org.apache.karaf.tooling.features.GraphArtifactCollector Maven / Gradle / Ivy
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A Maven 2 plugin for working with feature descriptors.
/**
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.karaf.tooling.features;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.apache.maven.artifact.Artifact;
import org.apache.maven.artifact.metadata.ArtifactMetadataRetrievalException;
import org.apache.maven.artifact.metadata.ArtifactMetadataSource;
import org.apache.maven.artifact.metadata.ResolutionGroup;
import org.apache.maven.artifact.repository.ArtifactRepository;
import org.apache.maven.artifact.resolver.ArtifactCollector;
import org.apache.maven.artifact.resolver.ArtifactResolutionException;
import org.apache.maven.artifact.resolver.ArtifactResolutionResult;
import org.apache.maven.artifact.resolver.CyclicDependencyException;
import org.apache.maven.artifact.resolver.ResolutionListener;
import org.apache.maven.artifact.resolver.ResolutionNode;
import org.apache.maven.artifact.resolver.conflict.ConflictResolver;
import org.apache.maven.artifact.resolver.filter.ArtifactFilter;
import org.apache.maven.artifact.versioning.ArtifactVersion;
import org.apache.maven.artifact.versioning.OverConstrainedVersionException;
import org.apache.maven.artifact.versioning.VersionRange;
public class GraphArtifactCollector implements ArtifactCollector {
public ArtifactResolutionResult collect(
Set artifacts,
Artifact originatingArtifact,
ArtifactRepository localRepository,
List remoteRepositories,
ArtifactMetadataSource source,
ArtifactFilter filter,
List listeners) {
return collect(artifacts, originatingArtifact, Collections.EMPTY_MAP,
localRepository, remoteRepositories, source, filter, listeners);
}
public ArtifactResolutionResult collect(
Set artifacts,
Artifact originatingArtifact,
Map managedVersions,
ArtifactRepository localRepository,
List remoteRepositories,
ArtifactMetadataSource source,
ArtifactFilter filter,
List listeners) {
Map resolvedArtifacts = new HashMap();
ResolutionNode root = new ResolutionNode(originatingArtifact, remoteRepositories);
try {
root.addDependencies(artifacts, remoteRepositories, filter);
recurse(root, resolvedArtifacts, managedVersions, localRepository,
remoteRepositories, source, filter, listeners);
} catch (CyclicDependencyException e) {
e.printStackTrace();
} catch (OverConstrainedVersionException e) {
e.printStackTrace();
} catch (ArtifactResolutionException e) {
e.printStackTrace();
}
Set set = new HashSet();
for (Iterator i = resolvedArtifacts.values().iterator(); i.hasNext();) {
List nodes = (List) i.next();
for (Iterator j = nodes.iterator(); j.hasNext();) {
ResolutionNode node = (ResolutionNode) j.next();
Artifact artifact = node.getArtifact();
try {
if (!node.equals(root) && node.isActive() && node.filterTrail(filter)
// If it was optional and not a direct dependency,
// we don't add it or its children, just allow the
// update of the version and scope
&& (node.isChildOfRootNode() || !artifact.isOptional())) {
artifact.setDependencyTrail(node.getDependencyTrail());
set.add(node);
}
} catch (OverConstrainedVersionException e) {
e.printStackTrace();
}
}
}
ArtifactResolutionResult result = new ArtifactResolutionResult();
result.setArtifactResolutionNodes(set);
return result;
}
private void recurse(
ResolutionNode node,
Map resolvedArtifacts,
Map managedVersions,
ArtifactRepository localRepository,
List remoteRepositories,
ArtifactMetadataSource source,
ArtifactFilter filter,
List listeners) throws CyclicDependencyException, ArtifactResolutionException,
OverConstrainedVersionException {
fireEvent(ResolutionListener.TEST_ARTIFACT, listeners, node);
// TODO: use as a conflict resolver
Object key = node.getKey();
if (managedVersions.containsKey(key)) {
Artifact artifact = (Artifact) managedVersions.get(key);
fireEvent(ResolutionListener.MANAGE_ARTIFACT, listeners, node, artifact);
if (artifact.getVersion() != null) {
node.getArtifact().setVersion(artifact.getVersion());
}
if (artifact.getScope() != null) {
node.getArtifact().setScope(artifact.getScope());
}
}
List previousNodes = (List) resolvedArtifacts.get(key);
if (previousNodes != null) {
node = checkPreviousNodes(node, listeners, previousNodes);
}
else {
previousNodes = new ArrayList();
resolvedArtifacts.put(key, previousNodes);
}
previousNodes.add(node);
if (node.isActive()) {
fireEvent(ResolutionListener.INCLUDE_ARTIFACT, listeners, node);
}
// don't pull in the transitive deps of a system-scoped dependency.
if (node.isActive() && !Artifact.SCOPE_SYSTEM.equals(node.getArtifact().getScope())) {
fireEvent(ResolutionListener.PROCESS_CHILDREN, listeners, node);
for (Iterator i = node.getChildrenIterator(); i.hasNext();) {
ResolutionNode child = (ResolutionNode) i.next();
// We leave in optional ones, but don't pick up its dependencies
if (!child.isResolved()
&& (!child.getArtifact().isOptional() || child.isChildOfRootNode())) {
Artifact artifact = child.getArtifact();
try {
if (artifact.getVersion() == null) {
// set the recommended version
// TODO: maybe its better to just pass the range
// through to retrieval and use a transformation?
ArtifactVersion version;
version = getArtifactVersion(localRepository, remoteRepositories, source, artifact);
artifact.selectVersion(version.toString());
fireEvent(ResolutionListener.SELECT_VERSION_FROM_RANGE,
listeners, child);
}
ResolutionGroup rGroup = source.retrieve(artifact,
localRepository, remoteRepositories);
// TODO might be better to have source.retreive() throw
// a specific exception for this situation
// and catch here rather than have it return null
if (rGroup == null) {
// relocated dependency artifact is declared
// excluded, no need to add and recurse further
continue;
}
child.addDependencies(rGroup.getArtifacts(),
rGroup.getResolutionRepositories(), filter);
}
catch (CyclicDependencyException e) {
// would like to throw this, but we have crappy stuff in
// the repo
fireEvent(ResolutionListener.OMIT_FOR_CYCLE, listeners,
new ResolutionNode(e.getArtifact(), remoteRepositories, child));
}
catch (ArtifactMetadataRetrievalException e) {
artifact.setDependencyTrail(node.getDependencyTrail());
throw new ArtifactResolutionException(
"Unable to get dependency information: "
+ e.getMessage(), artifact, e);
}
recurse(child, resolvedArtifacts, managedVersions,
localRepository, remoteRepositories, source,
filter, listeners);
}
}
fireEvent(ResolutionListener.FINISH_PROCESSING_CHILDREN, listeners,
node);
}
}
private ArtifactVersion getArtifactVersion(
ArtifactRepository localRepository,
List remoteRepositories,
ArtifactMetadataSource source,
Artifact artifact) throws OverConstrainedVersionException,
ArtifactMetadataRetrievalException {
ArtifactVersion version;
if (!artifact.isSelectedVersionKnown()) {
List versions = artifact.getAvailableVersions();
if (versions == null) {
versions = source.retrieveAvailableVersions(
artifact, localRepository,
remoteRepositories);
artifact.setAvailableVersions(versions);
}
VersionRange versionRange = artifact.getVersionRange();
version = versionRange.matchVersion(versions);
if (version == null) {
if (versions.isEmpty()) {
throw new OverConstrainedVersionException(
"No versions are present in the repository for the artifact with a range "
+ versionRange, artifact, remoteRepositories);
}
else {
throw new OverConstrainedVersionException(
"Couldn't find a version in "
+ versions
+ " to match range "
+ versionRange,
artifact, remoteRepositories);
}
}
}
else {
version = artifact.getSelectedVersion();
}
return version;
}
private ResolutionNode checkPreviousNodes(
ResolutionNode node,
List listeners,
List previousNodes) throws OverConstrainedVersionException {
for (Iterator i = previousNodes.iterator(); i.hasNext();) {
ResolutionNode previous = (ResolutionNode) i.next();
if (previous.isActive()) {
// Version mediation
VersionRange previousRange = previous.getArtifact().getVersionRange();
VersionRange currentRange = node.getArtifact().getVersionRange();
// TODO: why do we force the version on it? what if they
// don't match?
if (previousRange == null) {
// version was already resolved
node.getArtifact().setVersion(previous.getArtifact().getVersion());
}
else if (currentRange == null) {
// version was already resolved
previous.getArtifact().setVersion(node.getArtifact().getVersion());
}
else {
// TODO: shouldn't need to double up on this work, only
// done for simplicity of handling recommended
// version but the restriction is identical
VersionRange newRange = previousRange.restrict(currentRange);
// TODO: ick. this forces the OCE that should have come
// from the previous call. It is still correct
if (newRange.isSelectedVersionKnown(previous.getArtifact())) {
fireEvent(ResolutionListener.RESTRICT_RANGE,
listeners, node, previous.getArtifact(),
newRange);
}
previous.getArtifact().setVersionRange(newRange);
node.getArtifact().setVersionRange(
currentRange.restrict(previousRange));
// Select an appropriate available version from the (now
// restricted) range
// Note this version was selected before to get the
// appropriate POM
// But it was reset by the call to setVersionRange on
// restricting the version
ResolutionNode[] resetNodes = {previous, node};
for (int j = 0; j < 2; j++) {
Artifact resetArtifact = resetNodes[j]
.getArtifact();
if (resetArtifact.getVersion() == null
&& resetArtifact.getVersionRange() != null
&& resetArtifact.getAvailableVersions() != null) {
resetArtifact
.selectVersion(resetArtifact
.getVersionRange()
.matchVersion(
resetArtifact
.getAvailableVersions())
.toString());
fireEvent(ResolutionListener.SELECT_VERSION_FROM_RANGE,
listeners, resetNodes[j]);
}
}
}
// Conflict Resolution
// TODO: use as conflict resolver(s), chain
// TODO: should this be part of mediation?
// previous one is more dominant
if (previous.getDepth() <= node.getDepth()) {
checkScopeUpdate(node, previous, listeners);
}
else {
checkScopeUpdate(previous, node, listeners);
}
if (previous.getDepth() <= node.getDepth()) {
// previous was nearer
fireEvent(ResolutionListener.OMIT_FOR_NEARER,
listeners, node, previous.getArtifact());
node.disable();
node = previous;
}
else {
fireEvent(ResolutionListener.OMIT_FOR_NEARER,
listeners, previous, node.getArtifact());
previous.disable();
}
}
}
return node;
}
private void checkScopeUpdate(ResolutionNode farthest,
ResolutionNode nearest, List listeners) {
boolean updateScope = false;
Artifact farthestArtifact = farthest.getArtifact();
Artifact nearestArtifact = nearest.getArtifact();
if (Artifact.SCOPE_RUNTIME.equals(farthestArtifact.getScope())
&& (Artifact.SCOPE_TEST.equals(nearestArtifact.getScope()) || Artifact.SCOPE_PROVIDED
.equals(nearestArtifact.getScope()))) {
updateScope = true;
}
if (Artifact.SCOPE_COMPILE.equals(farthestArtifact.getScope())
&& !Artifact.SCOPE_COMPILE.equals(nearestArtifact.getScope())) {
updateScope = true;
}
// current POM rules all
if (nearest.getDepth() < 2 && updateScope) {
updateScope = false;
fireEvent(ResolutionListener.UPDATE_SCOPE_CURRENT_POM, listeners,
nearest, farthestArtifact);
}
if (updateScope) {
fireEvent(ResolutionListener.UPDATE_SCOPE, listeners, nearest,
farthestArtifact);
// previously we cloned the artifact, but it is more effecient to
// just update the scope
// if problems are later discovered that the original object needs
// its original scope value, cloning may
// again be appropriate
nearestArtifact.setScope(farthestArtifact.getScope());
}
}
private void fireEvent(int event, List listeners, ResolutionNode node) {
fireEvent(event, listeners, node, null);
}
private void fireEvent(int event, List listeners, ResolutionNode node,
Artifact replacement) {
fireEvent(event, listeners, node, replacement, null);
}
private void fireEvent(int event, List listeners, ResolutionNode node,
Artifact replacement, VersionRange newRange) {
for (Iterator i = listeners.iterator(); i.hasNext();) {
ResolutionListener listener = (ResolutionListener) i.next();
switch (event) {
case ResolutionListener.TEST_ARTIFACT:
listener.testArtifact(node.getArtifact());
break;
case ResolutionListener.PROCESS_CHILDREN:
listener.startProcessChildren(node.getArtifact());
break;
case ResolutionListener.FINISH_PROCESSING_CHILDREN:
listener.endProcessChildren(node.getArtifact());
break;
case ResolutionListener.INCLUDE_ARTIFACT:
listener.includeArtifact(node.getArtifact());
break;
case ResolutionListener.OMIT_FOR_NEARER:
String version = node.getArtifact().getVersion();
String replacementVersion = replacement.getVersion();
if (version != null ? !version.equals(replacementVersion)
: replacementVersion != null) {
listener.omitForNearer(node.getArtifact(), replacement);
}
break;
case ResolutionListener.OMIT_FOR_CYCLE:
listener.omitForCycle(node.getArtifact());
break;
case ResolutionListener.UPDATE_SCOPE:
listener
.updateScope(node.getArtifact(), replacement.getScope());
break;
case ResolutionListener.UPDATE_SCOPE_CURRENT_POM:
listener.updateScopeCurrentPom(node.getArtifact(), replacement
.getScope());
break;
case ResolutionListener.MANAGE_ARTIFACT:
listener.manageArtifact(node.getArtifact(), replacement);
break;
case ResolutionListener.SELECT_VERSION_FROM_RANGE:
listener.selectVersionFromRange(node.getArtifact());
break;
case ResolutionListener.RESTRICT_RANGE:
if (node.getArtifact().getVersionRange().hasRestrictions()
|| replacement.getVersionRange().hasRestrictions()) {
listener.restrictRange(node.getArtifact(), replacement,
newRange);
}
break;
default:
throw new IllegalStateException("Unknown event: " + event);
}
}
}
public ArtifactResolutionResult collect(Set artifacts, Artifact originatingArtifact,
Map managedVersions, ArtifactRepository localRepository,
List remoteRepositories,
ArtifactMetadataSource source, ArtifactFilter filter,
List listeners,
List conflictResolvers)
throws ArtifactResolutionException {
return null;
}
}