/////////////////////////////////////////////////////////////////////////////// // Name: src/common/db.cpp // Purpose: Implementation of the wxDb class. The wxDb class represents a connection // to an ODBC data source. The wxDb class allows operations on the data // source such as opening and closing the data source. // Author: Doug Card // Modified by: George Tasker // Bart Jourquin // Mark Johnson, wxWindows@mj10777.de // Mods: Dec, 1998: // -Added support for SQL statement logging and database cataloging // Mods: April, 1999 // -Added QUERY_ONLY mode support to reduce default number of cursors // -Added additional SQL logging code // -Added DEBUG-ONLY tracking of wxTable objects to detect orphaned DB connections // -Set ODBC option to only read committed writes to the DB so all // databases operate the same in that respect // Created: 9.96 // RCS-ID: $Id: db.cpp 52489 2008-03-14 14:14:57Z JS $ // Copyright: (c) 1996 Remstar International, Inc. // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if wxUSE_ODBC #ifndef WX_PRECOMP #include "wx/object.h" #include "wx/list.h" #include "wx/string.h" #include "wx/utils.h" #include "wx/log.h" #include "wx/app.h" #endif #ifdef DBDEBUG_CONSOLE #include "wx/ioswrap.h" #endif #include "wx/filefn.h" #include "wx/wxchar.h" #include #include #include #include #include #include "wx/db.h" // DLL options compatibility check: WX_CHECK_BUILD_OPTIONS("wxODBC") WXDLLIMPEXP_DATA_ODBC(wxDbList*) PtrBegDbList = 0; wxChar const *SQL_LOG_FILENAME = wxT("sqllog.txt"); wxChar const *SQL_CATALOG_FILENAME = wxT("catalog.txt"); #ifdef __WXDEBUG__ #include "wx/thread.h" extern wxList TablesInUse; #if wxUSE_THREADS extern wxCriticalSection csTablesInUse; #endif // wxUSE_THREADS #endif // SQL Log defaults to be used by GetDbConnection wxDbSqlLogState SQLLOGstate = sqlLogOFF; static wxString SQLLOGfn = SQL_LOG_FILENAME; // The wxDb::errorList is copied to this variable when the wxDb object // is closed. This way, the error list is still available after the // database object is closed. This is necessary if the database // connection fails so the calling application can show the operator // why the connection failed. Note: as each wxDb object is closed, it // will overwrite the errors of the previously destroyed wxDb object in // this variable. NOTE: This occurs during a CLOSE, not a FREEing of the // connection wxChar DBerrorList[DB_MAX_ERROR_HISTORY][DB_MAX_ERROR_MSG_LEN+1]; // This type defines the return row-struct form // SQLTablePrivileges, and is used by wxDB::TablePrivileges. typedef struct { wxChar tableQual[128+1]; wxChar tableOwner[128+1]; wxChar tableName[128+1]; wxChar grantor[128+1]; wxChar grantee[128+1]; wxChar privilege[128+1]; wxChar grantable[3+1]; } wxDbTablePrivilegeInfo; /********** wxDbConnectInf Constructor - form 1 **********/ wxDbConnectInf::wxDbConnectInf() { Henv = 0; freeHenvOnDestroy = false; Initialize(); } // Constructor /********** wxDbConnectInf Constructor - form 2 **********/ wxDbConnectInf::wxDbConnectInf(HENV henv, const wxString &dsn, const wxString &userID, const wxString &password, const wxString &defaultDir, const wxString &fileType, const wxString &description) { Henv = 0; freeHenvOnDestroy = false; Initialize(); if (henv) SetHenv(henv); else AllocHenv(); SetDsn(dsn); SetUserID(userID); SetPassword(password); SetDescription(description); SetFileType(fileType); SetDefaultDir(defaultDir); } // wxDbConnectInf Constructor wxDbConnectInf::~wxDbConnectInf() { if (freeHenvOnDestroy) { FreeHenv(); } } // wxDbConnectInf Destructor /********** wxDbConnectInf::Initialize() **********/ bool wxDbConnectInf::Initialize() { freeHenvOnDestroy = false; if (freeHenvOnDestroy && Henv) FreeHenv(); Henv = 0; Dsn[0] = 0; Uid[0] = 0; AuthStr[0] = 0; ConnectionStr[0] = 0; Description.Empty(); FileType.Empty(); DefaultDir.Empty(); useConnectionStr = false; return true; } // wxDbConnectInf::Initialize() /********** wxDbConnectInf::AllocHenv() **********/ bool wxDbConnectInf::AllocHenv() { // This is here to help trap if you are getting a new henv // without releasing an existing henv wxASSERT(!Henv); // Initialize the ODBC Environment for Database Operations if (SQLAllocEnv(&Henv) != SQL_SUCCESS) { wxLogDebug(wxT("A problem occurred while trying to get a connection to the data source")); return false; } freeHenvOnDestroy = true; return true; } // wxDbConnectInf::AllocHenv() void wxDbConnectInf::FreeHenv() { wxASSERT(Henv); if (Henv) SQLFreeEnv(Henv); Henv = 0; freeHenvOnDestroy = false; } // wxDbConnectInf::FreeHenv() void wxDbConnectInf::SetDsn(const wxString &dsn) { wxASSERT(dsn.length() < WXSIZEOF(Dsn)); wxStrncpy(Dsn, dsn, WXSIZEOF(Dsn)-1); Dsn[WXSIZEOF(Dsn)-1] = 0; // Prevent buffer overrun } // wxDbConnectInf::SetDsn() void wxDbConnectInf::SetUserID(const wxString &uid) { wxASSERT(uid.length() < WXSIZEOF(Uid)); wxStrncpy(Uid, uid, WXSIZEOF(Uid)-1); Uid[WXSIZEOF(Uid)-1] = 0; // Prevent buffer overrun } // wxDbConnectInf::SetUserID() void wxDbConnectInf::SetPassword(const wxString &password) { wxASSERT(password.length() < WXSIZEOF(AuthStr)); wxStrncpy(AuthStr, password, WXSIZEOF(AuthStr)-1); AuthStr[WXSIZEOF(AuthStr)-1] = 0; // Prevent buffer overrun } // wxDbConnectInf::SetPassword() void wxDbConnectInf::SetConnectionStr(const wxString &connectStr) { wxASSERT(connectStr.length() < WXSIZEOF(ConnectionStr)); useConnectionStr = wxStrlen(connectStr) > 0; wxStrncpy(ConnectionStr, connectStr, WXSIZEOF(ConnectionStr)-1); ConnectionStr[WXSIZEOF(ConnectionStr)-1] = 0; // Prevent buffer overrun } // wxDbConnectInf::SetConnectionStr() /********** wxDbColFor Constructor **********/ wxDbColFor::wxDbColFor() { Initialize(); } // wxDbColFor::wxDbColFor() /********** wxDbColFor::Initialize() **********/ void wxDbColFor::Initialize() { s_Field.Empty(); int i; for (i=0; i<7; i++) { s_Format[i].Empty(); s_Amount[i].Empty(); i_Amount[i] = 0; } i_Nation = 0; // 0=EU, 1=UK, 2=International, 3=US i_dbDataType = 0; i_sqlDataType = 0; Format(1,DB_DATA_TYPE_VARCHAR,0,0,0); // the Function that does the work } // wxDbColFor::Initialize() /********** wxDbColFor::Format() **********/ int wxDbColFor::Format(int Nation, int dbDataType, SWORD sqlDataType, short columnLength, short decimalDigits) { // ---------------------------------------------------------------------------------------- // -- 19991224 : mj10777 : Create // There is still a lot of work to do here, but it is a start // It handles all the basic data-types that I have run into up to now // The main work will have be with Dates and float Formatting // (US 1,000.00 ; EU 1.000,00) // There are wxWindow plans for locale support and the new wxDateTime. If // they define some constants (wxEUROPEAN) that can be gloably used, // they should be used here. // ---------------------------------------------------------------------------------------- // There should also be a function to scan in a string to fill the variable // ---------------------------------------------------------------------------------------- wxString tempStr; i_Nation = Nation; // 0 = timestamp , 1=EU, 2=UK, 3=International, 4=US i_dbDataType = dbDataType; i_sqlDataType = sqlDataType; s_Field.Printf(wxT("%s%d"),s_Amount[1].c_str(),i_Amount[1]); // OK for VARCHAR, INTEGER and FLOAT if (i_dbDataType == 0) // Filter unsupported dbDataTypes { if ((i_sqlDataType == SQL_VARCHAR) #if wxUSE_UNICODE #if defined(SQL_WCHAR) || (i_sqlDataType == SQL_WCHAR) #endif #if defined(SQL_WVARCHAR) || (i_sqlDataType == SQL_WVARCHAR) #endif #endif || (i_sqlDataType == SQL_LONGVARCHAR)) i_dbDataType = DB_DATA_TYPE_VARCHAR; if ((i_sqlDataType == SQL_C_DATE) || (i_sqlDataType == SQL_C_TIMESTAMP)) i_dbDataType = DB_DATA_TYPE_DATE; if (i_sqlDataType == SQL_C_BIT) i_dbDataType = DB_DATA_TYPE_INTEGER; if (i_sqlDataType == SQL_NUMERIC) i_dbDataType = DB_DATA_TYPE_VARCHAR; // glt - ??? is this right? if (i_sqlDataType == SQL_REAL) i_dbDataType = DB_DATA_TYPE_FLOAT; if (i_sqlDataType == SQL_C_BINARY) i_dbDataType = DB_DATA_TYPE_BLOB; } if ((i_dbDataType == DB_DATA_TYPE_INTEGER) && (i_sqlDataType == SQL_C_DOUBLE)) { // DBASE Numeric i_dbDataType = DB_DATA_TYPE_FLOAT; } switch(i_dbDataType) // TBD: Still a lot of proper formatting to do { case DB_DATA_TYPE_VARCHAR: s_Field = wxT("%s"); break; case DB_DATA_TYPE_INTEGER: s_Field = wxT("%d"); break; case DB_DATA_TYPE_FLOAT: if (decimalDigits == 0) decimalDigits = 2; tempStr.Printf(wxT("%%%d.%d"), columnLength, decimalDigits); s_Field.Printf(wxT("%sf"), tempStr.c_str()); break; case DB_DATA_TYPE_DATE: if (i_Nation == 0) // timestamp YYYY-MM-DD HH:MM:SS.SSS (tested for SYBASE) { s_Field = wxT("%04d-%02d-%02d %02d:%02d:%02d.%03d"); } if (i_Nation == 1) // European DD.MM.YYYY HH:MM:SS.SSS { s_Field = wxT("%02d.%02d.%04d %02d:%02d:%02d.%03d"); } if (i_Nation == 2) // UK DD/MM/YYYY HH:MM:SS.SSS { s_Field = wxT("%02d/%02d/%04d %02d:%02d:%02d.%03d"); } if (i_Nation == 3) // International YYYY-MM-DD HH:MM:SS.SSS { s_Field = wxT("%04d-%02d-%02d %02d:%02d:%02d.%03d"); } if (i_Nation == 4) // US MM/DD/YYYY HH:MM:SS.SSS { s_Field = wxT("%02d/%02d/%04d %02d:%02d:%02d.%03d"); } break; case DB_DATA_TYPE_BLOB: s_Field.Printf(wxT("Unable to format(%d)-SQL(%d)"), dbDataType,sqlDataType); // break; default: s_Field.Printf(wxT("Unknown Format(%d)-SQL(%d)"), dbDataType,sqlDataType); // break; }; return TRUE; } // wxDbColFor::Format() /********** wxDbColInf Constructor **********/ wxDbColInf::wxDbColInf() { Initialize(); } // wxDbColInf::wxDbColInf() /********** wxDbColInf Destructor ********/ wxDbColInf::~wxDbColInf() { if (pColFor) delete pColFor; pColFor = NULL; } // wxDbColInf::~wxDbColInf() bool wxDbColInf::Initialize() { catalog[0] = 0; schema[0] = 0; tableName[0] = 0; colName[0] = 0; sqlDataType = 0; typeName[0] = 0; columnLength = 0; bufferSize = 0; decimalDigits = 0; numPrecRadix = 0; nullable = 0; remarks[0] = 0; dbDataType = 0; PkCol = 0; PkTableName[0] = 0; FkCol = 0; FkTableName[0] = 0; pColFor = NULL; return true; } // wxDbColInf::Initialize() /********** wxDbTableInf Constructor ********/ wxDbTableInf::wxDbTableInf() { Initialize(); } // wxDbTableInf::wxDbTableInf() /********** wxDbTableInf Constructor ********/ wxDbTableInf::~wxDbTableInf() { if (pColInf) delete [] pColInf; pColInf = NULL; } // wxDbTableInf::~wxDbTableInf() bool wxDbTableInf::Initialize() { tableName[0] = 0; tableType[0] = 0; tableRemarks[0] = 0; numCols = 0; pColInf = NULL; return true; } // wxDbTableInf::Initialize() /********** wxDbInf Constructor *************/ wxDbInf::wxDbInf() { Initialize(); } // wxDbInf::wxDbInf() /********** wxDbInf Destructor *************/ wxDbInf::~wxDbInf() { if (pTableInf) delete [] pTableInf; pTableInf = NULL; } // wxDbInf::~wxDbInf() /********** wxDbInf::Initialize() *************/ bool wxDbInf::Initialize() { catalog[0] = 0; schema[0] = 0; numTables = 0; pTableInf = NULL; return true; } // wxDbInf::Initialize() /********** wxDb Constructor **********/ wxDb::wxDb(const HENV &aHenv, bool FwdOnlyCursors) { // Copy the HENV into the db class henv = aHenv; fwdOnlyCursors = FwdOnlyCursors; initialize(); } // wxDb::wxDb() /********** wxDb Destructor **********/ wxDb::~wxDb() { wxASSERT_MSG(!IsCached(),wxT("Cached connections must not be manually deleted, use\nwxDbFreeConnection() or wxDbCloseConnections().")); if (IsOpen()) { Close(); } } // wxDb destructor /********** PRIVATE! wxDb::initialize PRIVATE! **********/ /********** wxDb::initialize() **********/ void wxDb::initialize() /* * Private member function that sets all wxDb member variables to * known values at creation of the wxDb */ { int i; fpSqlLog = 0; // Sql Log file pointer sqlLogState = sqlLogOFF; // By default, logging is turned off nTables = 0; dbmsType = dbmsUNIDENTIFIED; wxStrcpy(sqlState,wxEmptyString); wxStrcpy(errorMsg,wxEmptyString); nativeError = cbErrorMsg = 0; for (i = 0; i < DB_MAX_ERROR_HISTORY; i++) wxStrcpy(errorList[i], wxEmptyString); // Init typeInf structures typeInfVarchar.TypeName.Empty(); typeInfVarchar.FsqlType = 0; typeInfVarchar.Precision = 0; typeInfVarchar.CaseSensitive = 0; typeInfVarchar.MaximumScale = 0; typeInfInteger.TypeName.Empty(); typeInfInteger.FsqlType = 0; typeInfInteger.Precision = 0; typeInfInteger.CaseSensitive = 0; typeInfInteger.MaximumScale = 0; typeInfFloat.TypeName.Empty(); typeInfFloat.FsqlType = 0; typeInfFloat.Precision = 0; typeInfFloat.CaseSensitive = 0; typeInfFloat.MaximumScale = 0; typeInfDate.TypeName.Empty(); typeInfDate.FsqlType = 0; typeInfDate.Precision = 0; typeInfDate.CaseSensitive = 0; typeInfDate.MaximumScale = 0; typeInfBlob.TypeName.Empty(); typeInfBlob.FsqlType = 0; typeInfBlob.Precision = 0; typeInfBlob.CaseSensitive = 0; typeInfBlob.MaximumScale = 0; typeInfMemo.TypeName.Empty(); typeInfMemo.FsqlType = 0; typeInfMemo.Precision = 0; typeInfMemo.CaseSensitive = 0; typeInfMemo.MaximumScale = 0; // Error reporting is turned OFF by default silent = true; // Allocate a data source connection handle if (SQLAllocConnect(henv, &hdbc) != SQL_SUCCESS) DispAllErrors(henv); // Initialize the db status flag DB_STATUS = 0; // Mark database as not open as of yet dbIsOpen = false; dbIsCached = false; dbOpenedWithConnectionString = false; } // wxDb::initialize() /********** PRIVATE! wxDb::convertUserID PRIVATE! **********/ // // NOTE: Return value from this function MUST be copied // immediately, as the value is not good after // this function has left scope. // const wxChar *wxDb::convertUserID(const wxChar *userID, wxString &UserID) { if (userID) { if (!wxStrlen(userID)) UserID = uid; else UserID = userID; } else UserID.Empty(); // dBase does not use user names, and some drivers fail if you try to pass one if ( Dbms() == dbmsDBASE || Dbms() == dbmsXBASE_SEQUITER ) UserID.Empty(); // Some databases require user names to be specified in uppercase, // so force the name to uppercase if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsMAXDB)) UserID = UserID.Upper(); return UserID.c_str(); } // wxDb::convertUserID() bool wxDb::determineDataTypes(bool failOnDataTypeUnsupported) { size_t iIndex; // These are the possible SQL types we check for use against the datasource we are connected // to for the purpose of determining which data type to use for the basic character strings // column types // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlCharTypes[] = { #if wxUSE_UNICODE && defined(SQL_WVARCHAR) SQL_WVARCHAR, #endif SQL_VARCHAR, #if wxUSE_UNICODE && defined(SQL_WVARCHAR) SQL_WCHAR, #endif SQL_CHAR }; // These are the possible SQL types we check for use against the datasource we are connected // to for the purpose of determining which data type to use for the basic non-floating point // column types // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlIntegerTypes[] = { SQL_INTEGER }; // These are the possible SQL types we check for use against the datasource we are connected // to for the purpose of determining which data type to use for the basic floating point number // column types // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlFloatTypes[] = { SQL_DOUBLE, SQL_REAL, SQL_FLOAT, SQL_DECIMAL, SQL_NUMERIC }; // These are the possible SQL types we check for use agains the datasource we are connected // to for the purpose of determining which data type to use for the date/time column types // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlDateTypes[] = { SQL_TIMESTAMP, SQL_DATE, #ifdef SQL_DATETIME SQL_DATETIME #endif }; // These are the possible SQL types we check for use agains the datasource we are connected // to for the purpose of determining which data type to use for the BLOB column types. // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlBlobTypes[] = { SQL_LONGVARBINARY, SQL_VARBINARY }; // These are the possible SQL types we check for use agains the datasource we are connected // to for the purpose of determining which data type to use for the MEMO column types // (a type which allow to store large strings; like VARCHAR just with a bigger precision) // // NOTE: The first type in this enumeration that is determined to be supported by the // datasource/driver is the one that will be used. SWORD PossibleSqlMemoTypes[] = { SQL_LONGVARCHAR, }; // Query the data source regarding data type information // // The way it was determined which SQL data types to use was by calling SQLGetInfo // for all of the possible SQL data types to see which ones were supported. If // a type is not supported, the SQLFetch() that's called from getDataTypeInfo() // fails with SQL_NO_DATA_FOUND. This is ugly because I'm sure the three SQL data // types I've selected below will not always be what we want. These are just // what happened to work against an Oracle 7/Intersolv combination. The following is // a complete list of the results I got back against the Oracle 7 database: // // SQL_BIGINT SQL_NO_DATA_FOUND // SQL_BINARY SQL_NO_DATA_FOUND // SQL_BIT SQL_NO_DATA_FOUND // SQL_CHAR type name = 'CHAR', Precision = 255 // SQL_DATE SQL_NO_DATA_FOUND // SQL_DECIMAL type name = 'NUMBER', Precision = 38 // SQL_DOUBLE type name = 'NUMBER', Precision = 15 // SQL_FLOAT SQL_NO_DATA_FOUND // SQL_INTEGER SQL_NO_DATA_FOUND // SQL_LONGVARBINARY type name = 'LONG RAW', Precision = 2 billion // SQL_LONGVARCHAR type name = 'LONG', Precision = 2 billion // SQL_NUMERIC SQL_NO_DATA_FOUND // SQL_REAL SQL_NO_DATA_FOUND // SQL_SMALLINT SQL_NO_DATA_FOUND // SQL_TIME SQL_NO_DATA_FOUND // SQL_TIMESTAMP type name = 'DATE', Precision = 19 // SQL_VARBINARY type name = 'RAW', Precision = 255 // SQL_VARCHAR type name = 'VARCHAR2', Precision = 2000 // ===================================================================== // Results from a Microsoft Access 7.0 db, using a driver from Microsoft // // SQL_VARCHAR type name = 'TEXT', Precision = 255 // SQL_TIMESTAMP type name = 'DATETIME' // SQL_DECIMAL SQL_NO_DATA_FOUND // SQL_NUMERIC type name = 'CURRENCY', Precision = 19 // SQL_FLOAT SQL_NO_DATA_FOUND // SQL_REAL type name = 'SINGLE', Precision = 7 // SQL_DOUBLE type name = 'DOUBLE', Precision = 15 // SQL_INTEGER type name = 'LONG', Precision = 10 // Query the data source for info about itself if (!getDbInfo(failOnDataTypeUnsupported)) return false; // --------------- Varchar - (Variable length character string) --------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlCharTypes) && !getDataTypeInfo(PossibleSqlCharTypes[iIndex], typeInfVarchar); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlCharTypes)) typeInfVarchar.FsqlType = PossibleSqlCharTypes[iIndex]; else if (failOnDataTypeUnsupported) return false; // --------------- Float --------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlFloatTypes) && !getDataTypeInfo(PossibleSqlFloatTypes[iIndex], typeInfFloat); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlFloatTypes)) typeInfFloat.FsqlType = PossibleSqlFloatTypes[iIndex]; else if (failOnDataTypeUnsupported) return false; // --------------- Integer ------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlIntegerTypes) && !getDataTypeInfo(PossibleSqlIntegerTypes[iIndex], typeInfInteger); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlIntegerTypes)) typeInfInteger.FsqlType = PossibleSqlIntegerTypes[iIndex]; else if (failOnDataTypeUnsupported) { // If no non-floating point data types are supported, we'll // use the type assigned for floats to store integers as well if (!getDataTypeInfo(typeInfFloat.FsqlType, typeInfInteger)) { if (failOnDataTypeUnsupported) return false; } else typeInfInteger.FsqlType = typeInfFloat.FsqlType; } // --------------- Date/Time --------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlDateTypes) && !getDataTypeInfo(PossibleSqlDateTypes[iIndex], typeInfDate); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlDateTypes)) typeInfDate.FsqlType = PossibleSqlDateTypes[iIndex]; else if (failOnDataTypeUnsupported) return false; // --------------- BLOB --------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlBlobTypes) && !getDataTypeInfo(PossibleSqlBlobTypes[iIndex], typeInfBlob); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlBlobTypes)) typeInfBlob.FsqlType = PossibleSqlBlobTypes[iIndex]; else if (failOnDataTypeUnsupported) return false; // --------------- MEMO --------------- for (iIndex = 0; iIndex < WXSIZEOF(PossibleSqlMemoTypes) && !getDataTypeInfo(PossibleSqlMemoTypes[iIndex], typeInfMemo); ++iIndex) {} if (iIndex < WXSIZEOF(PossibleSqlMemoTypes)) typeInfMemo.FsqlType = PossibleSqlMemoTypes[iIndex]; else if (failOnDataTypeUnsupported) return false; return true; } // wxDb::determineDataTypes bool wxDb::open(bool failOnDataTypeUnsupported) { /* If using Intersolv branded ODBC drivers, this is the place where you would substitute your branded driver license information SQLSetConnectOption(hdbc, 1041, (UDWORD) wxEmptyString); SQLSetConnectOption(hdbc, 1042, (UDWORD) wxEmptyString); */ // Mark database as open dbIsOpen = true; // Allocate a statement handle for the database connection if (SQLAllocStmt(hdbc, &hstmt) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); // Set Connection Options if (!setConnectionOptions()) return false; if (!determineDataTypes(failOnDataTypeUnsupported)) return false; #ifdef DBDEBUG_CONSOLE cout << wxT("VARCHAR DATA TYPE: ") << typeInfVarchar.TypeName << endl; cout << wxT("INTEGER DATA TYPE: ") << typeInfInteger.TypeName << endl; cout << wxT("FLOAT DATA TYPE: ") << typeInfFloat.TypeName << endl; cout << wxT("DATE DATA TYPE: ") << typeInfDate.TypeName << endl; cout << wxT("BLOB DATA TYPE: ") << typeInfBlob.TypeName << endl; cout << wxT("MEMO DATA TYPE: ") << typeInfMemo.TypeName << endl; cout << endl; #endif // Completed Successfully return true; } bool wxDb::Open(const wxString& inConnectStr, bool failOnDataTypeUnsupported) { wxASSERT(inConnectStr.length()); return Open(inConnectStr, NULL, failOnDataTypeUnsupported); } bool wxDb::Open(const wxString& inConnectStr, SQLHWND parentWnd, bool failOnDataTypeUnsupported) { dsn = wxEmptyString; uid = wxEmptyString; authStr = wxEmptyString; RETCODE retcode; if (!FwdOnlyCursors()) { // Specify that the ODBC cursor library be used, if needed. This must be // specified before the connection is made. retcode = SQLSetConnectOption(hdbc, SQL_ODBC_CURSORS, SQL_CUR_USE_IF_NEEDED); #ifdef DBDEBUG_CONSOLE if (retcode == SQL_SUCCESS) cout << wxT("SQLSetConnectOption(CURSOR_LIB) successful") << endl; else cout << wxT("SQLSetConnectOption(CURSOR_LIB) failed") << endl; #else wxUnusedVar(retcode); #endif } // Connect to the data source SQLTCHAR outConnectBuffer[SQL_MAX_CONNECTSTR_LEN+1]; // MS recommends at least 1k buffer short outConnectBufferLen; inConnectionStr = inConnectStr; retcode = SQLDriverConnect(hdbc, parentWnd, (SQLTCHAR FAR *)inConnectionStr.c_str(), (SWORD)inConnectionStr.length(), (SQLTCHAR FAR *)outConnectBuffer, WXSIZEOF(outConnectBuffer), &outConnectBufferLen, SQL_DRIVER_COMPLETE ); if ((retcode != SQL_SUCCESS) && (retcode != SQL_SUCCESS_WITH_INFO)) return(DispAllErrors(henv, hdbc)); outConnectBuffer[outConnectBufferLen] = 0; outConnectionStr = outConnectBuffer; dbOpenedWithConnectionString = true; return open(failOnDataTypeUnsupported); } /********** wxDb::Open() **********/ bool wxDb::Open(const wxString &Dsn, const wxString &Uid, const wxString &AuthStr, bool failOnDataTypeUnsupported) { wxASSERT(!Dsn.empty()); dsn = Dsn; uid = Uid; authStr = AuthStr; inConnectionStr = wxEmptyString; outConnectionStr = wxEmptyString; RETCODE retcode; if (!FwdOnlyCursors()) { // Specify that the ODBC cursor library be used, if needed. This must be // specified before the connection is made. retcode = SQLSetConnectOption(hdbc, SQL_ODBC_CURSORS, SQL_CUR_USE_IF_NEEDED); #ifdef DBDEBUG_CONSOLE if (retcode == SQL_SUCCESS) cout << wxT("SQLSetConnectOption(CURSOR_LIB) successful") << endl; else cout << wxT("SQLSetConnectOption(CURSOR_LIB) failed") << endl; #else wxUnusedVar( retcode ); #endif } // Connect to the data source retcode = SQLConnect(hdbc, (SQLTCHAR FAR *) dsn.c_str(), SQL_NTS, (SQLTCHAR FAR *) uid.c_str(), SQL_NTS, (SQLTCHAR FAR *) authStr.c_str(), SQL_NTS); if ((retcode != SQL_SUCCESS) && (retcode != SQL_SUCCESS_WITH_INFO)) return(DispAllErrors(henv, hdbc)); return open(failOnDataTypeUnsupported); } // wxDb::Open() bool wxDb::Open(wxDbConnectInf *dbConnectInf, bool failOnDataTypeUnsupported) { wxASSERT(dbConnectInf); // Use the connection string if one is present if (dbConnectInf->UseConnectionStr()) return Open(dbConnectInf->GetConnectionStr(), failOnDataTypeUnsupported); else return Open(dbConnectInf->GetDsn(), dbConnectInf->GetUserID(), dbConnectInf->GetPassword(), failOnDataTypeUnsupported); } // wxDb::Open() bool wxDb::Open(wxDb *copyDb) { dsn = copyDb->GetDatasourceName(); uid = copyDb->GetUsername(); authStr = copyDb->GetPassword(); inConnectionStr = copyDb->GetConnectionInStr(); outConnectionStr = copyDb->GetConnectionOutStr(); RETCODE retcode; if (!FwdOnlyCursors()) { // Specify that the ODBC cursor library be used, if needed. This must be // specified before the connection is made. retcode = SQLSetConnectOption(hdbc, SQL_ODBC_CURSORS, SQL_CUR_USE_IF_NEEDED); #ifdef DBDEBUG_CONSOLE if (retcode == SQL_SUCCESS) cout << wxT("SQLSetConnectOption(CURSOR_LIB) successful") << endl; else cout << wxT("SQLSetConnectOption(CURSOR_LIB) failed") << endl; #else wxUnusedVar( retcode ); #endif } if (copyDb->OpenedWithConnectionString()) { // Connect to the data source SQLTCHAR outConnectBuffer[SQL_MAX_CONNECTSTR_LEN+1]; short outConnectBufferLen; inConnectionStr = copyDb->GetConnectionInStr(); retcode = SQLDriverConnect(hdbc, NULL, (SQLTCHAR FAR *)inConnectionStr.c_str(), (SWORD)inConnectionStr.length(), (SQLTCHAR FAR *)outConnectBuffer, WXSIZEOF(outConnectBuffer), &outConnectBufferLen, SQL_DRIVER_COMPLETE); if ((retcode != SQL_SUCCESS) && (retcode != SQL_SUCCESS_WITH_INFO)) return(DispAllErrors(henv, hdbc)); outConnectBuffer[outConnectBufferLen] = 0; outConnectionStr = outConnectBuffer; dbOpenedWithConnectionString = true; } else { // Connect to the data source retcode = SQLConnect(hdbc, (SQLTCHAR FAR *) dsn.c_str(), SQL_NTS, (SQLTCHAR FAR *) uid.c_str(), SQL_NTS, (SQLTCHAR FAR *) authStr.c_str(), SQL_NTS); } if ((retcode != SQL_SUCCESS) && (retcode != SQL_SUCCESS_WITH_INFO)) return(DispAllErrors(henv, hdbc)); /* If using Intersolv branded ODBC drivers, this is the place where you would substitute your branded driver license information SQLSetConnectOption(hdbc, 1041, (UDWORD) wxEmptyString); SQLSetConnectOption(hdbc, 1042, (UDWORD) wxEmptyString); */ // Mark database as open dbIsOpen = true; // Allocate a statement handle for the database connection if (SQLAllocStmt(hdbc, &hstmt) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); // Set Connection Options if (!setConnectionOptions()) return false; // Instead of Querying the data source for info about itself, it can just be copied // from the wxDb instance that was passed in (copyDb). wxStrcpy(dbInf.serverName,copyDb->dbInf.serverName); wxStrcpy(dbInf.databaseName,copyDb->dbInf.databaseName); wxStrcpy(dbInf.dbmsName,copyDb->dbInf.dbmsName); wxStrcpy(dbInf.dbmsVer,copyDb->dbInf.dbmsVer); dbInf.maxConnections = copyDb->dbInf.maxConnections; dbInf.maxStmts = copyDb->dbInf.maxStmts; wxStrcpy(dbInf.driverName,copyDb->dbInf.driverName); wxStrcpy(dbInf.odbcVer,copyDb->dbInf.odbcVer); wxStrcpy(dbInf.drvMgrOdbcVer,copyDb->dbInf.drvMgrOdbcVer); wxStrcpy(dbInf.driverVer,copyDb->dbInf.driverVer); dbInf.apiConfLvl = copyDb->dbInf.apiConfLvl; dbInf.cliConfLvl = copyDb->dbInf.cliConfLvl; dbInf.sqlConfLvl = copyDb->dbInf.sqlConfLvl; wxStrcpy(dbInf.outerJoins,copyDb->dbInf.outerJoins); wxStrcpy(dbInf.procedureSupport,copyDb->dbInf.procedureSupport); wxStrcpy(dbInf.accessibleTables,copyDb->dbInf.accessibleTables); dbInf.cursorCommitBehavior = copyDb->dbInf.cursorCommitBehavior; dbInf.cursorRollbackBehavior = copyDb->dbInf.cursorRollbackBehavior; dbInf.supportNotNullClause = copyDb->dbInf.supportNotNullClause; wxStrcpy(dbInf.supportIEF,copyDb->dbInf.supportIEF); dbInf.txnIsolation = copyDb->dbInf.txnIsolation; dbInf.txnIsolationOptions = copyDb->dbInf.txnIsolationOptions; dbInf.fetchDirections = copyDb->dbInf.fetchDirections; dbInf.lockTypes = copyDb->dbInf.lockTypes; dbInf.posOperations = copyDb->dbInf.posOperations; dbInf.posStmts = copyDb->dbInf.posStmts; dbInf.scrollConcurrency = copyDb->dbInf.scrollConcurrency; dbInf.scrollOptions = copyDb->dbInf.scrollOptions; dbInf.staticSensitivity = copyDb->dbInf.staticSensitivity; dbInf.txnCapable = copyDb->dbInf.txnCapable; dbInf.loginTimeout = copyDb->dbInf.loginTimeout; // VARCHAR = Variable length character string typeInfVarchar.FsqlType = copyDb->typeInfVarchar.FsqlType; typeInfVarchar.TypeName = copyDb->typeInfVarchar.TypeName; typeInfVarchar.Precision = copyDb->typeInfVarchar.Precision; typeInfVarchar.CaseSensitive = copyDb->typeInfVarchar.CaseSensitive; typeInfVarchar.MaximumScale = copyDb->typeInfVarchar.MaximumScale; // Float typeInfFloat.FsqlType = copyDb->typeInfFloat.FsqlType; typeInfFloat.TypeName = copyDb->typeInfFloat.TypeName; typeInfFloat.Precision = copyDb->typeInfFloat.Precision; typeInfFloat.CaseSensitive = copyDb->typeInfFloat.CaseSensitive; typeInfFloat.MaximumScale = copyDb->typeInfFloat.MaximumScale; // Integer typeInfInteger.FsqlType = copyDb->typeInfInteger.FsqlType; typeInfInteger.TypeName = copyDb->typeInfInteger.TypeName; typeInfInteger.Precision = copyDb->typeInfInteger.Precision; typeInfInteger.CaseSensitive = copyDb->typeInfInteger.CaseSensitive; typeInfInteger.MaximumScale = copyDb->typeInfInteger.MaximumScale; // Date/Time typeInfDate.FsqlType = copyDb->typeInfDate.FsqlType; typeInfDate.TypeName = copyDb->typeInfDate.TypeName; typeInfDate.Precision = copyDb->typeInfDate.Precision; typeInfDate.CaseSensitive = copyDb->typeInfDate.CaseSensitive; typeInfDate.MaximumScale = copyDb->typeInfDate.MaximumScale; // Blob typeInfBlob.FsqlType = copyDb->typeInfBlob.FsqlType; typeInfBlob.TypeName = copyDb->typeInfBlob.TypeName; typeInfBlob.Precision = copyDb->typeInfBlob.Precision; typeInfBlob.CaseSensitive = copyDb->typeInfBlob.CaseSensitive; typeInfBlob.MaximumScale = copyDb->typeInfBlob.MaximumScale; // Memo typeInfMemo.FsqlType = copyDb->typeInfMemo.FsqlType; typeInfMemo.TypeName = copyDb->typeInfMemo.TypeName; typeInfMemo.Precision = copyDb->typeInfMemo.Precision; typeInfMemo.CaseSensitive = copyDb->typeInfMemo.CaseSensitive; typeInfMemo.MaximumScale = copyDb->typeInfMemo.MaximumScale; #ifdef DBDEBUG_CONSOLE cout << wxT("VARCHAR DATA TYPE: ") << typeInfVarchar.TypeName << endl; cout << wxT("INTEGER DATA TYPE: ") << typeInfInteger.TypeName << endl; cout << wxT("FLOAT DATA TYPE: ") << typeInfFloat.TypeName << endl; cout << wxT("DATE DATA TYPE: ") << typeInfDate.TypeName << endl; cout << wxT("BLOB DATA TYPE: ") << typeInfBlob.TypeName << endl; cout << wxT("MEMO DATA TYPE: ") << typeInfMemo.TypeName << endl; cout << endl; #endif // Completed Successfully return true; } // wxDb::Open() 2 /********** wxDb::setConnectionOptions() **********/ bool wxDb::setConnectionOptions(void) /* * NOTE: The Intersolv/Oracle 7 driver was "Not Capable" of setting the login timeout. */ { SWORD cb; // I need to get the DBMS name here, because some of the connection options // are database specific and need to call the Dbms() function. RETCODE retcode; retcode = SQLGetInfo(hdbc, SQL_DBMS_NAME, (UCHAR *) dbInf.dbmsName, sizeof(dbInf.dbmsName), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO) return(DispAllErrors(henv, hdbc)); /* retcode = */ SQLSetConnectOption(hdbc, SQL_AUTOCOMMIT, SQL_AUTOCOMMIT_OFF); /* retcode = */ SQLSetConnectOption(hdbc, SQL_OPT_TRACE, SQL_OPT_TRACE_OFF); // SQLSetConnectOption(hdbc, SQL_TXN_ISOLATION, SQL_TXN_READ_COMMITTED); // No dirty reads // By default, MS Sql Server closes cursors on commit and rollback. The following // call to SQLSetConnectOption() is needed to force SQL Server to preserve cursors // after a transaction. This is a driver specific option and is not part of the // ODBC standard. Note: this behavior is specific to the ODBC interface to SQL Server. // The database settings don't have any effect one way or the other. if (Dbms() == dbmsMS_SQL_SERVER) { const long SQL_PRESERVE_CURSORS = 1204L; const long SQL_PC_ON = 1L; /* retcode = */ SQLSetConnectOption(hdbc, SQL_PRESERVE_CURSORS, SQL_PC_ON); } // Display the connection options to verify them #ifdef DBDEBUG_CONSOLE long l; cout << wxT("****** CONNECTION OPTIONS ******") << endl; retcode = SQLGetConnectOption(hdbc, SQL_AUTOCOMMIT, &l); if (retcode != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); cout << wxT("AUTOCOMMIT: ") << (l == SQL_AUTOCOMMIT_OFF ? "OFF" : "ON") << endl; retcode = SQLGetConnectOption(hdbc, SQL_ODBC_CURSORS, &l); if (retcode != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); cout << wxT("ODBC CURSORS: "); switch(l) { case(SQL_CUR_USE_IF_NEEDED): cout << wxT("SQL_CUR_USE_IF_NEEDED"); break; case(SQL_CUR_USE_ODBC): cout << wxT("SQL_CUR_USE_ODBC"); break; case(SQL_CUR_USE_DRIVER): cout << wxT("SQL_CUR_USE_DRIVER"); break; } cout << endl; retcode = SQLGetConnectOption(hdbc, SQL_OPT_TRACE, &l) if (retcode != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); cout << wxT("TRACING: ") << (l == SQL_OPT_TRACE_OFF ? wxT("OFF") : wxT("ON")) << endl; cout << endl; #endif // Completed Successfully return true; } // wxDb::setConnectionOptions() /********** wxDb::getDbInfo() **********/ bool wxDb::getDbInfo(bool failOnDataTypeUnsupported) { SWORD cb; RETCODE retcode; retcode = SQLGetInfo(hdbc, SQL_SERVER_NAME, (UCHAR*) dbInf.serverName, sizeof(dbInf.serverName), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DATABASE_NAME, (UCHAR*) dbInf.databaseName, sizeof(dbInf.databaseName), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DBMS_NAME, (UCHAR*) dbInf.dbmsName, sizeof(dbInf.dbmsName), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } // 16-Mar-1999 // After upgrading to MSVC6, the original 20 char buffer below was insufficient, // causing database connectivity to fail in some cases. retcode = SQLGetInfo(hdbc, SQL_DBMS_VER, (UCHAR*) dbInf.dbmsVer, sizeof(dbInf.dbmsVer), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ACTIVE_CONNECTIONS, (UCHAR*) &dbInf.maxConnections, sizeof(dbInf.maxConnections), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ACTIVE_STATEMENTS, (UCHAR*) &dbInf.maxStmts, sizeof(dbInf.maxStmts), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DRIVER_NAME, (UCHAR*) dbInf.driverName, sizeof(dbInf.driverName), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DRIVER_ODBC_VER, (UCHAR*) dbInf.odbcVer, sizeof(dbInf.odbcVer), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ODBC_VER, (UCHAR*) dbInf.drvMgrOdbcVer, sizeof(dbInf.drvMgrOdbcVer), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DRIVER_VER, (UCHAR*) dbInf.driverVer, sizeof(dbInf.driverVer), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ODBC_API_CONFORMANCE, (UCHAR*) &dbInf.apiConfLvl, sizeof(dbInf.apiConfLvl), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ODBC_SAG_CLI_CONFORMANCE, (UCHAR*) &dbInf.cliConfLvl, sizeof(dbInf.cliConfLvl), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { // Not all drivers support this call - Nick Gorham(unixODBC) dbInf.cliConfLvl = 0; DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ODBC_SQL_CONFORMANCE, (UCHAR*) &dbInf.sqlConfLvl, sizeof(dbInf.sqlConfLvl), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_OUTER_JOINS, (UCHAR*) dbInf.outerJoins, sizeof(dbInf.outerJoins), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_PROCEDURES, (UCHAR*) dbInf.procedureSupport, sizeof(dbInf.procedureSupport), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ACCESSIBLE_TABLES, (UCHAR*) dbInf.accessibleTables, sizeof(dbInf.accessibleTables), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_CURSOR_COMMIT_BEHAVIOR, (UCHAR*) &dbInf.cursorCommitBehavior, sizeof(dbInf.cursorCommitBehavior), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_CURSOR_ROLLBACK_BEHAVIOR, (UCHAR*) &dbInf.cursorRollbackBehavior, sizeof(dbInf.cursorRollbackBehavior), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_NON_NULLABLE_COLUMNS, (UCHAR*) &dbInf.supportNotNullClause, sizeof(dbInf.supportNotNullClause), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_ODBC_SQL_OPT_IEF, (UCHAR*) dbInf.supportIEF, sizeof(dbInf.supportIEF), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_DEFAULT_TXN_ISOLATION, (UCHAR*) &dbInf.txnIsolation, sizeof(dbInf.txnIsolation), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_TXN_ISOLATION_OPTION, (UCHAR*) &dbInf.txnIsolationOptions, sizeof(dbInf.txnIsolationOptions), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_FETCH_DIRECTION, (UCHAR*) &dbInf.fetchDirections, sizeof(dbInf.fetchDirections), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_LOCK_TYPES, (UCHAR*) &dbInf.lockTypes, sizeof(dbInf.lockTypes), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_POS_OPERATIONS, (UCHAR*) &dbInf.posOperations, sizeof(dbInf.posOperations), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_POSITIONED_STATEMENTS, (UCHAR*) &dbInf.posStmts, sizeof(dbInf.posStmts), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_SCROLL_CONCURRENCY, (UCHAR*) &dbInf.scrollConcurrency, sizeof(dbInf.scrollConcurrency), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_SCROLL_OPTIONS, (UCHAR*) &dbInf.scrollOptions, sizeof(dbInf.scrollOptions), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_STATIC_SENSITIVITY, (UCHAR*) &dbInf.staticSensitivity, sizeof(dbInf.staticSensitivity), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_TXN_CAPABLE, (UCHAR*) &dbInf.txnCapable, sizeof(dbInf.txnCapable), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } retcode = SQLGetInfo(hdbc, SQL_LOGIN_TIMEOUT, (UCHAR*) &dbInf.loginTimeout, sizeof(dbInf.loginTimeout), &cb); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO ) { DispAllErrors(henv, hdbc); if (failOnDataTypeUnsupported) return false; } #ifdef DBDEBUG_CONSOLE cout << wxT("***** DATA SOURCE INFORMATION *****") << endl; cout << wxT(wxT("SERVER Name: ") << dbInf.serverName << endl; cout << wxT("DBMS Name: ") << dbInf.dbmsName << wxT("; DBMS Version: ") << dbInf.dbmsVer << endl; cout << wxT("ODBC Version: ") << dbInf.odbcVer << wxT("; Driver Version: ") << dbInf.driverVer << endl; cout << wxT("API Conf. Level: "); switch(dbInf.apiConfLvl) { case SQL_OAC_NONE: cout << wxT("None"); break; case SQL_OAC_LEVEL1: cout << wxT("Level 1"); break; case SQL_OAC_LEVEL2: cout << wxT("Level 2"); break; } cout << endl; cout << wxT("SAG CLI Conf. Level: "); switch(dbInf.cliConfLvl) { case SQL_OSCC_NOT_COMPLIANT: cout << wxT("Not Compliant"); break; case SQL_OSCC_COMPLIANT: cout << wxT("Compliant"); break; } cout << endl; cout << wxT("SQL Conf. Level: "); switch(dbInf.sqlConfLvl) { case SQL_OSC_MINIMUM: cout << wxT("Minimum Grammar"); break; case SQL_OSC_CORE: cout << wxT("Core Grammar"); break; case SQL_OSC_EXTENDED: cout << wxT("Extended Grammar"); break; } cout << endl; cout << wxT("Max. Connections: ") << dbInf.maxConnections << endl; cout << wxT("Outer Joins: ") << dbInf.outerJoins << endl; cout << wxT("Support for Procedures: ") << dbInf.procedureSupport << endl; cout << wxT("All tables accessible : ") << dbInf.accessibleTables << endl; cout << wxT("Cursor COMMIT Behavior: "); switch(dbInf.cursorCommitBehavior) { case SQL_CB_DELETE: cout << wxT("Delete cursors"); break; case SQL_CB_CLOSE: cout << wxT("Close cursors"); break; case SQL_CB_PRESERVE: cout << wxT("Preserve cursors"); break; } cout << endl; cout << wxT("Cursor ROLLBACK Behavior: "); switch(dbInf.cursorRollbackBehavior) { case SQL_CB_DELETE: cout << wxT("Delete cursors"); break; case SQL_CB_CLOSE: cout << wxT("Close cursors"); break; case SQL_CB_PRESERVE: cout << wxT("Preserve cursors"); break; } cout << endl; cout << wxT("Support NOT NULL clause: "); switch(dbInf.supportNotNullClause) { case SQL_NNC_NULL: cout << wxT("No"); break; case SQL_NNC_NON_NULL: cout << wxT("Yes"); break; } cout << endl; cout << wxT("Support IEF (Ref. Integrity): ") << dbInf.supportIEF << endl; cout << wxT("Login Timeout: ") << dbInf.loginTimeout << endl; cout << endl << endl << wxT("more ...") << endl; getchar(); cout << wxT("Default Transaction Isolation: "; switch(dbInf.txnIsolation) { case SQL_TXN_READ_UNCOMMITTED: cout << wxT("Read Uncommitted"); break; case SQL_TXN_READ_COMMITTED: cout << wxT("Read Committed"); break; case SQL_TXN_REPEATABLE_READ: cout << wxT("Repeatable Read"); break; case SQL_TXN_SERIALIZABLE: cout << wxT("Serializable"); break; #ifdef ODBC_V20 case SQL_TXN_VERSIONING: cout << wxT("Versioning"); break; #endif } cout << endl; cout << wxT("Transaction Isolation Options: "); if (dbInf.txnIsolationOptions & SQL_TXN_READ_UNCOMMITTED) cout << wxT("Read Uncommitted, "); if (dbInf.txnIsolationOptions & SQL_TXN_READ_COMMITTED) cout << wxT("Read Committed, "); if (dbInf.txnIsolationOptions & SQL_TXN_REPEATABLE_READ) cout << wxT("Repeatable Read, "); if (dbInf.txnIsolationOptions & SQL_TXN_SERIALIZABLE) cout << wxT("Serializable, "); #ifdef ODBC_V20 if (dbInf.txnIsolationOptions & SQL_TXN_VERSIONING) cout << wxT("Versioning"); #endif cout << endl; cout << wxT("Fetch Directions Supported:") << endl << wxT(" "); if (dbInf.fetchDirections & SQL_FD_FETCH_NEXT) cout << wxT("Next, "); if (dbInf.fetchDirections & SQL_FD_FETCH_PRIOR) cout << wxT("Prev, "); if (dbInf.fetchDirections & SQL_FD_FETCH_FIRST) cout << wxT("First, "); if (dbInf.fetchDirections & SQL_FD_FETCH_LAST) cout << wxT("Last, "); if (dbInf.fetchDirections & SQL_FD_FETCH_ABSOLUTE) cout << wxT("Absolute, "); if (dbInf.fetchDirections & SQL_FD_FETCH_RELATIVE) cout << wxT("Relative, "); #ifdef ODBC_V20 if (dbInf.fetchDirections & SQL_FD_FETCH_RESUME) cout << wxT("Resume, "); #endif if (dbInf.fetchDirections & SQL_FD_FETCH_BOOKMARK) cout << wxT("Bookmark"); cout << endl; cout << wxT("Lock Types Supported (SQLSetPos): "); if (dbInf.lockTypes & SQL_LCK_NO_CHANGE) cout << wxT("No Change, "); if (dbInf.lockTypes & SQL_LCK_EXCLUSIVE) cout << wxT("Exclusive, "); if (dbInf.lockTypes & SQL_LCK_UNLOCK) cout << wxT("UnLock"); cout << endl; cout << wxT("Position Operations Supported (SQLSetPos): "); if (dbInf.posOperations & SQL_POS_POSITION) cout << wxT("Position, "); if (dbInf.posOperations & SQL_POS_REFRESH) cout << wxT("Refresh, "); if (dbInf.posOperations & SQL_POS_UPDATE) cout << wxT("Upd, ")); if (dbInf.posOperations & SQL_POS_DELETE) cout << wxT("Del, "); if (dbInf.posOperations & SQL_POS_ADD) cout << wxT("Add"); cout << endl; cout << wxT("Positioned Statements Supported: "); if (dbInf.posStmts & SQL_PS_POSITIONED_DELETE) cout << wxT("Pos delete, "); if (dbInf.posStmts & SQL_PS_POSITIONED_UPDATE) cout << wxT("Pos update, "); if (dbInf.posStmts & SQL_PS_SELECT_FOR_UPDATE) cout << wxT("Select for update"); cout << endl; cout << wxT("Scroll Concurrency: "); if (dbInf.scrollConcurrency & SQL_SCCO_READ_ONLY) cout << wxT("Read Only, "); if (dbInf.scrollConcurrency & SQL_SCCO_LOCK) cout << wxT("Lock, "); if (dbInf.scrollConcurrency & SQL_SCCO_OPT_ROWVER) cout << wxT("Opt. Rowver, "); if (dbInf.scrollConcurrency & SQL_SCCO_OPT_VALUES) cout << wxT("Opt. Values"); cout << endl; cout << wxT("Scroll Options: "); if (dbInf.scrollOptions & SQL_SO_FORWARD_ONLY) cout << wxT("Fwd Only, "); if (dbInf.scrollOptions & SQL_SO_STATIC) cout << wxT("Static, "); if (dbInf.scrollOptions & SQL_SO_KEYSET_DRIVEN) cout << wxT("Keyset Driven, "); if (dbInf.scrollOptions & SQL_SO_DYNAMIC) cout << wxT("Dynamic, "); if (dbInf.scrollOptions & SQL_SO_MIXED) cout << wxT("Mixed"); cout << endl; cout << wxT("Static Sensitivity: "); if (dbInf.staticSensitivity & SQL_SS_ADDITIONS) cout << wxT("Additions, "); if (dbInf.staticSensitivity & SQL_SS_DELETIONS) cout << wxT("Deletions, "); if (dbInf.staticSensitivity & SQL_SS_UPDATES) cout << wxT("Updates"); cout << endl; cout << wxT("Transaction Capable?: "); switch(dbInf.txnCapable) { case SQL_TC_NONE: cout << wxT("No"); break; case SQL_TC_DML: cout << wxT("DML Only"); break; case SQL_TC_DDL_COMMIT: cout << wxT("DDL Commit"); break; case SQL_TC_DDL_IGNORE: cout << wxT("DDL Ignore"); break; case SQL_TC_ALL: cout << wxT("DDL & DML"); break; } cout << endl; cout << endl; #endif // Completed Successfully return true; } // wxDb::getDbInfo() /********** wxDb::getDataTypeInfo() **********/ bool wxDb::getDataTypeInfo(SWORD fSqlType, wxDbSqlTypeInfo &structSQLTypeInfo) { /* * fSqlType will be something like SQL_VARCHAR. This parameter determines * the data type inf. is gathered for. * * wxDbSqlTypeInfo is a structure that is filled in with data type information, */ RETCODE retcode; SQLLEN cbRet; // Get information about the data type specified if (SQLGetTypeInfo(hstmt, fSqlType) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); // Fetch the record retcode = SQLFetch(hstmt); if (retcode != SQL_SUCCESS) { #ifdef DBDEBUG_CONSOLE if (retcode == SQL_NO_DATA_FOUND) cout << wxT("SQL_NO_DATA_FOUND fetching information about data type.") << endl; #endif DispAllErrors(henv, hdbc, hstmt); SQLFreeStmt(hstmt, SQL_CLOSE); return false; } wxChar typeName[DB_TYPE_NAME_LEN+1]; // Obtain columns from the record if (SQLGetData(hstmt, 1, SQL_C_WXCHAR, typeName, sizeof(typeName), &cbRet) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); structSQLTypeInfo.TypeName = typeName; // BJO 20000503: no more needed with new GetColumns... #if OLD_GETCOLUMNS // BJO 991209 if (Dbms() == dbmsMY_SQL) { if (structSQLTypeInfo.TypeName == wxT("middleint")) structSQLTypeInfo.TypeName = wxT("mediumint"); else if (structSQLTypeInfo.TypeName == wxT("middleint unsigned")) structSQLTypeInfo.TypeName = wxT("mediumint unsigned"); else if (structSQLTypeInfo.TypeName == wxT("integer")) structSQLTypeInfo.TypeName = wxT("int"); else if (structSQLTypeInfo.TypeName == wxT("integer unsigned")) structSQLTypeInfo.TypeName = wxT("int unsigned"); else if (structSQLTypeInfo.TypeName == wxT("middleint")) structSQLTypeInfo.TypeName = wxT("mediumint"); else if (structSQLTypeInfo.TypeName == wxT("varchar")) structSQLTypeInfo.TypeName = wxT("char"); } // BJO 20000427 : OpenLink driver if (!wxStrncmp(dbInf.driverName, wxT("oplodbc"), 7) || !wxStrncmp(dbInf.driverName, wxT("OLOD"), 4)) { if (structSQLTypeInfo.TypeName == wxT("double precision")) structSQLTypeInfo.TypeName = wxT("real"); } #endif if (SQLGetData(hstmt, 3, SQL_C_LONG, (UCHAR*) &structSQLTypeInfo.Precision, 0, &cbRet) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); if (SQLGetData(hstmt, 8, SQL_C_SHORT, (UCHAR*) &structSQLTypeInfo.CaseSensitive, 0, &cbRet) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); // if (SQLGetData(hstmt, 14, SQL_C_SHORT, (UCHAR*) &structSQLTypeInfo.MinimumScale, 0, &cbRet) != SQL_SUCCESS) // return(DispAllErrors(henv, hdbc, hstmt)); if (SQLGetData(hstmt, 15, SQL_C_SHORT,(UCHAR*) &structSQLTypeInfo.MaximumScale, 0, &cbRet) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); if (structSQLTypeInfo.MaximumScale < 0) structSQLTypeInfo.MaximumScale = 0; // Close the statement handle which closes open cursors if (SQLFreeStmt(hstmt, SQL_CLOSE) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); // Completed Successfully return true; } // wxDb::getDataTypeInfo() /********** wxDb::Close() **********/ void wxDb::Close(void) { // Close the Sql Log file if (fpSqlLog) { fclose(fpSqlLog); fpSqlLog = 0; } // Free statement handle if (dbIsOpen) { if (SQLFreeStmt(hstmt, SQL_DROP) != SQL_SUCCESS) DispAllErrors(henv, hdbc); } // Disconnect from the datasource if (SQLDisconnect(hdbc) != SQL_SUCCESS) DispAllErrors(henv, hdbc); // Free the connection to the datasource if (SQLFreeConnect(hdbc) != SQL_SUCCESS) DispAllErrors(henv, hdbc); // There should be zero Ctable objects still connected to this db object wxASSERT(nTables == 0); #ifdef __WXDEBUG__ { #if wxUSE_THREADS wxCriticalSectionLocker lock(csTablesInUse); #endif // wxUSE_THREADS wxTablesInUse *tiu; wxList::compatibility_iterator pNode; pNode = TablesInUse.GetFirst(); wxString s,s2; while (pNode) { tiu = (wxTablesInUse *)pNode->GetData(); if (tiu->pDb == this) { s.Printf(wxT("(%-20s) tableID:[%6lu] pDb:[%p]"), tiu->tableName, tiu->tableID, wx_static_cast(void*, tiu->pDb)); s2.Printf(wxT("Orphaned table found using pDb:[%p]"), wx_static_cast(void*, this)); wxLogDebug(s.c_str(),s2.c_str()); } pNode = pNode->GetNext(); } } #endif // Copy the error messages to a global variable int i; for (i = 0; i < DB_MAX_ERROR_HISTORY; i++) wxStrcpy(DBerrorList[i], errorList[i]); dbmsType = dbmsUNIDENTIFIED; dbIsOpen = false; } // wxDb::Close() /********** wxDb::CommitTrans() **********/ bool wxDb::CommitTrans(void) { if (this) { // Commit the transaction if (SQLTransact(henv, hdbc, SQL_COMMIT) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); } // Completed successfully return true; } // wxDb::CommitTrans() /********** wxDb::RollbackTrans() **********/ bool wxDb::RollbackTrans(void) { // Rollback the transaction if (SQLTransact(henv, hdbc, SQL_ROLLBACK) != SQL_SUCCESS) return(DispAllErrors(henv, hdbc)); // Completed successfully return true; } // wxDb::RollbackTrans() /********** wxDb::DispAllErrors() **********/ bool wxDb::DispAllErrors(HENV aHenv, HDBC aHdbc, HSTMT aHstmt) /* * This function is called internally whenever an error condition prevents the user's * request from being executed. This function will query the datasource as to the * actual error(s) that just occurred on the previous request of the datasource. * * The function will retrieve each error condition from the datasource and * Printf the codes/text values into a string which it then logs via logError(). * If in DBDEBUG_CONSOLE mode, the constructed string will be displayed in the console * window and program execution will be paused until the user presses a key. * * This function always returns false, so that functions which call this function * can have a line like "return (DispAllErrors(henv, hdbc));" to indicate the failure * of the user's request, so that the calling code can then process the error message log. */ { wxString odbcErrMsg; while (SQLError(aHenv, aHdbc, aHstmt, (SQLTCHAR FAR *) sqlState, &nativeError, (SQLTCHAR FAR *) errorMsg, SQL_MAX_MESSAGE_LENGTH - 1, &cbErrorMsg) == SQL_SUCCESS) { odbcErrMsg.Printf(wxT("SQL State = %s\nNative Error Code = %li\nError Message = %s\n"), sqlState, (long)nativeError, errorMsg); logError(odbcErrMsg, sqlState); if (!silent) { #ifdef DBDEBUG_CONSOLE // When run in console mode, use standard out to display errors. cout << odbcErrMsg.c_str() << endl; cout << wxT("Press any key to continue...") << endl; getchar(); #endif #ifdef __WXDEBUG__ wxLogDebug(odbcErrMsg,wxT("ODBC DEBUG MESSAGE from DispAllErrors()")); #endif } } return false; // This function always returns false. } // wxDb::DispAllErrors() /********** wxDb::GetNextError() **********/ bool wxDb::GetNextError(HENV aHenv, HDBC aHdbc, HSTMT aHstmt) { if (SQLError(aHenv, aHdbc, aHstmt, (SQLTCHAR FAR *) sqlState, &nativeError, (SQLTCHAR FAR *) errorMsg, SQL_MAX_MESSAGE_LENGTH - 1, &cbErrorMsg) == SQL_SUCCESS) return true; else return false; } // wxDb::GetNextError() /********** wxDb::DispNextError() **********/ void wxDb::DispNextError(void) { wxString odbcErrMsg; odbcErrMsg.Printf(wxT("SQL State = %s\nNative Error Code = %li\nError Message = %s\n"), sqlState, (long)nativeError, errorMsg); logError(odbcErrMsg, sqlState); if (silent) return; #ifdef DBDEBUG_CONSOLE // When run in console mode, use standard out to display errors. cout << odbcErrMsg.c_str() << endl; cout << wxT("Press any key to continue...") << endl; getchar(); #endif #ifdef __WXDEBUG__ wxLogDebug(odbcErrMsg,wxT("ODBC DEBUG MESSAGE")); #endif // __WXDEBUG__ } // wxDb::DispNextError() /********** wxDb::logError() **********/ void wxDb::logError(const wxString &errMsg, const wxString &SQLState) { wxASSERT(errMsg.length()); static int pLast = -1; int dbStatus; if (++pLast == DB_MAX_ERROR_HISTORY) { int i; for (i = 0; i < DB_MAX_ERROR_HISTORY-1; i++) wxStrcpy(errorList[i], errorList[i+1]); pLast--; } wxStrncpy(errorList[pLast], errMsg, DB_MAX_ERROR_MSG_LEN); errorList[pLast][DB_MAX_ERROR_MSG_LEN-1] = 0; if (SQLState.length()) if ((dbStatus = TranslateSqlState(SQLState)) != DB_ERR_FUNCTION_SEQUENCE_ERROR) DB_STATUS = dbStatus; // Add the errmsg to the sql log WriteSqlLog(errMsg); } // wxDb::logError() /**********wxDb::TranslateSqlState() **********/ int wxDb::TranslateSqlState(const wxString &SQLState) { if (!wxStrcmp(SQLState, wxT("01000"))) return(DB_ERR_GENERAL_WARNING); if (!wxStrcmp(SQLState, wxT("01002"))) return(DB_ERR_DISCONNECT_ERROR); if (!wxStrcmp(SQLState, wxT("01004"))) return(DB_ERR_DATA_TRUNCATED); if (!wxStrcmp(SQLState, wxT("01006"))) return(DB_ERR_PRIV_NOT_REVOKED); if (!wxStrcmp(SQLState, wxT("01S00"))) return(DB_ERR_INVALID_CONN_STR_ATTR); if (!wxStrcmp(SQLState, wxT("01S01"))) return(DB_ERR_ERROR_IN_ROW); if (!wxStrcmp(SQLState, wxT("01S02"))) return(DB_ERR_OPTION_VALUE_CHANGED); if (!wxStrcmp(SQLState, wxT("01S03"))) return(DB_ERR_NO_ROWS_UPD_OR_DEL); if (!wxStrcmp(SQLState, wxT("01S04"))) return(DB_ERR_MULTI_ROWS_UPD_OR_DEL); if (!wxStrcmp(SQLState, wxT("07001"))) return(DB_ERR_WRONG_NO_OF_PARAMS); if (!wxStrcmp(SQLState, wxT("07006"))) return(DB_ERR_DATA_TYPE_ATTR_VIOL); if (!wxStrcmp(SQLState, wxT("08001"))) return(DB_ERR_UNABLE_TO_CONNECT); if (!wxStrcmp(SQLState, wxT("08002"))) return(DB_ERR_CONNECTION_IN_USE); if (!wxStrcmp(SQLState, wxT("08003"))) return(DB_ERR_CONNECTION_NOT_OPEN); if (!wxStrcmp(SQLState, wxT("08004"))) return(DB_ERR_REJECTED_CONNECTION); if (!wxStrcmp(SQLState, wxT("08007"))) return(DB_ERR_CONN_FAIL_IN_TRANS); if (!wxStrcmp(SQLState, wxT("08S01"))) return(DB_ERR_COMM_LINK_FAILURE); if (!wxStrcmp(SQLState, wxT("21S01"))) return(DB_ERR_INSERT_VALUE_LIST_MISMATCH); if (!wxStrcmp(SQLState, wxT("21S02"))) return(DB_ERR_DERIVED_TABLE_MISMATCH); if (!wxStrcmp(SQLState, wxT("22001"))) return(DB_ERR_STRING_RIGHT_TRUNC); if (!wxStrcmp(SQLState, wxT("22003"))) return(DB_ERR_NUMERIC_VALUE_OUT_OF_RNG); if (!wxStrcmp(SQLState, wxT("22005"))) return(DB_ERR_ERROR_IN_ASSIGNMENT); if (!wxStrcmp(SQLState, wxT("22008"))) return(DB_ERR_DATETIME_FLD_OVERFLOW); if (!wxStrcmp(SQLState, wxT("22012"))) return(DB_ERR_DIVIDE_BY_ZERO); if (!wxStrcmp(SQLState, wxT("22026"))) return(DB_ERR_STR_DATA_LENGTH_MISMATCH); if (!wxStrcmp(SQLState, wxT("23000"))) return(DB_ERR_INTEGRITY_CONSTRAINT_VIOL); if (!wxStrcmp(SQLState, wxT("24000"))) return(DB_ERR_INVALID_CURSOR_STATE); if (!wxStrcmp(SQLState, wxT("25000"))) return(DB_ERR_INVALID_TRANS_STATE); if (!wxStrcmp(SQLState, wxT("28000"))) return(DB_ERR_INVALID_AUTH_SPEC); if (!wxStrcmp(SQLState, wxT("34000"))) return(DB_ERR_INVALID_CURSOR_NAME); if (!wxStrcmp(SQLState, wxT("37000"))) return(DB_ERR_SYNTAX_ERROR_OR_ACCESS_VIOL); if (!wxStrcmp(SQLState, wxT("3C000"))) return(DB_ERR_DUPLICATE_CURSOR_NAME); if (!wxStrcmp(SQLState, wxT("40001"))) return(DB_ERR_SERIALIZATION_FAILURE); if (!wxStrcmp(SQLState, wxT("42000"))) return(DB_ERR_SYNTAX_ERROR_OR_ACCESS_VIOL2); if (!wxStrcmp(SQLState, wxT("70100"))) return(DB_ERR_OPERATION_ABORTED); if (!wxStrcmp(SQLState, wxT("IM001"))) return(DB_ERR_UNSUPPORTED_FUNCTION); if (!wxStrcmp(SQLState, wxT("IM002"))) return(DB_ERR_NO_DATA_SOURCE); if (!wxStrcmp(SQLState, wxT("IM003"))) return(DB_ERR_DRIVER_LOAD_ERROR); if (!wxStrcmp(SQLState, wxT("IM004"))) return(DB_ERR_SQLALLOCENV_FAILED); if (!wxStrcmp(SQLState, wxT("IM005"))) return(DB_ERR_SQLALLOCCONNECT_FAILED); if (!wxStrcmp(SQLState, wxT("IM006"))) return(DB_ERR_SQLSETCONNECTOPTION_FAILED); if (!wxStrcmp(SQLState, wxT("IM007"))) return(DB_ERR_NO_DATA_SOURCE_DLG_PROHIB); if (!wxStrcmp(SQLState, wxT("IM008"))) return(DB_ERR_DIALOG_FAILED); if (!wxStrcmp(SQLState, wxT("IM009"))) return(DB_ERR_UNABLE_TO_LOAD_TRANSLATION_DLL); if (!wxStrcmp(SQLState, wxT("IM010"))) return(DB_ERR_DATA_SOURCE_NAME_TOO_LONG); if (!wxStrcmp(SQLState, wxT("IM011"))) return(DB_ERR_DRIVER_NAME_TOO_LONG); if (!wxStrcmp(SQLState, wxT("IM012"))) return(DB_ERR_DRIVER_KEYWORD_SYNTAX_ERROR); if (!wxStrcmp(SQLState, wxT("IM013"))) return(DB_ERR_TRACE_FILE_ERROR); if (!wxStrcmp(SQLState, wxT("S0001"))) return(DB_ERR_TABLE_OR_VIEW_ALREADY_EXISTS); if (!wxStrcmp(SQLState, wxT("S0002"))) return(DB_ERR_TABLE_NOT_FOUND); if (!wxStrcmp(SQLState, wxT("S0011"))) return(DB_ERR_INDEX_ALREADY_EXISTS); if (!wxStrcmp(SQLState, wxT("S0012"))) return(DB_ERR_INDEX_NOT_FOUND); if (!wxStrcmp(SQLState, wxT("S0021"))) return(DB_ERR_COLUMN_ALREADY_EXISTS); if (!wxStrcmp(SQLState, wxT("S0022"))) return(DB_ERR_COLUMN_NOT_FOUND); if (!wxStrcmp(SQLState, wxT("S0023"))) return(DB_ERR_NO_DEFAULT_FOR_COLUMN); if (!wxStrcmp(SQLState, wxT("S1000"))) return(DB_ERR_GENERAL_ERROR); if (!wxStrcmp(SQLState, wxT("S1001"))) return(DB_ERR_MEMORY_ALLOCATION_FAILURE); if (!wxStrcmp(SQLState, wxT("S1002"))) return(DB_ERR_INVALID_COLUMN_NUMBER); if (!wxStrcmp(SQLState, wxT("S1003"))) return(DB_ERR_PROGRAM_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1004"))) return(DB_ERR_SQL_DATA_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1008"))) return(DB_ERR_OPERATION_CANCELLED); if (!wxStrcmp(SQLState, wxT("S1009"))) return(DB_ERR_INVALID_ARGUMENT_VALUE); if (!wxStrcmp(SQLState, wxT("S1010"))) return(DB_ERR_FUNCTION_SEQUENCE_ERROR); if (!wxStrcmp(SQLState, wxT("S1011"))) return(DB_ERR_OPERATION_INVALID_AT_THIS_TIME); if (!wxStrcmp(SQLState, wxT("S1012"))) return(DB_ERR_INVALID_TRANS_OPERATION_CODE); if (!wxStrcmp(SQLState, wxT("S1015"))) return(DB_ERR_NO_CURSOR_NAME_AVAIL); if (!wxStrcmp(SQLState, wxT("S1090"))) return(DB_ERR_INVALID_STR_OR_BUF_LEN); if (!wxStrcmp(SQLState, wxT("S1091"))) return(DB_ERR_DESCRIPTOR_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1092"))) return(DB_ERR_OPTION_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1093"))) return(DB_ERR_INVALID_PARAM_NO); if (!wxStrcmp(SQLState, wxT("S1094"))) return(DB_ERR_INVALID_SCALE_VALUE); if (!wxStrcmp(SQLState, wxT("S1095"))) return(DB_ERR_FUNCTION_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1096"))) return(DB_ERR_INF_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1097"))) return(DB_ERR_COLUMN_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1098"))) return(DB_ERR_SCOPE_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1099"))) return(DB_ERR_NULLABLE_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1100"))) return(DB_ERR_UNIQUENESS_OPTION_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1101"))) return(DB_ERR_ACCURACY_OPTION_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1103"))) return(DB_ERR_DIRECTION_OPTION_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1104"))) return(DB_ERR_INVALID_PRECISION_VALUE); if (!wxStrcmp(SQLState, wxT("S1105"))) return(DB_ERR_INVALID_PARAM_TYPE); if (!wxStrcmp(SQLState, wxT("S1106"))) return(DB_ERR_FETCH_TYPE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1107"))) return(DB_ERR_ROW_VALUE_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1108"))) return(DB_ERR_CONCURRENCY_OPTION_OUT_OF_RANGE); if (!wxStrcmp(SQLState, wxT("S1109"))) return(DB_ERR_INVALID_CURSOR_POSITION); if (!wxStrcmp(SQLState, wxT("S1110"))) return(DB_ERR_INVALID_DRIVER_COMPLETION); if (!wxStrcmp(SQLState, wxT("S1111"))) return(DB_ERR_INVALID_BOOKMARK_VALUE); if (!wxStrcmp(SQLState, wxT("S1C00"))) return(DB_ERR_DRIVER_NOT_CAPABLE); if (!wxStrcmp(SQLState, wxT("S1T00"))) return(DB_ERR_TIMEOUT_EXPIRED); // No match return(0); } // wxDb::TranslateSqlState() /********** wxDb::Grant() **********/ bool wxDb::Grant(int privileges, const wxString &tableName, const wxString &userList) { wxString sqlStmt; // Build the grant statement sqlStmt = wxT("GRANT "); if (privileges == DB_GRANT_ALL) sqlStmt += wxT("ALL"); else { int c = 0; if (privileges & DB_GRANT_SELECT) { sqlStmt += wxT("SELECT"); c++; } if (privileges & DB_GRANT_INSERT) { if (c++) sqlStmt += wxT(", "); sqlStmt += wxT("INSERT"); } if (privileges & DB_GRANT_UPDATE) { if (c++) sqlStmt += wxT(", "); sqlStmt += wxT("UPDATE"); } if (privileges & DB_GRANT_DELETE) { if (c++) sqlStmt += wxT(", "); sqlStmt += wxT("DELETE"); } } sqlStmt += wxT(" ON "); sqlStmt += SQLTableName(tableName); sqlStmt += wxT(" TO "); sqlStmt += userList; #ifdef DBDEBUG_CONSOLE cout << endl << sqlStmt.c_str() << endl; #endif WriteSqlLog(sqlStmt); return(ExecSql(sqlStmt)); } // wxDb::Grant() /********** wxDb::CreateView() **********/ bool wxDb::CreateView(const wxString &viewName, const wxString &colList, const wxString &pSqlStmt, bool attemptDrop) { wxString sqlStmt; // Drop the view first if (attemptDrop && !DropView(viewName)) return false; // Build the create view statement sqlStmt = wxT("CREATE VIEW "); sqlStmt += viewName; if (colList.length()) { sqlStmt += wxT(" ("); sqlStmt += colList; sqlStmt += wxT(")"); } sqlStmt += wxT(" AS "); sqlStmt += pSqlStmt; WriteSqlLog(sqlStmt); #ifdef DBDEBUG_CONSOLE cout << sqlStmt.c_str() << endl; #endif return(ExecSql(sqlStmt)); } // wxDb::CreateView() /********** wxDb::DropView() **********/ bool wxDb::DropView(const wxString &viewName) { /* * NOTE: This function returns true if the View does not exist, but * only for identified databases. Code will need to be added * below for any other databases when those databases are defined * to handle this situation consistently */ wxString sqlStmt; sqlStmt.Printf(wxT("DROP VIEW %s"), viewName.c_str()); WriteSqlLog(sqlStmt); #ifdef DBDEBUG_CONSOLE cout << endl << sqlStmt.c_str() << endl; #endif if (SQLExecDirect(hstmt, (SQLTCHAR FAR *) sqlStmt.c_str(), SQL_NTS) != SQL_SUCCESS) { // Check for "Base table not found" error and ignore GetNextError(henv, hdbc, hstmt); if (wxStrcmp(sqlState,wxT("S0002"))) // "Base table not found" { // Check for product specific error codes if (!((Dbms() == dbmsSYBASE_ASA && !wxStrcmp(sqlState,wxT("42000"))))) // 5.x (and lower?) { DispNextError(); DispAllErrors(henv, hdbc, hstmt); RollbackTrans(); return false; } } } // Commit the transaction if (!CommitTrans()) return false; return true; } // wxDb::DropView() /********** wxDb::ExecSql() **********/ bool wxDb::ExecSql(const wxString &pSqlStmt) { RETCODE retcode; SQLFreeStmt(hstmt, SQL_CLOSE); retcode = SQLExecDirect(hstmt, (SQLTCHAR FAR *) pSqlStmt.c_str(), SQL_NTS); if (retcode == SQL_SUCCESS || (Dbms() == dbmsDB2 && (retcode == SQL_SUCCESS_WITH_INFO || retcode == SQL_NO_DATA_FOUND))) { return true; } else { DispAllErrors(henv, hdbc, hstmt); return false; } } // wxDb::ExecSql() /********** wxDb::ExecSql() with column info **********/ bool wxDb::ExecSql(const wxString &pSqlStmt, wxDbColInf** columns, short& numcols) { //execute the statement first if (!ExecSql(pSqlStmt)) return false; SWORD noCols; if (SQLNumResultCols(hstmt, &noCols) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); return false; } if (noCols == 0) return false; else numcols = noCols; // Get column information short colNum; wxChar name[DB_MAX_COLUMN_NAME_LEN+1]; SWORD Sword; SQLLEN Sqllen; wxDbColInf* pColInf = new wxDbColInf[noCols]; // Fill in column information (name, datatype) for (colNum = 0; colNum < noCols; colNum++) { if (SQLColAttributes(hstmt, (UWORD)(colNum+1), SQL_COLUMN_NAME, name, sizeof(name), &Sword, &Sqllen) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); delete[] pColInf; return false; } wxStrncpy(pColInf[colNum].colName, name, DB_MAX_COLUMN_NAME_LEN); pColInf[colNum].colName[DB_MAX_COLUMN_NAME_LEN] = 0; // Prevent buffer overrun if (SQLColAttributes(hstmt, (UWORD)(colNum+1), SQL_COLUMN_TYPE, NULL, 0, &Sword, &Sqllen) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); delete[] pColInf; return false; } switch (Sqllen) { #if wxUSE_UNICODE #if defined(SQL_WCHAR) case SQL_WCHAR: #endif #if defined(SQL_WVARCHAR) case SQL_WVARCHAR: #endif #endif case SQL_VARCHAR: case SQL_CHAR: pColInf[colNum].dbDataType = DB_DATA_TYPE_VARCHAR; break; case SQL_LONGVARCHAR: pColInf[colNum].dbDataType = DB_DATA_TYPE_MEMO; break; case SQL_TINYINT: case SQL_SMALLINT: case SQL_INTEGER: case SQL_BIT: pColInf[colNum].dbDataType = DB_DATA_TYPE_INTEGER; break; case SQL_DOUBLE: case SQL_DECIMAL: case SQL_NUMERIC: case SQL_FLOAT: case SQL_REAL: pColInf[colNum].dbDataType = DB_DATA_TYPE_FLOAT; break; case SQL_DATE: case SQL_TIMESTAMP: pColInf[colNum].dbDataType = DB_DATA_TYPE_DATE; break; case SQL_BINARY: pColInf[colNum].dbDataType = DB_DATA_TYPE_BLOB; break; #ifdef __WXDEBUG__ default: wxString errMsg; errMsg.Printf(wxT("SQL Data type %ld currently not supported by wxWidgets"), (long)Sqllen); wxLogDebug(errMsg,wxT("ODBC DEBUG MESSAGE")); #endif } } *columns = pColInf; return true; } // wxDb::ExecSql() /********** wxDb::GetNext() **********/ bool wxDb::GetNext(void) { if (SQLFetch(hstmt) == SQL_SUCCESS) return true; else { DispAllErrors(henv, hdbc, hstmt); return false; } } // wxDb::GetNext() /********** wxDb::GetData() **********/ bool wxDb::GetData(UWORD colNo, SWORD cType, PTR pData, SDWORD maxLen, SQLLEN FAR *cbReturned) { wxASSERT(pData); wxASSERT(cbReturned); long bufferSize = maxLen; if (cType == SQL_C_WXCHAR) bufferSize = maxLen * sizeof(wxChar); if (SQLGetData(hstmt, colNo, cType, pData, bufferSize, cbReturned) == SQL_SUCCESS) return true; else { DispAllErrors(henv, hdbc, hstmt); return false; } } // wxDb::GetData() /********** wxDb::GetKeyFields() **********/ int wxDb::GetKeyFields(const wxString &tableName, wxDbColInf* colInf, UWORD noCols) { wxChar szPkTable[DB_MAX_TABLE_NAME_LEN+1]; /* Primary key table name */ wxChar szFkTable[DB_MAX_TABLE_NAME_LEN+1]; /* Foreign key table name */ SWORD iKeySeq; wxChar szPkCol[DB_MAX_COLUMN_NAME_LEN+1]; /* Primary key column */ wxChar szFkCol[DB_MAX_COLUMN_NAME_LEN+1]; /* Foreign key column */ SQLRETURN retcode; SQLLEN cb; SWORD i; wxString tempStr; /* * ----------------------------------------------------------------------- * -- 19991224 : mj10777 : Create ------ * -- : Three things are done and stored here : ------ * -- : 1) which Column(s) is/are Primary Key(s) ------ * -- : 2) which tables use this Key as a Foreign Key ------ * -- : 3) which columns are Foreign Key and the name ------ * -- : of the Table where the Key is the Primary Key ----- * -- : Called from GetColumns(const wxString &tableName, ------ * -- int *numCols,const wxChar *userID ) ------ * ----------------------------------------------------------------------- */ /*---------------------------------------------------------------------*/ /* Get the names of the columns in the primary key. */ /*---------------------------------------------------------------------*/ retcode = SQLPrimaryKeys(hstmt, NULL, 0, /* Catalog name */ NULL, 0, /* Schema name */ (SQLTCHAR FAR *) tableName.c_str(), SQL_NTS); /* Table name */ /*---------------------------------------------------------------------*/ /* Fetch and display the result set. This will be a list of the */ /* columns in the primary key of the tableName table. */ /*---------------------------------------------------------------------*/ while ((retcode == SQL_SUCCESS) || (retcode == SQL_SUCCESS_WITH_INFO)) { retcode = SQLFetch(hstmt); if (retcode == SQL_SUCCESS || retcode == SQL_SUCCESS_WITH_INFO) { GetData( 4, SQL_C_WXCHAR, szPkCol, DB_MAX_COLUMN_NAME_LEN+1, &cb); GetData( 5, SQL_C_SSHORT, &iKeySeq, 0, &cb); //------- for (i=0;iGetColumns(tableList, userID); * if (colInf) * { * // Use the column inf * ....... * // Destroy the memory * delete [] colInf; * } * * userID is evaluated in the following manner: * userID == NULL ... UserID is ignored * userID == "" ... UserID set equal to 'this->uid' * userID != "" ... UserID set equal to 'userID' * * NOTE: ALL column bindings associated with this wxDb instance are unbound * by this function. This function should use its own wxDb instance * to avoid undesired unbinding of columns. */ { UWORD noCols = 0; UWORD colNo = 0; wxDbColInf *colInf = 0; RETCODE retcode; SQLLEN cb; wxString TableName; wxString UserID; convertUserID(userID,UserID); // Pass 1 - Determine how many columns there are. // Pass 2 - Allocate the wxDbColInf array and fill in // the array with the column information. int pass; for (pass = 1; pass <= 2; pass++) { if (pass == 2) { if (noCols == 0) // Probably a bogus table name(s) break; // Allocate n wxDbColInf objects to hold the column information colInf = new wxDbColInf[noCols+1]; if (!colInf) break; // Mark the end of the array wxStrcpy(colInf[noCols].tableName, wxEmptyString); wxStrcpy(colInf[noCols].colName, wxEmptyString); colInf[noCols].sqlDataType = 0; } // Loop through each table name int tbl; for (tbl = 0; tableName[tbl]; tbl++) { TableName = tableName[tbl]; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); // MySQL, SQLServer, and Access cannot accept a user name when looking up column names, so we // use the call below that leaves out the user name if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } else { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers NULL, 0, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); return(0); } while ((retcode = SQLFetch(hstmt)) == SQL_SUCCESS) { if (pass == 1) // First pass, just add up the number of columns noCols++; else // Pass 2; Fill in the array of structures { if (colNo < noCols) // Some extra error checking to prevent memory overwrites { // NOTE: Only the ODBC 1.x fields are retrieved GetData( 1, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].catalog, 128+1, &cb); GetData( 2, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].schema, 128+1, &cb); GetData( 3, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].tableName, DB_MAX_TABLE_NAME_LEN+1, &cb); GetData( 4, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].colName, DB_MAX_COLUMN_NAME_LEN+1, &cb); GetData( 5, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].sqlDataType, 0, &cb); GetData( 6, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].typeName, 128+1, &cb); GetData( 7, SQL_C_SLONG, (UCHAR*) &colInf[colNo].columnLength, 0, &cb); GetData( 8, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].bufferSize, 0, &cb); GetData( 9, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].decimalDigits,0, &cb); GetData(10, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].numPrecRadix, 0, &cb); GetData(11, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].nullable, 0, &cb); GetData(12, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].remarks, 254+1, &cb); // Determine the wxDb data type that is used to represent the native data type of this data source colInf[colNo].dbDataType = 0; if (!wxStricmp(typeInfVarchar.TypeName,colInf[colNo].typeName)) { #ifdef _IODBC_ // IODBC does not return a correct columnLength, so we set // columnLength = bufferSize if no column length was returned // IODBC returns the columnLength in bufferSize. (bug) if (colInf[colNo].columnLength < 1) { colInf[colNo].columnLength = colInf[colNo].bufferSize; } #endif colInf[colNo].dbDataType = DB_DATA_TYPE_VARCHAR; } else if (!wxStricmp(typeInfInteger.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_INTEGER; else if (!wxStricmp(typeInfFloat.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_FLOAT; else if (!wxStricmp(typeInfDate.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_DATE; else if (!wxStricmp(typeInfBlob.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_BLOB; colNo++; } } } if (retcode != SQL_NO_DATA_FOUND) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); return(0); } } } SQLFreeStmt(hstmt, SQL_CLOSE); return colInf; } // wxDb::GetColumns() /********** wxDb::GetColumns() **********/ wxDbColInf *wxDb::GetColumns(const wxString &tableName, UWORD *numCols, const wxChar *userID) // // Same as the above GetColumns() function except this one gets columns // only for a single table, and if 'numCols' is not NULL, the number of // columns stored in the returned wxDbColInf is set in '*numCols' // // userID is evaluated in the following manner: // userID == NULL ... UserID is ignored // userID == "" ... UserID set equal to 'this->uid' // userID != "" ... UserID set equal to 'userID' // // NOTE: ALL column bindings associated with this wxDb instance are unbound // by this function. This function should use its own wxDb instance // to avoid undesired unbinding of columns. { UWORD noCols = 0; UWORD colNo = 0; wxDbColInf *colInf = 0; RETCODE retcode; SQLLEN cb; wxString TableName; wxString UserID; convertUserID(userID,UserID); // Pass 1 - Determine how many columns there are. // Pass 2 - Allocate the wxDbColInf array and fill in // the array with the column information. int pass; for (pass = 1; pass <= 2; pass++) { if (pass == 2) { if (noCols == 0) // Probably a bogus table name(s) break; // Allocate n wxDbColInf objects to hold the column information colInf = new wxDbColInf[noCols+1]; if (!colInf) break; // Mark the end of the array wxStrcpy(colInf[noCols].tableName, wxEmptyString); wxStrcpy(colInf[noCols].colName, wxEmptyString); colInf[noCols].sqlDataType = 0; } TableName = tableName; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); // MySQL, SQLServer, and Access cannot accept a user name when looking up column names, so we // use the call below that leaves out the user name if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } else { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers NULL, 0, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); if (numCols) *numCols = 0; return(0); } while ((retcode = SQLFetch(hstmt)) == SQL_SUCCESS) { if (pass == 1) // First pass, just add up the number of columns noCols++; else // Pass 2; Fill in the array of structures { if (colNo < noCols) // Some extra error checking to prevent memory overwrites { // NOTE: Only the ODBC 1.x fields are retrieved GetData( 1, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].catalog, 128+1, &cb); GetData( 2, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].schema, 128+1, &cb); GetData( 3, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].tableName, DB_MAX_TABLE_NAME_LEN+1, &cb); GetData( 4, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].colName, DB_MAX_COLUMN_NAME_LEN+1, &cb); GetData( 5, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].sqlDataType, 0, &cb); GetData( 6, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].typeName, 128+1, &cb); GetData( 7, SQL_C_SLONG, (UCHAR*) &colInf[colNo].columnLength, 0, &cb); // BJO 991214 : SQL_C_SSHORT instead of SQL_C_SLONG, otherwise fails on Sparc (probably all 64 bit architectures) GetData( 8, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].bufferSize, 0, &cb); GetData( 9, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].decimalDigits,0, &cb); GetData(10, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].numPrecRadix, 0, &cb); GetData(11, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].nullable, 0, &cb); GetData(12, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].remarks, 254+1, &cb); // Start Values for Primary/Foriegn Key (=No) colInf[colNo].PkCol = 0; // Primary key column 0=No; 1= First Key, 2 = Second Key etc. colInf[colNo].PkTableName[0] = 0; // Tablenames where Primary Key is used as a Foreign Key colInf[colNo].FkCol = 0; // Foreign key column 0=No; 1= First Key, 2 = Second Key etc. colInf[colNo].FkTableName[0] = 0; // Foreign key table name // BJO 20000428 : Virtuoso returns type names with upper cases! if (Dbms() == dbmsVIRTUOSO) { wxString s = colInf[colNo].typeName; s = s.MakeLower(); wxStrcmp(colInf[colNo].typeName, s.c_str()); } // Determine the wxDb data type that is used to represent the native data type of this data source colInf[colNo].dbDataType = 0; if (!wxStricmp(typeInfVarchar.TypeName, colInf[colNo].typeName)) { #ifdef _IODBC_ // IODBC does not return a correct columnLength, so we set // columnLength = bufferSize if no column length was returned // IODBC returns the columnLength in bufferSize. (bug) if (colInf[colNo].columnLength < 1) { colInf[colNo].columnLength = colInf[colNo].bufferSize; } #endif colInf[colNo].dbDataType = DB_DATA_TYPE_VARCHAR; } else if (!wxStricmp(typeInfInteger.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_INTEGER; else if (!wxStricmp(typeInfFloat.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_FLOAT; else if (!wxStricmp(typeInfDate.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_DATE; else if (!wxStricmp(typeInfBlob.TypeName, colInf[colNo].typeName)) colInf[colNo].dbDataType = DB_DATA_TYPE_BLOB; colNo++; } } } if (retcode != SQL_NO_DATA_FOUND) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); if (numCols) *numCols = 0; return(0); } } SQLFreeStmt(hstmt, SQL_CLOSE); // Store Primary and Foriegn Keys GetKeyFields(tableName,colInf,noCols); if (numCols) *numCols = noCols; return colInf; } // wxDb::GetColumns() #else // New GetColumns /* BJO 20000503 These are tentative new GetColumns members which should be more database independent and which always returns the columns in the order they were created. - The first one (wxDbColInf *wxDb::GetColumns(wxChar *tableName[], const wxChar* userID)) calls the second implementation for each separate table before merging the results. This makes the code easier to maintain as only one member (the second) makes the real work - wxDbColInf *wxDb::GetColumns(const wxString &tableName, int *numCols, const wxChar *userID) is a little bit improved - It doesn't anymore rely on the type-name to find out which database-type each column has - It ends by sorting the columns, so that they are returned in the same order they were created */ typedef struct { UWORD noCols; wxDbColInf *colInf; } _TableColumns; wxDbColInf *wxDb::GetColumns(wxChar *tableName[], const wxChar *userID) { int i, j; // The last array element of the tableName[] argument must be zero (null). // This is how the end of the array is detected. UWORD noCols = 0; // How many tables ? int tbl; for (tbl = 0 ; tableName[tbl]; tbl++); // Create a table to maintain the columns for each separate table _TableColumns *TableColumns = new _TableColumns[tbl]; // Fill the table for (i = 0 ; i < tbl ; i++) { TableColumns[i].colInf = GetColumns(tableName[i], &TableColumns[i].noCols, userID); if (TableColumns[i].colInf == NULL) return NULL; noCols += TableColumns[i].noCols; } // Now merge all the separate table infos wxDbColInf *colInf = new wxDbColInf[noCols+1]; // Mark the end of the array wxStrcpy(colInf[noCols].tableName, wxEmptyString); wxStrcpy(colInf[noCols].colName, wxEmptyString); colInf[noCols].sqlDataType = 0; // Merge ... int offset = 0; for (i = 0 ; i < tbl ; i++) { for (j = 0 ; j < TableColumns[i].noCols ; j++) { colInf[offset++] = TableColumns[i].colInf[j]; } } delete [] TableColumns; return colInf; } // wxDb::GetColumns() -- NEW wxDbColInf *wxDb::GetColumns(const wxString &tableName, int *numCols, const wxChar *userID) // // Same as the above GetColumns() function except this one gets columns // only for a single table, and if 'numCols' is not NULL, the number of // columns stored in the returned wxDbColInf is set in '*numCols' // // userID is evaluated in the following manner: // userID == NULL ... UserID is ignored // userID == "" ... UserID set equal to 'this->uid' // userID != "" ... UserID set equal to 'userID' // // NOTE: ALL column bindings associated with this wxDb instance are unbound // by this function. This function should use its own wxDb instance // to avoid undesired unbinding of columns. { UWORD noCols = 0; UWORD colNo = 0; wxDbColInf *colInf = 0; RETCODE retcode; SDWORD cb; wxString TableName; wxString UserID; convertUserID(userID,UserID); // Pass 1 - Determine how many columns there are. // Pass 2 - Allocate the wxDbColInf array and fill in // the array with the column information. int pass; for (pass = 1; pass <= 2; pass++) { if (pass == 2) { if (noCols == 0) // Probably a bogus table name(s) break; // Allocate n wxDbColInf objects to hold the column information colInf = new wxDbColInf[noCols+1]; if (!colInf) break; // Mark the end of the array wxStrcpy(colInf[noCols].tableName, wxEmptyString); wxStrcpy(colInf[noCols].colName, wxEmptyString); colInf[noCols].sqlDataType = 0; } TableName = tableName; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); // MySQL, SQLServer, and Access cannot accept a user name when looking up column names, so we // use the call below that leaves out the user name if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers (UCHAR *) UserID.c_str(), SQL_NTS, // Owner (UCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } else { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers NULL, 0, // Owner (UCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); if (numCols) *numCols = 0; return(0); } while ((retcode = SQLFetch(hstmt)) == SQL_SUCCESS) { if (pass == 1) // First pass, just add up the number of columns noCols++; else // Pass 2; Fill in the array of structures { if (colNo < noCols) // Some extra error checking to prevent memory overwrites { // NOTE: Only the ODBC 1.x fields are retrieved GetData( 1, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].catalog, 128+1, &cb); GetData( 2, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].schema, 128+1, &cb); GetData( 3, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].tableName, DB_MAX_TABLE_NAME_LEN+1, &cb); GetData( 4, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].colName, DB_MAX_COLUMN_NAME_LEN+1, &cb); GetData( 5, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].sqlDataType, 0, &cb); GetData( 6, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].typeName, 128+1, &cb); GetData( 7, SQL_C_SLONG, (UCHAR*) &colInf[colNo].columnLength, 0, &cb); GetData( 8, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].bufferSize, 0, &cb); GetData( 9, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].decimalDigits,0, &cb); GetData(10, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].numPrecRadix, 0, &cb); GetData(11, SQL_C_SSHORT, (UCHAR*) &colInf[colNo].nullable, 0, &cb); GetData(12, SQL_C_WXCHAR, (UCHAR*) colInf[colNo].remarks, 254+1, &cb); // Start Values for Primary/Foriegn Key (=No) colInf[colNo].PkCol = 0; // Primary key column 0=No; 1= First Key, 2 = Second Key etc. colInf[colNo].PkTableName[0] = 0; // Tablenames where Primary Key is used as a Foreign Key colInf[colNo].FkCol = 0; // Foreign key column 0=No; 1= First Key, 2 = Second Key etc. colInf[colNo].FkTableName[0] = 0; // Foreign key table name #ifdef _IODBC_ // IODBC does not return a correct columnLength, so we set // columnLength = bufferSize if no column length was returned // IODBC returns the columnLength in bufferSize. (bug) if (colInf[colNo].columnLength < 1) { colInf[colNo].columnLength = colInf[colNo].bufferSize; } #endif // Determine the wxDb data type that is used to represent the native data type of this data source colInf[colNo].dbDataType = 0; // Get the intern datatype switch (colInf[colNo].sqlDataType) { #if wxUSE_UNICODE #if defined(SQL_WCHAR) case SQL_WCHAR: #endif #if defined(SQL_WVARCHAR) case SQL_WVARCHAR: #endif #endif case SQL_VARCHAR: case SQL_CHAR: colInf[colNo].dbDataType = DB_DATA_TYPE_VARCHAR; break; case SQL_LONGVARCHAR: colInf[colNo].dbDataType = DB_DATA_TYPE_MEMO; break; case SQL_TINYINT: case SQL_SMALLINT: case SQL_INTEGER: case SQL_BIT: colInf[colNo].dbDataType = DB_DATA_TYPE_INTEGER; break; case SQL_DOUBLE: case SQL_DECIMAL: case SQL_NUMERIC: case SQL_FLOAT: case SQL_REAL: colInf[colNo].dbDataType = DB_DATA_TYPE_FLOAT; break; case SQL_DATE: case SQL_TIMESTAMP: colInf[colNo].dbDataType = DB_DATA_TYPE_DATE; break; case SQL_BINARY: colInf[colNo].dbDataType = DB_DATA_TYPE_BLOB; break; #ifdef __WXDEBUG__ default: wxString errMsg; errMsg.Printf(wxT("SQL Data type %d currently not supported by wxWidgets"), colInf[colNo].sqlDataType); wxLogDebug(errMsg,wxT("ODBC DEBUG MESSAGE")); #endif } colNo++; } } } if (retcode != SQL_NO_DATA_FOUND) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); if (colInf) delete [] colInf; SQLFreeStmt(hstmt, SQL_CLOSE); if (numCols) *numCols = 0; return(0); } } SQLFreeStmt(hstmt, SQL_CLOSE); // Store Primary and Foreign Keys GetKeyFields(tableName,colInf,noCols); /////////////////////////////////////////////////////////////////////////// // Now sort the the columns in order to make them appear in the right order /////////////////////////////////////////////////////////////////////////// // Build a generic SELECT statement which returns 0 rows wxString Stmt; Stmt.Printf(wxT("select * from \"%s\" where 0=1"), tableName); // Execute query if (SQLExecDirect(hstmt, (UCHAR FAR *) Stmt.c_str(), SQL_NTS) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); return NULL; } // Get the number of result columns if (SQLNumResultCols (hstmt, &noCols) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); return NULL; } if (noCols == 0) // Probably a bogus table name return NULL; // Get the name int i; short colNum; UCHAR name[100]; SWORD Sword; SDWORD Sdword; for (colNum = 0; colNum < noCols; colNum++) { if (SQLColAttributes(hstmt,colNum+1, SQL_COLUMN_NAME, name, sizeof(name), &Sword, &Sdword) != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); return NULL; } wxString Name1 = name; Name1 = Name1.Upper(); // Where is this name in the array ? for (i = colNum ; i < noCols ; i++) { wxString Name2 = colInf[i].colName; Name2 = Name2.Upper(); if (Name2 == Name1) { if (colNum != i) // swap to sort { wxDbColInf tmpColInf = colInf[colNum]; colInf[colNum] = colInf[i]; colInf[i] = tmpColInf; } break; } } } SQLFreeStmt(hstmt, SQL_CLOSE); /////////////////////////////////////////////////////////////////////////// // End sorting /////////////////////////////////////////////////////////////////////////// if (numCols) *numCols = noCols; return colInf; } // wxDb::GetColumns() #endif // #else OLD_GETCOLUMNS /********** wxDb::GetColumnCount() **********/ int wxDb::GetColumnCount(const wxString &tableName, const wxChar *userID) /* * Returns a count of how many columns are in a table. * If an error occurs in computing the number of columns * this function will return a -1 for the count * * userID is evaluated in the following manner: * userID == NULL ... UserID is ignored * userID == "" ... UserID set equal to 'this->uid' * userID != "" ... UserID set equal to 'userID' * * NOTE: ALL column bindings associated with this wxDb instance are unbound * by this function. This function should use its own wxDb instance * to avoid undesired unbinding of columns. */ { UWORD noCols = 0; RETCODE retcode; wxString TableName; wxString UserID; convertUserID(userID,UserID); TableName = tableName; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); // MySQL, SQLServer, and Access cannot accept a user name when looking up column names, so we // use the call below that leaves out the user name if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } else { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers NULL, 0, // Owner (SQLTCHAR *) TableName.c_str(), SQL_NTS, NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); SQLFreeStmt(hstmt, SQL_CLOSE); return(-1); } // Count the columns while ((retcode = SQLFetch(hstmt)) == SQL_SUCCESS) noCols++; if (retcode != SQL_NO_DATA_FOUND) { // Error occurred, abort DispAllErrors(henv, hdbc, hstmt); SQLFreeStmt(hstmt, SQL_CLOSE); return(-1); } SQLFreeStmt(hstmt, SQL_CLOSE); return noCols; } // wxDb::GetColumnCount() /********** wxDb::GetCatalog() *******/ wxDbInf *wxDb::GetCatalog(const wxChar *userID) /* * --------------------------------------------------------------------- * -- 19991203 : mj10777 : Create ------ * -- : Creates a wxDbInf with Tables / Cols Array ------ * -- : uses SQLTables and fills pTableInf; ------ * -- : pColInf is set to NULL and numCols to 0; ------ * -- : returns pDbInf (wxDbInf) ------ * -- - if unsuccessful (pDbInf == NULL) ------ * -- : pColInf can be filled with GetColumns(..); ------ * -- : numCols can be filled with GetColumnCount(..); ------ * --------------------------------------------------------------------- * * userID is evaluated in the following manner: * userID == NULL ... UserID is ignored * userID == "" ... UserID set equal to 'this->uid' * userID != "" ... UserID set equal to 'userID' * * NOTE: ALL column bindings associated with this wxDb instance are unbound * by this function. This function should use its own wxDb instance * to avoid undesired unbinding of columns. */ { int noTab = 0; // Counter while filling table entries int pass; RETCODE retcode; SQLLEN cb; wxString tblNameSave; wxString UserID; convertUserID(userID,UserID); //------------------------------------------------------------- // Create the Database Array of catalog entries wxDbInf *pDbInf = new wxDbInf; //------------------------------------------------------------- // Table Information // Pass 1 - Determine how many Tables there are. // Pass 2 - Create the Table array and fill it // - Create the Cols array = NULL //------------------------------------------------------------- for (pass = 1; pass <= 2; pass++) { SQLFreeStmt(hstmt, SQL_CLOSE); // Close if Open tblNameSave.Empty(); if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLTables(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // User specified NULL, 0, // All tables NULL, 0); // All columns } else { retcode = SQLTables(hstmt, NULL, 0, // All qualifiers NULL, 0, // User specified NULL, 0, // All tables NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); pDbInf = NULL; SQLFreeStmt(hstmt, SQL_CLOSE); return pDbInf; } while ((retcode = SQLFetch(hstmt)) == SQL_SUCCESS) // Table Information { if (pass == 1) // First pass, just count the Tables { if (pDbInf->numTables == 0) { GetData( 1, SQL_C_WXCHAR, (UCHAR*) pDbInf->catalog, 128+1, &cb); GetData( 2, SQL_C_WXCHAR, (UCHAR*) pDbInf->schema, 128+1, &cb); } pDbInf->numTables++; // Counter for Tables } // if (pass == 1) if (pass == 2) // Create and fill the Table entries { if (pDbInf->pTableInf == NULL) // Has the Table Array been created { // no, then create the Array pDbInf->pTableInf = new wxDbTableInf[pDbInf->numTables]; noTab = 0; } // if (pDbInf->pTableInf == NULL) // Has the Table Array been created GetData( 3, SQL_C_WXCHAR, (UCHAR*) (pDbInf->pTableInf+noTab)->tableName, DB_MAX_TABLE_NAME_LEN+1, &cb); GetData( 4, SQL_C_WXCHAR, (UCHAR*) (pDbInf->pTableInf+noTab)->tableType, 30+1, &cb); GetData( 5, SQL_C_WXCHAR, (UCHAR*) (pDbInf->pTableInf+noTab)->tableRemarks, 254+1, &cb); noTab++; } // if } // while } // for SQLFreeStmt(hstmt, SQL_CLOSE); // Query how many columns are in each table for (noTab=0;noTabnumTables;noTab++) { (pDbInf->pTableInf+noTab)->numCols = (UWORD)GetColumnCount((pDbInf->pTableInf+noTab)->tableName,UserID); } return pDbInf; } // wxDb::GetCatalog() /********** wxDb::Catalog() **********/ bool wxDb::Catalog(const wxChar *userID, const wxString &fileName) /* * Creates the text file specified in 'filename' which will contain * a minimal data dictionary of all tables accessible by the user specified * in 'userID' * * userID is evaluated in the following manner: * userID == NULL ... UserID is ignored * userID == "" ... UserID set equal to 'this->uid' * userID != "" ... UserID set equal to 'userID' * * NOTE: ALL column bindings associated with this wxDb instance are unbound * by this function. This function should use its own wxDb instance * to avoid undesired unbinding of columns. */ { wxASSERT(fileName.length()); RETCODE retcode; SQLLEN cb; wxChar tblName[DB_MAX_TABLE_NAME_LEN+1]; wxString tblNameSave; wxChar colName[DB_MAX_COLUMN_NAME_LEN+1]; SWORD sqlDataType; wxChar typeName[30+1]; SDWORD precision, length; FILE *fp = wxFopen(fileName.c_str(),wxT("wt")); if (fp == NULL) return false; SQLFreeStmt(hstmt, SQL_CLOSE); wxString UserID; convertUserID(userID,UserID); if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsFIREBIRD && Dbms() != dbmsINTERBASE && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // User specified NULL, 0, // All tables NULL, 0); // All columns } else { retcode = SQLColumns(hstmt, NULL, 0, // All qualifiers NULL, 0, // User specified NULL, 0, // All tables NULL, 0); // All columns } if (retcode != SQL_SUCCESS) { DispAllErrors(henv, hdbc, hstmt); fclose(fp); return false; } wxString outStr; tblNameSave.Empty(); int cnt = 0; while (true) { retcode = SQLFetch(hstmt); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO) break; GetData(3,SQL_C_WXCHAR, (UCHAR *) tblName, DB_MAX_TABLE_NAME_LEN+1, &cb); GetData(4,SQL_C_WXCHAR, (UCHAR *) colName, DB_MAX_COLUMN_NAME_LEN+1,&cb); GetData(5,SQL_C_SSHORT, (UCHAR *)&sqlDataType, 0, &cb); GetData(6,SQL_C_WXCHAR, (UCHAR *) typeName, sizeof(typeName), &cb); GetData(7,SQL_C_SLONG, (UCHAR *)&precision, 0, &cb); GetData(8,SQL_C_SLONG, (UCHAR *)&length, 0, &cb); if (wxStrcmp(tblName, tblNameSave.c_str())) { if (cnt) wxFputs(wxT("\n"), fp); wxFputs(wxT("================================ "), fp); wxFputs(wxT("================================ "), fp); wxFputs(wxT("===================== "), fp); wxFputs(wxT("========= "), fp); wxFputs(wxT("=========\n"), fp); outStr.Printf(wxT("%-32s %-32s %-21s %9s %9s\n"), wxT("TABLE NAME"), wxT("COLUMN NAME"), wxT("DATA TYPE"), wxT("PRECISION"), wxT("LENGTH")); wxFputs(outStr.c_str(), fp); wxFputs(wxT("================================ "), fp); wxFputs(wxT("================================ "), fp); wxFputs(wxT("===================== "), fp); wxFputs(wxT("========= "), fp); wxFputs(wxT("=========\n"), fp); tblNameSave = tblName; } outStr.Printf(wxT("%-32s %-32s (%04d)%-15s %9ld %9ld\n"), tblName, colName, sqlDataType, typeName, precision, length); if (wxFputs(outStr.c_str(), fp) == EOF) { SQLFreeStmt(hstmt, SQL_CLOSE); fclose(fp); return false; } cnt++; } if (retcode != SQL_NO_DATA_FOUND) DispAllErrors(henv, hdbc, hstmt); SQLFreeStmt(hstmt, SQL_CLOSE); fclose(fp); return(retcode == SQL_NO_DATA_FOUND); } // wxDb::Catalog() bool wxDb::TableExists(const wxString &tableName, const wxChar *userID, const wxString &tablePath) /* * Table name can refer to a table, view, alias or synonym. Returns true * if the object exists in the database. This function does not indicate * whether or not the user has privleges to query or perform other functions * on the table. * * userID is evaluated in the following manner: * userID == NULL ... UserID is ignored * userID == "" ... UserID set equal to 'this->uid' * userID != "" ... UserID set equal to 'userID' */ { wxASSERT(tableName.length()); wxString TableName; if (Dbms() == dbmsDBASE) { wxString dbName; if (tablePath.length()) dbName.Printf(wxT("%s/%s.dbf"), tablePath.c_str(), tableName.c_str()); else dbName.Printf(wxT("%s.dbf"), tableName.c_str()); bool exists; exists = wxFileExists(dbName); return exists; } wxString UserID; convertUserID(userID,UserID); TableName = tableName; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); RETCODE retcode; // Some databases cannot accept a user name when looking up table names, // so we use the call below that leaves out the user name if (!UserID.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER && Dbms() != dbmsDB2 && Dbms() != dbmsFIREBIRD && Dbms() != dbmsINTERBASE && Dbms() != dbmsPERVASIVE_SQL) { retcode = SQLTables(hstmt, NULL, 0, // All qualifiers (SQLTCHAR *) UserID.c_str(), SQL_NTS, // Only tables owned by this user (SQLTCHAR FAR *)TableName.c_str(), SQL_NTS, NULL, 0); // All table types } else { retcode = SQLTables(hstmt, NULL, 0, // All qualifiers NULL, 0, // All owners (SQLTCHAR FAR *)TableName.c_str(), SQL_NTS, NULL, 0); // All table types } if (retcode != SQL_SUCCESS) return(DispAllErrors(henv, hdbc, hstmt)); retcode = SQLFetch(hstmt); if (retcode != SQL_SUCCESS && retcode != SQL_SUCCESS_WITH_INFO) { SQLFreeStmt(hstmt, SQL_CLOSE); return(DispAllErrors(henv, hdbc, hstmt)); } SQLFreeStmt(hstmt, SQL_CLOSE); return true; } // wxDb::TableExists() /********** wxDb::TablePrivileges() **********/ bool wxDb::TablePrivileges(const wxString &tableName, const wxString &priv, const wxChar *userID, const wxChar *schema, const wxString &WXUNUSED(tablePath)) { wxASSERT(tableName.length()); wxDbTablePrivilegeInfo result; SQLLEN cbRetVal; RETCODE retcode; // We probably need to be able to dynamically set this based on // the driver type, and state. wxChar curRole[]=wxT("public"); wxString TableName; wxString UserID,Schema; convertUserID(userID,UserID); convertUserID(schema,Schema); TableName = tableName; // Oracle and Interbase table names are uppercase only, so force // the name to uppercase just in case programmer forgot to do this if ((Dbms() == dbmsORACLE) || (Dbms() == dbmsFIREBIRD) || (Dbms() == dbmsINTERBASE)) TableName = TableName.Upper(); SQLFreeStmt(hstmt, SQL_CLOSE); // Some databases cannot accept a user name when looking up table names, // so we use the call below that leaves out the user name if (!Schema.empty() && Dbms() != dbmsMY_SQL && Dbms() != dbmsACCESS && Dbms() != dbmsMS_SQL_SERVER) { retcode = SQLTablePrivileges(hstmt, NULL, 0, // Catalog (SQLTCHAR FAR *)Schema.c_str(), SQL_NTS, // Schema (SQLTCHAR FAR *)TableName.c_str(), SQL_NTS); } else { retcode = SQLTablePrivileges(hstmt, NULL, 0, // Catalog NULL, 0, // Schema (SQLTCHAR FAR *)TableName.c_str(), SQL_NTS); } #ifdef DBDEBUG_CONSOLE wxFprintf(stderr ,wxT("SQLTablePrivileges() returned %i \n"),retcode); #endif if ((retcode != SQL_SUCCESS) && (retcode != SQL_SUCCESS_WITH_INFO)) return (DispAllErrors(henv, hdbc, hstmt)); bool failed = false; retcode = SQLFetch(hstmt); while (retcode == SQL_SUCCESS || retcode == SQL_SUCCESS_WITH_INFO) { if (SQLGetData(hstmt, 1, SQL_C_WXCHAR, (UCHAR*) result.tableQual, sizeof(result.tableQual), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 2, SQL_C_WXCHAR, (UCHAR*) result.tableOwner, sizeof(result.tableOwner), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 3, SQL_C_WXCHAR, (UCHAR*) result.tableName, sizeof(result.tableName), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 4, SQL_C_WXCHAR, (UCHAR*) result.grantor, sizeof(result.grantor), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 5, SQL_C_WXCHAR, (UCHAR*) result.grantee, sizeof(result.grantee), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 6, SQL_C_WXCHAR, (UCHAR*) result.privilege, sizeof(result.privilege), &cbRetVal) != SQL_SUCCESS) failed = true; if (!failed && SQLGetData(hstmt, 7, SQL_C_WXCHAR, (UCHAR*) result.grantable, sizeof(result.grantable), &cbRetVal) != SQL_SUCCESS) failed = true; if (failed) { return(DispAllErrors(henv, hdbc, hstmt)); } #ifdef DBDEBUG_CONSOLE wxFprintf(stderr,wxT("Scanning %s privilege on table %s.%s granted by %s to %s\n"), result.privilege,result.tableOwner,result.tableName, result.grantor, result.grantee); #endif if (UserID.IsSameAs(result.tableOwner,false)) { SQLFreeStmt(hstmt, SQL_CLOSE); return true; } if (UserID.IsSameAs(result.grantee,false) && !wxStrcmp(result.privilege,priv)) { SQLFreeStmt(hstmt, SQL_CLOSE); return true; } if (!wxStrcmp(result.grantee,curRole) && !wxStrcmp(result.privilege,priv)) { SQLFreeStmt(hstmt, SQL_CLOSE); return true; } retcode = SQLFetch(hstmt); } SQLFreeStmt(hstmt, SQL_CLOSE); return false; } // wxDb::TablePrivileges const wxString wxDb::SQLTableName(const wxChar *tableName) { wxString TableName; if (Dbms() == dbmsACCESS) TableName = _T("\""); TableName += tableName; if (Dbms() == dbmsACCESS) TableName += _T("\""); return TableName; } // wxDb::SQLTableName() const wxString wxDb::SQLColumnName(const wxChar *colName) { wxString ColName; if (Dbms() == dbmsACCESS) ColName = _T("\""); ColName += colName; if (Dbms() == dbmsACCESS) ColName += _T("\""); return ColName; } // wxDb::SQLColumnName() /********** wxDb::SetSqlLogging() **********/ bool wxDb::SetSqlLogging(wxDbSqlLogState state, const wxString &filename, bool append) { wxASSERT(state == sqlLogON || state == sqlLogOFF); wxASSERT(state == sqlLogOFF || filename.length()); if (state == sqlLogON) { if (fpSqlLog == 0) { fpSqlLog = wxFopen(filename.c_str(), (append ? wxT("at") : wxT("wt"))); if (fpSqlLog == NULL) return false; } } else // sqlLogOFF { if (fpSqlLog) { if (fclose(fpSqlLog)) return false; fpSqlLog = 0; } } sqlLogState = state; return true; } // wxDb::SetSqlLogging() /********** wxDb::WriteSqlLog() **********/ bool wxDb::WriteSqlLog(const wxString &logMsg) { wxASSERT(logMsg.length()); if (fpSqlLog == 0 || sqlLogState == sqlLogOFF) return false; if (wxFputs(wxT("\n"), fpSqlLog) == EOF) return false; if (wxFputs(logMsg, fpSqlLog) == EOF) return false; if (wxFputs(wxT("\n"), fpSqlLog) == EOF) return false; return true; } // wxDb::WriteSqlLog() /********** wxDb::Dbms() **********/ wxDBMS wxDb::Dbms(void) /* * Be aware that not all database engines use the exact same syntax, and not * every ODBC compliant database is compliant to the same level of compliancy. * Some manufacturers support the minimum Level 1 compliancy, and others up * through Level 3. Others support subsets of features for levels above 1. * * If you find an inconsistency between the wxDb class and a specific database * engine, and an identifier to this section, and special handle the database in * the area where behavior is non-conforming with the other databases. * * * NOTES ABOUT ISSUES SPECIFIC TO EACH DATABASE ENGINE * --------------------------------------------------- * * ORACLE * - Currently the only database supported by the class to support VIEWS * * DBASE * - Does not support the SQL_TIMESTAMP structure * - Supports only one cursor and one connect (apparently? with Microsoft driver only?) * - Does not automatically create the primary index if the 'keyField' param of SetColDef * is true. The user must create ALL indexes from their program. * - Table names can only be 8 characters long * - Column names can only be 10 characters long * * SYBASE (all) * - To lock a record during QUERY functions, the reserved word 'HOLDLOCK' must be added * after every table name involved in the query/join if that tables matching record(s) * are to be locked * - Ignores the keywords 'FOR UPDATE'. Use the HOLDLOCK functionality described above * * SYBASE (Enterprise) * - If a column is part of the Primary Key, the column cannot be NULL * - Maximum row size is somewhere in the neighborhood of 1920 bytes * * MY_SQL * - If a column is part of the Primary Key, the column cannot be NULL * - Cannot support selecting for update [::CanSelectForUpdate()]. Always returns FALSE * - Columns that are part of primary or secondary keys must be defined as being NOT NULL * when they are created. Some code is added in ::CreateIndex to try to adjust the * column definition if it is not defined correctly, but it is experimental * - Does not support sub-queries in SQL statements * * POSTGRES * - Does not support the keywords 'ASC' or 'DESC' as of release v6.5.0 * - Does not support sub-queries in SQL statements * * DB2 * - Primary keys must be declared as NOT NULL * - Table and index names must not be longer than 13 characters in length (technically * table names can be up to 18 characters, but the primary index is created using the * base table name plus "_PIDX", so the limit if the table has a primary index is 13. * * PERVASIVE SQL * * INTERBASE * - Columns that are part of primary keys must be defined as being NOT NULL * when they are created. Some code is added in ::CreateIndex to try to adjust the * column definition if it is not defined correctly, but it is experimental */ { // Should only need to do this once for each new database connection // so return the value we already determined it to be to save time // and lots of string comparisons if (dbmsType != dbmsUNIDENTIFIED) return(dbmsType); #ifdef DBDEBUG_CONSOLE // When run in console mode, use standard out to display errors. cout << "Database connecting to: " << dbInf.dbmsName << endl; #endif // DBDEBUG_CONSOLE wxLogDebug(wxT("Database connecting to: ")); wxLogDebug(dbInf.dbmsName); wxChar baseName[25+1]; wxStrncpy(baseName, dbInf.dbmsName, 25); baseName[25] = 0; // RGG 20001025 : add support for Interbase // GT : Integrated to base classes on 20001121 if (!wxStricmp(dbInf.dbmsName,wxT("Interbase"))) return((wxDBMS)(dbmsType = dbmsINTERBASE)); // BJO 20000428 : add support for Virtuoso if (!wxStricmp(dbInf.dbmsName,wxT("OpenLink Virtuoso VDBMS"))) return((wxDBMS)(dbmsType = dbmsVIRTUOSO)); if (!wxStricmp(dbInf.dbmsName,wxT("Adaptive Server Anywhere"))) return((wxDBMS)(dbmsType = dbmsSYBASE_ASA)); // BJO 20000427 : The "SQL Server" string is also returned by SQLServer when // connected through an OpenLink driver. // Is it also returned by Sybase Adapatitve server? // OpenLink driver name is OLOD3032.DLL for msw and oplodbc.so for unix if (!wxStricmp(dbInf.dbmsName,wxT("SQL Server"))) { if (!wxStrncmp(dbInf.driverName, wxT("oplodbc"), 7) || !wxStrncmp(dbInf.driverName, wxT("OLOD"), 4)) return ((wxDBMS)(dbmsMS_SQL_SERVER)); else return ((wxDBMS)(dbmsType = dbmsSYBASE_ASE)); } if (!wxStricmp(dbInf.dbmsName,wxT("Microsoft SQL Server"))) return((wxDBMS)(dbmsType = dbmsMS_SQL_SERVER)); baseName[10] = 0; if (!wxStricmp(baseName,wxT("PostgreSQL"))) // v6.5.0 return((wxDBMS)(dbmsType = dbmsPOSTGRES)); baseName[9] = 0; if (!wxStricmp(baseName,wxT("Pervasive"))) return((wxDBMS)(dbmsType = dbmsPERVASIVE_SQL)); baseName[8] = 0; if (!wxStricmp(baseName,wxT("Informix"))) return((wxDBMS)(dbmsType = dbmsINFORMIX)); if (!wxStricmp(baseName,wxT("Firebird"))) return((wxDBMS)(dbmsType = dbmsFIREBIRD)); baseName[6] = 0; if (!wxStricmp(baseName,wxT("Oracle"))) return((wxDBMS)(dbmsType = dbmsORACLE)); if (!wxStricmp(baseName,wxT("ACCESS"))) return((wxDBMS)(dbmsType = dbmsACCESS)); if (!wxStricmp(baseName,wxT("Sybase"))) return((wxDBMS)(dbmsType = dbmsSYBASE_ASE)); baseName[5] = 0; if (!wxStricmp(baseName,wxT("DBASE"))) return((wxDBMS)(dbmsType = dbmsDBASE)); if (!wxStricmp(baseName,wxT("xBase"))) return((wxDBMS)(dbmsType = dbmsXBASE_SEQUITER)); if (!wxStricmp(baseName,wxT("MySQL"))) return((wxDBMS)(dbmsType = dbmsMY_SQL)); if (!wxStricmp(baseName,wxT("MaxDB"))) return((wxDBMS)(dbmsType = dbmsMAXDB)); baseName[3] = 0; if (!wxStricmp(baseName,wxT("DB2"))) return((wxDBMS)(dbmsType = dbmsDB2)); return((wxDBMS)(dbmsType = dbmsUNIDENTIFIED)); } // wxDb::Dbms() bool wxDb::ModifyColumn(const wxString &tableName, const wxString &columnName, int dataType, ULONG columnLength, const wxString &optionalParam) { wxASSERT(tableName.length()); wxASSERT(columnName.length()); wxASSERT((dataType == DB_DATA_TYPE_VARCHAR && columnLength > 0) || dataType != DB_DATA_TYPE_VARCHAR); // Must specify a columnLength if modifying a VARCHAR type column if (dataType == DB_DATA_TYPE_VARCHAR && !columnLength) return false; wxString dataTypeName; wxString sqlStmt; wxString alterSlashModify; switch(dataType) { case DB_DATA_TYPE_VARCHAR : dataTypeName = typeInfVarchar.TypeName; break; case DB_DATA_TYPE_INTEGER : dataTypeName = typeInfInteger.TypeName; break; case DB_DATA_TYPE_FLOAT : dataTypeName = typeInfFloat.TypeName; break; case DB_DATA_TYPE_DATE : dataTypeName = typeInfDate.TypeName; break; case DB_DATA_TYPE_BLOB : dataTypeName = typeInfBlob.TypeName; break; default: return false; } // Set the modify or alter syntax depending on the type of database connected to switch (Dbms()) { case dbmsORACLE : alterSlashModify = _T("MODIFY"); break; case dbmsMS_SQL_SERVER : alterSlashModify = _T("ALTER COLUMN"); break; case dbmsUNIDENTIFIED : return false; case dbmsSYBASE_ASA : case dbmsSYBASE_ASE : case dbmsMY_SQL : case dbmsPOSTGRES : case dbmsACCESS : case dbmsDBASE : case dbmsXBASE_SEQUITER : default : alterSlashModify = _T("MODIFY"); break; } // create the SQL statement if ( Dbms() == dbmsMY_SQL ) { sqlStmt.Printf(wxT("ALTER TABLE %s %s %s %s"), tableName.c_str(), alterSlashModify.c_str(), columnName.c_str(), dataTypeName.c_str()); } else { sqlStmt.Printf(wxT("ALTER TABLE \"%s\" \"%s\" \"%s\" %s"), tableName.c_str(), alterSlashModify.c_str(), columnName.c_str(), dataTypeName.c_str()); } // For varchars only, append the size of the column if (dataType == DB_DATA_TYPE_VARCHAR && (Dbms() != dbmsMY_SQL || dataTypeName != _T("text"))) { wxString s; s.Printf(wxT("(%lu)"), columnLength); sqlStmt += s; } // for passing things like "NOT NULL" if (optionalParam.length()) { sqlStmt += wxT(" "); sqlStmt += optionalParam; } return ExecSql(sqlStmt); } // wxDb::ModifyColumn() /********** wxDb::EscapeSqlChars() **********/ wxString wxDb::EscapeSqlChars(const wxString& valueOrig) { wxString value(valueOrig); switch (Dbms()) { case dbmsACCESS: // Access doesn't seem to care about backslashes, so only escape single quotes. value.Replace(wxT("'"), wxT("''")); break; default: // All the others are supposed to be the same for now, add special // handling for them if necessary value.Replace(wxT("\\"), wxT("\\\\")); value.Replace(wxT("'"), wxT("\\'")); break; } return value; } // wxDb::EscapeSqlChars() /********** wxDbGetConnection() **********/ wxDb WXDLLIMPEXP_ODBC *wxDbGetConnection(wxDbConnectInf *pDbConfig, bool FwdOnlyCursors) { wxDbList *pList; // Used to keep a pointer to a DB connection that matches the requested // DSN and FwdOnlyCursors settings, even if it is not FREE, so that the // data types can be copied from it (using the wxDb::Open(wxDb *) function) // rather than having to re-query the datasource to get all the values // using the wxDb::Open(Dsn,Uid,AuthStr) function wxDb *matchingDbConnection = NULL; // Scan the linked list searching for an available database connection // that's already been opened but is currently not in use. for (pList = PtrBegDbList; pList; pList = pList->PtrNext) { // The database connection must be for the same datasource // name and must currently not be in use. if (pList->Free && (pList->PtrDb->FwdOnlyCursors() == FwdOnlyCursors)) { if (pDbConfig->UseConnectionStr()) { if (pList->PtrDb->OpenedWithConnectionString() && (!wxStrcmp(pDbConfig->GetConnectionStr(), pList->ConnectionStr))) { // Found a free connection pList->Free = false; return(pList->PtrDb); } } else { if (!pList->PtrDb->OpenedWithConnectionString() && (!wxStrcmp(pDbConfig->GetDsn(), pList->Dsn))) { // Found a free connection pList->Free = false; return(pList->PtrDb); } } } if (pDbConfig->UseConnectionStr()) { if (!wxStrcmp(pDbConfig->GetConnectionStr(), pList->ConnectionStr)) matchingDbConnection = pList->PtrDb; } else { if (!wxStrcmp(pDbConfig->GetDsn(), pList->Dsn) && !wxStrcmp(pDbConfig->GetUserID(), pList->Uid) && !wxStrcmp(pDbConfig->GetPassword(), pList->AuthStr)) matchingDbConnection = pList->PtrDb; } } // No available connections. A new connection must be made and // appended to the end of the linked list. if (PtrBegDbList) { // Find the end of the list for (pList = PtrBegDbList; pList->PtrNext; pList = pList->PtrNext); // Append a new list item pList->PtrNext = new wxDbList; pList->PtrNext->PtrPrev = pList; pList = pList->PtrNext; } else // Empty list { // Create the first node on the list pList = PtrBegDbList = new wxDbList; pList->PtrPrev = 0; } // Initialize new node in the linked list pList->PtrNext = 0; pList->Free = false; pList->Dsn = pDbConfig->GetDsn(); pList->Uid = pDbConfig->GetUserID(); pList->AuthStr = pDbConfig->GetPassword(); pList->ConnectionStr = pDbConfig->GetConnectionStr(); pList->PtrDb = new wxDb(pDbConfig->GetHenv(), FwdOnlyCursors); bool opened; if (!matchingDbConnection) { if (pDbConfig->UseConnectionStr()) { opened = pList->PtrDb->Open(pDbConfig->GetConnectionStr()); } else { opened = pList->PtrDb->Open(pDbConfig->GetDsn(), pDbConfig->GetUserID(), pDbConfig->GetPassword()); } } else opened = pList->PtrDb->Open(matchingDbConnection); // Connect to the datasource if (opened) { pList->PtrDb->setCached(true); // Prevent a user from deleting a cached connection pList->PtrDb->SetSqlLogging(SQLLOGstate, SQLLOGfn, true); return(pList->PtrDb); } else // Unable to connect, destroy list item { if (pList->PtrPrev) pList->PtrPrev->PtrNext = 0; else PtrBegDbList = 0; // Empty list again pList->PtrDb->CommitTrans(); // Commit any open transactions on wxDb object pList->PtrDb->Close(); // Close the wxDb object delete pList->PtrDb; // Deletes the wxDb object delete pList; // Deletes the linked list object return(0); } } // wxDbGetConnection() /********** wxDbFreeConnection() **********/ bool WXDLLIMPEXP_ODBC wxDbFreeConnection(wxDb *pDb) { wxDbList *pList; // Scan the linked list searching for the database connection for (pList = PtrBegDbList; pList; pList = pList->PtrNext) { if (pList->PtrDb == pDb) // Found it, now free it!!! return (pList->Free = true); } // Never found the database object, return failure return false; } // wxDbFreeConnection() /********** wxDbCloseConnections() **********/ void WXDLLIMPEXP_ODBC wxDbCloseConnections(void) { wxDbList *pList, *pNext; // Traverse the linked list closing database connections and freeing memory as I go. for (pList = PtrBegDbList; pList; pList = pNext) { pNext = pList->PtrNext; // Save the pointer to next pList->PtrDb->CommitTrans(); // Commit any open transactions on wxDb object pList->PtrDb->Close(); // Close the wxDb object pList->PtrDb->setCached(false); // Allows deletion of the wxDb instance delete pList->PtrDb; // Deletes the wxDb object delete pList; // Deletes the linked list object } // Mark the list as empty PtrBegDbList = 0; } // wxDbCloseConnections() /********** wxDbConnectionsInUse() **********/ int WXDLLIMPEXP_ODBC wxDbConnectionsInUse(void) { wxDbList *pList; int cnt = 0; // Scan the linked list counting db connections that are currently in use for (pList = PtrBegDbList; pList; pList = pList->PtrNext) { if (pList->Free == false) cnt++; } return(cnt); } // wxDbConnectionsInUse() /********** wxDbLogExtendedErrorMsg() **********/ // DEBUG ONLY function const wxChar WXDLLIMPEXP_ODBC *wxDbLogExtendedErrorMsg(const wxChar *userText, wxDb *pDb, const wxChar *ErrFile, int ErrLine) { static wxString msg; msg = userText; wxString tStr; if (ErrFile || ErrLine) { msg += wxT("File: "); msg += ErrFile; msg += wxT(" Line: "); tStr.Printf(wxT("%d"),ErrLine); msg += tStr.c_str(); msg += wxT("\n"); } msg.Append (wxT("\nODBC errors:\n")); msg += wxT("\n"); // Display errors for this connection int i; for (i = 0; i < DB_MAX_ERROR_HISTORY; i++) { if (pDb->errorList[i]) { msg.Append(pDb->errorList[i]); if (wxStrcmp(pDb->errorList[i], wxEmptyString) != 0) msg.Append(wxT("\n")); // Clear the errmsg buffer so the next error will not // end up showing the previous error that have occurred wxStrcpy(pDb->errorList[i], wxEmptyString); } } msg += wxT("\n"); wxLogDebug(msg.c_str()); return msg.c_str(); } // wxDbLogExtendedErrorMsg() /********** wxDbSqlLog() **********/ bool wxDbSqlLog(wxDbSqlLogState state, const wxChar *filename) { bool append = false; wxDbList *pList; for (pList = PtrBegDbList; pList; pList = pList->PtrNext) { if (!pList->PtrDb->SetSqlLogging(state,filename,append)) return false; append = true; } SQLLOGstate = state; SQLLOGfn = filename; return true; } // wxDbSqlLog() #if 0 /********** wxDbCreateDataSource() **********/ int wxDbCreateDataSource(const wxString &driverName, const wxString &dsn, const wxString &description, bool sysDSN, const wxString &defDir, wxWindow *parent) /* * !!!! ONLY FUNCTIONAL UNDER MSW with VC6 !!!! * Very rudimentary creation of an ODBC data source. * * ODBC driver must be ODBC 3.0 compliant to use this function */ { int result = FALSE; //!!!! ONLY FUNCTIONAL UNDER MSW with VC6 !!!! #ifdef __VISUALC__ int dsnLocation; wxString setupStr; if (sysDSN) dsnLocation = ODBC_ADD_SYS_DSN; else dsnLocation = ODBC_ADD_DSN; // NOTE: The decimal 2 is an invalid character in all keyword pairs // so that is why I used it, as wxString does not deal well with // embedded nulls in strings setupStr.Printf(wxT("DSN=%s%cDescription=%s%cDefaultDir=%s%c"),dsn,2,description,2,defDir,2); // Replace the separator from above with the '\0' separator needed // by the SQLConfigDataSource() function int k; do { k = setupStr.Find((wxChar)2,true); if (k != wxNOT_FOUND) setupStr[(UINT)k] = wxT('\0'); } while (k != wxNOT_FOUND); result = SQLConfigDataSource((HWND)parent->GetHWND(), dsnLocation, driverName, setupStr.c_str()); if ((result != SQL_SUCCESS) && (result != SQL_SUCCESS_WITH_INFO)) { // check for errors caused by ConfigDSN based functions DWORD retcode = 0; WORD cb; wxChar errMsg[SQL_MAX_MESSAGE_LENGTH]; errMsg[0] = wxT('\0'); // This function is only supported in ODBC drivers v3.0 compliant and above SQLInstallerError(1,&retcode,errMsg,SQL_MAX_MESSAGE_LENGTH-1,&cb); if (retcode) { #ifdef DBDEBUG_CONSOLE // When run in console mode, use standard out to display errors. cout << errMsg << endl; cout << wxT("Press any key to continue...") << endl; getchar(); #endif // DBDEBUG_CONSOLE #ifdef __WXDEBUG__ wxLogDebug(errMsg,wxT("ODBC DEBUG MESSAGE")); #endif // __WXDEBUG__ } } else result = TRUE; #else // Using iODBC/unixODBC or some other compiler which does not support the APIs // necessary to use this function, so this function is not supported #ifdef __WXDEBUG__ wxLogDebug(wxT("wxDbCreateDataSource() not available except under VC++/MSW"),wxT("ODBC DEBUG MESSAGE")); #endif result = FALSE; #endif // __VISUALC__ return result; } // wxDbCreateDataSource() #endif /********** wxDbGetDataSource() **********/ bool wxDbGetDataSource(HENV henv, wxChar *Dsn, SWORD DsnMaxLength, wxChar *DsDesc, SWORD DsDescMaxLength, UWORD direction) /* * Dsn and DsDesc will contain the data source name and data source * description upon return */ { SWORD cb1,cb2; SWORD lengthDsn = (SWORD)(DsnMaxLength*sizeof(wxChar)); SWORD lengthDsDesc = (SWORD)(DsDescMaxLength*sizeof(wxChar)); if (SQLDataSources(henv, direction, (SQLTCHAR FAR *) Dsn, lengthDsn, &cb1, (SQLTCHAR FAR *) DsDesc, lengthDsDesc, &cb2) == SQL_SUCCESS) return true; else return false; } // wxDbGetDataSource() // Change this to 0 to remove use of all deprecated functions #if wxODBC_BACKWARD_COMPATABILITY /******************************************************************** ******************************************************************** * * The following functions are all DEPRECATED and are included for * backward compatibility reasons only * ******************************************************************** ********************************************************************/ bool SqlLog(sqlLog state, const wxChar *filename) { return wxDbSqlLog((enum wxDbSqlLogState)state, filename); } /***** DEPRECATED: use wxGetDataSource() *****/ bool GetDataSource(HENV henv, char *Dsn, SWORD DsnMax, char *DsDesc, SWORD DsDescMax, UWORD direction) { return wxDbGetDataSource(henv, Dsn, DsnMax, DsDesc, DsDescMax, direction); } /***** DEPRECATED: use wxDbGetConnection() *****/ wxDb WXDLLIMPEXP_ODBC *GetDbConnection(DbStuff *pDbStuff, bool FwdOnlyCursors) { return wxDbGetConnection((wxDbConnectInf *)pDbStuff, FwdOnlyCursors); } /***** DEPRECATED: use wxDbFreeConnection() *****/ bool WXDLLIMPEXP_ODBC FreeDbConnection(wxDb *pDb) { return wxDbFreeConnection(pDb); } /***** DEPRECATED: use wxDbCloseConnections() *****/ void WXDLLIMPEXP_ODBC CloseDbConnections(void) { wxDbCloseConnections(); } /***** DEPRECATED: use wxDbConnectionsInUse() *****/ int WXDLLIMPEXP_ODBC NumberDbConnectionsInUse(void) { return wxDbConnectionsInUse(); } #endif #endif // wxUSE_ODBC