/// <summary> /// Initializes a new instance of the <see cref="TransactionMetricsImpl"/> class. /// </summary> /// <param name="reader">The reader.</param> public TransactionMetricsImpl(IPortableRawReader reader) { CommitTime = reader.ReadDate() ?? default(DateTime); RollbackTime = reader.ReadDate() ?? default(DateTime); TxCommits = reader.ReadInt(); TxRollbacks = reader.ReadInt(); }
/// <summary> /// Constructor. /// </summary> /// <param name="r">The reader to read data from.</param> internal CacheRebalancingEvent(IPortableRawReader r) : base(r) { _cacheName = r.ReadString(); _partition = r.ReadInt(); _discoveryNode = ReadNode(r); _discoveryEventType = r.ReadInt(); _discoveryEventName = r.ReadString(); _discoveryTimestamp = r.ReadLong(); }
/// <summary> /// Initializes a new instance of the <see cref="PortableMetadataImpl" /> class. /// </summary> /// <param name="reader">The reader.</param> public PortableMetadataImpl(IPortableRawReader reader) { TypeId = reader.ReadInt(); TypeName = reader.ReadString(); AffinityKeyFieldName = reader.ReadString(); _fields = reader.ReadGenericDictionary <string, int>(); }
/// <summary> /// Reads node collection from stream. /// </summary> /// <param name="reader">Reader.</param> /// <param name="pred">The predicate.</param> /// <returns> Nodes list or null. </returns> public static List <IClusterNode> ReadNodes(IPortableRawReader reader, Func <ClusterNodeImpl, bool> pred = null) { var cnt = reader.ReadInt(); if (cnt < 0) { return(null); } var res = new List <IClusterNode>(cnt); var ignite = ((PortableReaderImpl)reader).Marshaller.Ignite; if (pred == null) { for (var i = 0; i < cnt; i++) { res.Add(ignite.GetNode(reader.ReadGuid())); } } else { for (var i = 0; i < cnt; i++) { var node = ignite.GetNode(reader.ReadGuid()); if (pred(node)) { res.Add(node); } } } return(res); }
/// <summary> /// Initializes a new instance of the <see cref="EventBase"/> class. /// </summary> /// <param name="r">The reader to read data from.</param> protected EventBase(IPortableRawReader r) { _id = IgniteGuid.ReadPortable(r); _localOrder = r.ReadLong(); _node = ReadNode(r); _message = r.ReadString(); _type = r.ReadInt(); _name = r.ReadString(); _timeStamp = r.ReadDate() ?? DateTime.Now; }
/// <summary> /// Constructor. /// </summary> /// <param name="r">The reader to read data from.</param> internal CacheEvent(IPortableRawReader r) : base(r) { _cacheName = r.ReadString(); _partition = r.ReadInt(); _isNear = r.ReadBoolean(); _eventNode = ReadNode(r); _key = r.ReadObject<object>(); _xid = IgniteGuid.ReadPortable(r); _lockId = r.ReadObject<object>(); _newValue = r.ReadObject<object>(); _oldValue = r.ReadObject<object>(); _hasOldValue = r.ReadBoolean(); _hasNewValue = r.ReadBoolean(); _subjectId = r.ReadGuid() ?? Guid.Empty; _closureClassName = r.ReadString(); _taskName = r.ReadString(); }
/// <summary> /// Constructor. /// </summary> /// <param name="r">The reader to read data from.</param> internal CacheEvent(IPortableRawReader r) : base(r) { _cacheName = r.ReadString(); _partition = r.ReadInt(); _isNear = r.ReadBoolean(); _eventNode = ReadNode(r); _key = r.ReadObject <object>(); _xid = IgniteGuid.ReadPortable(r); _lockId = r.ReadObject <object>(); _newValue = r.ReadObject <object>(); _oldValue = r.ReadObject <object>(); _hasOldValue = r.ReadBoolean(); _hasNewValue = r.ReadBoolean(); _subjectId = r.ReadGuid() ?? Guid.Empty; _closureClassName = r.ReadString(); _taskName = r.ReadString(); }
/// <summary> /// Initializes a new instance of the <see cref="CacheMetricsImpl"/> class. /// </summary> /// <param name="reader">The reader.</param> public CacheMetricsImpl(IPortableRawReader reader) { CacheGets = reader.ReadLong(); CachePuts = reader.ReadLong(); CacheHits = reader.ReadLong(); CacheMisses = reader.ReadLong(); CacheTxCommits = reader.ReadLong(); CacheTxRollbacks = reader.ReadLong(); CacheEvictions = reader.ReadLong(); CacheRemovals = reader.ReadLong(); AveragePutTime = reader.ReadFloat(); AverageGetTime = reader.ReadFloat(); AverageRemoveTime = reader.ReadFloat(); AverageTxCommitTime = reader.ReadFloat(); AverageTxRollbackTime = reader.ReadFloat(); CacheName = reader.ReadString(); OverflowSize = reader.ReadLong(); OffHeapEntriesCount = reader.ReadLong(); OffHeapAllocatedSize = reader.ReadLong(); Size = reader.ReadInt(); KeySize = reader.ReadInt(); IsEmpty = reader.ReadBoolean(); DhtEvictQueueCurrentSize = reader.ReadInt(); TxThreadMapSize = reader.ReadInt(); TxXidMapSize = reader.ReadInt(); TxCommitQueueSize = reader.ReadInt(); TxPrepareQueueSize = reader.ReadInt(); TxStartVersionCountsSize = reader.ReadInt(); TxCommittedVersionsSize = reader.ReadInt(); TxRolledbackVersionsSize = reader.ReadInt(); TxDhtThreadMapSize = reader.ReadInt(); TxDhtXidMapSize = reader.ReadInt(); TxDhtCommitQueueSize = reader.ReadInt(); TxDhtPrepareQueueSize = reader.ReadInt(); TxDhtStartVersionCountsSize = reader.ReadInt(); TxDhtCommittedVersionsSize = reader.ReadInt(); TxDhtRolledbackVersionsSize = reader.ReadInt(); IsWriteBehindEnabled = reader.ReadBoolean(); WriteBehindFlushSize = reader.ReadInt(); WriteBehindFlushThreadCount = reader.ReadInt(); WriteBehindFlushFrequency = reader.ReadLong(); WriteBehindStoreBatchSize = reader.ReadInt(); WriteBehindTotalCriticalOverflowCount = reader.ReadInt(); WriteBehindCriticalOverflowCount = reader.ReadInt(); WriteBehindErrorRetryCount = reader.ReadInt(); WriteBehindBufferSize = reader.ReadInt(); KeyType = reader.ReadString(); ValueType = reader.ReadString(); IsStoreByValue = reader.ReadBoolean(); IsStatisticsEnabled = reader.ReadBoolean(); IsManagementEnabled = reader.ReadBoolean(); IsReadThrough = reader.ReadBoolean(); IsWriteThrough = reader.ReadBoolean(); CacheHitPercentage = reader.ReadFloat(); CacheMissPercentage = reader.ReadFloat(); }
/// <summary> /// Initializes a new instance of the <see cref="ClusterMetricsImpl"/> class. /// </summary> /// <param name="reader">The reader.</param> public ClusterMetricsImpl(IPortableRawReader reader) { LastUpdateTimeRaw = reader.ReadLong(); DateTime?lastUpdateTime0 = reader.ReadDate(); LastUpdateTime = lastUpdateTime0 ?? default(DateTime); MaximumActiveJobs = reader.ReadInt(); CurrentActiveJobs = reader.ReadInt(); AverageActiveJobs = reader.ReadFloat(); MaximumWaitingJobs = reader.ReadInt(); CurrentWaitingJobs = reader.ReadInt(); AverageWaitingJobs = reader.ReadFloat(); MaximumRejectedJobs = reader.ReadInt(); CurrentRejectedJobs = reader.ReadInt(); AverageRejectedJobs = reader.ReadFloat(); TotalRejectedJobs = reader.ReadInt(); MaximumCancelledJobs = reader.ReadInt(); CurrentCancelledJobs = reader.ReadInt(); AverageCancelledJobs = reader.ReadFloat(); TotalCancelledJobs = reader.ReadInt(); TotalExecutedJobs = reader.ReadInt(); MaximumJobWaitTime = reader.ReadLong(); CurrentJobWaitTime = reader.ReadLong(); AverageJobWaitTime = reader.ReadDouble(); MaximumJobExecuteTime = reader.ReadLong(); CurrentJobExecuteTime = reader.ReadLong(); AverageJobExecuteTime = reader.ReadDouble(); TotalExecutedTasks = reader.ReadInt(); TotalIdleTime = reader.ReadLong(); CurrentIdleTime = reader.ReadLong(); TotalCpus = reader.ReadInt(); CurrentCpuLoad = reader.ReadDouble(); AverageCpuLoad = reader.ReadDouble(); CurrentGcCpuLoad = reader.ReadDouble(); HeapMemoryInitialized = reader.ReadLong(); HeapMemoryUsed = reader.ReadLong(); HeapMemoryCommitted = reader.ReadLong(); HeapMemoryMaximum = reader.ReadLong(); HeapMemoryTotal = reader.ReadLong(); NonHeapMemoryInitialized = reader.ReadLong(); NonHeapMemoryUsed = reader.ReadLong(); NonHeapMemoryCommitted = reader.ReadLong(); NonHeapMemoryMaximum = reader.ReadLong(); NonHeapMemoryTotal = reader.ReadLong(); UpTime = reader.ReadLong(); DateTime?startTime0 = reader.ReadDate(); StartTime = startTime0 ?? default(DateTime); DateTime?nodeStartTime0 = reader.ReadDate(); NodeStartTime = nodeStartTime0 ?? default(DateTime); CurrentThreadCount = reader.ReadInt(); MaximumThreadCount = reader.ReadInt(); TotalStartedThreadCount = reader.ReadLong(); CurrentDaemonThreadCount = reader.ReadInt(); LastDataVersion = reader.ReadLong(); SentMessagesCount = reader.ReadInt(); SentBytesCount = reader.ReadLong(); ReceivedMessagesCount = reader.ReadInt(); ReceivedBytesCount = reader.ReadLong(); OutboundMessagesQueueSize = reader.ReadInt(); TotalNodes = reader.ReadInt(); }
/// <summary> /// Initializes a new instance of the <see cref="ClusterMetricsImpl"/> class. /// </summary> /// <param name="reader">The reader.</param> public ClusterMetricsImpl(IPortableRawReader reader) { LastUpdateTimeRaw = reader.ReadLong(); DateTime? lastUpdateTime0 = reader.ReadDate(); LastUpdateTime = lastUpdateTime0 ?? default(DateTime); MaximumActiveJobs = reader.ReadInt(); CurrentActiveJobs = reader.ReadInt(); AverageActiveJobs = reader.ReadFloat(); MaximumWaitingJobs = reader.ReadInt(); CurrentWaitingJobs = reader.ReadInt(); AverageWaitingJobs = reader.ReadFloat(); MaximumRejectedJobs = reader.ReadInt(); CurrentRejectedJobs = reader.ReadInt(); AverageRejectedJobs = reader.ReadFloat(); TotalRejectedJobs = reader.ReadInt(); MaximumCancelledJobs = reader.ReadInt(); CurrentCancelledJobs = reader.ReadInt(); AverageCancelledJobs = reader.ReadFloat(); TotalCancelledJobs = reader.ReadInt(); TotalExecutedJobs = reader.ReadInt(); MaximumJobWaitTime = reader.ReadLong(); CurrentJobWaitTime = reader.ReadLong(); AverageJobWaitTime = reader.ReadDouble(); MaximumJobExecuteTime = reader.ReadLong(); CurrentJobExecuteTime = reader.ReadLong(); AverageJobExecuteTime = reader.ReadDouble(); TotalExecutedTasks = reader.ReadInt(); TotalIdleTime = reader.ReadLong(); CurrentIdleTime = reader.ReadLong(); TotalCpus = reader.ReadInt(); CurrentCpuLoad = reader.ReadDouble(); AverageCpuLoad = reader.ReadDouble(); CurrentGcCpuLoad = reader.ReadDouble(); HeapMemoryInitialized = reader.ReadLong(); HeapMemoryUsed = reader.ReadLong(); HeapMemoryCommitted = reader.ReadLong(); HeapMemoryMaximum = reader.ReadLong(); HeapMemoryTotal = reader.ReadLong(); NonHeapMemoryInitialized = reader.ReadLong(); NonHeapMemoryUsed = reader.ReadLong(); NonHeapMemoryCommitted = reader.ReadLong(); NonHeapMemoryMaximum = reader.ReadLong(); NonHeapMemoryTotal = reader.ReadLong(); UpTime = reader.ReadLong(); DateTime? startTime0 = reader.ReadDate(); StartTime = startTime0 ?? default(DateTime); DateTime? nodeStartTime0 = reader.ReadDate(); NodeStartTime = nodeStartTime0 ?? default(DateTime); CurrentThreadCount = reader.ReadInt(); MaximumThreadCount = reader.ReadInt(); TotalStartedThreadCount = reader.ReadLong(); CurrentDaemonThreadCount = reader.ReadInt(); LastDataVersion = reader.ReadLong(); SentMessagesCount = reader.ReadInt(); SentBytesCount = reader.ReadLong(); ReceivedMessagesCount = reader.ReadInt(); ReceivedBytesCount = reader.ReadLong(); OutboundMessagesQueueSize = reader.ReadInt(); TotalNodes = reader.ReadInt(); }
/// <summary> /// Initializes a new instance of the <see cref="PortableMetadataImpl" /> class. /// </summary> /// <param name="reader">The reader.</param> public PortableMetadataImpl(IPortableRawReader reader) { TypeId = reader.ReadInt(); TypeName = reader.ReadString(); AffinityKeyFieldName = reader.ReadString(); _fields = reader.ReadGenericDictionary<string, int>(); }