Spring Security has its own taglib which provides basic support for accessing security information and applying security constraints in JSPs.
To use any of the tags, you must have the security taglib declared in your JSP:
<%@ taglib prefix="sec" uri="http://www.springframework.org/security/tags" %>
This tag is used to determine whether its contents should be evaluated or not. In Spring Security 3.0, it can be used in two ways [21]. The first approach uses a web-security expression, specified in the access
attribute of the tag. The expression evaluation will be delegated to the SecurityExpressionHandler<FilterInvocation>
defined in the application context (you should have web expressions enabled in your <http>
namespace configuration to make sure this service is available). So, for example, you might have
<sec:authorize access="hasRole('supervisor')"> This content will only be visible to users who have the "supervisor" authority in their list of <tt>GrantedAuthority</tt>s. </sec:authorize>
When used in conjuction with Spring Security’s PermissionEvaluator, the tag can also be used to check permissions. For example:
<sec:authorize access="hasPermission(#domain,'read') or hasPermission(#domain,'write')"> This content will only be visible to users who have read or write permission to the Object found as a request attribute named "domain". </sec:authorize>
A common requirement is to only show a particular link, if the user is actually allowed to click it. How can we determine in advance whether something will be allowed? This tag can also operate in an alternative mode which allows you to define a particular URL as an attribute. If the user is allowed to invoke that URL, then the tag body will be evaluated, otherwise it will be skipped. So you might have something like
<sec:authorize url="/admin"> This content will only be visible to users who are authorized to send requests to the "/admin" URL. </sec:authorize>
To use this tag there must also be an instance of WebInvocationPrivilegeEvaluator
in your application context. If you are using the namespace, one will automatically be registered. This is an instance of DefaultWebInvocationPrivilegeEvaluator
, which creates a dummy web request for the supplied URL and invokes the security interceptor to see whether the request would succeed or fail. This allows you to delegate to the access-control setup you defined using intercept-url
declarations within the <http>
namespace configuration and saves having to duplicate the information (such as the required roles) within your JSPs. This approach can also be combined with a method
attribute, supplying the HTTP method, for a more specific match.
The Boolean result of evaluating the tag (whether it grants or denies access) can be stored in a page context scope variable by setting the var
attribute to the variable name, avoiding the need for duplicating and re-evaluating the condition at other points in the page.
Hiding a link in a page for unauthorized users doesn’t prevent them from accessing the URL. They could just type it into their browser directly, for example. As part of your testing process, you may want to reveal the hidden areas in order to check that links really are secured at the back end. If you set the system property spring.security.disableUISecurity
to true
, the authorize
tag will still run but will not hide its contents. By default it will also surround the content with <span class="securityHiddenUI">…</span>
tags. This allows you to display "hidden" content with a particular CSS style such as a different background colour. Try running the "tutorial" sample application with this property enabled, for example.
You can also set the properties spring.security.securedUIPrefix
and spring.security.securedUISuffix
if you want to change surrounding text from the default span
tags (or use empty strings to remove it completely).
This tag allows access to the current Authentication
object stored in the security context. It renders a property of the object directly in the JSP. So, for example, if the principal
property of the Authentication
is an instance of Spring Security’s UserDetails
object, then using <sec:authentication property="principal.username" />
will render the name of the current user.
Of course, it isn’t necessary to use JSP tags for this kind of thing and some people prefer to keep as little logic as possible in the view. You can access the Authentication
object in your MVC controller (by calling SecurityContextHolder.getContext().getAuthentication()
) and add the data directly to your model for rendering by the view.
This tag is only valid when used with Spring Security’s ACL module. It checks a comma-separated list of required permissions for a specified domain object. If the current user has all of those permissions, then the tag body will be evaluated. If they don’t, it will be skipped. An example might be
Caution | |
---|---|
In general this tag should be considered deprecated. Instead use the Section 30.2, “The authorize Tag”. |
<sec:accesscontrollist hasPermission="1,2" domainObject="${someObject}"> This will be shown if the user has all of the permissions represented by the values "1" or "2" on the given object. </sec:accesscontrollist>
The permissions are passed to the PermissionFactory
defined in the application context, converting them to ACL Permission
instances, so they may be any format which is supported by the factory - they don’t have to be integers, they could be strings like READ
or WRITE
. If no PermissionFactory
is found, an instance of DefaultPermissionFactory
will be used. The AclService
from the application context will be used to load the Acl
instance for the supplied object. The Acl
will be invoked with the required permissions to check if all of them are granted.
This tag also supports the var
attribute, in the same way as the authorize
tag.
If CSRF protection is enabled, this tag inserts a hidden form field with the correct name and value for the CSRF protection token. If CSRF protection is not enabled, this tag outputs nothing.
Normally Spring Security automatically inserts a CSRF form field for any <form:form>
tags you use, but if for some reason you cannot use <form:form>
, csrfInput
is a handy replacement.
You should place this tag within an HTML <form></form>
block, where you would normally place other input fields. Do NOT place this tag within a Spring <form:form></form:form>
block. Spring Security handles Spring forms automatically.
<form method="post" action="/do/something"> <sec:csrfInput /> Name:<br /> <input type="text" name="name" /> ... </form>
If CSRF protection is enabled, this tag inserts meta tags containing the CSRF protection token form field and header names and CSRF protection token value. These meta tags are useful for employing CSRF protection within JavaScript in your applications.
You should place csrfMetaTags
within an HTML <head></head>
block, where you would normally place other meta tags. Once you use this tag, you can access the form field name, header name, and token value easily using JavaScript. JQuery is used in this example to make the task easier.
<!DOCTYPE html> <html> <head> <title>CSRF Protected JavaScript Page</title> <meta name="description" content="This is the description for this page" /> <sec:csrfMetaTags /> <script type="text/javascript" language="javascript"> var csrfParameter = $("meta[name='_csrf_parameter']").attr("content"); var csrfHeader = $("meta[name='_csrf_header']").attr("content"); var csrfToken = $("meta[name='_csrf']").attr("content"); // using XMLHttpRequest directly to send an x-www-form-urlencoded request var ajax = new XMLHttpRequest(); ajax.open("POST", "https://www.example.org/do/something", true); ajax.setRequestHeader("Content-Type", "application/x-www-form-urlencoded data"); ajax.send(csrfParameter + "=" + csrfToken + "&name=John&..."); // using XMLHttpRequest directly to send a non-x-www-form-urlencoded request var ajax = new XMLHttpRequest(); ajax.open("POST", "https://www.example.org/do/something", true); ajax.setRequestHeader(csrfHeader, csrfToken); ajax.send("..."); // using JQuery to send an x-www-form-urlencoded request var data = {}; data[csrfParameter] = csrfToken; data["name"] = "John"; ... $.ajax({ url: "https://www.example.org/do/something", type: "POST", data: data, ... }); // using JQuery to send a non-x-www-form-urlencoded request var headers = {}; headers[csrfHeader] = csrfToken; $.ajax({ url: "https://www.example.org/do/something", type: "POST", headers: headers, ... }); <script> </head> <body> ... </body> </html>
If CSRF protection is not enabled, csrfMetaTags
outputs nothing.