private void resolveAndCheckRevision(
ModuleDescriptor systemMd,
ModuleRevisionId dependencyConstraint,
ResolvedResource ivyRef,
boolean isDynamic) {
// we get the resolved module revision id from the descriptor: it may contain extra
// attributes that were not included in the dependency constraint
ModuleRevisionId resolvedMrid = systemMd.getResolvedModuleRevisionId();
if (resolvedMrid.getRevision() == null
|| resolvedMrid.getRevision().length() == 0
|| resolvedMrid.getRevision().startsWith("working@")) {
if (!isDynamic) {
resolvedMrid =
ModuleRevisionId.newInstance(resolvedMrid, dependencyConstraint.getRevision());
} else if (ivyRef == null) {
resolvedMrid = systemMd.getMetadataArtifact().getModuleRevisionId();
} else if (ivyRef.getRevision() == null || ivyRef.getRevision().length() == 0) {
resolvedMrid = ModuleRevisionId.newInstance(resolvedMrid, "working@" + getName());
} else {
resolvedMrid = ModuleRevisionId.newInstance(resolvedMrid, ivyRef.getRevision());
}
}
if (isDynamic) {
Message.verbose(
"\t\t["
+ toSystem(resolvedMrid).getRevision()
+ "] "
+ dependencyConstraint.getModuleId());
}
systemMd.setResolvedModuleRevisionId(resolvedMrid);
checkModuleDescriptorRevision(systemMd, dependencyConstraint);
}
public boolean exists(Artifact artifact) {
ResolvedResource artifactRef = getArtifactRef(artifact, null);
if (artifactRef != null) {
return artifactRef.getResource().exists();
}
return false;
}
protected long getPublicationDate(
ModuleDescriptor md, DependencyDescriptor dd, ResolveData data) {
if (md.getPublicationDate() != null) {
return md.getPublicationDate().getTime();
}
ResolvedResource artifactRef = findFirstArtifactRef(md, dd, data);
if (artifactRef != null) {
return artifactRef.getLastModified();
}
return -1;
}
public ArtifactOrigin locate(Artifact artifact) {
ArtifactOrigin origin = getRepositoryCacheManager().getSavedArtifactOrigin(toSystem(artifact));
if (!ArtifactOrigin.isUnknown(origin)) {
return origin;
}
ResolvedResource artifactRef = getArtifactRef(artifact, null);
if (artifactRef != null && artifactRef.getResource().exists()) {
return new ArtifactOrigin(
artifact, artifactRef.getResource().isLocal(), artifactRef.getResource().getName());
}
return null;
}
private ModuleRevisionId getRevision(
ResolvedResource ivyRef, ModuleRevisionId askedMrid, ModuleDescriptor md)
throws ParseException {
Map allAttributes = new HashMap();
allAttributes.putAll(md.getQualifiedExtraAttributes());
allAttributes.putAll(askedMrid.getQualifiedExtraAttributes());
String revision = ivyRef.getRevision();
if (revision == null) {
Message.debug("no revision found in reference for " + askedMrid);
if (getSettings().getVersionMatcher().isDynamic(askedMrid)) {
if (md.getModuleRevisionId().getRevision() == null) {
revision = "working@" + getName();
} else {
Message.debug("using " + askedMrid);
revision = askedMrid.getRevision();
}
} else {
Message.debug("using " + askedMrid);
revision = askedMrid.getRevision();
}
}
return ModuleRevisionId.newInstance(
askedMrid.getOrganisation(),
askedMrid.getName(),
askedMrid.getBranch(),
revision,
allAttributes);
}
public ResolvedModuleRevision parse(
final ResolvedResource mdRef, DependencyDescriptor dd, ResolveData data)
throws ParseException {
DependencyDescriptor nsDd = dd;
dd = toSystem(nsDd);
ModuleRevisionId mrid = dd.getDependencyRevisionId();
ModuleDescriptorParser parser =
ModuleDescriptorParserRegistry.getInstance().getParser(mdRef.getResource());
if (parser == null) {
Message.warn("no module descriptor parser available for " + mdRef.getResource());
return null;
}
Message.verbose("\t" + getName() + ": found md file for " + mrid);
Message.verbose("\t\t=> " + mdRef);
Message.debug("\tparser = " + parser);
ModuleRevisionId resolvedMrid = mrid;
// first check if this dependency has not yet been resolved
if (getSettings().getVersionMatcher().isDynamic(mrid)) {
resolvedMrid = ModuleRevisionId.newInstance(mrid, mdRef.getRevision());
IvyNode node = data.getNode(resolvedMrid);
if (node != null && node.getModuleRevision() != null) {
// this revision has already be resolved : return it
if (node.getDescriptor() != null && node.getDescriptor().isDefault()) {
Message.verbose(
"\t"
+ getName()
+ ": found already resolved revision: "
+ resolvedMrid
+ ": but it's a default one, maybe we can find a better one");
} else {
Message.verbose("\t" + getName() + ": revision already resolved: " + resolvedMrid);
node.getModuleRevision().getReport().setSearched(true);
return node.getModuleRevision();
}
}
}
Artifact moduleArtifact = parser.getMetadataArtifact(resolvedMrid, mdRef.getResource());
return getRepositoryCacheManager()
.cacheModuleDescriptor(this, mdRef, dd, moduleArtifact, downloader, getCacheOptions(data));
}
private void cacheModuleDescriptor(
ModuleDescriptor systemMd,
ModuleRevisionId systemMrid,
ResolvedResource ivyRef,
ResolvedModuleRevision rmr) {
RepositoryCacheManager cacheManager = getRepositoryCacheManager();
final ModuleDescriptorParser parser = systemMd.getParser();
// the metadata artifact which was used to cache the original metadata file
Artifact requestedMetadataArtifact =
ivyRef == null
? systemMd.getMetadataArtifact()
: parser.getMetadataArtifact(
ModuleRevisionId.newInstance(systemMrid, ivyRef.getRevision()),
ivyRef.getResource());
cacheManager.originalToCachedModuleDescriptor(
this,
ivyRef,
requestedMetadataArtifact,
rmr,
new ModuleDescriptorWriter() {
public void write(
ResolvedResource originalMdResource, ModuleDescriptor md, File src, File dest)
throws IOException, ParseException {
if (originalMdResource == null) {
// a basic ivy file is written containing default data
XmlModuleDescriptorWriter.write(md, dest);
} else {
// copy and update ivy file from source to cache
parser.toIvyFile(
new FileInputStream(src), originalMdResource.getResource(), dest, md);
long repLastModified = originalMdResource.getLastModified();
if (repLastModified > 0) {
dest.setLastModified(repLastModified);
}
}
}
});
}
private void checkNotConvertedExclusionRule(
ModuleDescriptor systemMd, ResolvedResource ivyRef, ResolveData data) {
if (!getNamespace().equals(Namespace.SYSTEM_NAMESPACE)
&& !systemMd.isDefault()
&& data.getSettings().logNotConvertedExclusionRule()
&& systemMd instanceof DefaultModuleDescriptor) {
DefaultModuleDescriptor dmd = (DefaultModuleDescriptor) systemMd;
if (dmd.isNamespaceUseful()) {
Message.warn(
"the module descriptor "
+ ivyRef.getResource()
+ " has information which can't be converted into "
+ "the system namespace. "
+ "It will require the availability of the namespace '"
+ getNamespace().getName()
+ "' to be fully usable.");
}
}
}
/**
* When the resolver has many choices, this function helps choosing one
*
* @param rress the list of resolved resource which the resolver found to fit the requirement
* @param rmdparser the parser of module descriptor
* @param mrid the module being resolved
* @param date the current date
* @return the selected resource
*/
public ResolvedResource findResource(
ResolvedResource[] rress, ResourceMDParser rmdparser, ModuleRevisionId mrid, Date date) {
String name = getName();
VersionMatcher versionMatcher = getSettings().getVersionMatcher();
ResolvedResource found = null;
List sorted = getLatestStrategy().sort(rress);
List rejected = new ArrayList();
List foundBlacklisted = new ArrayList();
IvyContext context = IvyContext.getContext();
for (ListIterator iter = sorted.listIterator(sorted.size()); iter.hasPrevious(); ) {
ResolvedResource rres = (ResolvedResource) iter.previous();
// we start by filtering based on information already available,
// even though we don't even know if the resource actually exist.
// But checking for existence is most of the time more costly than checking
// name, blacklisting and first level version matching
if (filterNames(new ArrayList(Collections.singleton(rres.getRevision()))).isEmpty()) {
Message.debug("\t" + name + ": filtered by name: " + rres);
continue;
}
ModuleRevisionId foundMrid = ModuleRevisionId.newInstance(mrid, rres.getRevision());
ResolveData data = context.getResolveData();
if (data != null
&& data.getReport() != null
&& data.isBlacklisted(data.getReport().getConfiguration(), foundMrid)) {
Message.debug("\t" + name + ": blacklisted: " + rres);
rejected.add(rres.getRevision() + " (blacklisted)");
foundBlacklisted.add(foundMrid);
continue;
}
if (!versionMatcher.accept(mrid, foundMrid)) {
Message.debug("\t" + name + ": rejected by version matcher: " + rres);
rejected.add(rres.getRevision());
continue;
}
if (rres.getResource() != null && !rres.getResource().exists()) {
Message.debug("\t" + name + ": unreachable: " + rres + "; res=" + rres.getResource());
rejected.add(rres.getRevision() + " (unreachable)");
continue;
}
if ((date != null && rres.getLastModified() > date.getTime())) {
Message.verbose("\t" + name + ": too young: " + rres);
rejected.add(rres.getRevision() + " (" + rres.getLastModified() + ")");
continue;
}
if (versionMatcher.needModuleDescriptor(mrid, foundMrid)) {
ResolvedResource r = rmdparser.parse(rres.getResource(), rres.getRevision());
if (r == null) {
Message.debug("\t" + name + ": impossible to get module descriptor resource: " + rres);
rejected.add(rres.getRevision() + " (no or bad MD)");
continue;
}
ModuleDescriptor md = ((MDResolvedResource) r).getResolvedModuleRevision().getDescriptor();
if (md.isDefault()) {
Message.debug(
"\t"
+ name
+ ": default md rejected by version matcher"
+ "requiring module descriptor: "
+ rres);
rejected.add(rres.getRevision() + " (MD)");
continue;
} else if (!versionMatcher.accept(mrid, md)) {
Message.debug("\t" + name + ": md rejected by version matcher: " + rres);
rejected.add(rres.getRevision() + " (MD)");
continue;
} else {
found = r;
}
} else {
found = rres;
}
if (found != null) {
break;
}
}
if (found == null && !rejected.isEmpty()) {
logAttempt(rejected.toString());
}
if (found == null && !foundBlacklisted.isEmpty()) {
// all acceptable versions have been blacklisted, this means that an unsolvable conflict
// has been found
DependencyDescriptor dd = context.getDependencyDescriptor();
IvyNode parentNode = context.getResolveData().getNode(dd.getParentRevisionId());
ConflictManager cm = parentNode.getConflictManager(mrid.getModuleId());
cm.handleAllBlacklistedRevisions(dd, foundBlacklisted);
}
return found;
}
// private boolean isResolved(ResolveData data, ModuleRevisionId mrid) {
// IvyNode node = getSystemNode(data, mrid);
// return node != null && node.getModuleRevision() != null;
// }
//
private void checkDescriptorConsistency(
ModuleRevisionId mrid, ModuleDescriptor md, ResolvedResource ivyRef) throws ParseException {
boolean ok = true;
StringBuffer errors = new StringBuffer();
if (!mrid.getOrganisation().equals(md.getModuleRevisionId().getOrganisation())) {
Message.error(
"\t"
+ getName()
+ ": bad organisation found in "
+ ivyRef.getResource()
+ ": expected='"
+ mrid.getOrganisation()
+ "' found='"
+ md.getModuleRevisionId().getOrganisation()
+ "'");
errors.append(
"bad organisation: expected='"
+ mrid.getOrganisation()
+ "' found='"
+ md.getModuleRevisionId().getOrganisation()
+ "'; ");
ok = false;
}
if (!mrid.getName().equals(md.getModuleRevisionId().getName())) {
Message.error(
"\t"
+ getName()
+ ": bad module name found in "
+ ivyRef.getResource()
+ ": expected='"
+ mrid.getName()
+ " found='"
+ md.getModuleRevisionId().getName()
+ "'");
errors.append(
"bad module name: expected='"
+ mrid.getName()
+ "' found='"
+ md.getModuleRevisionId().getName()
+ "'; ");
ok = false;
}
if (mrid.getBranch() != null
&& !mrid.getBranch().equals(md.getModuleRevisionId().getBranch())) {
Message.error(
"\t"
+ getName()
+ ": bad branch name found in "
+ ivyRef.getResource()
+ ": expected='"
+ mrid.getBranch()
+ " found='"
+ md.getModuleRevisionId().getBranch()
+ "'");
errors.append(
"bad branch name: expected='"
+ mrid.getBranch()
+ "' found='"
+ md.getModuleRevisionId().getBranch()
+ "'; ");
ok = false;
}
if (ivyRef.getRevision() != null && !ivyRef.getRevision().startsWith("working@")) {
ModuleRevisionId expectedMrid = ModuleRevisionId.newInstance(mrid, ivyRef.getRevision());
if (!getSettings().getVersionMatcher().accept(expectedMrid, md)) {
Message.error(
"\t"
+ getName()
+ ": bad revision found in "
+ ivyRef.getResource()
+ ": expected='"
+ ivyRef.getRevision()
+ " found='"
+ md.getModuleRevisionId().getRevision()
+ "'");
errors.append(
"bad revision: expected='"
+ ivyRef.getRevision()
+ "' found='"
+ md.getModuleRevisionId().getRevision()
+ "'; ");
ok = false;
}
}
if (!getSettings().getStatusManager().isStatus(md.getStatus())) {
Message.error(
"\t"
+ getName()
+ ": bad status found in "
+ ivyRef.getResource()
+ ": '"
+ md.getStatus()
+ "'");
errors.append("bad status: '" + md.getStatus() + "'; ");
ok = false;
}
for (Iterator it = mrid.getExtraAttributes().entrySet().iterator(); it.hasNext(); ) {
Entry extra = (Entry) it.next();
if (extra.getValue() != null
&& !extra.getValue().equals(md.getExtraAttribute((String) extra.getKey()))) {
String errorMsg =
"bad "
+ extra.getKey()
+ " found in "
+ ivyRef.getResource()
+ ": expected='"
+ extra.getValue()
+ "' found='"
+ md.getExtraAttribute((String) extra.getKey())
+ "'";
Message.error("\t" + getName() + ": " + errorMsg);
errors.append(errorMsg + ";");
ok = false;
}
}
if (!ok) {
throw new ParseException(
"inconsistent module descriptor file found in '" + ivyRef.getResource() + "': " + errors,
0);
}
}
public ResolvedModuleRevision getDependency(DependencyDescriptor dd, ResolveData data)
throws ParseException {
IvyContext context = IvyContext.pushNewCopyContext();
try {
ResolvedModuleRevision mr = data.getCurrentResolvedModuleRevision();
if (mr != null) {
if (shouldReturnResolvedModule(dd, mr)) {
return mr;
}
}
if (isForce()) {
dd =
dd.clone(
ModuleRevisionId.newInstance(dd.getDependencyRevisionId(), "latest.integration"));
}
DependencyDescriptor systemDd = dd;
DependencyDescriptor nsDd = fromSystem(dd);
context.setDependencyDescriptor(systemDd);
context.setResolveData(data);
clearIvyAttempts();
clearArtifactAttempts();
ModuleRevisionId systemMrid = systemDd.getDependencyRevisionId();
ModuleRevisionId nsMrid = nsDd.getDependencyRevisionId();
checkRevision(systemMrid);
boolean isDynamic = getAndCheckIsDynamic(systemMrid);
// we first search for the dependency in cache
ResolvedModuleRevision rmr = null;
rmr = findModuleInCache(systemDd, data);
if (rmr != null) {
if (rmr.getDescriptor().isDefault() && rmr.getResolver() != this) {
Message.verbose(
"\t"
+ getName()
+ ": found revision in cache: "
+ systemMrid
+ " (resolved by "
+ rmr.getResolver().getName()
+ "): but it's a default one, maybe we can find a better one");
} else if (isForce() && rmr.getResolver() != this) {
Message.verbose(
"\t"
+ getName()
+ ": found revision in cache: "
+ systemMrid
+ " (resolved by "
+ rmr.getResolver().getName()
+ "): but we are in force mode, let's try to find one ourself");
} else {
Message.verbose("\t" + getName() + ": revision in cache: " + systemMrid);
return checkLatest(systemDd, checkForcedResolvedModuleRevision(rmr), data);
}
}
if (data.getOptions().isUseCacheOnly()) {
throw new UnresolvedDependencyException(
"\t" + getName() + " (useCacheOnly) : no ivy file found for " + systemMrid, false);
}
checkInterrupted();
ResolvedResource ivyRef = findIvyFileRef(nsDd, data);
checkInterrupted();
// get module descriptor
ModuleDescriptor nsMd;
ModuleDescriptor systemMd = null;
if (ivyRef == null) {
if (!isAllownomd()) {
throw new UnresolvedDependencyException(
"\t" + getName() + ": no ivy file found for " + systemMrid, false);
}
nsMd = DefaultModuleDescriptor.newDefaultInstance(nsMrid, nsDd.getAllDependencyArtifacts());
ResolvedResource artifactRef = findFirstArtifactRef(nsMd, nsDd, data);
checkInterrupted();
if (artifactRef == null) {
throw new UnresolvedDependencyException(
"\t" + getName() + ": no ivy file nor artifact found for " + systemMrid, false);
} else {
long lastModified = artifactRef.getLastModified();
if (lastModified != 0 && nsMd instanceof DefaultModuleDescriptor) {
((DefaultModuleDescriptor) nsMd).setLastModified(lastModified);
}
Message.verbose(
"\t" + getName() + ": no ivy file found for " + systemMrid + ": using default data");
if (isDynamic) {
nsMd.setResolvedModuleRevisionId(
ModuleRevisionId.newInstance(nsMrid, artifactRef.getRevision()));
}
systemMd = toSystem(nsMd);
MetadataArtifactDownloadReport madr =
new MetadataArtifactDownloadReport(systemMd.getMetadataArtifact());
madr.setDownloadStatus(DownloadStatus.NO);
madr.setSearched(true);
rmr = new ResolvedModuleRevision(this, this, systemMd, madr, isForce());
getRepositoryCacheManager()
.cacheModuleDescriptor(
this,
artifactRef,
toSystem(dd),
systemMd.getAllArtifacts()[0],
null,
getCacheOptions(data));
}
} else {
if (ivyRef instanceof MDResolvedResource) {
rmr = ((MDResolvedResource) ivyRef).getResolvedModuleRevision();
}
if (rmr == null) {
rmr = parse(ivyRef, systemDd, data);
if (rmr == null) {
throw new UnresolvedDependencyException();
}
}
if (!rmr.getReport().isDownloaded() && rmr.getReport().getLocalFile() != null) {
return checkLatest(systemDd, checkForcedResolvedModuleRevision(rmr), data);
} else {
nsMd = rmr.getDescriptor();
// check descriptor data is in sync with resource revision and names
systemMd = toSystem(nsMd);
if (isCheckconsistency()) {
checkDescriptorConsistency(systemMrid, systemMd, ivyRef);
checkDescriptorConsistency(nsMrid, nsMd, ivyRef);
} else {
if (systemMd instanceof DefaultModuleDescriptor) {
DefaultModuleDescriptor defaultMd = (DefaultModuleDescriptor) systemMd;
ModuleRevisionId revision = getRevision(ivyRef, systemMrid, systemMd);
defaultMd.setModuleRevisionId(revision);
defaultMd.setResolvedModuleRevisionId(revision);
} else {
Message.warn(
"consistency disabled with instance of non DefaultModuleDescriptor..."
+ " module info can't be updated, so consistency check will be done");
checkDescriptorConsistency(nsMrid, nsMd, ivyRef);
checkDescriptorConsistency(systemMrid, systemMd, ivyRef);
}
}
rmr =
new ResolvedModuleRevision(
this, this, systemMd, toSystem(rmr.getReport()), isForce());
}
}
resolveAndCheckRevision(systemMd, systemMrid, ivyRef, isDynamic);
resolveAndCheckPublicationDate(systemDd, systemMd, systemMrid, data);
checkNotConvertedExclusionRule(systemMd, ivyRef, data);
if (ivyRef == null || ivyRef.getResource() != null) {
cacheModuleDescriptor(systemMd, systemMrid, ivyRef, rmr);
}
return checkLatest(systemDd, checkForcedResolvedModuleRevision(rmr), data);
} catch (UnresolvedDependencyException ex) {
if (ex.getMessage().length() > 0) {
if (ex.isError()) {
Message.error(ex.getMessage());
} else {
Message.verbose(ex.getMessage());
}
}
return data.getCurrentResolvedModuleRevision();
} finally {
IvyContext.popContext();
}
}