There are two ways to add Servlet
, Filter
, ServletContextListener
and the other
listeners supported by the Servlet spec to your application. You can either provide
Spring beans for them, or enable scanning for Servlet components.
To add a Servlet
, Filter
, or Servlet *Listener
provide a @Bean
definition for it.
This can be very useful when you want to inject configuration or dependencies. However,
you must be very careful that they don’t cause eager initialization of too many other
beans because they have to be installed in the container very early in the application
lifecycle (e.g. it’s not a good idea to have them depend on your DataSource
or JPA
configuration). You can work around restrictions like that by initializing them lazily
when first used instead of on initialization.
In the case of Filters
and Servlets
you can also add mappings and init parameters by
adding a FilterRegistrationBean
or ServletRegistrationBean
instead of or as well as
the underlying component.
Note | |
---|---|
If no If you are migrating a filter that has no @Bean public FilterRegistrationBean myFilterRegistration() { FilterRegistrationBean registration = new FilterRegistrationBean(); registration.setDispatcherTypes(DispatcherType.REQUEST); .... return registration; } |
As described above any Servlet
or Filter
beans will be registered with the servlet container automatically. To disable
registration of a particular Filter
or Servlet
bean create a registration bean for it
and mark it as disabled. For example:
@Bean public FilterRegistrationBean registration(MyFilter filter) { FilterRegistrationBean registration = new FilterRegistrationBean(filter); registration.setEnabled(false); return registration; }
@WebServlet
, @WebFilter
, and @WebListener
annotated classes can be automatically
registered with an embedded servlet container by annotating a @Configuration
class
with @ServletComponentScan
and specifying the package(s) containing the components
that you want to register. By default, @ServletComponentScan
will scan from the package
of the annotated class.
In a standalone application the main HTTP port defaults to 8080
, but can be set with
server.port
(e.g. in application.properties
or as a System property). Thanks to
relaxed binding of Environment
values you can also use SERVER_PORT
(e.g. as an OS
environment variable).
To switch off the HTTP endpoints completely, but still create a WebApplicationContext
,
use server.port=-1
(this is sometimes useful for testing).
For more details look at Section 27.3.4, “Customizing embedded servlet containers”
in the ‘Spring Boot features’ section, or the
ServerProperties
source
code.
To scan for a free port (using OS natives to prevent clashes) use server.port=0
.
You can access the port the server is running on from log output or from the
EmbeddedWebApplicationContext
via its EmbeddedServletContainer
. The best way to get
that and be sure that it has initialized is to add a @Bean
of type
ApplicationListener<EmbeddedServletContainerInitializedEvent>
and pull the container
out of the event when it is published.
A useful practice for use with @WebIntegrationTest
is to set server.port=0
and then inject the actual (‘local’) port as a @Value
. For example:
@RunWith(SpringJUnit4ClassRunner.class) @SpringApplicationConfiguration(SampleDataJpaApplication.class) @WebIntegrationTest("server.port:0") public class CityRepositoryIntegrationTests { @Autowired EmbeddedWebApplicationContext server; @Value("${local.server.port}") int port; // ... }
Note | |
---|---|
Don’t try to inject the port with |
SSL can be configured declaratively by setting the various server.ssl.*
properties,
typically in application.properties
or application.yml
. For example:
server.port=8443 server.ssl.key-store=classpath:keystore.jks server.ssl.key-store-password=secret server.ssl.key-password=another-secret
See Ssl
for details of all of the
supported properties.
Using configuration like the example above means the application will no longer support
plain HTTP connector at port 8080. Spring Boot doesn’t support the configuration of both
an HTTP connector and an HTTPS connector via application.properties
. If you want to
have both then you’ll need to configure one of them programmatically. It’s recommended
to use application.properties
to configure HTTPS as the HTTP connector is the easier of
the two to configure programmatically. See the
spring-boot-sample-tomcat-multi-connectors
sample project for an example.
Access logs can be configured for Tomcat and Undertow via their respective namespaces.
For instance, the following logs access on Tomcat with a custom pattern.
server.tomcat.basedir=my-tomcat server.tomcat.accesslog.enabled=true server.tomcat.accesslog.pattern=%t %a "%r" %s (%D ms)
Note | |
---|---|
The default location for logs is a |
Access logging for undertow can be configured in a similar fashion
server.undertow.accesslog.enabled=true server.undertow.accesslog.pattern=%t %a "%r" %s (%D ms)
Logs are stored in a logs
directory relative to the working directory of the
application. This can be customized via server.undertow.accesslog.directory
.
Your application might need to send 302
redirects or render content with absolute links
back to itself. When running behind a proxy, the caller wants a link to the proxy, and not
to the physical address of the machine hosting your app. Typically such situations are
handled via a contract with the proxy, which will add headers to tell the back end how to
construct links to itself.
If the proxy adds conventional X-Forwarded-For
and X-Forwarded-Proto
headers (most do
this out of the box) the absolute links should be rendered correctly as long as
server.use-forward-headers
is set to true
in your application.properties
.
Note | |
---|---|
If your application is running in Cloud Foundry or Heroku the
|
If you are using Tomcat you can additionally configure the names of the headers used to carry “forwarded” information:
server.tomcat.remote-ip-header=x-your-remote-ip-header server.tomcat.protocol-header=x-your-protocol-header
Tomcat is also configured with a default regular expression that matches internal
proxies that are to be trusted. By default, IP addresses in 10/8
, 192.168/16
,
169.254/16
and 127/8
are trusted. You can customize the valve’s configuration by
adding an entry to application.properties
, e.g.
server.tomcat.internal-proxies=192\\.168\\.\\d{1,3}\\.\\d{1,3}
Note | |
---|---|
The double backslashes are only required when you’re using a properties file for
configuration. If you are using YAML, single backslashes are sufficient and a value
that’s equivalent to the one shown above would be |
Note | |
---|---|
You can trust all proxies by setting the |
You can take complete control of the configuration of Tomcat’s RemoteIpValve
by
switching the automatic one off (i.e. set server.use-forward-headers=false
) and adding
a new valve instance in a TomcatEmbeddedServletContainerFactory
bean.
Generally you can follow the advice from
Section 68.7, “Discover built-in options for external properties” about
@ConfigurationProperties
(ServerProperties
is the main one here), but also look at
EmbeddedServletContainerCustomizer
and various Tomcat-specific *Customizers
that you
can add in one of those. The Tomcat APIs are quite rich so once you have access to the
TomcatEmbeddedServletContainerFactory
you can modify it in a number of ways. Or the
nuclear option is to add your own TomcatEmbeddedServletContainerFactory
.
Add a org.apache.catalina.connector.Connector
to the
TomcatEmbeddedServletContainerFactory
which can allow multiple connectors, e.g. HTTP and
HTTPS connector:
@Bean public EmbeddedServletContainerFactory servletContainer() { TomcatEmbeddedServletContainerFactory tomcat = new TomcatEmbeddedServletContainerFactory(); tomcat.addAdditionalTomcatConnectors(createSslConnector()); return tomcat; } private Connector createSslConnector() { Connector connector = new Connector("org.apache.coyote.http11.Http11NioProtocol"); Http11NioProtocol protocol = (Http11NioProtocol) connector.getProtocolHandler(); try { File keystore = new ClassPathResource("keystore").getFile(); File truststore = new ClassPathResource("keystore").getFile(); connector.setScheme("https"); connector.setSecure(true); connector.setPort(8443); protocol.setSSLEnabled(true); protocol.setKeystoreFile(keystore.getAbsolutePath()); protocol.setKeystorePass("changeit"); protocol.setTruststoreFile(truststore.getAbsolutePath()); protocol.setTruststorePass("changeit"); protocol.setKeyAlias("apitester"); return connector; } catch (IOException ex) { throw new IllegalStateException("can't access keystore: [" + "keystore" + "] or truststore: [" + "keystore" + "]", ex); } }
The Spring Boot starters (spring-boot-starter-web
in particular) use Tomcat as an
embedded container by default. You need to exclude those dependencies and include the
Jetty one instead. Spring Boot provides Tomcat and Jetty dependencies bundled together
as separate starters to help make this process as easy as possible.
Example in Maven:
<dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> <exclusions> <exclusion> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-tomcat</artifactId> </exclusion> </exclusions> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-jetty</artifactId> </dependency>
Example in Gradle:
configurations { compile.exclude module: "spring-boot-starter-tomcat" } dependencies { compile("org.springframework.boot:spring-boot-starter-web:1.3.8.RELEASE") compile("org.springframework.boot:spring-boot-starter-jetty:1.3.8.RELEASE") // ... }
Generally you can follow the advice from
Section 68.7, “Discover built-in options for external properties” about
@ConfigurationProperties
(ServerProperties
is the main one here), but also look at
EmbeddedServletContainerCustomizer
. The Jetty APIs are quite rich so once you have
access to the JettyEmbeddedServletContainerFactory
you can modify it in a number
of ways. Or the nuclear option is to add your own JettyEmbeddedServletContainerFactory
.
Using Undertow instead of Tomcat is very similar to using Jetty instead of Tomcat. You need to exclude the Tomcat dependencies and include the Undertow starter instead.
Example in Maven:
<dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> <exclusions> <exclusion> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-tomcat</artifactId> </exclusion> </exclusions> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-undertow</artifactId> </dependency>
Example in Gradle:
configurations { compile.exclude module: "spring-boot-starter-tomcat" } dependencies { compile("org.springframework.boot:spring-boot-starter-web:1.3.8.RELEASE") compile("org.springframework.boot:spring-boot-starter-undertow:1.3.8.RELEASE") // ... }
Generally you can follow the advice from
Section 68.7, “Discover built-in options for external properties” about
@ConfigurationProperties
(ServerProperties
and ServerProperties.Undertow
are the
main ones here), but also look at
EmbeddedServletContainerCustomizer
. Once you have access to the
UndertowEmbeddedServletContainerFactory
you can use an UndertowBuilderCustomizer
to
modify Undertow’s configuration to meet your needs. Or the nuclear option is to add your
own UndertowEmbeddedServletContainerFactory
.
Add an UndertowBuilderCustomizer
to the UndertowEmbeddedServletContainerFactory
and
add a listener to the Builder
:
@Bean public UndertowEmbeddedServletContainerFactory embeddedServletContainerFactory() { UndertowEmbeddedServletContainerFactory factory = new UndertowEmbeddedServletContainerFactory(); factory.addBuilderCustomizers(new UndertowBuilderCustomizer() { @Override public void customize(Builder builder) { builder.addHttpListener(8080, "0.0.0.0"); } }); return factory; }
Tomcat 7 works with Spring Boot, but the default is to use Tomcat 8. If you cannot use Tomcat 8 (for example, because you are using Java 1.6) you will need to change your classpath to reference Tomcat 7 .
If you are using the starter poms and parent you can just change the Tomcat version property, e.g. for a simple webapp or service:
<properties> <tomcat.version>7.0.59</tomcat.version> </properties> <dependencies> ... <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> </dependency> ... </dependencies>
Jetty 8 works with Spring Boot, but the default is to use Jetty 9. If you cannot use Jetty 9 (for example, because you are using Java 1.6) you will need to change your classpath to reference Jetty 8. You will also need to exclude Jetty’s WebSocket-related dependencies.
If you are using the starter poms and parent you can just add the Jetty starter with the required WebSocket exclusion and change the version properties, e.g. for a simple webapp or service:
<properties> <jetty.version>8.1.15.v20140411</jetty.version> <jetty-jsp.version>2.2.0.v201112011158</jetty-jsp.version> </properties> <dependencies> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-web</artifactId> <exclusions> <exclusion> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-tomcat</artifactId> </exclusion> </exclusions> </dependency> <dependency> <groupId>org.springframework.boot</groupId> <artifactId>spring-boot-starter-jetty</artifactId> <exclusions> <exclusion> <groupId>org.eclipse.jetty.websocket</groupId> <artifactId>*</artifactId> </exclusion> </exclusions> </dependency> </dependencies>
You can set the jetty.version
property and exclude the WebSocket dependency, e.g. for a
simple webapp or service:
ext['jetty.version'] = '8.1.15.v20140411' dependencies { compile ('org.springframework.boot:spring-boot-starter-web') { exclude group: 'org.springframework.boot', module: 'spring-boot-starter-tomcat' } compile ('org.springframework.boot:spring-boot-starter-jetty') { exclude group: 'org.eclipse.jetty.websocket' } }
If you want to use @ServerEndpoint
in a Spring Boot application that used an embedded
container, you must declare a single ServerEndpointExporter
@Bean
:
@Bean public ServerEndpointExporter serverEndpointExporter() { return new ServerEndpointExporter(); }
This bean will register any @ServerEndpoint
annotated beans with the underlying
WebSocket container. When deployed to a standalone servlet container this role is
performed by a servlet container initializer and the ServerEndpointExporter
bean is
not required.
HTTP response compression is supported by Jetty, Tomcat, and Undertow. It can be enabled
via application.properties
:
server.compression.enabled=true
By default, responses must be at least 2048 bytes in length for compression to be
performed. This can be configured using the server.compression.min-response-size
property.
By default, responses will only be compressed if their content type is one of the following:
text/html
text/xml
text/plain
text/css
This can be configured using the server.compression.mime-types
property.