// Tests PROPERTY as an embedded object. static void testGetInstanceElement(const char* testDataFile) { //-------------------------------------------------------------------------- // Read in instance //-------------------------------------------------------------------------- CIMInstance cimInstance; Buffer text; FileSystem::loadFileToMemory(text, testDataFile); XmlParser parser((char*)text.getData()); XmlReader::getInstanceElement(parser, cimInstance); PEGASUS_TEST_ASSERT( cimInstance.getClassName() == CIMName("CIM_InstCreation")); Uint32 idx; CIMProperty cimProperty; CIMValue cimValue; CIMType cimType; PEGASUS_TEST_ASSERT(cimInstance.getPropertyCount() == 3); idx = cimInstance.findProperty(CIMName("IndicationIdentifier")); PEGASUS_TEST_ASSERT(idx != PEG_NOT_FOUND); cimProperty = cimInstance.getProperty(idx); cimValue = cimProperty.getValue(); cimType = cimProperty.getType(); PEGASUS_TEST_ASSERT(strcmp(cimTypeToString(cimType), "string") == 0); String myString; cimValue.get(myString); PEGASUS_TEST_ASSERT(strcmp(myString.getCString(), "0") == 0); idx = cimInstance.findProperty(CIMName("IndicationTime")); PEGASUS_TEST_ASSERT(idx != PEG_NOT_FOUND); cimProperty = cimInstance.getProperty(idx); cimValue = cimProperty.getValue(); cimType = cimProperty.getType(); PEGASUS_TEST_ASSERT(strcmp(cimTypeToString(cimType), "datetime") == 0); CIMDateTime myDateTime; cimValue.get(myDateTime); PEGASUS_TEST_ASSERT(myDateTime.equal( CIMDateTime("20050227225624.524000-300"))); idx = cimInstance.findProperty(CIMName("SourceInstance")); PEGASUS_TEST_ASSERT(idx != PEG_NOT_FOUND); cimProperty = cimInstance.getProperty(idx); cimValue = cimProperty.getValue(); cimType = cimProperty.getType(); PEGASUS_TEST_ASSERT(strcmp(cimTypeToString(cimType), "object") == 0); CIMObject cimObject; cimValue.get(cimObject); PEGASUS_TEST_ASSERT( cimObject.getClassName() == CIMName("Sample_LifecycleIndicationProviderClass")); PEGASUS_TEST_ASSERT(cimObject.getPropertyCount() == 2); idx = cimObject.findProperty(CIMName("uniqueId")); PEGASUS_TEST_ASSERT(idx != PEG_NOT_FOUND); cimProperty = cimObject.getProperty(idx); cimValue = cimProperty.getValue(); cimType = cimProperty.getType(); PEGASUS_TEST_ASSERT(strcmp(cimTypeToString(cimType), "uint32") == 0); Uint32 myUint32; cimValue.get(myUint32); PEGASUS_TEST_ASSERT(myUint32 == 1); idx = cimObject.findProperty(CIMName("lastOp")); PEGASUS_TEST_ASSERT(idx != PEG_NOT_FOUND); cimProperty = cimObject.getProperty(idx); cimValue = cimProperty.getValue(); cimType = cimProperty.getType(); PEGASUS_TEST_ASSERT(strcmp(cimTypeToString(cimType), "string") == 0); cimValue.get(myString); PEGASUS_TEST_ASSERT(strcmp(myString.getCString(), "createInstance") == 0); }
void testInstanceClass(CIMClient & client, const CIMName & className) { cout << "Testing Instance Class " << (const char *)className.getString().getCString() << "..."; Array<CIMInstance> instances = testAnyClass(client, className); for(unsigned int i = 0, n = instances.size(); i < n; ++i) { CIMInstance currentInstance = instances[i]; CIMObjectPath currentPath = currentInstance.getPath(); if(currentPath.getNameSpace().isNull()) currentPath.setNameSpace(interopNamespace); // // Now test association traversal // Note that the "TestAssociationClass" method does a very good job // of testing association traversal between references contained in // instances of the supplied association class. Therefore, all we // really have to do here is make sure that the results of the // associators, associatorNames, references, and referenceNames // operations are consistent. // Boolean failure = false; try { Array<CIMObject> associatorsResults = client.associators( currentPath.getNameSpace(), currentPath); Array<CIMObjectPath> associatorNamesResults = client.associatorNames( currentPath.getNameSpace(), currentPath); Array<CIMObject> referencesResults = client.references( currentPath.getNameSpace(), currentPath); Array<CIMObjectPath> referenceNamesResults = client.referenceNames( currentPath.getNameSpace(), currentPath); Uint32 numResults = associatorsResults.size(); if(numResults != associatorNamesResults.size() || numResults != referencesResults.size() || numResults != referenceNamesResults.size()) { failure = true; } else { // Check that the results for the references and referenceNames // operations are consistent. unsigned int j = 0; for(j = 0; j < numResults; ++j) { CIMObjectPath currentReferenceName = referenceNamesResults[j]; Boolean found = false; for(unsigned int k = 0; k < numResults; ++k) { if(currentReferenceName == referencesResults[k].getPath()) { found = true; break; } } if(!found) { failure = true; break; } } // Check that that results for the associatorNames call is // consistent with the associators call and the references // call. for(j = 0; j < numResults; ++j) { CIMObjectPath currentAssociatorName = associatorNamesResults[j]; Boolean found = false; unsigned int k = 0; for(k = 0; k < numResults; ++k) { if(currentAssociatorName == associatorsResults[k].getPath()) { found = true; break; } } if(!found) { failure = true; break; } found = false; for(k = 0; k < numResults; ++k) { CIMObject referenceInstance = referencesResults[k]; for(unsigned int x = 0, m = referenceInstance.getPropertyCount(); x < m; ++x) { CIMProperty currentProp = referenceInstance.getProperty(x); if(currentProp.getType() == CIMTYPE_REFERENCE) { CIMObjectPath currentRef; currentProp.getValue().get(currentRef); currentRef.setHost( currentAssociatorName.getHost()); if(currentRef == currentAssociatorName) { found = true; break; } } } if(found) break; } if(!found) { failure = true; break; } } } if(failure) { exitFailure( String("Association Operations returned inconsistent ") + String("results for instance ") + currentPath.toString()); } } catch(CIMException & e) { exitFailure(String("Caught exception while performing ") + String("association operations on instance ") + currentPath.toString() + String(": ") + e.getMessage()); } } cout << "Test Complete" << endl; }