private void populateModelWithCoordinatorEnvConfig(ModelNode operation, ModelNode coordEnvModel)
throws OperationFailedException {
TransactionSubsystemRootResourceDefinition.STATISTICS_ENABLED.validateAndSet(
operation, coordEnvModel);
TransactionSubsystemRootResourceDefinition.ENABLE_STATISTICS.validateAndSet(
operation, coordEnvModel);
TransactionSubsystemRootResourceDefinition.ENABLE_TSM_STATUS.validateAndSet(
operation, coordEnvModel);
TransactionSubsystemRootResourceDefinition.DEFAULT_TIMEOUT.validateAndSet(
operation, coordEnvModel);
ModelNode mceVal =
coordEnvModel.get(TransactionSubsystemRootResourceDefinition.ENABLE_STATISTICS.getName());
if (mceVal.isDefined()) {
ModelNode seVal =
coordEnvModel.get(
TransactionSubsystemRootResourceDefinition.STATISTICS_ENABLED.getName());
if (seVal.isDefined() && !seVal.equals(mceVal)) {
throw TransactionLogger.ROOT_LOGGER.inconsistentStatisticsSettings(
TransactionSubsystemRootResourceDefinition.STATISTICS_ENABLED.getName(),
TransactionSubsystemRootResourceDefinition.ENABLE_STATISTICS.getName());
}
seVal.set(mceVal);
mceVal.set(new ModelNode());
}
}
public static ModelNode parsePossibleExpression(String value) {
ModelNode result = new ModelNode();
if (isExpression(value)) {
result.set(new ValueExpression(value));
} else {
result.set(value);
}
return result;
}
/**
* Finds a value in the given {@code operationObject} whose key matches this attribute's {@link
* #getName() name}, resolves it and validates it using this attribute's {@link #getValidator()
* validator}. If the value is undefined and a {@link #getDefaultValue() default value} is
* available, the default value is used.
*
* @param operationObject model node of type {@link ModelType#OBJECT}, typically representing an
* operation request
* @return the resolved value, possibly the default value if the operation does not have a defined
* value matching this attribute's name
* @throws OperationFailedException if the value is not valid
*/
public ModelNode validateResolvedOperation(final ModelNode operationObject)
throws OperationFailedException {
final ModelNode node = new ModelNode();
if (operationObject.has(name)) {
node.set(operationObject.get(name));
}
if (!node.isDefined() && defaultValue.isDefined()) {
node.set(defaultValue);
}
final ModelNode resolved = node.resolve();
validator.validateParameter(name, resolved);
return resolved;
}
private ModelNode createDeploymentOperation(
ModelNode content, PathAddress... serverGroupAddressses) {
ModelNode composite = createEmptyOperation(COMPOSITE, PathAddress.EMPTY_ADDRESS);
ModelNode steps = composite.get(STEPS);
ModelNode step1 = steps.add();
step1.set(createAddOperation(ROOT_DEPLOYMENT_ADDRESS));
step1.get(CONTENT).add(content);
for (PathAddress serverGroup : serverGroupAddressses) {
ModelNode sg = steps.add();
sg.set(createAddOperation(serverGroup));
sg.get(ENABLED).set(true);
}
return composite;
}
static void sendError(HttpServerExchange exchange, boolean isGet, boolean encode, String msg) {
if (encode) {
try {
ModelNode response = new ModelNode();
response.set(msg);
ByteArrayOutputStream bout = new ByteArrayOutputStream();
response.writeBase64(bout);
byte[] bytes = bout.toByteArray();
exchange
.getResponseHeaders()
.put(Headers.CONTENT_TYPE, APPLICATION_DMR_ENCODED + ";" + UTF_8);
exchange.getResponseHeaders().put(Headers.CONTENT_LENGTH, String.valueOf(bytes.length));
exchange.setResponseCode(500);
exchange.getResponseSender().send(new String(bytes), IoCallback.END_EXCHANGE);
} catch (IOException e) {
// fallback, should not happen
sendError(exchange, isGet, false, msg);
}
} else {
byte[] bytes = msg.getBytes();
exchange.getResponseHeaders().put(Headers.CONTENT_TYPE, TEXT_PLAIN + ";" + UTF_8);
exchange.getResponseHeaders().put(Headers.CONTENT_LENGTH, String.valueOf(bytes.length));
exchange.setResponseCode(500);
exchange.getResponseSender().send(msg, IoCallback.END_EXCHANGE);
}
}
private void setProps(ModelNode requestProperties) throws Exception {
props = new TreeSet<RequestProp>();
if (opName.equals("add")) {
UserObject usrObj = (UserObject) node.getUserObject();
props.add(
new RequestProp(
"/" + usrObj.getName() + "=<name>/",
"Resource name for the new " + usrObj.getName(),
true,
ModelType.STRING));
}
if (opName.equals("write-attribute") && node.isLeaf()) {
ModelNode nameNode = requestProperties.get("name");
nameNode
.get("type")
.set(ModelType.UNDEFINED); // undefined type will display as uneditable String
UserObject usrObj = (UserObject) node.getUserObject();
ModelNode nameNodeValue = new ModelNode();
nameNodeValue.set(usrObj.getName());
props.add(new RequestProp("name", requestProperties.get("name"), nameNodeValue));
ModelNode rscDesc =
cliGuiCtx.getExecutor().doCommand(node.addressPath() + ":read-resource-description");
ModelNode valueNode = rscDesc.get("result", "attributes", usrObj.getName());
valueNode.get("required").set(false); // value is never required for write-attribute
ModelNode valueNodeValue = usrObj.getBackingNode().get(usrObj.getName());
props.add(new RequestProp("value", valueNode, valueNodeValue));
return;
}
for (Property prop : requestProperties.asPropertyList()) {
props.add(new RequestProp(prop.getName(), prop.getValue(), null));
}
}
/**
* Creates CliCommandAction for adding a Virtual-Server
*
* @param server Virtual-Server
* @return created CliCommandAction for adding the Virtual-Server
* @throws CliScriptException if required attributes for a creation of the CLI command of the
* Virtual-Server are missing or are empty (server-name)
*/
public static CliCommandAction createVirtualServerCliAction(VirtualServerBean server)
throws CliScriptException {
String errMsg = "in virtual-server (engine in AS5) must be set";
Utils.throwIfBlank(server.getVirtualServerName(), errMsg, "Server name");
ModelNode serverCmd = new ModelNode();
serverCmd.get(ClientConstants.OP).set(ClientConstants.ADD);
serverCmd.get(ClientConstants.OP_ADDR).add("subsystem", "web");
serverCmd.get(ClientConstants.OP_ADDR).add("virtual-server", server.getVirtualServerName());
if (server.getAliasName() != null) {
ModelNode aliasesNode = new ModelNode();
for (String alias : server.getAliasName()) {
ModelNode aliasNode = new ModelNode();
aliasNode.set(alias);
aliasesNode.add(aliasNode);
}
serverCmd.get("alias").set(aliasesNode);
}
CliApiCommandBuilder builder = new CliApiCommandBuilder(serverCmd);
builder.addProperty("enable-welcome-root", server.getEnableWelcomeRoot());
builder.addProperty("default-web-module", server.getDefaultWebModule());
return new CliCommandAction(
ServerMigrator.class, createVirtualServerScript(server), builder.getCommand());
}
@Override
public void execute(OperationContext context, ModelNode operation)
throws OperationFailedException {
validator.validate(operation);
ThreadMXBean mbean = ManagementFactory.getThreadMXBean();
try {
long id = operation.require(PlatformMBeanConstants.ID).asLong();
ThreadInfo info = null;
if (operation.hasDefined(PlatformMBeanConstants.MAX_DEPTH)) {
info = mbean.getThreadInfo(id, operation.require(PlatformMBeanConstants.MAX_DEPTH).asInt());
} else {
info = mbean.getThreadInfo(id);
}
final ModelNode result = context.getResult();
if (info != null) {
result.set(PlatformMBeanUtil.getDetypedThreadInfo(info, mbean.isThreadCpuTimeSupported()));
}
} catch (SecurityException e) {
throw new OperationFailedException(new ModelNode().set(e.toString()));
}
context.completeStep();
}
@Override
void execute(final ModelNode operation, final SocketBinding binding, final ModelNode result) {
ManagedBinding managedBinding = binding.getManagedBinding();
if (managedBinding != null) {
int port = managedBinding.getBindAddress().getPort();
result.set(port);
}
}
protected void addHeaders(CommandContext ctx, ModelNode request) throws CommandFormatException {
if (!headers.isPresent(ctx.getParsedCommandLine())) {
return;
}
final ModelNode headersNode = headers.toModelNode(ctx);
final ModelNode opHeaders = request.get(Util.OPERATION_HEADERS);
opHeaders.set(headersNode);
}
/** {@inheritDoc} */
public void convertAttribute(
PathAddress address,
String name,
ModelNode attributeValue,
TransformationContext context) {
PathElement element = address.getLastElement();
attributeValue.set(element.getValue());
}
@Override
void execute(final ModelNode operation, final SocketBinding binding, final ModelNode result) {
ManagedBinding managedBinding = binding.getManagedBinding();
if (managedBinding != null) {
InetAddress addr = managedBinding.getBindAddress().getAddress();
result.set(addr.getHostAddress());
}
}
private ModelNode createDeploymentReplaceOperation(
ModelNode content, PathAddress... serverGroupAddressses) {
ModelNode composite = createEmptyOperation(COMPOSITE, PathAddress.EMPTY_ADDRESS);
ModelNode steps = composite.get(STEPS);
ModelNode step1 = steps.add();
step1.set(createAddOperation(ROOT_REPLACEMENT_ADDRESS));
step1.get(RUNTIME_NAME).set(TEST);
step1.get(CONTENT).add(content);
for (PathAddress serverGroup : serverGroupAddressses) {
ModelNode sgr = steps.add();
sgr.set(createEmptyOperation(REPLACE_DEPLOYMENT, serverGroup));
sgr.get(ENABLED).set(true);
sgr.get(NAME).set(REPLACEMENT);
sgr.get(TO_REPLACE).set(TEST);
}
return composite;
}
void updateModel(final OperationContext context, ModelNode model, ModelNode listAttribute)
throws OperationFailedException {
ModelNode value = VALUE.resolveModelAttribute(context, model);
ModelNode index = INDEX.resolveModelAttribute(context, model);
List<ModelNode> res = new ArrayList<>(listAttribute.asList());
if (index.isDefined()) {
res.remove(index.asInt());
} else {
res.remove(value);
}
listAttribute.set(res);
}
private ModelNode unmaskUsersPasswords(OperationContext context, ModelNode users)
throws OperationFailedException {
users = users.clone();
for (Property property : users.get(USER).asPropertyList()) {
// Don't use the value from property as it is a clone and does not update the returned users
// ModelNode.
ModelNode user = users.get(USER, property.getName());
if (user.hasDefined(PASSWORD)) {
// TODO This will be cleaned up once it uses attribute definitions
user.set(PASSWORD, context.resolveExpressions(user.get(PASSWORD)).asString());
}
}
return users;
}
@Test
public void testPropertyValueTypeConverter() {
ModelNode description = createDescription(ModelType.PROPERTY, ModelType.INT);
TypeConverter converter = getConverter(description);
ModelNode node = new ModelNode();
node.set("name", 1);
node.protect();
Assert.assertEquals(SimpleType.STRING, converter.getOpenType());
String dmr = assertCast(String.class, converter.fromModelNode(node));
Assert.assertEquals(node, ModelNode.fromString(dmr));
Assert.assertEquals(dmr, assertCast(String.class, converter.fromModelNode(node)));
assertToArray(converter, dmr);
}
/**
* Update the model to hold domain level configuration.
*
* @param rootResource the root resource to be updated.
* @param environment the host controller's configuration environment
*/
public static void updateCoreModel(
final Resource rootResource, HostControllerEnvironment environment) {
final ModelNode rootModel = rootResource.getModel();
rootModel.get(RELEASE_VERSION).set(Version.AS_VERSION);
rootModel.get(RELEASE_CODENAME).set(Version.AS_RELEASE_CODENAME);
rootModel.get(MANAGEMENT_MAJOR_VERSION).set(Version.MANAGEMENT_MAJOR_VERSION);
rootModel.get(MANAGEMENT_MINOR_VERSION).set(Version.MANAGEMENT_MINOR_VERSION);
// Community uses UNDEF values
ModelNode nameNode = rootModel.get(PRODUCT_NAME);
ModelNode versionNode = rootModel.get(PRODUCT_VERSION);
if (environment != null) {
String productName = environment.getProductConfig().getProductName();
String productVersion = environment.getProductConfig().getProductVersion();
if (productName != null) {
nameNode.set(productName);
}
if (productVersion != null) {
versionNode.set(productVersion);
}
}
}
private void addManagementComponentComponent(
ModelNode realm, ModelNode parentAddress, String key, List<ModelNode> updates) {
for (String currentComponent : realm.get(key).keys()) {
ModelNode addComponent = new ModelNode();
// First take the properties to pass over.
addComponent.set(realm.get(key, currentComponent));
// Now convert it to an operation by adding a name and address.
ModelNode identityAddress = parentAddress.clone().add(key, currentComponent);
addComponent.get(OP).set(ADD);
addComponent.get(OP_ADDR).set(identityAddress);
updates.add(addComponent);
}
}
/**
* Creates and returns a {@link org.jboss.dmr.ModelNode} using the given {@code value} after first
* validating the node against {@link #getValidator() this object's validator}.
*
* <p>If {@code value} is {@code null} and a {@link #getDefaultValue() default value} is
* available, the value of that default value will be used.
*
* @param value the value. Will be {@link String#trim() trimmed} before use if not {@code null}.
* @param location current location of the parser's {@link javax.xml.stream.XMLStreamReader}. Used
* for any exception message
* @return {@code ModelNode} representing the parsed value
* @throws javax.xml.stream.XMLStreamException if {@code value} is not valid
*/
public ModelNode parse(final String value, final Location location) throws XMLStreamException {
final String trimmed = value == null ? null : value.trim();
ModelNode node;
if (trimmed != null) {
if (isAllowExpression()) {
node = ParseUtils.parsePossibleExpression(trimmed);
} else {
node = new ModelNode().set(trimmed);
}
if (node.getType() != ModelType.EXPRESSION) {
// Convert the string to the expected type
switch (getType()) {
case BIG_DECIMAL:
node.set(node.asBigDecimal());
break;
case BIG_INTEGER:
node.set(node.asBigInteger());
break;
case BOOLEAN:
node.set(node.asBoolean());
break;
case BYTES:
node.set(node.asBytes());
break;
case DOUBLE:
node.set(node.asDouble());
break;
case INT:
node.set(node.asInt());
break;
case LONG:
node.set(node.asLong());
break;
}
}
} else if (getDefaultValue().isDefined()) {
node = new ModelNode().set(getDefaultValue());
} else {
node = new ModelNode();
}
try {
getValidator().validateParameter(getXmlName(), node);
} catch (OperationFailedException e) {
throw new XMLStreamException(e.getFailureDescription().toString(), location);
}
return node;
}
void updateModel(final OperationContext context, ModelNode model, ModelNode listAttribute)
throws OperationFailedException {
String value = VALUE.resolveModelAttribute(context, model).asString();
ModelNode indexNode = INDEX.resolveModelAttribute(context, model);
LinkedList<ModelNode> res =
new LinkedList<>(
listAttribute.isDefined()
? listAttribute.asList()
: Collections.<ModelNode>emptyList());
if (indexNode.isDefined()) {
res.add(indexNode.asInt(), new ModelNode(value));
} else {
res.add(new ModelNode(value));
}
listAttribute.set(res);
}
@Test
public void testPropertyValueTypeExpressionConverter() throws Exception {
ModelNode description = createDescription(ModelType.PROPERTY, ModelType.INT);
TypeConverter converter = getConverter(description);
ModelNode node = new ModelNode();
node.set("name", "${this.should.not.exist.!!!!!:1}");
node.protect();
ModelNode expected = node.clone().resolve();
Assert.assertEquals(SimpleType.STRING, converter.getOpenType());
String dmr = assertCast(String.class, converter.fromModelNode(node));
Assert.assertEquals(expected, ModelNode.fromString(dmr));
Assert.assertEquals(dmr, assertCast(String.class, converter.fromModelNode(expected)));
assertToArray(converter, dmr);
}
/**
* Finds a value in the given {@code operationObject} whose key matches this attribute's {@link
* #getName() name} and validates it using this attribute's {@link #getValidator() validator}.
*
* @param operationObject model node of type {@link ModelType#OBJECT}, typically representing an
* operation request
* @return the value
* @throws OperationFailedException if the value is not valid
*/
public ModelNode validateOperation(final ModelNode operationObject)
throws OperationFailedException {
ModelNode node = new ModelNode();
if (operationObject.has(name)) {
node.set(operationObject.get(name));
}
if (isAllowExpression() && node.getType() == ModelType.STRING) {
node = ParseUtils.parsePossibleExpression(node.asString());
}
if (!node.isDefined() && defaultValue.isDefined()) {
validator.validateParameter(name, defaultValue);
} else {
validator.validateParameter(name, node);
}
return node;
}
private static void checkSensitiveAttribute(ManagementInterface client, boolean expectSuccess)
throws IOException {
ModelNode correct = new ModelNode();
if (expectSuccess) {
correct.set("sa");
}
ModelNode attrValue = readResource(client, EXAMPLE_DS, Outcome.SUCCESS).get(RESULT, PASSWORD);
assertEquals(correct, attrValue);
attrValue =
readAttribute(
client,
EXAMPLE_DS,
PASSWORD,
expectSuccess ? Outcome.SUCCESS : Outcome.UNAUTHORIZED)
.get(RESULT);
assertEquals(correct, attrValue);
}
protected void checkSensitiveAttribute(
ModelControllerClient client,
String host,
String server,
boolean expectSuccess,
String... roles)
throws IOException {
String dsAddress =
host == null
? DEFAULT_PROFILE + "/" + EXAMPLE_DS
: "host=" + host + "server=" + server + "/" + EXAMPLE_DS;
ModelNode attrValue =
readResource(client, dsAddress, host, server, Outcome.SUCCESS, roles).get(RESULT, PASSWORD);
ModelNode correct = new ModelNode();
if (expectSuccess) {
correct.set("sa");
}
assertEquals(correct, attrValue);
}
public static ModelNode parseAttributeValue(
final String value, final boolean isExpressionAllowed, final ModelType attributeType) {
final String trimmed = value == null ? null : value.trim();
ModelNode node;
if (trimmed != null) {
if (isExpressionAllowed && isExpression(trimmed)) {
node = new ModelNode(new ValueExpression(trimmed));
} else {
if (attributeType == STRING || attributeType == PROPERTY) {
node = new ModelNode().set(value);
} else {
node = new ModelNode().set(trimmed);
}
}
if (node.getType() != ModelType.EXPRESSION) {
// Convert the string to the expected type
switch (attributeType) {
case BIG_DECIMAL:
node.set(node.asBigDecimal());
break;
case BIG_INTEGER:
node.set(node.asBigInteger());
break;
case BOOLEAN:
node.set(node.asBoolean());
break;
case BYTES:
node.set(node.asBytes());
break;
case DOUBLE:
node.set(node.asDouble());
break;
case INT:
node.set(node.asInt());
break;
case LONG:
node.set(node.asLong());
break;
}
}
} else {
node = new ModelNode();
}
return node;
}
private void addManagementConnections(List<ModelNode> updates) {
if (hostModel.get(CORE_SERVICE, MANAGEMENT, LDAP_CONNECTION).isDefined()) {
ModelNode baseAddress = new ModelNode();
baseAddress.add(CORE_SERVICE, MANAGEMENT);
ModelNode connections = hostModel.get(CORE_SERVICE, MANAGEMENT, LDAP_CONNECTION);
for (String connectionName : connections.keys()) {
ModelNode addConnection = new ModelNode();
// First take the properties to pass over.
addConnection.set(connections.get(connectionName));
// Now convert it to an operation by adding a name and address.
ModelNode identityAddress = baseAddress.clone().add(LDAP_CONNECTION, connectionName);
addConnection.get(OP).set(ADD);
addConnection.get(OP_ADDR).set(identityAddress);
updates.add(addConnection);
}
}
}
@Override
public ModelNode getOperationDescription(CommandContext ctx) throws CommandLineException {
ModelNode request = initRequest(ctx);
if (request == null) {
return null;
}
request.get(Util.OPERATION).set(Util.READ_OPERATION_DESCRIPTION);
request.get(Util.NAME).set(Util.ADD);
final ModelNode response;
try {
response = ctx.getModelControllerClient().execute(request);
} catch (IOException e) {
throw new CommandFormatException("Failed to execute read-operation-description.", e);
}
if (!response.hasDefined(Util.RESULT)) {
return null;
}
final ModelNode result = response.get(Util.RESULT);
final ModelNode opDescr = result.get(Util.DESCRIPTION);
final StringBuilder buf = new StringBuilder();
buf.append(opDescr.asString());
buf.append(" (unlike the add operation, this command accepts xa-datasource-properties).");
opDescr.set(buf.toString());
final ModelNode allProps = result.get(Util.REQUEST_PROPERTIES);
final ModelNode conProps = allProps.get(CONNECTION_PROPERTIES);
conProps
.get(Util.DESCRIPTION)
.set(
"A comma-separated list of datasource connection properties in key=value pair format.");
conProps.get(Util.TYPE).set(ModelType.LIST);
conProps.get(Util.REQUIRED).set(false);
conProps.get(Util.NILLABLE).set(false);
return result;
}
/** For WFCORE-1590 scenarios */
@Test
public void testMinMaxSize() {
ModelNode toValidate = new ModelNode();
ModelNode paramVal = toValidate.get("test");
// Test that explicitly configured validator controls.
// This isn't some sort of ideal behavior, so if we can make setMin/MaxSize take precedence
// that's fine and this part of the test can be changed. This is more a sanity check
// that the current code is doing what's expected.
SimpleAttributeDefinition ad =
new SimpleAttributeDefinitionBuilder("test", ModelType.STRING)
.setValidator(new StringLengthValidator(2, 3, false, false))
.setMinSize(1)
.setMaxSize(4)
.build();
paramVal.set("a");
validate(ad, toValidate, true);
paramVal.set("ab");
validate(ad, toValidate, false);
paramVal.set("abc");
validate(ad, toValidate, false);
paramVal.set("abcd");
validate(ad, toValidate, true);
// Test that setMin/MaxSize control in the absence of explicit validation
ad =
new SimpleAttributeDefinitionBuilder("test", ModelType.STRING)
.setMinSize(2)
.setMaxSize(3)
.build();
paramVal.set("a");
validate(ad, toValidate, true);
paramVal.set("ab");
validate(ad, toValidate, false);
paramVal.set("abc");
validate(ad, toValidate, false);
paramVal.set("abcd");
validate(ad, toValidate, true);
// Test that default min is 1
ad = new SimpleAttributeDefinitionBuilder("test", ModelType.STRING).setMaxSize(3).build();
paramVal.set("");
validate(ad, toValidate, true);
paramVal.set("a");
validate(ad, toValidate, false);
paramVal.set("ab");
validate(ad, toValidate, false);
paramVal.set("abc");
validate(ad, toValidate, false);
paramVal.set("abcd");
validate(ad, toValidate, true);
// Test that default max is big
ad = new SimpleAttributeDefinitionBuilder("test", ModelType.STRING).build();
paramVal.set("");
validate(ad, toValidate, true);
paramVal.set(
"abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz"
+ "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz"
+ "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz");
validate(ad, toValidate, false);
}
@Override
void execute(final ModelNode operation, final SocketBinding binding, final ModelNode result) {
// The socket should be bound when it's registered at the SocketBindingManager
result.set(binding.isBound());
}
@Override
public void execute(OperationContext context, ModelNode operation)
throws OperationFailedException {
ModelNode operationModel = new ModelNode();
populateModel(operation, operationModel);
String attributeName = NAME.resolveModelAttribute(context, operationModel).asString();
final ImmutableManagementResourceRegistration registry = context.getResourceRegistration();
final boolean useEnhancedSyntax = containsEnhancedSyntax(attributeName, registry);
String attributeExpression = attributeName;
if (useEnhancedSyntax) {
attributeName = extractAttributeName(attributeName);
}
final AttributeAccess attributeAccess =
context
.getResourceRegistration()
.getAttributeAccess(PathAddress.EMPTY_ADDRESS, attributeName);
if (attributeAccess == null) {
throw new OperationFailedException(
ControllerLogger.ROOT_LOGGER.unknownAttribute(attributeName));
}
final PathAddress address = PathAddress.pathAddress(operation.get(OP_ADDR));
final ModelNode readResponse = new ModelNode();
// prepare write operation
ModelNode writeOperation = Util.createOperation(WriteAttributeHandler.DEFINITION, address);
writeOperation.get(NAME.getName()).set(useEnhancedSyntax ? attributeExpression : attributeName);
ModelNode writeOperationValue =
writeOperation.get(
ModelDescriptionConstants.VALUE); // value will be set in modification step
if (attributeAccess.getStorageType() == AttributeAccess.Storage.CONFIGURATION) {
// Steps need to be performed before any other steps, so they are added in opposite order
// with addFirst=true parameter.
// 2. modify value and register writing step
context.addStep(
(context1, operation1) -> {
updateModel(
context,
operationModel,
attributeAccess.getAttributeDefinition(),
readResponse.get(RESULT));
// add write step
if (requiredReadWriteAccess) {
writeOperationValue.set(readResponse.get(RESULT));
context.addStep(
writeOperation,
WriteAttributeHandler.INSTANCE,
OperationContext.Stage.MODEL,
true);
}
},
OperationContext.Stage.MODEL,
true);
// 1. read current attribute value
ModelNode readAttributeOperation =
Util.getReadAttributeOperation(
address, useEnhancedSyntax ? attributeExpression : attributeName);
context.addStep(
readResponse,
readAttributeOperation,
ReadAttributeHandler.INSTANCE,
OperationContext.Stage.MODEL,
true);
} else {
assert attributeAccess.getStorageType() == AttributeAccess.Storage.RUNTIME;
// For Storage.RUNTIME attributes, attributes need to be registered with reader and writer
// step handlers,
// which must postpone reading / writing to RUNTIME stage (by registering new RUNTIME steps
// which will
// perform actual reading / writing).
// Steps need to be performed before any other steps, so they are added in opposite order
// with addFirst=true parameter.
// 3. write modified value
if (requiredReadWriteAccess) {
context.addStep(
readResponse,
writeOperation,
WriteAttributeHandler.INSTANCE,
OperationContext.Stage.MODEL,
true);
}
// 2. modify value
context.addStep(
(context1, operation1) -> {
context.addStep(
(context2, operation2) -> {
updateModel(
context2,
operationModel,
attributeAccess.getAttributeDefinition(),
readResponse.get(RESULT));
writeOperationValue.set(readResponse.get(RESULT));
},
OperationContext.Stage.RUNTIME);
},
OperationContext.Stage.MODEL,
true);
// 1. read current attribute value
ModelNode readAttributeOperation =
Util.getReadAttributeOperation(
address, useEnhancedSyntax ? attributeExpression : attributeName);
context.addStep(
readResponse,
readAttributeOperation,
ReadAttributeHandler.INSTANCE,
OperationContext.Stage.MODEL,
true);
}
}
