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 * Copyright (c) 2015, 2017, 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.jmod;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.PrintWriter;
import java.io.UncheckedIOException;
import java.lang.module.Configuration;
import java.lang.module.FindException;
import java.lang.module.ModuleReader;
import java.lang.module.ModuleReference;
import java.lang.module.ModuleFinder;
import java.lang.module.ModuleDescriptor;
import java.lang.module.ModuleDescriptor.Exports;
import java.lang.module.ModuleDescriptor.Opens;
import java.lang.module.ModuleDescriptor.Provides;
import java.lang.module.ModuleDescriptor.Requires;
import java.lang.module.ModuleDescriptor.Version;
import java.lang.module.ResolutionException;
import java.lang.module.ResolvedModule;
import java.net.URI;
import java.nio.file.FileSystems;
import java.nio.file.FileVisitOption;
import java.nio.file.FileVisitResult;
import java.nio.file.Files;
import java.nio.file.InvalidPathException;
import java.nio.file.Path;
import java.nio.file.PathMatcher;
import java.nio.file.Paths;
import java.nio.file.SimpleFileVisitor;
import java.nio.file.StandardCopyOption;
import java.nio.file.attribute.BasicFileAttributes;
import java.text.MessageFormat;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.MissingResourceException;
import java.util.Optional;
import java.util.ResourceBundle;
import java.util.Set;
import java.util.TreeSet;
import java.util.function.Consumer;
import java.util.function.Predicate;
import java.util.function.Supplier;
import java.util.jar.JarEntry;
import java.util.jar.JarFile;
import java.util.jar.JarOutputStream;
import java.util.stream.Collectors;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;
import java.util.zip.ZipEntry;
import java.util.zip.ZipException;
import java.util.zip.ZipFile;

import jdk.internal.jmod.JmodFile;
import jdk.internal.jmod.JmodFile.Section;
import jdk.internal.joptsimple.BuiltinHelpFormatter;
import jdk.internal.joptsimple.NonOptionArgumentSpec;
import jdk.internal.joptsimple.OptionDescriptor;
import jdk.internal.joptsimple.OptionException;
import jdk.internal.joptsimple.OptionParser;
import jdk.internal.joptsimple.OptionSet;
import jdk.internal.joptsimple.OptionSpec;
import jdk.internal.joptsimple.ValueConverter;
import jdk.internal.module.ModuleHashes;
import jdk.internal.module.ModuleHashesBuilder;
import jdk.internal.module.ModuleInfo;
import jdk.internal.module.ModuleInfoExtender;
import jdk.internal.module.ModulePath;
import jdk.internal.module.ModuleResolution;
import jdk.internal.module.ModuleTarget;
import jdk.internal.module.Resources;
import jdk.tools.jlink.internal.Utils;

import static java.util.stream.Collectors.joining;

Implementation for the jmod tool.
/** * Implementation for the jmod tool. */
public class JmodTask { static class CommandException extends RuntimeException { private static final long serialVersionUID = 0L; boolean showUsage; CommandException(String key, Object... args) { super(getMessageOrKey(key, args)); } CommandException showUsage(boolean b) { showUsage = b; return this; } private static String getMessageOrKey(String key, Object... args) { try { return MessageFormat.format(ResourceBundleHelper.bundle.getString(key), args); } catch (MissingResourceException e) { return key; } } } private static final String PROGNAME = "jmod"; private static final String MODULE_INFO = "module-info.class"; private static final Path CWD = Paths.get(""); private Options options; private PrintWriter out = new PrintWriter(System.out, true); void setLog(PrintWriter out, PrintWriter err) { this.out = out; } /* Result codes. */ static final int EXIT_OK = 0, // Completed with no errors. EXIT_ERROR = 1, // Completed but reported errors. EXIT_CMDERR = 2, // Bad command-line arguments EXIT_SYSERR = 3, // System error or resource exhaustion. EXIT_ABNORMAL = 4;// terminated abnormally enum Mode { CREATE, EXTRACT, LIST, DESCRIBE, HASH }; static class Options { Mode mode; Path jmodFile; boolean help; boolean helpExtra; boolean version; List<Path> classpath; List<Path> cmds; List<Path> configs; List<Path> libs; List<Path> headerFiles; List<Path> manPages; List<Path> legalNotices;; ModuleFinder moduleFinder; Version moduleVersion; String mainClass; String targetPlatform; Pattern modulesToHash; ModuleResolution moduleResolution; boolean dryrun; List<PathMatcher> excludes; Path extractDir; } public int run(String[] args) { try { handleOptions(args); if (options == null) { showUsageSummary(); return EXIT_CMDERR; } if (options.help || options.helpExtra) { showHelp(); return EXIT_OK; } if (options.version) { showVersion(); return EXIT_OK; } boolean ok; switch (options.mode) { case CREATE: ok = create(); break; case EXTRACT: ok = extract(); break; case LIST: ok = list(); break; case DESCRIBE: ok = describe(); break; case HASH: ok = hashModules(); break; default: throw new AssertionError("Unknown mode: " + options.mode.name()); } return ok ? EXIT_OK : EXIT_ERROR; } catch (CommandException e) { reportError(e.getMessage()); if (e.showUsage) showUsageSummary(); return EXIT_CMDERR; } catch (Exception x) { reportError(x.getMessage()); x.printStackTrace(); return EXIT_ABNORMAL; } finally { out.flush(); } } private boolean list() throws IOException { ZipFile zip = null; try { try { zip = new ZipFile(options.jmodFile.toFile()); } catch (IOException x) { throw new IOException("error opening jmod file", x); } // Trivially print the archive entries for now, pending a more complete implementation zip.stream().forEach(e -> out.println(e.getName())); return true; } finally { if (zip != null) zip.close(); } } private boolean extract() throws IOException { Path dir = options.extractDir != null ? options.extractDir : CWD; try (JmodFile jf = new JmodFile(options.jmodFile)) { jf.stream().forEach(e -> { try { ZipEntry entry = e.zipEntry(); String name = entry.getName(); int index = name.lastIndexOf("/"); if (index != -1) { Path p = dir.resolve(name.substring(0, index)); if (Files.notExists(p)) Files.createDirectories(p); } try (OutputStream os = Files.newOutputStream(dir.resolve(name))) { jf.getInputStream(e).transferTo(os); } } catch (IOException x) { throw new UncheckedIOException(x); } }); return true; } } private boolean hashModules() { if (options.dryrun) { out.println("Dry run:"); } Hasher hasher = new Hasher(options.moduleFinder); hasher.computeHashes().forEach((mn, hashes) -> { if (options.dryrun) { out.format("%s%n", mn); hashes.names().stream() .sorted() .forEach(name -> out.format(" hashes %s %s %s%n", name, hashes.algorithm(), toHex(hashes.hashFor(name)))); } else { try { hasher.updateModuleInfo(mn, hashes); } catch (IOException ex) { throw new UncheckedIOException(ex); } } }); return true; } private boolean describe() throws IOException { try (JmodFile jf = new JmodFile(options.jmodFile)) { try (InputStream in = jf.getInputStream(Section.CLASSES, MODULE_INFO)) { ModuleInfo.Attributes attrs = ModuleInfo.read(in, null); describeModule(attrs.descriptor(), attrs.target(), attrs.recordedHashes()); return true; } catch (IOException e) { throw new CommandException("err.module.descriptor.not.found"); } } } static <T> String toString(Collection<T> c) { if (c.isEmpty()) { return ""; } return " " + c.stream().map(e -> e.toString().toLowerCase(Locale.ROOT)) .sorted().collect(joining(" ")); } private void describeModule(ModuleDescriptor md, ModuleTarget target, ModuleHashes hashes) throws IOException { StringBuilder sb = new StringBuilder(); sb.append(md.toNameAndVersion()); if (md.isOpen()) sb.append(" open"); if (md.isAutomatic()) sb.append(" automatic"); sb.append("\n"); // unqualified exports (sorted by package) md.exports().stream() .sorted(Comparator.comparing(Exports::source)) .filter(e -> !e.isQualified()) .forEach(e -> sb.append("exports ").append(e.source()) .append(toString(e.modifiers())).append("\n")); // dependences md.requires().stream().sorted() .forEach(r -> sb.append("requires ").append(r.name()) .append(toString(r.modifiers())).append("\n")); // service use and provides md.uses().stream().sorted() .forEach(s -> sb.append("uses ").append(s).append("\n")); md.provides().stream() .sorted(Comparator.comparing(Provides::service)) .forEach(p -> sb.append("provides ").append(p.service()) .append(" with") .append(toString(p.providers())) .append("\n")); // qualified exports md.exports().stream() .sorted(Comparator.comparing(Exports::source)) .filter(Exports::isQualified) .forEach(e -> sb.append("qualified exports ").append(e.source()) .append(" to").append(toString(e.targets())) .append("\n")); // open packages md.opens().stream() .sorted(Comparator.comparing(Opens::source)) .filter(o -> !o.isQualified()) .forEach(o -> sb.append("opens ").append(o.source()) .append(toString(o.modifiers())) .append("\n")); md.opens().stream() .sorted(Comparator.comparing(Opens::source)) .filter(Opens::isQualified) .forEach(o -> sb.append("qualified opens ").append(o.source()) .append(toString(o.modifiers())) .append(" to").append(toString(o.targets())) .append("\n")); // non-exported/non-open packages Set<String> concealed = new TreeSet<>(md.packages()); md.exports().stream().map(Exports::source).forEach(concealed::remove); md.opens().stream().map(Opens::source).forEach(concealed::remove); concealed.forEach(p -> sb.append("contains ").append(p).append("\n")); md.mainClass().ifPresent(v -> sb.append("main-class ").append(v).append("\n")); if (target != null) { String targetPlatform = target.targetPlatform(); if (!targetPlatform.isEmpty()) sb.append("platform ").append(targetPlatform).append("\n"); } if (hashes != null) { hashes.names().stream().sorted().forEach( mod -> sb.append("hashes ").append(mod).append(" ") .append(hashes.algorithm()).append(" ") .append(toHex(hashes.hashFor(mod))) .append("\n")); } out.println(sb.toString()); } private String toHex(byte[] ba) { StringBuilder sb = new StringBuilder(ba.length); for (byte b: ba) { sb.append(String.format("%02x", b & 0xff)); } return sb.toString(); } private boolean create() throws IOException { JmodFileWriter jmod = new JmodFileWriter(); // create jmod with temporary name to avoid it being examined // when scanning the module path Path target = options.jmodFile; Path tempTarget = jmodTempFilePath(target); try { try (JmodOutputStream jos = JmodOutputStream.newOutputStream(tempTarget)) { jmod.write(jos); } Files.move(tempTarget, target); } catch (Exception e) { try { Files.deleteIfExists(tempTarget); } catch (IOException ioe) { e.addSuppressed(ioe); } throw e; } return true; } /* * Create a JMOD .tmp file for the given target JMOD file */ private static Path jmodTempFilePath(Path target) throws IOException { return target.resolveSibling("." + target.getFileName() + ".tmp"); } private class JmodFileWriter { final List<Path> cmds = options.cmds; final List<Path> libs = options.libs; final List<Path> configs = options.configs; final List<Path> classpath = options.classpath; final List<Path> headerFiles = options.headerFiles; final List<Path> manPages = options.manPages; final List<Path> legalNotices = options.legalNotices; final Version moduleVersion = options.moduleVersion; final String mainClass = options.mainClass; final String targetPlatform = options.targetPlatform; final List<PathMatcher> excludes = options.excludes; final ModuleResolution moduleResolution = options.moduleResolution; JmodFileWriter() { }
Writes the jmod to the given output stream.
/** * Writes the jmod to the given output stream. */
void write(JmodOutputStream out) throws IOException { // module-info.class writeModuleInfo(out, findPackages(classpath)); // classes processClasses(out, classpath); processSection(out, Section.CONFIG, configs); processSection(out, Section.HEADER_FILES, headerFiles); processSection(out, Section.LEGAL_NOTICES, legalNotices); processSection(out, Section.MAN_PAGES, manPages); processSection(out, Section.NATIVE_CMDS, cmds); processSection(out, Section.NATIVE_LIBS, libs); }
Returns a supplier of an input stream to the module-info.class on the class path of directories and JAR files.
/** * Returns a supplier of an input stream to the module-info.class * on the class path of directories and JAR files. */
Supplier<InputStream> newModuleInfoSupplier() throws IOException { ByteArrayOutputStream baos = new ByteArrayOutputStream(); for (Path e: classpath) { if (Files.isDirectory(e)) { Path mi = e.resolve(MODULE_INFO); if (Files.isRegularFile(mi)) { Files.copy(mi, baos); break; } } else if (Files.isRegularFile(e) && e.toString().endsWith(".jar")) { try (JarFile jf = new JarFile(e.toFile())) { ZipEntry entry = jf.getEntry(MODULE_INFO); if (entry != null) { jf.getInputStream(entry).transferTo(baos); break; } } catch (ZipException x) { // Skip. Do nothing. No packages will be added. } } } if (baos.size() == 0) { return null; } else { byte[] bytes = baos.toByteArray(); return () -> new ByteArrayInputStream(bytes); } }
Writes the updated module-info.class to the ZIP output stream. The updated module-info.class will have a Packages attribute with the set of module-private/non-exported packages. If --module-version, --main-class, or other options were provided then the corresponding class file attributes are added to the module-info here.
/** * Writes the updated module-info.class to the ZIP output stream. * * The updated module-info.class will have a Packages attribute * with the set of module-private/non-exported packages. * * If --module-version, --main-class, or other options were provided * then the corresponding class file attributes are added to the * module-info here. */
void writeModuleInfo(JmodOutputStream out, Set<String> packages) throws IOException { Supplier<InputStream> miSupplier = newModuleInfoSupplier(); if (miSupplier == null) { throw new IOException(MODULE_INFO + " not found"); } ModuleDescriptor descriptor; try (InputStream in = miSupplier.get()) { descriptor = ModuleDescriptor.read(in); } // copy the module-info.class into the jmod with the additional // attributes for the version, main class and other meta data try (InputStream in = miSupplier.get()) { ModuleInfoExtender extender = ModuleInfoExtender.newExtender(in); // Add (or replace) the Packages attribute if (packages != null) { validatePackages(descriptor, packages); extender.packages(packages); } // --main-class if (mainClass != null) extender.mainClass(mainClass); // --target-platform if (targetPlatform != null) { extender.targetPlatform(targetPlatform); } // --module-version if (moduleVersion != null) extender.version(moduleVersion); // --hash-modules if (options.modulesToHash != null) { // To compute hashes, it creates a Configuration to resolve // a module graph. The post-resolution check requires // the packages in ModuleDescriptor be available for validation. ModuleDescriptor md; try (InputStream is = miSupplier.get()) { md = ModuleDescriptor.read(is, () -> packages); } ModuleHashes moduleHashes = computeHashes(md); if (moduleHashes != null) { extender.hashes(moduleHashes); } else { warning("warn.no.module.hashes", descriptor.name()); } } if (moduleResolution != null && moduleResolution.value() != 0) { extender.moduleResolution(moduleResolution); } // write the (possibly extended or modified) module-info.class out.writeEntry(extender.toByteArray(), Section.CLASSES, MODULE_INFO); } } private void validatePackages(ModuleDescriptor descriptor, Set<String> packages) { Set<String> nonExistPackages = new TreeSet<>(); descriptor.exports().stream() .map(Exports::source) .filter(pn -> !packages.contains(pn)) .forEach(nonExistPackages::add); descriptor.opens().stream() .map(Opens::source) .filter(pn -> !packages.contains(pn)) .forEach(nonExistPackages::add); if (!nonExistPackages.isEmpty()) { throw new CommandException("err.missing.export.or.open.packages", descriptor.name(), nonExistPackages); } } /* * Hasher resolves a module graph using the --hash-modules PATTERN * as the roots. * * The jmod file is being created and does not exist in the * given modulepath. */ private ModuleHashes computeHashes(ModuleDescriptor descriptor) { String mn = descriptor.name(); URI uri = options.jmodFile.toUri(); ModuleReference mref = new ModuleReference(descriptor, uri) { @Override public ModuleReader open() { throw new UnsupportedOperationException("opening " + mn); } }; // compose a module finder with the module path and also // a module finder that can find the jmod file being created ModuleFinder finder = ModuleFinder.compose(options.moduleFinder, new ModuleFinder() { @Override public Optional<ModuleReference> find(String name) { if (descriptor.name().equals(name)) return Optional.of(mref); else return Optional.empty(); } @Override public Set<ModuleReference> findAll() { return Collections.singleton(mref); } }); return new Hasher(mn, finder).computeHashes().get(mn); }
Returns the set of all packages on the given class path.
/** * Returns the set of all packages on the given class path. */
Set<String> findPackages(List<Path> classpath) { Set<String> packages = new HashSet<>(); for (Path path : classpath) { if (Files.isDirectory(path)) { packages.addAll(findPackages(path)); } else if (Files.isRegularFile(path) && path.toString().endsWith(".jar")) { try (JarFile jf = new JarFile(path.toString())) { packages.addAll(findPackages(jf)); } catch (ZipException x) { // Skip. Do nothing. No packages will be added. } catch (IOException ioe) { throw new UncheckedIOException(ioe); } } } return packages; }
Returns the set of packages in the given directory tree.
/** * Returns the set of packages in the given directory tree. */
Set<String> findPackages(Path dir) { try { return Files.find(dir, Integer.MAX_VALUE, ((path, attrs) -> attrs.isRegularFile())) .map(dir::relativize) .filter(path -> isResource(path.toString())) .map(path -> toPackageName(path)) .filter(pkg -> pkg.length() > 0) .distinct() .collect(Collectors.toSet()); } catch (IOException ioe) { throw new UncheckedIOException(ioe); } }
Returns the set of packages in the given JAR file.
/** * Returns the set of packages in the given JAR file. */
Set<String> findPackages(JarFile jf) { return jf.stream() .filter(e -> !e.isDirectory() && isResource(e.getName())) .map(e -> toPackageName(e)) .filter(pkg -> pkg.length() > 0) .distinct() .collect(Collectors.toSet()); }
Returns true if it's a .class or a resource with an effective package name.
/** * Returns true if it's a .class or a resource with an effective * package name. */
boolean isResource(String name) { name = name.replace(File.separatorChar, '/'); return name.endsWith(".class") || Resources.canEncapsulate(name); } String toPackageName(Path path) { String name = path.toString(); int index = name.lastIndexOf(File.separatorChar); if (index != -1) return name.substring(0, index).replace(File.separatorChar, '.'); if (name.endsWith(".class") && !name.equals(MODULE_INFO)) { IOException e = new IOException(name + " in the unnamed package"); throw new UncheckedIOException(e); } return ""; } String toPackageName(ZipEntry entry) { String name = entry.getName(); int index = name.lastIndexOf("/"); if (index != -1) return name.substring(0, index).replace('/', '.'); if (name.endsWith(".class") && !name.equals(MODULE_INFO)) { IOException e = new IOException(name + " in the unnamed package"); throw new UncheckedIOException(e); } return ""; } void processClasses(JmodOutputStream out, List<Path> classpaths) throws IOException { if (classpaths == null) return; for (Path p : classpaths) { if (Files.isDirectory(p)) { processSection(out, Section.CLASSES, p); } else if (Files.isRegularFile(p) && p.toString().endsWith(".jar")) { try (JarFile jf = new JarFile(p.toFile())) { JarEntryConsumer jec = new JarEntryConsumer(out, jf); jf.stream().filter(jec).forEach(jec); } } } } void processSection(JmodOutputStream out, Section section, List<Path> paths) throws IOException { if (paths == null) return; for (Path p : paths) { processSection(out, section, p); } } void processSection(JmodOutputStream out, Section section, Path path) throws IOException { Files.walkFileTree(path, Set.of(FileVisitOption.FOLLOW_LINKS), Integer.MAX_VALUE, new SimpleFileVisitor<Path>() { @Override public FileVisitResult visitFile(Path file, BasicFileAttributes attrs) throws IOException { Path relPath = path.relativize(file); if (relPath.toString().equals(MODULE_INFO) && !Section.CLASSES.equals(section)) warning("warn.ignore.entry", MODULE_INFO, section); if (!relPath.toString().equals(MODULE_INFO) && !matches(relPath, excludes)) { try (InputStream in = Files.newInputStream(file)) { out.writeEntry(in, section, relPath.toString()); } catch (IOException x) { if (x.getMessage().contains("duplicate entry")) { warning("warn.ignore.duplicate.entry", relPath.toString(), section); return FileVisitResult.CONTINUE; } throw x; } } return FileVisitResult.CONTINUE; } }); } boolean matches(Path path, List<PathMatcher> matchers) { if (matchers != null) { for (PathMatcher pm : matchers) { if (pm.matches(path)) return true; } } return false; } class JarEntryConsumer implements Consumer<JarEntry>, Predicate<JarEntry> { final JmodOutputStream out; final JarFile jarfile; JarEntryConsumer(JmodOutputStream out, JarFile jarfile) { this.out = out; this.jarfile = jarfile; } @Override public void accept(JarEntry je) { try (InputStream in = jarfile.getInputStream(je)) { out.writeEntry(in, Section.CLASSES, je.getName()); } catch (IOException e) { throw new UncheckedIOException(e); } } @Override public boolean test(JarEntry je) { String name = je.getName(); // ## no support for excludes. Is it really needed? return !name.endsWith(MODULE_INFO) && !je.isDirectory(); } } }
Compute and record hashes
/** * Compute and record hashes */
private class Hasher { final Configuration configuration; final ModuleHashesBuilder hashesBuilder; final Set<String> modules; final String moduleName; // a specific module to record hashes, if set
This constructor is for jmod hash command. This Hasher will determine which modules to record hashes, i.e. the module in a subgraph of modules to be hashed and that has no outgoing edges. It will record in each of these modules, say `M`, with the the hashes of modules that depend upon M directly or indirectly matching the specified --hash-modules pattern.
/** * This constructor is for jmod hash command. * * This Hasher will determine which modules to record hashes, i.e. * the module in a subgraph of modules to be hashed and that * has no outgoing edges. It will record in each of these modules, * say `M`, with the the hashes of modules that depend upon M * directly or indirectly matching the specified --hash-modules pattern. */
Hasher(ModuleFinder finder) { this(null, finder); }
Constructs a Hasher to compute hashes. If a module name `M` is specified, it will compute the hashes of modules that depend upon M directly or indirectly matching the specified --hash-modules pattern and record in the ModuleHashes attribute in M's module-info.class.
Params:
  • name – name of the module to record hashes
  • finder – module finder for the specified --module-path
/** * Constructs a Hasher to compute hashes. * * If a module name `M` is specified, it will compute the hashes of * modules that depend upon M directly or indirectly matching the * specified --hash-modules pattern and record in the ModuleHashes * attribute in M's module-info.class. * * @param name name of the module to record hashes * @param finder module finder for the specified --module-path */
Hasher(String name, ModuleFinder finder) { // Determine the modules that matches the pattern {@code modulesToHash} Set<String> roots = finder.findAll().stream() .map(mref -> mref.descriptor().name()) .filter(mn -> options.modulesToHash.matcher(mn).find()) .collect(Collectors.toSet()); // use system module path unless it creates a JMOD file for // a module that is present in the system image e.g. upgradeable // module ModuleFinder system; if (name != null && ModuleFinder.ofSystem().find(name).isPresent()) { system = ModuleFinder.of(); } else { system = ModuleFinder.ofSystem(); } // get a resolved module graph Configuration config = null; try { config = Configuration.empty().resolve(system, finder, roots); } catch (FindException | ResolutionException e) { throw new CommandException("err.module.resolution.fail", e.getMessage()); } this.moduleName = name; this.configuration = config; // filter modules resolved from the system module finder this.modules = config.modules().stream() .map(ResolvedModule::name) .filter(mn -> roots.contains(mn) && !system.find(mn).isPresent()) .collect(Collectors.toSet()); this.hashesBuilder = new ModuleHashesBuilder(config, modules); }
Returns a map of a module M to record hashes of the modules that depend upon M directly or indirectly. For jmod hash command, the returned map contains one entry for each module M that has no outgoing edges to any of the modules matching the specified --hash-modules pattern. Each entry represents a leaf node in a connected subgraph containing M and other candidate modules from the module graph where M's outgoing edges to any module other than the ones matching the specified --hash-modules pattern are excluded.
/** * Returns a map of a module M to record hashes of the modules * that depend upon M directly or indirectly. * * For jmod hash command, the returned map contains one entry * for each module M that has no outgoing edges to any of the * modules matching the specified --hash-modules pattern. * * Each entry represents a leaf node in a connected subgraph containing * M and other candidate modules from the module graph where M's outgoing * edges to any module other than the ones matching the specified * --hash-modules pattern are excluded. */
Map<String, ModuleHashes> computeHashes() { if (hashesBuilder == null) return null; if (moduleName != null) { return hashesBuilder.computeHashes(Set.of(moduleName)); } else { return hashesBuilder.computeHashes(modules); } }
Reads the given input stream of module-info.class and write the extended module-info.class with the given ModuleHashes
Params:
  • in – InputStream of module-info.class
  • out – OutputStream to write the extended module-info.class
  • hashes – ModuleHashes
/** * Reads the given input stream of module-info.class and write * the extended module-info.class with the given ModuleHashes * * @param in InputStream of module-info.class * @param out OutputStream to write the extended module-info.class * @param hashes ModuleHashes */
private void recordHashes(InputStream in, OutputStream out, ModuleHashes hashes) throws IOException { ModuleInfoExtender extender = ModuleInfoExtender.newExtender(in); extender.hashes(hashes); extender.write(out); } void updateModuleInfo(String name, ModuleHashes moduleHashes) throws IOException { Path target = moduleToPath(name); Path tempTarget = jmodTempFilePath(target); try { if (target.getFileName().toString().endsWith(".jmod")) { updateJmodFile(target, tempTarget, moduleHashes); } else { updateModularJar(target, tempTarget, moduleHashes); } } catch (IOException|RuntimeException e) { try { Files.deleteIfExists(tempTarget); } catch (IOException ioe) { e.addSuppressed(ioe); } throw e; } out.println(getMessage("module.hashes.recorded", name)); Files.move(tempTarget, target, StandardCopyOption.REPLACE_EXISTING); } private void updateModularJar(Path target, Path tempTarget, ModuleHashes moduleHashes) throws IOException { try (JarFile jf = new JarFile(target.toFile()); OutputStream out = Files.newOutputStream(tempTarget); JarOutputStream jos = new JarOutputStream(out)) { jf.stream().forEach(e -> { try (InputStream in = jf.getInputStream(e)) { if (e.getName().equals(MODULE_INFO)) { // what about module-info.class in versioned entries? ZipEntry ze = new ZipEntry(e.getName()); ze.setTime(System.currentTimeMillis()); jos.putNextEntry(ze); recordHashes(in, jos, moduleHashes); jos.closeEntry(); } else { jos.putNextEntry(e); jos.write(in.readAllBytes()); jos.closeEntry(); } } catch (IOException x) { throw new UncheckedIOException(x); } }); } } private void updateJmodFile(Path target, Path tempTarget, ModuleHashes moduleHashes) throws IOException { try (JmodFile jf = new JmodFile(target); JmodOutputStream jos = JmodOutputStream.newOutputStream(tempTarget)) { jf.stream().forEach(e -> { try (InputStream in = jf.getInputStream(e.section(), e.name())) { if (e.name().equals(MODULE_INFO)) { // replace module-info.class ModuleInfoExtender extender = ModuleInfoExtender.newExtender(in); extender.hashes(moduleHashes); jos.writeEntry(extender.toByteArray(), e.section(), e.name()); } else { jos.writeEntry(in, e); } } catch (IOException x) { throw new UncheckedIOException(x); } }); } } private Path moduleToPath(String name) { ResolvedModule rm = configuration.findModule(name).orElseThrow( () -> new InternalError("Selected module " + name + " not on module path")); URI uri = rm.reference().location().get(); Path path = Paths.get(uri); String fn = path.getFileName().toString(); if (!fn.endsWith(".jar") && !fn.endsWith(".jmod")) { throw new InternalError(path + " is not a modular JAR or jmod file"); } return path; } }
An abstract converter that given a string representing a list of paths, separated by the File.pathSeparator, returns a List of java.nio.Path's. Specific subclasses should do whatever validation is required on the individual path elements, if any.
/** * An abstract converter that given a string representing a list of paths, * separated by the File.pathSeparator, returns a List of java.nio.Path's. * Specific subclasses should do whatever validation is required on the * individual path elements, if any. */
static abstract class AbstractPathConverter implements ValueConverter<List<Path>> { @Override public List<Path> convert(String value) { List<Path> paths = new ArrayList<>(); String[] pathElements = value.split(File.pathSeparator); for (String pathElement : pathElements) { paths.add(toPath(pathElement)); } return paths; } @SuppressWarnings("unchecked") @Override public Class<List<Path>> valueType() { return (Class<List<Path>>)(Object)List.class; } @Override public String valuePattern() { return "path"; } abstract Path toPath(String path); } static class ClassPathConverter extends AbstractPathConverter { static final ValueConverter<List<Path>> INSTANCE = new ClassPathConverter(); @Override public Path toPath(String value) { try { Path path = CWD.resolve(value); if (Files.notExists(path)) throw new CommandException("err.path.not.found", path); if (!(Files.isDirectory(path) || (Files.isRegularFile(path) && path.toString().endsWith(".jar")))) throw new CommandException("err.invalid.class.path.entry", path); return path; } catch (InvalidPathException x) { throw new CommandException("err.path.not.valid", value); } } } static class DirPathConverter extends AbstractPathConverter { static final ValueConverter<List<Path>> INSTANCE = new DirPathConverter(); @Override public Path toPath(String value) { try { Path path = CWD.resolve(value); if (Files.notExists(path)) throw new CommandException("err.path.not.found", path); if (!Files.isDirectory(path)) throw new CommandException("err.path.not.a.dir", path); return path; } catch (InvalidPathException x) { throw new CommandException("err.path.not.valid", value); } } } static class ExtractDirPathConverter implements ValueConverter<Path> { @Override public Path convert(String value) { try { Path path = CWD.resolve(value); if (Files.exists(path)) { if (!Files.isDirectory(path)) throw new CommandException("err.cannot.create.dir", path); } return path; } catch (InvalidPathException x) { throw new CommandException("err.path.not.valid", value); } } @Override public Class<Path> valueType() { return Path.class; } @Override public String valuePattern() { return "path"; } } static class ModuleVersionConverter implements ValueConverter<Version> { @Override public Version convert(String value) { try { return Version.parse(value); } catch (IllegalArgumentException x) { throw new CommandException("err.invalid.version", x.getMessage()); } } @Override public Class<Version> valueType() { return Version.class; } @Override public String valuePattern() { return "module-version"; } } static class WarnIfResolvedReasonConverter implements ValueConverter<ModuleResolution> { @Override public ModuleResolution convert(String value) { if (value.equals("deprecated")) return ModuleResolution.empty().withDeprecated(); else if (value.equals("deprecated-for-removal")) return ModuleResolution.empty().withDeprecatedForRemoval(); else if (value.equals("incubating")) return ModuleResolution.empty().withIncubating(); else throw new CommandException("err.bad.WarnIfResolvedReason", value); } @Override public Class<ModuleResolution> valueType() { return ModuleResolution.class; } @Override public String valuePattern() { return "reason"; } } static class PatternConverter implements ValueConverter<Pattern> { @Override public Pattern convert(String value) { try { if (value.startsWith("regex:")) { value = value.substring("regex:".length()).trim(); } return Pattern.compile(value); } catch (PatternSyntaxException e) { throw new CommandException("err.bad.pattern", value); } } @Override public Class<Pattern> valueType() { return Pattern.class; } @Override public String valuePattern() { return "regex-pattern"; } } static class PathMatcherConverter implements ValueConverter<PathMatcher> { @Override public PathMatcher convert(String pattern) { try { return Utils.getPathMatcher(FileSystems.getDefault(), pattern); } catch (PatternSyntaxException e) { throw new CommandException("err.bad.pattern", pattern); } } @Override public Class<PathMatcher> valueType() { return PathMatcher.class; } @Override public String valuePattern() { return "pattern-list"; } } /* Support for @<file> in jmod help */ private static final String CMD_FILENAME = "@<filename>";
This formatter is adding the @filename option and does the required formatting.
/** * This formatter is adding the @filename option and does the required * formatting. */
private static final class JmodHelpFormatter extends BuiltinHelpFormatter { private final Options opts; private JmodHelpFormatter(Options opts) { super(80, 2); this.opts = opts; } @Override public String format(Map<String, ? extends OptionDescriptor> options) { Map<String, OptionDescriptor> all = new LinkedHashMap<>(); all.putAll(options); // extra options if (!opts.helpExtra) { all.remove("do-not-resolve-by-default"); all.remove("warn-if-resolved"); } all.put(CMD_FILENAME, new OptionDescriptor() { @Override public Collection<String> options() { List<String> ret = new ArrayList<>(); ret.add(CMD_FILENAME); return ret; } @Override public String description() { return getMessage("main.opt.cmdfile"); } @Override public List<?> defaultValues() { return Collections.emptyList(); } @Override public boolean isRequired() { return false; } @Override public boolean acceptsArguments() { return false; } @Override public boolean requiresArgument() { return false; } @Override public String argumentDescription() { return null; } @Override public String argumentTypeIndicator() { return null; } @Override public boolean representsNonOptions() { return false; } }); String content = super.format(all); StringBuilder builder = new StringBuilder(); builder.append(getMessage("main.opt.mode")).append("\n "); builder.append(getMessage("main.opt.mode.create")).append("\n "); builder.append(getMessage("main.opt.mode.extract")).append("\n "); builder.append(getMessage("main.opt.mode.list")).append("\n "); builder.append(getMessage("main.opt.mode.describe")).append("\n "); builder.append(getMessage("main.opt.mode.hash")).append("\n\n"); String cmdfile = null; String[] lines = content.split("\n"); for (String line : lines) { if (line.startsWith("--@")) { cmdfile = line.replace("--" + CMD_FILENAME, CMD_FILENAME + " "); } else if (line.startsWith("Option") || line.startsWith("------")) { builder.append(" ").append(line).append("\n"); } else if (!line.matches("Non-option arguments")){ builder.append(" ").append(line).append("\n"); } } if (cmdfile != null) { builder.append(" ").append(cmdfile).append("\n"); } return builder.toString(); } } private final OptionParser parser = new OptionParser("hp"); private void handleOptions(String[] args) { options = new Options(); parser.formatHelpWith(new JmodHelpFormatter(options)); OptionSpec<List<Path>> classPath = parser.accepts("class-path", getMessage("main.opt.class-path")) .withRequiredArg() .withValuesConvertedBy(ClassPathConverter.INSTANCE); OptionSpec<List<Path>> cmds = parser.accepts("cmds", getMessage("main.opt.cmds")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<List<Path>> config = parser.accepts("config", getMessage("main.opt.config")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<Path> dir = parser.accepts("dir", getMessage("main.opt.extractDir")) .withRequiredArg() .withValuesConvertedBy(new ExtractDirPathConverter()); OptionSpec<Void> dryrun = parser.accepts("dry-run", getMessage("main.opt.dry-run")); OptionSpec<PathMatcher> excludes = parser.accepts("exclude", getMessage("main.opt.exclude")) .withRequiredArg() .withValuesConvertedBy(new PathMatcherConverter()); OptionSpec<Pattern> hashModules = parser.accepts("hash-modules", getMessage("main.opt.hash-modules")) .withRequiredArg() .withValuesConvertedBy(new PatternConverter()); OptionSpec<Void> help = parser.acceptsAll(Set.of("h", "help"), getMessage("main.opt.help")) .forHelp(); OptionSpec<Void> helpExtra = parser.accepts("help-extra", getMessage("main.opt.help-extra")); OptionSpec<List<Path>> headerFiles = parser.accepts("header-files", getMessage("main.opt.header-files")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<List<Path>> libs = parser.accepts("libs", getMessage("main.opt.libs")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<List<Path>> legalNotices = parser.accepts("legal-notices", getMessage("main.opt.legal-notices")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<String> mainClass = parser.accepts("main-class", getMessage("main.opt.main-class")) .withRequiredArg() .describedAs(getMessage("main.opt.main-class.arg")); OptionSpec<List<Path>> manPages = parser.accepts("man-pages", getMessage("main.opt.man-pages")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<List<Path>> modulePath = parser.acceptsAll(Set.of("p", "module-path"), getMessage("main.opt.module-path")) .withRequiredArg() .withValuesConvertedBy(DirPathConverter.INSTANCE); OptionSpec<Version> moduleVersion = parser.accepts("module-version", getMessage("main.opt.module-version")) .withRequiredArg() .withValuesConvertedBy(new ModuleVersionConverter()); OptionSpec<String> targetPlatform = parser.accepts("target-platform", getMessage("main.opt.target-platform")) .withRequiredArg() .describedAs(getMessage("main.opt.target-platform.arg")); OptionSpec<Void> doNotResolveByDefault = parser.accepts("do-not-resolve-by-default", getMessage("main.opt.do-not-resolve-by-default")); OptionSpec<ModuleResolution> warnIfResolved = parser.accepts("warn-if-resolved", getMessage("main.opt.warn-if-resolved")) .withRequiredArg() .withValuesConvertedBy(new WarnIfResolvedReasonConverter()); OptionSpec<Void> version = parser.accepts("version", getMessage("main.opt.version")); NonOptionArgumentSpec<String> nonOptions = parser.nonOptions(); try { OptionSet opts = parser.parse(args); if (opts.has(help) || opts.has(helpExtra) || opts.has(version)) { options.help = opts.has(help); options.helpExtra = opts.has(helpExtra); options.version = opts.has(version); return; // informational message will be shown } List<String> words = opts.valuesOf(nonOptions); if (words.isEmpty()) throw new CommandException("err.missing.mode").showUsage(true); String verb = words.get(0); try { options.mode = Enum.valueOf(Mode.class, verb.toUpperCase()); } catch (IllegalArgumentException e) { throw new CommandException("err.invalid.mode", verb).showUsage(true); } if (opts.has(classPath)) options.classpath = getLastElement(opts.valuesOf(classPath)); if (opts.has(cmds)) options.cmds = getLastElement(opts.valuesOf(cmds)); if (opts.has(config)) options.configs = getLastElement(opts.valuesOf(config)); if (opts.has(dir)) options.extractDir = getLastElement(opts.valuesOf(dir)); if (opts.has(dryrun)) options.dryrun = true; if (opts.has(excludes)) options.excludes = opts.valuesOf(excludes); // excludes is repeatable if (opts.has(libs)) options.libs = getLastElement(opts.valuesOf(libs)); if (opts.has(headerFiles)) options.headerFiles = getLastElement(opts.valuesOf(headerFiles)); if (opts.has(manPages)) options.manPages = getLastElement(opts.valuesOf(manPages)); if (opts.has(legalNotices)) options.legalNotices = getLastElement(opts.valuesOf(legalNotices)); if (opts.has(modulePath)) { Path[] dirs = getLastElement(opts.valuesOf(modulePath)).toArray(new Path[0]); options.moduleFinder = ModulePath.of(Runtime.version(), true, dirs); } if (opts.has(moduleVersion)) options.moduleVersion = getLastElement(opts.valuesOf(moduleVersion)); if (opts.has(mainClass)) options.mainClass = getLastElement(opts.valuesOf(mainClass)); if (opts.has(targetPlatform)) options.targetPlatform = getLastElement(opts.valuesOf(targetPlatform)); if (opts.has(warnIfResolved)) options.moduleResolution = getLastElement(opts.valuesOf(warnIfResolved)); if (opts.has(doNotResolveByDefault)) { if (options.moduleResolution == null) options.moduleResolution = ModuleResolution.empty(); options.moduleResolution = options.moduleResolution.withDoNotResolveByDefault(); } if (opts.has(hashModules)) { options.modulesToHash = getLastElement(opts.valuesOf(hashModules)); // if storing hashes then the module path is required if (options.moduleFinder == null) throw new CommandException("err.modulepath.must.be.specified") .showUsage(true); } if (options.mode.equals(Mode.HASH)) { if (options.moduleFinder == null || options.modulesToHash == null) throw new CommandException("err.modulepath.must.be.specified") .showUsage(true); } else { if (words.size() <= 1) throw new CommandException("err.jmod.must.be.specified").showUsage(true); Path path = Paths.get(words.get(1)); if (options.mode.equals(Mode.CREATE) && Files.exists(path)) throw new CommandException("err.file.already.exists", path); else if ((options.mode.equals(Mode.LIST) || options.mode.equals(Mode.DESCRIBE) || options.mode.equals((Mode.EXTRACT))) && Files.notExists(path)) throw new CommandException("err.jmod.not.found", path); if (options.dryrun) { throw new CommandException("err.invalid.dryrun.option"); } options.jmodFile = path; if (words.size() > 2) throw new CommandException("err.unknown.option", words.subList(2, words.size())).showUsage(true); } if (options.mode.equals(Mode.CREATE) && options.classpath == null) throw new CommandException("err.classpath.must.be.specified").showUsage(true); if (options.mainClass != null && !isValidJavaIdentifier(options.mainClass)) throw new CommandException("err.invalid.main-class", options.mainClass); if (options.mode.equals(Mode.EXTRACT) && options.extractDir != null) { try { Files.createDirectories(options.extractDir); } catch (IOException ioe) { throw new CommandException("err.cannot.create.dir", options.extractDir); } } } catch (OptionException e) { throw new CommandException(e.getMessage()); } }
Returns true if, and only if, the given main class is a legal.
/** * Returns true if, and only if, the given main class is a legal. */
static boolean isValidJavaIdentifier(String mainClass) { if (mainClass.length() == 0) return false; if (!Character.isJavaIdentifierStart(mainClass.charAt(0))) return false; int n = mainClass.length(); for (int i=1; i < n; i++) { char c = mainClass.charAt(i); if (!Character.isJavaIdentifierPart(c) && c != '.') return false; } if (mainClass.charAt(n-1) == '.') return false; return true; } static <E> E getLastElement(List<E> list) { if (list.size() == 0) throw new InternalError("Unexpected 0 list size"); return list.get(list.size() - 1); } private void reportError(String message) { out.println(getMessage("error.prefix") + " " + message); } private void warning(String key, Object... args) { out.println(getMessage("warn.prefix") + " " + getMessage(key, args)); } private void showUsageSummary() { out.println(getMessage("main.usage.summary", PROGNAME)); } private void showHelp() { out.println(getMessage("main.usage", PROGNAME)); try { parser.printHelpOn(out); } catch (IOException x) { throw new AssertionError(x); } } private void showVersion() { out.println(version()); } private String version() { return System.getProperty("java.version"); } private static String getMessage(String key, Object... args) { try { return MessageFormat.format(ResourceBundleHelper.bundle.getString(key), args); } catch (MissingResourceException e) { throw new InternalError("Missing message: " + key); } } private static class ResourceBundleHelper { static final ResourceBundle bundle; static { Locale locale = Locale.getDefault(); try { bundle = ResourceBundle.getBundle("jdk.tools.jmod.resources.jmod", locale); } catch (MissingResourceException e) { throw new InternalError("Cannot find jmod resource bundle for locale " + locale); } } } }