Java tutorial
/* * Copyright (c) 2000, 2015, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.management.openmbean; // java import // import java.lang.reflect.Array; import java.lang.reflect.Constructor; import java.lang.reflect.Method; import java.lang.reflect.Modifier; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.Set; import javax.management.Descriptor; import javax.management.DescriptorRead; import javax.management.ImmutableDescriptor; import javax.management.MBeanAttributeInfo; import com.sun.jmx.remote.util.EnvHelp; import sun.reflect.misc.MethodUtil; import sun.reflect.misc.ReflectUtil; /** * Describes an attribute of an open MBean. * * * @since 1.5 */ public class OpenMBeanAttributeInfoSupport extends MBeanAttributeInfo implements OpenMBeanAttributeInfo { /* Serial version */ static final long serialVersionUID = -4867215622149721849L; /** * @serial The open mbean attribute's <i>open type</i> */ private OpenType<?> openType; /** * @serial The open mbean attribute's default value */ private final Object defaultValue; /** * @serial The open mbean attribute's legal values. This {@link * Set} is unmodifiable */ private final Set<?> legalValues; // to be constructed unmodifiable /** * @serial The open mbean attribute's min value */ private final Comparable<?> minValue; /** * @serial The open mbean attribute's max value */ private final Comparable<?> maxValue; // As this instance is immutable, these two values need only // be calculated once. private transient Integer myHashCode = null; private transient String myToString = null; /** * Constructs an {@code OpenMBeanAttributeInfoSupport} instance, * which describes the attribute of an open MBean with the * specified {@code name}, {@code openType} and {@code * description}, and the specified read/write access properties. * * @param name cannot be a null or empty string. * * @param description cannot be a null or empty string. * * @param openType cannot be null. * * @param isReadable {@code true} if the attribute has a getter * exposed for management. * * @param isWritable {@code true} if the attribute has a setter * exposed for management. * * @param isIs {@code true} if the attribute's getter is of the * form <code>is<i>XXX</i></code>. * * @throws IllegalArgumentException if {@code name} or {@code * description} are null or empty string, or {@code openType} is * null. */ public OpenMBeanAttributeInfoSupport(String name, String description, OpenType<?> openType, boolean isReadable, boolean isWritable, boolean isIs) { this(name, description, openType, isReadable, isWritable, isIs, (Descriptor) null); } /** * <p>Constructs an {@code OpenMBeanAttributeInfoSupport} instance, * which describes the attribute of an open MBean with the * specified {@code name}, {@code openType}, {@code * description}, read/write access properties, and {@code Descriptor}.</p> * * <p>The {@code descriptor} can contain entries that will define * the values returned by certain methods of this class, as * explained in the <a href="package-summary.html#constraints"> * package description</a>. * * @param name cannot be a null or empty string. * * @param description cannot be a null or empty string. * * @param openType cannot be null. * * @param isReadable {@code true} if the attribute has a getter * exposed for management. * * @param isWritable {@code true} if the attribute has a setter * exposed for management. * * @param isIs {@code true} if the attribute's getter is of the * form <code>is<i>XXX</i></code>. * * @param descriptor The descriptor for the attribute. This may be null * which is equivalent to an empty descriptor. * * @throws IllegalArgumentException if {@code name} or {@code * description} are null or empty string, or {@code openType} is * null, or the descriptor entries are invalid as described in the * <a href="package-summary.html#constraints">package description</a>. * * @since 1.6 */ public OpenMBeanAttributeInfoSupport(String name, String description, OpenType<?> openType, boolean isReadable, boolean isWritable, boolean isIs, Descriptor descriptor) { // Construct parent's state // super(name, (openType == null) ? null : openType.getClassName(), description, isReadable, isWritable, isIs, ImmutableDescriptor.union(descriptor, (openType == null) ? null : openType.getDescriptor())); // Initialize this instance's specific state // this.openType = openType; descriptor = getDescriptor(); // replace null by empty this.defaultValue = valueFrom(descriptor, "defaultValue", openType); this.legalValues = valuesFrom(descriptor, "legalValues", openType); this.minValue = comparableValueFrom(descriptor, "minValue", openType); this.maxValue = comparableValueFrom(descriptor, "maxValue", openType); try { check(this); } catch (OpenDataException e) { throw new IllegalArgumentException(e.getMessage(), e); } } /** * Constructs an {@code OpenMBeanAttributeInfoSupport} instance, * which describes the attribute of an open MBean with the * specified {@code name}, {@code openType}, {@code description} * and {@code defaultValue}, and the specified read/write access * properties. * * @param name cannot be a null or empty string. * * @param description cannot be a null or empty string. * * @param openType cannot be null. * * @param isReadable {@code true} if the attribute has a getter * exposed for management. * * @param isWritable {@code true} if the attribute has a setter * exposed for management. * * @param isIs {@code true} if the attribute's getter is of the * form <code>is<i>XXX</i></code>. * * @param defaultValue must be a valid value for the {@code * openType} specified for this attribute; default value not * supported for {@code ArrayType} and {@code TabularType}; can * be null, in which case it means that no default value is set. * * @param <T> allows the compiler to check that the {@code defaultValue}, * if non-null, has the correct Java type for the given {@code openType}. * * @throws IllegalArgumentException if {@code name} or {@code * description} are null or empty string, or {@code openType} is * null. * * @throws OpenDataException if {@code defaultValue} is not a * valid value for the specified {@code openType}, or {@code * defaultValue} is non null and {@code openType} is an {@code * ArrayType} or a {@code TabularType}. */ public <T> OpenMBeanAttributeInfoSupport(String name, String description, OpenType<T> openType, boolean isReadable, boolean isWritable, boolean isIs, T defaultValue) throws OpenDataException { this(name, description, openType, isReadable, isWritable, isIs, defaultValue, (T[]) null); } /** * <p>Constructs an {@code OpenMBeanAttributeInfoSupport} instance, * which describes the attribute of an open MBean with the * specified {@code name}, {@code openType}, {@code description}, * {@code defaultValue} and {@code legalValues}, and the specified * read/write access properties.</p> * * <p>The contents of {@code legalValues} are copied, so subsequent * modifications of the array referenced by {@code legalValues} * have no impact on this {@code OpenMBeanAttributeInfoSupport} * instance.</p> * * @param name cannot be a null or empty string. * * @param description cannot be a null or empty string. * * @param openType cannot be null. * * @param isReadable {@code true} if the attribute has a getter * exposed for management. * * @param isWritable {@code true} if the attribute has a setter * exposed for management. * * @param isIs {@code true} if the attribute's getter is of the * form <code>is<i>XXX</i></code>. * * @param defaultValue must be a valid value * for the {@code * openType} specified for this attribute; default value not * supported for {@code ArrayType} and {@code TabularType}; can * be null, in which case it means that no default value is set. * * @param legalValues each contained value must be valid for the * {@code openType} specified for this attribute; legal values * not supported for {@code ArrayType} and {@code TabularType}; * can be null or empty. * * @param <T> allows the compiler to check that the {@code * defaultValue} and {@code legalValues}, if non-null, have the * correct Java type for the given {@code openType}. * * @throws IllegalArgumentException if {@code name} or {@code * description} are null or empty string, or {@code openType} is * null. * * @throws OpenDataException if {@code defaultValue} is not a * valid value for the specified {@code openType}, or one value in * {@code legalValues} is not valid for the specified {@code * openType}, or {@code defaultValue} is non null and {@code * openType} is an {@code ArrayType} or a {@code TabularType}, or * {@code legalValues} is non null and non empty and {@code * openType} is an {@code ArrayType} or a {@code TabularType}, or * {@code legalValues} is non null and non empty and {@code * defaultValue} is not contained in {@code legalValues}. */ public <T> OpenMBeanAttributeInfoSupport(String name, String description, OpenType<T> openType, boolean isReadable, boolean isWritable, boolean isIs, T defaultValue, T[] legalValues) throws OpenDataException { this(name, description, openType, isReadable, isWritable, isIs, defaultValue, legalValues, null, null); } /** * Constructs an {@code OpenMBeanAttributeInfoSupport} instance, * which describes the attribute of an open MBean, with the * specified {@code name}, {@code openType}, {@code description}, * {@code defaultValue}, {@code minValue} and {@code maxValue}. * * It is possible to specify minimal and maximal values only for * an open type whose values are {@code Comparable}. * * @param name cannot be a null or empty string. * * @param description cannot be a null or empty string. * * @param openType cannot be null. * * @param isReadable {@code true} if the attribute has a getter * exposed for management. * * @param isWritable {@code true} if the attribute has a setter * exposed for management. * * @param isIs {@code true} if the attribute's getter is of the * form <code>is<i>XXX</i></code>. * * @param defaultValue must be a valid value for the {@code * openType} specified for this attribute; default value not * supported for {@code ArrayType} and {@code TabularType}; can be * null, in which case it means that no default value is set. * * @param minValue must be valid for the {@code openType} * specified for this attribute; can be null, in which case it * means that no minimal value is set. * * @param maxValue must be valid for the {@code openType} * specified for this attribute; can be null, in which case it * means that no maximal value is set. * * @param <T> allows the compiler to check that the {@code * defaultValue}, {@code minValue}, and {@code maxValue}, if * non-null, have the correct Java type for the given {@code * openType}. * * @throws IllegalArgumentException if {@code name} or {@code * description} are null or empty string, or {@code openType} is * null. * * @throws OpenDataException if {@code defaultValue}, {@code * minValue} or {@code maxValue} is not a valid value for the * specified {@code openType}, or {@code defaultValue} is non null * and {@code openType} is an {@code ArrayType} or a {@code * TabularType}, or both {@code minValue} and {@code maxValue} are * non-null and {@code minValue.compareTo(maxValue) > 0} is {@code * true}, or both {@code defaultValue} and {@code minValue} are * non-null and {@code minValue.compareTo(defaultValue) > 0} is * {@code true}, or both {@code defaultValue} and {@code maxValue} * are non-null and {@code defaultValue.compareTo(maxValue) > 0} * is {@code true}. */ public <T> OpenMBeanAttributeInfoSupport(String name, String description, OpenType<T> openType, boolean isReadable, boolean isWritable, boolean isIs, T defaultValue, Comparable<T> minValue, Comparable<T> maxValue) throws OpenDataException { this(name, description, openType, isReadable, isWritable, isIs, defaultValue, null, minValue, maxValue); } private <T> OpenMBeanAttributeInfoSupport(String name, String description, OpenType<T> openType, boolean isReadable, boolean isWritable, boolean isIs, T defaultValue, T[] legalValues, Comparable<T> minValue, Comparable<T> maxValue) throws OpenDataException { super(name, (openType == null) ? null : openType.getClassName(), description, isReadable, isWritable, isIs, makeDescriptor(openType, defaultValue, legalValues, minValue, maxValue)); this.openType = openType; Descriptor d = getDescriptor(); this.defaultValue = defaultValue; this.minValue = minValue; this.maxValue = maxValue; // We already converted the array into an unmodifiable Set // in the descriptor. this.legalValues = (Set<?>) d.getFieldValue("legalValues"); check(this); } /** * An object serialized in a version of the API before Descriptors were * added to this class will have an empty or null Descriptor. * For consistency with our * behavior in this version, we must replace the object with one * where the Descriptors reflect the same values of openType, defaultValue, * etc. **/ private Object readResolve() { if (getDescriptor().getFieldNames().length == 0) { OpenType<Object> xopenType = cast(openType); Set<Object> xlegalValues = cast(legalValues); Comparable<Object> xminValue = cast(minValue); Comparable<Object> xmaxValue = cast(maxValue); return new OpenMBeanAttributeInfoSupport(name, description, openType, isReadable(), isWritable(), isIs(), makeDescriptor(xopenType, defaultValue, xlegalValues, xminValue, xmaxValue)); } else return this; } static void check(OpenMBeanParameterInfo info) throws OpenDataException { OpenType<?> openType = info.getOpenType(); if (openType == null) throw new IllegalArgumentException("OpenType cannot be null"); if (info.getName() == null || info.getName().trim().isEmpty()) throw new IllegalArgumentException("Name cannot be null or empty"); if (info.getDescription() == null || info.getDescription().trim().isEmpty()) throw new IllegalArgumentException("Description cannot be null or empty"); // Check and initialize defaultValue // if (info.hasDefaultValue()) { // Default value not supported for ArrayType and TabularType // Cast to Object because "OpenType<T> instanceof" is illegal if (openType.isArray() || (Object) openType instanceof TabularType) { throw new OpenDataException("Default value not supported " + "for ArrayType and TabularType"); } // Check defaultValue's class if (!openType.isValue(info.getDefaultValue())) { final String msg = "Argument defaultValue's class [\"" + info.getDefaultValue().getClass().getName() + "\"] does not match the one defined in openType[\"" + openType.getClassName() + "\"]"; throw new OpenDataException(msg); } } // Check that we don't have both legalValues and min or max // if (info.hasLegalValues() && (info.hasMinValue() || info.hasMaxValue())) { throw new OpenDataException("cannot have both legalValue and " + "minValue or maxValue"); } // Check minValue and maxValue if (info.hasMinValue() && !openType.isValue(info.getMinValue())) { final String msg = "Type of minValue [" + info.getMinValue().getClass().getName() + "] does not match OpenType [" + openType.getClassName() + "]"; throw new OpenDataException(msg); } if (info.hasMaxValue() && !openType.isValue(info.getMaxValue())) { final String msg = "Type of maxValue [" + info.getMaxValue().getClass().getName() + "] does not match OpenType [" + openType.getClassName() + "]"; throw new OpenDataException(msg); } // Check that defaultValue is a legal value // if (info.hasDefaultValue()) { Object defaultValue = info.getDefaultValue(); if (info.hasLegalValues() && !info.getLegalValues().contains(defaultValue)) { throw new OpenDataException("defaultValue is not contained " + "in legalValues"); } // Check that minValue <= defaultValue <= maxValue // if (info.hasMinValue()) { if (compare(info.getMinValue(), defaultValue) > 0) { throw new OpenDataException("minValue cannot be greater " + "than defaultValue"); } } if (info.hasMaxValue()) { if (compare(info.getMaxValue(), defaultValue) < 0) { throw new OpenDataException("maxValue cannot be less " + "than defaultValue"); } } } // Check legalValues // if (info.hasLegalValues()) { // legalValues not supported for TabularType and arrays if ((Object) openType instanceof TabularType || openType.isArray()) { throw new OpenDataException("Legal values not supported " + "for TabularType and arrays"); } // Check legalValues are valid with openType for (Object v : info.getLegalValues()) { if (!openType.isValue(v)) { final String msg = "Element of legalValues [" + v + "] is not a valid value for the specified openType [" + openType.toString() + "]"; throw new OpenDataException(msg); } } } // Check that, if both specified, minValue <= maxValue // if (info.hasMinValue() && info.hasMaxValue()) { if (compare(info.getMinValue(), info.getMaxValue()) > 0) { throw new OpenDataException("minValue cannot be greater " + "than maxValue"); } } } @SuppressWarnings({ "unchecked", "rawtypes" }) static int compare(Object x, Object y) { return ((Comparable) x).compareTo(y); } static <T> Descriptor makeDescriptor(OpenType<T> openType, T defaultValue, T[] legalValues, Comparable<T> minValue, Comparable<T> maxValue) { Map<String, Object> map = new HashMap<String, Object>(); if (defaultValue != null) map.put("defaultValue", defaultValue); if (legalValues != null) { Set<T> set = new HashSet<T>(); for (T v : legalValues) set.add(v); set = Collections.unmodifiableSet(set); map.put("legalValues", set); } if (minValue != null) map.put("minValue", minValue); if (maxValue != null) map.put("maxValue", maxValue); if (map.isEmpty()) { return openType.getDescriptor(); } else { map.put("openType", openType); return new ImmutableDescriptor(map); } } static <T> Descriptor makeDescriptor(OpenType<T> openType, T defaultValue, Set<T> legalValues, Comparable<T> minValue, Comparable<T> maxValue) { T[] legals; if (legalValues == null) legals = null; else { legals = cast(new Object[legalValues.size()]); legalValues.toArray(legals); } return makeDescriptor(openType, defaultValue, legals, minValue, maxValue); } static <T> T valueFrom(Descriptor d, String name, OpenType<T> openType) { Object x = d.getFieldValue(name); if (x == null) return null; try { return convertFrom(x, openType); } catch (Exception e) { final String msg = "Cannot convert descriptor field " + name + " to " + openType.getTypeName(); throw EnvHelp.initCause(new IllegalArgumentException(msg), e); } } static <T> Set<T> valuesFrom(Descriptor d, String name, OpenType<T> openType) { Object x = d.getFieldValue(name); if (x == null) return null; Collection<?> coll; if (x instanceof Set<?>) { Set<?> set = (Set<?>) x; boolean asis = true; for (Object element : set) { if (!openType.isValue(element)) { asis = false; break; } } if (asis) return cast(set); coll = set; } else if (x instanceof Object[]) { coll = Arrays.asList((Object[]) x); } else { final String msg = "Descriptor value for " + name + " must be a Set or " + "an array: " + x.getClass().getName(); throw new IllegalArgumentException(msg); } Set<T> result = new HashSet<T>(); for (Object element : coll) result.add(convertFrom(element, openType)); return result; } static <T> Comparable<?> comparableValueFrom(Descriptor d, String name, OpenType<T> openType) { T t = valueFrom(d, name, openType); if (t == null || t instanceof Comparable<?>) return (Comparable<?>) t; final String msg = "Descriptor field " + name + " with value " + t + " is not Comparable"; throw new IllegalArgumentException(msg); } private static <T> T convertFrom(Object x, OpenType<T> openType) { if (openType.isValue(x)) { T t = OpenMBeanAttributeInfoSupport.<T>cast(x); return t; } return convertFromStrings(x, openType); } private static <T> T convertFromStrings(Object x, OpenType<T> openType) { if (openType instanceof ArrayType<?>) return convertFromStringArray(x, openType); else if (x instanceof String) return convertFromString((String) x, openType); final String msg = "Cannot convert value " + x + " of type " + x.getClass().getName() + " to type " + openType.getTypeName(); throw new IllegalArgumentException(msg); } private static <T> T convertFromString(String s, OpenType<T> openType) { Class<T> c; try { String className = openType.safeGetClassName(); ReflectUtil.checkPackageAccess(className); c = cast(Class.forName(className)); } catch (ClassNotFoundException e) { throw new NoClassDefFoundError(e.toString()); // can't happen } // Look for: public static T valueOf(String) Method valueOf; try { // It is safe to call this plain Class.getMethod because the class "c" // was checked before by ReflectUtil.checkPackageAccess(openType.safeGetClassName()); valueOf = c.getMethod("valueOf", String.class); if (!Modifier.isStatic(valueOf.getModifiers()) || valueOf.getReturnType() != c) valueOf = null; } catch (NoSuchMethodException e) { valueOf = null; } if (valueOf != null) { try { return c.cast(MethodUtil.invoke(valueOf, null, new Object[] { s })); } catch (Exception e) { final String msg = "Could not convert \"" + s + "\" using method: " + valueOf; throw new IllegalArgumentException(msg, e); } } // Look for: public T(String) Constructor<T> con; try { // It is safe to call this plain Class.getConstructor because the class "c" // was checked before by ReflectUtil.checkPackageAccess(openType.safeGetClassName()); con = c.getConstructor(String.class); } catch (NoSuchMethodException e) { con = null; } if (con != null) { try { return con.newInstance(s); } catch (Exception e) { final String msg = "Could not convert \"" + s + "\" using constructor: " + con; throw new IllegalArgumentException(msg, e); } } throw new IllegalArgumentException("Don't know how to convert " + "string to " + openType.getTypeName()); } /* A Descriptor contained an array value encoded as Strings. The Strings must be organized in an array corresponding to the desired array. If the desired array has n dimensions, so must the String array. We will convert element by element from String to desired component type. */ private static <T> T convertFromStringArray(Object x, OpenType<T> openType) { ArrayType<?> arrayType = (ArrayType<?>) openType; OpenType<?> baseType = arrayType.getElementOpenType(); int dim = arrayType.getDimension(); String squareBrackets = "["; for (int i = 1; i < dim; i++) squareBrackets += "["; Class<?> stringArrayClass; Class<?> targetArrayClass; try { String baseClassName = baseType.safeGetClassName(); // check access to the provided base type class name and bail out early ReflectUtil.checkPackageAccess(baseClassName); stringArrayClass = Class.forName(squareBrackets + "Ljava.lang.String;"); targetArrayClass = Class.forName(squareBrackets + "L" + baseClassName + ";"); } catch (ClassNotFoundException e) { throw new NoClassDefFoundError(e.toString()); // can't happen } if (!stringArrayClass.isInstance(x)) { final String msg = "Value for " + dim + "-dimensional array of " + baseType.getTypeName() + " must be same type or a String " + "array with same dimensions"; throw new IllegalArgumentException(msg); } OpenType<?> componentOpenType; if (dim == 1) componentOpenType = baseType; else { try { componentOpenType = new ArrayType<T>(dim - 1, baseType); } catch (OpenDataException e) { throw new IllegalArgumentException(e.getMessage(), e); // can't happen } } int n = Array.getLength(x); Object[] targetArray = (Object[]) Array.newInstance(targetArrayClass.getComponentType(), n); for (int i = 0; i < n; i++) { Object stringish = Array.get(x, i); // String or String[] etc Object converted = convertFromStrings(stringish, componentOpenType); Array.set(targetArray, i, converted); } return OpenMBeanAttributeInfoSupport.<T>cast(targetArray); } @SuppressWarnings("unchecked") static <T> T cast(Object x) { return (T) x; } /** * Returns the open type for the values of the attribute described * by this {@code OpenMBeanAttributeInfoSupport} instance. */ public OpenType<?> getOpenType() { return openType; } /** * Returns the default value for the attribute described by this * {@code OpenMBeanAttributeInfoSupport} instance, if specified, * or {@code null} otherwise. */ public Object getDefaultValue() { // Special case for ArrayType and TabularType // [JF] TODO: clone it so that it cannot be altered, // [JF] TODO: if we decide to support defaultValue as an array itself. // [JF] As of today (oct 2000) it is not supported so // defaultValue is null for arrays. Nothing to do. return defaultValue; } /** * Returns an unmodifiable Set of legal values for the attribute * described by this {@code OpenMBeanAttributeInfoSupport} * instance, if specified, or {@code null} otherwise. */ public Set<?> getLegalValues() { // Special case for ArrayType and TabularType // [JF] TODO: clone values so that they cannot be altered, // [JF] TODO: if we decide to support LegalValues as an array itself. // [JF] As of today (oct 2000) it is not supported so // legalValues is null for arrays. Nothing to do. // Returns our legalValues Set (set was constructed unmodifiable) return (legalValues); } /** * Returns the minimal value for the attribute described by this * {@code OpenMBeanAttributeInfoSupport} instance, if specified, * or {@code null} otherwise. */ public Comparable<?> getMinValue() { // Note: only comparable values have a minValue, // so that's not the case of arrays and tabulars (always null). return minValue; } /** * Returns the maximal value for the attribute described by this * {@code OpenMBeanAttributeInfoSupport} instance, if specified, * or {@code null} otherwise. */ public Comparable<?> getMaxValue() { // Note: only comparable values have a maxValue, // so that's not the case of arrays and tabulars (always null). return maxValue; } /** * Returns {@code true} if this {@code * OpenMBeanAttributeInfoSupport} instance specifies a non-null * default value for the described attribute, {@code false} * otherwise. */ public boolean hasDefaultValue() { return (defaultValue != null); } /** * Returns {@code true} if this {@code * OpenMBeanAttributeInfoSupport} instance specifies a non-null * set of legal values for the described attribute, {@code false} * otherwise. */ public boolean hasLegalValues() { return (legalValues != null); } /** * Returns {@code true} if this {@code * OpenMBeanAttributeInfoSupport} instance specifies a non-null * minimal value for the described attribute, {@code false} * otherwise. */ public boolean hasMinValue() { return (minValue != null); } /** * Returns {@code true} if this {@code * OpenMBeanAttributeInfoSupport} instance specifies a non-null * maximal value for the described attribute, {@code false} * otherwise. */ public boolean hasMaxValue() { return (maxValue != null); } /** * Tests whether {@code obj} is a valid value for the attribute * described by this {@code OpenMBeanAttributeInfoSupport} * instance. * * @param obj the object to be tested. * * @return {@code true} if {@code obj} is a valid value for * the parameter described by this {@code * OpenMBeanAttributeInfoSupport} instance, {@code false} * otherwise. */ public boolean isValue(Object obj) { return isValue(this, obj); } @SuppressWarnings({ "unchecked", "rawtypes" }) // cast to Comparable static boolean isValue(OpenMBeanParameterInfo info, Object obj) { if (info.hasDefaultValue() && obj == null) return true; return info.getOpenType().isValue(obj) && (!info.hasLegalValues() || info.getLegalValues().contains(obj)) && (!info.hasMinValue() || ((Comparable) info.getMinValue()).compareTo(obj) <= 0) && (!info.hasMaxValue() || ((Comparable) info.getMaxValue()).compareTo(obj) >= 0); } /* *** Commodity methods from java.lang.Object *** */ /** * Compares the specified {@code obj} parameter with this {@code * OpenMBeanAttributeInfoSupport} instance for equality. * <p> * Returns {@code true} if and only if all of the following statements are true: * <ul> * <li>{@code obj} is non null,</li> * <li>{@code obj} also implements the {@code OpenMBeanAttributeInfo} interface,</li> * <li>their names are equal</li> * <li>their open types are equal</li> * <li>their access properties (isReadable, isWritable and isIs) are equal</li> * <li>their default, min, max and legal values are equal.</li> * </ul> * This ensures that this {@code equals} method works properly for * {@code obj} parameters which are different implementations of * the {@code OpenMBeanAttributeInfo} interface. * * <p>If {@code obj} also implements {@link DescriptorRead}, then its * {@link DescriptorRead#getDescriptor() getDescriptor()} method must * also return the same value as for this object.</p> * * @param obj the object to be compared for equality with this * {@code OpenMBeanAttributeInfoSupport} instance. * * @return {@code true} if the specified object is equal to this * {@code OpenMBeanAttributeInfoSupport} instance. */ public boolean equals(Object obj) { if (!(obj instanceof OpenMBeanAttributeInfo)) return false; OpenMBeanAttributeInfo other = (OpenMBeanAttributeInfo) obj; return this.isReadable() == other.isReadable() && this.isWritable() == other.isWritable() && this.isIs() == other.isIs() && equal(this, other); } static boolean equal(OpenMBeanParameterInfo x1, OpenMBeanParameterInfo x2) { if (x1 instanceof DescriptorRead) { if (!(x2 instanceof DescriptorRead)) return false; Descriptor d1 = ((DescriptorRead) x1).getDescriptor(); Descriptor d2 = ((DescriptorRead) x2).getDescriptor(); if (!d1.equals(d2)) return false; } else if (x2 instanceof DescriptorRead) return false; return x1.getName().equals(x2.getName()) && x1.getOpenType().equals(x2.getOpenType()) && (x1.hasDefaultValue() ? x1.getDefaultValue().equals(x2.getDefaultValue()) : !x2.hasDefaultValue()) && (x1.hasMinValue() ? x1.getMinValue().equals(x2.getMinValue()) : !x2.hasMinValue()) && (x1.hasMaxValue() ? x1.getMaxValue().equals(x2.getMaxValue()) : !x2.hasMaxValue()) && (x1.hasLegalValues() ? x1.getLegalValues().equals(x2.getLegalValues()) : !x2.hasLegalValues()); } /** * <p>Returns the hash code value for this {@code * OpenMBeanAttributeInfoSupport} instance.</p> * * <p>The hash code of an {@code OpenMBeanAttributeInfoSupport} * instance is the sum of the hash codes of all elements of * information used in {@code equals} comparisons (ie: its name, * its <i>open type</i>, its default, min, max and legal * values, and its Descriptor). * * <p>This ensures that {@code t1.equals(t2)} implies that {@code * t1.hashCode()==t2.hashCode()} for any two {@code * OpenMBeanAttributeInfoSupport} instances {@code t1} and {@code * t2}, as required by the general contract of the method {@link * Object#hashCode() Object.hashCode()}. * * <p>However, note that another instance of a class implementing * the {@code OpenMBeanAttributeInfo} interface may be equal to * this {@code OpenMBeanAttributeInfoSupport} instance as defined * by {@link #equals(java.lang.Object)}, but may have a different * hash code if it is calculated differently. * * <p>As {@code OpenMBeanAttributeInfoSupport} instances are * immutable, the hash code for this instance is calculated once, * on the first call to {@code hashCode}, and then the same value * is returned for subsequent calls. * * @return the hash code value for this {@code * OpenMBeanAttributeInfoSupport} instance */ public int hashCode() { // Calculate the hash code value if it has not yet been done // (ie 1st call to hashCode()) // if (myHashCode == null) myHashCode = hashCode(this); // return always the same hash code for this instance (immutable) // return myHashCode.intValue(); } static int hashCode(OpenMBeanParameterInfo info) { int value = 0; value += info.getName().hashCode(); value += info.getOpenType().hashCode(); if (info.hasDefaultValue()) value += info.getDefaultValue().hashCode(); if (info.hasMinValue()) value += info.getMinValue().hashCode(); if (info.hasMaxValue()) value += info.getMaxValue().hashCode(); if (info.hasLegalValues()) value += info.getLegalValues().hashCode(); if (info instanceof DescriptorRead) value += ((DescriptorRead) info).getDescriptor().hashCode(); return value; } /** * Returns a string representation of this * {@code OpenMBeanAttributeInfoSupport} instance. * <p> * The string representation consists of the name of this class (i.e. * {@code javax.management.openmbean.OpenMBeanAttributeInfoSupport}), * the string representation of the name and open type of the * described parameter, the string representation of its * default, min, max and legal values and the string * representation of its descriptor. * * <p>As {@code OpenMBeanAttributeInfoSupport} instances are * immutable, the string representation for this instance is * calculated once, on the first call to {@code toString}, and * then the same value is returned for subsequent calls. * * @return a string representation of this * {@code OpenMBeanAttributeInfoSupport} instance. */ public String toString() { // Calculate the string value if it has not yet been done // (ie 1st call to toString()) // if (myToString == null) myToString = toString(this); // return always the same string representation for this // instance (immutable) // return myToString; } static String toString(OpenMBeanParameterInfo info) { Descriptor d = (info instanceof DescriptorRead) ? ((DescriptorRead) info).getDescriptor() : null; return info.getClass().getName() + "(name=" + info.getName() + ",openType=" + info.getOpenType() + ",default=" + info.getDefaultValue() + ",minValue=" + info.getMinValue() + ",maxValue=" + info.getMaxValue() + ",legalValues=" + info.getLegalValues() + ((d == null) ? "" : ",descriptor=" + d) + ")"; } }