Examples of org.apache.cxf.ws.rm.v200702.SequenceAcknowledgement

• org.apache.cxf.ws.rm.v200702.SequenceAcknowledgement
  as.xmlsoap.org/ws/2005/02/rm). This is a complex type.

    @Test
    public void createSoap12FaultWithAcknowledgementDetail() {
        SoapBinding sb = control.createMock(SoapBinding.class);
        EasyMock.expect(sb.getSoapVersion()).andReturn(Soap12.getInstance());
        SequenceAcknowledgement ack = new SequenceAcknowledgement();
        Identifier id = new Identifier();
        id.setValue("sid");
        ack.setIdentifier(id);
        SequenceAcknowledgement.AcknowledgementRange range =
            new SequenceAcknowledgement.AcknowledgementRange();
        range.setLower(new Long(1));
        range.setUpper(new Long(10));
        ack.getAcknowledgementRange().add(range);
        setupSequenceFault(true, RM10Constants.INVALID_ACKNOWLEDGMENT_FAULT_QNAME, ack);
        control.replay();
        SoapFaultFactory factory = new SoapFaultFactory(sb);
        SoapFault fault = (SoapFault)factory.createFault(sf, createInboundMessage());
        assertEquals("reason", fault.getReason());

        store = new RMTxStore();
        store.setDriverClassName("org.apache.derby.jdbc.EmbeddedDriver");
        store.init();

        ack1 = new SequenceAcknowledgement();
        SequenceAcknowledgement.AcknowledgementRange range =
            new SequenceAcknowledgement.AcknowledgementRange();

        range.setLower(ONE);
        range.setUpper(ONE);
        ack1.getAcknowledgementRange().add(range);

        ack2 = new SequenceAcknowledgement();
        range = new SequenceAcknowledgement.AcknowledgementRange();
        range.setLower(ONE);
        range.setUpper(ONE);
        ack2.getAcknowledgementRange().add(range);
        range = new SequenceAcknowledgement.AcknowledgementRange();

        Identifier sid = new Identifier();
        sid.setValue(s);
        EndpointReferenceType epr = RMUtils.createAnonymousReference();

        SequenceAcknowledgement ack = ack1;
        Long lmn = ZERO;

        if ("sequence2".equals(s)) {
            ack = ack2;
            lmn = TEN;

        Identifier sid = seq.getIdentifier();
        assertNotNull(sid);
        assertEquals(s, sid.getValue());
        if ("sequence1".equals(s)) {
            assertEquals(0, seq.getLastMessageNumber());
            SequenceAcknowledgement sa = seq.getAcknowledgment();
            assertNotNull(sa);
            verifyAcknowledgementRanges(sa.getAcknowledgementRange(), new long[]{1, 1});
        } else if ("sequence2".equals(s)) {
            assertEquals(10, seq.getLastMessageNumber());
            SequenceAcknowledgement sa = seq.getAcknowledgment();
            assertNotNull(sa);
            verifyAcknowledgementRanges(sa.getAcknowledgementRange(), new long[]{1, 1, 3, 10});
        }
    }

        Source source = control.createMock(Source.class);
        rme = control.createMock(RMEndpoint.class);
        EasyMock.expect(rme.getSource()).andReturn(source).anyTimes();
        EasyMock.expect(rme.getProtocol()).andReturn(ProtocolVariation.RM10WSA200408).anyTimes();
        interceptor.setManager(manager);
        SequenceAcknowledgement ack1 = control.createMock(SequenceAcknowledgement.class);
        SequenceAcknowledgement ack2 = control.createMock(SequenceAcknowledgement.class);
        Collection<SequenceAcknowledgement> acks = new ArrayList<SequenceAcknowledgement>();
        acks.add(ack1);
        acks.add(ack2);
        EasyMock.expect(rmps.getAcks()).andReturn(acks);
        Identifier id1 = control.createMock(Identifier.class);
        EasyMock.expect(ack1.getIdentifier()).andReturn(id1);
        SourceSequence ss1 = control.createMock(SourceSequence.class);
        EasyMock.expect(source.getSequence(id1)).andReturn(ss1);
        ss1.setAcknowledged(ack1);
        EasyMock.expectLastCall();
        Identifier id2 = control.createMock(Identifier.class);
        EasyMock.expect(ack2.getIdentifier()).andReturn(id2);
        EasyMock.expect(source.getSequence(id2)).andReturn(null);
        control.replay();
        try {
            interceptor.processAcknowledgments(rme, rmps);
            fail("Expected SequenceFault not thrown");

                if (res.next()) {
                    EndpointReferenceType acksTo = RMUtils.createReference(res.getString(1));
                    long lm = res.getLong(2);
                    InputStream is = res.getBinaryStream(3);
                    SequenceAcknowledgement ack = null;
                    if (null != is) {
                        ack = PersistenceUtils.getInstance()
                            .deserialiseAcknowledgment(is);
                    }
                    return new DestinationSequence(sid, acksTo, lm, ack, protocol);

                    Identifier sid = new Identifier();
                    sid.setValue(res.getString(1));
                    EndpointReferenceType acksTo = RMUtils.createReference(res.getString(2));
                    long lm = res.getLong(3);
                    InputStream is = res.getBinaryStream(4);
                    SequenceAcknowledgement ack = null;
                    if (null != is) {
                        ack = PersistenceUtils.getInstance()
                            .deserialiseAcknowledgment(is);
                    }
                    DestinationSequence seq = new DestinationSequence(sid, acksTo, lm, ack, protocol);

                if (res.next()) {
                    EndpointReferenceType acksTo = RMUtils.createReference(res.getString(1));
                    long lm = res.getLong(2);
                    ProtocolVariation pv = decodeProtocolVersion(res.getString(3));
                    InputStream is = res.getBinaryStream(4);
                    SequenceAcknowledgement ack = null;
                    if (null != is) {
                        ack = PersistenceUtils.getInstance()
                            .deserialiseAcknowledgment(is);
                    }
                    return new DestinationSequence(sid, acksTo, lm, ack, pv);

                    sid.setValue(res.getString(1));
                    EndpointReferenceType acksTo = RMUtils.createReference(res.getString(2));
                    long lm = res.getLong(3);
                    ProtocolVariation pv = decodeProtocolVersion(res.getString(4));
                    InputStream is = res.getBinaryStream(5);
                    SequenceAcknowledgement ack = null;
                    if (null != is) {
                        ack = PersistenceUtils.getInstance()
                            .deserialiseAcknowledgment(is);
                    }
                    DestinationSequence seq = new DestinationSequence(sid, acksTo, lm, ack, pv);

        codec.handleMessage(message);
        RMProperties rmps = RMContextUtils.retrieveRMProperties(message, false);
        Collection<SequenceAcknowledgement> acks = rmps.getAcks();
        assertNotNull(acks);
        assertEquals(1, acks.size());
        SequenceAcknowledgement ack = acks.iterator().next();
        assertNotNull(ack);
        assertEquals(ack.getIdentifier().getValue(), SEQ_IDENTIFIER);
        assertEquals(2, ack.getAcknowledgementRange().size());
        AcknowledgementRange r1 = ack.getAcknowledgementRange().get(0);
        AcknowledgementRange r2 = ack.getAcknowledgementRange().get(1);
        verifyRange(r1, 1, 1);
        verifyRange(r2, 3, 3);
        assertNull(rmps.getSequence());
        assertNull(rmps.getAcksRequested());
    }