1 /* 2 * Copyright (c) 1998, 2013, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. Oracle designates this 8 * particular file as subject to the "Classpath" exception as provided 9 * by Oracle in the LICENSE file that accompanied this code. 10 * 11 * This code is distributed in the hope that it will be useful, but WITHOUT 12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14 * version 2 for more details (a copy is included in the LICENSE file that 15 * accompanied this code). 16 * 17 * You should have received a copy of the GNU General Public License version 18 * 2 along with this work; if not, write to the Free Software Foundation, 19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 20 * 21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 22 * or visit www.oracle.com if you need additional information or have any 23 * questions. 24 */ 25 26 package com.sun.jdi; 27 28 import java.util.List; 29 30 /** 31 * A mirror of an interface in the target VM. An InterfaceType is 32 * a refinement of {@link ReferenceType} that applies to true interfaces 33 * in the JLS sense of the definition (not a class, not an array type). 34 * An interface type will never be returned by 35 * {@link ObjectReference#referenceType}, but it may be in the list 36 * of implemented interfaces for a {@link ClassType} that is returned 37 * by that method. 38 * 39 * @see ObjectReference 40 * 41 * @author Robert Field 42 * @author Gordon Hirsch 43 * @author James McIlree 44 * @since 1.3 45 */ 46 public interface InterfaceType extends ReferenceType { 47 /** 48 * Gets the interfaces directly extended by this interface. 49 * The returned list contains only those interfaces this 50 * interface has declared to be extended. 51 * 52 * @return a List of {@link InterfaceType} objects each mirroring 53 * an interface extended by this interface. 54 * If none exist, returns a zero length List. 55 * @throws ClassNotPreparedException if this class not yet been 56 * prepared. 57 */ 58 List<InterfaceType> superinterfaces(); 59 60 /** 61 * Gets the currently prepared interfaces which directly extend this 62 * interface. The returned list contains only those interfaces that 63 * declared this interface in their "extends" clause. 64 * 65 * @return a List of {@link InterfaceType} objects each mirroring 66 * an interface extending this interface. 67 * If none exist, returns a zero length List. 68 */ 69 List<InterfaceType> subinterfaces(); 70 71 /** 72 * Gets the currently prepared classes which directly implement this 73 * interface. The returned list contains only those classes that 74 * declared this interface in their "implements" clause. 75 * 76 * @return a List of {@link ClassType} objects each mirroring 77 * a class implementing this interface. 78 * If none exist, returns a zero length List. 79 */ 80 List<ClassType> implementors(); 81 82 /** 83 * Invokes the specified static {@link Method} in the 84 * target VM. The 85 * specified method must be defined in this interface. 86 * The method must be a static method 87 * but not a static initializer. 88 * <p> 89 * The method invocation will occur in the specified thread. 90 * Method invocation can occur only if the specified thread 91 * has been suspended by an event which occurred in that thread. 92 * Method invocation is not supported 93 * when the target VM has been suspended through 94 * {@link VirtualMachine#suspend} or when the specified thread 95 * is suspended through {@link ThreadReference#suspend}. 96 * <p> 97 * The specified method is invoked with the arguments in the specified 98 * argument list. The method invocation is synchronous; this method 99 * does not return until the invoked method returns in the target VM. 100 * If the invoked method throws an exception, this method will throw 101 * an {@link InvocationException} which contains a mirror to the exception 102 * object thrown. 103 * <p> 104 * Object arguments must be assignment compatible with the argument type 105 * (This implies that the argument type must be loaded through the 106 * enclosing class' class loader). Primitive arguments must be 107 * either assignment compatible with the argument type or must be 108 * convertible to the argument type without loss of information. 109 * If the method being called accepts a variable number of arguments, 110 * then the last argument type is an array of some component type. 111 * The argument in the matching position can be omitted, or can be null, 112 * an array of the same component type, or an argument of the 113 * component type followed by any number of other arguments of the same 114 * type. If the argument is omitted, then a 0 length array of the 115 * component type is passed. The component type can be a primitive type. 116 * Autoboxing is not supported. 117 * 118 * See Section 5.2 of 119 * <cite>The Java™ Language Specification</cite> 120 * for more information on assignment compatibility. 121 * <p> 122 * By default, all threads in the target VM are resumed while 123 * the method is being invoked if they were previously 124 * suspended by an event or by {@link VirtualMachine#suspend} or 125 * {@link ThreadReference#suspend}. This is done to prevent the deadlocks 126 * that will occur if any of the threads own monitors 127 * that will be needed by the invoked method. 128 * Note, however, that this implicit resume acts exactly like 129 * {@link ThreadReference#resume}, so if the thread's suspend 130 * count is greater than 1, it will remain in a suspended state 131 * during the invocation and thus a deadlock could still occur. 132 * By default, when the invocation completes, 133 * all threads in the target VM are suspended, regardless their state 134 * before the invocation. 135 * It is possible that 136 * breakpoints or other events might occur during the invocation. 137 * This can cause deadlocks as described above. It can also cause a deadlock 138 * if invokeMethod is called from the client's event handler thread. In this 139 * case, this thread will be waiting for the invokeMethod to complete and 140 * won't read the EventSet that comes in for the new event. If this 141 * new EventSet is SUSPEND_ALL, then a deadlock will occur because no 142 * one will resume the EventSet. To avoid this, all EventRequests should 143 * be disabled before doing the invokeMethod, or the invokeMethod should 144 * not be done from the client's event handler thread. 145 * <p> 146 * The resumption of other threads during the invocation can be prevented 147 * by specifying the {@link ClassType#INVOKE_SINGLE_THREADED} 148 * bit flag in the <code>options</code> argument; however, 149 * there is no protection against or recovery from the deadlocks 150 * described above, so this option should be used with great caution. 151 * Only the specified thread will be resumed (as described for all 152 * threads above). Upon completion of a single threaded invoke, the invoking thread 153 * will be suspended once again. Note that any threads started during 154 * the single threaded invocation will not be suspended when the 155 * invocation completes. 156 * <p> 157 * If the target VM is disconnected during the invoke (for example, through 158 * {@link VirtualMachine#dispose}) the method invocation continues. 159 * 160 * @param thread the thread in which to invoke. 161 * @param method the {@link Method} to invoke. 162 * @param arguments the list of {@link Value} arguments bound to the 163 * invoked method. Values from the list are assigned to arguments 164 * in the order they appear in the method signature. 165 * @param options the integer bit flag options. 166 * @return a {@link Value} mirror of the invoked method's return value. 167 * @throws java.lang.IllegalArgumentException if the method is not 168 * a member of this interface, if the size of the argument list 169 * does not match the number of declared arguments for the method, or 170 * if the method is not static or is a static initializer. 171 * @throws {@link InvalidTypeException} if any argument in the 172 * argument list is not assignable to the corresponding method argument 173 * type. 174 * @throws ClassNotLoadedException if any argument type has not yet been loaded 175 * through the appropriate class loader. 176 * @throws IncompatibleThreadStateException if the specified thread has not 177 * been suspended by an event. 178 * @throws InvocationException if the method invocation resulted in 179 * an exception in the target VM. 180 * @throws InvalidTypeException If the arguments do not meet this requirement -- 181 * Object arguments must be assignment compatible with the argument 182 * type. This implies that the argument type must be 183 * loaded through the enclosing class' class loader. 184 * Primitive arguments must be either assignment compatible with the 185 * argument type or must be convertible to the argument type without loss 186 * of information. See JLS section 5.2 for more information on assignment 187 * compatibility. 188 * @throws VMCannotBeModifiedException if the VirtualMachine is read-only - see {@link VirtualMachine#canBeModified()}. 189 * 190 * @since 1.8 191 */ 192 default Value invokeMethod(ThreadReference thread, Method method, 193 List<? extends Value> arguments, int options) 194 throws InvalidTypeException, 195 ClassNotLoadedException, 196 IncompatibleThreadStateException, 197 InvocationException { 198 throw new UnsupportedOperationException(); 199 } 200 }