Package org.apache.felix.scr.integration.components

Examples of org.apache.felix.scr.integration.components.SimpleComponent

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        configure( pid );
        delay();//let cm thread finish before enabling.
       
        getDisabledConfigurationAndEnable(pid, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertEquals( 1, comp10.m_multiRef.size() );
        TestCase.assertEquals( srv1, comp10.m_multiRef.iterator().next() );
        TestCase.assertEquals( 1, comp10.m_multiRefBind );
        TestCase.assertEquals( 0, comp10.m_multiRefUnbind);

        // update configuration to target srv2
        theConfig.put("ref.target", "(value=srv2)");
        configure( pid );

        delay();
        // should bind to srv2
        SimpleComponent comp20;
        if ( dynamic )
        {
            TestCase.assertEquals( 1, comp10.m_modified );
            comp20 = comp10;
            TestCase.assertEquals( 2, comp20.m_multiRefBind );
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        final ComponentInstance instance = factory.newInstance( props );
        TestCase.assertNotNull( instance );
        TestCase.assertNotNull( instance.getInstance() );
        TestCase.assertEquals( SimpleComponent.INSTANCE, instance.getInstance() );

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertEquals( srv1, comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.isEmpty() );
        TestCase.assertEquals( 1, comp10.m_singleRefBind );
        TestCase.assertEquals( 0, comp10.m_singleRefUnbind);

        // update configuration to target srv2
        theConfig.put("ref.target", "(value=srv2)");
        configure( pid );

        delay();
        // should bind to srv2
        SimpleComponent comp20;
        if ( dynamic )
        {
            //fails here, config modifications are not propagated to instances from factory.
            TestCase.assertEquals( 1, comp10.m_modified );
            comp20 = comp10;
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        doTest("MultipleStaticReluctant");
    }

    protected void doTest(String componentName) throws Exception
    {
        ServiceRegistration dep1Reg = register(new SimpleComponent(), 0);
        ServiceRegistration dep2Reg = register(new SimpleComponent2(), 1000);
       
        final ComponentDescriptionDTO main = findComponentDescriptorByName(componentName);
        TestCase.assertNotNull(main);

        asyncEnable(main); //needs to be async
        delay(300); //dep2 getService has not yet returned
        dep1Reg.unregister();
        delay(2000); //dep2 getService has returned

        Felix4350Component.check(0, 0, false);

        dep1Reg = register(new SimpleComponent(), 0);
        delay(300);

        Felix4350Component.check(1, 0, true);

        disableAndCheck(main)//does not need to be asyncv??
        dep1Reg.unregister();
        dep2Reg.unregister();

        Felix4350Component.check(1, 1, false);
        dep1Reg = register(new SimpleComponent(), 0);
        dep2Reg = register(new SimpleComponent2(), 1000);
        Felix4350Component.check(1, 1, false);
       
        asyncEnable(main); //needs to be async
        delay(300);
        dep1Reg.unregister();
        delay(100);
        dep1Reg = register(new SimpleComponent(), 0);
        delay(2000);

        Felix4350Component.check(2, 1, true); //n.b. counts are cumulative
    }
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        {
          TestCase.assertTrue(SimpleComponent.INSTANCES.containsKey(cc.id));
        }

        // dispose an instance
        final SimpleComponent anInstance = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( anInstance );
        TestCase.assertNotNull( anInstance.m_activateContext );
        anInstance.m_activateContext.getComponentInstance().dispose();
        delay();

        // expect one component
        ComponentConfigurationDTO cc = findComponentConfigurationByName(factoryPid, ComponentConfigurationDTO.ACTIVE);

        TestCase.assertEquals( 1, SimpleComponent.INSTANCES.size() );
      TestCase.assertTrue(SimpleComponent.INSTANCES.containsKey(cc.id));

        final SimpleComponent instance = SimpleComponent.INSTANCES.values().iterator().next();

    }
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    {
        final SimpleServiceImpl srv1 = SimpleServiceImpl.create( bundleContext, "srv1" );

        String name ="test_optional_single_dynamic";
        ComponentConfigurationDTO cc = getDisabledConfigurationAndEnable(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertEquals( srv1, comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.isEmpty() );

        srv1.drop();
        // no delay, should be immediate

        final SimpleComponent comp11 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp10, comp11 );
        TestCase.assertNull( comp11.m_singleRef );
        TestCase.assertTrue( comp11.m_multiRef.isEmpty() );

        final SimpleServiceImpl srv2 = SimpleServiceImpl.create( bundleContext, "srv2", 2 );
        delay(); // async binding

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp12 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp10, comp12 );
        TestCase.assertEquals( srv2, comp12.m_singleRef );
        TestCase.assertTrue( comp12.m_multiRef.isEmpty() );

        disableAndCheck(cc);

        final SimpleServiceImpl srv3 = SimpleServiceImpl.create( bundleContext, "srv3", 2 );

        // enable component with two services available of same ranking, expect srv2 bind
        // async enabling
        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp20 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp20 );
        TestCase.assertNotSame( comp10, comp20 );
        TestCase.assertEquals( srv2, comp20.m_singleRef );
        TestCase.assertTrue( comp20.m_multiRef.isEmpty() );

        // drop srv2, expect rebind to srv3 (synchronously)
        srv2.drop();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp21 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp21 );
        TestCase.assertEquals( srv3, comp21.m_singleRef );
        TestCase.assertTrue( comp21.m_multiRef.isEmpty() );

        // create srv4, expect greedy rebind
        final SimpleServiceImpl srv4 = SimpleServiceImpl.create( bundleContext, "srv4", 4 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp22 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp22 );
        TestCase.assertEquals( srv4, comp22.m_singleRef );
        TestCase.assertTrue( comp22.m_multiRef.isEmpty() );

        // drop srv4 again, expect rebind to srv3
        srv4.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp23 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp23 );
        TestCase.assertEquals( srv3, comp23.m_singleRef );
        TestCase.assertTrue( comp23.m_multiRef.isEmpty() );

        // "reset"
        disableAndCheck(cc);
        srv3.drop();
        delay();

        // two services with service ranking (srv6 > srv5)
        final SimpleServiceImpl srv5 = SimpleServiceImpl.create( bundleContext, "srv5", 10 );
        final SimpleServiceImpl srv6 = SimpleServiceImpl.create( bundleContext, "srv6", 20 );

        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp30 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp30 );
        TestCase.assertEquals( srv6, comp30.m_singleRef );
        TestCase.assertTrue( comp30.m_multiRef.isEmpty() );

        // another service with higher ranking -- greedy rebind !
        final SimpleServiceImpl srv7 = SimpleServiceImpl.create( bundleContext, "srv7", 30 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp31 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp31 );
        TestCase.assertEquals( srv7, comp31.m_singleRef );
        TestCase.assertTrue( comp31.m_multiRef.isEmpty() );

        // srv6 goes, rebind to srv7
        srv6.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp32 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp32 );
        TestCase.assertEquals( srv7, comp32.m_singleRef );
        TestCase.assertTrue( comp32.m_multiRef.isEmpty() );
    }
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        final SimpleServiceImpl srv1 = SimpleServiceImpl.create( bundleContext, "srv1", 1 );

        String name ="test_required_single_dynamic";
        ComponentConfigurationDTO cc = getDisabledConfigurationAndEnable(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertEquals( srv1, comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.isEmpty() );

        srv1.drop();
        // no delay, should be immediate

        findComponentConfigurationByName(name, ComponentConfigurationDTO.UNSATISFIED_REFERENCE);
        final SimpleComponent comp11 = SimpleComponent.INSTANCE;
        TestCase.assertNull( comp11 );

        final SimpleServiceImpl srv2 = SimpleServiceImpl.create( bundleContext, "srv2", 2 );
        delay(); // async binding

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp12 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp10, comp12 );
        TestCase.assertEquals( srv2, comp12.m_singleRef );
        TestCase.assertTrue( comp12.m_multiRef.isEmpty() );

        disableAndCheck(cc);
        delay(); // async disabling

        final SimpleServiceImpl srv3 = SimpleServiceImpl.create( bundleContext, "srv3", 2 );

        // enable component with two services available of same ranking, expect srv2 bind
        // async enabling
        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp20 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp20 );
        TestCase.assertNotSame( comp10, comp20 );
        TestCase.assertEquals( srv2, comp20.m_singleRef );
        TestCase.assertTrue( comp20.m_multiRef.isEmpty() );

        // drop srv2, expect rebind to srv3 (synchronously)
        srv2.drop();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp21 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp21 );
        TestCase.assertEquals( srv3, comp21.m_singleRef );
        TestCase.assertTrue( comp21.m_multiRef.isEmpty() );

        // create srv4, expect no rebind
        final SimpleServiceImpl srv4 = SimpleServiceImpl.create( bundleContext, "srv4", 2 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp22 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp22 );
        TestCase.assertEquals( srv3, comp22.m_singleRef );
        TestCase.assertTrue( comp22.m_multiRef.isEmpty() );

        // drop srv4 again, expect no rebind
        srv4.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp23 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp23 );
        TestCase.assertEquals( srv3, comp23.m_singleRef );
        TestCase.assertTrue( comp23.m_multiRef.isEmpty() );

        // "reset"
        disableAndCheck(cc);
        srv3.drop();
        delay();

        // two services with service ranking (srv6 > srv5)
        final SimpleServiceImpl srv5 = SimpleServiceImpl.create( bundleContext, "srv5", 10 );
        final SimpleServiceImpl srv6 = SimpleServiceImpl.create( bundleContext, "srv6", 20 );

        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp30 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp30 );
        TestCase.assertEquals( srv6, comp30.m_singleRef );
        TestCase.assertTrue( comp30.m_multiRef.isEmpty() );

        // another service with higher ranking --  greedy rebind !
        final SimpleServiceImpl srv7 = SimpleServiceImpl.create( bundleContext, "srv7", 30 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp31 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp31 );
        TestCase.assertEquals( srv7, comp31.m_singleRef );
        TestCase.assertTrue( comp31.m_multiRef.isEmpty() );

        // srv6 goes, no rebind to srv7
        srv6.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp32 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp32 );
        TestCase.assertEquals( srv7, comp32.m_singleRef );
        TestCase.assertTrue( comp32.m_multiRef.isEmpty() );
    }
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        final SimpleServiceImpl srv1 = SimpleServiceImpl.create( bundleContext, "srv1" );

        String name ="test_optional_multiple_dynamic";
        ComponentConfigurationDTO cc = getDisabledConfigurationAndEnable(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertNull( comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.contains( srv1 ) );

        srv1.drop();
        // no delay, should be immediate

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp11 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp10, comp11 );
        TestCase.assertNull( comp11.m_singleRef );
        TestCase.assertTrue( comp11.m_multiRef.isEmpty() );

        final SimpleServiceImpl srv2 = SimpleServiceImpl.create( bundleContext, "srv2" );
        delay(); // async binding

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp12 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp10, comp12 );
        TestCase.assertNull( comp12.m_singleRef );
        TestCase.assertTrue( comp12.m_multiRef.contains( srv2 ) );

        disableAndCheck(cc);
        delay(); // async disabling

        final SimpleServiceImpl srv3 = SimpleServiceImpl.create( bundleContext, "srv3" );

        // enable component with two services available, expect both bind
        // async enabling
        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp20 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp20 );
        TestCase.assertNotSame( comp10, comp20 );
        TestCase.assertNull( comp20.m_singleRef );
        TestCase.assertTrue( comp20.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp20.m_multiRef.contains( srv3 ) );

        srv2.drop();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp21 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp21 );
        TestCase.assertNull( comp21.m_singleRef );
        TestCase.assertFalse( comp21.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp21.m_multiRef.contains( srv3 ) );

        // create srv4, expect bind
        final SimpleServiceImpl srv4 = SimpleServiceImpl.create( bundleContext, "srv4" );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp22 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp22 );
        TestCase.assertNull( comp22.m_singleRef );
        TestCase.assertFalse( comp22.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp22.m_multiRef.contains( srv3 ) );
        TestCase.assertTrue( comp22.m_multiRef.contains( srv4 ) );

        // drop srv4 again, expect no rebind
        srv4.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp23 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp23 );
        TestCase.assertNull( comp23.m_singleRef );
        TestCase.assertFalse( comp23.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp23.m_multiRef.contains( srv3 ) );
        TestCase.assertFalse( comp23.m_multiRef.contains( srv4 ) );

        // "reset"
        disableAndCheck(cc);
        srv3.drop();
        delay();

        // two services with service ranking (srv6 > srv5)
        final SimpleServiceImpl srv5 = SimpleServiceImpl.create( bundleContext, "srv5", 10 );
        final SimpleServiceImpl srv6 = SimpleServiceImpl.create( bundleContext, "srv6", 20 );

        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp30 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp30 );
        TestCase.assertNull( comp30.m_singleRef );
        TestCase.assertTrue( comp30.m_multiRef.contains( srv5 ) );
        TestCase.assertTrue( comp30.m_multiRef.contains( srv6 ) );

        // another service with higher ranking -- no rebind !
        final SimpleServiceImpl srv7 = SimpleServiceImpl.create( bundleContext, "srv7", 30 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp31 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp31 );
        TestCase.assertNull( comp31.m_singleRef );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv5 ) );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv6 ) );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv7 ) );

        // srv6 goes, rebind to srv7
        srv6.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp32 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp32 );
        TestCase.assertNull( comp32.m_singleRef );
        TestCase.assertTrue( comp32.m_multiRef.contains( srv5 ) );
        TestCase.assertFalse( comp32.m_multiRef.contains( srv6 ) );
        TestCase.assertTrue( comp32.m_multiRef.contains( srv7 ) );
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        final SimpleServiceImpl srv1 = SimpleServiceImpl.create( bundleContext, "srv1" );

        String name ="test_required_multiple_dynamic";
        ComponentConfigurationDTO cc = getDisabledConfigurationAndEnable(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertNull( comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.contains( srv1 ) );

        srv1.drop();
        // no delay, should be immediate

        findComponentConfigurationByName(name, ComponentConfigurationDTO.UNSATISFIED_REFERENCE);
        final SimpleComponent comp11 = SimpleComponent.INSTANCE;
        TestCase.assertNull( comp11 );

        final SimpleServiceImpl srv2 = SimpleServiceImpl.create( bundleContext, "srv2" );
        delay(); // async binding

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp12 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp10, comp12 );
        TestCase.assertNull( comp12.m_singleRef );
        TestCase.assertTrue( comp12.m_multiRef.contains( srv2 ) );

        disableAndCheck(cc);
        delay(); // async disabling

        final SimpleServiceImpl srv3 = SimpleServiceImpl.create( bundleContext, "srv3" );

        // enable component with two services available, expect both bind
        // async enabling
        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp20 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp20 );
        TestCase.assertNotSame( comp10, comp20 );
        TestCase.assertNull( comp20.m_singleRef );
        TestCase.assertTrue( comp20.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp20.m_multiRef.contains( srv3 ) );

        srv2.drop();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp21 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp21 );
        TestCase.assertNull( comp21.m_singleRef );
        TestCase.assertFalse( comp21.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp21.m_multiRef.contains( srv3 ) );

        // create srv4, expect bind
        final SimpleServiceImpl srv4 = SimpleServiceImpl.create( bundleContext, "srv4" );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp22 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp22 );
        TestCase.assertNull( comp22.m_singleRef );
        TestCase.assertFalse( comp22.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp22.m_multiRef.contains( srv3 ) );
        TestCase.assertTrue( comp22.m_multiRef.contains( srv4 ) );

        // drop srv4 again, expect no rebind
        srv4.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp23 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp20, comp23 );
        TestCase.assertNull( comp23.m_singleRef );
        TestCase.assertFalse( comp23.m_multiRef.contains( srv2 ) );
        TestCase.assertTrue( comp23.m_multiRef.contains( srv3 ) );
        TestCase.assertFalse( comp23.m_multiRef.contains( srv4 ) );

        // "reset"
        disableAndCheck(cc);
        srv3.drop();
        delay();

        // two services with service ranking (srv6 > srv5)
        final SimpleServiceImpl srv5 = SimpleServiceImpl.create( bundleContext, "srv5", 10 );
        final SimpleServiceImpl srv6 = SimpleServiceImpl.create( bundleContext, "srv6", 20 );

        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp30 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp30 );
        TestCase.assertNull( comp30.m_singleRef );
        TestCase.assertTrue( comp30.m_multiRef.contains( srv5 ) );
        TestCase.assertTrue( comp30.m_multiRef.contains( srv6 ) );

        // another service with higher ranking -- no rebind !
        final SimpleServiceImpl srv7 = SimpleServiceImpl.create( bundleContext, "srv7", 30 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp31 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp31 );
        TestCase.assertNull( comp31.m_singleRef );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv5 ) );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv6 ) );
        TestCase.assertTrue( comp31.m_multiRef.contains( srv7 ) );

        // srv6 goes, rebind to srv7
        srv6.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp32 = SimpleComponent.INSTANCE;
        TestCase.assertSame( comp30, comp32 );
        TestCase.assertNull( comp32.m_singleRef );
        TestCase.assertTrue( comp32.m_multiRef.contains( srv5 ) );
        TestCase.assertFalse( comp32.m_multiRef.contains( srv6 ) );
        TestCase.assertTrue( comp32.m_multiRef.contains( srv7 ) );
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        TestCase.assertNotNull( instance );
        TestCase.assertNotNull( instance.getInstance() );
        TestCase.assertEquals( SimpleComponent.INSTANCE, instance.getInstance() );

        // ensure instance is bound
        final SimpleComponent sc = SimpleComponent.INSTANCE;
        TestCase.assertEquals( 1, sc.m_multiRef.size() );
        TestCase.assertTrue( sc.m_multiRef.contains( srv1 ) );

        // ensure factory is not bound
//        TestCase.assertNull( component.getReferences()[0].getServiceReferences() );
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        final SimpleServiceImpl srv1 = SimpleServiceImpl.create( bundleContext, "srv1" );

        String name ="test_optional_single_static";
        ComponentConfigurationDTO cc = getDisabledConfigurationAndEnable(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp10 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp10 );
        TestCase.assertEquals( srv1, comp10.m_singleRef );
        TestCase.assertTrue( comp10.m_multiRef.isEmpty() );

        srv1.drop();
        delay(); // async reactivate

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp11 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp10, comp11 );
        TestCase.assertNull( comp11.m_singleRef );
        TestCase.assertTrue( comp11.m_multiRef.isEmpty() );

        final SimpleServiceImpl srv2 = SimpleServiceImpl.create( bundleContext, "srv2" );
        delay(); // async binding

        // greedy static reference rebinds
        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);
        final SimpleComponent comp12 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp10, comp12 );
        TestCase.assertNotSame( comp11, comp12 );
        TestCase.assertEquals( srv2, comp12.m_singleRef );
        TestCase.assertTrue( comp12.m_multiRef.isEmpty() );

        disableAndCheck(cc);
        delay(); // async disabling

        final SimpleServiceImpl srv3 = SimpleServiceImpl.create( bundleContext, "srv3" );

        // enable component with two services available, expect srv2 bind
        // async enabling
        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp20 = SimpleComponent.INSTANCE;
        TestCase.assertNotNull( comp20 );
        TestCase.assertNotSame( comp10, comp20 );
        TestCase.assertEquals( srv2, comp20.m_singleRef );
        TestCase.assertTrue( comp20.m_multiRef.isEmpty() );

        // drop srv2, expect rebind to srv3 (synchronously)
        srv2.drop();
        delay(); // async reactivate

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp21 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp21 );
        TestCase.assertEquals( srv3, comp21.m_singleRef );
        TestCase.assertTrue( comp21.m_multiRef.isEmpty() );

        // create srv4 of lower rank, expect no rebind
        final SimpleServiceImpl srv4 = SimpleServiceImpl.create( bundleContext, "srv4", -1 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp22 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp22 );
        TestCase.assertSame( comp21, comp22 );
        TestCase.assertEquals( srv3, comp22.m_singleRef );
        TestCase.assertTrue( comp22.m_multiRef.isEmpty() );

        // drop srv4 again, expect no rebind
        srv4.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp23 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp20, comp23 );
        TestCase.assertSame( comp21, comp23 );
        TestCase.assertSame( comp22, comp23 );
        TestCase.assertEquals( srv3, comp23.m_singleRef );
        TestCase.assertTrue( comp23.m_multiRef.isEmpty() );

        // "reset"
        disableAndCheck(cc);
        srv3.drop();
        delay();

        // two services with service ranking (srv6 > srv5)
        final SimpleServiceImpl srv5 = SimpleServiceImpl.create( bundleContext, "srv5", 10 );
        final SimpleServiceImpl srv6 = SimpleServiceImpl.create( bundleContext, "srv6", 20 );

        enableAndCheck(cc.description);
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp30 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp23, comp30 );
        TestCase.assertEquals( srv6, comp30.m_singleRef );
        TestCase.assertTrue( comp30.m_multiRef.isEmpty() );

        // another service with higher ranking rebind !
        final SimpleServiceImpl srv7 = SimpleServiceImpl.create( bundleContext, "srv7", 30 );
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp31 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp30, comp31 );
        TestCase.assertEquals( srv7, comp31.m_singleRef );
        TestCase.assertTrue( comp31.m_multiRef.isEmpty() );

        // srv6 goes, rebind to srv7
        srv6.drop();
        delay();

        findComponentConfigurationByName(name, ComponentConfigurationDTO.ACTIVE);

        final SimpleComponent comp32 = SimpleComponent.INSTANCE;
        TestCase.assertNotSame( comp30, comp32 );
        TestCase.assertSame( comp31, comp32 );
        TestCase.assertEquals( srv7, comp32.m_singleRef );
        TestCase.assertTrue( comp32.m_multiRef.isEmpty() );
    }
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