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 * Copyright (c) 2016, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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
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package jdk.tools.jlink.internal.plugins;

import java.io.BufferedReader;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.lang.invoke.MethodType;
import java.lang.module.ModuleDescriptor;
import java.nio.file.Files;
import java.util.EnumSet;
import java.util.Map;
import java.util.Optional;
import java.util.Set;
import java.util.TreeMap;
import java.util.TreeSet;
import java.util.stream.Collectors;
import java.util.stream.Stream;
import jdk.internal.misc.SharedSecrets;
import jdk.internal.misc.JavaLangInvokeAccess;
import jdk.tools.jlink.plugin.ResourcePoolEntry;
import jdk.tools.jlink.plugin.PluginException;
import jdk.tools.jlink.plugin.ResourcePool;
import jdk.tools.jlink.plugin.ResourcePoolBuilder;
import jdk.tools.jlink.plugin.Plugin;

Plugin to generate java.lang.invoke classes.
/** * Plugin to generate java.lang.invoke classes. */
public final class GenerateJLIClassesPlugin implements Plugin { private static final String NAME = "generate-jli-classes"; private static final String DESCRIPTION = PluginsResourceBundle.getDescription(NAME); private static final String DEFAULT_TRACE_FILE = "default_jli_trace.txt"; private static final String DIRECT_HOLDER = "java/lang/invoke/DirectMethodHandle$Holder"; private static final String DMH_INVOKE_VIRTUAL = "invokeVirtual"; private static final String DMH_INVOKE_STATIC = "invokeStatic"; private static final String DMH_INVOKE_SPECIAL = "invokeSpecial"; private static final String DMH_NEW_INVOKE_SPECIAL = "newInvokeSpecial"; private static final String DMH_INVOKE_INTERFACE = "invokeInterface"; private static final String DMH_INVOKE_STATIC_INIT = "invokeStaticInit"; private static final String DELEGATING_HOLDER = "java/lang/invoke/DelegatingMethodHandle$Holder"; private static final String BASIC_FORMS_HOLDER = "java/lang/invoke/LambdaForm$Holder"; private static final String INVOKERS_HOLDER = "java/lang/invoke/Invokers$Holder"; private static final JavaLangInvokeAccess JLIA = SharedSecrets.getJavaLangInvokeAccess(); Set<String> speciesTypes = Set.of(); Set<String> invokerTypes = Set.of(); Map<String, Set<String>> dmhMethods = Map.of(); String mainArgument; public GenerateJLIClassesPlugin() { } @Override public String getName() { return NAME; } @Override public String getDescription() { return DESCRIPTION; } @Override public Set<State> getState() { return EnumSet.of(State.AUTO_ENABLED, State.FUNCTIONAL); } @Override public boolean hasArguments() { return true; } @Override public String getArgumentsDescription() { return PluginsResourceBundle.getArgument(NAME); }
Returns:the default Species forms to generate. This list was derived from running a small startup benchmark. A better long-term solution is to define and run a set of quick generators and extracting this list as a step in the build process.
/** * @return the default Species forms to generate. * * This list was derived from running a small startup benchmark. * A better long-term solution is to define and run a set of quick * generators and extracting this list as a step in the build process. */
public static Set<String> defaultSpecies() { return Set.of("LL", "L3", "L4", "L5", "L6", "L7", "L7I", "L7II", "L7IIL", "L8", "L9", "L10", "L10I", "L10II", "L10IIL", "L11", "L12", "L13", "LI", "D", "L3I", "LIL", "LLI", "LLIL", "LILL", "I", "LLILL"); }
Returns:the default invoker forms to generate.
/** * @return the default invoker forms to generate. */
private static Set<String> defaultInvokers() { return Set.of("LL_L", "LL_I", "LILL_I", "L6_L"); }
Returns:the list of default DirectMethodHandle methods to generate.
/** * @return the list of default DirectMethodHandle methods to generate. */
private static Map<String, Set<String>> defaultDMHMethods() { return Map.of( DMH_INVOKE_VIRTUAL, Set.of("L_L", "LL_L", "LLI_I", "L3_V"), DMH_INVOKE_SPECIAL, Set.of("LL_I", "LL_L", "LLF_L", "LLD_L", "L3_L", "L4_L", "L5_L", "L6_L", "L7_L", "L8_L", "LLI_I", "LLI_L", "LLIL_I", "LLII_I", "LLII_L", "L3I_L", "L3I_I", "LLILI_I", "LLIIL_L", "LLIILL_L", "LLIILL_I", "LLIIL_I", "LLILIL_I", "LLILILL_I", "LLILII_I", "LLI3_I", "LLI3L_I", "LLI3LL_I", "LLI3_L", "LLI4_I"), DMH_INVOKE_STATIC, Set.of("LII_I", "LIL_I", "LILIL_I", "LILII_I", "L_I", "L_L", "L_V", "LD_L", "LF_L", "LI_I", "LII_L", "LLI_L", "LL_V", "LL_L", "L3_L", "L4_L", "L5_L", "L6_L", "L7_L", "L8_L", "L9_L", "L10_L", "L10I_L", "L10II_L", "L10IIL_L", "L11_L", "L12_L", "L13_L", "L14_L", "L14I_L", "L14II_L") ); } // Map from DirectMethodHandle method type to internal ID private static final Map<String, Integer> DMH_METHOD_TYPE_MAP = Map.of( DMH_INVOKE_VIRTUAL, 0, DMH_INVOKE_STATIC, 1, DMH_INVOKE_SPECIAL, 2, DMH_NEW_INVOKE_SPECIAL, 3, DMH_INVOKE_INTERFACE, 4, DMH_INVOKE_STATIC_INIT, 5 ); @Override public void configure(Map<String, String> config) { mainArgument = config.get(NAME); } public void initialize(ResourcePool in) { // Start with the default configuration speciesTypes = defaultSpecies().stream() .map(type -> expandSignature(type)) .collect(Collectors.toSet()); invokerTypes = defaultInvokers(); validateMethodTypes(invokerTypes); dmhMethods = defaultDMHMethods(); for (Set<String> dmhMethodTypes : dmhMethods.values()) { validateMethodTypes(dmhMethodTypes); } // Extend the default configuration with the contents in the supplied // input file - if none was supplied we look for the default file if (mainArgument == null || !mainArgument.startsWith("@")) { try (InputStream traceFile = this.getClass().getResourceAsStream(DEFAULT_TRACE_FILE)) { if (traceFile != null) { readTraceConfig( new BufferedReader( new InputStreamReader(traceFile)).lines()); } } catch (Exception e) { throw new PluginException("Couldn't read " + DEFAULT_TRACE_FILE, e); } } else { File file = new File(mainArgument.substring(1)); if (file.exists()) { readTraceConfig(fileLines(file)); } } } private void readTraceConfig(Stream<String> lines) { // Use TreeSet/TreeMap to keep things sorted in a deterministic // order to avoid scrambling the layout on small changes and to // ease finding methods in the generated code speciesTypes = new TreeSet<>(speciesTypes); invokerTypes = new TreeSet<>(invokerTypes); TreeMap<String, Set<String>> newDMHMethods = new TreeMap<>(); for (Map.Entry<String, Set<String>> entry : dmhMethods.entrySet()) { newDMHMethods.put(entry.getKey(), new TreeSet<>(entry.getValue())); } dmhMethods = newDMHMethods; lines.map(line -> line.split(" ")) .forEach(parts -> { switch (parts[0]) { case "[SPECIES_RESOLVE]": // Allow for new types of species data classes being resolved here if (parts.length == 3 && parts[1].startsWith("java.lang.invoke.BoundMethodHandle$Species_")) { String species = parts[1].substring("java.lang.invoke.BoundMethodHandle$Species_".length()); if (!"L".equals(species)) { speciesTypes.add(expandSignature(species)); } } break; case "[LF_RESOLVE]": String methodType = parts[3]; validateMethodType(methodType); if (parts[1].contains("Invokers")) { invokerTypes.add(methodType); } else if (parts[1].contains("DirectMethodHandle")) { String dmh = parts[2]; // ignore getObject etc for now (generated // by default) if (DMH_METHOD_TYPE_MAP.containsKey(dmh)) { addDMHMethodType(dmh, methodType); } } break; default: break; // ignore } }); } private void addDMHMethodType(String dmh, String methodType) { validateMethodType(methodType); Set<String> methodTypes = dmhMethods.get(dmh); if (methodTypes == null) { methodTypes = new TreeSet<>(); dmhMethods.put(dmh, methodTypes); } methodTypes.add(methodType); } private Stream<String> fileLines(File file) { try { return Files.lines(file.toPath()); } catch (IOException io) { throw new PluginException("Couldn't read file"); } } private void validateMethodTypes(Set<String> dmhMethodTypes) { for (String type : dmhMethodTypes) { validateMethodType(type); } } private void validateMethodType(String type) { String[] typeParts = type.split("_"); // check return type (second part) if (typeParts.length != 2 || typeParts[1].length() != 1 || "LJIFDV".indexOf(typeParts[1].charAt(0)) == -1) { throw new PluginException( "Method type signature must be of form [LJIFD]*_[LJIFDV]"); } // expand and check arguments (first part) expandSignature(typeParts[0]); } private static void requireBasicType(char c) { if ("LIJFD".indexOf(c) < 0) { throw new PluginException( "Character " + c + " must correspond to a basic field type: LIJFD"); } } @Override public ResourcePool transform(ResourcePool in, ResourcePoolBuilder out) { initialize(in); // Copy all but DMH_ENTRY to out in.transformAndCopy(entry -> { // filter out placeholder entries if (entry.path().equals(DIRECT_METHOD_HOLDER_ENTRY) || entry.path().equals(DELEGATING_METHOD_HOLDER_ENTRY) || entry.path().equals(INVOKERS_HOLDER_ENTRY) || entry.path().equals(BASIC_FORMS_HOLDER_ENTRY)) { return null; } else { return entry; } }, out); // Generate BMH Species classes speciesTypes.forEach(types -> generateBMHClass(types, out)); // Generate LambdaForm Holder classes generateHolderClasses(out); // Let it go speciesTypes = null; invokerTypes = null; dmhMethods = null; return out.build(); } @SuppressWarnings("unchecked") private void generateBMHClass(String types, ResourcePoolBuilder out) { try { // Generate class Map.Entry<String, byte[]> result = JLIA.generateConcreteBMHClassBytes(types); String className = result.getKey(); byte[] bytes = result.getValue(); // Add class to pool ResourcePoolEntry ndata = ResourcePoolEntry.create( "/java.base/" + className + ".class", bytes); out.add(ndata); } catch (Exception ex) { throw new PluginException(ex); } } private void generateHolderClasses(ResourcePoolBuilder out) { int count = 0; for (Set<String> entry : dmhMethods.values()) { count += entry.size(); } MethodType[] directMethodTypes = new MethodType[count]; int[] dmhTypes = new int[count]; int index = 0; for (Map.Entry<String, Set<String>> entry : dmhMethods.entrySet()) { String dmhType = entry.getKey(); for (String type : entry.getValue()) { // The DMH type to actually ask for is retrieved by removing // the first argument, which needs to be of Object.class MethodType mt = asMethodType(type); if (mt.parameterCount() < 1 || mt.parameterType(0) != Object.class) { throw new PluginException( "DMH type parameter must start with L"); } directMethodTypes[index] = mt.dropParameterTypes(0, 1); dmhTypes[index] = DMH_METHOD_TYPE_MAP.get(dmhType); index++; } } MethodType[] invokerMethodTypes = new MethodType[this.invokerTypes.size()]; int i = 0; for (String invokerType : invokerTypes) { // The invoker type to ask for is retrieved by removing the first // and the last argument, which needs to be of Object.class MethodType mt = asMethodType(invokerType); final int lastParam = mt.parameterCount() - 1; if (mt.parameterCount() < 2 || mt.parameterType(0) != Object.class || mt.parameterType(lastParam) != Object.class) { throw new PluginException( "Invoker type parameter must start and end with L"); } mt = mt.dropParameterTypes(lastParam, lastParam + 1); invokerMethodTypes[i] = mt.dropParameterTypes(0, 1); i++; } try { byte[] bytes = JLIA.generateDirectMethodHandleHolderClassBytes( DIRECT_HOLDER, directMethodTypes, dmhTypes); ResourcePoolEntry ndata = ResourcePoolEntry .create(DIRECT_METHOD_HOLDER_ENTRY, bytes); out.add(ndata); bytes = JLIA.generateDelegatingMethodHandleHolderClassBytes( DELEGATING_HOLDER, directMethodTypes); ndata = ResourcePoolEntry.create(DELEGATING_METHOD_HOLDER_ENTRY, bytes); out.add(ndata); bytes = JLIA.generateInvokersHolderClassBytes(INVOKERS_HOLDER, invokerMethodTypes); ndata = ResourcePoolEntry.create(INVOKERS_HOLDER_ENTRY, bytes); out.add(ndata); bytes = JLIA.generateBasicFormsClassBytes(BASIC_FORMS_HOLDER); ndata = ResourcePoolEntry.create(BASIC_FORMS_HOLDER_ENTRY, bytes); out.add(ndata); } catch (Exception ex) { throw new PluginException(ex); } } private static final String DIRECT_METHOD_HOLDER_ENTRY = "/java.base/" + DIRECT_HOLDER + ".class"; private static final String DELEGATING_METHOD_HOLDER_ENTRY = "/java.base/" + DELEGATING_HOLDER + ".class"; private static final String BASIC_FORMS_HOLDER_ENTRY = "/java.base/" + BASIC_FORMS_HOLDER + ".class"; private static final String INVOKERS_HOLDER_ENTRY = "/java.base/" + INVOKERS_HOLDER + ".class"; // Convert LL -> LL, L3 -> LLL public static String expandSignature(String signature) { StringBuilder sb = new StringBuilder(); char last = 'X'; int count = 0; for (int i = 0; i < signature.length(); i++) { char c = signature.charAt(i); if (c >= '0' && c <= '9') { count *= 10; count += (c - '0'); } else { requireBasicType(c); for (int j = 1; j < count; j++) { sb.append(last); } sb.append(c); last = c; count = 0; } } // ended with a number, e.g., "L2": append last char count - 1 times if (count > 1) { requireBasicType(last); for (int j = 1; j < count; j++) { sb.append(last); } } return sb.toString(); } private static MethodType asMethodType(String basicSignatureString) { String[] parts = basicSignatureString.split("_"); assert(parts.length == 2); assert(parts[1].length() == 1); String parameters = expandSignature(parts[0]); Class<?> rtype = simpleType(parts[1].charAt(0)); if (parameters.isEmpty()) { return MethodType.methodType(rtype); } else { Class<?>[] ptypes = new Class<?>[parameters.length()]; for (int i = 0; i < ptypes.length; i++) { ptypes[i] = simpleType(parameters.charAt(i)); } return MethodType.methodType(rtype, ptypes); } } private static Class<?> simpleType(char c) { switch (c) { case 'F': return float.class; case 'D': return double.class; case 'I': return int.class; case 'L': return Object.class; case 'J': return long.class; case 'V': return void.class; case 'Z': case 'B': case 'S': case 'C': throw new IllegalArgumentException("Not a valid primitive: " + c + " (use I instead)"); default: throw new IllegalArgumentException("Not a primitive: " + c); } } }