LogRecordSequence Clase
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Representa una secuencia de registro almacenada en un LogStore.
public ref class LogRecordSequence sealed : IDisposable, System::IO::Log::IRecordSequence
public sealed class LogRecordSequence : IDisposable, System.IO.Log.IRecordSequence
type LogRecordSequence = class
interface IRecordSequence
interface IDisposable
Public NotInheritable Class LogRecordSequence
Implements IDisposable, IRecordSequence
- Herencia
-
LogRecordSequence
- Implementaciones
Ejemplos
En este ejemplo se muestra cómo utilizar la clase LogRecordSequence.
using System;
using System.IO;
using System.Collections.Generic;
using System.Text;
using System.IO.Log;
namespace MyLogRecordSequence
{
public class MyLog
{
string logName = "test.log";
string logContainer = "MyExtent0";
int containerSize = 32 * 1024;
LogRecordSequence sequence = null;
bool delete = true;
// These are used in the TailPinned event handler.
public static LogRecordSequence MySequence = null;
public static bool AdvanceBase = true;
public MyLog()
{
// Create a LogRecordSequence.
sequence = new LogRecordSequence(this.logName,
FileMode.CreateNew,
FileAccess.ReadWrite,
FileShare.None);
// At least one container/extent must be added for Log Record Sequence.
sequence.LogStore.Extents.Add(this.logContainer, this.containerSize);
MySequence = sequence;
}
public void AddExtents()
{
// Add two additional extents. The extents are
// of the same size as the first extent.
sequence.LogStore.Extents.Add("MyExtent1");
sequence.LogStore.Extents.Add("MyExtent2");
}
public void EnumerateExtents()
{
LogStore store = sequence.LogStore;
Console.WriteLine("Enumerating Log Extents...");
Console.WriteLine(" Extent Count: {0} extents", store.Extents.Count);
Console.WriteLine(" Extents Are...");
foreach (LogExtent extent in store.Extents)
{
Console.WriteLine(" {0} ({1}, {2})",
Path.GetFileName(extent.Path),
extent.Size,
extent.State);
}
Console.WriteLine(" Free Extents: {0} Free", store.Extents.FreeCount);
}
public void SetLogPolicy()
{
Console.WriteLine();
Console.WriteLine("Setting current log policy...");
// SET LOG POLICY
LogPolicy policy = sequence.LogStore.Policy;
// Set AutoGrow policy. This enables the log to automatically grow
// when the existing extents are full. New extents are added until
// we reach the MaximumExtentCount extents.
// AutoGrow policy is supported only in Windows Vista and not available in R2.
//policy.AutoGrow = true;
// Set the Growth Rate in terms of extents. This policy specifies
// "how much" the log should grow.
policy.GrowthRate = new PolicyUnit(2, PolicyUnitType.Extents);
// Set the AutoShrink policy. This enables the log to automatically
// shrink if the available free space exceeds the shrink percentage.
// AutoGrow/shrink policy is supported only in Windows Vista and not available in R2.
//policy.AutoShrinkPercentage = new PolicyUnit(30, PolicyUnitType.Percentage);
// Set the PinnedTailThreshold policy.
// A tail pinned event is triggered when there is no
// log space available and log space may be freed by advancing the base.
// The user must handle the tail pinned event by advancing the base of the log.
// If the user is not able to move the base of the log, the user should report with exception in
// the tail pinned handler.
// PinnedTailThreashold policy dictates the amount of space that the TailPinned event requests
// for advancing the base of the log. The amount of space can be in percentage or in terms of bytes
// which is rounded off to the nearest containers in CLFS. The default is 35 percent.
policy.PinnedTailThreshold = new PolicyUnit(10, PolicyUnitType.Percentage);
// Set the maximum extents the log can have.
policy.MaximumExtentCount = 6;
// Set the minimum extents the log can have.
policy.MinimumExtentCount = 2;
// Set the prefix for new containers that are added.
// when AutoGrow is enabled.
//policy.NewExtentPrefix = "MyLogPrefix";
// Set the suffix number for new containers that are added.
// when AutoGrow is enabled.
policy.NextExtentSuffix = 3;
// Commit the log policy.
policy.Commit();
// Refresh updates the IO.Log policy properties with current log policy
// set in the log.
policy.Refresh();
// LOG POLICY END
//
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
// Setting up IO.Log provided capabilities...
//
// SET RETRY APPEND
// IO.Log provides a mechanism similar to AutoGrow.
// If the existing log is full and an append fails, setting RetryAppend
// invokes the CLFS policy engine to add new extents and re-tries
// record appends. If MaximumExtent count has been reached,
// a SequenceFullException is thrown.
//
sequence.RetryAppend = true;
// RETRY APPEND END
// REGISTER FOR TAILPINNED EVENT NOTIFICATIONS
// Register for TailPinned Event by passing in an event handler.
// An event is raised when the log full condition is reached.
// The user should either advance the base sequence number to the
// nearest valid sequence number recommended in the tail pinned event or
// report a failure that it is not able to advance the base sequence
// number.
//
sequence.TailPinned += new EventHandler<TailPinnedEventArgs>(HandleTailPinned);
Console.WriteLine("Done...");
}
public void ShowLogPolicy()
{
Console.WriteLine();
Console.WriteLine("Showing current log policy...");
LogPolicy policy = sequence.LogStore.Policy;
Console.WriteLine(" Minimum extent count: {0}", policy.MinimumExtentCount);
Console.WriteLine(" Maximum extent count: {0}", policy.MaximumExtentCount);
Console.WriteLine(" Growth rate: {0}", policy.GrowthRate);
Console.WriteLine(" Pinned tail threshold: {0}", policy.PinnedTailThreshold);
Console.WriteLine(" Auto shrink percent: {0}", policy.AutoShrinkPercentage);
Console.WriteLine(" Auto grow enabled: {0}", policy.AutoGrow);
Console.WriteLine(" New extent prefix: {0}", policy.NewExtentPrefix);
Console.WriteLine(" Next extent suffix: {0}", policy.NextExtentSuffix);
}
// Append records. Appending three records.
public void AppendRecords()
{
Console.WriteLine("Appending Log Records...");
SequenceNumber previous = SequenceNumber.Invalid;
previous = sequence.Append(CreateData("Hello World!"), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush);
previous = sequence.Append(CreateData("This is my first Logging App"), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush);
previous = sequence.Append(CreateData("Using LogRecordSequence..."), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush);
Console.WriteLine("Done...");
}
// Read the records added to the log.
public void ReadRecords()
{
Encoding enc = Encoding.Unicode;
Console.WriteLine();
Console.WriteLine("Reading Log Records...");
try
{
foreach (LogRecord record in this.sequence.ReadLogRecords(this.sequence.BaseSequenceNumber, LogRecordEnumeratorType.Next))
{
byte[] data = new byte[record.Data.Length];
record.Data.Read(data, 0, (int)record.Data.Length);
string mystr = enc.GetString(data);
Console.WriteLine(" {0}", mystr);
}
}
catch (Exception e)
{
Console.WriteLine("Exception {0} {1}", e.GetType(), e.Message);
}
Console.WriteLine();
}
public void FillLog()
{
bool append = true;
while (append)
{
try
{
sequence.Append(CreateData(16 * 1024), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush);
}
catch (SequenceFullException)
{
Console.WriteLine("Log is Full...");
append = false;
}
}
}
// Dispose the record sequence and delete the log file.
public void Cleanup()
{
// Dispose the sequence
sequence.Dispose();
// Delete the log file.
if (delete)
{
try
{
// This deletes the base log file and all the extents associated with the log.
LogStore.Delete(this.logName);
}
catch (Exception e)
{
Console.WriteLine("Exception {0} {1}", e.GetType(), e.Message);
}
}
}
// Converts the given data to an Array of ArraySegment<byte>
public static IList<ArraySegment<byte>> CreateData(string str)
{
Encoding enc = Encoding.Unicode;
byte[] array = enc.GetBytes(str);
ArraySegment<byte>[] segments = new ArraySegment<byte>[1];
segments[0] = new ArraySegment<byte>(array);
return Array.AsReadOnly<ArraySegment<byte>>(segments);
}
public static IList<ArraySegment<byte>> CreateData(int size)
{
byte[] array = new byte[size];
Random rnd = new Random();
rnd.NextBytes(array);
ArraySegment<byte>[] segments = new ArraySegment<byte>[1];
segments[0] = new ArraySegment<byte>(array);
return Array.AsReadOnly<ArraySegment<byte>>(segments);
}
public static SequenceNumber GetAdvanceBaseSeqNumber(SequenceNumber recTargetSeqNum)
{
SequenceNumber targetSequenceNumber = SequenceNumber.Invalid;
Console.WriteLine("Getting actual target sequence number...");
//
// Implement the logic for returning a valid sequence number closer to
// recommended target sequence number.
//
return targetSequenceNumber;
}
public static void HandleTailPinned(object arg, TailPinnedEventArgs tailPinnedEventArgs)
{
Console.WriteLine("TailPinned has fired");
// Based on the implementation of a logging application, the log base can be moved
// to free up more log space and if it is not possible to move the
// base, the application should report by throwing an exception.
if(MyLog.AdvanceBase)
{
try
{
// TailPnnedEventArgs has the recommended sequence number and its generated
// based on PinnedTailThreshold policy.
// This does not map to an actual sequence number in the record sequence
// but an approximation and potentially frees up the threshold % log space
// when the log base is advanced to a valid sequence number closer to the
// recommended sequence number.
// The user should use this sequence number to locate a closest valid sequence
// number to advance the base of the log.
SequenceNumber recommendedTargetSeqNum = tailPinnedEventArgs.TargetSequenceNumber;
// Get the actual Target sequence number.
SequenceNumber actualTargetSeqNum = MyLog.GetAdvanceBaseSeqNumber(recommendedTargetSeqNum);
MySequence.AdvanceBaseSequenceNumber(actualTargetSeqNum);
}
catch (Exception e)
{
Console.WriteLine("Exception thrown {0} {1}", e.GetType(), e.Message);
}
}
else
{
// Report back Error if under some conditions the log cannot
// advance the base sequence number.
Console.WriteLine("Reporting Error! Unable to move the base sequence number!");
throw new IOException();
}
}
}
class LogSample
{
static void Main(string[] args)
{
// Create log record sequence.
MyLog log = new MyLog();
// Add additional extents.
log.AddExtents();
// Enumerate the current log extents.
log.EnumerateExtents();
// Set log policies and register for TailPinned event notifications.
log.SetLogPolicy();
log.ShowLogPolicy();
// Append a few records and read the appended records.
log.AppendRecords();
log.ReadRecords();
// Fill the Log to trigger log growth...and subsequent TailPinned notifications.
log.FillLog();
log.EnumerateExtents();
log.Cleanup();
}
}
}
Imports System.IO
Imports System.Collections.Generic
Imports System.Text
Imports System.IO.Log
Namespace MyLogRecordSequence
Public Class MyLog
Private logName As String = "test.log"
Private logContainer As String = "MyExtent0"
Private containerSize As Integer = 32 * 1024
Private sequence As LogRecordSequence = Nothing
Private delete As Boolean = True
' These are used in the TailPinned event handler.
Public Shared MySequence As LogRecordSequence = Nothing
Public Shared AdvanceBase As Boolean = True
Public Sub New()
' Create a LogRecordSequence.
sequence = New LogRecordSequence(Me.logName, FileMode.CreateNew, FileAccess.ReadWrite, FileShare.None)
' At least one container/extent must be added for Log Record Sequence.
sequence.LogStore.Extents.Add(Me.logContainer, Me.containerSize)
MySequence = sequence
End Sub
Public Sub AddExtents()
' Add two additional extents. The extents are
' of the same size as the first extent.
sequence.LogStore.Extents.Add("MyExtent1")
sequence.LogStore.Extents.Add("MyExtent2")
End Sub
Public Sub EnumerateExtents()
Dim store As LogStore = sequence.LogStore
Console.WriteLine("Enumerating Log Extents...")
Console.WriteLine(" Extent Count: {0} extents", store.Extents.Count)
Console.WriteLine(" Extents Are...")
For Each extent In store.Extents
Console.WriteLine(" {0} ({1}, {2})", Path.GetFileName(extent.Path), extent.Size, extent.State)
Next extent
Console.WriteLine(" Free Extents: {0} Free", store.Extents.FreeCount)
End Sub
Public Sub SetLogPolicy()
Console.WriteLine()
Console.WriteLine("Setting current log policy...")
' SET LOG POLICY
Dim policy As LogPolicy = sequence.LogStore.Policy
' Set AutoGrow policy. This enables the log to automatically grow
' when the existing extents are full. New extents are added until
' we reach the MaximumExtentCount extents.
' AutoGrow policy is supported only in Windows Vista and not available in R2.
'policy.AutoGrow = true;
' Set the Growth Rate in terms of extents. This policy specifies
' "how much" the log should grow.
policy.GrowthRate = New PolicyUnit(2, PolicyUnitType.Extents)
' Set the AutoShrink policy. This enables the log to automatically
' shrink if the available free space exceeds the shrink percentage.
' AutoGrow/shrink policy is supported only in Windows Vista and not available in R2.
'policy.AutoShrinkPercentage = new PolicyUnit(30, PolicyUnitType.Percentage);
' Set the PinnedTailThreshold policy.
' A tail pinned event is triggered when there is no
' log space available and log space may be freed by advancing the base.
' The user must handle the tail pinned event by advancing the base of the log.
' If the user is not able to move the base of the log, the user should report with exception in
' the tail pinned handler.
' PinnedTailThreashold policy dictates the amount of space that the TailPinned event requests
' for advancing the base of the log. The amount of space can be in percentage or in terms of bytes
' which is rounded off to the nearest containers in CLFS. The default is 35 percent.
policy.PinnedTailThreshold = New PolicyUnit(10, PolicyUnitType.Percentage)
' Set the maximum extents the log can have.
policy.MaximumExtentCount = 6
' Set the minimum extents the log can have.
policy.MinimumExtentCount = 2
' Set the prefix for new containers that are added.
' when AutoGrow is enabled.
'policy.NewExtentPrefix = "MyLogPrefix";
' Set the suffix number for new containers that are added.
' when AutoGrow is enabled.
policy.NextExtentSuffix = 3
' Commit the log policy.
policy.Commit()
' Refresh updates the IO.Log policy properties with current log policy
' set in the log.
policy.Refresh()
' LOG POLICY END
'
'+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
' Setting up IO.Log provided capabilities...
'
' SET RETRY APPEND
' IO.Log provides a mechanism similar to AutoGrow.
' If the existing log is full and an append fails, setting RetryAppend
' invokes the CLFS policy engine to add new extents and re-tries
' record appends. If MaximumExtent count has been reached,
' a SequenceFullException is thrown.
'
sequence.RetryAppend = True
' RETRY APPEND END
' REGISTER FOR TAILPINNED EVENT NOTIFICATIONS
' Register for TailPinned Event by passing in an event handler.
' An event is raised when the log full condition is reached.
' The user should either advance the base sequence number to the
' nearest valid sequence number recommended in the tail pinned event or
' report a failure that it is not able to advance the base sequence
' number.
'
AddHandler sequence.TailPinned, AddressOf HandleTailPinned
Console.WriteLine("Done...")
End Sub
Public Sub ShowLogPolicy()
Console.WriteLine()
Console.WriteLine("Showing current log policy...")
Dim policy As LogPolicy = sequence.LogStore.Policy
Console.WriteLine(" Minimum extent count: {0}", policy.MinimumExtentCount)
Console.WriteLine(" Maximum extent count: {0}", policy.MaximumExtentCount)
Console.WriteLine(" Growth rate: {0}", policy.GrowthRate)
Console.WriteLine(" Pinned tail threshold: {0}", policy.PinnedTailThreshold)
Console.WriteLine(" Auto shrink percent: {0}", policy.AutoShrinkPercentage)
Console.WriteLine(" Auto grow enabled: {0}", policy.AutoGrow)
Console.WriteLine(" New extent prefix: {0}", policy.NewExtentPrefix)
Console.WriteLine(" Next extent suffix: {0}", policy.NextExtentSuffix)
End Sub
' Append records. Appending three records.
Public Sub AppendRecords()
Console.WriteLine("Appending Log Records...")
Dim previous As SequenceNumber = SequenceNumber.Invalid
previous = sequence.Append(CreateData("Hello World!"), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush)
previous = sequence.Append(CreateData("This is my first Logging App"), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush)
previous = sequence.Append(CreateData("Using LogRecordSequence..."), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush)
Console.WriteLine("Done...")
End Sub
' Read the records added to the log.
Public Sub ReadRecords()
Dim enc As Encoding = Encoding.Unicode
Console.WriteLine()
Console.WriteLine("Reading Log Records...")
Try
For Each record As LogRecord In Me.sequence.ReadLogRecords(Me.sequence.BaseSequenceNumber, LogRecordEnumeratorType.Next)
Dim data(record.Data.Length - 1) As Byte
record.Data.Read(data, 0, CInt(Fix(record.Data.Length)))
Dim mystr As String = enc.GetString(data)
Console.WriteLine(" {0}", mystr)
Next record
Catch e As Exception
Console.WriteLine("Exception {0} {1}", e.GetType(), e.Message)
End Try
Console.WriteLine()
End Sub
Public Sub FillLog()
Dim append As Boolean = True
Do While append
Try
sequence.Append(CreateData(16 * 1024), SequenceNumber.Invalid, SequenceNumber.Invalid, RecordAppendOptions.ForceFlush)
Catch e1 As SequenceFullException
Console.WriteLine("Log is Full...")
append = False
End Try
Loop
End Sub
' Dispose the record sequence and delete the log file.
Public Sub Cleanup()
' Dispose the sequence
sequence.Dispose()
' Delete the log file.
If delete Then
Try
' This deletes the base log file and all the extents associated with the log.
LogStore.Delete(Me.logName)
Catch e As Exception
Console.WriteLine("Exception {0} {1}", e.GetType(), e.Message)
End Try
End If
End Sub
' Converts the given data to an Array of ArraySegment<byte>
Public Shared Function CreateData(ByVal str As String) As IList(Of ArraySegment(Of Byte))
Dim enc As Encoding = Encoding.Unicode
Dim array() As Byte = enc.GetBytes(str)
Dim segments(0) As ArraySegment(Of Byte)
segments(0) = New ArraySegment(Of Byte)(array)
Return System.Array.AsReadOnly(Of ArraySegment(Of Byte))(segments)
End Function
Public Shared Function CreateData(ByVal size As Integer) As IList(Of ArraySegment(Of Byte))
Dim array(size - 1) As Byte
Dim rand As New Random()
rand.NextBytes(array)
Dim segments(0) As ArraySegment(Of Byte)
segments(0) = New ArraySegment(Of Byte)(array)
Return System.Array.AsReadOnly(Of ArraySegment(Of Byte))(segments)
End Function
Public Shared Function GetAdvanceBaseSeqNumber(ByVal recTargetSeqNum As SequenceNumber) As SequenceNumber
Dim targetSequenceNumber As SequenceNumber = SequenceNumber.Invalid
Console.WriteLine("Getting actual target sequence number...")
'
' Implement the logic for returning a valid sequence number closer to
' recommended target sequence number.
'
Return targetSequenceNumber
End Function
Public Shared Sub HandleTailPinned(ByVal arg As Object, ByVal tailPinnedEventArgs As TailPinnedEventArgs)
Console.WriteLine("TailPinned has fired")
' Based on the implementation of a logging application, the log base can be moved
' to free up more log space and if it is not possible to move the
' base, the application should report by throwing an exception.
If MyLog.AdvanceBase Then
Try
' TailPnnedEventArgs has the recommended sequence number and its generated
' based on PinnedTailThreshold policy.
' This does not map to an actual sequence number in the record sequence
' but an approximation and potentially frees up the threshold % log space
' when the log base is advanced to a valid sequence number closer to the
' recommended sequence number.
' The user should use this sequence number to locate a closest valid sequence
' number to advance the base of the log.
Dim recommendedTargetSeqNum As SequenceNumber = tailPinnedEventArgs.TargetSequenceNumber
' Get the actual Target sequence number.
Dim actualTargetSeqNum As SequenceNumber = MyLog.GetAdvanceBaseSeqNumber(recommendedTargetSeqNum)
MySequence.AdvanceBaseSequenceNumber(actualTargetSeqNum)
Catch e As Exception
Console.WriteLine("Exception thrown {0} {1}", e.GetType(), e.Message)
End Try
Else
' Report back Error if under some conditions the log cannot
' advance the base sequence number.
Console.WriteLine("Reporting Error! Unable to move the base sequence number!")
Throw New IOException()
End If
End Sub
End Class
Friend Class LogSample
Shared Sub Main(ByVal args() As String)
' Create log record sequence.
Dim log As New MyLog()
' Add additional extents.
log.AddExtents()
' Enumerate the current log extents.
log.EnumerateExtents()
' Set log policies and register for TailPinned event notifications.
log.SetLogPolicy()
log.ShowLogPolicy()
' Append a few records and read the appended records.
log.AppendRecords()
log.ReadRecords()
' Fill the Log to trigger log growth...and subsequent TailPinned notifications.
log.FillLog()
log.EnumerateExtents()
log.Cleanup()
End Sub
End Class
End Namespace
Comentarios
La clase LogRecordSequence proporciona una implementación de la interfaz de secuencia de registro encima de un registro de Sistema de Registro Archivo Común (CLFS). Además de las características orientadas a registro estándares, proporciona un modelo de directiva para evitar las condiciones registro completo y multiplexar los clientes en el mismo archivo físico. Funciona con la clase LogStore, que proporciona una interfaz para manipular directamente y administrar un archivo de registro de CLFS. La relación entre la clase LogStore y la clase LogRecordSequence es similar a la relación entre un archivo de disco y un objeto FileStream. El archivo de disco proporciona el almacenamiento concreto y tiene atributos como longitud y último tiempo de acceso, mientras que el objeto FileStream proporciona una vista en el archivo que se puede utilizar para leer de él y para escribir en él. De igual forma, la clase LogStore tiene atributos como una directiva y una colección de extensiones de disco; y la clase LogRecordSequence proporciona un mecanismo orientado al registro para la lectura y escritura de datos.
Constructores
LogRecordSequence(LogStore) |
Inicializa una nueva instancia de la clase LogRecordSequence con el almacén de registros especificado. |
LogRecordSequence(LogStore, Int32, Int32) |
Inicializa una nueva instancia de la clase LogRecordSequence con el almacén de registros, el tamaño de búfer para cada registro y el número de búfer especificados. |
LogRecordSequence(String, FileMode) |
Inicializa una nueva instancia de la clase LogRecordSequence con una ruta de acceso especificada al almacén de registros y el modo de acceso. |
LogRecordSequence(String, FileMode, FileAccess) |
Inicializa una nueva instancia de la clase LogRecordSequence con una ruta de acceso especificada al almacén de registros los modos de acceso y de recurso compartido. |
LogRecordSequence(String, FileMode, FileAccess, FileShare) |
Inicializa una nueva instancia de la clase LogRecordSequence con una ruta de acceso especificada al almacén de registros y el modo de acceso. |
LogRecordSequence(String, FileMode, FileAccess, FileShare, Int32, Int32) |
Inicializa una nueva instancia de la clase LogRecordSequence con una ruta de acceso especificada al almacén del registro, permiso de archivo, modos de acceso y de recursos compartidos, así como el tamaño y número de búferes de los registros. |
LogRecordSequence(String, FileMode, FileAccess, FileShare, Int32, Int32, FileSecurity) |
Inicializa una nueva instancia de la clase LogRecordSequence. |
Propiedades
BaseSequenceNumber |
Obtiene el número de secuencia del primer registro válido en la LogRecordSequence actual. |
LastSequenceNumber |
Obtiene el número de secuencia que es mayor que el último registro anexado. |
LogStore |
Obtiene el LogStore que contiene los datos de esta secuencia de registro. Este método no se puede heredar. |
MaximumRecordLength |
Obtiene el tamaño máximo de un registro que se puede agregar a esta secuencia de registro. |
ReservedBytes |
Obtiene el número total de bytes que se ha reservado. |
RestartSequenceNumber |
Obtiene el número de secuencia del área de reinicio más cercano al final del registro. |
RetryAppend |
Obtiene o establece un valor que indica si los anexos se reintentan automáticamente en caso de que el registro esté completo. |
Métodos
AdvanceBaseSequenceNumber(SequenceNumber) |
Avanza el número de secuencia base del registro. Este método no se puede heredar. |
Append(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions) |
Escribe una entrada de registro en la LogRecordSequence. Este método no se puede heredar. |
Append(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection) |
Anexa una entrada de registro a la IRecordSequence, utilizando el espacio previamente reservado en la secuencia. Este método no se puede heredar. |
Append(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions) |
Anexa una entrada de registro a la IRecordSequence. Este método no se puede heredar. |
Append(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection) |
Anexa una entrada de registro a la IRecordSequence, utilizando el espacio previamente reservado en la secuencia. Este método no se puede heredar. |
BeginAppend(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions, AsyncCallback, Object) |
Comienza una operación de anexado asincrónica. Este método no se puede heredar. |
BeginAppend(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, AsyncCallback, Object) |
Comienza una operación de anexado asincrónica. Este método no se puede heredar. |
BeginAppend(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions, AsyncCallback, Object) |
Comienza una operación de anexado asincrónica. Este método no se puede heredar. |
BeginAppend(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, AsyncCallback, Object) |
Comienza una operación de anexado asincrónica. Este método no se puede heredar. |
BeginFlush(SequenceNumber, AsyncCallback, Object) |
Comienza una operación de vaciado asincrónica, utilizando el espacio previamente reservado en la secuencia. Este método no se puede heredar. |
BeginReserveAndAppend(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, Int64[], AsyncCallback, Object) |
Comienza una reserva asincrónica y una operación de anexado. Este método no se puede heredar. |
BeginReserveAndAppend(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, Int64[], AsyncCallback, Object) |
Comienza una reserva asincrónica y una operación de anexado. Este método no se puede heredar. |
BeginWriteRestartArea(ArraySegment<Byte>, SequenceNumber, ReservationCollection, AsyncCallback, Object) |
Comienza una operación de escritura de área de reinicio asincrónica, utilizando el espacio reservado previamente en la secuencia. Este método no se puede heredar. |
BeginWriteRestartArea(IList<ArraySegment<Byte>>, SequenceNumber, ReservationCollection, AsyncCallback, Object) |
Comienza una operación de escritura de área de reinicio asincrónica, utilizando el espacio reservado previamente en la secuencia. Este método no se puede heredar. |
CreateReservationCollection() |
Crea un nuevo ReservationCollection. Este método no se puede heredar. |
Dispose() |
Libera los recursos utilizados por el componente. |
EndAppend(IAsyncResult) |
Finaliza una operación de anexado asincrónica. Este método no se puede heredar. |
EndFlush(IAsyncResult) |
Finaliza una operación de vaciado asincrónica. Este método no se puede heredar. |
EndReserveAndAppend(IAsyncResult) |
Finaliza una reserva asincrónica y una operación de anexado. Este método no se puede heredar. |
EndWriteRestartArea(IAsyncResult) |
Finaliza una operación de escritura de área de reinicio asincrónica. Este método no se puede heredar. |
Equals(Object) |
Determina si el objeto especificado es igual que el objeto actual. (Heredado de Object) |
Flush() |
Asegúrese de que todos los registros anexados se han escrito. Este método no se puede heredar. |
Flush(SequenceNumber) |
Asegura que todos los registros anexados incluyendo el registro con el número de secuencia especificado se han escrito de manera duradera. Este método no se puede heredar. |
GetHashCode() |
Sirve como la función hash predeterminada. (Heredado de Object) |
GetType() |
Obtiene el Type de la instancia actual. (Heredado de Object) |
MemberwiseClone() |
Crea una copia superficial del Object actual. (Heredado de Object) |
ReadLogRecords(SequenceNumber, LogRecordEnumeratorType) |
Devuelve una colección enumerable de registros en la secuencia. Este método no se puede heredar. |
ReadRestartAreas() |
Devuelve una colección enumerable de las áreas de reinicio de la secuencia. Este método no se puede heredar. |
ReserveAndAppend(ArraySegment<Byte>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, Int64[]) |
Realiza automáticamente una reserva única y anexa un registro a la secuencia. Este método no se puede heredar. |
ReserveAndAppend(IList<ArraySegment<Byte>>, SequenceNumber, SequenceNumber, RecordAppendOptions, ReservationCollection, Int64[]) |
Realiza automáticamente una reserva única y anexa un registro a la secuencia. Este método no se puede heredar. |
SetLastRecord(SequenceNumber) |
Establece el último registro en LogRecordSequence. |
ToString() |
Devuelve una cadena que representa el objeto actual. (Heredado de Object) |
WriteRestartArea(ArraySegment<Byte>) |
Escribe una área de reinicio en LogRecordSequence. Este método no se puede heredar. |
WriteRestartArea(ArraySegment<Byte>, SequenceNumber) |
Escribe un área de reinicio en la LogRecordSequence y actualiza el número de secuencia base. Este método no se puede heredar. |
WriteRestartArea(ArraySegment<Byte>, SequenceNumber, ReservationCollection) |
Escribe un área de reinicio a la LogRecordSequence usando una reserva y actualiza el número de secuencia base. Este método no se puede heredar. |
WriteRestartArea(IList<ArraySegment<Byte>>) |
Escribe una área de reinicio en LogRecordSequence. Este método no se puede heredar. |
WriteRestartArea(IList<ArraySegment<Byte>>, SequenceNumber) |
Escribe un área de reinicio en la LogRecordSequence y actualiza el número de secuencia base. Este método no se puede heredar. |
WriteRestartArea(IList<ArraySegment<Byte>>, SequenceNumber, ReservationCollection) |
Escribe un área de reinicio a la LogRecordSequence usando una reserva y actualiza el número de secuencia base. Este método no se puede heredar. |
Eventos
TailPinned |
Señala la necesidad de mover la cola de la secuencia. |