/** {@inheritDoc} */
@Override
public Entry getEntry(DN entryDN) throws DirectoryException {
// If the requested entry was null, then throw an exception.
if (entryDN == null) {
throw new DirectoryException(
DirectoryServer.getServerErrorResultCode(),
ERR_BACKEND_GET_ENTRY_NULL.get(getBackendID()));
}
// If the requested entry was the backend base entry, then retrieve it.
if (entryDN.equals(backupBaseDN)) {
return backupBaseEntry.duplicate(true);
}
// See if the requested entry was one level below the backend base entry.
// If so, then it must point to a backup directory. Otherwise, it must be
// two levels below the backup base entry and must point to a specific
// backup.
DN parentDN = entryDN.getParentDNInSuffix();
if (parentDN == null) {
Message message = ERR_BACKUP_INVALID_BASE.get(String.valueOf(entryDN));
throw new DirectoryException(ResultCode.NO_SUCH_OBJECT, message);
} else if (parentDN.equals(backupBaseDN)) {
return getBackupDirectoryEntry(entryDN);
} else if (backupBaseDN.equals(parentDN.getParentDNInSuffix())) {
return getBackupEntry(entryDN);
} else {
Message message = ERR_BACKUP_INVALID_BASE.get(String.valueOf(entryDN));
throw new DirectoryException(ResultCode.NO_SUCH_OBJECT, message, backupBaseDN, null);
}
}
/** {@inheritDoc} */
public boolean isConfigurationChangeAcceptable(
RootDNUserCfg configuration, List<Message> unacceptableReasons) {
boolean configAcceptable = true;
// There must not be any new alternate bind DNs that are already in use by
// other root users.
for (DN altBindDN : configuration.getAlternateBindDN()) {
DN existingRootDN = DirectoryServer.getActualRootBindDN(altBindDN);
if ((existingRootDN != null) && (!existingRootDN.equals(configuration.dn()))) {
Message message =
ERR_CONFIG_ROOTDN_CONFLICTING_MAPPING.get(
String.valueOf(altBindDN),
String.valueOf(configuration.dn()),
String.valueOf(existingRootDN));
unacceptableReasons.add(message);
configAcceptable = false;
}
}
return configAcceptable;
}
/**
* Test the attribute types of the search filter for access. This method supports the search
* right.
*
* @param container The container used in the access evaluation.
* @param filter The filter to check access on.
* @return True if all attribute types in the filter have access.
* @throws DirectoryException If there is a problem matching the entry using the provided filter.
*/
private boolean testFilter(AciLDAPOperationContainer container, SearchFilter filter)
throws DirectoryException {
boolean ret = true;
// If the resource entry has a dn equal to "cn=debugsearch" and it
// contains the special attribute type "debugsearchindex", then the
// resource entry is a pseudo entry created for debug purposes.
// Return true if that is the case.
if (debugSearchIndexDN.equals(container.getResourceDN())
&& container.getResourceEntry().hasAttribute(debugSearchIndex)) {
return true;
}
switch (filter.getFilterType()) {
case AND:
case OR:
{
for (SearchFilter f : filter.getFilterComponents()) {
if (!testFilter(container, f)) {
return false;
}
}
break;
}
case NOT:
{
SearchFilter f = filter.getNotComponent();
ret = testFilter(container, f);
break;
}
default:
{
AttributeType attrType = filter.getAttributeType();
container.setCurrentAttributeType(attrType);
ret = accessAllowed(container);
}
}
return ret;
}
/**
* Check access using the specified container. This container will have all of the information to
* gather applicable ACIs and perform evaluation on them.
*
* @param container An ACI operation container which has all of the information needed to check
* access.
* @return True if access is allowed.
*/
boolean accessAllowed(AciContainer container) {
DN dn = container.getResourceEntry().getDN();
// For ACI_WRITE_ADD and ACI_WRITE_DELETE set the ACI_WRITE
// right.
if (container.hasRights(ACI_WRITE_ADD) || container.hasRights(ACI_WRITE_DELETE)) {
container.setRights(container.getRights() | ACI_WRITE);
}
// Check if the ACI_SELF right needs to be set (selfwrite right).
// Only done if the right is ACI_WRITE, an attribute value is set
// and that attribute value is a DN.
if ((container.getCurrentAttributeValue() != null)
&& (container.hasRights(ACI_WRITE))
&& (isAttributeDN(container.getCurrentAttributeType()))) {
String DNString = null;
try {
DNString = container.getCurrentAttributeValue().getValue().toString();
DN tmpDN = DN.decode(DNString);
// Have a valid DN, compare to clientDN to see if the ACI_SELF
// right should be set.
if (tmpDN.equals(container.getClientDN())) {
container.setRights(container.getRights() | ACI_SELF);
}
} catch (DirectoryException ex) {
// Log a message and keep going.
Message message = WARN_ACI_NOT_VALID_DN.get(DNString);
logError(message);
}
}
// Check proxy authorization only if the entry has not already been
// processed (working on a new entry). If working on a new entry,
// then only do a proxy check if the right is not set to ACI_PROXY
// and the proxied authorization control has been decoded.
if (!container.hasSeenEntry()) {
if (container.isProxiedAuthorization()
&& !container.hasRights(ACI_PROXY)
&& !container.hasRights(ACI_SKIP_PROXY_CHECK)) {
int currentRights = container.getRights();
// Save the current rights so they can be put back if on
// success.
container.setRights(ACI_PROXY);
// Switch to the original authorization entry, not the proxied
// one.
container.useOrigAuthorizationEntry(true);
if (!accessAllowed(container)) {
return false;
}
// Access is ok, put the original rights back.
container.setRights(currentRights);
// Put the proxied authorization entry back to the current
// authorization entry.
container.useOrigAuthorizationEntry(false);
}
// Set the seen flag so proxy processing is not performed for this
// entry again.
container.setSeenEntry(true);
}
/*
* First get all allowed candidate ACIs.
*/
LinkedList<Aci> candidates = aciList.getCandidateAcis(dn);
/*
* Create an applicable list of ACIs by target matching each
* candidate ACI against the container's target match view.
*/
createApplicableList(candidates, container);
/*
* Evaluate the applicable list.
*/
boolean ret = testApplicableLists(container);
// Build summary string if doing geteffectiverights eval.
if (container.isGetEffectiveRightsEval()) {
AciEffectiveRights.createSummary(container, ret, "main");
}
return ret;
}
/** {@inheritDoc} */
@Override
public void search(SearchOperation searchOperation) throws DirectoryException {
// Get the base entry for the search, if possible. If it doesn't exist,
// then this will throw an exception.
DN baseDN = searchOperation.getBaseDN();
Entry baseEntry = getEntry(baseDN);
// Look at the base DN and see if it's the backup base DN, a backup
// directory entry DN, or a backup entry DN.
DN parentDN;
SearchScope scope = searchOperation.getScope();
SearchFilter filter = searchOperation.getFilter();
if (backupBaseDN.equals(baseDN)) {
if ((scope == SearchScope.BASE_OBJECT || scope == SearchScope.WHOLE_SUBTREE)
&& filter.matchesEntry(baseEntry)) {
searchOperation.returnEntry(baseEntry, null);
}
if (scope != SearchScope.BASE_OBJECT && !backupDirectories.isEmpty()) {
AttributeType backupPathType =
DirectoryServer.getAttributeType(ATTR_BACKUP_DIRECTORY_PATH, true);
for (File f : backupDirectories) {
// Check to see if the descriptor file exists. If not, then skip this
// backup directory.
File descriptorFile = new File(f, BACKUP_DIRECTORY_DESCRIPTOR_FILE);
if (!descriptorFile.exists()) {
continue;
}
DN backupDirDN = makeChildDN(backupBaseDN, backupPathType, f.getAbsolutePath());
Entry backupDirEntry;
try {
backupDirEntry = getBackupDirectoryEntry(backupDirDN);
} catch (Exception e) {
if (debugEnabled()) {
TRACER.debugCaught(DebugLogLevel.ERROR, e);
}
continue;
}
if (filter.matchesEntry(backupDirEntry)) {
searchOperation.returnEntry(backupDirEntry, null);
}
if (scope != SearchScope.SINGLE_LEVEL) {
List<Attribute> attrList = backupDirEntry.getAttribute(backupPathType);
if (attrList != null && !attrList.isEmpty()) {
for (AttributeValue v : attrList.get(0)) {
try {
BackupDirectory backupDirectory =
BackupDirectory.readBackupDirectoryDescriptor(v.getValue().toString());
AttributeType idType = DirectoryServer.getAttributeType(ATTR_BACKUP_ID, true);
for (String backupID : backupDirectory.getBackups().keySet()) {
DN backupEntryDN = makeChildDN(backupDirDN, idType, backupID);
Entry backupEntry = getBackupEntry(backupEntryDN);
if (filter.matchesEntry(backupEntry)) {
searchOperation.returnEntry(backupEntry, null);
}
}
} catch (Exception e) {
if (debugEnabled()) {
TRACER.debugCaught(DebugLogLevel.ERROR, e);
}
continue;
}
}
}
}
}
}
} else if (backupBaseDN.equals(parentDN = baseDN.getParentDNInSuffix())) {
Entry backupDirEntry = getBackupDirectoryEntry(baseDN);
if ((scope == SearchScope.BASE_OBJECT || scope == SearchScope.WHOLE_SUBTREE)
&& filter.matchesEntry(backupDirEntry)) {
searchOperation.returnEntry(backupDirEntry, null);
}
if (scope != SearchScope.BASE_OBJECT) {
AttributeType t = DirectoryServer.getAttributeType(ATTR_BACKUP_DIRECTORY_PATH, true);
List<Attribute> attrList = backupDirEntry.getAttribute(t);
if (attrList != null && !attrList.isEmpty()) {
for (AttributeValue v : attrList.get(0)) {
try {
BackupDirectory backupDirectory =
BackupDirectory.readBackupDirectoryDescriptor(v.getValue().toString());
AttributeType idType = DirectoryServer.getAttributeType(ATTR_BACKUP_ID, true);
for (String backupID : backupDirectory.getBackups().keySet()) {
DN backupEntryDN = makeChildDN(baseDN, idType, backupID);
Entry backupEntry = getBackupEntry(backupEntryDN);
if (filter.matchesEntry(backupEntry)) {
searchOperation.returnEntry(backupEntry, null);
}
}
} catch (Exception e) {
if (debugEnabled()) {
TRACER.debugCaught(DebugLogLevel.ERROR, e);
}
continue;
}
}
}
}
} else {
if (parentDN == null || !backupBaseDN.equals(parentDN.getParentDNInSuffix())) {
Message message = ERR_BACKUP_NO_SUCH_ENTRY.get(String.valueOf(backupBaseDN));
throw new DirectoryException(ResultCode.NO_SUCH_OBJECT, message);
}
if (scope == SearchScope.BASE_OBJECT || scope == SearchScope.WHOLE_SUBTREE) {
Entry backupEntry = getBackupEntry(baseDN);
if (backupEntry == null) {
Message message = ERR_BACKUP_NO_SUCH_ENTRY.get(String.valueOf(backupBaseDN));
throw new DirectoryException(ResultCode.NO_SUCH_OBJECT, message);
}
if (filter.matchesEntry(backupEntry)) {
searchOperation.returnEntry(backupEntry, null);
}
}
}
}
/** {@inheritDoc} */
@Override
public long numSubordinates(DN entryDN, boolean subtree) throws DirectoryException {
// If the requested entry was null, then return undefined.
if (entryDN == null) {
return -1;
}
// If the requested entry was the backend base entry, then return
// the number of backup directories.
if (backupBaseDN.equals(entryDN)) {
long count = 0;
for (File f : backupDirectories) {
// Check to see if the descriptor file exists. If not, then skip this
// backup directory.
File descriptorFile = new File(f, BACKUP_DIRECTORY_DESCRIPTOR_FILE);
if (!descriptorFile.exists()) {
continue;
}
// If subtree is included, count the number of entries for each
// backup directory.
if (subtree) {
try {
BackupDirectory backupDirectory =
BackupDirectory.readBackupDirectoryDescriptor(f.getPath());
count += backupDirectory.getBackups().keySet().size();
} catch (Exception e) {
return -1;
}
}
count++;
}
return count;
}
// See if the requested entry was one level below the backend base entry.
// If so, then it must point to a backup directory. Otherwise, it must be
// two levels below the backup base entry and must point to a specific
// backup.
DN parentDN = entryDN.getParentDNInSuffix();
if (parentDN == null) {
return -1;
} else if (backupBaseDN.equals(parentDN)) {
long count = 0;
Entry backupDirEntry = getBackupDirectoryEntry(entryDN);
AttributeType t = DirectoryServer.getAttributeType(ATTR_BACKUP_DIRECTORY_PATH, true);
List<Attribute> attrList = backupDirEntry.getAttribute(t);
if (attrList != null && !attrList.isEmpty()) {
for (AttributeValue v : attrList.get(0)) {
try {
BackupDirectory backupDirectory =
BackupDirectory.readBackupDirectoryDescriptor(v.getValue().toString());
count += backupDirectory.getBackups().keySet().size();
} catch (Exception e) {
return -1;
}
}
}
return count;
} else if (backupBaseDN.equals(parentDN.getParentDNInSuffix())) {
return 0;
} else {
return -1;
}
}
/** {@inheritDoc} */
public ConfigChangeResult applyConfigurationChange(LocalDBBackendCfg newCfg) {
ConfigChangeResult ccr;
ResultCode resultCode = ResultCode.SUCCESS;
ArrayList<Message> messages = new ArrayList<Message>();
try {
if (rootContainer != null) {
DN[] newBaseDNs = new DN[newCfg.getBaseDN().size()];
newBaseDNs = newCfg.getBaseDN().toArray(newBaseDNs);
// Check for changes to the base DNs.
for (DN baseDN : cfg.getBaseDN()) {
boolean found = false;
for (DN dn : newBaseDNs) {
if (dn.equals(baseDN)) {
found = true;
}
}
if (!found) {
// The base DN was deleted.
DirectoryServer.deregisterBaseDN(baseDN);
EntryContainer ec = rootContainer.unregisterEntryContainer(baseDN);
ec.close();
ec.delete();
}
}
for (DN baseDN : newBaseDNs) {
if (!rootContainer.getBaseDNs().contains(baseDN)) {
try {
// The base DN was added.
EntryContainer ec = rootContainer.openEntryContainer(baseDN, null);
rootContainer.registerEntryContainer(baseDN, ec);
DirectoryServer.registerBaseDN(baseDN, this, false);
} catch (Exception e) {
if (debugEnabled()) {
TRACER.debugCaught(DebugLogLevel.ERROR, e);
}
resultCode = DirectoryServer.getServerErrorResultCode();
messages.add(
ERR_BACKEND_CANNOT_REGISTER_BASEDN.get(
String.valueOf(baseDN), String.valueOf(e)));
ccr = new ConfigChangeResult(resultCode, false, messages);
return ccr;
}
}
}
baseDNs = newBaseDNs;
}
if (cfg.getDiskFullThreshold() != newCfg.getDiskFullThreshold()
|| cfg.getDiskLowThreshold() != newCfg.getDiskLowThreshold()) {
diskMonitor.setFullThreshold(newCfg.getDiskFullThreshold());
diskMonitor.setLowThreshold(newCfg.getDiskLowThreshold());
}
// Put the new configuration in place.
this.cfg = newCfg;
} catch (Exception e) {
messages.add(Message.raw(stackTraceToSingleLineString(e)));
ccr = new ConfigChangeResult(DirectoryServer.getServerErrorResultCode(), false, messages);
return ccr;
}
ccr = new ConfigChangeResult(resultCode, false, messages);
return ccr;
}
/**
* Parses the provided command-line arguments and makes the appropriate changes to the Directory
* Server configuration.
*
* @param args The command-line arguments provided to this program.
* @param outStream Output stream.
* @param errStream Error stream.
* @return The exit code from the configuration processing. A nonzero value indicates that there
* was some kind of problem during the configuration processing.
*/
public static int configMain(String[] args, OutputStream outStream, OutputStream errStream) {
BooleanArgument showUsage;
BooleanArgument enableStartTLS;
FileBasedArgument rootPasswordFile;
StringArgument hostName;
IntegerArgument ldapPort;
IntegerArgument adminConnectorPort;
IntegerArgument ldapsPort;
IntegerArgument jmxPort;
StringArgument baseDNString;
StringArgument configClass;
StringArgument configFile;
StringArgument rootDNString;
StringArgument rootPassword;
StringArgument keyManagerProviderDN;
StringArgument trustManagerProviderDN;
StringArgument certNickName;
StringArgument keyManagerPath;
StringArgument serverRoot;
PrintStream out, err;
if (outStream != null) {
out = new PrintStream(outStream);
} else {
out = NullOutputStream.printStream();
}
if (errStream != null) {
err = new PrintStream(errStream);
} else {
err = NullOutputStream.printStream();
}
Message toolDescription = INFO_CONFIGDS_TOOL_DESCRIPTION.get();
ArgumentParser argParser = new ArgumentParser(CLASS_NAME, toolDescription, false);
try {
configFile =
new StringArgument(
"configfile",
'c',
"configFile",
true,
false,
true,
INFO_CONFIGFILE_PLACEHOLDER.get(),
null,
null,
INFO_DESCRIPTION_CONFIG_FILE.get());
configFile.setHidden(true);
argParser.addArgument(configFile);
configClass =
new StringArgument(
"configclass",
OPTION_SHORT_CONFIG_CLASS,
OPTION_LONG_CONFIG_CLASS,
false,
false,
true,
INFO_CONFIGCLASS_PLACEHOLDER.get(),
ConfigFileHandler.class.getName(),
null,
INFO_DESCRIPTION_CONFIG_CLASS.get());
configClass.setHidden(true);
argParser.addArgument(configClass);
String defaultHostName;
try {
defaultHostName = InetAddress.getLocalHost().getHostName();
} catch (Exception e) {
// Not much we can do here.
defaultHostName = "localhost";
}
hostName =
new StringArgument(
OPTION_LONG_HOST.toLowerCase(),
OPTION_SHORT_HOST,
OPTION_LONG_HOST,
false,
false,
true,
INFO_HOST_PLACEHOLDER.get(),
defaultHostName,
null,
INFO_INSTALLDS_DESCRIPTION_HOST_NAME.get());
argParser.addArgument(hostName);
ldapPort =
new IntegerArgument(
"ldapport",
OPTION_SHORT_PORT,
"ldapPort",
false,
false,
true,
INFO_LDAPPORT_PLACEHOLDER.get(),
389,
null,
true,
1,
true,
65535,
INFO_CONFIGDS_DESCRIPTION_LDAP_PORT.get());
argParser.addArgument(ldapPort);
adminConnectorPort =
new IntegerArgument(
"adminConnectorPort".toLowerCase(),
null,
"adminConnectorPort",
false,
false,
true,
INFO_PORT_PLACEHOLDER.get(),
4444,
"adminConnectorPort",
true,
1,
true,
65535,
INFO_INSTALLDS_DESCRIPTION_ADMINCONNECTORPORT.get());
argParser.addArgument(adminConnectorPort);
ldapsPort =
new IntegerArgument(
"ldapsPort",
'P',
"ldapsPort",
false,
false,
true,
INFO_LDAPPORT_PLACEHOLDER.get(),
636,
null,
true,
1,
true,
65535,
INFO_CONFIGDS_DESCRIPTION_LDAPS_PORT.get());
argParser.addArgument(ldapsPort);
enableStartTLS =
new BooleanArgument(
"enableStartTLS",
OPTION_SHORT_START_TLS,
"enableStartTLS",
INFO_CONFIGDS_DESCRIPTION_ENABLE_START_TLS.get());
argParser.addArgument(enableStartTLS);
jmxPort =
new IntegerArgument(
"jmxport",
'x',
"jmxPort",
false,
false,
true,
INFO_JMXPORT_PLACEHOLDER.get(),
SetupUtils.getDefaultJMXPort(),
null,
true,
1,
true,
65535,
INFO_CONFIGDS_DESCRIPTION_JMX_PORT.get());
argParser.addArgument(jmxPort);
keyManagerProviderDN =
new StringArgument(
"keymanagerproviderdn",
'k',
"keyManagerProviderDN",
false,
false,
true,
INFO_KEY_MANAGER_PROVIDER_DN_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_KEYMANAGER_PROVIDER_DN.get());
argParser.addArgument(keyManagerProviderDN);
trustManagerProviderDN =
new StringArgument(
"trustmanagerproviderdn",
't',
"trustManagerProviderDN",
false,
false,
true,
INFO_TRUST_MANAGER_PROVIDER_DN_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_TRUSTMANAGER_PROVIDER_DN.get());
argParser.addArgument(trustManagerProviderDN);
keyManagerPath =
new StringArgument(
"keymanagerpath",
'm',
"keyManagerPath",
false,
false,
true,
INFO_KEY_MANAGER_PATH_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_KEYMANAGER_PATH.get());
argParser.addArgument(keyManagerPath);
certNickName =
new StringArgument(
"certnickname",
'a',
"certNickName",
false,
false,
true,
INFO_NICKNAME_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_CERTNICKNAME.get());
argParser.addArgument(certNickName);
baseDNString =
new StringArgument(
"basedn",
OPTION_SHORT_BASEDN,
OPTION_LONG_BASEDN,
false,
true,
true,
INFO_BASEDN_PLACEHOLDER.get(),
"dc=example,dc=com",
null,
INFO_CONFIGDS_DESCRIPTION_BASE_DN.get());
argParser.addArgument(baseDNString);
rootDNString =
new StringArgument(
"rootdn",
OPTION_SHORT_ROOT_USER_DN,
OPTION_LONG_ROOT_USER_DN,
false,
false,
true,
INFO_ROOT_USER_DN_PLACEHOLDER.get(),
"cn=Directory Manager",
null,
INFO_CONFIGDS_DESCRIPTION_ROOT_DN.get());
argParser.addArgument(rootDNString);
rootPassword =
new StringArgument(
"rootpw",
OPTION_SHORT_BINDPWD,
"rootPassword",
false,
false,
true,
INFO_ROOT_USER_PWD_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_ROOT_PW.get());
argParser.addArgument(rootPassword);
rootPasswordFile =
new FileBasedArgument(
"rootpwfile",
OPTION_SHORT_BINDPWD_FILE,
"rootPasswordFile",
false,
false,
INFO_FILE_PLACEHOLDER.get(),
null,
null,
INFO_CONFIGDS_DESCRIPTION_ROOT_PW_FILE.get());
argParser.addArgument(rootPasswordFile);
showUsage =
new BooleanArgument(
"showusage", OPTION_SHORT_HELP, OPTION_LONG_HELP, INFO_DESCRIPTION_USAGE.get());
argParser.addArgument(showUsage);
argParser.setUsageArgument(showUsage);
serverRoot =
new StringArgument(
"serverRoot",
ToolConstants.OPTION_SHORT_SERVER_ROOT,
ToolConstants.OPTION_LONG_SERVER_ROOT,
false,
false,
true,
INFO_SERVER_ROOT_DIR_PLACEHOLDER.get(),
null,
null,
null);
serverRoot.setHidden(true);
argParser.addArgument(serverRoot);
} catch (ArgumentException ae) {
Message message = ERR_CANNOT_INITIALIZE_ARGS.get(ae.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
// Parse the command-line arguments provided to the program.
try {
argParser.parseArguments(args);
} catch (ArgumentException ae) {
Message message = ERR_ERROR_PARSING_ARGS.get(ae.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
err.println(argParser.getUsage());
return LDAPResultCode.CLIENT_SIDE_PARAM_ERROR;
}
// If we should just display usage or version information,
// then print it and exit.
if (argParser.usageOrVersionDisplayed()) {
return 0;
}
// Make sure that the user actually tried to configure something.
if (!(baseDNString.isPresent()
|| ldapPort.isPresent()
|| jmxPort.isPresent()
|| rootDNString.isPresent())) {
Message message = ERR_CONFIGDS_NO_CONFIG_CHANGES.get();
err.println(wrapText(message, MAX_LINE_WIDTH));
err.println(argParser.getUsage());
return 1;
}
try {
Set<Integer> ports = new HashSet<Integer>();
if (ldapPort.isPresent()) {
ports.add(ldapPort.getIntValue());
}
if (adminConnectorPort.isPresent()) {
if (ports.contains(adminConnectorPort.getIntValue())) {
Message message =
ERR_CONFIGDS_PORT_ALREADY_SPECIFIED.get(
String.valueOf(adminConnectorPort.getIntValue()));
err.println(wrapText(message, MAX_LINE_WIDTH));
err.println(argParser.getUsage());
return 1;
} else {
ports.add(adminConnectorPort.getIntValue());
}
}
if (ldapsPort.isPresent()) {
if (ports.contains(ldapsPort.getIntValue())) {
Message message =
ERR_CONFIGDS_PORT_ALREADY_SPECIFIED.get(String.valueOf(ldapsPort.getIntValue()));
err.println(wrapText(message, MAX_LINE_WIDTH));
err.println(argParser.getUsage());
return 1;
} else {
ports.add(ldapsPort.getIntValue());
}
}
if (jmxPort.isPresent()) {
if (ports.contains(jmxPort.getIntValue())) {
Message message =
ERR_CONFIGDS_PORT_ALREADY_SPECIFIED.get(String.valueOf(jmxPort.getIntValue()));
err.println(wrapText(message, MAX_LINE_WIDTH));
err.println(argParser.getUsage());
return 1;
} else {
ports.add(jmxPort.getIntValue());
}
}
} catch (ArgumentException ae) {
Message message = ERR_CANNOT_INITIALIZE_ARGS.get(ae.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
if (serverRoot.isPresent()) {
DirectoryEnvironmentConfig env = DirectoryServer.getEnvironmentConfig();
String root = serverRoot.getValue();
try {
env.setServerRoot(new File(serverRoot.getValue()));
} catch (InitializationException e) {
ERR_INITIALIZE_SERVER_ROOT.get(root, e.getMessageObject());
}
}
// Initialize the Directory Server configuration handler using the
// information that was provided.
DirectoryServer directoryServer = DirectoryServer.getInstance();
DirectoryServer.bootstrapClient();
try {
DirectoryServer.initializeJMX();
} catch (Exception e) {
Message message =
ERR_CONFIGDS_CANNOT_INITIALIZE_JMX.get(
String.valueOf(configFile.getValue()), e.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
try {
directoryServer.initializeConfiguration(configClass.getValue(), configFile.getValue());
} catch (Exception e) {
Message message =
ERR_CONFIGDS_CANNOT_INITIALIZE_CONFIG.get(
String.valueOf(configFile.getValue()), e.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
try {
directoryServer.initializeSchema();
} catch (Exception e) {
Message message =
ERR_CONFIGDS_CANNOT_INITIALIZE_SCHEMA.get(
String.valueOf(configFile.getValue()), e.getMessage());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
// Make sure that we can get an exclusive lock for the Directory Server, so
// that no other operation will be allowed while this is in progress.
String serverLockFileName = LockFileManager.getServerLockFileName();
StringBuilder failureReason = new StringBuilder();
if (!LockFileManager.acquireExclusiveLock(serverLockFileName, failureReason)) {
Message message =
ERR_CONFIGDS_CANNOT_ACQUIRE_SERVER_LOCK.get(
String.valueOf(serverLockFileName), String.valueOf(failureReason));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
try {
// If one or more base DNs were provided, then make sure that they can be
// parsed as valid DNs.
LinkedList<DN> baseDNs = null;
if (baseDNString.isPresent()) {
baseDNs = new LinkedList<DN>();
for (String dnString : baseDNString.getValues()) {
try {
baseDNs.add(DN.decode(dnString));
} catch (DirectoryException de) {
Message message =
ERR_CONFIGDS_CANNOT_PARSE_BASE_DN.get(
String.valueOf(dnString), de.getMessageObject());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
}
// If a root user DN was provided, then make sure it can be parsed. Also,
// make sure that either a password or password file was specified.
DN rootDN = null;
String rootPW = null;
if (rootDNString.isPresent()) {
try {
rootDN = DN.decode(rootDNString.getValue());
} catch (DirectoryException de) {
Message message =
ERR_CONFIGDS_CANNOT_PARSE_ROOT_DN.get(
String.valueOf(rootDNString.getValue()), de.getMessageObject());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
if (rootPassword.isPresent()) {
rootPW = rootPassword.getValue();
} else if (rootPasswordFile.isPresent()) {
rootPW = rootPasswordFile.getValue();
} else {
Message message = ERR_CONFIGDS_NO_ROOT_PW.get();
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// Get the Directory Server configuration handler and use it to make the
// appropriate configuration changes.
ConfigHandler configHandler = DirectoryServer.getConfigHandler();
// Check that the key manager provided is valid.
if (keyManagerProviderDN.isPresent()) {
DN dn = null;
DN JCEKSProviderDN = null;
try {
dn = DN.decode(keyManagerProviderDN.getValue());
JCEKSProviderDN = DN.decode("cn=JCEKS,cn=Key Manager Providers,cn=config");
} catch (DirectoryException de) {
Message message =
ERR_CONFIGDS_CANNOT_PARSE_KEYMANAGER_PROVIDER_DN.get(
keyManagerProviderDN.getValue(), de.getMessageObject());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
if (dn.equals(JCEKSProviderDN)) {
// Create the JCEKSProvider entry
try {
String ldif =
"dn: cn=JCEKS,cn=Key Manager Providers,cn=config\n"
+ "objectClass: top\n"
+ "objectClass: ds-cfg-key-manager-provider\n"
+ "objectClass: ds-cfg-file-based-key-manager-provider\n"
+ "cn: JCEKS\n"
+ "ds-cfg-java-class: org.opends.server.extensions."
+ "FileBasedKeyManagerProvider\n"
+ "ds-cfg-enabled: true\n"
+ "ds-cfg-key-store-type: JCEKS\n"
+ "ds-cfg-key-store-file: config/keystore.jceks\n"
+ "ds-cfg-key-store-pin-file: config/keystore.pin";
LDIFImportConfig ldifImportConfig = new LDIFImportConfig(new StringReader(ldif));
LDIFReader reader = new LDIFReader(ldifImportConfig);
Entry providerConfigEntry;
while ((providerConfigEntry = reader.readEntry()) != null) {
configHandler.addEntry(providerConfigEntry, null);
}
} catch (Exception e) {
Message message =
ERR_CONFIG_KEYMANAGER_CANNOT_CREATE_JCEKS_PROVIDER.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
} else {
try {
configHandler.getConfigEntry(dn);
} catch (Exception e) {
Message message = ERR_CONFIG_KEYMANAGER_CANNOT_GET_BASE.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
}
// Check that the trust manager provided is valid.
if (trustManagerProviderDN.isPresent()) {
DN dn = null;
DN JCEKSTrustManagerDN = null;
try {
dn = DN.decode(trustManagerProviderDN.getValue());
JCEKSTrustManagerDN = DN.decode("cn=JCEKS,cn=Trust Manager Providers,cn=config");
} catch (DirectoryException de) {
Message message =
ERR_CONFIGDS_CANNOT_PARSE_TRUSTMANAGER_PROVIDER_DN.get(
trustManagerProviderDN.getValue(), de.getMessageObject());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
if (dn.equals(JCEKSTrustManagerDN)) {
try {
String ldif =
"dn: cn=JCEKS,cn=Trust Manager Providers,cn=config\n"
+ "objectClass: top\n"
+ "objectClass: ds-cfg-trust-manager-provider\n"
+ "objectClass: ds-cfg-file-based-trust-manager-provider\n"
+ "cn: JCEKS\n"
+ "ds-cfg-java-class: org.opends.server.extensions."
+ "FileBasedTrustManagerProvider\n"
+ "ds-cfg-enabled: false\n"
+ "ds-cfg-trust-store-type: JCEKS\n"
+ "ds-cfg-trust-store-file: config/truststore\n";
LDIFImportConfig ldifImportConfig = new LDIFImportConfig(new StringReader(ldif));
LDIFReader reader = new LDIFReader(ldifImportConfig);
Entry trustManagerConfigEntry;
while ((trustManagerConfigEntry = reader.readEntry()) != null) {
configHandler.addEntry(trustManagerConfigEntry, null);
}
} catch (Exception e) {
Message message = ERR_CONFIG_KEYMANAGER_CANNOT_GET_BASE.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
} else {
try {
configHandler.getConfigEntry(dn);
} catch (Exception e) {
Message message = ERR_CONFIG_TRUSTMANAGER_CANNOT_GET_BASE.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
}
// Check that the keystore path values are valid.
if (keyManagerPath.isPresent()) {
if (!keyManagerProviderDN.isPresent()) {
Message message =
ERR_CONFIGDS_KEYMANAGER_PROVIDER_DN_REQUIRED.get(
keyManagerProviderDN.getLongIdentifier(), keyManagerPath.getLongIdentifier());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If one or more base DNs were specified, then update the config
// accordingly.
if (baseDNs != null) {
try {
DN jeBackendDN = DN.decode(DN_JE_BACKEND);
ConfigEntry configEntry = configHandler.getConfigEntry(jeBackendDN);
DNConfigAttribute baseDNAttr =
new DNConfigAttribute(
ATTR_BACKEND_BASE_DN,
INFO_CONFIG_BACKEND_ATTR_DESCRIPTION_BASE_DNS.get(),
true,
true,
false,
baseDNs);
configEntry.putConfigAttribute(baseDNAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_BASE_DN.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If an LDAP port was specified, then update the config accordingly.
if (ldapPort.isPresent()) {
try {
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
IntegerConfigAttribute portAttr =
new IntegerConfigAttribute(
ATTR_LISTEN_PORT,
INFO_LDAP_CONNHANDLER_DESCRIPTION_LISTEN_PORT.get(),
true,
false,
true,
true,
1,
true,
65535,
ldapPort.getIntValue());
configEntry.putConfigAttribute(portAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_LDAP_PORT.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If an Admin Connector port was specified, then update the config
// accordingly.
if (adminConnectorPort.isPresent()) {
try {
DN adminConnectorDN = DN.decode(DN_ADMIN_CONNECTOR);
ConfigEntry configEntry = configHandler.getConfigEntry(adminConnectorDN);
IntegerConfigAttribute portAttr =
new IntegerConfigAttribute(
ATTR_LISTEN_PORT,
INFO_LDAP_CONNHANDLER_DESCRIPTION_LISTEN_PORT.get(),
true,
false,
true,
true,
1,
true,
65535,
adminConnectorPort.getIntValue());
configEntry.putConfigAttribute(portAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_ADMIN_CONNECTOR_PORT.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If an LDAPS port was specified, then update the config accordingly.
if (ldapsPort.isPresent()) {
try {
DN ldapListenerDN = DN.decode(DN_LDAPS_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
IntegerConfigAttribute portAttr =
new IntegerConfigAttribute(
ATTR_LISTEN_PORT,
INFO_LDAP_CONNHANDLER_DESCRIPTION_LISTEN_PORT.get(),
true,
false,
true,
true,
1,
true,
65535,
ldapsPort.getIntValue());
configEntry.putConfigAttribute(portAttr);
BooleanConfigAttribute enablePortAttr =
new BooleanConfigAttribute(
ATTR_CONNECTION_HANDLER_ENABLED,
INFO_LDAPS_CONNHANDLER_DESCRIPTION_ENABLE.get(),
true,
true);
configEntry.putConfigAttribute(enablePortAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_LDAPS_PORT.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If an JMX port was specified, then update the config accordingly.
if (jmxPort.isPresent()) {
try {
DN jmxListenerDN = DN.decode(DN_JMX_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(jmxListenerDN);
IntegerConfigAttribute portAttr =
new IntegerConfigAttribute(
ATTR_LISTEN_PORT,
INFO_JMX_CONNHANDLER_DESCRIPTION_LISTEN_PORT.get(),
true,
false,
true,
true,
1,
true,
65535,
jmxPort.getIntValue());
configEntry.putConfigAttribute(portAttr);
BooleanConfigAttribute enablePortAttr =
new BooleanConfigAttribute(
ATTR_CONNECTION_HANDLER_ENABLED,
INFO_JMX_CONNHANDLER_DESCRIPTION_ENABLE.get(),
true,
true);
configEntry.putConfigAttribute(enablePortAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_JMX_PORT.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// Start TLS configuration
if (enableStartTLS.isPresent()) {
try {
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
BooleanConfigAttribute startTLS =
new BooleanConfigAttribute(
ATTR_ALLOW_STARTTLS,
INFO_LDAP_CONNHANDLER_DESCRIPTION_ALLOW_STARTTLS.get(),
true,
true);
configEntry.putConfigAttribute(startTLS);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_ENABLE_STARTTLS.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// Key manager provider
if (keyManagerProviderDN.isPresent()) {
if (enableStartTLS.isPresent() || ldapsPort.isPresent()) {
try {
// Enable the key manager
DN dn = DN.decode(keyManagerProviderDN.getValue());
ConfigEntry configEntry = configHandler.getConfigEntry(dn);
BooleanConfigAttribute enableAttr =
new BooleanConfigAttribute(
ATTR_KEYMANAGER_ENABLED,
INFO_CONFIG_KEYMANAGER_DESCRIPTION_ENABLED.get(),
true,
true);
configEntry.putConfigAttribute(enableAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_ENABLE_KEYMANAGER.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
try {
if (enableStartTLS.isPresent()) {
// Use the key manager specified for the LDAP connection handler.
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
StringConfigAttribute keyManagerProviderAttr =
new StringConfigAttribute(
ATTR_KEYMANAGER_DN,
INFO_LDAP_CONNHANDLER_DESCRIPTION_KEYMANAGER_DN.get(),
false,
false,
true,
keyManagerProviderDN.getValue());
configEntry.putConfigAttribute(keyManagerProviderAttr);
}
if (ldapsPort.isPresent()) {
// Use the key manager specified for the LDAPS connection handler.
DN ldapsListenerDN = DN.decode(DN_LDAPS_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapsListenerDN);
StringConfigAttribute keyManagerProviderAttr =
new StringConfigAttribute(
ATTR_KEYMANAGER_DN,
INFO_LDAP_CONNHANDLER_DESCRIPTION_KEYMANAGER_DN.get(),
false,
false,
true,
keyManagerProviderDN.getValue());
configEntry.putConfigAttribute(keyManagerProviderAttr);
}
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_KEYMANAGER_REFERENCE.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
if (keyManagerPath.isPresent()) {
try {
// Enable the key manager
DN dn = DN.decode(keyManagerProviderDN.getValue());
ConfigEntry configEntry = configHandler.getConfigEntry(dn);
StringConfigAttribute pathAttr =
new StringConfigAttribute(
ATTR_KEYSTORE_FILE,
INFO_FILE_KEYMANAGER_DESCRIPTION_FILE.get(),
true,
true,
true,
keyManagerPath.getValue());
configEntry.putConfigAttribute(pathAttr);
} catch (Exception e) {
String message = String.valueOf(e);
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
}
if (trustManagerProviderDN.isPresent()) {
if (enableStartTLS.isPresent() || ldapsPort.isPresent()) {
// Enable the trust manager
try {
DN dn = DN.decode(trustManagerProviderDN.getValue());
ConfigEntry configEntry = configHandler.getConfigEntry(dn);
BooleanConfigAttribute enableAttr =
new BooleanConfigAttribute(
ATTR_TRUSTMANAGER_ENABLED,
ERR_CONFIG_TRUSTMANAGER_DESCRIPTION_ENABLED.get(),
true,
true);
configEntry.putConfigAttribute(enableAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_ENABLE_TRUSTMANAGER.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
try {
if (enableStartTLS.isPresent()) {
// Use the trust manager specified for the LDAP connection handler.
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
StringConfigAttribute trustManagerProviderAttr =
new StringConfigAttribute(
ATTR_TRUSTMANAGER_DN,
INFO_LDAP_CONNHANDLER_DESCRIPTION_TRUSTMANAGER_DN.get(),
false,
false,
true,
trustManagerProviderDN.getValue());
configEntry.putConfigAttribute(trustManagerProviderAttr);
}
if (ldapsPort.isPresent()) {
// Use the trust manager specified for the LDAPS connection handler.
DN ldapsListenerDN = DN.decode(DN_LDAPS_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapsListenerDN);
StringConfigAttribute trustManagerProviderAttr =
new StringConfigAttribute(
ATTR_TRUSTMANAGER_DN,
INFO_LDAP_CONNHANDLER_DESCRIPTION_TRUSTMANAGER_DN.get(),
false,
false,
true,
trustManagerProviderDN.getValue());
configEntry.putConfigAttribute(trustManagerProviderAttr);
}
} catch (Exception e) {
Message message =
ERR_CONFIGDS_CANNOT_UPDATE_TRUSTMANAGER_REFERENCE.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
if (certNickName.isPresent()) {
try {
StringConfigAttribute certNickNameAttr =
new StringConfigAttribute(
ATTR_SSL_CERT_NICKNAME,
INFO_LDAP_CONNHANDLER_DESCRIPTION_SSL_CERT_NICKNAME.get(),
false,
false,
true,
certNickName.getValue());
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
if (ldapPort.isPresent()) {
// Use the key manager specified for the LDAP connection handler.
configEntry.putConfigAttribute(certNickNameAttr);
} else {
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
}
// Use the key manager specified for the LDAPS connection handler.
DN ldapsListenerDN = DN.decode(DN_LDAPS_CONNECTION_HANDLER);
configEntry = configHandler.getConfigEntry(ldapsListenerDN);
if (ldapsPort.isPresent()) {
configEntry.putConfigAttribute(certNickNameAttr);
} else {
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
}
certNickNameAttr =
new StringConfigAttribute(
ATTR_SSL_CERT_NICKNAME,
INFO_JMX_CONNHANDLER_DESCRIPTION_SSL_CERT_NICKNAME.get(),
false,
false,
true,
certNickName.getValue());
// Use the key manager specified for the JMX connection handler.
DN jmxListenerDN = DN.decode(DN_JMX_CONNECTION_HANDLER);
configEntry = configHandler.getConfigEntry(jmxListenerDN);
if (jmxPort.isPresent()) {
configEntry.putConfigAttribute(certNickNameAttr);
} else {
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
}
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_CERT_NICKNAME.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
} else {
try {
// Use the key manager specified for the LDAP connection handler.
DN ldapListenerDN = DN.decode(DN_LDAP_CONNECTION_HANDLER);
ConfigEntry configEntry = configHandler.getConfigEntry(ldapListenerDN);
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
// Use the key manager specified for the LDAPS connection handler.
DN ldapsListenerDN = DN.decode(DN_LDAPS_CONNECTION_HANDLER);
configEntry = configHandler.getConfigEntry(ldapsListenerDN);
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
// Use the key manager specified for the JMX connection handler.
DN jmxListenerDN = DN.decode(DN_JMX_CONNECTION_HANDLER);
configEntry = configHandler.getConfigEntry(jmxListenerDN);
configEntry.removeConfigAttribute(ATTR_SSL_CERT_NICKNAME.toLowerCase());
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_CERT_NICKNAME.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// If a root user DN and password were specified, then update the config
// accordingly.
if (rootDN != null) {
try {
DN rootUserDN = DN.decode(DN_ROOT_USER);
ConfigEntry configEntry = configHandler.getConfigEntry(rootUserDN);
DNConfigAttribute bindDNAttr =
new DNConfigAttribute(
ATTR_ROOTDN_ALTERNATE_BIND_DN,
INFO_CONFIG_ROOTDN_DESCRIPTION_ALTERNATE_BIND_DN.get(),
false,
true,
false,
rootDN);
configEntry.putConfigAttribute(bindDNAttr);
byte[] rootPWBytes = getBytes(rootPW);
String encodedPassword = SaltedSHA512PasswordStorageScheme.encodeOffline(rootPWBytes);
StringConfigAttribute bindPWAttr =
new StringConfigAttribute(
ATTR_USER_PASSWORD, Message.EMPTY, false, false, false, encodedPassword);
configEntry.putConfigAttribute(bindPWAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_ROOT_USER.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
// Set the FQDN for the DIGEST-MD5 SASL mechanism.
try {
DN digestMD5DN = DN.decode(DN_DIGEST_MD5_SASL_MECHANISM);
ConfigEntry configEntry = configHandler.getConfigEntry(digestMD5DN);
StringConfigAttribute fqdnAttr =
new StringConfigAttribute(
"ds-cfg-server-fqdn", Message.EMPTY, false, false, false, hostName.getValue());
configEntry.putConfigAttribute(fqdnAttr);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_DIGEST_MD5_FQDN.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
// Check that the cipher specified is supported. This is intended to
// fix issues with JVM that do not support the default cipher (see
// issue 3075 for instance).
CryptoManagerCfgDefn cryptoManager = CryptoManagerCfgDefn.getInstance();
StringPropertyDefinition prop =
cryptoManager.getKeyWrappingTransformationPropertyDefinition();
String defaultCipher = null;
DefaultBehaviorProvider<?> p = prop.getDefaultBehaviorProvider();
if (p instanceof DefinedDefaultBehaviorProvider) {
Collection<?> defaultValues = ((DefinedDefaultBehaviorProvider<?>) p).getDefaultValues();
if (!defaultValues.isEmpty()) {
defaultCipher = defaultValues.iterator().next().toString();
}
}
if (defaultCipher != null) {
// Check that the default cipher is supported by the JVM.
try {
Cipher.getInstance(defaultCipher);
} catch (GeneralSecurityException ex) {
// The cipher is not supported: try to find an alternative one.
String alternativeCipher = getAlternativeCipher();
if (alternativeCipher != null) {
try {
DN cipherDN = DN.decode(DN_CRYPTO_MANAGER);
ConfigEntry configEntry = configHandler.getConfigEntry(cipherDN);
// Set the alternative cipher
StringConfigAttribute keyWrappingTransformation =
new StringConfigAttribute(
ATTR_CRYPTO_CIPHER_KEY_WRAPPING_TRANSFORMATION,
Message.EMPTY,
false,
false,
true,
alternativeCipher);
configEntry.putConfigAttribute(keyWrappingTransformation);
} catch (Exception e) {
Message message = ERR_CONFIGDS_CANNOT_UPDATE_CRYPTO_MANAGER.get(String.valueOf(e));
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
}
}
}
// Write the updated configuration.
try {
configHandler.writeUpdatedConfig();
Message message = INFO_CONFIGDS_WROTE_UPDATED_CONFIG.get();
out.println(wrapText(message, MAX_LINE_WIDTH));
} catch (DirectoryException de) {
Message message = ERR_CONFIGDS_CANNOT_WRITE_UPDATED_CONFIG.get(de.getMessageObject());
err.println(wrapText(message, MAX_LINE_WIDTH));
return 1;
}
} finally {
LockFileManager.releaseLock(serverLockFileName, failureReason);
}
// If we've gotten here, then everything was successful.
return 0;
}
