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173 lines
9.0 KiB
173 lines
9.0 KiB
[[servlet-hello]] |
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= Hello Spring Security |
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This section covers the minimum setup for how to use Spring Security with {spring-boot-reference-url}[Spring Boot] and then points you to next steps after that. |
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[NOTE] |
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==== |
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The completed starter application can be found {gh-samples-url}/servlet/spring-boot/java/hello-security[in our samples repository]. |
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For your convenience, you can download a minimal Spring Boot + Spring Security application https://start.spring.io/starter.zip?type=maven-project&language=java&packaging=jar&jvmVersion=1.8&groupId=example&artifactId=hello-security&name=hello-security&description=Hello%20Security&packageName=example.hello-security&dependencies=web,security[prepared by Spring Initializr]. |
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==== |
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[[servlet-hello-dependencies]] |
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== Updating Dependencies |
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You first need to add Spring Security to your application's classpath; two ways to do this are to xref:getting-spring-security.adoc#getting-maven-boot[use Maven] or xref:getting-spring-security.adoc#getting-gradle-boot[Gradle]. |
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[[servlet-hello-starting]] |
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== Starting Hello Spring Security Boot |
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With Spring Security <<servlet-hello-dependencies,on the classpath>>, you can now {spring-boot-reference-url}reference/using/running-your-application.html[run the Spring Boot application]. |
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The following snippet shows some of the output that indicates that Spring Security is enabled in your application: |
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.Running Spring Boot Application |
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[tabs] |
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====== |
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Maven:: |
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+ |
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[source,bash,role="primary"] |
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---- |
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$ ./mvnw spring-boot:run |
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... |
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INFO 23689 --- [ restartedMain] .s.s.UserDetailsServiceAutoConfiguration : |
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Using generated security password: 8e557245-73e2-4286-969a-ff57fe326336 |
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... |
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---- |
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Gradle:: |
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+ |
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[source,bash,role="secondary"] |
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---- |
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$ ./gradlew :bootRun |
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... |
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INFO 23689 --- [ restartedMain] .s.s.UserDetailsServiceAutoConfiguration : |
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Using generated security password: 8e557245-73e2-4286-969a-ff57fe326336 |
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... |
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---- |
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Jar:: |
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+ |
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[source,bash,role="secondary"] |
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---- |
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$ java -jar target/myapplication-0.0.1.jar |
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... |
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INFO 23689 --- [ restartedMain] .s.s.UserDetailsServiceAutoConfiguration : |
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Using generated security password: 8e557245-73e2-4286-969a-ff57fe326336 |
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... |
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---- |
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====== |
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Now that you have it running, you might try hitting an endpoint to see what happens. |
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If you hit an endpoint without credentials like so: |
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.Querying a Secured Boot Application |
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[source,bash] |
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---- |
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$ curl -i http://localhost:8080/some/path |
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HTTP/1.1 401 |
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... |
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---- |
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then Spring Security denies access with a `401 Unauthorized`. |
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[TIP] |
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If you provide the same URL in a browser, it will redirect to a default login page. |
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And if you hit an endpoint with credentials (found in the console output) as follows: |
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.Querying with Credentials |
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[source,bash] |
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---- |
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$ curl -i -u user:8e557245-73e2-4286-969a-ff57fe326336 http://localhost:8080/some/path |
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HTTP/1.1 404 |
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... |
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---- |
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then Spring Boot will service the request, returning a `404 Not Found` in this case since `/some/path` doesn't exist. |
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From here, you can: |
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* Better understand <<servlet-hello-auto-configuration,what Spring Boot enables in Spring Security by default>> |
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* Read about <<security-use-cases,common use cases>> that Spring Security helps with |
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* Start configuring xref:servlet/authentication/index.adoc[authentication] |
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[[servlet-hello-auto-configuration]] |
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== Runtime Expectations |
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The default arrangement of Spring Boot and Spring Security affords the following behaviors at runtime: |
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* Requires an authenticated user xref:servlet/authorization/authorize-http-requests.adoc[for any endpoint] (including Boot's `/error` endpoint) |
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* xref:servlet/authentication/passwords/user-details-service.adoc[Registers a default user] with a generated password at startup (the password is logged to the console; in the preceding example, the password is `8e557245-73e2-4286-969a-ff57fe326336`) |
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* Protects xref:servlet/authentication/passwords/password-encoder.adoc[password storage with BCrypt] as well as others |
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* Provides form-based xref:servlet/authentication/passwords/form.adoc[login] and xref:servlet/authentication/logout.adoc[logout] flows |
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* Authenticates xref:servlet/authentication/passwords/form.adoc[form-based login] as well as xref:servlet/authentication/passwords/basic.adoc[HTTP Basic] |
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* Provides content negotiation; for web requests, redirects to the login page; for service requests, returns a `401 Unauthorized` |
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* xref:servlet/exploits/csrf.adoc[Mitigates CSRF] attacks |
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* xref:servlet/authentication/session-management.adoc#ns-session-fixation[Mitigates Session Fixation] attacks |
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* Writes xref:servlet/exploits/headers.adoc#servlet-headers-hsts[Strict-Transport-Security] to https://en.wikipedia.org/wiki/HTTP_Strict_Transport_Security[ensure HTTPS] |
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* Writes xref:servlet/exploits/headers.adoc#servlet-headers-content-type-options[X-Content-Type-Options] to mitigate https://cheatsheetseries.owasp.org/cheatsheets/HTTP_Headers_Cheat_Sheet.html#x-content-type-options[sniffing attacks] |
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* Writes xref:servlet/exploits/headers.adoc#servlet-headers-cache-control[Cache Control headers] that protect authenticated resources |
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* Writes xref:servlet/exploits/headers.adoc#servlet-headers-frame-options[X-Frame-Options] to mitigate https://cheatsheetseries.owasp.org/cheatsheets/HTTP_Headers_Cheat_Sheet.html#x-frame-options[Clickjacking] |
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* Integrates with xref:servlet/integrations/servlet-api.adoc[``HttpServletRequest``'s authentication methods] |
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* Publishes xref:servlet/authentication/events.adoc[authentication success and failure events] |
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It can be helpful to understand how Spring Boot is coordinating with Spring Security to achieve this. |
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Taking a look at {spring-boot-api-url}org/springframework/boot/autoconfigure/security/servlet/SecurityAutoConfiguration.html[Boot's security auto configuration], it does the following (simplified for illustration): |
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.Spring Boot Security Auto Configuration |
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[source,java] |
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---- |
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@EnableWebSecurity <1> |
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@Configuration |
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public class DefaultSecurityConfig { |
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@Bean |
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@ConditionalOnMissingBean(UserDetailsService.class) |
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InMemoryUserDetailsManager inMemoryUserDetailsManager() { <2> |
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String generatedPassword = // ...; |
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return new InMemoryUserDetailsManager(User.withUsername("user") |
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.password(generatedPassword).roles("USER").build()); |
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} |
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@Bean |
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@ConditionalOnMissingBean(AuthenticationEventPublisher.class) |
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DefaultAuthenticationEventPublisher defaultAuthenticationEventPublisher(ApplicationEventPublisher delegate) { <3> |
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return new DefaultAuthenticationEventPublisher(delegate); |
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} |
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} |
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1. Adds the `@EnableWebSecurity` annotation. (Among other things, this publishes xref:servlet/architecture.adoc#servlet-securityfilterchain[Spring Security's default `Filter` chain] as a `@Bean`) |
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2. Publishes a xref:servlet/authentication/passwords/user-details-service.adoc[`UserDetailsService`] `@Bean` with a username of `user` and a randomly generated password that is logged to the console |
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3. Publishes an xref:servlet/authentication/events.adoc[`AuthenticationEventPublisher`] `@Bean` for publishing authentication events |
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[NOTE] |
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Spring Boot adds any `Filter` published as a `@Bean` to the application's filter chain. |
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This means that using `@EnableWebSecurity` in conjunction with Spring Boot automatically registers Spring Security's filter chain for every request. |
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[[security-use-cases]] |
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== Security Use Cases |
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There are a number of places that you may want to go from here. |
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To figure out what's next for you and your application, consider these common use cases that Spring Security is built to address: |
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* I am building a REST API, and I need to xref:servlet/oauth2/resource-server/jwt.adoc[authenticate a JWT] or xref:servlet/oauth2/resource-server/opaque-token.adoc[other bearer token] |
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* I am building a Web Application, API Gateway, or BFF and |
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** I need to xref:servlet/oauth2/login/core.adoc[login using OAuth 2.0 or OIDC] |
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** I need to xref:servlet/saml2/login/index.adoc[login using SAML 2.0] |
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** I need to xref:servlet/authentication/cas.adoc[login using CAS] |
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* I need to manage |
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** Users in xref:servlet/authentication/passwords/ldap.adoc[LDAP] or xref:servlet/authentication/passwords/ldap.adoc#_active_directory[Active Directory], with xref:servlet/integrations/data.adoc[Spring Data], or with xref:servlet/authentication/passwords/jdbc.adoc[JDBC] |
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** xref:servlet/authentication/passwords/storage.adoc[Passwords] |
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In case none of those match what you are looking for, consider thinking about your application in the following order: |
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1. *Protocol*: First, consider the protocol your application will use to communicate. |
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For servlet-based applications, Spring Security supports HTTP as well as xref:servlet/integrations/websocket.adoc[Websockets]. |
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2. *Authentication*: Next, consider how users will xref:servlet/authentication/index.adoc[authenticate] and if that authentication will be stateful or stateless |
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3. *Authorization*: Then, consider how you will determine xref:servlet/authorization/index.adoc[what a user is authorized to do] |
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4. *Defense*: Finally, xref:servlet/exploits/csrf.adoc#csrf-considerations[integrate with Spring Security's default protections] and consider xref:servlet/exploits/headers.adoc[which additional protections you need]
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