public virtual Org.Apache.Hadoop.Util.Bloom.BloomFilterCommonTester <T> WithTestCases
(ImmutableSet <BloomFilterCommonTester.BloomFilterTestStrategy> filterTestStrateges
)
{
this.filterTestStrateges = ImmutableSet.CopyOf(filterTestStrateges);
return(this);
}
/// <summary>Check whether requested SASL Qop contains privacy.</summary>
/// <param name="saslProps">properties of SASL negotiation</param>
/// <returns>boolean true if privacy exists</returns>
public static bool RequestedQopContainsPrivacy(IDictionary <string, string> saslProps
)
{
ICollection <string> requestedQop = ImmutableSet.CopyOf(Arrays.AsList(saslProps[Javax.Security.Sasl.Sasl
.Qop].Split(",")));
return(requestedQop.Contains("auth-conf"));
}
public SchedulerNode(RMNode node, bool usePortForNodeName, ICollection <string> labels
)
{
/* set of containers that are allocated containers */
this.rmNode = node;
this.availableResource = Resources.Clone(node.GetTotalCapability());
this.totalResourceCapability = Resources.Clone(node.GetTotalCapability());
if (usePortForNodeName)
{
nodeName = rmNode.GetHostName() + ":" + node.GetNodeID().GetPort();
}
else
{
nodeName = rmNode.GetHostName();
}
this.labels = ImmutableSet.CopyOf(labels);
}
/// <summary>
/// Checks that SASL negotiation has completed for the given participant, and
/// the negotiated quality of protection is included in the given SASL
/// properties and therefore acceptable.
/// </summary>
/// <param name="sasl">participant to check</param>
/// <param name="saslProps">properties of SASL negotiation</param>
/// <exception cref="System.IO.IOException">for any error</exception>
public static void CheckSaslComplete(SaslParticipant sasl, IDictionary <string, string
> saslProps)
{
if (!sasl.IsComplete())
{
throw new IOException("Failed to complete SASL handshake");
}
ICollection <string> requestedQop = ImmutableSet.CopyOf(Arrays.AsList(saslProps[Javax.Security.Sasl.Sasl
.Qop].Split(",")));
string negotiatedQop = sasl.GetNegotiatedQop();
Log.Debug("Verifying QOP, requested QOP = {}, negotiated QOP = {}", requestedQop,
negotiatedQop);
if (!requestedQop.Contains(negotiatedQop))
{
throw new IOException(string.Format("SASL handshake completed, but " + "channel does not have acceptable quality of protection, "
+ "requested = %s, negotiated = %s", requestedQop, negotiatedQop));
}
}
private void UpdateResourceMappings(IDictionary <string, CommonNodeLabelsManager.Host
> before, IDictionary <string, CommonNodeLabelsManager.Host> after)
{
// Get NMs in before only
ICollection <NodeId> allNMs = new HashSet <NodeId>();
foreach (KeyValuePair <string, CommonNodeLabelsManager.Host> entry in before)
{
Sharpen.Collections.AddAll(allNMs, entry.Value.nms.Keys);
}
foreach (KeyValuePair <string, CommonNodeLabelsManager.Host> entry_1 in after)
{
Sharpen.Collections.AddAll(allNMs, entry_1.Value.nms.Keys);
}
// Map used to notify RM
IDictionary <NodeId, ICollection <string> > newNodeToLabelsMap = new Dictionary <NodeId
, ICollection <string> >();
// traverse all nms
foreach (NodeId nodeId in allNMs)
{
CommonNodeLabelsManager.Node oldNM;
if ((oldNM = GetNMInNodeSet(nodeId, before, true)) != null)
{
ICollection <string> oldLabels = GetLabelsByNode(nodeId, before);
// no label in the past
if (oldLabels.IsEmpty())
{
// update labels
NodeLabel label = labelCollections[NoLabel];
label.RemoveNode(oldNM.resource);
// update queues, all queue can access this node
foreach (RMNodeLabelsManager.Queue q in queueCollections.Values)
{
Resources.SubtractFrom(q.resource, oldNM.resource);
}
}
else
{
// update labels
foreach (string labelName in oldLabels)
{
NodeLabel label = labelCollections[labelName];
if (null == label)
{
continue;
}
label.RemoveNode(oldNM.resource);
}
// update queues, only queue can access this node will be subtract
foreach (RMNodeLabelsManager.Queue q in queueCollections.Values)
{
if (IsNodeUsableByQueue(oldLabels, q))
{
Resources.SubtractFrom(q.resource, oldNM.resource);
}
}
}
}
CommonNodeLabelsManager.Node newNM;
if ((newNM = GetNMInNodeSet(nodeId, after, true)) != null)
{
ICollection <string> newLabels = GetLabelsByNode(nodeId, after);
newNodeToLabelsMap[nodeId] = ImmutableSet.CopyOf(newLabels);
// no label in the past
if (newLabels.IsEmpty())
{
// update labels
NodeLabel label = labelCollections[NoLabel];
label.AddNode(newNM.resource);
// update queues, all queue can access this node
foreach (RMNodeLabelsManager.Queue q in queueCollections.Values)
{
Resources.AddTo(q.resource, newNM.resource);
}
}
else
{
// update labels
foreach (string labelName in newLabels)
{
NodeLabel label = labelCollections[labelName];
label.AddNode(newNM.resource);
}
// update queues, only queue can access this node will be subtract
foreach (RMNodeLabelsManager.Queue q in queueCollections.Values)
{
if (IsNodeUsableByQueue(newLabels, q))
{
Resources.AddTo(q.resource, newNM.resource);
}
}
}
}
}
// Notify RM
if (rmContext != null && rmContext.GetDispatcher() != null)
{
rmContext.GetDispatcher().GetEventHandler().Handle(new NodeLabelsUpdateSchedulerEvent
(newNodeToLabelsMap));
}
}
public virtual Org.Apache.Hadoop.IO.Compress.CompressDecompressTester <T, E> WithTestCases
(ImmutableSet <CompressDecompressTester.CompressionTestStrategy> stateges)
{
this.stateges = ImmutableSet.CopyOf(stateges);
return(this);
}