- private static final Log logger = LogFactory.getLog(MSModelUtils.class);
-
- private HashMap<String,MSAttributeObject > classMap = new HashMap<>();
- private HashMap<String, String> enumMap = new HashMap<>();
- private HashMap<String, String> matchingClass = new HashMap<>();
- private String configuration = "configuration";
- private String dictionary = "dictionary";
- private String onap = "";
- private String policy = "";
- private String eProxyURI = "eProxyURI:";
-
- public MSModelUtils(String onap, String policy){
- this.onap = onap;
- this.policy = policy;
- }
-
- private enum ANNOTATION_TYPE{
- MATCHING, VALIDATION, DICTIONARY
- };
-
- public enum MODEL_TYPE {
- XMI
- };
-
-
- public Map<String, MSAttributeObject> processEpackage(String file, MODEL_TYPE model){
- if (model == MODEL_TYPE.XMI ){
- processXMIEpackage(file);
- }
- return classMap;
-
- }
-
- private void processXMIEpackage(String xmiFile){
- EPackage root = getEpackage(xmiFile);
- TreeIterator<EObject> treeItr = root.eAllContents();
- String className;
- String returnValue;
-
- // Pulling out dependency from file
- while (treeItr.hasNext()) {
- EObject obj = (EObject) treeItr.next();
- if (obj instanceof EClassifier) {
- EClassifier eClassifier = (EClassifier) obj;
- className = eClassifier.getName();
-
- if (obj instanceof EEnum) {
- enumMap.putAll(getEEnum(obj));
- }else if (obj instanceof EClass) {
- String temp = getDependencyList(eClassifier, className).toString();
- returnValue = StringUtils.replaceEach(temp, new String[]{"[", "]"}, new String[]{"", ""});
- getAttributes(className, returnValue, root);
- }
- }
- }
-
- if (!enumMap.isEmpty()){
- addEnumClassMap();
- }
- if (!matchingClass.isEmpty()){
- CheckForMatchingClass();
- }
- }
-
- private void CheckForMatchingClass() {
- HashMap<String, String> tempAttribute = new HashMap<>();
-
- for (Entry<String, String> set : matchingClass.entrySet()){
- String key = set.getKey();
- if (classMap.containsKey(key)){
- Map<String, String> listAttributes = classMap.get(key).getAttribute();
- Map<String, String> listRef = classMap.get(key).getRefAttribute();
- for ( Entry<String, String> eSet : listAttributes.entrySet()){
- String key2 = eSet.getKey();
- tempAttribute.put(key2, "matching-true");
- }
- for ( Entry<String, String> eSet : listRef.entrySet()){
- String key3 = eSet.getKey();
- tempAttribute.put(key3, "matching-true");
- }
-
- }
- UpdateMatching(tempAttribute, key);
- }
-
- }
-
-
-
- private void UpdateMatching(HashMap<String, String> tempAttribute, String key) {
- Map<String, MSAttributeObject> newClass = classMap;
-
- for (Entry<String, MSAttributeObject> updateClass : newClass.entrySet()){
- Map<String, String> valueMap = updateClass.getValue().getMatchingSet();
- String keymap = updateClass.getKey();
- if (valueMap.containsKey(key)){
- Map<String, String> modifyMap = classMap.get(keymap).getMatchingSet();
- modifyMap.remove(key);
- modifyMap.putAll(tempAttribute);
- classMap.get(keymap).setMatchingSet(modifyMap);
- }
-
- }
- }
-
- private void addEnumClassMap() {
- for (Entry<String, MSAttributeObject> value :classMap.entrySet()){
- value.getValue().setEnumType(enumMap);
- }
- }
-
- private EPackage getEpackage(String xmiFile) {
- ResourceSet resSet = new ResourceSetImpl();
- Resource.Factory.Registry reg = Resource.Factory.Registry.INSTANCE;
- Map<String, Object> m = reg.getExtensionToFactoryMap();
- m.put("xmi", new XMIResourceFactoryImpl());
- Resource resource = resSet.getResource(URI.createFileURI(xmiFile), true);
- try {
- resource.load(Collections.emptyMap());
- } catch (IOException e) {
- logger.error("Error loading Encore Resource for new Model" + e);
- }
-
- EPackage root = (EPackage) resource.getContents().get(0);
-
- return root;
- }
-
- private HashMap<String, String> getEEnum(EObject obj) {
- List<String> valueList = new ArrayList<>();
- HashMap<String, String> returnMap = new HashMap<>();
- EEnum eenum = (EEnum)obj;
-
- String name = eenum.getName();
- for (EEnumLiteral eEnumLiteral : eenum.getELiterals())
- {
- Enumerator instance = eEnumLiteral.getInstance();
- String value = instance.getLiteral();
- valueList.add(value);
- }
- returnMap.put(name, valueList.toString());
- return returnMap;
- }
-
- public void getAttributes(String className, String dependency, EPackage root) {
- List<String> dpendList = new ArrayList<>();
- if (dependency!=null){
- dpendList = new ArrayList<>(Arrays.asList(dependency.split(",")));
- }
- MSAttributeObject msAttributeObject = new MSAttributeObject();
- msAttributeObject.setClassName(className);
- String extendClass = getSubTypes(root, className);
- Map<String, String> returnRefList = getRefAttributeList(root, className, extendClass);
- Map<String, String> returnAttributeList = getAttributeList(root, className, extendClass);
- Map<String, Object> returnSubList = getSubAttributeList(root, className, extendClass);
- HashMap<String, String> returnAnnotation = getAnnotation(root, className, extendClass);
- msAttributeObject.setAttribute(returnAttributeList);
- msAttributeObject.setRefAttribute(returnRefList);
- msAttributeObject.setSubClass(returnSubList);
- msAttributeObject.setDependency(dpendList.toString());
- msAttributeObject.addMatchingSet(returnAnnotation);
- msAttributeObject.setPolicyTempalate(isPolicyTemplate(root, className));
-
- this.classMap.put(className, msAttributeObject);
- }
-
- private HashMap<String, String> getAnnotation(EPackage root, String className, String extendClass) {
- TreeIterator<EObject> treeItr = root.eAllContents();
- boolean requiredAttribute = false;
- boolean requiredMatchAttribute = false;
- HashMap<String, String> annotationSet = new HashMap<>();
- String matching;
- String range;
- String dictionary;
-
- // Pulling out dependency from file
- while (treeItr.hasNext()) {
- EObject obj = treeItr.next();
- if (obj instanceof EClassifier) {
- requiredAttribute = isRequiredAttribute(obj, className );
- requiredMatchAttribute = isRequiredAttribute(obj, extendClass );
- }
-
- if (requiredAttribute){
- if (obj instanceof EStructuralFeature) {
- EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
- if (!eStrucClassifier.getEAnnotations().isEmpty()) {
- matching = annotationValue(eStrucClassifier, ANNOTATION_TYPE.MATCHING, policy);
- if (matching!=null){
- annotationSet.put(eStrucClassifier.getName(), matching);
- }
- range = annotationValue(eStrucClassifier, ANNOTATION_TYPE.VALIDATION, policy);
- if (range!=null){
- annotationSet.put(eStrucClassifier.getName(), range);
- }
- dictionary = annotationValue(eStrucClassifier, ANNOTATION_TYPE.DICTIONARY, policy);
- if (dictionary!=null){
- annotationSet.put(eStrucClassifier.getName(), dictionary);
- }
- }
- }
- } else if (requiredMatchAttribute){
- if (obj instanceof EStructuralFeature) {
- EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
- if (!eStrucClassifier.getEAnnotations().isEmpty()) {
- matching = annotationValue(eStrucClassifier, ANNOTATION_TYPE.MATCHING, policy);
- if (matching!=null){
- if (obj instanceof EReference){
- EClass refType = ((EReference) obj).getEReferenceType();
- annotationSet.put(refType.getName(), matching);
- matchingClass.put(refType.getName(), matching);
- }else{
- annotationSet.put(eStrucClassifier.getName(), matching);
- }
- }
- }
- }
- }
- }
- return annotationSet;
- }
-
- private Map<String, Object> getSubAttributeList(EPackage root, String className , String superClass) {
- TreeIterator<EObject> treeItr = root.eAllContents();
- boolean requiredAttribute = false;
- Map<String, Object> subAttribute = new HashMap<>();
- int rollingCount = 0;
- int processClass = 0;
- boolean annotation;
-
- // Pulling out dependency from file
- while (treeItr.hasNext() && rollingCount < 2) {
-
- EObject obj = treeItr.next();
- if (obj instanceof EClassifier) {
- if (isRequiredAttribute(obj, className ) || isRequiredAttribute(obj, superClass )){
- requiredAttribute = true;
- }else {
- requiredAttribute = false;
- }
- if (requiredAttribute){
- processClass++;
- }
- rollingCount = rollingCount+processClass;
- }
-
- if (requiredAttribute) {
- if (obj instanceof EStructuralFeature) {
- EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
- if (!eStrucClassifier.getEAnnotations().isEmpty()) {
- annotation = annotationTest(eStrucClassifier, configuration, onap);
- if (annotation && obj instanceof EReference) {
- EClass refType = ((EReference) obj).getEReferenceType();
- if(!refType.toString().contains(eProxyURI)){
- subAttribute.put(eStrucClassifier.getName(), refType.getName());
- }
- }
- }
- }
- }
- }
- return subAttribute;
- }
-
- public String checkDefultValue(String defultValue) {
- if (defultValue!=null){
- return ":defaultValue-"+ defultValue;
- }
- return ":defaultValue-NA";
-
- }
-
- public String checkRequiredPattern(int upper, int lower) {
-
- String pattern = XACMLProperties.getProperty(XACMLRestProperties.PROP_XCORE_REQUIRED_PATTERN);
-
- if (pattern!=null){
- if (upper == Integer.parseInt(pattern.split(",")[1]) && lower==Integer.parseInt(pattern.split(",")[0])){
- return ":required-true";
- }
- }
-
- return ":required-false";
- }
-
- public JSONObject buildJavaObject(Map<String, String> map){
-
- JSONObject returnValue = new JSONObject(map);
-
- return returnValue;
-
- }
-
- public Map<String, String> getRefAttributeList(EPackage root, String className, String superClass){
-
- TreeIterator<EObject> treeItr = root.eAllContents();
- boolean requiredAttribute = false;
- HashMap<String, String> refAttribute = new HashMap<>();
- int rollingCount = 0;
- int processClass = 0;
- boolean annotation;
- // Pulling out dependency from file
- while (treeItr.hasNext()) {
- EObject obj = treeItr.next();
- if (obj instanceof EClassifier) {
- if (isRequiredAttribute(obj, className ) || isRequiredAttribute(obj, superClass )){
- requiredAttribute = true;
- }else {
- requiredAttribute = false;
- }
- if (requiredAttribute){
- processClass++;
- }
- rollingCount = rollingCount+processClass;
- }
-
- if (requiredAttribute) {
- if (obj instanceof EStructuralFeature) {
- EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
- if (!eStrucClassifier.getEAnnotations().isEmpty()) {
- annotation = annotationTest(eStrucClassifier, configuration, onap);
- if ( annotation && obj instanceof EReference) {
- EClass refType = ((EReference) obj).getEReferenceType();
- if(refType.toString().contains(eProxyURI)){
- String one = refType.toString().split(eProxyURI)[1];
- String refValue = StringUtils.replaceEach(one.split("#")[1], new String[]{"//", ")"}, new String[]{"", ""});
- refAttribute.put(eStrucClassifier.getName(), refValue);
- } else {
- String array = arrayCheck(((EStructuralFeature) obj).getUpperBound());
- refAttribute.put(eStrucClassifier.getName(), refType.getName() + array);
- }
- } else if (annotation && obj instanceof EAttributeImpl){
- EClassifier refType = ((EAttributeImpl) obj).getEType();
- if (refType instanceof EEnumImpl){
- String array = arrayCheck(((EStructuralFeature) obj).getUpperBound());
- refAttribute.put(eStrucClassifier.getName(), refType.getName() + array); }
- }
- }
- }
- }
- }
- return refAttribute;
- }
-
- private boolean annotationTest(EStructuralFeature eStrucClassifier, String annotation, String type) {
- String annotationType;
- EAnnotation eAnnotation;
- String onapType;
- String onapValue;
-
- EList<EAnnotation> value = eStrucClassifier.getEAnnotations();
-
- for (int i = 0; i < value.size(); i++){
- annotationType = value.get(i).getSource();
- eAnnotation = eStrucClassifier.getEAnnotations().get(i);
- onapType = eAnnotation.getDetails().get(0).getValue();
- onapValue = eAnnotation.getDetails().get(0).getKey();
- if (annotationType.contains(type) && onapType.contains(annotation)){
- return true;
- } else if (annotationType.contains(type) && onapValue.contains(annotation)){
- return true;
- }
- }
-
- return false;
- }
-
-
- private String annotationValue(EStructuralFeature eStrucClassifier, ANNOTATION_TYPE annotation, String type) {
- String annotationType;
- EAnnotation eAnnotation;
- String onapType;
- String onapValue = null;
-
- EList<EAnnotation> value = eStrucClassifier.getEAnnotations();
-
- for (int i = 0; i < value.size(); i++){
- annotationType = value.get(i).getSource();
- eAnnotation = eStrucClassifier.getEAnnotations().get(i);
- onapType = eAnnotation.getDetails().get(0).getKey();
- if (annotationType.contains(type) && onapType.compareToIgnoreCase(annotation.toString())==0){
- onapValue = eAnnotation.getDetails().get(0).getValue();
- if (annotation == ANNOTATION_TYPE.VALIDATION){
- return onapValue;
- } else {
- return onapType + "-" + onapValue;
- }
- }
- }
-
- return onapValue;
- }
- public boolean isRequiredAttribute(EObject obj, String className){
- EClassifier eClassifier = (EClassifier) obj;
- String workingClass = eClassifier.getName();
- workingClass.trim();
- if (workingClass.equalsIgnoreCase(className)){
- return true;
- }
-
- return false;
- }
-
- private boolean isPolicyTemplate(EPackage root, String className){
-
- for (EClassifier classifier : root.getEClassifiers()){
- if (classifier instanceof EClass) {
- EClass eClass = (EClass)classifier;
- if (eClass.getName().contentEquals(className)){
- EList<EAnnotation> value = eClass.getEAnnotations();
- for (EAnnotation workingValue : value){
- EMap<String, String> keyMap = workingValue.getDetails();
- if (keyMap.containsKey("policyTemplate")){
- return true;
- }
- }
- }
- }
- }
- return false;
- }
- private String getSubTypes(EPackage root, String className) {
- String returnSubTypes = null;
- for (EClassifier classifier : root.getEClassifiers()){
- if (classifier instanceof EClass) {
- EClass eClass = (EClass)classifier;
-
- for (EClass eSuperType : eClass.getEAllSuperTypes())
- {
- if (eClass.getName().contentEquals(className)){
- returnSubTypes = eSuperType.getName();
- }
- }
- }
- }
- return returnSubTypes;
- }
-
- public Map<String, String> getAttributeList(EPackage root, String className, String superClass){
-
- TreeIterator<EObject> treeItr = root.eAllContents();
- boolean requiredAttribute = false;
- HashMap<String, String> refAttribute = new HashMap<>();
- boolean annotation;
- boolean dictionaryTest;
- String defaultValue;
- String eType;
-
- // Pulling out dependency from file
- while (treeItr.hasNext()) {
- EObject obj = treeItr.next();
- if (obj instanceof EClassifier) {
- if (isRequiredAttribute(obj, className ) || isRequiredAttribute(obj, superClass )){
- requiredAttribute = true;
- }else {
- requiredAttribute = false;
- }
-
- }
-
- if (requiredAttribute){
- if (obj instanceof EStructuralFeature) {
- EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
- if (!eStrucClassifier.getEAnnotations().isEmpty()) {
- annotation = annotationTest(eStrucClassifier, configuration, onap);
- dictionaryTest = annotationTest(eStrucClassifier, dictionary, policy);
- EClassifier refType = ((EStructuralFeature) obj).getEType();
- if (annotation && !(obj instanceof EReference) && !(refType instanceof EEnumImpl)) {
- String name = eStrucClassifier.getName();
- if (dictionaryTest){
- eType = annotationValue(eStrucClassifier, ANNOTATION_TYPE.DICTIONARY, policy);
- }else {
- eType = eStrucClassifier.getEType().getInstanceClassName();
- }
- defaultValue = checkDefultValue(((EStructuralFeature) obj).getDefaultValueLiteral());
-
- String array = arrayCheck(((EStructuralFeature) obj).getUpperBound());
- String required = checkRequiredPattern(((EStructuralFeature) obj).getUpperBound(), ((EStructuralFeature) obj).getLowerBound());
- String attributeValue = eType + defaultValue + required + array;
- refAttribute.put(name, attributeValue);
- }
- }
- }
- }
- }
- return refAttribute;
-
- }
-
- public String arrayCheck(int upperBound) {
-
- if (upperBound == -1){
- return ":MANY-true";
- }
-
- return ":MANY-false";
- }
-
- public List<String> getDependencyList(EClassifier eClassifier, String className){
- List<String> returnValue = new ArrayList<>();;
- EList<EClass> somelist = ((EClass) eClassifier).getEAllSuperTypes();
- if (somelist.isEmpty()){
- return returnValue;
- }
- for(EClass depend: somelist){
- if (depend.toString().contains(eProxyURI)){
- String one = depend.toString().split(eProxyURI)[1];
- String value = StringUtils.replaceEach(one.split("#")[1], new String[]{"//", ")"}, new String[]{"", ""});
- returnValue.add(value);
- }
- }
-
- return returnValue;
- }
-
- public Map<String, String> buildSubList(Map<String, String> subClassAttributes, Map<String, MSAttributeObject> classMap, String className){
- Map<String, String> missingValues = new HashMap<>();
- Map<String, String> workingMap;
- boolean enumType;
-
- for ( Entry<String, String> map : classMap.get(className).getRefAttribute().entrySet()){
- String value = map.getValue().split(":")[0];
- if (value!=null){
- classMap.get(className).getEnumType();
- enumType = classMap.get(className).getEnumType().containsKey(value);
- if (!enumType){
- workingMap = classMap.get(value).getRefAttribute();
- for ( Entry<String, String> subMab : workingMap.entrySet()){
- String value2 = subMab.getValue().split(":")[0];
- if (!subClassAttributes.containsValue(value2)){
- missingValues.put(subMab.getKey(), subMab.getValue());
- }
- }
-
- }
- }
- }
-
- return missingValues;
- }
-
- public Map<String, Map<String, String>> recursiveReference(Map<String, MSAttributeObject> classMap, String className){
-
- Map<String, Map<String, String>> returnObject = new HashMap<>();
- Map<String, String> returnClass = getRefclass(classMap, className);
- returnObject.put(className, returnClass);
- for (Entry<String, String> reAttribute :returnClass.entrySet()){
- if (reAttribute.getValue().split(":")[1].contains("MANY")){
- if (classMap.get(reAttribute.getValue().split(":")[0]) != null){
- returnObject.putAll(recursiveReference(classMap, reAttribute.getValue().split(":")[0]));
- }
- }
-
- }
-
- return returnObject;
-
- }
-
- public String createJson(Map<String, Object> subClassAttributes, Map<String, MSAttributeObject> classMap, String className) {
- boolean enumType;
- Map<String, Map<String, String>> myObject = new HashMap<>();
- for ( Entry<String, String> map : classMap.get(className).getRefAttribute().entrySet()){
- String value = map.getValue().split(":")[0];
- if (value!=null){
- enumType = classMap.get(className).getEnumType().containsKey(value);
- if (!enumType){
- if (map.getValue().split(":")[1].contains("MANY")){
- Map<String, Map<String, String>> testRecursive = recursiveReference(classMap, map.getValue().split(":")[0] );
- myObject.putAll(testRecursive);
- }
- }
- }
- }
-
- Gson gson = new Gson();
- String json = gson.toJson(myObject);
-
- return json;
- }
-
- public Map<String, String> getRefclass(Map<String, MSAttributeObject> classMap, String className){
- HashMap<String, String> missingValues = new HashMap<>();
-
- if (classMap.get(className).getAttribute()!=null || !classMap.get(className).getAttribute().isEmpty()){
- missingValues.putAll(classMap.get(className).getAttribute());
- }
-
- if (classMap.get(className).getRefAttribute()!=null || !classMap.get(className).getRefAttribute().isEmpty()){
- missingValues.putAll(classMap.get(className).getRefAttribute());
- }
-
- return missingValues;
- }
-
- public String createSubAttributes(List<String> dependency, Map<String, MSAttributeObject> classMap, String modelName) {
-
- HashMap <String, Object> workingMap = new HashMap<>();
- MSAttributeObject tempObject;
- if (dependency!=null){
- if (dependency.isEmpty()){
- return "{}";
- }
- dependency.add(modelName);
- for (String element: dependency){
- tempObject = classMap.get(element);
- if (tempObject!=null){
- workingMap.putAll(classMap.get(element).getSubClass());
- }
- }
- }
-
- String returnValue = createJson(workingMap, classMap, modelName);
- return returnValue;
- }
-
- public List<String> getFullDependencyList(List<String> dependency, Map<String,MSAttributeObject > classMap) {
- ArrayList<String> returnList = new ArrayList<>();
- ArrayList<String> workingList;
- returnList.addAll(dependency);
- for (String element : dependency ){
- if (classMap.containsKey(element)){
- MSAttributeObject value = classMap.get(element);
- String rawValue = StringUtils.replaceEach(value.getDependency(), new String[]{"[", "]"}, new String[]{"", ""});
- workingList = new ArrayList<>(Arrays.asList(rawValue.split(",")));
- for(String depend : workingList){
- if (!returnList.contains(depend) && !depend.isEmpty()){
- returnList.add(depend.trim());
- }
- }
- }
- }
-
- return returnList;
- }
+ private static final Log logger = LogFactory.getLog(MSModelUtils.class);
+
+ private HashMap<String, MSAttributeObject> classMap = new HashMap<>();
+ private HashMap<String, String> enumMap = new HashMap<>();
+ private HashMap<String, String> matchingClass = new HashMap<>();
+ private String configuration = "configuration";
+ private String dictionary = "dictionary";
+ private String onap = "";
+ private String policy = "";
+ private String eProxyURI = "eProxyURI:";
+ private List<String> orderedElements = new ArrayList<>();
+ private String dataOrderInfo = "";
+ private Set<String> uniqueDataKeys = new HashSet<>();
+ private Set<String> uniqueKeys = new HashSet<>();
+ private String listConstraints = null;
+ private String referenceAttributes;
+ private LinkedHashMap<String, Object> retmap = new LinkedHashMap<>();
+ private Map<String, String> matchableValues;
+ private static final String PROPERTIES = ".properties.";
+ private static final String DATATYPE = "data_types.policy.data.";
+ private static final String TYPE = ".type";
+ private static final String REQUIRED = ".required";
+ private static final String DICTIONARYNAME = "dictionaryName";
+ private static final String DICTIONARY = "dictionary:";
+ private static final String MATCHABLE = ".matchable";
+ public static final String STRING = "string";
+ public static final String INTEGER = "integer";
+ private static final String BOOLEAN = "boolean";
+ public static final String LIST = "list";
+ public static final String MAP = "map";
+ private static final String DEFAULT = ".default";
+ private static final String MANYFALSE = ":MANY-false";
+ private static final String DESCRIPTION = ".description";
+
+ private static final String MANYTRUE = ":MANY-true";
+ private static final String DEFAULTVALUE = ":defaultValue-";
+ private static final String REQUIREDVALUE = ":required-";
+ private static final String MATCHABLEKEY = "matchable";
+ private static final String REQUIREDFALSE = ":required-false";
+ private static final String REQUIREDTRUE = ":required-true";
+ private static final String MATCHINGTRUE = "matching-true";
+ private static final String DESCRIPTION_KEY = "description";
+ private static final String DESCRIPTION_TOKEN = ":description-";
+ private static final String PROPERTIES_KEY = "properties";
+ private static final String DATA_TYPE = "data_types";
+ private static final String ERROR = "error";
+ private static final String NODE_TYPE = "node_types";
+ private static final String TOSCA_DEFINITION_VERSION = "tosca_definitions_version";
+ private static final String TOSCA_SIMPLE_YAML_1_0_0 = "tosca_simple_yaml_1_0_0";
+ private static final String JSON_MODEL = "JSON_MODEL";
+ private StringBuilder dataListBuffer = new StringBuilder();
+ private List<String> dataConstraints = new ArrayList<>();
+ private String attributeString = null;
+ private boolean isDuplicatedAttributes = false;
+ private String jsonRuleFormation = null;
+
+ private static CommonClassDao commonClassDao;
+
+ public MSModelUtils() {
+ // Default Constructor
+ }
+
+ public MSModelUtils(CommonClassDao commonClassDao) {
+ MSModelUtils.commonClassDao = commonClassDao;
+ }
+
+ public MSModelUtils(String onap, String policy) {
+ this.onap = onap;
+ this.policy = policy;
+ }
+
+ private enum ANNOTATION_TYPE {
+ MATCHING, VALIDATION, DICTIONARY
+ };
+
+ public enum MODEL_TYPE {
+ XMI
+ };
+
+ public enum SearchType {
+ TOSCA_DEFINITION_VERSION, TOSCA_SIMPLE_YAML_1_0_0, NODE_TYPE, DATA_TYPE, JSON_MODEL
+ }
+
+ public Map<String, MSAttributeObject> processEpackage(String file, MODEL_TYPE model) {
+ if (model == MODEL_TYPE.XMI) {
+ processXMIEpackage(file);
+ }
+ return classMap;
+
+ }
+
+ private void processXMIEpackage(String xmiFile) {
+ EPackage root = getEpackage(xmiFile);
+ TreeIterator<EObject> treeItr = root.eAllContents();
+ String className;
+ String returnValue;
+
+ // Pulling out dependency from file
+ while (treeItr.hasNext()) {
+ EObject obj = treeItr.next();
+ if (obj instanceof EClassifier) {
+ EClassifier eClassifier = (EClassifier) obj;
+ className = eClassifier.getName();
+
+ if (obj instanceof EEnum) {
+ enumMap.putAll(getEEnum(obj));
+ } else if (obj instanceof EClass) {
+ String temp = getDependencyList(eClassifier).toString();
+ returnValue = StringUtils.replaceEach(temp, new String[] {"[", "]"}, new String[] {"", ""});
+ getAttributes(className, returnValue, root);
+ }
+ }
+ }
+
+ if (!enumMap.isEmpty()) {
+ addEnumClassMap();
+ }
+ if (!matchingClass.isEmpty()) {
+ checkForMatchingClass();
+ }
+ }
+
+ private void checkForMatchingClass() {
+ HashMap<String, String> tempAttribute = new HashMap<>();
+
+ for (Entry<String, String> set : matchingClass.entrySet()) {
+ String key = set.getKey();
+ if (classMap.containsKey(key)) {
+ Map<String, String> listAttributes = classMap.get(key).getAttribute();
+ Map<String, String> listRef = classMap.get(key).getRefAttribute();
+ for (Entry<String, String> eSet : listAttributes.entrySet()) {
+ String key2 = eSet.getKey();
+ tempAttribute.put(key2, MATCHINGTRUE);
+ }
+ for (Entry<String, String> eSet : listRef.entrySet()) {
+ String key3 = eSet.getKey();
+ tempAttribute.put(key3, MATCHINGTRUE);
+ }
+
+ }
+ updateMatching(tempAttribute, key);
+ }
+
+ }
+
+
+
+ private void updateMatching(HashMap<String, String> tempAttribute, String key) {
+ Map<String, MSAttributeObject> newClass = classMap;
+
+ for (Entry<String, MSAttributeObject> updateClass : newClass.entrySet()) {
+ Map<String, String> valueMap = updateClass.getValue().getMatchingSet();
+ String keymap = updateClass.getKey();
+ if (valueMap.containsKey(key)) {
+ Map<String, String> modifyMap = classMap.get(keymap).getMatchingSet();
+ modifyMap.remove(key);
+ modifyMap.putAll(tempAttribute);
+ classMap.get(keymap).setMatchingSet(modifyMap);
+ }
+
+ }
+ }
+
+ private void addEnumClassMap() {
+ for (Entry<String, MSAttributeObject> value : classMap.entrySet()) {
+ value.getValue().setEnumType(enumMap);
+ }
+ }
+
+ private EPackage getEpackage(String xmiFile) {
+ ResourceSet resSet = new ResourceSetImpl();
+ Resource.Factory.Registry reg = Resource.Factory.Registry.INSTANCE;
+ Map<String, Object> m = reg.getExtensionToFactoryMap();
+ m.put("xmi", new XMIResourceFactoryImpl());
+ Resource resource = resSet.getResource(URI.createFileURI(xmiFile), true);
+ try {
+ resource.load(Collections.emptyMap());
+ } catch (IOException e) {
+ logger.error("Error loading Encore Resource for new Model" + e);
+ }
+
+ return (EPackage) resource.getContents().get(0);
+ }
+
+ private HashMap<String, String> getEEnum(EObject obj) {
+ List<String> valueList = new ArrayList<>();
+ HashMap<String, String> returnMap = new HashMap<>();
+ EEnum eenum = (EEnum) obj;
+
+ String name = eenum.getName();
+ for (EEnumLiteral eEnumLiteral : eenum.getELiterals()) {
+ Enumerator instance = eEnumLiteral.getInstance();
+ String value = instance.getLiteral();
+ valueList.add(value);
+ }
+ returnMap.put(name, valueList.toString());
+ return returnMap;
+ }
+
+ public void getAttributes(String className, String dependency, EPackage root) {
+ List<String> dpendList = new ArrayList<>();
+ if (dependency != null) {
+ dpendList = new ArrayList<>(Arrays.asList(dependency.split(",")));
+ }
+ MSAttributeObject msAttributeObject = new MSAttributeObject();
+ msAttributeObject.setClassName(className);
+ String extendClass = getSubTypes(root, className);
+ Map<String, String> returnRefList = getRefAttributeList(root, className, extendClass);
+ Map<String, String> returnAttributeList = getAttributeList(root, className, extendClass);
+ Map<String, Object> returnSubList = getSubAttributeList(root, className, extendClass);
+ HashMap<String, String> returnAnnotation = getAnnotation(root, className, extendClass);
+ msAttributeObject.setAttribute(returnAttributeList);
+ msAttributeObject.setRefAttribute(returnRefList);
+ msAttributeObject.setSubClass(returnSubList);
+ msAttributeObject.setDependency(dpendList.toString());
+ msAttributeObject.addMatchingSet(returnAnnotation);
+ msAttributeObject.setPolicyTempalate(isPolicyTemplate(root, className));
+
+ this.classMap.put(className, msAttributeObject);
+ }
+
+ private HashMap<String, String> getAnnotation(EPackage root, String className, String extendClass) {
+ TreeIterator<EObject> treeItr = root.eAllContents();
+ boolean requiredAttribute = false;
+ boolean requiredMatchAttribute = false;
+ HashMap<String, String> annotationSet = new HashMap<>();
+
+ // Pulling out dependency from file
+ while (treeItr.hasNext()) {
+ EObject obj = treeItr.next();
+ if (obj instanceof EClassifier) {
+ requiredAttribute = isRequiredAttribute(obj, className);
+ requiredMatchAttribute = isRequiredAttribute(obj, extendClass);
+ }
+
+ if (requiredAttribute) {
+ if (obj instanceof EStructuralFeature) {
+ checkAnnotation(annotationSet, (EStructuralFeature) obj);
+ }
+ } else if (requiredMatchAttribute && (obj instanceof EStructuralFeature)) {
+ findMatchingAnnotation(annotationSet, obj);
+ }
+ }
+ return annotationSet;
+ }
+
+ private void findMatchingAnnotation(HashMap<String, String> annotationSet, EObject obj) {
+ EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
+ if (eStrucClassifier.getEAnnotations().isEmpty()) {
+ return;
+ }
+ String matching = annotationValue(eStrucClassifier, ANNOTATION_TYPE.MATCHING, policy);
+ if (matching != null) {
+ if (obj instanceof EReference) {
+ EClass refType = ((EReference) obj).getEReferenceType();
+ annotationSet.put(refType.getName(), matching);
+ matchingClass.put(refType.getName(), matching);
+ } else {
+ annotationSet.put(eStrucClassifier.getName(), matching);
+ }
+ }
+
+ }
+
+ private void checkAnnotation(HashMap<String, String> annotationSet, EStructuralFeature obj) {
+ EStructuralFeature eStrucClassifier = obj;
+ if (eStrucClassifier.getEAnnotations().isEmpty()) {
+ return;
+ }
+ String matching = annotationValue(eStrucClassifier, ANNOTATION_TYPE.MATCHING, policy);
+ if (matching != null) {
+ annotationSet.put(eStrucClassifier.getName(), matching);
+ }
+ String range = annotationValue(eStrucClassifier, ANNOTATION_TYPE.VALIDATION, policy);
+ if (range != null) {
+ annotationSet.put(eStrucClassifier.getName(), range);
+ }
+ String annotationDict = annotationValue(eStrucClassifier, ANNOTATION_TYPE.DICTIONARY, policy);
+ if (annotationDict != null) {
+ annotationSet.put(eStrucClassifier.getName(), annotationDict);
+ }
+ }
+
+ private Map<String, Object> getSubAttributeList(EPackage root, String className, String superClass) {
+ TreeIterator<EObject> treeItr = root.eAllContents();
+ boolean requiredAttribute = false;
+ Map<String, Object> subAttribute = new HashMap<>();
+ int rollingCount = 0;
+ int processClass = 0;
+
+ // Pulling out dependency from file
+ while (treeItr.hasNext() && rollingCount < 2) {
+
+ EObject obj = treeItr.next();
+ if (obj instanceof EClassifier) {
+ requiredAttribute = isRequiredAttribute(obj, className) || isRequiredAttribute(obj, superClass);
+ if (requiredAttribute) {
+ processClass++;
+ }
+ rollingCount = rollingCount + processClass;
+ }
+
+ if (requiredAttribute && (obj instanceof EStructuralFeature)) {
+ EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
+ if (!eStrucClassifier.getEAnnotations().isEmpty()) {
+ updateSubAttributes(subAttribute, obj, eStrucClassifier);
+ }
+ }
+ }
+ return subAttribute;
+ }
+
+ private void updateSubAttributes(Map<String, Object> subAttribute, EObject obj,
+ EStructuralFeature eStrucClassifier) {
+ if (!(obj instanceof EReference)) {
+ return;
+ }
+ if (annotationTest(eStrucClassifier, configuration, onap)) {
+ EClass refType = ((EReference) obj).getEReferenceType();
+ if (!refType.toString().contains(eProxyURI)) {
+ String required = REQUIREDFALSE;
+ if (eStrucClassifier.getLowerBound() == 1) {
+ required = REQUIREDTRUE;
+ }
+ subAttribute.put(eStrucClassifier.getName(), refType.getName() + required);
+ }
+ }
+ }
+
+ public String checkDefultValue(String defultValue) {
+ if (defultValue != null) {
+ return DEFAULTVALUE + defultValue;
+ }
+ return ":defaultValue-NA";
+
+ }
+
+ public String checkRequiredPattern(int upper, int lower) {
+ String pattern = XACMLProperties.getProperty(XacmlRestProperties.PROP_XCORE_REQUIRED_PATTERN);
+ if (pattern != null && upper == Integer.parseInt(pattern.split(",")[1])
+ && lower == Integer.parseInt(pattern.split(",")[0])) {
+ return REQUIREDTRUE;
+ }
+ return REQUIREDFALSE;
+ }
+
+ public JSONObject buildJavaObject(Map<String, String> map) {
+ return new JSONObject(map);
+ }
+
+ public Map<String, String> getRefAttributeList(EPackage root, String className, String superClass) {
+
+ TreeIterator<EObject> treeItr = root.eAllContents();
+ boolean requiredAttribute = false;
+ HashMap<String, String> refAttribute = new HashMap<>();
+ int rollingCount = 0;
+ int processClass = 0;
+ boolean annotation;
+ // Pulling out dependency from file
+ while (treeItr.hasNext()) {
+ EObject obj = treeItr.next();
+ if (obj instanceof EClassifier) {
+ requiredAttribute = isRequiredAttribute(obj, className) || isRequiredAttribute(obj, superClass);
+ if (requiredAttribute) {
+ processClass++;
+ }
+ rollingCount = rollingCount + processClass;
+ }
+
+ if (requiredAttribute && (obj instanceof EStructuralFeature)) {
+ EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
+ if (!eStrucClassifier.getEAnnotations().isEmpty()) {
+ annotation = annotationTest(eStrucClassifier, configuration, onap);
+ if (annotation && obj instanceof EReference) {
+ updRefAttributes(refAttribute, (EStructuralFeature) obj, eStrucClassifier);
+ } else if (annotation && obj instanceof EAttributeImpl) {
+ updEnumTypeRefAttrib(refAttribute, (EStructuralFeature) obj, eStrucClassifier);
+ }
+ }
+ }
+ }
+
+ return refAttribute;
+ }
+
+ private void updEnumTypeRefAttrib(HashMap<String, String> refAttribute, EStructuralFeature obj,
+ EStructuralFeature eStrucClassifier) {
+ EClassifier refType = ((EAttributeImpl) obj).getEType();
+ if (!(refType instanceof EEnumImpl)) {
+ return;
+ }
+
+ String array = arrayCheck(obj.getUpperBound());
+ String required = REQUIREDFALSE;
+ if (obj.getLowerBound() == 1) {
+ required = REQUIREDTRUE;
+ }
+ refAttribute.put(eStrucClassifier.getName(), refType.getName() + array + required);
+ }
+
+ private void updRefAttributes(HashMap<String, String> refAttribute, EStructuralFeature obj,
+ EStructuralFeature eStrucClassifier) {
+ EClass refType = ((EReference) obj).getEReferenceType();
+ if (refType.toString().contains(eProxyURI)) {
+ String one = refType.toString().split(eProxyURI)[1];
+ String refValue =
+ StringUtils.replaceEach(one.split("#")[1], new String[] {"//", ")"}, new String[] {"", ""});
+ refAttribute.put(eStrucClassifier.getName(), refValue);
+ } else {
+ String required = REQUIREDFALSE;
+ if (obj.getLowerBound() == 1) {
+ required = REQUIREDTRUE;
+ }
+ refAttribute.put(eStrucClassifier.getName(),
+ refType.getName() + arrayCheck(obj.getUpperBound()) + required);
+ }
+ }
+
+ private boolean annotationTest(EStructuralFeature eStrucClassifier, String annotation, String type) {
+ String annotationType;
+ EAnnotation eAnnotation;
+ String onapType;
+ String onapValue;
+
+ EList<EAnnotation> value = eStrucClassifier.getEAnnotations();
+
+ for (int i = 0; i < value.size(); i++) {
+ annotationType = value.get(i).getSource();
+ eAnnotation = eStrucClassifier.getEAnnotations().get(i);
+ onapType = eAnnotation.getDetails().get(0).getValue();
+ onapValue = eAnnotation.getDetails().get(0).getKey();
+
+ if (annotationType.contains(type) && onapType.contains(annotation)) {
+ return true;
+ }
+
+ if (annotationType.contains(type) && onapValue.contains(annotation)) {
+ return true;
+ }
+ }
+
+ return false;
+ }
+
+
+ private String annotationValue(EStructuralFeature eStrucClassifier, ANNOTATION_TYPE annotation, String type) {
+ String annotationType;
+ EAnnotation eAnnotation;
+ String onapType;
+ String onapValue = null;
+
+ EList<EAnnotation> value = eStrucClassifier.getEAnnotations();
+
+ for (int i = 0; i < value.size(); i++) {
+ annotationType = value.get(i).getSource();
+ eAnnotation = eStrucClassifier.getEAnnotations().get(i);
+ onapType = eAnnotation.getDetails().get(0).getKey();
+ if (annotationType.contains(type) && onapType.compareToIgnoreCase(annotation.toString()) == 0) {
+ onapValue = eAnnotation.getDetails().get(0).getValue();
+ if (annotation == ANNOTATION_TYPE.VALIDATION) {
+ return onapValue;
+ } else {
+ return onapType + "-" + onapValue;
+ }
+ }
+ }
+
+ return onapValue;
+ }
+
+ public boolean isRequiredAttribute(EObject obj, String className) {
+ EClassifier eClassifier = (EClassifier) obj;
+ String workingClass = eClassifier.getName().trim();
+ if (workingClass.equalsIgnoreCase(className)) {
+ return true;
+ }
+
+ return false;
+ }
+
+ private boolean isPolicyTemplate(EPackage root, String className) {
+ boolean result = false;
+ for (EClassifier classifier : root.getEClassifiers()) {
+ if (classifier instanceof EClass) {
+ EClass eClass = (EClass) classifier;
+ if (eClass.getName().contentEquals(className)) {
+ result = checkPolicyTemplate(eClass);
+ break;
+ }
+ }
+ }
+ return result;
+ }
+
+ private boolean checkPolicyTemplate(EClass eClass) {
+ EList<EAnnotation> value = eClass.getEAnnotations();
+ for (EAnnotation workingValue : value) {
+ EMap<String, String> keyMap = workingValue.getDetails();
+ if (keyMap.containsKey("policyTemplate")) {
+ return true;
+ }
+ }
+ return false;
+ }
+
+ private String getSubTypes(EPackage root, String className) {
+ String returnSubTypes = null;
+ for (EClassifier classifier : root.getEClassifiers()) {
+ if (classifier instanceof EClass) {
+ returnSubTypes = findSubTypes(className, returnSubTypes, (EClass) classifier);
+ }
+ }
+ return returnSubTypes;
+ }
+
+ private String findSubTypes(String className, String returnSubTypes, EClass classifier) {
+ EClass eClass = classifier;
+
+ for (EClass eSuperType : eClass.getEAllSuperTypes()) {
+ if (eClass.getName().contentEquals(className)) {
+ returnSubTypes = eSuperType.getName();
+ }
+ }
+ return returnSubTypes;
+ }
+
+ public Map<String, String> getAttributeList(EPackage root, String className, String superClass) {
+
+ TreeIterator<EObject> treeItr = root.eAllContents();
+ boolean requiredAttribute = false;
+ HashMap<String, String> refAttribute = new HashMap<>();
+
+ // Pulling out dependency from file
+ while (treeItr.hasNext()) {
+ EObject obj = treeItr.next();
+ if (obj instanceof EClassifier) {
+ requiredAttribute = isRequiredAttribute(obj, className) || isRequiredAttribute(obj, superClass);
+ }
+
+ if (requiredAttribute && (obj instanceof EStructuralFeature)) {
+ EStructuralFeature eStrucClassifier = (EStructuralFeature) obj;
+ if (!eStrucClassifier.getEAnnotations().isEmpty()) {
+ checkStrucClassifier(refAttribute, obj, eStrucClassifier);
+ }
+ }
+ }
+ return refAttribute;
+
+ }
+
+ private void checkStrucClassifier(HashMap<String, String> refAttribute, EObject obj,
+ EStructuralFeature eStrucClassifier) {
+ EClassifier refType = ((EStructuralFeature) obj).getEType();
+ boolean annotation = annotationTest(eStrucClassifier, configuration, onap);
+ boolean dictionaryTest = annotationTest(eStrucClassifier, dictionary, policy);
+ if (annotation && !(obj instanceof EReference) && !(refType instanceof EEnumImpl)) {
+ updEReferenceAttrib(refAttribute, dictionaryTest, (EStructuralFeature) obj, eStrucClassifier);
+ }
+ }
+
+ private void updEReferenceAttrib(HashMap<String, String> refAttribute, boolean dictionaryTest,
+ EStructuralFeature obj, EStructuralFeature eStrucClassifier) {
+ String eType;
+ String name = eStrucClassifier.getName();
+ if (dictionaryTest) {
+ eType = annotationValue(eStrucClassifier, ANNOTATION_TYPE.DICTIONARY, policy);
+ } else {
+ eType = eStrucClassifier.getEType().getInstanceClassName();
+ }
+ String defaultValue = checkDefultValue(obj.getDefaultValueLiteral());
+ String array = arrayCheck(obj.getUpperBound());
+ String required = checkRequiredPattern(obj.getUpperBound(), obj.getLowerBound());
+ refAttribute.put(name, eType + defaultValue + required + array);
+ }
+
+ public String arrayCheck(int upperBound) {
+
+ if (upperBound == -1) {
+ return MANYTRUE;
+ }
+
+ return MANYFALSE;
+ }
+
+ public List<String> getDependencyList(EClassifier eClassifier) {
+ List<String> returnValue = new ArrayList<>();;
+ EList<EClass> somelist = ((EClass) eClassifier).getEAllSuperTypes();
+ if (somelist.isEmpty()) {
+ return returnValue;
+ }
+ for (EClass depend : somelist) {
+ if (depend.toString().contains(eProxyURI)) {
+ String one = depend.toString().split(eProxyURI)[1];
+ String value =
+ StringUtils.replaceEach(one.split("#")[1], new String[] {"//", ")"}, new String[] {"", ""});
+ returnValue.add(value);
+ }
+ }
+
+ return returnValue;
+ }
+
+ public Map<String, String> buildSubList(Map<String, String> subClassAttributes,
+ Map<String, MSAttributeObject> classMap, String className) {
+ Map<String, String> missingValues = new HashMap<>();
+ Map<String, String> workingMap;
+ boolean enumType;
+
+ for (Entry<String, String> map : classMap.get(className).getRefAttribute().entrySet()) {
+ String value = map.getValue().split(":")[0];
+ if (value != null) {
+ classMap.get(className).getEnumType();
+ enumType = classMap.get(className).getEnumType().containsKey(value);
+ if (!enumType) {
+ workingMap = classMap.get(value).getRefAttribute();
+ for (Entry<String, String> subMab : workingMap.entrySet()) {
+ String value2 = subMab.getValue().split(":")[0];
+ if (!subClassAttributes.containsValue(value2)) {
+ missingValues.put(subMab.getKey(), subMab.getValue());
+ }
+ }
+
+ }
+ }
+ }
+
+ return missingValues;
+ }
+
+ public Map<String, Map<String, String>> recursiveReference(Map<String, MSAttributeObject> classMap,
+ String className) {
+
+ Map<String, Map<String, String>> returnObject = new HashMap<>();
+ Map<String, String> returnClass = getRefclass(classMap, className);
+ returnObject.put(className, returnClass);
+ for (Entry<String, String> reAttribute : returnClass.entrySet()) {
+ if (reAttribute.getValue().split(":")[1].contains("MANY")
+ && classMap.get(reAttribute.getValue().split(":")[0]) != null) {
+ returnObject.putAll(recursiveReference(classMap, reAttribute.getValue().split(":")[0]));
+ }
+
+ }
+
+ return returnObject;
+
+ }
+
+ public String createJson(Map<String, MSAttributeObject> classMap, String className) {
+ boolean enumType;
+ Map<String, Map<String, String>> myObject = new HashMap<>();
+ for (Entry<String, String> map : classMap.get(className).getRefAttribute().entrySet()) {
+ String value = map.getValue().split(":")[0];
+ if (value != null) {
+ enumType = classMap.get(className).getEnumType().containsKey(value);
+ if (!enumType && map.getValue().split(":")[1].contains("MANY")) {
+ Map<String, Map<String, String>> testRecursive =
+ recursiveReference(classMap, map.getValue().split(":")[0]);
+ myObject.putAll(testRecursive);
+ }
+ }
+ }
+
+ Gson gson = new Gson();
+ return gson.toJson(myObject);
+ }
+
+ public Map<String, String> getRefclass(Map<String, MSAttributeObject> classMap, String className) {
+ HashMap<String, String> missingValues = new HashMap<>();
+
+ if (classMap.get(className).getAttribute() != null || !classMap.get(className).getAttribute().isEmpty()) {
+ missingValues.putAll(classMap.get(className).getAttribute());
+ }
+
+ if (classMap.get(className).getRefAttribute() != null || !classMap.get(className).getRefAttribute().isEmpty()) {
+ missingValues.putAll(classMap.get(className).getRefAttribute());
+ }
+
+ return missingValues;
+ }
+
+ public String createSubAttributes(List<String> dependency, Map<String, MSAttributeObject> classMap,
+ String modelName) {
+
+ HashMap<String, Object> workingMap = new HashMap<>();
+ MSAttributeObject tempObject;
+ if (dependency != null) {
+ if (dependency.isEmpty()) {
+ return "{}";
+ }
+ dependency.add(modelName);
+ for (String element : dependency) {
+ tempObject = classMap.get(element);
+ if (tempObject != null) {
+ workingMap.putAll(classMap.get(element).getSubClass());
+ }
+ }
+ }
+
+ return createJson(classMap, modelName);
+ }
+
+ public List<String> getFullDependencyList(List<String> dependency, Map<String, MSAttributeObject> classMap) {
+ ArrayList<String> returnList = new ArrayList<>();
+ ArrayList<String> workingList;
+ returnList.addAll(dependency);
+ for (String element : dependency) {
+ if (classMap.containsKey(element)) {
+ MSAttributeObject value = classMap.get(element);
+ String rawValue =
+ StringUtils.replaceEach(value.getDependency(), new String[] {"[", "]"}, new String[] {"", ""});
+ workingList = new ArrayList<>(Arrays.asList(rawValue.split(",")));
+ for (String depend : workingList) {
+ updDependencyList(returnList, depend);
+ }
+ }
+ }
+
+ return returnList;
+ }
+
+ private void updDependencyList(ArrayList<String> returnList, String depend) {
+ if (!returnList.contains(depend) && !depend.isEmpty()) {
+ returnList.add(depend.trim());
+ }
+ }
+
+ /*
+ * For TOSCA Model
+ */
+ public String parseTosca(String fileName) {
+ Map<String, String> map = new LinkedHashMap<>();
+ try {
+ map = load(fileName);
+ if (map != null && map.get(ERROR) != null) {
+ return map.get(ERROR);
+ }
+ parseDataAndPolicyNodes(map);
+ LinkedHashMap<String, String> dataMapForJson = parseDataNodes(map);
+ constructJsonForDataFields(dataMapForJson);
+ LinkedHashMap<String, LinkedHashMap<String, String>> mapKey = parsePolicyNodes(map);
+ createAttributes(mapKey);
+
+ } catch (IOException e) {
+ logger.error(e);
+ } catch (ParserException e) {
+ logger.error(e);
+ return e.getMessage();
+ }
+
+ return null;
+ }
+
+ @SuppressWarnings("unchecked")
+ public Map<String, String> load(String fileName) throws IOException, ParserException {
+ File newConfiguration = new File(fileName);
+ StringBuilder orderInfo = new StringBuilder("[");
+ Yaml yaml = new Yaml();
+ LinkedHashMap<Object, Object> yamlMap = null;
+ try (InputStream is = new FileInputStream(newConfiguration)) {
+ yamlMap = (LinkedHashMap<Object, Object>) yaml.load(is);
+ } catch (FileNotFoundException e) {
+ logger.error(e);
+ } catch (Exception e) {
+ logger.error(e);
+ throw new ParserException("Invalid TOSCA Model format. Please make sure it is a valid YAML file");
+ }
+
+ StringBuilder sb = new StringBuilder();
+ LinkedHashMap<String, String> settings = new LinkedHashMap<>();
+ if (yamlMap == null) {
+ return settings;
+ }
+
+ String message = validations(yamlMap);
+
+ if (message != null) {
+ settings.put(ERROR, message);
+ return settings;
+ }
+
+ findNode(yamlMap);
+
+ if (!isDuplicatedAttributes && orderedElements != null && !orderedElements.isEmpty()) {
+ orderedElements.stream().forEach(string -> {
+ orderInfo.append(string);
+ orderInfo.append(",");
+ logger.info("Content: " + string);
+ });
+
+ orderInfo.append("]");
+
+ dataOrderInfo = orderInfo.toString();
+ dataOrderInfo = dataOrderInfo.replace(",]", "]");
+
+ logger.info("dataOrderInfo :" + dataOrderInfo);
+ }
+
+ List<String> path = new ArrayList<>();
+ serializeMap(settings, sb, path, yamlMap);
+ return settings;
+ }
+
+ @SuppressWarnings("unchecked")
+ private String validations(@SuppressWarnings("rawtypes") Map yamlMap) {
+
+ boolean isNoteTypeFound = false;
+ boolean isDataTypeFound = false;
+ boolean isToscaVersionKeyFound = false;
+ boolean isToscaVersionValueFound = false;
+ @SuppressWarnings("rawtypes")
+ Map m1 = new HashMap();
+ short order = 0;
+ if (yamlMap != null) {
+ // Get a set of the entries
+ @SuppressWarnings("rawtypes")
+ Set<Entry> entries = yamlMap.entrySet();
+ for (@SuppressWarnings("rawtypes")
+ Map.Entry me : entries) {
+ if (TOSCA_SIMPLE_YAML_1_0_0.equals(me.getValue())) {
+ isToscaVersionValueFound = true;
+ }
+
+ switch (me.getKey().toString()) {
+ case TOSCA_DEFINITION_VERSION:
+ isToscaVersionKeyFound = true;
+ order++;
+ m1.put(TOSCA_DEFINITION_VERSION, order);
+ break;
+ case NODE_TYPE:
+ isNoteTypeFound = true;
+ order++;
+ m1.put(NODE_TYPE, order);
+ break;
+ case DATA_TYPE:
+ isDataTypeFound = true;
+ order++;
+ m1.put(DATA_TYPE, order);
+ break;
+ case JSON_MODEL:
+ setJsonRuleFormation(me.getValue().toString());
+ break;
+ default:
+ break;
+ }
+ }
+ if (!isDataTypeFound) {
+ return "data_types are missing or invalid.";
+ }
+ if (!isToscaVersionKeyFound || !isToscaVersionValueFound) {
+ return "tosca_definitions_version is missing or invalid.";
+ }
+
+ if (!isNoteTypeFound) {
+ return "node_types are missing or invalid.";
+ }
+
+ short version = (short) m1.get(TOSCA_DEFINITION_VERSION);
+
+ if (version > 1) {
+ return "tosca_definitions_version should be defined first.";
+ }
+
+ short data = (short) m1.get(DATA_TYPE);
+ short node = (short) m1.get(NODE_TYPE);
+ if (isDataTypeFound && node > data) {
+ return "node_types should be defined before data_types.";
+ }
+
+ }
+
+ return null;
+ }
+
+ @SuppressWarnings({"unchecked", "rawtypes"})
+ private void serializeMap(LinkedHashMap<String, String> settings, StringBuilder sb, List<String> path,
+ Map<Object, Object> yamlMap) {
+ for (Map.Entry<Object, Object> entry : yamlMap.entrySet()) {
+
+ if (entry.getValue() instanceof Map) {
+ path.add((String) entry.getKey());
+ serializeMap(settings, sb, path, (Map<Object, Object>) entry.getValue());
+ path.remove(path.size() - 1);
+ } else if (entry.getValue() instanceof List) {
+ path.add((String) entry.getKey());
+ serializeList(settings, sb, path, (List) entry.getValue());
+ path.remove(path.size() - 1);
+ } else {
+ serializeValue(settings, sb, path, (String) entry.getKey(), entry.getValue());
+ }
+ }
+ }
+
+ @SuppressWarnings("unchecked")
+ private void serializeList(LinkedHashMap<String, String> settings, StringBuilder sb, List<String> path,
+ List<String> yamlList) {
+ int counter = 0;
+ for (Object listEle : yamlList) {
+ if (listEle instanceof Map) {
+ path.add(Integer.toString(counter));
+ serializeMap(settings, sb, path, (Map<Object, Object>) listEle);
+ path.remove(path.size() - 1);
+ } else if (listEle instanceof List) {
+ path.add(Integer.toString(counter));
+ serializeList(settings, sb, path, (List<String>) listEle);
+ path.remove(path.size() - 1);
+ } else {
+ serializeValue(settings, sb, path, Integer.toString(counter), listEle);
+ }
+ counter++;
+ }
+ }
+
+ private void serializeValue(LinkedHashMap<String, String> settings, StringBuilder sb, List<String> path,
+ String name, Object value) {
+ if (value == null) {
+ return;
+ }
+ sb.setLength(0);
+ for (String pathEle : path) {
+ sb.append(pathEle).append('.');
+ }
+ sb.append(name);
+ settings.put(sb.toString(), value.toString());
+ }
+
+
+ void parseDataAndPolicyNodes(Map<String, String> map) {
+ for (String key : map.keySet()) {
+ if (key.contains("policy.nodes.Root")) {
+ continue;
+ } else if (key.contains("policy.nodes")) {
+ String wordToFind = "policy.nodes.";
+ int indexForPolicyNode = key.indexOf(wordToFind);
+ String subNodeString = key.substring(indexForPolicyNode + 13, key.length());
+
+ stringBetweenDots(subNodeString);
+ } else if (key.contains("policy.data")) {
+ String wordToFind = "policy.data.";
+ int indexForPolicyNode = key.indexOf(wordToFind);
+ String subNodeString = key.substring(indexForPolicyNode + 12, key.length());
+
+ stringBetweenDotsForDataFields(subNodeString);
+ }
+ }
+ }
+
+ // Second index of dot should be returned.
+ public int stringBetweenDots(String str) {
+ String stringToSearch = str;
+ String[] ss = stringToSearch.split("\\.");
+ if (ss != null) {
+ int len = ss.length;
+ if (len > 2) {
+ uniqueKeys.add(ss[2]);
+ }
+ }
+
+ return uniqueKeys.size();
+ }
+
+
+ public void stringBetweenDotsForDataFields(String str) {
+ String stringToSearch = str;
+ String[] ss = stringToSearch.split("\\.");
+ if (ss != null) {
+ int len = ss.length;
+
+ if (len > 2) {
+ uniqueDataKeys.add(ss[0] + "%" + ss[2]);
+ }
+ }
+ }
+
+ void constructJsonForDataFields(LinkedHashMap<String, String> dataMapForJson) {
+ LinkedHashMap<String, LinkedHashMap<String, String>> dataMapKey = new LinkedHashMap<>();
+ LinkedHashMap<String, String> hmSub;
+ for (Map.Entry<String, String> entry : dataMapForJson.entrySet()) {
+ String uniqueDataKey = entry.getKey();
+ String[] uniqueDataKeySplit = uniqueDataKey.split("%");
+ String value = dataMapForJson.get(uniqueDataKey);
+ if (dataMapKey.containsKey(uniqueDataKeySplit[0])) {
+ hmSub = dataMapKey.get(uniqueDataKeySplit[0]);
+ hmSub.put(uniqueDataKeySplit[1], value);
+ } else {
+ hmSub = new LinkedHashMap<>();
+ hmSub.put(uniqueDataKeySplit[1], value);
+ }
+
+ dataMapKey.put(uniqueDataKeySplit[0], hmSub);
+ }
+
+ JSONObject mainObject = new JSONObject();
+ JSONObject json;
+ for (Map.Entry<String, LinkedHashMap<String, String>> entry : dataMapKey.entrySet()) {
+ String s = entry.getKey();
+ json = new JSONObject();
+ HashMap<String, String> jsonHm = dataMapKey.get(s);
+ for (Map.Entry<String, String> entryMap : jsonHm.entrySet()) {
+ String key = entryMap.getKey();
+ json.put(key, jsonHm.get(key));
+ }
+ mainObject.put(s, json);
+ }
+ Iterator<String> keysItr = mainObject.keys();
+ while (keysItr.hasNext()) {
+ String key = keysItr.next();
+ String value = mainObject.get(key).toString();
+ retmap.put(key, value);
+ }
+
+ logger.info("#############################################################################");
+ logger.info(mainObject);
+ logger.info("###############################################################################");
+ }
+
+ LinkedHashMap<String, String> parseDataNodes(Map<String, String> map) {
+ LinkedHashMap<String, String> dataMapForJson = new LinkedHashMap<>();
+ matchableValues = new HashMap<>();
+ for (String uniqueDataKey : uniqueDataKeys) {
+ if (uniqueDataKey.contains("%")) {
+ String[] uniqueDataKeySplit = uniqueDataKey.split("%");
+ String findType = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1] + TYPE;
+ String typeValue = map.get(findType);
+ logger.info(typeValue);
+
+ String findRequired = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1] + REQUIRED;
+ String requiredValue = map.get(findRequired);
+
+ String matchable = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1] + MATCHABLE;
+
+ String matchableValue = map.get(matchable);
+
+ if ("true".equalsIgnoreCase(matchableValue)) {
+ String key = uniqueDataKeySplit[uniqueDataKeySplit.length - 1];
+ matchableValues.put(key, MATCHINGTRUE);
+ }
+
+ if (requiredValue == null || requiredValue.isEmpty()) {
+ requiredValue = "false";
+ }
+ if (INTEGER.equalsIgnoreCase(typeValue) || STRING.equalsIgnoreCase(typeValue)
+ || typeValue.equalsIgnoreCase(BOOLEAN)) {
+ String findDefault =
+ DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1] + DEFAULT;
+ String findDescription =
+ DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1] + DESCRIPTION;
+ String defaultValue = map.get(findDefault);
+ String descriptionDefined = map.get(findDescription);
+ logger.info("defaultValue is:" + defaultValue);
+ logger.info("requiredValue is:" + requiredValue);
+
+ StringBuilder attributeIndividualStringBuilder = new StringBuilder();
+ attributeIndividualStringBuilder.append(typeValue + DEFAULTVALUE);
+ attributeIndividualStringBuilder.append(defaultValue + REQUIREDVALUE);
+ attributeIndividualStringBuilder.append(requiredValue + MANYFALSE);
+ attributeIndividualStringBuilder.append(DESCRIPTION_TOKEN + descriptionDefined);
+ dataMapForJson.put(uniqueDataKey, attributeIndividualStringBuilder.toString());
+ } else if (LIST.equalsIgnoreCase(typeValue) || MAP.equalsIgnoreCase(typeValue)) {
+ logger.info("requiredValue is:" + requiredValue);
+ String findList = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1]
+ + ".entry_schema.type";
+ String findDefaultValue = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1]
+ + ".entry_schema.default";
+ String findDescription = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES + uniqueDataKeySplit[1]
+ + ".entry_schema.description";
+ String listValue = map.get(findList);
+ String defaultValue = map.get(findDefaultValue);
+ String description = map.get(findDescription);
+ if (listValue != null) {
+ logger.info("Type of list is:" + listValue);
+ // Its userdefined
+ if (listValue.contains(".")) {
+ String trimValue = listValue.substring(listValue.lastIndexOf('.') + 1);
+ StringBuilder referenceIndividualStringBuilder = new StringBuilder();
+ referenceIndividualStringBuilder.append(trimValue + REQUIREDVALUE);
+ referenceIndividualStringBuilder.append(requiredValue + MANYTRUE);
+ referenceIndividualStringBuilder.append(DESCRIPTION_TOKEN + description);
+ dataMapForJson.put(uniqueDataKey, referenceIndividualStringBuilder.toString());
+ } else { // Its string
+ StringBuilder stringListItems = new StringBuilder();
+ if (LIST.equalsIgnoreCase(typeValue)) {
+ stringListItems.append(uniqueDataKeySplit[1].toUpperCase() + DEFAULTVALUE + defaultValue
+ + REQUIREDVALUE + requiredValue + MANYFALSE + DESCRIPTION_TOKEN + description);
+ } else if (MAP.equalsIgnoreCase(typeValue)) {
+ stringListItems.append(uniqueDataKeySplit[1].toUpperCase() + DEFAULTVALUE + defaultValue
+ + REQUIREDVALUE + requiredValue + MANYTRUE + DESCRIPTION_TOKEN + description);
+ }
+ dataMapForJson.put(uniqueDataKey, stringListItems.toString());
+ dataListBuffer.append(uniqueDataKeySplit[1].toUpperCase() + "=[");
+ for (int i = 0; i < 10; i++) {
+ String findConstraints = DATATYPE + uniqueDataKeySplit[0] + PROPERTIES
+ + uniqueDataKeySplit[1] + ".entry_schema.constraints.0.valid_values." + i;
+ String constraintsValue = map.get(findConstraints);
+ logger.info(constraintsValue);
+ boolean ruleCheck = false;
+ if (constraintsValue == null) {
+ break;
+ } else if (constraintsValue.startsWith(DICTIONARY)) {
+ List<Object> dictFromDB = null;
+ String[] dictionaryNameValRule;
+ String[] dictionaryName = constraintsValue.split(":");
+ String dictionaryNameVal = dictionaryName[1];
+ if (dictionaryNameVal.contains("#Rules")) {
+ ruleCheck = true;
+ dictionaryNameValRule = dictionaryNameVal.split("#");
+ dictFromDB = commonClassDao.getDataById(DictionaryData.class, DICTIONARYNAME,
+ dictionaryNameValRule[0]);
+ } else {
+ dictFromDB = commonClassDao.getDataById(DictionaryData.class, DICTIONARYNAME,
+ dictionaryName[1]);
+ }
+ if (dictFromDB != null && !dictFromDB.isEmpty()) {
+ DictionaryData data = (DictionaryData) dictFromDB.get(0);
+ if (ruleCheck) {
+ constraintsValue = DICTIONARY + data.getDictionaryUrl() + "@"
+ + data.getDictionaryDataByName() + "&Rule";
+ } else {
+ constraintsValue = DICTIONARY + data.getDictionaryUrl() + "@"
+ + data.getDictionaryDataByName();
+ }
+ }
+ dataListBuffer.append(constraintsValue + ",");
+ } else {
+ logger.info("constraintsValue => " + constraintsValue);
+ if (constraintsValue.contains("=")) {
+ constraintsValue = constraintsValue.replace("=", "equal-sign");
+ }
+ dataConstraints.add(constraintsValue);
+ dataListBuffer.append(constraintsValue + ",");
+ }
+ }
+ dataListBuffer.append("]#");
+ logger.info(dataListBuffer);
+ }
+ }
+ } else {
+ String findUserDefined = DATATYPE + uniqueDataKeySplit[0] + "." + PROPERTIES_KEY + "."
+ + uniqueDataKeySplit[1] + TYPE;
+ String findDescription = DATATYPE + uniqueDataKeySplit[0] + "." + PROPERTIES_KEY + "."
+ + uniqueDataKeySplit[1] + DESCRIPTION;
+ String userDefinedValue = map.get(findUserDefined);
+ String description = map.get(findDescription);
+ String trimValue = userDefinedValue.substring(userDefinedValue.lastIndexOf('.') + 1);
+ StringBuilder referenceIndividualStringBuilder = new StringBuilder();
+ referenceIndividualStringBuilder.append(trimValue + REQUIREDVALUE);
+ referenceIndividualStringBuilder.append(requiredValue + MANYFALSE);
+ referenceIndividualStringBuilder.append(DESCRIPTION_TOKEN + description);
+ dataMapForJson.put(uniqueDataKey, referenceIndividualStringBuilder.toString());
+
+ }
+ } else {
+ matchableValues.put(uniqueDataKey, MATCHINGTRUE);
+ }
+ }
+
+ return dataMapForJson;
+ }
+
+ LinkedHashMap<String, LinkedHashMap<String, String>> parsePolicyNodes(Map<String, String> map)
+ throws ParserException {
+ LinkedHashMap<String, LinkedHashMap<String, String>> mapKey = new LinkedHashMap<>();
+ for (String uniqueKey : uniqueKeys) {
+ LinkedHashMap<String, String> hm;
+
+ for (Entry<String, String> entry : map.entrySet()) {
+ String key = entry.getKey();
+ if (key.contains(uniqueKey) && key.contains("policy.nodes")) {
+ if (mapKey.containsKey(uniqueKey)) {
+ hm = mapKey.get(uniqueKey);
+ String keyStr = key.substring(key.lastIndexOf('.') + 1);
+ String valueStr = map.get(key);
+ if ("type".equalsIgnoreCase(keyStr) && key.contains("entry_schema.0.type")
+ || key.contains("entry_schema.type") && valueStr.contains("policy.data.")) {
+ throw new ParserException(
+ "For user defined object type, Please make sure no space between 'type:' and object "
+ + valueStr);
+
+ }
+ if ("type".equals(keyStr)) {
+ if (!key.contains("entry_schema")) {
+ hm.put(keyStr, valueStr);
+ }
+ } else {
+ hm.put(keyStr, valueStr);
+ }
+
+ } else {
+ hm = new LinkedHashMap<>();
+ String keyStr = key.substring(key.lastIndexOf('.') + 1);
+ String valueStr = map.get(key);
+
+ if (("type").equals(keyStr)) {
+ if (!key.contains("entry_schema")) {
+ hm.put(keyStr, valueStr);
+ }
+ } else {
+ hm.put(keyStr, valueStr);
+ }
+ mapKey.put(uniqueKey, hm);
+ }
+ }
+ }
+ }
+ return mapKey;
+ }
+
+ private void createAttributes(LinkedHashMap<String, LinkedHashMap<String, String>> mapKey) {
+ StringBuilder attributeStringBuilder = new StringBuilder();
+ StringBuilder referenceStringBuilder = new StringBuilder();
+ StringBuilder listBuffer = new StringBuilder();
+ List<String> constraints = new ArrayList<>();
+ for (Map.Entry<String, LinkedHashMap<String, String>> entry : mapKey.entrySet()) {
+ String keySetString = entry.getKey();
+ LinkedHashMap<String, String> keyValues = mapKey.get(keySetString);
+ if (keyValues.get("type") != null && (STRING.equalsIgnoreCase(keyValues.get("type"))
+ || INTEGER.equalsIgnoreCase(keyValues.get("type"))
+ || BOOLEAN.equalsIgnoreCase(keyValues.get("type")))) {
+ StringBuilder attributeIndividualStringBuilder = new StringBuilder();
+ attributeIndividualStringBuilder.append(keySetString + "=");
+ attributeIndividualStringBuilder.append(keyValues.get("type") + DEFAULTVALUE);
+ attributeIndividualStringBuilder.append(keyValues.get("default") + REQUIREDVALUE);
+ attributeIndividualStringBuilder.append(keyValues.get("required") + MANYFALSE);
+ attributeIndividualStringBuilder.append(DESCRIPTION_TOKEN + keyValues.get(DESCRIPTION_KEY));
+ attributeStringBuilder.append(attributeIndividualStringBuilder + ",");
+ if (keyValues.get(MATCHABLEKEY) != null && "true".equalsIgnoreCase(keyValues.get(MATCHABLEKEY))) {
+ matchableValues.put(keySetString, MATCHINGTRUE);
+ }
+ } else if (LIST.equalsIgnoreCase(keyValues.get("type"))) {
+ if ("true".equalsIgnoreCase(keyValues.get(MATCHABLEKEY))) {
+ matchableValues.put(keySetString, MATCHINGTRUE);
+ }
+ // List Data type
+ Set<String> keys = keyValues.keySet();
+ Iterator<String> itr = keys.iterator();
+ boolean isDefinedType = false;
+ while (itr.hasNext()) {
+ String key = itr.next();
+ if ((!("type").equals(key) || ("required").equals(key))) {
+ String value = keyValues.get(key);
+ // The "." in the value determines if its a string or a user defined type.
+ if (!value.contains(".")) {
+ // This is string
+ if (StringUtils.isNumeric(key)) { // only integer key for the value of Constrains
+ constraints.add(keyValues.get(key));
+ }
+ } else {
+ // This is user defined type
+ String trimValue = value.substring(value.lastIndexOf('.') + 1);
+ StringBuilder referenceIndividualStringBuilder = new StringBuilder();
+ referenceIndividualStringBuilder.append(keySetString + "=" + trimValue + MANYTRUE
+ + DESCRIPTION_TOKEN + keyValues.get(DESCRIPTION_KEY));
+ referenceStringBuilder.append(referenceIndividualStringBuilder + ",");
+ isDefinedType = true;
+ }
+ }
+
+ }
+
+ if (!isDefinedType && LIST.equalsIgnoreCase(keyValues.get("type"))
+ && (constraints == null || constraints.isEmpty())) {
+ referenceStringBuilder.append(keySetString + "=MANY-true" + ",");
+ }
+ } else {
+ // User defined Datatype.
+ if ("true".equalsIgnoreCase(keyValues.get(MATCHABLEKEY))) {
+ matchableValues.put(keySetString, MATCHINGTRUE);
+ }
+ String value = keyValues.get("type");
+ if (value != null && !value.isEmpty()) {
+ String trimValue = value.substring(value.lastIndexOf('.') + 1);
+ StringBuilder referenceIndividualStringBuilder = new StringBuilder();
+ referenceIndividualStringBuilder.append(keySetString + "=" + trimValue + MANYFALSE
+ + DESCRIPTION_TOKEN + keyValues.get(DESCRIPTION_KEY));
+ referenceStringBuilder.append(referenceIndividualStringBuilder + ",");
+ } else {
+ logger.info("keyValues.get(type) is null/empty");
+ }
+
+ }
+ if (constraints != null && !constraints.isEmpty()) {
+ // List handling.
+ listBuffer.append(keySetString.toUpperCase() + "=[");
+ for (String str : constraints) {
+ if (str.contains(DICTIONARY)) {
+ String[] dictionaryName = str.split(":");
+ List<Object> dictFromDB =
+ commonClassDao.getDataById(DictionaryData.class, DICTIONARYNAME, dictionaryName[1]);
+ if (dictFromDB != null && !dictFromDB.isEmpty()) {
+ DictionaryData data = (DictionaryData) dictFromDB.get(0);
+ str = DICTIONARY + data.getDictionaryUrl() + "@" + data.getDictionaryDataByName();
+ }
+ }
+ listBuffer.append(str + ",");
+ }
+ listBuffer.append("]#");
+ logger.info(listBuffer);
+
+
+ StringBuilder referenceIndividualStringBuilder = new StringBuilder();
+ referenceIndividualStringBuilder.append(keySetString + "=" + keySetString.toUpperCase() + MANYFALSE);
+ referenceStringBuilder.append(referenceIndividualStringBuilder + ",");
+ constraints.clear();
+ }
+ }
+
+ dataListBuffer.append(listBuffer);
+
+
+ logger.info("$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$");
+ logger.info("Whole attribute String is:" + attributeStringBuilder);
+ logger.info("Whole reference String is:" + referenceStringBuilder);
+ logger.info("List String is:" + listBuffer);
+ logger.info("Data list buffer is:" + dataListBuffer);
+ logger.info("$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$");
+
+ this.listConstraints = dataListBuffer.toString();
+ this.referenceAttributes = referenceStringBuilder.toString();
+ this.attributeString = attributeStringBuilder.toString();
+ }
+
+ @SuppressWarnings("unchecked")
+ private void findNode(LinkedHashMap<Object, Object> map) {
+
+ map.forEach((key, value) -> {
+ // if the value is properties and its type is map object, then save all the keys
+ if (key.equals(PROPERTIES_KEY) && value instanceof Map) {
+ saveNodes((LinkedHashMap<?, ?>) value);
+ if (isDuplicatedAttributes) {
+ orderedElements = new ArrayList<>();
+ return;
+ }
+ }
+
+ if (!"policy.nodes.Root".equals(key) && value instanceof Map) {
+ // value is a Map object, then make a recursive call
+ findNode((LinkedHashMap<Object, Object>) value);
+ }
+ });
+
+ }
+
+ private void saveNodes(LinkedHashMap<?, ?> map) {
+
+ for (Entry<?, ?> entry : map.entrySet()) {
+
+ if (orderedElements.indexOf(entry.getKey()) >= 0) { // duplicated attribute names
+ isDuplicatedAttributes = true;
+ return;
+ } else {
+ orderedElements.add((String) entry.getKey());
+ }
+ }
+ }
+
+ public String getAttributeString() {
+ return attributeString;
+ }
+
+ public void setAttributeString(String attributeString) {
+ this.attributeString = attributeString;
+ }
+
+ public LinkedHashMap<String, Object> getRetmap() {
+ return retmap;
+ }
+
+ public void setRetmap(LinkedHashMap<String, Object> retmap) {
+ this.retmap = retmap;
+ }
+
+ public Map<String, String> getMatchableValues() {
+ return matchableValues;
+ }
+
+ public void setMatchableValues(Map<String, String> matchableValues) {
+ this.matchableValues = matchableValues;
+ }
+
+ public String getReferenceAttributes() {
+ return referenceAttributes;
+ }
+
+ public void setReferenceAttributes(String referenceAttributes) {
+ this.referenceAttributes = referenceAttributes;
+ }
+
+ public String getListConstraints() {
+ return listConstraints;
+ }
+
+ public void setListConstraints(String listConstraints) {
+ this.listConstraints = listConstraints;
+ }
+
+ public String getDataOrderInfo() {
+ return dataOrderInfo;
+ }
+
+ public void setDataOrderInfo(String dataOrderInfo) {
+ this.dataOrderInfo = dataOrderInfo;
+ }
+
+ public String getJsonRuleFormation() {
+ return jsonRuleFormation;
+ }
+
+ public void setJsonRuleFormation(String jsonRuleFormation) {
+ this.jsonRuleFormation = jsonRuleFormation;
+ }
+