/** * Reads the values of {@link #searchAttribute} from the supplied attributes and calls {@link * #recursiveSearch} for each. * * @param conn to perform search operation on * @param entry to read * @param searchedDns list of DNs whose attributes have been read * @throws LdapException if a search error occurs */ private void readSearchAttribute( final Connection conn, final LdapEntry entry, final List<String> searchedDns) throws LdapException { if (entry != null) { final LdapAttribute attr = entry.getAttribute(searchAttribute); if (attr != null && !attr.isBinary()) { for (String s : attr.getStringValues()) { recursiveSearch(conn, s, entry, searchedDns); } } } }
/** * Recursively gets the attribute(s) {@link #mergeAttributes} for the supplied dn and adds the * values to the supplied attributes. * * @param conn to perform search operation on * @param dn to get attribute(s) for * @param entry to merge with * @param searchedDns list of DNs that have been searched for * @throws LdapException if a search error occurs */ private void recursiveSearch( final Connection conn, final String dn, final LdapEntry entry, final List<String> searchedDns) throws LdapException { if (!searchedDns.contains(dn)) { LdapEntry newEntry = null; try { final SearchOperation search = new SearchOperation(conn); final SearchRequest sr = SearchRequest.newObjectScopeSearchRequest(dn, retAttrs); final SearchResult result = search.execute(sr).getResult(); newEntry = result.getEntry(dn); } catch (LdapException e) { logger.warn("Error retrieving attribute(s): {}", Arrays.toString(retAttrs), e); } searchedDns.add(dn); if (newEntry != null) { // recursively search new attributes readSearchAttribute(conn, newEntry, searchedDns); // merge new attribute values for (String s : mergeAttributes) { final LdapAttribute newAttr = newEntry.getAttribute(s); if (newAttr != null) { final LdapAttribute oldAttr = entry.getAttribute(s); if (oldAttr == null) { entry.addAttribute(newAttr); } else { if (newAttr.isBinary()) { for (byte[] value : newAttr.getBinaryValues()) { oldAttr.addBinaryValue(value); } } else { for (String value : newAttr.getStringValues()) { oldAttr.addStringValue(value); } } } } } } } }
/** * Handle a single attribute. * * @param conn the search was performed on * @param request used to find the search entry * @param attr to handle * @throws LdapException if the LDAP returns an error */ protected void handleAttribute( final Connection conn, final SearchRequest request, final LdapAttribute attr) throws LdapException { if (attr != null) { attr.setName(handleAttributeName(conn, request, attr.getName())); if (attr.isBinary()) { final Set<byte[]> newValues = new HashSet<byte[]>(attr.size()); for (byte[] b : attr.getBinaryValues()) { newValues.add(handleAttributeValue(conn, request, b)); } attr.clear(); attr.addBinaryValues(newValues); } else { final Set<String> newValues = new HashSet<String>(attr.size()); for (String s : attr.getStringValues()) { newValues.add(handleAttributeValue(conn, request, s)); } attr.clear(); attr.addStringValues(newValues); } } }
/** {@inheritDoc} */ @Override protected void processAttributes( final Connection conn, final SearchRequest request, final LdapEntry entry) throws LdapException { final Map<LdapAttribute, Matcher> matchingAttrs = new HashMap<LdapAttribute, Matcher>(); for (LdapAttribute la : entry.getAttributes()) { // Match attribute ID against the pattern final Matcher matcher = RANGE_PATTERN.matcher(la.getName()); // If the attribute ID matches the pattern if (matcher.find()) { matchingAttrs.put(la, matcher); } } for (Map.Entry<LdapAttribute, Matcher> mEntry : matchingAttrs.entrySet()) { final LdapAttribute la = mEntry.getKey(); final Matcher matcher = mEntry.getValue(); final String msg = String.format("attribute '%s' entry '%s'", la.getName(), entry.getDn()); // Determine the attribute name without the range syntax final String attrTypeName = matcher.group(1); logger.debug("Found Range option {}", msg); if (attrTypeName == null || attrTypeName.isEmpty()) { logger.error("Unable to determine the attribute type name for {}", msg); throw new IllegalArgumentException( "Unable to determine the attribute type name for " + msg); } // Create or update the attribute whose ID has the range syntax removed LdapAttribute newAttr = entry.getAttribute(attrTypeName); if (newAttr == null) { newAttr = new LdapAttribute(la.getSortBehavior(), la.isBinary()); newAttr.setName(attrTypeName); entry.addAttribute(newAttr); } // Copy values if (la.isBinary()) { newAttr.addBinaryValues(la.getBinaryValues()); } else { newAttr.addStringValues(la.getStringValues()); } // Remove original attribute with range syntax from returned attributes entry.removeAttribute(la); // If the attribute ID ends with * we're done, otherwise increment if (!la.getName().endsWith(END_OF_RANGE)) { // Determine next attribute ID // CheckStyle:MagicNumber OFF final int start = Integer.parseInt(matcher.group(2)); final int end = Integer.parseInt(matcher.group(3)); // CheckStyle:MagicNumber ON final int diff = end - start; final String nextAttrID = String.format(RANGE_FORMAT, attrTypeName, end + 1, end + diff + 1); // Search for next increment of values logger.debug("Searching for '{}' to increment {}", nextAttrID, msg); final SearchOperation search = new SearchOperation(conn); final SearchRequest sr = SearchRequest.newObjectScopeSearchRequest(entry.getDn(), new String[] {nextAttrID}); final SearchResult result = search.execute(sr).getResult(); // Add all attributes to the search result entry.addAttributes(result.getEntry().getAttributes()); // Iterate processAttributes(conn, request, entry); } } }