If Spring Security is on the classpath then web applications will be secure by default
with ‘basic’ authentication on all HTTP endpoints. To add method-level security to a web
application you can also add @EnableGlobalMethodSecurity
with your desired settings.
Additional information can be found in the Spring
Security Reference.
The default AuthenticationManager
has a single user (‘user’ username and random
password, printed at INFO level when the application starts up)
Using default security password: 78fa095d-3f4c-48b1-ad50-e24c31d5cf35
Note | |
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If you fine tune your logging configuration, ensure that the
|
You can change the password by providing a security.user.password
. This and other useful
properties are externalized via
SecurityProperties
(properties prefix "security").
The default security configuration is implemented in SecurityAutoConfiguration
and in
the classes imported from there (SpringBootWebSecurityConfiguration
for web security
and AuthenticationManagerConfiguration
for authentication configuration which is also
relevant in non-web applications). To switch off the default web security configuration
completely you can add a bean with @EnableWebSecurity
(this does not disable the
authentication manager configuration). To customize
it you normally use external properties and beans of type WebSecurityConfigurerAdapter
(e.g. to add form-based login). To also switch off the authentication manager configuration
you can add a bean of type AuthenticationManager
, or else configure the
global AuthenticationManager
by autowiring an AuthenticationManagerBuilder
into
a method in one of your @Configuration
classes. There are several secure applications in the
Spring Boot samples to get you started with common
use cases.
The basic features you get out of the box in a web application are:
AuthenticationManager
bean with in-memory store and a single user (see
SecurityProperties.User
for the properties of the user)./css/**
, /js/**
,
/images/**
and **/favicon.ico
).ApplicationEventPublisher
(successful and
unsuccessful authentication and access denied).All of the above can be switched on and off or modified using external properties
(security.*
). To override the access rules without changing any other auto-configured
features add a @Bean
of type WebSecurityConfigurerAdapter
with
@Order(SecurityProperties.ACCESS_OVERRIDE_ORDER)
and configure it to meet your needs.
Note | |
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By default, a |
If you have spring-security-oauth2
on your classpath you can take advantage of some
auto-configuration to make it easy to set up Authorization or Resource Server.
To create an Authorization Server and grant access tokens you need to use
@EnableAuthorizationServer
and provide security.oauth2.client.client-id
and
security.oauth2.client.client-secret]
properties. The client will be registered for you
in an in-memory repository.
Having done that you will be able to use the client credentials to create an access token, for example:
$ curl client:secret@localhost:8080/oauth/token -d grant_type=password -d username=user -d password=pwd
The basic auth credentials for the /token
endpoint are the client-id
and
client-secret
. The user credentials are the normal Spring Security user details (which
default in Spring Boot to “user” and a random password).
To switch off the auto-configuration and configure the Authorization Server features
yourself just add a @Bean
of type AuthorizationServerConfigurer
.
To use the access token you need a Resource Server (which can be the same as the
Authorization Server). Creating a Resource Server is easy, just add
@EnableResourceServer
and provide some configuration to allow the server to decode
access tokens. If your application is also an Authorization Server it already knows how
to decode tokens, so there is nothing else to do. If your app is a standalone service then you
need to give it some more configuration, one of the following options:
security.oauth2.resource.user-info-uri
to use the /me
resource (e.g.
uaa.run.pivotal.io/userinfo
on PWS)security.oauth2.resource.token-info-uri
to use the token decoding endpoint (e.g.
uaa.run.pivotal.io/check_token
on PWS).If you specify both the user-info-uri
and the token-info-uri
then you can set a flag
to say that one is preferred over the other (prefer-token-info=true
is the default).
Alternatively (instead of user-info-uri
or token-info-uri
) if the tokens are JWTs you
can configure a security.oauth2.resource.jwt.key-value
to decode them locally (where the
key is a verification key). The verification key value is either a symmetric secret or
PEM-encoded RSA public key. If you don’t have the key and it’s public you can provide a
URI where it can be downloaded (as a JSON object with a “value” field) with
security.oauth2.resource.jwt.key-uri
. E.g. on PWS:
$ curl https://uaa.run.pivotal.io/token_key {"alg":"SHA256withRSA","value":"-----BEGIN PUBLIC KEY-----\nMIIBI...\n-----END PUBLIC KEY-----\n"}
Warning | |
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If you use the |
Google, and certain other 3rd party identity providers, are more strict about the token
type name that is sent in the headers to the user info endpoint. The default is “Bearer”
which suits most providers and matches the spec, but if you need to change it you can set
security.oauth2.resource.token-type
.
If you have a user-info-uri
, the resource server features use an OAuth2RestTemplate
internally to fetch user details for authentication. This is provided as a qualified
@Bean
with id userInfoRestTemplate
, but you shouldn’t need to know that to just
use it. The default should be fine for most providers, but occasionally you might need to
add additional interceptors, or change the request authenticator (which is how the token
gets attached to outgoing requests). To add a customization just create a bean of type
UserInfoRestTemplateCustomizer
- it has a single method that will be called after the
bean is created but before it is initialized. The rest template that is being customized
here is only used internally to carry out authentication.
Tip | |
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To set an RSA key value in YAML use the “pipe” continuation marker to split it over multiple lines (“|”) and remember to indent the key value (it’s a standard YAML language feature). Example: security: oauth2: resource: jwt: keyValue: | -----BEGIN PUBLIC KEY----- MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKC... -----END PUBLIC KEY----- |
To make your webapp into an OAuth2 client you can simply add @EnableOAuth2Client
and
Spring Boot will create an OAuth2RestTemplate
for you to @Autowire
. It uses the
security.oauth2.client.*
as credentials (the same as you might be using in the
Authorization Server), but in addition it will need to know the authorization and token
URIs in the Authorization Server. For example:
application.yml.
security: oauth2: client: clientId: bd1c0a783ccdd1c9b9e4 clientSecret: 1a9030fbca47a5b2c28e92f19050bb77824b5ad1 accessTokenUri: https://github.com/login/oauth/access_token userAuthorizationUri: https://github.com/login/oauth/authorize clientAuthenticationScheme: form
An application with this configuration will redirect to Github for authorization when you
attempt to use the OAuth2RestTemplate
. If you are already signed into Github you won’t
even notice that it has authenticated. These specific credentials will only work if your
application is running on port 8080 (register your own client app in Github or other
provider for more flexibility).
To limit the scope that the client asks for when it obtains an access token you can set
security.oauth2.client.scope
(comma separated or an array in YAML). By default the scope
is empty and it is up to Authorization Server to decide what the defaults should be,
usually depending on the settings in the client registration that it holds.
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There is also a setting for |
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In a non-web application you can still |
An OAuth2 Client can be used to fetch user details from the provider (if such features are
available) and then convert them into an Authentication
token for Spring Security.
The Resource Server above support this via the user-info-uri
property This is the basis
for a Single Sign On (SSO) protocol based on OAuth2, and Spring Boot makes it easy to
participate by providing an annotation @EnableOAuth2Sso
. The Github client above can
protect all its resources and authenticate using the Github /user/
endpoint, by adding
that annotation and declaring where to find the endpoint (in addition to the
security.oauth2.client.*
configuration already listed above):
application.yml.
security: oauth2: ... resource: userInfoUri: https://api.github.com/user preferTokenInfo: false
Since all paths are secure by default, there is no “home” page that you can show to
unauthenticated users and invite them to login (by visiting the /login
path, or the
path specified by security.oauth2.sso.login-path
).
To customize the access rules or paths to protect, so you can add a “home” page for
instance, @EnableOAuth2Sso
can be added to a WebSecurityConfigurerAdapter
and the
annotation will cause it to be decorated and enhanced with the necessary pieces to get
the /login
path working. For example, here we simply allow unauthenticated access
to the home page at "/" and keep the default for everything else:
@Configuration public class WebSecurityConfiguration extends WebSecurityConfigurerAdapter { @Override public void init(WebSecurity web) { web.ignore("/"); } @Override protected void configure(HttpSecurity http) throws Exception { http.antMatcher("/**").authorizeRequests().anyRequest().authenticated(); } }
If the Actuator is also in use, you will find:
AuditEvents
and published to the AuditService
.ADMIN
role as well as the USER
role.The Actuator security features can be modified using external properties
(management.security.*
). To override the application access rules
add a @Bean
of type WebSecurityConfigurerAdapter
and use
@Order(SecurityProperties.ACCESS_OVERRIDE_ORDER)
if you don’t want to override
the actuator access rules, or @Order(ManagementServerProperties.ACCESS_OVERRIDE_ORDER)
if you do want to override the actuator access rules.