unsafe internal LogLogRecord(
SequenceNumber sequenceNumber,
SequenceNumber user,
SequenceNumber previous,
byte *data,
long length)
{
this.sequenceNumber = sequenceNumber;
this.previous = previous;
this.user = user;
if (length < LogLogRecordHeader.Size)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.LogCorrupt());
}
byte[] headerBits = new byte[LogLogRecordHeader.Size];
Marshal.Copy(new IntPtr(data),
headerBits,
0,
LogLogRecordHeader.Size);
LogLogRecordHeader header = new LogLogRecordHeader(headerBits);
if (header.MajorVersion > LogLogRecordHeader.CurrentMajorVersion)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.IncompatibleVersion());
}
length -= LogLogRecordHeader.Size;
data += LogLogRecordHeader.Size;
if (header.Padding)
{
long paddingSize = LogLogRecordHeader.DecodePaddingSize(data, length);
if ((paddingSize < 0) || (paddingSize > length))
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.LogCorrupt());
}
length -= paddingSize;
data += paddingSize;
}
this.stream = new RecordStream(
new UnmanagedMemoryStream(data, length));
}
unsafe internal LogLogRecord(
SequenceNumber sequenceNumber,
SequenceNumber user,
SequenceNumber previous,
byte* data,
long length)
{
this.sequenceNumber = sequenceNumber;
this.previous = previous;
this.user = user;
if (length < LogLogRecordHeader.Size)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.LogCorrupt());
}
byte[] headerBits = new byte[LogLogRecordHeader.Size];
Marshal.Copy(new IntPtr(data),
headerBits,
0,
LogLogRecordHeader.Size);
LogLogRecordHeader header = new LogLogRecordHeader(headerBits);
if (header.MajorVersion > LogLogRecordHeader.CurrentMajorVersion)
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.IncompatibleVersion());
}
length -= LogLogRecordHeader.Size;
data += LogLogRecordHeader.Size;
if (header.Padding)
{
long paddingSize = LogLogRecordHeader.DecodePaddingSize(data, length);
if ((paddingSize < 0) || (paddingSize > length))
{
throw DiagnosticUtility.ExceptionUtility.ThrowHelperError(Error.LogCorrupt());
}
length -= paddingSize;
data += paddingSize;
}
this.stream = new RecordStream(
new UnmanagedMemoryStream(data, length));
}
// Get everything ready to run. Only call this once, unlike Pin.
//
void Prepare()
{
if (this.currentState != State.Unprepared)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Calling Prepare Twice");
}
// Box the result LSN.
//
ulong resultLsn = 0;
this.boxedResultLsn = (object)(resultLsn);
int paddingSize = 0;
if (this.reservationCollection != null)
{
// Determine if we are writing from reservation.
// Get the best matching reservation if so. Allocate padding
// if necessary.
//
if (this.reservations == null)
{
this.reservationSize = this.reservationCollection.GetMatchingReservation(this.totalRecordSize);
if (this.reservationSize < this.totalRecordSize)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Somehow got a smaller reservation");
}
if (this.reservationSize <= 0)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Reservation size must be bigger than zero");
}
paddingSize = checked ((int)(this.reservationSize -
this.totalRecordSize));
}
else
{
// Otherwise, we are making new reservations
// (ReserveAndAppend). The reservations we make
// must be adjusted by the header size.
//
long[] adjustedReservations = new long[this.reservations.Length];
for (int i = 0; i < adjustedReservations.Length; i++)
{
adjustedReservations[i] = (this.reservations[i] +
LogLogRecordHeader.Size);
}
this.reservations = adjustedReservations;
this.alignedReservations = (long[])this.reservations.Clone();
}
}
// Allocate a new LogLogRecordHeader and set it up
// correctly.
//
this.headerBits = new byte[LogLogRecordHeader.Size + paddingSize];
LogLogRecordHeader header = new LogLogRecordHeader(this.headerBits);
header.MajorVersion = LogLogRecordHeader.CurrentMajorVersion;
header.MinorVersion = LogLogRecordHeader.CurrentMinorVersion;
header.Padding = (paddingSize != 0);
if (paddingSize != 0)
{
LogLogRecordHeader.EncodePaddingSize(this.headerBits,
LogLogRecordHeader.Size,
paddingSize);
}
// Translate write flags to CLFS flags.
//
this.flags = 0;
if ((this.recordAppendOptions & RecordAppendOptions.ForceAppend) != 0)
{
this.flags |= Const.CLFS_FLAG_FORCE_APPEND;
}
if ((this.recordAppendOptions & RecordAppendOptions.ForceFlush) != 0)
{
this.flags |= Const.CLFS_FLAG_FORCE_FLUSH;
}
if (this.reservationSize > 0)
{
this.flags |= Const.CLFS_FLAG_USE_RESERVATION;
}
this.currentState = State.Prepared;
}
// Get everything ready to run. Only call this once, unlike Pin.
//
void Prepare()
{
if (this.currentState != State.Unprepared)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Calling Prepare Twice");
}
// Box the result LSN.
//
ulong resultLsn = 0;
this.boxedResultLsn = (object)(resultLsn);
int paddingSize = 0;
if (this.reservationCollection != null)
{
// Determine if we are writing from reservation.
// Get the best matching reservation if so. Allocate padding
// if necessary.
//
if (this.reservations == null)
{
this.reservationSize = this.reservationCollection.GetMatchingReservation(this.totalRecordSize);
if (this.reservationSize < this.totalRecordSize)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Somehow got a smaller reservation");
}
if (this.reservationSize <= 0)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Reservation size must be bigger than zero");
}
paddingSize = checked((int)(this.reservationSize -
this.totalRecordSize));
}
else
{
// Otherwise, we are making new reservations
// (ReserveAndAppend). The reservations we make
// must be adjusted by the header size.
//
long[] adjustedReservations = new long[this.reservations.Length];
for (int i = 0; i < adjustedReservations.Length; i++)
{
adjustedReservations[i] = (this.reservations[i] +
LogLogRecordHeader.Size);
}
this.reservations = adjustedReservations;
this.alignedReservations = (long[])this.reservations.Clone();
}
}
// Allocate a new LogLogRecordHeader and set it up
// correctly.
//
this.headerBits = new byte[LogLogRecordHeader.Size + paddingSize];
LogLogRecordHeader header = new LogLogRecordHeader(this.headerBits);
header.MajorVersion = LogLogRecordHeader.CurrentMajorVersion;
header.MinorVersion = LogLogRecordHeader.CurrentMinorVersion;
header.Padding = (paddingSize != 0);
if (paddingSize != 0)
{
LogLogRecordHeader.EncodePaddingSize(this.headerBits,
LogLogRecordHeader.Size,
paddingSize);
}
// Translate write flags to CLFS flags.
//
this.flags = 0;
if ((this.recordAppendOptions & RecordAppendOptions.ForceAppend) != 0)
{
this.flags |= Const.CLFS_FLAG_FORCE_APPEND;
}
if ((this.recordAppendOptions & RecordAppendOptions.ForceFlush) != 0)
{
this.flags |= Const.CLFS_FLAG_FORCE_FLUSH;
}
if (this.reservationSize > 0)
{
this.flags |= Const.CLFS_FLAG_USE_RESERVATION;
}
this.currentState = State.Prepared;
}
// Get everything ready to run. Only call this once, unlike Pin.
//
void Prepare()
{
if (this.currentState != State.Unprepared)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Calling Prepare Twice");
}
// Box the result LSN.
//
ulong resultLsn = 0;
this.boxedResultLsn = (object)(resultLsn);
// Determine if we are writing from reservation.
// Get the best matching reservation if so. Allocate padding
// if necessary.
//
int paddingSize = 0;
if (this.reservationCollection != null)
{
this.reservationSize = this.reservationCollection.GetMatchingReservation(this.totalRecordSize);
if (this.reservationSize < this.totalRecordSize)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Somehow got a smaller reservation");
}
if (this.reservationSize <= 0)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Reservation size must be bigger than zero");
}
paddingSize = checked ((int)(this.reservationSize -
this.totalRecordSize));
this.flags = Const.CLFS_FLAG_USE_RESERVATION;
}
// Allocate a new LogLogRecordHeader and set it up
// correctly.
//
byte[] headerBytes = new byte[LogLogRecordHeader.Size + paddingSize];
LogLogRecordHeader header = new LogLogRecordHeader(headerBytes);
header.MajorVersion = LogLogRecordHeader.CurrentMajorVersion;
header.MinorVersion = LogLogRecordHeader.CurrentMinorVersion;
header.Padding = (paddingSize != 0);
if (paddingSize != 0)
{
LogLogRecordHeader.EncodePaddingSize(headerBytes,
LogLogRecordHeader.Size,
paddingSize);
}
// Now we write-gather here, since WriteLogRestartArea does
// not support write-gather.
//
// (NOTE: totalRecordSize includes the size of the header,
// for consistency with reservations...)
//
long restartAreaSize = this.totalRecordSize + paddingSize;
this.restartArea = new byte[restartAreaSize];
restartAreaSize = 0;
Array.Copy(header.Bits,
0,
this.restartArea,
restartAreaSize,
header.Bits.Length);
restartAreaSize += header.Bits.Length;
for (int i = 0; i < this.data.Count; i++)
{
ArraySegment <byte> segment = this.data[i];
Array.Copy(segment.Array,
segment.Offset,
this.restartArea,
restartAreaSize,
segment.Count);
restartAreaSize += segment.Count;
}
if (restartAreaSize != this.restartArea.Length)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Did not do restartArea gather correctly");
}
this.currentState = State.Prepared;
}
// Get everything ready to run. Only call this once, unlike Pin.
//
void Prepare()
{
if (this.currentState != State.Unprepared)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Calling Prepare Twice");
}
// Box the result LSN.
//
ulong resultLsn = 0;
this.boxedResultLsn = (object)(resultLsn);
// Determine if we are writing from reservation.
// Get the best matching reservation if so. Allocate padding
// if necessary.
//
int paddingSize = 0;
if (this.reservationCollection != null)
{
this.reservationSize = this.reservationCollection.GetMatchingReservation(this.totalRecordSize);
if (this.reservationSize < this.totalRecordSize)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Somehow got a smaller reservation");
}
if (this.reservationSize <= 0)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Reservation size must be bigger than zero");
}
paddingSize = checked((int)(this.reservationSize -
this.totalRecordSize));
this.flags = Const.CLFS_FLAG_USE_RESERVATION;
}
// Allocate a new LogLogRecordHeader and set it up
// correctly.
//
byte[] headerBytes = new byte[LogLogRecordHeader.Size + paddingSize];
LogLogRecordHeader header = new LogLogRecordHeader(headerBytes);
header.MajorVersion = LogLogRecordHeader.CurrentMajorVersion;
header.MinorVersion = LogLogRecordHeader.CurrentMinorVersion;
header.Padding = (paddingSize != 0);
if (paddingSize != 0)
{
LogLogRecordHeader.EncodePaddingSize(headerBytes,
LogLogRecordHeader.Size,
paddingSize);
}
// Now we write-gather here, since WriteLogRestartArea does
// not support write-gather.
//
// (NOTE: totalRecordSize includes the size of the header,
// for consistency with reservations...)
//
long restartAreaSize = this.totalRecordSize + paddingSize;
this.restartArea = new byte[restartAreaSize];
restartAreaSize = 0;
Array.Copy(header.Bits,
0,
this.restartArea,
restartAreaSize,
header.Bits.Length);
restartAreaSize += header.Bits.Length;
for (int i = 0; i < this.data.Count; i++)
{
ArraySegment<byte> segment = this.data[i];
Array.Copy(segment.Array,
segment.Offset,
this.restartArea,
restartAreaSize,
segment.Count);
restartAreaSize += segment.Count;
}
if (restartAreaSize != this.restartArea.Length)
{
// An internal consistency check has failed. The indicates a bug in IO.Log's internal processing
// Rather than proceeding with non-deterministic execution and risking the loss or corruption of
// log records, we failfast the process.
DiagnosticUtility.FailFast("Did not do restartArea gather correctly");
}
this.currentState = State.Prepared;
}