public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
id = reader.ReadObject() as string;
name = reader.ReadObject() as string;
attributesTable = reader.ReadObject() as Hashtable;
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
_activities = (ArrayList)reader.ReadObject();
_startTime = reader.ReadDateTime();
_endTime = reader.ReadDateTime();
_thread = (Thread)reader.ReadObject();
}
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)
{
opTimeout = reader.ReadInt32();
statsRepInterval = reader.ReadInt32();
this._replicationStrategy = reader.ReadObject() as ReplicationStrategy;
channel = reader.ReadObject() as Channel;
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
_slaveId = (string)reader.ReadObject();
_count = reader.ReadInt64();
_item = reader.ReadObject();
_registeredClientId = (string)reader.ReadObject();
}
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)
{
_longerEnabled = reader.ReadBoolean();
_longer = reader.ReadInt64();
_defaultEnabled = reader.ReadBoolean();
_default = reader.ReadInt64();
}
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)
{
_info = reader.ReadObject() as string;
Status = (CacheStatus)reader.ReadInt32();
IsCoordinatorInternal = reader.ReadBoolean();
configID = reader.ReadDouble();
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
_privateIp = reader.ReadObject() as string;
_privatePort = reader.ReadInt32();
_publicIP = reader.ReadObject() as string;
_publicPort = reader.ReadInt32();
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
_name = reader.ReadObject() as string;
_minThreshold = reader.ReadInt64();
_maxThreshold = reader.ReadInt64();
_duration = reader.ReadInt32();
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
name = reader.ReadObject() as string;
type = reader.ReadObject() as string;
order = reader.ReadObject() as string;
_mappedTo = reader.ReadObject() as string;
}
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)
{
_serverName = reader.ReadObject() as string;
_serverPriority = (short)reader.ReadObject();
}
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();
}
void ICompactSerializable.Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
_aggregateFunctionResult = (DictionaryEntry)reader.ReadObject();
_searchKeysResult = reader.ReadObject() as ArrayList;
_searchEntriesResult = reader.ReadObject() as Hashtable;
_queryType = (QueryType)reader.ReadInt32();
_aggregateFunctionType = (AggregateFunctionType)reader.ReadInt32();
}
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)
{
_processID = reader.ReadObject() as string;
_bytesSent = reader.ReadSingle();
_bytesReceived = reader.ReadSingle();
_serverIPAddress = reader.ReadObject() as string;
base.Deserialize(reader);
}
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;
PortableAttributes = reader.ReadObject() as PortableAttribute[];
}
public void Deserialize(Runtime.Serialization.IO.CompactReader reader)
{
mode = reader.ReadObject() as string;
throttling = reader.ReadObject() as string;
batchConfig = reader.ReadObject() as BatchConfig;
eviction = reader.ReadObject() as string;
requeueLimit = 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)
{
_columns = reader.ReadObject() as ColumnCollection;
_objects = new ClusteredArray <object>(_columns.Count);
for (int i = 0; i < _objects.Length; i++)
{
_objects[i] = 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)
{
_cbInfoList = (ArrayList)reader.ReadObject();
_clientIds = (List <string>)reader.ReadObject();
_flag = (BitSet)reader.ReadObject();
_key = (string)reader.ReadObject();
_reason = (ItemRemoveReason)reader.ReadObject();
_value = (ArrayList)reader.ReadObject();
}
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)
{
_node = reader.ReadObject() as ServerNode;
_itemCount = reader.ReadInt64();
_dataSize = reader.ReadInt64();
_clientsConnected = reader.ReadUInt16();
_totalCacheSize = reader.ReadInt64();
_nodeStatus = (CacheNodeStatus)reader.ReadInt32();
}
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)
{
_instanceId = reader.ReadInt64();
_timeGenerated = reader.ReadDateTime();
_source = reader.ReadObject() as string;
_message = reader.ReadObject() as string;
_node = reader.ReadObject() as string;
_type = (EventLogEntryType)reader.ReadInt32();
}
