/// <summary>
/// Write dictionary.
/// </summary>
/// <param name="writer">Writer.</param>
/// <param name="vals">Values.</param>
/// <returns>The same writer.</returns>
protected static BinaryWriter WriteDictionary <T1, T2>(BinaryWriter writer,
IDictionary <T1, T2> vals)
{
writer.WriteInt(vals.Count);
foreach (KeyValuePair <T1, T2> pair in vals)
{
writer.Write(pair.Key);
writer.Write(pair.Value);
}
return(writer);
}
/// <summary>
/// Write dictionary.
/// </summary>
/// <param name="writer">Writer.</param>
/// <param name="vals">Values.</param>
protected static void WriteDictionary <T1, T2>(BinaryWriter writer, IEnumerable <KeyValuePair <T1, T2> > vals)
{
var pos = writer.Stream.Position;
writer.WriteInt(0); // Reserve count.
int cnt = 0;
foreach (var pair in vals)
{
writer.Write(pair.Key);
writer.Write(pair.Value);
cnt++;
}
writer.Stream.WriteInt(pos, cnt);
}
private void Marshal(BinaryWriter writer)
{
var pos = writer.Stream.Position;
try
{
if (Error == null)
{
writer.WriteByte((byte)Entry.State);
if (Entry.State == MutableCacheEntryState.ValueSet)
{
writer.Write(Entry.Value);
}
writer.Write(ProcessResult);
}
else
{
writer.WriteByte((byte)MutableCacheEntryState.ErrBinary);
writer.Write(Error);
}
}
catch (Exception marshErr)
{
writer.Stream.Seek(pos, SeekOrigin.Begin);
writer.WriteByte((byte)MutableCacheEntryState.ErrString);
if (Error == null)
{
writer.WriteString(string.Format(CultureInfo.InvariantCulture,
"CacheEntryProcessor completed with error, but result serialization failed [errType={0}, " +
"err={1}, serializationErrMsg={2}]", marshErr.GetType().Name, marshErr, marshErr.Message));
}
else
{
writer.WriteString(string.Format(CultureInfo.InvariantCulture,
"CacheEntryProcessor completed with error, and error serialization failed [errType={0}, " +
"err={1}, serializationErrMsg={2}]", marshErr.GetType().Name, marshErr, marshErr.Message));
}
}
}
/// <summary>
/// Write enumerable.
/// </summary>
/// <param name="writer">Writer.</param>
/// <param name="vals">Values.</param>
/// <param name="selector">A transform function to apply to each element.</param>
/// <returns>The same writer for chaining.</returns>
protected static BinaryWriter WriteEnumerable <T1, T2>(BinaryWriter writer,
IEnumerable <T1> vals, Func <T1, T2> selector)
{
var col = vals as ICollection <T1>;
if (col != null)
{
return(WriteCollection(writer, col, selector));
}
var stream = writer.Stream;
var pos = stream.Position;
stream.Seek(4, SeekOrigin.Current);
var size = 0;
if (selector == null)
{
foreach (var val in vals)
{
writer.Write(val);
size++;
}
}
else
{
foreach (var val in vals)
{
writer.Write(selector(val));
size++;
}
}
stream.WriteInt(pos, size);
return(writer);
}
/// <summary>
/// Write collection.
/// </summary>
/// <param name="writer">Writer.</param>
/// <param name="vals">Values.</param>
/// <param name="selector">A transform function to apply to each element.</param>
/// <returns>The same writer for chaining.</returns>
protected static BinaryWriter WriteCollection <T1, T2>(BinaryWriter writer,
ICollection <T1> vals, Func <T1, T2> selector)
{
writer.WriteInt(vals.Count);
if (selector == null)
{
foreach (var val in vals)
{
writer.Write(val);
}
}
else
{
foreach (var val in vals)
{
writer.Write(selector(val));
}
}
return(writer);
}
/// <summary>
/// Writes this instance to a writer.
/// </summary>
/// <param name="writer">The writer.</param>
internal void Write(BinaryWriter writer)
{
Debug.Assert(writer != null);
// Simple properties
writer.WriteBooleanNullable(_clientMode);
writer.WriteIntArray(IncludedEventTypes == null ? null : IncludedEventTypes.ToArray());
writer.WriteTimeSpanAsLongNullable(_metricsExpireTime);
writer.WriteIntNullable(_metricsHistorySize);
writer.WriteTimeSpanAsLongNullable(_metricsLogFrequency);
writer.WriteTimeSpanAsLongNullable(_metricsUpdateFrequency);
writer.WriteIntNullable(_networkSendRetryCount);
writer.WriteTimeSpanAsLongNullable(_networkSendRetryDelay);
writer.WriteTimeSpanAsLongNullable(_networkTimeout);
writer.WriteString(WorkDirectory);
writer.WriteString(Localhost);
writer.WriteBooleanNullable(_isDaemon);
writer.WriteBooleanNullable(_isLateAffinityAssignment);
writer.WriteTimeSpanAsLongNullable(_failureDetectionTimeout);
// Cache config
var caches = CacheConfiguration;
if (caches == null)
writer.WriteInt(0);
else
{
writer.WriteInt(caches.Count);
foreach (var cache in caches)
cache.Write(writer);
}
// Discovery config
var disco = DiscoverySpi;
if (disco != null)
{
writer.WriteBoolean(true);
var tcpDisco = disco as TcpDiscoverySpi;
if (tcpDisco == null)
throw new InvalidOperationException("Unsupported discovery SPI: " + disco.GetType());
tcpDisco.Write(writer);
}
else
writer.WriteBoolean(false);
// Communication config
var comm = CommunicationSpi;
if (comm != null)
{
writer.WriteBoolean(true);
var tcpComm = comm as TcpCommunicationSpi;
if (tcpComm == null)
throw new InvalidOperationException("Unsupported communication SPI: " + comm.GetType());
tcpComm.Write(writer);
}
else
writer.WriteBoolean(false);
// Binary config
var isCompactFooterSet = BinaryConfiguration != null && BinaryConfiguration.CompactFooterInternal != null;
writer.WriteBoolean(isCompactFooterSet);
if (isCompactFooterSet)
writer.WriteBoolean(BinaryConfiguration.CompactFooter);
// User attributes
var attrs = UserAttributes;
if (attrs == null)
writer.WriteInt(0);
else
{
writer.WriteInt(attrs.Count);
foreach (var pair in attrs)
{
writer.WriteString(pair.Key);
writer.Write(pair.Value);
}
}
// Atomic
if (AtomicConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(AtomicConfiguration.AtomicSequenceReserveSize);
writer.WriteInt(AtomicConfiguration.Backups);
writer.WriteInt((int) AtomicConfiguration.CacheMode);
}
else
writer.WriteBoolean(false);
// Tx
if (TransactionConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(TransactionConfiguration.PessimisticTransactionLogSize);
writer.WriteInt((int) TransactionConfiguration.DefaultTransactionConcurrency);
writer.WriteInt((int) TransactionConfiguration.DefaultTransactionIsolation);
writer.WriteLong((long) TransactionConfiguration.DefaultTimeout.TotalMilliseconds);
writer.WriteInt((int) TransactionConfiguration.PessimisticTransactionLogLinger.TotalMilliseconds);
}
else
writer.WriteBoolean(false);
// Swap space
SwapSpaceSerializer.Write(writer, SwapSpaceSpi);
}
/// <summary>
/// Writes this instance to a writer.
/// </summary>
/// <param name="writer">The writer.</param>
internal void Write(BinaryWriter writer)
{
Debug.Assert(writer != null);
// Simple properties
writer.WriteBooleanNullable(_clientMode);
writer.WriteIntArray(IncludedEventTypes == null ? null : IncludedEventTypes.ToArray());
writer.WriteTimeSpanAsLongNullable(_metricsExpireTime);
writer.WriteIntNullable(_metricsHistorySize);
writer.WriteTimeSpanAsLongNullable(_metricsLogFrequency);
writer.WriteTimeSpanAsLongNullable(_metricsUpdateFrequency);
writer.WriteIntNullable(_networkSendRetryCount);
writer.WriteTimeSpanAsLongNullable(_networkSendRetryDelay);
writer.WriteTimeSpanAsLongNullable(_networkTimeout);
writer.WriteString(WorkDirectory);
writer.WriteString(Localhost);
writer.WriteBooleanNullable(_isDaemon);
writer.WriteBooleanNullable(_isLateAffinityAssignment);
writer.WriteTimeSpanAsLongNullable(_failureDetectionTimeout);
writer.WriteTimeSpanAsLongNullable(_clientFailureDetectionTimeout);
writer.WriteTimeSpanAsLongNullable(_longQueryWarningTimeout);
writer.WriteBooleanNullable(_isActiveOnStart);
// Thread pools
writer.WriteIntNullable(_publicThreadPoolSize);
writer.WriteIntNullable(_stripedThreadPoolSize);
writer.WriteIntNullable(_serviceThreadPoolSize);
writer.WriteIntNullable(_systemThreadPoolSize);
writer.WriteIntNullable(_asyncCallbackThreadPoolSize);
writer.WriteIntNullable(_managementThreadPoolSize);
writer.WriteIntNullable(_dataStreamerThreadPoolSize);
writer.WriteIntNullable(_utilityCacheThreadPoolSize);
writer.WriteIntNullable(_queryThreadPoolSize);
// Cache config
var caches = CacheConfiguration;
if (caches == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(caches.Count);
foreach (var cache in caches)
{
cache.Write(writer);
}
}
// Discovery config
var disco = DiscoverySpi;
if (disco != null)
{
writer.WriteBoolean(true);
var tcpDisco = disco as TcpDiscoverySpi;
if (tcpDisco == null)
{
throw new InvalidOperationException("Unsupported discovery SPI: " + disco.GetType());
}
tcpDisco.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Communication config
var comm = CommunicationSpi;
if (comm != null)
{
writer.WriteBoolean(true);
var tcpComm = comm as TcpCommunicationSpi;
if (tcpComm == null)
{
throw new InvalidOperationException("Unsupported communication SPI: " + comm.GetType());
}
tcpComm.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Binary config
if (BinaryConfiguration != null)
{
writer.WriteBoolean(true);
if (BinaryConfiguration.CompactFooterInternal != null)
{
writer.WriteBoolean(true);
writer.WriteBoolean(BinaryConfiguration.CompactFooter);
}
else
{
writer.WriteBoolean(false);
}
// Name mapper.
var mapper = BinaryConfiguration.NameMapper as BinaryBasicNameMapper;
writer.WriteBoolean(mapper != null && mapper.IsSimpleName);
}
else
{
writer.WriteBoolean(false);
}
// User attributes
var attrs = UserAttributes;
if (attrs == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(attrs.Count);
foreach (var pair in attrs)
{
writer.WriteString(pair.Key);
writer.Write(pair.Value);
}
}
// Atomic
if (AtomicConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(AtomicConfiguration.AtomicSequenceReserveSize);
writer.WriteInt(AtomicConfiguration.Backups);
writer.WriteInt((int)AtomicConfiguration.CacheMode);
}
else
{
writer.WriteBoolean(false);
}
// Tx
if (TransactionConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(TransactionConfiguration.PessimisticTransactionLogSize);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionConcurrency);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionIsolation);
writer.WriteLong((long)TransactionConfiguration.DefaultTimeout.TotalMilliseconds);
writer.WriteInt((int)TransactionConfiguration.PessimisticTransactionLogLinger.TotalMilliseconds);
}
else
{
writer.WriteBoolean(false);
}
// Event storage
if (EventStorageSpi == null)
{
writer.WriteByte(0);
}
else if (EventStorageSpi is NoopEventStorageSpi)
{
writer.WriteByte(1);
}
else
{
var memEventStorage = EventStorageSpi as MemoryEventStorageSpi;
if (memEventStorage == null)
{
throw new IgniteException(string.Format(
"Unsupported IgniteConfiguration.EventStorageSpi: '{0}'. " +
"Supported implementations: '{1}', '{2}'.",
EventStorageSpi.GetType(), typeof(NoopEventStorageSpi), typeof(MemoryEventStorageSpi)));
}
writer.WriteByte(2);
memEventStorage.Write(writer);
}
if (MemoryConfiguration != null)
{
writer.WriteBoolean(true);
MemoryConfiguration.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// SQL
if (SqlConnectorConfiguration != null)
{
writer.WriteBoolean(true);
SqlConnectorConfiguration.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Persistence.
if (PersistentStoreConfiguration != null)
{
writer.WriteBoolean(true);
PersistentStoreConfiguration.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Plugins (should be last)
if (PluginConfigurations != null)
{
var pos = writer.Stream.Position;
writer.WriteInt(0); // reserve count
var cnt = 0;
foreach (var cfg in PluginConfigurations)
{
if (cfg.PluginConfigurationClosureFactoryId != null)
{
writer.WriteInt(cfg.PluginConfigurationClosureFactoryId.Value);
cfg.WriteBinary(writer);
cnt++;
}
}
writer.Stream.WriteInt(pos, cnt);
}
else
{
writer.WriteInt(0);
}
}
/// <summary>
/// Writes this instance to a writer.
/// </summary>
/// <param name="writer">The writer.</param>
internal void Write(BinaryWriter writer)
{
Debug.Assert(writer != null);
// Simple properties
writer.WriteBooleanNullable(_clientMode);
writer.WriteIntArray(IncludedEventTypes == null ? null : IncludedEventTypes.ToArray());
writer.WriteTimeSpanAsLongNullable(_metricsExpireTime);
writer.WriteIntNullable(_metricsHistorySize);
writer.WriteTimeSpanAsLongNullable(_metricsLogFrequency);
writer.WriteTimeSpanAsLongNullable(_metricsUpdateFrequency);
writer.WriteIntNullable(_networkSendRetryCount);
writer.WriteTimeSpanAsLongNullable(_networkSendRetryDelay);
writer.WriteTimeSpanAsLongNullable(_networkTimeout);
writer.WriteString(WorkDirectory);
writer.WriteString(Localhost);
writer.WriteBooleanNullable(_isDaemon);
writer.WriteBooleanNullable(_isLateAffinityAssignment);
writer.WriteTimeSpanAsLongNullable(_failureDetectionTimeout);
// Cache config
var caches = CacheConfiguration;
if (caches == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(caches.Count);
foreach (var cache in caches)
{
cache.Write(writer);
}
}
// Discovery config
var disco = DiscoverySpi;
if (disco != null)
{
writer.WriteBoolean(true);
var tcpDisco = disco as TcpDiscoverySpi;
if (tcpDisco == null)
{
throw new InvalidOperationException("Unsupported discovery SPI: " + disco.GetType());
}
tcpDisco.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Communication config
var comm = CommunicationSpi;
if (comm != null)
{
writer.WriteBoolean(true);
var tcpComm = comm as TcpCommunicationSpi;
if (tcpComm == null)
{
throw new InvalidOperationException("Unsupported communication SPI: " + comm.GetType());
}
tcpComm.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Binary config
if (BinaryConfiguration != null)
{
writer.WriteBoolean(true);
if (BinaryConfiguration.CompactFooterInternal != null)
{
writer.WriteBoolean(true);
writer.WriteBoolean(BinaryConfiguration.CompactFooter);
}
else
{
writer.WriteBoolean(false);
}
// Send only descriptors with non-null EqualityComparer to preserve old behavior where
// remote nodes can have no BinaryConfiguration.
var types = writer.Marshaller.GetUserTypeDescriptors().Where(x => x.EqualityComparer != null).ToList();
writer.WriteInt(types.Count);
foreach (var type in types)
{
writer.WriteString(BinaryUtils.SimpleTypeName(type.TypeName));
writer.WriteBoolean(type.IsEnum);
BinaryEqualityComparerSerializer.Write(writer, type.EqualityComparer);
}
}
else
{
writer.WriteBoolean(false);
}
// User attributes
var attrs = UserAttributes;
if (attrs == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(attrs.Count);
foreach (var pair in attrs)
{
writer.WriteString(pair.Key);
writer.Write(pair.Value);
}
}
// Atomic
if (AtomicConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(AtomicConfiguration.AtomicSequenceReserveSize);
writer.WriteInt(AtomicConfiguration.Backups);
writer.WriteInt((int)AtomicConfiguration.CacheMode);
}
else
{
writer.WriteBoolean(false);
}
// Tx
if (TransactionConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(TransactionConfiguration.PessimisticTransactionLogSize);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionConcurrency);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionIsolation);
writer.WriteLong((long)TransactionConfiguration.DefaultTimeout.TotalMilliseconds);
writer.WriteInt((int)TransactionConfiguration.PessimisticTransactionLogLinger.TotalMilliseconds);
}
else
{
writer.WriteBoolean(false);
}
// Swap space
SwapSpaceSerializer.Write(writer, SwapSpaceSpi);
// Plugins
if (PluginConfigurations != null)
{
var pos = writer.Stream.Position;
writer.WriteInt(0); // reserve count
var cnt = 0;
foreach (var cfg in PluginConfigurations)
{
if (cfg.PluginConfigurationClosureFactoryId != null)
{
writer.WriteInt(cfg.PluginConfigurationClosureFactoryId.Value);
cfg.WriteBinary(writer);
cnt++;
}
}
writer.Stream.WriteInt(pos, cnt);
}
else
{
writer.WriteInt(0);
}
}
/// <summary>
/// Writes this instance to a writer.
/// </summary>
/// <param name="writer">The writer.</param>
internal void Write(BinaryWriter writer)
{
Debug.Assert(writer != null);
// Simple properties
writer.WriteBooleanNullable(_clientMode);
writer.WriteIntArray(IncludedEventTypes == null ? null : IncludedEventTypes.ToArray());
writer.WriteTimeSpanAsLongNullable(_metricsExpireTime);
writer.WriteIntNullable(_metricsHistorySize);
writer.WriteTimeSpanAsLongNullable(_metricsLogFrequency);
writer.WriteTimeSpanAsLongNullable(_metricsUpdateFrequency);
writer.WriteIntNullable(_networkSendRetryCount);
writer.WriteTimeSpanAsLongNullable(_networkSendRetryDelay);
writer.WriteTimeSpanAsLongNullable(_networkTimeout);
writer.WriteString(WorkDirectory);
writer.WriteString(Localhost);
writer.WriteBooleanNullable(_isDaemon);
writer.WriteBooleanNullable(_isLateAffinityAssignment);
// Cache config
var caches = CacheConfiguration;
if (caches == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(caches.Count);
foreach (var cache in caches)
{
cache.Write(writer);
}
}
// Discovery config
var disco = DiscoverySpi;
if (disco != null)
{
writer.WriteBoolean(true);
var tcpDisco = disco as TcpDiscoverySpi;
if (tcpDisco == null)
{
throw new InvalidOperationException("Unsupported discovery SPI: " + disco.GetType());
}
tcpDisco.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Communication config
var comm = CommunicationSpi;
if (comm != null)
{
writer.WriteBoolean(true);
var tcpComm = comm as TcpCommunicationSpi;
if (tcpComm == null)
{
throw new InvalidOperationException("Unsupported communication SPI: " + comm.GetType());
}
tcpComm.Write(writer);
}
else
{
writer.WriteBoolean(false);
}
// Binary config
var isCompactFooterSet = BinaryConfiguration != null && BinaryConfiguration.CompactFooterInternal != null;
writer.WriteBoolean(isCompactFooterSet);
if (isCompactFooterSet)
{
writer.WriteBoolean(BinaryConfiguration.CompactFooter);
}
// User attributes
var attrs = UserAttributes;
if (attrs == null)
{
writer.WriteInt(0);
}
else
{
writer.WriteInt(attrs.Count);
foreach (var pair in attrs)
{
writer.WriteString(pair.Key);
writer.Write(pair.Value);
}
}
// Atomic
if (AtomicConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(AtomicConfiguration.AtomicSequenceReserveSize);
writer.WriteInt(AtomicConfiguration.Backups);
writer.WriteInt((int)AtomicConfiguration.CacheMode);
}
else
{
writer.WriteBoolean(false);
}
// Tx
if (TransactionConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(TransactionConfiguration.PessimisticTransactionLogSize);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionConcurrency);
writer.WriteInt((int)TransactionConfiguration.DefaultTransactionIsolation);
writer.WriteLong((long)TransactionConfiguration.DefaultTimeout.TotalMilliseconds);
writer.WriteLong((int)TransactionConfiguration.PessimisticTransactionLogLinger.TotalMilliseconds);
}
else
{
writer.WriteBoolean(false);
}
}
/// <summary>
/// Writes this instance to a writer.
/// </summary>
/// <param name="writer">The writer.</param>
private void WriteCore(BinaryWriter writer)
{
// Simple properties
writer.WriteBoolean(ClientMode);
writer.WriteIntArray(IncludedEventTypes == null ? null : IncludedEventTypes.ToArray());
writer.WriteLong((long) MetricsExpireTime.TotalMilliseconds);
writer.WriteInt(MetricsHistorySize);
writer.WriteLong((long) MetricsLogFrequency.TotalMilliseconds);
var metricsUpdateFreq = (long) MetricsUpdateFrequency.TotalMilliseconds;
writer.WriteLong(metricsUpdateFreq >= 0 ? metricsUpdateFreq : -1);
writer.WriteInt(NetworkSendRetryCount);
writer.WriteLong((long) NetworkSendRetryDelay.TotalMilliseconds);
writer.WriteLong((long) NetworkTimeout.TotalMilliseconds);
writer.WriteString(WorkDirectory);
writer.WriteString(Localhost);
writer.WriteBoolean(IsDaemon);
// Cache config
var caches = CacheConfiguration;
if (caches == null)
writer.WriteInt(0);
else
{
writer.WriteInt(caches.Count);
foreach (var cache in caches)
cache.Write(writer);
}
// Discovery config
var disco = DiscoverySpi;
if (disco != null)
{
writer.WriteBoolean(true);
var tcpDisco = disco as TcpDiscoverySpi;
if (tcpDisco == null)
throw new InvalidOperationException("Unsupported discovery SPI: " + disco.GetType());
tcpDisco.Write(writer);
}
else
writer.WriteBoolean(false);
// Binary config
var isCompactFooterSet = BinaryConfiguration != null && BinaryConfiguration.CompactFooterInternal != null;
writer.WriteBoolean(isCompactFooterSet);
if (isCompactFooterSet)
writer.WriteBoolean(BinaryConfiguration.CompactFooter);
// User attributes
var attrs = UserAttributes;
if (attrs == null)
writer.WriteInt(0);
else
{
writer.WriteInt(attrs.Count);
foreach (var pair in attrs)
{
writer.WriteString(pair.Key);
writer.Write(pair.Value);
}
}
// Atomic
if (AtomicConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(AtomicConfiguration.AtomicSequenceReserveSize);
writer.WriteInt(AtomicConfiguration.Backups);
writer.WriteInt((int) AtomicConfiguration.CacheMode);
}
else
writer.WriteBoolean(false);
// Tx
if (TransactionConfiguration != null)
{
writer.WriteBoolean(true);
writer.WriteInt(TransactionConfiguration.PessimisticTransactionLogSize);
writer.WriteInt((int) TransactionConfiguration.DefaultTransactionConcurrency);
writer.WriteInt((int) TransactionConfiguration.DefaultTransactionIsolation);
writer.WriteLong((long) TransactionConfiguration.DefaultTimeout.TotalMilliseconds);
writer.WriteLong((int) TransactionConfiguration.PessimisticTransactionLogLinger.TotalMilliseconds);
}
else
writer.WriteBoolean(false);
}
private void Marshal(BinaryWriter writer)
{
var pos = writer.Stream.Position;
try
{
if (Error == null)
{
writer.WriteByte((byte) Entry.State);
if (Entry.State == MutableCacheEntryState.ValueSet)
writer.Write(Entry.Value);
writer.Write(ProcessResult);
}
else
{
writer.WriteByte((byte) MutableCacheEntryState.ErrBinary);
writer.Write(Error);
}
}
catch (Exception marshErr)
{
writer.Stream.Seek(pos, SeekOrigin.Begin);
writer.WriteByte((byte) MutableCacheEntryState.ErrString);
if (Error == null)
{
writer.WriteString(string.Format(CultureInfo.InvariantCulture,
"CacheEntryProcessor completed with error, but result serialization failed [errType={0}, " +
"err={1}, serializationErrMsg={2}]", marshErr.GetType().Name, marshErr, marshErr.Message));
}
else
{
writer.WriteString(string.Format(CultureInfo.InvariantCulture,
"CacheEntryProcessor completed with error, and error serialization failed [errType={0}, " +
"err={1}, serializationErrMsg={2}]", marshErr.GetType().Name, marshErr, marshErr.Message));
}
}
}