Example 1 with ConsumerConfiguration
use of io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration in project cdap by caskdata.
the class PartitionConsumerTest method testNumRetries.
@Test
public void testNumRetries() throws Exception {
final PartitionedFileSet dataset = dsFrameworkUtil.getInstance(pfsInstance);
final TransactionAware txAwareDataset = (TransactionAware) dataset;
final int numRetries = 1;
ConsumerConfiguration configuration = ConsumerConfiguration.builder().setMaxRetries(numRetries).build();
final PartitionConsumer partitionConsumer = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor(), configuration);
final PartitionKey partitionKey = generateUniqueKey();
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
dataset.getPartitionOutput(partitionKey).addPartition();
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// from the working set
for (int i = 0; i < numRetries + 1; i++) {
List<PartitionDetail> partitionDetails = partitionConsumer.consumePartitions(1).getPartitions();
Assert.assertEquals(1, partitionDetails.size());
Assert.assertEquals(partitionKey, partitionDetails.get(0).getPartitionKey());
// aborting the processing of the partition
partitionConsumer.onFinish(partitionDetails, false);
}
// after the 2nd abort, the partition is discarded entirely, and so no partitions are available for consuming
PartitionConsumerResult result = partitionConsumer.consumePartitions(1);
Assert.assertEquals(0, result.getPartitions().size());
Assert.assertEquals(1, result.getFailedPartitions().size());
Assert.assertEquals(partitionKey, result.getFailedPartitions().get(0).getPartitionKey());
}
});
}
Also used :
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
PartitionConsumerResult(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumerResult)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
TransactionExecutor(org.apache.tephra.TransactionExecutor)
TransactionAware(org.apache.tephra.TransactionAware)
ConsumerConfiguration(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)
PartitionKey(io.cdap.cdap.api.dataset.lib.PartitionKey)
ArrayList(java.util.ArrayList)
ImmutableList(com.google.common.collect.ImmutableList)
List(java.util.List)
PartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
Test(org.junit.Test)
Example 2 with ConsumerConfiguration
use of io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration in project cdap by caskdata.
the class PartitionConsumerTest method testOnFinishWithInvalidPartition.
@Test
public void testOnFinishWithInvalidPartition() throws Exception {
// tests:
// - attempts to abort a Partition that is not IN_PROGRESS
// - attempts to commit a Partition that is already committed
// both of these throw IllegalArgumentException
final PartitionedFileSet dataset = dsFrameworkUtil.getInstance(pfsInstance);
final TransactionAware txAwareDataset = (TransactionAware) dataset;
ConsumerConfiguration configuration = ConsumerConfiguration.builder().setMaxRetries(3).build();
final PartitionConsumer partitionConsumer = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor(), configuration);
final PartitionKey partitionKey = generateUniqueKey();
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
dataset.getPartitionOutput(partitionKey).addPartition();
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
List<PartitionDetail> partitionDetails = partitionConsumer.consumePartitions(1).getPartitions();
Assert.assertEquals(1, partitionDetails.size());
// aborting the processing of the partition
partitionConsumer.onFinish(partitionDetails, false);
// abort were not found to have IN_PROGRESS state
try {
partitionConsumer.onFinish(partitionDetails, false);
Assert.fail("Expected not to be able to abort a partition that is not IN_PROGRESS");
} catch (IllegalStateException expected) {
}
// try to process the partition again, this time marking it as complete (by passing in true)
partitionDetails = partitionConsumer.consumePartitions(1).getPartitions();
Assert.assertEquals(1, partitionDetails.size());
partitionConsumer.onFinish(partitionDetails, true);
// is not found to have an IN_PROGRESS state
try {
partitionConsumer.onFinish(partitionDetails, true);
Assert.fail("Expected not to be able to call onFinish on a partition is not IN_PROGRESS");
} catch (IllegalArgumentException expected) {
}
}
});
}
Also used :
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
TransactionExecutor(org.apache.tephra.TransactionExecutor)
TransactionAware(org.apache.tephra.TransactionAware)
ConsumerConfiguration(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)
PartitionKey(io.cdap.cdap.api.dataset.lib.PartitionKey)
ArrayList(java.util.ArrayList)
ImmutableList(com.google.common.collect.ImmutableList)
List(java.util.List)
PartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
Test(org.junit.Test)
Example 3 with ConsumerConfiguration
use of io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration in project cdap by caskdata.
the class PartitionConsumerTest method testConsumeAfterDelete.
@Test
public void testConsumeAfterDelete() throws Exception {
final PartitionedFileSet dataset = dsFrameworkUtil.getInstance(pfsInstance);
final TransactionAware txAwareDataset = (TransactionAware) dataset;
final Set<PartitionKey> partitionKeys1 = new HashSet<>();
for (int i = 0; i < 3; i++) {
partitionKeys1.add(generateUniqueKey());
}
// need to ensure that our consumerConfiguration is larger than the amount we consume initially, so that
// additional partitions (which will be deleted afterwards) are brought into the working set
ConsumerConfiguration consumerConfiguration = ConsumerConfiguration.builder().setMaxWorkingSetSize(100).build();
final PartitionConsumer partitionConsumer = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor(), consumerConfiguration);
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
for (PartitionKey partitionKey : partitionKeys1) {
dataset.getPartitionOutput(partitionKey).addPartition();
}
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// and not consumed
for (int i = 0; i < 2; i++) {
dataset.getPartitionOutput(generateUniqueKey()).addPartition();
}
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// consume 3 of the 5 initial partitions
Assert.assertEquals(partitionKeys1, toKeys(partitionConsumer.consumePartitions(3).getPartitions()));
}
});
final Set<PartitionKey> partitionKeys2 = new HashSet<>();
for (int i = 0; i < 5; i++) {
partitionKeys2.add(generateUniqueKey());
}
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// drop all existing partitions (2 of which are not consumed)
for (PartitionDetail partitionDetail : dataset.getPartitions(PartitionFilter.ALWAYS_MATCH)) {
dataset.dropPartition(partitionDetail.getPartitionKey());
}
// add 5 new ones
for (PartitionKey partitionKey : partitionKeys2) {
dataset.getPartitionOutput(partitionKey).addPartition();
}
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// the consumed partition keys should correspond to partitionKeys2, and not include the dropped, but unconsumed
// partitions added before them
Assert.assertEquals(partitionKeys2, toKeys(partitionConsumer.consumePartitions().getPartitions()));
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// consuming the partitions again, without adding any new partitions returns an empty iterator
Assert.assertTrue(partitionConsumer.consumePartitions().getPartitions().isEmpty());
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// creating a new PartitionConsumer resets the consumption state. Consuming from it then returns an iterator
// with all the partition keys added after the deletions
ConcurrentPartitionConsumer partitionConsumer2 = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor());
Assert.assertEquals(partitionKeys2, toKeys(partitionConsumer2.consumePartitions().getPartitions()));
}
});
}
Also used :
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
TransactionExecutor(org.apache.tephra.TransactionExecutor)
PartitionDetail(io.cdap.cdap.api.dataset.lib.PartitionDetail)
TransactionAware(org.apache.tephra.TransactionAware)
ConsumerConfiguration(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)
PartitionKey(io.cdap.cdap.api.dataset.lib.PartitionKey)
PartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
HashSet(java.util.HashSet)
Test(org.junit.Test)
Example 4 with ConsumerConfiguration
use of io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration in project cdap by caskdata.
the class PartitionConsumerTest method testPartitionConsumingWithFilterAndLimit.
@Test
public void testPartitionConsumingWithFilterAndLimit() throws Exception {
final PartitionedFileSet dataset = dsFrameworkUtil.getInstance(pfsInstance);
final TransactionAware txAwareDataset = (TransactionAware) dataset;
final Set<PartitionKey> partitionKeys1 = new HashSet<>();
for (int i = 0; i < 10; i++) {
partitionKeys1.add(generateUniqueKey());
}
final Set<PartitionKey> partitionKeys2 = new HashSet<>();
for (int i = 0; i < 15; i++) {
partitionKeys2.add(generateUniqueKey());
}
final PartitionConsumer partitionConsumer = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor());
// (consumption only happens at transaction borders)
for (final PartitionKey partitionKey : partitionKeys1) {
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
dataset.getPartitionOutput(partitionKey).addPartition();
}
});
}
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// Initial consumption results in the partitions corresponding to partitionKeys1 to be consumed because only
// those partitions are added to the dataset at this point
List<Partition> consumedPartitions = new ArrayList<>();
// with limit = 1, the returned iterator is only size 1, even though there are more unconsumed partitions
Iterables.addAll(consumedPartitions, partitionConsumer.consumePartitions(1).getPartitions());
Assert.assertEquals(1, consumedPartitions.size());
// ask for 5 more
Iterables.addAll(consumedPartitions, partitionConsumer.consumePartitions(5).getPartitions());
Assert.assertEquals(6, consumedPartitions.size());
// ask for 5 more, but there are only 4 more unconsumed partitions (size of partitionKeys1 is 10).
Iterables.addAll(consumedPartitions, partitionConsumer.consumePartitions(5).getPartitions());
Assert.assertEquals(10, consumedPartitions.size());
Assert.assertEquals(partitionKeys1, toKeys(consumedPartitions));
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
for (PartitionKey partitionKey : partitionKeys2) {
dataset.getPartitionOutput(partitionKey).addPartition();
}
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// using the same PartitionConsumer (which remembers the PartitionConsumerState) to consume additional
// partitions results in only the newly added partitions (corresponding to partitionKeys2) to be returned
Assert.assertEquals(partitionKeys2, toKeys(partitionConsumer.consumePartitions().getPartitions()));
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// consuming the partitions again, without adding any new partitions returns an empty iterator
Assert.assertTrue(partitionConsumer.consumePartitions().getPartitions().isEmpty());
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// creating a new PartitionConsumer resets the consumption state.
// test combination of filter and limit
// the partitionFilter will match partitionKeys [1, 7), of which there are 6
final PartitionFilter partitionFilter = PartitionFilter.builder().addRangeCondition("i", 1, 7).build();
final Predicate<PartitionDetail> predicate = new Predicate<PartitionDetail>() {
@Override
public boolean apply(PartitionDetail partitionDetail) {
return partitionFilter.match(partitionDetail.getPartitionKey());
}
};
ConsumerConfiguration configuration = ConsumerConfiguration.builder().setPartitionPredicate(predicate).build();
PartitionConsumer newPartitionConsumer = new ConcurrentPartitionConsumer(dataset, new InMemoryStatePersistor(), configuration);
List<Partition> consumedPartitions = new ArrayList<>();
// apply the filter (narrows it down to 6 elements) and apply a limit of 4 results in 4 consumed partitions
Iterables.addAll(consumedPartitions, newPartitionConsumer.consumePartitions(4).getPartitions());
Assert.assertEquals(4, consumedPartitions.size());
// apply a limit of 3, using the same filter returns the remaining 2 elements that fit that filter
Iterables.addAll(consumedPartitions, newPartitionConsumer.consumePartitions(3).getPartitions());
Assert.assertEquals(6, consumedPartitions.size());
// assert that the partitions returned have partition keys, where the i values range from [1, 7]
Set<Integer> expectedIFields = new HashSet<>();
for (int i = 1; i < 7; i++) {
expectedIFields.add(i);
}
Set<Integer> actualIFields = new HashSet<>();
for (Partition consumedPartition : consumedPartitions) {
actualIFields.add((Integer) consumedPartition.getPartitionKey().getField("i"));
}
Assert.assertEquals(expectedIFields, actualIFields);
}
});
}
Also used :
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
ConsumablePartition(io.cdap.cdap.api.dataset.lib.partitioned.ConsumablePartition)
Partition(io.cdap.cdap.api.dataset.lib.Partition)
ConsumerWorkingSet(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerWorkingSet)
HashSet(java.util.HashSet)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
Set(java.util.Set)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
TransactionExecutor(org.apache.tephra.TransactionExecutor)
PartitionDetail(io.cdap.cdap.api.dataset.lib.PartitionDetail)
Predicate(io.cdap.cdap.api.Predicate)
PartitionFilter(io.cdap.cdap.api.dataset.lib.PartitionFilter)
TransactionAware(org.apache.tephra.TransactionAware)
ConsumerConfiguration(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)
PartitionKey(io.cdap.cdap.api.dataset.lib.PartitionKey)
ArrayList(java.util.ArrayList)
ImmutableList(com.google.common.collect.ImmutableList)
List(java.util.List)
PartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
HashSet(java.util.HashSet)
Test(org.junit.Test)
Example 5 with ConsumerConfiguration
use of io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration in project cdap by caskdata.
the class PartitionConsumerTest method testSimpleConcurrency.
@Test
public void testSimpleConcurrency() throws Exception {
final PartitionedFileSet dataset = dsFrameworkUtil.getInstance(pfsInstance);
final TransactionAware txAwareDataset = (TransactionAware) dataset;
final Set<PartitionKey> partitionKeys = new HashSet<>();
for (int i = 0; i < 10; i++) {
partitionKeys.add(generateUniqueKey());
}
// have ConcurrentPartitionConsumers that share the same state.
InMemoryStatePersistor persistor = new InMemoryStatePersistor();
ConsumerConfiguration configuration = ConsumerConfiguration.builder().setMaxRetries(3).build();
final PartitionConsumer partitionConsumer1 = new ConcurrentPartitionConsumer(dataset, persistor, configuration);
final PartitionConsumer partitionConsumer2 = new ConcurrentPartitionConsumer(dataset, persistor, configuration);
final PartitionConsumer partitionConsumer3 = new ConcurrentPartitionConsumer(dataset, persistor, configuration);
// add all ten keys to the partitioned fileset
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
for (final PartitionKey partitionKey : partitionKeys) {
dataset.getPartitionOutput(partitionKey).addPartition();
}
}
});
dsFrameworkUtil.newInMemoryTransactionExecutor(txAwareDataset).execute(new TransactionExecutor.Subroutine() {
@Override
public void apply() throws Exception {
// with limit = 1, the returned iterator is only size 1, even though there are more unconsumed partitions
List<PartitionDetail> consumedBy1 = partitionConsumer1.consumePartitions(1).getPartitions();
Assert.assertEquals(1, consumedBy1.size());
// partitionConsumer2 asks for 10 partitions, but 1 is currently in progress by partitionConsumer1, so it only
// gets the remaining 9 partitions
List<PartitionDetail> consumedBy2 = partitionConsumer2.consumePartitions(10).getPartitions();
Assert.assertEquals(9, consumedBy2.size());
// partitionConsumer3 tries to consume partitions, but all are marked in-progress by partitionConsumer 1 and 2
Assert.assertEquals(0, partitionConsumer3.consumePartitions().getPartitions().size());
// partitionConsumer1 aborts its partition, so it then becomes available for partitionConsumer3
partitionConsumer1.onFinish(consumedBy1, false);
consumedBy1.clear();
// queries with limit=2, but only the 1 is available that partitionConsumer1 released
List<PartitionDetail> consumedBy3 = partitionConsumer3.consumePartitions(2).getPartitions();
Assert.assertEquals(1, consumedBy3.size());
// partitionConsumers 2 and 3 marks that it successfully processed the partitions
partitionConsumer3.onFinish(consumedBy3, true);
// test onFinishWithKeys API
List<PartitionKey> keysConsumedBy2 = Lists.transform(consumedBy2, new Function<PartitionDetail, PartitionKey>() {
@Override
public PartitionKey apply(PartitionDetail input) {
return input.getPartitionKey();
}
});
partitionConsumer2.onFinishWithKeys(keysConsumedBy2, true);
// at this point, all partitions are processed, so no additional partitions are available for consumption
Assert.assertEquals(0, partitionConsumer3.consumePartitions().getPartitions().size());
List<PartitionDetail> allProcessedPartitions = new ArrayList<>();
allProcessedPartitions.addAll(consumedBy1);
allProcessedPartitions.addAll(consumedBy2);
allProcessedPartitions.addAll(consumedBy3);
// ordering may be different, since all the partitions were added in the same transaction
Assert.assertEquals(partitionKeys, toKeys(allProcessedPartitions));
}
});
}
Also used :
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
PartitionedFileSet(io.cdap.cdap.api.dataset.lib.PartitionedFileSet)
TransactionExecutor(org.apache.tephra.TransactionExecutor)
PartitionDetail(io.cdap.cdap.api.dataset.lib.PartitionDetail)
Function(com.google.common.base.Function)
TransactionAware(org.apache.tephra.TransactionAware)
ConsumerConfiguration(io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)
PartitionKey(io.cdap.cdap.api.dataset.lib.PartitionKey)
ArrayList(java.util.ArrayList)
ImmutableList(com.google.common.collect.ImmutableList)
List(java.util.List)
PartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)
ConcurrentPartitionConsumer(io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)
HashSet(java.util.HashSet)
Test(org.junit.Test)
Aggregations
PartitionKey (io.cdap.cdap.api.dataset.lib.PartitionKey)7
PartitionedFileSet (io.cdap.cdap.api.dataset.lib.PartitionedFileSet)7
ConcurrentPartitionConsumer (io.cdap.cdap.api.dataset.lib.partitioned.ConcurrentPartitionConsumer)7
ConsumerConfiguration (io.cdap.cdap.api.dataset.lib.partitioned.ConsumerConfiguration)7
PartitionConsumer (io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumer)7
TransactionAware (org.apache.tephra.TransactionAware)7
TransactionExecutor (org.apache.tephra.TransactionExecutor)7
Test (org.junit.Test)7
ImmutableList (com.google.common.collect.ImmutableList)6
ArrayList (java.util.ArrayList)6
List (java.util.List)6
PartitionDetail (io.cdap.cdap.api.dataset.lib.PartitionDetail)3
HashSet (java.util.HashSet)3
PartitionConsumerResult (io.cdap.cdap.api.dataset.lib.partitioned.PartitionConsumerResult)2
Function (com.google.common.base.Function)1
Predicate (io.cdap.cdap.api.Predicate)1
Partition (io.cdap.cdap.api.dataset.lib.Partition)1
PartitionFilter (io.cdap.cdap.api.dataset.lib.PartitionFilter)1
ConsumablePartition (io.cdap.cdap.api.dataset.lib.partitioned.ConsumablePartition)1
ConsumerWorkingSet (io.cdap.cdap.api.dataset.lib.partitioned.ConsumerWorkingSet)1
