HDFS-6686. Change BlockPlacementPolicy to use fallback when some storage types are unavailable.

git-svn-id: https://svn.apache.org/repos/asf/hadoop/common/branches/HDFS-6584@1612880 13f79535-47bb-0310-9956-ffa450edef68
This commit is contained in:
Tsz-wo Sze 2014-07-23 17:25:06 +00:00
parent ee13f8bf3e
commit ac5e8aed7c
2 changed files with 79 additions and 16 deletions

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@ -17,6 +17,9 @@ HDFS-6584: Archival Storage
HDFS-6679. Bump NameNodeLayoutVersion and update editsStored test files. HDFS-6679. Bump NameNodeLayoutVersion and update editsStored test files.
(vinayakumarb via szetszwo) (vinayakumarb via szetszwo)
HDFS-6686. Change BlockPlacementPolicy to use fallback when some storage
types are unavailable. (szetszwo)
Trunk (Unreleased) Trunk (Unreleased)
INCOMPATIBLE CHANGES INCOMPATIBLE CHANGES

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@ -21,6 +21,7 @@
import java.util.ArrayList; import java.util.ArrayList;
import java.util.Collection; import java.util.Collection;
import java.util.EnumSet;
import java.util.HashSet; import java.util.HashSet;
import java.util.List; import java.util.List;
import java.util.Set; import java.util.Set;
@ -218,7 +219,8 @@ private DatanodeStorageInfo[] chooseTarget(int numOfReplicas,
boolean avoidStaleNodes = (stats != null boolean avoidStaleNodes = (stats != null
&& stats.isAvoidingStaleDataNodesForWrite()); && stats.isAvoidingStaleDataNodesForWrite());
final Node localNode = chooseTarget(numOfReplicas, writer, excludedNodes, final Node localNode = chooseTarget(numOfReplicas, writer, excludedNodes,
blocksize, maxNodesPerRack, results, avoidStaleNodes, storagePolicy); blocksize, maxNodesPerRack, results, avoidStaleNodes, storagePolicy,
EnumSet.noneOf(StorageType.class), results.isEmpty());
if (!returnChosenNodes) { if (!returnChosenNodes) {
results.removeAll(chosenStorage); results.removeAll(chosenStorage);
} }
@ -238,7 +240,40 @@ private int[] getMaxNodesPerRack(int numOfChosen, int numOfReplicas) {
int maxNodesPerRack = (totalNumOfReplicas-1)/clusterMap.getNumOfRacks()+2; int maxNodesPerRack = (totalNumOfReplicas-1)/clusterMap.getNumOfRacks()+2;
return new int[] {numOfReplicas, maxNodesPerRack}; return new int[] {numOfReplicas, maxNodesPerRack};
} }
private static List<StorageType> selectStorageTypes(
final BlockStoragePolicy storagePolicy,
final short replication,
final Iterable<StorageType> chosen,
final EnumSet<StorageType> unavailableStorages,
final boolean isNewBlock) {
final List<StorageType> storageTypes = storagePolicy.chooseStorageTypes(
replication, chosen);
final List<StorageType> removed = new ArrayList<StorageType>();
for(int i = storageTypes.size() - 1; i >= 0; i--) {
// replace/remove unavailable storage types.
final StorageType t = storageTypes.get(i);
if (unavailableStorages.contains(t)) {
final StorageType fallback = isNewBlock?
storagePolicy.getCreationFallback(unavailableStorages)
: storagePolicy.getReplicationFallback(unavailableStorages);
if (fallback == null) {
removed.add(storageTypes.remove(i));
} else {
storageTypes.set(i, fallback);
}
}
}
if (storageTypes.size() < replication) {
LOG.warn("Failed to place enough replicas: replication is " + replication
+ " but only " + storageTypes.size() + " storage types can be selected "
+ "(selected=" + storageTypes
+ ", unavailable=" + unavailableStorages
+ ", removed=" + removed
+ ", policy=" + storagePolicy + ")");
}
return storageTypes;
}
/** /**
* choose <i>numOfReplicas</i> from all data nodes * choose <i>numOfReplicas</i> from all data nodes
* @param numOfReplicas additional number of replicas wanted * @param numOfReplicas additional number of replicas wanted
@ -257,14 +292,14 @@ private Node chooseTarget(int numOfReplicas,
final int maxNodesPerRack, final int maxNodesPerRack,
final List<DatanodeStorageInfo> results, final List<DatanodeStorageInfo> results,
final boolean avoidStaleNodes, final boolean avoidStaleNodes,
final BlockStoragePolicy storagePolicy) { final BlockStoragePolicy storagePolicy,
final EnumSet<StorageType> unavailableStorages,
final boolean newBlock) {
if (numOfReplicas == 0 || clusterMap.getNumOfLeaves()==0) { if (numOfReplicas == 0 || clusterMap.getNumOfLeaves()==0) {
return writer; return writer;
} }
int totalReplicasExpected = numOfReplicas + results.size(); final int numOfResults = results.size();
final int totalReplicasExpected = numOfReplicas + numOfResults;
int numOfResults = results.size();
boolean newBlock = (numOfResults==0);
if ((writer == null || !(writer instanceof DatanodeDescriptor)) && !newBlock) { if ((writer == null || !(writer instanceof DatanodeDescriptor)) && !newBlock) {
writer = results.get(0).getDatanodeDescriptor(); writer = results.get(0).getDatanodeDescriptor();
} }
@ -272,12 +307,25 @@ private Node chooseTarget(int numOfReplicas,
// Keep a copy of original excludedNodes // Keep a copy of original excludedNodes
final Set<Node> oldExcludedNodes = avoidStaleNodes ? final Set<Node> oldExcludedNodes = avoidStaleNodes ?
new HashSet<Node>(excludedNodes) : null; new HashSet<Node>(excludedNodes) : null;
final List<StorageType> storageTypes = storagePolicy.chooseStorageTypes(
(short)totalReplicasExpected, DatanodeStorageInfo.toStorageTypes(results)); // choose storage types; use fallbacks for unavailable storages
final List<StorageType> storageTypes = selectStorageTypes(storagePolicy,
(short)totalReplicasExpected, DatanodeStorageInfo.toStorageTypes(results),
unavailableStorages, newBlock);
StorageType curStorageType = null;
try { try {
if ((numOfReplicas = storageTypes.size()) == 0) {
throw new NotEnoughReplicasException(
"All required storage types are unavailable: "
+ " unavailableStorages=" + unavailableStorages
+ ", storagePolicy=" + storagePolicy);
}
if (numOfResults == 0) { if (numOfResults == 0) {
curStorageType = storageTypes.remove(0);
writer = chooseLocalStorage(writer, excludedNodes, blocksize, writer = chooseLocalStorage(writer, excludedNodes, blocksize,
maxNodesPerRack, results, avoidStaleNodes, storageTypes.remove(0), true) maxNodesPerRack, results, avoidStaleNodes, curStorageType, true)
.getDatanodeDescriptor(); .getDatanodeDescriptor();
if (--numOfReplicas == 0) { if (--numOfReplicas == 0) {
return writer; return writer;
@ -285,30 +333,33 @@ private Node chooseTarget(int numOfReplicas,
} }
final DatanodeDescriptor dn0 = results.get(0).getDatanodeDescriptor(); final DatanodeDescriptor dn0 = results.get(0).getDatanodeDescriptor();
if (numOfResults <= 1) { if (numOfResults <= 1) {
curStorageType = storageTypes.remove(0);
chooseRemoteRack(1, dn0, excludedNodes, blocksize, maxNodesPerRack, chooseRemoteRack(1, dn0, excludedNodes, blocksize, maxNodesPerRack,
results, avoidStaleNodes, storageTypes.remove(0)); results, avoidStaleNodes, curStorageType);
if (--numOfReplicas == 0) { if (--numOfReplicas == 0) {
return writer; return writer;
} }
} }
if (numOfResults <= 2) { if (numOfResults <= 2) {
final DatanodeDescriptor dn1 = results.get(1).getDatanodeDescriptor(); final DatanodeDescriptor dn1 = results.get(1).getDatanodeDescriptor();
curStorageType = storageTypes.remove(0);
if (clusterMap.isOnSameRack(dn0, dn1)) { if (clusterMap.isOnSameRack(dn0, dn1)) {
chooseRemoteRack(1, dn0, excludedNodes, blocksize, maxNodesPerRack, chooseRemoteRack(1, dn0, excludedNodes, blocksize, maxNodesPerRack,
results, avoidStaleNodes, storageTypes.remove(0)); results, avoidStaleNodes, curStorageType);
} else if (newBlock){ } else if (newBlock){
chooseLocalRack(dn1, excludedNodes, blocksize, maxNodesPerRack, chooseLocalRack(dn1, excludedNodes, blocksize, maxNodesPerRack,
results, avoidStaleNodes, storageTypes.remove(0)); results, avoidStaleNodes, curStorageType);
} else { } else {
chooseLocalRack(writer, excludedNodes, blocksize, maxNodesPerRack, chooseLocalRack(writer, excludedNodes, blocksize, maxNodesPerRack,
results, avoidStaleNodes, storageTypes.remove(0)); results, avoidStaleNodes, curStorageType);
} }
if (--numOfReplicas == 0) { if (--numOfReplicas == 0) {
return writer; return writer;
} }
} }
curStorageType = storageTypes.remove(0);
chooseRandom(numOfReplicas, NodeBase.ROOT, excludedNodes, blocksize, chooseRandom(numOfReplicas, NodeBase.ROOT, excludedNodes, blocksize,
maxNodesPerRack, results, avoidStaleNodes, storageTypes.remove(0)); maxNodesPerRack, results, avoidStaleNodes, curStorageType);
} catch (NotEnoughReplicasException e) { } catch (NotEnoughReplicasException e) {
final String message = "Failed to place enough replicas, still in need of " final String message = "Failed to place enough replicas, still in need of "
+ (totalReplicasExpected - results.size()) + " to reach " + (totalReplicasExpected - results.size()) + " to reach "
@ -333,7 +384,16 @@ private Node chooseTarget(int numOfReplicas,
// if the NotEnoughReplicasException was thrown in chooseRandom(). // if the NotEnoughReplicasException was thrown in chooseRandom().
numOfReplicas = totalReplicasExpected - results.size(); numOfReplicas = totalReplicasExpected - results.size();
return chooseTarget(numOfReplicas, writer, oldExcludedNodes, blocksize, return chooseTarget(numOfReplicas, writer, oldExcludedNodes, blocksize,
maxNodesPerRack, results, false, storagePolicy); maxNodesPerRack, results, false, storagePolicy, unavailableStorages,
newBlock);
}
if (storageTypes.size() > 0) {
// Retry chooseTarget with fallback storage types
unavailableStorages.add(curStorageType);
return chooseTarget(numOfReplicas, writer, excludedNodes, blocksize,
maxNodesPerRack, results, false, storagePolicy, unavailableStorages,
newBlock);
} }
} }
return writer; return writer;