/** Tests the maximum persistent search limit imposed by the server. */ @Test public void testMaxPSearch() throws Exception { TestCaseUtils.initializeTestBackend(true); // Modify the configuration to allow only 1 concurrent persistent search. InternalClientConnection conn = getRootConnection(); LDAPAttribute attr = new LDAPAttribute("ds-cfg-max-psearches", "1"); ArrayList<RawModification> mods = new ArrayList<>(); mods.add(new LDAPModification(ModificationType.REPLACE, attr)); ModifyOperation modifyOperation = conn.processModify(ByteString.valueOf("cn=config"), mods); assertEquals(modifyOperation.getResultCode(), ResultCode.SUCCESS); // Create a persistent search request. Set<PersistentSearchChangeType> changeTypes = EnumSet.of(ADD, DELETE, MODIFY, MODIFY_DN); SearchRequest request = newSearchRequest(DN.valueOf("o=test"), SearchScope.BASE_OBJECT) .setTypesOnly(true) .addAttribute("cn") .addControl(new PersistentSearchControl(changeTypes, true, true)); final InternalSearchOperation search = conn.processSearch(request); Thread t = new Thread( new Runnable() { @Override public void run() { try { search.run(); } catch (Exception ex) { } } }, "Persistent Search Test"); t.start(); t.join(2000); // Create a persistent search request. final String[] args = { "-D", "cn=Directory Manager", "-w", "password", "-h", "127.0.0.1", "-p", String.valueOf(TestCaseUtils.getServerLdapPort()), "-b", "o=test", "-s", "sub", "-C", "ps:add:true:true", "--noPropertiesFile", "(objectClass=*)" }; assertEquals(LDAPSearch.mainSearch(args, false, true, null, System.err), 11); // cancel the persisting persistent search. search.cancel(new CancelRequest(true, LocalizableMessage.EMPTY)); }
/** Test EntryChangeNotificationControl. */ @Test(dataProvider = "entryChangeNotificationControl") public void checkEntryChangeNotificationControlTest( boolean isCritical, long changeNumber, String dnString) throws Exception { // Test constructor EntryChangeNotificationControl // (PersistentSearchChangeType changeType,long changeNumber) PersistentSearchChangeType[] types = PersistentSearchChangeType.values(); EntryChangeNotificationControl ecnc = null; EntryChangeNotificationControl newEcnc; ByteStringBuilder bsb = new ByteStringBuilder(); ASN1Writer writer = ASN1.getWriter(bsb); for (PersistentSearchChangeType type : types) { ecnc = new EntryChangeNotificationControl(type, changeNumber); assertNotNull(ecnc); assertEquals(OID_ENTRY_CHANGE_NOTIFICATION, ecnc.getOID()); assertEquals(changeNumber, ecnc.getChangeNumber()); assertEquals(type, ecnc.getChangeType()); assertNull(ecnc.getPreviousDN()); assertEquals(false, ecnc.isCritical()); checkEntryChangeNotificationControlToString(ecnc); // also check encode/decode try { bsb.clear(); ecnc.write(writer); LDAPControl control = LDAPReader.readControl(ASN1.getReader(bsb)); newEcnc = EntryChangeNotificationControl.DECODER.decode(control.isCritical(), control.getValue()); assertNotNull(newEcnc); assertEquals(ecnc.getOID(), newEcnc.getOID()); assertEquals(ecnc.getChangeNumber(), newEcnc.getChangeNumber()); assertEquals(ecnc.getChangeType(), newEcnc.getChangeType()); assertNull(newEcnc.getPreviousDN()); assertEquals(ecnc.isCritical(), newEcnc.isCritical()); } catch (DirectoryException e) { fail(); } } // Test constructor EntryChangeNotificationControl // (PersistentSearchChangeType changeType, DN previousDN, long // changeNumber) DN dn = DN.valueOf(dnString); for (PersistentSearchChangeType type : types) { ecnc = new EntryChangeNotificationControl(type, dn, changeNumber); assertNotNull(ecnc); assertEquals(OID_ENTRY_CHANGE_NOTIFICATION, ecnc.getOID()); assertEquals(changeNumber, ecnc.getChangeNumber()); assertEquals(type, ecnc.getChangeType()); assertEquals(dn, ecnc.getPreviousDN()); assertEquals(false, ecnc.isCritical()); checkEntryChangeNotificationControlToString(ecnc); // also check encode/decode try { bsb.clear(); ecnc.write(writer); LDAPControl control = LDAPReader.readControl(ASN1.getReader(bsb)); newEcnc = EntryChangeNotificationControl.DECODER.decode(control.isCritical(), control.getValue()); assertNotNull(newEcnc); assertEquals(ecnc.getOID(), newEcnc.getOID()); assertEquals(ecnc.getChangeNumber(), newEcnc.getChangeNumber()); assertEquals(ecnc.getChangeType(), newEcnc.getChangeType()); assertEquals(ecnc.getPreviousDN(), newEcnc.getPreviousDN()); assertEquals(ecnc.isCritical(), newEcnc.isCritical()); } catch (DirectoryException e) { assertNotEquals( type.compareTo(MODIFY_DN), 0, "couldn't decode a control with previousDN not null and type=modDN"); } } // Test constructor EntryChangeNotificationControl(boolean // isCritical, PersistentSearchChangeType changeType, // DN previousDN, long changeNumber) for (PersistentSearchChangeType type : types) { ecnc = new EntryChangeNotificationControl(isCritical, type, dn, changeNumber); assertNotNull(ecnc); assertEquals(OID_ENTRY_CHANGE_NOTIFICATION, ecnc.getOID()); assertEquals(changeNumber, ecnc.getChangeNumber()); assertEquals(type, ecnc.getChangeType()); assertEquals(dn, ecnc.getPreviousDN()); assertEquals(isCritical, ecnc.isCritical()); checkEntryChangeNotificationControlToString(ecnc); // also check encode/decode try { bsb.clear(); ecnc.write(writer); LDAPControl control = LDAPReader.readControl(ASN1.getReader(bsb)); newEcnc = EntryChangeNotificationControl.DECODER.decode(control.isCritical(), control.getValue()); assertNotNull(newEcnc); assertEquals(ecnc.getOID(), newEcnc.getOID()); assertEquals(ecnc.getChangeNumber(), newEcnc.getChangeNumber()); assertEquals(ecnc.getChangeType(), newEcnc.getChangeType()); assertEquals(ecnc.getPreviousDN(), newEcnc.getPreviousDN()); assertEquals(ecnc.isCritical(), newEcnc.isCritical()); } catch (DirectoryException e) { assertNotEquals( type.compareTo(PersistentSearchChangeType.MODIFY_DN), 0, "couldn't decode a control with previousDN not null and type=modDN"); } } // Check error on decode try { LDAPControl control = new LDAPControl(OID_ENTRY_CHANGE_NOTIFICATION, isCritical); newEcnc = EntryChangeNotificationControl.DECODER.decode(control.isCritical(), control.getValue()); fail(); } catch (DirectoryException expected) { assertEquals(expected.getMessage(), CANNOT_DECODE_CHANGE_NOTIF_CONTROL_NO_VALUE); } }