TdsParserHelperClasses.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / fx / src / Data / System / Data / SqlClient / TdsParserHelperClasses.cs / 1305376 / TdsParserHelperClasses.cs

                            //------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
// [....] 
// [....]
//----------------------------------------------------------------------------- 
 
namespace System.Data.SqlClient {
    using System; 
    using System.Collections.Generic;
    using System.Data;
    using System.Data.Common;
    using System.Data.ProviderBase; 
    using System.Data.Sql;
    using System.Data.SqlTypes; 
    using System.Diagnostics; 
    using System.Reflection;
    using System.Text; 
    using System.Threading;

    using Microsoft.SqlServer.Server;   // for SMI metadata
 
    internal enum CallbackType {
        Read  = 0, 
        Write = 1 
    }
 
    internal enum EncryptionOptions {
        OFF,
        ON,
        NOT_SUP, 
        REQ,
        LOGIN 
    } 

    internal enum PreLoginHandshakeStatus { 
        Successful,
        SphinxFailure,
        InstanceFailure
    } 

    internal enum PreLoginOptions { 
        VERSION, 
        ENCRYPT,
        INSTANCE, 
        THREADID,
        MARS,
        NUMOPT,
        LASTOPT = 255 
    }
 
    internal enum RunBehavior { 
        UntilDone         =  1, // 0001 binary
        ReturnImmediately =  2, // 0010 binary 
        Clean             =  5, // 0101 binary - Clean AND UntilDone
        Attention         = 13  // 1101 binary - Clean AND UntilDone AND Attention
    }
 
    internal enum TdsParserState {
        Closed, 
        OpenNotLoggedIn, 
        OpenLoggedIn,
        Broken, 
    }

    sealed internal class SqlCollation {
        // First 20 bits of info field represent the lcid, bits 21-25 are compare options 
        private const uint IgnoreCase     = 1 << 20; // bit 21 - IgnoreCase
        private const uint IgnoreNonSpace = 1 << 21; // bit 22 - IgnoreNonSpace / IgnoreAccent 
        private const uint IgnoreWidth    = 1 << 22; // bit 23 - IgnoreWidth 
        private const uint IgnoreKanaType = 1 << 23; // bit 24 - IgnoreKanaType
        private const uint BinarySort     = 1 << 24; // bit 25 - BinarySort 

        internal const uint MaskLcid           = 0xfffff;
        private const int LcidVersionBitOffset = 28;
        private const uint MaskLcidVersion     = unchecked((uint)(0xf << LcidVersionBitOffset)); 
        private const uint MaskCompareOpt = IgnoreCase | IgnoreNonSpace | IgnoreWidth | IgnoreKanaType | BinarySort;
 
        internal uint info; 
        internal byte sortId;
 
        static int FirstSupportedCollationVersion(int lcid)
        {
            // NOTE: switch-case works ~3 times faster in this case than search with Dictionary
            switch (lcid) 
            {
                case 1044: return 2; // Norwegian_100_BIN 
                case 1047: return 2; // Romansh_100_BIN 
                case 1056: return 2; // Urdu_100_BIN
                case 1065: return 2; // Persian_100_BIN 
                case 1068: return 2; // Azeri_Latin_100_BIN
                case 1070: return 2; // Upper_Sorbian_100_BIN
                case 1071: return 1; // ----n_FYROM_90_BIN
                case 1081: return 1; // Indic_General_90_BIN 
                case 1082: return 2; // Maltese_100_BIN
                case 1083: return 2; // Sami_Norway_100_BIN 
                case 1087: return 1; // Kazakh_90_BIN 
                case 1090: return 2; // Turkmen_100_BIN
                case 1091: return 1; // Uzbek_Latin_90_BIN 
                case 1092: return 1; // Tatar_90_BIN
                case 1093: return 2; // Bengali_100_BIN
                case 1101: return 2; // Assamese_100_BIN
                case 1105: return 2; // Tibetan_100_BIN 
                case 1106: return 2; // Welsh_100_BIN
                case 1107: return 2; // Khmer_100_BIN 
                case 1108: return 2; // Lao_100_BIN 
                case 1114: return 1; // Syriac_90_BIN
                case 1121: return 2; // Nepali_100_BIN 
                case 1122: return 2; // Frisian_100_BIN
                case 1123: return 2; // Pashto_100_BIN
                case 1125: return 1; // Divehi_90_BIN
                case 1133: return 2; // Bashkir_100_BIN 
                case 1146: return 2; // Mapudungan_100_BIN
                case 1148: return 2; // Mohawk_100_BIN 
                case 1150: return 2; // Breton_100_BIN 
                case 1152: return 2; // Uighur_100_BIN
                case 1153: return 2; // Maori_100_BIN 
                case 1155: return 2; // Corsican_100_BIN
                case 1157: return 2; // Yakut_100_BIN
                case 1164: return 2; // Dari_100_BIN
                case 2074: return 2; // Serbian_Latin_100_BIN 
                case 2092: return 2; // Azeri_Cyrillic_100_BIN
                case 2107: return 2; // Sami_Sweden_Finland_100_BIN 
                case 2143: return 2; // Tamazight_100_BIN 
                case 3076: return 1; // Chinese_Hong_Kong_Stroke_90_BIN
                case 3098: return 2; // Serbian_Cyrillic_100_BIN 
                case 5124: return 2; // Chinese_Traditional_Pinyin_100_BIN
                case 5146: return 2; // Bosnian_Latin_100_BIN
                case 8218: return 2; // Bosnian_Cyrillic_100_BIN
 
                default: return 0;   // other LCIDs have collation with version 0
            } 
        } 

        internal int LCID { 
            // First 20 bits of info field represent the lcid
            get {
                return unchecked((int)(info & MaskLcid));
            } 
            set {
                int lcid = value & (int)MaskLcid; 
                Debug.Assert(lcid == value, "invalid set_LCID value"); 

                // VSTFDEVDIV 479474: some new Katmai LCIDs do not have collation with version = 0 
                // since user has no way to specify collation version, we set the first (minimal) supported version for these collations
                int versionBits = FirstSupportedCollationVersion(lcid) << LcidVersionBitOffset;
                Debug.Assert((versionBits & MaskLcidVersion) == versionBits, "invalid version returned by FirstSupportedCollationVersion");
 
                // combine the current compare options with the new locale ID and its first supported version
                info = (info & MaskCompareOpt) | unchecked((uint)lcid) | unchecked((uint)versionBits); 
            } 
        }
 
        internal SqlCompareOptions SqlCompareOptions {
            get {
                SqlCompareOptions options = SqlCompareOptions.None;
                if (0 != (info & IgnoreCase)) 
                    options |= SqlCompareOptions.IgnoreCase;
                if (0 != (info & IgnoreNonSpace)) 
                    options |= SqlCompareOptions.IgnoreNonSpace; 
                if (0 != (info & IgnoreWidth))
                    options |= SqlCompareOptions.IgnoreWidth; 
                if (0 != (info & IgnoreKanaType))
                    options |= SqlCompareOptions.IgnoreKanaType;
                if (0 != (info & BinarySort))
                    options |= SqlCompareOptions.BinarySort; 
                return options;
            } 
            set { 
                Debug.Assert((value & SqlString.x_iValidSqlCompareOptionMask) == value, "invalid set_SqlCompareOptions value");
                uint tmp = 0; 
                if (0 != (value & SqlCompareOptions.IgnoreCase))
                    tmp |= IgnoreCase;
                if (0 != (value & SqlCompareOptions.IgnoreNonSpace))
                    tmp |= IgnoreNonSpace; 
                if (0 != (value & SqlCompareOptions.IgnoreWidth))
                    tmp |= IgnoreWidth; 
                if (0 != (value & SqlCompareOptions.IgnoreKanaType)) 
                    tmp |= IgnoreKanaType;
                if (0 != (value & SqlCompareOptions.BinarySort)) 
                    tmp |= BinarySort;
                info = (info & MaskLcid) | tmp;
            }
        } 

        internal string TraceString() { 
            return String.Format(/*IFormatProvider*/ null, "(LCID={0}, Opts={1})", this.LCID, (int)this.SqlCompareOptions); 
        }
    } 

    sealed internal class SqlEnvChange {
        internal byte         type;
        internal byte         oldLength; 
        internal int          newLength; // 7206 TDS changes makes this length an int
        internal int          length; 
        internal string       newValue; 
        internal string       oldValue;
        internal byte[]       newBinValue; 
        internal byte[]       oldBinValue;
        internal long         newLongValue;
        internal long         oldLongValue;
        internal SqlCollation newCollation; 
        internal SqlCollation oldCollation;
    } 
 
    sealed internal class SqlLogin {
        internal int timeout;                                                       // login timeout 
        internal bool   userInstance     = false;                                   // user instance
        internal string hostName         = "";                                      // client machine name
        internal string userName         = "";                                      // user id
        internal string password         = "";                                      // password 
        internal string applicationName  = "";                                      // application name
        internal string serverName       = "";                                      // server name 
        internal string language         = "";                                      // initial language 
        internal string database         = "";                                      // initial database
        internal string attachDBFilename = "";                                      // DB filename to be attached 
        internal string newPassword      = "";                                      // new password for reset password
        internal bool   useReplication   = false;                                   // user login for replication
        internal bool   useSSPI          = false;                                   // use integrated security
        internal int    packetSize       = SqlConnectionString.DEFAULT.Packet_Size; // packet size 
    }
 
    sealed internal class SqlLoginAck { 
        internal string programName;
        internal byte   majorVersion; 
        internal byte   minorVersion;
        internal short  buildNum;
        internal bool   isVersion8;
    } 

    sealed internal class _SqlMetaData : SqlMetaDataPriv { 
 
        internal string             column;
        internal string             baseColumn; 
        internal MultiPartTableName multiPartTableName;
        internal readonly int       ordinal;
        internal byte               updatability;     // two bit field (0 is read only, 1 is updatable, 2 is updatability unknown)
        internal byte               tableNum; 
        internal bool               isDifferentName;
        internal bool               isKey; 
        internal bool               isHidden; 
        internal bool               isExpression;
        internal bool               isIdentity; 
        internal bool               isColumnSet;
        internal byte               op;       // for altrow-columns only
        internal ushort             operand;  // for altrow-columns only
 
        internal _SqlMetaData(int ordinal) : base() {
            this.ordinal = ordinal; 
        } 

        internal string serverName { 
            get {
                return multiPartTableName.ServerName;
            }
        } 
        internal string catalogName {
            get { 
                return multiPartTableName.CatalogName; 
            }
        } 
        internal string schemaName {
            get {
                return multiPartTableName.SchemaName;
            } 
        }
        internal string tableName { 
            get { 
                return multiPartTableName.TableName;
            } 
        }

        internal bool IsNewKatmaiDateTimeType {
            get { 
                return SqlDbType.Date == type || SqlDbType.Time == type || SqlDbType.DateTime2 == type || SqlDbType.DateTimeOffset == type;
            } 
        } 

        internal bool IsLargeUdt { 
            get {
                return type == SqlDbType.Udt && length == Int32.MaxValue;
            }
        } 
    }
 
    sealed internal class _SqlMetaDataSet { 
        internal ushort         id;             // for altrow-columns only
        internal int[]          indexMap; 
        internal int            visibleColumns;
        internal DataTable      schemaTable;
        private readonly _SqlMetaData[] metaDataArray;
 
        internal _SqlMetaDataSet(int count) {
            metaDataArray = new _SqlMetaData[count]; 
            for(int i = 0; i < metaDataArray.Length; ++i) { 
                metaDataArray[i] = new _SqlMetaData(i);
            } 
        }

        internal int Length {
            get { 
                return metaDataArray.Length;
            } 
        } 

        internal _SqlMetaData this [int index] { 
            get {
                return metaDataArray[index];
            }
            set { 
                Debug.Assert(null == value, "used only by SqlBulkCopy");
                metaDataArray[index] = value; 
            } 
        }
    } 

    sealed internal class _SqlMetaDataSetCollection {
        private readonly List<_SqlMetaDataSet> altMetaDataSetArray;
        internal _SqlMetaDataSet metaDataSet; 

        internal _SqlMetaDataSetCollection () { 
            altMetaDataSetArray = new List<_SqlMetaDataSet>(); 
        }
 
        internal void SetAltMetaData(_SqlMetaDataSet altMetaDataSet) {
            // VSTFDEVDIV 479675: if altmetadata with same id is found, override it rather than adding a new one
            int newId = altMetaDataSet.id;
            for (int i = 0; i < altMetaDataSetArray.Count; i++) { 
                if (altMetaDataSetArray[i].id == newId) {
                    // override the existing metadata with the same id 
                    altMetaDataSetArray[i] = altMetaDataSet; 
                    return;
                } 
            }

            // if we did not find metadata to override, add as new
            altMetaDataSetArray.Add(altMetaDataSet); 
        }
 
        internal _SqlMetaDataSet GetAltMetaData(int id) { 
            foreach (_SqlMetaDataSet altMetaDataSet in altMetaDataSetArray) {
                if (altMetaDataSet.id == id) { 
                    return altMetaDataSet;
                }
            }
            Debug.Assert (false, "Can't match up altMetaDataSet with given id"); 
            return null;
        } 
    } 

    internal class SqlMetaDataPriv { 
        internal SqlDbType    type;    // SqlDbType enum value
        internal byte         tdsType; // underlying tds type
        internal byte         precision = TdsEnums.UNKNOWN_PRECISION_SCALE; // give default of unknown (-1)
        internal byte         scale     = TdsEnums.UNKNOWN_PRECISION_SCALE; // give default of unknown (-1) 
        internal int          length;
        internal SqlCollation collation; 
        internal int          codePage; 
        internal Encoding     encoding;
        internal bool         isNullable; 
        internal bool         isMultiValued = false;

        // UDT specific metadata
        // server metadata info 
        // additional temporary UDT meta data
        internal string                 udtDatabaseName; 
        internal string                 udtSchemaName; 
        internal string                 udtTypeName;
        internal string                 udtAssemblyQualifiedName; 
        // on demand
        internal Type                   udtType;

        // Xml specific metadata 
        internal string       xmlSchemaCollectionDatabase;
        internal string       xmlSchemaCollectionOwningSchema; 
        internal string       xmlSchemaCollectionName; 
        internal MetaType     metaType; // cached metaType
 
        // Structured type-specific metadata
        internal string                 structuredTypeDatabaseName;
        internal string                 structuredTypeSchemaName;
        internal string                 structuredTypeName; 
        internal IList     structuredFields;
 
        internal SqlMetaDataPriv() { 
        }
    } 

    sealed internal class _SqlRPC {
        internal string         rpcName;
        internal string         databaseName; // Used for UDTs 
        internal ushort         ProcID;       // Used instead of name
        internal ushort         options; 
        internal SqlParameter[] parameters; 
        internal byte[]         paramoptions;
 
        internal int?           recordsAffected;
        internal int            cumulativeRecordsAffected;

        internal int            errorsIndexStart; 
        internal int            errorsIndexEnd;
        internal SqlErrorCollection errors; 
 
        internal int            warningsIndexStart;
        internal int            warningsIndexEnd; 
        internal SqlErrorCollection warnings;
    }

    sealed internal class SqlReturnValue : SqlMetaDataPriv { 

        internal ushort    parmIndex;      //Yukon or later only 
        internal string    parameter; 
        internal readonly  SqlBuffer value;
 
        internal SqlReturnValue() : base() {
            value = new SqlBuffer();
        }
    } 

    internal struct MultiPartTableName { 
        private string _multipartName; 
        private string _serverName;
        private string _catalogName; 
        private string _schemaName;
        private string _tableName;

        internal MultiPartTableName(string[] parts) { 
            _multipartName = null;
            _serverName = parts[0]; 
            _catalogName = parts[1]; 
            _schemaName = parts[2];
            _tableName = parts[3]; 
        }

        internal MultiPartTableName(string multipartName) {
            _multipartName = multipartName; 
            _serverName = null;
            _catalogName = null; 
            _schemaName = null; 
            _tableName = null;
        } 

        internal string ServerName {
            get {
                ParseMultipartName(); 
                return _serverName;
            } 
            set { _serverName = value; } 
        }
        internal string CatalogName { 
            get {
                ParseMultipartName();
                return _catalogName;
            } 
            set { _catalogName = value; }
        } 
        internal string SchemaName { 
            get {
                ParseMultipartName(); 
                return _schemaName;
            }
            set { _schemaName = value; }
        } 
        internal string TableName {
            get { 
                ParseMultipartName(); 
                return _tableName;
            } 
            set { _tableName = value; }
        }

        private void ParseMultipartName() { 
            if (null != _multipartName) {
                string[] parts = MultipartIdentifier.ParseMultipartIdentifier(_multipartName, "[\"", "]\"", Res.SQL_TDSParserTableName, false); 
                _serverName = parts[0]; 
                _catalogName = parts[1];
                _schemaName = parts[2]; 
                _tableName = parts[3];
                _multipartName = null;
            }
        } 

        internal static readonly MultiPartTableName Null = new MultiPartTableName(new string[] {null, null, null, null}); 
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
//------------------------------------------------------------------------------ 
// 
//     Copyright (c) Microsoft Corporation.  All rights reserved.
// 
// [....] 
// [....]
//----------------------------------------------------------------------------- 
 
namespace System.Data.SqlClient {
    using System; 
    using System.Collections.Generic;
    using System.Data;
    using System.Data.Common;
    using System.Data.ProviderBase; 
    using System.Data.Sql;
    using System.Data.SqlTypes; 
    using System.Diagnostics; 
    using System.Reflection;
    using System.Text; 
    using System.Threading;

    using Microsoft.SqlServer.Server;   // for SMI metadata
 
    internal enum CallbackType {
        Read  = 0, 
        Write = 1 
    }
 
    internal enum EncryptionOptions {
        OFF,
        ON,
        NOT_SUP, 
        REQ,
        LOGIN 
    } 

    internal enum PreLoginHandshakeStatus { 
        Successful,
        SphinxFailure,
        InstanceFailure
    } 

    internal enum PreLoginOptions { 
        VERSION, 
        ENCRYPT,
        INSTANCE, 
        THREADID,
        MARS,
        NUMOPT,
        LASTOPT = 255 
    }
 
    internal enum RunBehavior { 
        UntilDone         =  1, // 0001 binary
        ReturnImmediately =  2, // 0010 binary 
        Clean             =  5, // 0101 binary - Clean AND UntilDone
        Attention         = 13  // 1101 binary - Clean AND UntilDone AND Attention
    }
 
    internal enum TdsParserState {
        Closed, 
        OpenNotLoggedIn, 
        OpenLoggedIn,
        Broken, 
    }

    sealed internal class SqlCollation {
        // First 20 bits of info field represent the lcid, bits 21-25 are compare options 
        private const uint IgnoreCase     = 1 << 20; // bit 21 - IgnoreCase
        private const uint IgnoreNonSpace = 1 << 21; // bit 22 - IgnoreNonSpace / IgnoreAccent 
        private const uint IgnoreWidth    = 1 << 22; // bit 23 - IgnoreWidth 
        private const uint IgnoreKanaType = 1 << 23; // bit 24 - IgnoreKanaType
        private const uint BinarySort     = 1 << 24; // bit 25 - BinarySort 

        internal const uint MaskLcid           = 0xfffff;
        private const int LcidVersionBitOffset = 28;
        private const uint MaskLcidVersion     = unchecked((uint)(0xf << LcidVersionBitOffset)); 
        private const uint MaskCompareOpt = IgnoreCase | IgnoreNonSpace | IgnoreWidth | IgnoreKanaType | BinarySort;
 
        internal uint info; 
        internal byte sortId;
 
        static int FirstSupportedCollationVersion(int lcid)
        {
            // NOTE: switch-case works ~3 times faster in this case than search with Dictionary
            switch (lcid) 
            {
                case 1044: return 2; // Norwegian_100_BIN 
                case 1047: return 2; // Romansh_100_BIN 
                case 1056: return 2; // Urdu_100_BIN
                case 1065: return 2; // Persian_100_BIN 
                case 1068: return 2; // Azeri_Latin_100_BIN
                case 1070: return 2; // Upper_Sorbian_100_BIN
                case 1071: return 1; // ----n_FYROM_90_BIN
                case 1081: return 1; // Indic_General_90_BIN 
                case 1082: return 2; // Maltese_100_BIN
                case 1083: return 2; // Sami_Norway_100_BIN 
                case 1087: return 1; // Kazakh_90_BIN 
                case 1090: return 2; // Turkmen_100_BIN
                case 1091: return 1; // Uzbek_Latin_90_BIN 
                case 1092: return 1; // Tatar_90_BIN
                case 1093: return 2; // Bengali_100_BIN
                case 1101: return 2; // Assamese_100_BIN
                case 1105: return 2; // Tibetan_100_BIN 
                case 1106: return 2; // Welsh_100_BIN
                case 1107: return 2; // Khmer_100_BIN 
                case 1108: return 2; // Lao_100_BIN 
                case 1114: return 1; // Syriac_90_BIN
                case 1121: return 2; // Nepali_100_BIN 
                case 1122: return 2; // Frisian_100_BIN
                case 1123: return 2; // Pashto_100_BIN
                case 1125: return 1; // Divehi_90_BIN
                case 1133: return 2; // Bashkir_100_BIN 
                case 1146: return 2; // Mapudungan_100_BIN
                case 1148: return 2; // Mohawk_100_BIN 
                case 1150: return 2; // Breton_100_BIN 
                case 1152: return 2; // Uighur_100_BIN
                case 1153: return 2; // Maori_100_BIN 
                case 1155: return 2; // Corsican_100_BIN
                case 1157: return 2; // Yakut_100_BIN
                case 1164: return 2; // Dari_100_BIN
                case 2074: return 2; // Serbian_Latin_100_BIN 
                case 2092: return 2; // Azeri_Cyrillic_100_BIN
                case 2107: return 2; // Sami_Sweden_Finland_100_BIN 
                case 2143: return 2; // Tamazight_100_BIN 
                case 3076: return 1; // Chinese_Hong_Kong_Stroke_90_BIN
                case 3098: return 2; // Serbian_Cyrillic_100_BIN 
                case 5124: return 2; // Chinese_Traditional_Pinyin_100_BIN
                case 5146: return 2; // Bosnian_Latin_100_BIN
                case 8218: return 2; // Bosnian_Cyrillic_100_BIN
 
                default: return 0;   // other LCIDs have collation with version 0
            } 
        } 

        internal int LCID { 
            // First 20 bits of info field represent the lcid
            get {
                return unchecked((int)(info & MaskLcid));
            } 
            set {
                int lcid = value & (int)MaskLcid; 
                Debug.Assert(lcid == value, "invalid set_LCID value"); 

                // VSTFDEVDIV 479474: some new Katmai LCIDs do not have collation with version = 0 
                // since user has no way to specify collation version, we set the first (minimal) supported version for these collations
                int versionBits = FirstSupportedCollationVersion(lcid) << LcidVersionBitOffset;
                Debug.Assert((versionBits & MaskLcidVersion) == versionBits, "invalid version returned by FirstSupportedCollationVersion");
 
                // combine the current compare options with the new locale ID and its first supported version
                info = (info & MaskCompareOpt) | unchecked((uint)lcid) | unchecked((uint)versionBits); 
            } 
        }
 
        internal SqlCompareOptions SqlCompareOptions {
            get {
                SqlCompareOptions options = SqlCompareOptions.None;
                if (0 != (info & IgnoreCase)) 
                    options |= SqlCompareOptions.IgnoreCase;
                if (0 != (info & IgnoreNonSpace)) 
                    options |= SqlCompareOptions.IgnoreNonSpace; 
                if (0 != (info & IgnoreWidth))
                    options |= SqlCompareOptions.IgnoreWidth; 
                if (0 != (info & IgnoreKanaType))
                    options |= SqlCompareOptions.IgnoreKanaType;
                if (0 != (info & BinarySort))
                    options |= SqlCompareOptions.BinarySort; 
                return options;
            } 
            set { 
                Debug.Assert((value & SqlString.x_iValidSqlCompareOptionMask) == value, "invalid set_SqlCompareOptions value");
                uint tmp = 0; 
                if (0 != (value & SqlCompareOptions.IgnoreCase))
                    tmp |= IgnoreCase;
                if (0 != (value & SqlCompareOptions.IgnoreNonSpace))
                    tmp |= IgnoreNonSpace; 
                if (0 != (value & SqlCompareOptions.IgnoreWidth))
                    tmp |= IgnoreWidth; 
                if (0 != (value & SqlCompareOptions.IgnoreKanaType)) 
                    tmp |= IgnoreKanaType;
                if (0 != (value & SqlCompareOptions.BinarySort)) 
                    tmp |= BinarySort;
                info = (info & MaskLcid) | tmp;
            }
        } 

        internal string TraceString() { 
            return String.Format(/*IFormatProvider*/ null, "(LCID={0}, Opts={1})", this.LCID, (int)this.SqlCompareOptions); 
        }
    } 

    sealed internal class SqlEnvChange {
        internal byte         type;
        internal byte         oldLength; 
        internal int          newLength; // 7206 TDS changes makes this length an int
        internal int          length; 
        internal string       newValue; 
        internal string       oldValue;
        internal byte[]       newBinValue; 
        internal byte[]       oldBinValue;
        internal long         newLongValue;
        internal long         oldLongValue;
        internal SqlCollation newCollation; 
        internal SqlCollation oldCollation;
    } 
 
    sealed internal class SqlLogin {
        internal int timeout;                                                       // login timeout 
        internal bool   userInstance     = false;                                   // user instance
        internal string hostName         = "";                                      // client machine name
        internal string userName         = "";                                      // user id
        internal string password         = "";                                      // password 
        internal string applicationName  = "";                                      // application name
        internal string serverName       = "";                                      // server name 
        internal string language         = "";                                      // initial language 
        internal string database         = "";                                      // initial database
        internal string attachDBFilename = "";                                      // DB filename to be attached 
        internal string newPassword      = "";                                      // new password for reset password
        internal bool   useReplication   = false;                                   // user login for replication
        internal bool   useSSPI          = false;                                   // use integrated security
        internal int    packetSize       = SqlConnectionString.DEFAULT.Packet_Size; // packet size 
    }
 
    sealed internal class SqlLoginAck { 
        internal string programName;
        internal byte   majorVersion; 
        internal byte   minorVersion;
        internal short  buildNum;
        internal bool   isVersion8;
    } 

    sealed internal class _SqlMetaData : SqlMetaDataPriv { 
 
        internal string             column;
        internal string             baseColumn; 
        internal MultiPartTableName multiPartTableName;
        internal readonly int       ordinal;
        internal byte               updatability;     // two bit field (0 is read only, 1 is updatable, 2 is updatability unknown)
        internal byte               tableNum; 
        internal bool               isDifferentName;
        internal bool               isKey; 
        internal bool               isHidden; 
        internal bool               isExpression;
        internal bool               isIdentity; 
        internal bool               isColumnSet;
        internal byte               op;       // for altrow-columns only
        internal ushort             operand;  // for altrow-columns only
 
        internal _SqlMetaData(int ordinal) : base() {
            this.ordinal = ordinal; 
        } 

        internal string serverName { 
            get {
                return multiPartTableName.ServerName;
            }
        } 
        internal string catalogName {
            get { 
                return multiPartTableName.CatalogName; 
            }
        } 
        internal string schemaName {
            get {
                return multiPartTableName.SchemaName;
            } 
        }
        internal string tableName { 
            get { 
                return multiPartTableName.TableName;
            } 
        }

        internal bool IsNewKatmaiDateTimeType {
            get { 
                return SqlDbType.Date == type || SqlDbType.Time == type || SqlDbType.DateTime2 == type || SqlDbType.DateTimeOffset == type;
            } 
        } 

        internal bool IsLargeUdt { 
            get {
                return type == SqlDbType.Udt && length == Int32.MaxValue;
            }
        } 
    }
 
    sealed internal class _SqlMetaDataSet { 
        internal ushort         id;             // for altrow-columns only
        internal int[]          indexMap; 
        internal int            visibleColumns;
        internal DataTable      schemaTable;
        private readonly _SqlMetaData[] metaDataArray;
 
        internal _SqlMetaDataSet(int count) {
            metaDataArray = new _SqlMetaData[count]; 
            for(int i = 0; i < metaDataArray.Length; ++i) { 
                metaDataArray[i] = new _SqlMetaData(i);
            } 
        }

        internal int Length {
            get { 
                return metaDataArray.Length;
            } 
        } 

        internal _SqlMetaData this [int index] { 
            get {
                return metaDataArray[index];
            }
            set { 
                Debug.Assert(null == value, "used only by SqlBulkCopy");
                metaDataArray[index] = value; 
            } 
        }
    } 

    sealed internal class _SqlMetaDataSetCollection {
        private readonly List<_SqlMetaDataSet> altMetaDataSetArray;
        internal _SqlMetaDataSet metaDataSet; 

        internal _SqlMetaDataSetCollection () { 
            altMetaDataSetArray = new List<_SqlMetaDataSet>(); 
        }
 
        internal void SetAltMetaData(_SqlMetaDataSet altMetaDataSet) {
            // VSTFDEVDIV 479675: if altmetadata with same id is found, override it rather than adding a new one
            int newId = altMetaDataSet.id;
            for (int i = 0; i < altMetaDataSetArray.Count; i++) { 
                if (altMetaDataSetArray[i].id == newId) {
                    // override the existing metadata with the same id 
                    altMetaDataSetArray[i] = altMetaDataSet; 
                    return;
                } 
            }

            // if we did not find metadata to override, add as new
            altMetaDataSetArray.Add(altMetaDataSet); 
        }
 
        internal _SqlMetaDataSet GetAltMetaData(int id) { 
            foreach (_SqlMetaDataSet altMetaDataSet in altMetaDataSetArray) {
                if (altMetaDataSet.id == id) { 
                    return altMetaDataSet;
                }
            }
            Debug.Assert (false, "Can't match up altMetaDataSet with given id"); 
            return null;
        } 
    } 

    internal class SqlMetaDataPriv { 
        internal SqlDbType    type;    // SqlDbType enum value
        internal byte         tdsType; // underlying tds type
        internal byte         precision = TdsEnums.UNKNOWN_PRECISION_SCALE; // give default of unknown (-1)
        internal byte         scale     = TdsEnums.UNKNOWN_PRECISION_SCALE; // give default of unknown (-1) 
        internal int          length;
        internal SqlCollation collation; 
        internal int          codePage; 
        internal Encoding     encoding;
        internal bool         isNullable; 
        internal bool         isMultiValued = false;

        // UDT specific metadata
        // server metadata info 
        // additional temporary UDT meta data
        internal string                 udtDatabaseName; 
        internal string                 udtSchemaName; 
        internal string                 udtTypeName;
        internal string                 udtAssemblyQualifiedName; 
        // on demand
        internal Type                   udtType;

        // Xml specific metadata 
        internal string       xmlSchemaCollectionDatabase;
        internal string       xmlSchemaCollectionOwningSchema; 
        internal string       xmlSchemaCollectionName; 
        internal MetaType     metaType; // cached metaType
 
        // Structured type-specific metadata
        internal string                 structuredTypeDatabaseName;
        internal string                 structuredTypeSchemaName;
        internal string                 structuredTypeName; 
        internal IList     structuredFields;
 
        internal SqlMetaDataPriv() { 
        }
    } 

    sealed internal class _SqlRPC {
        internal string         rpcName;
        internal string         databaseName; // Used for UDTs 
        internal ushort         ProcID;       // Used instead of name
        internal ushort         options; 
        internal SqlParameter[] parameters; 
        internal byte[]         paramoptions;
 
        internal int?           recordsAffected;
        internal int            cumulativeRecordsAffected;

        internal int            errorsIndexStart; 
        internal int            errorsIndexEnd;
        internal SqlErrorCollection errors; 
 
        internal int            warningsIndexStart;
        internal int            warningsIndexEnd; 
        internal SqlErrorCollection warnings;
    }

    sealed internal class SqlReturnValue : SqlMetaDataPriv { 

        internal ushort    parmIndex;      //Yukon or later only 
        internal string    parameter; 
        internal readonly  SqlBuffer value;
 
        internal SqlReturnValue() : base() {
            value = new SqlBuffer();
        }
    } 

    internal struct MultiPartTableName { 
        private string _multipartName; 
        private string _serverName;
        private string _catalogName; 
        private string _schemaName;
        private string _tableName;

        internal MultiPartTableName(string[] parts) { 
            _multipartName = null;
            _serverName = parts[0]; 
            _catalogName = parts[1]; 
            _schemaName = parts[2];
            _tableName = parts[3]; 
        }

        internal MultiPartTableName(string multipartName) {
            _multipartName = multipartName; 
            _serverName = null;
            _catalogName = null; 
            _schemaName = null; 
            _tableName = null;
        } 

        internal string ServerName {
            get {
                ParseMultipartName(); 
                return _serverName;
            } 
            set { _serverName = value; } 
        }
        internal string CatalogName { 
            get {
                ParseMultipartName();
                return _catalogName;
            } 
            set { _catalogName = value; }
        } 
        internal string SchemaName { 
            get {
                ParseMultipartName(); 
                return _schemaName;
            }
            set { _schemaName = value; }
        } 
        internal string TableName {
            get { 
                ParseMultipartName(); 
                return _tableName;
            } 
            set { _tableName = value; }
        }

        private void ParseMultipartName() { 
            if (null != _multipartName) {
                string[] parts = MultipartIdentifier.ParseMultipartIdentifier(_multipartName, "[\"", "]\"", Res.SQL_TDSParserTableName, false); 
                _serverName = parts[0]; 
                _catalogName = parts[1];
                _schemaName = parts[2]; 
                _tableName = parts[3];
                _multipartName = null;
            }
        } 

        internal static readonly MultiPartTableName Null = new MultiPartTableName(new string[] {null, null, null, null}); 
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

Link Menu

Network programming in C#, Network Programming in VB.NET, Network Programming in .NET
This book is available now!
Buy at Amazon US or
Buy at Amazon UK