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TdsValueSetter.cs
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TdsValueSetter.cs
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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
using System;
using System.Buffers.Binary;
using System.Data;
using System.Data.SqlTypes;
using System.Diagnostics;
using System.Text;
using Microsoft.Data.Common;
using Microsoft.Data.SqlClient.Server;
namespace Microsoft.Data.SqlClient
{
// TdsValueSetter handles writing a single value out to a TDS stream
// This class can easily be extended to handle multiple versions of TDS by sub-classing and virtualizing
// methods that have different formats or are not supported in one or the other version.
internal class TdsValueSetter
{
#region Private fields
private TdsParserStateObject _stateObj; // target to write to
private SmiMetaData _metaData; // metadata describing value
private bool _isPlp; // should this column be sent in PLP format?
private bool _plpUnknownSent;// did we send initial UNKNOWN_LENGTH marker?
private Encoder _encoder; // required for chunking character type data
private SmiMetaData _variantType; // required for sql_variant
#if DEBUG
private int _currentOffset; // for chunking, verify that caller is using correct offsets
#endif
#endregion
#region Exposed Construct/factory methods
internal TdsValueSetter(TdsParserStateObject stateObj, SmiMetaData md)
{
_stateObj = stateObj;
_metaData = md;
_isPlp = MetaDataUtilsSmi.IsPlpFormat(md);
_plpUnknownSent = false;
_encoder = null;
#if DEBUG
_currentOffset = 0;
#endif
}
#endregion
#region Setters
// Set value to null
// valid for all types
internal void SetDBNull()
{
Debug.Assert(!_plpUnknownSent, "Setting a column to null that we already stated sending!");
if (_isPlp)
{
_stateObj.Parser.WriteUnsignedLong(TdsEnums.SQL_PLP_NULL, _stateObj);
}
else
{
switch (_metaData.SqlDbType)
{
case SqlDbType.BigInt:
case SqlDbType.Bit:
case SqlDbType.DateTime:
case SqlDbType.Decimal:
case SqlDbType.Float:
case SqlDbType.Int:
case SqlDbType.Money:
case SqlDbType.Real:
case SqlDbType.UniqueIdentifier:
case SqlDbType.SmallDateTime:
case SqlDbType.SmallInt:
case SqlDbType.SmallMoney:
case SqlDbType.TinyInt:
case SqlDbType.Date:
case SqlDbType.Time:
case SqlDbType.DateTime2:
case SqlDbType.DateTimeOffset:
_stateObj.WriteByte(TdsEnums.FIXEDNULL);
break;
case SqlDbType.Binary:
case SqlDbType.Char:
case SqlDbType.Image:
case SqlDbType.NChar:
case SqlDbType.NText:
case SqlDbType.NVarChar:
case SqlDbType.Text:
case SqlDbType.Timestamp:
case SqlDbType.VarBinary:
case SqlDbType.VarChar:
_stateObj.Parser.WriteShort(TdsEnums.VARNULL, _stateObj);
break;
case SqlDbType.Udt:
case SqlDbType.Xml:
Debug.Fail("PLP-only types shouldn't get to this point. Type: " + _metaData.SqlDbType);
break;
case SqlDbType.Variant:
_stateObj.Parser.WriteInt(TdsEnums.FIXEDNULL, _stateObj);
break;
case SqlDbType.Structured:
Debug.Fail("Not yet implemented. Not needed until Structured UDTs");
break;
default:
Debug.Fail("Unexpected SqlDbType: " + _metaData.SqlDbType);
break;
}
}
}
// valid for SqlDbType.Bit
internal void SetBoolean(bool value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetBoolean));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(3, TdsEnums.SQLBIT, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
if (value)
{
_stateObj.WriteByte(1);
}
else
{
_stateObj.WriteByte(0);
}
}
// valid for SqlDbType.TinyInt
internal void SetByte(byte value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetByte));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(3, TdsEnums.SQLINT1, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
_stateObj.WriteByte(value);
}
// Semantics for SetBytes are to modify existing value, not overwrite
// Use in combination with SetLength to ensure overwriting when necessary
// valid for SqlDbTypes: Binary, VarBinary, Image, Udt, Xml
// (VarBinary assumed for variants)
internal int SetBytes(long fieldOffset, byte[] buffer, int bufferOffset, int length)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetBytes));
CheckSettingOffset(fieldOffset);
SetBytesNoOffsetHandling(fieldOffset, buffer, bufferOffset, length);
#if DEBUG
_currentOffset += length;
#endif
return length;
}
private void SetBytesNoOffsetHandling(long fieldOffset, byte[] buffer, int bufferOffset, int length)
{
if (_isPlp)
{
if (!_plpUnknownSent)
{
_stateObj.Parser.WriteUnsignedLong(TdsEnums.SQL_PLP_UNKNOWNLEN, _stateObj);
_plpUnknownSent = true;
}
// Write chunk length & chunk
_stateObj.Parser.WriteInt(length, _stateObj);
_stateObj.WriteByteArray(buffer, length, bufferOffset);
}
else
{
// Non-plp data must be sent in one chunk for now.
#if DEBUG
Debug.Assert(0 == _currentOffset, "SetBytes doesn't yet support chunking for non-plp data: " + _currentOffset);
#endif
Debug.Assert(!MetaType.GetMetaTypeFromSqlDbType(_metaData.SqlDbType, _metaData.IsMultiValued).IsLong,
"We're assuming long length types are sent as PLP. SqlDbType = " + _metaData.SqlDbType);
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(4 + length, TdsEnums.SQLBIGVARBINARY, 2, _stateObj);
}
_stateObj.Parser.WriteShort(length, _stateObj);
_stateObj.WriteByteArray(buffer, length, bufferOffset);
}
}
internal void SetBytesLength(long length)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetBytes));
CheckSettingOffset(length);
if (0 == length)
{
if (_isPlp)
{
Debug.Assert(!_plpUnknownSent, "A plpUnknown has already been sent before setting length to zero.");
_stateObj.Parser.WriteLong(0, _stateObj);
_plpUnknownSent = true;
}
else
{
Debug.Assert(!MetaType.GetMetaTypeFromSqlDbType(_metaData.SqlDbType, _metaData.IsMultiValued).IsLong,
"We're assuming long length types are sent as PLP. SqlDbType = " + _metaData.SqlDbType);
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(4, TdsEnums.SQLBIGVARBINARY, 2, _stateObj);
}
_stateObj.Parser.WriteShort(0, _stateObj);
}
}
if (_plpUnknownSent)
{
_stateObj.Parser.WriteInt(TdsEnums.SQL_PLP_CHUNK_TERMINATOR, _stateObj);
_plpUnknownSent = false;
}
#if DEBUG
_currentOffset = 0;
#endif
}
// Semantics for SetChars are to modify existing value, not overwrite
// Use in combination with SetLength to ensure overwriting when necessary
// valid for character types: Char, VarChar, Text, NChar, NVarChar, NText
// (NVarChar and global clr collation assumed for variants)
internal int SetChars(long fieldOffset, char[] buffer, int bufferOffset, int length)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetChars));
// ANSI types must convert to byte[] because that's the tool we have.
if (MetaDataUtilsSmi.IsAnsiType(_metaData.SqlDbType))
{
if (null == _encoder)
{
_encoder = _stateObj.Parser._defaultEncoding.GetEncoder();
}
byte[] bytes = new byte[_encoder.GetByteCount(buffer, bufferOffset, length, false)];
_encoder.GetBytes(buffer, bufferOffset, length, bytes, 0, false);
SetBytesNoOffsetHandling(fieldOffset, bytes, 0, bytes.Length);
}
else
{
CheckSettingOffset(fieldOffset);
// Send via PLP format if we can.
if (_isPlp)
{
// Handle initial PLP markers
if (!_plpUnknownSent)
{
_stateObj.Parser.WriteUnsignedLong(TdsEnums.SQL_PLP_UNKNOWNLEN, _stateObj);
_plpUnknownSent = true;
}
// Write chunk length
_stateObj.Parser.WriteInt(length * ADP.CharSize, _stateObj);
_stateObj.Parser.WriteCharArray(buffer, length, bufferOffset, _stateObj);
}
else
{
// Non-plp data must be sent in one chunk for now.
#if DEBUG
Debug.Assert(0 == _currentOffset, "SetChars doesn't yet support chunking for non-plp data: " + _currentOffset);
#endif
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantValue(new string(buffer, bufferOffset, length), length, 0, _stateObj);
}
else
{
Debug.Assert(!MetaType.GetMetaTypeFromSqlDbType(_metaData.SqlDbType, _metaData.IsMultiValued).IsLong,
"We're assuming long length types are sent as PLP. SqlDbType = " + _metaData.SqlDbType);
_stateObj.Parser.WriteShort(length * ADP.CharSize, _stateObj);
_stateObj.Parser.WriteCharArray(buffer, length, bufferOffset, _stateObj);
}
}
}
#if DEBUG
_currentOffset += length;
#endif
return length;
}
internal void SetCharsLength(long length)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetChars));
CheckSettingOffset(length);
if (0 == length)
{
if (_isPlp)
{
Debug.Assert(!_plpUnknownSent, "A plpUnknown has already been sent before setting length to zero.");
_stateObj.Parser.WriteLong(0, _stateObj);
_plpUnknownSent = true;
}
else
{
Debug.Assert(!MetaType.GetMetaTypeFromSqlDbType(_metaData.SqlDbType, _metaData.IsMultiValued).IsLong,
"We're assuming long length types are sent as PLP. SqlDbType = " + _metaData.SqlDbType);
_stateObj.Parser.WriteShort(0, _stateObj);
}
}
if (_plpUnknownSent)
{
_stateObj.Parser.WriteInt(TdsEnums.SQL_PLP_CHUNK_TERMINATOR, _stateObj);
_plpUnknownSent = false;
}
_encoder = null;
#if DEBUG
_currentOffset = 0;
#endif
}
// valid for character types: Char, VarChar, Text, NChar, NVarChar, NText
internal void SetString(string value, int offset, int length)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetString));
// ANSI types must convert to byte[] because that's the tool we have.
if (MetaDataUtilsSmi.IsAnsiType(_metaData.SqlDbType))
{
byte[] bytes;
// Optimize for common case of writing entire string
if (offset == 0 && value.Length <= length)
{
bytes = _stateObj.Parser._defaultEncoding.GetBytes(value);
}
else
{
char[] chars = value.ToCharArray(offset, length);
bytes = _stateObj.Parser._defaultEncoding.GetBytes(chars);
}
SetBytes(0, bytes, 0, bytes.Length);
SetBytesLength(bytes.Length);
}
else if (SqlDbType.Variant == _metaData.SqlDbType)
{
Debug.Assert(null != _variantType && SqlDbType.NVarChar == _variantType.SqlDbType, "Invalid variant type");
SqlCollation collation = SqlCollation.FromLCIDAndSort(checked((int)_variantType.LocaleId), _variantType.CompareOptions);
if (length * ADP.CharSize > TdsEnums.TYPE_SIZE_LIMIT)
{ // send as varchar for length greater than 4000
byte[] bytes;
// Optimize for common case of writing entire string
if (offset == 0 && value.Length <= length)
{
bytes = _stateObj.Parser._defaultEncoding.GetBytes(value);
}
else
{
bytes = _stateObj.Parser._defaultEncoding.GetBytes(value.ToCharArray(offset, length));
}
_stateObj.Parser.WriteSqlVariantHeader(9 + bytes.Length, TdsEnums.SQLBIGVARCHAR, 7, _stateObj);
_stateObj.Parser.WriteUnsignedInt(collation._info, _stateObj); // propbytes: collation.Info
_stateObj.WriteByte(collation._sortId); // propbytes: collation.SortId
_stateObj.Parser.WriteShort(bytes.Length, _stateObj); // propbyte: varlen
_stateObj.WriteByteArray(bytes, bytes.Length, 0);
}
else
{
_stateObj.Parser.WriteSqlVariantHeader(9 + length * ADP.CharSize, TdsEnums.SQLNVARCHAR, 7, _stateObj);
_stateObj.Parser.WriteUnsignedInt(collation._info, _stateObj); // propbytes: collation.Info
_stateObj.WriteByte(collation._sortId); // propbytes: collation.SortId
_stateObj.Parser.WriteShort(length * ADP.CharSize, _stateObj); // propbyte: varlen
_stateObj.Parser.WriteString(value, length, offset, _stateObj);
}
_variantType = null;
}
else if (_isPlp)
{
// Send the string as a complete PLP chunk.
_stateObj.Parser.WriteLong(length * ADP.CharSize, _stateObj); // PLP total length
_stateObj.Parser.WriteInt(length * ADP.CharSize, _stateObj); // Chunk length
_stateObj.Parser.WriteString(value, length, offset, _stateObj); // Data
if (length != 0)
{
_stateObj.Parser.WriteInt(TdsEnums.SQL_PLP_CHUNK_TERMINATOR, _stateObj); // Terminator
}
}
else
{
_stateObj.Parser.WriteShort(length * ADP.CharSize, _stateObj);
_stateObj.Parser.WriteString(value, length, offset, _stateObj);
}
}
// valid for SqlDbType.SmallInt
internal void SetInt16(short value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetInt16));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(4, TdsEnums.SQLINT2, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
_stateObj.Parser.WriteShort(value, _stateObj);
}
// valid for SqlDbType.Int
internal void SetInt32(int value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetInt32));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(6, TdsEnums.SQLINT4, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
_stateObj.Parser.WriteInt(value, _stateObj);
}
// valid for SqlDbType.BigInt, SqlDbType.Money, SqlDbType.SmallMoney
internal void SetInt64(long value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetInt64));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
if (null == _variantType)
{
_stateObj.Parser.WriteSqlVariantHeader(10, TdsEnums.SQLINT8, 0, _stateObj);
_stateObj.Parser.WriteLong(value, _stateObj);
}
else
{
Debug.Assert(SqlDbType.Money == _variantType.SqlDbType, "Invalid variant type");
_stateObj.Parser.WriteSqlVariantHeader(10, TdsEnums.SQLMONEY, 0, _stateObj);
_stateObj.Parser.WriteInt((int)(value >> 0x20), _stateObj);
_stateObj.Parser.WriteInt((int)value, _stateObj);
_variantType = null;
}
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
if (SqlDbType.SmallMoney == _metaData.SqlDbType)
{
_stateObj.Parser.WriteInt((int)value, _stateObj);
}
else if (SqlDbType.Money == _metaData.SqlDbType)
{
_stateObj.Parser.WriteInt((int)(value >> 0x20), _stateObj);
_stateObj.Parser.WriteInt((int)value, _stateObj);
}
else
{
_stateObj.Parser.WriteLong(value, _stateObj);
}
}
}
// valid for SqlDbType.Real
internal void SetSingle(float value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetSingle));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(6, TdsEnums.SQLFLT4, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
_stateObj.Parser.WriteFloat(value, _stateObj);
}
// valid for SqlDbType.Float
internal void SetDouble(double value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetDouble));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(10, TdsEnums.SQLFLT8, 0, _stateObj);
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
_stateObj.Parser.WriteDouble(value, _stateObj);
}
// valid for SqlDbType.Numeric (uses SqlDecimal since Decimal cannot hold full range)
internal void SetSqlDecimal(SqlDecimal value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetSqlDecimal));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(21, TdsEnums.SQLNUMERICN, 2, _stateObj);
_stateObj.WriteByte(value.Precision); // propbytes: precision
_stateObj.WriteByte(value.Scale); // propbytes: scale
_stateObj.Parser.WriteSqlDecimal(value, _stateObj);
}
else
{
_stateObj.WriteByte(checked((byte)MetaType.MetaDecimal.FixedLength)); // SmiMetaData's length and actual wire format's length are different
_stateObj.Parser.WriteSqlDecimal(SqlDecimal.ConvertToPrecScale(value, _metaData.Precision, _metaData.Scale), _stateObj);
}
}
// valid for DateTime, SmallDateTime, Date, DateTime2
internal void SetDateTime(DateTime value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetDateTime));
if (SqlDbType.Variant == _metaData.SqlDbType)
{
if ((_variantType != null) && (_variantType.SqlDbType == SqlDbType.DateTime2))
{
_stateObj.Parser.WriteSqlVariantDateTime2(value, _stateObj);
}
else if ((_variantType != null) && (_variantType.SqlDbType == SqlDbType.Date))
{
_stateObj.Parser.WriteSqlVariantDate(value, _stateObj);
}
else
{
TdsDateTime dt = MetaType.FromDateTime(value, 8);
_stateObj.Parser.WriteSqlVariantHeader(10, TdsEnums.SQLDATETIME, 0, _stateObj);
_stateObj.Parser.WriteInt(dt.days, _stateObj);
_stateObj.Parser.WriteInt(dt.time, _stateObj);
}
// Clean the variant metadata to prevent sharing it with next row.
// As a reminder, SetVariantType raises an assert if _variantType is not clean
_variantType = null;
}
else
{
_stateObj.WriteByte((byte)_metaData.MaxLength);
if (SqlDbType.SmallDateTime == _metaData.SqlDbType)
{
TdsDateTime dt = MetaType.FromDateTime(value, (byte)_metaData.MaxLength);
Debug.Assert(0 <= dt.days && dt.days <= ushort.MaxValue, "Invalid DateTime '" + value + "' for SmallDateTime");
_stateObj.Parser.WriteShort(dt.days, _stateObj);
_stateObj.Parser.WriteShort(dt.time, _stateObj);
}
else if (SqlDbType.DateTime == _metaData.SqlDbType)
{
TdsDateTime dt = MetaType.FromDateTime(value, (byte)_metaData.MaxLength);
_stateObj.Parser.WriteInt(dt.days, _stateObj);
_stateObj.Parser.WriteInt(dt.time, _stateObj);
}
else
{ // date and datetime2
int days = value.Subtract(DateTime.MinValue).Days;
if (SqlDbType.DateTime2 == _metaData.SqlDbType)
{
long time = value.TimeOfDay.Ticks / TdsEnums.TICKS_FROM_SCALE[_metaData.Scale];
#if NETCOREAPP
Span<byte> result_time = stackalloc byte[8];
BinaryPrimitives.WriteInt64LittleEndian(result_time, time);
_stateObj.WriteByteSpan(result_time.Slice(0, (int)_metaData.MaxLength - 3));
#else
_stateObj.WriteByteArray(BitConverter.GetBytes(time), (int)_metaData.MaxLength - 3, 0);
#endif
}
#if NETCOREAPP
Span<byte> result_date = stackalloc byte[4];
BinaryPrimitives.WriteInt32LittleEndian(result_date, days);
_stateObj.WriteByteSpan(result_date.Slice(0, 3));
#else
_stateObj.WriteByteArray(BitConverter.GetBytes(days), 3, 0);
#endif
}
}
}
// valid for UniqueIdentifier
internal void SetGuid(Guid value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetGuid));
#if NETCOREAPP
Span<byte> bytes = stackalloc byte[16];
value.TryWriteBytes(bytes);
#else
byte[] bytes = value.ToByteArray();
#endif
Debug.Assert(SmiMetaData.DefaultUniqueIdentifier.MaxLength == bytes.Length, "Invalid length for guid bytes: " + bytes.Length);
if (SqlDbType.Variant == _metaData.SqlDbType)
{
_stateObj.Parser.WriteSqlVariantHeader(18, TdsEnums.SQLUNIQUEID, 0, _stateObj);
}
else
{
Debug.Assert(_metaData.MaxLength == bytes.Length, "Unexpected uniqueid metadata length: " + _metaData.MaxLength);
_stateObj.WriteByte((byte)_metaData.MaxLength);
}
#if NETCOREAPP
_stateObj.WriteByteSpan(bytes);
#else
_stateObj.WriteByteArray(bytes, bytes.Length, 0);
#endif
}
// valid for SqlDbType.Time
internal void SetTimeSpan(TimeSpan value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetTime));
byte scale;
byte length;
if (SqlDbType.Variant == _metaData.SqlDbType)
{
scale = SmiMetaData.DefaultTime.Scale;
length = (byte)SmiMetaData.DefaultTime.MaxLength;
_stateObj.Parser.WriteSqlVariantHeader(8, TdsEnums.SQLTIME, 1, _stateObj);
_stateObj.WriteByte(scale); //propbytes: scale
}
else
{
scale = _metaData.Scale;
length = (byte)_metaData.MaxLength;
_stateObj.WriteByte(length);
}
long time = value.Ticks / TdsEnums.TICKS_FROM_SCALE[scale];
#if NETCOREAPP
Span<byte> result_time = stackalloc byte[8];
BinaryPrimitives.WriteInt64LittleEndian(result_time, time);
_stateObj.WriteByteSpan(result_time.Slice(0, length));
#else
_stateObj.WriteByteArray(BitConverter.GetBytes(time), length, 0);
#endif
}
// valid for DateTimeOffset
internal void SetDateTimeOffset(DateTimeOffset value)
{
Debug.Assert(
SmiXetterAccessMap.IsSetterAccessValid(_metaData, SmiXetterTypeCode.XetDateTimeOffset));
byte scale;
byte length;
if (SqlDbType.Variant == _metaData.SqlDbType)
{
// VSTFDevDiv #885208 - DateTimeOffset throws ArgumentException for when passing DateTimeOffset value to a sql_variant TVP
// using a SqlDataRecord or SqlDataReader
SmiMetaData dateTimeOffsetMetaData = SmiMetaData.DefaultDateTimeOffset;
scale = MetaType.MetaDateTimeOffset.Scale;
length = (byte)dateTimeOffsetMetaData.MaxLength;
_stateObj.Parser.WriteSqlVariantHeader(13, TdsEnums.SQLDATETIMEOFFSET, 1, _stateObj);
_stateObj.WriteByte(scale); //propbytes: scale
}
else
{
scale = _metaData.Scale;
length = (byte)_metaData.MaxLength;
_stateObj.WriteByte(length);
}
DateTime utcDateTime = value.UtcDateTime;
long time = utcDateTime.TimeOfDay.Ticks / TdsEnums.TICKS_FROM_SCALE[scale];
int days = utcDateTime.Subtract(DateTime.MinValue).Days;
short offset = (short)value.Offset.TotalMinutes;
#if NETCOREAPP
// In TDS protocol:
// https://learn.microsoft.com/en-us/openspecs/windows_protocols/ms-tds/786f5b8a-f87d-4980-9070-b9b7274c681d
//
// date is represented as one 3 - byte unsigned integer that represents the number of days since January 1, year 1.
//
// time(n) is represented as one unsigned integer that represents the number of 10^-n,
// (10 to the power of negative n), second increments since 12 AM within a day.
// The length, in bytes, of that integer depends on the scale n as follows:
// 3 bytes if 0 <= n < = 2.
// 4 bytes if 3 <= n < = 4.
// 5 bytes if 5 <= n < = 7.
// For example:
// DateTimeOffset dateTimeOffset = new DateTimeOffset(2024, 1, 1, 23, 59, 59, TimeSpan.Zero); // using scale of 0
// time = 23:59:59, scale is 1, is represented as 863990 in 3 bytes or { 246, 46, 13, 0, 0, 0, 0, 0 } in bytes array
Span<byte> result = stackalloc byte[8];
// https://learn.microsoft.com/en-us/dotnet/api/system.buffers.binary.binaryprimitives.writeint64bigendian?view=net-8.0
// WriteInt64LittleEndian requires 8 bytes to write the value.
BinaryPrimitives.WriteInt64LittleEndian(result, time);
// The DateTimeOffset length is variable depending on the scale, 1 to 7, used.
// If length = 8, 8 - 5 = 3 bytes is used for time.
// If length = 10, 10 - 5 = 5 bytes is used for time.
_stateObj.WriteByteSpan(result.Slice(0, length - 5)); // this writes the time value to the state object using dynamic length based on the scale.
// Date is represented as 3 bytes. So, 3 bytes are written to the state object.
BinaryPrimitives.WriteInt32LittleEndian(result, days);
_stateObj.WriteByteSpan(result.Slice(0, 3));
#else
_stateObj.WriteByteArray(BitConverter.GetBytes(time), length - 5, 0); // time
_stateObj.WriteByteArray(BitConverter.GetBytes(days), 3, 0); // date
#endif
_stateObj.WriteByte((byte)(offset & 0xff)); // offset byte 1
_stateObj.WriteByte((byte)((offset >> 8) & 0xff)); // offset byte 2
}
internal void SetVariantType(SmiMetaData value)
{
Debug.Assert(null == _variantType, "Variant type can only be set once");
Debug.Assert(value != null &&
(value.SqlDbType == SqlDbType.Money ||
value.SqlDbType == SqlDbType.NVarChar ||
value.SqlDbType == SqlDbType.Date ||
value.SqlDbType == SqlDbType.DateTime ||
value.SqlDbType == SqlDbType.DateTime2 ||
value.SqlDbType == SqlDbType.DateTimeOffset ||
value.SqlDbType == SqlDbType.SmallDateTime
), "Invalid variant type");
_variantType = value;
}
#endregion
#region private methods
[Conditional("DEBUG")]
private void CheckSettingOffset(long offset)
{
#if DEBUG
Debug.Assert(offset == _currentOffset, "Invalid offset passed. Should be: " + _currentOffset + ", but was: " + offset);
#endif
}
#endregion
}
}