8212995: Placing the Integer.IntegerCache and cached Integer objects in the closed archive heap region.
Summary: Support shareable archive object subgraphs in closed archive heap regions.
Reviewed-by: iklam, ccheung
/*
* Copyright (c) 2014, 2018, 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 java.lang;
import java.io.IOException;
import java.io.InputStream;
import java.lang.annotation.Annotation;
import java.lang.module.Configuration;
import java.lang.module.ModuleReference;
import java.lang.module.ModuleDescriptor;
import java.lang.module.ModuleDescriptor.Exports;
import java.lang.module.ModuleDescriptor.Opens;
import java.lang.module.ModuleDescriptor.Version;
import java.lang.module.ResolvedModule;
import java.lang.reflect.AnnotatedElement;
import java.net.URI;
import java.net.URL;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Optional;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.function.Function;
import java.util.stream.Collectors;
import java.util.stream.Stream;
import jdk.internal.loader.BuiltinClassLoader;
import jdk.internal.loader.BootLoader;
import jdk.internal.loader.ClassLoaders;
import jdk.internal.module.IllegalAccessLogger;
import jdk.internal.module.ModuleLoaderMap;
import jdk.internal.module.ServicesCatalog;
import jdk.internal.module.Resources;
import jdk.internal.org.objectweb.asm.AnnotationVisitor;
import jdk.internal.org.objectweb.asm.Attribute;
import jdk.internal.org.objectweb.asm.ClassReader;
import jdk.internal.org.objectweb.asm.ClassVisitor;
import jdk.internal.org.objectweb.asm.ClassWriter;
import jdk.internal.org.objectweb.asm.ModuleVisitor;
import jdk.internal.org.objectweb.asm.Opcodes;
import jdk.internal.reflect.CallerSensitive;
import jdk.internal.reflect.Reflection;
import sun.security.util.SecurityConstants;
/**
* Represents a run-time module, either {@link #isNamed() named} or unnamed.
*
* <p> Named modules have a {@link #getName() name} and are constructed by the
* Java Virtual Machine when a graph of modules is defined to the Java virtual
* machine to create a {@linkplain ModuleLayer module layer}. </p>
*
* <p> An unnamed module does not have a name. There is an unnamed module for
* each {@link ClassLoader ClassLoader}, obtained by invoking its {@link
* ClassLoader#getUnnamedModule() getUnnamedModule} method. All types that are
* not in a named module are members of their defining class loader's unnamed
* module. </p>
*
* <p> The package names that are parameters or returned by methods defined in
* this class are the fully-qualified names of the packages as defined in
* section 6.5.3 of <cite>The Java™ Language Specification</cite>, for
* example, {@code "java.lang"}. </p>
*
* <p> Unless otherwise specified, passing a {@code null} argument to a method
* in this class causes a {@link NullPointerException NullPointerException} to
* be thrown. </p>
*
* @since 9
* @spec JPMS
* @see Class#getModule()
*/
public final class Module implements AnnotatedElement {
// the layer that contains this module, can be null
private final ModuleLayer layer;
// module name and loader, these fields are read by VM
private final String name;
private final ClassLoader loader;
// the module descriptor
private final ModuleDescriptor descriptor;
/**
* Creates a new named Module. The resulting Module will be defined to the
* VM but will not read any other modules, will not have any exports setup
* and will not be registered in the service catalog.
*/
Module(ModuleLayer layer,
ClassLoader loader,
ModuleDescriptor descriptor,
URI uri)
{
this.layer = layer;
this.name = descriptor.name();
this.loader = loader;
this.descriptor = descriptor;
// define module to VM
boolean isOpen = descriptor.isOpen() || descriptor.isAutomatic();
Version version = descriptor.version().orElse(null);
String vs = Objects.toString(version, null);
String loc = Objects.toString(uri, null);
String[] packages = descriptor.packages().toArray(new String[0]);
defineModule0(this, isOpen, vs, loc, packages);
}
/**
* Create the unnamed Module for the given ClassLoader.
*
* @see ClassLoader#getUnnamedModule
*/
Module(ClassLoader loader) {
this.layer = null;
this.name = null;
this.loader = loader;
this.descriptor = null;
}
/**
* Creates a named module but without defining the module to the VM.
*
* @apiNote This constructor is for VM white-box testing.
*/
Module(ClassLoader loader, ModuleDescriptor descriptor) {
this.layer = null;
this.name = descriptor.name();
this.loader = loader;
this.descriptor = descriptor;
}
/**
* Returns {@code true} if this module is a named module.
*
* @return {@code true} if this is a named module
*
* @see ClassLoader#getUnnamedModule()
*/
public boolean isNamed() {
return name != null;
}
/**
* Returns the module name or {@code null} if this module is an unnamed
* module.
*
* @return The module name
*/
public String getName() {
return name;
}
/**
* Returns the {@code ClassLoader} for this module.
*
* <p> If there is a security manager then its {@code checkPermission}
* method if first called with a {@code RuntimePermission("getClassLoader")}
* permission to check that the caller is allowed to get access to the
* class loader. </p>
*
* @return The class loader for this module
*
* @throws SecurityException
* If denied by the security manager
*/
public ClassLoader getClassLoader() {
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
sm.checkPermission(SecurityConstants.GET_CLASSLOADER_PERMISSION);
}
return loader;
}
/**
* Returns the module descriptor for this module or {@code null} if this
* module is an unnamed module.
*
* @return The module descriptor for this module
*/
public ModuleDescriptor getDescriptor() {
return descriptor;
}
/**
* Returns the module layer that contains this module or {@code null} if
* this module is not in a module layer.
*
* A module layer contains named modules and therefore this method always
* returns {@code null} when invoked on an unnamed module.
*
* <p> <a href="reflect/Proxy.html#dynamicmodule">Dynamic modules</a> are
* named modules that are generated at runtime. A dynamic module may or may
* not be in a module layer. </p>
*
* @return The module layer that contains this module
*
* @see java.lang.reflect.Proxy
*/
public ModuleLayer getLayer() {
if (isNamed()) {
ModuleLayer layer = this.layer;
if (layer != null)
return layer;
// special-case java.base as it is created before the boot layer
if (loader == null && name.equals("java.base")) {
return ModuleLayer.boot();
}
}
return null;
}
// --
// special Module to mean "all unnamed modules"
private static final Module ALL_UNNAMED_MODULE = new Module(null);
private static final Set<Module> ALL_UNNAMED_MODULE_SET = Set.of(ALL_UNNAMED_MODULE);
// special Module to mean "everyone"
private static final Module EVERYONE_MODULE = new Module(null);
private static final Set<Module> EVERYONE_SET = Set.of(EVERYONE_MODULE);
/**
* The holder of data structures to support readability, exports, and
* service use added at runtime with the reflective APIs.
*/
private static class ReflectionData {
/**
* A module (1st key) reads another module (2nd key)
*/
static final WeakPairMap<Module, Module, Boolean> reads =
new WeakPairMap<>();
/**
* A module (1st key) exports or opens a package to another module
* (2nd key). The map value is a map of package name to a boolean
* that indicates if the package is opened.
*/
static final WeakPairMap<Module, Module, Map<String, Boolean>> exports =
new WeakPairMap<>();
/**
* A module (1st key) uses a service (2nd key)
*/
static final WeakPairMap<Module, Class<?>, Boolean> uses =
new WeakPairMap<>();
}
// -- readability --
// the modules that this module reads
private volatile Set<Module> reads;
/**
* Indicates if this module reads the given module. This method returns
* {@code true} if invoked to test if this module reads itself. It also
* returns {@code true} if invoked on an unnamed module (as unnamed
* modules read all modules).
*
* @param other
* The other module
*
* @return {@code true} if this module reads {@code other}
*
* @see #addReads(Module)
*/
public boolean canRead(Module other) {
Objects.requireNonNull(other);
// an unnamed module reads all modules
if (!this.isNamed())
return true;
// all modules read themselves
if (other == this)
return true;
// check if this module reads other
if (other.isNamed()) {
Set<Module> reads = this.reads; // volatile read
if (reads != null && reads.contains(other))
return true;
}
// check if this module reads the other module reflectively
if (ReflectionData.reads.containsKeyPair(this, other))
return true;
// if other is an unnamed module then check if this module reads
// all unnamed modules
if (!other.isNamed()
&& ReflectionData.reads.containsKeyPair(this, ALL_UNNAMED_MODULE))
return true;
return false;
}
/**
* If the caller's module is this module then update this module to read
* the given module.
*
* This method is a no-op if {@code other} is this module (all modules read
* themselves), this module is an unnamed module (as unnamed modules read
* all modules), or this module already reads {@code other}.
*
* @implNote <em>Read edges</em> added by this method are <em>weak</em> and
* do not prevent {@code other} from being GC'ed when this module is
* strongly reachable.
*
* @param other
* The other module
*
* @return this module
*
* @throws IllegalCallerException
* If this is a named module and the caller's module is not this
* module
*
* @see #canRead
*/
@CallerSensitive
public Module addReads(Module other) {
Objects.requireNonNull(other);
if (this.isNamed()) {
Module caller = getCallerModule(Reflection.getCallerClass());
if (caller != this) {
throw new IllegalCallerException(caller + " != " + this);
}
implAddReads(other, true);
}
return this;
}
/**
* Updates this module to read another module.
*
* @apiNote Used by the --add-reads command line option.
*/
void implAddReads(Module other) {
implAddReads(other, true);
}
/**
* Updates this module to read all unnamed modules.
*
* @apiNote Used by the --add-reads command line option.
*/
void implAddReadsAllUnnamed() {
implAddReads(Module.ALL_UNNAMED_MODULE, true);
}
/**
* Updates this module to read another module without notifying the VM.
*
* @apiNote This method is for VM white-box testing.
*/
void implAddReadsNoSync(Module other) {
implAddReads(other, false);
}
/**
* Makes the given {@code Module} readable to this module.
*
* If {@code syncVM} is {@code true} then the VM is notified.
*/
private void implAddReads(Module other, boolean syncVM) {
Objects.requireNonNull(other);
if (!canRead(other)) {
// update VM first, just in case it fails
if (syncVM) {
if (other == ALL_UNNAMED_MODULE) {
addReads0(this, null);
} else {
addReads0(this, other);
}
}
// add reflective read
ReflectionData.reads.putIfAbsent(this, other, Boolean.TRUE);
}
}
// -- exported and open packages --
// the packages are open to other modules, can be null
// if the value contains EVERYONE_MODULE then the package is open to all
private volatile Map<String, Set<Module>> openPackages;
// the packages that are exported, can be null
// if the value contains EVERYONE_MODULE then the package is exported to all
private volatile Map<String, Set<Module>> exportedPackages;
/**
* Returns {@code true} if this module exports the given package to at
* least the given module.
*
* <p> This method returns {@code true} if invoked to test if a package in
* this module is exported to itself. It always returns {@code true} when
* invoked on an unnamed module. A package that is {@link #isOpen open} to
* the given module is considered exported to that module at run-time and
* so this method returns {@code true} if the package is open to the given
* module. </p>
*
* <p> This method does not check if the given module reads this module. </p>
*
* @param pn
* The package name
* @param other
* The other module
*
* @return {@code true} if this module exports the package to at least the
* given module
*
* @see ModuleDescriptor#exports()
* @see #addExports(String,Module)
*/
public boolean isExported(String pn, Module other) {
Objects.requireNonNull(pn);
Objects.requireNonNull(other);
return implIsExportedOrOpen(pn, other, /*open*/false);
}
/**
* Returns {@code true} if this module has <em>opened</em> a package to at
* least the given module.
*
* <p> This method returns {@code true} if invoked to test if a package in
* this module is open to itself. It returns {@code true} when invoked on an
* {@link ModuleDescriptor#isOpen open} module with a package in the module.
* It always returns {@code true} when invoked on an unnamed module. </p>
*
* <p> This method does not check if the given module reads this module. </p>
*
* @param pn
* The package name
* @param other
* The other module
*
* @return {@code true} if this module has <em>opened</em> the package
* to at least the given module
*
* @see ModuleDescriptor#opens()
* @see #addOpens(String,Module)
* @see java.lang.reflect.AccessibleObject#setAccessible(boolean)
* @see java.lang.invoke.MethodHandles#privateLookupIn
*/
public boolean isOpen(String pn, Module other) {
Objects.requireNonNull(pn);
Objects.requireNonNull(other);
return implIsExportedOrOpen(pn, other, /*open*/true);
}
/**
* Returns {@code true} if this module exports the given package
* unconditionally.
*
* <p> This method always returns {@code true} when invoked on an unnamed
* module. A package that is {@link #isOpen(String) opened} unconditionally
* is considered exported unconditionally at run-time and so this method
* returns {@code true} if the package is opened unconditionally. </p>
*
* <p> This method does not check if the given module reads this module. </p>
*
* @param pn
* The package name
*
* @return {@code true} if this module exports the package unconditionally
*
* @see ModuleDescriptor#exports()
*/
public boolean isExported(String pn) {
Objects.requireNonNull(pn);
return implIsExportedOrOpen(pn, EVERYONE_MODULE, /*open*/false);
}
/**
* Returns {@code true} if this module has <em>opened</em> a package
* unconditionally.
*
* <p> This method always returns {@code true} when invoked on an unnamed
* module. Additionally, it always returns {@code true} when invoked on an
* {@link ModuleDescriptor#isOpen open} module with a package in the
* module. </p>
*
* <p> This method does not check if the given module reads this module. </p>
*
* @param pn
* The package name
*
* @return {@code true} if this module has <em>opened</em> the package
* unconditionally
*
* @see ModuleDescriptor#opens()
*/
public boolean isOpen(String pn) {
Objects.requireNonNull(pn);
return implIsExportedOrOpen(pn, EVERYONE_MODULE, /*open*/true);
}
/**
* Returns {@code true} if this module exports or opens the given package
* to the given module. If the other module is {@code EVERYONE_MODULE} then
* this method tests if the package is exported or opened unconditionally.
*/
private boolean implIsExportedOrOpen(String pn, Module other, boolean open) {
// all packages in unnamed modules are open
if (!isNamed())
return true;
// all packages are exported/open to self
if (other == this && descriptor.packages().contains(pn))
return true;
// all packages in open and automatic modules are open
if (descriptor.isOpen() || descriptor.isAutomatic())
return descriptor.packages().contains(pn);
// exported/opened via module declaration/descriptor
if (isStaticallyExportedOrOpen(pn, other, open))
return true;
// exported via addExports/addOpens
if (isReflectivelyExportedOrOpen(pn, other, open))
return true;
// not exported or open to other
return false;
}
/**
* Returns {@code true} if this module exports or opens a package to
* the given module via its module declaration or CLI options.
*/
private boolean isStaticallyExportedOrOpen(String pn, Module other, boolean open) {
// test if package is open to everyone or <other>
Map<String, Set<Module>> openPackages = this.openPackages;
if (openPackages != null && allows(openPackages.get(pn), other)) {
return true;
}
if (!open) {
// test package is exported to everyone or <other>
Map<String, Set<Module>> exportedPackages = this.exportedPackages;
if (exportedPackages != null && allows(exportedPackages.get(pn), other)) {
return true;
}
}
return false;
}
/**
* Returns {@code true} if targets is non-null and contains EVERYONE_MODULE
* or the given module. Also returns true if the given module is an unnamed
* module and targets contains ALL_UNNAMED_MODULE.
*/
private boolean allows(Set<Module> targets, Module module) {
if (targets != null) {
if (targets.contains(EVERYONE_MODULE))
return true;
if (module != EVERYONE_MODULE) {
if (targets.contains(module))
return true;
if (!module.isNamed() && targets.contains(ALL_UNNAMED_MODULE))
return true;
}
}
return false;
}
/**
* Returns {@code true} if this module reflectively exports or opens the
* given package to the given module.
*/
private boolean isReflectivelyExportedOrOpen(String pn, Module other, boolean open) {
// exported or open to all modules
Map<String, Boolean> exports = ReflectionData.exports.get(this, EVERYONE_MODULE);
if (exports != null) {
Boolean b = exports.get(pn);
if (b != null) {
boolean isOpen = b.booleanValue();
if (!open || isOpen) return true;
}
}
if (other != EVERYONE_MODULE) {
// exported or open to other
exports = ReflectionData.exports.get(this, other);
if (exports != null) {
Boolean b = exports.get(pn);
if (b != null) {
boolean isOpen = b.booleanValue();
if (!open || isOpen) return true;
}
}
// other is an unnamed module && exported or open to all unnamed
if (!other.isNamed()) {
exports = ReflectionData.exports.get(this, ALL_UNNAMED_MODULE);
if (exports != null) {
Boolean b = exports.get(pn);
if (b != null) {
boolean isOpen = b.booleanValue();
if (!open || isOpen) return true;
}
}
}
}
return false;
}
/**
* Returns {@code true} if this module reflectively exports the
* given package to the given module.
*/
boolean isReflectivelyExported(String pn, Module other) {
return isReflectivelyExportedOrOpen(pn, other, false);
}
/**
* Returns {@code true} if this module reflectively opens the
* given package to the given module.
*/
boolean isReflectivelyOpened(String pn, Module other) {
return isReflectivelyExportedOrOpen(pn, other, true);
}
/**
* If the caller's module is this module then update this module to export
* the given package to the given module.
*
* <p> This method has no effect if the package is already exported (or
* <em>open</em>) to the given module. </p>
*
* @apiNote As specified in section 5.4.3 of the <cite>The Java™
* Virtual Machine Specification </cite>, if an attempt to resolve a
* symbolic reference fails because of a linkage error, then subsequent
* attempts to resolve the reference always fail with the same error that
* was thrown as a result of the initial resolution attempt.
*
* @param pn
* The package name
* @param other
* The module
*
* @return this module
*
* @throws IllegalArgumentException
* If {@code pn} is {@code null}, or this is a named module and the
* package {@code pn} is not a package in this module
* @throws IllegalCallerException
* If this is a named module and the caller's module is not this
* module
*
* @jvms 5.4.3 Resolution
* @see #isExported(String,Module)
*/
@CallerSensitive
public Module addExports(String pn, Module other) {
if (pn == null)
throw new IllegalArgumentException("package is null");
Objects.requireNonNull(other);
if (isNamed()) {
Module caller = getCallerModule(Reflection.getCallerClass());
if (caller != this) {
throw new IllegalCallerException(caller + " != " + this);
}
implAddExportsOrOpens(pn, other, /*open*/false, /*syncVM*/true);
}
return this;
}
/**
* If this module has <em>opened</em> a package to at least the caller
* module then update this module to open the package to the given module.
* Opening a package with this method allows all types in the package,
* and all their members, not just public types and their public members,
* to be reflected on by the given module when using APIs that support
* private access or a way to bypass or suppress default Java language
* access control checks.
*
* <p> This method has no effect if the package is already <em>open</em>
* to the given module. </p>
*
* @apiNote This method can be used for cases where a <em>consumer
* module</em> uses a qualified opens to open a package to an <em>API
* module</em> but where the reflective access to the members of classes in
* the consumer module is delegated to code in another module. Code in the
* API module can use this method to open the package in the consumer module
* to the other module.
*
* @param pn
* The package name
* @param other
* The module
*
* @return this module
*
* @throws IllegalArgumentException
* If {@code pn} is {@code null}, or this is a named module and the
* package {@code pn} is not a package in this module
* @throws IllegalCallerException
* If this is a named module and this module has not opened the
* package to at least the caller's module
*
* @see #isOpen(String,Module)
* @see java.lang.reflect.AccessibleObject#setAccessible(boolean)
* @see java.lang.invoke.MethodHandles#privateLookupIn
*/
@CallerSensitive
public Module addOpens(String pn, Module other) {
if (pn == null)
throw new IllegalArgumentException("package is null");
Objects.requireNonNull(other);
if (isNamed()) {
Module caller = getCallerModule(Reflection.getCallerClass());
if (caller != this && (caller == null || !isOpen(pn, caller)))
throw new IllegalCallerException(pn + " is not open to " + caller);
implAddExportsOrOpens(pn, other, /*open*/true, /*syncVM*/true);
}
return this;
}
/**
* Updates this module to export a package unconditionally.
*
* @apiNote This method is for JDK tests only.
*/
void implAddExports(String pn) {
implAddExportsOrOpens(pn, Module.EVERYONE_MODULE, false, true);
}
/**
* Updates this module to export a package to another module.
*
* @apiNote Used by Instrumentation::redefineModule and --add-exports
*/
void implAddExports(String pn, Module other) {
implAddExportsOrOpens(pn, other, false, true);
}
/**
* Updates this module to export a package to all unnamed modules.
*
* @apiNote Used by the --add-exports command line option.
*/
void implAddExportsToAllUnnamed(String pn) {
implAddExportsOrOpens(pn, Module.ALL_UNNAMED_MODULE, false, true);
}
/**
* Updates this export to export a package unconditionally without
* notifying the VM.
*
* @apiNote This method is for VM white-box testing.
*/
void implAddExportsNoSync(String pn) {
implAddExportsOrOpens(pn.replace('/', '.'), Module.EVERYONE_MODULE, false, false);
}
/**
* Updates a module to export a package to another module without
* notifying the VM.
*
* @apiNote This method is for VM white-box testing.
*/
void implAddExportsNoSync(String pn, Module other) {
implAddExportsOrOpens(pn.replace('/', '.'), other, false, false);
}
/**
* Updates this module to open a package unconditionally.
*
* @apiNote This method is for JDK tests only.
*/
void implAddOpens(String pn) {
implAddExportsOrOpens(pn, Module.EVERYONE_MODULE, true, true);
}
/**
* Updates this module to open a package to another module.
*
* @apiNote Used by Instrumentation::redefineModule and --add-opens
*/
void implAddOpens(String pn, Module other) {
implAddExportsOrOpens(pn, other, true, true);
}
/**
* Updates this module to open a package to all unnamed modules.
*
* @apiNote Used by the --add-opens command line option.
*/
void implAddOpensToAllUnnamed(String pn) {
implAddExportsOrOpens(pn, Module.ALL_UNNAMED_MODULE, true, true);
}
/**
* Updates a module to export or open a module to another module.
*
* If {@code syncVM} is {@code true} then the VM is notified.
*/
private void implAddExportsOrOpens(String pn,
Module other,
boolean open,
boolean syncVM) {
Objects.requireNonNull(other);
Objects.requireNonNull(pn);
// all packages are open in unnamed, open, and automatic modules
if (!isNamed() || descriptor.isOpen() || descriptor.isAutomatic())
return;
// check if the package is already exported/open to other
if (implIsExportedOrOpen(pn, other, open)) {
// if the package is exported/open for illegal access then we need
// to record that it has also been exported/opened reflectively so
// that the IllegalAccessLogger doesn't emit a warning.
boolean needToAdd = false;
if (!other.isNamed()) {
IllegalAccessLogger l = IllegalAccessLogger.illegalAccessLogger();
if (l != null) {
if (open) {
needToAdd = l.isOpenForIllegalAccess(this, pn);
} else {
needToAdd = l.isExportedForIllegalAccess(this, pn);
}
}
}
if (!needToAdd) {
// nothing to do
return;
}
}
// can only export a package in the module
if (!descriptor.packages().contains(pn)) {
throw new IllegalArgumentException("package " + pn
+ " not in contents");
}
// update VM first, just in case it fails
if (syncVM) {
if (other == EVERYONE_MODULE) {
addExportsToAll0(this, pn);
} else if (other == ALL_UNNAMED_MODULE) {
addExportsToAllUnnamed0(this, pn);
} else {
addExports0(this, pn, other);
}
}
// add package name to exports if absent
Map<String, Boolean> map = ReflectionData.exports
.computeIfAbsent(this, other,
(m1, m2) -> new ConcurrentHashMap<>());
if (open) {
map.put(pn, Boolean.TRUE); // may need to promote from FALSE to TRUE
} else {
map.putIfAbsent(pn, Boolean.FALSE);
}
}
/**
* Updates a module to open all packages returned by the given iterator to
* all unnamed modules.
*
* @apiNote Used during startup to open packages for illegal access.
*/
void implAddOpensToAllUnnamed(Iterator<String> iterator) {
if (jdk.internal.misc.VM.isModuleSystemInited()) {
throw new IllegalStateException("Module system already initialized");
}
// replace this module's openPackages map with a new map that opens
// the packages to all unnamed modules.
Map<String, Set<Module>> openPackages = this.openPackages;
if (openPackages == null) {
openPackages = new HashMap<>();
} else {
openPackages = new HashMap<>(openPackages);
}
while (iterator.hasNext()) {
String pn = iterator.next();
Set<Module> prev = openPackages.putIfAbsent(pn, ALL_UNNAMED_MODULE_SET);
if (prev != null) {
prev.add(ALL_UNNAMED_MODULE);
}
// update VM to export the package
addExportsToAllUnnamed0(this, pn);
}
this.openPackages = openPackages;
}
// -- services --
/**
* If the caller's module is this module then update this module to add a
* service dependence on the given service type. This method is intended
* for use by frameworks that invoke {@link java.util.ServiceLoader
* ServiceLoader} on behalf of other modules or where the framework is
* passed a reference to the service type by other code. This method is
* a no-op when invoked on an unnamed module or an automatic module.
*
* <p> This method does not cause {@link Configuration#resolveAndBind
* resolveAndBind} to be re-run. </p>
*
* @param service
* The service type
*
* @return this module
*
* @throws IllegalCallerException
* If this is a named module and the caller's module is not this
* module
*
* @see #canUse(Class)
* @see ModuleDescriptor#uses()
*/
@CallerSensitive
public Module addUses(Class<?> service) {
Objects.requireNonNull(service);
if (isNamed() && !descriptor.isAutomatic()) {
Module caller = getCallerModule(Reflection.getCallerClass());
if (caller != this) {
throw new IllegalCallerException(caller + " != " + this);
}
implAddUses(service);
}
return this;
}
/**
* Update this module to add a service dependence on the given service
* type.
*/
void implAddUses(Class<?> service) {
if (!canUse(service)) {
ReflectionData.uses.putIfAbsent(this, service, Boolean.TRUE);
}
}
/**
* Indicates if this module has a service dependence on the given service
* type. This method always returns {@code true} when invoked on an unnamed
* module or an automatic module.
*
* @param service
* The service type
*
* @return {@code true} if this module uses service type {@code st}
*
* @see #addUses(Class)
*/
public boolean canUse(Class<?> service) {
Objects.requireNonNull(service);
if (!isNamed())
return true;
if (descriptor.isAutomatic())
return true;
// uses was declared
if (descriptor.uses().contains(service.getName()))
return true;
// uses added via addUses
return ReflectionData.uses.containsKeyPair(this, service);
}
// -- packages --
/**
* Returns the set of package names for the packages in this module.
*
* <p> For named modules, the returned set contains an element for each
* package in the module. </p>
*
* <p> For unnamed modules, this method is the equivalent to invoking the
* {@link ClassLoader#getDefinedPackages() getDefinedPackages} method of
* this module's class loader and returning the set of package names. </p>
*
* @return the set of the package names of the packages in this module
*/
public Set<String> getPackages() {
if (isNamed()) {
return descriptor.packages();
} else {
// unnamed module
Stream<Package> packages;
if (loader == null) {
packages = BootLoader.packages();
} else {
packages = loader.packages();
}
return packages.map(Package::getName).collect(Collectors.toSet());
}
}
// -- creating Module objects --
/**
* Defines all module in a configuration to the runtime.
*
* @return a map of module name to runtime {@code Module}
*
* @throws IllegalArgumentException
* If the function maps a module to the null or platform class loader
* @throws IllegalStateException
* If the module cannot be defined to the VM or its packages overlap
* with another module mapped to the same class loader
*/
static Map<String, Module> defineModules(Configuration cf,
Function<String, ClassLoader> clf,
ModuleLayer layer)
{
boolean isBootLayer = (ModuleLayer.boot() == null);
int cap = (int)(cf.modules().size() / 0.75f + 1.0f);
Map<String, Module> nameToModule = new HashMap<>(cap);
Map<String, ClassLoader> nameToLoader = new HashMap<>(cap);
Set<ClassLoader> loaders = new HashSet<>();
boolean hasPlatformModules = false;
// map each module to a class loader
for (ResolvedModule resolvedModule : cf.modules()) {
String name = resolvedModule.name();
ClassLoader loader = clf.apply(name);
nameToLoader.put(name, loader);
if (loader == null || loader == ClassLoaders.platformClassLoader()) {
if (!(clf instanceof ModuleLoaderMap.Mapper)) {
throw new IllegalArgumentException("loader can't be 'null'"
+ " or the platform class loader");
}
hasPlatformModules = true;
} else {
loaders.add(loader);
}
}
// define each module in the configuration to the VM
for (ResolvedModule resolvedModule : cf.modules()) {
ModuleReference mref = resolvedModule.reference();
ModuleDescriptor descriptor = mref.descriptor();
String name = descriptor.name();
ClassLoader loader = nameToLoader.get(name);
Module m;
if (loader == null && name.equals("java.base")) {
// java.base is already defined to the VM
m = Object.class.getModule();
} else {
URI uri = mref.location().orElse(null);
m = new Module(layer, loader, descriptor, uri);
}
nameToModule.put(name, m);
}
// setup readability and exports/opens
for (ResolvedModule resolvedModule : cf.modules()) {
ModuleReference mref = resolvedModule.reference();
ModuleDescriptor descriptor = mref.descriptor();
String mn = descriptor.name();
Module m = nameToModule.get(mn);
assert m != null;
// reads
Set<Module> reads = new HashSet<>();
// name -> source Module when in parent layer
Map<String, Module> nameToSource = Map.of();
for (ResolvedModule other : resolvedModule.reads()) {
Module m2 = null;
if (other.configuration() == cf) {
// this configuration
m2 = nameToModule.get(other.name());
assert m2 != null;
} else {
// parent layer
for (ModuleLayer parent: layer.parents()) {
m2 = findModule(parent, other);
if (m2 != null)
break;
}
assert m2 != null;
if (nameToSource.isEmpty())
nameToSource = new HashMap<>();
nameToSource.put(other.name(), m2);
}
reads.add(m2);
// update VM view
addReads0(m, m2);
}
m.reads = reads;
// automatic modules read all unnamed modules
if (descriptor.isAutomatic()) {
m.implAddReads(ALL_UNNAMED_MODULE, true);
}
// exports and opens, skipped for open and automatic
if (!descriptor.isOpen() && !descriptor.isAutomatic()) {
if (isBootLayer && descriptor.opens().isEmpty()) {
// no open packages, no qualified exports to modules in parent layers
initExports(m, nameToModule);
} else {
initExportsAndOpens(m, nameToSource, nameToModule, layer.parents());
}
}
}
// if there are modules defined to the boot or platform class loaders
// then register the modules in the class loader's services catalog
if (hasPlatformModules) {
ClassLoader pcl = ClassLoaders.platformClassLoader();
ServicesCatalog bootCatalog = BootLoader.getServicesCatalog();
ServicesCatalog pclCatalog = ServicesCatalog.getServicesCatalog(pcl);
for (ResolvedModule resolvedModule : cf.modules()) {
ModuleReference mref = resolvedModule.reference();
ModuleDescriptor descriptor = mref.descriptor();
if (!descriptor.provides().isEmpty()) {
String name = descriptor.name();
Module m = nameToModule.get(name);
ClassLoader loader = nameToLoader.get(name);
if (loader == null) {
bootCatalog.register(m);
} else if (loader == pcl) {
pclCatalog.register(m);
}
}
}
}
// record that there is a layer with modules defined to the class loader
for (ClassLoader loader : loaders) {
layer.bindToLoader(loader);
}
return nameToModule;
}
/**
* Find the runtime Module corresponding to the given ResolvedModule
* in the given parent layer (or its parents).
*/
private static Module findModule(ModuleLayer parent,
ResolvedModule resolvedModule) {
Configuration cf = resolvedModule.configuration();
String dn = resolvedModule.name();
return parent.layers()
.filter(l -> l.configuration() == cf)
.findAny()
.map(layer -> {
Optional<Module> om = layer.findModule(dn);
assert om.isPresent() : dn + " not found in layer";
Module m = om.get();
assert m.getLayer() == layer : m + " not in expected layer";
return m;
})
.orElse(null);
}
/**
* Initialize/setup a module's exports.
*
* @param m the module
* @param nameToModule map of module name to Module (for qualified exports)
*/
private static void initExports(Module m, Map<String, Module> nameToModule) {
Map<String, Set<Module>> exportedPackages = new HashMap<>();
for (Exports exports : m.getDescriptor().exports()) {
String source = exports.source();
if (exports.isQualified()) {
// qualified exports
Set<Module> targets = new HashSet<>();
for (String target : exports.targets()) {
Module m2 = nameToModule.get(target);
if (m2 != null) {
addExports0(m, source, m2);
targets.add(m2);
}
}
if (!targets.isEmpty()) {
exportedPackages.put(source, targets);
}
} else {
// unqualified exports
addExportsToAll0(m, source);
exportedPackages.put(source, EVERYONE_SET);
}
}
if (!exportedPackages.isEmpty())
m.exportedPackages = exportedPackages;
}
/**
* Initialize/setup a module's exports.
*
* @param m the module
* @param nameToSource map of module name to Module for modules that m reads
* @param nameToModule map of module name to Module for modules in the layer
* under construction
* @param parents the parent layers
*/
private static void initExportsAndOpens(Module m,
Map<String, Module> nameToSource,
Map<String, Module> nameToModule,
List<ModuleLayer> parents) {
ModuleDescriptor descriptor = m.getDescriptor();
Map<String, Set<Module>> openPackages = new HashMap<>();
Map<String, Set<Module>> exportedPackages = new HashMap<>();
// process the open packages first
for (Opens opens : descriptor.opens()) {
String source = opens.source();
if (opens.isQualified()) {
// qualified opens
Set<Module> targets = new HashSet<>();
for (String target : opens.targets()) {
Module m2 = findModule(target, nameToSource, nameToModule, parents);
if (m2 != null) {
addExports0(m, source, m2);
targets.add(m2);
}
}
if (!targets.isEmpty()) {
openPackages.put(source, targets);
}
} else {
// unqualified opens
addExportsToAll0(m, source);
openPackages.put(source, EVERYONE_SET);
}
}
// next the exports, skipping exports when the package is open
for (Exports exports : descriptor.exports()) {
String source = exports.source();
// skip export if package is already open to everyone
Set<Module> openToTargets = openPackages.get(source);
if (openToTargets != null && openToTargets.contains(EVERYONE_MODULE))
continue;
if (exports.isQualified()) {
// qualified exports
Set<Module> targets = new HashSet<>();
for (String target : exports.targets()) {
Module m2 = findModule(target, nameToSource, nameToModule, parents);
if (m2 != null) {
// skip qualified export if already open to m2
if (openToTargets == null || !openToTargets.contains(m2)) {
addExports0(m, source, m2);
targets.add(m2);
}
}
}
if (!targets.isEmpty()) {
exportedPackages.put(source, targets);
}
} else {
// unqualified exports
addExportsToAll0(m, source);
exportedPackages.put(source, EVERYONE_SET);
}
}
if (!openPackages.isEmpty())
m.openPackages = openPackages;
if (!exportedPackages.isEmpty())
m.exportedPackages = exportedPackages;
}
/**
* Find the runtime Module with the given name. The module name is the
* name of a target module in a qualified exports or opens directive.
*
* @param target The target module to find
* @param nameToSource The modules in parent layers that are read
* @param nameToModule The modules in the layer under construction
* @param parents The parent layers
*/
private static Module findModule(String target,
Map<String, Module> nameToSource,
Map<String, Module> nameToModule,
List<ModuleLayer> parents) {
Module m = nameToSource.get(target);
if (m == null) {
m = nameToModule.get(target);
if (m == null) {
for (ModuleLayer parent : parents) {
m = parent.findModule(target).orElse(null);
if (m != null) break;
}
}
}
return m;
}
// -- annotations --
/**
* {@inheritDoc}
* This method returns {@code null} when invoked on an unnamed module.
*/
@Override
public <T extends Annotation> T getAnnotation(Class<T> annotationClass) {
return moduleInfoClass().getDeclaredAnnotation(annotationClass);
}
/**
* {@inheritDoc}
* This method returns an empty array when invoked on an unnamed module.
*/
@Override
public Annotation[] getAnnotations() {
return moduleInfoClass().getAnnotations();
}
/**
* {@inheritDoc}
* This method returns an empty array when invoked on an unnamed module.
*/
@Override
public Annotation[] getDeclaredAnnotations() {
return moduleInfoClass().getDeclaredAnnotations();
}
// cached class file with annotations
private volatile Class<?> moduleInfoClass;
private Class<?> moduleInfoClass() {
Class<?> clazz = this.moduleInfoClass;
if (clazz != null)
return clazz;
synchronized (this) {
clazz = this.moduleInfoClass;
if (clazz == null) {
if (isNamed()) {
PrivilegedAction<Class<?>> pa = this::loadModuleInfoClass;
clazz = AccessController.doPrivileged(pa);
}
if (clazz == null) {
class DummyModuleInfo { }
clazz = DummyModuleInfo.class;
}
this.moduleInfoClass = clazz;
}
return clazz;
}
}
private Class<?> loadModuleInfoClass() {
Class<?> clazz = null;
try (InputStream in = getResourceAsStream("module-info.class")) {
if (in != null)
clazz = loadModuleInfoClass(in);
} catch (Exception ignore) { }
return clazz;
}
/**
* Loads module-info.class as a package-private interface in a class loader
* that is a child of this module's class loader.
*/
private Class<?> loadModuleInfoClass(InputStream in) throws IOException {
final String MODULE_INFO = "module-info";
ClassWriter cw = new ClassWriter(ClassWriter.COMPUTE_MAXS
+ ClassWriter.COMPUTE_FRAMES);
ClassVisitor cv = new ClassVisitor(Opcodes.ASM6, cw) {
@Override
public void visit(int version,
int access,
String name,
String signature,
String superName,
String[] interfaces) {
cw.visit(version,
Opcodes.ACC_INTERFACE
+ Opcodes.ACC_ABSTRACT
+ Opcodes.ACC_SYNTHETIC,
MODULE_INFO,
null,
"java/lang/Object",
null);
}
@Override
public AnnotationVisitor visitAnnotation(String desc, boolean visible) {
// keep annotations
return super.visitAnnotation(desc, visible);
}
@Override
public void visitAttribute(Attribute attr) {
// drop non-annotation attributes
}
@Override
public ModuleVisitor visitModule(String name, int flags, String version) {
// drop Module attribute
return null;
}
};
ClassReader cr = new ClassReader(in);
cr.accept(cv, 0);
byte[] bytes = cw.toByteArray();
ClassLoader cl = new ClassLoader(loader) {
@Override
protected Class<?> findClass(String cn)throws ClassNotFoundException {
if (cn.equals(MODULE_INFO)) {
return super.defineClass(cn, bytes, 0, bytes.length);
} else {
throw new ClassNotFoundException(cn);
}
}
};
try {
return cl.loadClass(MODULE_INFO);
} catch (ClassNotFoundException e) {
throw new InternalError(e);
}
}
// -- misc --
/**
* Returns an input stream for reading a resource in this module.
* The {@code name} parameter is a {@code '/'}-separated path name that
* identifies the resource. As with {@link Class#getResourceAsStream
* Class.getResourceAsStream}, this method delegates to the module's class
* loader {@link ClassLoader#findResource(String,String)
* findResource(String,String)} method, invoking it with the module name
* (or {@code null} when the module is unnamed) and the name of the
* resource. If the resource name has a leading slash then it is dropped
* before delegation.
*
* <p> A resource in a named module may be <em>encapsulated</em> so that
* it cannot be located by code in other modules. Whether a resource can be
* located or not is determined as follows: </p>
*
* <ul>
* <li> If the resource name ends with "{@code .class}" then it is not
* encapsulated. </li>
*
* <li> A <em>package name</em> is derived from the resource name. If
* the package name is a {@linkplain #getPackages() package} in the
* module then the resource can only be located by the caller of this
* method when the package is {@linkplain #isOpen(String,Module) open}
* to at least the caller's module. If the resource is not in a
* package in the module then the resource is not encapsulated. </li>
* </ul>
*
* <p> In the above, the <em>package name</em> for a resource is derived
* from the subsequence of characters that precedes the last {@code '/'} in
* the name and then replacing each {@code '/'} character in the subsequence
* with {@code '.'}. A leading slash is ignored when deriving the package
* name. As an example, the package name derived for a resource named
* "{@code a/b/c/foo.properties}" is "{@code a.b.c}". A resource name
* with the name "{@code META-INF/MANIFEST.MF}" is never encapsulated
* because "{@code META-INF}" is not a legal package name. </p>
*
* <p> This method returns {@code null} if the resource is not in this
* module, the resource is encapsulated and cannot be located by the caller,
* or access to the resource is denied by the security manager. </p>
*
* @param name
* The resource name
*
* @return An input stream for reading the resource or {@code null}
*
* @throws IOException
* If an I/O error occurs
*
* @see Class#getResourceAsStream(String)
*/
@CallerSensitive
public InputStream getResourceAsStream(String name) throws IOException {
if (name.startsWith("/")) {
name = name.substring(1);
}
if (isNamed() && Resources.canEncapsulate(name)) {
Module caller = getCallerModule(Reflection.getCallerClass());
if (caller != this && caller != Object.class.getModule()) {
String pn = Resources.toPackageName(name);
if (getPackages().contains(pn)) {
if (caller == null && !isOpen(pn)) {
// no caller, package not open
return null;
}
if (!isOpen(pn, caller)) {
// package not open to caller
return null;
}
}
}
}
String mn = this.name;
// special-case built-in class loaders to avoid URL connection
if (loader == null) {
return BootLoader.findResourceAsStream(mn, name);
} else if (loader instanceof BuiltinClassLoader) {
return ((BuiltinClassLoader) loader).findResourceAsStream(mn, name);
}
// locate resource in module
URL url = loader.findResource(mn, name);
if (url != null) {
try {
return url.openStream();
} catch (SecurityException e) { }
}
return null;
}
/**
* Returns the string representation of this module. For a named module,
* the representation is the string {@code "module"}, followed by a space,
* and then the module name. For an unnamed module, the representation is
* the string {@code "unnamed module"}, followed by a space, and then an
* implementation specific string that identifies the unnamed module.
*
* @return The string representation of this module
*/
@Override
public String toString() {
if (isNamed()) {
return "module " + name;
} else {
String id = Integer.toHexString(System.identityHashCode(this));
return "unnamed module @" + id;
}
}
/**
* Returns the module that a given caller class is a member of. Returns
* {@code null} if the caller is {@code null}.
*/
private Module getCallerModule(Class<?> caller) {
return (caller != null) ? caller.getModule() : null;
}
// -- native methods --
// JVM_DefineModule
private static native void defineModule0(Module module,
boolean isOpen,
String version,
String location,
String[] pns);
// JVM_AddReadsModule
private static native void addReads0(Module from, Module to);
// JVM_AddModuleExports
private static native void addExports0(Module from, String pn, Module to);
// JVM_AddModuleExportsToAll
private static native void addExportsToAll0(Module from, String pn);
// JVM_AddModuleExportsToAllUnnamed
private static native void addExportsToAllUnnamed0(Module from, String pn);
}