built-in implementations of these APIs, or define custom implementations.
More information on these concepts and mechanismsMore information on these concepts and mechanisms can be found in the chapter on security in the Java EE 8 specification.
Other chapters in this Part discuss security requirements in web tier and enterprise tier applications, and the Java EE Security API.
Chapter 51, "Getting Started Securing Web Applications" explains how to add security to web components, such as servlets.
Chapter 52, "Getting Started Securing Enterprise Applications" explains how to add security to Java EE components, such as enterprise beans and application clients.
53 Using the Java EE Security API describes the authentication and credential validation funtionality provided by the Java EE security API, and provides examples.
The security behavior of a Java EE environment may be better understood by examining what happens in a simple application with a web client, a user interface, and enterprise bean business logic.
In the following example, which is taken from the Java EE Specification, the web client relies on the web server to act as its authentication proxy by collecting user authentication data from the client and using it to establish an authenticated session.
In the first step of this example, the web client requests the main application URL. This action is shown in Figure 50-1.
Since the client has not yet authenticated itself to the application environment, the server responsible for delivering the web portion of the application, hereafter referred to as the web server, detects this and invokes the appropriate authentication mechanism for this resource. For more information on these mechanisms, see Security Mechanisms.
The web server returns a form that the web client uses to collect authentication data, such as user name and password, from the user. The web client forwards the authentication data to the web server, where it is validated by the web server, as shown in Figure 50-2. The validation mechanism may be local to a server or may leverage the underlying security services. On the basis of the validation, the web server sets a credential for the user.
The credential is used for future determinations of whether the user is authorized to access restricted resources it may request. The web server consults the security policy associated with the web resource to determine the security roles that are permitted access to the resource. The security policy is derived from annotations or from the deployment descriptor. The web container then tests the user’s credential against each role to determine whether it can map the user to the role. Figure 50-3 shows this process.
The web server’s evaluation stops with an "is authorized" outcome when the web server is able to map the user to a role. A "not authorized" outcome is reached if the web server is unable to map the user to any of the permitted roles.
If the user is authorized, the web server returns the result of the original URL request, as shown in Figure 50-4.
In our example, the response URL of a web page is returned, enabling the user to post form data that needs to be handled by the business-logic component of the application. See Chapter 51, "Getting Started Securing Web Applications" for more information on protecting web applications.
The web page performs the remote method call to the enterprise bean, using the user’s credential to establish a secure association between the web page and the enterprise bean, as shown in Figure 50-5. The association is implemented as two related security contexts: one in the web server and one in the EJB container.
The EJB container is responsible for enforcing access control on the enterprise bean method. The container consults the security policy associated with the enterprise bean to determine the security roles that are permitted access to the method. The security policy is derived from annotations or from the deployment descriptor. For each role, the EJB container determines whether it can map the caller to the role by using the security context associated with the call.
The container’s evaluation stops with an "is authorized" outcome when the container is able to map the caller’s credential to a role. A "not authorized" outcome is reached if the container is unable to map the caller to any of the permitted roles. A "not authorized" result causes an exception to be thrown by the container and propagated back to the calling web page.
If the call is authorized, the container dispatches control to the enterprise bean method. The result of the bean’s execution of the call is returned to the web page and ultimately to the user by the web server and the web client.
A properly implemented security mechanism will provide the following functionality:
Prevent unauthorized access to application functions and business or personal data (authentication)
Hold system users accountable for operations they perform (non-repudiation)
Protect a system from service interruptions and other breaches that affect quality of service
Ideally, properly implemented security mechanisms will also be
Easy to administer
Transparent to system users
Interoperable across application and enterprise boundaries
Java EE applications consist of components that can contain both protected and unprotected resources. Often, you need to protect resources to ensure that only authorized users have access. Authorization provides controlled access to protected resources. Authorization is based on identification and authentication. Identification is a process that enables recognition of an entity by a system, and authentication is a process that verifies the identity of a user, device, or other entity in a computer system, usually as a prerequisite to allowing access to resources in a system.
Authorization and authentication are not required for an entity to access unprotected resources. Accessing a resource without authentication is referred to as unauthenticated, or anonymous, access.
The characteristics of application security that, when properly addressed, help to minimize the security threats faced by an enterprise include the following.
Authentication: The means by which communicating entities, such as client and server, prove to each other that they are acting on behalf of specific identities that are authorized for access. This ensures that users are who they say they are.
Authorization, or access control: The means by which interactions with resources are limited to collections of users or programs for the purpose of enforcing integrity, confidentiality, or availability constraints. This ensures that users have permission to perform operations or access data.
Data integrity: The means used to prove that information has not been modified by a third party, an entity other than the source of the information. For example, a recipient of data sent over an open network must be able to detect and discard messages that were modified after they were sent. This ensures that only authorized users can modify data.
Confidentiality, or data privacy: The means used to ensure that information is made available only to users who are authorized to access it. This ensures that only authorized users can view sensitive data.
Non-repudiation: The means used to prove that a user who performed some action cannot reasonably deny having done so. This ensures that transactions can be proved to have happened.
Quality of Service: The means used to provide better service to selected network traffic over various technologies.
Auditing: The means used to capture a tamper-resistant record of security-related events for the purpose of being able to evaluate the effectiveness of security policies and mechanisms. To enable this, the system maintains a record of transactions and security information.