private void checkIfNodeIdentifierIsDefault(final OperationContext context, final ModelNode model) throws OperationFailedException { final String nodeIdentifier = TransactionSubsystemRootResourceDefinition.NODE_IDENTIFIER.resolveModelAttribute(context, model).asString(); final String defaultNodeIdentifier = TransactionSubsystemRootResourceDefinition.NODE_IDENTIFIER.getDefaultValue().asString(); if (defaultNodeIdentifier.equals(nodeIdentifier)) { TransactionLogger.ROOT_LOGGER.nodeIdentifierIsSetToDefault(CommonAttributes.NODE_IDENTIFIER, context.getCurrentAddress().toCLIStyleString()); } }
static void operationDeprecated(OperationContext context, ModelNode operation) { ControllerLogger.DEPRECATED_LOGGER.operationDeprecated(Operations.getName(operation), context.getCurrentAddress().toCLIStyleString()); } }
static void operationDeprecated(OperationContext context, ModelNode operation) { ControllerLogger.DEPRECATED_LOGGER.operationDeprecated(Operations.getName(operation), context.getCurrentAddress().toCLIStyleString()); } }
static void operationDeprecated(OperationContext context, ModelNode operation) { ControllerLogger.DEPRECATED_LOGGER.operationDeprecated(Operations.getName(operation), context.getCurrentAddress().toCLIStyleString()); } }
private static void operationDeprecated(OperationContext context, ModelNode operation) { ControllerLogger.DEPRECATED_LOGGER.operationDeprecated(Operations.getName(operation), context.getCurrentAddress().toCLIStyleString()); }
EjbLogger.ROOT_LOGGER.remappingCacheAttributes(context.getCurrentAddress().toCLIStyleString(), defClustered, model.get(DEFAULT_SFSB_PASSIVATION_DISABLED_CACHE));
private static void populateRegistrationPoints(ModelNode points, Set<RegistrationPoint> registrationPoints) { for (RegistrationPoint point : registrationPoints) { points.add(point.getAddress().toCLIStyleString()); } }
@Override public Set<String> getChildrenNames(String type) { if (registry != null && APPLIES_TO.equals(type)) { Map<PathAddress, AccessConstraintUtilization> utilizations = getAccessConstraintUtilizations(); Set<String> result = new LinkedHashSet<String>(); for (PathAddress pa : utilizations.keySet()) { result.add(pa.toCLIStyleString()); } return result; } return Collections.emptySet(); }
@Override public Set<String> getChildrenNames(String type) { if (registry != null && APPLIES_TO.equals(type)) { Map<PathAddress, AccessConstraintUtilization> utilizations = getAccessConstraintUtilizations(); Set<String> result = new LinkedHashSet<String>(); for (PathAddress pa : utilizations.keySet()) { result.add(pa.toCLIStyleString()); } return result; } return Collections.emptySet(); }
private static StringBuilder appendPossibleProviderPoints(StringBuilder sb, String formattedCapability, Set<PathAddress> possible){ //"you wanted X and it doesn't exist; here's where you can add X" sb = sb.append(System.lineSeparator()).append(formattedCapability); if (possible.isEmpty()){ return sb.append(ControllerLogger.ROOT_LOGGER.noKnownProviderPoints()); } StringBuffer points = new StringBuffer(); for (PathAddress c: possible){ points = points.append(System.lineSeparator()).append("\t\t").append(c.toCLIStyleString()); } return sb.append(ControllerLogger.ROOT_LOGGER.possibleCapabilityProviderPoints(points.toString())); }
@Override ResourceEntry getChildEntry(String type, String name) { if (registry != null && APPLIES_TO.equals(type)) { Map<PathAddress, AccessConstraintUtilization> utilizations = getAccessConstraintUtilizations(); for (AccessConstraintUtilization acu : utilizations.values()) { if (name.equals(acu.getPathAddress().toCLIStyleString())) { return AccessConstraintAppliesToResourceDefinition.createResource(acu); } } } return null; }
@Override ResourceEntry getChildEntry(String type, String name) { if (registry != null && APPLIES_TO.equals(type)) { Map<PathAddress, AccessConstraintUtilization> utilizations = getAccessConstraintUtilizations(); for (AccessConstraintUtilization acu : utilizations.values()) { if (name.equals(acu.getPathAddress().toCLIStyleString())) { return AccessConstraintAppliesToResourceDefinition.createResource(acu); } } } return null; }
@Override ResourceEntry getChildEntry(String type, String name) { if (registry != null && APPLIES_TO.equals(type)) { Map<PathAddress, AccessConstraintUtilization> utilizations = getAccessConstraintUtilizations(); for (AccessConstraintUtilization acu : utilizations.values()) { if (name.equals(acu.getPathAddress().toCLIStyleString())) { return AccessConstraintAppliesToResourceDefinition.createResource(acu); } } } return null; }
private AccessConstraintAppliesToResource(AccessConstraintUtilization constraintUtilization) { super(PathElement.pathElement(ModelDescriptionConstants.APPLIES_TO, constraintUtilization.getPathAddress().toCLIStyleString())); this.constraintUtilization = constraintUtilization; } }
private AccessConstraintAppliesToResource(AccessConstraintUtilization constraintUtilization) { super(PathElement.pathElement(ModelDescriptionConstants.APPLIES_TO, constraintUtilization.getPathAddress().toCLIStyleString())); this.constraintUtilization = constraintUtilization; } }
private void checkIfNodeIdentifierIsDefault(final OperationContext context, final ModelNode model) throws OperationFailedException { final String nodeIdentifier = TransactionSubsystemRootResourceDefinition.NODE_IDENTIFIER.resolveModelAttribute(context, model).asString(); final String defaultNodeIdentifier = TransactionSubsystemRootResourceDefinition.NODE_IDENTIFIER.getDefaultValue().asString(); if (defaultNodeIdentifier.equals(nodeIdentifier)) { TransactionLogger.ROOT_LOGGER.nodeIdentifierIsSetToDefault(CommonAttributes.NODE_IDENTIFIER, context.getCurrentAddress().toCLIStyleString()); } }
@Override public void execute(OperationContext context, ModelNode operation) throws OperationFailedException { String warning = DomainManagementLogger.ROOT_LOGGER.removedBrokenResource(context.getCurrentAddress().toCLIStyleString()); DomainManagementLogger.ROOT_LOGGER.warn(warning); context.getResult().add(warning); }
private boolean validOverlay(PathAddress operationAddress) { if (operationAddress.size() >= 1 && operationAddress.size() >= overlayAddress.size()) { ServerLogger.AS_ROOT_LOGGER.debugf("Comparing address %s with %s", operationAddress.subAddress(0, overlayAddress.size()).toCLIStyleString(), overlayAddress.toCLIStyleString()); return operationAddress.subAddress(0, overlayAddress.size()).equals(overlayAddress); } return false; } }
@Override public void registerProxyController(final PathElement address, final ProxyController controller) throws IllegalArgumentException { final ManagementResourceRegistration existing = getSubRegistration(PathAddress.pathAddress(address)); if (existing != null && existing.getPathAddress().getLastElement().getValue().equals(address.getValue())) { throw ControllerLogger.ROOT_LOGGER.nodeAlreadyRegistered(existing.getPathAddress().toCLIStyleString()); } getOrCreateSubregistry(address.getKey()).registerProxyController(address.getValue(), controller); }
@Override public void registerProxyController(final PathElement address, final ProxyController controller) throws IllegalArgumentException { final ManagementResourceRegistration existing = getSubRegistration(PathAddress.pathAddress(address)); if (existing != null && existing.getPathAddress().getLastElement().getValue().equals(address.getValue())) { throw ControllerLogger.ROOT_LOGGER.nodeAlreadyRegistered(existing.getPathAddress().toCLIStyleString()); } getOrCreateSubregistry(address.getKey()).registerProxyController(address.getValue(), controller); }