public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _cacheId = reader.ReadObject() as string; _loadBalance = reader.ReadBoolean(); _isRegisteredLocal = reader.ReadBoolean(); //Needs to be intinalized at every read _serversPriorityList = new Dictionary <int, CacheServer>(); int lenght = reader.ReadInt32(); for (int i = 0; i < lenght; i++) { _serversPriorityList.Add(reader.ReadInt32(), reader.ReadObject() as CacheServer); } _serverName = reader.ReadObject() as string; _bindIp = reader.ReadObject() as string; _serverRuntimeContext = reader.ReadObject() as string == "1" ? RtContextValue.JVCACHE : RtContextValue.NCACHE; if (reader.ReadBoolean()) { _serverMapping = reader.ReadObject() as ServerMapping; } _enableClientLogs = reader.ReadBoolean(); _logLevel = reader.ReadObject() as string; _enableServerPriorities = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _longerEnabled = reader.ReadBoolean(); _longer = reader.ReadInt64(); _defaultEnabled = reader.ReadBoolean(); _default = reader.ReadInt64(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _isRepica = reader.ReadBoolean(); _inProcInstance = reader.ReadBoolean(); _clientPort = reader.ReadInt32(); _nodeAt = reader.ReadObject() as string; base.Deserialize(reader); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _id = reader.ReadString(); _chunkId = reader.ReadInt32(); _isDisposable = reader.ReadBoolean(); _nodeIpAddress = reader.ReadObject() as Address; _isSocketServerDispose = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _columnName = reader.ReadObject() as string; _columnType = (ColumnType)reader.ReadInt32(); _dataType = (ColumnDataType)reader.ReadInt32(); _aggregateFunctionType = (AggregateFunctionType)reader.ReadInt32(); _isFilled = reader.ReadBoolean(); _isHidden = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { enabled = reader.ReadBoolean(); traceErrors = reader.ReadBoolean(); traceWarnings = reader.ReadBoolean(); traceNotices = reader.ReadBoolean(); traceDebug = reader.ReadBoolean(); location = (string)reader.ReadObject(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { this.cacheSettings = reader.ReadObject() as CacheServerConfigSetting; this.cacheDeployment = reader.ReadObject() as CacheDeployment; this.configID = reader.ReadDouble(); cacheIsRunning = reader.ReadBoolean(); cacheIsRegistered = reader.ReadBoolean(); licenseIsExpired = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { providerName = reader.ReadObject() as string; assemblyName = reader.ReadObject() as string; className = reader.ReadObject() as string; _fullProviderName = reader.ReadObject() as string; isDefaultProvider = reader.ReadBoolean(); asyncMode = reader.ReadBoolean(); parameters = reader.ReadObject() as Parameter[]; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { id = reader.ReadObject() as string; name = reader.ReadObject() as string; assembly = reader.ReadObject() as string; type = reader.ReadObject() as string; isGeneric = reader.ReadBoolean(); genericId = reader.ReadObject() as string; noOfArgs = reader.ReadObject() as string; portable = reader.ReadBoolean(); nonCompactFields = reader.ReadObject() as Hashtable; _genericArgumentTypeList = reader.ReadObject() as List <GenericArgumentType>; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _enabled = reader.ReadBoolean(); _eventLoggingInterval = reader.ReadInt64(); _cacheLoggingInterval = reader.ReadInt64(); _resource = reader.ReadObject() as Hashtable; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { opTimeout = reader.ReadInt32(); statsRepInterval = reader.ReadInt32(); useHeartBeat = reader.ReadBoolean(); channel = reader.ReadObject() as Channel; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { enabled = reader.ReadBoolean(); domainController = reader.ReadObject() as string; users = reader.ReadObject() as User[]; ldapPort = reader.ReadObject() as string; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { inproc = reader.ReadBoolean(); lastModified = reader.ReadObject() as String; cacheType = reader.ReadObject() as String; log = reader.ReadObject() as Log; perfCounters = reader.ReadObject() as Alachisoft.NCache.Config.Dom.PerfCounters; backingSource = reader.ReadObject() as BackingSource; notifications = reader.ReadObject() as Notifications; cleanup = reader.ReadObject() as Cleanup; storage = reader.ReadObject() as Alachisoft.NCache.Config.Dom.Storage; evictionPolicy = reader.ReadObject() as EvictionPolicy; security = reader.ReadObject() as Alachisoft.NCache.Config.Dom.Security; autoBalancing = reader.ReadObject() as AutoLoadBalancing; _synchronizationStrategy = reader.ReadObject() as SynchronizationStrategy; cacheTopology = reader.ReadObject() as CacheTopology; string temp = reader.ReadObject() as String; if (temp.ToLower().Equals("binary")) { _dataFormat = Common.Enum.DataFormat.Binary; } else if (temp.ToLower().Equals("object")) { _dataFormat = Common.Enum.DataFormat.Object; } deathDetection = reader.ReadObject() as ClientDeathDetection; clientActivityNotification = reader.ReadObject() as ClientActivityNotification; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _info = reader.ReadObject() as string; Status = (CacheStatus)reader.ReadInt32(); IsCoordinatorInternal = reader.ReadBoolean(); configID = reader.ReadDouble(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _cacheId = reader.ReadObject() as string; _topology = (CacheTopology)reader.ReadInt32(); _running = reader.ReadBoolean(); _dataCapacity = reader.ReadInt64(); _cachePropString = reader.ReadObject() as string; _partId = reader.ReadObject() as string; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { id = reader.ReadObject() as string; name = reader.ReadObject() as string; portable = reader.ReadBoolean(); portableClasses = reader.ReadObject() as PortableClass[]; PortableClasses = reader.ReadObject() as PortableClass[]; attrbiuteList = reader.ReadObject() as AttributeListUnion; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { topology = reader.ReadObject() as string; opTimeout = reader.ReadInt32(); statsRepInterval = reader.ReadInt32(); useHeartBeat = reader.ReadBoolean(); channel = reader.ReadObject() as Channel; bool nodeExists = reader.ReadBoolean(); if (nodeExists) { nodes = new Dictionary <NodeIdentity, StatusInfo>(); int count = reader.ReadInt32(); for (int i = 0; i < count; i++) { nodes.Add(reader.ReadObject() as NodeIdentity, reader.ReadObject() as StatusInfo); } } }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { enabled = reader.ReadBoolean(); defaultPriority = reader.ReadObject() as string; object obj = reader.ReadObject(); if (obj != null) { evictionRatio = (decimal)obj; } policy = reader.ReadObject() as string; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { cacheIsRunning = reader.ReadBoolean(); cacheIsRegistered = reader.ReadBoolean(); licenseIsExpired = reader.ReadBoolean(); name = reader.ReadObject() as string; inproc = reader.ReadBoolean(); configID = reader.ReadDouble(); lastModified = reader.ReadObject() as string; cacheType = reader.ReadObject() as string; log = reader.ReadObject() as Log; perfCounters = reader.ReadObject() as PerfCounters; autoBalancing = reader.ReadObject() as AutoLoadBalancing; indexes = reader.ReadObject() as QueryIndex; cleanup = reader.ReadObject() as Cleanup; storage = reader.ReadObject() as Storage; evictionPolicy = reader.ReadObject() as EvictionPolicy; cluster = reader.ReadObject() as Cluster; clientNodes = reader.ReadObject() as ClientNodes; _runtimeContextValue = reader.ReadObject() as string == "1" ? RtContextValue.JVCACHE : RtContextValue.NCACHE; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { name = reader.ReadObject() as String; inproc = reader.ReadBoolean(); lastModified = reader.ReadObject() as String; cacheType = reader.ReadObject() as String; log = reader.ReadObject() as Log; perfCounters = reader.ReadObject() as Alachisoft.NCache.Config.Dom.PerfCounters; autoBalancing = reader.ReadObject() as AutoLoadBalancing; indexes = reader.ReadObject() as QueryIndex; storage = reader.ReadObject() as Alachisoft.NCache.Config.Dom.Storage; evictionPolicy = reader.ReadObject() as EvictionPolicy; cacheTopology = reader.ReadObject() as CacheTopology; _alias = reader.ReadObject() as String; }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { id = (string)reader.ReadObject(); _genericArgsCompactTypeList = Common.Util.SerializationUtility.DeserializeList <CompactClass>(reader); bool flag = reader.ReadBoolean(); if (flag) { int length = reader.ReadInt32(); _genericArgsCompactTypes = new CompactClass[length]; for (int i = 0; i < length; i++) { _genericArgsCompactTypes[i] = (CompactClass)reader.ReadObject(); } } }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { if (this.nodesList == null) { this.nodesList = new ArrayList(); } this.nodesList = reader.ReadObject() as ArrayList; bool nodeExists = reader.ReadBoolean(); this.nodes = new Dictionary <Alachisoft.NCache.Config.Dom.NodeIdentity, StatusInfo>(); if (nodeExists) { int count = reader.ReadInt32(); for (int index = 0; index < count; index++) { nodes.Add(reader.ReadObject() as Alachisoft.NCache.Config.Dom.NodeIdentity, reader.ReadObject() as StatusInfo); } } }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { int length = reader.ReadInt32(); _parameterList = new ArrayList(); bool isByteArray = false; for (int i = 0; i < length; i++) { isByteArray = reader.ReadBoolean(); if (isByteArray) { int count = reader.ReadInt32(); _parameterList.Add(reader.ReadBytes(count)); } else { _parameterList.Add(reader.ReadObject()); } } }
public static ClusteredList <T> DeserializeClusteredList <T>(Runtime.Serialization.IO.CompactReader reader) { bool flag = reader.ReadBoolean(); if (flag) { int length = reader.ReadInt32(); ClusteredList <T> list = new ClusteredList <T>(); for (int i = 0; i < length; i++) { list.Add((T)reader.ReadObject()); } return(list); } else { return(null); } }
/// <summary> /// /// </summary> /// <param name="reader"></param> /// <returns></returns> public static Dictionary <T, V> DeserializeDictionary <T, V>(Runtime.Serialization.IO.CompactReader reader) { T key; V val; bool flag = reader.ReadBoolean(); if (flag) { Dictionary <T, V> dictionary = new Dictionary <T, V>(); int Length = reader.ReadInt32(); for (int i = 0; i < Length; i++) { key = (T)reader.ReadObject(); val = (V)reader.ReadObject(); dictionary.Add(key, val); } return(dictionary); } else { return(null); } }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { enabled = reader.ReadBoolean(); SnmpPort = reader.ReadInt32(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { enabled = reader.ReadBoolean(); autoBalancingThreshold = reader.ReadInt32(); autoBalancingInterval = reader.ReadInt32(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _synchronous = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { this.ip = reader.ReadString(); this.activeMirrorNode = reader.ReadBoolean(); }
public void Deserialize(Runtime.Serialization.IO.CompactReader reader) { _useDefault = reader.ReadBoolean(); }