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/*******************************************************************************
 * Copyright (c) 2003, 2012 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.service.resolver;

import java.util.*;
import org.osgi.framework.BundleException;
import org.osgi.framework.Version;
import org.osgi.framework.hooks.resolver.ResolverHookFactory;

/**
 * The state of a system as reported by a resolver. This includes all bundles
 * presented to the resolver relative to this state (i.e., both resolved and
 * unresolved).
 * 

* This interface is not intended to be implemented by clients. The * {@link StateObjectFactory} should be used to construct instances. *

* @since 3.1 * @noimplement This interface is not intended to be implemented by clients. */ public interface State { /** * Adds the given bundle to this state. *

* If the bundle already exists in another state then an IllegalStateException * will be thrown. Note that even if you remove a BundleDescription from * one State object using {@link State#removeBundle(BundleDescription)} it * may still be considered as removing pending if other bundles in that state depend on the * bundle you removed. To complete a pending removal a call must be done to * {@link State#resolve(BundleDescription[])} with the removed bundle. *

* * @param description the description to add * @return a boolean indicating whether the bundle was successfully added * @throws IllegalStateException if the bundle already exists in another state */ public boolean addBundle(BundleDescription description); /** * Returns a delta describing the differences between this state and the * given state. The given state is taken as the base so the absence of a bundle * in this state is reported as a deletion, etc. *

Note that the generated StateDelta will contain BundleDeltas with one *of the following types: BundleDelta.ADDED, BundleDelta.REMOVED and *BundleDelta.UPDATED

* * @param baseState the base state * @return a delta describing differences between this and the base state state */ public StateDelta compare(State baseState) throws BundleException; /** * Removes a bundle description with the given bundle id. * * @param bundleId the id of the bundle description to be removed * @return the removed bundle description, or null, if a bundle * with the given id does not exist in this state */ public BundleDescription removeBundle(long bundleId); /** * Removes the given bundle description. * * @param bundle the bundle description to be removed * @return true, if if the bundle description was removed, * false otherwise */ public boolean removeBundle(BundleDescription bundle); /** * Updates an existing bundle description with the given description. * * @param newDescription the bundle description to replace an existing one * @return true, if if the bundle description was updated, * false otherwise */ public boolean updateBundle(BundleDescription newDescription); /** * Returns the delta representing the changes from the time this state was * first captured until now. * * @return the state delta */ public StateDelta getChanges(); /** * Returns descriptions for all bundles known to this state. * * @return the descriptions for all bundles known to this state. */ public BundleDescription[] getBundles(); /** * Returns the bundle descriptor for the bundle with the given id. * null is returned if no such bundle is found in * this state. * * @return the descriptor for the identified bundle * @see BundleDescription#getBundleId() */ public BundleDescription getBundle(long id); /** * Returns the bundle descriptor for the bundle with the given name and * version. A null value is returned if no such bundle is found in this state. * A resolved bundle is always preferably returned over an unresolved bundle. * If multiple bundles with the same resolution state are available, the bundle * with the highest version number is returned if the version is * null. * * @param symbolicName symbolic name of the bundle to query * @param version version of the bundle to query. null matches any bundle * @return the descriptor for the identified bundle */ public BundleDescription getBundle(String symbolicName, Version version); /** * Returns the bundle descriptor for the bundle with the given location * identifier. null is returned if no such bundle is found in this state. * * @param location location identifier of the bundle to query * @return the descriptor for the identified bundle */ public BundleDescription getBundleByLocation(String location); /** * Returns the timestamp for this state. This * correlates this timestamp to the system state. For example, if * the system state timestamp is 4 but then some bundles are installed, * the system state timestamp is updated. By comparing 4 to the current system * state timestamp it is possible to detect if the states are out of sync. * * @return the timestamp of this state */ public long getTimeStamp(); /** * Sets the timestamp for this state * @param newTimeStamp the new timestamp for this state */ public void setTimeStamp(long newTimeStamp); /** * Returns true if there have been no modifications to this state since the * last time resolve() was called. * * @return whether or not this state has changed since last resolved. */ public boolean isResolved(); /** * Resolves the given version constraint with the given supplier. The given * constraint object is destructively modified to reflect its new resolved * state. Note that a constraint can be unresolved by passing null for * the supplier. *

* This method is intended to be used by resolvers in the process of * determining which constraints are satisfied by which components. *

* * @param constraint the version constraint to update * @param supplier the supplier which satisfies the constraint. May be null if * the constraint is to be unresolved. * @throws IllegalStateException if this is not done during a call to * resolve */ public void resolveConstraint(VersionConstraint constraint, BaseDescription supplier); /** * Sets whether or not the given bundle is selected in this state. *

* This method is intended to be used by resolvers in the process of * determining which constraints are satisfied by which components. *

* * @param bundle the bundle to update * @param status whether or not the given bundle is resolved, if false the other parameters are ignored * @param hosts the host for the resolve fragment, can be null * @param selectedExports the selected exported packages for this resolved bundle, can be null * @param resolvedRequires the {@link BundleDescription}s that resolve the required bundles for this bundle, can be null * @param resolvedImports the exported packages that resolve the imports for this bundle, can be null * @throws IllegalStateException if this is not done during a call to resolve * @deprecated use {@link #resolveBundle(BundleDescription, boolean, BundleDescription[], ExportPackageDescription[], ExportPackageDescription[], GenericDescription[], BundleDescription[], ExportPackageDescription[], GenericDescription[], Map)} */ public void resolveBundle(BundleDescription bundle, boolean status, BundleDescription[] hosts, ExportPackageDescription[] selectedExports, BundleDescription[] resolvedRequires, ExportPackageDescription[] resolvedImports); /** * Sets whether or not the given bundle is selected in this state. *

* This method is intended to be used by resolvers in the process of * determining which constraints are satisfied by which components. *

* * @param bundle the bundle to update * @param status whether or not the given bundle is resolved, if false the other parameters are ignored * @param hosts the host for the resolve fragment, can be null * @param selectedExports the selected exported packages for this resolved bundle, can be null * @param substitutedExports the exported packages that resolve imports for this bundle and substitute exports, can be null * @param resolvedRequires the {@link BundleDescription}s that resolve the required bundles for this bundle, can be null * @param resolvedImports the exported packages that resolve the imports for this bundle, can be null * @throws IllegalStateException if this is not done during a call to resolve * @since 3.4 * @deprecated use {@link #resolveBundle(BundleDescription, boolean, BundleDescription[], ExportPackageDescription[], ExportPackageDescription[], GenericDescription[], BundleDescription[], ExportPackageDescription[], GenericDescription[], Map)} */ public void resolveBundle(BundleDescription bundle, boolean status, BundleDescription[] hosts, ExportPackageDescription[] selectedExports, ExportPackageDescription[] substitutedExports, BundleDescription[] resolvedRequires, ExportPackageDescription[] resolvedImports); /** * Sets whether or not the given bundle is selected in this state. *

* This method is intended to be used by resolvers in the process of * determining which constraints are satisfied by which components. *

* * @param bundle the bundle to update * @param status whether or not the given bundle is resolved, if false the other parameters are ignored * @param hosts the host for the resolve fragment, can be null * @param selectedExports the selected exported packages for this resolved bundle, can be null * @param substitutedExports the exported packages that resolve imports for this bundle and substitute exports, can be null * @param selectedCapabilities the selected capabilities for this resolved bundle, can be null * @param resolvedRequires the {@link BundleDescription}s that resolve the required bundles for this bundle, can be null * @param resolvedImports the exported packages that resolve the imports for this bundle, can be null * @param resolvedCapabilities the capabilities that resolve the required capabilities for this bundle, can be null * @param resolvedWires the map of state wires for the resolved requirements of the given bundle. The key is the name space of the requirement. * @throws IllegalStateException if this is not done during a call to resolve * @since 3.7 */ public void resolveBundle(BundleDescription bundle, boolean status, BundleDescription[] hosts, ExportPackageDescription[] selectedExports, ExportPackageDescription[] substitutedExports, GenericDescription[] selectedCapabilities, BundleDescription[] resolvedRequires, ExportPackageDescription[] resolvedImports, GenericDescription[] resolvedCapabilities, Map> resolvedWires); /** * Sets the given removal pending bundle to removal complete for this state. *

* This method is intended to be used by resolvers in the process of * resolving bundles. *

* @param bundle the bundle to set a removal complete. * @throws IllegalStateException if this is not done during a call to * resolve */ public void removeBundleComplete(BundleDescription bundle); /** * Adds a new ResolverError for the specified bundle. *

* This method is intended to be used by resolvers in the process of * resolving. *

* * @param bundle the bundle to add a new ResolverError for * @param type the type of ResolverError to add * @param data the data for the ResolverError * @param unsatisfied the unsatisfied constraint or null if the resolver error was not caused * by an unsatisfied constraint. * @throws IllegalStateException if this is not done during a call to resolve * @since 3.2 */ public void addResolverError(BundleDescription bundle, int type, String data, VersionConstraint unsatisfied); /** * Removes all ResolverErrors for the specified bundle. *

* This method is intended to be used by resolvers in the process of * resolving. *

* * @param bundle the bundle to remove all ResolverErrors for * @throws IllegalStateException if this is not done during a call to resolve * @since 3.2 */ public void removeResolverErrors(BundleDescription bundle); /** * Returns all ResolverErrors for the given bundle * @param bundle the bundle to get all ResolverErrors for * @return all ResolverErrors for the given bundle * @since 3.2 */ public ResolverError[] getResolverErrors(BundleDescription bundle); /** * Returns the resolver associated with this state. A state can work with * at most one resolver at any given time. Similarly, a resolver can work * with at most one state at a time. * * @return the resolver for this state. null is returned if the state does * not have a resolver */ public Resolver getResolver(); /** * Sets the resolver associated with this state. A state can work with at * most one resolver at any given time. Similarly, a resolver can work with * at most one state at a time. *

* To ensure that this state and the given resovler are properly linked, * the following expression must be included in this method if the given * resolver (value) is not identical to the result of this.getResolver(). * *

	 *  if (this.getResolver() != value) value.setState(this);
	 * 
* *

*/ // TODO what happens if you set the Resolver after some bundles have // been added to the state but it is not resolved? Should setting // the resolver force a state to be unresolved? public void setResolver(Resolver value); /** * Resolves the constraints contained in this state using the resolver * currently associated with the state and returns a delta describing the * changes in resolved states and dependencies in the state. *

* Note that this method is typically implemented using * *

	 *  this.getResolver().resolve();
	 * 
* * and is the preferred path for invoking resolution. In particular, states * should refuse to perform updates (@see #select() and * #resolveConstraint()) if they are not currently involved in a resolution * cycle. *

* Note the given state is destructively modified to reflect the results of * resolution. *

* * @param incremental a flag controlling whether resolution should be incremental * @return a delta describing the changes in resolved state and * interconnections */ public StateDelta resolve(boolean incremental); /** * Same as State.resolve(true); */ public StateDelta resolve(); /** * Resolves the constraints contained in this state using the resolver * currently associated with the state in an incremental, "least-perturbing" * mode, and returns a delta describing the changes in resolved states and * dependencies in the state. * * @param discard an array containing descriptions for bundles whose * current resolution state should be forgotten. If null * then all the current removal pending BundleDescriptions are refreshed. * @return a delta describing the changes in resolved state and * interconnections */ public StateDelta resolve(BundleDescription[] discard); /** * Resolves the constraints contained in this state using the resolver * currently associated with the state in an incremental, "least-perturbing" * mode, and returns a delta describing the changes in resolved states and * dependencies in the state. If discard is set to true the * the descriptions contained in the resolve array will have their * current resolution state discarded and will be re-resolved. * This method will attempt to resolve the supplied descriptions * and may attempt to resolve any other unresolved descriptions contained * in this state. * * @param resolve an array containing descriptions for bundles to resolve. * @param discard a value of true indicates the resolve descriptions * should have their current resolution state discarded and re-resolved. * @return a delta describing the changes in the resolved state and * interconnections. * @since 3.7 */ public StateDelta resolve(BundleDescription[] resolve, boolean discard); /** * Sets the version overrides which are to be applied during the resolutoin * of this state. Version overrides allow external forces to * refine/override the version constraints setup by the components in the * state. * * @param value * @deprecated The exact form of this has never been defined. There is * no alternative method available. */ public void setOverrides(Object value); /** * Returns descriptions for all bundles currently resolved in this state. * * @return the descriptions for all bundles currently resolved in this * state. */ public BundleDescription[] getResolvedBundles(); /** * Returns descriptions for all bundles in a removal pending state. * @return the descriptions for all bundles in a removal pending state. * @since 3.7 */ public BundleDescription[] getRemovalPending(); /** * Returns the dependency closure for the specified bundles. * *

* A graph of bundles is computed starting with the specified bundles. The * graph is expanded by adding any bundle that is either wired to a package * that is currently exported by a bundle in the graph or requires a bundle * in the graph. The graph is fully constructed when there is no bundle * outside the graph that is wired to a bundle in the graph. The graph may * contain removal pending bundles. * * @param bundles The initial bundles for which to generate the dependency * closure. * @return A collection containing a snapshot of the dependency closure of * the specified bundles, or an empty collection if there were no * specified bundles. * @since 3.7 */ public Collection getDependencyClosure(Collection bundles); /** * Returns whether this state is empty. * @return true if this state is empty, false * otherwise */ public boolean isEmpty(); /** * Returns all exported packages in this state, according to the OSGi rules for resolution. * @see org.osgi.service.packageadmin.PackageAdmin#getExportedPackages(org.osgi.framework.Bundle) */ public ExportPackageDescription[] getExportedPackages(); /** * Returns all bundle descriptions with the given bundle symbolic name. * @param symbolicName symbolic name of the bundles to query * @return the descriptors for all bundles known to this state with the * specified symbolic name. */ public BundleDescription[] getBundles(String symbolicName); /** * Returns the factory that created this state. * @return the state object factory that created this state */ public StateObjectFactory getFactory(); /** * Attempts to find an ExportPackageDescription that will satisfy a dynamic import * for the specified requestedPackage for the specified importingBundle. If no * ExportPackageDescription is available that satisfies a dynamic import for the * importingBundle then null is returned. * @param importingBundle the BundleDescription that is requesting a dynamic package * @param requestedPackage the name of the package that is being requested * @return the ExportPackageDescription that satisfies the dynamic import request; * a value of null is returned if none is available. */ public ExportPackageDescription linkDynamicImport(BundleDescription importingBundle, String requestedPackage); /** * Adds the specified dynamic imports to the specified importingBundle. The added * dynamic imports are only valid for the instance of this state and will be * forgotten if this state is read from a persistent cache. * @param importingBundle the bundle to add the imports to. * @param dynamicImports the dynamic imports to add. * @since 3.7 * @see BundleDescription#getAddedDynamicImportPackages() */ public void addDynamicImportPackages(BundleDescription importingBundle, ImportPackageSpecification[] dynamicImports); /** * Sets the platform properties of the state. The platform properties * are used to resolve the following constraints: *

    *
  • The execution environment requirements (i.e. Bundle-RequiredExecutionEnvironment).
  • *
  • The platform filter requirements (i.e. Eclipse-PlatformFilter).
  • *
  • The native code requirements (i.e. Bundle-NativeCode).
  • *
* Arbitrary keys may be used in the platform properties but the following keys have a specified meaning: *
    *
  • osgi.nl - the platform language setting.
  • *
  • osgi.os - the platform operating system.
  • *
  • osgi.arch - the platform architecture.
  • *
  • osgi.ws - the platform windowing system.
  • *
  • osgi.resolverMode - the resolver mode. A value of "strict" will set the resolver mode to strict.
  • *
  • org.osgi.framework.system.packages - the packages exported by the system bundle.
  • *
  • org.osgi.framework.executionenvironment - the comma separated list of supported execution environments. * This property is then used to resolve the required execution environment the bundles in a state.
  • *
  • org.osgi.framework.os.name - the name of the operating system. This property is used to resolve the osname attribute of * bundle native code (i.e. Bundle-NativeCode).
  • *
  • org.osgi.framework.os.version - the version of the operating system. This property is used to resolve the osversion attribute * of bundle native code (i.e. Bundle-NativeCode).
  • *
  • org.osgi.framework.processor - the processor name. This property is used to resolve the processor attribute * of bundle native code (i.e. Bundle-NativeCode).
  • *
  • org.osgi.framework.language - the language being used. This property is used to resolve the language attribute * of bundle native code (i.e. Bundle-NativeCode).
  • *
*

* The values used for the supported properties can be String type * to specify a single value for the property or they can by String[] * to specify a list of values for the property. * @param platformProperties the platform properties of the state * @return false if the platformProperties specified do not change any of the * supported properties already set. If any of the supported property values * are changed as a result of calling this method then true is returned. */ public boolean setPlatformProperties(Dictionary platformProperties); /** * Sets the platform properties of the state to a list of platform properties. * @see #setPlatformProperties(Dictionary) * * @param platformProperties a set of platform properties for the state * @return false if the platformProperties specified do not change any of the * supported properties already set. If any of the supported property values * are changed as a result of calling this method then true is returned. */ public boolean setPlatformProperties(Dictionary[] platformProperties); /** * Returns the list of platform properties currently set for this state. * @return the list of platform properties currently set for this state. */ @SuppressWarnings("rawtypes") public Dictionary[] getPlatformProperties(); /** * Returns the list of system packages which are exported by the system bundle. * The list of system packages is set by the org.osgi.framework.system.packages * value in the platform properties for this state. * @see #setPlatformProperties(Dictionary) * @return the list of system packages */ public ExportPackageDescription[] getSystemPackages(); /** * Returns a state helper object. State helpers provide convenience methods * for manipulating states. *

* A possible implementation for this * method would provide the same single StateHelper instance to all clients. *

* * @return a state helper * @see StateHelper * @since 3.2 */ public StateHelper getStateHelper(); /** * Returns the highest bundle ID. The value -1 is returned if no * bundles exist in this state. *

* Note that this method returns the highest bundle ID the ever existed in this * this state object. This bundle may have been removed from the state. * @return the highest bundle ID. * @since 3.3 */ public long getHighestBundleId(); /** * Sets the native code paths of a native code description as invalid. Native * code paths are invalid if they can not be found in the bundle content. *

* The framework, or some other entity which has access to bundle content, * will call this method to validate or invalidate native code paths. *

* @param nativeCodeDescription the native code description. * @param hasInvalidNativePaths true if the native code paths are invalid; false otherwise. * @since 3.4 */ public void setNativePathsInvalid(NativeCodeDescription nativeCodeDescription, boolean hasInvalidNativePaths); /** * Returns an array of BundleDescriptions for the bundles that are disabled * in the system. Use {@link #getDisabledInfos(BundleDescription)} to interrogate the reason that * each bundle is disabled. * @return the array of disabled bundles. An empty array is returned if no bundles are disabled. * @see DisabledInfo * @since 3.4 */ public BundleDescription[] getDisabledBundles(); /** * Adds the disabled info to this state. If a disable info already exists * for the specified policy and the specified bundle then it is replaced with * the given disabled info. * @param disabledInfo the disabled info to add. * @throws IllegalArgumentException if the BundleDescription for * the specified disabled info does not exist in this state. * @since 3.4 */ public void addDisabledInfo(DisabledInfo disabledInfo); /** * Removes the disabled info from the state. * @param disabledInfo the disabled info to remove * @since 3.4 */ public void removeDisabledInfo(DisabledInfo disabledInfo); /** * Returns an array of disabled info for the specified bundle. If no disabled info exist * then an empty array is returned. * @param bundle the bundle to get the disabled info for. * @return the array of disabled info. * @since 3.4 */ public DisabledInfo[] getDisabledInfos(BundleDescription bundle); /** * Returns the disabled info for the specified bundle with the specified policy name. * If no disabled info exists then null is returned. * @param bundle the bundle to get the disabled info for * @return the disabled info. * @since 3.4 */ public DisabledInfo getDisabledInfo(BundleDescription bundle, String policyName); /** * Sets the resolver hook factory for this state. The resolver hook factory is * used during resolve operations according to the OSGi specification for the * resolver hook factory. * @param hookFactory the resolver hook factory * @since 3.7 * @throws IllegalStateException if the resolver hook factory is already set */ public void setResolverHookFactory(ResolverHookFactory hookFactory); }