/*
* 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.commons.pool.impl;
import java.util.NoSuchElementException;
import java.util.Random;
import org.apache.commons.pool.BasePoolableObjectFactory;
import org.apache.commons.pool.ObjectPool;
import org.apache.commons.pool.PoolUtils;
import org.apache.commons.pool.PoolableObjectFactory;
import org.apache.commons.pool.TestBaseObjectPool;
import org.apache.commons.pool.VisitTracker;
import org.apache.commons.pool.VisitTrackerFactory;
/**
* @author Rodney Waldhoff
* @author Dirk Verbeeck
* @author Sandy McArthur
* @version $Revision: 1205211 $ $Date: 2011-11-22 15:47:57 -0700 (Tue, 22 Nov 2011) $
*/
public class TestGenericObjectPool extends TestBaseObjectPool {
public TestGenericObjectPool(String testName) {
super(testName);
}
protected ObjectPool makeEmptyPool(int mincap) {
GenericObjectPool pool = new GenericObjectPool(new SimpleFactory());
pool.setMaxActive(mincap);
pool.setMaxIdle(mincap);
return pool;
}
protected ObjectPool makeEmptyPool(final PoolableObjectFactory factory) {
return new GenericObjectPool(factory);
}
protected Object getNthObject(int n) {
return String.valueOf(n);
}
public void setUp() throws Exception {
super.setUp();
pool = new GenericObjectPool(new SimpleFactory());
}
public void tearDown() throws Exception {
super.tearDown();
pool.clear();
pool.close();
pool = null;
}
public void testWhenExhaustedGrow() throws Exception {
pool.setMaxActive(1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_GROW);
Object obj1 = pool.borrowObject();
assertNotNull(obj1);
Object obj2 = pool.borrowObject();
assertNotNull(obj2);
pool.returnObject(obj2);
pool.returnObject(obj1);
pool.close();
}
public void testWhenExhaustedFail() throws Exception {
pool.setMaxActive(1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_FAIL);
Object obj1 = pool.borrowObject();
assertNotNull(obj1);
try {
pool.borrowObject();
fail("Expected NoSuchElementException");
} catch(NoSuchElementException e) {
// expected
}
pool.returnObject(obj1);
assertEquals(1, pool.getNumIdle());
pool.close();
}
public void testWhenExhaustedBlock() throws Exception {
pool.setMaxActive(1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setMaxWait(10L);
Object obj1 = pool.borrowObject();
assertNotNull(obj1);
try {
pool.borrowObject();
fail("Expected NoSuchElementException");
} catch(NoSuchElementException e) {
// expected
}
pool.returnObject(obj1);
pool.close();
}
public void testWhenExhaustedBlockInterupt() throws Exception {
pool.setMaxActive(1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setMaxWait(0);
Object obj1 = pool.borrowObject();
// Make sure an object was obtained
assertNotNull(obj1);
// Create a separate thread to try and borrow another object
WaitingTestThread wtt = new WaitingTestThread(pool, 200);
wtt.start();
// Give wtt time to start
Thread.sleep(200);
wtt.interrupt();
// Give interupt time to take effect
Thread.sleep(200);
// Check thread was interrupted
assertTrue(wtt._thrown instanceof InterruptedException);
// Return object to the pool
pool.returnObject(obj1);
// Bug POOL-162 - check there is now an object in the pool
pool.setMaxWait(10L);
Object obj2 = null;
try {
obj2 = pool.borrowObject();
assertNotNull(obj2);
} catch(NoSuchElementException e) {
// Not expected
fail("NoSuchElementException not expected");
}
pool.returnObject(obj2);
pool.close();
}
public void testWhenExhaustedBlockClosePool() throws Exception {
pool.setMaxActive(1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setMaxWait(0);
Object obj1 = pool.borrowObject();
// Make sure an object was obtained
assertNotNull(obj1);
// Create a separate thread to try and borrow another object
WaitingTestThread wtt = new WaitingTestThread(pool, 200);
wtt.start();
// Give wtt time to start
Thread.sleep(200);
// close the pool (Bug POOL-189)
pool.close();
// Give interrupt time to take effect
Thread.sleep(200);
// Check thread was interrupted
assertTrue(wtt._thrown instanceof IllegalStateException);
}
public void testEvictWhileEmpty() throws Exception {
pool.evict();
pool.evict();
pool.close();
}
/**
* Tests addObject contention between ensureMinIdle triggered by
* the Evictor with minIdle > 0 and borrowObject.
*/
public void testEvictAddObjects() throws Exception {
SimpleFactory factory = new SimpleFactory();
factory.setMakeLatency(300);
factory.setMaxActive(2);
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setMaxActive(2);
pool.setMinIdle(1);
pool.borrowObject(); // numActive = 1, numIdle = 0
// Create a test thread that will run once and try a borrow after
// 150ms fixed delay
TestThread borrower = new TestThread(pool, 1, 150, false);
Thread borrowerThread = new Thread(borrower);
// Set evictor to run in 100 ms - will create idle instance
pool.setTimeBetweenEvictionRunsMillis(100);
borrowerThread.start(); // Off to the races
borrowerThread.join();
assertTrue(!borrower.failed());
pool.close();
}
public void testEvictLIFO() throws Exception {
checkEvict(true);
}
public void testEvictFIFO() throws Exception {
checkEvict(false);
}
public void checkEvict(boolean lifo) throws Exception {
// yea this is hairy but it tests all the code paths in GOP.evict()
final SimpleFactory factory = new SimpleFactory();
final GenericObjectPool pool = new GenericObjectPool(factory);
pool.setSoftMinEvictableIdleTimeMillis(10);
pool.setMinIdle(2);
pool.setTestWhileIdle(true);
pool.setLifo(lifo);
PoolUtils.prefill(pool, 5);
pool.evict();
factory.setEvenValid(false);
factory.setOddValid(false);
factory.setThrowExceptionOnActivate(true);
pool.evict();
PoolUtils.prefill(pool, 5);
factory.setThrowExceptionOnActivate(false);
factory.setThrowExceptionOnPassivate(true);
pool.evict();
factory.setThrowExceptionOnPassivate(false);
factory.setEvenValid(true);
factory.setOddValid(true);
Thread.sleep(125);
pool.evict();
assertEquals(2, pool.getNumIdle());
}
/**
* Test to make sure evictor visits least recently used objects first,
* regardless of FIFO/LIFO
*
* JIRA: POOL-86
*/
public void testEvictionOrder() throws Exception {
checkEvictionOrder(false);
checkEvictionOrder(true);
}
private void checkEvictionOrder(boolean lifo) throws Exception {
SimpleFactory factory = new SimpleFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setNumTestsPerEvictionRun(2);
pool.setMinEvictableIdleTimeMillis(100);
pool.setLifo(lifo);
for (int i = 0; i < 5; i++) {
pool.addObject();
Thread.sleep(100);
}
// Order, oldest to youngest, is "0", "1", ...,"4"
pool.evict(); // Should evict "0" and "1"
Object obj = pool.borrowObject();
assertTrue("oldest not evicted", !obj.equals("0"));
assertTrue("second oldest not evicted", !obj.equals("1"));
// 2 should be next out for FIFO, 4 for LIFO
assertEquals("Wrong instance returned", lifo ? "4" : "2" , obj);
// Two eviction runs in sequence
factory = new SimpleFactory();
pool = new GenericObjectPool(factory);
pool.setNumTestsPerEvictionRun(2);
pool.setMinEvictableIdleTimeMillis(100);
pool.setLifo(lifo);
for (int i = 0; i < 5; i++) {
pool.addObject();
Thread.sleep(100);
}
pool.evict(); // Should evict "0" and "1"
pool.evict(); // Should evict "2" and "3"
obj = pool.borrowObject();
assertEquals("Wrong instance remaining in pool", "4", obj);
}
/**
* Verifies that the evictor visits objects in expected order
* and frequency.
*/
public void testEvictorVisiting() throws Exception {
checkEvictorVisiting(true);
checkEvictorVisiting(false);
}
private void checkEvictorVisiting(boolean lifo) throws Exception {
VisitTrackerFactory factory = new VisitTrackerFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setNumTestsPerEvictionRun(2);
pool.setMinEvictableIdleTimeMillis(-1);
pool.setTestWhileIdle(true);
pool.setLifo(lifo);
pool.setTestOnReturn(false);
pool.setTestOnBorrow(false);
for (int i = 0; i < 8; i++) {
pool.addObject();
}
pool.evict(); // Visit oldest 2 - 0 and 1
Object obj = pool.borrowObject();
pool.returnObject(obj);
obj = pool.borrowObject();
pool.returnObject(obj);
// borrow, return, borrow, return
// FIFO will move 0 and 1 to end
// LIFO, 7 out, then in, then out, then in
pool.evict(); // Should visit 2 and 3 in either case
for (int i = 0; i < 8; i++) {
VisitTracker tracker = (VisitTracker) pool.borrowObject();
if (tracker.getId() >= 4) {
assertEquals("Unexpected instance visited " + tracker.getId(),
0, tracker.getValidateCount());
} else {
assertEquals("Instance " + tracker.getId() +
" visited wrong number of times.",
1, tracker.getValidateCount());
}
}
factory = new VisitTrackerFactory();
pool = new GenericObjectPool(factory);
pool.setNumTestsPerEvictionRun(3);
pool.setMinEvictableIdleTimeMillis(-1);
pool.setTestWhileIdle(true);
pool.setLifo(lifo);
pool.setTestOnReturn(false);
pool.setTestOnBorrow(false);
for (int i = 0; i < 8; i++) {
pool.addObject();
}
pool.evict(); // 0, 1, 2
pool.evict(); // 3, 4, 5
obj = pool.borrowObject();
pool.returnObject(obj);
obj = pool.borrowObject();
pool.returnObject(obj);
obj = pool.borrowObject();
pool.returnObject(obj);
// borrow, return, borrow, return
// FIFO 3,4,5,6,7,0,1,2
// LIFO 7,6,5,4,3,2,1,0
// In either case, pointer should be at 6
pool.evict();
// Should hit 6,7,0 - 0 for second time
for (int i = 0; i < 8; i++) {
VisitTracker tracker = (VisitTracker) pool.borrowObject();
if (tracker.getId() != 0) {
assertEquals("Instance " + tracker.getId() +
" visited wrong number of times.",
1, tracker.getValidateCount());
} else {
assertEquals("Instance " + tracker.getId() +
" visited wrong number of times.",
2, tracker.getValidateCount());
}
}
// Randomly generate a pools with random numTests
// and make sure evictor cycles through elements appropriately
int[] smallPrimes = {2, 3, 5, 7};
Random random = new Random();
random.setSeed(System.currentTimeMillis());
for (int i = 0; i < 4; i++) {
pool.setNumTestsPerEvictionRun(smallPrimes[i]);
for (int j = 0; j < 5; j++) {
pool = new GenericObjectPool(factory);
pool.setNumTestsPerEvictionRun(3);
pool.setMinEvictableIdleTimeMillis(-1);
pool.setTestWhileIdle(true);
pool.setLifo(lifo);
pool.setTestOnReturn(false);
pool.setTestOnBorrow(false);
pool.setMaxIdle(-1);
int instanceCount = 10 + random.nextInt(20);
pool.setMaxActive(instanceCount);
for (int k = 0; k < instanceCount; k++) {
pool.addObject();
}
// Execute a random number of evictor runs
int runs = 10 + random.nextInt(50);
for (int k = 0; k < runs; k++) {
pool.evict();
}
// Number of times evictor should have cycled through the pool
int cycleCount = (runs * pool.getNumTestsPerEvictionRun())
/ instanceCount;
// Look at elements and make sure they are visited cycleCount
// or cycleCount + 1 times
VisitTracker tracker = null;
int visitCount = 0;
for (int k = 0; k < instanceCount; k++) {
tracker = (VisitTracker) pool.borrowObject();
assertTrue(pool.getNumActive() <= pool.getMaxActive());
visitCount = tracker.getValidateCount();
assertTrue(visitCount >= cycleCount &&
visitCount <= cycleCount + 1);
}
}
}
}
public void testExceptionOnPassivateDuringReturn() throws Exception {
SimpleFactory factory = new SimpleFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
Object obj = pool.borrowObject();
factory.setThrowExceptionOnPassivate(true);
pool.returnObject(obj);
assertEquals(0,pool.getNumIdle());
pool.close();
}
public void testExceptionOnDestroyDuringBorrow() throws Exception {
SimpleFactory factory = new SimpleFactory();
factory.setThrowExceptionOnDestroy(true);
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setTestOnBorrow(true);
pool.borrowObject();
factory.setValid(false); // Make validation fail on next borrow attempt
try {
pool.borrowObject();
fail("Expecting NoSuchElementException");
} catch (NoSuchElementException ex) {
// expected
}
assertEquals(1, pool.getNumActive());
assertEquals(0, pool.getNumIdle());
}
public void testExceptionOnDestroyDuringReturn() throws Exception {
SimpleFactory factory = new SimpleFactory();
factory.setThrowExceptionOnDestroy(true);
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setTestOnReturn(true);
Object obj1 = pool.borrowObject();
pool.borrowObject();
factory.setValid(false); // Make validation fail
pool.returnObject(obj1);
assertEquals(1, pool.getNumActive());
assertEquals(0, pool.getNumIdle());
}
public void testExceptionOnActivateDuringBorrow() throws Exception {
SimpleFactory factory = new SimpleFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
Object obj1 = pool.borrowObject();
Object obj2 = pool.borrowObject();
pool.returnObject(obj1);
pool.returnObject(obj2);
factory.setThrowExceptionOnActivate(true);
factory.setEvenValid(false);
// Activation will now throw every other time
// First attempt throws, but loop continues and second succeeds
Object obj = pool.borrowObject();
assertEquals(1, pool.getNumActive());
assertEquals(0, pool.getNumIdle());
pool.returnObject(obj);
factory.setValid(false);
// Validation will now fail on activation when borrowObject returns
// an idle instance, and then when attempting to create a new instance
try {
obj1 = pool.borrowObject();
fail("Expecting NoSuchElementException");
} catch (NoSuchElementException ex) {
// expected
}
assertEquals(0, pool.getNumActive());
assertEquals(0, pool.getNumIdle());
}
public void testSetFactoryWithActiveObjects() throws Exception {
GenericObjectPool pool = new GenericObjectPool();
pool.setMaxIdle(10);
pool.setFactory(new SimpleFactory());
Object obj = pool.borrowObject();
assertNotNull(obj);
try {
pool.setFactory(null);
fail("Expected IllegalStateException");
} catch(IllegalStateException e) {
// expected
}
try {
pool.setFactory(new SimpleFactory());
fail("Expected IllegalStateException");
} catch(IllegalStateException e) {
// expected
}
}
public void testSetFactoryWithNoActiveObjects() throws Exception {
GenericObjectPool pool = new GenericObjectPool();
pool.setMaxIdle(10);
pool.setFactory(new SimpleFactory());
Object obj = pool.borrowObject();
pool.returnObject(obj);
assertEquals(1,pool.getNumIdle());
pool.setFactory(new SimpleFactory());
assertEquals(0,pool.getNumIdle());
}
public void testNegativeMaxActive() throws Exception {
pool.setMaxActive(-1);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_FAIL);
Object obj = pool.borrowObject();
assertEquals(getNthObject(0),obj);
pool.returnObject(obj);
}
public void testMaxIdle() throws Exception {
pool.setMaxActive(100);
pool.setMaxIdle(8);
Object[] active = new Object[100];
for(int i=0;i<100;i++) {
active[i] = pool.borrowObject();
}
assertEquals(100,pool.getNumActive());
assertEquals(0,pool.getNumIdle());
for(int i=0;i<100;i++) {
pool.returnObject(active[i]);
assertEquals(99 - i,pool.getNumActive());
assertEquals((i < 8 ? i+1 : 8),pool.getNumIdle());
}
}
public void testMaxIdleZero() throws Exception {
pool.setMaxActive(100);
pool.setMaxIdle(0);
Object[] active = new Object[100];
for(int i=0;i<100;i++) {
active[i] = pool.borrowObject();
}
assertEquals(100,pool.getNumActive());
assertEquals(0,pool.getNumIdle());
for(int i=0;i<100;i++) {
pool.returnObject(active[i]);
assertEquals(99 - i,pool.getNumActive());
assertEquals(0, pool.getNumIdle());
}
}
public void testMaxActive() throws Exception {
pool.setMaxActive(3);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_FAIL);
pool.borrowObject();
pool.borrowObject();
pool.borrowObject();
try {
pool.borrowObject();
fail("Expected NoSuchElementException");
} catch(NoSuchElementException e) {
// expected
}
}
public void testTimeoutNoLeak() throws Exception {
pool.setMaxActive(2);
pool.setMaxWait(10);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
Object obj = pool.borrowObject();
Object obj2 = pool.borrowObject();
try {
pool.borrowObject();
fail("Expecting NoSuchElementException");
} catch (NoSuchElementException ex) {
//xpected
}
pool.returnObject(obj2);
pool.returnObject(obj);
obj = pool.borrowObject();
obj2 = pool.borrowObject();
}
public void testMaxActiveZero() throws Exception {
pool.setMaxActive(0);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_FAIL);
try {
pool.borrowObject();
fail("Expected NoSuchElementException");
} catch(NoSuchElementException e) {
// expected
}
}
public void testMaxActiveUnderLoad() {
// Config
int numThreads = 199; // And main thread makes a round 200.
int numIter = 20;
int delay = 25;
int maxActive = 10;
SimpleFactory factory = new SimpleFactory();
factory.setMaxActive(maxActive);
pool.setFactory(factory);
pool.setMaxActive(maxActive);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setTimeBetweenEvictionRunsMillis(-1);
// Start threads to borrow objects
TestThread[] threads = new TestThread[numThreads];
for(int i=0;i<numThreads;i++) {
// Factor of 2 on iterations so main thread does work whilst other
// threads are running. Factor of 2 on delay so average delay for
// other threads == actual delay for main thread
threads[i] = new TestThread(pool, numIter * 2, delay * 2);
Thread t = new Thread(threads[i]);
t.start();
}
// Give the threads a chance to start doing some work
try {
Thread.sleep(5000);
} catch(InterruptedException e) {
// ignored
}
for (int i = 0; i < numIter; i++) {
Object obj = null;
try {
try {
Thread.sleep(delay);
} catch(InterruptedException e) {
// ignored
}
obj = pool.borrowObject();
// Under load, observed _numActive > _maxActive
if (pool.getNumActive() > pool.getMaxActive()) {
throw new IllegalStateException("Too many active objects");
}
try {
Thread.sleep(delay);
} catch(InterruptedException e) {
// ignored
}
} catch (Exception e) {
// Shouldn't happen
e.printStackTrace();
fail("Exception on borrow");
} finally {
if (obj != null) {
try {
pool.returnObject(obj);
} catch (Exception e) {
// Ignore
}
}
}
}
for(int i=0;i<numThreads;i++) {
while(!(threads[i]).complete()) {
try {
Thread.sleep(500L);
} catch(InterruptedException e) {
// ignored
}
}
if(threads[i].failed()) {
fail("Thread "+i+" failed: "+threads[i]._error.toString());
}
}
}
public void testInvalidWhenExhaustedAction() throws Exception {
try {
pool.setWhenExhaustedAction(Byte.MAX_VALUE);
fail("Expected IllegalArgumentException");
} catch(IllegalArgumentException e) {
// expected
}
try {
ObjectPool pool = new GenericObjectPool(
new SimpleFactory(),
GenericObjectPool.DEFAULT_MAX_ACTIVE,
Byte.MAX_VALUE,
GenericObjectPool.DEFAULT_MAX_WAIT,
GenericObjectPool.DEFAULT_MAX_IDLE,
false,
false,
GenericObjectPool.DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,
GenericObjectPool.DEFAULT_NUM_TESTS_PER_EVICTION_RUN,
GenericObjectPool.DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,
false
);
assertNotNull(pool);
fail("Expected IllegalArgumentException");
} catch(IllegalArgumentException e) {
// expected
}
}
public void testSettersAndGetters() throws Exception {
GenericObjectPool pool = new GenericObjectPool();
{
pool.setFactory(new SimpleFactory());
}
{
pool.setMaxActive(123);
assertEquals(123,pool.getMaxActive());
}
{
pool.setMaxIdle(12);
assertEquals(12,pool.getMaxIdle());
}
{
pool.setMaxWait(1234L);
assertEquals(1234L,pool.getMaxWait());
}
{
pool.setMinEvictableIdleTimeMillis(12345L);
assertEquals(12345L,pool.getMinEvictableIdleTimeMillis());
}
{
pool.setNumTestsPerEvictionRun(11);
assertEquals(11,pool.getNumTestsPerEvictionRun());
}
{
pool.setTestOnBorrow(true);
assertTrue(pool.getTestOnBorrow());
pool.setTestOnBorrow(false);
assertTrue(!pool.getTestOnBorrow());
}
{
pool.setTestOnReturn(true);
assertTrue(pool.getTestOnReturn());
pool.setTestOnReturn(false);
assertTrue(!pool.getTestOnReturn());
}
{
pool.setTestWhileIdle(true);
assertTrue(pool.getTestWhileIdle());
pool.setTestWhileIdle(false);
assertTrue(!pool.getTestWhileIdle());
}
{
pool.setTimeBetweenEvictionRunsMillis(11235L);
assertEquals(11235L,pool.getTimeBetweenEvictionRunsMillis());
}
{
pool.setSoftMinEvictableIdleTimeMillis(12135L);
assertEquals(12135L,pool.getSoftMinEvictableIdleTimeMillis());
}
{
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
assertEquals(GenericObjectPool.WHEN_EXHAUSTED_BLOCK,pool.getWhenExhaustedAction());
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_FAIL);
assertEquals(GenericObjectPool.WHEN_EXHAUSTED_FAIL,pool.getWhenExhaustedAction());
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_GROW);
assertEquals(GenericObjectPool.WHEN_EXHAUSTED_GROW,pool.getWhenExhaustedAction());
}
}
public void testDefaultConfiguration() throws Exception {
GenericObjectPool pool = new GenericObjectPool();
assertConfiguration(new GenericObjectPool.Config(),pool);
}
public void testConstructors() throws Exception {
{
GenericObjectPool pool = new GenericObjectPool();
assertConfiguration(new GenericObjectPool.Config(),pool);
}
{
GenericObjectPool pool = new GenericObjectPool(new SimpleFactory());
assertConfiguration(new GenericObjectPool.Config(),pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxIdle = 3;
expected.maxWait = 5L;
expected.minEvictableIdleTimeMillis = 7L;
expected.numTestsPerEvictionRun = 9;
expected.testOnBorrow = true;
expected.testOnReturn = true;
expected.testWhileIdle = true;
expected.timeBetweenEvictionRunsMillis = 11L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxWait = 5L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive,expected.whenExhaustedAction,expected.maxWait);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxWait = 5L;
expected.testOnBorrow = true;
expected.testOnReturn = true;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive,expected.whenExhaustedAction,expected.maxWait,expected.testOnBorrow,expected.testOnReturn);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxIdle = 3;
expected.maxWait = 5L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive,expected.whenExhaustedAction,expected.maxWait,expected.maxIdle);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxIdle = 3;
expected.maxWait = 5L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
expected.testOnBorrow = true;
expected.testOnReturn = true;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive,expected.whenExhaustedAction,expected.maxWait,expected.maxIdle,expected.testOnBorrow,expected.testOnReturn);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxIdle = 3;
expected.maxWait = 5L;
expected.minEvictableIdleTimeMillis = 7L;
expected.numTestsPerEvictionRun = 9;
expected.testOnBorrow = true;
expected.testOnReturn = true;
expected.testWhileIdle = true;
expected.timeBetweenEvictionRunsMillis = 11L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive, expected.whenExhaustedAction, expected.maxWait, expected.maxIdle, expected.testOnBorrow, expected.testOnReturn, expected.timeBetweenEvictionRunsMillis, expected.numTestsPerEvictionRun, expected.minEvictableIdleTimeMillis, expected.testWhileIdle);
assertConfiguration(expected,pool);
}
{
GenericObjectPool.Config expected = new GenericObjectPool.Config();
expected.maxActive = 2;
expected.maxIdle = 3;
expected.minIdle = 1;
expected.maxWait = 5L;
expected.minEvictableIdleTimeMillis = 7L;
expected.numTestsPerEvictionRun = 9;
expected.testOnBorrow = true;
expected.testOnReturn = true;
expected.testWhileIdle = true;
expected.timeBetweenEvictionRunsMillis = 11L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
GenericObjectPool pool = new GenericObjectPool(null,expected.maxActive, expected.whenExhaustedAction, expected.maxWait, expected.maxIdle, expected.minIdle, expected.testOnBorrow, expected.testOnReturn, expected.timeBetweenEvictionRunsMillis, expected.numTestsPerEvictionRun, expected.minEvictableIdleTimeMillis, expected.testWhileIdle);
assertConfiguration(expected,pool);
}
}
public void testSetConfig() throws Exception {
GenericObjectPool.Config expected = new GenericObjectPool.Config();
GenericObjectPool pool = new GenericObjectPool();
assertConfiguration(expected,pool);
expected.maxActive = 2;
expected.maxIdle = 3;
expected.maxWait = 5L;
expected.minEvictableIdleTimeMillis = 7L;
expected.numTestsPerEvictionRun = 9;
expected.testOnBorrow = true;
expected.testOnReturn = true;
expected.testWhileIdle = true;
expected.timeBetweenEvictionRunsMillis = 11L;
expected.whenExhaustedAction = GenericObjectPool.WHEN_EXHAUSTED_GROW;
pool.setConfig(expected);
assertConfiguration(expected,pool);
}
public void testDebugInfo() throws Exception {
GenericObjectPool pool = new GenericObjectPool(new SimpleFactory());
pool.setMaxIdle(3);
assertNotNull(pool.debugInfo());
Object obj = pool.borrowObject();
assertNotNull(pool.debugInfo());
pool.returnObject(obj);
assertNotNull(pool.debugInfo());
}
public void testStartAndStopEvictor() throws Exception {
// set up pool without evictor
pool.setMaxIdle(6);
pool.setMaxActive(6);
pool.setNumTestsPerEvictionRun(6);
pool.setMinEvictableIdleTimeMillis(100L);
for(int j=0;j<2;j++) {
// populate the pool
{
Object[] active = new Object[6];
for(int i=0;i<6;i++) {
active[i] = pool.borrowObject();
}
for(int i=0;i<6;i++) {
pool.returnObject(active[i]);
}
}
// note that it stays populated
assertEquals("Should have 6 idle",6,pool.getNumIdle());
// start the evictor
pool.setTimeBetweenEvictionRunsMillis(50L);
// wait a second (well, .2 seconds)
try { Thread.sleep(200L); } catch(InterruptedException e) { }
// assert that the evictor has cleared out the pool
assertEquals("Should have 0 idle",0,pool.getNumIdle());
// stop the evictor
pool.startEvictor(0L);
}
}
public void testEvictionWithNegativeNumTests() throws Exception {
// when numTestsPerEvictionRun is negative, it represents a fraction of the idle objects to test
pool.setMaxIdle(6);
pool.setMaxActive(6);
pool.setNumTestsPerEvictionRun(-2);
pool.setMinEvictableIdleTimeMillis(50L);
pool.setTimeBetweenEvictionRunsMillis(100L);
Object[] active = new Object[6];
for(int i=0;i<6;i++) {
active[i] = pool.borrowObject();
}
for(int i=0;i<6;i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(100L); } catch(InterruptedException e) { }
assertTrue("Should at most 6 idle, found " + pool.getNumIdle(),pool.getNumIdle() <= 6);
try { Thread.sleep(100L); } catch(InterruptedException e) { }
assertTrue("Should at most 3 idle, found " + pool.getNumIdle(),pool.getNumIdle() <= 3);
try { Thread.sleep(100L); } catch(InterruptedException e) { }
assertTrue("Should be at most 2 idle, found " + pool.getNumIdle(),pool.getNumIdle() <= 2);
try { Thread.sleep(100L); } catch(InterruptedException e) { }
assertEquals("Should be zero idle, found " + pool.getNumIdle(),0,pool.getNumIdle());
}
public void testEviction() throws Exception {
pool.setMaxIdle(500);
pool.setMaxActive(500);
pool.setNumTestsPerEvictionRun(100);
pool.setMinEvictableIdleTimeMillis(250L);
pool.setTimeBetweenEvictionRunsMillis(500L);
pool.setTestWhileIdle(true);
Object[] active = new Object[500];
for(int i=0;i<500;i++) {
active[i] = pool.borrowObject();
}
for(int i=0;i<500;i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(1000L); } catch(InterruptedException e) { }
assertTrue("Should be less than 500 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 500);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 400 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 400);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 300 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 300);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 200 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 200);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 100 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 100);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertEquals("Should be zero idle, found " + pool.getNumIdle(),0,pool.getNumIdle());
for(int i=0;i<500;i++) {
active[i] = pool.borrowObject();
}
for(int i=0;i<500;i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(1000L); } catch(InterruptedException e) { }
assertTrue("Should be less than 500 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 500);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 400 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 400);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 300 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 300);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 200 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 200);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertTrue("Should be less than 100 idle, found " + pool.getNumIdle(),pool.getNumIdle() < 100);
try { Thread.sleep(600L); } catch(InterruptedException e) { }
assertEquals("Should be zero idle, found " + pool.getNumIdle(),0,pool.getNumIdle());
}
public void testEvictionSoftMinIdle() throws Exception {
GenericObjectPool pool = null;
class TimeTest extends BasePoolableObjectFactory {
private final long createTime;
public TimeTest() {
createTime = System.currentTimeMillis();
}
public Object makeObject() throws Exception {
return new TimeTest();
}
public long getCreateTime() {
return createTime;
}
}
pool = new GenericObjectPool(new TimeTest());
pool.setMaxIdle(5);
pool.setMaxActive(5);
pool.setNumTestsPerEvictionRun(5);
pool.setMinEvictableIdleTimeMillis(3000L);
pool.setSoftMinEvictableIdleTimeMillis(1000L);
pool.setMinIdle(2);
Object[] active = new Object[5];
Long[] creationTime = new Long[5] ;
for(int i=0;i<5;i++) {
active[i] = pool.borrowObject();
creationTime[i] = new Long(((TimeTest)active[i]).getCreateTime());
}
for(int i=0;i<5;i++) {
pool.returnObject(active[i]);
}
// Soft evict all but minIdle(2)
Thread.sleep(1500L);
pool.evict();
assertEquals("Idle count different than expected.", 2, pool.getNumIdle());
// Hard evict the rest.
Thread.sleep(2000L);
pool.evict();
assertEquals("Idle count different than expected.", 0, pool.getNumIdle());
}
public void testMinIdle() throws Exception {
pool.setMaxIdle(500);
pool.setMinIdle(5);
pool.setMaxActive(10);
pool.setNumTestsPerEvictionRun(0);
pool.setMinEvictableIdleTimeMillis(50L);
pool.setTimeBetweenEvictionRunsMillis(100L);
pool.setTestWhileIdle(true);
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
Object[] active = new Object[5];
active[0] = pool.borrowObject();
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
for(int i=1 ; i<5 ; i++) {
active[i] = pool.borrowObject();
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
for(int i=0 ; i<5 ; i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 10 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 10);
}
public void testMinIdleMaxActive() throws Exception {
pool.setMaxIdle(500);
pool.setMinIdle(5);
pool.setMaxActive(10);
pool.setNumTestsPerEvictionRun(0);
pool.setMinEvictableIdleTimeMillis(50L);
pool.setTimeBetweenEvictionRunsMillis(100L);
pool.setTestWhileIdle(true);
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
Object[] active = new Object[10];
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
for(int i=0 ; i<5 ; i++) {
active[i] = pool.borrowObject();
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 5 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 5);
for(int i=0 ; i<5 ; i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 10 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 10);
for(int i=0 ; i<10 ; i++) {
active[i] = pool.borrowObject();
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 0 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 0);
for(int i=0 ; i<10 ; i++) {
pool.returnObject(active[i]);
}
try { Thread.sleep(150L); } catch(InterruptedException e) { }
assertTrue("Should be 10 idle, found " + pool.getNumIdle(),pool.getNumIdle() == 10);
}
/**
* Kicks off <numThreads> test threads, each of which will go through
* <iterations> borrow-return cycles with random delay times <= delay
* in between.
*/
public void runTestThreads(int numThreads, int iterations, int delay) {
TestThread[] threads = new TestThread[numThreads];
for(int i=0;i<numThreads;i++) {
threads[i] = new TestThread(pool,iterations,delay);
Thread t = new Thread(threads[i]);
t.start();
}
for(int i=0;i<numThreads;i++) {
while(!(threads[i]).complete()) {
try {
Thread.sleep(500L);
} catch(InterruptedException e) {
// ignored
}
}
if(threads[i].failed()) {
fail("Thread "+i+" failed: "+threads[i]._error.toString());
}
}
}
public void testThreaded1() throws Exception {
pool.setMaxActive(15);
pool.setMaxIdle(15);
pool.setMaxWait(1000L);
runTestThreads(20, 100, 50);
}
/**
* Verifies that maxActive is not exceeded when factory destroyObject
* has high latency, testOnReturn is set and there is high incidence of
* validation failures.
*/
public void testMaxActiveInvariant() throws Exception {
int maxActive = 15;
SimpleFactory factory = new SimpleFactory();
factory.setEvenValid(false); // Every other validation fails
factory.setDestroyLatency(100); // Destroy takes 100 ms
factory.setMaxActive(maxActive); // (makes - destroys) bound
factory.setValidationEnabled(true);
pool = new GenericObjectPool(factory);
pool.setMaxActive(maxActive);
pool.setMaxIdle(-1);
pool.setTestOnReturn(true);
pool.setMaxWait(1000L);
runTestThreads(5, 10, 50);
}
public void testConcurrentBorrowAndEvict() throws Exception {
pool.setMaxActive(1);
pool.addObject();
for( int i=0; i<5000; i++) {
ConcurrentBorrowAndEvictThread one =
new ConcurrentBorrowAndEvictThread(true);
ConcurrentBorrowAndEvictThread two =
new ConcurrentBorrowAndEvictThread(false);
one.start();
two.start();
one.join();
two.join();
pool.returnObject(one.obj);
/* Uncomment this for a progress indication
if (i % 10 == 0) {
System.out.println(i/10);
}
*/
}
}
private class ConcurrentBorrowAndEvictThread extends Thread {
private boolean borrow;
public Object obj;
public ConcurrentBorrowAndEvictThread(boolean borrow) {
this.borrow = borrow;
}
public void run() {
try {
if (borrow) {
obj = pool.borrowObject();
} else {
pool.evict();
}
} catch (Exception e) { /* Ignore */}
}
}
static class TestThread implements Runnable {
private final java.util.Random _random = new java.util.Random();
// Thread config items
private final ObjectPool _pool;
private final int _iter;
private final int _delay;
private final boolean _randomDelay;
private final Object _expectedObject;
private volatile boolean _complete = false;
private volatile boolean _failed = false;
private volatile Throwable _error;
public TestThread(ObjectPool pool) {
this(pool, 100, 50, true, null);
}
public TestThread(ObjectPool pool, int iter) {
this(pool, iter, 50, true, null);
}
public TestThread(ObjectPool pool, int iter, int delay) {
this(pool, iter, delay, true, null);
}
public TestThread(ObjectPool pool, int iter, int delay,
boolean randomDelay) {
this(pool, iter, delay, randomDelay, null);
}
public TestThread(ObjectPool pool, int iter, int delay,
boolean randomDelay, Object obj) {
_pool = pool;
_iter = iter;
_delay = delay;
_randomDelay = randomDelay;
_expectedObject = obj;
}
public boolean complete() {
return _complete;
}
public boolean failed() {
return _failed;
}
public void run() {
for(int i=0;i<_iter;i++) {
long delay =
_randomDelay ? (long)_random.nextInt(_delay) : _delay;
try {
Thread.sleep(delay);
} catch(InterruptedException e) {
// ignored
}
Object obj = null;
try {
obj = _pool.borrowObject();
} catch(Exception e) {
_error = e;
_failed = true;
_complete = true;
break;
}
if (_expectedObject != null && !_expectedObject.equals(obj)) {
_error = new Throwable("Expected: "+_expectedObject+ " found: "+obj);
_failed = true;
_complete = true;
break;
}
try {
Thread.sleep(delay);
} catch(InterruptedException e) {
// ignored
}
try {
_pool.returnObject(obj);
} catch(Exception e) {
_error = e;
_failed = true;
_complete = true;
break;
}
}
_complete = true;
}
}
public void testFIFO() throws Exception {
pool.setLifo(false);
pool.addObject(); // "0"
pool.addObject(); // "1"
pool.addObject(); // "2"
assertEquals("Oldest", "0", pool.borrowObject());
assertEquals("Middle", "1", pool.borrowObject());
assertEquals("Youngest", "2", pool.borrowObject());
assertEquals("new-3", "3", pool.borrowObject());
pool.returnObject("r");
assertEquals("returned", "r", pool.borrowObject());
assertEquals("new-4", "4", pool.borrowObject());
}
public void testLIFO() throws Exception {
pool.setLifo(true);
pool.addObject(); // "0"
pool.addObject(); // "1"
pool.addObject(); // "2"
assertEquals("Youngest", "2", pool.borrowObject());
assertEquals("Middle", "1", pool.borrowObject());
assertEquals("Oldest", "0", pool.borrowObject());
assertEquals("new-3", "3", pool.borrowObject());
pool.returnObject("r");
assertEquals("returned", "r", pool.borrowObject());
assertEquals("new-4", "4", pool.borrowObject());
}
public void testAddObject() throws Exception {
assertEquals("should be zero idle", 0, pool.getNumIdle());
pool.addObject();
assertEquals("should be one idle", 1, pool.getNumIdle());
assertEquals("should be zero active", 0, pool.getNumActive());
Object obj = pool.borrowObject();
assertEquals("should be zero idle", 0, pool.getNumIdle());
assertEquals("should be one active", 1, pool.getNumActive());
pool.returnObject(obj);
assertEquals("should be one idle", 1, pool.getNumIdle());
assertEquals("should be zero active", 0, pool.getNumActive());
ObjectPool op = new GenericObjectPool();
try {
op.addObject();
fail("Expected IllegalStateException when there is no factory.");
} catch (IllegalStateException ise) {
//expected
}
op.close();
}
protected GenericObjectPool pool = null;
private void assertConfiguration(GenericObjectPool.Config expected, GenericObjectPool actual) throws Exception {
assertEquals("testOnBorrow",expected.testOnBorrow,actual.getTestOnBorrow());
assertEquals("testOnReturn",expected.testOnReturn,actual.getTestOnReturn());
assertEquals("testWhileIdle",expected.testWhileIdle,actual.getTestWhileIdle());
assertEquals("whenExhaustedAction",expected.whenExhaustedAction,actual.getWhenExhaustedAction());
assertEquals("maxActive",expected.maxActive,actual.getMaxActive());
assertEquals("maxIdle",expected.maxIdle,actual.getMaxIdle());
assertEquals("maxWait",expected.maxWait,actual.getMaxWait());
assertEquals("minEvictableIdleTimeMillis",expected.minEvictableIdleTimeMillis,actual.getMinEvictableIdleTimeMillis());
assertEquals("numTestsPerEvictionRun",expected.numTestsPerEvictionRun,actual.getNumTestsPerEvictionRun());
assertEquals("timeBetweenEvictionRunsMillis",expected.timeBetweenEvictionRunsMillis,actual.getTimeBetweenEvictionRunsMillis());
}
public class SimpleFactory implements PoolableObjectFactory {
public SimpleFactory() {
this(true);
}
public SimpleFactory(boolean valid) {
this(valid,valid);
}
public SimpleFactory(boolean evalid, boolean ovalid) {
evenValid = evalid;
oddValid = ovalid;
}
public synchronized void setValid(boolean valid) {
setEvenValid(valid);
setOddValid(valid);
}
public synchronized void setEvenValid(boolean valid) {
evenValid = valid;
}
public synchronized void setOddValid(boolean valid) {
oddValid = valid;
}
public synchronized void setThrowExceptionOnPassivate(boolean bool) {
exceptionOnPassivate = bool;
}
public synchronized void setMaxActive(int maxActive) {
this.maxActive = maxActive;
}
public synchronized void setDestroyLatency(long destroyLatency) {
this.destroyLatency = destroyLatency;
}
public synchronized void setMakeLatency(long makeLatency) {
this.makeLatency = makeLatency;
}
public synchronized void setValidateLatency(long validateLatency) {
this.validateLatency = validateLatency;
}
public Object makeObject() {
final long waitLatency;
synchronized(this) {
activeCount++;
if (activeCount > maxActive) {
throw new IllegalStateException(
"Too many active instances: " + activeCount);
}
waitLatency = makeLatency;
}
if (waitLatency > 0) {
doWait(waitLatency);
}
final int counter;
synchronized(this) {
counter = makeCounter++;
}
return String.valueOf(counter);
}
public void destroyObject(Object obj) throws Exception {
final long waitLatency;
final boolean hurl;
synchronized(this) {
waitLatency = destroyLatency;
hurl = exceptionOnDestroy;
}
if (waitLatency > 0) {
doWait(waitLatency);
}
synchronized(this) {
activeCount--;
}
if (hurl) {
throw new Exception();
}
}
public boolean validateObject(Object obj) {
final boolean validate;
final boolean evenTest;
final boolean oddTest;
final long waitLatency;
final int counter;
synchronized(this) {
validate = enableValidation;
evenTest = evenValid;
oddTest = oddValid;
counter = validateCounter++;
waitLatency = validateLatency;
}
if (waitLatency > 0) {
doWait(waitLatency);
}
if (validate) {
return counter%2 == 0 ? evenTest : oddTest;
}
else {
return true;
}
}
public void activateObject(Object obj) throws Exception {
final boolean hurl;
final boolean evenTest;
final boolean oddTest;
final int counter;
synchronized(this) {
hurl = exceptionOnActivate;
evenTest = evenValid;
oddTest = oddValid;
counter = validateCounter++;
}
if (hurl) {
if (!(counter%2 == 0 ? evenTest : oddTest)) {
throw new Exception();
}
}
}
public void passivateObject(Object obj) throws Exception {
final boolean hurl;
synchronized(this) {
hurl = exceptionOnPassivate;
}
if (hurl) {
throw new Exception();
}
}
int makeCounter = 0;
int validateCounter = 0;
int activeCount = 0;
boolean evenValid = true;
boolean oddValid = true;
boolean exceptionOnPassivate = false;
boolean exceptionOnActivate = false;
boolean exceptionOnDestroy = false;
boolean enableValidation = true;
long destroyLatency = 0;
long makeLatency = 0;
long validateLatency = 0;
int maxActive = Integer.MAX_VALUE;
public synchronized boolean isThrowExceptionOnActivate() {
return exceptionOnActivate;
}
public synchronized void setThrowExceptionOnActivate(boolean b) {
exceptionOnActivate = b;
}
public synchronized void setThrowExceptionOnDestroy(boolean b) {
exceptionOnDestroy = b;
}
public synchronized boolean isValidationEnabled() {
return enableValidation;
}
public synchronized void setValidationEnabled(boolean b) {
enableValidation = b;
}
public synchronized int getMakeCounter() {
return makeCounter;
}
private void doWait(long latency) {
try {
Thread.sleep(latency);
} catch (InterruptedException ex) {
// ignore
}
}
}
protected boolean isLifo() {
return true;
}
protected boolean isFifo() {
return false;
}
/*
* Note: This test relies on timing for correct execution. There *should* be
* enough margin for this to work correctly on most (all?) systems but be
* aware of this if you see a failure of this test.
*/
public void testBorrowObjectFairness() {
// Config
int numThreads = 30;
int maxActive = 10;
SimpleFactory factory = new SimpleFactory();
factory.setMaxActive(maxActive);
pool.setFactory(factory);
pool.setMaxActive(maxActive);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setTimeBetweenEvictionRunsMillis(-1);
// Start threads to borrow objects
TestThread[] threads = new TestThread[numThreads];
for(int i=0;i<numThreads;i++) {
threads[i] = new TestThread(pool, 1, 2000, false, String.valueOf(i % maxActive));
Thread t = new Thread(threads[i]);
t.start();
// Short delay to ensure threads start in correct order
try {
Thread.sleep(50);
} catch (InterruptedException e) {
fail(e.toString());
}
}
// Wait for threads to finish
for(int i=0;i<numThreads;i++) {
while(!(threads[i]).complete()) {
try {
Thread.sleep(500L);
} catch(InterruptedException e) {
// ignored
}
}
if(threads[i].failed()) {
fail("Thread "+i+" failed: "+threads[i]._error.toString());
}
}
}
/**
* On first borrow, first object fails validation, second object is OK.
* Subsequent borrows are OK. This was POOL-152.
*/
public void testBrokenFactoryShouldNotBlockPool() {
int maxActive = 1;
SimpleFactory factory = new SimpleFactory();
factory.setMaxActive(maxActive);
pool.setFactory(factory);
pool.setMaxActive(maxActive);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setTestOnBorrow(true);
// First borrow object will need to create a new object which will fail
// validation.
Object obj = null;
Exception ex = null;
factory.setValid(false);
try {
obj = pool.borrowObject();
} catch (Exception e) {
ex = e;
}
// Failure expected
assertNotNull(ex);
assertTrue(ex instanceof NoSuchElementException);
assertNull(obj);
// Configure factory to create valid objects so subsequent borrows work
factory.setValid(true);
// Subsequent borrows should be OK
try {
obj = pool.borrowObject();
} catch (Exception e1) {
fail();
}
assertNotNull(obj);
try {
pool.returnObject(obj);
} catch (Exception e) {
fail();
}
}
/*
* Very simple test thread that just tries to borrow an object from
* the provided pool returns it after a wait
*/
static class WaitingTestThread extends Thread {
private final GenericObjectPool _pool;
private final long _pause;
private Throwable _thrown;
private long preborrow; // just before borrow
private long postborrow; // borrow returned
private long postreturn; // after object was returned
private long ended;
private String objectId;
public WaitingTestThread(GenericObjectPool pool, long pause) {
_pool = pool;
_pause = pause;
_thrown = null;
}
public void run() {
try {
preborrow = System.currentTimeMillis();
Object obj = _pool.borrowObject();
objectId=obj.toString();
postborrow = System.currentTimeMillis();
Thread.sleep(_pause);
_pool.returnObject(obj);
postreturn = System.currentTimeMillis();
} catch (Exception e) {
_thrown = e;
} finally{
ended = System.currentTimeMillis();
}
}
}
private static final boolean DISPLAY_THREAD_DETAILS=
Boolean.valueOf(System.getProperty("TestGenericObjectPool.display.thread.details", "false")).booleanValue();
// To pass this to a Maven test, use:
// mvn test -DargLine="-DTestGenericObjectPool.display.thread.details=true"
// @see http://jira.codehaus.org/browse/SUREFIRE-121
/*
* Test multi-threaded pool access.
* Multiple threads, but maxActive only allows half the threads to succeed.
*
* This test was prompted by Continuum build failures in the Commons DBCP test case:
* TestPerUserPoolDataSource.testMultipleThreads2()
* Let's see if the this fails on Continuum too!
*/
public void testMaxWaitMultiThreaded() throws Exception {
final long maxWait = 500; // wait for connection
final long holdTime = 2 * maxWait; // how long to hold connection
final int threads = 10; // number of threads to grab the object initially
SimpleFactory factory = new SimpleFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setWhenExhaustedAction(GenericObjectPool.WHEN_EXHAUSTED_BLOCK);
pool.setMaxWait(maxWait);
pool.setMaxActive(threads);
// Create enough threads so half the threads will have to wait
WaitingTestThread wtt[] = new WaitingTestThread[threads * 2];
for(int i=0; i < wtt.length; i++){
wtt[i] = new WaitingTestThread(pool,holdTime);
}
long origin = System.currentTimeMillis()-1000;
for(int i=0; i < wtt.length; i++){
wtt[i].start();
}
int failed = 0;
for(int i=0; i < wtt.length; i++){
wtt[i].join();
if (wtt[i]._thrown != null){
failed++;
}
}
if (DISPLAY_THREAD_DETAILS || wtt.length/2 != failed){
System.out.println(
"MaxWait: "+maxWait
+" HoldTime: "+holdTime
+ " MaxActive: "+threads
+" Threads: "+wtt.length
+" Failed: "+failed
);
for(int i=0; i < wtt.length; i++){
WaitingTestThread wt = wtt[i];
System.out.println(
"Preborrow: "+(wt.preborrow-origin)
+ " Postborrow: "+(wt.postborrow != 0 ? wt.postborrow-origin : -1)
+ " BorrowTime: "+(wt.postborrow != 0 ? wt.postborrow-wt.preborrow : -1)
+ " PostReturn: "+(wt.postreturn != 0 ? wt.postreturn-origin : -1)
+ " Ended: "+(wt.ended-origin)
+ " ObjId: "+wt.objectId
);
}
}
assertEquals("Expected half the threads to fail",wtt.length/2,failed);
}
/**
* Test the following scenario:
* Thread 1 borrows an instance
* Thread 2 starts to borrow another instance before thread 1 returns its instance
* Thread 1 returns its instance while thread 2 is validating its newly created instance
* The test verifies that the instance created by Thread 2 is not leaked.
*/
public void testMakeConcurrentWithReturn() throws Exception {
SimpleFactory factory = new SimpleFactory();
GenericObjectPool pool = new GenericObjectPool(factory);
pool.setTestOnBorrow(true);
factory.setValid(true);
// Borrow and return an instance, with a short wait
WaitingTestThread thread1 = new WaitingTestThread(pool, 200);
thread1.start();
Thread.sleep(50); // wait for validation to succeed
// Slow down validation and borrow an instance
factory.setValidateLatency(400);
Object instance = pool.borrowObject();
// Now make sure that we have not leaked an instance
assertEquals(factory.getMakeCounter(), pool.getNumIdle() + 1);
pool.returnObject(instance);
assertEquals(factory.getMakeCounter(), pool.getNumIdle());
}
}