This version is still in development and is not considered stable yet. For the latest stable version, please use Spring Security 6.4.1! |
Testing OAuth 2.0
When it comes to OAuth 2.0, the same principles covered earlier still apply: Ultimately, it depends on what your method under test is expecting to be in the SecurityContextHolder
.
Consider the following example of a controller:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(Principal user) {
return Mono.just(user.getName());
}
@GetMapping("/endpoint")
fun foo(user: Principal): Mono<String> {
return Mono.just(user.name)
}
Nothing about it is OAuth2-specific, so you can use @WithMockUser
and be fine.
However, consider a case where your controller is bound to some aspect of Spring Security’s OAuth 2.0 support:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@AuthenticationPrincipal OidcUser user) {
return Mono.just(user.getIdToken().getSubject());
}
@GetMapping("/endpoint")
fun foo(@AuthenticationPrincipal user: OidcUser): Mono<String> {
return Mono.just(user.idToken.subject)
}
In that case, Spring Security’s test support is handy.
Testing OIDC Login
Testing the method shown in the preceding section with WebTestClient
requires simulating some kind of grant flow with an authorization server.
This is a daunting task, which is why Spring Security ships with support for removing this boilerplate.
For example, we can tell Spring Security to include a default OidcUser
by using the SecurityMockServerConfigurers#oidcLogin
method:
-
Java
-
Kotlin
client
.mutateWith(mockOidcLogin()).get().uri("/endpoint").exchange();
client
.mutateWith(mockOidcLogin())
.get().uri("/endpoint")
.exchange()
That line configures the associated MockServerRequest
with an OidcUser
that includes a simple OidcIdToken
, an OidcUserInfo
, and a Collection
of granted authorities.
Specifically, it includes an OidcIdToken
with a sub
claim set to user
:
-
Java
-
Kotlin
assertThat(user.getIdToken().getClaim("sub")).isEqualTo("user");
assertThat(user.idToken.getClaim<String>("sub")).isEqualTo("user")
It also includes an OidcUserInfo
with no claims set:
-
Java
-
Kotlin
assertThat(user.getUserInfo().getClaims()).isEmpty();
assertThat(user.userInfo.claims).isEmpty()
It also includes a Collection
of authorities with just one authority, SCOPE_read
:
-
Java
-
Kotlin
assertThat(user.getAuthorities()).hasSize(1);
assertThat(user.getAuthorities()).containsExactly(new SimpleGrantedAuthority("SCOPE_read"));
assertThat(user.authorities).hasSize(1)
assertThat(user.authorities).containsExactly(SimpleGrantedAuthority("SCOPE_read"))
Spring Security makes sure that the OidcUser
instance is available forthe @AuthenticationPrincipal
annotation.
Further, it also links the OidcUser
to a simple instance of OAuth2AuthorizedClient
that it deposits into a mock ServerOAuth2AuthorizedClientRepository
.
This can be handy if your tests use the @RegisteredOAuth2AuthorizedClient
annotation..
Configuring Authorities
In many circumstances, your method is protected by filter or method security and needs your Authentication
to have certain granted authorities to allow the request.
In those cases, you can supply what granted authorities you need by using the authorities()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOidcLogin()
.authorities(new SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOidcLogin()
.authorities(SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange()
Configuring Claims
While granted authorities are common across all of Spring Security, we also have claims in the case of OAuth 2.0.
Suppose, for example, that you have a user_id
claim that indicates the user’s ID in your system.
You might access it as follows in a controller:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@AuthenticationPrincipal OidcUser oidcUser) {
String userId = oidcUser.getIdToken().getClaim("user_id");
// ...
}
@GetMapping("/endpoint")
fun foo(@AuthenticationPrincipal oidcUser: OidcUser): Mono<String> {
val userId = oidcUser.idToken.getClaim<String>("user_id")
// ...
}
In that case, you can specify that claim with the idToken()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOidcLogin()
.idToken(token -> token.claim("user_id", "1234"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOidcLogin()
.idToken { token -> token.claim("user_id", "1234") }
)
.get().uri("/endpoint").exchange()
That works because OidcUser
collects its claims from OidcIdToken
.
Additional Configurations
There are additional methods, too, for further configuring the authentication, depending on what data your controller expects:
-
userInfo(OidcUserInfo.Builder)
: Configures theOidcUserInfo
instance -
clientRegistration(ClientRegistration)
: Configures the associatedOAuth2AuthorizedClient
with a givenClientRegistration
-
oidcUser(OidcUser)
: Configures the completeOidcUser
instance
That last one is handy if you:
* Have your own implementation of OidcUser
or
* Need to change the name attribute
For example, suppose that your authorization server sends the principal name in the user_name
claim instead of the sub
claim.
In that case, you can configure an OidcUser
by hand:
-
Java
-
Kotlin
OidcUser oidcUser = new DefaultOidcUser(
AuthorityUtils.createAuthorityList("SCOPE_message:read"),
OidcIdToken.withTokenValue("id-token").claim("user_name", "foo_user").build(),
"user_name");
client
.mutateWith(mockOidcLogin().oidcUser(oidcUser))
.get().uri("/endpoint").exchange();
val oidcUser: OidcUser = DefaultOidcUser(
AuthorityUtils.createAuthorityList("SCOPE_message:read"),
OidcIdToken.withTokenValue("id-token").claim("user_name", "foo_user").build(),
"user_name"
)
client
.mutateWith(mockOidcLogin().oidcUser(oidcUser))
.get().uri("/endpoint").exchange()
Testing OAuth 2.0 Login
As with testing OIDC login, testing OAuth 2.0 Login presents a similar challenge: mocking a grant flow. Because of that, Spring Security also has test support for non-OIDC use cases.
Suppose that we have a controller that gets the logged-in user as an OAuth2User
:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@AuthenticationPrincipal OAuth2User oauth2User) {
return Mono.just(oauth2User.getAttribute("sub"));
}
@GetMapping("/endpoint")
fun foo(@AuthenticationPrincipal oauth2User: OAuth2User): Mono<String> {
return Mono.just(oauth2User.getAttribute("sub"))
}
In that case, we can tell Spring Security to include a default OAuth2User
by using the SecurityMockServerConfigurers#oauth2User
method:
-
Java
-
Kotlin
client
.mutateWith(mockOAuth2Login())
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOAuth2Login())
.get().uri("/endpoint").exchange()
The preceding example configures the associated MockServerRequest
with an OAuth2User
that includes a simple Map
of attributes and a Collection
of granted authorities.
Specifically, it includes a Map
with a key/value pair of sub
/user
:
-
Java
-
Kotlin
assertThat((String) user.getAttribute("sub")).isEqualTo("user");
assertThat(user.getAttribute<String>("sub")).isEqualTo("user")
It also includes a Collection
of authorities with just one authority, SCOPE_read
:
-
Java
-
Kotlin
assertThat(user.getAuthorities()).hasSize(1);
assertThat(user.getAuthorities()).containsExactly(new SimpleGrantedAuthority("SCOPE_read"));
assertThat(user.authorities).hasSize(1)
assertThat(user.authorities).containsExactly(SimpleGrantedAuthority("SCOPE_read"))
Spring Security does the necessary work to make sure that the OAuth2User
instance is available for the @AuthenticationPrincipal
annotation.
Further, it also links that OAuth2User
to a simple instance of OAuth2AuthorizedClient
that it deposits in a mock ServerOAuth2AuthorizedClientRepository
.
This can be handy if your tests use the @RegisteredOAuth2AuthorizedClient
annotation.
Configuring Authorities
In many circumstances, your method is protected by filter or method security and needs your Authentication
to have certain granted authorities to allow the request.
In this case, you can supply the granted authorities you need by using the authorities()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOAuth2Login()
.authorities(new SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOAuth2Login()
.authorities(SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange()
Configuring Claims
While granted authorities are quite common across all of Spring Security, we also have claims in the case of OAuth 2.0.
Suppose, for example, that you have a user_id
attribute that indicates the user’s ID in your system.
You might access it as follows in a controller:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@AuthenticationPrincipal OAuth2User oauth2User) {
String userId = oauth2User.getAttribute("user_id");
// ...
}
@GetMapping("/endpoint")
fun foo(@AuthenticationPrincipal oauth2User: OAuth2User): Mono<String> {
val userId = oauth2User.getAttribute<String>("user_id")
// ...
}
In that case, you can specify that attribute with the attributes()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOAuth2Login()
.attributes(attrs -> attrs.put("user_id", "1234"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOAuth2Login()
.attributes { attrs -> attrs["user_id"] = "1234" }
)
.get().uri("/endpoint").exchange()
Additional Configurations
There are additional methods, too, for further configuring the authentication, depending on what data your controller expects:
-
clientRegistration(ClientRegistration)
: Configures the associatedOAuth2AuthorizedClient
with a givenClientRegistration
-
oauth2User(OAuth2User)
: Configures the completeOAuth2User
instance
That last one is handy if you:
* Have your own implementation of OAuth2User
or
* Need to change the name attribute
For example, suppose that your authorization server sends the principal name in the user_name
claim instead of the sub
claim.
In that case, you can configure an OAuth2User
by hand:
-
Java
-
Kotlin
OAuth2User oauth2User = new DefaultOAuth2User(
AuthorityUtils.createAuthorityList("SCOPE_message:read"),
Collections.singletonMap("user_name", "foo_user"),
"user_name");
client
.mutateWith(mockOAuth2Login().oauth2User(oauth2User))
.get().uri("/endpoint").exchange();
val oauth2User: OAuth2User = DefaultOAuth2User(
AuthorityUtils.createAuthorityList("SCOPE_message:read"),
mapOf(Pair("user_name", "foo_user")),
"user_name"
)
client
.mutateWith(mockOAuth2Login().oauth2User(oauth2User))
.get().uri("/endpoint").exchange()
Testing OAuth 2.0 Clients
Independent of how your user authenticates, you may have other tokens and client registrations that are in play for the request you are testing. For example, your controller may rely on the client credentials grant to get a token that is not associated with the user at all:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@RegisteredOAuth2AuthorizedClient("my-app") OAuth2AuthorizedClient authorizedClient) {
return this.webClient.get()
.attributes(oauth2AuthorizedClient(authorizedClient))
.retrieve()
.bodyToMono(String.class);
}
import org.springframework.web.reactive.function.client.bodyToMono
// ...
@GetMapping("/endpoint")
fun foo(@RegisteredOAuth2AuthorizedClient("my-app") authorizedClient: OAuth2AuthorizedClient?): Mono<String> {
return this.webClient.get()
.attributes(oauth2AuthorizedClient(authorizedClient))
.retrieve()
.bodyToMono()
}
Simulating this handshake with the authorization server can be cumbersome.
Instead, you can use SecurityMockServerConfigurers#oauth2Client
to add a OAuth2AuthorizedClient
to a mock ServerOAuth2AuthorizedClientRepository
:
-
Java
-
Kotlin
client
.mutateWith(mockOAuth2Client("my-app"))
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOAuth2Client("my-app"))
.get().uri("/endpoint").exchange()
This creates an OAuth2AuthorizedClient
that has a simple ClientRegistration
, a OAuth2AccessToken
, and a resource owner name.
Specifically, it includes a ClientRegistration
with a client ID of test-client
and a client secret of test-secret
:
-
Java
-
Kotlin
assertThat(authorizedClient.getClientRegistration().getClientId()).isEqualTo("test-client");
assertThat(authorizedClient.getClientRegistration().getClientSecret()).isEqualTo("test-secret");
assertThat(authorizedClient.clientRegistration.clientId).isEqualTo("test-client")
assertThat(authorizedClient.clientRegistration.clientSecret).isEqualTo("test-secret")
It also includes a resource owner name of user
:
-
Java
-
Kotlin
assertThat(authorizedClient.getPrincipalName()).isEqualTo("user");
assertThat(authorizedClient.principalName).isEqualTo("user")
It also includes an OAuth2AccessToken
with one scope, read
:
-
Java
-
Kotlin
assertThat(authorizedClient.getAccessToken().getScopes()).hasSize(1);
assertThat(authorizedClient.getAccessToken().getScopes()).containsExactly("read");
assertThat(authorizedClient.accessToken.scopes).hasSize(1)
assertThat(authorizedClient.accessToken.scopes).containsExactly("read")
You can then retrieve the client as usual by using @RegisteredOAuth2AuthorizedClient
in a controller method.
Configuring Scopes
In many circumstances, the OAuth 2.0 access token comes with a set of scopes. Consider the following example of how a controller can inspect the scopes:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(@RegisteredOAuth2AuthorizedClient("my-app") OAuth2AuthorizedClient authorizedClient) {
Set<String> scopes = authorizedClient.getAccessToken().getScopes();
if (scopes.contains("message:read")) {
return this.webClient.get()
.attributes(oauth2AuthorizedClient(authorizedClient))
.retrieve()
.bodyToMono(String.class);
}
// ...
}
import org.springframework.web.reactive.function.client.bodyToMono
// ...
@GetMapping("/endpoint")
fun foo(@RegisteredOAuth2AuthorizedClient("my-app") authorizedClient: OAuth2AuthorizedClient): Mono<String> {
val scopes = authorizedClient.accessToken.scopes
if (scopes.contains("message:read")) {
return webClient.get()
.attributes(oauth2AuthorizedClient(authorizedClient))
.retrieve()
.bodyToMono()
}
// ...
}
Given a controller that inspects scopes, you can configure the scope by using the accessToken()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOAuth2Client("my-app")
.accessToken(new OAuth2AccessToken(BEARER, "token", null, null, Collections.singleton("message:read")))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOAuth2Client("my-app")
.accessToken(OAuth2AccessToken(BEARER, "token", null, null, setOf("message:read")))
)
.get().uri("/endpoint").exchange()
Additional Configurations
You can also use additional methods to further configure the authentication depending on what data your controller expects:
-
principalName(String)
; Configures the resource owner name -
clientRegistration(Consumer<ClientRegistration.Builder>)
: Configures the associatedClientRegistration
-
clientRegistration(ClientRegistration)
: Configures the completeClientRegistration
That last one is handy if you want to use a real ClientRegistration
For example, suppose that you want to use one of your application’s ClientRegistration
definitions, as specified in your application.yml
.
In that case, your test can autowire the ReactiveClientRegistrationRepository
and look up the one your test needs:
-
Java
-
Kotlin
@Autowired
ReactiveClientRegistrationRepository clientRegistrationRepository;
// ...
client
.mutateWith(mockOAuth2Client()
.clientRegistration(this.clientRegistrationRepository.findByRegistrationId("facebook").block())
)
.get().uri("/exchange").exchange();
@Autowired
lateinit var clientRegistrationRepository: ReactiveClientRegistrationRepository
// ...
client
.mutateWith(mockOAuth2Client()
.clientRegistration(this.clientRegistrationRepository.findByRegistrationId("facebook").block())
)
.get().uri("/exchange").exchange()
Testing JWT Authentication
To make an authorized request on a resource server, you need a bearer token. If your resource server is configured for JWTs, the bearer token needs to be signed and then encoded according to the JWT specification. All of this can be quite daunting, especially when this is not the focus of your test.
Fortunately, there are a number of simple ways in which you can overcome this difficulty and let your tests focus on authorization and not on representing bearer tokens. We look at two of them in the next two subsections.
mockJwt() WebTestClientConfigurer
The first way is with a WebTestClientConfigurer
.
The simplest of these would be to use the SecurityMockServerConfigurers#mockJwt
method like the following:
-
Java
-
Kotlin
client
.mutateWith(mockJwt()).get().uri("/endpoint").exchange();
client
.mutateWith(mockJwt()).get().uri("/endpoint").exchange()
This example creates a mock Jwt
and passes it through any authentication APIs so that it is available for your authorization mechanisms to verify.
By default, the JWT
that it creates has the following characteristics:
{
"headers" : { "alg" : "none" },
"claims" : {
"sub" : "user",
"scope" : "read"
}
}
The resulting Jwt
, were it tested, would pass in the following way:
-
Java
-
Kotlin
assertThat(jwt.getTokenValue()).isEqualTo("token");
assertThat(jwt.getHeaders().get("alg")).isEqualTo("none");
assertThat(jwt.getSubject()).isEqualTo("sub");
assertThat(jwt.tokenValue).isEqualTo("token")
assertThat(jwt.headers["alg"]).isEqualTo("none")
assertThat(jwt.subject).isEqualTo("sub")
Note that you configure these values.
You can also configure any headers or claims with their corresponding methods:
-
Java
-
Kotlin
client
.mutateWith(mockJwt().jwt(jwt -> jwt.header("kid", "one")
.claim("iss", "https://idp.example.org")))
.get().uri("/endpoint").exchange();
client
.mutateWith(mockJwt().jwt { jwt -> jwt.header("kid", "one")
.claim("iss", "https://idp.example.org")
})
.get().uri("/endpoint").exchange()
-
Java
-
Kotlin
client
.mutateWith(mockJwt().jwt(jwt -> jwt.claims(claims -> claims.remove("scope"))))
.get().uri("/endpoint").exchange();
client
.mutateWith(mockJwt().jwt { jwt ->
jwt.claims { claims -> claims.remove("scope") }
})
.get().uri("/endpoint").exchange()
The scope
and scp
claims are processed the same way here as they are in a normal bearer token request.
However, this can be overridden simply by providing the list of GrantedAuthority
instances that you need for your test:
-
Java
-
Kotlin
client
.mutateWith(mockJwt().authorities(new SimpleGrantedAuthority("SCOPE_messages")))
.get().uri("/endpoint").exchange();
client
.mutateWith(mockJwt().authorities(SimpleGrantedAuthority("SCOPE_messages")))
.get().uri("/endpoint").exchange()
Alternatively, if you have a custom Jwt
to Collection<GrantedAuthority>
converter, you can also use that to derive the authorities:
-
Java
-
Kotlin
client
.mutateWith(mockJwt().authorities(new MyConverter()))
.get().uri("/endpoint").exchange();
client
.mutateWith(mockJwt().authorities(MyConverter()))
.get().uri("/endpoint").exchange()
You can also specify a complete Jwt
, for which Jwt.Builder
is quite handy:
-
Java
-
Kotlin
Jwt jwt = Jwt.withTokenValue("token")
.header("alg", "none")
.claim("sub", "user")
.claim("scope", "read")
.build();
client
.mutateWith(mockJwt().jwt(jwt))
.get().uri("/endpoint").exchange();
val jwt: Jwt = Jwt.withTokenValue("token")
.header("alg", "none")
.claim("sub", "user")
.claim("scope", "read")
.build()
client
.mutateWith(mockJwt().jwt(jwt))
.get().uri("/endpoint").exchange()
authentication()
and WebTestClientConfigurer
The second way is by using the authentication()
Mutator
.
You can instantiate your own JwtAuthenticationToken
and provide it in your test:
-
Java
-
Kotlin
Jwt jwt = Jwt.withTokenValue("token")
.header("alg", "none")
.claim("sub", "user")
.build();
Collection<GrantedAuthority> authorities = AuthorityUtils.createAuthorityList("SCOPE_read");
JwtAuthenticationToken token = new JwtAuthenticationToken(jwt, authorities);
client
.mutateWith(mockAuthentication(token))
.get().uri("/endpoint").exchange();
val jwt = Jwt.withTokenValue("token")
.header("alg", "none")
.claim("sub", "user")
.build()
val authorities: Collection<GrantedAuthority> = AuthorityUtils.createAuthorityList("SCOPE_read")
val token = JwtAuthenticationToken(jwt, authorities)
client
.mutateWith(mockAuthentication<JwtMutator>(token))
.get().uri("/endpoint").exchange()
Note that, as an alternative to these, you can also mock the ReactiveJwtDecoder
bean itself with a @MockBean
annotation.
Testing Opaque Token Authentication
Similar to JWTs, opaque tokens require an authorization server in order to verify their validity, which can make testing more difficult. To help with that, Spring Security has test support for opaque tokens.
Suppose you have a controller that retrieves the authentication as a BearerTokenAuthentication
:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(BearerTokenAuthentication authentication) {
return Mono.just((String) authentication.getTokenAttributes().get("sub"));
}
@GetMapping("/endpoint")
fun foo(authentication: BearerTokenAuthentication): Mono<String?> {
return Mono.just(authentication.tokenAttributes["sub"] as String?)
}
In that case, you can tell Spring Security to include a default BearerTokenAuthentication
by using the SecurityMockServerConfigurers#opaqueToken
method:
-
Java
-
Kotlin
client
.mutateWith(mockOpaqueToken())
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOpaqueToken())
.get().uri("/endpoint").exchange()
This example configures the associated MockHttpServletRequest
with a BearerTokenAuthentication
that includes a simple OAuth2AuthenticatedPrincipal
, a Map
of attributes, and a Collection
of granted authorities.
Specifically, it includes a Map
with a key/value pair of sub
/user
:
-
Java
-
Kotlin
assertThat((String) token.getTokenAttributes().get("sub")).isEqualTo("user");
assertThat(token.tokenAttributes["sub"] as String?).isEqualTo("user")
It also includes a Collection
of authorities with just one authority, SCOPE_read
:
-
Java
-
Kotlin
assertThat(token.getAuthorities()).hasSize(1);
assertThat(token.getAuthorities()).containsExactly(new SimpleGrantedAuthority("SCOPE_read"));
assertThat(token.authorities).hasSize(1)
assertThat(token.authorities).containsExactly(SimpleGrantedAuthority("SCOPE_read"))
Spring Security does the necessary work to make sure that the BearerTokenAuthentication
instance is available for your controller methods.
Configuring Authorities
In many circumstances, your method is protected by filter or method security and needs your Authentication
to have certain granted authorities to allow the request.
In this case, you can supply what granted authorities you need using the authorities()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOpaqueToken()
.authorities(new SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOpaqueToken()
.authorities(SimpleGrantedAuthority("SCOPE_message:read"))
)
.get().uri("/endpoint").exchange()
Configuring Claims
While granted authorities are quite common across all of Spring Security, we also have attributes in the case of OAuth 2.0.
Suppose, for example, that you have a user_id
attribute that indicates the user’s ID in your system.
You might access it as follows in a controller:
-
Java
-
Kotlin
@GetMapping("/endpoint")
public Mono<String> foo(BearerTokenAuthentication authentication) {
String userId = (String) authentication.getTokenAttributes().get("user_id");
// ...
}
@GetMapping("/endpoint")
fun foo(authentication: BearerTokenAuthentication): Mono<String?> {
val userId = authentication.tokenAttributes["user_id"] as String?
// ...
}
In that case, you can specify that attribute with the attributes()
method:
-
Java
-
Kotlin
client
.mutateWith(mockOpaqueToken()
.attributes(attrs -> attrs.put("user_id", "1234"))
)
.get().uri("/endpoint").exchange();
client
.mutateWith(mockOpaqueToken()
.attributes { attrs -> attrs["user_id"] = "1234" }
)
.get().uri("/endpoint").exchange()
Additional Configurations
You can also use additional methods to further configure the authentication, depending on what data your controller expects.
One such method is principal(OAuth2AuthenticatedPrincipal)
, which you can use to configure the complete OAuth2AuthenticatedPrincipal
instance that underlies the BearerTokenAuthentication
.
It is handy if you:
* Have your own implementation of OAuth2AuthenticatedPrincipal
or
* Want to specify a different principal name
For example, suppose that your authorization server sends the principal name in the user_name
attribute instead of the sub
attribute.
In that case, you can configure an OAuth2AuthenticatedPrincipal
by hand:
-
Java
-
Kotlin
Map<String, Object> attributes = Collections.singletonMap("user_name", "foo_user");
OAuth2AuthenticatedPrincipal principal = new DefaultOAuth2AuthenticatedPrincipal(
(String) attributes.get("user_name"),
attributes,
AuthorityUtils.createAuthorityList("SCOPE_message:read"));
client
.mutateWith(mockOpaqueToken().principal(principal))
.get().uri("/endpoint").exchange();
val attributes: Map<String, Any> = mapOf(Pair("user_name", "foo_user"))
val principal: OAuth2AuthenticatedPrincipal = DefaultOAuth2AuthenticatedPrincipal(
attributes["user_name"] as String?,
attributes,
AuthorityUtils.createAuthorityList("SCOPE_message:read")
)
client
.mutateWith(mockOpaqueToken().principal(principal))
.get().uri("/endpoint").exchange()
Note that, as an alternative to using mockOpaqueToken()
test support, you can also mock the OpaqueTokenIntrospector
bean itself with a @MockBean
annotation.