I would like to know what is "Activate this plug-in when one of its classes is loaded" check-box in Eclipse manifest editor useful for.
I thought Eclipse always use "lazy initialization" approach. Does have this option a relation to the BundleActivator class of the plugin? is initialization something different to activation?
Here is a similar question, but I don't understand it entirely.
Ticking the box causes the following header to be set in the manifest:
Bundle-ActivationPolicy: lazy
I'll start with how "pure" OSGi deals with this. IF the bundle is started with the START_ACTIVATION_POLICY flag then the bundle enters the STARTING state but the activator's start() method is not invoked and a ClassLoader is not allocated for the bundle. The bundle stays in STARTING until, for whatever reason, a class needs to be loaded from the bundle. At that point a ClassLoader is allocated and the activator (if any) is instantiated and its start() method is invoked before the requested class is loaded.
However Eclipse layers additional semantics on the top. As background, Eclipse always tries to avoid starting bundles in order to keep its start-up time minimal. A very small core set of bundles is started by default (the list is in configuration/config.ini) and one of these is called the p2 "simpleconfigurator". The simpleconfigurator looks for bundles that have the Bundle-ActivationPolicy:lazy header and it starts them with the START_ACTIVATION_POLICY flag... therefore these bundles will be "lazily" started as described above.
The important point is that all other bundles that do not contain the header will not be started at all under Eclipse. They will stay in RESOLVED state, their activators will not be invoked, and if they contain any Declarative Services component they will not be loaded. This is because Declarative Services only ever looks at bundles that are in ACTIVE or STARTING state.
Therefore the main reason to use the header is if we want to write a bundle containing Declarative Services components that need to work under Eclipse.
In other environments there is no need to use the header. Most normal OSGi apps simply start all bundles, rather than trying to selectively start a subset of bundles. Note that this doesn't mean OSGi apps don't worry about lazy loading! Declarative Services already supports lazy loading without messing around with bundle class loading triggers. In my opinion Eclipse gets this wrong and has added unnecessary complexity to the bundle lifecycle. Nevertheless if you are running in Eclipse then you have no choice but to understand and work with its limitation.
Related
I'm creating a Liferay 7.1 OSGi bundle, which has some external dependencies in it. In consideration of time, we opted to embed the external JAR in our OSGi Bundle. I've managed to create a bnd file, which includes all of the ElasticSearch dependencies, and put them on the bundle classpath. I've used the source-code from github (https://github.com/liferay/liferay-portal/blob/master/modules/apps/portal-search-elasticsearch6/portal-search-elasticsearch6-impl/build.gradle) and the bnd.bnd file, to check what's imported.
When activating the bundle, an exception is thrown:
The activate method has thrown an exception
java.util.ServiceConfigurationError: org.elasticsearch.common.xcontent.XContentBuilderExtension: Provider org.elasticsearch.common.xcontent.XContentElasticsearchExtension not a subtype
at java.util.ServiceLoader.fail(ServiceLoader.java:239)
at java.util.ServiceLoader.access$300(ServiceLoader.java:185)
at java.util.ServiceLoader$LazyIterator.nextService(ServiceLoader.java:376)
at java.util.ServiceLoader$LazyIterator.next(ServiceLoader.java:404)
at java.util.ServiceLoader$1.next(ServiceLoader.java:480)
at org.elasticsearch.common.xcontent.XContentBuilder.<clinit>(XContentBuilder.java:118)
at org.elasticsearch.common.settings.Setting.arrayToParsableString(Setting.java:1257)
The XContentBuilderExtension is from the elasticsearch-x-content-6.5.0.jar,
the XContentElasticsearchExtension class, is included in the elasticsearch-6.5.0.jar. Both are Included Resources, and have been put on the classpath.
The Activate-method initializes a TransportClient in my other jar, hence it happens on activation ;).
Edit:
I've noticed that this error does NOT occur when installing this the first time, or when the portal restarts. So it only occurs when I uninstall and reinstall the bundle. (This is functionality I really prefer to have!). Maybe a stupid thought.. But could it be that there is some 'hanging thread'? That the bundle is not correctly installed, or that the TransportClient still is alive? I'm checking this out. Any hints are welcome!
Edit 2:
I'm fearing this is an incompatibility between SPI and OSGi? I've checked: The High Level Rest Client has the same issue. (But then with another Extension). I'm going to try the Low-Level Rest Client. This should work, as there are minimal dependencies, I'm guessing. I'm still very curious on why the incompatibility is there. I'm certainly no expert on OSGi, neither on SPI. (Time to learn new stuff!)
Seems like a case where OSGi uses your bundle to solve a dependency from another bundle, probably one that used your bundle to solve a package when the system started.
Looking at the symptoms: it does not occur when booting or restarts. Also it is not a subtype.
When OSGi uses that bundle to solve a dependency, it will keep a copy around, even when you remove it. When the bundle comes back a package that was previously used by another bundle may still be around and you can have the situation where a class used has two version of itself, from different classloaders, meaning they are not the same class and therefore, not a subtype.
Expose only the necessary to minimize the effects of this. Import only if needs importing. If you are using Liferay Gradle configuration to include the bundle inside, stop - it's a terrible way to include as it exposes a lot. If using the bnd file to include a resource and create an entry for the adicional classpath location, do not expose if not necessary. If you have several bundles using one as dependency, make sure about the version they use and if the exchange objects from the problematic class, if they do, than extra care is required.
PS: you can include attributes when exporting and/or importing in order to be more specific and avoid using packages from the wrong origin.
You can have 2 elastic search connections inside one Java app and Liferay is by default not exposing the connection that it holds.
A way around it is to rebuild the Liferay ES connector. It's not a big deal because you don't need to change the code only the OSGi descriptor to expose more services.
I did it in one POC project and worked fine. The tricky thing is to rebuild the Liferay jar but that was explained by Pettry by his google like search blog posts. https://community.liferay.com/blogs/-/blogs/creating-a-google-like-search (it is a series but it's kind of hard to navigate in the new Liferay blogs but Google will probably help) Either way it is all nicely documented here https://github.com/peerkar/liferay-gsearch
the only thing then what needs to be done is to add org.elasticsearch.* in the bnd.bnd file in the export section. You will then be able to work with the native elastic API.
To get started with OSGi, thought of asking this since this become unclear to me.
If you have runtime code change as a requirement, OSGi is probably the only possible way to achieve this using Java.
from https://mondula.com/2016/01/11/osgi-benefits-and-drawbacks/
How the runtime flexibility is maintained in OSGi technically?
This is a large question that would be impractical to fully answer here. The following is a simplified overview.
OSGi allocates a Java ClassLoader for each resolved bundle. When a bundle is updated, OSGi first sends a stop signal to the bundle, allowing it to release resources and prepare to be garbage collected.
The new bundle is then re-resolved against its requirements, which may have changed compared to the previous version. Assuming the new version still resolves (i.e. its requirements are still satisfied) then OSGi allocates a new ClassLoader, uses that to load the classes in the bundle, and if the bundle has an activator and was in ACTIVE state before the update, sends a start signal to the newly loaded activator.
I have a problem on 2.2.8 version of Karaf (and most probably on the earlier versions too).
I'm going to use Karaf to host the system with dynamically deployed bundles. Bundles are deployed by users and i cannot know beforehand which are they.
I expect order of the BundleActivator.start() to exactly correspond to package dependencies between bundles (dependencies of import/export packages) and planning to expect that it will be safe to assume that bundle0 will be completely initialized before bundle1 is going to be started. But it is not so - it seems that BundleActivator.start() is invoked in a "random" order and disregards package dependencies between bundles.
Sample use-case, I have 3 libs
test-lib0 - defines testlib0.ITestRoot, exports testlib0 package
test-lib1 - defines testlib1.TestRoot implements ITestRoot, exports testlib1 package
test-lib2 - uses both libs, ITestRoot and TestRoot
When Karaf is started, i see following sample output in console
karaf#root> TestLib1Activator.start()
TestLib2Activator.start()
ITestRoot: interface com.testorg.testlib0.ITestRoot - 16634462
TestRoot: class com.testorg.testlib1.TestRoot - 21576551
TestLib0Activator.start()
but i expect it should be always in this order
TestLib0Activator.start()
TestLib1Activator.start()
TestLib2Activator.start()
ITestRoot: interface com.testorg.testlib0.ITestRoot - 16634462
TestRoot: class com.testorg.testlib1.TestRoot - 21576551
I'm attaching sample project for tests. Test case: after "mvn install" just move jars from ./deploy folder to the same folder of Karaf, trace messages should appear in console.
(Note: it may work correctly from the first attempt, try one more time then :))
Sample test project
http://karaf.922171.n3.nabble.com/file/n4025256/KarafTest.zip
Note: this is cross-post from http://karaf.922171.n3.nabble.com/What-is-the-natural-start-order-for-dependent-bundle-td4025256.html
In OSGi the bundle lifecycle is installed → resolved → starting → started.
Import-Package and Export-Package only influence when the bundle goes from installed to resolved. So the framework makes sure all bundles you import packages from are resolved before your bundle but then your bundle only goes to the resolved state. Then in a second step the activators are called. So you can not assume the activators are called in the same order. If you need some initializations before your testlib2 can work then you should use OSGi services.
So If I understood your case correctly then you testlib0 defines an interface, testlib1 implements it and testlib2 wants to use the implementation. So the best way to achieve this is to publish the impl as an OSGi service in testlib1 and reference this service in testlib3. You can then use the service with a ServiceTracker or with e.g. blueprint. I have a small example that shows this: http://www.liquid-reality.de/x/DIBZ . So if you do your case like in my example blueprint makes sure that the context of testlib2 only gets started when the service is there. It will even stop testlib2 when the service goes away.
I'd like to create a Configuration object in OSGi, but one that won't be persisted, so it won't be there when the framework is restarted. Similar to START_TRANSIENT for bundles.
Some background: I've got an OSGi (Felix) based client side application, deployed over OBR. The configuration object I'm talking about effectively boots the application. That works fine, but sometimes the content has changed while the context was stopped. In that case, it boots the application as OSGi revives all bundles and adds all configuration options. Then I inject the correct configuration, the application stops and then restarts again.
So it does actually work, but the app starts twice, and I can't get access to the framework before it reconstructs its old state.
Any ideas?
As BJ said there is no standard support for this in the Configuration Admin spec.
However the Felix implementation supports two features which may help you. First, you can set the felix.cm.dir property which configures where the configadmin saves its internal state (which by default will be somewhere under the Framework storage directory). You could set this to a location that you control and then simply wipe it every time you start OSGi (you could also wipe out the entire OSGi Framework storage directory on every start... some people do this but it has wider consequences that what you asked for).
Second, if you need a bit more control, Felix ConfigAdmin supports customising its persistence with a PersistenceManager service. You could probably implement this and return empty/doesn't-exist for the particular pids that you want to control.
The OSGi Config Admin spec does not support this. I also do not know of a non-standard means either for any of the CM impls I am familiar with.
Ok, what I did in the end was the following:
I created a special really small 'boot' bundle, which I do not provision from OBR, instead, I install it from the classpath.
That bundle controls the configuration, and I use START_TRANSIENT the moment I really want to load that configuration.
Not exactly pretty, it gets the job done. I do think transient configuration would make sense to have in OSGi.
I have a dynamic application that uses OSGi to load modular functionality at runtime. OSGi bundles contain the modular functionality and the application loads the bundles when they are needed. This approach works okay, but I would like a more granular solution. The bundles contain components controlled through Declarative Services. I'd like to be able to load a bundle, and only enable the components that are needed within the bundle. I've done research in this area, but cannot find a solution that I'm satisfied with. One approach was to create a "gatekeeper" component that is always enabled in the bundle and through the ComponentContext let it call enable and disable component. It's a viable solution, but I could not figure out a way for the "gatekeeper" to "know about" the other components in the bundle without hard coding the component names as properties in the "gatekeepers" SCR xml descriptor.
What I prefer is a way to load bundles and "know about" all components within the loaded bundles. Be able to determine what bundle the components are located in and what state they are currently in (similar to the equinox console command 'ls' that lists out all components). I would like to enable and disable the components when needed.
How does the console do this and how could I do this in an application?
Update:
#Neil Bartlett: Sorry for the delay. I had to move on to something else. Now I'm back on this issue. Really would appreciate any further assistance. My application is role based. I need to enable components based on the functionality they provide. The goal is for all role based components to initially be disabled. Upon role change, a role manager polls each component for its provided functionality and determines whether to load it. Each component will broadcast what functionality it provides (through a common service interface). ScrService will not allow me to enable an initially disabled service component. Having the components initially enabled and let ScrService disable them as soon as possible during application startup does not fit my needs.
Have a look at ScrService. Bothe equinox and felix has it.
However, components can be made to load lazily, i.e. only when needed by other components/bundles; but that is perhaps not what you want.
In your service description, mark the components as enabled, but requiring configuration information provided by the Configuration Management service. you then can write a CM plugin service (can't remember the exact term) that can publish and modify the configuration of your components. Services by default are identified by their name, which by default is their implementation class name. Configuration data is passed as a map, and it can be empty. DS will make the service available as soon as the CM provides a configuration.
I have a similar issue, but for a different purpose:
- I have apache file install and configuration admin service to configure my components externally with property files.
- I needed to make sure that some components get the config from the outer file and the only way I've found so far is that I mark my components with ConfigurationPolicy.REQUIRED.
- But that way my plugin projects doesn't run in eclipse (where there are no config files).
- The component.xml also contains a default development configuration so I'm okay with that, just my component doesn't start until there is a config data avalilable with configadmin. My components ar unsatisfied this way, until someone creates a configadmin entry.
- I figured out that if I create a osgi command line extender that sends empty configurations to service pid's they would start up with default values in component.xml files.
- I just came here to find a way to list all bundles
But I think this solution I use can also work with your setup and that's why I write this.
Just mark all your components with the configurtationpolicy.require and you can selectively start and stop them with adding and removing configurations with configadmin. This could be hard if you already use the configadmin for other purposes too, but it may be managable as a last resort.