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/*
 * 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.jackrabbit.test.api.lock;

import javax.jcr.ItemExistsException;
import javax.jcr.Node;
import javax.jcr.Repository;
import javax.jcr.RepositoryException;
import javax.jcr.Session;
import javax.jcr.lock.Lock;
import javax.jcr.lock.LockException;

import org.apache.jackrabbit.test.AbstractJCRTest;
import org.apache.jackrabbit.test.NotExecutableException;

/**
 * LockTest contains the test cases for the lock support in
 * the JCR specification.
 *
 * 
    *
  • {@code testroot} must allow child nodes of type nodetype *
  • {@code nodetype} nodetype which is lockable or allows to add mix:lockable. * The node must also allow child nodes with the same node type as itself. *
  • {@code nodename1} name of a lockable child node of type nodetype. *
*/ public class LockTest extends AbstractJCRTest { /** * Test lock token functionality */ public void testAddRemoveLockToken() throws Exception { // create new node Node n = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n, mixLockable); testRootNode.getSession().save(); // lock node and get lock token Lock lock = n.lock(false, false); String lockToken = lock.getLockToken(); try { // assert: session must get a non-null lock token assertNotNull("session must get a non-null lock token", lockToken); // assert: session must hold lock token assertTrue("session must hold lock token", containsLockToken(superuser, lockToken)); // remove lock token superuser.removeLockToken(lockToken); String nlt = lock.getLockToken(); assertTrue("freshly obtained lock token must either be null or the same as the one returned earlier", nlt == null || nlt.equals(lockToken)); // assert: session must still hold lock token assertFalse("session must not hold lock token", containsLockToken(superuser, lockToken)); // assert: session unable to modify node try { n.addNode(nodeName2, testNodeType); fail("session unable to modify node"); } catch (LockException e) { // expected } // add lock token superuser.addLockToken(lockToken); // assert: session must get a non-null lock token assertNotNull("session must get a non-null lock token", lock.getLockToken()); // assert: session must hold lock token assertTrue("session must hold lock token", containsLockToken(superuser, lock.getLockToken())); // assert: session able to modify node n.addNode(nodeName2, testNodeType); } finally { // make sure lock token is added even if test fail superuser.addLockToken(lockToken); } } /** * Test session scope: other session may not access nodes that are * locked. */ public void testNodeLocked() throws Exception { // create new node and lock it Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // lock node Lock lock = n1.lock(false, true); // assert: isLive must return true assertTrue("Lock must be live", lock.isLive()); // create new session Session otherSuperuser = getHelper().getSuperuserSession(); try { // get same node Node n2 = (Node) otherSuperuser.getItem(n1.getPath()); // assert: lock token must be null for other session assertNull("Lock token must be null for other session", n2.getLock().getLockToken()); // assert: modifying same node in other session must fail try { n2.addNode(nodeName2, testNodeType); fail("modifying same node in other session must fail"); } catch (LockException e) { // expected } } finally { otherSuperuser.logout(); } } /** * Test to get the lock holding node of a node */ public void testGetNode() throws Exception { // create new node with a sub node and lock it Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n1Sub = n1.addNode(nodeName1, testNodeType); ensureMixinType(n1Sub, mixLockable); testRootNode.getSession().save(); // lock node n1.lock(true, true); assertEquals("getNode() must return the lock holder", n1.getPath(), n1.getLock().getNode().getPath()); assertEquals("getNode() must return the lock holder", n1.getPath(), n1Sub.getLock().getNode().getPath()); n1.unlock(); } /** * Test if getLockOwner() returns the same value as returned by * Session.getUserId at the time that the lock was placed */ public void testGetLockOwnerProperty() throws Exception { // create new node and lock it Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // lock node Lock lock = n1.lock(false, true); if (n1.getSession().getUserID() == null) { assertFalse("jcr:lockOwner must not exist if Session.getUserId() returns null", n1.hasProperty(jcrLockOwner)); } else { assertEquals("getLockOwner() must return the same value as stored " + "in property " + jcrLockOwner + " of the lock holding " + "node", n1.getProperty(jcrLockOwner).getString(), lock.getLockOwner()); } n1.unlock(); } /** * Test if getLockOwner() returns the same value as returned by * Session.getUserId at the time that the lock was placed */ public void testGetLockOwner() throws Exception { // create new node and lock it Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // lock node Lock lock = n1.lock(false, true); assertEquals("getLockOwner() must return the same value as returned " + "by Session.getUserId at the time that the lock was placed", testRootNode.getSession().getUserID(), lock.getLockOwner()); n1.unlock(); } /** * Test if a shallow lock does not lock the child nodes of the locked node. */ public void testShallowLock() throws Exception { // create new nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = n1.addNode(nodeName2, testNodeType); testRootNode.getSession().save(); // lock parent node n1.lock(false, true); assertFalse("Shallow lock must not lock the child nodes of a node.", n2.isLocked()); } /** * Test if it is possible to lock and unlock a checked-in node. */ public void testCheckedIn() throws NotExecutableException, RepositoryException { if (!isSupported(Repository.OPTION_VERSIONING_SUPPORTED)) { throw new NotExecutableException("Versioning is not supported."); } // create a node that is lockable and versionable Node node = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(node, mixLockable); // try to make it versionable if it is not ensureMixinType(node, mixVersionable); testRootNode.getSession().save(); node.checkin(); try { node.lock(false, false); } catch (RepositoryException ex) { // repository may not allow shallow locks on this resource // retry with a deep lock node.lock(true, false); } assertTrue("Locking of a checked-in node failed.", node.isLocked()); node.unlock(); assertFalse("Unlocking of a checked-in node failed.", node.isLocked()); } /** * Test parent/child lock */ public void testParentChildLock() throws Exception { // create new nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = n1.addNode(nodeName2, testNodeType); ensureMixinType(n2, mixLockable); testRootNode.getSession().save(); // lock parent node n1.lock(false, true); // lock child node n2.lock(false, true); // unlock parent node n1.unlock(); // child node must still hold lock assertTrue("child node must still hold lock", n2.holdsLock()); } /** * Test parent/child lock */ public void testParentChildDeepLock() throws Exception { // create new nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = n1.addNode(nodeName2, testNodeType); ensureMixinType(n2, mixLockable); testRootNode.getSession().save(); // lock child node n2.lock(false, true); // assert: unable to deep lock parent node try { n1.lock(true, true); fail("unable to deep lock parent node"); } catch (LockException e) { // expected } } /** * Test Lock.isDeep() */ public void testIsDeep() throws RepositoryException, NotExecutableException { // create two lockable nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = testRootNode.addNode(nodeName2, testNodeType); ensureMixinType(n2, mixLockable); testRootNode.getSession().save(); // lock node 1 "undeeply" Lock lock1 = n1.lock(false, true); assertFalse("Lock.isDeep() must be false if the lock has not been set " + "as not deep", lock1.isDeep()); // lock node 2 "deeply" Lock lock2 = n2.lock(true, true); assertTrue("Lock.isDeep() must be true if the lock has been set " + "as deep", lock2.isDeep()); } /** * Test Lock.isSessionScoped() */ public void testIsSessionScoped() throws RepositoryException, NotExecutableException { // create two lockable nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = testRootNode.addNode(nodeName2, testNodeType); ensureMixinType(n2, mixLockable); testRootNode.getSession().save(); // lock node 1 session-scoped Lock lock1 = n1.lock(false, true); assertTrue("Lock.isSessionScoped() must be true if the lock " + "is session-scoped", lock1.isSessionScoped()); // lock node 2 open-scoped Lock lock2 = n2.lock(false, false); assertFalse("Lock.isSessionScoped() must be false if the lock " + "is open-scoped", lock2.isSessionScoped()); n2.unlock(); } /** * Test locks are released when session logs out */ public void testLogout() throws Exception { // add node Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // create new session Session otherSuperuser = getHelper().getSuperuserSession(); Lock lock; try { // get node created above Node n2 = (Node) otherSuperuser.getItem(n1.getPath()); // lock node lock = n2.lock(false, true); // assert: lock must be alive assertTrue("lock must be alive", lock.isLive()); // assert: node must be locked n1.refresh(false); assertTrue("node must be locked", n1.isLocked()); } finally { // log out otherSuperuser.logout(); } // assert: lock must not be alive assertFalse("lock must not be alive", lock.isLive()); // assert: node must not be locked n1.getSession().refresh(true); assertFalse("node must not be locked", n1.isLocked()); } /** * Test locks may be transferred to other session */ public void testLockTransfer() throws Exception { // add node Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // create new session Session otherSuperuser = getHelper().getSuperuserSession(); try { // get node created above Node n2 = (Node) otherSuperuser.getItem(n1.getPath()); // lock node Lock lock = n2.lock(false, false); // assert: user must get non-null token assertNotNull("user must get non-null token", lock.getLockToken()); // transfer to standard session String lockToken = lock.getLockToken(); otherSuperuser.removeLockToken(lockToken); superuser.addLockToken(lockToken); String nlt = lock.getLockToken(); assertTrue("freshly obtained lock token must either be null or the same as the one returned earlier", nlt == null || nlt.equals(lockToken)); // assert: user must get non-null token assertNotNull("user must get non-null token", n1.getLock().getLockToken()); } finally { // log out otherSuperuser.logout(); // unlock again n1.unlock(); } } /** * Test open-scoped locks */ public void testOpenScopedLocks() throws Exception { // add node Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); testRootNode.getSession().save(); // create new session Session otherSuperuser = getHelper().getSuperuserSession(); try { // get node created above Node n2 = (Node) otherSuperuser.getItem(n1.getPath()); // lock node Lock lock = n2.lock(false, false); // transfer to standard session String lockToken = lock.getLockToken(); otherSuperuser.removeLockToken(lockToken); superuser.addLockToken(lockToken); } finally { // log out otherSuperuser.logout(); } // assert: node still locked assertTrue(n1.isLocked()); } /** * Test refresh */ public void testRefresh() throws Exception { // create new node Node n = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n, mixLockable); testRootNode.getSession().save(); // lock node and get lock token Lock lock = n.lock(false, true); // assert: lock must be alive assertTrue("lock must be alive", lock.isLive()); // assert: refresh must succeed lock.refresh(); // unlock node n.unlock(); // assert: lock must not be alive assertFalse("lock must not be alive", lock.isLive()); } /** * Test refresh */ public void testRefreshNotLive() throws Exception { // create new node Node n = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n, mixLockable); testRootNode.getSession().save(); // lock node and get lock token Lock lock = n.lock(false, true); // assert: lock must be alive assertTrue("lock must be alive", lock.isLive()); // unlock node n.unlock(); // assert: lock must not be alive assertFalse("lock must not be alive", lock.isLive()); // refresh try { lock.refresh(); fail("Refresh on a lock that is not alive must fail"); } catch (LockException e) { // success } } /** * Test getLock */ public void testGetLock() throws Exception { // create new nodes Node n1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(n1, mixLockable); Node n2 = n1.addNode(nodeName2, testNodeType); ensureMixinType(n2, mixLockable); testRootNode.getSession().save(); // deep lock parent node n1.lock(true, true); // get lock on child node Lock lock = n2.getLock(); // lock holding node must be parent assertTrue("lock holding node must be parent", lock.getNode().isSame(n1)); } /** * Tests if a locked, checked-in node can be unlocked */ public void testCheckedInUnlock() throws Exception { if (!isSupported(Repository.OPTION_VERSIONING_SUPPORTED)) { throw new NotExecutableException("Repository does not support versioning."); } // set up versionable and lockable node Node testNode = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(testNode, mixLockable); ensureMixinType(testNode, mixVersionable); testRootNode.getSession().save(); // lock and check-in try { testNode.lock(false, false); } catch (RepositoryException ex) { // repository may not allow shallow locks on this resource // retry with a deep lock testNode.lock(true, false); } testNode.save(); testNode.checkin(); // do the unlock testNode.unlock(); assertFalse("Could not unlock a locked, checked-in node", testNode.holdsLock()); } /** * Tests if locks are maintained when child nodes are reordered */ public void testReorder() throws Exception { Node testNode = setUpSameNameSiblings(); // lock last node (3) testNode.lock(false, true); // assert: last node locked assertTrue("Third child node locked", testRootNode.getNode(nodeName1 + "[3]").isLocked()); // move last node in front of first testRootNode.orderBefore(nodeName1 + "[3]", nodeName1 + "[1]"); testRootNode.getSession().save(); // assert: first node locked assertTrue("First child node locked", testRootNode.getNode(nodeName1 + "[1]").isLocked()); } /** * Tests if locks are maintained when child nodes are reordered */ public void testReorder2() throws Exception { setUpSameNameSiblings(); // lock first node (1) testRootNode.getNode(nodeName1 + "[1]").lock(false, true); // assert: first node locked assertTrue("First child node locked", testRootNode.getNode(nodeName1 + "[1]").isLocked()); // move first node to last testRootNode.orderBefore(nodeName1 + "[1]", null); testRootNode.getSession().save(); // assert: third node locked assertTrue("Third child node locked", testRootNode.getNode(nodeName1 + "[3]").isLocked()); } /** * Tests if move preserves lock state (JIRA issue JCR-207). A node that has * been locked must still appear locked when it has been moved or renamed, * regardless whether the changes have already been made persistent. */ public void testMoveLocked() throws Exception { Session session = testRootNode.getSession(); // create two nodes, parent and child Node testNode1 = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(testNode1, mixLockable); Node testNode2 = testNode1.addNode(nodeName2, testNodeType); ensureMixinType(testNode2, mixLockable); testRootNode.getSession().save(); // lock child node testNode2.lock(false, true); // assert: child node locked assertTrue("Child node locked", testNode2.isLocked()); // move child node up String newPath = testRootNode.getPath() + "/" + testNode2.getName(); session.move(testNode2.getPath(), newPath); // assert: child node locked, before save assertTrue("Child node locked before save", testNode2.isLocked()); session.save(); // assert: child node locked, after save assertTrue("Child node locked after save", testNode2.isLocked()); } /** * Tests if unlocking the first of two locked same-name sibling nodes does * not unlock the second (JIRA issue JCR-284). */ public void testUnlockSameNameSibling() throws RepositoryException, NotExecutableException { Session session = testRootNode.getSession(); Node n1, n2; try { // create two same-name sibling nodes n1 = testRootNode.addNode(nodeName1, testNodeType); n2 = testRootNode.addNode(nodeName1, testNodeType); session.save(); } catch (ItemExistsException ex) { throw new NotExecutableException("Node does not seem to allow same name siblings"); } ensureMixinType(n1, mixLockable); ensureMixinType(n2, mixLockable); session.save(); // lock both nodes n1.lock(true, true); n2.lock(true, true); // assert: both nodes are locked assertTrue("First node locked: ", n1.isLocked()); assertTrue("Second node locked: ", n2.isLocked()); // unlock first sibling n1.unlock(); // assert: first node unlocked, second node still locked assertFalse("First node unlocked: ", n1.isLocked()); assertTrue("Second node locked: ", n2.isLocked()); } /** * Return a flag indicating whether the indicated session contains * a specific lock token */ private boolean containsLockToken(Session session, String lockToken) { String[] lt = session.getLockTokens(); for (int i = 0; i < lt.length; i++) { if (lt[i].equals(lockToken)) { return true; } } return false; } /** * Create three child nodes with identical names */ private Node setUpSameNameSiblings() throws RepositoryException, NotExecutableException { // create three lockable nodes with same name try { Node testNode = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(testNode, mixLockable); testNode = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(testNode, mixLockable); testNode = testRootNode.addNode(nodeName1, testNodeType); ensureMixinType(testNode, mixLockable); testRootNode.getSession().save(); return testNode; } catch (ItemExistsException ex) { // repository does not seem to support same name siblings on this node type throw new NotExecutableException("Node type " + testNodeType + " does not support same-name-siblings"); } } }




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