blob: 99e3d18081062a12d10f6d7b433203dc57e49510 [file] [log] [blame]
/*******************************************************************************
* Copyright (c) 2000, 2020 IBM Corporation and others.
*
* This program and the accompanying materials
* are made available under the terms of the Eclipse Public License 2.0
* which accompanies this distribution, and is available at
* https://www.eclipse.org/legal/epl-2.0/
*
* SPDX-License-Identifier: EPL-2.0
*
* Contributors:
* IBM Corporation - initial API and implementation
* Frits Jalvingh - Contribution for Bug 459831 - [launching] Support attaching
* external annotations to a JRE container
*******************************************************************************/
package org.eclipse.jdt.launching;
import java.io.BufferedInputStream;
import java.io.ByteArrayInputStream;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.StringReader;
import java.net.MalformedURLException;
import java.net.URL;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.stream.Collectors;
import javax.xml.parsers.DocumentBuilder;
import org.eclipse.core.resources.IProject;
import org.eclipse.core.resources.IResource;
import org.eclipse.core.resources.IWorkspaceRoot;
import org.eclipse.core.resources.ResourcesPlugin;
import org.eclipse.core.runtime.CoreException;
import org.eclipse.core.runtime.IConfigurationElement;
import org.eclipse.core.runtime.IExtensionPoint;
import org.eclipse.core.runtime.IPath;
import org.eclipse.core.runtime.IProgressMonitor;
import org.eclipse.core.runtime.IStatus;
import org.eclipse.core.runtime.ListenerList;
import org.eclipse.core.runtime.MultiStatus;
import org.eclipse.core.runtime.Path;
import org.eclipse.core.runtime.Platform;
import org.eclipse.core.runtime.Preferences;
import org.eclipse.core.runtime.Status;
import org.eclipse.core.runtime.preferences.BundleDefaultsScope;
import org.eclipse.core.runtime.preferences.IEclipsePreferences;
import org.eclipse.core.runtime.preferences.InstanceScope;
import org.eclipse.core.variables.IStringVariableManager;
import org.eclipse.core.variables.VariablesPlugin;
import org.eclipse.debug.core.ILaunchConfiguration;
import org.eclipse.debug.core.sourcelookup.ISourceContainer;
import org.eclipse.jdt.core.IAccessRule;
import org.eclipse.jdt.core.IClasspathAttribute;
import org.eclipse.jdt.core.IClasspathContainer;
import org.eclipse.jdt.core.IClasspathEntry;
import org.eclipse.jdt.core.IJavaModel;
import org.eclipse.jdt.core.IJavaProject;
import org.eclipse.jdt.core.IModuleDescription;
import org.eclipse.jdt.core.IPackageFragmentRoot;
import org.eclipse.jdt.core.JavaCore;
import org.eclipse.jdt.core.JavaModelException;
import org.eclipse.jdt.internal.core.JavaProject;
import org.eclipse.jdt.internal.launching.CompositeId;
import org.eclipse.jdt.internal.launching.DefaultEntryResolver;
import org.eclipse.jdt.internal.launching.DefaultProjectClasspathEntry;
import org.eclipse.jdt.internal.launching.EEVMInstall;
import org.eclipse.jdt.internal.launching.EEVMType;
import org.eclipse.jdt.internal.launching.JREContainerInitializer;
import org.eclipse.jdt.internal.launching.JavaSourceLookupUtil;
import org.eclipse.jdt.internal.launching.LaunchingMessages;
import org.eclipse.jdt.internal.launching.LaunchingPlugin;
import org.eclipse.jdt.internal.launching.RuntimeClasspathEntry;
import org.eclipse.jdt.internal.launching.RuntimeClasspathEntryResolver;
import org.eclipse.jdt.internal.launching.RuntimeClasspathProvider;
import org.eclipse.jdt.internal.launching.SocketAttachConnector;
import org.eclipse.jdt.internal.launching.StandardVMType;
import org.eclipse.jdt.internal.launching.VMDefinitionsContainer;
import org.eclipse.jdt.internal.launching.VMListener;
import org.eclipse.jdt.internal.launching.VariableClasspathEntry;
import org.eclipse.jdt.internal.launching.environments.EnvironmentsManager;
import org.eclipse.jdt.launching.environments.ExecutionEnvironmentDescription;
import org.eclipse.jdt.launching.environments.IExecutionEnvironment;
import org.eclipse.jdt.launching.environments.IExecutionEnvironmentsManager;
import org.eclipse.osgi.util.NLS;
import org.osgi.service.prefs.BackingStoreException;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;
/**
* The central access point for launching support. This class manages
* the registered VM types contributed through the
* <code>"org.eclipse.jdt.launching.vmType"</code> extension point.
* As well, this class provides VM install change notification,
* and computes class paths and source lookup paths for launch
* configurations.
* <p>
* This class provides static methods only.
* </p>
* @noinstantiate This class is not intended to be instantiated by clients.
*/
public final class JavaRuntime {
/**
* Classpath variable name used for the default JRE's library
* (value <code>"JRE_LIB"</code>).
*/
public static final String JRELIB_VARIABLE= "JRE_LIB"; //$NON-NLS-1$
/**
* Classpath variable name used for the default JRE's library source
* (value <code>"JRE_SRC"</code>).
*/
public static final String JRESRC_VARIABLE= "JRE_SRC"; //$NON-NLS-1$
/**
* Classpath variable name used for the default JRE's library source root
* (value <code>"JRE_SRCROOT"</code>).
*/
public static final String JRESRCROOT_VARIABLE= "JRE_SRCROOT"; //$NON-NLS-1$
/**
* Simple identifier constant (value <code>"runtimeClasspathEntryResolvers"</code>) for the
* runtime classpath entry resolvers extension point.
*
* @since 2.0
*/
public static final String EXTENSION_POINT_RUNTIME_CLASSPATH_ENTRY_RESOLVERS= "runtimeClasspathEntryResolvers"; //$NON-NLS-1$
/**
* Simple identifier constant (value <code>"classpathProviders"</code>) for the
* runtime classpath providers extension point.
*
* @since 2.0
*/
public static final String EXTENSION_POINT_RUNTIME_CLASSPATH_PROVIDERS= "classpathProviders"; //$NON-NLS-1$
/**
* Simple identifier constant (value <code>"executionEnvironments"</code>) for the
* execution environments extension point.
*
* @since 3.2
*/
public static final String EXTENSION_POINT_EXECUTION_ENVIRONMENTS= "executionEnvironments"; //$NON-NLS-1$
/**
* Simple identifier constant (value <code>"vmInstalls"</code>) for the
* VM installs extension point.
*
* @since 3.2
*/
public static final String EXTENSION_POINT_VM_INSTALLS = "vmInstalls"; //$NON-NLS-1$
/**
* Simple identifier constant (value <code>"libraryLocationResolvers"</code>) for the
* Library Resolvers extension point
*
* @since 3.7
*/
public static final String EXTENSION_POINT_LIBRARY_LOCATION_RESOLVERS = "libraryLocationResolvers"; //$NON-NLS-1$
/**
* Classpath container used for a project's JRE
* (value <code>"org.eclipse.jdt.launching.JRE_CONTAINER"</code>). A
* container is resolved in the context of a specific Java project, to one
* or more system libraries contained in a JRE. The container can have zero
* or two path segments following the container name. When no segments
* follow the container name, the workspace default JRE is used to build a
* project. Otherwise the segments identify a specific JRE used to build a
* project:
* <ol>
* <li>VM Install Type Identifier - identifies the type of JRE used to build the
* project. For example, the standard VM.</li>
* <li>VM Install Name - a user defined name that identifies that a specific VM
* of the above kind. For example, <code>IBM 1.3.1</code>. This information is
* shared in a projects classpath file, so teams must agree on JRE naming
* conventions.</li>
* </ol>
* <p>
* Since 3.2, the path may also identify an execution environment as follows:
* <ol>
* <li>Execution environment extension point name
* (value <code>executionEnvironments</code>)</li>
* <li>Identifier of a contributed execution environment</li>
* </ol>
* @since 2.0
*/
public static final String JRE_CONTAINER = LaunchingPlugin.getUniqueIdentifier() + ".JRE_CONTAINER"; //$NON-NLS-1$
/**
* Marker type identifier for JRE container problems.
*
* @since 3.6
*/
public static final String JRE_CONTAINER_MARKER = LaunchingPlugin.getUniqueIdentifier() + ".jreContainerMarker"; //$NON-NLS-1$
/**
* Marker type identifier for JRE compiler compliance problems.
*
* @since 3.11
*/
public static final String JRE_COMPILER_COMPLIANCE_MARKER = LaunchingPlugin.getUniqueIdentifier() + ".jreCompilerComplianceMarker"; //$NON-NLS-1$
/**
* A status code indicating that a JRE could not be resolved for a project.
* When a JRE cannot be resolved for a project by this plug-in's container
* initializer, an exception is thrown with this status code. A status handler
* may be registered for this status code. The <code>source</code> object provided
* to the status handler is the Java project for which the path could not be
* resolved. The status handler must return an <code>IVMInstall</code> or <code>null</code>.
* The container resolver will re-set the project's classpath if required.
*
* @since 2.0
*/
public static final int ERR_UNABLE_TO_RESOLVE_JRE = 160;
/**
* Preference key for launch/connect timeout. VM Runners should honor this timeout
* value when attempting to launch and connect to a debuggable VM. The value is
* an int, indicating a number of milliseconds.
*
* @since 2.0
*/
public static final String PREF_CONNECT_TIMEOUT = LaunchingPlugin.getUniqueIdentifier() + ".PREF_CONNECT_TIMEOUT"; //$NON-NLS-1$
/**
* Preference key for the String of XML that defines all installed VMs.
*
* @since 2.1
*/
public static final String PREF_VM_XML = LaunchingPlugin.getUniqueIdentifier() + ".PREF_VM_XML"; //$NON-NLS-1$
/**
* Preference key for the problem severity when an execution environment is bound to a project's build path for which there is no strictly
* compatible JRE available in the workspace. Value is one of {@link JavaCore#ERROR}, {@link JavaCore#WARNING}, {@link JavaCore#INFO}, or
* {@link JavaCore#IGNORE}
*
* @since 3.5
*/
public static final String PREF_STRICTLY_COMPATIBLE_JRE_NOT_AVAILABLE = LaunchingPlugin.getUniqueIdentifier() + ".PREF_STRICTLY_COMPATIBLE_JRE_NOT_AVAILABLE"; //$NON-NLS-1$
/**
* Preference key for the problem severity when an compiler compliance that is set does not match the used JRE. Value is one of
* {@link JavaCore#ERROR}, {@link JavaCore#WARNING}, {@link JavaCore#INFO}, or {@link JavaCore#IGNORE}
* <p>
* This preference will not be applicable if the JRE used is 9 or above and {@link JavaCore#COMPILER_RELEASE} option is enabled.
* </p>
*
* @since 3.10
*/
public static final String PREF_COMPILER_COMPLIANCE_DOES_NOT_MATCH_JRE = LaunchingPlugin.getUniqueIdentifier() + ".PREF_COMPILER_COMPLIANCE_DOES_NOT_MATCH_JRE"; //$NON-NLS-1$
/**
* Unique identifier constant (value <code>"org.eclipse.jdt.launching"</code>)
* for the Java launching plug-in.
*
* This preference will not be applicable if the JRE used is 9 or above and {@link JavaCore#COMPILER_RELEASE} option is enabled.
* @since 3.5
*/
public static final String ID_PLUGIN = LaunchingPlugin.ID_PLUGIN;
/**
* Default launch/connect timeout (milliseconds).
*
* @since 2.0
*/
public static final int DEF_CONNECT_TIMEOUT = 20000;
/**
* Attribute key for a process property. The class
* <code>org.eclipse.debug.core.model.IProcess</code> allows attaching
* String properties to processes.
* The value of this attribute is the command line a process
* was launched with. Implementers of <code>IVMRunner</code> should use
* this attribute key to attach the command lines to the processes they create.
*
* @deprecated - use <code>IProcess.ATTR_CMDLINE</code>
*/
@Deprecated
public final static String ATTR_CMDLINE= LaunchingPlugin.getUniqueIdentifier() + ".launcher.cmdLine"; //$NON-NLS-1$
/**
* Boolean preference controlling whether only exported entries should even be included when the runtime classpath is computed
* @since 3.7
*/
public static final String PREF_ONLY_INCLUDE_EXPORTED_CLASSPATH_ENTRIES = ID_PLUGIN + ".only_include_exported_classpath_entries"; //$NON-NLS-1$
/**
* Attribute key for a classpath attribute referencing a
* list of shared libraries that should appear on the
* <code>-Djava.library.path</code> system property.
* <p>
* The factory methods <code>newLibraryPathsAttribute(String[])</code>
* and <code>getLibraryPaths(IClasspathAttribute)</code> should be used to
* encode and decode the attribute value.
* </p>
* <p>
* Each string is used to create an <code>IPath</code> using the constructor
* <code>Path(String)</code>, and may contain <code>IStringVariable</code>'s.
* Variable substitution is performed on the string prior to constructing
* a path from the string.
* If the resulting <code>IPath</code> is a relative path, it is interpreted
* as relative to the workspace location. If the path is absolute, it is
* interpreted as an absolute path in the local file system.
* </p>
* @since 3.1
* @see org.eclipse.jdt.core.IClasspathAttribute
*/
public static final String CLASSPATH_ATTR_LIBRARY_PATH_ENTRY = LaunchingPlugin.getUniqueIdentifier() + ".CLASSPATH_ATTR_LIBRARY_PATH_ENTRY"; //$NON-NLS-1$
// lock for VM initialization
private static Object fgVMLock = new Object();
private static boolean fgInitializingVMs = false;
private static HashSet<Object> fgVMTypes = null;
private static String fgDefaultVMId = null;
private static String fgDefaultVMConnectorId = null;
/**
* Resolvers keyed by variable name, container id,
* and runtime classpath entry id.
*/
private static Map<String, IRuntimeClasspathEntryResolver> fgVariableResolvers = null;
private static Map<String, IRuntimeClasspathEntryResolver> fgContainerResolvers = null;
private static Map<String, RuntimeClasspathEntryResolver> fgRuntimeClasspathEntryResolvers = null;
/**
* Path providers keyed by id
*/
private static Map<String, RuntimeClasspathProvider> fgPathProviders = null;
/**
* Default classpath and source path providers.
*/
private static IRuntimeClasspathProvider fgDefaultClasspathProvider = new StandardClasspathProvider();
private static IRuntimeClasspathProvider fgDefaultSourcePathProvider = new StandardSourcePathProvider();
/**
* VM change listeners
*/
private static ListenerList<IVMInstallChangedListener> fgVMListeners = new ListenerList<>();
/**
* Cache of already resolved projects in container entries. Used to avoid
* cycles in project dependencies when resolving classpath container entries.
* Counters used to know when entering/exiting to clear cache
*/
private static ThreadLocal<List<IJavaProject>> fgProjects = new ThreadLocal<>(); // Lists
private static ThreadLocal<Integer> fgEntryCount = new ThreadLocal<>(); // Integers
/**
* Set of IDs of VMs contributed via vmInstalls extension point.
*/
private static Set<String> fgContributedVMs = new HashSet<>();
/**
* This class contains only static methods, and is not intended
* to be instantiated.
*/
private JavaRuntime() {
}
/**
* Initializes VM type extensions.
*/
private static void initializeVMTypeExtensions() {
IExtensionPoint extensionPoint = Platform.getExtensionRegistry().getExtensionPoint(LaunchingPlugin.ID_PLUGIN, "vmInstallTypes"); //$NON-NLS-1$
if(extensionPoint != null) {
IConfigurationElement[] configs = extensionPoint.getConfigurationElements();
MultiStatus status = new MultiStatus(LaunchingPlugin.getUniqueIdentifier(), IStatus.OK, "Exceptions occurred", null); //$NON-NLS-1$
fgVMTypes = new HashSet<>();
for (int i= 0; i < configs.length; i++) {
try {
fgVMTypes.add(configs[i].createExecutableExtension("class")); //$NON-NLS-1$
}
catch (CoreException e) {status.add(e.getStatus());}
}
if (!status.isOK()) {
//only happens on a CoreException
LaunchingPlugin.log(status);
}
}
else {
LaunchingPlugin.log(new Status(IStatus.ERROR, LaunchingPlugin.getUniqueIdentifier(), "VM Install extension point not found", null)); //$NON-NLS-1$
}
}
/**
* Returns the VM assigned to build the given Java project.
* The project must exist. The VM assigned to a project is
* determined from its build path.
*
* @param project the project to retrieve the VM from
* @return the VM instance that is assigned to build the given Java project
* Returns <code>null</code> if no VM is referenced on the project's build path.
* @throws CoreException if unable to determine the project's VM install
*/
public static IVMInstall getVMInstall(IJavaProject project) throws CoreException {
// check the classpath
IVMInstall vm = null;
IClasspathEntry[] classpath = project.getRawClasspath();
IRuntimeClasspathEntryResolver resolver = null;
IClasspathEntry entry = null;
for (int i = 0; i < classpath.length; i++) {
entry = classpath[i];
switch (entry.getEntryKind()) {
case IClasspathEntry.CPE_VARIABLE:
resolver = getVariableResolver(entry.getPath().segment(0));
if (resolver != null) {
vm = resolver.resolveVMInstall(entry);
}
break;
case IClasspathEntry.CPE_CONTAINER:
resolver = getContainerResolver(entry.getPath().segment(0));
if (resolver != null) {
vm = resolver.resolveVMInstall(entry);
}
break;
}
if (vm != null) {
return vm;
}
}
return null;
}
/**
* Returns the VM install type with the given unique id.
* @param id the VM install type unique id
* @return The VM install type for the given id, or <code>null</code> if no
* VM install type with the given id is registered.
*/
public static IVMInstallType getVMInstallType(String id) {
IVMInstallType[] vmTypes= getVMInstallTypes();
for (int i= 0; i < vmTypes.length; i++) {
if (vmTypes[i].getId().equals(id)) {
return vmTypes[i];
}
}
return null;
}
/**
* Sets a VM as the system-wide default VM, and notifies registered VM install
* change listeners of the change.
*
* @param vm The VM to make the default. May be <code>null</code> to clear
* the default.
* @param monitor progress monitor or <code>null</code>
* @throws CoreException if trying to set the default VM install encounters problems
*/
public static void setDefaultVMInstall(IVMInstall vm, IProgressMonitor monitor) throws CoreException {
setDefaultVMInstall(vm, monitor, true);
}
/**
* Sets a VM as the system-wide default VM, and notifies registered VM install
* change listeners of the change.
*
* @param vm The VM to make the default. May be <code>null</code> to clear
* the default.
* @param monitor progress monitor or <code>null</code>
* @param savePreference If <code>true</code>, update workbench preferences to reflect
* the new default VM.
* @throws CoreException if trying to set the default VM install encounters problems
* @since 2.1
*/
public static void setDefaultVMInstall(IVMInstall vm, IProgressMonitor monitor, boolean savePreference) throws CoreException {
IVMInstall previous = null;
if (fgDefaultVMId != null) {
previous = getVMFromCompositeId(fgDefaultVMId);
}
fgDefaultVMId= getCompositeIdFromVM(vm);
if (savePreference) {
saveVMConfiguration();
}
IVMInstall current = null;
if (fgDefaultVMId != null) {
current = getVMFromCompositeId(fgDefaultVMId);
}
if (previous != current) {
notifyDefaultVMChanged(previous, current);
}
}
/**
* Sets a VM connector as the system-wide default VM. This setting is persisted when
* saveVMConfiguration is called.
* @param connector The connector to make the default. May be <code>null</code> to clear
* the default.
* @param monitor The progress monitor to use
* @since 2.0
* @throws CoreException Thrown if saving the new default setting fails
*/
public static void setDefaultVMConnector(IVMConnector connector, IProgressMonitor monitor) throws CoreException {
fgDefaultVMConnectorId= connector.getIdentifier();
saveVMConfiguration();
}
/**
* Return the default VM set with <code>setDefaultVM()</code>.
* @return Returns the default VM. May return <code>null</code> when no default
* VM was set or when the default VM has been disposed.
*/
public static IVMInstall getDefaultVMInstall() {
IVMInstall install= getVMFromCompositeId(getDefaultVMId());
if (install != null) {
File location = install.getInstallLocation();
if (location != null) {
if (location.exists()) {
return install;
}
}
}
// if the default JRE goes missing, re-detect
if (install != null) {
install.getVMInstallType().disposeVMInstall(install.getId());
}
synchronized (fgVMLock) {
fgDefaultVMId = null;
fgVMTypes = null;
initializeVMs();
}
return getVMFromCompositeId(getDefaultVMId());
}
/**
* Return the default VM connector.
* @return Returns the default VM connector.
* @since 2.0
*/
public static IVMConnector getDefaultVMConnector() {
String id = getDefaultVMConnectorId();
IVMConnector connector = null;
if (id != null) {
connector = getVMConnector(id);
}
if (connector == null) {
connector = new SocketAttachConnector();
}
return connector;
}
/**
* Returns the list of registered VM types. VM types are registered via
* <code>"org.eclipse.jdt.launching.vmTypes"</code> extension point.
* Returns an empty list if there are no registered VM types.
*
* @return the list of registered VM types
*/
public static IVMInstallType[] getVMInstallTypes() {
initializeVMs();
return fgVMTypes.toArray(new IVMInstallType[fgVMTypes.size()]);
}
/**
* Returns the default VM id determined during the initialization of the VM types
* @return the id of the default VM
*/
private static String getDefaultVMId() {
initializeVMs();
return fgDefaultVMId;
}
/**
* Returns the default VM connector id determined during the initialization of the VM types
* @return the id of the default VM connector
*/
private static String getDefaultVMConnectorId() {
initializeVMs();
return fgDefaultVMConnectorId;
}
/**
* Returns a String that uniquely identifies the specified VM across all VM types.
*
* @param vm the instance of IVMInstallType to be identified
* @return the unique identifier for the specified VM
*
* @since 2.1
*/
public static String getCompositeIdFromVM(IVMInstall vm) {
if (vm == null) {
return null;
}
IVMInstallType vmType = vm.getVMInstallType();
String typeID = vmType.getId();
CompositeId id = new CompositeId(new String[] { typeID, vm.getId() });
return id.toString();
}
/**
* Return the VM corresponding to the specified composite Id. The id uniquely
* identifies a VM across all VM types.
*
* @param idString the composite id that specifies an instance of IVMInstall
* @return the VM corresponding to the specified composite Id.
*
* @since 2.1
*/
public static IVMInstall getVMFromCompositeId(String idString) {
if (idString == null || idString.length() == 0) {
return null;
}
CompositeId id= CompositeId.fromString(idString);
if (id.getPartCount() == 2) {
IVMInstallType vmType= getVMInstallType(id.get(0));
if (vmType != null) {
return vmType.findVMInstall(id.get(1));
}
}
return null;
}
/**
* Returns a new runtime classpath entry for the given expression that
* may contain string substitution variable references. The resulting expression
* refers to an archive (jar or directory) containing class files.
*
* @param expression an expression that resolves to the location of an archive
* @return runtime classpath entry
* @since 3.0
*/
public static IRuntimeClasspathEntry newStringVariableClasspathEntry(String expression) {
return new VariableClasspathEntry(expression);
}
/**
* Returns a new runtime classpath entry containing the default classpath
* for the specified Java project.
*
* @param project Java project
* @return runtime classpath entry
* @since 3.0
*/
public static IRuntimeClasspathEntry newDefaultProjectClasspathEntry(IJavaProject project) {
return new DefaultProjectClasspathEntry(project);
}
/**
* Returns a new runtime classpath entry for the given project.
*
* @param project Java project
* @return runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newProjectRuntimeClasspathEntry(IJavaProject project) {
return newRuntimeClasspathEntry(JavaCore.newProjectEntry(project.getProject().getFullPath()));
}
/**
* Returns a new runtime classpath entry for the given project.
*
* @param project
* Java project
* @param classpathProperty
* the type of entry - one of <code>USER_CLASSES</code>, <code>BOOTSTRAP_CLASSES</code>,<code>STANDARD_CLASSES</code>,
* <code>MODULE_PATH</code> or <code>CLASS_PATH</code>
* @return runtime classpath entry
* @since 3.10
*/
public static IRuntimeClasspathEntry newProjectRuntimeClasspathEntry(IJavaProject project, int classpathProperty) {
return newRuntimeClasspathEntry(JavaCore.newProjectEntry(project.getProject().getFullPath()), classpathProperty);
}
/**
* Returns a new runtime classpath entry for the given archive.
*
* @param resource archive resource
* @return runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newArchiveRuntimeClasspathEntry(IResource resource) {
return newRuntimeClasspathEntry(JavaCore.newLibraryEntry(resource.getFullPath(), null, null));
}
/**
* Returns a new runtime classpath entry for the given archive(possibly external).
*
* @param path
* absolute path to an archive
* @param classpathProperty
* the type of entry - one of <code>USER_CLASSES</code>, <code>BOOTSTRAP_CLASSES</code>,<code>STANDARD_CLASSES</code>,
* <code>MODULE_PATH</code> or <code>CLASS_PATH</code>
* @return runtime classpath entry
* @since 3.10
*/
public static IRuntimeClasspathEntry newArchiveRuntimeClasspathEntry(IPath path, int classpathProperty) {
return newRuntimeClasspathEntry(JavaCore.newLibraryEntry(path, null, null), classpathProperty);
}
/**
* Returns a new runtime classpath entry for the given archive(possibly external).
*
* @param path
* absolute path to an archive
* @param classpathProperty
* the type of entry - one of <code>USER_CLASSES</code>, <code>BOOTSTRAP_CLASSES</code>,<code>STANDARD_CLASSES</code>,
* <code>MODULE_PATH</code>, <code>CLASS_PATH</code> or <code>PATCH_MODULE</code>
* @param javaProject
* the javaProject to be returned by {@link IRuntimeClasspathEntry#getJavaProject()}, required for PATCH_MODULE
* @return runtime classpath entry
* @since 3.10
*/
public static IRuntimeClasspathEntry newArchiveRuntimeClasspathEntry(IPath path, int classpathProperty, IJavaProject javaProject) {
RuntimeClasspathEntry entry = new RuntimeClasspathEntry(JavaCore.newLibraryEntry(path, null, null), classpathProperty);
entry.setJavaProject(javaProject);
return entry;
}
/**
* Returns a new runtime classpath entry for the given archive (possibly
* external).
*
* @param path absolute path to an archive
* @return runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newArchiveRuntimeClasspathEntry(IPath path) {
return newRuntimeClasspathEntry(JavaCore.newLibraryEntry(path, null, null));
}
/**
* Returns a new runtime classpath entry for the given archive (possibly external).
*
* @param path
* absolute path to an archive
* @param sourceAttachmentPath
* the absolute path of the corresponding source archive or folder, or <code>null</code> if none. Note, since 3.0, an empty path is
* allowed to denote no source attachment. and will be automatically converted to <code>null</code>. Since 3.4, this path can also
* denote a path external to the workspace.
* @param sourceAttachmentRootPath
* the location of the root of the source files within the source archive or folder or <code>null</code> if this location should be
* automatically detected.
* @param accessRules
* the possibly empty list of access rules for this entry
* @param extraAttributes
* the possibly empty list of extra attributes to persist with this entry
* @param isExported
* indicates whether this entry is contributed to dependent projects in addition to the output location
* @return runtime classpath entry
* @since 3.10
*/
public static IRuntimeClasspathEntry newArchiveRuntimeClasspathEntry(IPath path, IPath sourceAttachmentPath, IPath sourceAttachmentRootPath, IAccessRule[] accessRules, IClasspathAttribute[] extraAttributes, boolean isExported) {
return newRuntimeClasspathEntry(JavaCore.newLibraryEntry(path, sourceAttachmentPath, sourceAttachmentRootPath, accessRules, extraAttributes, isExported));
}
/**
* Returns a new runtime classpath entry for the classpath
* variable with the given path.
*
* @param path variable path; first segment is the name of the variable;
* trailing segments are appended to the resolved variable value
* @return runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newVariableRuntimeClasspathEntry(IPath path) {
return newRuntimeClasspathEntry(JavaCore.newVariableEntry(path, null, null));
}
/**
* Returns a runtime classpath entry for the given container path with the given
* classpath property.
*
* @param path container path
* @param classpathProperty the type of entry - one of <code>USER_CLASSES</code>,
* <code>BOOTSTRAP_CLASSES</code>,<code>STANDARD_CLASSES</code>, <code>MODULE_PATH</code>
* or <code>CLASS_PATH</code>
* @return runtime classpath entry
* @exception CoreException if unable to construct a runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newRuntimeContainerClasspathEntry(IPath path, int classpathProperty) throws CoreException {
return newRuntimeContainerClasspathEntry(path, classpathProperty, null);
}
/**
* Returns a runtime classpath entry for the given container path with the given
* classpath property to be resolved in the context of the given Java project.
*
* @param path container path
* @param classpathProperty the type of entry - one of <code>USER_CLASSES</code>,
* <code>BOOTSTRAP_CLASSES</code>, or <code>STANDARD_CLASSES</code>
* @param project Java project context used for resolution, or <code>null</code>
* if to be resolved in the context of the launch configuration this entry
* is referenced in
* @return runtime classpath entry
* @exception CoreException if unable to construct a runtime classpath entry
* @since 3.0
*/
public static IRuntimeClasspathEntry newRuntimeContainerClasspathEntry(IPath path, int classpathProperty, IJavaProject project) throws CoreException {
RuntimeClasspathEntry entry = new RuntimeClasspathEntry(JavaCore.newContainerEntry(path), classpathProperty);
entry.setJavaProject(project);
return entry;
}
/**
* Returns a runtime classpath entry constructed from the given memento.
*
* @param memento a memento for a runtime classpath entry
* @return runtime classpath entry
* @exception CoreException if unable to construct a runtime classpath entry
* @since 2.0
*/
public static IRuntimeClasspathEntry newRuntimeClasspathEntry(String memento) throws CoreException {
try {
Element root = null;
DocumentBuilder parser = LaunchingPlugin.getParser();
StringReader reader = new StringReader(memento);
InputSource source = new InputSource(reader);
root = parser.parse(source).getDocumentElement();
String id = root.getAttribute("id"); //$NON-NLS-1$
if (id == null || id.length() == 0) {
// assume an old format
return new RuntimeClasspathEntry(root);
}
// get the extension & create a new one
IRuntimeClasspathEntry2 entry = LaunchingPlugin.getDefault().newRuntimeClasspathEntry(id);
NodeList list = root.getChildNodes();
Node node = null;
Element element = null;
for (int i = 0; i < list.getLength(); i++) {
node = list.item(i);
if (node.getNodeType() == Node.ELEMENT_NODE) {
element = (Element)node;
if ("memento".equals(element.getNodeName())) { //$NON-NLS-1$
entry.initializeFrom(element);
}
}
}
return entry;
} catch (SAXException e) {
abort(LaunchingMessages.JavaRuntime_32, e);
} catch (IOException e) {
abort(LaunchingMessages.JavaRuntime_32, e);
}
return null;
}
/**
* Returns a runtime classpath entry that corresponds to the given
* classpath entry. The classpath entry may not be of type <code>CPE_SOURCE</code>
* or <code>CPE_CONTAINER</code>.
*
* @param entry a classpath entry
* @return runtime classpath entry
* @since 2.0
*/
private static IRuntimeClasspathEntry newRuntimeClasspathEntry(IClasspathEntry entry) {
return new RuntimeClasspathEntry(entry);
}
/**
* Returns a runtime classpath entry that corresponds to the given classpath entry. The classpath entry may not be of type <code>CPE_SOURCE</code>
* or <code>CPE_CONTAINER</code>.
*
* @param entry
* a classpath entry
* @return runtime classpath entry
* @since 2.0
*/
private static IRuntimeClasspathEntry newRuntimeClasspathEntry(IClasspathEntry entry, int classPathProperty) {
return new RuntimeClasspathEntry(entry, classPathProperty);
}
/**
* Computes and returns the default unresolved runtime classpath for the given project.
*
* @param project
* the {@link IJavaProject} to compute the unresolved runtime classpath for
* @return runtime classpath entries
* @exception CoreException
* if unable to compute the runtime classpath
* @see IRuntimeClasspathEntry
* @since 2.0
*/
public static IRuntimeClasspathEntry[] computeUnresolvedRuntimeClasspath(IJavaProject project) throws CoreException {
return computeUnresolvedRuntimeClasspath(project, false);
}
/**
* Computes and returns the default unresolved runtime classpath for the given project.
*
* @param project
* the {@link IJavaProject} to compute the unresolved runtime classpath for
* @param excludeTestCode
* if true, output folders corresponding to test sources and test dependencies are excluded
* @return runtime classpath entries
* @exception CoreException
* if unable to compute the runtime classpath
* @see IRuntimeClasspathEntry
* @since 3.10
*/
public static IRuntimeClasspathEntry[] computeUnresolvedRuntimeClasspath(IJavaProject project, boolean excludeTestCode) throws CoreException {
IClasspathEntry[] entries = project.getRawClasspath();
List<IRuntimeClasspathEntry> classpathEntries = new ArrayList<>(3);
for (int i = 0; i < entries.length; i++) {
IClasspathEntry entry = entries[i];
switch (entry.getEntryKind()) {
case IClasspathEntry.CPE_CONTAINER:
IClasspathContainer container = JavaCore.getClasspathContainer(entry.getPath(), project);
if (container != null) {
switch (container.getKind()) {
case IClasspathContainer.K_APPLICATION:
// don't look at application entries
break;
case IClasspathContainer.K_DEFAULT_SYSTEM:
classpathEntries.add(newRuntimeContainerClasspathEntry(container.getPath(), IRuntimeClasspathEntry.STANDARD_CLASSES, project));
break;
case IClasspathContainer.K_SYSTEM:
classpathEntries.add(newRuntimeContainerClasspathEntry(container.getPath(), IRuntimeClasspathEntry.BOOTSTRAP_CLASSES, project));
break;
}
}
break;
case IClasspathEntry.CPE_VARIABLE:
if (JRELIB_VARIABLE.equals(entry.getPath().segment(0))) {
IRuntimeClasspathEntry jre = newVariableRuntimeClasspathEntry(entry.getPath());
jre.setClasspathProperty(IRuntimeClasspathEntry.STANDARD_CLASSES);
classpathEntries.add(jre);
}
break;
default:
break;
}
}
classpathEntries.add(newDefaultProjectClasspathEntry(project));
return classpathEntries.toArray(new IRuntimeClasspathEntry[classpathEntries.size()]);
}
/**
* Computes and returns the default unresolved runtime classpath and modulepath for the given project.
*
* @param project
* the {@link IJavaProject} to compute the unresolved runtime classpath and modulepath for
* @return runtime classpath and modulepath entries
* @exception CoreException
* if unable to compute the runtime classpath and/or modulepath
* @see IRuntimeClasspathEntry
* @since 3.10
*/
public static IRuntimeClasspathEntry[] computeUnresolvedRuntimeDependencies(IJavaProject project) throws CoreException {
return computeUnresolvedRuntimeDependencies(project, false);
}
/**
* Computes and returns the default unresolved runtime classpath and modulepath for the given project.
*
* @param project
* the {@link IJavaProject} to compute the unresolved runtime classpath and modulepath for
* @param excludeTestCode
* if true, output folders corresponding to test sources and test dependencies are excluded
* @return runtime classpath and modulepath entries
* @exception CoreException
* if unable to compute the runtime classpath and/or modulepath
* @see IRuntimeClasspathEntry
* @since 3.10
*/
public static IRuntimeClasspathEntry[] computeUnresolvedRuntimeDependencies(IJavaProject project, boolean excludeTestCode) throws CoreException {
IClasspathEntry entry1 = JavaCore.newProjectEntry(project.getProject().getFullPath());
List<Object> classpathEntries = new ArrayList<>(5);
List<IClasspathEntry> expanding = new ArrayList<>(5);
boolean exportedEntriesOnly = Platform.getPreferencesService().getBoolean(LaunchingPlugin.ID_PLUGIN, JavaRuntime.PREF_ONLY_INCLUDE_EXPORTED_CLASSPATH_ENTRIES, false, null);
DefaultProjectClasspathEntry.expandProject(entry1, classpathEntries, expanding, excludeTestCode, exportedEntriesOnly, project, true);
IRuntimeClasspathEntry[] runtimeEntries = new IRuntimeClasspathEntry[classpathEntries.size()];
for (int i = 0; i < runtimeEntries.length; i++) {
Object e = classpathEntries.get(i);
if (e instanceof IClasspathEntry) {
IClasspathEntry cpe = (IClasspathEntry) e;
if (cpe == entry1) {
if (isModularProject(project)) {
runtimeEntries[i] = new RuntimeClasspathEntry(entry1, IRuntimeClasspathEntry.MODULE_PATH);
} else {
runtimeEntries[i] = new RuntimeClasspathEntry(entry1, IRuntimeClasspathEntry.CLASS_PATH);
}
} else {
runtimeEntries[i] = new RuntimeClasspathEntry(cpe);
DefaultProjectClasspathEntry.adjustClasspathProperty(runtimeEntries[i], cpe);
}
} else {
runtimeEntries[i] = (IRuntimeClasspathEntry) e;
}
}
List<IRuntimeClasspathEntry> ordered = new ArrayList<>(runtimeEntries.length);
for (int i = 0; i < runtimeEntries.length; i++) {
if (runtimeEntries[i].getClasspathProperty() != IRuntimeClasspathEntry.STANDARD_CLASSES
&& runtimeEntries[i].getClasspathProperty() != IRuntimeClasspathEntry.BOOTSTRAP_CLASSES) {
ordered.add(runtimeEntries[i]);
}
}
IRuntimeClasspathEntry jreEntry = JavaRuntime.computeModularJREEntry(project);
if (jreEntry != null) { // With some jre stub jars don't have jre entries
ordered.add(jreEntry);
}
return ordered.toArray(new IRuntimeClasspathEntry[ordered.size()]);
}
/**
* Checks if classpath entry is modular and project is modular .
*
* @param entry
* the classpath entry
* @return boolean <code>true</code> if entry is module else <code>false</code>
* @since 3.10
*/
public static boolean isModule(IClasspathEntry entry, IJavaProject proj) {
if (entry == null) {
return false;
}
if (!isModularProject(proj)) {
return false;
}
for (IClasspathAttribute classpathAttribute : entry.getExtraAttributes()) {
if (classpathAttribute.getName().equals(IClasspathAttribute.MODULE) && "true".equals(classpathAttribute.getValue())) {//$NON-NLS-1$
return true;
}
}
return false;
}
/**
* Checks if configuration JRE is greater than 8.
*
* @param configuration
* the launch configuration
* @return boolean <code>true</code> if jre used in configuration is greater than 8 else <code>false</code>
* @since 3.10
*/
public static boolean isModularConfiguration(ILaunchConfiguration configuration) {
try {
IVMInstall vm = JavaRuntime.computeVMInstall(configuration);
return isModularJava(vm);
}
catch (CoreException e) {
e.printStackTrace();
}
return false;
}
/**
* Checks if vm install is modular( version greater than 8).
*
* @param vm
* the vm install
* @return boolean <code>true</code> if vm install is modular else <code>false</code>
* @since 3.10
*/
public static boolean isModularJava(IVMInstall vm) {
if (compareJavaVersions(vm, JavaCore.VERSION_1_8) > 0) {
return true;
}
return false;
}
/**
* Compares the version of vm and a version of the Java platform.
*
* @param vm
* IVMInstall to be compared
* @param ver
* version to be compared
* @return the value {@code 0} if both versions are the same; a value less than {@code 0} if <code>vm</code> is smaller than <code>ver</code>; and
* a value greater than {@code 0} if <code>vm</code> is higher than <code>ver</code>; a value {@code -1} in case of any exceptions;
*
* @since 3.10
*/
public static int compareJavaVersions(IVMInstall vm, String ver) {
if (vm instanceof AbstractVMInstall) {
AbstractVMInstall install = (AbstractVMInstall) vm;
String vmver = install.getJavaVersion();
if (vmver == null) {
return -1;
}
// versionToJdkLevel only handles 3 char versions = 1.5, 1.6, 1.7, etc
if (vmver.length() > 3) {
vmver = vmver.substring(0, 3);
}
return JavaCore.compareJavaVersions(vmver, ver);
}
return -1;
}
/**
* Checks if project entry is modular
*
* @param proj
* the project
* @return boolean <code>true</code> if project is modular else <code>false</code>
* @since 3.10
*/
public static boolean isModularProject(IJavaProject proj) {
IModuleDescription module;
try {
module = proj == null ? null : proj.getModuleDescription();
String modName = module == null ? null : module.getElementName();
if (modName != null && modName.length() > 0) {
return true;
}
}
catch (JavaModelException e) {
}
return false;
}
/**
* Computes and returns the unresolved source lookup path for the given launch
* configuration.
*
* @param configuration launch configuration
* @return runtime classpath entries
* @exception CoreException if unable to compute the source lookup path
* @since 2.0
*/
public static IRuntimeClasspathEntry[] computeUnresolvedSourceLookupPath(ILaunchConfiguration configuration) throws CoreException {
return getSourceLookupPathProvider(configuration).computeUnresolvedClasspath(configuration);
}
/**
* Resolves the given source lookup path, returning the resolved source lookup path
* in the context of the given launch configuration.
*
* @param entries unresolved entries
* @param configuration launch configuration
* @return resolved entries
* @exception CoreException if unable to resolve the source lookup path
* @since 2.0
*/
public static IRuntimeClasspathEntry[] resolveSourceLookupPath(IRuntimeClasspathEntry[] entries, ILaunchConfiguration configuration) throws CoreException {
return getSourceLookupPathProvider(configuration).resolveClasspath(entries, configuration);
}
/**
* Returns the classpath provider for the given launch configuration.
*
* @param configuration launch configuration
* @return classpath provider
* @exception CoreException if unable to resolve the path provider
* @since 2.0
*/
public static IRuntimeClasspathProvider getClasspathProvider(ILaunchConfiguration configuration) throws CoreException {
String providerId = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_CLASSPATH_PROVIDER, (String)null);
IRuntimeClasspathProvider provider = null;
if (providerId == null) {
provider = fgDefaultClasspathProvider;
} else {
provider = getClasspathProviders().get(providerId);
if (provider == null) {
abort(NLS.bind(LaunchingMessages.JavaRuntime_26, new String[]{providerId}), null);
}
}
return provider;
}
/**
* Returns the source lookup path provider for the given launch configuration.
*
* @param configuration launch configuration
* @return source lookup path provider
* @exception CoreException if unable to resolve the path provider
* @since 2.0
*/
public static IRuntimeClasspathProvider getSourceLookupPathProvider(ILaunchConfiguration configuration) throws CoreException {
String providerId = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_SOURCE_PATH_PROVIDER, (String)null);
IRuntimeClasspathProvider provider = null;
if (providerId == null) {
provider = fgDefaultSourcePathProvider;
} else {
provider = getClasspathProviders().get(providerId);
if (provider == null) {
abort(NLS.bind(LaunchingMessages.JavaRuntime_27, new String[]{providerId}), null);
}
}
return provider;
}
/**
* Returns resolved entries for the given entry in the context of the given
* launch configuration. If the entry is of kind
* <code>VARIABLE</code> or <code>CONTAINER</code>, variable and container
* resolvers are consulted. If the entry is of kind <code>PROJECT</code>,
* and the associated Java project specifies non-default output locations,
* the corresponding output locations are returned. Otherwise, the given
* entry is returned.
* <p>
* If the given entry is a variable entry, and a resolver is not registered,
* the entry itself is returned. If the given entry is a container, and a
* resolver is not registered, resolved runtime classpath entries are calculated
* from the associated container classpath entries, in the context of the project
* associated with the given launch configuration.
* </p>
* @param entry runtime classpath entry
* @param configuration launch configuration
* @return resolved runtime classpath entry
* @exception CoreException if unable to resolve
* @see IRuntimeClasspathEntryResolver
* @since 2.0
*/
public static IRuntimeClasspathEntry[] resolveRuntimeClasspathEntry(IRuntimeClasspathEntry entry, ILaunchConfiguration configuration) throws CoreException {
boolean excludeTestCode = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_EXCLUDE_TEST_CODE, false);
switch (entry.getType()) {
case IRuntimeClasspathEntry.PROJECT:
// if the project has multiple output locations, they must be returned
IResource resource = entry.getResource();
if (resource instanceof IProject) {
IProject p = (IProject)resource;
IJavaProject project = JavaCore.create(p);
if (project == null || !p.isOpen() || !project.exists()) {
return new IRuntimeClasspathEntry[0];
}
IClasspathAttribute[] attributes = entry.getClasspathEntry().getExtraAttributes();
IRuntimeClasspathEntry[] entries = resolveOutputLocations(project, entry.getClasspathProperty(), attributes, excludeTestCode);
if (entries != null) {
return entries;
}
} else {
if (isOptional(entry.getClasspathEntry())) {
return new IRuntimeClasspathEntry[] {};
}
abort(NLS.bind(LaunchingMessages.JavaRuntime_Classpath_references_non_existant_project___0__3, new String[]{entry.getPath().lastSegment()}), null);
}
break;
case IRuntimeClasspathEntry.VARIABLE:
IRuntimeClasspathEntryResolver resolver = getVariableResolver(entry.getVariableName());
if (resolver == null) {
IRuntimeClasspathEntry[] resolved = resolveVariableEntry(entry, null, false, configuration);
if (resolved != null) {
return resolved;
}
break;
}
return resolver.resolveRuntimeClasspathEntry(entry, configuration);
case IRuntimeClasspathEntry.CONTAINER:
resolver = getContainerResolver(entry.getVariableName());
if (resolver == null) {
return computeDefaultContainerEntries(entry, configuration, excludeTestCode);
}
return resolver.resolveRuntimeClasspathEntry(entry, configuration);
case IRuntimeClasspathEntry.ARCHIVE:
// verify the archive exists
String location = entry.getLocation();
if (location != null) {
File file = new File(location);
if (file.exists()) {
break;
}
}
if (isOptional(entry.getClasspathEntry())) {
return new IRuntimeClasspathEntry[] {};
}
abort(NLS.bind(LaunchingMessages.JavaRuntime_Classpath_references_non_existant_archive___0__4, new String[] { entry.getPath().toString() }), null);
case IRuntimeClasspathEntry.OTHER:
resolver = getContributedResolver(((IRuntimeClasspathEntry2)entry).getTypeId());
return resolver.resolveRuntimeClasspathEntry(entry, configuration);
default:
break;
}
return new IRuntimeClasspathEntry[] {entry};
}
private static boolean isOptional(IClasspathEntry entry) {
IClasspathAttribute[] extraAttributes = entry.getExtraAttributes();
for (int i = 0, length = extraAttributes.length; i < length; i++) {
IClasspathAttribute attribute = extraAttributes[i];
if (IClasspathAttribute.OPTIONAL.equals(attribute.getName()) && Boolean.parseBoolean(attribute.getValue())) {
return true;
}
}
return false;
}
/**
* Default resolution for a classpath variable - resolve to an archive. Only one of project/configuration can be non-null.
*
* @param entry
* the {@link IRuntimeClasspathEntry} to try and resolve
* @param project
* the project context or <code>null</code>
* @param excludeTestCode
* if true, exclude test-code (only used if project is non-null)
* @param configuration
* configuration context or <code>null</code>
* @return IRuntimeClasspathEntry[]
* @throws CoreException
* if a problem is encountered trying to resolve the given classpath entry
*/
private static IRuntimeClasspathEntry[] resolveVariableEntry(IRuntimeClasspathEntry entry, IJavaProject project, boolean excludeTestCode, ILaunchConfiguration configuration) throws CoreException {
// default resolution - an archive
IPath archPath = JavaCore.getClasspathVariable(entry.getVariableName());
if (archPath != null) {
if (entry.getPath().segmentCount() > 1) {
archPath = archPath.append(entry.getPath().removeFirstSegments(1));
}
IPath srcPath = null;
IPath srcVar = entry.getSourceAttachmentPath();
IPath srcRootPath = null;
IPath srcRootVar = entry.getSourceAttachmentRootPath();
if (archPath != null && !archPath.isEmpty()) {
if (srcVar != null && !srcVar.isEmpty()) {
srcPath = JavaCore.getClasspathVariable(srcVar.segment(0));
if (srcPath != null) {
if (srcVar.segmentCount() > 1) {
srcPath = srcPath.append(srcVar.removeFirstSegments(1));
}
if (srcRootVar != null && !srcRootVar.isEmpty()) {
srcRootPath = JavaCore.getClasspathVariable(srcRootVar.segment(0));
if (srcRootPath != null) {
if (srcRootVar.segmentCount() > 1) {
srcRootPath = srcRootPath.append(srcRootVar.removeFirstSegments(1));
}
}
}
}
}
// now resolve the archive (recursively)
IClasspathEntry cpEntry = entry.getClasspathEntry();
IClasspathEntry archEntry = JavaCore.newLibraryEntry(archPath, srcPath, srcRootPath, null, cpEntry.getExtraAttributes(), cpEntry.isExported());
IRuntimeClasspathEntry runtimeArchEntry = newRuntimeClasspathEntry(archEntry);
runtimeArchEntry.setClasspathProperty(entry.getClasspathProperty());
if (configuration == null) {
return resolveRuntimeClasspathEntry(runtimeArchEntry, project, excludeTestCode);
}
return resolveRuntimeClasspathEntry(runtimeArchEntry, configuration);
}
}
return null;
}
/**
* Returns runtime classpath entries corresponding to the output locations of the given project, or null if the project only uses the default
* output location.
*
* @param project
* the {@link IJavaProject} to resolve the output locations for
* @param classpathProperty
* the type of classpath entries to create
* @param attributes
* extra attributes of the original classpath entry
* @param excludeTestCode
* if true, output folders corresponding to test sources are excluded
*
* @return IRuntimeClasspathEntry[] or <code>null</code>
* @throws CoreException
* if output resolution encounters a problem
*/
private static IRuntimeClasspathEntry[] resolveOutputLocations(IJavaProject project, int classpathProperty, IClasspathAttribute[] attributes, boolean excludeTestCode) throws CoreException {
List<IPath> nonDefault = new ArrayList<>();
boolean defaultUsedByNonTest = false;
if (project.exists() && project.getProject().isOpen()) {
IClasspathEntry entries[] = project.getRawClasspath();
for (int i = 0; i < entries.length; i++) {
IClasspathEntry classpathEntry = entries[i];
if (classpathEntry.getEntryKind() == IClasspathEntry.CPE_SOURCE) {
IPath path = classpathEntry.getOutputLocation();
if (path != null) {
if (!(excludeTestCode && classpathEntry.isTest())) {
nonDefault.add(path);
}
} else {
if (!classpathEntry.isTest()) {
defaultUsedByNonTest = true;
}
}
}
}
}
boolean isModular = project.getOwnModuleDescription() != null;
if (nonDefault.isEmpty() && !isModular && !excludeTestCode) {
// return here only if non-modular, because patch-module might be needed otherwise
return null;
}
// add the default location if not already included
IPath def = project.getOutputLocation();
if (!excludeTestCode || defaultUsedByNonTest) {
if (!nonDefault.contains(def)) {
nonDefault.add(def);
}
}
IRuntimeClasspathEntry[] locations = new IRuntimeClasspathEntry[nonDefault.size()];
for (int i = 0; i < locations.length; i++) {
IClasspathEntry newEntry = JavaCore.newLibraryEntry(nonDefault.get(i), null, null, null, attributes, false);
locations[i] = new RuntimeClasspathEntry(newEntry);
if (isModular && !containsModuleInfo(locations[i])) {
locations[i].setClasspathProperty(IRuntimeClasspathEntry.PATCH_MODULE);
((RuntimeClasspathEntry) locations[i]).setJavaProject(project);
} else {
locations[i].setClasspathProperty(classpathProperty);
}
}
return locations;
}
private static boolean containsModuleInfo(IRuntimeClasspathEntry entry) {
return new File(entry.getLocation() + File.separator + "module-info.class").exists(); //$NON-NLS-1$
}
/**
* Returns resolved entries for the given entry in the context of the given
* Java project. If the entry is of kind
* <code>VARIABLE</code> or <code>CONTAINER</code>, variable and container
* resolvers are consulted. If the entry is of kind <code>PROJECT</code>,
* and the associated Java project specifies non-default output locations,
* the corresponding output locations are returned. Otherwise, the given
* entry is returned.
* <p>
* If the given entry is a variable entry, and a resolver is not registered,
* the entry itself is returned. If the given entry is a container, and a
* resolver is not registered, resolved runtime classpath entries are calculated
* from the associated container classpath entries, in the context of the
* given project.
* </p>
* @param entry runtime classpath entry
* @param project Java project context
* @return resolved runtime classpath entry
* @exception CoreException if unable to resolve
* @see IRuntimeClasspathEntryResolver
* @since 2.0
*/
public static IRuntimeClasspathEntry[] resolveRuntimeClasspathEntry(IRuntimeClasspathEntry entry, IJavaProject project) throws CoreException {
return resolveRuntimeClasspathEntry(entry, project, false);
}
/**
* Returns resolved entries for the given entry in the context of the given
* Java project. If the entry is of kind
* <code>VARIABLE</code> or <code>CONTAINER</code>, variable and container
* resolvers are consulted. If the entry is of kind <code>PROJECT</code>,
* and the associated Java project specifies non-default output locations,
* the corresponding output locations are returned. Otherwise, the given
* entry is returned.
* <p>
* If the given entry is a variable entry, and a resolver is not registered,
* the entry itself is returned. If the given entry is a container, and a
* resolver is not registered, resolved runtime classpath entries are calculated
* from the associated container classpath entries, in the context of the
* given project.
* </p>
* @param entry runtime classpath entry
* @param project Java project context
* @param excludeTestCode
* if true, output folders corresponding to test sources and test dependencies are excluded
* @return resolved runtime classpath entry
* @exception CoreException if unable to resolve
* @see IRuntimeClasspathEntryResolver
* @since 3.10
*/
public static IRuntimeClasspathEntry[] resolveRuntimeClasspathEntry(IRuntimeClasspathEntry entry, IJavaProject project, boolean excludeTestCode) throws CoreException {
switch (entry.getType()) {
case IRuntimeClasspathEntry.PROJECT:
// if the project has multiple output locations, they must be returned
IResource resource = entry.getResource();
if (resource instanceof IProject) {
IProject p = (IProject)resource;
IJavaProject jp = JavaCore.create(p);
if (jp != null && p.isOpen() && jp.exists()) {
IClasspathAttribute[] attributes = entry.getClasspathEntry().getExtraAttributes();
IRuntimeClasspathEntry[] entries = resolveOutputLocations(jp, entry.getClasspathProperty(), attributes, excludeTestCode);
if (entries != null) {
return entries;
}
} else {
return new IRuntimeClasspathEntry[0];
}
}
break;
case IRuntimeClasspathEntry.VARIABLE:
IRuntimeClasspathEntryResolver resolver = getVariableResolver(entry.getVariableName());
if (resolver == null) {
IRuntimeClasspathEntry[] resolved = resolveVariableEntry(entry, project, excludeTestCode, null);
if (resolved != null) {
return resolved;
}
break;
}
return resolver.resolveRuntimeClasspathEntry(entry, project, excludeTestCode);
case IRuntimeClasspathEntry.CONTAINER:
resolver = getContainerResolver(entry.getVariableName());
if (resolver == null) {
return computeDefaultContainerEntries(entry, project, excludeTestCode);
}
return resolver.resolveRuntimeClasspathEntry(entry, project, excludeTestCode);
case IRuntimeClasspathEntry.OTHER:
resolver = getContributedResolver(((IRuntimeClasspathEntry2)entry).getTypeId());
return resolver.resolveRuntimeClasspathEntry(entry, project, excludeTestCode);
default:
break;
}
return new IRuntimeClasspathEntry[] {entry};
}
/**
* Performs default resolution for a container entry. Delegates to the Java model.
*
* @param entry
* the {@link IRuntimeClasspathEntry} to compute default container entries for
* @param config
* the backing {@link ILaunchConfiguration}
* @param excludeTestCode
* if true, output folders corresponding to test sources and test dependencies are excluded
* @return the complete listing of default container entries or an empty list, never <code>null</code>
* @throws CoreException
* if the computation encounters a problem
*/
private static IRuntimeClasspathEntry[] computeDefaultContainerEntries(IRuntimeClasspathEntry entry, ILaunchConfiguration config, boolean excludeTestCode) throws CoreException {
IJavaProject project = entry.getJavaProject();
if (project == null) {
project = getJavaProject(config);
}
return computeDefaultContainerEntries(entry, project, excludeTestCode);
}
/**
* Performs default resolution for a container entry. Delegates to the Java model.
*
* @param entry
* the {@link IRuntimeClasspathEntry} to compute default container entries for
* @param project
* the backing {@link IJavaProject}
* @param excludeTestCode
* if true, output folders corresponding to test sources and test dependencies are excluded
* @return the complete listing of default container entries or an empty list, never <code>null</code>
* @throws CoreException
* if the computation encounters a problem
*/
private static IRuntimeClasspathEntry[] computeDefaultContainerEntries(IRuntimeClasspathEntry entry, IJavaProject project, boolean excludeTestCode) throws CoreException {
if (project == null || entry == null) {
// cannot resolve without entry or project context
return new IRuntimeClasspathEntry[0];
}
IClasspathContainer container = JavaCore.getClasspathContainer(entry.getPath(), project);
if (container == null) {
abort(NLS.bind(LaunchingMessages.JavaRuntime_Could_not_resolve_classpath_container___0__1, new String[]{entry.getPath().toString()}), null);
// execution will not reach here - exception will be thrown
return null;
}
IClasspathEntry[] cpes = container.getClasspathEntries();
int property = -1;
switch (container.getKind()) {
case IClasspathContainer.K_APPLICATION:
switch (entry.getClasspathProperty()) {
case IRuntimeClasspathEntry.MODULE_PATH:
property = IRuntimeClasspathEntry.MODULE_PATH;
break;
case IRuntimeClasspathEntry.CLASS_PATH:
property = IRuntimeClasspathEntry.CLASS_PATH;
break;
default:
property = IRuntimeClasspathEntry.USER_CLASSES;
break;
}
break;
case IClasspathContainer.K_DEFAULT_SYSTEM:
property = IRuntimeClasspathEntry.STANDARD_CLASSES;
break;
case IClasspathContainer.K_SYSTEM:
property = IRuntimeClasspathEntry.BOOTSTRAP_CLASSES;
break;
}
List<IRuntimeClasspathEntry> resolved = new ArrayList<>(cpes.length);
List<IJavaProject> projects = fgProjects.get();
Integer count = fgEntryCount.get();
if (projects == null) {
projects = new ArrayList<>();
fgProjects.set(projects);
count = Integer.valueOf(0);
}
int intCount = count.intValue();
intCount++;
fgEntryCount.set(Integer.valueOf(intCount));
try {
for (int i = 0; i < cpes.length; i++) {
IClasspathEntry cpe = cpes[i];
if (cpe.getEntryKind() == IClasspathEntry.CPE_PROJECT) {
IProject p = ResourcesPlugin.getWorkspace().getRoot().getProject(cpe.getPath().segment(0));
IJavaProject jp = JavaCore.create(p);
if (!projects.contains(jp)) {
projects.add(jp);
IRuntimeClasspathEntry classpath = newDefaultProjectClasspathEntry(jp);
IRuntimeClasspathEntry[] entries = resolveRuntimeClasspathEntry(classpath, jp, excludeTestCode);
for (int j = 0; j < entries.length; j++) {
IRuntimeClasspathEntry e = entries[j];
if (!resolved.contains(e)) {
resolved.add(entries[j]);
}
}
}
} else {
IRuntimeClasspathEntry e = newRuntimeClasspathEntry(cpe);
if (!resolved.contains(e)) {
resolved.add(e);
}
}
}
} finally {
intCount--;
if (intCount == 0) {
fgProjects.set(null);
fgEntryCount.set(null);
} else {
fgEntryCount.set(Integer.valueOf(intCount));
}
}
// set classpath property
IRuntimeClasspathEntry[] result = new IRuntimeClasspathEntry[resolved.size()];
for (int i = 0; i < result.length; i++) {
result[i] = resolved.get(i);
result[i].setClasspathProperty(property);
}
return result;
}
/**
* Computes and returns the unresolved class path for the given launch configuration.
* Variable and container entries are unresolved.
*
* @param configuration launch configuration
* @return unresolved runtime classpath entries
* @exception CoreException if unable to compute the classpath
* @since 2.0
*/
public static IRuntimeClasspathEntry[] computeUnresolvedRuntimeClasspath(ILaunchConfiguration configuration) throws CoreException {
return getClasspathProvider(configuration).computeUnresolvedClasspath(configuration);
}
/**
* Resolves the given classpath, returning the resolved classpath
* in the context of the given launch configuration.
*
* @param entries unresolved classpath
* @param configuration launch configuration
* @return resolved runtime classpath entries
* @exception CoreException if unable to compute the classpath
* @since 2.0
*/
public static IRuntimeClasspathEntry[] resolveRuntimeClasspath(IRuntimeClasspathEntry[] entries, ILaunchConfiguration configuration) throws CoreException {
if (isModularConfiguration(configuration)) {
IRuntimeClasspathEntry[] entries1 = getClasspathProvider(configuration).resolveClasspath(entries, configuration);
ArrayList<IRuntimeClasspathEntry> entries2 = new ArrayList<>(entries1.length);
for (IRuntimeClasspathEntry entry : entries1) {
switch (entry.getClasspathEntry().getEntryKind()) {
case IClasspathEntry.CPE_LIBRARY:
try {
IJavaProject project = JavaRuntime.getJavaProject(configuration);
if (project == null) {
entries2.add(entry);
}
else {
IPackageFragmentRoot root = project.findPackageFragmentRoot(entry.getPath());
if (root == null && !entry.getPath().lastSegment().contains("jrt-fs.jar")) { //$NON-NLS-1$
entries2.add(entry);
} else if (root != null && !root.getRawClasspathEntry().getPath().segment(0).contains("JRE_CONTAINER")) { //$NON-NLS-1$
entries2.add(entry);
}
}
}
catch (CoreException ex) {
// Not a java project
if (!entry.getPath().lastSegment().contains("jrt-fs.jar")) { //$NON-NLS-1$
entries2.add(entry);
}
}
break;
default:
entries2.add(entry);
}
}
return entries2.toArray(new IRuntimeClasspathEntry[entries2.size()]);
}
return getClasspathProvider(configuration).resolveClasspath(entries, configuration);
}
/**
* Return the <code>IJavaProject</code> referenced in the specified configuration or
* <code>null</code> if none. This method looks for the existence of the {@link IJavaLaunchConfigurationConstants#ATTR_PROJECT_NAME}
* attribute in the given configuration.
*
* @param configuration the {@link ILaunchConfiguration} to try and compute the {@link IJavaProject} from
* @return the referenced {@link IJavaProject} or <code>null</code>
* @exception CoreException if the referenced Java project does not exist
* @since 2.0
*/
public static IJavaProject getJavaProject(ILaunchConfiguration configuration) throws CoreException {
String projectName = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_PROJECT_NAME, (String)null);
if ((projectName == null) || (projectName.trim().length() < 1)) {
return null;
}
IJavaProject javaProject = getJavaModel().getJavaProject(projectName);
if (javaProject != null && javaProject.getProject().exists() && !javaProject.getProject().isOpen()) {
abort(NLS.bind(LaunchingMessages.JavaRuntime_28, new String[] {configuration.getName(), projectName}), IJavaLaunchConfigurationConstants.ERR_PROJECT_CLOSED, null);
}
if ((javaProject == null) || !javaProject.exists()) {
abort(NLS.bind(LaunchingMessages.JavaRuntime_Launch_configuration__0__references_non_existing_project__1___1, new String[] {configuration.getName(), projectName}), IJavaLaunchConfigurationConstants.ERR_NOT_A_JAVA_PROJECT, null);
}
return javaProject;
}
/**
* Convenience method to get the java model.
* @return the {@link IJavaModel} made against the {@link IWorkspaceRoot}
*/
private static IJavaModel getJavaModel() {
return JavaCore.create(ResourcesPlugin.getWorkspace().getRoot());
}
/**
* Returns the VM install for the given launch configuration.
* The VM install is determined in the following prioritized way:
* <ol>
* <li>The VM install is explicitly specified on the launch configuration
* via the <code>ATTR_JRE_CONTAINER_PATH</code> attribute (since 3.2).</li>
* <li>The VM install is explicitly specified on the launch configuration
* via the <code>ATTR_VM_INSTALL_TYPE</code> and <code>ATTR_VM_INSTALL_ID</code>
* attributes.</li>
* <li>If no explicit VM install is specified, the VM install associated with
* the launch configuration's project is returned.</li>
* <li>If no project is specified, or the project does not specify a custom
* VM install, the workspace default VM install is returned.</li>
* </ol>
*
* @param configuration launch configuration
* @return VM install
* @exception CoreException if unable to compute a VM install
* @since 2.0
*/
public static IVMInstall computeVMInstall(ILaunchConfiguration configuration) throws CoreException {
String jreAttr = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_JRE_CONTAINER_PATH, (String)null);
if (jreAttr == null) {
@SuppressWarnings("deprecation")
String type = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_VM_INSTALL_TYPE, (String)null);
if (type == null) {
IJavaProject proj = getJavaProject(configuration);
if (proj != null) {
IVMInstall vm = getVMInstall(proj);
if (vm != null) {
return vm;
}
}
} else {
@SuppressWarnings("deprecation")
String name = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_VM_INSTALL_NAME, (String)null);
return resolveVM(type, name, configuration);
}
} else {
IPath jrePath = Path.fromPortableString(jreAttr);
IClasspathEntry entry = JavaCore.newContainerEntry(jrePath);
IRuntimeClasspathEntryResolver2 resolver = getVariableResolver(jrePath.segment(0));
if (resolver != null) {
return resolver.resolveVMInstall(entry);
}
resolver = getContainerResolver(jrePath.segment(0));
if (resolver != null) {
return resolver.resolveVMInstall(entry);
}
}
return getDefaultVMInstall();
}
/**
* Returns the VM of the given type with the specified name.
*
* @param type VM type identifier
* @param name VM name
* @param configuration the backing {@link ILaunchConfiguration}
* @return VM install
* @exception CoreException if unable to resolve
* @since 3.2
*/
private static IVMInstall resolveVM(String type, String name, ILaunchConfiguration configuration) throws CoreException {
IVMInstallType vt = getVMInstallType(type);
if (vt == null) {
// error type does not exist
abort(NLS.bind(LaunchingMessages.JavaRuntime_Specified_VM_install_type_does_not_exist___0__2, new String[] {type}), null);
}
IVMInstall vm = null;
// look for a name
if (name == null) {
// error - type specified without a specific install (could be an old config that specified a VM ID)
// log the error, but choose the default VM.
LaunchingPlugin.log(new Status(IStatus.WARNING, LaunchingPlugin.getUniqueIdentifier(), IJavaLaunchConfigurationConstants.ERR_UNSPECIFIED_VM_INSTALL, NLS.bind("VM not fully specified in launch configuration {0} - missing VM name. Reverting to default VM.", new String[] {configuration.getName()}), null)); //$NON-NLS-1$
return getDefaultVMInstall();
}
vm = vt.findVMInstallByName(name);
if (vm == null) {
// error - install not found
abort(NLS.bind(LaunchingMessages.JavaRuntime_Specified_VM_install_not_found__type__0___name__1__2, new String[] {vt.getName(), name}), null);
} else {
return vm;
}
// won't reach here
return null;
}
/**
* Throws a core exception with an internal error status.
*
* @param message the status message
* @param exception lower level exception associated with the
* error, or <code>null</code> if none
* @throws CoreException a {@link CoreException} wrapper
*/
private static void abort(String message, Throwable exception) throws CoreException {
abort(message, IJavaLaunchConfigurationConstants.ERR_INTERNAL_ERROR, exception);
}
/**
* Throws a core exception with an internal error status.
*
* @param message the status message
* @param code status code
* @param exception lower level exception associated with the
*
* error, or <code>null</code> if none
* @throws CoreException a {@link CoreException} wrapper
*/
private static void abort(String message, int code, Throwable exception) throws CoreException {
throw new CoreException(new Status(IStatus.ERROR, LaunchingPlugin.getUniqueIdentifier(), code, message, exception));
}
/**
* Computes the default application classpath entries for the given
* project.
*
* @param jproject The project to compute the classpath for
* @return The computed classpath. May be empty, but not null.
* @throws CoreException if unable to compute the default classpath
*/
public static String[] computeDefaultRuntimeClassPath(IJavaProject jproject) throws CoreException {
IRuntimeClasspathEntry[] unresolved = computeUnresolvedRuntimeClasspath(jproject);
// 1. remove bootpath entries
// 2. resolve & translate to local file system paths
List<String> resolved = new ArrayList<>(unresolved.length);
for (int i = 0; i < unresolved.length; i++) {
IRuntimeClasspathEntry entry = unresolved[i];
if (entry.getClasspathProperty() == IRuntimeClasspathEntry.USER_CLASSES) {
IRuntimeClasspathEntry[] entries = resolveRuntimeClasspathEntry(entry, jproject);
for (int j = 0; j < entries.length; j++) {
String location = entries[j].getLocation();
if (location != null) {
resolved.add(location);
}
}
}
}
return resolved.toArray(new String[resolved.size()]);
}
/**
* Saves the VM configuration information to the preferences. This includes the following information:
* <ul>
* <li>The list of all defined IVMInstall instances.</li>
* <li>The default VM</li>
* </ul>
* This state will be read again upon first access to VM configuration information.
*
* @throws CoreException
* if trying to save the current state of VMs encounters a problem
*/
public static void saveVMConfiguration() throws CoreException {
if (fgVMTypes == null) {
// if the VM types have not been instantiated, there can be no changes.
return;
}
String xml = getVMsAsXML();
InstanceScope.INSTANCE.getNode(LaunchingPlugin.ID_PLUGIN).put(PREF_VM_XML, xml);
savePreferences();
}
/**
* Returns the listing of currently installed VMs as a single XML file
* @return an XML representation of all of the currently installed VMs
* @throws CoreException if trying to compute the XML for the VM state encounters a problem
*/
private static String getVMsAsXML() throws CoreException {
VMDefinitionsContainer container = new VMDefinitionsContainer();
container.setDefaultVMInstallCompositeID(getDefaultVMId());
container.setDefaultVMInstallConnectorTypeID(getDefaultVMConnectorId());
IVMInstallType[] vmTypes = getVMInstallTypes();
IVMInstall[] vms = null;
for (int i = 0; i < vmTypes.length; ++i) {
vms = vmTypes[i].getVMInstalls();
for (int j = 0; j < vms.length; j++) {
container.addVM(vms[j]);
}
}
return container.getAsXML();
}
/**
* This method loads installed JREs based an existing user preference
* or old VM configurations file. The VMs found in the preference
* or VM configurations file are added to the given VM definitions container.
*
* Returns whether the user preferences should be set - i.e. if it was
* not already set when initialized.
* @param vmDefs the container to add persisted VM information to
* @return whether the user preferences should be set
* @throws IOException if reading the {@link #PREF_VM_XML} preference stream encounters a problem
*/
private static boolean addPersistedVMs(VMDefinitionsContainer vmDefs) throws IOException {
// Try retrieving the VM preferences from the preference store
String vmXMLString = InstanceScope.INSTANCE.getNode(LaunchingPlugin.ID_PLUGIN).get(PREF_VM_XML, ""); //$NON-NLS-1$
// If the preference was found, load VMs from it into memory
if (vmXMLString.length() > 0) {
try {
ByteArrayInputStream inputStream = new ByteArrayInputStream(vmXMLString.getBytes("UTF8")); //$NON-NLS-1$
VMDefinitionsContainer.parseXMLIntoContainer(inputStream, vmDefs);
return false;
} catch (IOException ioe) {
LaunchingPlugin.log(ioe);
}
} else {
// Otherwise, look for the old file that previously held the VM definitions
IPath stateLocation= LaunchingPlugin.getDefault().getStateLocation();
IPath stateFile= stateLocation.append("vmConfiguration.xml"); //$NON-NLS-1$
File file = new File(stateFile.toOSString());
if (file.exists()) {
// If file exists, load VM definitions from it into memory and write the definitions to
// the preference store WITHOUT triggering any processing of the new value
InputStream fileInputStream = new BufferedInputStream(new FileInputStream(file));
VMDefinitionsContainer.parseXMLIntoContainer(fileInputStream, vmDefs);
}
}
return true;
}
/**
* Loads contributed VM installs
* @param vmDefs the container to add contributed VM install information to
* @since 3.2
*/
private static void addVMExtensions(VMDefinitionsContainer vmDefs) {
IExtensionPoint extensionPoint = Platform.getExtensionRegistry().getExtensionPoint(LaunchingPlugin.ID_PLUGIN, JavaRuntime.EXTENSION_POINT_VM_INSTALLS);
IConfigurationElement[] configs= extensionPoint.getConfigurationElements();
for (int i = 0; i < configs.length; i++) {
IConfigurationElement element = configs[i];
try {
if ("vmInstall".equals(element.getName())) { //$NON-NLS-1$
String vmType = element.getAttribute("vmInstallType"); //$NON-NLS-1$
if (vmType == null) {
abort(NLS.bind("Missing required vmInstallType attribute for vmInstall contributed by {0}", //$NON-NLS-1$
new String[]{element.getContributor().getName()}), null);
}
String id = element.getAttribute("id"); //$NON-NLS-1$
if (id == null) {
abort(NLS.bind("Missing required id attribute for vmInstall contributed by {0}", //$NON-NLS-1$
new String[]{element.getContributor().getName()}), null);
}
IVMInstallType installType = getVMInstallType(vmType);
if (installType == null) {
abort(NLS.bind("vmInstall {0} contributed by {1} references undefined VM install type {2}", //$NON-NLS-1$
new String[]{id, element.getContributor().getName(), vmType}), null);
}
IVMInstall install = installType.findVMInstall(id);
if (install == null) {
// only load/create if first time we've seen this VM install
String name = element.getAttribute("name"); //$NON-NLS-1$
if (name == null) {
abort(NLS.bind("vmInstall {0} contributed by {1} missing required attribute name", //$NON-NLS-1$
new String[]{id, element.getContributor().getName()}), null);
}
String home = element.getAttribute("home"); //$NON-NLS-1$
if (home == null) {
abort(NLS.bind("vmInstall {0} contributed by {1} missing required attribute home", //$NON-NLS-1$
new String[]{id, element.getContributor().getName()}), null);
}
String javadoc = element.getAttribute("javadocURL"); //$NON-NLS-1$
String vmArgs = element.getAttribute("vmArgs"); //$NON-NLS-1$
VMStandin standin = null;
home = substitute(home);
File homeDir = new File(home);
if (homeDir.exists()) {
try {
// adjust for relative path names
home = homeDir.getCanonicalPath();
homeDir = new File(home);
} catch (IOException e) {
}
}
if (EEVMType.ID_EE_VM_TYPE.equals(installType.getId())) {
standin = createVMFromDefinitionFile(homeDir, name, id);
} else {
standin = new VMStandin(installType, id);
standin.setName(name);
IStatus status = installType.validateInstallLocation(homeDir);
if (!status.isOK()) {
abort(NLS.bind("Illegal install location {0} for vmInstall {1} contributed by {2}: {3}", //$NON-NLS-1$
new String[]{home, id, element.getContributor().getName(), status.getMessage()}), null);
}
standin.setInstallLocation(homeDir);
if (javadoc != null) {
try {
standin.setJavadocLocation(new URL(javadoc));
} catch (MalformedURLException e) {
abort(NLS.bind("Illegal javadocURL attribute for vmInstall {0} contributed by {1}", //$NON-NLS-1$
new String[]{id, element.getContributor().getName()}), e);
}
}
// allow default arguments to be specified by VM install type if no explicit arguments
if (vmArgs == null) {
if (installType instanceof AbstractVMInstallType) {
AbstractVMInstallType type = (AbstractVMInstallType) installType;
vmArgs = type.getDefaultVMArguments(homeDir);
}
}
if (vmArgs != null) {
standin.setVMArgs(vmArgs);
}
IConfigurationElement[] libraries = element.getChildren("library"); //$NON-NLS-1$
LibraryLocation[] locations = null;
if (libraries.length > 0) {
locations = new LibraryLocation[libraries.length];
for (int j = 0; j < libraries.length; j++) {
IConfigurationElement library = libraries[j];
String libPathStr = library.getAttribute("path"); //$NON-NLS-1$
if (libPathStr == null) {
abort(NLS.bind("library for vmInstall {0} contributed by {1} missing required attribute libPath", //$NON-NLS-1$
new String[]{id, element.getContributor().getName()}), null);
}
String sourcePathStr = library.getAttribute("sourcePath"); //$NON-NLS-1$
String packageRootStr = library.getAttribute("packageRootPath"); //$NON-NLS-1$
String javadocOverride = library.getAttribute("javadocURL"); //$NON-NLS-1$
URL url = null;
if (javadocOverride != null) {
try {
url = new URL(javadocOverride);
} catch (MalformedURLException e) {
abort(NLS.bind("Illegal javadocURL attribute specified for library {0} for vmInstall {1} contributed by {2}" //$NON-NLS-1$
,new String[]{libPathStr, id, element.getContributor().getName()}), e);
}
}
IPath homePath = new Path(home);
IPath libPath = homePath.append(substitute(libPathStr));
IPath sourcePath = Path.EMPTY;
if (sourcePathStr != null) {
sourcePath = homePath.append(substitute(sourcePathStr));
}
IPath packageRootPath = Path.EMPTY;
if (packageRootStr != null) {
packageRootPath = new Path(substitute(packageRootStr));
}
locations[j] = new LibraryLocation(libPath, sourcePath, packageRootPath, url);
}
}
standin.setLibraryLocations(locations);
}
// in case the contributed JRE attributes changed, remove it first, then add
vmDefs.removeVM(standin);
vmDefs.addVM(standin);
}
fgContributedVMs.add(id);
} else {
abort(NLS.bind("Illegal element {0} in vmInstalls extension contributed by {1}", //$NON-NLS-1$
new String[]{element.getName(), element.getContributor().getName()}), null);
}
} catch (CoreException e) {
LaunchingPlugin.log(e);
}
}
}
/**
* Performs string substitution on the given expression.
*
* @param expression the expression to evaluate
* @return expression after string substitution
* @throws CoreException if the substitution encounters a problem
* @since 3.2
*/
private static String substitute(String expression) throws CoreException {
return VariablesPlugin.getDefault().getStringVariableManager().performStringSubstitution(expression);
}
/**
* Returns whether the VM install with the specified id was contributed via
* the vmInstalls extension point.
*
* @param id VM id
* @return whether the VM install was contributed via extension point
* @since 3.2
*/
public static boolean isContributedVMInstall(String id) {
getVMInstallTypes(); // ensure VMs are initialized
return fgContributedVMs.contains(id);
}
/**
* Evaluates library locations for a IVMInstall. If no library locations are set on the install, a default
* location is evaluated and checked if it exists.
* @param vm the {@link IVMInstall} to compute locations for
* @return library locations with paths that exist or are empty
* @since 2.0
*/
public static LibraryLocation[] getLibraryLocations(IVMInstall vm) {
IPath[] libraryPaths;
IPath[] sourcePaths;
IPath[] sourceRootPaths;
IPath[] annotationPaths;
URL[] javadocLocations;
URL[] indexes;
LibraryLocation[] locations= vm.getLibraryLocations();
if (locations == null) {
URL defJavaDocLocation = vm.getJavadocLocation();
File installLocation = vm.getInstallLocation();
if (installLocation == null) {
return new LibraryLocation[0];
}
LibraryLocation[] dflts= vm.getVMInstallType().getDefaultLibraryLocations(installLocation);
libraryPaths = new IPath[dflts.length];
sourcePaths = new IPath[dflts.length];
sourceRootPaths = new IPath[dflts.length];
javadocLocations= new URL[dflts.length];
indexes = new URL[dflts.length];
annotationPaths = new IPath[dflts.length];
for (int i = 0; i < dflts.length; i++) {
libraryPaths[i]= dflts[i].getSystemLibraryPath();
if (defJavaDocLocation == null) {
javadocLocations[i]= dflts[i].getJavadocLocation();
} else {
javadocLocations[i]= defJavaDocLocation;
}
indexes[i] = dflts[i].getIndexLocation();
if (!libraryPaths[i].toFile().isFile()) {
libraryPaths[i]= Path.EMPTY;
}
annotationPaths[i] = Path.EMPTY;
sourcePaths[i]= dflts[i].getSystemLibrarySourcePath();
if (sourcePaths[i].toFile().isFile()) {
sourceRootPaths[i]= dflts[i].getPackageRootPath();
} else {
sourcePaths[i]= Path.EMPTY;
sourceRootPaths[i]= Path.EMPTY;
}
}
} else {
libraryPaths = new IPath[locations.length];
sourcePaths = new IPath[locations.length];
sourceRootPaths = new IPath[locations.length];
javadocLocations= new URL[locations.length];
indexes = new URL[locations.length];
annotationPaths = new IPath[locations.length];
for (int i = 0; i < locations.length; i++) {
libraryPaths[i]= locations[i].getSystemLibraryPath();
sourcePaths[i]= locations[i].getSystemLibrarySourcePath();
sourceRootPaths[i]= locations[i].getPackageRootPath();
javadocLocations[i]= locations[i].getJavadocLocation();
annotationPaths[i] = locations[i].getExternalAnnotationsPath();
indexes[i] = locations[i].getIndexLocation();
}
}
locations = new LibraryLocation[sourcePaths.length];
for (int i = 0; i < sourcePaths.length; i++) {
locations[i] = new LibraryLocation(libraryPaths[i], sourcePaths[i], sourceRootPaths[i], javadocLocations[i], indexes[i], annotationPaths[i]);
}
return locations;
}
/**
* Detect the VM that Eclipse is running on.
*
* @return a VM stand-in representing the VM that Eclipse is running on, or
* <code>null</code> if unable to detect the runtime VM
*/
private static VMStandin detectEclipseRuntime() {
// Try to detect a VM for each declared VM type
IVMInstallType[] vmTypes= getVMInstallTypes();
// If we are running from an EE file, setup the VM from it
for (int i = 0; i < vmTypes.length; i++) {
if (vmTypes[i] instanceof EEVMType){
String eeFileName = System.getProperty("ee.filename"); //$NON-NLS-1$
if (eeFileName != null){
File vmFile = new File(eeFileName);
if (vmFile.isDirectory()){
vmFile = new File(vmFile, "default.ee"); //$NON-NLS-1$
}
if (vmFile.isFile()){
// Make sure the VM id is unique
long unique = System.currentTimeMillis();
while (vmTypes[i].findVMInstall(String.valueOf(unique)) != null) {
unique++;
}
// Create a stand-in for the detected VM and add it to the result collector
String vmID = String.valueOf(unique);
try{
return createVMFromDefinitionFile(vmFile, "", vmID); //$NON-NLS-1$
} catch (CoreException e){
// The file was not a valid EE file, continue the detection process
}
}
}
}
}
// Try to create a VM install using the install location
for (int i = 0; i < vmTypes.length; i++) {
File detectedLocation= vmTypes[i].detectInstallLocation();
if (detectedLocation != null) {
// Make sure the VM id is unique
long unique = System.currentTimeMillis();
IVMInstallType vmType = vmTypes[i];
while (vmType.findVMInstall(String.valueOf(unique)) != null) {
unique++;
}
// Create a stand-in for the detected VM and add it to the result collector
String vmID = String.valueOf(unique);
VMStandin detectedVMStandin = new VMStandin(vmType, vmID);
// Java 9 and above needs the vmInstall location till jre
File pluginDir = new File(detectedLocation, "plugins"); //$NON-NLS-1$
File featuresDir = new File(detectedLocation, "features"); //$NON-NLS-1$
if (pluginDir.exists() && featuresDir.exists()) {
if (isJREVersionAbove8(vmType, detectedLocation)) {
detectedLocation = new File(detectedLocation, "jre"); //$NON-NLS-1$
}
}
detectedVMStandin.setInstallLocation(detectedLocation);
detectedVMStandin.setName(generateDetectedVMName(detectedVMStandin));
if (vmType instanceof AbstractVMInstallType) {
AbstractVMInstallType abs = (AbstractVMInstallType)vmType;
URL url = abs.getDefaultJavadocLocation(detectedLocation);
detectedVMStandin.setJavadocLocation(url);
String arguments = abs.getDefaultVMArguments(detectedLocation);
if (arguments != null) {
detectedVMStandin.setVMArgs(arguments);
}
}
return detectedVMStandin;
}
}
return null;
}
private static boolean isJREVersionAbove8(IVMInstallType vmType, File installLocation) {
LibraryLocation[] locations = vmType.getDefaultLibraryLocations(installLocation);
boolean exist = true;
for (int i = 0; i < locations.length; i++) {
exist = exist && new File(locations[i].getSystemLibraryPath().toOSString()).exists();
}
if (exist) {
return false;
}
exist = true;
LibraryLocation[] newLocations = vmType.getDefaultLibraryLocations(new File(installLocation, "jre")); //$NON-NLS-1$
for (int i = 0; i < newLocations.length; i++) {
exist = exist && new File(newLocations[i].getSystemLibraryPath().toOSString()).exists();
}
return exist;
}
/**
* Returns whether the specified option is the same in the given
* map and preference store.
*
* <p>
* Notes:
* <ul>
* <li>Returns <code>false</code> if the option is only contained in one map</li>
* <li>Returns <code>true</code> if the option is not contained in either map</li>
* </ul>
* </p>
*
* @param optionName name of option to test
* @param options map of options
* @param prefStore preferences node
* @return whether the options are the same in both maps
*/
private static boolean equals(String optionName, Map<?, ?> options, org.osgi.service.prefs.Preferences prefStore) {
String dummy= new String();
String prefValue= prefStore.get(optionName, dummy);
if (prefValue != null && prefValue != dummy) {
return options.containsKey(optionName) &&
equals(prefValue, options.get(optionName));
}
return !options.containsKey(optionName);
}
/**
* Returns whether the objects are equal or both <code>null</code>
*
* @param o1 an object
* @param o2 an object
* @return whether the objects are equal or both <code>null</code>
*/
private static boolean equals(Object o1, Object o2) {
if (o1 == null) {
return o2 == null;
}
return o1.equals(o2);
}
/**
* Make the name of a detected VM stand out.
* @param vm the VM to generate a name for
* @return the new name or <code>JRE</code>
*/
private static String generateDetectedVMName(IVMInstall vm) {
String name = vm.getInstallLocation().getName();
name = name.trim();
if (name.length() == 0) {
name = LaunchingMessages.JavaRuntime_25;
}
return name;
}
/**
* Creates and returns a classpath entry describing
* the JRE_LIB classpath variable.
*
* @return a new IClasspathEntry that describes the JRE_LIB classpath variable
*/
public static IClasspathEntry getJREVariableEntry() {
return JavaCore.newVariableEntry(
new Path(JRELIB_VARIABLE),
new Path(JRESRC_VARIABLE),
new Path(JRESRCROOT_VARIABLE)
);
}
/**
* Creates and returns a classpath entry describing
* the default JRE container entry.
*
* @return a new IClasspathEntry that describes the default JRE container entry
* @since 2.0
*/
public static IClasspathEntry getDefaultJREContainerEntry() {
return JavaCore.newContainerEntry(newDefaultJREContainerPath());
}
/**
* Returns a path for the JRE classpath container identifying the
* default VM install.
*
* @return classpath container path
* @since 3.2
*/
public static IPath newDefaultJREContainerPath() {
return new Path(JRE_CONTAINER);
}
/**
* Returns a path for the JRE classpath container identifying the
* specified VM install by type and name.
*
* @param vm VM install
* @return classpath container path
* @since 3.2
*/
public static IPath newJREContainerPath(IVMInstall vm) {
return newJREContainerPath(vm.getVMInstallType().getId(), vm.getName());
}
/**
* Returns a path for the JRE classpath container identifying the
* specified VM install by type and name.
*
* @param typeId VM install type identifier
* @param name VM install name
* @return classpath container path
* @since 3.2
*/
public static IPath newJREContainerPath(String typeId, String name) {
IPath path = newDefaultJREContainerPath();
path = path.append(typeId);
path = path.append(name);
return path;
}
/**
* Returns a path for the JRE classpath container identifying the
* specified execution environment.
*
* @param environment execution environment
* @return classpath container path
* @since 3.2
*/
public static IPath newJREContainerPath(IExecutionEnvironment environment) {
IPath path = newDefaultJREContainerPath();
path = path.append(StandardVMType.ID_STANDARD_VM_TYPE);
path = path.append(JREContainerInitializer.encodeEnvironmentId(environment.getId()));
return path;
}
/**
* Returns the JRE referenced by the specified JRE classpath container
* path or <code>null</code> if none.
*
* @param jreContainerPath the path to the container to try and resolve the {@link IVMInstall} from
* @return JRE referenced by the specified JRE classpath container
* path or <code>null</code>
* @since 3.2
*/
public static IVMInstall getVMInstall(IPath jreContainerPath) {
return JREContainerInitializer.resolveVM(jreContainerPath);
}
/**
* Returns the identifier of the VM install type referenced by the
* given JRE classpath container path, or <code>null</code> if none.
*
* @param jreContainerPath the path to the container to try and resolve the {@link IVMInstallType} id from
* @return VM install type identifier or <code>null</code>
* @since 3.2
*/
public static String getVMInstallTypeId(IPath jreContainerPath) {
if (JREContainerInitializer.isExecutionEnvironment(jreContainerPath)) {
return null;
}
return JREContainerInitializer.getVMTypeId(jreContainerPath);
}
/**
* Returns the name of the VM install referenced by the
* given JRE classpath container path, or <code>null</code> if none.
*
* @param jreContainerPath the path to the container to try an resolve the {@link IVMInstall} name from
* @return VM name or <code>null</code>
* @since 3.2
*/
public static String getVMInstallName(IPath jreContainerPath) {
if (JREContainerInitializer.isExecutionEnvironment(jreContainerPath)) {
return null;
}
return JREContainerInitializer.getVMName(jreContainerPath);
}
/**
* Returns the execution environment identifier in the following JRE
* classpath container path, or <code>null</code> if none.
*
* @param jreContainerPath classpath container path
* @return execution environment identifier or <code>null</code>
* @since 3.2
*/
public static String getExecutionEnvironmentId(IPath jreContainerPath) {
return JREContainerInitializer.getExecutionEnvironmentId(jreContainerPath);
}
/**
* Returns a runtime classpath entry identifying the JRE to use when launching the specified
* configuration or <code>null</code> if none is specified. The entry returned represents a
* either a classpath variable or classpath container that resolves to a JRE.
* <p>
* The entry is resolved as follows:
* <ol>
* <li>If the <code>ATTR_JRE_CONTAINER_PATH</code> is present, it is used to create
* a classpath container referring to a JRE.</li>
* <li>Next, if the <code>ATTR_VM_INSTALL_TYPE</code> and <code>ATTR_VM_INSTALL_NAME</code>
* attributes are present, they are used to create a classpath container.</li>
* <li>When none of the above attributes are specified, a default entry is
* created which refers to the JRE referenced by the build path of the configuration's
* associated Java project. This could be a classpath variable or classpath container.</li>
* <li>When there is no Java project associated with a configuration, the workspace
* default JRE is used to create a container path.</li>
* </ol>
* @param configuration the backing {@link ILaunchConfiguration}
* @return classpath container path identifying a JRE or <code>null</code>
* @exception org.eclipse.core.runtime.CoreException if an exception occurs retrieving
* attributes from the specified launch configuration
* @since 3.2
*/
public static IRuntimeClasspathEntry computeJREEntry(ILaunchConfiguration configuration) throws CoreException {
String jreAttr = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_JRE_CONTAINER_PATH, (String)null);
IPath containerPath = null;
if (jreAttr == null) {
@SuppressWarnings("deprecation")
String type = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_VM_INSTALL_TYPE, (String)null);
if (type == null) {
// default JRE for the launch configuration
IJavaProject proj = getJavaProject(configuration);
if (proj == null) {
containerPath = newDefaultJREContainerPath();
} else {
if (isModularConfiguration(configuration)) {
return computeModularJREEntry(proj);
}
return computeJREEntry(proj);
}
} else {
@SuppressWarnings("deprecation")
String name = configuration.getAttribute(IJavaLaunchConfigurationConstants.ATTR_VM_INSTALL_NAME, (String)null);
if (name != null) {
containerPath = newDefaultJREContainerPath().append(type).append(name);
}
}
} else {
containerPath = Path.fromPortableString(jreAttr);
}
if (containerPath != null) {
if (isModularConfiguration(configuration)) {
return newRuntimeContainerClasspathEntry(containerPath, IRuntimeClasspathEntry.MODULE_PATH);
}
return newRuntimeContainerClasspathEntry(containerPath, IRuntimeClasspathEntry.STANDARD_CLASSES);
}
return null;
}
/**
* Returns a runtime classpath entry identifying the JRE referenced by the specified
* project, or <code>null</code> if none. The entry returned represents a either a
* classpath variable or classpath container that resolves to a JRE.
*
* @param project Java project
* @return JRE runtime classpath entry or <code>null</code>
* @exception org.eclipse.core.runtime.CoreException if an exception occurs
* accessing the project's classpath
* @since 3.2
*/
public static IRuntimeClasspathEntry computeJREEntry(IJavaProject project) throws CoreException {
IClasspathEntry[] rawClasspath = project.getRawClasspath();
IRuntimeClasspathEntryResolver2 resolver = null;
for (int i = 0; i < rawClasspath.length; i++) {
IClasspathEntry entry = rawClasspath[i];
switch (entry.getEntryKind()) {
case IClasspathEntry.CPE_VARIABLE:
resolver = getVariableResolver(entry.getPath().segment(0));
if (resolver != null) {
if (resolver.isVMInstallReference(entry)) {
return newRuntimeClasspathEntry(entry);
}
}
break;
case IClasspathEntry.CPE_CONTAINER:
resolver = getContainerResolver(entry.getPath().segment(0));
if (resolver != null) {
if (resolver.isVMInstallReference(entry)) {
IClasspathContainer container = JavaCore.getClasspathContainer(entry.getPath(), project);
if (container != null) {
switch (container.getKind()) {
case IClasspathContainer.K_APPLICATION:
break;
case IClasspathContainer.K_DEFAULT_SYSTEM:
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.STANDARD_CLASSES);
case IClasspathContainer.K_SYSTEM:
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.BOOTSTRAP_CLASSES);
}
}
}
}
break;
}
}
return null;
}
/**
* Returns a runtime classpath or modulepath entry identifying the JRE referenced by the specified project, or <code>null</code> if none. The
* entry returned represents a either a classpath variable or classpath container that resolves to a JRE.
*
* @param project
* Java project
* @return JRE runtime classpath or modulepath entry or <code>null</code>
* @exception org.eclipse.core.runtime.CoreException
* if an exception occurs accessing the project's classpath
* @since 3.10
*/
public static IRuntimeClasspathEntry computeModularJREEntry(IJavaProject project) throws CoreException {
IClasspathEntry[] rawClasspath = project.getRawClasspath();
IRuntimeClasspathEntryResolver2 resolver = null;
for (int i = 0; i < rawClasspath.length; i++) {
IClasspathEntry entry = rawClasspath[i];
switch (entry.getEntryKind()) {
case IClasspathEntry.CPE_VARIABLE:
resolver = getVariableResolver(entry.getPath().segment(0));
if (resolver != null) {
if (resolver.isVMInstallReference(entry)) {
if (isModularProject(project)) {
return newRuntimeClasspathEntry(entry, IRuntimeClasspathEntry.MODULE_PATH);
}
return newRuntimeClasspathEntry(entry, IRuntimeClasspathEntry.CLASS_PATH);
}
}
break;
case IClasspathEntry.CPE_CONTAINER:
resolver = getContainerResolver(entry.getPath().segment(0));
if (resolver != null) {
if (resolver.isVMInstallReference(entry)) {
IClasspathContainer container = JavaCore.getClasspathContainer(entry.getPath(), project);
if (container != null) {
switch (container.getKind()) {
case IClasspathContainer.K_APPLICATION:
break;
case IClasspathContainer.K_DEFAULT_SYSTEM:
if (isModularProject(project)) {
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.MODULE_PATH);
}
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.CLASS_PATH);
case IClasspathContainer.K_SYSTEM:
if (isModularProject(project)) {
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.MODULE_PATH);
}
return newRuntimeContainerClasspathEntry(entry.getPath(), IRuntimeClasspathEntry.CLASS_PATH);
}
}
}
}
break;
}
}
return null;
}
/**
* Returns whether the given runtime classpath entry refers to a VM install.
*
* @param entry the entry to check
* @return whether the given runtime classpath entry refers to a VM install
* @since 3.2
*/
public static boolean isVMInstallReference(IRuntimeClasspathEntry entry) {
IClasspathEntry classpathEntry = entry.getClasspathEntry();
if (classpathEntry != null) {
switch (classpathEntry.getEntryKind()) {
case IClasspathEntry.CPE_VARIABLE:
IRuntimeClasspathEntryResolver2 resolver = getVariableResolver(classpathEntry.getPath().segment(0));
if (resolver != null) {
return resolver.isVMInstallReference(classpathEntry);
}
break;
case IClasspathEntry.CPE_CONTAINER:
resolver = getContainerResolver(classpathEntry.getPath().segment(0));
if (resolver != null) {
return resolver.isVMInstallReference(classpathEntry);
}
break;
}
}
return false;
}
/**
* Returns the VM connector defined with the specified identifier,
* or <code>null</code> if none.
*
* @param id VM connector identifier
* @return VM connector or <code>null</code> if none
* @since 2.0
*/
public static IVMConnector getVMConnector(String id) {
return LaunchingPlugin.getDefault().getVMConnector(id);
}
/**
* Returns all VM connector extensions.
*
* @return VM connectors
* @since 2.0
*/
public static IVMConnector[] getVMConnectors() {
return LaunchingPlugin.getDefault().getVMConnectors();
}
/**
* Returns the preference store for the launching plug-in.
*
* @return the preference store for the launching plug-in
* @since 2.0
*/
@SuppressWarnings("deprecation")
public static Preferences getPreferences() {
return LaunchingPlugin.getDefault().getPluginPreferences();
}
/**
* Saves the preferences for the launching plug-in.
*
* @since 2.0
*/
public static void savePreferences() {
IEclipsePreferences prefs = InstanceScope.INSTANCE.getNode(LaunchingPlugin.ID_PLUGIN);
try {
prefs.flush();
} catch (BackingStoreException e) {
LaunchingPlugin.log(e);
}
}
/**
* Registers the given resolver for the specified variable.
*
* @param resolver runtime classpath entry resolver
* @param variableName variable name to register for
* @since 2.0
*/
public static void addVariableResolver(IRuntimeClasspathEntryResolver resolver, String variableName) {
Map<String, IRuntimeClasspathEntryResolver> map = getVariableResolvers();
map.put(variableName, resolver);
}
/**
* Registers the given resolver for the specified container.
*
* @param resolver runtime classpath entry resolver
* @param containerIdentifier identifier of the classpath container to register for
* @since 2.0
*/
public static void addContainerResolver(IRuntimeClasspathEntryResolver resolver, String containerIdentifier) {
Map<String, IRuntimeClasspathEntryResolver> map = getContainerResolvers();
map.put(containerIdentifier, resolver);
}
/**
* Returns all registered variable resolvers.
* @return the initialized map of {@link RuntimeClasspathEntryResolver}s for variables
*/
private static Map<String, IRuntimeClasspathEntryResolver> getVariableResolvers() {
if (fgVariableResolvers == null) {
initializeResolvers();
}
return fgVariableResolvers;
}
/**
* Returns all registered container resolvers.
* @return the initialized map of {@link RuntimeClasspathEntryResolver}s for containers
*/
private static Map<String, IRuntimeClasspathEntryResolver> getContainerResolvers() {
if (fgContainerResolvers == null) {
initializeResolvers();
}
return fgContainerResolvers;
}
/**
* Returns all registered runtime classpath entry resolvers.
* @return the initialized map of {@link RuntimeClasspathEntryResolver}s for classpath entries
*/
private static Map<String, RuntimeClasspathEntryResolver> getEntryResolvers() {
if (fgRuntimeClasspathEntryResolvers == null) {
initializeResolvers();
}
return fgRuntimeClasspathEntryResolvers;
}
/**
* Initializes the listing of runtime classpath entry resolvers
*/
private static void initializeResolvers() {
IExtensionPoint point = Platform.getExtensionRegistry().getExtensionPoint(LaunchingPlugin.ID_PLUGIN, EXTENSION_POINT_RUNTIME_CLASSPATH_ENTRY_RESOLVERS);
IConfigurationElement[] extensions = point.getConfigurationElements();
fgVariableResolvers = new HashMap<>(extensions.length);
fgContainerResolvers = new HashMap<>(extensions.length);
fgRuntimeClasspathEntryResolvers = new HashMap<>(extensions.length);
for (int i = 0; i < extensions.length; i++) {
RuntimeClasspathEntryResolver res = new RuntimeClasspathEntryResolver(extensions[i]);
String variable = res.getVariableName();
String container = res.getContainerId();
String entryId = res.getRuntimeClasspathEntryId();
if (variable != null) {
fgVariableResolvers.put(variable, res);
}
if (container != null) {
fgContainerResolvers.put(container, res);
}
if (entryId != null) {
fgRuntimeClasspathEntryResolvers.put(entryId, res);
}
}
}
/**
* Returns all registered classpath providers.
* @return the initialized map of {@link RuntimeClasspathProvider}s
*/
private static Map<String, RuntimeClasspathProvider> getClasspathProviders() {
if (fgPathProviders == null) {
initializeProviders();
}
return fgPathProviders;
}
/**
* Initializes the listing of classpath providers
*/
private static void initializeProviders() {
IExtensionPoint point = Platform.getExtensionRegistry().getExtensionPoint(LaunchingPlugin.ID_PLUGIN, EXTENSION_POINT_RUNTIME_CLASSPATH_PROVIDERS);
IConfigurationElement[] extensions = point.getConfigurationElements();
fgPathProviders = new HashMap<>(extensions.length);
for (int i = 0; i < extensions.length; i++) {
RuntimeClasspathProvider res = new RuntimeClasspathProvider(extensions[i]);
fgPathProviders.put(res.getIdentifier(), res);
}
}
/**
* Returns the resolver registered for the given variable, or
* <code>null</code> if none.
*
* @param variableName the variable to determine the resolver for
* @return the resolver registered for the given variable, or
* <code>null</code> if none
*/
private static IRuntimeClasspathEntryResolver2 getVariableResolver(String variableName) {
return (IRuntimeClasspathEntryResolver2)getVariableResolvers().get(variableName);
}
/**
* Returns the resolver registered for the given container id, or
* <code>null</code> if none.
*
* @param containerId the container to determine the resolver for
* @return the resolver registered for the given container id, or
* <code>null</code> if none
*/
private static IRuntimeClasspathEntryResolver2 getContainerResolver(String containerId) {
return (IRuntimeClasspathEntryResolver2)getContainerResolvers().get(containerId);
}
/**
* Returns the resolver registered for the given contributed classpath
* entry type.
*
* @param typeId the id of the contributed classpath entry
* @return the resolver registered for the given classpath entry
*/
private static IRuntimeClasspathEntryResolver getContributedResolver(String typeId) {
IRuntimeClasspathEntryResolver resolver = getEntryResolvers().get(typeId);
if (resolver == null) {
return new DefaultEntryResolver();
}
return resolver;
}
/**
* Adds the given listener to the list of registered VM install changed
* listeners. Has no effect if an identical listener is already registered.
*
* @param listener the listener to add
* @since 2.0
*/
public static void addVMInstallChangedListener(IVMInstallChangedListener listener) {
fgVMListeners.add(listener);
}
/**
* Removes the given listener from the list of registered VM install changed
* listeners. Has no effect if an identical listener is not already registered.
*
* @param listener the listener to remove
* @since 2.0
*/
public static void removeVMInstallChangedListener(IVMInstallChangedListener listener) {
fgVMListeners.remove(listener);
}
/**
* Notifies registered listeners that the default VM has changed
* @param previous the previous VM
* @param current the new current default VM
*/
private static void notifyDefaultVMChanged(IVMInstall previous, IVMInstall current) {
for (IVMInstallChangedListener listener : fgVMListeners) {
listener.defaultVMInstallChanged(previous, current);
}
}
/**
* Notifies all VM install changed listeners of the given property change.
*
* @param event event describing the change.
* @since 2.0
*/
public static void fireVMChanged(PropertyChangeEvent event) {
for (IVMInstallChangedListener listener : fgVMListeners) {
listener.vmChanged(event);
}
}
/**
* Notifies all VM install changed listeners of the VM addition
*
* @param vm the VM that has been added
* @since 2.0
*/
public static void fireVMAdded(IVMInstall vm) {
if (!fgInitializingVMs) {
for (IVMInstallChangedListener listener : fgVMListeners) {
listener.vmAdded(vm);
}
}
}
/**
* Notifies all VM install changed listeners of the VM removal
*
* @param vm the VM that has been removed
* @since 2.0
*/
public static void fireVMRemoved(IVMInstall vm) {
for (IVMInstallChangedListener listener : fgVMListeners) {
listener.vmRemoved(vm);
}
}
/**
* Return the String representation of the default output directory of the
* launch config's project or <code>null</code> if there is no configuration, no
* project or some sort of problem.
* @param config the {@link ILaunchConfiguration}
*
* @return the default output directory for the specified launch
* configuration's project
* @since 2.1
*/
public static String getProjectOutputDirectory(ILaunchConfiguration config) {
try {
if (config != null) {
IJavaProject javaProject = JavaRuntime.getJavaProject(config);
if (javaProject != null) {
IWorkspaceRoot root = ResourcesPlugin.getWorkspace().getRoot();
IPath outputLocation = javaProject.getOutputLocation();
IResource resource = root.findMember(outputLocation);
if (resource != null) {
IPath path = resource.getFullPath();
if (path != null) {
return path.makeRelative().toString();
}
}
}
}
} catch (CoreException ce) {
}
return null;
}
/**
* Returns a collection of source containers corresponding to the given
* resolved runtime classpath entries.
* <p>
* Note that the entries must be resolved to ARCHIVE and PROJECT entries,
* as source containers cannot be determined for unresolved entries.
* </p>
* @param entries entries to translate
* @return source containers corresponding to the given runtime classpath entries
* @since 3.1
*/
public static ISourceContainer[] getSourceContainers(IRuntimeClasspathEntry[] entries) {
return JavaSourceLookupUtil.translate(entries);
}
/**
* Returns a collection of paths that should be appended to the given project's
* <code>java.library.path</code> system property when launched. Entries are
* searched for on the project's build path as extra classpath attributes.
* Each entry represents an absolute path in the local file system.
*
* @param project the project to compute the <code>java.library.path</code> for
* @param requiredProjects whether to consider entries in required projects
* @return a collection of paths representing entries that should be appended
* to the given project's <code>java.library.path</code>
* @throws CoreException if unable to compute the Java library path
* @since 3.1
* @see org.eclipse.jdt.core.IClasspathAttribute
* @see JavaRuntime#CLASSPATH_ATTR_LIBRARY_PATH_ENTRY
*/
public static String[] computeJavaLibraryPath(IJavaProject project, boolean requiredProjects) throws CoreException {
Set<IJavaProject> visited = new HashSet<>();
List<String> entries = new ArrayList<>();
gatherJavaLibraryPathEntries(project, requiredProjects, visited, entries);
List<String> resolved = new ArrayList<>(entries.size());
Iterator<String> iterator = entries.iterator();
IStringVariableManager manager = VariablesPlugin.getDefault().getStringVariableManager();
IWorkspaceRoot root = ResourcesPlugin.getWorkspace().getRoot();
while (iterator.hasNext()) {
String entry = iterator.next();
String resolvedEntry = manager.performStringSubstitution(entry);
IPath path = new Path(resolvedEntry);
if (path.isAbsolute()) {
File file = path.toFile();
resolved.add(file.getAbsolutePath());
} else {
IResource resource = root.findMember(path);
if (resource != null) {
IPath location = resource.getLocation();
if (location != null) {
resolved.add(location.toFile().getAbsolutePath());
}
}
}
}
return resolved.toArray(new String[resolved.size()]);
}
/**
* Gathers all Java library entries for the given project and optionally its required
* projects.
*
* @param project project to gather entries for
* @param requiredProjects whether to consider required projects
* @param visited projects already considered
* @param entries collection to add library entries to
* @throws CoreException if unable to gather classpath entries
* @since 3.1
*/
private static void gatherJavaLibraryPathEntries(IJavaProject project, boolean requiredProjects, Set<IJavaProject> visited, List<String> entries) throws CoreException {
if (visited.contains(project)) {
return;
}
visited.add(project);
IClasspathEntry[] rawClasspath = project.getRawClasspath();
IClasspathEntry[] required = processJavaLibraryPathEntries(project, requiredProjects, rawClasspath, entries);
if (required != null) {
IWorkspaceRoot root = ResourcesPlugin.getWorkspace().getRoot();
for (int i = 0; i < required.length; i++) {
IClasspathEntry entry = required[i];
String projectName = entry.getPath().segment(0);
IProject p = root.getProject(projectName);
if (p.exists()) {
IJavaProject requiredProject = JavaCore.create(p);
if(requiredProject.isOpen()) {
gatherJavaLibraryPathEntries(requiredProject, requiredProjects, visited, entries);
}
else if(!isOptional(entry)) {
gatherJavaLibraryPathEntries(requiredProject, requiredProjects, visited, entries);
}
}
}
}
}
/**
* Adds all java library path extra classpath entry values to the given entries collection
* specified on the given project's classpath, and returns a collection of required
* projects, or <code>null</code>.
*
* @param project project being processed
* @param collectRequired whether to collect required projects
* @param classpathEntries the project's raw classpath
* @param entries collection to add java library path entries to
* @return required project classpath entries or <code>null</code>
* @throws CoreException if an exception occurs
* @since 3.1
*/
private static IClasspathEntry[] processJavaLibraryPathEntries(IJavaProject project, boolean collectRequired, IClasspathEntry[] classpathEntries, List<String> entries) throws CoreException {
List<IClasspathEntry> req = null;
for (int i = 0; i < classpathEntries.length; i++) {
IClasspathEntry entry = classpathEntries[i];
IClasspathAttribute[] extraAttributes = entry.getExtraAttributes();
for (int j = 0; j < extraAttributes.length; j++) {
String[] paths = getLibraryPaths(extraAttributes[j]);
if (paths != null) {
for (int k = 0; k < paths.length; k++) {
entries.add(paths[k]);
}
}
}
if (entry.getEntryKind() == IClasspathEntry.CPE_CONTAINER) {
IClasspathContainer container = JavaCore.getClasspathContainer(entry.getPath(), project);
if (container != null) {
IClasspathEntry[] requiredProjects = processJavaLibraryPathEntries(project, collectRequired, container.getClasspathEntries(), entries);
if (requiredProjects != null) {
if (req == null) {
req = new ArrayList<>();
}
for (int j = 0; j < requiredProjects.length; j++) {
req.add(requiredProjects[j]);
}
}
}
} else if (collectRequired && entry.getEntryKind() == IClasspathEntry.CPE_PROJECT) {
if (req == null) {
req = new ArrayList<>();
}
req.add(entry);
}
}
if (req != null) {
return req.toArray(new IClasspathEntry[req.size()]);
}
return null;
}
/**
* Creates a new classpath attribute referencing a list of shared libraries that should
* appear on the <code>-Djava.library.path</code> system property at runtime
* for an associated {@link IClasspathEntry}.
* <p>
* The factory methods <code>newLibraryPathsAttribute(String[])</code>
* and <code>getLibraryPaths(IClasspathAttribute)</code> should be used to
* encode and decode the attribute value.
* </p>
* @param paths an array of strings representing paths of shared libraries.
* Each string is used to create an <code>IPath</code> using the constructor
* <code>Path(String)</code>, and may contain <code>IStringVariable</code>'s.
* Variable substitution is performed on each string before a path is constructed
* from a string.
* @return a classpath attribute with the name <code>CLASSPATH_ATTR_LIBRARY_PATH_ENTRY</code>
* and an value encoded to the specified paths.
* @since 3.1
*/
public static IClasspathAttribute newLibraryPathsAttribute(String[] paths) {
StringBuilder value = new StringBuilder();
for (int i = 0; i < paths.length; i++) {
value.append(paths[i]);
if (i < (paths.length - 1)) {
value.append("|"); //$NON-NLS-1$
}
}
return JavaCore.newClasspathAttribute(CLASSPATH_ATTR_LIBRARY_PATH_ENTRY, value.toString());
}
/**
* Returns an array of strings referencing shared libraries that should
* appear on the <code>-Djava.library.path</code> system property at runtime
* for an associated {@link IClasspathEntry}, or <code>null</code> if the
* given attribute is not a <code>CLASSPATH_ATTR_LIBRARY_PATH_ENTRY</code>.
* Each string is used to create an <code>IPath</code> using the constructor
* <code>Path(String)</code>, and may contain <code>IStringVariable</code>'s.
* <p>
* The factory methods <code>newLibraryPathsAttribute(String[])</code>
* and <code>getLibraryPaths(IClasspathAttribute)</code> should be used to
* encode and decode the attribute value.
* </p>
* @param attribute a <code>CLASSPATH_ATTR_LIBRARY_PATH_ENTRY</code> classpath attribute
* @return an array of strings referencing shared libraries that should
* appear on the <code>-Djava.library.path</code> system property at runtime
* for an associated {@link IClasspathEntry}, or <code>null</code> if the
* given attribute is not a <code>CLASSPATH_ATTR_LIBRARY_PATH_ENTRY</code>.
* Each string is used to create an <code>IPath</code> using the constructor
* <code>Path(String)</code>, and may contain <code>IStringVariable</code>'s.
* @since 3.1
*/
public static String[] getLibraryPaths(IClasspathAttribute attribute) {
if (CLASSPATH_ATTR_LIBRARY_PATH_ENTRY.equals(attribute.getName())) {
String value = attribute.getValue();
return value.split("\\|"); //$NON-NLS-1$
}
return null;
}
/**
* Returns the execution environments manager.
*
* @return execution environments manager
* @since 3.2
*/
public static IExecutionEnvironmentsManager getExecutionEnvironmentsManager() {
return EnvironmentsManager.getDefault();
}
/**
* Perform VM type and VM install initialization. Does not hold locks
* while performing change notification.
*
* @since 3.2
*/
private static void initializeVMs() {
VMDefinitionsContainer vmDefs = null;
boolean setPref = false;
boolean updateCompliance = false;
synchronized (fgVMLock) {
if (fgVMTypes == null) {
try {
fgInitializingVMs = true;
// 1. load VM type extensions
initializeVMTypeExtensions();
try {
vmDefs = new VMDefinitionsContainer();
// 2. add persisted VMs
setPref = addPersistedVMs(vmDefs);
IStatus status = vmDefs.getStatus();
if (status != null) {
if (status.isMultiStatus()) {
MultiStatus multi = (MultiStatus) status;
IStatus[] children = multi.getChildren();
for (int i = 0; i < children.length; i++) {
IStatus child = children[i];
if (!child.isOK()) {
LaunchingPlugin.log(child);
}
}
} else if (!status.isOK()) {
LaunchingPlugin.log(status);
}
}
// 3. if there are none, detect the eclipse runtime
if (vmDefs.getValidVMList().isEmpty()) {
// calling out to detectEclipseRuntime() could allow clients to change
// VM settings (i.e. call back into change VM settings).
VMListener listener = new VMListener();
addVMInstallChangedListener(listener);
setPref = true;
VMStandin runtime = detectEclipseRuntime();
removeVMInstallChangedListener(listener);
if (!listener.isChanged()) {
if (runtime != null) {
updateCompliance = true;
vmDefs.addVM(runtime);
vmDefs.setDefaultVMInstallCompositeID(getCompositeIdFromVM(runtime));
}
} else {
// VMs were changed - reflect current settings
addPersistedVMs(vmDefs);
vmDefs.setDefaultVMInstallCompositeID(fgDefaultVMId);
updateCompliance = fgDefaultVMId != null;
}
}
// 4. load contributed VM installs
addVMExtensions(vmDefs);
// 5. verify default VM is valid
String defId = vmDefs.getDefaultVMInstallCompositeID();
boolean validDef = false;
if (defId != null) {
Iterator<IVMInstall> iterator = vmDefs.getValidVMList().iterator();
while (iterator.hasNext()) {
IVMInstall vm = iterator.next();
if (getCompositeIdFromVM(vm).equals(defId)) {
validDef = true;
break;
}
}
}
if (!validDef) {
// use the first as the default
setPref = true;
List<IVMInstall> list = vmDefs.getValidVMList();
if (!list.isEmpty()) {
IVMInstall vm = list.get(0);
vmDefs.setDefaultVMInstallCompositeID(getCompositeIdFromVM(vm));
}
}
fgDefaultVMId = vmDefs.getDefaultVMInstallCompositeID();
fgDefaultVMConnectorId = vmDefs.getDefaultVMInstallConnectorTypeID();
// Create the underlying VMs for each valid VM
List<IVMInstall> vmList = vmDefs.getValidVMList();
Iterator<IVMInstall> vmListIterator = vmList.iterator();
while (vmListIterator.hasNext()) {
VMStandin vmStandin = (VMStandin) vmListIterator.next();
vmStandin.convertToRealVM();
}
} catch (IOException e) {
LaunchingPlugin.log(e);
}
} finally {
fgInitializingVMs = false;
}
}
}
if (vmDefs != null) {
// notify of initial VMs for backwards compatibility
IVMInstallType[] installTypes = getVMInstallTypes();
for (int i = 0; i < installTypes.length; i++) {
IVMInstallType type = installTypes[i];
IVMInstall[] installs = type.getVMInstalls();
for (int j = 0; j < installs.length; j++) {
fireVMAdded(installs[j]);
}
}
// save settings if required
if (setPref) {
try {
String xml = vmDefs.getAsXML();
InstanceScope.INSTANCE.getNode(LaunchingPlugin.ID_PLUGIN).put(PREF_VM_XML, xml);
} catch (CoreException e) {
LaunchingPlugin.log(e);
}
}
// update compliance if required
if (updateCompliance) {
updateCompliance(getDefaultVMInstall());
}
}
}
/**
* Update compiler compliance settings based on the given VM.
*
* @param vm the backing {@link IVMInstall}
*/
private static void updateCompliance(IVMInstall vm) {
if (LaunchingPlugin.isVMLogging()) {
LaunchingPlugin.log("Compliance needs an update."); //$NON-NLS-1$
}
if (vm instanceof IVMInstall2) {
String javaVersion = ((IVMInstall2)vm).getJavaVersion();
if (javaVersion != null) {
String compliance = null;
if (javaVersion.startsWith(JavaCore.VERSION_1_5)) {
compliance = JavaCore.VERSION_1_5;
} else if (javaVersion.startsWith(JavaCore.VERSION_1_6)) {
compliance = JavaCore.VERSION_1_6;
} else if (javaVersion.startsWith(JavaCore.VERSION_1_7)) {
compliance = JavaCore.VERSION_1_7;
} else if (javaVersion.startsWith(JavaCore.VERSION_1_8)) {
compliance = JavaCore.VERSION_1_8;
} else if (javaVersion.startsWith(JavaCore.VERSION_9)
&& (javaVersion.length() == JavaCore.VERSION_9.length() || javaVersion.charAt(JavaCore.VERSION_9.length()) == '.')) {
compliance = JavaCore.VERSION_9;
} else if (javaVersion.startsWith(JavaCore.VERSION_10)
&& (javaVersion.length() == JavaCore.VERSION_10.length() || javaVersion.charAt(JavaCore.VERSION_10.length()) == '.')) {
compliance = JavaCore.VERSION_10;
} else if (javaVersion.startsWith(JavaCore.VERSION_11)
&& (javaVersion.length() == JavaCore.VERSION_11.length() || javaVersion.charAt(JavaCore.VERSION_11.length()) == '.')) {
compliance = JavaCore.VERSION_11;
} else if (javaVersion.startsWith(JavaCore.VERSION_12)
&& (javaVersion.length() == JavaCore.VERSION_12.length() || javaVersion.charAt(JavaCore.VERSION_12.length()) == '.')) {
compliance = JavaCore.VERSION_12;
} else if (javaVersion.startsWith(JavaCore.VERSION_13)
&& (javaVersion.length() == JavaCore.VERSION_13.length() || javaVersion.charAt(JavaCore.VERSION_13.length()) == '.')) {
compliance = JavaCore.VERSION_13;
} else if (javaVersion.startsWith(JavaCore.VERSION_14)
&& (javaVersion.length() == JavaCore.VERSION_14.length() || javaVersion.charAt(JavaCore.VERSION_14.length()) == '.')) {
compliance = JavaCore.VERSION_14;
} else {
compliance = JavaCore.VERSION_14; // use latest by default
}
Hashtable<String, String> options= JavaCore.getOptions();
org.osgi.service.prefs.Preferences bundleDefaults = BundleDefaultsScope.INSTANCE.getNode(JavaCore.PLUGIN_ID);
boolean isDefault =
equals(JavaCore.COMPILER_COMPLIANCE, options, bundleDefaults) &&
equals(JavaCore.COMPILER_SOURCE, options, bundleDefaults) &&
equals(JavaCore.COMPILER_CODEGEN_TARGET_PLATFORM, options, bundleDefaults) &&
equals(JavaCore.COMPILER_PB_ASSERT_IDENTIFIER, options, bundleDefaults) &&
equals(JavaCore.COMPILER_PB_ENUM_IDENTIFIER, options, bundleDefaults);
if (JavaCore.compareJavaVersions(compliance, JavaCore.VERSION_10) > 0) {
isDefault = isDefault && equals(JavaCore.COMPILER_PB_ENABLE_PREVIEW_FEATURES, options, bundleDefaults)
&& equals(JavaCore.COMPILER_PB_REPORT_PREVIEW_FEATURES, options, bundleDefaults);
}
// only update the compliance settings if they are default settings, otherwise the
// settings have already been modified by a tool or user
if (LaunchingPlugin.isVMLogging()) {
LaunchingPlugin.log("Compliance to be updated is: " + compliance); //$NON-NLS-1$
}
if (isDefault) {
JavaCore.setComplianceOptions(compliance, options);
JavaCore.setOptions(options);
if (LaunchingPlugin.isVMLogging()) {
LaunchingPlugin.log("Compliance Options are updated."); //$NON-NLS-1$
}
}
}
}
}
/**
* Creates a new VM based on the attributes specified in the given execution
* environment description file. The format of the file is defined by
* <code>http://wiki.eclipse.org/Execution_Environment_Descriptions</code>.
*
* @param eeFile VM definition file
* @param name name for the VM, or <code>null</code> if a default name should be assigned
* @param id id to assign to the new VM
* @return VM stand-in
* @exception CoreException if unable to create a VM from the given definition file
* @since 3.4
*/
public static VMStandin createVMFromDefinitionFile(File eeFile, String name, String id) throws CoreException {
ExecutionEnvironmentDescription description = new ExecutionEnvironmentDescription(eeFile);
IStatus status = EEVMType.validateDefinitionFile(description);
if (status.isOK()) {
VMStandin standin = new VMStandin(getVMInstallType(EEVMType.ID_EE_VM_TYPE), id);
if (name != null && name.length() > 0){
standin.setName(name);
} else {
name = description.getProperty(ExecutionEnvironmentDescription.EE_NAME);
if (name == null) {
name = eeFile.getName();
}
standin.setName(name);
}
String home = description.getProperty(ExecutionEnvironmentDescription.JAVA_HOME);
standin.setInstallLocation(new File(home));
standin.setLibraryLocations(description.getLibraryLocations());
standin.setVMArgs(description.getVMArguments());
standin.setJavadocLocation(EEVMType.getJavadocLocation(description.getProperties()));
standin.setAttribute(EEVMInstall.ATTR_EXECUTION_ENVIRONMENT_ID, description.getProperty(ExecutionEnvironmentDescription.CLASS_LIB_LEVEL));
File exe = description.getExecutable();
if (exe == null) {
exe = description.getConsoleExecutable();
}
if (exe != null) {
try {
standin.setAttribute(EEVMInstall.ATTR_JAVA_EXE, exe.getCanonicalPath());
} catch (IOException e) {
throw new CoreException(new Status(IStatus.ERROR, LaunchingPlugin.getUniqueIdentifier(),
LaunchingMessages.JavaRuntime_24, e));
}
}
standin.setAttribute(EEVMInstall.ATTR_JAVA_VERSION, description.getProperty(ExecutionEnvironmentDescription.LANGUAGE_LEVEL));
standin.setAttribute(EEVMInstall.ATTR_DEFINITION_FILE, eeFile.getPath());
standin.setAttribute(EEVMInstall.ATTR_DEBUG_ARGS, description.getProperty(ExecutionEnvironmentDescription.DEBUG_ARGS));
return standin;
}
throw new CoreException(status);
}
private static final String BLANK = " "; //$NON-NLS-1$
private static final String COMMA = ","; //$NON-NLS-1$
private static final String OPTION_START = "--"; //$NON-NLS-1$
private static final String ADD_MODULES = "--add-modules "; //$NON-NLS-1$
private static final String LIMIT_MODULES = "--limit-modules "; //$NON-NLS-1$
/**
* Returns the module-related command line options for the configuration that are needed at runtime as equivalents of those options specified by
* {@link IClasspathAttribute}s of the following names:
* <ul>
* <li>{@link IClasspathAttribute#ADD_EXPORTS}</li>
* <li>{@link IClasspathAttribute#ADD_READS}</li>
* <li>{@link IClasspathAttribute#LIMIT_MODULES}</li>
* </ul>
* {@link IClasspathAttribute#PATCH_MODULE} is not handled here, but in
* {@link AbstractJavaLaunchConfigurationDelegate#getModuleCLIOptions(ILaunchConfiguration)}, which then collates all options referring to the
* same module.
*
* @since 3.10
*/
public static String getModuleCLIOptions(ILaunchConfiguration configuration) {
StringBuilder cliOptionString = new StringBuilder();
try {
IRuntimeClasspathEntry[] entries;
entries = JavaRuntime.computeUnresolvedRuntimeClasspath(configuration);
IWorkspaceRoot root = ResourcesPlugin.getWorkspace().getRoot();
for (IRuntimeClasspathEntry iRuntimeClasspathEntry : entries) {
IClasspathEntry classpathEntry = iRuntimeClasspathEntry.getClasspathEntry();
if (classpathEntry != null && classpathEntry.getEntryKind() == IClasspathEntry.CPE_PROJECT) {
IResource res = root.findMember(classpathEntry.getPath());
IJavaProject jp = (IJavaProject) JavaCore.create(res);
if (jp.isOpen()) {
IClasspathEntry[] rawClasspath = jp.getRawClasspath();
for (IClasspathEntry iClasspathEntry : rawClasspath) {
if (iClasspathEntry.getEntryKind() == IClasspathEntry.CPE_CONTAINER) {
if (JavaRuntime.JRE_CONTAINER.equals(iClasspathEntry.getPath().segment(0))) {
String cliOptions = getModuleCLIOptions(jp, iClasspathEntry);
if (cliOptionString.length() > 0 && cliOptions.length() > 0) {
cliOptionString.append(" "); //$NON-NLS-1$
}
cliOptionString.append(cliOptions);
}
}
}
}
}
}
}
catch (CoreException e) {
LaunchingPlugin.log(e);
}
return cliOptionString.toString().trim();
}
/**
* Returns the module-related command line options that are needed at runtime as equivalents of those options specified by
* {@link IClasspathAttribute}s of the following names:
* <ul>
* <li>{@link IClasspathAttribute#ADD_EXPORTS}</li>
* <li>{@link IClasspathAttribute#ADD_OPENS}</li>
* <li>{@link IClasspathAttribute#ADD_READS}</li>
* <li>{@link IClasspathAttribute#LIMIT_MODULES}</li>
* </ul>
* <p>
* Note that the {@link IClasspathAttribute#LIMIT_MODULES} value may be split into an {@code --add-modules} part and a {@code --limit-modules}
* part.
* </p>
*
* @param project
* the project holding the main class to be launched
* @param systemLibrary
* the classpath entry of the given project which represents the JRE System Library
* @return module-related command line options suitable for running the application.
* @throws JavaModelException
* when access to the classpath or module description of the given project fails.
*/
private static String getModuleCLIOptions(IJavaProject project, IClasspathEntry systemLibrary) throws JavaModelException {
StringBuilder buf = new StringBuilder();
for (IClasspathEntry classpathEntry : project.getRawClasspath()) {
for (IClasspathAttribute classpathAttribute : classpathEntry.getExtraAttributes()) {
String optName = classpathAttribute.getName();
switch (optName) {
case IClasspathAttribute.ADD_EXPORTS:
case IClasspathAttribute.ADD_OPENS:
case IClasspathAttribute.ADD_READS: {
String readModules = classpathAttribute.getValue();
int equalsIdx = readModules.indexOf('=');
if (equalsIdx != -1) {
for (String readModule : readModules.split(":")) { //$NON-NLS-1$
buf.append(OPTION_START).append(optName).append(BLANK).append(readModule).append(BLANK);
}
} else {
buf.append(OPTION_START).append(optName).append(BLANK).append(readModules).append(BLANK);
}
break;
}
// case IClasspathAttribute.PATCH_MODULE: handled in
// org.eclipse.jdt.launching.AbstractJavaLaunchConfigurationDelegate.getModuleCLIOptions(ILaunchConfiguration)
case IClasspathAttribute.LIMIT_MODULES:
addLimitModules(buf, project, systemLibrary, classpathAttribute.getValue());
break;
}
}
}
return buf.toString().trim();
}
private static void addLimitModules(StringBuilder buf, IJavaProject prj, IClasspathEntry systemLibrary, String value) throws JavaModelException {
String[] modules = value.split(COMMA);
boolean isUnnamed = prj.getModuleDescription() == null;
if (isUnnamed) {
Set<String> selected = new HashSet<>(Arrays.asList(modules));
List<IPackageFragmentRoot> allSystemRoots = Arrays.asList(prj.findUnfilteredPackageFragmentRoots(systemLibrary));
Set<String> defaultModules = getDefaultModules(allSystemRoots);
Set<String> limit = new HashSet<>(defaultModules); // contains some redundancy, but is no full closure
// selected contains the minimal representation, now compute the transitive closure for comparison with semi-closed defaultModules:
Map<String, IModuleDescription> allModules = allSystemRoots.stream() //
.map(r -> r.getModuleDescription()) //
.filter(Objects::nonNull) //
.collect(Collectors.toMap(IModuleDescription::getElementName, module -> module));
Set<String> selectedClosure = closure(selected, new HashSet<>(), allModules);
if (limit.retainAll(selectedClosure)) { // limit = selected ∩ default -- only add the option, if limit ⊂ default
if (limit.isEmpty()) {
throw new IllegalArgumentException("Cannot hide all modules, at least java.base is required"); //$NON-NLS-1$
}
buf.append(LIMIT_MODULES).append(joinedSortedList(reduceNames(limit, allModules.values()))).append(BLANK);
}
selectedClosure.removeAll(defaultModules);
if (!selectedClosure.isEmpty()) { // add = selected \ default
buf.append(ADD_MODULES).append(joinedSortedList(selectedClosure)).append(BLANK);
}
} else {
Arrays.sort(modules);
buf.append(LIMIT_MODULES).append(String.join(COMMA, modules)).append(BLANK);
}
}
private static Set<String> closure(Collection<String> moduleNames, Set<String> collected, Map<String, IModuleDescription> allModules) {
for (String name : moduleNames) {
if (collected.add(name)) {
IModuleDescription module = allModules.get(name);
if (module != null) {
try {
closure(Arrays.asList(module.getRequiredModuleNames()), collected, allModules);
} catch (JavaModelException e) {
LaunchingPlugin.log(e);
}
}
}
}
return collected;
}
private static Collection<String> reduceNames(Collection<String> names, Collection<IModuleDescription> allModules) {
// build a reverse dependency tree:
Map<String, List<String>> moduleRequiredByModules = new HashMap<>();
for (IModuleDescription module : allModules) {
if (!names.contains(module.getElementName())) {
continue;
}
try {
for (String required : module.getRequiredModuleNames()) {
List<String> dominators = moduleRequiredByModules.get(required);
if (dominators == null) {
moduleRequiredByModules.put(required, dominators = new ArrayList<>());
}
dominators.add(module.getElementName());
}
} catch (CoreException e) {
LaunchingPlugin.log(e);
return names; // unreduced
}
}
// use the tree to find and eliminate redundancy:
List<String> reduced = new ArrayList<>();
outer: for (String name : names) {
List<String> dominators = moduleRequiredByModules.get(name);
if (dominators != null) {
for (String dominator : dominators) {
if (names.contains(dominator)) {
continue outer;
}
}
}
reduced.add(name);
}
return reduced;
}
private static Set<String> getDefaultModules(List<IPackageFragmentRoot> allSystemRoots) throws JavaModelException {
HashMap<String, String[]> moduleDescriptions = new HashMap<>();
for (IPackageFragmentRoot packageFragmentRoot : allSystemRoots) {
IModuleDescription module = packageFragmentRoot.getModuleDescription();
if (module != null) {
moduleDescriptions.put(module.getElementName(), module.getRequiredModuleNames());
}
}
HashSet<String> result = new HashSet<>();
HashSet<String> todo = new HashSet<>(JavaProject.defaultRootModules(allSystemRoots));
while (!todo.isEmpty()) {
HashSet<String> more = new HashSet<>();
for (String s : todo) {
if (result.add(s)) {
String[] requiredModules = moduleDescriptions.get(s);
if (requiredModules != null) {
Collections.addAll(more, requiredModules);
}
}
}
todo = more;
}
return result;
}
private static String joinedSortedList(Collection<String> list) {
String[] limitArray = list.toArray(new String[list.size()]);
Arrays.sort(limitArray);
return String.join(COMMA, limitArray);
}
}