tst_qcontactasync.cpp source code [qtpim/tests/auto/contacts/qcontactasync/unittest/tst_qcontactasync.cpp]

1	/****************************************************************************
2	**
3	** Copyright (C) 2015 The Qt Company Ltd.
4	** Contact: http://www.qt.io/licensing/
5	**
6	** This file is part of the test suite of the Qt Toolkit.
7	**
8	** $QT_BEGIN_LICENSE:LGPL21$
9	** Commercial License Usage
10	** Licensees holding valid commercial Qt licenses may use this file in
11	** accordance with the commercial license agreement provided with the
12	** Software or, alternatively, in accordance with the terms contained in
13	** a written agreement between you and The Qt Company. For licensing terms
14	** and conditions see http://www.qt.io/terms-conditions. For further
15	** information use the contact form at http://www.qt.io/contact-us.
16	**
17	** GNU Lesser General Public License Usage
18	** Alternatively, this file may be used under the terms of the GNU Lesser
19	** General Public License version 2.1 or version 3 as published by the Free
20	** Software Foundation and appearing in the file LICENSE.LGPLv21 and
21	** LICENSE.LGPLv3 included in the packaging of this file. Please review the
22	** following information to ensure the GNU Lesser General Public License
23	** requirements will be met: https://www.gnu.org/licenses/lgpl.html and
24	** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
25	**
26	** As a special exception, The Qt Company gives you certain additional
27	** rights. These rights are described in The Qt Company LGPL Exception
28	** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
29	**
30	** $QT_END_LICENSE$
31	**
32	****************************************************************************/
33
34	#include <QtTest/QtTest>
35
36	#include <QCoreApplication>
37	#include <QScopedPointer>
38
39	#include <QtContacts/qcontacts.h>
40
41	#include "qcontactmanagerdataholder.h" //QContactManagerDataHolder
42
43	QTCONTACTS_USE_NAMESPACE
44
45	/ Define an innocuous request (fetch ie doesn't mutate) to "fill up" any queues /
46	#define FILL_QUEUE_WITH_FETCH_REQUESTS() QContactFetchRequest fqcfr1, fqcfr2, fqcfr3; \
47	fqcfr1.start(); \
48	fqcfr2.start(); \
49	fqcfr3.start();
50
51	/ Define an innocuous request (fetch ie doesn't mutate) to "fill up" any queues /
52	#define FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(manager) QContactFetchRequest fqifr1, fqifr2, fqifr3; \
53	fqifr1.setManager(manager); fqifr1.start(); \
54	fqifr2.setManager(manager); fqifr2.start(); \
55	fqifr3.setManager(manager); fqifr3.start();
56
57
58	//TESTED_COMPONENT=src/contacts
59
60	// Unfortunately the plumbing isn't in place to allow cancelling requests at arbitrary points
61	// in their processing. So we do multiple loops until things work out.. or not
62	#define MAX_OPTIMISTIC_SCHEDULING_LIMIT 100
63
64
65	// Thread capable QThreadSignalSpy (to avoid data races with count/appendArgS)
66	class QThreadSignalSpy: public QObject
67	{
68	public:
69	QThreadSignalSpy(QObject obj, const* char *aSignal)
70	{
71	QMutexLocker m(&lock);
72	#ifdef Q_CC_BOR
73	const int memberOffset = QObject::staticMetaObject.methodCount();
74	#else
75	static const int memberOffset = QObject::staticMetaObject.methodCount();
76	#endif
77	Q_ASSERT(obj);
78	Q_ASSERT(aSignal);
79
80	if (((aSignal[`0`] - `'0'`) & `0x03`) != QSIGNAL_CODE) {
81	qWarning(msg: "QThreadSignalSpy: Not a valid signal, use the SIGNAL macro");
82	return;
83	}
84
85	QByteArray ba = QMetaObject::normalizedSignature(method: aSignal + `1`);
86	const QMetaObject *mo = obj->metaObject();
87	int sigIndex = mo->indexOfMethod(method: ba.constData());
88	if (sigIndex < `0`) {
89	qWarning(msg: "QThreadSignalSpy: No such signal: '%s'", ba.constData());
90	return;
91	}
92
93	if (!QMetaObject::connect(sender: obj, signal_index: sigIndex, receiver: this, method_index: memberOffset,
94	type: Qt::DirectConnection, types: `0`)) {
95	qWarning(msg: "QThreadSignalSpy: QMetaObject::connect returned false. Unable to connect.");
96	return;
97	}
98	sig = ba;
99	initArgs(member: mo->method(index: sigIndex));
100	}
101
102	inline bool isValid() const { return !sig.isEmpty(); }
103	inline QByteArray signal() const { return sig; }
104
105	int qt_metacall(QMetaObject::Call call, int methodId, void **a)
106	{
107	methodId = QObject::qt_metacall(call, methodId, a);
108	if (methodId < `0`)
109	return methodId;
110
111	if (call == QMetaObject::InvokeMetaMethod) {
112	if (methodId == `0`) {
113	appendArgs(a);
114	}
115	--methodId;
116	}
117	return methodId;
118	}
119
120	// The QList<QVariantList> API we actually use
121	int count() const
122	{
123	QMutexLocker m(&lock);
124	return savedArgs.count();
125	}
126	void clear()
127	{
128	QMutexLocker m(&lock);
129	savedArgs.clear();
130	}
131
132	private:
133	void initArgs(const QMetaMethod &member)
134	{
135	QList<QByteArray> params = member.parameterTypes();
136	for (int i = `0`; i < params.count(); ++i) {
137	int tp = QMetaType::type(typeName: params.at(i).constData());
138	if (tp == QMetaType::Void)
139	qWarning(msg: "Don't know how to handle '%s', use qRegisterMetaType to register it.",
140	params.at(i).constData());
141	args << tp;
142	}
143	}
144
145	void appendArgs(void **a)
146	{
147	QMutexLocker m(&lock);
148	QList<QVariant> list;
149	for (int i = `0`; i < args.count(); ++i) {
150	QMetaType::Type type = static_cast<QMetaType::Type>(args.at(i));
151	list << QVariant (type, a[i + `1`]);
152	}
153	savedArgs.append(t: list);
154	}
155
156	// the full, normalized signal name
157	QByteArray sig;
158	// holds the QMetaType types for the argument list of the signal
159	QList<int> args;
160
161	mutable QMutex lock;
162	// Different API
163	QList< QVariantList> savedArgs;
164	};
165
166
167	static inline QContactId makeId(const QString &managerName, uint id)
168	{
169	return QContactId (QStringLiteral("qtcontacts:basic%1:").arg(a: managerName), QByteArray (reinterpret_cast<const char >(&id), sizeof*(uint)));
170	}
171
172
173	class tst_QContactAsync : public QObject
174	{
175	Q_OBJECT
176
177	public:
178	tst_QContactAsync();
179	virtual ~tst_QContactAsync();
180
181	public slots:
182	void initTestCase();
183	void cleanupTestCase();
184
185	private:
186	void addManagers(QStringList includes = QStringList ()); // add standard managers to the data
187
188	private slots:
189	void testDestructor();
190	void testDestructor_data() { addManagers(includes: QStringList (QString ("maliciousplugin"))); }
191
192	void contactFetch();
193	void contactFetch_data() { addManagers(); }
194	void contactFetchById();
195	void contactFetchById_data() { addManagers(); }
196
197	void contactFetchByIdWithEmptyIds();
198	void contactFetchByIdWithEmptyIds_data() { addManagers(); }
199	void contactFetchByIdMixingEmptyIds();
200	void contactFetchByIdMixingEmptyIds_data() { addManagers(); }
201	void contactFetchByIdWithNonExistingButValidIds();
202	void contactFetchByIdWithNonExistingButValidIds_data() { addManagers(); }
203	void contactFetchByIdErrorHandling();
204	void contactFetchByIdErrorHandling_data() { addManagers(); }
205
206	void contactIdFetch();
207	void contactIdFetch_data() { addManagers(); }
208	void contactRemove();
209	void contactRemove_data() { addManagers(); }
210	void contactRemoveErrorHandling();
211	void contactRemoveErrorHandling_data() {addManagers();}
212	void contactSave();
213	void contactSave_data() { addManagers(); }
214	void contactSaveErrorHandling();
215	void contactSaveErrorHandling_data() { addManagers(); }
216	void contactSaveRemovedContacts();
217	void contactSaveRemovedContacts_data() { addManagers(); }
218	void contactSaveRemovedContactsWithCleanIds();
219	void contactSaveRemovedContactsWithCleanIds_data() { addManagers(); }
220	void contactPartialSave();
221	void contactPartialSave_data() { addManagers(); }
222	void contactPartialSaveAsync();
223	void contactPartialSaveAsync_data() {addManagers();}
224
225	void relationshipFetch();
226	void relationshipFetch_data() { addManagers(); }
227	void relationshipRemove();
228	void relationshipRemove_data() { addManagers(); }
229	void relationshipSave();
230	void relationshipSave_data() { addManagers(); }
231
232	void collectionFetch();
233	void collectionFetch_data() { addManagers(); }
234	void collectionRemove();
235	void collectionRemove_data() { addManagers(); }
236	void collectionSave();
237	void collectionSave_data() { addManagers(); }
238
239	void maliciousManager(); // uses it's own custom data (manager)
240
241	void testQuickDestruction();
242	void testQuickDestruction_data() { addManagers(includes: QStringList (QString ("maliciousplugin"))); }
243
244	void threadDelivery();
245	void threadDelivery_data() { addManagers(includes: QStringList (QString ("maliciousplugin"))); }
246	protected slots:
247	void resultsAvailableReceived();
248
249	private:
250	bool compareContactLists(QList<QContact> lista, QList<QContact> listb);
251	bool compareContacts(QContact ca, QContact cb);
252	bool containsIgnoringTimestamps(const QList<QContact>& list, const QContact& c);
253	bool compareIgnoringTimestamps(const QContact& ca, const QContact& cb);
254	bool containsAllCollectionIds(const QList<QContactCollectionId>& target, const QList<QContactCollectionId>& ids);
255	QContactManager* prepareModel(const QString& uri);
256
257	Qt::HANDLE m_mainThreadId;
258	Qt::HANDLE m_resultsAvailableSlotThreadId;
259	QScopedPointer<QContactManagerDataHolder> managerDataHolder;
260
261	};
262
263	tst_QContactAsync::tst_QContactAsync()
264	{
265	// ensure we can load all of the plugins we need to.
266	QString path = QCoreApplication::applicationDirPath() + QStringLiteral("/dummyplugin/plugins");
267	QCoreApplication::addLibraryPath(path);
268
269	qRegisterMetaType<QContactAbstractRequest::State>(typeName: "QContactAbstractRequest::State");
270	}
271
272	tst_QContactAsync::~tst_QContactAsync()
273	{
274	}
275
276	void tst_QContactAsync::initTestCase()
277	{
278	managerDataHolder.reset(other: new QContactManagerDataHolder ());
279	}
280
281	void tst_QContactAsync::cleanupTestCase()
282	{
283	managerDataHolder.reset(other: `0`);
284	}
285
286	bool tst_QContactAsync::compareContactLists(QList<QContact> lista, QList<QContact> listb)
287	{
288	// NOTE: This compare is contact order insensitive.
289
290	// Remove matching contacts
291	foreach (QContact a, lista) {
292	foreach (QContact b, listb) {
293	if (compareContacts(ca: a, cb: b)) {
294	lista.removeOne(t: a);
295	listb.removeOne(t: b);
296	break;
297	}
298	}
299	}
300	return (lista.count() == `0` && listb.count() == `0`);
301	}
302
303	bool tst_QContactAsync::compareContacts(QContact ca, QContact cb)
304	{
305	// NOTE: This compare is contact detail order insensitive.
306
307	if (ca.id() != cb.id())
308	return false;
309
310	QList<QContactDetail> aDetails = ca.details();
311	QList<QContactDetail> bDetails = cb.details();
312
313	// Remove matching details
314	foreach (QContactDetail ad, aDetails) {
315	foreach (QContactDetail bd, bDetails) {
316	if (ad == bd) {
317	ca.removeDetail(detail: &ad);
318	cb.removeDetail(detail: &bd);
319	break;
320	}
321
322	// Special handling for timestamp
323	if (ad.type() == QContactTimestamp::Type &&
324	bd.type() == QContactTimestamp::Type) {
325	QContactTimestamp at = static_cast<QContactTimestamp>(ad);
326	QContactTimestamp bt = static_cast<QContactTimestamp>(bd);
327	if (at.created().toString() == bt.created().toString() &&
328	at.lastModified().toString() == bt.lastModified().toString()) {
329	ca.removeDetail(detail: &ad);
330	cb.removeDetail(detail: &bd);
331	break;
332	}
333
334	}
335	}
336	}
337	return (ca == cb);
338	}
339
340	bool tst_QContactAsync::containsIgnoringTimestamps(const QList<QContact>& list, const QContact& c)
341	{
342	QList<QContact> cl = list;
343	QContact a(c);
344	for (int i = `0`; i < cl.size(); i++) {
345	QContact b(cl.at(i));
346	if (compareIgnoringTimestamps(ca: a, cb: b))
347	return true;
348	}
349
350	return false;
351	}
352
353	bool tst_QContactAsync::compareIgnoringTimestamps(const QContact& ca, const QContact& cb)
354	{
355	// Compares two contacts, ignoring any timestamp details
356	QContact a(ca);
357	QContact b(cb);
358	QList<QContactDetail> aDetails = a.details();
359	QList<QContactDetail> bDetails = b.details();
360
361	// They can be in any order, so loop
362	// First remove any matches, and any timestamps
363	foreach (QContactDetail d, aDetails) {
364	foreach (QContactDetail d2, bDetails) {
365	if (d == d2) {
366	a.removeDetail(detail: &d);
367	b.removeDetail(detail: &d2);
368	break;
369	}
370
371	if (d.type() == QContactTimestamp::Type) {
372	a.removeDetail(detail: &d);
373	}
374
375	if (d2.type() == QContactTimestamp::Type) {
376	b.removeDetail(detail: &d2);
377	}
378	}
379	}
380
381	if (a == b)
382	return true;
383	return false;
384	}
385
386	bool tst_QContactAsync::containsAllCollectionIds(const QList<QContactCollectionId> &target, const QList<QContactCollectionId> &ids)
387	{
388	bool containsAllIds = true;
389	foreach (QContactCollectionId id, ids) {
390	if (!target.contains(t: id)) {
391	containsAllIds = false;
392	break;
393	}
394	}
395	return containsAllIds;
396	}
397
398	void tst_QContactAsync::testDestructor()
399	{
400	QFETCH(QString, uri);
401	QContactManager* cm = prepareModel(uri);
402	QContactFetchRequest* req = new QContactFetchRequest;
403	req->setManager(cm);
404
405	QContactManager* cm2 = prepareModel(uri);
406	QContactFetchRequest* req2 = new QContactFetchRequest;
407	req2->setManager(cm2);
408
409	// first, delete manager then request
410	delete cm;
411	delete req;
412
413	// second, delete request then manager
414	delete req2;
415	delete cm2;
416	}
417
418	void tst_QContactAsync::contactFetch()
419	{
420	QFETCH(QString, uri);
421	QScopedPointer<QContactManager> cm(prepareModel(uri));
422
423	QContactFetchRequest cfr;
424	QVERIFY(cfr.type() == QContactAbstractRequest::ContactFetchRequest);
425
426	// initial state - not started, no manager.
427	QVERIFY(!cfr.isActive());
428	QVERIFY(!cfr.isFinished());
429	QVERIFY(!cfr.start());
430	QVERIFY(!cfr.cancel());
431	QVERIFY(!cfr.waitForFinished());
432
433	// "all contacts" retrieval
434	QContactFilter fil;
435	cfr.setManager(cm.data());
436	QCOMPARE(cfr.manager(), cm.data());
437	QVERIFY(!cfr.isActive());
438	QVERIFY(!cfr.isFinished());
439	QVERIFY(!cfr.cancel());
440	QVERIFY(!cfr.waitForFinished());
441	qRegisterMetaType<QContactFetchRequest>(typeName: "QContactFetchRequest");
442	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
443	cfr.setFilter(fil);
444	QCOMPARE(cfr.filter(), fil);
445	QVERIFY(!cfr.cancel()); // not started
446
447	QVERIFY(cfr.start());
448	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
449	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
450	QVERIFY(cfr.waitForFinished());
451	QVERIFY(cfr.isFinished());
452
453	QVERIFY(spy.count() >= `1`); // active + finished progress signals
454	spy.clear();
455
456	QList<QContactId> contactIds = cm ->contactIds();
457	QList<QContact> contacts = cfr.contacts();
458	QCOMPARE(contactIds.size(), contacts.size());
459	for (int i = `0`; i < contactIds.size(); i++) {
460	QContact curr = cm ->contact(contactId: contactIds.at(i));
461	QVERIFY(contacts.at(i) == curr);
462	}
463
464	// asynchronous detail filtering
465	QContactDetailFilter dfil;
466	dfil.setDetailType(type: QContactUrl::Type, field: QContactUrl::FieldUrl);
467	cfr.setFilter(dfil);
468	QVERIFY(cfr.filter() == dfil);
469	QVERIFY(!cfr.cancel()); // not started
470
471	QVERIFY(cfr.start());
472	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
473	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
474	QVERIFY(cfr.waitForFinished());
475	QVERIFY(cfr.isFinished());
476	QVERIFY(spy.count() >= `1`); // active + finished progress signals
477	spy.clear();
478
479	contactIds = cm ->contactIds(filter: dfil);
480	contacts = cfr.contacts();
481	QCOMPARE(contactIds.size(), contacts.size());
482	for (int i = `0`; i < contactIds.size(); i++) {
483	QContact curr = cm ->contact(contactId: contactIds.at(i));
484	QVERIFY(contacts.at(i) == curr);
485	}
486
487	// sort order
488	QContactSortOrder sortOrder;
489	sortOrder.setDetailType(type: QContactPhoneNumber::Type, field: QContactPhoneNumber::FieldNumber);
490	QList<QContactSortOrder> sorting;
491	sorting.append(t: sortOrder);
492	cfr.setFilter(fil);
493	cfr.setSorting(sorting);
494	QCOMPARE(cfr.sorting(), sorting);
495	QVERIFY(!cfr.cancel()); // not started
496	QVERIFY(cfr.start());
497	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
498	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
499	QVERIFY(cfr.waitForFinished());
500	QVERIFY(cfr.isFinished());
501
502	QVERIFY(spy.count() >= `1`); // active + finished progress signals
503	spy.clear();
504
505	contactIds = cm ->contactIds(sortOrders: sorting);
506	contacts = cfr.contacts();
507	QCOMPARE(contactIds.size(), contacts.size());
508	for (int i = `0`; i < contactIds.size(); i++) {
509	QContact curr = cm ->contact(contactId: contactIds.at(i));
510	QVERIFY(contacts.at(i) == curr);
511	}
512
513	// restrictions
514	sorting.clear();
515	cfr.setFilter(fil);
516	cfr.setSorting(sorting);
517	QContactFetchHint fetchHint;
518	QList<QContactDetail::DetailType> typeHints;
519	typeHints << QContactName::Type;
520	fetchHint.setDetailTypesHint(typeHints);
521	cfr.setFetchHint(fetchHint);
522	QCOMPARE(cfr.fetchHint().detailTypesHint(), typeHints);
523	QVERIFY(!cfr.cancel()); // not started
524	QVERIFY(cfr.start());
525	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
526	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
527	QVERIFY(cfr.waitForFinished());
528	QVERIFY(cfr.isFinished());
529
530	QVERIFY(spy.count() >= `1`); // active + finished progress signals
531	spy.clear();
532
533	contactIds = cm ->contactIds(sortOrders: sorting);
534	contacts = cfr.contacts();
535	QCOMPARE(contactIds.size(), contacts.size());
536	for (int i = `0`; i < contactIds.size(); i++) {
537	// create a contact from the restricted data only (id)
538	QContact currFull = cm ->contact(contactId: contactIds.at(i));
539	QContact currRestricted;
540	currRestricted.setId(currFull.id());
541	QList<QContactName> names = currFull.details<QContactName>();
542	foreach (const QContactName& name, names) {
543	QContactName fullName = name;
544	if (!fullName.isEmpty()) {
545	currRestricted.saveDetail(detail: &fullName);
546	}
547	}
548
549	// now find the contact in the retrieved list which our restricted contact mimics
550	QContact retrievedRestricted;
551	bool found = false;
552	foreach (const QContact& retrieved, contacts) {
553	if (retrieved.id() == currRestricted.id()) {
554	retrievedRestricted = retrieved;
555	found = true;
556	}
557	}
558
559	QVERIFY(found); // must exist or fail.
560
561	// ensure that the contact is the same (except synth fields)
562	QList<QContactDetail> retrievedDetails = retrievedRestricted.details();
563	QList<QContactDetail> expectedDetails = currRestricted.details();
564	foreach (const QContactDetail& det, expectedDetails) {
565	// ignore backend synthesised details
566	// again, this requires a "default contact details" function to work properly.
567	if (det.type() == QContactTimestamp::Type) {
568	continue;
569	}
570
571	// everything else in the expected contact should be in the retrieved one.
572	QVERIFY(retrievedDetails.contains(det));
573	}
574	}
575
576	// cancelling
577	sorting.clear();
578	cfr.setFilter(fil);
579	cfr.setSorting(sorting);
580	cfr.setFetchHint(QContactFetchHint ());
581
582	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
583	while (true) {
584	QVERIFY(!cfr.cancel()); // not started
585	FILL_QUEUE_WITH_FETCH_REQUESTS();
586	QVERIFY(cfr.start());
587	if (!cfr.cancel()) {
588	// due to thread scheduling, async cancel might be attempted
589	// after the request has already finished.. so loop and try again.
590	spy.clear();
591	cfr.waitForFinished();
592	sorting.clear();
593	cfr.setFilter(fil);
594	cfr.setSorting(sorting);
595	cfr.setFetchHint(QContactFetchHint ());
596	cfr.setFetchHint(QContactFetchHint ());
597	bailoutCount -= `1`;
598	if (!bailoutCount) {
599	// qWarning("Unable to test cancelling due to thread scheduling!");
600	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
601	break;
602	}
603	continue;
604	}
605
606	// if we get here, then we are cancelling the request.
607	QVERIFY(cfr.waitForFinished());
608	QVERIFY(cfr.isCanceled());
609
610	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
611	spy.clear();
612	break;
613	}
614
615	// restart, and wait for progress after cancel.
616	while (true) {
617	QVERIFY(!cfr.cancel()); // not started
618	FILL_QUEUE_WITH_FETCH_REQUESTS();
619	QVERIFY(cfr.start());
620	if (!cfr.cancel()) {
621	// due to thread scheduling, async cancel might be attempted
622	// after the request has already finished.. so loop and try again.
623	cfr.waitForFinished();
624	sorting.clear();
625	cfr.setFilter(fil);
626	cfr.setSorting(sorting);
627	cfr.setFetchHint(QContactFetchHint ());
628	bailoutCount -= `1`;
629	spy.clear();
630	if (!bailoutCount) {
631	//qWarning("Unable to test cancelling due to thread scheduling!");
632	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
633	break;
634	}
635	continue;
636	}
637	cfr.waitForFinished();
638	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
639	spy.clear();
640	QVERIFY(!cfr.isActive());
641	QVERIFY(cfr.state() == QContactAbstractRequest::CanceledState);
642	break;
643	}
644	}
645
646	void tst_QContactAsync::contactFetchById()
647	{
648	QFETCH(QString, uri);
649	QScopedPointer<QContactManager> cm(prepareModel(uri));
650
651	QContactFetchByIdRequest cfr;
652	QVERIFY(cfr.type() == QContactAbstractRequest::ContactFetchByIdRequest);
653
654	// initial state - not started, no manager.
655	QVERIFY(!cfr.isActive());
656	QVERIFY(!cfr.isFinished());
657	QVERIFY(!cfr.start());
658	QVERIFY(!cfr.cancel());
659	QVERIFY(!cfr.waitForFinished());
660
661	// get all contact ids
662	QList<QContactId> contactIds(cm ->contactIds());
663
664	// "all contacts" retrieval
665	cfr.setManager(cm.data());
666	cfr.setIds(contactIds);
667	QCOMPARE(cfr.manager(), cm.data());
668	QVERIFY(!cfr.isActive());
669	QVERIFY(!cfr.isFinished());
670	QVERIFY(!cfr.cancel());
671	QVERIFY(!cfr.waitForFinished());
672	qRegisterMetaType<QContactFetchByIdRequest>(typeName: "QContactFetchByIdRequest");
673	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
674	QVERIFY(!cfr.cancel()); // not started
675
676	QVERIFY(cfr.start());
677	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
678	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
679	QVERIFY(cfr.waitForFinished());
680	QVERIFY(cfr.isFinished());
681
682	QVERIFY(spy.count() >= `1`); // active + finished progress signals
683	spy.clear();
684
685	QList<QContact> contacts = cfr.contacts();
686	QCOMPARE(contactIds.size(), contacts.size());
687	for (int i = `0`; i < contactIds.size(); i++) {
688	QContact curr = cm ->contact(contactId: contactIds.at(i));
689	QVERIFY(contacts.at(i) == curr);
690	}
691	}
692
693	void tst_QContactAsync::contactFetchByIdWithEmptyIds()
694	{
695	QFETCH(QString, uri);
696	QScopedPointer<QContactManager> cm(prepareModel(uri));
697
698	QContactFetchByIdRequest cfr;
699	QVERIFY(cfr.type() == QContactAbstractRequest::ContactFetchByIdRequest);
700
701	// List of qmpty ids.
702	QList<QContactId> contactIds;
703	contactIds.append(t: QContactId ());
704	contactIds.append(t: QContactId ());
705	contactIds.append(t: QContactId ());
706	int expectedCount = `3`;
707
708	// "all contacts" retrieval
709	cfr.setManager(cm.data());
710	cfr.setIds(contactIds);
711	QCOMPARE(cfr.manager(), cm.data());
712	QVERIFY(!cfr.isActive());
713	QVERIFY(!cfr.isFinished());
714	QVERIFY(!cfr.cancel());
715	QVERIFY(!cfr.waitForFinished());
716	qRegisterMetaType<QContactFetchByIdRequest>(typeName: "QContactFetchByIdRequest");
717	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
718	QVERIFY(!cfr.cancel()); // not started
719
720	QVERIFY(cfr.start());
721	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
722	QVERIFY(cfr.waitForFinished());
723	QVERIFY(cfr.isFinished());
724
725	QVERIFY(spy.count() >= `1`); // active + finished progress signals
726	spy.clear();
727
728	QList<QContact> contacts = cfr.contacts();
729	QCOMPARE(contacts.size(), expectedCount);
730	int contactIndex = `0`;
731	foreach (const QContactId id, contactIds) {
732	QCOMPARE(contacts.at(contactIndex), QContact ());
733	QCOMPARE(cfr.errorMap().value(contactIndex),QContactManager::DoesNotExistError);
734	contactIndex++;
735	}
736	}
737
738	void tst_QContactAsync::contactFetchByIdMixingEmptyIds()
739	{
740	QFETCH(QString, uri);
741	QScopedPointer<QContactManager> cm(prepareModel(uri));
742
743	QContactFetchByIdRequest cfr;
744	QVERIFY(cfr.type() == QContactAbstractRequest::ContactFetchByIdRequest);
745
746	// List of ids contains few empty ones among good ones.
747	int expectedCount = cm ->contactIds().size();
748	QList<QContactId> contactIds;
749	foreach (const QContactId id, cm ->contactIds()) {
750	contactIds.append(t: QContactId ());
751	expectedCount ++;
752	contactIds.append(t: id);
753	}
754	contactIds.append(t: QContactId ());
755	expectedCount++;
756
757	// "Contacts" retrieval
758	cfr.setManager(cm.data());
759	cfr.setIds(contactIds);
760	QCOMPARE(cfr.manager(), cm.data());
761	QVERIFY(!cfr.isActive());
762	QVERIFY(!cfr.isFinished());
763	QVERIFY(!cfr.cancel());
764	QVERIFY(!cfr.waitForFinished());
765	qRegisterMetaType<QContactFetchByIdRequest>(typeName: "QContactFetchByIdRequest");
766	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
767	QVERIFY(!cfr.cancel()); // not started
768
769	QVERIFY(cfr.start());
770	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
771	QVERIFY(cfr.waitForFinished());
772	QVERIFY(cfr.isFinished());
773
774	QVERIFY(spy.count() >= `1`); // active + finished progress signals
775	spy.clear();
776
777	QList<QContact> contacts = cfr.contacts();
778	QCOMPARE(contacts.size(), expectedCount);
779	int contactIndex = `0`;
780	foreach (const QContactId id, contactIds) {
781	if (id == QContactId ()) {
782	QCOMPARE(contacts.at(contactIndex), QContact ());
783	QCOMPARE(cfr.errorMap().value(contactIndex),QContactManager::DoesNotExistError);
784	} else {
785	QCOMPARE(contacts.at(contactIndex).id(), id);
786	}
787	contactIndex++;
788	}
789	}
790
791	void tst_QContactAsync::contactFetchByIdWithNonExistingButValidIds()
792	{
793	QFETCH(QString, uri);
794	QScopedPointer<QContactManager> cm(prepareModel(uri));
795
796	QContactFetchByIdRequest cfr;
797	QVERIFY(cfr.type() == QContactAbstractRequest::ContactFetchByIdRequest);
798
799	// List of ids contains few empty ones among good ones.
800	int expectedCount = `0`;
801	QList<QContactId> contactIds;
802	foreach (const QContactId id, cm ->contactIds()) {
803	QVERIFY(cm ->removeContact(id));
804	contactIds.append(t: id);
805	expectedCount ++;
806	}
807
808	// "Contacts" retrieval
809	cfr.setManager(cm.data());
810	cfr.setIds(contactIds);
811	QCOMPARE(cfr.manager(), cm.data());
812	QVERIFY(!cfr.isActive());
813	QVERIFY(!cfr.isFinished());
814	QVERIFY(!cfr.cancel());
815	QVERIFY(!cfr.waitForFinished());
816	qRegisterMetaType<QContactFetchByIdRequest>(typeName: "QContactFetchByIdRequest");
817	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
818	QVERIFY(!cfr.cancel()); // not started
819
820	QVERIFY(cfr.start());
821	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
822	QVERIFY(cfr.waitForFinished());
823	QVERIFY(cfr.isFinished());
824
825	QVERIFY(spy.count() >= `1`); // active + finished progress signals
826	spy.clear();
827
828	QList<QContact> contacts = cfr.contacts();
829	QCOMPARE(contacts.size(), expectedCount);
830	int contactIndex = `0`;
831	foreach (const QContactId id, contactIds) {
832	QCOMPARE(contacts.at(contactIndex), QContact ());
833	QCOMPARE(cfr.errorMap().value(contactIndex),QContactManager::DoesNotExistError);
834	contactIndex++;
835	}
836	}
837
838	void tst_QContactAsync::contactFetchByIdErrorHandling()
839	{
840	// Testing error handling by fetching by non existing local ids.
841
842	QFETCH(QString, uri);
843	QScopedPointer<QContactManager> cm(prepareModel(uri));
844
845	QContactFetchByIdRequest cfrCausingErrors;
846	QVERIFY(cfrCausingErrors.type() == QContactAbstractRequest::ContactFetchByIdRequest);
847
848	// Check initial state - not started, no manager.
849	QVERIFY(!cfrCausingErrors.isActive());
850	QVERIFY(!cfrCausingErrors.isFinished());
851	QVERIFY(!cfrCausingErrors.start());
852	QVERIFY(!cfrCausingErrors.cancel());
853	QVERIFY(!cfrCausingErrors.waitForFinished());
854
855	// Prepare non-existing contact ids for request we like to result.
856	QList<QContactId> nonExistingContactIds;
857	nonExistingContactIds << QContactId () << QContactId () << QContactId ();
858
859	// "Make contacts" retrieval with some extra checking.
860	cfrCausingErrors.setManager(cm.data());
861	cfrCausingErrors.setIds(nonExistingContactIds);
862	QCOMPARE(cfrCausingErrors.manager(), cm.data());
863	QVERIFY(!cfrCausingErrors.isActive());
864	QVERIFY(!cfrCausingErrors.isFinished());
865	QVERIFY(!cfrCausingErrors.cancel());
866	QVERIFY(!cfrCausingErrors.waitForFinished());
867
868	qRegisterMetaType<QContactFetchByIdRequest>(typeName: "QContactFetchByIdRequest");
869	QThreadSignalSpy spy2(&cfrCausingErrors, SIGNAL(stateChanged(QContactAbstractRequest::State)));
870
871	QVERIFY(!cfrCausingErrors.cancel()); // not started
872
873	QVERIFY(cfrCausingErrors.start());
874	QVERIFY((cfrCausingErrors.isActive() && cfrCausingErrors.state() == QContactAbstractRequest::ActiveState) \|\| cfrCausingErrors.isFinished());
875	QVERIFY(cfrCausingErrors.waitForFinished());
876	QVERIFY(cfrCausingErrors.isFinished());
877
878	QVERIFY(spy2.count() >= `1`); // active + finished progress signals
879	spy2.clear();
880
881	// Check errors, they should be stored in the errorMap using index of local id in the request as a key for the error.
882	// Note, the returned values are actually set in to the errorMap by common code in qcontactmanagerenginev2wrapper_p.cpp.
883
884	QVERIFY(cfrCausingErrors.errorMap().value(`0`) == QContactManager::DoesNotExistError);
885	QVERIFY(cfrCausingErrors.errorMap().value(`1`) == QContactManager::DoesNotExistError);
886	QVERIFY(cfrCausingErrors.errorMap().value(`2`) == QContactManager::DoesNotExistError);
887	}
888
889	void tst_QContactAsync::contactIdFetch()
890	{
891	QFETCH(QString, uri);
892	QScopedPointer<QContactManager> cm(prepareModel(uri));
893	QContactIdFetchRequest cfr;
894	QVERIFY(cfr.type() == QContactAbstractRequest::ContactIdFetchRequest);
895
896	// initial state - not started, no manager.
897	QVERIFY(!cfr.isActive());
898	QVERIFY(!cfr.isFinished());
899	QVERIFY(!cfr.start());
900	QVERIFY(!cfr.cancel());
901	QVERIFY(!cfr.waitForFinished());
902
903	// "all contacts" retrieval
904	QContactFilter fil;
905	cfr.setManager(cm.data());
906	QCOMPARE(cfr.manager(), cm.data());
907	QVERIFY(!cfr.isActive());
908	QVERIFY(!cfr.isFinished());
909	QVERIFY(!cfr.cancel());
910	QVERIFY(!cfr.waitForFinished());
911	qRegisterMetaType<QContactIdFetchRequest>(typeName: "QContactIdFetchRequest");
912
913	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
914	cfr.setFilter(fil);
915	QCOMPARE(cfr.filter(), fil);
916	QVERIFY(!cfr.cancel()); // not started
917	QVERIFY(cfr.start());
918
919	QVERIFY((cfr.isActive() &&cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
920	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
921	QVERIFY(cfr.waitForFinished());
922	QVERIFY(cfr.isFinished());
923
924	QVERIFY(spy.count() >= `1`); // active + finished progress signals
925	spy.clear();
926
927	QList<QContactId> contactIds = cm ->contactIds();
928	QList<QContactId> result = cfr.ids();
929	QCOMPARE(contactIds, result);
930
931	// asynchronous detail filtering
932	QContactDetailFilter dfil;
933	dfil.setDetailType(type: QContactUrl::Type, field: QContactUrl::FieldUrl);
934	cfr.setFilter(dfil);
935	QVERIFY(cfr.filter() == dfil);
936	QVERIFY(!cfr.cancel()); // not started
937
938	QVERIFY(cfr.start());
939	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
940	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
941	QVERIFY(cfr.waitForFinished());
942	QVERIFY(cfr.isFinished());
943
944	QVERIFY(spy.count() >= `1`); // active + finished progress signals
945	spy.clear();
946
947	contactIds = cm ->contactIds(filter: dfil);
948	result = cfr.ids();
949	QCOMPARE(contactIds, result);
950
951	// sort order
952	QContactSortOrder sortOrder;
953	sortOrder.setDetailType(type: QContactPhoneNumber::Type, field: QContactPhoneNumber::FieldNumber);
954	QList<QContactSortOrder> sorting;
955	sorting.append(t: sortOrder);
956	cfr.setFilter(fil);
957	cfr.setSorting(sorting);
958	QCOMPARE(cfr.sorting(), sorting);
959	QVERIFY(!cfr.cancel()); // not started
960	QVERIFY(cfr.start());
961	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
962	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
963	QVERIFY(cfr.waitForFinished());
964	QVERIFY(cfr.isFinished());
965
966	QVERIFY(spy.count() >= `1`); // active + finished progress signals
967	spy.clear();
968
969	contactIds = cm ->contactIds(sortOrders: sorting);
970	result = cfr.ids();
971	QCOMPARE(contactIds, result);
972
973	// cancelling
974	sorting.clear();
975	cfr.setFilter(fil);
976	cfr.setSorting(sorting);
977
978	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
979	while (true) {
980	QVERIFY(!cfr.cancel()); // not started
981	FILL_QUEUE_WITH_FETCH_REQUESTS();
982	QVERIFY(cfr.start());
983	if (!cfr.cancel()) {
984	// due to thread scheduling, async cancel might be attempted
985	// after the request has already finished.. so loop and try again.
986	cfr.waitForFinished();
987	sorting.clear();
988	cfr.setFilter(fil);
989	cfr.setSorting(sorting);
990	bailoutCount -= `1`;
991	spy.clear();
992	if (!bailoutCount) {
993	// qWarning("Unable to test cancelling due to thread scheduling!");
994	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
995	break;
996	}
997	continue;
998	}
999
1000	// if we get here, then we are cancelling the request.
1001	QVERIFY(cfr.waitForFinished());
1002	QVERIFY(cfr.isCanceled());
1003
1004	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1005	spy.clear();
1006
1007	break;
1008	}
1009
1010	// restart, and wait for progress after cancel.
1011	while (true) {
1012	QVERIFY(!cfr.cancel()); // not started
1013	FILL_QUEUE_WITH_FETCH_REQUESTS();
1014	QVERIFY(cfr.start());
1015	if (!cfr.cancel()) {
1016	// due to thread scheduling, async cancel might be attempted
1017	// after the request has already finished.. so loop and try again.
1018	cfr.waitForFinished();
1019	sorting.clear();
1020	cfr.setFilter(fil);
1021	cfr.setSorting(sorting);
1022	bailoutCount -= `1`;
1023	if (!bailoutCount) {
1024	// qWarning("Unable to test cancelling due to thread scheduling!");
1025	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1026	break;
1027	}
1028	continue;
1029	}
1030	cfr.waitForFinished();
1031	QVERIFY(cfr.isCanceled());
1032
1033	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1034	spy.clear();
1035	break;
1036	}
1037
1038	// Error cases not tested here as can not generate common error case
1039	// for all backends.
1040	}
1041
1042	void tst_QContactAsync::contactRemove()
1043	{
1044	QFETCH(QString, uri);
1045	QScopedPointer<QContactManager> cm(prepareModel(uri));
1046	QContactRemoveRequest crr;
1047	QVERIFY(crr.type() == QContactAbstractRequest::ContactRemoveRequest);
1048
1049	// initial state - not started, no manager.
1050	QVERIFY(!crr.isActive());
1051	QVERIFY(!crr.isFinished());
1052	QVERIFY(!crr.start());
1053	QVERIFY(!crr.cancel());
1054	QVERIFY(!crr.waitForFinished());
1055
1056	// specific contact set
1057	crr.setContactId(cm ->contactIds()[`0`]);
1058	QVERIFY(crr.contactIds() == QList<QContactId>() << cm ->contactIds()[`0`]);
1059
1060	// specific contact removal via detail filter
1061	int originalCount = cm ->contactIds().size();
1062	QContactDetailFilter dfil;
1063	dfil.setDetailType(type: QContactUrl::Type);
1064	crr.setContactIds(cm ->contactIds(filter: dfil));
1065	crr.setManager(cm.data());
1066	QCOMPARE(crr.manager(), cm.data());
1067	QVERIFY(!crr.isActive());
1068	QVERIFY(!crr.isFinished());
1069	QVERIFY(!crr.cancel());
1070	QVERIFY(!crr.waitForFinished());
1071	qRegisterMetaType<QContactRemoveRequest>(typeName: "QContactRemoveRequest");
1072	QThreadSignalSpy spy(&crr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1073	QVERIFY(!crr.cancel()); // not started
1074
1075	QVERIFY(!cm ->contactIds(dfil).isEmpty());
1076
1077	QVERIFY(crr.start());
1078
1079	QVERIFY((crr.isActive() &&crr.state() == QContactAbstractRequest::ActiveState) \|\| crr.isFinished());
1080	//QVERIFY(crr.isFinished() \|\| !crr.start()); // already started. // thread scheduling means this is untestable
1081	QVERIFY(crr.waitForFinished());
1082	QVERIFY(crr.isFinished());
1083
1084	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1085	spy.clear();
1086
1087	QCOMPARE(cm ->contactIds().size(), originalCount - `1`);
1088	QVERIFY(cm ->contactIds(dfil).isEmpty());
1089
1090	// remove all contacts
1091	// delete everything.
1092	crr.setContactIds(cm ->contactIds());
1093
1094	QVERIFY(!crr.cancel()); // not started
1095	QVERIFY(crr.start());
1096
1097	QVERIFY((crr.isActive() && crr.state() == QContactAbstractRequest::ActiveState) \|\| crr.isFinished());
1098	//QVERIFY(crr.isFinished() \|\| !crr.start()); // already started. // thread scheduling means this is untestable
1099	QVERIFY(crr.waitForFinished());
1100	QVERIFY(crr.isFinished());
1101
1102	QCOMPARE(cm ->contactIds().size(), `0`); // no contacts should be left.
1103	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1104	spy.clear();
1105
1106	// cancelling
1107	QContact temp;
1108	QContactName nameDetail;
1109	nameDetail.setFirstName("Should not be removed");
1110	temp.saveDetail(detail: &nameDetail);
1111	cm ->saveContact(contact: &temp);
1112	crr.setContactIds(cm ->contactIds(filter: dfil));
1113
1114	// attempt to cancel 40 times. If it doesn't work due to threading, bail out.
1115	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1116	while (true) {
1117	QVERIFY(!crr.cancel()); // not started
1118	FILL_QUEUE_WITH_FETCH_REQUESTS();
1119	QVERIFY(spy.count() == `0`);
1120	QVERIFY(crr.start());
1121	if (!crr.cancel()) {
1122	// due to thread scheduling, async cancel might be attempted
1123	// after the request has already finished.. so loop and try again.
1124	crr.waitForFinished();
1125	crr.setContactIds(cm ->contactIds(filter: dfil));
1126	temp.setId(QContactId ());
1127	if (!cm ->saveContact(contact: &temp)) {
1128	QSKIP("Unable to save temporary contact for remove request cancellation test!");
1129	}
1130	bailoutCount -= `1`;
1131	if (!bailoutCount) {
1132	// qWarning("Unable to test cancelling due to thread scheduling!");
1133	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1134	break;
1135	}
1136	spy.clear();
1137	continue;
1138	}
1139
1140	// if we get here, then we are cancelling the request.
1141	QVERIFY(crr.waitForFinished());
1142	QVERIFY(crr.isCanceled());
1143	QCOMPARE(cm ->contactIds().size(), `1`);
1144	QCOMPARE(cm ->contactIds(), crr.contactIds());
1145	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1146	spy.clear();
1147	break;
1148	}
1149
1150	// restart, and wait for progress after cancel.
1151	while (true) {
1152	QVERIFY(!crr.cancel()); // not started
1153	FILL_QUEUE_WITH_FETCH_REQUESTS();
1154	QVERIFY(crr.start());
1155	if (!crr.cancel()) {
1156	// due to thread scheduling, async cancel might be attempted
1157	// after the request has already finished.. so loop and try again.
1158	crr.waitForFinished();
1159	crr.setContactIds(cm ->contactIds(filter: dfil));
1160	temp.setId(QContactId ());
1161	cm ->saveContact(contact: &temp);
1162	bailoutCount -= `1`;
1163	if (!bailoutCount) {
1164	// qWarning("Unable to test cancelling due to thread scheduling!");
1165	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1166	break;
1167	}
1168	spy.clear();
1169	continue;
1170	}
1171	crr.waitForFinished();
1172	QVERIFY(crr.isCanceled());
1173	QCOMPARE(cm ->contactIds().size(), `1`);
1174	QCOMPARE(cm ->contactIds(), crr.contactIds());
1175	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1176	spy.clear();
1177	break;
1178	}
1179
1180	}
1181
1182	void tst_QContactAsync::contactRemoveErrorHandling() {
1183	QFETCH(QString, uri);
1184	QScopedPointer<QContactManager> cm(prepareModel(uri));
1185
1186	// Make save request and make initial setup for it with some verifications.
1187	QContactSaveRequest csr;
1188	QVERIFY(csr.type() == QContactAbstractRequest::ContactSaveRequest);
1189	csr.setManager(cm.data());
1190	QCOMPARE(csr.manager(), cm.data());
1191	QVERIFY(!csr.isActive());
1192	QVERIFY(!csr.isFinished());
1193	QVERIFY(!csr.cancel());
1194	QVERIFY(!csr.waitForFinished());
1195	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1196	QThreadSignalSpy spy(&csr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1197
1198	// Setup a two identical lists of contacts for testing save and remove.
1199	QContact testContact1, testContact2, testContact3, testContact4, testContact5, testContact6;
1200	QContactName nameDetail;
1201	nameDetail.setFirstName("Test Contact1");
1202	testContact1.saveDetail(detail: &nameDetail);
1203	nameDetail.setFirstName("Test Contact2");
1204	testContact2.saveDetail(detail: &nameDetail);
1205	nameDetail.setFirstName("Test Contact3");
1206	testContact3.saveDetail(detail: &nameDetail);
1207	nameDetail.setFirstName("Test Contact4");
1208	testContact4.saveDetail(detail: &nameDetail);
1209	nameDetail.setFirstName("Test Contact5");
1210	testContact5.saveDetail(detail: &nameDetail);
1211	nameDetail.setFirstName("Test Contact6");
1212	testContact6.saveDetail(detail: &nameDetail);
1213	QList<QContact> saveList, testContacts;
1214	saveList << testContact1 << testContact2 << testContact3 << testContact4 << testContact5 << testContact6;
1215	testContacts << testContact1 << testContact2 << testContact3 << testContact4 << testContact5 << testContact6;
1216
1217	// Check save requests takes test contacts ok, start save and wait for finished.
1218	csr.setContacts(testContacts);
1219	QCOMPARE(csr.contacts(), saveList);
1220	QVERIFY(!csr.cancel()); // not started
1221	QVERIFY(csr.start());
1222	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
1223	QVERIFY(csr.waitForFinished());
1224	QVERIFY(csr.isFinished());
1225	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1226	spy.clear();
1227
1228	// foreach (QContact testc, csr.contacts()) {
1229	// qDebug() << ">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> CONTACT: " << testc.id().managerUri();
1230	// qDebug() << ">>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> CONTACT: " << testc.id().id();
1231	// }
1232	// qDebug() << "Returned errors:" << csr.errorMap();
1233	QVERIFY(csr.errorMap().isEmpty());
1234
1235	// Setup remove initial remove request and verify it takes data ok.
1236	QContactRemoveRequest contactRemoveRequest;
1237	QVERIFY(contactRemoveRequest.type() == QContactAbstractRequest::ContactRemoveRequest);
1238	contactRemoveRequest.setManager(cm.data());
1239	QCOMPARE(contactRemoveRequest.manager(), cm.data());
1240	QVERIFY(!contactRemoveRequest.isActive());
1241	QVERIFY(!contactRemoveRequest.isFinished());
1242	QVERIFY(!contactRemoveRequest.cancel());
1243	QVERIFY(!contactRemoveRequest.waitForFinished());
1244	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1245	QThreadSignalSpy spy2(&contactRemoveRequest, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1246
1247	// Setup valid and invalid contact ids for remove request, start it and wait for finished.
1248	QContactId emptyId;
1249	QContactId failingId = makeId(managerName: "Failing", id: `0`);
1250	QList<QContactId> toRemove;
1251	toRemove << emptyId << cm.data()->contactIds();
1252	toRemove.insert(i: `3`, t: emptyId);
1253	toRemove.insert(i: `4`, t: failingId);
1254	toRemove << emptyId << failingId << failingId;
1255	// qDebug() << "TO REMOVE: " << toRemove;
1256	contactRemoveRequest.setContactIds(toRemove);
1257	QCOMPARE(contactRemoveRequest.contactIds(), toRemove);
1258	QVERIFY(!contactRemoveRequest.cancel()); // not started
1259	QVERIFY(contactRemoveRequest.start());
1260	QVERIFY((contactRemoveRequest.isActive() && contactRemoveRequest.state() == QContactAbstractRequest::ActiveState) \|\| contactRemoveRequest.isFinished());
1261	QVERIFY(contactRemoveRequest.waitForFinished());
1262	QVERIFY(contactRemoveRequest.isFinished());
1263	QVERIFY(spy2.count() >= `1`); // active + finished progress signals
1264	spy2.clear();
1265
1266	// Check ok and errors, empty ids in the beginning, middle and in the end of the contact id list,
1267	// qDebug() << "Returned errors:" << contactRemoveRequest.errorMap();
1268	QVERIFY(contactRemoveRequest.errorMap().value(`0`) == QContactManager::DoesNotExistError);
1269	QVERIFY(contactRemoveRequest.errorMap().value(`1`) == QContactManager::NoError);
1270	QVERIFY(contactRemoveRequest.errorMap().value(`2`) == QContactManager::NoError);
1271	QVERIFY(contactRemoveRequest.errorMap().value(`3`) == QContactManager::DoesNotExistError);
1272	QVERIFY(contactRemoveRequest.errorMap().value(`4`) == QContactManager::DoesNotExistError);
1273	QVERIFY(contactRemoveRequest.errorMap().value(`5`) == QContactManager::NoError);
1274	QVERIFY(contactRemoveRequest.errorMap().value(`6`) == QContactManager::NoError);
1275	QVERIFY(contactRemoveRequest.errorMap().value(`7`) == QContactManager::NoError);
1276	QVERIFY(contactRemoveRequest.errorMap().value(`9`) == QContactManager::NoError);
1277	QVERIFY(contactRemoveRequest.errorMap().value(`10`) == QContactManager::NoError);
1278	QVERIFY(contactRemoveRequest.errorMap().value(`11`) == QContactManager::NoError);
1279	QVERIFY(contactRemoveRequest.errorMap().value(`12`) == QContactManager::DoesNotExistError);
1280	QVERIFY(contactRemoveRequest.errorMap().value(`13`) == QContactManager::DoesNotExistError);
1281	QVERIFY(contactRemoveRequest.errorMap().value(`14`) == QContactManager::DoesNotExistError);
1282
1283	// Check that all the contacts have been removed
1284	QList<QContactId> contactsLeft = cm.data()->contactIds();
1285	QVERIFY(contactsLeft.isEmpty());
1286	}
1287
1288	void tst_QContactAsync::contactSave()
1289	{
1290	QFETCH(QString, uri);
1291	QScopedPointer<QContactManager> cm(prepareModel(uri));
1292	QContactSaveRequest csr;
1293	QVERIFY(csr.type() == QContactAbstractRequest::ContactSaveRequest);
1294
1295	// initial state - not started, no manager.
1296	QVERIFY(!csr.isActive());
1297	QVERIFY(!csr.isFinished());
1298	QVERIFY(!csr.start());
1299	QVERIFY(!csr.cancel());
1300	QVERIFY(!csr.waitForFinished());
1301
1302	// save a new contact
1303	int originalCount = cm ->contactIds().size();
1304	QContact testContact;
1305	QContactName nameDetail;
1306	nameDetail.setFirstName("Test Contact");
1307	testContact.saveDetail(detail: &nameDetail);
1308	QList<QContact> saveList;
1309	saveList << testContact;
1310	csr.setManager(cm.data());
1311	QCOMPARE(csr.manager(), cm.data());
1312	QVERIFY(!csr.isActive());
1313	QVERIFY(!csr.isFinished());
1314	QVERIFY(!csr.cancel());
1315	QVERIFY(!csr.waitForFinished());
1316	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1317	QThreadSignalSpy spy(&csr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1318	csr.setContact(testContact);
1319	QCOMPARE(csr.contacts(), saveList);
1320	QVERIFY(!csr.cancel()); // not started
1321	QVERIFY(csr.start());
1322
1323	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
1324	//QVERIFY(csr.isFinished() \|\| !csr.start()); // already started. // thread scheduling means this is untestable
1325	QVERIFY(csr.waitForFinished());
1326	QVERIFY(csr.isFinished());
1327	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1328	spy.clear();
1329
1330	QList<QContact> expected = csr.contacts();
1331	QCOMPARE(expected.size(), `1`);
1332	QList<QContact> result;
1333	result << cm ->contact(contactId: expected.first().id());
1334	//some backends add extra fields, so this doesn't work:
1335	//QCOMPARE(result, expected);
1336	// XXX: really, we should use isSuperset() from tst_QContactManager, but this will do for now:
1337	QVERIFY(result.first().detail<QContactName>() == nameDetail);
1338
1339	// check if the contact was saved on default collection
1340	QCOMPARE(result.first().collectionId().toString(), cm ->defaultCollectionId().toString());
1341	QCOMPARE(cm ->contactIds().size(), originalCount + `1`);
1342
1343	// update a previously saved contact
1344	QContactPhoneNumber phn;
1345	phn.setNumber("12345678");
1346	testContact = result.first();
1347	testContact.saveDetail(detail: &phn);
1348	saveList.clear();
1349	saveList << testContact;
1350	csr.setContacts(saveList);
1351	QCOMPARE(csr.contacts(), saveList);
1352	QVERIFY(!csr.cancel()); // not started
1353	QVERIFY(csr.start());
1354
1355	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
1356	//QVERIFY(csr.isFinished() \|\| !csr.start()); // already started. // thread scheduling means this is untestable
1357	QVERIFY(csr.waitForFinished());
1358
1359	QVERIFY(csr.isFinished());
1360	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1361	spy.clear();
1362
1363	expected = csr.contacts();
1364	result.clear();
1365	result << cm ->contact(contactId: expected.first().id());
1366	//QVERIFY(compareContactLists(result, expected));
1367
1368	//here we can't compare the whole contact details, testContact would be updated by async call because we just use QThreadSignalSpy to receive signals.
1369	//QVERIFY(containsIgnoringTimestamps(result, testContact));
1370	// XXX: really, we should use isSuperset() from tst_QContactManager, but this will do for now:
1371	QVERIFY(result.first().detail<QContactPhoneNumber>().number() == phn.number());
1372
1373	QCOMPARE(cm ->contactIds().size(), originalCount + `1`);
1374
1375	// cancelling
1376	QContact temp = testContact;
1377	QContactUrl url;
1378	url.setUrl("should not get saved");
1379	temp.saveDetail(detail: &url);
1380	saveList.clear();
1381	saveList << temp;
1382	csr.setContacts(saveList);
1383
1384	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
1385	while (true) {
1386	QVERIFY(!csr.cancel()); // not started
1387	FILL_QUEUE_WITH_FETCH_REQUESTS();
1388	QVERIFY(csr.start());
1389	if (!csr.cancel()) {
1390	// due to thread scheduling, async cancel might be attempted
1391	// after the request has already finished.. so loop and try again.
1392	csr.waitForFinished();
1393	saveList = csr.contacts();
1394	if (cm ->contactIds().size() > (originalCount + `1`) && !cm ->removeContact(contactId: saveList.at(i: `0`).id())) {
1395	QSKIP("Unable to remove saved contact to test cancellation of contact save request");
1396	}
1397	saveList.clear();
1398	saveList << temp;
1399	csr.setContacts(saveList);
1400	bailoutCount -= `1`;
1401	if (!bailoutCount) {
1402	// qWarning("Unable to test cancelling due to thread scheduling!");
1403	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1404	break;
1405	}
1406	spy.clear();
1407	continue;
1408	}
1409
1410	// if we get here, then we are cancelling the request.
1411	QVERIFY(csr.waitForFinished());
1412	QVERIFY(csr.isCanceled());
1413	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1414	spy.clear();
1415
1416	// verify that the changes were not saved
1417	expected.clear();
1418	QList<QContactId> allContacts = cm ->contactIds();
1419	for (int i = `0`; i < allContacts.size(); i++) {
1420	expected.append(t: cm ->contact(contactId: allContacts.at(i)));
1421	}
1422	QVERIFY(!expected.contains(temp));
1423	QCOMPARE(cm ->contactIds().size(), originalCount + `1`);
1424	break;
1425	}
1426	// restart, and wait for progress after cancel.
1427
1428	while (true) {
1429	QVERIFY(!csr.cancel()); // not started
1430	FILL_QUEUE_WITH_FETCH_REQUESTS();
1431	QVERIFY(csr.start());
1432	if (!csr.cancel()) {
1433	// due to thread scheduling, async cancel might be attempted
1434	// after the request has already finished.. so loop and try again.
1435	csr.waitForFinished();
1436	saveList = csr.contacts();
1437	if (cm ->contactIds().size() > (originalCount + `1`) && !cm ->removeContact(contactId: saveList.at(i: `0`).id())) {
1438	QSKIP("Unable to remove saved contact to test cancellation of contact save request");
1439	}
1440	saveList.clear();
1441	saveList << temp;
1442	csr.setContacts(saveList);
1443	bailoutCount -= `1`;
1444	if (!bailoutCount) {
1445	// qWarning("Unable to test cancelling due to thread scheduling!");
1446	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
1447	break;
1448	}
1449	spy.clear();
1450	continue;
1451	}
1452	csr.waitForFinished(); // now wait until finished (if it hasn't already).
1453	QVERIFY(csr.isCanceled());
1454	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
1455	spy.clear();
1456
1457	// verify that the changes were not saved
1458	expected.clear();
1459	QList<QContactId> allContacts = cm ->contactIds();
1460	for (int i = `0`; i < allContacts.size(); i++) {
1461	expected.append(t: cm ->contact(contactId: allContacts.at(i)));
1462	}
1463	QVERIFY(!expected.contains(temp));
1464	QCOMPARE(cm ->contactIds().size(), originalCount + `1`);
1465	break;
1466	}
1467	}
1468
1469	void tst_QContactAsync::contactSaveErrorHandling()
1470	{
1471	QFETCH(QString, uri);
1472	QScopedPointer<QContactManager> cm(prepareModel(uri));
1473	QContactSaveRequest csr;
1474	QVERIFY(csr.type() == QContactAbstractRequest::ContactSaveRequest);
1475
1476	// initial state - not started, no manager.
1477	QVERIFY(!csr.isActive());
1478	QVERIFY(!csr.isFinished());
1479	QVERIFY(!csr.start());
1480	QVERIFY(!csr.cancel());
1481	QVERIFY(!csr.waitForFinished());
1482
1483	// Save a group of contacts, including few TypeGroup contacts which may not be supported by all backends.
1484	QContact testContact1, testContact2, testContact3, testContact4, testContact5, testContact6, testContact7,testContact8;
1485	QContactName nameDetail;
1486	nameDetail.setFirstName("Test Contact1");
1487	testContact1.saveDetail(detail: &nameDetail);
1488	nameDetail.setFirstName("Test Contact2");
1489	testContact2.saveDetail(detail: &nameDetail);
1490	nameDetail.setFirstName("Test Contact3");
1491	testContact3.saveDetail(detail: &nameDetail);
1492	nameDetail.setFirstName("Test Contact4");
1493	testContact4.saveDetail(detail: &nameDetail);
1494	nameDetail.setFirstName("Test Contact5");
1495	testContact5.saveDetail(detail: &nameDetail);
1496	nameDetail.setFirstName("Test Contact6");
1497	testContact6.saveDetail(detail: &nameDetail);
1498	nameDetail.setFirstName("Test Contact7");
1499	testContact7.saveDetail(detail: &nameDetail);
1500	nameDetail.setFirstName("Test Contact8");
1501	testContact8.saveDetail(detail: &nameDetail);
1502
1503	// Set group type to first, middle and last contact in the list.
1504	QContactType typeDetail;
1505	typeDetail.setType(QContactType::TypeGroup);
1506	testContact1.saveDetail(detail: &typeDetail);
1507	testContact3.saveDetail(detail: &typeDetail);
1508	testContact6.saveDetail(detail: &typeDetail);
1509
1510	// Set an invalid phone number
1511	QContactPhoneNumber invalidPhone;
1512	invalidPhone.setNumber(" hjkjkjhkjkhjkhj //////");
1513	testContact7.saveDetail(detail: &invalidPhone);
1514
1515	// This phone number can be cleaned up, so no error should be generated
1516	QContactPhoneNumber sanitizablePhone;
1517	sanitizablePhone.setNumber(" +123458++++++++*#");
1518	testContact5.saveDetail(detail: &sanitizablePhone);
1519
1520	// Set an invalid name
1521	QContactName invalidName;
1522	invalidName.setFirstName(" ");
1523	testContact8.saveDetail(detail: &invalidName);
1524
1525	QList<QContact> saveList;
1526	saveList << testContact1 << testContact2 << testContact3 << testContact4 << testContact5 << testContact6 << testContact7 << testContact8;
1527
1528	csr.setManager(cm.data());
1529	QCOMPARE(csr.manager(), cm.data());
1530	QVERIFY(!csr.isActive());
1531	QVERIFY(!csr.isFinished());
1532	QVERIFY(!csr.cancel());
1533	QVERIFY(!csr.waitForFinished());
1534	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1535	QThreadSignalSpy spy(&csr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1536
1537	QList<QContact> testContacts;
1538	testContacts << testContact1 << testContact2 << testContact3 << testContact4 << testContact5 << testContact6 << testContact7 << testContact8;
1539	csr.setContacts(testContacts);
1540
1541	QCOMPARE(csr.contacts(), saveList);
1542	QVERIFY(!csr.cancel()); // not started
1543	QVERIFY(csr.start());
1544
1545	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
1546	//QVERIFY(csr.isFinished() \|\| !csr.start()); // already started. // thread scheduling means this is untestable
1547	QVERIFY(csr.waitForFinished());
1548	QVERIFY(csr.isFinished());
1549	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1550	spy.clear();
1551
1552	// Note, the returned value is actually set/remapped in to the errorMap by common code in qcontactmanagerengine
1553	if (!cm ->supportedContactTypes().contains(t: QContactType::TypeGroup)) {
1554	QCOMPARE(csr.errorMap().value(`0`), QContactManager::InvalidContactTypeError);
1555	QCOMPARE(csr.errorMap().value(`2`), QContactManager::InvalidContactTypeError);
1556	QCOMPARE(csr.errorMap().value(`5`), QContactManager::InvalidContactTypeError);
1557	QCOMPARE(csr.error(), QContactManager::InvalidContactTypeError);
1558
1559	// With errors in the batch, we can't know that the other contacts have no error...
1560	} else {
1561	QCOMPARE(csr.errorMap().value(`0`), QContactManager::NoError);
1562	QCOMPARE(csr.errorMap().value(`2`), QContactManager::NoError);
1563	QCOMPARE(csr.errorMap().value(`5`), QContactManager::NoError);
1564	QCOMPARE(csr.error(), QContactManager::NoError);
1565
1566	QCOMPARE(csr.errorMap().value(`1`), QContactManager::NoError);
1567	QCOMPARE(csr.errorMap().value(`3`), QContactManager::NoError);
1568	QCOMPARE(csr.errorMap().value(`4`), QContactManager::NoError);
1569	QCOMPARE(csr.errorMap().value(`7`), QContactManager::NoError);
1570	}
1571	}
1572
1573	void tst_QContactAsync::contactSaveRemovedContacts()
1574	{
1575	QFETCH(QString, uri);
1576	QScopedPointer<QContactManager> cm(prepareModel(uri));
1577	QContactSaveRequest csr;
1578
1579	// Make three test contacts.
1580	QContactName nameDetail;
1581	nameDetail.setFirstName("Test1");
1582	QContact testContact1;
1583	testContact1.saveDetail(detail: &nameDetail);
1584	nameDetail.setFirstName("Test2");
1585	QContact testContact2;
1586	testContact2.saveDetail(detail: &nameDetail);
1587	nameDetail.setFirstName("Test3");
1588	QContact testContact3;
1589	testContact3.saveDetail(detail: &nameDetail);
1590	QList<QContact> testContacts;
1591	testContacts << testContact1 << testContact2 << testContact3;
1592
1593	// Save all three test contacts.
1594	csr.setManager(cm.data());
1595	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1596	csr.setContacts(testContacts);
1597	QVERIFY(csr.start());
1598	QVERIFY(csr.waitForFinished());
1599	QCOMPARE(csr.errorMap().value(`0`), QContactManager::NoError);
1600	QCOMPARE(csr.error(), QContactManager::NoError);
1601
1602	// And then remove all of them.
1603	QList<QContactId> contactIds = cm ->contactIds();
1604	QVERIFY(cm ->removeContacts(contactIds));
1605
1606	// Try now to save again the same three test contacts with the ids of
1607	// just removed contacts to fail and check proper error code.
1608	QVERIFY(csr.start());
1609	QVERIFY(csr.waitForFinished());
1610	QCOMPARE(csr.errorMap().value(`0`), QContactManager::DoesNotExistError);
1611	QCOMPARE(csr.errorMap().value(`1`), QContactManager::DoesNotExistError);
1612	QCOMPARE(csr.errorMap().value(`2`), QContactManager::DoesNotExistError);
1613	QCOMPARE(csr.error(), QContactManager::DoesNotExistError);
1614
1615	//test case for existing and non existing contacts after remove in contact
1616	//save request
1617	nameDetail.setFirstName("Test4");
1618	QContact testContact4;
1619	testContact4.saveDetail(detail: &nameDetail);
1620	testContacts = csr.contacts();
1621	testContacts << testContact4;
1622	csr.setContacts(testContacts);
1623	QVERIFY(csr.start());
1624	QVERIFY(csr.waitForFinished());
1625	QCOMPARE(csr.errorMap().value(`0`), QContactManager::DoesNotExistError);
1626	QCOMPARE(csr.errorMap().value(`1`), QContactManager::DoesNotExistError);
1627	QCOMPARE(csr.errorMap().value(`2`), QContactManager::DoesNotExistError);
1628	QCOMPARE(csr.errorMap().value(`3`), QContactManager::NoError);
1629	}
1630
1631	void tst_QContactAsync::contactSaveRemovedContactsWithCleanIds()
1632	{
1633	QFETCH(QString, uri);
1634	QScopedPointer<QContactManager> cm(prepareModel(uri));
1635	QContactSaveRequest csr;
1636
1637	// Make three test contacts.
1638	QContactName nameDetail;
1639	nameDetail.setFirstName("Testing1");
1640	QContact testContact1;
1641	testContact1.saveDetail(detail: &nameDetail);
1642	nameDetail.setFirstName("Testing2");
1643	QContact testContact2;
1644	testContact2.saveDetail(detail: &nameDetail);
1645	nameDetail.setFirstName("Testing3");
1646	QContact testContact3;
1647	testContact3.saveDetail(detail: &nameDetail);
1648	QList<QContact> testContacts;
1649	testContacts << testContact1 << testContact2 << testContact3;
1650
1651	// Save all three test contacts.
1652	csr.setManager(cm.data());
1653	csr.setContacts(testContacts);
1654	QVERIFY(csr.start());
1655	QVERIFY(csr.waitForFinished());
1656	QCOMPARE(csr.errorMap().value(`0`), QContactManager::NoError);
1657	QCOMPARE(csr.error(), QContactManager::NoError);
1658
1659	// And then remove all of them.
1660	QList<QContactId> contactIds = cm ->contactIds();
1661	QVERIFY(cm ->removeContacts(contactIds));
1662
1663	// Use the same contacts but clean their ids before saving them.
1664	QList<QContact> contactsWithCleanIds = csr.contacts();
1665	contactsWithCleanIds [`0`].setId(QContactId ());
1666	contactsWithCleanIds [`1`].setId(QContactId ());
1667	contactsWithCleanIds [`2`].setId(QContactId ());
1668	csr.setContacts(contactsWithCleanIds);
1669
1670	// Save and check no errors occured.
1671	QVERIFY(csr.start());
1672	QVERIFY(csr.waitForFinished());
1673	QCOMPARE(csr.error(), QContactManager::NoError);
1674	}
1675
1676	void tst_QContactAsync::contactPartialSave()
1677	{
1678	QFETCH(QString, uri);
1679	QScopedPointer<QContactManager> cm(prepareModel(uri));
1680
1681	QList<QContact> contacts(cm ->contacts());
1682	QList<QContact> originalContacts(contacts);
1683	QCOMPARE(contacts.count(), `3`);
1684
1685	qDebug() << Q_FUNC_INFO << "contacts:" << contacts;
1686
1687	QContactId aId = contacts [`0`].id();
1688	QContactId bId = contacts [`1`].id();
1689
1690	// Test 1: saving a contact with a changed detail masked out does nothing
1691	QContactPhoneNumber phn(contacts [`0`].detail<QContactPhoneNumber>());
1692	phn.setNumber("new number");
1693	contacts [`0`].saveDetail(detail: &phn);
1694
1695	QContactSaveRequest csr;
1696	csr.setManager(cm.data());
1697	csr.setContacts(contacts);
1698	QList<QContactDetail::DetailType> typeMasks;
1699	typeMasks << QContactDetail::TypeEmailAddress;
1700	csr.setTypeMask(typeMasks);
1701	qRegisterMetaType<QContactSaveRequest>(typeName: "QContactSaveRequest");
1702	QThreadSignalSpy spy(&csr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1703	QVERIFY(csr.start());
1704	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
1705	QVERIFY(csr.waitForFinished());
1706	QVERIFY(csr.isFinished());
1707	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1708	spy.clear();
1709
1710	QCOMPARE(csr.error(), QContactManager::NoError);
1711	QVERIFY(csr.errorMap().isEmpty());
1712	contacts [`0`] = cm ->contact(contactId: aId);
1713	QCOMPARE(contacts[`0`].detail<QContactPhoneNumber>().number(),
1714	originalContacts[`0`].detail<QContactPhoneNumber>().number());
1715
1716	// Test 2: saving a contact with a changed detail in the mask changes it
1717	QContactEmailAddress email;
1718	email.setEmailAddress("me@example.com");
1719	contacts [`1`].saveDetail(detail: &email);
1720	csr.setContacts(contacts);
1721	csr.setTypeMask(typeMasks);
1722	QVERIFY(csr.start());
1723	QVERIFY(csr.waitForFinished());
1724	QCOMPARE(csr.error(), QContactManager::NoError);
1725	QVERIFY(csr.errorMap().isEmpty());
1726	contacts [`1`] = cm ->contact(contactId: bId);
1727	QCOMPARE(contacts[`1`].detail<QContactEmailAddress>().emailAddress(), QString ("me@example.com"));
1728
1729	// 3) Remove an email address and a phone number
1730	QCOMPARE(contacts[`1`].details<QContactPhoneNumber>().count(), `1`);
1731	QCOMPARE(contacts[`1`].details<QContactEmailAddress>().count(), `1`);
1732	// Next line added because otherwise the removeDetail fails because the email details key
1733	// changes in: contacts[1] = cm->contact(bId); and it does not match email variables key.
1734	email = contacts [`1`].detail<QContactEmailAddress>();
1735	QVERIFY(contacts[`1`].removeDetail(&email));
1736	phn = contacts [`1`].detail<QContactPhoneNumber>();
1737	QVERIFY(contacts[`1`].removeDetail(&phn));
1738	QVERIFY(contacts[`1`].details<QContactEmailAddress>().count() == `0`);
1739	QVERIFY(contacts[`1`].details<QContactPhoneNumber>().count() == `0`);
1740	csr.setContacts(contacts);
1741	csr.setTypeMask(typeMasks);
1742	QVERIFY(csr.start());
1743	QVERIFY(csr.waitForFinished());
1744	QCOMPARE(csr.error(), QContactManager::NoError);
1745	QVERIFY(csr.errorMap().isEmpty());
1746	contacts [`1`] = cm ->contact(contactId: bId);
1747	QCOMPARE(contacts[`1`].details<QContactEmailAddress>().count(), `0`);
1748	QCOMPARE(contacts[`1`].details<QContactPhoneNumber>().count(), `1`);
1749
1750	// 4 - New contact, no details in the mask
1751	QContact newContact;
1752	newContact.saveDetail(detail: &email);
1753	newContact.saveDetail(detail: &phn);
1754	contacts.append(t: newContact);
1755	csr.setContacts(contacts);
1756	typeMasks.clear();
1757	typeMasks << QContactDetail::TypeOnlineAccount;
1758	csr.setTypeMask(typeMasks);
1759	QVERIFY(csr.start());
1760	QVERIFY(csr.waitForFinished());
1761	QCOMPARE(csr.error(), QContactManager::NoError);
1762	QVERIFY(csr.errorMap().isEmpty());
1763	contacts = csr.contacts();
1764	QCOMPARE(contacts.size()-`1`, `3`); // Just check that we are dealing with the contact at index 3
1765	QContactId dId = contacts [`3`].id();
1766	contacts [`3`] = cm ->contact(contactId: dId);
1767	QVERIFY(contacts[`3`].details<QContactEmailAddress>().count() == `0`); // not saved
1768	QVERIFY(contacts[`3`].details<QContactPhoneNumber>().count() == `0`); // not saved
1769
1770	// 5 - New contact, some details in the mask
1771	QVERIFY(newContact.id().isNull());
1772	QVERIFY(newContact.details<QContactEmailAddress>().count() == `1`);
1773	QVERIFY(newContact.details<QContactPhoneNumber>().count() == `1`);
1774	contacts.append(t: newContact);
1775	csr.setContacts(contacts);
1776	typeMasks.clear();
1777	typeMasks << QContactDetail::TypePhoneNumber;
1778	csr.setTypeMask(typeMasks);
1779	QVERIFY(csr.start());
1780	QVERIFY(csr.waitForFinished());
1781	QCOMPARE(csr.error(), QContactManager::NoError);
1782	QVERIFY(csr.errorMap().isEmpty());
1783	contacts = csr.contacts();
1784	QCOMPARE(contacts.size()-`1`, `4`); // Just check that we are dealing with the contact at index 4
1785	QContactId eId = contacts [`4`].id();
1786	contacts [`4`] = cm ->contact(contactId: eId);
1787	QCOMPARE(contacts[`4`].details<QContactEmailAddress>().count(), `0`); // not saved
1788	QCOMPARE(contacts[`4`].details<QContactPhoneNumber>().count(), `1`); // saved
1789
1790	// 6) Have a bad manager uri in the middle
1791	QContactId badId = makeId(managerName: "BadManager", id: `0`);
1792	contacts [`3`].setId(badId);
1793	csr.setContacts(contacts);
1794	QVERIFY(csr.start());
1795	QVERIFY(csr.waitForFinished());
1796	QVERIFY(csr.error() == QContactManager::DoesNotExistError); // error in the middle in this partial save
1797	QMap<int, QContactManager::Error> errorMap(csr.errorMap());
1798	QCOMPARE(errorMap.count(), `1`);//one error in error map, related to the fetch phase of this partial save
1799	QCOMPARE(errorMap[`3`], QContactManager::DoesNotExistError);
1800
1801	// 7) Have a non existing contact in the middle
1802	badId = makeId(managerName: cm ->managerName(), id: `0`);
1803	contacts [`3`].setId(badId);
1804	csr.setContacts(contacts);
1805	QVERIFY(csr.start());
1806	QVERIFY(csr.waitForFinished());
1807	QVERIFY(csr.error() == QContactManager::DoesNotExistError); // error in the middle in this partial save
1808	errorMap = csr.errorMap();
1809	QCOMPARE(errorMap.count(), `1`);//one error in error map, related to the fetch phase of this partial save
1810	QCOMPARE(errorMap[`3`], QContactManager::DoesNotExistError);
1811
1812	// 8) A list entirely of new contacts, with no details in the mask
1813	QList<QContact> contacts2;
1814	QVERIFY(newContact.id().isNull());
1815	QVERIFY(newContact.details<QContactEmailAddress>().count() == `1`);
1816	QVERIFY(newContact.details<QContactPhoneNumber>().count() == `1`);
1817	contacts2.append(t: newContact);
1818	csr.setContacts(contacts2);
1819	typeMasks.clear();
1820	typeMasks << QContactDetail::TypeOrganization;
1821	csr.setTypeMask(typeMasks);
1822	QVERIFY(csr.start());
1823	QVERIFY(csr.waitForFinished());
1824	QCOMPARE(csr.error(), QContactManager::NoError);
1825	QVERIFY(csr.errorMap().isEmpty());
1826	contacts2 = csr.contacts();
1827	QCOMPARE(contacts2.size(), `1`);
1828	contacts2 [`0`] = cm ->contact(contactId: contacts2 [`0`].id());
1829	QCOMPARE(contacts2[`0`].details<QContactEmailAddress>().count(), `0`); // not saved
1830	QCOMPARE(contacts2[`0`].details<QContactPhoneNumber>().count(), `0`); // saved
1831
1832	// 9) A list entirely of new contacts, with some details in the mask
1833	contacts2.clear();
1834	QVERIFY(newContact.id().isNull());
1835	QVERIFY(newContact.details<QContactEmailAddress>().count() == `1`);
1836	QVERIFY(newContact.details<QContactPhoneNumber>().count() == `1`);
1837	contacts2.append(t: newContact);
1838	csr.setContacts(contacts2);
1839	typeMasks.clear();
1840	typeMasks << QContactDetail::TypePhoneNumber;
1841	csr.setTypeMask(typeMasks);
1842	QVERIFY(csr.start());
1843	QVERIFY(csr.waitForFinished());
1844	QCOMPARE(csr.error(), QContactManager::NoError);
1845	QVERIFY(csr.errorMap().isEmpty());
1846	contacts2 = csr.contacts();
1847	QCOMPARE(contacts2.size(), `1`);
1848	contacts2 [`0`] = cm ->contact(contactId: contacts2 [`0`].id());
1849	QCOMPARE(contacts2[`0`].details<QContactEmailAddress>().count(), `0`); // not saved
1850	QCOMPARE(contacts2[`0`].details<QContactPhoneNumber>().count(), `1`); // saved
1851
1852	// 10) A list entirely of new contacts
1853	contacts2.clear();
1854	QVERIFY(newContact.id().isNull());
1855	QVERIFY(newContact.details<QContactEmailAddress>().count() == `1`);
1856	QVERIFY(newContact.details<QContactPhoneNumber>().count() == `1`);
1857	contacts2.append(t: newContact);
1858	contacts2.append(t: newContact);
1859	contacts2 [`0`].setId(badId);
1860	csr.setContacts(contacts2);
1861	QVERIFY(csr.start());
1862	QVERIFY(csr.waitForFinished());
1863	QVERIFY(csr.error() == QContactManager::DoesNotExistError); // error in the middle in this partial save
1864	errorMap = csr.errorMap();
1865	QCOMPARE(errorMap.count(), `1`);//one error in error map, related to the fetch phase of this partial save
1866	QCOMPARE(errorMap[`0`], QContactManager::DoesNotExistError);
1867	}
1868
1869	void tst_QContactAsync::contactPartialSaveAsync()
1870	{
1871	QFETCH(QString, uri);
1872	QContactManager* cm = QContactManager::fromUri(uri);
1873
1874	QList<QContact> contacts;
1875
1876	int numContacts = `10`;
1877	// add contacts
1878	for (int i = `0`; i < numContacts; i++) {
1879	QContact c;
1880	QContactName name;
1881	name.setFirstName("John");
1882	name.setMiddleName(QString::number(i));
1883	name.setLastName("Doe");
1884	QContactPhoneNumber phone;
1885	QString number = "555-100"+QString::number(i);
1886	phone.setNumber(number);
1887	c.saveDetail(detail: &name);
1888	c.saveDetail(detail: &phone);
1889	contacts.append(t: c);
1890	}
1891
1892	QContactSaveRequest saveRequest = new* QContactSaveRequest ();
1893	saveRequest->setManager(cm);
1894	saveRequest->setContacts(contacts);
1895	saveRequest->start();
1896	saveRequest->waitForFinished(msecs: `20000`);
1897	QVERIFY(saveRequest->isFinished());
1898	QCOMPARE(saveRequest->contacts().count(), numContacts);
1899	delete saveRequest;
1900	qRegisterMetaType<QContactAbstractRequest::State>(typeName: "QContactAbstractRequest::State");
1901
1902	saveRequest = new QContactSaveRequest ();
1903	saveRequest->setManager(cm);
1904	saveRequest->setContacts(contacts);
1905	QList<QContactDetail::DetailType> typeMasks;
1906	typeMasks << QContactDetail::TypeTag;
1907	saveRequest->setTypeMask(typeMasks);
1908	saveRequest->start();
1909	QTest::qWait(ms: `1000`);
1910	QVERIFY(saveRequest->waitForFinished());
1911	QVERIFY(saveRequest->isFinished());
1912	}
1913
1914	void tst_QContactAsync::relationshipFetch()
1915	{
1916	QFETCH(QString, uri);
1917	QScopedPointer<QContactManager> cm(prepareModel(uri));
1918
1919	QContactRelationshipFetchRequest rfr;
1920	QVERIFY(rfr.type() == QContactAbstractRequest::RelationshipFetchRequest);
1921
1922	// initial state - not started, no manager.
1923	QVERIFY(!rfr.isActive());
1924	QVERIFY(!rfr.isFinished());
1925	QVERIFY(!rfr.start());
1926	QVERIFY(!rfr.cancel());
1927	QVERIFY(!rfr.waitForFinished());
1928
1929	// "all relationships" retrieval
1930	rfr.setManager(cm.data());
1931	QCOMPARE(rfr.manager(), cm.data());
1932	QVERIFY(!rfr.isActive());
1933	QVERIFY(!rfr.isFinished());
1934	QVERIFY(!rfr.cancel());
1935	QVERIFY(!rfr.waitForFinished());
1936	qRegisterMetaType<QContactRelationshipFetchRequest>(typeName: "QContactRelationshipFetchRequest");
1937	QThreadSignalSpy spy(&rfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
1938	QVERIFY(!rfr.cancel()); // not started
1939	QVERIFY(rfr.start());
1940
1941	QVERIFY((rfr.isActive() && rfr.state() == QContactAbstractRequest::ActiveState) \|\| rfr.isFinished());
1942	//QVERIFY(rfr.isFinished() \|\| !rfr.start()); // already started. // thread scheduling means this is untestable
1943	QVERIFY(rfr.waitForFinished());
1944
1945	QVERIFY(rfr.isFinished());
1946	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1947	spy.clear();
1948
1949	QList<QContactRelationship> rels = cm ->relationships();
1950	QList<QContactRelationship> result = rfr.relationships();
1951	QCOMPARE(rels, result);
1952
1953	// specific relationship type retrieval
1954	rfr.setRelationshipType(QContactRelationship::HasManager());
1955	QVERIFY(!rfr.cancel()); // not started
1956	QVERIFY(rfr.start());
1957
1958	QVERIFY((rfr.isActive() && rfr.state() == QContactAbstractRequest::ActiveState) \|\| rfr.isFinished());
1959	//QVERIFY(rfr.isFinished() \|\| !rfr.start()); // already started. // thread scheduling means this is untestable
1960	QVERIFY(rfr.waitForFinished());
1961	QVERIFY(rfr.isFinished());
1962	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1963	spy.clear();
1964
1965	rels = cm ->relationships(relationshipType: QContactRelationship::HasManager());
1966	result = rfr.relationships();
1967	QCOMPARE(rels, result);
1968
1969	// specific source contact retrieval
1970	rfr.setRelationshipType(QString ());
1971	QList<QContactId> contacts = cm ->contactIds();
1972	QContact aContact;
1973	foreach (const QContactId& currId, contacts) {
1974	QContact curr = cm ->contact(contactId: currId);
1975	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Aaron")) {
1976	aContact = curr;
1977	break;
1978	}
1979	}
1980	rfr.setFirst(aContact.id());
1981	QVERIFY(!rfr.cancel()); // not started
1982	QVERIFY(rfr.start());
1983
1984	QVERIFY((rfr.isActive() && rfr.state() == QContactAbstractRequest::ActiveState) \|\| rfr.isFinished());
1985	//QVERIFY(rfr.isFinished() \|\| !rfr.start()); // already started. // thread scheduling means this is untestable
1986	QVERIFY(rfr.waitForFinished());
1987	QVERIFY(rfr.isFinished());
1988	QVERIFY(spy.count() >= `1`); // active + finished progress signals
1989	spy.clear();
1990
1991	rels = cm ->relationships(participantId: aContact.id(), role: QContactRelationship::First);
1992	result = rfr.relationships();
1993	QCOMPARE(rels, result);
1994
1995	// specific participant retrieval #1 - destination participant
1996	rfr.setFirst(QContactId ());
1997	contacts = cm ->contactIds();
1998	QContact bContact;
1999	foreach (const QContactId& currId, contacts) {
2000	QContact curr = cm ->contact(contactId: currId);
2001	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Bob")) {
2002	bContact = curr;
2003	break;
2004	}
2005	}
2006	rfr.setSecond(bContact.id());
2007
2008	QVERIFY(!rfr.cancel()); // not started
2009	QVERIFY(rfr.start());
2010
2011	QVERIFY((rfr.isActive() && rfr.state() == QContactAbstractRequest::ActiveState) \|\| rfr.isFinished());
2012	//QVERIFY(rfr.isFinished() \|\| !rfr.start()); // already started. // thread scheduling means this is untestable
2013	QVERIFY(rfr.waitForFinished());
2014	QVERIFY(rfr.isFinished());
2015	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2016	spy.clear();
2017
2018	// retrieve rels where second = id of B, and ensure that we get the same results
2019	rels = cm ->relationships(participantId: bContact.id(), role: QContactRelationship::Second);
2020	result = rfr.relationships();
2021	QCOMPARE(rels, result);
2022
2023	// specific participant retrieval #2 - source participant
2024	rfr.setFirst(QContactId ());
2025	contacts = cm ->contactIds();
2026	QContact cContact;
2027	foreach (const QContactId& currId, contacts) {
2028	QContact curr = cm ->contact(contactId: currId);
2029	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Borris")) {
2030	cContact = curr;
2031	break;
2032	}
2033	}
2034	rfr.setSecond(cContact.id());
2035
2036	QVERIFY(!rfr.cancel()); // not started
2037	QVERIFY(rfr.start());
2038
2039	QVERIFY((rfr.isActive() && rfr.state() == QContactAbstractRequest::ActiveState) \|\| rfr.isFinished());
2040	//QVERIFY(rfr.isFinished() \|\| !rfr.start()); // already started. // thread scheduling means this is untestable
2041	QVERIFY(rfr.waitForFinished());
2042	QVERIFY(rfr.isFinished());
2043	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2044	spy.clear();
2045
2046	// retrieve rels where first = id of C and compare the results
2047	rfr.setFirst(cContact.id());
2048	rfr.setSecond(QContactId ());
2049	QVERIFY(rfr.start());
2050	QVERIFY(rfr.waitForFinished());
2051	result = rfr.relationships();
2052	rels = cm ->relationships(participantId: cContact.id(), role: QContactRelationship::First);
2053	QCOMPARE(rels, result);
2054
2055	// cancelling
2056	rfr.setRelationshipType(QString ());
2057
2058	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2059	while (true) {
2060	QVERIFY(!rfr.cancel()); // not started
2061	FILL_QUEUE_WITH_FETCH_REQUESTS();
2062	QVERIFY(rfr.start());
2063	if (!rfr.cancel()) {
2064	// due to thread scheduling, async cancel might be attempted
2065	// after the request has already finished.. so loop and try again.
2066	rfr.waitForFinished();
2067	rfr.setRelationshipType(QString ());
2068	bailoutCount -= `1`;
2069	if (!bailoutCount) {
2070	// qWarning("Unable to test cancelling due to thread scheduling!");
2071	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2072	break;
2073	}
2074	spy.clear();
2075	continue;
2076	}
2077
2078	// if we get here, then we are cancelling the request.
2079	QVERIFY(rfr.waitForFinished());
2080	QVERIFY(rfr.isCanceled());
2081	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2082	spy.clear();
2083	break;
2084	}
2085
2086	// restart, and wait for progress after cancel.
2087	while (true) {
2088	QVERIFY(!rfr.cancel()); // not started
2089	FILL_QUEUE_WITH_FETCH_REQUESTS();
2090	QVERIFY(rfr.start());
2091	if (!rfr.cancel()) {
2092	// due to thread scheduling, async cancel might be attempted
2093	// after the request has already finished.. so loop and try again.
2094	rfr.waitForFinished();
2095	rfr.setRelationshipType(QString ());
2096	bailoutCount -= `1`;
2097	if (!bailoutCount) {
2098	// qWarning("Unable to test cancelling due to thread scheduling!");
2099	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2100	break;
2101	}
2102	spy.clear();
2103	continue;
2104	}
2105	rfr.waitForFinished();
2106	QVERIFY(rfr.isCanceled());
2107	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2108	spy.clear();
2109	break;
2110	}
2111	}
2112
2113	void tst_QContactAsync::relationshipRemove()
2114	{
2115	QFETCH(QString, uri);
2116	QScopedPointer<QContactManager> cm(prepareModel(uri));
2117
2118	QContactRelationshipRemoveRequest rrr;
2119	QVERIFY(rrr.type() == QContactAbstractRequest::RelationshipRemoveRequest);
2120
2121	// initial state - not started, no manager.
2122	QVERIFY(!rrr.isActive());
2123	QVERIFY(!rrr.isFinished());
2124	QVERIFY(!rrr.start());
2125	QVERIFY(!rrr.cancel());
2126	QVERIFY(!rrr.waitForFinished());
2127
2128	QList<QContactId> contacts = cm ->contactIds();
2129	QContact aContact, bContact, cContact;
2130	foreach (const QContactId& currId, contacts) {
2131	QContact curr = cm ->contact(contactId: currId);
2132	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Aaron")) {
2133	aContact = curr;
2134	continue;
2135	}
2136	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Bob")) {
2137	bContact = curr;
2138	continue;
2139	}
2140	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Borris")) {
2141	cContact = curr;
2142	continue;
2143	}
2144	}
2145
2146	// specific source, destination and type removal
2147	QList<QContactRelationship> relationships;
2148	QContactRelationship r;
2149	r.setFirst(aContact.id());
2150	r.setSecond(cContact.id());
2151	r.setRelationshipType(QContactRelationship::HasAssistant());
2152	relationships.push_back(t: r);
2153
2154	rrr.setRelationships(relationships);
2155	rrr.setManager(cm.data());
2156	qRegisterMetaType<QContactRelationshipRemoveRequest>(typeName: "QContactRelationshipRemoveRequest");
2157	QThreadSignalSpy spy(&rrr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
2158	QCOMPARE(rrr.manager(), cm.data());
2159	QVERIFY(!rrr.isActive());
2160	QVERIFY(!rrr.isFinished());
2161	QVERIFY(!rrr.cancel());
2162	QVERIFY(!rrr.waitForFinished());
2163
2164	QVERIFY(!rrr.cancel()); // not started
2165	QVERIFY(rrr.start());
2166
2167	QVERIFY((rrr.isActive() && rrr.state() == QContactAbstractRequest::ActiveState) \|\| rrr.isFinished());
2168	//QVERIFY(rrr.isFinished() \|\| !rrr.start()); // already started. // thread scheduling means this is untestable
2169	QVERIFY(rrr.waitForFinished());
2170	QVERIFY(rrr.isFinished());
2171	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2172	spy.clear();
2173	QCOMPARE(cm ->relationships(QContactRelationship::HasAssistant(), cContact.id(), QContactRelationship::Second).size(), `1`);
2174
2175	// remove (asynchronously) a nonexistent relationship - should fail.
2176	r.setFirst(cContact.id());
2177	r.setSecond(aContact.id());
2178	r.setRelationshipType(QContactRelationship::HasManager());
2179	relationships.clear();
2180	relationships.push_back(t: r);
2181	rrr.setRelationship(r);
2182	QVERIFY(rrr.relationships() == relationships);
2183	rrr.setManager(cm.data());
2184	QVERIFY(!rrr.cancel()); // not started
2185	QVERIFY(rrr.start());
2186
2187	QVERIFY((rrr.isActive() && rrr.state() == QContactAbstractRequest::ActiveState) \|\| rrr.isFinished());
2188	//QVERIFY(rrr.isFinished() \|\| !rrr.start()); // already started. // thread scheduling means this is untestable
2189	QVERIFY(rrr.waitForFinished());
2190	QVERIFY(rrr.isFinished());
2191	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2192	spy.clear();
2193
2194	QCOMPARE(cm ->relationships(QContactRelationship::HasManager(), cContact.id(), QContactRelationship::First).size(), `0`);
2195	// QCOMPARE(rrr.error(), QContactManager::DoesNotExistError);
2196
2197	// cancelling
2198	r.setFirst(cContact.id());
2199	r.setSecond(QContactId ());
2200	relationships.clear();
2201	relationships.push_back(t: r);
2202
2203	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2204	while (true) {
2205	QVERIFY(!rrr.cancel()); // not started
2206	FILL_QUEUE_WITH_FETCH_REQUESTS();
2207	QVERIFY(rrr.start());
2208	if (!rrr.cancel()) {
2209	// due to thread scheduling, async cancel might be attempted
2210	// after the request has already finished.. so loop and try again.
2211	rrr.waitForFinished();
2212	rrr.setRelationships(relationships);
2213	bailoutCount -= `1`;
2214	if (!bailoutCount) {
2215	// qWarning("Unable to test cancelling due to thread scheduling!");
2216	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2217	break;
2218	}
2219	spy.clear();
2220	continue;
2221	}
2222
2223	// if we get here, then we are cancelling the request.
2224	QVERIFY(rrr.waitForFinished());
2225	QVERIFY(rrr.isCanceled());
2226	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2227	spy.clear();
2228
2229	QVERIFY(cm ->relationships(cContact.id()).size() != `0`); // didn't remove them.
2230	break;
2231	}
2232
2233	// restart, and wait for progress after cancel.
2234	while (true) {
2235	QVERIFY(!rrr.cancel()); // not started
2236	FILL_QUEUE_WITH_FETCH_REQUESTS();
2237	QVERIFY(rrr.start());
2238	if (!rrr.cancel()) {
2239	// due to thread scheduling, async cancel might be attempted
2240	// after the request has already finished.. so loop and try again.
2241	rrr.waitForFinished();
2242	rrr.setRelationships(relationships);
2243	bailoutCount -= `1`;
2244	if (!bailoutCount) {
2245	// qWarning("Unable to test cancelling due to thread scheduling!");
2246	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2247	break;
2248	}
2249	spy.clear();
2250	continue;
2251	}
2252	rrr.waitForFinished();
2253	QVERIFY(rrr.isCanceled());
2254	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2255	spy.clear();
2256
2257	QVERIFY(cm ->relationships(cContact.id()).size() != `0`); // didn't remove them.
2258	break;
2259	}
2260	}
2261
2262	void tst_QContactAsync::relationshipSave()
2263	{
2264	QFETCH(QString, uri);
2265	QScopedPointer<QContactManager> cm(prepareModel(uri));
2266
2267	QContactRelationshipSaveRequest rsr;
2268	QVERIFY(rsr.type() == QContactAbstractRequest::RelationshipSaveRequest);
2269
2270	// initial state - not started, no manager.
2271	QVERIFY(!rsr.isActive());
2272	QVERIFY(!rsr.isFinished());
2273	QVERIFY(!rsr.start());
2274	QVERIFY(!rsr.cancel());
2275	QVERIFY(!rsr.waitForFinished());
2276
2277	QList<QContactId> contacts = cm ->contactIds();
2278	QContact cContact, aContact, bContact;
2279	foreach (const QContactId& currId, contacts) {
2280	QContact curr = cm ->contact(contactId: currId);
2281	if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Borris")) {
2282	cContact = curr;
2283	} else if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Bob")) {
2284	bContact = curr;
2285	} else if (curr.detail(type: QContactName::Type).value(field: QContactName::FieldFirstName) == QString ("Aaron")) {
2286	aContact = curr;
2287	}
2288	}
2289
2290	// save a new relationship
2291	int originalCount = cm ->relationships(participantId: aContact.id()).size();
2292	QContactRelationship testRel;
2293	testRel.setFirst(aContact.id());
2294	testRel.setRelationshipType(QContactRelationship::HasSpouse());
2295	testRel.setSecond(bContact.id());
2296	QList<QContactRelationship> saveList;
2297	saveList << testRel;
2298	rsr.setManager(cm.data());
2299	QCOMPARE(rsr.manager(), cm.data());
2300	QVERIFY(!rsr.isActive());
2301	QVERIFY(!rsr.isFinished());
2302	QVERIFY(!rsr.cancel());
2303	QVERIFY(!rsr.waitForFinished());
2304	qRegisterMetaType<QContactRelationshipSaveRequest>(typeName: "QContactRelationshipSaveRequest");
2305	QThreadSignalSpy spy(&rsr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
2306	rsr.setRelationship(testRel);
2307	QCOMPARE(rsr.relationships(), saveList);
2308	QVERIFY(!rsr.cancel()); // not started
2309	QVERIFY(rsr.start());
2310
2311	QVERIFY((rsr.isActive() && rsr.state() == QContactAbstractRequest::ActiveState) \|\| rsr.isFinished());
2312	//QVERIFY(rsr.isFinished() \|\| !rsr.start()); // already started. // thread scheduling means this is untestable
2313	QVERIFY(rsr.waitForFinished());
2314	QVERIFY(rsr.isFinished());
2315	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2316	spy.clear();
2317
2318	QList<QContactRelationship> expected = cm ->relationships(relationshipType: QContactRelationship::HasSpouse(), participantId: aContact.id(), role: QContactRelationship::First);
2319	QList<QContactRelationship> result = rsr.relationships();
2320	QCOMPARE(expected, result);
2321	QVERIFY(result.contains(testRel));
2322	QCOMPARE(cm ->relationships(aContact.id()).size(), originalCount + `1`); // should be one extra
2323
2324	// save a new relationship
2325	testRel.setSecond(cContact.id());
2326	saveList.clear();
2327	saveList << testRel;
2328	rsr.setRelationships(saveList);
2329	QCOMPARE(rsr.relationships(), saveList);
2330	QVERIFY(!rsr.cancel()); // not started
2331	QVERIFY(rsr.start());
2332
2333	QVERIFY((rsr.isActive() && rsr.state() == QContactAbstractRequest::ActiveState) \|\| rsr.isFinished());
2334	//QVERIFY(rsr.isFinished() \|\| !rsr.start()); // already started. // thread scheduling means this is untestable
2335	QVERIFY(rsr.waitForFinished());
2336	QVERIFY(rsr.isFinished());
2337	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2338	spy.clear();
2339
2340	expected.clear();
2341	expected = cm ->relationships(relationshipType: QContactRelationship::HasSpouse(), participantId: aContact.id(), role: QContactRelationship::First);
2342	result = rsr.relationships();
2343	QCOMPARE(result, QList<QContactRelationship>() << testRel);
2344	QVERIFY(expected.contains(testRel));
2345	QCOMPARE(cm ->relationships(aContact.id()).size(), originalCount + `2`); // should now be two extra
2346
2347	// cancelling
2348	testRel.setSecond(aContact.id()); // shouldn't get saved (circular anyway)
2349	saveList.clear();
2350	saveList << testRel;
2351	rsr.setRelationships(saveList);
2352
2353	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2354	while (true) {
2355	QVERIFY(!rsr.cancel()); // not started
2356	FILL_QUEUE_WITH_FETCH_REQUESTS();
2357	QVERIFY(rsr.start());
2358	if (!rsr.cancel()) {
2359	// due to thread scheduling, async cancel might be attempted
2360	// after the request has already finished.. so loop and try again.
2361	rsr.waitForFinished();
2362	saveList.clear();
2363	saveList << testRel;
2364	rsr.setRelationships(saveList);
2365	cm ->removeRelationship(relationship: testRel); // probably shouldn't have been saved anyway (circular)
2366	bailoutCount -= `1`;
2367	if (!bailoutCount) {
2368	// qWarning("Unable to test cancelling due to thread scheduling!");
2369	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2370	break;
2371	}
2372	spy.clear();
2373	continue;
2374	}
2375
2376	// if we get here, then we are cancelling the request.
2377	QVERIFY(rsr.waitForFinished());
2378	QVERIFY(rsr.isCanceled());
2379	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2380	spy.clear();
2381
2382	// verify that the changes were not saved
2383	QList<QContactRelationship> aRels = cm ->relationships(participantId: aContact.id(), role: QContactRelationship::First);
2384	QVERIFY(!aRels.contains(testRel));
2385	QCOMPARE(cm ->relationships(aContact.id()).size(), originalCount + `2`); // should still only be two extra
2386
2387	break;
2388	}
2389
2390	// restart, and wait for progress after cancel.
2391	while (true) {
2392	QVERIFY(!rsr.cancel()); // not started
2393	FILL_QUEUE_WITH_FETCH_REQUESTS();
2394	QVERIFY(rsr.start());
2395	if (!rsr.cancel()) {
2396	// due to thread scheduling, async cancel might be attempted
2397	// after the request has already finished.. so loop and try again.
2398	rsr.waitForFinished();
2399	saveList.clear();
2400	saveList << testRel;
2401	rsr.setRelationships(saveList);
2402	cm ->removeRelationship(relationship: testRel); // probably shouldn't have been saved anyway (circular)
2403	bailoutCount -= `1`;
2404	if (!bailoutCount) {
2405	// qWarning("Unable to test cancelling due to thread scheduling!");
2406	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2407	break;
2408	}
2409	spy.clear();
2410	continue;
2411	}
2412	rsr.waitForFinished();
2413	QVERIFY(rsr.isCanceled());
2414	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2415	spy.clear();
2416
2417	// verify that the changes were not saved
2418	QList<QContactRelationship> aRels = cm ->relationships(participantId: aContact.id(), role: QContactRelationship::First);
2419	QVERIFY(!aRels.contains(testRel));
2420	QCOMPARE(cm ->relationships(aContact.id()).size(), originalCount + `2`); // should still only be two extra
2421
2422	break;
2423	}
2424	}
2425
2426	void tst_QContactAsync::collectionFetch()
2427	{
2428	QFETCH(QString, uri);
2429	QScopedPointer<QContactManager> cm(prepareModel(uri));
2430
2431	QContactCollectionFetchRequest cfr;
2432	QVERIFY(cfr.type() == QContactAbstractRequest::CollectionFetchRequest);
2433
2434	// initial state - not started, no manager.
2435	QVERIFY(!cfr.isActive());
2436	QVERIFY(!cfr.isFinished());
2437	QVERIFY(!cfr.start());
2438	QVERIFY(!cfr.cancel());
2439	QVERIFY(!cfr.waitForFinished());
2440
2441	// retrieve all collections.
2442	cfr.setManager(cm.data());
2443	QCOMPARE(cfr.manager(), cm.data());
2444	QVERIFY(!cfr.isActive());
2445	QVERIFY(!cfr.isFinished());
2446	QVERIFY(!cfr.cancel());
2447	QVERIFY(!cfr.waitForFinished());
2448	qRegisterMetaType<QContactCollectionFetchRequest>(typeName: "QContactCollectionFetchRequest");
2449	QThreadSignalSpy spy(&cfr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
2450	QVERIFY(!cfr.cancel()); // not started
2451
2452	QVERIFY(cfr.start());
2453	//QVERIFY(cfr.isFinished() \|\| !cfr.start()); // already started. // thread scheduling means this is untestable
2454	QVERIFY((cfr.isActive() && cfr.state() == QContactAbstractRequest::ActiveState) \|\| cfr.isFinished());
2455	QVERIFY(cfr.waitForFinished());
2456	QVERIFY(cfr.isFinished());
2457
2458	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2459	spy.clear();
2460
2461	QList<QContactCollection> syncCols = cm ->collections();
2462	QList<QContactCollection> cols = cfr.collections();
2463	QCOMPARE(cols.size(), syncCols.size());
2464	for (int i = `0`; i < cols.size(); i++) {
2465	QContactCollection curr = cols.at(i);
2466	QVERIFY(syncCols.contains(curr));
2467	}
2468
2469	// cancelling
2470	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2471	while (true) {
2472	QVERIFY(!cfr.cancel()); // not started
2473	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2474	QVERIFY(cfr.start());
2475	if (!cfr.cancel()) {
2476	// due to thread scheduling, async cancel might be attempted
2477	// after the request has already finished.. so loop and try again.
2478	spy.clear();
2479	cfr.waitForFinished();
2480	bailoutCount -= `1`;
2481	if (!bailoutCount) {
2482	// qWarning("Unable to test cancelling due to thread scheduling!");
2483	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2484	break;
2485	}
2486	continue;
2487	}
2488
2489	// if we get here, then we are cancelling the request.
2490	QVERIFY(cfr.waitForFinished());
2491	QVERIFY(cfr.isCanceled());
2492
2493	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2494	spy.clear();
2495	break;
2496	}
2497
2498	// restart, and wait for progress after cancel.
2499	while (true) {
2500	QVERIFY(!cfr.cancel()); // not started
2501	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2502	QVERIFY(cfr.start());
2503	if (!cfr.cancel()) {
2504	// due to thread scheduling, async cancel might be attempted
2505	// after the request has already finished.. so loop and try again.
2506	cfr.waitForFinished();
2507	bailoutCount -= `1`;
2508	spy.clear();
2509	if (!bailoutCount) {
2510	//qWarning("Unable to test cancelling due to thread scheduling!");
2511	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2512	break;
2513	}
2514	continue;
2515	}
2516	cfr.waitForFinished();
2517	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2518	spy.clear();
2519	QVERIFY(!cfr.isActive());
2520	QVERIFY(cfr.state() == QContactAbstractRequest::CanceledState);
2521	break;
2522	}
2523	}
2524
2525	void tst_QContactAsync::collectionRemove()
2526	{
2527	QFETCH(QString, uri);
2528	QScopedPointer<QContactManager> cm(prepareModel(uri));
2529	QContactCollectionRemoveRequest crr;
2530	QVERIFY(crr.type() == QContactAbstractRequest::CollectionRemoveRequest);
2531
2532	// initial state - not started, no manager.
2533	QVERIFY(!crr.isActive());
2534	QVERIFY(!crr.isFinished());
2535	QVERIFY(!crr.start());
2536	QVERIFY(!crr.cancel());
2537	QVERIFY(!crr.waitForFinished());
2538
2539	// specific collection set
2540	QContactCollectionId removeId = cm ->collections().last().id();
2541	if (cm ->defaultCollectionId() == removeId)
2542	removeId = cm ->collections().first().id();
2543	crr.setCollectionId(removeId);
2544	QVERIFY(crr.collectionIds() == QList<QContactCollectionId>() << removeId);
2545	int originalCount = cm ->collections().size();
2546	crr.setManager(cm.data());
2547	QCOMPARE(crr.manager(), cm.data());
2548	QVERIFY(!crr.isActive());
2549	QVERIFY(!crr.isFinished());
2550	QVERIFY(!crr.cancel());
2551	QVERIFY(!crr.waitForFinished());
2552	qRegisterMetaType<QContactCollectionRemoveRequest>(typeName: "QContactCollectionRemoveRequest");
2553	QThreadSignalSpy spy(&crr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
2554	QVERIFY(!crr.cancel()); // not started
2555	QVERIFY(crr.start());
2556	QVERIFY((crr.isActive() &&crr.state() == QContactAbstractRequest::ActiveState) \|\| crr.isFinished());
2557	//QVERIFY(crr.isFinished() \|\| !crr.start()); // already started. // thread scheduling means this is untestable
2558	QVERIFY(crr.waitForFinished());
2559	QVERIFY(crr.isFinished());
2560
2561	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2562	spy.clear();
2563
2564	QCOMPARE(cm ->collections().size(), originalCount - `1`); // should have removed that particular collection.
2565	QVERIFY(crr.error() == QContactManager::NoError);
2566	QVERIFY(crr.errorMap().isEmpty());
2567
2568	// remove all collections
2569	QList<QContactCollectionId> allCollectionIds;
2570	QList<QContactCollection> allCollections = cm ->collections();
2571	for (int i = `0`; i < allCollections.size(); ++i)
2572	allCollectionIds << allCollections.at(i).id();
2573	crr.setCollectionIds(allCollectionIds);
2574
2575	QVERIFY(!crr.cancel()); // not started
2576	QVERIFY(crr.start());
2577
2578	QVERIFY((crr.isActive() && crr.state() == QContactAbstractRequest::ActiveState) \|\| crr.isFinished());
2579	//QVERIFY(crr.isFinished() \|\| !crr.start()); // already started. // thread scheduling means this is untestable
2580	QVERIFY(crr.waitForFinished());
2581	QVERIFY(crr.isFinished());
2582
2583	QVERIFY(cm ->collections().size() >= `1`); // at least one collection must be left, since default collection cannot be removed.
2584	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2585	spy.clear();
2586
2587	// remove empty list
2588	QList<QContactCollectionId> collectionIdList;
2589	QContactCollectionRemoveRequest crr1;
2590	crr1.setManager(cm.data());
2591	crr1.setCollectionIds(collectionIdList);
2592	crr1.start();
2593	crr1.waitForFinished();
2594	QVERIFY(crr1.isFinished());
2595	QVERIFY(crr1.error() == QContactManager::NoError);
2596
2597	// cancelling
2598	QContactCollection temp;
2599	temp.setMetaData(key: QContactCollection::KeyDescription, value: "Should not be removed!");
2600	cm ->saveCollection(collection: &temp);
2601	crr.setCollectionId(temp.id());
2602
2603	int collectionCount = cm ->collections().size();
2604	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2605	while (true) {
2606	QVERIFY(!crr.cancel()); // not started
2607	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2608	QVERIFY(spy.count() == `0`);
2609	QVERIFY(crr.start());
2610	if (!crr.cancel()) {
2611	// due to thread scheduling, async cancel might be attempted
2612	// after the request has already finished.. so loop and try again.
2613	crr.waitForFinished();
2614	temp.setId(QContactCollectionId ());
2615	if (!cm ->saveCollection(collection: &temp)) {
2616	QSKIP("Unable to save temporary item for remove request cancellation test!");
2617	}
2618	crr.setCollectionId(temp.id());
2619	bailoutCount -= `1`;
2620	if (!bailoutCount) {
2621	// qWarning("Unable to test cancelling due to thread scheduling!");
2622	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2623	break;
2624	}
2625	spy.clear();
2626	continue;
2627	}
2628
2629	// if we get here, then we are cancelling the request.
2630	QVERIFY(crr.waitForFinished());
2631	QVERIFY(crr.isCanceled());
2632	QCOMPARE(cm ->collections().size(), collectionCount); // temp collection should not have been removed
2633	QList<QContactCollectionId> removeCollectionIds;
2634	QList<QContactCollection> removeCollections = cm ->collections();
2635	for (int i = `0`; i < removeCollections.size(); ++i)
2636	removeCollectionIds << removeCollections.at(i).id();
2637	QVERIFY(containsAllCollectionIds(removeCollectionIds, crr.collectionIds()));
2638	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2639	spy.clear();
2640	break;
2641	}
2642
2643	// restart, and wait for progress after cancel.
2644	while (true) {
2645	QVERIFY(!crr.cancel()); // not started
2646	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2647	QVERIFY(crr.start());
2648	if (!crr.cancel()) {
2649	// due to thread scheduling, async cancel might be attempted
2650	// after the request has already finished.. so loop and try again.
2651	crr.waitForFinished();
2652	temp.setId(QContactCollectionId ());
2653	if (!cm ->saveCollection(collection: &temp)) {
2654	QSKIP("Unable to save temporary item for remove request cancellation test!");
2655	}
2656	crr.setCollectionId(temp.id());
2657	bailoutCount -= `1`;
2658	if (!bailoutCount) {
2659	// qWarning("Unable to test cancelling due to thread scheduling!");
2660	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2661	break;
2662	}
2663	spy.clear();
2664	continue;
2665	}
2666	crr.waitForFinished();
2667	QVERIFY(crr.isCanceled());
2668	QCOMPARE(cm ->collections().size(), collectionCount); // temp collection should not have been removed
2669	QList<QContactCollectionId> removeCollectionIds;
2670	QList<QContactCollection> removeCollections = cm ->collections();
2671	for (int i = `0`; i < removeCollections.size(); ++i)
2672	removeCollectionIds << removeCollections.at(i).id();
2673	QVERIFY(containsAllCollectionIds(removeCollectionIds, crr.collectionIds()));
2674	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2675	spy.clear();
2676	break;
2677	}
2678
2679	// now clean up our temp collection.
2680	cm ->removeCollection(collectionId: temp.id());
2681
2682	}
2683
2684	void tst_QContactAsync::collectionSave()
2685	{
2686	QFETCH(QString, uri);
2687	QScopedPointer<QContactManager> cm(prepareModel(uri));
2688	QContactCollectionSaveRequest csr;
2689	QVERIFY(csr.type() == QContactAbstractRequest::CollectionSaveRequest);
2690
2691	// initial state - not started, no manager.
2692	QVERIFY(!csr.isActive());
2693	QVERIFY(!csr.isFinished());
2694	QVERIFY(!csr.start());
2695	QVERIFY(!csr.cancel());
2696	QVERIFY(!csr.waitForFinished());
2697
2698	// save a new item
2699	int originalCount = cm ->collections().size();
2700	QContactCollection testCollection;
2701	testCollection.setMetaData(key: QContactCollection::KeyDescription, value: "test description");
2702	testCollection.setMetaData(key: QContactCollection::KeyName, value: "New collection");
2703	QList<QContactCollection> saveList;
2704	saveList << testCollection;
2705	csr.setManager(cm.data());
2706	QCOMPARE(csr.manager(), cm.data());
2707	QVERIFY(!csr.isActive());
2708	QVERIFY(!csr.isFinished());
2709	QVERIFY(!csr.cancel());
2710	QVERIFY(!csr.waitForFinished());
2711	qRegisterMetaType<QContactCollectionSaveRequest>(typeName: "QContactCollectionSaveRequest");
2712	QThreadSignalSpy spy(&csr, SIGNAL(stateChanged(QContactAbstractRequest::State)));
2713	csr.setCollection(testCollection);
2714	QCOMPARE(csr.collections(), saveList);
2715	QVERIFY(!csr.cancel()); // not started
2716	QVERIFY(csr.start());
2717
2718	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
2719	//QVERIFY(csr.isFinished() \|\| !csr.start()); // already started. // thread scheduling means this is untestable
2720	QVERIFY(csr.waitForFinished());
2721	QVERIFY(csr.isFinished());
2722	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2723	spy.clear();
2724
2725	QList<QContactCollection> expected = csr.collections();
2726	QCOMPARE(expected.size(), `1`);
2727	QList<QContactCollection> result;
2728	result << cm ->collection(collectionId: csr.collections().at(i: `0`).id());
2729
2730	// find the saved one, compare.
2731	foreach (const QContactCollection &col, result)
2732	QVERIFY(col.id() == expected.at(`0`).id());
2733
2734	// update a previously saved collection
2735	QVERIFY(!result.isEmpty()); // make sure that we were able to retrieve the required collection.
2736	testCollection = result.first();
2737	testCollection.setMetaData(key: QContactCollection::KeyName, value: "test name");
2738	saveList.clear();
2739	saveList << testCollection;
2740	csr.setCollections(saveList);
2741	QCOMPARE(csr.collections(), saveList);
2742	QVERIFY(!csr.cancel()); // not started
2743	QVERIFY(csr.start());
2744
2745	QVERIFY((csr.isActive() && csr.state() == QContactAbstractRequest::ActiveState) \|\| csr.isFinished());
2746	//QVERIFY(csr.isFinished() \|\| !csr.start()); // already started. // thread scheduling means this is untestable
2747	QVERIFY(csr.waitForFinished());
2748
2749	QVERIFY(csr.isFinished());
2750	QVERIFY(spy.count() >= `1`); // active + finished progress signals
2751	spy.clear();
2752
2753	expected = csr.collections();
2754	result.clear();
2755	result = cm ->collections();
2756	// find the saved one, compare.
2757	foreach (const QContactCollection& col, result) {
2758	if (col.id() == expected.at(i: `0`).id()) {
2759	QVERIFY(col == expected.at(`0`)); // XXX TODO: if we change the semantic so that save merely updates the id...?
2760	}
2761	}
2762	QCOMPARE(cm ->collections().size(), originalCount + `1`); // ie shouldn't have added an extra one (would be +2)
2763	QVERIFY(csr.error() == QContactManager::NoError);
2764	QVERIFY(csr.errorMap().isEmpty());
2765
2766	// save empty list
2767	QList<QContactCollection> collectionList;
2768	QContactCollectionSaveRequest csr1;
2769	csr1.setManager(cm.data());
2770	csr1.setCollections(collectionList);
2771	csr1.start();
2772	csr1.waitForFinished();
2773	QVERIFY(csr1.isFinished());
2774	QVERIFY(csr1.error() == QContactManager::NoError);
2775
2776	// cancelling
2777	QContactCollection temp;
2778	temp.setMetaData(testCollection.metaData());
2779	temp.setExtendedMetaData(key: "test", value: "shouldn't be saved");
2780	saveList.clear();
2781	saveList << temp;
2782	csr.setCollections(saveList);
2783
2784	int bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT; // attempt to cancel 40 times. If it doesn't work due to threading, bail out.
2785	while (true) {
2786	QVERIFY(!csr.cancel()); // not started
2787	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2788	QVERIFY(csr.start());
2789	if (!csr.cancel()) {
2790	// due to thread scheduling, async cancel might be attempted
2791	// after the request has already finished.. so loop and try again.
2792	csr.waitForFinished();
2793	saveList = csr.collections();
2794	if (cm ->collections().size() > (originalCount + `1`) && !cm ->removeCollection(collectionId: saveList.at(i: `0`).id())) {
2795	QSKIP("Unable to remove saved collection to test cancellation of collection save request");
2796	}
2797	saveList.clear();
2798	saveList << temp;
2799	csr.setCollections(saveList);
2800	bailoutCount -= `1`;
2801	if (!bailoutCount) {
2802	// qWarning("Unable to test cancelling due to thread scheduling!");
2803	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2804	break;
2805	}
2806	spy.clear();
2807	continue;
2808	}
2809
2810	// if we get here, then we are cancelling the request.
2811	QVERIFY(csr.waitForFinished());
2812	QVERIFY(csr.isCanceled());
2813	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2814	spy.clear();
2815
2816	// verify that the changes were not saved
2817	expected.clear();
2818	QList<QContactCollection> allCollections = cm ->collections();
2819	QVERIFY(!allCollections.contains(temp)); // should NOT contain it since it was cancelled.
2820	QCOMPARE(allCollections.size(), originalCount + `1`);
2821	break;
2822	}
2823	// restart, and wait for progress after cancel.
2824
2825	while (true) {
2826	QVERIFY(!csr.cancel()); // not started
2827	FILL_QUEUE_WITH_FETCH_REQUESTS_WITH_MANAGER(cm.data());
2828	QVERIFY(csr.start());
2829	if (!csr.cancel()) {
2830	// due to thread scheduling, async cancel might be attempted
2831	// after the request has already finished.. so loop and try again.
2832	csr.waitForFinished();
2833	saveList = csr.collections();
2834	if (cm ->collections().size() > (originalCount + `1`) && !cm ->removeCollection(collectionId: saveList.at(i: `0`).id())) {
2835	QSKIP("Unable to remove saved item to test cancellation of item save request");
2836	}
2837	saveList.clear();
2838	saveList << temp;
2839	csr.setCollections(saveList);
2840	bailoutCount -= `1`;
2841	if (!bailoutCount) {
2842	// qWarning("Unable to test cancelling due to thread scheduling!");
2843	bailoutCount = MAX_OPTIMISTIC_SCHEDULING_LIMIT;
2844	break;
2845	}
2846	spy.clear();
2847	continue;
2848	}
2849	csr.waitForFinished(); // now wait until finished (if it hasn't already).
2850	QVERIFY(csr.isCanceled());
2851	QVERIFY(spy.count() >= `1`); // active + cancelled progress signals
2852	spy.clear();
2853
2854	// verify that the changes were not saved
2855	expected.clear();
2856	QList<QContactCollection> allCollections = cm ->collections();
2857	QVERIFY(!allCollections.contains(temp));
2858	QCOMPARE(cm ->collections().size(), originalCount + `1`);
2859	break;
2860	}
2861	}
2862
2863	void tst_QContactAsync::maliciousManager()
2864	{
2865	// use the invalid manager: passes all requests through to base class
2866	QContactManager cm("invalid");
2867	QContactFilter fil; // matches everything
2868	QContactFetchRequest cfr;
2869	cfr.setFilter(fil);
2870	cfr.setManager(&cm);
2871	QVERIFY(!cfr.start());
2872	QVERIFY(!cfr.cancel());
2873	QVERIFY(!cfr.waitForFinished());
2874	QVERIFY(!cfr.start());
2875
2876	// ensure that the base class implementation of requestDestroyed() is called
2877	QContactFetchRequest destroyedRequest = new* QContactFetchRequest;
2878	destroyedRequest->setManager(&cm);
2879	destroyedRequest->setFilter(fil);
2880	QVERIFY(!destroyedRequest->start());
2881	delete destroyedRequest;
2882
2883	// now use a malicious manager that deliberately calls
2884	// things in a different thread
2885	if (!QContactManager::availableManagers().contains(str: "maliciousplugin"))
2886	QSKIP("Malicious plugin is not installed, skipping test.");
2887	QContactManager mcm("maliciousplugin");
2888	QCOMPARE(mcm.managerName(), QString ("maliciousplugin"));
2889	QList<QContact> emptyCList;
2890	QList<QContactId> emptyIList;
2891	QStringList emptyDNList;
2892	cfr.setFilter(fil);
2893	cfr.setManager(&mcm);
2894	QVERIFY(cfr.start());
2895
2896	QContactIdFetchRequest cifr;
2897	cifr.setFilter(fil);
2898	cifr.setManager(&mcm);
2899	QVERIFY(cifr.start());
2900
2901	QContactRemoveRequest crr;
2902	crr.setContactIds(mcm.contactIds(filter: fil));
2903	crr.setManager(&mcm);
2904	QVERIFY(crr.start());
2905
2906	QContactSaveRequest csr;
2907	csr.setContacts(emptyCList);
2908	csr.setManager(&mcm);
2909	QVERIFY(csr.start());
2910
2911	}
2912
2913	void tst_QContactAsync::testQuickDestruction()
2914	{
2915	QFETCH(QString, uri);
2916
2917	// in this test, we create a manager, fire off a request, and delete the manager, all in quick succession
2918	// this is to test for segfaults etc.
2919	for (int i = `0`; i < `10`; i++) {
2920	QContactFetchRequest cfr;
2921	QContactManager *cm = prepareModel(uri);
2922	cfr.setManager(cm);
2923	cfr.start();
2924	delete cm;
2925	}
2926	// in this test, we create a manager, fire off a request, delete the request, then delete the manager, all in quick succession
2927	// this is to test for segfaults, etc.
2928	for (int i = `0`; i < `10`; i++) {
2929	QContactFetchRequest cfr = new* QContactFetchRequest;
2930	QContactManager *cm = prepareModel(uri);
2931	cfr->setManager(cm);
2932	cfr->start();
2933	delete cfr;
2934	delete cm;
2935	}
2936	// in this test, we create a manager, fire off a request, delete the manager, then delete the request, all in quick succession
2937	// this is to test for segfaults, etc.
2938	for (int i = `0`; i < `10`; i++) {
2939	QContactFetchRequest cfr = new* QContactFetchRequest;
2940	QContactManager *cm = prepareModel(uri);
2941	cfr->setManager(cm);
2942	cfr->start();
2943	delete cm;
2944	delete cfr;
2945	}
2946	// in this test, we create a manager, fire off a request, and delete the request, all in quick succession
2947	// this is to test for segfaults, etc.
2948	QContactManager *cm = prepareModel(uri);
2949	for (int i = `0`; i < `10`; i++) {
2950	QContactFetchRequest cfr = new* QContactFetchRequest;
2951	cfr->setManager(cm);
2952	cfr->start();
2953	delete cfr;
2954	}
2955	delete cm;
2956	}
2957
2958	void tst_QContactAsync::threadDelivery()
2959	{
2960	QFETCH(QString, uri);
2961	QScopedPointer<QContactManager> cm(prepareModel(uri));
2962	m_mainThreadId = cm ->thread()->currentThreadId();
2963	m_resultsAvailableSlotThreadId = m_mainThreadId;
2964
2965	// now perform a fetch request and check that the progress is delivered to the correct thread.
2966	QContactFetchRequest req = new* QContactFetchRequest;
2967	req->setManager(cm.data());
2968	connect(sender: req, SIGNAL(resultsAvailable()), receiver: this, SLOT(resultsAvailableReceived()));
2969	req->start();
2970
2971	int totalWaitTime = `0`;
2972	QTest::qWait(ms: `1`); // force it to process events at least once.
2973	while (req->state() != QContactAbstractRequest::FinishedState) {
2974	// ensure that the progress signal was delivered to the main thread.
2975	QCOMPARE(m_mainThreadId, m_resultsAvailableSlotThreadId);
2976
2977	QTest::qWait(ms: `5`); // spin until done
2978	totalWaitTime += `5`;
2979
2980	// break after 30 seconds.
2981	if (totalWaitTime > `30000`) {
2982	delete req;
2983	QSKIP("Asynchronous request not complete after 30 seconds!");
2984	}
2985	}
2986
2987	// ensure that the progress signal was delivered to the main thread.
2988	QCOMPARE(m_mainThreadId, m_resultsAvailableSlotThreadId);
2989	delete req;
2990	}
2991
2992	void tst_QContactAsync::resultsAvailableReceived()
2993	{
2994	QContactFetchRequest req = qobject_cast<QContactFetchRequest >(object: QObject::sender());
2995	Q_ASSERT(req);
2996	m_resultsAvailableSlotThreadId = req->thread()->currentThreadId();
2997	}
2998
2999	void tst_QContactAsync::addManagers(QStringList stringlist)
3000	{
3001	QTest::addColumn<QString>(name: "uri");
3002
3003	// retrieve the list of available managers
3004	QStringList managers = QContactManager::availableManagers();
3005
3006	// remove ones that we know will not pass
3007	if (!stringlist.contains(str: "invalid"))
3008	managers.removeAll(t: "invalid");
3009	if (!stringlist.contains(str: "maliciousplugin"))
3010	managers.removeAll(t: "maliciousplugin");
3011	if (!stringlist.contains(str: "testdummy"))
3012	managers.removeAll(t: "testdummy");
3013	if (!stringlist.contains(str: "social"))
3014	managers.removeAll(t: "social");
3015	if (!stringlist.contains(str: "simcard"))
3016	managers.removeAll(t: "simcard");
3017	if (!stringlist.contains(str: "com.nokia.messaging.contacts.engines.mail.contactslookup"))
3018	managers.removeAll(t: "com.nokia.messaging.contacts.engines.mail.contactslookup");
3019
3020	foreach(QString mgr, managers) {
3021	QMap<QString, QString> params;
3022	QTest::newRow(dataTag: QString ("mgr='%1'").arg(a: mgr).toLatin1().constData()) << QContactManager::buildUri(managerName: mgr, params);
3023	if (mgr == "memory") {
3024	params.insert(key: "id", value: "tst_QContactManager");
3025	QTest::newRow(dataTag: QString ("mgr='%1', params").arg(a: mgr).toLatin1().constData()) << QContactManager::buildUri(managerName: mgr, params);
3026	}
3027	}
3028	}
3029
3030	QContactManager* tst_QContactAsync::prepareModel(const QString& managerUri)
3031	{
3032	QContactManager* cm = QContactManager::fromUri(uri: managerUri);
3033
3034	// XXX TODO: ensure that this is the case:
3035	// there should be no contacts in the database.
3036	QList<QContactId> toRemove = cm->contactIds();
3037	foreach (const QContactId& removeId, toRemove)
3038	cm->removeContact(contactId: removeId);
3039
3040	QContact a, b, c;
3041	QContactName aNameDetail;
3042	aNameDetail.setFirstName("Aaron");
3043	aNameDetail.setLastName("Aaronson");
3044	a.saveDetail(detail: &aNameDetail);
3045	QContactName bNameDetail;
3046	bNameDetail.setFirstName("Bob");
3047	bNameDetail.setLastName("Aaronsen");
3048	b.saveDetail(detail: &bNameDetail);
3049	QContactName cNameDetail;
3050	cNameDetail.setFirstName("Borris");
3051	cNameDetail.setLastName("Aaronsun");
3052	c.saveDetail(detail: &cNameDetail);
3053
3054	QContactPhoneNumber phn;
3055	phn.setNumber("0123");
3056	c.saveDetail(detail: &phn);
3057	phn.setNumber("3456");
3058	b.saveDetail(detail: &phn);
3059	phn.setNumber("6789");
3060	a.saveDetail(detail: &phn);
3061
3062	QContactUrl url;
3063	url.setUrl("http://test.nokia.com");
3064	a.saveDetail(detail: &url);
3065
3066	cm->saveContact(contact: &a);
3067	cm->saveContact(contact: &b);
3068	cm->saveContact(contact: &c);
3069
3070	if (cm->contacts().size() != `3`)
3071	qWarning() << Q_FUNC_INFO << "Failed to prepare model!";
3072
3073	QContactRelationship arb;
3074	arb.setFirst(a.id());
3075	arb.setSecond(b.id());
3076	arb.setRelationshipType(QContactRelationship::HasManager());
3077	cm->saveRelationship(relationship: &arb);
3078
3079	QContactRelationship brc;
3080	brc.setFirst(b.id());
3081	brc.setSecond(c.id());
3082	brc.setRelationshipType(QContactRelationship::HasAssistant());
3083	cm->saveRelationship(relationship: &brc);
3084
3085	QContactRelationship cra;
3086	cra.setFirst(c.id());
3087	cra.setSecond(a.id());
3088	cra.setRelationshipType(QContactRelationship::HasSpouse());
3089	cm->saveRelationship(relationship: &cra);
3090
3091	QContactRelationship arc;
3092	arc.setFirst(a.id());
3093	arc.setSecond(c.id());
3094	arc.setRelationshipType(QContactRelationship::HasAssistant());
3095	cm->saveRelationship(relationship: &arc);
3096
3097	QContactRelationship crb;
3098	crb.setFirst(c.id());
3099	crb.setSecond(b.id());
3100	crb.setRelationshipType(QContactRelationship::IsSameAs());
3101	cm->saveRelationship(relationship: &crb);
3102
3103	QContactCollection testCollection;
3104	testCollection.setMetaData(key: QContactCollection::KeyName, value: "Test Collection");
3105	testCollection.setMetaData(key: QContactCollection::KeyDescription, value: "test collection");
3106	cm->saveCollection(collection: &testCollection);
3107
3108	return cm;
3109
3110	// TODO: cleanup once test is complete
3111	}
3112
3113	QTEST_MAIN(tst_QContactAsync)
3114	#include "tst_qcontactasync.moc"
3115

source code of qtpim/tests/auto/contacts/qcontactasync/unittest/tst_qcontactasync.cpp