Garbage collection system in MuranoPL¶
A garbage collection system (GC) manages the deallocation of resources in
murano. The garbage collection system implementation is based on the execution
.destroy() methods that you may define in MuranoPL classes.
These methods contain logic to deallocate any resources that were allocated
by MuranoPL objects. During deployment all objects that are not referenced by
any other object and that are not present in the object model anymore is deleted
.destroy()methods are executed for each class in the class hierarchy of the object that has this method. Child classes cannot prevent parent classes
.destroyfrom being called and cannot call base classes implementation manually
.destroy()methods for class hierarchy are called in reversed order from that of
.init()- starting from the actual object type and up to the io.murano.Object class
If object Bar is owned (directly or indirectly) by object Foo then Bar is going to be destroyed before Foo. There is a way for Foo to get notified on Bar’s destruction so that it can prepare for it. See below for details.
For objects that are not related to each other the destruction order is undefined. However objects may establish destruction dependency between them to establish the order.
Unrelated objects might be destroyed in different green threads.
Any exceptions thrown in the
.destroy()methods are muted (but still logged).
Destruction dependencies may be used to notify Foo of Bar’s destruction even if Bar is not owned by Foo. If you subscribe Foo to Bar’s destruction, the following will happen:
Foo will be notified when Bar is about to be destroyed.
If both Foo and Bar are going to be destroyed in the same garbage collection execution, Bar will be destroyed before Foo.
Garbage collector methods¶
Murano garbage collector class (
the following methods:
Initiates garbage collection of unreferenced objects of current deployment. Usually, it is called by murano
ObjectStoreobject during deployment. However, it can be called from MuranoPL code like
Checks if the
objectwas already destroyed during a GC session and thus its methods cannot be called.
Can be used within the
.destroy()method to check if another object is also going to be destroyed.
subscribeDestruction(publisher, subscriber, handler=null)
Establishes a destruction dependency from the
subscriberto the object passed as
publisher. This method may be called several times with the same arguments. In this case, only a single destruction dependency will be established. However, the same amount of calls of
unsubscribeDestructionwill be required to remove it.
handlerargument is optional. If passed, it should be the name of an instance method defined by the caller class to handle the notification of
publisherdestruction. The following argument will be passed to the
A target object that is going to be destroyed. It is not recommended persisting the reference to this object anywhere. This will not prevent the object from being garbage collected but the object will be moved to the “destroyed” state. This is an advanced feature that should not be used unless it is absolutely necessary.
unsubscribeDestruction(publisher, subscriber, handler=null)
Removes the destruction dependency from the
subscriberto the object passed as
publisher. The method may be called several times with the same arguments without any side effects. If
subscribeDestructionwas called more than once, the same (or more) amount of calls to
unsubscribeDestructionis needed to remove the dependency.
handlerargument is optional and must correspond to the handler passed during subscription if it was provided.
Using destruction dependencies¶
To use direct destruction dependencies in your murano applications, use the
methods from MuranoPL
io.murano.system.GC. To establish a
destruction dependency, call the
io.murano.system.GC.subscribeDestruction method in you
.init: Body: - If: $.publisher Then: - sys:GC.subscribeDestruction($.publisher, $this, onPublisherDestruction)
In the example above,
onPublisherDestruction is a Foo object method that
will be called when Bar is destroyed. If you do not want to do something
specific with the destroyed object omit the third parameter.
The destruction dependencies will be persisted between deployments and
deserialized from the objects model to murano object.