Handle negative free disk space in deciders (#48392)

Today it is possible that the total size of all relocating shards exceeds the
total amount of free disk space. For instance, this may be caused by another
user of the same disk increasing their disk usage, or may be due to how
Elasticsearch double-counts relocations that are nearly complete particularly
if there are many concurrent relocations in progress.

The `DiskThresholdDecider` treats negative free space similarly to zero free
space, but it then fails when rendering the messages that explain its decision.
This commit fixes its handling of negative free space.

Fixes #48380
This commit is contained in:
David Turner 2019-10-23 17:58:38 +02:00
parent 640d7416b1
commit c783a20560
3 changed files with 195 additions and 48 deletions

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@ -19,8 +19,6 @@
package org.elasticsearch.cluster.routing.allocation.decider; package org.elasticsearch.cluster.routing.allocation.decider;
import java.util.Set;
import com.carrotsearch.hppc.cursors.ObjectCursor; import com.carrotsearch.hppc.cursors.ObjectCursor;
import org.apache.logging.log4j.LogManager; import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger; import org.apache.logging.log4j.Logger;
@ -44,6 +42,8 @@ import org.elasticsearch.common.unit.ByteSizeValue;
import org.elasticsearch.index.Index; import org.elasticsearch.index.Index;
import org.elasticsearch.index.shard.ShardId; import org.elasticsearch.index.shard.ShardId;
import java.util.Set;
import static org.elasticsearch.cluster.routing.allocation.DiskThresholdSettings.CLUSTER_ROUTING_ALLOCATION_HIGH_DISK_WATERMARK_SETTING; import static org.elasticsearch.cluster.routing.allocation.DiskThresholdSettings.CLUSTER_ROUTING_ALLOCATION_HIGH_DISK_WATERMARK_SETTING;
import static org.elasticsearch.cluster.routing.allocation.DiskThresholdSettings.CLUSTER_ROUTING_ALLOCATION_LOW_DISK_WATERMARK_SETTING; import static org.elasticsearch.cluster.routing.allocation.DiskThresholdSettings.CLUSTER_ROUTING_ALLOCATION_LOW_DISK_WATERMARK_SETTING;
@ -139,12 +139,25 @@ public class DiskThresholdDecider extends AllocationDecider {
// subtractLeavingShards is passed as false here, because they still use disk space, and therefore should we should be extra careful // subtractLeavingShards is passed as false here, because they still use disk space, and therefore should we should be extra careful
// and take the size into account // and take the size into account
DiskUsage usage = getDiskUsage(node, allocation, usages, false); final DiskUsageWithRelocations usage = getDiskUsage(node, allocation, usages, false);
// First, check that the node currently over the low watermark // First, check that the node currently over the low watermark
double freeDiskPercentage = usage.getFreeDiskAsPercentage(); double freeDiskPercentage = usage.getFreeDiskAsPercentage();
// Cache the used disk percentage for displaying disk percentages consistent with documentation // Cache the used disk percentage for displaying disk percentages consistent with documentation
double usedDiskPercentage = usage.getUsedDiskAsPercentage(); double usedDiskPercentage = usage.getUsedDiskAsPercentage();
long freeBytes = usage.getFreeBytes(); long freeBytes = usage.getFreeBytes();
if (freeBytes < 0L) {
final long sizeOfRelocatingShards = sizeOfRelocatingShards(node, false, usage.getPath(),
allocation.clusterInfo(), allocation.metaData(), allocation.routingTable());
logger.debug("fewer free bytes remaining than the size of all incoming shards: " +
"usage {} on node {} including {} bytes of relocations, preventing allocation",
usage, node.nodeId(), sizeOfRelocatingShards);
return allocation.decision(Decision.NO, NAME,
"the node has fewer free bytes remaining than the total size of all incoming shards: " +
"free space [%sB], relocating shards [%sB]",
freeBytes + sizeOfRelocatingShards, sizeOfRelocatingShards);
}
ByteSizeValue freeBytesValue = new ByteSizeValue(freeBytes); ByteSizeValue freeBytesValue = new ByteSizeValue(freeBytes);
if (logger.isTraceEnabled()) { if (logger.isTraceEnabled()) {
logger.trace("node [{}] has {}% used disk", node.nodeId(), usedDiskPercentage); logger.trace("node [{}] has {}% used disk", node.nodeId(), usedDiskPercentage);
@ -242,6 +255,7 @@ public class DiskThresholdDecider extends AllocationDecider {
// Secondly, check that allocating the shard to this node doesn't put it above the high watermark // Secondly, check that allocating the shard to this node doesn't put it above the high watermark
final long shardSize = getExpectedShardSize(shardRouting, 0L, final long shardSize = getExpectedShardSize(shardRouting, 0L,
allocation.clusterInfo(), allocation.metaData(), allocation.routingTable()); allocation.clusterInfo(), allocation.metaData(), allocation.routingTable());
assert shardSize >= 0 : shardSize;
double freeSpaceAfterShard = freeDiskPercentageAfterShardAssigned(usage, shardSize); double freeSpaceAfterShard = freeDiskPercentageAfterShardAssigned(usage, shardSize);
long freeBytesAfterShard = freeBytes - shardSize; long freeBytesAfterShard = freeBytes - shardSize;
if (freeBytesAfterShard < diskThresholdSettings.getFreeBytesThresholdHigh().getBytes()) { if (freeBytesAfterShard < diskThresholdSettings.getFreeBytesThresholdHigh().getBytes()) {
@ -268,6 +282,7 @@ public class DiskThresholdDecider extends AllocationDecider {
diskThresholdSettings.getHighWatermarkRaw(), usedDiskThresholdHigh, freeSpaceAfterShard); diskThresholdSettings.getHighWatermarkRaw(), usedDiskThresholdHigh, freeSpaceAfterShard);
} }
assert freeBytesAfterShard >= 0 : freeBytesAfterShard;
return allocation.decision(Decision.YES, NAME, return allocation.decision(Decision.YES, NAME,
"enough disk for shard on node, free: [%s], shard size: [%s], free after allocating shard: [%s]", "enough disk for shard on node, free: [%s], shard size: [%s], free after allocating shard: [%s]",
freeBytesValue, freeBytesValue,
@ -289,7 +304,7 @@ public class DiskThresholdDecider extends AllocationDecider {
// subtractLeavingShards is passed as true here, since this is only for shards remaining, we will *eventually* have enough disk // subtractLeavingShards is passed as true here, since this is only for shards remaining, we will *eventually* have enough disk
// since shards are moving away. No new shards will be incoming since in canAllocate we pass false for this check. // since shards are moving away. No new shards will be incoming since in canAllocate we pass false for this check.
final DiskUsage usage = getDiskUsage(node, allocation, usages, true); final DiskUsageWithRelocations usage = getDiskUsage(node, allocation, usages, true);
final String dataPath = clusterInfo.getDataPath(shardRouting); final String dataPath = clusterInfo.getDataPath(shardRouting);
// If this node is already above the high threshold, the shard cannot remain (get it off!) // If this node is already above the high threshold, the shard cannot remain (get it off!)
final double freeDiskPercentage = usage.getFreeDiskAsPercentage(); final double freeDiskPercentage = usage.getFreeDiskAsPercentage();
@ -301,6 +316,17 @@ public class DiskThresholdDecider extends AllocationDecider {
return allocation.decision(Decision.YES, NAME, return allocation.decision(Decision.YES, NAME,
"this shard is not allocated on the most utilized disk and can remain"); "this shard is not allocated on the most utilized disk and can remain");
} }
if (freeBytes < 0L) {
final long sizeOfRelocatingShards = sizeOfRelocatingShards(node, false, usage.getPath(),
allocation.clusterInfo(), allocation.metaData(), allocation.routingTable());
logger.debug("fewer free bytes remaining than the size of all incoming shards: " +
"usage {} on node {} including {} bytes of relocations, shard cannot remain",
usage, node.nodeId(), sizeOfRelocatingShards);
return allocation.decision(Decision.NO, NAME,
"the shard cannot remain on this node because the node has fewer free bytes remaining than the total size of all " +
"incoming shards: free space [%s], relocating shards [%s]",
freeBytes + sizeOfRelocatingShards, sizeOfRelocatingShards);
}
if (freeBytes < diskThresholdSettings.getFreeBytesThresholdHigh().getBytes()) { if (freeBytes < diskThresholdSettings.getFreeBytesThresholdHigh().getBytes()) {
if (logger.isDebugEnabled()) { if (logger.isDebugEnabled()) {
logger.debug("less than the required {} free bytes threshold ({} bytes free) on node {}, shard cannot remain", logger.debug("less than the required {} free bytes threshold ({} bytes free) on node {}, shard cannot remain",
@ -330,7 +356,7 @@ public class DiskThresholdDecider extends AllocationDecider {
"there is enough disk on this node for the shard to remain, free: [%s]", new ByteSizeValue(freeBytes)); "there is enough disk on this node for the shard to remain, free: [%s]", new ByteSizeValue(freeBytes));
} }
private DiskUsage getDiskUsage(RoutingNode node, RoutingAllocation allocation, private DiskUsageWithRelocations getDiskUsage(RoutingNode node, RoutingAllocation allocation,
ImmutableOpenMap<String, DiskUsage> usages, boolean subtractLeavingShards) { ImmutableOpenMap<String, DiskUsage> usages, boolean subtractLeavingShards) {
DiskUsage usage = usages.get(node.nodeId()); DiskUsage usage = usages.get(node.nodeId());
if (usage == null) { if (usage == null) {
@ -343,18 +369,14 @@ public class DiskThresholdDecider extends AllocationDecider {
} }
} }
if (diskThresholdSettings.includeRelocations()) { final DiskUsageWithRelocations diskUsageWithRelocations = new DiskUsageWithRelocations(usage,
final long relocatingShardsSize = sizeOfRelocatingShards(node, subtractLeavingShards, usage.getPath(), diskThresholdSettings.includeRelocations() ? sizeOfRelocatingShards(node, subtractLeavingShards, usage.getPath(),
allocation.clusterInfo(), allocation.metaData(), allocation.routingTable()); allocation.clusterInfo(), allocation.metaData(), allocation.routingTable()) : 0);
DiskUsage usageIncludingRelocations = new DiskUsage(node.nodeId(), node.node().getName(), usage.getPath(),
usage.getTotalBytes(), usage.getFreeBytes() - relocatingShardsSize);
if (logger.isTraceEnabled()) { if (logger.isTraceEnabled()) {
logger.trace("usage without relocations: {}", usage); logger.trace("getDiskUsage(subtractLeavingShards={}) returning {}", subtractLeavingShards, diskUsageWithRelocations);
logger.trace("usage with relocations: [{} bytes] {}", relocatingShardsSize, usageIncludingRelocations);
} }
usage = usageIncludingRelocations;
} return diskUsageWithRelocations;
return usage;
} }
/** /**
@ -384,7 +406,7 @@ public class DiskThresholdDecider extends AllocationDecider {
* @param shardSize Size in bytes of the shard * @param shardSize Size in bytes of the shard
* @return Percentage of free space after the shard is assigned to the node * @return Percentage of free space after the shard is assigned to the node
*/ */
double freeDiskPercentageAfterShardAssigned(DiskUsage usage, Long shardSize) { double freeDiskPercentageAfterShardAssigned(DiskUsageWithRelocations usage, Long shardSize) {
shardSize = (shardSize == null) ? 0 : shardSize; shardSize = (shardSize == null) ? 0 : shardSize;
DiskUsage newUsage = new DiskUsage(usage.getNodeId(), usage.getNodeName(), usage.getPath(), DiskUsage newUsage = new DiskUsage(usage.getNodeId(), usage.getNodeName(), usage.getPath(),
usage.getTotalBytes(), usage.getFreeBytes() - shardSize); usage.getTotalBytes(), usage.getFreeBytes() - shardSize);
@ -452,4 +474,59 @@ public class DiskThresholdDecider extends AllocationDecider {
return clusterInfo.getShardSize(shard, defaultValue); return clusterInfo.getShardSize(shard, defaultValue);
} }
} }
static class DiskUsageWithRelocations {
private final DiskUsage diskUsage;
private final long relocatingShardSize;
DiskUsageWithRelocations(DiskUsage diskUsage, long relocatingShardSize) {
this.diskUsage = diskUsage;
this.relocatingShardSize = relocatingShardSize;
}
@Override
public String toString() {
return "DiskUsageWithRelocations{" +
"diskUsage=" + diskUsage +
", relocatingShardSize=" + relocatingShardSize +
'}';
}
double getFreeDiskAsPercentage() {
if (getTotalBytes() == 0L) {
return 100.0;
}
return 100.0 * ((double)getFreeBytes() / getTotalBytes());
}
double getUsedDiskAsPercentage() {
return 100.0 - getFreeDiskAsPercentage();
}
long getFreeBytes() {
try {
return Math.subtractExact(diskUsage.getFreeBytes(), relocatingShardSize);
} catch (ArithmeticException e) {
return Long.MAX_VALUE;
}
}
String getPath() {
return diskUsage.getPath();
}
String getNodeId() {
return diskUsage.getNodeId();
}
String getNodeName() {
return diskUsage.getNodeName();
}
long getTotalBytes() {
return diskUsage.getTotalBytes();
}
}
} }

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@ -56,6 +56,7 @@ import java.util.Arrays;
import java.util.HashMap; import java.util.HashMap;
import java.util.HashSet; import java.util.HashSet;
import java.util.Map; import java.util.Map;
import java.util.concurrent.atomic.AtomicReference;
import static java.util.Collections.emptyMap; import static java.util.Collections.emptyMap;
import static java.util.Collections.singleton; import static java.util.Collections.singleton;
@ -63,6 +64,7 @@ import static org.elasticsearch.cluster.routing.ShardRoutingState.INITIALIZING;
import static org.elasticsearch.cluster.routing.ShardRoutingState.RELOCATING; import static org.elasticsearch.cluster.routing.ShardRoutingState.RELOCATING;
import static org.elasticsearch.cluster.routing.ShardRoutingState.STARTED; import static org.elasticsearch.cluster.routing.ShardRoutingState.STARTED;
import static org.elasticsearch.cluster.routing.ShardRoutingState.UNASSIGNED; import static org.elasticsearch.cluster.routing.ShardRoutingState.UNASSIGNED;
import static org.elasticsearch.cluster.routing.allocation.decider.EnableAllocationDecider.CLUSTER_ROUTING_REBALANCE_ENABLE_SETTING;
import static org.hamcrest.Matchers.containsString; import static org.hamcrest.Matchers.containsString;
import static org.hamcrest.Matchers.equalTo; import static org.hamcrest.Matchers.equalTo;
import static org.hamcrest.Matchers.nullValue; import static org.hamcrest.Matchers.nullValue;
@ -628,7 +630,8 @@ public class DiskThresholdDeciderTests extends ESAllocationTestCase {
usages.put("node2", new DiskUsage("node2", "n2", "/dev/null", 100, 50)); // 50% used usages.put("node2", new DiskUsage("node2", "n2", "/dev/null", 100, 50)); // 50% used
usages.put("node3", new DiskUsage("node3", "n3", "/dev/null", 100, 0)); // 100% used usages.put("node3", new DiskUsage("node3", "n3", "/dev/null", 100, 0)); // 100% used
Double after = decider.freeDiskPercentageAfterShardAssigned(new DiskUsage("node2", "n2", "/dev/null", 100, 30), 11L); Double after = decider.freeDiskPercentageAfterShardAssigned(
new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("node2", "n2", "/dev/null", 100, 30), 0L), 11L);
assertThat(after, equalTo(19.0)); assertThat(after, equalTo(19.0));
} }
@ -653,15 +656,16 @@ public class DiskThresholdDeciderTests extends ESAllocationTestCase {
final ClusterInfo clusterInfo = new DevNullClusterInfo(usages, usages, shardSizes); final ClusterInfo clusterInfo = new DevNullClusterInfo(usages, usages, shardSizes);
DiskThresholdDecider decider = makeDecider(diskSettings); DiskThresholdDecider decider = makeDecider(diskSettings);
final ClusterSettings clusterSettings = new ClusterSettings(Settings.EMPTY, ClusterSettings.BUILT_IN_CLUSTER_SETTINGS);
AllocationDeciders deciders = new AllocationDeciders( AllocationDeciders deciders = new AllocationDeciders(
new HashSet<>(Arrays.asList(new SameShardAllocationDecider( new HashSet<>(Arrays.asList(
Settings.EMPTY, new ClusterSettings(Settings.EMPTY, ClusterSettings.BUILT_IN_CLUSTER_SETTINGS) new SameShardAllocationDecider(Settings.EMPTY, clusterSettings),
), decider))); new EnableAllocationDecider(
Settings.builder().put(CLUSTER_ROUTING_REBALANCE_ENABLE_SETTING.getKey(), "none").build(), clusterSettings),
decider)));
ClusterInfoService cis = () -> { final AtomicReference<ClusterInfo> clusterInfoReference = new AtomicReference<>(clusterInfo);
logger.info("--> calling fake getClusterInfo"); final ClusterInfoService cis = clusterInfoReference::get;
return clusterInfo;
};
AllocationService strategy = new AllocationService(deciders, new TestGatewayAllocator(), AllocationService strategy = new AllocationService(deciders, new TestGatewayAllocator(),
new BalancedShardsAllocator(Settings.EMPTY), cis); new BalancedShardsAllocator(Settings.EMPTY), cis);
@ -702,30 +706,66 @@ public class DiskThresholdDeciderTests extends ESAllocationTestCase {
.add(newNode("node3")) .add(newNode("node3"))
).build(); ).build();
AllocationCommand relocate1 = new MoveAllocationCommand("test", 0, "node2", "node3"); {
AllocationCommands cmds = new AllocationCommands(relocate1); AllocationCommand moveAllocationCommand = new MoveAllocationCommand("test", 0, "node2", "node3");
AllocationCommands cmds = new AllocationCommands(moveAllocationCommand);
clusterState = strategy.reroute(clusterState, cmds, false, false).getClusterState(); clusterState = strategy.reroute(clusterState, cmds, false, false).getClusterState();
logShardStates(clusterState); logShardStates(clusterState);
}
AllocationCommand relocate2 = new MoveAllocationCommand("test2", 0, "node2", "node3"); final ImmutableOpenMap.Builder<String, DiskUsage> overfullUsagesBuilder = ImmutableOpenMap.builder();
cmds = new AllocationCommands(relocate2); overfullUsagesBuilder.put("node1", new DiskUsage("node1", "n1", "/dev/null", 100, 40)); // 60% used
overfullUsagesBuilder.put("node2", new DiskUsage("node2", "n2", "/dev/null", 100, 40)); // 60% used
overfullUsagesBuilder.put("node3", new DiskUsage("node3", "n3", "/dev/null", 100, 0)); // 100% used
final ImmutableOpenMap<String, DiskUsage> overfullUsages = overfullUsagesBuilder.build();
try { final ImmutableOpenMap.Builder<String, Long> largerShardSizesBuilder = ImmutableOpenMap.builder();
// The shard for the "test" index is already being relocated to largerShardSizesBuilder.put("[test][0][p]", 14L);
// node3, which will put it over the low watermark when it largerShardSizesBuilder.put("[test][0][r]", 14L);
// completes, with shard relocations taken into account this should largerShardSizesBuilder.put("[test2][0][p]", 2L);
// throw an exception about not being able to complete largerShardSizesBuilder.put("[test2][0][r]", 2L);
strategy.reroute(clusterState, cmds, false, false); final ImmutableOpenMap<String, Long> largerShardSizes = largerShardSizesBuilder.build();
fail("should not have been able to reroute the shard");
} catch (IllegalArgumentException e) { final ClusterInfo overfullClusterInfo = new DevNullClusterInfo(overfullUsages, overfullUsages, largerShardSizes);
assertThat("can't be allocated because there isn't enough room: " + e.getMessage(),
e.getMessage(), {
AllocationCommand moveAllocationCommand = new MoveAllocationCommand("test2", 0, "node2", "node3");
AllocationCommands cmds = new AllocationCommands(moveAllocationCommand);
final ClusterState clusterStateThatRejectsCommands = clusterState;
assertThat(expectThrows(IllegalArgumentException.class,
() -> strategy.reroute(clusterStateThatRejectsCommands, cmds, false, false)).getMessage(),
containsString("the node is above the low watermark cluster setting " + containsString("the node is above the low watermark cluster setting " +
"[cluster.routing.allocation.disk.watermark.low=0.7], using more disk space than the maximum " + "[cluster.routing.allocation.disk.watermark.low=0.7], using more disk space than the maximum " +
"allowed [70.0%], actual free: [26.0%]")); "allowed [70.0%], actual free: [26.0%]"));
clusterInfoReference.set(overfullClusterInfo);
assertThat(expectThrows(IllegalArgumentException.class,
() -> strategy.reroute(clusterStateThatRejectsCommands, cmds, false, false)).getMessage(),
containsString("the node has fewer free bytes remaining than the total size of all incoming shards"));
clusterInfoReference.set(clusterInfo);
} }
{
AllocationCommand moveAllocationCommand = new MoveAllocationCommand("test2", 0, "node2", "node3");
AllocationCommands cmds = new AllocationCommands(moveAllocationCommand);
logger.info("--> before starting: {}", clusterState);
clusterState = startInitializingShardsAndReroute(strategy, clusterState);
logger.info("--> after starting: {}", clusterState);
clusterState = strategy.reroute(clusterState, cmds, false, false).getClusterState();
logger.info("--> after running another command: {}", clusterState);
logShardStates(clusterState);
clusterInfoReference.set(overfullClusterInfo);
clusterState = strategy.reroute(clusterState, "foo");
logger.info("--> after another reroute: {}", clusterState);
}
} }
public void testCanRemainWithShardRelocatingAway() { public void testCanRemainWithShardRelocatingAway() {

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@ -54,6 +54,7 @@ import java.util.HashSet;
import static java.util.Collections.emptyMap; import static java.util.Collections.emptyMap;
import static java.util.Collections.emptySet; import static java.util.Collections.emptySet;
import static org.hamcrest.Matchers.containsString; import static org.hamcrest.Matchers.containsString;
import static org.hamcrest.Matchers.equalTo;
/** /**
* Unit tests for the DiskThresholdDecider * Unit tests for the DiskThresholdDecider
@ -444,4 +445,33 @@ public class DiskThresholdDeciderUnitTests extends ESAllocationTestCase {
allocation.clusterInfo(), allocation.metaData(), allocation.routingTable()); allocation.clusterInfo(), allocation.metaData(), allocation.routingTable());
} }
public void testDiskUsageWithRelocations() {
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 1000L), 0).getFreeBytes(),
equalTo(1000L));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 1000L), 9).getFreeBytes(),
equalTo(991L));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 1000L), -9).getFreeBytes(),
equalTo(1009L));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 1000L), 0)
.getFreeDiskAsPercentage(), equalTo(100.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 500L), 0)
.getFreeDiskAsPercentage(), equalTo(50.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 500L), 100)
.getFreeDiskAsPercentage(), equalTo(40.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 1000L), 0)
.getUsedDiskAsPercentage(), equalTo(0.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 500L), 0)
.getUsedDiskAsPercentage(), equalTo(50.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(new DiskUsage("n", "n", "/dev/null", 1000L, 500L), 100)
.getUsedDiskAsPercentage(), equalTo(60.0));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(
new DiskUsage("n", "n", "/dev/null", Long.MAX_VALUE, Long.MAX_VALUE), 0).getFreeBytes(), equalTo(Long.MAX_VALUE));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(
new DiskUsage("n", "n", "/dev/null", Long.MAX_VALUE, Long.MAX_VALUE), 10).getFreeBytes(), equalTo(Long.MAX_VALUE - 10));
assertThat(new DiskThresholdDecider.DiskUsageWithRelocations(
new DiskUsage("n", "n", "/dev/null", Long.MAX_VALUE, Long.MAX_VALUE), -10).getFreeBytes(), equalTo(Long.MAX_VALUE));
}
} }