1	// Copyright (C) 2016 The Qt Company Ltd.
2	// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only
3
4	#include "qsql_odbc_p.h"
5	#include <qsqlrecord.h>
6
7	#if defined (Q_OS_WIN32)
8	#include <qt_windows.h>
9	#endif
10	#include <qcoreapplication.h>
11	#include <qdatetime.h>
12	#include <qlist.h>
13	#include <qmath.h>
14	#include <qsqlerror.h>
15	#include <qsqlfield.h>
16	#include <qsqlindex.h>
17	#include <qstringconverter.h>
18	#include <qstringlist.h>
19	#include <qvariant.h>
20	#include <qvarlengtharray.h>
21	#include <QDebug>
22	#include <QSqlQuery>
23	#include <QtSql/private/qsqldriver_p.h>
24	#include <QtSql/private/qsqlresult_p.h>
25	#include "private/qtools_p.h"
26
27	QT_BEGIN_NAMESPACE
28
29	using namespace Qt::StringLiterals;
30
31	// non-standard ODBC SQL data type from SQL Server sometimes used instead of SQL_TIME
32	#ifndef SQL_SS_TIME2
33	#define SQL_SS_TIME2 (-154)
34	#endif
35
36	// undefine this to prevent initial check of the ODBC driver
37	#define ODBC_CHECK_DRIVER
38
39	static constexpr int COLNAMESIZE = 256;
40	static constexpr SQLSMALLINT TABLENAMESIZE = 128;
41	//Map Qt parameter types to ODBC types
42	static constexpr SQLSMALLINT qParamType[4] = { SQL_PARAM_INPUT, SQL_PARAM_INPUT, SQL_PARAM_OUTPUT, SQL_PARAM_INPUT_OUTPUT };
43
44	template<typename C, int SIZE = sizeof(SQLTCHAR)>
45	inline static QString fromSQLTCHAR(const C &input, qsizetype size = -1)
46	{
47	// Remove any trailing \0 as some drivers misguidedly append one
48	qsizetype realsize = qMin(size, input.size());
49	if (realsize > 0 && input[realsize - 1] == 0)
50	realsize--;
51	if constexpr (SIZE == 1)
52	return QString::fromUtf8(utf8: reinterpret_cast<const char *>(input.constData()), size: realsize);
53	else if constexpr (SIZE == 2)
54	return QString::fromUtf16(reinterpret_cast<const char16_t *>(input.constData()), size: realsize);
55	else if constexpr (SIZE == 4)
56	return QString::fromUcs4(reinterpret_cast<const char32_t *>(input.constData()), size: realsize);
57	else
58	static_assert(QtPrivate::value_dependent_false<SIZE>(),
59	"Don't know how to handle sizeof(SQLTCHAR) != 1/2/4");
60	}
61
62	template<int SIZE = sizeof(SQLTCHAR)>
63	QStringConverter::Encoding encodingForSqlTChar()
64	{
65	if constexpr (SIZE == 1)
66	return QStringConverter::Utf8;
67	else if constexpr (SIZE == 2)
68	return QStringConverter::Utf16;
69	else if constexpr (SIZE == 4)
70	return QStringConverter::Utf32;
71	else
72	static_assert(QtPrivate::value_dependent_false<SIZE>(),
73	"Don't know how to handle sizeof(SQLTCHAR) != 1/2/4");
74	}
75
76	inline static QVarLengthArray<SQLTCHAR> toSQLTCHAR(const QString &input)
77	{
78	QVarLengthArray<SQLTCHAR> result;
79	QStringEncoder enc(encodingForSqlTChar());
80	result.resize(sz: enc.requiredSpace(inputLength: input.size()));
81	const auto end = enc.appendToBuffer(out: reinterpret_cast<char *>(result.data()), in: input);
82	result.resize(sz: (end - reinterpret_cast<char *>(result.data())) / sizeof(SQLTCHAR));
83	return result;
84	}
85
86	class QODBCDriverPrivate : public QSqlDriverPrivate
87	{
88	Q_DECLARE_PUBLIC(QODBCDriver)
89
90	public:
91	enum DefaultCase {Lower, Mixed, Upper, Sensitive};
92	using QSqlDriverPrivate::QSqlDriverPrivate;
93
94	SQLHANDLE hEnv = nullptr;
95	SQLHANDLE hDbc = nullptr;
96
97	int disconnectCount = 0;
98	int datetimePrecision = 19;
99	bool unicode = false;
100	bool useSchema = false;
101	bool isFreeTDSDriver = false;
102	bool hasSQLFetchScroll = true;
103	bool hasMultiResultSets = false;
104
105	bool checkDriver() const;
106	void checkUnicode();
107	void checkDBMS();
108	void checkHasSQLFetchScroll();
109	void checkHasMultiResults();
110	void checkSchemaUsage();
111	void checkDateTimePrecision();
112	bool setConnectionOptions(const QString& connOpts);
113	void splitTableQualifier(const QString &qualifier, QString &catalog,
114	QString &schema, QString &table) const;
115	DefaultCase defaultCase() const;
116	QString adjustCase(const QString&) const;
117	QChar quoteChar();
118	private:
119	bool isQuoteInitialized = false;
120	QChar quote = u'"';
121	};
122
123	class QODBCResultPrivate;
124
125	class QODBCResult: public QSqlResult
126	{
127	Q_DECLARE_PRIVATE(QODBCResult)
128
129	public:
130	QODBCResult(const QODBCDriver *db);
131	virtual ~QODBCResult();
132
133	bool prepare(const QString &query) override;
134	bool exec() override;
135
136	QVariant lastInsertId() const override;
137	QVariant handle() const override;
138
139	protected:
140	bool fetchNext() override;
141	bool fetchFirst() override;
142	bool fetchLast() override;
143	bool fetchPrevious() override;
144	bool fetch(int i) override;
145	bool reset(const QString &query) override;
146	QVariant data(int field) override;
147	bool isNull(int field) override;
148	int size() override;
149	int numRowsAffected() override;
150	QSqlRecord record() const override;
151	void virtual_hook(int id, void *data) override;
152	void detachFromResultSet() override;
153	bool nextResult() override;
154	};
155
156	class QODBCResultPrivate: public QSqlResultPrivate
157	{
158	Q_DECLARE_PUBLIC(QODBCResult)
159
160	public:
161	Q_DECLARE_SQLDRIVER_PRIVATE(QODBCDriver)
162	QODBCResultPrivate(QODBCResult *q, const QODBCDriver *db)
163	: QSqlResultPrivate(q, db)
164	{
165	unicode = drv_d_func()->unicode;
166	useSchema = drv_d_func()->useSchema;
167	disconnectCount = drv_d_func()->disconnectCount;
168	hasSQLFetchScroll = drv_d_func()->hasSQLFetchScroll;
169	}
170
171	inline void clearValues()
172	{ fieldCache.fill(t: QVariant()); fieldCacheIdx = 0; }
173
174	SQLHANDLE dpEnv() const { return drv_d_func() ? drv_d_func()->hEnv : 0;}
175	SQLHANDLE dpDbc() const { return drv_d_func() ? drv_d_func()->hDbc : 0;}
176	SQLHANDLE hStmt = nullptr;
177
178	QSqlRecord rInf;
179	QVariantList fieldCache;
180	int fieldCacheIdx = 0;
181	int disconnectCount = 0;
182	bool hasSQLFetchScroll = true;
183	bool unicode = false;
184	bool useSchema = false;
185
186	bool isStmtHandleValid() const;
187	void updateStmtHandleState();
188	};
189
190	bool QODBCResultPrivate::isStmtHandleValid() const
191	{
192	return drv_d_func() && disconnectCount == drv_d_func()->disconnectCount;
193	}
194
195	void QODBCResultPrivate::updateStmtHandleState()
196	{
197	disconnectCount = drv_d_func() ? drv_d_func()->disconnectCount : 0;
198	}
199
200	struct DiagRecord
201	{
202	QString description;
203	QString sqlState;
204	QString errorCode;
205	};
206	static QList<DiagRecord> qWarnODBCHandle(int handleType, SQLHANDLE handle)
207	{
208	SQLINTEGER nativeCode = 0;
209	SQLSMALLINT msgLen = 0;
210	SQLSMALLINT i = 1;
211	SQLRETURN r = SQL_NO_DATA;
212	QVarLengthArray<SQLTCHAR, SQL_SQLSTATE_SIZE + 1> state(SQL_SQLSTATE_SIZE + 1);
213	QVarLengthArray<SQLTCHAR, SQL_MAX_MESSAGE_LENGTH + 1> description(SQL_MAX_MESSAGE_LENGTH + 1);
214	QList<DiagRecord> result;
215
216	if (!handle)
217	return result;
218	do {
219	r = SQLGetDiagRec(fHandleType: handleType,
220	handle,
221	iRecord: i,
222	szSqlState: state.data(),
223	pfNativeError: &nativeCode,
224	szErrorMsg: description.data(),
225	cbErrorMsgMax: description.size(),
226	pcbErrorMsg: &msgLen);
227	if (msgLen >= description.size()) {
228	description.resize(sz: msgLen + 1); // incl. \0 termination
229	continue;
230	}
231	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) {
232	result.push_back(t: {.description: fromSQLTCHAR(input: description, size: msgLen),
233	.sqlState: fromSQLTCHAR(input: state),
234	.errorCode: QString::number(nativeCode)});
235	} else if (r == SQL_ERROR || r == SQL_INVALID_HANDLE) {
236	break;
237	}
238	++i;
239	} while (r != SQL_NO_DATA);
240	return result;
241	}
242
243	static QList<DiagRecord> qODBCWarn(const SQLHANDLE hStmt,
244	const SQLHANDLE envHandle = nullptr,
245	const SQLHANDLE pDbC = nullptr)
246	{
247	QList<DiagRecord> result;
248	result.append(l: qWarnODBCHandle(SQL_HANDLE_ENV, handle: envHandle));
249	result.append(l: qWarnODBCHandle(SQL_HANDLE_DBC, handle: pDbC));
250	result.append(l: qWarnODBCHandle(SQL_HANDLE_STMT, handle: hStmt));
251	return result;
252	}
253
254	static QList<DiagRecord> qODBCWarn(const QODBCResultPrivate *odbc)
255	{
256	return qODBCWarn(hStmt: odbc->hStmt, envHandle: odbc->dpEnv(), pDbC: odbc->dpDbc());
257	}
258
259	static QList<DiagRecord> qODBCWarn(const QODBCDriverPrivate *odbc)
260	{
261	return qODBCWarn(hStmt: nullptr, envHandle: odbc->hEnv, pDbC: odbc->hDbc);
262	}
263
264	static DiagRecord combineRecords(const QList<DiagRecord> &records)
265	{
266	const auto add = [](const DiagRecord &a, const DiagRecord &b) {
267	return DiagRecord{.description: a.description + u' ' + b.description,
268	.sqlState: a.sqlState + u';' + b.sqlState,
269	.errorCode: a.errorCode + u';' + b.errorCode};
270	};
271	return std::accumulate(first: std::next(x: records.begin()), last: records.end(), init: records.front(), binary_op: add);
272	}
273
274	static QSqlError errorFromDiagRecords(const QString &err,
275	QSqlError::ErrorType type,
276	const QList<DiagRecord> &records)
277	{
278	if (records.empty())
279	return QSqlError("QODBC: unknown error"_L1, {}, type, {});
280	const auto combined = combineRecords(records);
281	return QSqlError("QODBC: "_L1 + err, combined.description + ", "_L1 + combined.sqlState, type,
282	combined.errorCode);
283	}
284
285	static QString errorStringFromDiagRecords(const QList<DiagRecord>& records)
286	{
287	const auto combined = combineRecords(records);
288	return combined.description;
289	}
290
291	template<class T>
292	static void qSqlWarning(const QString &message, T &&val)
293	{
294	qWarning() << message << "\tError:" << errorStringFromDiagRecords(qODBCWarn(val));
295	}
296
297	static QSqlError qMakeError(const QString &err,
298	QSqlError::ErrorType type,
299	const QODBCResultPrivate *p)
300	{
301	return errorFromDiagRecords(err, type, records: qODBCWarn(odbc: p));
302	}
303
304	static QSqlError qMakeError(const QString &err,
305	QSqlError::ErrorType type,
306	const QODBCDriverPrivate *p)
307	{
308	return errorFromDiagRecords(err, type, records: qODBCWarn(odbc: p));
309	}
310
311	static QMetaType qDecodeODBCType(SQLSMALLINT sqltype, bool isSigned = true)
312	{
313	int type = QMetaType::UnknownType;
314	switch (sqltype) {
315	case SQL_DECIMAL:
316	case SQL_NUMERIC:
317	case SQL_FLOAT: // 24 or 53 bits precision
318	case SQL_DOUBLE:// 53 bits
319	type = QMetaType::Double;
320	break;
321	case SQL_REAL: // 24 bits
322	type = QMetaType::Float;
323	break;
324	case SQL_SMALLINT:
325	type = isSigned ? QMetaType::Short : QMetaType::UShort;
326	break;
327	case SQL_INTEGER:
328	case SQL_BIT:
329	type = isSigned ? QMetaType::Int : QMetaType::UInt;
330	break;
331	case SQL_TINYINT:
332	type = QMetaType::UInt;
333	break;
334	case SQL_BIGINT:
335	type = isSigned ? QMetaType::LongLong : QMetaType::ULongLong;
336	break;
337	case SQL_BINARY:
338	case SQL_VARBINARY:
339	case SQL_LONGVARBINARY:
340	type = QMetaType::QByteArray;
341	break;
342	case SQL_DATE:
343	case SQL_TYPE_DATE:
344	type = QMetaType::QDate;
345	break;
346	case SQL_SS_TIME2:
347	case SQL_TIME:
348	case SQL_TYPE_TIME:
349	type = QMetaType::QTime;
350	break;
351	case SQL_TIMESTAMP:
352	case SQL_TYPE_TIMESTAMP:
353	type = QMetaType::QDateTime;
354	break;
355	case SQL_WCHAR:
356	case SQL_WVARCHAR:
357	case SQL_WLONGVARCHAR:
358	type = QMetaType::QString;
359	break;
360	case SQL_CHAR:
361	case SQL_VARCHAR:
362	#if (ODBCVER >= 0x0350)
363	case SQL_GUID:
364	#endif
365	case SQL_LONGVARCHAR:
366	type = QMetaType::QString;
367	break;
368	default:
369	type = QMetaType::QByteArray;
370	break;
371	}
372	return QMetaType(type);
373	}
374
375	template <typename CT>
376	static QVariant getStringDataImpl(SQLHANDLE hStmt, SQLUSMALLINT column, qsizetype colSize, SQLSMALLINT targetType)
377	{
378	QString fieldVal;
379	SQLRETURN r = SQL_ERROR;
380	SQLLEN lengthIndicator = 0;
381	QVarLengthArray<CT> buf(colSize);
382	while (true) {
383	r = SQLGetData(StatementHandle: hStmt,
384	ColumnNumber: column + 1,
385	TargetType: targetType,
386	TargetValue: SQLPOINTER(buf.data()), BufferLength: SQLINTEGER(buf.size() * sizeof(CT)),
387	StrLen_or_Ind: &lengthIndicator);
388	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) {
389	if (lengthIndicator == SQL_NULL_DATA) {
390	return {};
391	}
392	// starting with ODBC Native Client 2012, SQL_NO_TOTAL is returned
393	// instead of the length (which sometimes was wrong in older versions)
394	// see link for more info: http://msdn.microsoft.com/en-us/library/jj219209.aspx
395	// if length indicator equals SQL_NO_TOTAL, indicating that
396	// more data can be fetched, but size not known, collect data
397	// and fetch next block
398	if (lengthIndicator == SQL_NO_TOTAL) {
399	fieldVal += fromSQLTCHAR<QVarLengthArray<CT>, sizeof(CT)>(buf, buf.size());
400	continue;
401	}
402	// if SQL_SUCCESS_WITH_INFO is returned, indicating that
403	// more data can be fetched, the length indicator does NOT
404	// contain the number of bytes returned - it contains the
405	// total number of bytes that CAN be fetched
406	const qsizetype rSize = (r == SQL_SUCCESS_WITH_INFO)
407	? buf.size()
408	: qsizetype(lengthIndicator / sizeof(CT));
409	fieldVal += fromSQLTCHAR<QVarLengthArray<CT>, sizeof(CT)>(buf, rSize);
410	// lengthIndicator does not contain the termination character
411	if (lengthIndicator < SQLLEN((buf.size() - 1) * sizeof(CT))) {
412	// workaround for Drivermanagers that don't return SQL_NO_DATA
413	break;
414	}
415	} else if (r == SQL_NO_DATA) {
416	break;
417	} else {
418	qSqlWarning(message: "qGetStringData: Error while fetching data:"_L1, val&: hStmt);
419	return {};
420	}
421	}
422	return fieldVal;
423	}
424
425	static QVariant qGetStringData(SQLHANDLE hStmt, SQLUSMALLINT column, int colSize, bool unicode)
426	{
427	if (colSize <= 0) {
428	colSize = 256; // default Prealloc size of QVarLengthArray
429	} else if (colSize > 65536) { // limit buffer size to 64 KB
430	colSize = 65536;
431	} else {
432	colSize++; // make sure there is room for more than the 0 termination
433	}
434	return unicode ? getStringDataImpl<SQLTCHAR>(hStmt, column, colSize, SQL_C_TCHAR)
435	: getStringDataImpl<SQLCHAR>(hStmt, column, colSize, SQL_C_CHAR);
436	}
437
438	static QVariant qGetBinaryData(SQLHANDLE hStmt, int column)
439	{
440	QByteArray fieldVal;
441	SQLSMALLINT colNameLen;
442	SQLSMALLINT colType;
443	SQLULEN colSize;
444	SQLSMALLINT colScale;
445	SQLSMALLINT nullable;
446	SQLLEN lengthIndicator = 0;
447	SQLRETURN r = SQL_ERROR;
448
449	QVarLengthArray<SQLTCHAR, COLNAMESIZE> colName(COLNAMESIZE);
450
451	r = SQLDescribeCol(hstmt: hStmt,
452	icol: column + 1,
453	szColName: colName.data(), cbColNameMax: SQLSMALLINT(colName.size()),
454	pcbColName: &colNameLen,
455	pfSqlType: &colType,
456	pcbColDef: &colSize,
457	pibScale: &colScale,
458	pfNullable: &nullable);
459	if (r != SQL_SUCCESS)
460	qWarning() << "qGetBinaryData: Unable to describe column" << column;
461	// SQLDescribeCol may return 0 if size cannot be determined
462	if (!colSize)
463	colSize = 255;
464	else if (colSize > 65536) // read the field in 64 KB chunks
465	colSize = 65536;
466	fieldVal.resize(size: colSize);
467	ulong read = 0;
468	while (true) {
469	r = SQLGetData(StatementHandle: hStmt,
470	ColumnNumber: column+1,
471	SQL_C_BINARY,
472	TargetValue: const_cast<char *>(fieldVal.constData() + read),
473	BufferLength: colSize,
474	StrLen_or_Ind: &lengthIndicator);
475	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO)
476	break;
477	if (lengthIndicator == SQL_NULL_DATA)
478	return QVariant(QMetaType(QMetaType::QByteArray));
479	if (lengthIndicator > SQLLEN(colSize) || lengthIndicator == SQL_NO_TOTAL) {
480	read += colSize;
481	colSize = 65536;
482	} else {
483	read += lengthIndicator;
484	}
485	if (r == SQL_SUCCESS) { // the whole field was read in one chunk
486	fieldVal.resize(size: read);
487	break;
488	}
489	fieldVal.resize(size: fieldVal.size() + colSize);
490	}
491	return fieldVal;
492	}
493
494	static QVariant qGetIntData(SQLHANDLE hStmt, int column, bool isSigned = true)
495	{
496	SQLINTEGER intbuf = 0;
497	SQLLEN lengthIndicator = 0;
498	SQLRETURN r = SQLGetData(StatementHandle: hStmt,
499	ColumnNumber: column+1,
500	TargetType: isSigned ? SQL_C_SLONG : SQL_C_ULONG,
501	TargetValue: (SQLPOINTER)&intbuf,
502	BufferLength: sizeof(intbuf),
503	StrLen_or_Ind: &lengthIndicator);
504	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO)
505	return QVariant();
506	if (lengthIndicator == SQL_NULL_DATA)
507	return QVariant(QMetaType::fromType<int>());
508	if (isSigned)
509	return int(intbuf);
510	else
511	return uint(intbuf);
512	}
513
514	static QVariant qGetDoubleData(SQLHANDLE hStmt, int column)
515	{
516	SQLDOUBLE dblbuf;
517	SQLLEN lengthIndicator = 0;
518	SQLRETURN r = SQLGetData(StatementHandle: hStmt,
519	ColumnNumber: column+1,
520	SQL_C_DOUBLE,
521	TargetValue: (SQLPOINTER) &dblbuf,
522	BufferLength: 0,
523	StrLen_or_Ind: &lengthIndicator);
524	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
525	return QVariant();
526	}
527	if (lengthIndicator == SQL_NULL_DATA)
528	return QVariant(QMetaType::fromType<double>());
529
530	return (double) dblbuf;
531	}
532
533
534	static QVariant qGetBigIntData(SQLHANDLE hStmt, int column, bool isSigned = true)
535	{
536	SQLBIGINT lngbuf = 0;
537	SQLLEN lengthIndicator = 0;
538	SQLRETURN r = SQLGetData(StatementHandle: hStmt,
539	ColumnNumber: column+1,
540	TargetType: isSigned ? SQL_C_SBIGINT : SQL_C_UBIGINT,
541	TargetValue: (SQLPOINTER) &lngbuf,
542	BufferLength: sizeof(lngbuf),
543	StrLen_or_Ind: &lengthIndicator);
544	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO)
545	return QVariant();
546	if (lengthIndicator == SQL_NULL_DATA)
547	return QVariant(QMetaType::fromType<qlonglong>());
548
549	if (isSigned)
550	return qint64(lngbuf);
551	else
552	return quint64(lngbuf);
553	}
554
555	static bool isAutoValue(const SQLHANDLE hStmt, int column)
556	{
557	SQLLEN nNumericAttribute = 0; // Check for auto-increment
558	const SQLRETURN r = ::SQLColAttribute(hstmt: hStmt, iCol: column + 1, SQL_DESC_AUTO_UNIQUE_VALUE,
559	pCharAttr: 0, cbCharAttrMax: 0, pcbCharAttr: 0, pNumAttr: &nNumericAttribute);
560	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
561	qSqlWarning(QStringLiteral("qMakeField: Unable to get autovalue attribute for column ")
562	+ QString::number(column), val: hStmt);
563	return false;
564	}
565	return nNumericAttribute != SQL_FALSE;
566	}
567
568	static QSqlField qMakeFieldInfo(const SQLHANDLE hStmt, int i, QString *errorMessage);
569
570	// creates a QSqlField from a valid hStmt generated
571	// by SQLColumns. The hStmt has to point to a valid position.
572	static QSqlField qMakeFieldInfo(const SQLHANDLE hStmt, const QODBCDriverPrivate* p)
573	{
574	QString fname = qGetStringData(hStmt, column: 3, colSize: -1, unicode: p->unicode).toString();
575	int type = qGetIntData(hStmt, column: 4).toInt(); // column type
576	QSqlField f(fname, qDecodeODBCType(sqltype: type, isSigned: p));
577	QVariant var = qGetIntData(hStmt, column: 6);
578	f.setLength(var.isNull() ? -1 : var.toInt()); // column size
579	var = qGetIntData(hStmt, column: 8).toInt();
580	f.setPrecision(var.isNull() ? -1 : var.toInt()); // precision
581	f.setSqlType(type);
582	int required = qGetIntData(hStmt, column: 10).toInt(); // nullable-flag
583	// required can be SQL_NO_NULLS, SQL_NULLABLE or SQL_NULLABLE_UNKNOWN
584	if (required == SQL_NO_NULLS)
585	f.setRequired(true);
586	else if (required == SQL_NULLABLE)
587	f.setRequired(false);
588	// else we don't know
589	return f;
590	}
591
592	static QSqlField qMakeFieldInfo(const QODBCResultPrivate* p, int i )
593	{
594	QString errorMessage;
595	const QSqlField result = qMakeFieldInfo(hStmt: p->hStmt, i, errorMessage: &errorMessage);
596	if (!errorMessage.isEmpty())
597	qSqlWarning(message: errorMessage, val&: p);
598	return result;
599	}
600
601	static QSqlField qMakeFieldInfo(const SQLHANDLE hStmt, int i, QString *errorMessage)
602	{
603	SQLSMALLINT colNameLen;
604	SQLSMALLINT colType;
605	SQLULEN colSize;
606	SQLSMALLINT colScale;
607	SQLSMALLINT nullable;
608	SQLRETURN r = SQL_ERROR;
609	QVarLengthArray<SQLTCHAR, COLNAMESIZE> colName(COLNAMESIZE);
610	errorMessage->clear();
611	r = SQLDescribeCol(hstmt: hStmt,
612	icol: i+1,
613	szColName: colName.data(), cbColNameMax: SQLSMALLINT(colName.size()),
614	pcbColName: &colNameLen,
615	pfSqlType: &colType,
616	pcbColDef: &colSize,
617	pibScale: &colScale,
618	pfNullable: &nullable);
619
620	if (r != SQL_SUCCESS) {
621	*errorMessage = QStringLiteral("qMakeField: Unable to describe column ") + QString::number(i);
622	return QSqlField();
623	}
624
625	SQLLEN unsignedFlag = SQL_FALSE;
626	r = SQLColAttribute (hstmt: hStmt,
627	iCol: i + 1,
628	SQL_DESC_UNSIGNED,
629	pCharAttr: 0,
630	cbCharAttrMax: 0,
631	pcbCharAttr: 0,
632	pNumAttr: &unsignedFlag);
633	if (r != SQL_SUCCESS) {
634	qSqlWarning(QStringLiteral("qMakeField: Unable to get column attributes for column ")
635	+ QString::number(i), val: hStmt);
636	}
637
638	const QString qColName(fromSQLTCHAR(input: colName, size: colNameLen));
639	// nullable can be SQL_NO_NULLS, SQL_NULLABLE or SQL_NULLABLE_UNKNOWN
640	QMetaType type = qDecodeODBCType(sqltype: colType, isSigned: unsignedFlag == SQL_FALSE);
641	QSqlField f(qColName, type);
642	f.setSqlType(colType);
643	f.setLength(colSize == 0 ? -1 : int(colSize));
644	f.setPrecision(colScale == 0 ? -1 : int(colScale));
645	if (nullable == SQL_NO_NULLS)
646	f.setRequired(true);
647	else if (nullable == SQL_NULLABLE)
648	f.setRequired(false);
649	// else we don't know
650	f.setAutoValue(isAutoValue(hStmt, column: i));
651	QVarLengthArray<SQLTCHAR, TABLENAMESIZE> tableName(TABLENAMESIZE);
652	SQLSMALLINT tableNameLen;
653	r = SQLColAttribute(hstmt: hStmt,
654	iCol: i + 1,
655	SQL_DESC_BASE_TABLE_NAME,
656	pCharAttr: tableName.data(),
657	cbCharAttrMax: SQLSMALLINT(tableName.size() * sizeof(SQLTCHAR)), // SQLColAttribute needs/returns size in bytes
658	pcbCharAttr: &tableNameLen,
659	pNumAttr: 0);
660	if (r == SQL_SUCCESS)
661	f.setTableName(fromSQLTCHAR(input: tableName, size: tableNameLen / sizeof(SQLTCHAR)));
662	return f;
663	}
664
665	static size_t qGetODBCVersion(const QString &connOpts)
666	{
667	if (connOpts.contains(s: "SQL_ATTR_ODBC_VERSION=SQL_OV_ODBC3"_L1, cs: Qt::CaseInsensitive))
668	return SQL_OV_ODBC3;
669	return SQL_OV_ODBC2;
670	}
671
672	QChar QODBCDriverPrivate::quoteChar()
673	{
674	if (!isQuoteInitialized) {
675	SQLTCHAR driverResponse[4];
676	SQLSMALLINT length;
677	int r = SQLGetInfo(hdbc: hDbc,
678	SQL_IDENTIFIER_QUOTE_CHAR,
679	rgbInfoValue: &driverResponse,
680	cbInfoValueMax: sizeof(driverResponse),
681	pcbInfoValue: &length);
682	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO)
683	quote = QChar(driverResponse[0]);
684	else
685	quote = u'"';
686	isQuoteInitialized = true;
687	}
688	return quote;
689	}
690
691	static SQLRETURN qt_string_SQLSetConnectAttr(SQLHDBC handle, SQLINTEGER attr, const QString &val)
692	{
693	auto encoded = toSQLTCHAR(input: val);
694	return SQLSetConnectAttr(hdbc: handle, fAttribute: attr,
695	rgbValue: encoded.data(),
696	cbValue: SQLINTEGER(encoded.size() * sizeof(SQLTCHAR))); // size in bytes
697	}
698
699
700	bool QODBCDriverPrivate::setConnectionOptions(const QString& connOpts)
701	{
702	// Set any connection attributes
703	const QStringList opts(connOpts.split(sep: u';', behavior: Qt::SkipEmptyParts));
704	SQLRETURN r = SQL_SUCCESS;
705	for (int i = 0; i < opts.count(); ++i) {
706	const QString tmp(opts.at(i));
707	int idx;
708	if ((idx = tmp.indexOf(c: u'=')) == -1) {
709	qWarning() << "QODBCDriver::open: Illegal connect option value '" << tmp << '\'';
710	continue;
711	}
712	const QString opt(tmp.left(n: idx));
713	const QString val(tmp.mid(position: idx + 1).simplified());
714	SQLUINTEGER v = 0;
715
716	r = SQL_SUCCESS;
717	if (opt.toUpper() == "SQL_ATTR_ACCESS_MODE"_L1) {
718	if (val.toUpper() == "SQL_MODE_READ_ONLY"_L1) {
719	v = SQL_MODE_READ_ONLY;
720	} else if (val.toUpper() == "SQL_MODE_READ_WRITE"_L1) {
721	v = SQL_MODE_READ_WRITE;
722	} else {
723	qWarning() << "QODBCDriver::open: Unknown option value '" << val << '\'';
724	continue;
725	}
726	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_ACCESS_MODE, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
727	} else if (opt.toUpper() == "SQL_ATTR_CONNECTION_TIMEOUT"_L1) {
728	v = val.toUInt();
729	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_CONNECTION_TIMEOUT, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
730	} else if (opt.toUpper() == "SQL_ATTR_LOGIN_TIMEOUT"_L1) {
731	v = val.toUInt();
732	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_LOGIN_TIMEOUT, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
733	} else if (opt.toUpper() == "SQL_ATTR_CURRENT_CATALOG"_L1) {
734	r = qt_string_SQLSetConnectAttr(handle: hDbc, SQL_ATTR_CURRENT_CATALOG, val);
735	} else if (opt.toUpper() == "SQL_ATTR_METADATA_ID"_L1) {
736	if (val.toUpper() == "SQL_TRUE"_L1) {
737	v = SQL_TRUE;
738	} else if (val.toUpper() == "SQL_FALSE"_L1) {
739	v = SQL_FALSE;
740	} else {
741	qWarning() << "QODBCDriver::open: Unknown option value '" << val << '\'';
742	continue;
743	}
744	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_METADATA_ID, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
745	} else if (opt.toUpper() == "SQL_ATTR_PACKET_SIZE"_L1) {
746	v = val.toUInt();
747	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_PACKET_SIZE, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
748	} else if (opt.toUpper() == "SQL_ATTR_TRACEFILE"_L1) {
749	r = qt_string_SQLSetConnectAttr(handle: hDbc, SQL_ATTR_TRACEFILE, val);
750	} else if (opt.toUpper() == "SQL_ATTR_TRACE"_L1) {
751	if (val.toUpper() == "SQL_OPT_TRACE_OFF"_L1) {
752	v = SQL_OPT_TRACE_OFF;
753	} else if (val.toUpper() == "SQL_OPT_TRACE_ON"_L1) {
754	v = SQL_OPT_TRACE_ON;
755	} else {
756	qWarning() << "QODBCDriver::open: Unknown option value '" << val << '\'';
757	continue;
758	}
759	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_TRACE, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
760	} else if (opt.toUpper() == "SQL_ATTR_CONNECTION_POOLING"_L1) {
761	if (val == "SQL_CP_OFF"_L1)
762	v = SQL_CP_OFF;
763	else if (val.toUpper() == "SQL_CP_ONE_PER_DRIVER"_L1)
764	v = SQL_CP_ONE_PER_DRIVER;
765	else if (val.toUpper() == "SQL_CP_ONE_PER_HENV"_L1)
766	v = SQL_CP_ONE_PER_HENV;
767	else if (val.toUpper() == "SQL_CP_DEFAULT"_L1)
768	v = SQL_CP_DEFAULT;
769	else {
770	qWarning() << "QODBCDriver::open: Unknown option value '" << val << '\'';
771	continue;
772	}
773	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_CONNECTION_POOLING, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
774	} else if (opt.toUpper() == "SQL_ATTR_CP_MATCH"_L1) {
775	if (val.toUpper() == "SQL_CP_STRICT_MATCH"_L1)
776	v = SQL_CP_STRICT_MATCH;
777	else if (val.toUpper() == "SQL_CP_RELAXED_MATCH"_L1)
778	v = SQL_CP_RELAXED_MATCH;
779	else if (val.toUpper() == "SQL_CP_MATCH_DEFAULT"_L1)
780	v = SQL_CP_MATCH_DEFAULT;
781	else {
782	qWarning() << "QODBCDriver::open: Unknown option value '" << val << '\'';
783	continue;
784	}
785	r = SQLSetConnectAttr(hdbc: hDbc, SQL_ATTR_CP_MATCH, rgbValue: (SQLPOINTER) size_t(v), cbValue: 0);
786	} else if (opt.toUpper() == "SQL_ATTR_ODBC_VERSION"_L1) {
787	// Already handled in QODBCDriver::open()
788	continue;
789	} else {
790	qWarning() << "QODBCDriver::open: Unknown connection attribute '" << opt << '\'';
791	}
792	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO)
793	qSqlWarning(message: QString::fromLatin1(ba: "QODBCDriver::open: Unable to set connection attribute'%1'").arg(
794	a: opt), val: this);
795	}
796	return true;
797	}
798
799	void QODBCDriverPrivate::splitTableQualifier(const QString &qualifier, QString &catalog,
800	QString &schema, QString &table) const
801	{
802	if (!useSchema) {
803	table = qualifier;
804	return;
805	}
806	const QList<QStringView> l = QStringView(qualifier).split(sep: u'.');
807	switch (l.count()) {
808	case 1:
809	table = qualifier;
810	break;
811	case 2:
812	schema = l.at(i: 0).toString();
813	table = l.at(i: 1).toString();
814	break;
815	case 3:
816	catalog = l.at(i: 0).toString();
817	schema = l.at(i: 1).toString();
818	table = l.at(i: 2).toString();
819	break;
820	default:
821	qSqlWarning(message: QString::fromLatin1(ba: "QODBCDriver::splitTableQualifier: Unable to split table qualifier '%1'")
822	.arg(a: qualifier), val: this);
823	break;
824	}
825	}
826
827	QODBCDriverPrivate::DefaultCase QODBCDriverPrivate::defaultCase() const
828	{
829	DefaultCase ret;
830	SQLUSMALLINT casing;
831	int r = SQLGetInfo(hdbc: hDbc,
832	SQL_IDENTIFIER_CASE,
833	rgbInfoValue: &casing,
834	cbInfoValueMax: sizeof(casing),
835	NULL);
836	if ( r != SQL_SUCCESS)
837	ret = Mixed;//arbitrary case if driver cannot be queried
838	else {
839	switch (casing) {
840	case (SQL_IC_UPPER):
841	ret = Upper;
842	break;
843	case (SQL_IC_LOWER):
844	ret = Lower;
845	break;
846	case (SQL_IC_SENSITIVE):
847	ret = Sensitive;
848	break;
849	case (SQL_IC_MIXED):
850	default:
851	ret = Mixed;
852	break;
853	}
854	}
855	return ret;
856	}
857
858	/*
859	Adjust the casing of an identifier to match what the
860	database engine would have done to it.
861	*/
862	QString QODBCDriverPrivate::adjustCase(const QString &identifier) const
863	{
864	QString ret = identifier;
865	switch(defaultCase()) {
866	case (Lower):
867	ret = identifier.toLower();
868	break;
869	case (Upper):
870	ret = identifier.toUpper();
871	break;
872	case(Mixed):
873	case(Sensitive):
874	default:
875	ret = identifier;
876	}
877	return ret;
878	}
879
880	////////////////////////////////////////////////////////////////////////////
881
882	QODBCResult::QODBCResult(const QODBCDriver *db)
883	: QSqlResult(*new QODBCResultPrivate(this, db))
884	{
885	}
886
887	QODBCResult::~QODBCResult()
888	{
889	Q_D(QODBCResult);
890	if (d->hStmt && d->isStmtHandleValid() && driver() && driver()->isOpen()) {
891	SQLRETURN r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: d->hStmt);
892	if (r != SQL_SUCCESS)
893	qSqlWarning(message: "QODBCDriver: Unable to free statement handle "_L1
894	+ QString::number(r), val: d);
895	}
896	}
897
898	bool QODBCResult::reset (const QString& query)
899	{
900	Q_D(QODBCResult);
901	setActive(false);
902	setAt(QSql::BeforeFirstRow);
903	d->rInf.clear();
904	d->fieldCache.clear();
905	d->fieldCacheIdx = 0;
906
907	// Always reallocate the statement handle - the statement attributes
908	// are not reset if SQLFreeStmt() is called which causes some problems.
909	SQLRETURN r;
910	if (d->hStmt && d->isStmtHandleValid()) {
911	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: d->hStmt);
912	if (r != SQL_SUCCESS) {
913	qSqlWarning(message: "QODBCResult::reset: Unable to free statement handle"_L1, val: d);
914	return false;
915	}
916	}
917	r = SQLAllocHandle(SQL_HANDLE_STMT,
918	InputHandle: d->dpDbc(),
919	OutputHandle: &d->hStmt);
920	if (r != SQL_SUCCESS) {
921	qSqlWarning(message: "QODBCResult::reset: Unable to allocate statement handle"_L1, val: d);
922	return false;
923	}
924
925	d->updateStmtHandleState();
926
927	if (isForwardOnly()) {
928	r = SQLSetStmtAttr(hstmt: d->hStmt,
929	SQL_ATTR_CURSOR_TYPE,
930	rgbValue: (SQLPOINTER)SQL_CURSOR_FORWARD_ONLY,
931	SQL_IS_UINTEGER);
932	} else {
933	r = SQLSetStmtAttr(hstmt: d->hStmt,
934	SQL_ATTR_CURSOR_TYPE,
935	rgbValue: (SQLPOINTER)SQL_CURSOR_STATIC,
936	SQL_IS_UINTEGER);
937	}
938	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
939	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
940	key: "QODBCResult::reset: Unable to set 'SQL_CURSOR_STATIC' as statement attribute. "
941	"Please check your ODBC driver configuration"), type: QSqlError::StatementError, p: d));
942	return false;
943	}
944
945	{
946	auto encoded = toSQLTCHAR(input: query);
947	r = SQLExecDirect(hstmt: d->hStmt,
948	szSqlStr: encoded.data(),
949	cbSqlStr: SQLINTEGER(encoded.size()));
950	}
951	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO && r!= SQL_NO_DATA) {
952	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
953	key: "Unable to execute statement"), type: QSqlError::StatementError, p: d));
954	return false;
955	}
956
957	SQLULEN isScrollable = 0;
958	r = SQLGetStmtAttr(hstmt: d->hStmt, SQL_ATTR_CURSOR_SCROLLABLE, rgbValue: &isScrollable, SQL_IS_INTEGER, pcbValue: 0);
959	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO)
960	setForwardOnly(isScrollable == SQL_NONSCROLLABLE);
961
962	SQLSMALLINT count = 0;
963	SQLNumResultCols(StatementHandle: d->hStmt, ColumnCount: &count);
964	if (count) {
965	setSelect(true);
966	for (SQLSMALLINT i = 0; i < count; ++i) {
967	d->rInf.append(field: qMakeFieldInfo(p: d, i));
968	}
969	d->fieldCache.resize(size: count);
970	} else {
971	setSelect(false);
972	}
973	setActive(true);
974
975	return true;
976	}
977
978	bool QODBCResult::fetch(int i)
979	{
980	Q_D(QODBCResult);
981	if (!driver()->isOpen())
982	return false;
983
984	if (isForwardOnly() && i < at())
985	return false;
986	if (i == at())
987	return true;
988	d->clearValues();
989	int actualIdx = i + 1;
990	if (actualIdx <= 0) {
991	setAt(QSql::BeforeFirstRow);
992	return false;
993	}
994	SQLRETURN r;
995	if (isForwardOnly()) {
996	bool ok = true;
997	while (ok && i > at())
998	ok = fetchNext();
999	return ok;
1000	} else {
1001	r = SQLFetchScroll(StatementHandle: d->hStmt,
1002	SQL_FETCH_ABSOLUTE,
1003	FetchOffset: actualIdx);
1004	}
1005	if (r != SQL_SUCCESS) {
1006	if (r != SQL_NO_DATA)
1007	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1008	key: "Unable to fetch"), type: QSqlError::ConnectionError, p: d));
1009	return false;
1010	}
1011	setAt(i);
1012	return true;
1013	}
1014
1015	bool QODBCResult::fetchNext()
1016	{
1017	Q_D(QODBCResult);
1018	SQLRETURN r;
1019	d->clearValues();
1020
1021	if (d->hasSQLFetchScroll)
1022	r = SQLFetchScroll(StatementHandle: d->hStmt,
1023	SQL_FETCH_NEXT,
1024	FetchOffset: 0);
1025	else
1026	r = SQLFetch(StatementHandle: d->hStmt);
1027
1028	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
1029	if (r != SQL_NO_DATA)
1030	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1031	key: "Unable to fetch next"), type: QSqlError::ConnectionError, p: d));
1032	return false;
1033	}
1034	setAt(at() + 1);
1035	return true;
1036	}
1037
1038	bool QODBCResult::fetchFirst()
1039	{
1040	Q_D(QODBCResult);
1041	if (isForwardOnly() && at() != QSql::BeforeFirstRow)
1042	return false;
1043	SQLRETURN r;
1044	d->clearValues();
1045	if (isForwardOnly()) {
1046	return fetchNext();
1047	}
1048	r = SQLFetchScroll(StatementHandle: d->hStmt,
1049	SQL_FETCH_FIRST,
1050	FetchOffset: 0);
1051	if (r != SQL_SUCCESS) {
1052	if (r != SQL_NO_DATA)
1053	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1054	key: "Unable to fetch first"), type: QSqlError::ConnectionError, p: d));
1055	return false;
1056	}
1057	setAt(0);
1058	return true;
1059	}
1060
1061	bool QODBCResult::fetchPrevious()
1062	{
1063	Q_D(QODBCResult);
1064	if (isForwardOnly())
1065	return false;
1066	SQLRETURN r;
1067	d->clearValues();
1068	r = SQLFetchScroll(StatementHandle: d->hStmt,
1069	SQL_FETCH_PRIOR,
1070	FetchOffset: 0);
1071	if (r != SQL_SUCCESS) {
1072	if (r != SQL_NO_DATA)
1073	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1074	key: "Unable to fetch previous"), type: QSqlError::ConnectionError, p: d));
1075	return false;
1076	}
1077	setAt(at() - 1);
1078	return true;
1079	}
1080
1081	bool QODBCResult::fetchLast()
1082	{
1083	Q_D(QODBCResult);
1084	SQLRETURN r;
1085	d->clearValues();
1086
1087	if (isForwardOnly()) {
1088	// cannot seek to last row in forwardOnly mode, so we have to use brute force
1089	int i = at();
1090	if (i == QSql::AfterLastRow)
1091	return false;
1092	if (i == QSql::BeforeFirstRow)
1093	i = 0;
1094	while (fetchNext())
1095	++i;
1096	setAt(i);
1097	return true;
1098	}
1099
1100	r = SQLFetchScroll(StatementHandle: d->hStmt,
1101	SQL_FETCH_LAST,
1102	FetchOffset: 0);
1103	if (r != SQL_SUCCESS) {
1104	if (r != SQL_NO_DATA)
1105	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1106	key: "Unable to fetch last"), type: QSqlError::ConnectionError, p: d));
1107	return false;
1108	}
1109	SQLULEN currRow = 0;
1110	r = SQLGetStmtAttr(hstmt: d->hStmt,
1111	SQL_ROW_NUMBER,
1112	rgbValue: &currRow,
1113	SQL_IS_INTEGER,
1114	pcbValue: 0);
1115	if (r != SQL_SUCCESS)
1116	return false;
1117	setAt(currRow-1);
1118	return true;
1119	}
1120
1121	QVariant QODBCResult::data(int field)
1122	{
1123	Q_D(QODBCResult);
1124	if (field >= d->rInf.count() || field < 0) {
1125	qWarning() << "QODBCResult::data: column" << field << "out of range";
1126	return QVariant();
1127	}
1128	if (field < d->fieldCacheIdx)
1129	return d->fieldCache.at(i: field);
1130
1131	SQLRETURN r(0);
1132	SQLLEN lengthIndicator = 0;
1133
1134	for (int i = d->fieldCacheIdx; i <= field; ++i) {
1135	// some servers do not support fetching column n after we already
1136	// fetched column n+1, so cache all previous columns here
1137	const QSqlField info = d->rInf.field(i);
1138	switch (info.metaType().id()) {
1139	case QMetaType::LongLong:
1140	d->fieldCache[i] = qGetBigIntData(hStmt: d->hStmt, column: i);
1141	break;
1142	case QMetaType::ULongLong:
1143	d->fieldCache[i] = qGetBigIntData(hStmt: d->hStmt, column: i, isSigned: false);
1144	break;
1145	case QMetaType::Int:
1146	case QMetaType::Short:
1147	d->fieldCache[i] = qGetIntData(hStmt: d->hStmt, column: i);
1148	break;
1149	case QMetaType::UInt:
1150	case QMetaType::UShort:
1151	d->fieldCache[i] = qGetIntData(hStmt: d->hStmt, column: i, isSigned: false);
1152	break;
1153	case QMetaType::QDate:
1154	DATE_STRUCT dbuf;
1155	r = SQLGetData(StatementHandle: d->hStmt,
1156	ColumnNumber: i + 1,
1157	SQL_C_DATE,
1158	TargetValue: (SQLPOINTER)&dbuf,
1159	BufferLength: 0,
1160	StrLen_or_Ind: &lengthIndicator);
1161	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (lengthIndicator != SQL_NULL_DATA))
1162	d->fieldCache[i] = QVariant(QDate(dbuf.year, dbuf.month, dbuf.day));
1163	else
1164	d->fieldCache[i] = QVariant(QMetaType::fromType<QDate>());
1165	break;
1166	case QMetaType::QTime:
1167	TIME_STRUCT tbuf;
1168	r = SQLGetData(StatementHandle: d->hStmt,
1169	ColumnNumber: i + 1,
1170	SQL_C_TIME,
1171	TargetValue: (SQLPOINTER)&tbuf,
1172	BufferLength: 0,
1173	StrLen_or_Ind: &lengthIndicator);
1174	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (lengthIndicator != SQL_NULL_DATA))
1175	d->fieldCache[i] = QVariant(QTime(tbuf.hour, tbuf.minute, tbuf.second));
1176	else
1177	d->fieldCache[i] = QVariant(QMetaType::fromType<QTime>());
1178	break;
1179	case QMetaType::QDateTime:
1180	TIMESTAMP_STRUCT dtbuf;
1181	r = SQLGetData(StatementHandle: d->hStmt,
1182	ColumnNumber: i + 1,
1183	SQL_C_TIMESTAMP,
1184	TargetValue: (SQLPOINTER)&dtbuf,
1185	BufferLength: 0,
1186	StrLen_or_Ind: &lengthIndicator);
1187	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (lengthIndicator != SQL_NULL_DATA))
1188	d->fieldCache[i] = QVariant(QDateTime(QDate(dtbuf.year, dtbuf.month, dtbuf.day),
1189	QTime(dtbuf.hour, dtbuf.minute, dtbuf.second, dtbuf.fraction / 1000000)));
1190	else
1191	d->fieldCache[i] = QVariant(QMetaType::fromType<QDateTime>());
1192	break;
1193	case QMetaType::QByteArray:
1194	d->fieldCache[i] = qGetBinaryData(hStmt: d->hStmt, column: i);
1195	break;
1196	case QMetaType::QString:
1197	d->fieldCache[i] = qGetStringData(hStmt: d->hStmt, column: i, colSize: info.length(), unicode: d->unicode);
1198	break;
1199	case QMetaType::Double:
1200	switch(numericalPrecisionPolicy()) {
1201	case QSql::LowPrecisionInt32:
1202	d->fieldCache[i] = qGetIntData(hStmt: d->hStmt, column: i);
1203	break;
1204	case QSql::LowPrecisionInt64:
1205	d->fieldCache[i] = qGetBigIntData(hStmt: d->hStmt, column: i);
1206	break;
1207	case QSql::LowPrecisionDouble:
1208	d->fieldCache[i] = qGetDoubleData(hStmt: d->hStmt, column: i);
1209	break;
1210	case QSql::HighPrecision:
1211	const int extra = info.precision() > 0 ? 1 : 0;
1212	d->fieldCache[i] = qGetStringData(hStmt: d->hStmt, column: i, colSize: info.length() + extra, unicode: false);
1213	break;
1214	}
1215	break;
1216	default:
1217	d->fieldCache[i] = qGetStringData(hStmt: d->hStmt, column: i, colSize: info.length(), unicode: false);
1218	break;
1219	}
1220	d->fieldCacheIdx = field + 1;
1221	}
1222	return d->fieldCache[field];
1223	}
1224
1225	bool QODBCResult::isNull(int field)
1226	{
1227	Q_D(const QODBCResult);
1228	if (field < 0 || field >= d->fieldCache.size())
1229	return true;
1230	if (field >= d->fieldCacheIdx) {
1231	// since there is no good way to find out whether the value is NULL
1232	// without fetching the field we'll fetch it here.
1233	// (data() also sets the NULL flag)
1234	data(field);
1235	}
1236	return d->fieldCache.at(i: field).isNull();
1237	}
1238
1239	int QODBCResult::size()
1240	{
1241	return -1;
1242	}
1243
1244	int QODBCResult::numRowsAffected()
1245	{
1246	Q_D(QODBCResult);
1247	SQLLEN affectedRowCount = 0;
1248	SQLRETURN r = SQLRowCount(StatementHandle: d->hStmt, RowCount: &affectedRowCount);
1249	if (r == SQL_SUCCESS)
1250	return affectedRowCount;
1251	else
1252	qSqlWarning(message: "QODBCResult::numRowsAffected: Unable to count affected rows"_L1, val: d);
1253	return -1;
1254	}
1255
1256	bool QODBCResult::prepare(const QString& query)
1257	{
1258	Q_D(QODBCResult);
1259	setActive(false);
1260	setAt(QSql::BeforeFirstRow);
1261	SQLRETURN r;
1262
1263	d->rInf.clear();
1264	if (d->hStmt && d->isStmtHandleValid()) {
1265	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: d->hStmt);
1266	if (r != SQL_SUCCESS) {
1267	qSqlWarning(message: "QODBCResult::prepare: Unable to close statement"_L1, val: d);
1268	return false;
1269	}
1270	}
1271	r = SQLAllocHandle(SQL_HANDLE_STMT,
1272	InputHandle: d->dpDbc(),
1273	OutputHandle: &d->hStmt);
1274	if (r != SQL_SUCCESS) {
1275	qSqlWarning(message: "QODBCResult::prepare: Unable to allocate statement handle"_L1, val: d);
1276	return false;
1277	}
1278
1279	d->updateStmtHandleState();
1280
1281	if (isForwardOnly()) {
1282	r = SQLSetStmtAttr(hstmt: d->hStmt,
1283	SQL_ATTR_CURSOR_TYPE,
1284	rgbValue: (SQLPOINTER)SQL_CURSOR_FORWARD_ONLY,
1285	SQL_IS_UINTEGER);
1286	} else {
1287	r = SQLSetStmtAttr(hstmt: d->hStmt,
1288	SQL_ATTR_CURSOR_TYPE,
1289	rgbValue: (SQLPOINTER)SQL_CURSOR_STATIC,
1290	SQL_IS_UINTEGER);
1291	}
1292	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
1293	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1294	key: "QODBCResult::reset: Unable to set 'SQL_CURSOR_STATIC' as statement attribute. "
1295	"Please check your ODBC driver configuration"), type: QSqlError::StatementError, p: d));
1296	return false;
1297	}
1298
1299	{
1300	auto encoded = toSQLTCHAR(input: query);
1301	r = SQLPrepare(hstmt: d->hStmt,
1302	szSqlStr: encoded.data(),
1303	cbSqlStr: SQLINTEGER(encoded.size()));
1304	}
1305
1306	if (r != SQL_SUCCESS) {
1307	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1308	key: "Unable to prepare statement"), type: QSqlError::StatementError, p: d));
1309	return false;
1310	}
1311	return true;
1312	}
1313
1314	bool QODBCResult::exec()
1315	{
1316	Q_D(QODBCResult);
1317	setActive(false);
1318	setAt(QSql::BeforeFirstRow);
1319	d->rInf.clear();
1320	d->fieldCache.clear();
1321	d->fieldCacheIdx = 0;
1322
1323	if (!d->hStmt) {
1324	qSqlWarning(message: "QODBCResult::exec: No statement handle available"_L1, val: d);
1325	return false;
1326	}
1327
1328	if (isSelect())
1329	SQLCloseCursor(StatementHandle: d->hStmt);
1330
1331	QVariantList &values = boundValues();
1332	QByteArrayList tmpStorage(values.count(), QByteArray()); // targets for SQLBindParameter()
1333	QVarLengthArray<SQLLEN, 32> indicators(values.count(), 0);
1334
1335	// bind parameters - only positional binding allowed
1336	SQLRETURN r;
1337	for (qsizetype i = 0; i < values.count(); ++i) {
1338	if (bindValueType(pos: i) & QSql::Out)
1339	values[i].detach();
1340	const QVariant &val = values.at(i);
1341	SQLLEN *ind = &indicators[i];
1342	if (QSqlResultPrivate::isVariantNull(variant: val))
1343	*ind = SQL_NULL_DATA;
1344	switch (val.typeId()) {
1345	case QMetaType::QDate: {
1346	QByteArray &ba = tmpStorage[i];
1347	ba.resize(size: sizeof(DATE_STRUCT));
1348	DATE_STRUCT *dt = (DATE_STRUCT *)const_cast<char *>(ba.constData());
1349	QDate qdt = val.toDate();
1350	dt->year = qdt.year();
1351	dt->month = qdt.month();
1352	dt->day = qdt.day();
1353	r = SQLBindParameter(hstmt: d->hStmt,
1354	ipar: i + 1,
1355	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1356	SQL_C_DATE,
1357	SQL_DATE,
1358	cbColDef: 0,
1359	ibScale: 0,
1360	rgbValue: (void *) dt,
1361	cbValueMax: 0,
1362	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1363	break; }
1364	case QMetaType::QTime: {
1365	QByteArray &ba = tmpStorage[i];
1366	ba.resize(size: sizeof(TIME_STRUCT));
1367	TIME_STRUCT *dt = (TIME_STRUCT *)const_cast<char *>(ba.constData());
1368	QTime qdt = val.toTime();
1369	dt->hour = qdt.hour();
1370	dt->minute = qdt.minute();
1371	dt->second = qdt.second();
1372	r = SQLBindParameter(hstmt: d->hStmt,
1373	ipar: i + 1,
1374	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1375	SQL_C_TIME,
1376	SQL_TIME,
1377	cbColDef: 0,
1378	ibScale: 0,
1379	rgbValue: (void *) dt,
1380	cbValueMax: 0,
1381	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1382	break; }
1383	case QMetaType::QDateTime: {
1384	QByteArray &ba = tmpStorage[i];
1385	ba.resize(size: sizeof(TIMESTAMP_STRUCT));
1386	TIMESTAMP_STRUCT *dt = reinterpret_cast<TIMESTAMP_STRUCT *>(const_cast<char *>(ba.constData()));
1387	const QDateTime qdt = val.toDateTime();
1388	const QDate qdate = qdt.date();
1389	const QTime qtime = qdt.time();
1390	dt->year = qdate.year();
1391	dt->month = qdate.month();
1392	dt->day = qdate.day();
1393	dt->hour = qtime.hour();
1394	dt->minute = qtime.minute();
1395	dt->second = qtime.second();
1396	// (20 includes a separating period)
1397	const int precision = d->drv_d_func()->datetimePrecision - 20;
1398	if (precision <= 0) {
1399	dt->fraction = 0;
1400	} else {
1401	dt->fraction = qtime.msec() * 1000000;
1402
1403	// (How many leading digits do we want to keep? With SQL Server 2005, this should be 3: 123000000)
1404	int keep = (int)qPow(x: 10.0, y: 9 - qMin(a: 9, b: precision));
1405	dt->fraction = (dt->fraction / keep) * keep;
1406	}
1407
1408	r = SQLBindParameter(hstmt: d->hStmt,
1409	ipar: i + 1,
1410	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1411	SQL_C_TIMESTAMP,
1412	SQL_TIMESTAMP,
1413	cbColDef: d->drv_d_func()->datetimePrecision,
1414	ibScale: precision,
1415	rgbValue: (void *) dt,
1416	cbValueMax: 0,
1417	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1418	break; }
1419	case QMetaType::Int:
1420	r = SQLBindParameter(hstmt: d->hStmt,
1421	ipar: i + 1,
1422	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1423	SQL_C_SLONG,
1424	SQL_INTEGER,
1425	cbColDef: 0,
1426	ibScale: 0,
1427	rgbValue: const_cast<void *>(val.constData()),
1428	cbValueMax: 0,
1429	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1430	break;
1431	case QMetaType::UInt:
1432	r = SQLBindParameter(hstmt: d->hStmt,
1433	ipar: i + 1,
1434	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1435	SQL_C_ULONG,
1436	SQL_NUMERIC,
1437	cbColDef: 15,
1438	ibScale: 0,
1439	rgbValue: const_cast<void *>(val.constData()),
1440	cbValueMax: 0,
1441	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1442	break;
1443	case QMetaType::Short:
1444	r = SQLBindParameter(hstmt: d->hStmt,
1445	ipar: i + 1,
1446	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1447	SQL_C_SSHORT,
1448	SQL_SMALLINT,
1449	cbColDef: 0,
1450	ibScale: 0,
1451	rgbValue: const_cast<void *>(val.constData()),
1452	cbValueMax: 0,
1453	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1454	break;
1455	case QMetaType::UShort:
1456	r = SQLBindParameter(hstmt: d->hStmt,
1457	ipar: i + 1,
1458	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1459	SQL_C_USHORT,
1460	SQL_NUMERIC,
1461	cbColDef: 15,
1462	ibScale: 0,
1463	rgbValue: const_cast<void *>(val.constData()),
1464	cbValueMax: 0,
1465	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1466	break;
1467	case QMetaType::Double:
1468	r = SQLBindParameter(hstmt: d->hStmt,
1469	ipar: i + 1,
1470	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1471	SQL_C_DOUBLE,
1472	SQL_DOUBLE,
1473	cbColDef: 0,
1474	ibScale: 0,
1475	rgbValue: const_cast<void *>(val.constData()),
1476	cbValueMax: 0,
1477	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1478	break;
1479	case QMetaType::Float:
1480	r = SQLBindParameter(hstmt: d->hStmt,
1481	ipar: i + 1,
1482	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1483	SQL_C_FLOAT,
1484	SQL_REAL,
1485	cbColDef: 0,
1486	ibScale: 0,
1487	rgbValue: const_cast<void *>(val.constData()),
1488	cbValueMax: 0,
1489	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1490	break;
1491	case QMetaType::LongLong:
1492	r = SQLBindParameter(hstmt: d->hStmt,
1493	ipar: i + 1,
1494	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1495	SQL_C_SBIGINT,
1496	SQL_BIGINT,
1497	cbColDef: 0,
1498	ibScale: 0,
1499	rgbValue: const_cast<void *>(val.constData()),
1500	cbValueMax: 0,
1501	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1502	break;
1503	case QMetaType::ULongLong:
1504	r = SQLBindParameter(hstmt: d->hStmt,
1505	ipar: i + 1,
1506	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1507	SQL_C_UBIGINT,
1508	SQL_BIGINT,
1509	cbColDef: 0,
1510	ibScale: 0,
1511	rgbValue: const_cast<void *>(val.constData()),
1512	cbValueMax: 0,
1513	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1514	break;
1515	case QMetaType::QByteArray:
1516	if (*ind != SQL_NULL_DATA) {
1517	*ind = val.toByteArray().size();
1518	}
1519	r = SQLBindParameter(hstmt: d->hStmt,
1520	ipar: i + 1,
1521	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1522	SQL_C_BINARY,
1523	SQL_LONGVARBINARY,
1524	cbColDef: val.toByteArray().size(),
1525	ibScale: 0,
1526	rgbValue: const_cast<char *>(val.toByteArray().constData()),
1527	cbValueMax: val.toByteArray().size(),
1528	pcbValue: ind);
1529	break;
1530	case QMetaType::Bool:
1531	r = SQLBindParameter(hstmt: d->hStmt,
1532	ipar: i + 1,
1533	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1534	SQL_C_BIT,
1535	SQL_BIT,
1536	cbColDef: 0,
1537	ibScale: 0,
1538	rgbValue: const_cast<void *>(val.constData()),
1539	cbValueMax: 0,
1540	pcbValue: *ind == SQL_NULL_DATA ? ind : NULL);
1541	break;
1542	case QMetaType::QString:
1543	if (d->unicode) {
1544	QByteArray &ba = tmpStorage[i];
1545	{
1546	const auto encoded = toSQLTCHAR(input: val.toString());
1547	ba = QByteArray(reinterpret_cast<const char *>(encoded.data()),
1548	encoded.size() * sizeof(SQLTCHAR));
1549	}
1550
1551	if (*ind != SQL_NULL_DATA)
1552	*ind = ba.size();
1553
1554	if (bindValueType(pos: i) & QSql::Out) {
1555	r = SQLBindParameter(hstmt: d->hStmt,
1556	ipar: i + 1,
1557	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1558	SQL_C_TCHAR,
1559	fSqlType: ba.size() > 254 ? SQL_WLONGVARCHAR : SQL_WVARCHAR,
1560	cbColDef: 0, // god knows... don't change this!
1561	ibScale: 0,
1562	rgbValue: const_cast<char *>(ba.constData()), // don't detach
1563	cbValueMax: ba.size(),
1564	pcbValue: ind);
1565	break;
1566	}
1567	r = SQLBindParameter(hstmt: d->hStmt,
1568	ipar: i + 1,
1569	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1570	SQL_C_TCHAR,
1571	fSqlType: ba.size() > 254 ? SQL_WLONGVARCHAR : SQL_WVARCHAR,
1572	cbColDef: ba.size(),
1573	ibScale: 0,
1574	rgbValue: const_cast<char *>(ba.constData()), // don't detach
1575	cbValueMax: ba.size(),
1576	pcbValue: ind);
1577	break;
1578	}
1579	else
1580	{
1581	QByteArray &str = tmpStorage[i];
1582	str = val.toString().toUtf8();
1583	if (*ind != SQL_NULL_DATA)
1584	*ind = str.length();
1585	int strSize = str.length();
1586
1587	r = SQLBindParameter(hstmt: d->hStmt,
1588	ipar: i + 1,
1589	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1590	SQL_C_CHAR,
1591	fSqlType: strSize > 254 ? SQL_LONGVARCHAR : SQL_VARCHAR,
1592	cbColDef: strSize,
1593	ibScale: 0,
1594	rgbValue: const_cast<char *>(str.constData()),
1595	cbValueMax: strSize,
1596	pcbValue: ind);
1597	break;
1598	}
1599	Q_FALLTHROUGH();
1600	default: {
1601	QByteArray &ba = tmpStorage[i];
1602	if (*ind != SQL_NULL_DATA)
1603	*ind = ba.size();
1604	r = SQLBindParameter(hstmt: d->hStmt,
1605	ipar: i + 1,
1606	fParamType: qParamType[bindValueType(pos: i) & QSql::InOut],
1607	SQL_C_BINARY,
1608	SQL_VARBINARY,
1609	cbColDef: ba.length() + 1,
1610	ibScale: 0,
1611	rgbValue: const_cast<char *>(ba.constData()),
1612	cbValueMax: ba.length() + 1,
1613	pcbValue: ind);
1614	break; }
1615	}
1616	if (r != SQL_SUCCESS) {
1617	qSqlWarning(message: "QODBCResult::exec: unable to bind variable:"_L1, val: d);
1618	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1619	key: "Unable to bind variable"), type: QSqlError::StatementError, p: d));
1620	return false;
1621	}
1622	}
1623	r = SQLExecute(StatementHandle: d->hStmt);
1624	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO && r != SQL_NO_DATA) {
1625	qSqlWarning(message: "QODBCResult::exec: Unable to execute statement:"_L1, val: d);
1626	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1627	key: "Unable to execute statement"), type: QSqlError::StatementError, p: d));
1628	return false;
1629	}
1630
1631	SQLULEN isScrollable = 0;
1632	r = SQLGetStmtAttr(hstmt: d->hStmt, SQL_ATTR_CURSOR_SCROLLABLE, rgbValue: &isScrollable, SQL_IS_INTEGER, pcbValue: 0);
1633	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO)
1634	setForwardOnly(isScrollable == SQL_NONSCROLLABLE);
1635
1636	SQLSMALLINT count = 0;
1637	SQLNumResultCols(StatementHandle: d->hStmt, ColumnCount: &count);
1638	if (count) {
1639	setSelect(true);
1640	for (SQLSMALLINT i = 0; i < count; ++i) {
1641	d->rInf.append(field: qMakeFieldInfo(p: d, i));
1642	}
1643	d->fieldCache.resize(size: count);
1644	} else {
1645	setSelect(false);
1646	}
1647	setActive(true);
1648
1649
1650	//get out parameters
1651	if (!hasOutValues())
1652	return true;
1653
1654	for (qsizetype i = 0; i < values.count(); ++i) {
1655	switch (values.at(i).typeId()) {
1656	case QMetaType::QDate: {
1657	DATE_STRUCT ds = *((DATE_STRUCT *)const_cast<char *>(tmpStorage.at(i).constData()));
1658	values[i] = QVariant(QDate(ds.year, ds.month, ds.day));
1659	break; }
1660	case QMetaType::QTime: {
1661	TIME_STRUCT dt = *((TIME_STRUCT *)const_cast<char *>(tmpStorage.at(i).constData()));
1662	values[i] = QVariant(QTime(dt.hour, dt.minute, dt.second));
1663	break; }
1664	case QMetaType::QDateTime: {
1665	TIMESTAMP_STRUCT dt = *((TIMESTAMP_STRUCT*)
1666	const_cast<char *>(tmpStorage.at(i).constData()));
1667	values[i] = QVariant(QDateTime(QDate(dt.year, dt.month, dt.day),
1668	QTime(dt.hour, dt.minute, dt.second, dt.fraction / 1000000)));
1669	break; }
1670	case QMetaType::Bool:
1671	case QMetaType::Short:
1672	case QMetaType::UShort:
1673	case QMetaType::Int:
1674	case QMetaType::UInt:
1675	case QMetaType::Float:
1676	case QMetaType::Double:
1677	case QMetaType::QByteArray:
1678	case QMetaType::LongLong:
1679	case QMetaType::ULongLong:
1680	//nothing to do
1681	break;
1682	case QMetaType::QString:
1683	if (d->unicode) {
1684	if (bindValueType(pos: i) & QSql::Out) {
1685	const QByteArray &bytes = tmpStorage.at(i);
1686	const auto strSize = bytes.size() / sizeof(SQLTCHAR);
1687	QVarLengthArray<SQLTCHAR> string(strSize);
1688	memcpy(dest: string.data(), src: bytes.data(), n: strSize * sizeof(SQLTCHAR));
1689	values[i] = fromSQLTCHAR(input: string);
1690	}
1691	break;
1692	}
1693	Q_FALLTHROUGH();
1694	default: {
1695	if (bindValueType(pos: i) & QSql::Out)
1696	values[i] = tmpStorage.at(i);
1697	break; }
1698	}
1699	if (indicators[i] == SQL_NULL_DATA)
1700	values[i] = QVariant(values[i].metaType());
1701	}
1702	return true;
1703	}
1704
1705	QSqlRecord QODBCResult::record() const
1706	{
1707	Q_D(const QODBCResult);
1708	if (!isActive() || !isSelect())
1709	return QSqlRecord();
1710	return d->rInf;
1711	}
1712
1713	QVariant QODBCResult::lastInsertId() const
1714	{
1715	Q_D(const QODBCResult);
1716	QString sql;
1717
1718	switch (driver()->dbmsType()) {
1719	case QSqlDriver::MSSqlServer:
1720	case QSqlDriver::Sybase:
1721	sql = "SELECT @@IDENTITY;"_L1;
1722	break;
1723	case QSqlDriver::MySqlServer:
1724	sql = "SELECT LAST_INSERT_ID();"_L1;
1725	break;
1726	case QSqlDriver::PostgreSQL:
1727	sql = "SELECT lastval();"_L1;
1728	break;
1729	default:
1730	break;
1731	}
1732
1733	if (!sql.isEmpty()) {
1734	QSqlQuery qry(driver()->createResult());
1735	if (qry.exec(query: sql) && qry.next())
1736	return qry.value(i: 0);
1737
1738	qSqlWarning(message: "QODBCResult::lastInsertId: Unable to get lastInsertId"_L1, val: d);
1739	} else {
1740	qSqlWarning(message: "QODBCResult::lastInsertId: not implemented for this DBMS"_L1, val: d);
1741	}
1742
1743	return QVariant();
1744	}
1745
1746	QVariant QODBCResult::handle() const
1747	{
1748	Q_D(const QODBCResult);
1749	return QVariant(QMetaType::fromType<SQLHANDLE>(), &d->hStmt);
1750	}
1751
1752	bool QODBCResult::nextResult()
1753	{
1754	Q_D(QODBCResult);
1755	setActive(false);
1756	setAt(QSql::BeforeFirstRow);
1757	d->rInf.clear();
1758	d->fieldCache.clear();
1759	d->fieldCacheIdx = 0;
1760	setSelect(false);
1761
1762	SQLRETURN r = SQLMoreResults(hstmt: d->hStmt);
1763	if (r != SQL_SUCCESS) {
1764	if (r == SQL_SUCCESS_WITH_INFO) {
1765	QString message = errorStringFromDiagRecords(records: qODBCWarn(odbc: d));
1766	qWarning() << "QODBCResult::nextResult():" << message;
1767	} else {
1768	if (r != SQL_NO_DATA)
1769	setLastError(qMakeError(err: QCoreApplication::translate(context: "QODBCResult",
1770	key: "Unable to fetch last"), type: QSqlError::ConnectionError, p: d));
1771	return false;
1772	}
1773	}
1774
1775	SQLSMALLINT count = 0;
1776	SQLNumResultCols(StatementHandle: d->hStmt, ColumnCount: &count);
1777	if (count) {
1778	setSelect(true);
1779	for (SQLSMALLINT i = 0; i < count; ++i) {
1780	d->rInf.append(field: qMakeFieldInfo(p: d, i));
1781	}
1782	d->fieldCache.resize(size: count);
1783	} else {
1784	setSelect(false);
1785	}
1786	setActive(true);
1787
1788	return true;
1789	}
1790
1791	void QODBCResult::virtual_hook(int id, void *data)
1792	{
1793	QSqlResult::virtual_hook(id, data);
1794	}
1795
1796	void QODBCResult::detachFromResultSet()
1797	{
1798	Q_D(QODBCResult);
1799	if (d->hStmt)
1800	SQLCloseCursor(StatementHandle: d->hStmt);
1801	}
1802
1803	////////////////////////////////////////
1804
1805
1806	QODBCDriver::QODBCDriver(QObject *parent)
1807	: QSqlDriver(*new QODBCDriverPrivate, parent)
1808	{
1809	}
1810
1811	QODBCDriver::QODBCDriver(SQLHANDLE env, SQLHANDLE con, QObject *parent)
1812	: QSqlDriver(*new QODBCDriverPrivate, parent)
1813	{
1814	Q_D(QODBCDriver);
1815	d->hEnv = env;
1816	d->hDbc = con;
1817	if (env && con) {
1818	setOpen(true);
1819	setOpenError(false);
1820	}
1821	}
1822
1823	QODBCDriver::~QODBCDriver()
1824	{
1825	cleanup();
1826	}
1827
1828	bool QODBCDriver::hasFeature(DriverFeature f) const
1829	{
1830	Q_D(const QODBCDriver);
1831	switch (f) {
1832	case Transactions: {
1833	if (!d->hDbc)
1834	return false;
1835	SQLUSMALLINT txn;
1836	SQLSMALLINT t;
1837	int r = SQLGetInfo(hdbc: d->hDbc,
1838	fInfoType: (SQLUSMALLINT)SQL_TXN_CAPABLE,
1839	rgbInfoValue: &txn,
1840	cbInfoValueMax: sizeof(txn),
1841	pcbInfoValue: &t);
1842	if (r != SQL_SUCCESS || txn == SQL_TC_NONE)
1843	return false;
1844	else
1845	return true;
1846	}
1847	case Unicode:
1848	return d->unicode;
1849	case PreparedQueries:
1850	case PositionalPlaceholders:
1851	case FinishQuery:
1852	case LowPrecisionNumbers:
1853	return true;
1854	case QuerySize:
1855	case NamedPlaceholders:
1856	case BatchOperations:
1857	case SimpleLocking:
1858	case EventNotifications:
1859	case CancelQuery:
1860	return false;
1861	case LastInsertId:
1862	return (d->dbmsType == MSSqlServer)
1863	|| (d->dbmsType == Sybase)
1864	|| (d->dbmsType == MySqlServer)
1865	|| (d->dbmsType == PostgreSQL);
1866	case MultipleResultSets:
1867	return d->hasMultiResultSets;
1868	case BLOB: {
1869	if (d->dbmsType == MySqlServer)
1870	return true;
1871	else
1872	return false;
1873	}
1874	}
1875	return false;
1876	}
1877
1878	bool QODBCDriver::open(const QString & db,
1879	const QString & user,
1880	const QString & password,
1881	const QString &,
1882	int,
1883	const QString& connOpts)
1884	{
1885	Q_D(QODBCDriver);
1886	if (isOpen())
1887	close();
1888	SQLRETURN r;
1889	r = SQLAllocHandle(SQL_HANDLE_ENV,
1890	SQL_NULL_HANDLE,
1891	OutputHandle: &d->hEnv);
1892	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
1893	qSqlWarning(message: "QODBCDriver::open: Unable to allocate environment"_L1, val: d);
1894	setOpenError(true);
1895	return false;
1896	}
1897	r = SQLSetEnvAttr(EnvironmentHandle: d->hEnv,
1898	SQL_ATTR_ODBC_VERSION,
1899	Value: (SQLPOINTER)qGetODBCVersion(connOpts),
1900	SQL_IS_UINTEGER);
1901	r = SQLAllocHandle(SQL_HANDLE_DBC,
1902	InputHandle: d->hEnv,
1903	OutputHandle: &d->hDbc);
1904	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
1905	qSqlWarning(message: "QODBCDriver::open: Unable to allocate connection"_L1, val: d);
1906	setOpenError(true);
1907	cleanup();
1908	return false;
1909	}
1910
1911	if (!d->setConnectionOptions(connOpts)) {
1912	cleanup();
1913	return false;
1914	}
1915
1916	// Create the connection string
1917	QString connQStr;
1918	// support the "DRIVER={SQL SERVER};SERVER=blah" syntax
1919	if (db.contains(s: ".dsn"_L1, cs: Qt::CaseInsensitive))
1920	connQStr = "FILEDSN="_L1 + db;
1921	else if (db.contains(s: "DRIVER="_L1, cs: Qt::CaseInsensitive)
1922	|| db.contains(s: "SERVER="_L1, cs: Qt::CaseInsensitive))
1923	connQStr = db;
1924	else
1925	connQStr = "DSN="_L1 + db;
1926
1927	if (!user.isEmpty())
1928	connQStr += ";UID="_L1 + user;
1929	if (!password.isEmpty())
1930	connQStr += ";PWD="_L1 + password;
1931
1932	SQLSMALLINT cb;
1933	QVarLengthArray<SQLTCHAR, 1024> connOut(1024);
1934	{
1935	auto encoded = toSQLTCHAR(input: connQStr);
1936	r = SQLDriverConnect(hdbc: d->hDbc,
1937	hwnd: nullptr,
1938	szConnStrIn: encoded.data(), cbConnStrIn: SQLSMALLINT(encoded.size()),
1939	szConnStrOut: connOut.data(), cbConnStrOutMax: SQLSMALLINT(connOut.size()),
1940	pcbConnStrOut: &cb,
1941	/*SQL_DRIVER_NOPROMPT*/fDriverCompletion: 0);
1942	}
1943
1944	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) {
1945	setLastError(qMakeError(err: tr(s: "Unable to connect"), type: QSqlError::ConnectionError, p: d));
1946	setOpenError(true);
1947	cleanup();
1948	return false;
1949	}
1950
1951	if (!d->checkDriver()) {
1952	setLastError(qMakeError(err: tr(s: "Unable to connect - Driver doesn't support all "
1953	"functionality required"), type: QSqlError::ConnectionError, p: d));
1954	setOpenError(true);
1955	cleanup();
1956	return false;
1957	}
1958
1959	d->checkUnicode();
1960	d->checkSchemaUsage();
1961	d->checkDBMS();
1962	d->checkHasSQLFetchScroll();
1963	d->checkHasMultiResults();
1964	d->checkDateTimePrecision();
1965	setOpen(true);
1966	setOpenError(false);
1967	if (d->dbmsType == MSSqlServer) {
1968	QSqlQuery i(createResult());
1969	i.exec(query: "SET QUOTED_IDENTIFIER ON"_L1);
1970	}
1971	return true;
1972	}
1973
1974	void QODBCDriver::close()
1975	{
1976	cleanup();
1977	setOpen(false);
1978	setOpenError(false);
1979	}
1980
1981	void QODBCDriver::cleanup()
1982	{
1983	Q_D(QODBCDriver);
1984	SQLRETURN r;
1985
1986	if (d->hDbc) {
1987	// Open statements/descriptors handles are automatically cleaned up by SQLDisconnect
1988	if (isOpen()) {
1989	r = SQLDisconnect(ConnectionHandle: d->hDbc);
1990	if (r != SQL_SUCCESS)
1991	qSqlWarning(message: "QODBCDriver::disconnect: Unable to disconnect datasource"_L1, val: d);
1992	else
1993	d->disconnectCount++;
1994	}
1995
1996	r = SQLFreeHandle(SQL_HANDLE_DBC, Handle: d->hDbc);
1997	if (r != SQL_SUCCESS)
1998	qSqlWarning(message: "QODBCDriver::cleanup: Unable to free connection handle"_L1, val: d);
1999	d->hDbc = 0;
2000	}
2001
2002	if (d->hEnv) {
2003	r = SQLFreeHandle(SQL_HANDLE_ENV, Handle: d->hEnv);
2004	if (r != SQL_SUCCESS)
2005	qSqlWarning(message: "QODBCDriver::cleanup: Unable to free environment handle"_L1, val: d);
2006	d->hEnv = 0;
2007	}
2008	}
2009
2010	// checks whether the server can return char, varchar and longvarchar
2011	// as two byte unicode characters
2012	void QODBCDriverPrivate::checkUnicode()
2013	{
2014	SQLRETURN r;
2015	SQLUINTEGER fFunc;
2016
2017	unicode = false;
2018	r = SQLGetInfo(hdbc: hDbc,
2019	SQL_CONVERT_CHAR,
2020	rgbInfoValue: (SQLPOINTER)&fFunc,
2021	cbInfoValueMax: sizeof(fFunc),
2022	NULL);
2023	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (fFunc & SQL_CVT_WCHAR)) {
2024	unicode = true;
2025	return;
2026	}
2027
2028	r = SQLGetInfo(hdbc: hDbc,
2029	SQL_CONVERT_VARCHAR,
2030	rgbInfoValue: (SQLPOINTER)&fFunc,
2031	cbInfoValueMax: sizeof(fFunc),
2032	NULL);
2033	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (fFunc & SQL_CVT_WVARCHAR)) {
2034	unicode = true;
2035	return;
2036	}
2037
2038	r = SQLGetInfo(hdbc: hDbc,
2039	SQL_CONVERT_LONGVARCHAR,
2040	rgbInfoValue: (SQLPOINTER)&fFunc,
2041	cbInfoValueMax: sizeof(fFunc),
2042	NULL);
2043	if ((r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) && (fFunc & SQL_CVT_WLONGVARCHAR)) {
2044	unicode = true;
2045	return;
2046	}
2047	SQLHANDLE hStmt;
2048	r = SQLAllocHandle(SQL_HANDLE_STMT,
2049	InputHandle: hDbc,
2050	OutputHandle: &hStmt);
2051
2052	// for databases which do not return something useful in SQLGetInfo and are picky about a
2053	// 'SELECT' statement without 'FROM' but support VALUE(foo) statement like e.g. DB2 or Oracle
2054	const auto statements = {
2055	"select 'test'"_L1,
2056	"values('test')"_L1,
2057	"select 'test' from dual"_L1,
2058	};
2059	for (const auto &statement : statements) {
2060	auto encoded = toSQLTCHAR(input: statement);
2061	r = SQLExecDirect(hstmt: hStmt, szSqlStr: encoded.data(), cbSqlStr: SQLINTEGER(encoded.size()));
2062	if (r == SQL_SUCCESS)
2063	break;
2064	}
2065	if (r == SQL_SUCCESS) {
2066	r = SQLFetch(StatementHandle: hStmt);
2067	if (r == SQL_SUCCESS) {
2068	QVarLengthArray<SQLWCHAR, 10> buffer(10);
2069	r = SQLGetData(StatementHandle: hStmt, ColumnNumber: 1, SQL_C_WCHAR, TargetValue: buffer.data(), BufferLength: buffer.size() * sizeof(SQLWCHAR), NULL);
2070	if (r == SQL_SUCCESS && fromSQLTCHAR(input: buffer) == "test"_L1) {
2071	unicode = true;
2072	}
2073	}
2074	}
2075	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: hStmt);
2076	}
2077
2078	bool QODBCDriverPrivate::checkDriver() const
2079	{
2080	#ifdef ODBC_CHECK_DRIVER
2081	static constexpr SQLUSMALLINT reqFunc[] = {
2082	SQL_API_SQLDESCRIBECOL, SQL_API_SQLGETDATA, SQL_API_SQLCOLUMNS,
2083	SQL_API_SQLGETSTMTATTR, SQL_API_SQLGETDIAGREC, SQL_API_SQLEXECDIRECT,
2084	SQL_API_SQLGETINFO, SQL_API_SQLTABLES
2085	};
2086
2087	// these functions are optional
2088	static constexpr SQLUSMALLINT optFunc[] = {
2089	SQL_API_SQLNUMRESULTCOLS, SQL_API_SQLROWCOUNT
2090	};
2091
2092	SQLRETURN r;
2093	SQLUSMALLINT sup;
2094
2095	// check the required functions
2096	for (const SQLUSMALLINT func : reqFunc) {
2097
2098	r = SQLGetFunctions(ConnectionHandle: hDbc, FunctionId: func, Supported: &sup);
2099
2100	if (r != SQL_SUCCESS) {
2101	qSqlWarning(message: "QODBCDriver::checkDriver: Cannot get list of supported functions"_L1, val: this);
2102	return false;
2103	}
2104	if (sup == SQL_FALSE) {
2105	qWarning () << "QODBCDriver::open: Warning - Driver doesn't support all needed functionality ("
2106	<< func
2107	<< ").\nPlease look at the Qt SQL Module Driver documentation for more information.";
2108	return false;
2109	}
2110	}
2111
2112	// these functions are optional and just generate a warning
2113	for (const SQLUSMALLINT func : optFunc) {
2114
2115	r = SQLGetFunctions(ConnectionHandle: hDbc, FunctionId: func, Supported: &sup);
2116
2117	if (r != SQL_SUCCESS) {
2118	qSqlWarning(message: "QODBCDriver::checkDriver: Cannot get list of supported functions"_L1, val: this);
2119	return false;
2120	}
2121	if (sup == SQL_FALSE) {
2122	qWarning() << "QODBCDriver::checkDriver: Warning - Driver doesn't support some non-critical functions ("
2123	<< func << ')';
2124	return true;
2125	}
2126	}
2127	#endif //ODBC_CHECK_DRIVER
2128
2129	return true;
2130	}
2131
2132	void QODBCDriverPrivate::checkSchemaUsage()
2133	{
2134	SQLRETURN r;
2135	SQLUINTEGER val;
2136
2137	r = SQLGetInfo(hdbc: hDbc,
2138	SQL_SCHEMA_USAGE,
2139	rgbInfoValue: (SQLPOINTER) &val,
2140	cbInfoValueMax: sizeof(val),
2141	NULL);
2142	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO)
2143	useSchema = (val != 0);
2144	}
2145
2146	void QODBCDriverPrivate::checkDBMS()
2147	{
2148	SQLRETURN r;
2149	QVarLengthArray<SQLTCHAR, 200> serverString(200);
2150	SQLSMALLINT t;
2151
2152	r = SQLGetInfo(hdbc: hDbc,
2153	SQL_DBMS_NAME,
2154	rgbInfoValue: serverString.data(),
2155	cbInfoValueMax: SQLSMALLINT(serverString.size() * sizeof(SQLTCHAR)),
2156	pcbInfoValue: &t);
2157	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) {
2158	const QString serverType = fromSQLTCHAR(input: serverString, size: t / sizeof(SQLTCHAR));
2159	if (serverType.contains(s: "PostgreSQL"_L1, cs: Qt::CaseInsensitive))
2160	dbmsType = QSqlDriver::PostgreSQL;
2161	else if (serverType.contains(s: "Oracle"_L1, cs: Qt::CaseInsensitive))
2162	dbmsType = QSqlDriver::Oracle;
2163	else if (serverType.contains(s: "MySql"_L1, cs: Qt::CaseInsensitive))
2164	dbmsType = QSqlDriver::MySqlServer;
2165	else if (serverType.contains(s: "Microsoft SQL Server"_L1, cs: Qt::CaseInsensitive))
2166	dbmsType = QSqlDriver::MSSqlServer;
2167	else if (serverType.contains(s: "Sybase"_L1, cs: Qt::CaseInsensitive))
2168	dbmsType = QSqlDriver::Sybase;
2169	}
2170	r = SQLGetInfo(hdbc: hDbc,
2171	SQL_DRIVER_NAME,
2172	rgbInfoValue: serverString.data(),
2173	cbInfoValueMax: SQLSMALLINT(serverString.size() * sizeof(SQLTCHAR)),
2174	pcbInfoValue: &t);
2175	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) {
2176	const QString serverType = fromSQLTCHAR(input: serverString, size: t / sizeof(SQLTCHAR));
2177	isFreeTDSDriver = serverType.contains(s: "tdsodbc"_L1, cs: Qt::CaseInsensitive);
2178	unicode = unicode && !isFreeTDSDriver;
2179	}
2180	}
2181
2182	void QODBCDriverPrivate::checkHasSQLFetchScroll()
2183	{
2184	SQLUSMALLINT sup;
2185	SQLRETURN r = SQLGetFunctions(ConnectionHandle: hDbc, SQL_API_SQLFETCHSCROLL, Supported: &sup);
2186	if ((r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO) || sup != SQL_TRUE) {
2187	hasSQLFetchScroll = false;
2188	qWarning(msg: "QODBCDriver::checkHasSQLFetchScroll: Warning - Driver doesn't support scrollable result sets, use forward only mode for queries");
2189	}
2190	}
2191
2192	void QODBCDriverPrivate::checkHasMultiResults()
2193	{
2194	QVarLengthArray<SQLTCHAR, 2> driverResponse(2);
2195	SQLSMALLINT length;
2196	SQLRETURN r = SQLGetInfo(hdbc: hDbc,
2197	SQL_MULT_RESULT_SETS,
2198	rgbInfoValue: driverResponse.data(),
2199	cbInfoValueMax: SQLSMALLINT(driverResponse.size() * sizeof(SQLTCHAR)),
2200	pcbInfoValue: &length);
2201	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO)
2202	hasMultiResultSets = fromSQLTCHAR(input: driverResponse, size: length / sizeof(SQLTCHAR)).startsWith(c: u'Y');
2203	}
2204
2205	void QODBCDriverPrivate::checkDateTimePrecision()
2206	{
2207	SQLINTEGER columnSize;
2208	SQLHANDLE hStmt;
2209
2210	SQLRETURN r = SQLAllocHandle(SQL_HANDLE_STMT, InputHandle: hDbc, OutputHandle: &hStmt);
2211	if (r != SQL_SUCCESS) {
2212	return;
2213	}
2214
2215	r = SQLGetTypeInfo(StatementHandle: hStmt, SQL_TIMESTAMP);
2216	if (r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO) {
2217	r = SQLFetch(StatementHandle: hStmt);
2218	if ( r == SQL_SUCCESS || r == SQL_SUCCESS_WITH_INFO )
2219	{
2220	if (SQLGetData(StatementHandle: hStmt, ColumnNumber: 3, SQL_INTEGER, TargetValue: &columnSize, BufferLength: sizeof(columnSize), StrLen_or_Ind: 0) == SQL_SUCCESS) {
2221	datetimePrecision = (int)columnSize;
2222	}
2223	}
2224	}
2225	SQLFreeHandle(SQL_HANDLE_STMT, Handle: hStmt);
2226	}
2227
2228	QSqlResult *QODBCDriver::createResult() const
2229	{
2230	return new QODBCResult(this);
2231	}
2232
2233	bool QODBCDriver::beginTransaction()
2234	{
2235	Q_D(QODBCDriver);
2236	if (!isOpen()) {
2237	qWarning(msg: "QODBCDriver::beginTransaction: Database not open");
2238	return false;
2239	}
2240	SQLUINTEGER ac(SQL_AUTOCOMMIT_OFF);
2241	SQLRETURN r = SQLSetConnectAttr(hdbc: d->hDbc,
2242	SQL_ATTR_AUTOCOMMIT,
2243	rgbValue: (SQLPOINTER)size_t(ac),
2244	cbValue: sizeof(ac));
2245	if (r != SQL_SUCCESS) {
2246	setLastError(qMakeError(err: tr(s: "Unable to disable autocommit"),
2247	type: QSqlError::TransactionError, p: d));
2248	return false;
2249	}
2250	return true;
2251	}
2252
2253	bool QODBCDriver::commitTransaction()
2254	{
2255	Q_D(QODBCDriver);
2256	if (!isOpen()) {
2257	qWarning(msg: "QODBCDriver::commitTransaction: Database not open");
2258	return false;
2259	}
2260	SQLRETURN r = SQLEndTran(SQL_HANDLE_DBC,
2261	Handle: d->hDbc,
2262	SQL_COMMIT);
2263	if (r != SQL_SUCCESS) {
2264	setLastError(qMakeError(err: tr(s: "Unable to commit transaction"),
2265	type: QSqlError::TransactionError, p: d));
2266	return false;
2267	}
2268	return endTrans();
2269	}
2270
2271	bool QODBCDriver::rollbackTransaction()
2272	{
2273	Q_D(QODBCDriver);
2274	if (!isOpen()) {
2275	qWarning(msg: "QODBCDriver::rollbackTransaction: Database not open");
2276	return false;
2277	}
2278	SQLRETURN r = SQLEndTran(SQL_HANDLE_DBC,
2279	Handle: d->hDbc,
2280	SQL_ROLLBACK);
2281	if (r != SQL_SUCCESS) {
2282	setLastError(qMakeError(err: tr(s: "Unable to rollback transaction"),
2283	type: QSqlError::TransactionError, p: d));
2284	return false;
2285	}
2286	return endTrans();
2287	}
2288
2289	bool QODBCDriver::endTrans()
2290	{
2291	Q_D(QODBCDriver);
2292	SQLUINTEGER ac(SQL_AUTOCOMMIT_ON);
2293	SQLRETURN r = SQLSetConnectAttr(hdbc: d->hDbc,
2294	SQL_ATTR_AUTOCOMMIT,
2295	rgbValue: (SQLPOINTER)size_t(ac),
2296	cbValue: sizeof(ac));
2297	if (r != SQL_SUCCESS) {
2298	setLastError(qMakeError(err: tr(s: "Unable to enable autocommit"), type: QSqlError::TransactionError, p: d));
2299	return false;
2300	}
2301	return true;
2302	}
2303
2304	QStringList QODBCDriver::tables(QSql::TableType type) const
2305	{
2306	Q_D(const QODBCDriver);
2307	QStringList tl;
2308	if (!isOpen())
2309	return tl;
2310	SQLHANDLE hStmt;
2311
2312	SQLRETURN r = SQLAllocHandle(SQL_HANDLE_STMT,
2313	InputHandle: d->hDbc,
2314	OutputHandle: &hStmt);
2315	if (r != SQL_SUCCESS) {
2316	qSqlWarning(message: "QODBCDriver::tables: Unable to allocate handle"_L1, val: d);
2317	return tl;
2318	}
2319	r = SQLSetStmtAttr(hstmt: hStmt,
2320	SQL_ATTR_CURSOR_TYPE,
2321	rgbValue: (SQLPOINTER)SQL_CURSOR_FORWARD_ONLY,
2322	SQL_IS_UINTEGER);
2323	QStringList tableType;
2324	if (type & QSql::Tables)
2325	tableType += "TABLE"_L1;
2326	if (type & QSql::Views)
2327	tableType += "VIEW"_L1;
2328	if (type & QSql::SystemTables)
2329	tableType += "SYSTEM TABLE"_L1;
2330	if (tableType.isEmpty())
2331	return tl;
2332
2333	{
2334	auto joinedTableTypeString = toSQLTCHAR(input: tableType.join(sep: u','));
2335
2336	r = SQLTables(hstmt: hStmt,
2337	szCatalogName: nullptr, cbCatalogName: 0,
2338	szSchemaName: nullptr, cbSchemaName: 0,
2339	szTableName: nullptr, cbTableName: 0,
2340	szTableType: joinedTableTypeString.data(), cbTableType: joinedTableTypeString.size());
2341	}
2342
2343	if (r != SQL_SUCCESS)
2344	qSqlWarning(message: "QODBCDriver::tables Unable to execute table list"_L1, val: d);
2345
2346	if (d->hasSQLFetchScroll)
2347	r = SQLFetchScroll(StatementHandle: hStmt,
2348	SQL_FETCH_NEXT,
2349	FetchOffset: 0);
2350	else
2351	r = SQLFetch(StatementHandle: hStmt);
2352
2353	if (r != SQL_SUCCESS && r != SQL_SUCCESS_WITH_INFO && r != SQL_NO_DATA) {
2354	qSqlWarning(message: "QODBCDriver::tables failed to retrieve table/view list: ("_L1
2355	+ QString::number(r) + u':',
2356	val&: hStmt);
2357	return QStringList();
2358	}
2359
2360	while (r == SQL_SUCCESS) {
2361	tl.append(t: qGetStringData(hStmt, column: 2, colSize: -1, unicode: d->unicode).toString());
2362
2363	if (d->hasSQLFetchScroll)
2364	r = SQLFetchScroll(StatementHandle: hStmt,
2365	SQL_FETCH_NEXT,
2366	FetchOffset: 0);
2367	else
2368	r = SQLFetch(StatementHandle: hStmt);
2369	}
2370
2371	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: hStmt);
2372	if (r!= SQL_SUCCESS)
2373	qSqlWarning(message: "QODBCDriver: Unable to free statement handle"_L1 + QString::number(r), val: d);
2374	return tl;
2375	}
2376
2377	QSqlIndex QODBCDriver::primaryIndex(const QString& tablename) const
2378	{
2379	Q_D(const QODBCDriver);
2380	QSqlIndex index(tablename);
2381	if (!isOpen())
2382	return index;
2383	bool usingSpecialColumns = false;
2384	QSqlRecord rec = record(tablename);
2385
2386	SQLHANDLE hStmt;
2387	SQLRETURN r = SQLAllocHandle(SQL_HANDLE_STMT,
2388	InputHandle: d->hDbc,
2389	OutputHandle: &hStmt);
2390	if (r != SQL_SUCCESS) {
2391	qSqlWarning(message: "QODBCDriver::primaryIndex: Unable to list primary key"_L1, val: d);
2392	return index;
2393	}
2394	QString catalog, schema, table;
2395	d->splitTableQualifier(qualifier: tablename, catalog, schema, table);
2396
2397	if (isIdentifierEscaped(identifier: catalog, type: QSqlDriver::TableName))
2398	catalog = stripDelimiters(identifier: catalog, type: QSqlDriver::TableName);
2399	else
2400	catalog = d->adjustCase(identifier: catalog);
2401
2402	if (isIdentifierEscaped(identifier: schema, type: QSqlDriver::TableName))
2403	schema = stripDelimiters(identifier: schema, type: QSqlDriver::TableName);
2404	else
2405	schema = d->adjustCase(identifier: schema);
2406
2407	if (isIdentifierEscaped(identifier: table, type: QSqlDriver::TableName))
2408	table = stripDelimiters(identifier: table, type: QSqlDriver::TableName);
2409	else
2410	table = d->adjustCase(identifier: table);
2411
2412	r = SQLSetStmtAttr(hstmt: hStmt,
2413	SQL_ATTR_CURSOR_TYPE,
2414	rgbValue: (SQLPOINTER)SQL_CURSOR_FORWARD_ONLY,
2415	SQL_IS_UINTEGER);
2416	{
2417	auto c = toSQLTCHAR(input: catalog);
2418	auto s = toSQLTCHAR(input: schema);
2419	auto t = toSQLTCHAR(input: table);
2420	r = SQLPrimaryKeys(hstmt: hStmt,
2421	szCatalogName: catalog.isEmpty() ? nullptr : c.data(), cbCatalogName: c.size(),
2422	szSchemaName: schema.isEmpty() ? nullptr : s.data(), cbSchemaName: s.size(),
2423	szTableName: t.data(), cbTableName: t.size());
2424	}
2425
2426	// if the SQLPrimaryKeys() call does not succeed (e.g the driver
2427	// does not support it) - try an alternative method to get hold of
2428	// the primary index (e.g MS Access and FoxPro)
2429	if (r != SQL_SUCCESS) {
2430	auto c = toSQLTCHAR(input: catalog);
2431	auto s = toSQLTCHAR(input: schema);
2432	auto t = toSQLTCHAR(input: table);
2433	r = SQLSpecialColumns(hstmt: hStmt,
2434	SQL_BEST_ROWID,
2435	szCatalogName: catalog.isEmpty() ? nullptr : c.data(), cbCatalogName: c.size(),
2436	szSchemaName: schema.isEmpty() ? nullptr : s.data(), cbSchemaName: s.size(),
2437	szTableName: t.data(), cbTableName: t.size(),
2438	SQL_SCOPE_CURROW,
2439	SQL_NULLABLE);
2440
2441	if (r != SQL_SUCCESS) {
2442	qSqlWarning(message: "QODBCDriver::primaryIndex: Unable to execute primary key list"_L1, val: d);
2443	} else {
2444	usingSpecialColumns = true;
2445	}
2446	}
2447
2448	if (d->hasSQLFetchScroll)
2449	r = SQLFetchScroll(StatementHandle: hStmt,
2450	SQL_FETCH_NEXT,
2451	FetchOffset: 0);
2452	else
2453	r = SQLFetch(StatementHandle: hStmt);
2454
2455	int fakeId = 0;
2456	QString cName, idxName;
2457	// Store all fields in a StringList because some drivers can't detail fields in this FETCH loop
2458	while (r == SQL_SUCCESS) {
2459	if (usingSpecialColumns) {
2460	cName = qGetStringData(hStmt, column: 1, colSize: -1, unicode: d->unicode).toString(); // column name
2461	idxName = QString::number(fakeId++); // invent a fake index name
2462	} else {
2463	cName = qGetStringData(hStmt, column: 3, colSize: -1, unicode: d->unicode).toString(); // column name
2464	idxName = qGetStringData(hStmt, column: 5, colSize: -1, unicode: d->unicode).toString(); // pk index name
2465	}
2466	index.append(field: rec.field(name: cName));
2467	index.setName(idxName);
2468
2469	if (d->hasSQLFetchScroll)
2470	r = SQLFetchScroll(StatementHandle: hStmt,
2471	SQL_FETCH_NEXT,
2472	FetchOffset: 0);
2473	else
2474	r = SQLFetch(StatementHandle: hStmt);
2475
2476	}
2477	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: hStmt);
2478	if (r!= SQL_SUCCESS)
2479	qSqlWarning(message: "QODBCDriver: Unable to free statement handle"_L1 + QString::number(r), val: d);
2480	return index;
2481	}
2482
2483	QSqlRecord QODBCDriver::record(const QString& tablename) const
2484	{
2485	Q_D(const QODBCDriver);
2486	QSqlRecord fil;
2487	if (!isOpen())
2488	return fil;
2489
2490	SQLHANDLE hStmt;
2491	QString catalog, schema, table;
2492	d->splitTableQualifier(qualifier: tablename, catalog, schema, table);
2493
2494	if (isIdentifierEscaped(identifier: catalog, type: QSqlDriver::TableName))
2495	catalog = stripDelimiters(identifier: catalog, type: QSqlDriver::TableName);
2496	else
2497	catalog = d->adjustCase(identifier: catalog);
2498
2499	if (isIdentifierEscaped(identifier: schema, type: QSqlDriver::TableName))
2500	schema = stripDelimiters(identifier: schema, type: QSqlDriver::TableName);
2501	else
2502	schema = d->adjustCase(identifier: schema);
2503
2504	if (isIdentifierEscaped(identifier: table, type: QSqlDriver::TableName))
2505	table = stripDelimiters(identifier: table, type: QSqlDriver::TableName);
2506	else
2507	table = d->adjustCase(identifier: table);
2508
2509	SQLRETURN r = SQLAllocHandle(SQL_HANDLE_STMT,
2510	InputHandle: d->hDbc,
2511	OutputHandle: &hStmt);
2512	if (r != SQL_SUCCESS) {
2513	qSqlWarning(message: "QODBCDriver::record: Unable to allocate handle"_L1, val: d);
2514	return fil;
2515	}
2516	r = SQLSetStmtAttr(hstmt: hStmt,
2517	SQL_ATTR_CURSOR_TYPE,
2518	rgbValue: (SQLPOINTER)SQL_CURSOR_FORWARD_ONLY,
2519	SQL_IS_UINTEGER);
2520	{
2521	auto c = toSQLTCHAR(input: catalog);
2522	auto s = toSQLTCHAR(input: schema);
2523	auto t = toSQLTCHAR(input: table);
2524	r = SQLColumns(hstmt: hStmt,
2525	szCatalogName: catalog.isEmpty() ? nullptr : c.data(), cbCatalogName: c.size(),
2526	szSchemaName: schema.isEmpty() ? nullptr : s.data(), cbSchemaName: s.size(),
2527	szTableName: t.data(), cbTableName: t.size(),
2528	szColumnName: nullptr,
2529	cbColumnName: 0);
2530	}
2531	if (r != SQL_SUCCESS)
2532	qSqlWarning(message: "QODBCDriver::record: Unable to execute column list"_L1, val: d);
2533
2534	if (d->hasSQLFetchScroll)
2535	r = SQLFetchScroll(StatementHandle: hStmt,
2536	SQL_FETCH_NEXT,
2537	FetchOffset: 0);
2538	else
2539	r = SQLFetch(StatementHandle: hStmt);
2540
2541	// Store all fields in a StringList because some drivers can't detail fields in this FETCH loop
2542	while (r == SQL_SUCCESS) {
2543
2544	fil.append(field: qMakeFieldInfo(hStmt, p: d));
2545
2546	if (d->hasSQLFetchScroll)
2547	r = SQLFetchScroll(StatementHandle: hStmt,
2548	SQL_FETCH_NEXT,
2549	FetchOffset: 0);
2550	else
2551	r = SQLFetch(StatementHandle: hStmt);
2552	}
2553
2554	r = SQLFreeHandle(SQL_HANDLE_STMT, Handle: hStmt);
2555	if (r!= SQL_SUCCESS)
2556	qSqlWarning(message: "QODBCDriver: Unable to free statement handle "_L1 + QString::number(r), val: d);
2557
2558	return fil;
2559	}
2560
2561	QString QODBCDriver::formatValue(const QSqlField &field,
2562	bool trimStrings) const
2563	{
2564	QString r;
2565	if (field.isNull()) {
2566	r = "NULL"_L1;
2567	} else if (field.metaType().id() == QMetaType::QDateTime) {
2568	// Use an escape sequence for the datetime fields
2569	if (field.value().toDateTime().isValid()){
2570	QDate dt = field.value().toDateTime().date();
2571	QTime tm = field.value().toDateTime().time();
2572	// Dateformat has to be "yyyy-MM-dd hh:mm:ss", with leading zeroes if month or day < 10
2573	r = "{ ts '"_L1 +
2574	QString::number(dt.year()) + u'-' +
2575	QString::number(dt.month()).rightJustified(width: 2, fill: u'0', trunc: true) +
2576	u'-' +
2577	QString::number(dt.day()).rightJustified(width: 2, fill: u'0', trunc: true) +
2578	u' ' +
2579	tm.toString() +
2580	"' }"_L1;
2581	} else
2582	r = "NULL"_L1;
2583	} else if (field.metaType().id() == QMetaType::QByteArray) {
2584	const QByteArray ba = field.value().toByteArray();
2585	r.reserve(asize: (ba.size() + 1) * 2);
2586	r = "0x"_L1;
2587	for (const char c : ba) {
2588	const uchar s = uchar(c);
2589	r += QLatin1Char(QtMiscUtils::toHexLower(value: s >> 4));
2590	r += QLatin1Char(QtMiscUtils::toHexLower(value: s & 0x0f));
2591	}
2592	} else {
2593	r = QSqlDriver::formatValue(field, trimStrings);
2594	}
2595	return r;
2596	}
2597
2598	QVariant QODBCDriver::handle() const
2599	{
2600	Q_D(const QODBCDriver);
2601	return QVariant(QMetaType::fromType<SQLHANDLE>(), &d->hDbc);
2602	}
2603
2604	QString QODBCDriver::escapeIdentifier(const QString &identifier, IdentifierType) const
2605	{
2606	Q_D(const QODBCDriver);
2607	QChar quote = const_cast<QODBCDriverPrivate*>(d)->quoteChar();
2608	QString res = identifier;
2609	if (!identifier.isEmpty() && !identifier.startsWith(c: quote) && !identifier.endsWith(c: quote) ) {
2610	const QString quoteStr(quote);
2611	res.replace(c: quote, after: quoteStr + quoteStr);
2612	res.replace(c: u'.', after: quoteStr + u'.' + quoteStr);
2613	res = quote + res + quote;
2614	}
2615	return res;
2616	}
2617
2618	bool QODBCDriver::isIdentifierEscaped(const QString &identifier, IdentifierType) const
2619	{
2620	Q_D(const QODBCDriver);
2621	QChar quote = const_cast<QODBCDriverPrivate*>(d)->quoteChar();
2622	return identifier.size() > 2
2623	&& identifier.startsWith(c: quote) //left delimited
2624	&& identifier.endsWith(c: quote); //right delimited
2625	}
2626
2627	QT_END_NAMESPACE
2628
2629	#include "moc_qsql_odbc_p.cpp"
2630