Bundle Plugin for Maven
This plugin for Maven 2 is based on the BND tool from Peter Kriens. The way BND works is by treating your project as a big collection of classes (e.g., project code, dependencies, and the class path). The way you create a bundle with BND is to tell it the content of the bundle's JAR file as a subset of the available classes. This plugin wraps BND to make it work specifically with the Maven 2 project structure and to provide it with reasonable default behavior for Maven 2 projects.
Since the 1.4.0 release, this plugin also aims to automate OBR (OSGi Bundle Repository) management. It helps manage a local OBR for your local Maven repository, and also supports remote OBRs for bundle distribution. The plug-in automatically computes bundle capabilities and requirements, using a combination of Bindex and Maven metadata.
Simple Example
Rather than going straight to a detailed list of plugin features, we will first look at a simple example of how to use the plugin to give an immediate flavor. A detailed "how to" will follow.
Assume that we have a simple bundle project that has a pubic API package an several implementation packages, such as:
org.foo.myproject.api org.foo.myproject.impl1 org.foo.myproject.impl2 ...
If we also assume that we have a bundle activator in one of the implementation packages, then the <plugins> section of the POM file for this bundle project would look like this:
... <plugins> <plugin> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <instructions> <Export-Package>org.foo.myproject.api</Export-Package> <Private-Package>org.foo.myproject.*</Private-Package> <Bundle-Activator>org.foo.myproject.impl1.Activator</Bundle-Activator> </instructions> </configuration> </plugin> </plugins> ...
The <Export-Package> and <Private-Package> instructions tell the plugin about the contents of the resulting bundle JAR file. The <Export-Package> instruction tells the plugin which of the available packages to copy into the bundle and export, while the <Private-Package> instruction indicates which of the available packages to copy into the bundle but not export. If the two sets overlap, as they do in the case, then the export takes precedence. Since we did not specify any values for any other bundle manifest headers, they will assume default values which are described below. One specific behavior to highlight is that the plugin generates the Import-Package bundle manifest header based on the contents of the bundle, which means that you generally do not ever need to explicitly specify it yourself. That's it.
Features
The BND library underlying the plugin defines instructions to direct its behavior. For this Maven plugin, these instructions are issued in the plugin configuration section of the POM file, as was illustrated above. BND recognizes three types of instructions:
- Manifest headers - Any instruction that starts with a capital letter will appear in the resulting bundle's manifest file; the value for the header will either be copied, augmented, or generated by BND depending on the instruction.
- Variables - Any instruction starting with a lowercase letter is assumed to be a variable in the form of a name-value pair, such as version=3.0, that can be used for property substitution, but is not copied to the manifest.
- Directives - Any instruction starting with a '-' character is considered to be a directive that informs BND to perform some special processing and is not copied to the manifest.
The remainder of this section covers the most important aspects of BND's instructions; for complete details refer to the BND documentation.
Instructions
<Export-Package>
The <Export-Package> instruction is a list of packages for the bundle to export. These packages are copied into the resulting bundle JAR file from the available classes (i.e., project classes, dependencies, and class path); thus, it is possible to include classes into your bundle that are not associated with source files in your project. <Export-Package> can be specified with package patterns using the '*' wildcard. Also, it is possible to exclude packages using negation by starting the package pattern with '!'. Thus, non-negated patterns indicate which of the available packages to include in the bundle, whereas negated patterns indicate which should not be included in the bundle.
The list of package patterns is ordered and earlier patterns are applied before later patterns. For example, if you specify "org.foo.*,!org.foo.impl" the second pattern has no effect since all org.foo packages have already been selected by the first pattern. Instead, you should specify "!org.foo.impl,org.foo.*", which will export all org.foo packages except org.foo.impl.
Following standard OSGi R4 syntax, package patterns can include both directives and attributes, which will be copied appropriately into the generated Export-Package manifest header. Besides explicitly listing package version attributes, BND will also determine package versions by examining the source JAR file or from packageinfo files in the package directory.
<Private-Package>
The <Private-Package> instruction is similar in every way to the <Export-Package> instruction, except for the fact that these packages will not be exported by the bundle. If a package is selected by both the export and private package headers, then the export takes precedence.
<Include-Resource>
The <Include-Resource> instruction is a list of arbitrary resources that should be copied into the bundle JAR file. The specified resources are declared as clauses that can have the following forms:
clause ::= assignment | inline | simple assignment ::= PATH '=' PATH simple ::= PATH inline ::= '@' PATH
For the <Include-Resource> instruction, actual file paths are relative to the pom.xml, while file copy destinations are relative to the root of the resulting bundle JAR file. In the case of assignment or simple forms, the PATH parameter can point to a file or directory. The simple form will place the resource in the bundle JAR with only the file name, i.e., without any path component. For example, including src/main/resources/a/b.c will result in a resource b.c in the root of the bundle JAR. If the PATH points to a directory, the entire directory hierarchy is copied into the resulting bundle JAR file relative to the specified directory. If a specific resource must be placed into a subdirectory of the bundle jar, then use the assignment form, where the first path is the the destination path (including file name if the resource is a file) and the second path is the resource to copy. The inline form requires a ZIP or JAR file, which will be completely expanded in the bundle JAR.
If a resource clause is specified inside of "{ ... }" brackets, then variable substitution will be performed on the resource, where variables in the resources are denoted with "${ ... }" syntax.
By default the bundle plugin converts the project's Maven resource directories into a single <Include-Resource> instruction. If you specify your own <Include-Resource> instruction, this will replace the generated one. To include the generated list of Maven resources in your own <Include-Resource> instruction just add {maven-resources} to the list and it will be expanded automatically.
<Import-Package>
The <Import-Package> instruction is a list of packages that are required by the bundle's contained packages. The default for this header is "*", resulting in importing all referred packages. This header rarely has to be explicitly specified. However, in certain cases when there is an unwanted import, such an import can be removed by using a negation package pattern. The package patterns work in the same way as for <Export-Package>, which means they are ordered. For example, if you wanted to import all packages except org.foo.impl you would specify "!org.foo.impl,*"
Default Behavior
To use this plugin, very little information is required by BND. As part of the Maven integration, the plugin tries to set reasonable defaults for various instructions. For example:
- <Bundle-SymbolicName> is assumed to be "${groupId}.${artifactId}".
- <Export-Package> is assumed to be "<Bundle-SymbolicName>.*", unless <Private-Package> is specified, then <Export-Package> is assumed to be empty.
- <Private-Package> is assumed to be empty by default.
- <Import-Package> is assumed to be "*", which imports everything referred to by the bundle content, but not contained in the bundle.
- <Include-Resource> is generated from the project's Maven resources, typically "src/main/resources/", which will copy the specified project directory hierarchy into the resulting bundle JAR file, mirroring standard Maven behavior.
- <Bundle-Version> is assumed to be "${pom.version}" with '-' character separator of the qualifier replaced with a '.' character.
- <Bundle-Name> is assumed to be "${pom.name}".
- <Bundle-Description> is assumed to be "${pom.description}".
- <Bundle-License> is assumed to be "${pom.licenses}".
- <Bundle-Vendor> is assumed to be "${pom.organization.name}".
- <Bundle-DocURL> is assumed to be "${pom.organization.url}".
Since the plugin creates bundles for OSGi R4, it hard-codes Bundle-ManifestVersion to be '2'. Additionally, it generates imports for every export to ensure package substitutability, which is very important when working with collaborating services. It is possible to override any of these values (except Bundle-ManifestVersion) just by specifying the desired value in the plugin configuration section of the POM file.
Detailed "How To"
Get Maven2
The first step in the process of using the plugin is downloading and installing the latest version of the Maven2 runtime. The latest Maven2 release and instuctions for getting started with Maven2 can be found at the Maven website.
Using the Plugin
To use the maven-bundle-plugin, you first need to add the plugin and some appropriate plugin configuration to your bundle project's POM. Below is an example of a simple OSGi bundle POM for Maven2:
<project> <modelVersion>4.0.0</modelVersion> <groupId>my-osgi-bundles</groupId> <artifactId>examplebundle</artifactId> <packaging>bundle</packaging> <!-- (1) --> <version>1.0</version> <name>Example Bundle</name> <dependencies> <dependency> <groupId>org.apache.felix</groupId> <artifactId>org.osgi.core</artifactId> <version>1.0.0</version> </dependency> </dependencies> <build> <plugins> <plugin> <!-- (2) START --> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <instructions> <Export-Package>com.my.company.api</Export-Package> <Private-Package>com.my.company.*</Private-Package> <Bundle-Activator>com.my.company.Activator</Bundle-Activator> </instructions> </configuration> </plugin> <!-- (2) END --> </plugins> </build> </project>
There are two main things to note: (1) the <packaging> specifier must be "bundle" and (2) the plugin and configuration must be specified (the configuration section is where you will issue instructions to the plugin).
Real-World Example
Consider this more real-world example using Felix' Log Service implementation. The Log Service project is comprised of a single package: org.apache.felix.log.impl. It has a dependency on the core OSGi interfaces as well as a dependency on the compendium OSGi interfaces for the specific log service interfaces. The following is its POM file:
<project> <modelVersion>4.0.0</modelVersion> <groupId>org.apache.felix</groupId> <artifactId>org.apache.felix.log</artifactId> <packaging>bundle</packaging> <name>Apache Felix Log Service</name> <version>0.8.0-SNAPSHOT</version> <description> This bundle provides an implementation of the OSGi R4 Log service. </description> <dependencies> <dependency> <groupId>${pom.groupId}</groupId> <artifactId>org.osgi.core</artifactId> <version>0.8.0-incubator</version> </dependency> <dependency> <groupId>${pom.groupId}</groupId> <artifactId>org.osgi.compendium</artifactId> <version>0.9.0-incubator-SNAPSHOT</version> </dependency> </dependencies> <build> <plugins> <plugin> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <instructions> <Export-Package>org.osgi.service.log</Export-Package> <Private-Package>org.apache.felix.log.impl</Private-Package> <Bundle-SymbolicName>${pom.artifactId}</Bundle-SymbolicName> <Bundle-Activator>${pom.artifactId}.impl.Activator</Bundle-Activator> <Export-Service>org.osgi.service.log.LogService,org.osgi.service.log.LogReaderService</Export-Service> </instructions> </configuration> </plugin> </plugins> </build> </project>
Notice that the <Export-Package> instruction specifies that the bundle exports the Log Service package, even though this package is not contained in the bundle project. By declaring this, the plugin will copy the Log Service package into the resulting bundle JAR file. This is useful in this case because now the bundle can resolve without having to download the entire compendium bundle. The resulting manifest for the Log Service bundle looks like this (notice how the imports/exports automatically have version information associated with them, which was obtained from packageinfo files in the source packages):
Manifest-Version: 1 Bundle-License: http://www.apache.org/licenses/LICENSE-2.0.txt Bundle-Activator: org.apache.felix.log.impl.Activator Import-Package: org.osgi.framework;version=1.3, org.osgi.service.log;v ersion=1.3 Include-Resource: src/main/resources Export-Package: org.osgi.service.log;uses:=org.osgi.framework;version= 1.3 Bundle-Version: 0.8.0.SNAPSHOT Bundle-Name: Apache Felix Log Service Bundle-Description: This bundle provides an implementation of the OSGi R4 Log service. Private-Package: org.apache.felix.log.impl Bundle-ManifestVersion: 2 Export-Service: org.osgi.service.log.LogService,org.osgi.service.log.L ogReaderService Bundle-SymbolicName: org.apache.felix.log
The resulting bundle JAR file has the following content (notice how the LICENSE and NOTICE files were automatically copied from the src/main/resources/ directory of the project):
META-INF/MANIFEST.MF LICENSE META-INF/ META-INF/maven/ META-INF/maven/org.apache.felix/ META-INF/maven/org.apache.felix/org.apache.felix.log/ META-INF/maven/org.apache.felix/org.apache.felix.log/pom.properties META-INF/maven/org.apache.felix/org.apache.felix.log/pom.xml NOTICE org/ org/apache/ org/apache/felix/ org/apache/felix/log/ org/apache/felix/log/impl/ org/apache/felix/log/impl/Activator.class org/apache/felix/log/impl/Log.class org/apache/felix/log/impl/LogEntryImpl.class org/apache/felix/log/impl/LogException.class org/apache/felix/log/impl/LogListenerThread.class org/apache/felix/log/impl/LogNode.class org/apache/felix/log/impl/LogNodeEnumeration.class org/apache/felix/log/impl/LogReaderServiceFactory.class org/apache/felix/log/impl/LogReaderServiceImpl.class org/apache/felix/log/impl/LogServiceFactory.class org/apache/felix/log/impl/LogServiceImpl.class org/osgi/ org/osgi/service/ org/osgi/service/log/ org/osgi/service/log/LogEntry.class org/osgi/service/log/LogListener.class org/osgi/service/log/LogReaderService.class org/osgi/service/log/LogService.class org/osgi/service/log/package.html org/osgi/service/log/packageinfo
Adding OSGi metadata to existing projects without changing the packaging type
If you want to keep your project packaging type (for example "jar") but would like to add OSGi metadata
you can use the manifest goal to generate a bundle manifest. The maven-jar-plugin can then be used to
add this manifest to the final artifact. For example:
<plugin> <artifactId>maven-jar-plugin</artifactId> <configuration> <archive> <manifestFile>${project.build.outputDirectory}/META-INF/MANIFEST.MF</manifestFile> </archive> </configuration> </plugin> <plugin> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <executions> <execution> <id>bundle-manifest</id> <phase>process-classes</phase> <goals> <goal>manifest</goal> </goals> </execution> </executions> </plugin>
Building the Plugin
The plugin is hosted at the Apache Felix project. The following steps describe how to build and install the plugin into your local Maven2 repository.
Using the SVN client of your choice, checkout the maven-bundle-plugin project.
$ svn co http://svn.apache.org/repos/asf/felix/trunk/bundleplugin
Using Maven2, build and install the maven-bundle-plugin by issuing the following Maven2 command in the project directory that was created as a result of the previous step.
$ mvn install
Goals
The maven-bundle-plugin also provides additional functionality via some Maven goals. Command-line execution of a goal is performed as follows:
mvn org.apache.felix:maven-bundle-plugin:GOAL
Where GOAL is one of the following:
- bundle - build an OSGi bundle jar for the current project
configuration options:- manifestLocation defaults to ${project.build.outputDirectory}/META-INF
- unpackBundle unpack bundle contents to output directory, defaults to false
- excludeDependencies comma-separated list of dependency artifactIds to exclude from the classpath passed to Bnd (use "true" to exclude everything)
- supportedProjectTypes defaults to "jar","bundle"
- classifier attach bundle to the project using the given classifier
- bundleall - build OSGi bundle jars for all transitive dependencies
configuration options:- supportedProjectTypes defaults to "jar","bundle"
- wrapImportPackage defaults to "*"
- wrap - as above, but limited to the first level of dependencies
configuration options:- supportedProjectTypes defaults to "jar","bundle"
- wrapImportPackage defaults to "*"
- manifest - create an OSGi manifest for the current project
configuration options:- manifestLocation defaults to ${project.build.outputDirectory}/META-INF
- supportedProjectTypes defaults to "jar","bundle"
- install - adds the current bundle project to the local OBR
configuration options:- obrRepository path to local OBR, defaults to <local-maven-repository>/repository.xml
More GOALs are available in the 1.4.0 release:
- ant - create an Ant build script to rebuild the bundle
- install-file - adds a local bundle file to the local OBR
configuration options:- obrRepository path to local OBR, defaults to <local-maven-repository>/repository.xml
- groupId Maven groupId for the bundle, taken from pomFile if given
- artifactId Maven artifactId for the bundle, taken from pomFile if given
- version Maven version for the bundle, taken from pomFile if given
- packaging Maven packaging type for the bundle, taken from pomFile if given
- classifier Maven classifier type, defaults to none
- pomFile optional Pom file describing the bundle
- file bundle file, defaults to the bundle from the local Maven repository
- obrXml optional additional properties for the bundle
- deploy - adds the current bundle project to a remote OBR
configuration options:- remoteOBR name of remote OBR, defaults to NONE (which means no remote OBR deployment)
- obrRepository used when the remoteOBR name is blank, defaults to repository.xml
- altDeploymentRepository alternative remote repository, id::layout::url
- ignoreLock ignore remote locking when updating the OBR
- deploy-file - adds a local bundle file to a remote OBR
configuration options:- remoteOBR name of remote OBR, defaults to an empty string
- obrRepository used when the remoteOBR name is blank, defaults to repository.xml
- repositoryId optional repository id, used to lookup authentication settings
- url remote repository transport URL, like
scpexe://host/path/to/obr
- bundleUrl public URL of deployed bundle, like
http://www.foo.org/bundles/foo.jar
- groupId Maven groupId for the bundle, taken from pomFile if given
- artifactId Maven artifactId for the bundle, taken from pomFile if given
- version Maven version for the bundle, taken from pomFile if given
- packaging Maven packaging type for the bundle, taken from pomFile if given
- classifier Maven classifier type, defaults to none
- pomFile optional Pom file describing the bundle
- file bundle file, defaults to the bundle from the local Maven repository
- obrXml optional additional properties for the bundle
- ignoreLock ignore remote locking when updating the OBR
- clean - cleans the local OBR, removing missing bundles
configuration options:- obrRepository path to local OBR, defaults to <local-maven-repository>/repository.xml
There are also new instructions available from the underlying BND tool, which continues to be improved independently; for the latest see BND documentation.
The default goal bundle will be initialized by setting the <packaging> entry to "bundle".
The following features are only available from version 1.2.0 onwards
Embedding dependencies
The Maven Bundle Plugin supports embedding of selected project dependencies inside the bundle by using the <Embed-Dependency> instruction:
<Embed-Dependency>dependencies</Embed-Dependency>
where:
dependencies ::= clause ( ',' clause ) * clause ::= MATCH ( ';' attr '=' MATCH | ';inline=true' ) attr ::= 'groupId' | 'artifactId' | 'version' | 'scope' | 'type' | 'classifier' MATCH ::= <globbed regular expressions>
The plugin uses the <Embed-Dependency> instruction to transform the project dependencies into <Include-Resource> and <Bundle-ClassPath> clauses, which are then appended to the current set of instructions and passed onto BND. If you want the embedded dependencies to be at the start or middle of <Include-Resource> or <Bundle-ClassPath> then you can use {maven-dependencies}, which will automatically expand to the relevant clauses.
The MATCH section accepts alternatives, separated by |, and can be negated by using ! at the beginning of the MATCH. Use * to represent zero or more unknown characters and ? to represent a single unknown character. There is no need to escape the . character inside MATCH. The first MATCH in a clause will filter against the artifactId.
some examples:
<!-- embed all compile and runtime scope dependencies --> <Embed-Dependency>*;scope=compile|runtime</Embed-Dependency> <!-- embed any dependencies with artifactId junit and scope test --> <Embed-Dependency>junit;scope=test</Embed-Dependency> <!-- inline all dependencies, except those with scope test --> <Embed-Dependency>*;scope=!test;inline=true</Embed-Dependency> <!-- embed all compile and runtime scope dependencies, except those with artifactIds in the given list --> <Embed-Dependency>*;scope=compile|runtime;inline=false;artifactId=!cli|lang|runtime|tidy|jsch</Embed-Dependency>
examples of using {maven-dependencies}:
<Include-Resource> {maven-resources}, {maven-dependencies}, org/foo/Example.class=target/classes/org/foo/Example.class </Include-Resource> <Bundle-ClassPath>.,{maven-dependencies},some.jar</Bundle-ClassPath>
By default matched dependencies are embedded in the bundle as artifactId-version.jar. This behaviour can be modified using the following instructions:
- <Embed-StripVersion>true</Embed-StripVersion> - removes the version from the file (ie. artifactId.jar)
- <Embed-StripGroup>false</Embed-StripGroup> - adds the groupId as a subdirectory (ie. groupId/artifactId-version.jar)
- <Embed-Directory>directory</Embed-Directory> - adds a subdirectory (ie. directory/artifactId-version.jar)
Normally the plugin only checks direct dependencies, but this can be changed to include the complete set of transitive dependencies with the following option:
<Embed-Transitive>true</Embed-Transitive>
If you want a dependency inlined instead of embedded add the inline=true. For example to inline all compile and runtime scoped dependencies use:
<Embed-Dependency>*;scope=compile|runtime;inline=true</Embed-Dependency>
Embed-Dependency and Export-Package
If you embed a dependency with <Embed-Dependency>, and your <Export-Package> or <Private-Package> instructions match packages inside the embedded jar, you will see some duplication inside the bundle. This is because the <Export-Package> and <Private-Package> instructions will result in classes being inlined in the bundle, even though they also exist inside the embedded jar. If you want to export packages from an embedded dependency without such duplication then you can either inline the dependency, or use a new BND instruction called <_exportcontents>.
<_exportcontents> behaves just like Export-Package, except it doesn't change the content of the bundle, just what content should be exported.
OBR integration
The latest Maven Bundle Plugin automatically updates the local OBR repository.xml file during the install phase, using a default location of:
<LOCAL-MAVEN-REPOSITORY>/repository.xml
You can configure the location of the OBR repository by using the command line:
mvn clean install -DobrRepository=<PATH_TO_OBR>
or in the configuration section for the maven-bundle-plugin in your Maven POM:
<groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <obrRepository>PATH_TO_OBR</obrRepository> <instructions> <!-- bnd instructions --> </instructions> </configuration>
to disable OBR installation set the obrRepository to NONE, for example:
<groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <obrRepository>NONE</obrRepository> <instructions> <!-- bnd instructions --> </instructions> </configuration>
Eclipse/PDE integration
It is possible to configure the Maven Bundle Plugin to put the bundle manifest where Eclipse/PDE expects it, and use the Maven Dependency Plugin to arrange for any embedded dependencies to appear in a local directory that matches the Bundle-ClassPath entries. Here is an example POM that does this:
<project> <properties> <bundle.symbolicName>org.example</bundle.symbolicName> <bundle.namespace>org.example</bundle.namespace> </properties> <modelVersion>4.0.0</modelVersion> <groupId>examples</groupId> <artifactId>org.example</artifactId> <version>1.0-SNAPSHOT</version> <name>${bundle.symbolicName} [${bundle.namespace}]</name> <packaging>bundle</packaging> <build> <resources> <resource> <directory>src/main/resources</directory> </resource> <resource> <directory>.</directory> <includes> <include>plugin.xml</include> </includes> </resource> </resources> <plugins> <plugin> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <version>1.2.1</version> <extensions>true</extensions> <!-- the following instructions build a simple set of public/private classes into an OSGi bundle --> <configuration> <manifestLocation>META-INF</manifestLocation> <instructions> <Bundle-SymbolicName>${bundle.symbolicName}</Bundle-SymbolicName> <Bundle-Version>${pom.version}</Bundle-Version> <!-- assume public classes are in the top package, and private classes are under ".internal" --> <Export-Package>!${bundle.namespace}.internal.*,${bundle.namespace}.*;version="${pom.version}"</Export-Package> <Private-Package>${bundle.namespace}.internal.*</Private-Package> <Bundle-Activator>${bundle.namespace}.internal.ExampleActivator</Bundle-Activator> <!-- embed compile/runtime dependencies using path that matches the copied dependency folder --> <Embed-Dependency>*;scope=compile|runtime;inline=false</Embed-Dependency> <Embed-Directory>target/dependency</Embed-Directory> <Embed-StripGroup>true</Embed-StripGroup> </instructions> </configuration> </plugin> <plugin> <artifactId>maven-dependency-plugin</artifactId> <executions> <execution> <id>copy-dependencies</id> <phase>package</phase> <goals> <goal>copy-dependencies</goal> </goals> </execution> </executions> </plugin> </plugins> </build> <dependencies> <dependency> <groupId>org.osgi</groupId> <artifactId>osgi_R4_core</artifactId> <version>1.0</version> <scope>provided</scope> <optional>true</optional> </dependency> <dependency> <groupId>org.osgi</groupId> <artifactId>osgi_R4_compendium</artifactId> <version>1.0</version> <scope>provided</scope> <optional>true</optional> </dependency> <dependency> <groupId>junit</groupId> <artifactId>junit</artifactId> <version>3.8.1</version> <scope>compile</scope> <optional>true</optional> </dependency> </dependencies> </project>
To generate the Eclipse metadata use:
mvn clean package eclipse:eclipse -Declipse.pde install
and you should now be able to import this as an existing Eclipse project.
FYI: the above POM was generated using the pax-create-bundle command from Pax-Construct and then tweaked to demonstrate using the Maven Dependency Plugin to handle embedded jars in Eclipse.
With the original Pax-Construct generated POM you would simply use:
mvn clean package pax:eclipse
to create the appropriate Eclipse files and manifest, and also handle any embedded entries. The pax:eclipse goal extends eclipse:eclipse, and supports the same parameters.
Unpacking bundle contents to 'target/classes'
Once in a while you may create a bundle which contains additional classes to the ones compiled from src/main/java, for example when you embed the classes from another jar. This can sometimes cause unforeseen problems in Maven, as it will use the output directory (target/classes) rather than the final bundle, when compiling against projects in the same reactor (ie. the same build).
The easiest way to get around this Maven 'feature' is to unpack the contents of the bundle to the output directory after the packaging step, so the additional classes will be found where Maven expects them. Thankfully there is now an easy option to do this in the bundle-plugin:
<groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <extensions>true</extensions> <configuration> <unpackBundle>true</unpackBundle> <instructions> <!-- bnd instructions --> </instructions> </configuration>
Using an existing MANIFEST.MF file
If you have an existing manifest, you can add this to the Bnd instructions, like so:
<_include>src/main/resources/META-INF/MANIFEST.MF</_include> <Export-Package>org.example.*</Export-Package>
Bnd will use it when calculating the bundle contents, and will also
copy across all manifest attributes starting with a capital letter.
As shown in the above example, you could use this to include a non-OSGi
manifest which you then customize with extra OSGi attributes.
The following features are only available from version 1.4.0 onwards
bundle:ant
The ant goal creates a customized build.xml Ant script along with a collection of BND instructions and properties, taken from the current project and stored in maven-build.bnd. You also need to run ant:ant to create the standard Ant support tasks to download Maven dependencies and perform compilation, etc.
The customized Ant script uses the BND tool to rebuild the bundle, so any source changes should be reflected in the (re)generated manifest.
Example:
mvn ant:ant bundle:ant ant clean package
bundle:install-file
The install-file goal updates the local OBR with the details of a bundle from the local filesystem.
configuration:
- obrRepository path to local OBR, defaults to <local-maven-repository>/repository.xml
- groupId Maven groupId for the bundle, taken from pomFile if given
- artifactId Maven artifactId for the bundle, taken from pomFile if given
- version Maven version for the bundle, taken from pomFile if given
- packaging Maven packaging type for the bundle, taken from pomFile if given
- classifier Maven classifier type, defaults to none
- pomFile optional Pom file describing the bundle
- file bundle file, defaults to the bundle from the local Maven repository
- obrXml optional additional properties for the bundle
Example:
mvn org.apache.felix:maven-bundle-plugin:1.4.0:install-file \ -DpomFile=myPom.xml -Dfile=foo-1.0.jar
bundle:deploy
The deploy goal updates the remote OBR with the details of the deployed bundle from the local Maven repository. The remote OBR is found by querying the <distributionManagement> section of the project, unless -DaltDeploymentRepository is set. See http://maven.apache.org/plugins/maven-deploy-plugin/deploy-mojo.html for more details about these particular settings.
(If the project has an obr.xml file somewhere in its resources, then it will be automatically detected and applied.)
configuration:
- remoteOBR name of remote OBR, defaults to NONE (which means no remote OBR deployment)
- obrRepository used when the remoteOBR name is blank, defaults to repository.xml
- altDeploymentRepository alternative remote repository, id::layout::url
- ignoreLock ignore remote locking when updating the OBR
This goal is part of the "bundle" packaging lifecycle, but is disabled by default - to enable just set the remoteOBR parameter.
bundle:deploy-file
The deploy-file goal updates the remote OBR with the details of a deployed bundle from the local filesystem. The remote OBR is found using the -DrepositoryId and -Durl parameters. See http://maven.apache.org/plugins/maven-deploy-plugin/deploy-file-mojo.html for more details about these particular settings.
You can use the -DbundleUrl parameter to give the public location of the deployed bundle, which may differ from the remote OBR location.
configuration:
- remoteOBR name of remote OBR, defaults to an empty string
- obrRepository used when the remoteOBR name is blank, defaults to repository.xml
- repositoryId optional repository id, used to lookup authentication settings
- url remote repository transport URL, like
scpexe://host/path/to/obr
- bundleUrl public URL of deployed bundle, like
http://www.foo.org/bundles/foo.jar
- groupId Maven groupId for the bundle, taken from pomFile if given
- artifactId Maven artifactId for the bundle, taken from pomFile if given
- version Maven version for the bundle, taken from pomFile if given
- packaging Maven packaging type for the bundle, taken from pomFile if given
- classifier Maven classifier type, defaults to none
- pomFile optional Pom file describing the bundle
- file bundle file, defaults to the bundle from the local Maven repository
- obrXml optional additional properties for the bundle
- ignoreLock ignore remote locking when updating the OBR
Example:
mvn org.apache.felix:maven-bundle-plugin:1.4.0:deploy-file \ -DpomFile=myPom.xml -Dfile=foo-1.0.jar -Durl=file:/tmp/example/OBR \ -DbundleUrl=http://www.foo.org/bundles/foo.jar
bundle:clean
Sometimes you would like to clean your local OBR because it contains bundles that are no longer in your local Maven repository. This case often occurs when artifacts were deleted manually. The maven-bundle-plugin provides a simple goal to check for missing bundles, and remove them from the local OBR.
configuration:
- obrRepository path to local OBR, defaults to <local-maven-repository>/repository.xml
Example:
mvn bundle:clean
Concurrent updates
With a remote OBR, several uploads may occur at the same time. However, the remote OBR is centralized in one file, so concurrent modification must be avoided. To achieve this, the plug-in implements a locking system. Each time the plug-in tries to modify the file it sets a file based lock. If it can't take the lock, it will wait and retry. After 3 attempts the upload process fails. To bypass this lock add -DignoreLock to the command-line (or add <ignoreLock>true<ignoreLock> to the configuration section of your Pom).
FTP protocol
Not all protocols are supported by Maven out of the box. For example the ftp protocol requires the wagon-ftp component. To enable the ftp protocol add this to your Pom:
<build> <extensions> <extension> <groupId>org.apache.maven.wagon</groupId> <artifactId>wagon-ftp</artifactId> <version>1.0-alpha-6</version> </extension> </extensions> </build>
How the plug-in computes the description of the bundle
The description of the bundle comes from three different sources:
- Bindex : Bindex is a tool that analyzes a bundle manifest to generate OBR description
- pom.xml : by analyzing the pom file, various information is collected (symbolic name ...)
- obr.xml : this file contains customized description and capabilities for the bundle
These sources are merged together using the following precedence:
Bindex | (overrides) pom.xml | (overrides) obr.xml
A warning message is displayed when existing information is overridden.
Known issues & limitations
- obr.xml (file given by the user to add properties not found by Bindex) must be correct, because the plug-in does not check its syntax.
Feedback
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