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/*******************************************************************************
 * Copyright (c) 2012, 2017 IBM Corporation and others.
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/epl-v10.html
 * 
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *******************************************************************************/
package org.eclipse.osgi.container;

import java.security.Permission;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.CancellationException;
import java.util.concurrent.Executor;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;
import org.apache.felix.resolver.Logger;
import org.apache.felix.resolver.ResolutionError;
import org.apache.felix.resolver.ResolverImpl;
import org.eclipse.osgi.container.ModuleRequirement.DynamicModuleRequirement;
import org.eclipse.osgi.container.namespaces.EquinoxFragmentNamespace;
import org.eclipse.osgi.internal.container.InternalUtils;
import org.eclipse.osgi.internal.debug.Debug;
import org.eclipse.osgi.internal.framework.EquinoxConfiguration;
import org.eclipse.osgi.internal.framework.EquinoxContainer;
import org.eclipse.osgi.internal.messages.Msg;
import org.eclipse.osgi.report.resolution.ResolutionReport;
import org.eclipse.osgi.report.resolution.ResolutionReport.Entry;
import org.eclipse.osgi.report.resolution.ResolutionReport.Entry.Type;
import org.eclipse.osgi.service.debug.DebugOptions;
import org.osgi.framework.BundleException;
import org.osgi.framework.Version;
import org.osgi.framework.hooks.resolver.ResolverHook;
import org.osgi.framework.namespace.BundleNamespace;
import org.osgi.framework.namespace.ExecutionEnvironmentNamespace;
import org.osgi.framework.namespace.HostNamespace;
import org.osgi.framework.namespace.IdentityNamespace;
import org.osgi.framework.namespace.PackageNamespace;
import org.osgi.framework.wiring.BundleCapability;
import org.osgi.framework.wiring.BundleRequirement;
import org.osgi.framework.wiring.BundleRevision;
import org.osgi.resource.Capability;
import org.osgi.resource.Namespace;
import org.osgi.resource.Requirement;
import org.osgi.resource.Resource;
import org.osgi.resource.Wire;
import org.osgi.resource.Wiring;
import org.osgi.service.resolver.HostedCapability;
import org.osgi.service.resolver.ResolutionException;
import org.osgi.service.resolver.ResolveContext;
import org.osgi.service.resolver.Resolver;

/**
 * The module resolver handles calls to the {@link Resolver} service for resolving modules
 * in a module {@link ModuleContainer container}.
 */
final class ModuleResolver {
	static final String SEPARATOR = System.getProperty("line.separator"); //$NON-NLS-1$
	static final char TAB = '\t';

	private static final String OPTION_RESOLVER = EquinoxContainer.NAME + "/resolver"; //$NON-NLS-1$
	private static final String OPTION_ROOTS = OPTION_RESOLVER + "/roots"; //$NON-NLS-1$
	private static final String OPTION_PROVIDERS = OPTION_RESOLVER + "/providers"; //$NON-NLS-1$
	private static final String OPTION_HOOKS = OPTION_RESOLVER + "/hooks"; //$NON-NLS-1$
	private static final String OPTION_USES = OPTION_RESOLVER + "/uses"; //$NON-NLS-1$
	private static final String OPTION_WIRING = OPTION_RESOLVER + "/wiring"; //$NON-NLS-1$
	private static final String OPTION_REPORT = OPTION_RESOLVER + "/report"; //$NON-NLS-1$

	boolean DEBUG_ROOTS = false;
	boolean DEBUG_PROVIDERS = false;
	boolean DEBUG_HOOKS = false;
	boolean DEBUG_USES = false;
	boolean DEBUG_WIRING = false;
	boolean DEBUG_REPORT = false;

	private static final int DEFAULT_BATCH_SIZE = Integer.MAX_VALUE;
	private static final int BATCH_MIN_TIMEOUT = (int) TimeUnit.SECONDS.toMillis(5);
	private static final int DEFAULT_BATCH_TIMEOUT = (int) TimeUnit.MINUTES.toMillis(2);
	final int resolverRevisionBatchSize;
	final int resolverBatchTimeout;

	void setDebugOptions() {
		DebugOptions options = adaptor.getDebugOptions();
		// may be null if debugging is not enabled
		if (options == null)
			return;
		boolean debugAll = options.getBooleanOption(OPTION_RESOLVER, false);
		DEBUG_ROOTS = debugAll || options.getBooleanOption(OPTION_ROOTS, false);
		DEBUG_PROVIDERS = debugAll || options.getBooleanOption(OPTION_PROVIDERS, false);
		DEBUG_HOOKS = debugAll || options.getBooleanOption(OPTION_HOOKS, false);
		DEBUG_USES = debugAll || options.getBooleanOption(OPTION_USES, false);
		DEBUG_WIRING = debugAll || options.getBooleanOption(OPTION_WIRING, false);
		DEBUG_REPORT = debugAll || options.getBooleanOption(OPTION_REPORT, false);
	}

	static final Collection NON_PAYLOAD_CAPABILITIES = Arrays.asList(IdentityNamespace.IDENTITY_NAMESPACE);
	static final Collection NON_PAYLOAD_REQUIREMENTS = Arrays.asList(HostNamespace.HOST_NAMESPACE, ExecutionEnvironmentNamespace.EXECUTION_ENVIRONMENT_NAMESPACE);
	static final Collection NON_SUBSTITUTED_REQUIREMENTS = Arrays.asList(PackageNamespace.PACKAGE_NAMESPACE, BundleNamespace.BUNDLE_NAMESPACE);

	final ThreadLocal threadResolving = new ThreadLocal<>();
	final ModuleContainerAdaptor adaptor;

	/**
	 * Constructs the module resolver with the specified resolver hook factory
	 * and resolver.
	 * @param adaptor the container adaptor
	 */
	ModuleResolver(final ModuleContainerAdaptor adaptor) {
		this.adaptor = adaptor;

		setDebugOptions();

		String batchSizeConfig = this.adaptor.getProperty(EquinoxConfiguration.PROP_RESOLVER_REVISION_BATCH_SIZE);
		this.resolverRevisionBatchSize = parseInteger(batchSizeConfig, DEFAULT_BATCH_SIZE, 1);
		String batchTimeoutConfig = this.adaptor.getProperty(EquinoxConfiguration.PROP_RESOLVER_BATCH_TIMEOUT);
		this.resolverBatchTimeout = parseInteger(batchTimeoutConfig, DEFAULT_BATCH_TIMEOUT, BATCH_MIN_TIMEOUT);

	}

	private static int parseInteger(String sInteger, int defaultValue, int minValue) {
		try {
			int result = sInteger == null ? defaultValue : Integer.parseInt(sInteger);
			return result < minValue ? minValue : result;
		} catch (NumberFormatException e) {
			return defaultValue;
		}
	}

	/**
	 * Attempts to resolve all unresolved modules installed in the specified module database.
	 * returns a delta containing the new wirings or modified wirings that should be 
	 * merged into the specified moduleDatabase.
	 * 

* This method only does read operations on the database no wirings are modified * directly by this method. The returned wirings need to be merged into * the database. * @param triggers the triggers that caused the resolver operation to occur * @param triggersMandatory true if the triggers must be resolved by the resolve process * @param unresolved a snapshot of unresolved revisions * @param wiringCopy the wirings snapshot of the currently resolved revisions * @param moduleDatabase the module database. * @return a delta container the new wirings or modified wirings that should be * merged into the moduleDatabase * @throws ResolutionException */ ModuleResolutionReport resolveDelta(Collection triggers, boolean triggersMandatory, Collection unresolved, Map wiringCopy, ModuleDatabase moduleDatabase) { ResolveProcess resolveProcess = new ResolveProcess(unresolved, triggers, triggersMandatory, wiringCopy, moduleDatabase); return resolveProcess.resolve(); } ModuleResolutionReport resolveDynamicDelta(DynamicModuleRequirement dynamicReq, Collection unresolved, Map wiringCopy, ModuleDatabase moduleDatabase) { ResolveProcess resolveProcess = new ResolveProcess(unresolved, dynamicReq, wiringCopy, moduleDatabase); return resolveProcess.resolve(); } Map generateDelta(Map> result, Map wiringCopy) { Map>> provided = new HashMap<>(); Map> required = new HashMap<>(); // First populate the list of provided and required wires for revision // This is done this way to share the wire object between both the provider and requirer for (Map.Entry> resultEntry : result.entrySet()) { ModuleRevision revision = (ModuleRevision) resultEntry.getKey(); List requiredWires = new ArrayList<>(resultEntry.getValue().size()); for (Wire wire : resultEntry.getValue()) { ModuleWire moduleWire = new ModuleWire((ModuleCapability) wire.getCapability(), (ModuleRevision) wire.getProvider(), (ModuleRequirement) wire.getRequirement(), (ModuleRevision) wire.getRequirer()); requiredWires.add(moduleWire); Map> providedWiresMap = provided.get(moduleWire.getProvider()); if (providedWiresMap == null) { providedWiresMap = new HashMap<>(); provided.put(moduleWire.getProvider(), providedWiresMap); } List providedWires = providedWiresMap.get(moduleWire.getCapability()); if (providedWires == null) { providedWires = new ArrayList<>(); providedWiresMap.put(moduleWire.getCapability(), providedWires); } providedWires.add(moduleWire); } required.put(revision, requiredWires); } Map delta = new HashMap<>(); // now create the ModuleWiring for the newly resolved revisions for (ModuleRevision revision : required.keySet()) { ModuleWiring existingWiring = wiringCopy.get(revision); if (existingWiring == null) { delta.put(revision, createNewWiring(revision, provided, required)); } else { // this is to handle dynamic imports delta.put(revision, createWiringDelta(revision, existingWiring, provided.get(revision), required.get(revision))); } } // Also need to create the wiring deltas for already resolved bundles // This should only include updating provided wires and // for fragments it may include new hosts for (ModuleRevision revision : provided.keySet()) { ModuleWiring existingWiring = wiringCopy.get(revision); if (existingWiring != null && !delta.containsKey(revision)) { delta.put(revision, createWiringDelta(revision, existingWiring, provided.get(revision), required.get(revision))); } } return delta; } private ModuleWiring createNewWiring(ModuleRevision revision, Map>> provided, Map> required) { Map> providedWireMap = provided.get(revision); if (providedWireMap == null) providedWireMap = Collections.emptyMap(); List requiredWires = required.get(revision); if (requiredWires == null) requiredWires = Collections.emptyList(); List capabilities = new ArrayList<>(revision.getModuleCapabilities(null)); ListIterator iCapabilities = capabilities.listIterator(capabilities.size()); List requirements = new ArrayList<>(revision.getModuleRequirements(null)); ListIterator iRequirements = requirements.listIterator(requirements.size()); // if revision is a fragment remove payload requirements and capabilities if ((BundleRevision.TYPE_FRAGMENT & revision.getTypes()) != 0) { removePayloadContent(iCapabilities, iRequirements); } else { // add fragment capabilities and requirements List hostCapabilities = revision.getModuleCapabilities(HostNamespace.HOST_NAMESPACE); ModuleCapability hostCapability = hostCapabilities.isEmpty() ? null : hostCapabilities.get(0); if (hostCapability != null) { addPayloadContent(providedWireMap.get(hostCapability), iCapabilities, iRequirements); } } removeNonEffectiveCapabilities(iCapabilities); removeNonEffectiveRequirements(iRequirements, requiredWires); Collection substituted = removeSubstitutedCapabilities(iCapabilities, requiredWires); List providedWires = new ArrayList<>(); addProvidedWires(providedWireMap, providedWires, capabilities); InternalUtils.filterCapabilityPermissions(capabilities); return new ModuleWiring(revision, capabilities, requirements, providedWires, requiredWires, substituted); } private static void removePayloadContent(ListIterator iCapabilities, ListIterator iRequirements) { rewind(iCapabilities); while (iCapabilities.hasNext()) { if (!NON_PAYLOAD_CAPABILITIES.contains(iCapabilities.next().getNamespace())) { iCapabilities.remove(); } } rewind(iRequirements); while (iRequirements.hasNext()) { if (!NON_PAYLOAD_REQUIREMENTS.contains(iRequirements.next().getNamespace())) { iRequirements.remove(); } } } private static Collection removeSubstitutedCapabilities(ListIterator iCapabilities, List requiredWires) { Collection substituted = null; for (ModuleWire moduleWire : requiredWires) { if (!PackageNamespace.PACKAGE_NAMESPACE.equals(moduleWire.getCapability().getNamespace())) continue; String packageName = (String) moduleWire.getCapability().getAttributes().get(PackageNamespace.PACKAGE_NAMESPACE); rewind(iCapabilities); while (iCapabilities.hasNext()) { ModuleCapability capability = iCapabilities.next(); if (PackageNamespace.PACKAGE_NAMESPACE.equals(capability.getNamespace())) { if (packageName.equals(capability.getAttributes().get(PackageNamespace.PACKAGE_NAMESPACE))) { // found a package capability with the same name as a package that got imported // this indicates a substitution iCapabilities.remove(); if (substituted == null) { substituted = new ArrayList<>(); } if (!substituted.contains(packageName)) { substituted.add(packageName); } } } } } return substituted == null ? Collections. emptyList() : substituted; } private static void removeNonEffectiveRequirements(ListIterator iRequirements, List requiredWires) { Set wireRequirements = new HashSet<>(); for (ModuleWire mw : requiredWires) { wireRequirements.add(mw.getRequirement()); } rewind(iRequirements); while (iRequirements.hasNext()) { ModuleRequirement requirement = iRequirements.next(); // check the effective directive; Object effective = requirement.getDirectives().get(Namespace.REQUIREMENT_EFFECTIVE_DIRECTIVE); if (effective != null && !Namespace.EFFECTIVE_RESOLVE.equals(effective)) { iRequirements.remove(); } else { if (!wireRequirements.contains(requirement)) { if (!PackageNamespace.PACKAGE_NAMESPACE.equals(requirement.getNamespace())) { iRequirements.remove(); } else { Object resolution = requirement.getDirectives().get(Namespace.REQUIREMENT_RESOLUTION_DIRECTIVE); if (!PackageNamespace.RESOLUTION_DYNAMIC.equals(resolution)) { iRequirements.remove(); } } } } } } void removeNonEffectiveCapabilities(ListIterator iCapabilities) { rewind(iCapabilities); while (iCapabilities.hasNext()) { Capability capability = iCapabilities.next(); Object effective = capability.getDirectives().get(Namespace.CAPABILITY_EFFECTIVE_DIRECTIVE); if (effective != null && !Namespace.EFFECTIVE_RESOLVE.equals(effective)) { iCapabilities.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because it was not effective") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()) // .toString()); } } } } private static void addPayloadContent(List hostWires, ListIterator iCapabilities, ListIterator iRequirements) { if (hostWires == null) return; for (ModuleWire hostWire : hostWires) { // add fragment capabilities String currentNamespace = null; List fragmentCapabilities = hostWire.getRequirer().getModuleCapabilities(null); for (ModuleCapability fragmentCapability : fragmentCapabilities) { if (NON_PAYLOAD_CAPABILITIES.contains(fragmentCapability.getNamespace())) { continue; // don't include, not a payload capability } if (!fragmentCapability.getNamespace().equals(currentNamespace)) { currentNamespace = fragmentCapability.getNamespace(); fastForward(iCapabilities); while (iCapabilities.hasPrevious()) { if (iCapabilities.previous().getNamespace().equals(currentNamespace)) { iCapabilities.next(); // put position after the last one break; } } } iCapabilities.add(fragmentCapability); } // add fragment requirements currentNamespace = null; List fragmentRequriements = hostWire.getRequirer().getModuleRequirements(null); for (ModuleRequirement fragmentRequirement : fragmentRequriements) { if (NON_PAYLOAD_REQUIREMENTS.contains(fragmentRequirement.getNamespace())) { continue; // don't inlcude, not a payload requirement } if (!fragmentRequirement.getNamespace().equals(currentNamespace)) { currentNamespace = fragmentRequirement.getNamespace(); boolean isDynamic = isDynamic(fragmentRequirement); fastForward(iRequirements); while (iRequirements.hasPrevious()) { ModuleRequirement previous = iRequirements.previous(); if (previous.getNamespace().equals(currentNamespace)) { if (isDynamic || !isDynamic(previous)) { iRequirements.next(); // put position after the last one break; } } } } iRequirements.add(fragmentRequirement); } } } static boolean isDynamic(Requirement requirement) { return PackageNamespace.PACKAGE_NAMESPACE.equals(requirement.getNamespace()) && PackageNamespace.RESOLUTION_DYNAMIC.equals(requirement.getDirectives().get(Namespace.REQUIREMENT_RESOLUTION_DIRECTIVE)); } private static void addProvidedWires(Map> toAdd, List existing, final List orderedCapabilities) { if (toAdd == null) return; int originalSize = existing.size(); for (ModuleCapability capability : orderedCapabilities) { List newWires = toAdd.get(capability); if (newWires != null) { existing.addAll(newWires); } } if (originalSize != 0) { Collections.sort(existing, new Comparator() { @Override public int compare(ModuleWire w1, ModuleWire w2) { int index1 = orderedCapabilities.indexOf(w1.getCapability()); int index2 = orderedCapabilities.indexOf(w2.getCapability()); return index1 - index2; } }); } } private static void addRequiredWires(List toAdd, List existing, final List orderedRequirements) { if (toAdd == null) return; int originalSize = existing.size(); existing.addAll(toAdd); if (originalSize != 0) { Collections.sort(existing, new Comparator() { @Override public int compare(ModuleWire w1, ModuleWire w2) { int index1 = orderedRequirements.indexOf(w1.getRequirement()); int index2 = orderedRequirements.indexOf(w2.getRequirement()); return index1 - index2; } }); } } private static void fastForward(ListIterator listIterator) { while (listIterator.hasNext()) listIterator.next(); } static void rewind(ListIterator listIterator) { while (listIterator.hasPrevious()) listIterator.previous(); } private static ModuleWiring createWiringDelta(ModuleRevision revision, ModuleWiring existingWiring, Map> providedWireMap, List requiredWires) { // No null checks are done here on the wires since this is a copy. List existingProvidedWires = existingWiring.getProvidedModuleWires(null); List existingCapabilities = existingWiring.getModuleCapabilities(null); List existingRequiredWires = existingWiring.getRequiredModuleWires(null); List existingRequirements = existingWiring.getModuleRequirements(null); // First, add newly resolved fragment capabilities and requirements if (providedWireMap != null) { List hostCapabilities = revision.getModuleCapabilities(HostNamespace.HOST_NAMESPACE); ModuleCapability hostCapability = hostCapabilities.isEmpty() ? null : hostCapabilities.get(0); List newHostWires = hostCapability == null ? null : providedWireMap.get(hostCapability); if (newHostWires != null) { addPayloadContent(newHostWires, existingCapabilities.listIterator(), existingRequirements.listIterator()); } } // Create a ModuleWiring that only contains the new ordered list of provided wires addProvidedWires(providedWireMap, existingProvidedWires, existingCapabilities); // Also need to include any new required wires that may have be added for fragment hosts // Also will be needed for dynamic imports addRequiredWires(requiredWires, existingRequiredWires, existingRequirements); InternalUtils.filterCapabilityPermissions(existingCapabilities); return new ModuleWiring(revision, existingCapabilities, existingRequirements, existingProvidedWires, existingRequiredWires, Collections.EMPTY_LIST); } static boolean isSingleton(ModuleRevision revision) { List identities = revision.getCapabilities(IdentityNamespace.IDENTITY_NAMESPACE); if (identities.isEmpty()) return false; return "true".equals(identities.get(0).getDirectives().get(IdentityNamespace.CAPABILITY_SINGLETON_DIRECTIVE)); //$NON-NLS-1$ } static Version getVersion(Capability c) { String versionAttr = null; String namespace = c.getNamespace(); if (IdentityNamespace.IDENTITY_NAMESPACE.equals(namespace)) { versionAttr = IdentityNamespace.CAPABILITY_VERSION_ATTRIBUTE; } else if (PackageNamespace.PACKAGE_NAMESPACE.equals(namespace)) { versionAttr = PackageNamespace.CAPABILITY_VERSION_ATTRIBUTE; } else if (BundleNamespace.BUNDLE_NAMESPACE.equals(namespace)) { versionAttr = BundleNamespace.CAPABILITY_BUNDLE_VERSION_ATTRIBUTE; } else if (HostNamespace.HOST_NAMESPACE.equals(namespace)) { versionAttr = HostNamespace.CAPABILITY_BUNDLE_VERSION_ATTRIBUTE; } else { // Just default to version attribute versionAttr = IdentityNamespace.CAPABILITY_VERSION_ATTRIBUTE; } Object version = c.getAttributes().get(versionAttr); return version instanceof Version ? (Version) version : Version.emptyVersion; } class ResolveProcess extends ResolveContext implements Comparator, Executor { class ResolveLogger extends Logger { private Map errors = null; public ResolveLogger() { super(DEBUG_USES ? Logger.LOG_DEBUG : 0); } @Override public void logUsesConstraintViolation(Resource resource, ResolutionError error) { if (errors == null) { errors = new HashMap<>(); } errors.put(resource, error.toException()); if (DEBUG_USES) { Debug.println(new StringBuilder("RESOLVER: Uses constraint violation") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append("Resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB) // .append(resource) // .append(SEPARATOR).append(TAB) // .append("Error") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB) // .append(error.getMessage()) // .toString()); } } Map getUsesConstraintViolations() { return errors == null ? Collections. emptyMap() : errors; } @Override public boolean isDebugEnabled() { return DEBUG_USES; } @Override protected void doLog(int level, String msg, Throwable throwable) { Debug.println("RESOLVER: " + msg + SEPARATOR + (throwable != null ? (TAB + TAB + throwable.getMessage()) : "")); //$NON-NLS-1$ //$NON-NLS-2$ } } private final ModuleResolutionReport.Builder reportBuilder = new ModuleResolutionReport.Builder(); /* * Contains the revisions that were requested to be resolved and is not * modified post instantiation. */ private final Collection unresolved; /* * Contains unresolved revisions that should not be resolved as part of * this process. The reasons they should not be resolved will vary. For * example, some might have been filtered out by the resolver hook while * others represent singleton collisions. It is assumed that all * unresolved revisions are disabled at the start of the resolve * process (see initialization in constructors). Any not filtered out * by ResolverHook.filterResolvable are then removed but may be added * back later for other reasons. */ private final Collection disabled; private final Collection triggers; private final Collection optionals; private final boolean triggersMandatory; final ModuleDatabase moduleDatabase; final Map wirings; private final Set previouslyResolved; private final DynamicModuleRequirement dynamicReq; private volatile ResolverHook hook = null; private volatile Map> byName = null; private volatile List currentlyResolving = null; private volatile boolean currentlyResolvingMandatory = false; private final Set transitivelyResolveFailures = new LinkedHashSet<>(); private final Set failedToResolve = new HashSet<>(); private AtomicBoolean scheduleTimeout = new AtomicBoolean(true); private AtomicReference> timoutFuture = new AtomicReference<>(); /* * Used to generate the UNRESOLVED_PROVIDER resolution report entries. * * The inner map associates a requirement to the set of all matching * capabilities that were found. The outer map associates the requiring * resource to the inner map so that its contents may easily be looked * up from the set of unresolved resources, if any, after the resolution * has occurred. */ private final Map>> unresolvedProviders = new HashMap<>(); ResolveProcess(Collection unresolved, Collection triggers, boolean triggersMandatory, Map wirings, ModuleDatabase moduleDatabase) { this.unresolved = unresolved; this.disabled = new HashSet<>(unresolved); this.triggers = new ArrayList<>(triggers); this.triggersMandatory = triggersMandatory; this.optionals = new LinkedHashSet<>(unresolved); if (this.triggersMandatory) { // do this the hard way because the 'optimization' in removeAll hurts us for (ModuleRevision triggerRevision : triggers) { this.optionals.remove(triggerRevision); } } this.wirings = new HashMap<>(wirings); this.previouslyResolved = new HashSet<>(wirings.keySet()); this.moduleDatabase = moduleDatabase; this.dynamicReq = null; } ResolveProcess(Collection unresolved, DynamicModuleRequirement dynamicReq, Map wirings, ModuleDatabase moduleDatabase) { this.unresolved = unresolved; this.disabled = new HashSet<>(unresolved); ModuleRevision revision = dynamicReq.getRevision(); this.triggers = new ArrayList<>(1); this.triggers.add(revision); this.triggersMandatory = false; this.optionals = new ArrayList<>(unresolved); this.wirings = wirings; this.previouslyResolved = new HashSet<>(wirings.keySet()); this.moduleDatabase = moduleDatabase; this.dynamicReq = dynamicReq; } @Override public List findProviders(Requirement requirement) { Requirement origReq = requirement; Requirement lookupReq = dynamicReq == null || dynamicReq.getOriginal() != requirement ? requirement : dynamicReq; return findProviders0(origReq, lookupReq); } private List findProviders0(Requirement origReq, Requirement lookupReq) { if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Finding capabilities for requirement") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(origReq) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(origReq.getResource()) // .toString()); } List candidates = moduleDatabase.findCapabilities(lookupReq); List result = filterProviders(origReq, candidates); if (DEBUG_PROVIDERS) { StringBuilder builder = new StringBuilder("RESOLVER: Capabilities being returned to the resolver"); //$NON-NLS-1$ int i = 0; for (Capability capability : result) { builder.append(SEPARATOR).append(TAB) // .append("[").append(++i).append("] ") //$NON-NLS-1$ //$NON-NLS-2$ .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()); } Debug.println(builder.toString()); } return result; } private List filterProviders(Requirement requirement, List candidates) { return filterProviders(requirement, candidates, true); } List filterProviders(Requirement requirement, List candidates, boolean filterResolvedHosts) { ListIterator iCandidates = candidates.listIterator(); filterDisabled(iCandidates); removeNonEffectiveCapabilities(iCandidates); removeSubstituted(iCandidates); filterPermissions((BundleRequirement) requirement, iCandidates); List filteredMatches = null; if (DEBUG_PROVIDERS || DEBUG_HOOKS) { filteredMatches = new ArrayList<>(candidates); } hook.filterMatches((BundleRequirement) requirement, InternalUtils.asListBundleCapability(candidates)); if (DEBUG_PROVIDERS || DEBUG_HOOKS) { filteredMatches.removeAll(candidates); if (!filteredMatches.isEmpty()) { StringBuilder builder = new StringBuilder("RESOLVER: Capabilities filtered by ResolverHook.filterMatches"); //$NON-NLS-1$ int i = 0; for (Capability capability : filteredMatches) { builder.append(SEPARATOR).append(TAB) // .append("[").append(++i).append("] ") //$NON-NLS-1$ //$NON-NLS-2$ .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()); } Debug.println(builder.toString()); } } // filter resolved hosts after calling hooks to allow hooks to see the host capability filterResolvedHosts(requirement, candidates, filterResolvedHosts); if (candidates.isEmpty()) { if (!wirings.containsKey(requirement.getResource()) || isDynamic(requirement)) { reportBuilder.addEntry(requirement.getResource(), Entry.Type.MISSING_CAPABILITY, requirement); String resolution = requirement.getDirectives().get(Namespace.REQUIREMENT_RESOLUTION_DIRECTIVE); if ((resolution == null || Namespace.RESOLUTION_MANDATORY.equals(resolution))) { transitivelyResolveFailures.add(requirement.getResource()); } } } else { computeUnresolvedProviders(requirement, candidates); } filterFailedToResolve(candidates); Collections.sort(candidates, this); return InternalUtils.asListCapability(candidates); } private void filterFailedToResolve(List candidates) { for (Iterator iCandidates = candidates.iterator(); iCandidates.hasNext();) { ModuleCapability capability = iCandidates.next(); if (failedToResolve.contains(capability.getRevision())) { iCandidates.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because its resource was not resolved") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()) // .toString()); } } } } private void filterResolvedHosts(Requirement requirement, List candidates, boolean filterResolvedHosts) { if (filterResolvedHosts && HostNamespace.HOST_NAMESPACE.equals(requirement.getNamespace())) { for (Iterator iCandidates = candidates.iterator(); iCandidates.hasNext();) { if (wirings.containsKey(iCandidates.next().getRevision())) { iCandidates.remove(); } } } } private void filterPermissions(BundleRequirement requirement, ListIterator iCandidates) { rewind(iCandidates); if (System.getSecurityManager() == null || !iCandidates.hasNext()) { return; } if (requirement.getRevision().getBundle() == null) { // this container is not modeling a real framework, no permission check is done return; } candidates: while (iCandidates.hasNext()) { ModuleCapability candidate = iCandidates.next(); // TODO this is a hack for when a bundle imports and exports the same package if (PackageNamespace.PACKAGE_NAMESPACE.equals(requirement.getNamespace())) { if (requirement.getRevision().equals(candidate.getRevision())) { continue candidates; } } Permission requirePermission = InternalUtils.getRequirePermission(candidate); Permission providePermission = InternalUtils.getProvidePermission(candidate); if (!requirement.getRevision().getBundle().hasPermission(requirePermission)) { iCandidates.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because requirer did not have permission") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(candidate) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(candidate.getResource()) // .toString()); } } else if (!candidate.getRevision().getBundle().hasPermission(providePermission)) { iCandidates.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because provider did not have permission") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(candidate) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(candidate.getResource()) // .toString()); } } } } private void filterDisabled(ListIterator iCandidates) { rewind(iCandidates); while (iCandidates.hasNext()) { Capability capability = iCandidates.next(); if (disabled.contains(capability.getResource())) { iCandidates.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because it was disabled") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()) // .toString()); } } } } private void removeSubstituted(ListIterator iCapabilities) { rewind(iCapabilities); while (iCapabilities.hasNext()) { ModuleCapability capability = iCapabilities.next(); ModuleWiring wiring = wirings.get(capability.getRevision()); if (wiring != null && wiring.isSubtituted(capability)) { iCapabilities.remove(); if (DEBUG_PROVIDERS) { Debug.println(new StringBuilder("RESOLVER: Capability filtered because it was substituted") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append(capability) // .append(SEPARATOR).append(TAB).append(TAB) // .append("of resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB).append(TAB) // .append(capability.getResource()) // .toString()); } } } } @Override public int insertHostedCapability(List capabilities, HostedCapability hostedCapability) { int index = Collections.binarySearch(capabilities, hostedCapability, this); if (index < 0) index = -index - 1; capabilities.add(index, hostedCapability); return index; } @Override public boolean isEffective(Requirement requirement) { String effective = requirement.getDirectives().get(Namespace.REQUIREMENT_EFFECTIVE_DIRECTIVE); return effective == null || Namespace.EFFECTIVE_RESOLVE.equals(effective); } @SuppressWarnings("unchecked") @Override public Map getWirings() { Map raw = wirings; return Collections.unmodifiableMap((Map) raw); } @Override public Collection getMandatoryResources() { if (currentlyResolvingMandatory) { return Collections.unmodifiableList(currentlyResolving); } return Collections.emptyList(); } @Override public Collection getOptionalResources() { if (!currentlyResolvingMandatory) { return Collections.unmodifiableList(currentlyResolving); } return Collections.emptyList(); } @Override public Collection findRelatedResources(Resource host) { // for the container we only care about fragments for related resources List hostCaps = ((ModuleRevision) host).getModuleCapabilities(HostNamespace.HOST_NAMESPACE); if (hostCaps.isEmpty()) { return Collections.emptyList(); } Collection relatedFragments = new ArrayList<>(); for (String hostBSN : getHostBSNs(hostCaps)) { String matchFilter = "(" + EquinoxFragmentNamespace.FRAGMENT_NAMESPACE + "=" + hostBSN + ")"; //$NON-NLS-1$//$NON-NLS-2$//$NON-NLS-3$ Requirement fragmentRequirement = ModuleContainer.createRequirement(EquinoxFragmentNamespace.FRAGMENT_NAMESPACE, Collections. singletonMap(Namespace.REQUIREMENT_FILTER_DIRECTIVE, matchFilter), Collections. emptyMap()); List candidates = moduleDatabase.findCapabilities(fragmentRequirement); // filter out disabled fragments and singletons filterDisabled(candidates.listIterator()); for (Iterator iCandidates = candidates.iterator(); iCandidates.hasNext();) { ModuleCapability candidate = iCandidates.next(); ModuleRequirement hostReq = candidate.getRevision().getModuleRequirements(HostNamespace.HOST_NAMESPACE).get(0); for (ModuleCapability hostCap : hostCaps) { if (hostReq.matches(hostCap)) { relatedFragments.add(candidate.getResource()); break; } } } } return relatedFragments; } private Collection getHostBSNs(List hostCaps) { if (hostCaps.size() == 1) { // optimization and likely the only case since you are not supposed to have multiple host caps return getHostBSNs(hostCaps.get(0)); } Set result = new HashSet<>(); for (ModuleCapability hostCap : hostCaps) { result.addAll(getHostBSNs(hostCap)); } return result; } @SuppressWarnings("unchecked") private Collection getHostBSNs(ModuleCapability moduleCapability) { Object namesAttr = moduleCapability.getAttributes().get(HostNamespace.HOST_NAMESPACE); if (namesAttr instanceof String) { return Collections.singletonList((String) namesAttr); } if (namesAttr instanceof String[]) { return Arrays.asList((String[]) namesAttr); } if (namesAttr instanceof Collection) { return (Collection) namesAttr; } return Collections.emptyList(); } ModuleResolutionReport resolve() { if (threadResolving()) { // throw up a runtime exception, if this is caused by a resolver hook // then it will get caught at the call to the resolver hook and a proper exception is thrown throw new IllegalStateException(Msg.ModuleResolver_RecursiveError); } threadResolving.set(Boolean.TRUE); try { try { hook = adaptor.getResolverHookFactory().begin(InternalUtils.asListBundleRevision((List) triggers)); } catch (RuntimeException e) { if (e.getCause() instanceof BundleException) { BundleException be = (BundleException) e.getCause(); if (be.getType() == BundleException.REJECTED_BY_HOOK) { return new ModuleResolutionReport(null, Collections.> emptyMap(), new ResolutionException(be)); } } throw e; } Map> result = null; ResolutionException re = null; ModuleResolutionReport report; ResolveLogger logger = new ResolveLogger(); try { filterResolvable(); selectSingletons(); // remove disabled from optional and triggers to prevent the resolver from resolving them optionals.removeAll(disabled); if (triggers.removeAll(disabled) && triggersMandatory) { throw new ResolutionException(Msg.ModuleResolver_SingletonDisabledError + disabled); } if (dynamicReq != null) { result = resolveDynamic(); } else { result = new HashMap<>(); Map> dynamicAttachWirings = resolveNonPayLoadFragments(); applyInterimResultToWiringCopy(dynamicAttachWirings); if (!dynamicAttachWirings.isEmpty()) { // be sure to remove the revisions from the optional and triggers // so they no longer attempt to be resolved Set fragmentResources = dynamicAttachWirings.keySet(); triggers.removeAll(fragmentResources); optionals.removeAll(fragmentResources); result.putAll(dynamicAttachWirings); } if (triggersMandatory) { resolveRevisionsInBatch(triggers, true, logger, result); } resolveRevisionsInBatch(optionals, false, logger, result); } } catch (ResolutionException e) { re = e; } finally { ScheduledFuture f = timoutFuture.getAndSet(null); if (f != null) { f.cancel(true); } computeUnresolvedProviderResolutionReportEntries(result); computeUsesConstraintViolations(logger.getUsesConstraintViolations()); if (DEBUG_WIRING) { printWirings(result); } report = reportBuilder.build(result, re); if (DEBUG_REPORT) { if (report.getResolutionException() != null) { Debug.printStackTrace(report.getResolutionException()); } Set resources = report.getEntries().keySet(); if (!resources.isEmpty()) { Debug.println("RESOLVER: Resolution report"); //$NON-NLS-1$ for (Resource resource : report.getEntries().keySet()) { Debug.println(report.getResolutionReportMessage(resource)); } } } if (hook instanceof ResolutionReport.Listener) ((ResolutionReport.Listener) hook).handleResolutionReport(report); hook.end(); } return report; } finally { threadResolving.set(Boolean.FALSE); } } private void printWirings(Map> wires) { StringBuilder builder = new StringBuilder("RESOLVER: Wirings for resolved bundles:"); //$NON-NLS-1$ if (wires == null) { Debug.println(" null wires!"); //$NON-NLS-1$ return; } for (Map.Entry> entry : wires.entrySet()) { builder.append(SEPARATOR).append(TAB) // .append("Resource") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB) // .append(entry.getKey()) // .append(SEPARATOR).append(TAB) // .append("Wiring"); //$NON-NLS-1$ int i = 0; for (Wire wire : entry.getValue()) { builder.append(SEPARATOR).append(TAB).append(TAB) // .append('[').append(++i).append("] ") //$NON-NLS-1$ .append(wire); } } Debug.println(builder); } private void resolveRevisionsInBatch(Collection revisions, boolean isMandatory, ResolveLogger logger, Map> result) throws ResolutionException { long startTime = System.currentTimeMillis(); long initialFreeMemory = Runtime.getRuntime().freeMemory(); long maxUsedMemory = 0; // make a copy so we do not modify the input revisions = new LinkedList<>(revisions); List toResolve = new ArrayList<>(); try { for (Iterator iResources = revisions.iterator(); iResources.hasNext();) { ModuleRevision single = iResources.next(); iResources.remove(); if (!wirings.containsKey(single) && !failedToResolve.contains(single)) { toResolve.add(single); } if (toResolve.size() == resolverRevisionBatchSize || !iResources.hasNext()) { if (DEBUG_ROOTS) { Debug.println("Resolver: resolving " + toResolve.size() + " in batch."); //$NON-NLS-1$ //$NON-NLS-2$ for (Resource root : toResolve) { Debug.println(" Resolving root bundle: " + root); //$NON-NLS-1$ } } resolveRevisions(toResolve, isMandatory, logger, result); toResolve.clear(); } maxUsedMemory = Math.max(maxUsedMemory, Runtime.getRuntime().freeMemory() - initialFreeMemory); } } catch (ResolutionException resolutionException) { if (resolutionException.getCause() instanceof CancellationException) { // revert back to single bundle resolves resolveRevisionsIndividually(isMandatory, logger, result, toResolve, revisions); } else { throw resolutionException; } } catch (OutOfMemoryError memoryError) { // revert back to single bundle resolves resolveRevisionsIndividually(isMandatory, logger, result, toResolve, revisions); } if (DEBUG_ROOTS) { Debug.println("Resolver: resolve batch size: " + resolverRevisionBatchSize); //$NON-NLS-1$ Debug.println("Resolver: time to resolve: " + (System.currentTimeMillis() - startTime) + "ms"); //$NON-NLS-1$ //$NON-NLS-2$ Debug.println("Resolver: max used memory: " + maxUsedMemory / (1024 * 1024) + "Mo"); //$NON-NLS-1$ //$NON-NLS-2$ } } private void resolveRevisionsIndividually(boolean isMandatory, ResolveLogger logger, Map> result, Collection toResolve, Collection revisions) throws ResolutionException { scheduleTimeout.set(false); for (Resource resource : toResolve) { if (!wirings.containsKey(resource) && !failedToResolve.contains(resource)) { resolveRevisions(Collections.singletonList(resource), isMandatory, logger, result); } } for (Resource resource : revisions) { if (!wirings.containsKey(resource) && !failedToResolve.contains(resource)) { resolveRevisions(Collections.singletonList(resource), isMandatory, logger, result); } } } private void resolveRevisions(List revisions, boolean isMandatory, ResolveLogger logger, Map> result) throws ResolutionException { boolean applyTransitiveFailures = true; currentlyResolving = revisions; currentlyResolvingMandatory = isMandatory; transitivelyResolveFailures.clear(); Map> interimResults = null; try { transitivelyResolveFailures.addAll(revisions); interimResults = new ResolverImpl(logger, this).resolve(this); applyInterimResultToWiringCopy(interimResults); if (DEBUG_ROOTS) { Debug.println("Resolver: resolved " + interimResults.size() + " bundles."); //$NON-NLS-1$ //$NON-NLS-2$ } // now apply the simple wires to the results for (Map.Entry> interimResultEntry : interimResults.entrySet()) { if (DEBUG_ROOTS) { Debug.println(" Resolved bundle: " + interimResultEntry.getKey()); //$NON-NLS-1$ } List existingWires = result.get(interimResultEntry.getKey()); if (existingWires != null) { existingWires.addAll(interimResultEntry.getValue()); } else { result.put(interimResultEntry.getKey(), interimResultEntry.getValue()); } } } catch (ResolutionException resolutionException) { if (resolutionException.getCause() instanceof CancellationException) { applyTransitiveFailures = false; } throw resolutionException; } catch (OutOfMemoryError memoryError) { applyTransitiveFailures = false; throw memoryError; } finally { if (applyTransitiveFailures) { transitivelyResolveFailures.addAll(logger.getUsesConstraintViolations().keySet()); if (interimResults != null) { transitivelyResolveFailures.removeAll(interimResults.keySet()); } // what is left did not resolve if (!transitivelyResolveFailures.isEmpty()) { failedToResolve.addAll(transitivelyResolveFailures); } } currentlyResolving = null; currentlyResolvingMandatory = false; } } private void applyInterimResultToWiringCopy(Map> interimResult) { if (!interimResult.isEmpty()) { // update the copy of wirings to include interim results Map updatedWirings = generateDelta(interimResult, wirings); for (Map.Entry updatedWiring : updatedWirings.entrySet()) { wirings.put(updatedWiring.getKey(), updatedWiring.getValue()); } } } private void computeUsesConstraintViolations(Map usesConstraintViolations) { for (Map.Entry usesConstraintViolation : usesConstraintViolations.entrySet()) { reportBuilder.addEntry(usesConstraintViolation.getKey(), Type.USES_CONSTRAINT_VIOLATION, usesConstraintViolation.getValue()); } } /* * Given the results of a resolution, compute which, if any, of the * enabled, resolving resources are still unresolved. For those that are * unresolved, generate resolution report entries for unresolved * providers, if necessary. */ private void computeUnresolvedProviderResolutionReportEntries(Map> resolution) { // Create a collection representing the resources asked to be // resolved. Collection shouldHaveResolvedResources = new ArrayList(unresolved); // Remove disabled resources. shouldHaveResolvedResources.removeAll(disabled); // Remove resolved resources, if necessary. The resolution will be // null if the resolver threw an exception because the triggers // were mandatory but didn't resolve. if (resolution != null) shouldHaveResolvedResources.removeAll(resolution.keySet()); // What remains are resources that should have resolved but didn't. // For each resource, add report entries for any unresolved // providers. for (Resource shouldHaveResolvedResource : shouldHaveResolvedResources) { Map> requirementToCapabilities = unresolvedProviders.get(shouldHaveResolvedResource); if (requirementToCapabilities == null) continue; // If nothing resolved then there are no resolved resources to // filter out. if (resolution != null) { // Filter out capability providers that resolved. for (Iterator> values = requirementToCapabilities.values().iterator(); values.hasNext();) { Set value = values.next(); for (Iterator capabilities = value.iterator(); capabilities.hasNext();) if (resolution.containsKey(capabilities.next().getResource())) // Remove the resolved capability provider. capabilities.remove(); if (value.isEmpty()) // Remove the requirement that has no unresolved // capability providers. values.remove(); } } // Add a report entry if there are any remaining requirements // pointing to unresolved capability providers. if (!requirementToCapabilities.isEmpty()) reportBuilder.addEntry(shouldHaveResolvedResource, Entry.Type.UNRESOLVED_PROVIDER, requirementToCapabilities); } } /* * Given a requirement and its matching capabilities, map the * requirement's resource to the requirement and matching capabilities. * This data is used to compute report entries for resources that did * not resolve because a provider did not resolve. */ private void computeUnresolvedProviders(Requirement requirement, Collection capabilities) { Resource requirer = requirement.getResource(); Map> requirementToCapabilities = unresolvedProviders.get(requirer); if (requirementToCapabilities == null) { requirementToCapabilities = new HashMap<>(); unresolvedProviders.put(requirer, requirementToCapabilities); } Set value = requirementToCapabilities.get(requirement); if (value == null) { value = new HashSet<>(capabilities.size()); requirementToCapabilities.put(requirement, value); } for (Capability capability : capabilities) if (!wirings.containsKey(capability.getResource())) value.add(capability); } class DynamicFragments { private final ModuleCapability hostCapability; private final Map fragments = new HashMap<>(); private final Set validProviders = new HashSet<>(); boolean fragmentAdded = false; DynamicFragments(ModuleWiring hostWiring, ModuleCapability hostCapability) { this.hostCapability = hostCapability; validProviders.add(hostWiring.getRevision()); for (ModuleWire hostWire : hostWiring.getProvidedModuleWires(HostNamespace.HOST_NAMESPACE)) { validProviders.add(hostWire.getRequirer()); fragments.put(hostWire.getRequirer().getSymbolicName(), hostWire.getRequirer()); } } void addFragment(ModuleRevision fragment) { ModuleRevision existing = fragments.get(fragment.getSymbolicName()); if (existing == null) { fragments.put(fragment.getSymbolicName(), fragment); validProviders.add(fragment); fragmentAdded = true; } } Map> getNewWires() { if (!fragmentAdded) { return Collections.emptyMap(); } Map> result = new HashMap<>(); boolean retry; do { retry = false; result.clear(); fragmentsLoop: for (Iterator> iFragments = fragments.entrySet().iterator(); iFragments.hasNext();) { Map.Entry fragmentEntry = iFragments.next(); if (wirings.get(fragmentEntry.getValue()) == null) { for (ModuleRequirement req : fragmentEntry.getValue().getModuleRequirements(null)) { ModuleRevision requirer = NON_PAYLOAD_REQUIREMENTS.contains(req.getNamespace()) ? req.getRevision() : hostCapability.getRevision(); List newWires = result.get(requirer); if (newWires == null) { newWires = new ArrayList<>(); result.put(requirer, newWires); } if (HostNamespace.HOST_NAMESPACE.equals(req.getNamespace())) { newWires.add(new ModuleWire(hostCapability, hostCapability.getRevision(), req, requirer)); } else { if (failToWire(req, requirer, newWires)) { iFragments.remove(); validProviders.remove(req.getRevision()); retry = true; break fragmentsLoop; } } } } } } while (retry); return result; } private boolean failToWire(ModuleRequirement requirement, ModuleRevision requirer, List wires) { List matching = moduleDatabase.findCapabilities(requirement); List newWires = new ArrayList<>(0); filterProviders(requirement, matching, false); for (ModuleCapability candidate : matching) { // If the requirer equals the requirement revision then this is a non-payload requirement. // We let non-payload requirements come from anywhere. // Payload requirements must come from the host or one of the fragments attached to the host if (requirer.equals(requirement.getRevision()) || validProviders.contains(candidate.getRevision())) { ModuleRevision provider = NON_PAYLOAD_CAPABILITIES.contains(candidate.getNamespace()) ? candidate.getRevision() : hostCapability.getRevision(); // if there are multiple candidates; then check for cardinality if (newWires.isEmpty() || Namespace.CARDINALITY_MULTIPLE.equals(requirement.getDirectives().get(Namespace.REQUIREMENT_CARDINALITY_DIRECTIVE))) { newWires.add(new ModuleWire(candidate, provider, requirement, requirer)); } } } if (newWires.isEmpty()) { if (!Namespace.RESOLUTION_OPTIONAL.equals(requirement.getDirectives().get(Namespace.REQUIREMENT_RESOLUTION_DIRECTIVE))) { // could not resolve mandatory requirement; return true; } } // only create the wire if the namespace is a non-substituted namespace (e.g. NOT package) if (!NON_SUBSTITUTED_REQUIREMENTS.contains(requirement.getNamespace())) { wires.addAll(newWires); } return false; } } private Map> resolveNonPayLoadFragments() { // This is to support dynamic attachment of fragments that do not // add any payload requirements to their host. // This is needed for framework extensions since the system bundle // host is always resolved. // It is also useful for things like NLS fragments that are installed later // without the need to refresh the host. List dynamicAttachableFrags = new ArrayList<>(); if (triggersMandatory) { for (ModuleRevision moduleRevision : triggers) { if ((moduleRevision.getTypes() & BundleRevision.TYPE_FRAGMENT) != 0) { dynamicAttachableFrags.add(moduleRevision); } } } for (ModuleRevision moduleRevision : optionals) { if ((moduleRevision.getTypes() & BundleRevision.TYPE_FRAGMENT) != 0) { dynamicAttachableFrags.add(moduleRevision); } } if (dynamicAttachableFrags.isEmpty()) { return Collections.emptyMap(); } Collections.sort(dynamicAttachableFrags, new Comparator() { @Override public int compare(ModuleRevision r1, ModuleRevision r2) { // we only care about versions here return -(r1.getVersion().compareTo(r2.getVersion())); } }); Map hostDynamicFragments = new HashMap<>(); // first find the hosts to dynamically attach to for (ModuleRevision dynamicAttachableFragment : dynamicAttachableFrags) { List requirements = dynamicAttachableFragment.getModuleRequirements(null); for (ModuleRequirement requirement : requirements) { if (HostNamespace.HOST_NAMESPACE.equals(requirement.getNamespace())) { List matchingHosts = moduleDatabase.findCapabilities(requirement); filterProviders(requirement, matchingHosts, false); for (ModuleCapability hostCandidate : matchingHosts) { ModuleWiring hostWiring = wirings.get(hostCandidate.getRevision()); String attachDirective = hostCandidate.getDirectives().get(HostNamespace.CAPABILITY_FRAGMENT_ATTACHMENT_DIRECTIVE); boolean attachAlways = attachDirective == null || HostNamespace.FRAGMENT_ATTACHMENT_ALWAYS.equals(attachDirective); // only do this if the candidate host is already resolved and it allows dynamic attachment if (!attachAlways || hostWiring == null) { continue; } DynamicFragments dynamicFragments = hostDynamicFragments.get(hostCandidate); if (dynamicFragments == null) { dynamicFragments = new DynamicFragments(hostWiring, hostCandidate); hostDynamicFragments.put(hostCandidate, dynamicFragments); } dynamicFragments.addFragment(requirement.getRevision()); } } } } // now try to get the new wires for each host Map> dynamicWires = new HashMap<>(); for (DynamicFragments dynamicFragments : hostDynamicFragments.values()) { dynamicWires.putAll(dynamicFragments.getNewWires()); } return dynamicWires; } private Map> resolveDynamic() throws ResolutionException { return new ResolverImpl(new Logger(0), null).resolveDynamic(this, dynamicReq.getRevision().getWiring(), dynamicReq.getOriginal()); } private void filterResolvable() { Collection enabledCandidates = new ArrayList<>(unresolved); hook.filterResolvable(InternalUtils.asListBundleRevision((List) enabledCandidates)); // do this the hard way because the 'optimization' in removeAll hurts us for (ModuleRevision enabledRevision : enabledCandidates) { disabled.remove(enabledRevision); } for (ModuleRevision revision : disabled) { reportBuilder.addEntry(revision, Entry.Type.FILTERED_BY_RESOLVER_HOOK, null); if (DEBUG_HOOKS) { Debug.println("RESOLVER: Resource filtered by ResolverHook.filterResolvable: " + revision); //$NON-NLS-1$ } } } private void selectSingletons() { Map> selectedSingletons = new HashMap<>(); for (ModuleRevision revision : unresolved) { if (!isSingleton(revision) || disabled.contains(revision)) continue; String bsn = revision.getSymbolicName(); Collection selected = selectedSingletons.get(bsn); if (selected != null) continue; // already processed the bsn selected = new ArrayList<>(1); selectedSingletons.put(bsn, selected); Collection sameBSN = getRevisions(bsn); if (sameBSN.size() < 2) { selected.add(revision); continue; } // prime selected with resolved singleton bundles for (ModuleRevision singleton : sameBSN) { if (isSingleton(singleton) && wirings.containsKey(singleton)) selected.add(singleton); } // get the collision map for the BSN Map> collisionMap = getCollisionMap(sameBSN); // process the collision map for (ModuleRevision singleton : sameBSN) { if (selected.contains(singleton)) continue; // no need to process resolved bundles Collection collisions = collisionMap.get(singleton); if (collisions == null || disabled.contains(singleton)) continue; // not a singleton or not resolvable Collection pickOneToResolve = new ArrayList<>(); for (ModuleRevision collision : collisions) { if (selected.contains(collision)) { // Must fail since there is already a selected bundle which is a collision of the singleton bundle disabled.add(singleton); reportBuilder.addEntry(singleton, Type.SINGLETON_SELECTION, collision); break; } if (!pickOneToResolve.contains(collision)) pickOneToResolve.add(collision); } if (!disabled.contains(singleton)) { // need to make sure the bundle does not collide from the POV of another entry for (Map.Entry> collisionEntry : collisionMap.entrySet()) { if (collisionEntry.getKey() != singleton && collisionEntry.getValue().contains(singleton)) { if (selected.contains(collisionEntry.getKey())) { // Must fail since there is already a selected bundle for which the singleton bundle is a collision disabled.add(singleton); reportBuilder.addEntry(singleton, Type.SINGLETON_SELECTION, collisionEntry.getKey()); break; } if (!pickOneToResolve.contains(collisionEntry.getKey())) pickOneToResolve.add(collisionEntry.getKey()); } } } if (!disabled.contains(singleton)) { pickOneToResolve.add(singleton); selected.add(pickOneToResolve(pickOneToResolve)); } } } } private Collection getRevisions(String name) { Map> current = byName; if (current == null) { // generate the map using unresolved collection and wiring snap shot // this is to avoid interacting with the module database Set revisions = new HashSet<>(); revisions.addAll(unresolved); revisions.addAll(previouslyResolved); current = new HashMap<>(); for (ModuleRevision revision : revisions) { Collection sameName = current.get(revision.getSymbolicName()); if (sameName == null) { sameName = new ArrayList<>(); current.put(revision.getSymbolicName(), sameName); } sameName.add(revision); } byName = current; } Collection result = current.get(name); if (result == null) { return Collections.emptyList(); } return result; } private ModuleRevision pickOneToResolve(Collection pickOneToResolve) { ModuleRevision selectedVersion = null; for (ModuleRevision singleton : pickOneToResolve) { if (selectedVersion == null) selectedVersion = singleton; boolean higherVersion = selectedVersion.getVersion().compareTo(singleton.getVersion()) < 0; if (higherVersion) selectedVersion = singleton; } for (ModuleRevision singleton : pickOneToResolve) { if (singleton != selectedVersion) { disabled.add(singleton); reportBuilder.addEntry(singleton, Type.SINGLETON_SELECTION, selectedVersion); } } return selectedVersion; } private Map> getCollisionMap(Collection sameBSN) { Map> result = new HashMap<>(); for (ModuleRevision singleton : sameBSN) { if (!isSingleton(singleton) || disabled.contains(singleton)) continue; // ignore non-singleton and non-resolvable List capabilities = new ArrayList<>(sameBSN.size() - 1); for (ModuleRevision collision : sameBSN) { if (collision == singleton || !isSingleton(collision) || disabled.contains(collision)) continue; // Ignore the bundle we are checking and non-singletons and non-resolvable capabilities.add(getIdentity(collision)); } hook.filterSingletonCollisions(getIdentity(singleton), capabilities); Collection collisionCandidates = new ArrayList<>(capabilities.size()); for (BundleCapability identity : capabilities) { collisionCandidates.add((ModuleRevision) identity.getRevision()); } if (DEBUG_HOOKS) { Collection filteredSingletons = new ArrayList<>(sameBSN); filteredSingletons.removeAll(collisionCandidates); filteredSingletons.remove(singleton); if (!filteredSingletons.isEmpty()) { StringBuilder builder = new StringBuilder("RESOLVER: Resources filtered by ResolverHook.filterSingletonCollisions") //$NON-NLS-1$ .append(SEPARATOR).append(TAB) // .append("Singleton") //$NON-NLS-1$ .append(SEPARATOR).append(TAB).append(TAB) // .append(singleton) // .append(" [id=") //$NON-NLS-1$ .append(singleton.getRevisions().getModule().getId()) // .append(", location=") //$NON-NLS-1$ .append(singleton.getRevisions().getModule().getLocation()) // .append(']') // .append(SEPARATOR).append(TAB) // .append("Collisions"); //$NON-NLS-1$ int i = 0; for (ModuleRevision revision : filteredSingletons) { builder.append(SEPARATOR).append(TAB).append(TAB) // .append("[").append(++i).append("] ") //$NON-NLS-1$ //$NON-NLS-2$ .append(revision) // .append(" [id=") //$NON-NLS-1$ .append(revision.getRevisions().getModule().getId()) // .append(", location=") //$NON-NLS-1$ .append(revision.getRevisions().getModule().getLocation()) // .append(']'); } Debug.println(builder.toString()); } } result.put(singleton, collisionCandidates); } return result; } private BundleCapability getIdentity(ModuleRevision bundle) { List identities = bundle.getDeclaredCapabilities(IdentityNamespace.IDENTITY_NAMESPACE); return identities.isEmpty() ? null : identities.get(0); } @Override public int compare(Capability c1, Capability c2) { // TODO Ideally this policy should be handled by the ModuleDatabase. // To do that the wirings would have to be provided since the wirings may // be a subset of the current wirings provided by the ModuleDatabase boolean resolved1 = previouslyResolved.contains(c1.getResource()); boolean resolved2 = previouslyResolved.contains(c2.getResource()); if (resolved1 != resolved2) return resolved1 ? -1 : 1; Version v1 = getVersion(c1); Version v2 = getVersion(c2); int versionCompare = -(v1.compareTo(v2)); if (versionCompare != 0) return versionCompare; ModuleRevision m1 = getModuleRevision(c1); ModuleRevision m2 = getModuleRevision(c2); Long id1 = m1.getRevisions().getModule().getId(); Long id2 = m2.getRevisions().getModule().getId(); if (id1.equals(id2) && !m1.equals(m2)) { // sort based on revision ordering List revisions = m1.getRevisions().getModuleRevisions(); int index1 = revisions.indexOf(m1); int index2 = revisions.indexOf(m2); // we want to sort the indexes from highest to lowest return index2 - index1; } return id1.compareTo(id2); } ModuleRevision getModuleRevision(Capability c) { // We assume all capabilities here either come from us and have ModuleRevision resources or // they are HostedCapabilities which have ModuleRevision resources as the host revision if (c instanceof HostedCapability) { c = ((HostedCapability) c).getDeclaredCapability(); } if (c instanceof ModuleCapability) { return ((ModuleCapability) c).getRevision(); } // TODO is there some bug in the resolver? return null; } @Override public void execute(Runnable command) { adaptor.getResolverExecutor().execute(command); } @Override public void onCancel(Runnable callback) { // Note that for each resolve Process we only want timeout the initial batch resolve if (scheduleTimeout.compareAndSet(true, false)) { ScheduledExecutorService scheduledExecutor = adaptor.getScheduledExecutor(); if (scheduledExecutor != null) { try { timoutFuture.set(scheduledExecutor.schedule(callback, resolverBatchTimeout, TimeUnit.MILLISECONDS)); } catch (RejectedExecutionException e) { // ignore may have been shutdown, it is ok we will not be able to timeout } } } } @Override public List getSubstitutionWires(Wiring wiring) { return ((ModuleWiring) wiring).getSubstitutionWires(); } } protected boolean threadResolving() { Boolean resolvingValue = this.threadResolving.get(); if (resolvingValue == null) { return false; } return resolvingValue.booleanValue(); } }





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