# Spring Boot - CLI
## Installing the CLI
You need [Java SDK v1.6 ](http://www.java.com ) or higher to run the command line tool
(there are even some issues with the `1.7.0_25` build of openjdk, so stick to earlier
builds or use `1.6` for preference). You should check your current Java installation
before you begin:
$ java -version
### Manual installation
You can download the Spring CLI distribution from the Spring software repository:
* [spring-boot-cli-1.0.0.RC2-bin.zip ](http://repo.spring.io/milestone/org/springframework/boot/spring-boot-cli/1.0.0.RC2/spring-boot-cli-1.0.0.RC2-bin.zip )
* [spring-boot-cli-1.0.0.RC2-bin.tar.gz ](http://repo.spring.io/milestone/org/springframework/boot/spring-boot-cli/1.0.0.RC2/spring-boot-cli-1.0.0.RC2-bin.tar.gz )
Cutting edge [snapshot distributions ](http://repo.spring.io/snapshot/org/springframework/boot/spring-boot-cli/ )
are also available.
Once downloaded, follow the
[INSTALL ](spring-boot-cli/src/main/content/INSTALL.txt ) instructions
from the unpacked archive. In summary: there is a `spring` script
(`spring.bat` for Windows) in a `bin/` directory in the `.zip` file,
or alternatively you can use `java -jar` with the `.jar` file (the
script helps you to be sure that the classpath is set correctly).
### Installation with GVM
GVM (the Groovy Environment Manager) can be used for managing multiple
versions of verious Groovy and Java binary packages, including Groovy
itself and the Spring Boot CLI. Get `gvm` from
[the gvm home page ](http://gvmtool.net ) and install Spring Boot with
$ gvm install springboot
$ spring --version
Spring Boot v1.0.0.RC2
> **Note:** If you are developing features for the CLI and want easy access to the version you just built, follow these extra instructions.
$ gvm install springboot dev /path/to/spring-boot/spring-boot-cli/target/spring-boot-cli-1.0.0.BUILD-SNAPSHOT-bin/spring-1.0.0.BUILD-SNAPSHOT/
$ gvm use springboot dev
$ spring --version
Spring CLI v1.0.0.BUILD-SNAPSHOT
This will install a local instance of `spring` called the `dev` instance inside your gvm repository. It points at your target build location, so every time you rebuild Spring Boot, `spring` will be up-to-date.
You can see it by doing this:
$ gvm ls springboot
```
================================================================================
Available Springboot Versions
================================================================================
> + dev
* 1.0.0.RC2
================================================================================
+ - local version
* - installed
> - currently in use
================================================================================
```
### OSX Homebrew installation
If you are on a Mac and using [homebrew ](http://brew.sh/ ), all you need to do to install
the Spring Boot CLI is:
```
$ brew install http://repo.spring.io/install/spring-boot-cli.rb
```
Homebrew will install `spring` to `/usr/local/bin` . Now you can jump right to a
[quick start example ](#quick-start-script-example ).
> **Note:** If you don't see the formula, you're installation of brew might be
> out-of-date. Just execute `brew update` and try again.
### Quick start script example
Here's a really simple web application. Create a file called `app.groovy` :
```groovy
@RestController
class ThisWillActuallyRun {
@RequestMapping ("/")
String home() {
return "Hello World!"
}
}
```
Then run it from a shell:
```
$ spring run app.groovy
```
> **Note:** It will take some time when you first run the application as dependencies
> are downloaded, subsequent runs will be much quicker.
Open [http://localhost:8080 ](http://localhost:8080 ) in your favorite web browser and you
should see the following output:
> Hello World!
## Testing Your Code
The Spring Boot CLI has a `test` command. Example usage:
```
$ spring test app.groovy tests.groovy
Total: 1, Success: 1, : Failures: 0
Passed? true
```
Where `tests.groovy` contains JUnit `@Test` methods or Spock
`Specification` classes. All the common framework annotations and
static methods should be available to you without having to import
them. Example with JUnit (for the above application):
```groovy
class ApplicationTests {
@Test
void homeSaysHello() {
assertEquals("Hello World", new ThisWillActuallyRun().home())
}
}
```
You can add more tests by adding additional
files, or you might prefer to put them in a special directory.
## Applications with Multiple Source Files
You can use shell globbing to pick up multiple files in a single
directory, e.g.
```
$ spring run *.groovy
```
and this enables you to easily segregate your test or spec code from
the main application code, if that's what you prefer, e.g.
```
$ spring test app/*.groovy test/*.groovy
```
## Beans DSL
Spring has native support for a `beans{}` DSL (borrowed from
[Grails ](http://grails.org )), and you can embedd bean definitions in
your Groovy application scripts using the same format. This is
sometimes a good way to include external features like middleware
declarations. E.g.
```groovy
@Configuration
class Application implements CommandLineRunner {
@Autowired
SharedService service
@Override
void run(String... args) {
println service.message
}
}
import my.company.SharedService
beans {
service(SharedService) {
message "Hello World"
}
}
```
You can mix class declarations with `beans{}` in the same file as long
as they stay at the top level, or you can put the beans DSL in a
separate file if you prefer.
## Commandline Completion
Spring Boot CLI ships with a script that provides command completion
in a standard bash-like shell. You can source the script (also named
`spring` ) in any shell, or put it in your personal or system-wide bash
completion initialization. On a Debian system the system-wide scripts
are in `/etc/bash_completion.d` and all scripts in that directory are
executed in a new shell. To run the script manually, e.g. if you have
installed using GVM
```
$ . ~/.gvm/springboot/current/bash_completion.d/spring
$ spring < HIT TAB HERE >
clean -d debug help run test version
```
Add a command to produce a self-contained executable JAR for a CLI app
A new command, jar, has been added to the CLI. The command can be
used to create a self-contained executable JAR file from a CLI app.
Basic usage is:
spring jar <jar-name> <source-files>
For example:
spring jar my-app.jar *.groovy
The resulting jar will contain the classes generated by compiling the
source files, all of the application's dependencies, and entries
on the application's classpath.
By default a CLI application has the current working directory on
its classpath. This can be overridden using the --classpath option.
Any file that is referenced directly by the classpath is always
included in the jar. Any file that is found a result of being
contained within a directory that is on the classpath is subject to
filtering to determine whether or not it should be included. The
default includes are public/**, static/**, resources/**,
META-INF/**, *. The default excludes are .*, repository/**, build/**,
target/**. To be included in the jar, a file must match one of the
includes and none of the excludes. The filters can be overridden using
the --include and --exclude options.
Closes #241
11 years ago
## Packaging Your Application
You can use the `jar` command to package your application into a
self-contained executable jar file. For example:
```
$ spring jar my-app.jar *.groovy
```
The resulting jar will containe the classes produced by compiling
the application and all of the application's dependencies such that
it can then be run using `java -jar` . The jar file will also contain
entries from the application's classpath. See the output of
`spring help jar` for more information.