qnetworkconfiguration.cpp source code [qtbase/src/network/bearer/qnetworkconfiguration.cpp]

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39
40	#include <QtNetwork/private/qtnetworkglobal_p.h>
41
42	#include "qnetworkconfiguration.h"
43	#include "qnetworkconfiguration_p.h"
44	#include <QDebug>
45
46	#ifndef QT_NO_BEARERMANAGEMENT
47
48	QT_BEGIN_NAMESPACE
49
50	/!*
51	\class QNetworkConfiguration
52	\obsolete
53
54	\brief The QNetworkConfiguration class provides an abstraction of one or more access point configurations.
55
56	\since 4.7
57
58	\inmodule QtNetwork
59	\ingroup network
60	\ingroup shared
61
62	QNetworkConfiguration encapsulates a single access point or service network.
63	In most cases a single access point configuration can be mapped to one network
64	interface. However a single network interface may not always map to only one
65	access point configuration. Multiple configurations for the same
66	network device may enable multiple access points. An example
67	device that could exhibit such a configuration might be a
68	Smartphone which allows the user to manage multiple WLAN
69	configurations while the device itself has only one WLAN network device.
70
71	The QNetworkConfiguration also supports the concept of service networks.
72	This concept allows the grouping of multiple access point configurations
73	into one entity. Such a group is called service network and can be
74	beneficial in cases whereby a network session to a
75	particular destination network is required (e.g. a company network).
76	When using a service network the user doesn't usually care which one of the
77	connectivity options is chosen (e.g. corporate WLAN or VPN via GPRS)
78	as long as he can reach the company's target server. Depending
79	on the current position and time some of the access points that make
80	up the service network may not even be available. Furthermore
81	automated access point roaming can be enabled which enables the device
82	to change the network interface configuration dynamically while maintaining
83	the applications connection to the target network. It allows adaption
84	to the changing environment and may enable optimization with regards to
85	cost, speed or other network parameters.
86
87	Special configurations of type UserChoice provide a placeholder configuration which is
88	resolved to an actual network configuration by the platform when a
89	\l {QNetworkSession}{session} is \l {QNetworkSession::open()}{opened}. Not all platforms
90	support the concept of a user choice configuration.
91
92	\section1 Configuration States
93
94	The list of available configurations can be obtained via
95	QNetworkConfigurationManager::allConfigurations(). A configuration can have
96	multiple states. The \l Defined configuration state indicates that the configuration
97	is stored on the device. However the configuration is not yet ready to be activated
98	as e.g. a WLAN may not be available at the current time.
99
100	The \l Discovered state implies that the configuration is \l Defined and
101	the outside conditions are such that the configuration can be used immediately
102	to open a new network session. An example of such an outside condition may be
103	that the Ethernet cable is actually connected to the device or that the WLAN
104	with the specified SSID is in range.
105
106	The \l Active state implies that the configuration is \l Discovered. A configuration
107	in this state is currently being used by an application. The underlying network
108	interface has a valid IP configuration and can transfer IP packets between the
109	device and the target network.
110
111	The \l Undefined state indicates that the system has knowledge of possible target
112	networks but cannot actually use that knowledge to connect to it. An example
113	for such a state could be an encrypted WLAN that has been discovered
114	but the user hasn't actually saved a configuration including the required password
115	which would allow the device to connect to it.
116
117	Depending on the type of configuration some states are transient in nature. A GPRS/UMTS
118	connection may almost always be \l Discovered if the GSM/UMTS network is available.
119	However if the GSM/UMTS network loses the connection the associated configuration may change its state
120	from \l Discovered to \l Defined as well. A similar use case might be triggered by
121	WLAN availability. QNetworkConfigurationManager::updateConfigurations() can be used to
122	manually trigger updates of states. Note that some platforms do not require such updates
123	as they implicitly change the state once it has been discovered. If the state of a
124	configuration changes all related QNetworkConfiguration instances change their state automatically.
125
126	\sa QNetworkSession, QNetworkConfigurationManager
127	*/
128
129	/!*
130	\enum QNetworkConfiguration::Type
131
132	This enum describes the type of configuration.
133
134	\value InternetAccessPoint The configuration specifies the details for a single access point.
135	Note that configurations of type InternetAccessPoint may be part
136	of other QNetworkConfigurations of type ServiceNetwork.
137	\value ServiceNetwork The configuration is based on a group of QNetworkConfigurations of
138	type InternetAccessPoint. All group members can reach the same
139	target network. This type of configuration is a mandatory
140	requirement for roaming enabled network sessions. On some
141	platforms this form of configuration may also be called Service
142	Network Access Point (SNAP).
143	\value UserChoice The configuration is a placeholder which will be resolved to an
144	actual configuration by the platform when a session is opened. Depending
145	on the platform the selection may generate a popup dialog asking the user
146	for his preferred choice.
147	\value Invalid The configuration is invalid.
148	*/
149
150	/!*
151	\enum QNetworkConfiguration::StateFlag
152
153	Specifies the configuration states.
154
155	\value Undefined This state is used for transient configurations such as newly discovered
156	WLANs for which the user has not actually created a configuration yet.
157	\value Defined Defined configurations are known to the system but are not immediately
158	usable (e.g. a configured WLAN is not within range or the Ethernet cable
159	is currently not plugged into the machine).
160	\value Discovered A discovered configuration can be immediately used to create a new
161	QNetworkSession. An example of a discovered configuration could be a WLAN
162	which is within in range. If the device moves out of range the discovered
163	flag is dropped. A second example is a GPRS configuration which generally
164	remains discovered for as long as the device has network coverage. A
165	configuration that has this state is also in state
166	QNetworkConfiguration::Defined. If the configuration is a service network
167	this flag is set if at least one of the underlying access points
168	configurations has the Discovered state.
169	\value Active The configuration is currently used by an open network session
170	(see \l QNetworkSession::isOpen()). However this does not mean that the
171	current process is the entity that created the open session. It merely
172	indicates that if a new QNetworkSession were to be constructed based on
173	this configuration \l QNetworkSession::state() would return
174	\l QNetworkSession::Connected. This state implies the
175	QNetworkConfiguration::Discovered state.
176	*/
177
178	/!*
179	\enum QNetworkConfiguration::Purpose
180
181	Specifies the purpose of the configuration.
182
183	\value UnknownPurpose The configuration doesn't specify any purpose. This is the default value.
184	\value PublicPurpose The configuration can be used for general purpose internet access.
185	\value PrivatePurpose The configuration is suitable to access a private network such as an office Intranet.
186	\value ServiceSpecificPurpose The configuration can be used for operator specific services (e.g.
187	receiving MMS messages or content streaming).
188	*/
189
190	/!*
191	\enum QNetworkConfiguration::BearerType
192
193	Specifies the type of bearer used by a configuration.
194
195	\value BearerUnknown The type of bearer is unknown or unspecified. The bearerTypeName()
196	function may return additional information.
197	\value BearerEthernet The configuration is for an Ethernet interfaces.
198	\value BearerWLAN The configuration is for a Wireless LAN interface.
199	\value Bearer2G The configuration is for a CSD, GPRS, HSCSD, EDGE or cdmaOne interface.
200	\value Bearer3G The configuration is for a 3G interface.
201	\value Bearer4G The configuration is for a 4G interface.
202	\value BearerCDMA2000 The configuration is for CDMA interface.
203	\value BearerWCDMA The configuration is for W-CDMA/UMTS interface.
204	\value BearerHSPA The configuration is for High Speed Packet Access (HSPA) interface.
205	\value BearerBluetooth The configuration is for a Bluetooth interface.
206	\value BearerWiMAX The configuration is for a WiMAX interface.
207	\value BearerEVDO The configuration is for an EVDO (3G) interface.
208	\value BearerLTE The configuration is for a LTE (4G) interface.
209	*/
210
211	/!*
212	Constructs an invalid configuration object.
213
214	\sa isValid()
215	*/
216	QNetworkConfiguration::QNetworkConfiguration()
217	: d (nullptr)
218	{
219	}
220
221	/!*
222	Creates a copy of the QNetworkConfiguration object contained in \a other.
223	*/
224	QNetworkConfiguration::QNetworkConfiguration(const QNetworkConfiguration &other)
225	: d (other.d)
226	{
227	}
228
229	/!*
230	Frees the resources associated with the QNetworkConfiguration object.
231	*/
232	QNetworkConfiguration::~QNetworkConfiguration()
233	{
234	}
235
236	/!*
237	Copies the content of the QNetworkConfiguration object contained in \a other into this one.
238	*/
239	QNetworkConfiguration &QNetworkConfiguration::operator=(const QNetworkConfiguration &other)
240	{
241	d = other.d;
242	return *this;
243	}
244
245	/!*
246	\fn void QNetworkConfiguration::swap(QNetworkConfiguration &other)
247	\since 5.0
248
249	Swaps this network configuration with \a other. This function is
250	very fast and never fails.
251	*/
252
253	/!*
254	Returns \c true, if this configuration is the same as the \a other
255	configuration given; otherwise returns \c false.
256	*/
257	bool QNetworkConfiguration::operator==(const QNetworkConfiguration &other) const
258	{
259	return (d == other.d);
260	}
261
262	/!*
263	\fn bool QNetworkConfiguration::operator!=(const QNetworkConfiguration &other) const
264
265	Returns \c true if this configuration is not the same as the \a other
266	configuration given; otherwise returns \c false.
267	*/
268
269	/!*
270	Returns the user visible name of this configuration.
271
272	The name may either be the name of the underlying access point or the
273	name for service network that this configuration represents.
274	*/
275	QString QNetworkConfiguration::name() const
276	{
277	if (!d)
278	return QString ();
279
280	QMutexLocker locker(&d ->mutex);
281	return d ->name;
282	}
283
284	/!*
285	Returns the unique and platform specific identifier for this network configuration;
286	otherwise an empty string.
287	*/
288	QString QNetworkConfiguration::identifier() const
289	{
290	if (!d)
291	return QString ();
292
293	QMutexLocker locker(&d ->mutex);
294	return d ->id;
295	}
296
297	/!*
298	Returns the type of the configuration.
299
300	A configuration can represent a single access point configuration or
301	a set of access point configurations. Such a set is called service network.
302	A configuration that is based on a service network can potentially support
303	roaming of network sessions.
304	*/
305	QNetworkConfiguration::Type QNetworkConfiguration::type() const
306	{
307	if (!d)
308	return QNetworkConfiguration::Invalid;
309
310	QMutexLocker locker(&d ->mutex);
311	return d ->type;
312	}
313
314	/!*
315	Returns \c true if this QNetworkConfiguration object is valid.
316	A configuration may become invalid if the user deletes the configuration or
317	the configuration was default-constructed.
318
319	The addition and removal of configurations can be monitored via the
320	QNetworkConfigurationManager.
321
322	\sa QNetworkConfigurationManager
323	*/
324	bool QNetworkConfiguration::isValid() const
325	{
326	if (!d)
327	return false;
328
329	QMutexLocker locker(&d ->mutex);
330	return d ->isValid;
331	}
332
333	/!*
334	\since 5.9
335
336	Returns the connect timeout of this configuration.
337
338	\sa setConnectTimeout
339	*/
340	int QNetworkConfiguration::connectTimeout() const
341	{
342	if (!d)
343	return QNetworkConfigurationPrivate::DefaultTimeout;
344	QMutexLocker locker(&d ->mutex);
345	return d ->timeout;
346	}
347
348	/!*
349	\since 5.9
350
351	Sets the connect timeout of this configuration to \a timeout.
352	This allows control of the timeout used by \c QAbstractSocket
353	to establish a connection.
354
355	\note \a timeout is in millisecond.
356
357	\warning This will have no effect if the bearer plugin doesn't have
358	the CanStartAndStopInterfaces capability.
359
360	Returns true if succeeded.
361
362	\sa connectTimeout
363	*/
364	bool QNetworkConfiguration::setConnectTimeout(int timeout)
365	{
366	if (!d)
367	return false;
368	QMutexLocker locker(&d ->mutex);
369	d ->timeout = timeout;
370	return true;
371	}
372
373	/!*
374	Returns the current state of the configuration.
375	*/
376	QNetworkConfiguration::StateFlags QNetworkConfiguration::state() const
377	{
378	if (!d)
379	return QNetworkConfiguration::Undefined;
380
381	QMutexLocker locker(&d ->mutex);
382	return d ->state;
383	}
384
385	/!*
386	Returns the purpose of this configuration.
387
388	The purpose field may be used to programmatically determine the
389	purpose of a configuration. Such information is usually part of the
390	access point or service network meta data.
391	*/
392	QNetworkConfiguration::Purpose QNetworkConfiguration::purpose() const
393	{
394	if (!d)
395	return QNetworkConfiguration::UnknownPurpose;
396
397	QMutexLocker locker(&d ->mutex);
398	return d ->purpose;
399	}
400
401	/!*
402	Returns \c true if this configuration supports roaming; otherwise false.
403	*/
404	bool QNetworkConfiguration::isRoamingAvailable() const
405	{
406	if (!d)
407	return false;
408
409	QMutexLocker locker(&d ->mutex);
410	return d ->roamingSupported;
411	}
412
413	/!*
414	Returns all sub configurations of this network configuration in priority order. The first sub
415	configuration in the list has the highest priority.
416
417	Only network configurations of type \l ServiceNetwork can have children. Otherwise this
418	function returns an empty list.
419	*/
420	QList<QNetworkConfiguration> QNetworkConfiguration::children() const
421	{
422	return {};
423	}
424
425	/!*
426	Returns the type of bearer used by this network configuration.
427
428	If the bearer type is \l {QNetworkConfiguration::BearerUnknown}{unknown} the bearerTypeName()
429	function can be used to retrieve a textural type name for the bearer.
430
431	An invalid network configuration always returns the BearerUnknown value.
432
433	\sa bearerTypeName(), bearerTypeFamily()
434	*/
435	QNetworkConfiguration::BearerType QNetworkConfiguration::bearerType() const
436	{
437	if (!isValid())
438	return BearerUnknown;
439
440	QMutexLocker locker(&d ->mutex);
441	return d ->bearerType;
442	}
443
444	/!*
445	\since 5.2
446
447	Returns the bearer type family used by this network configuration.
448	The following table lists how bearerType() values map to
449	bearerTypeFamily() values:
450
451	\table
452	\header
453	\li bearer type
454	\li bearer type family
455	\row
456	\li BearerUnknown, Bearer2G, BearerEthernet, BearerWLAN,
457	BearerBluetooth
458	\li (same type)
459	\row
460	\li BearerCDMA2000, BearerEVDO, BearerWCDMA, BearerHSPA, Bearer3G
461	\li Bearer3G
462	\row
463	\li BearerWiMAX, BearerLTE, Bearer4G
464	\li Bearer4G
465	\endtable
466
467	An invalid network configuration always returns the BearerUnknown value.
468
469	\sa bearerType(), bearerTypeName()
470	*/
471	QNetworkConfiguration::BearerType QNetworkConfiguration::bearerTypeFamily() const
472	{
473	QNetworkConfiguration::BearerType type = bearerType();
474	switch (type) {
475	case QNetworkConfiguration::BearerUnknown: // fallthrough
476	case QNetworkConfiguration::Bearer2G: // fallthrough
477	case QNetworkConfiguration::BearerEthernet: // fallthrough
478	case QNetworkConfiguration::BearerWLAN: // fallthrough
479	case QNetworkConfiguration::BearerBluetooth:
480	return type;
481	case QNetworkConfiguration::BearerCDMA2000: // fallthrough
482	case QNetworkConfiguration::BearerEVDO: // fallthrough
483	case QNetworkConfiguration::BearerWCDMA: // fallthrough
484	case QNetworkConfiguration::BearerHSPA: // fallthrough
485	case QNetworkConfiguration::Bearer3G:
486	return QNetworkConfiguration::Bearer3G;
487	case QNetworkConfiguration::BearerWiMAX: // fallthrough
488	case QNetworkConfiguration::BearerLTE: // fallthrough
489	case QNetworkConfiguration::Bearer4G:
490	return QNetworkConfiguration::Bearer4G;
491	default:
492	qWarning() << "unknown bearer type" << type;
493	return QNetworkConfiguration::BearerUnknown;
494	}
495	}
496	/!*
497	Returns the type of bearer used by this network configuration as a string.
498
499	The string is not translated and therefore cannot be shown to the user. The subsequent table
500	shows the fixed mappings between BearerType and the bearer type name for known types. If the
501	BearerType is unknown this function may return additional information if it is available;
502	otherwise an empty string will be returned.
503
504	\table
505	\header
506	\li BearerType
507	\li Value
508	\row
509	\li BearerUnknown
510	\li The session is based on an unknown or unspecified bearer type. The value of the
511	string returned describes the bearer type.
512	\row
513	\li BearerEthernet
514	\li Ethernet
515	\row
516	\li BearerWLAN
517	\li WLAN
518	\row
519	\li Bearer2G
520	\li 2G
521	\row
522	\li Bearer3G
523	\li 3G
524	\row
525	\li Bearer4G
526	\li 4G
527	\row
528	\li BearerCDMA2000
529	\li CDMA2000
530	\row
531	\li BearerWCDMA
532	\li WCDMA
533	\row
534	\li BearerHSPA
535	\li HSPA
536	\row
537	\li BearerBluetooth
538	\li Bluetooth
539	\row
540	\li BearerWiMAX
541	\li WiMAX
542	\row
543	\li BearerEVDO
544	\li EVDO
545	\row
546	\li BearerLTE
547	\li LTE
548	\endtable
549
550	This function returns an empty string if this is an invalid configuration, a network
551	configuration of type \l QNetworkConfiguration::ServiceNetwork or
552	\l QNetworkConfiguration::UserChoice.
553
554	\sa bearerType(), bearerTypeFamily()
555	*/
556	QString QNetworkConfiguration::bearerTypeName() const
557	{
558	if (!isValid())
559	return QString ();
560
561	QMutexLocker locker(&d ->mutex);
562
563	if (d ->type == QNetworkConfiguration::ServiceNetwork \|\|
564	d ->type == QNetworkConfiguration::UserChoice)
565	return QString ();
566
567	switch (d ->bearerType) {
568	case BearerEthernet:
569	return QStringLiteral("Ethernet");
570	case BearerWLAN:
571	return QStringLiteral("WLAN");
572	case Bearer2G:
573	return QStringLiteral("2G");
574	case Bearer3G:
575	return QStringLiteral("3G");
576	case Bearer4G:
577	return QStringLiteral("4G");
578	case BearerCDMA2000:
579	return QStringLiteral("CDMA2000");
580	case BearerWCDMA:
581	return QStringLiteral("WCDMA");
582	case BearerHSPA:
583	return QStringLiteral("HSPA");
584	case BearerBluetooth:
585	return QStringLiteral("Bluetooth");
586	case BearerWiMAX:
587	return QStringLiteral("WiMAX");
588	case BearerEVDO:
589	return QStringLiteral("EVDO");
590	case BearerLTE:
591	return QStringLiteral("LTE");
592	case BearerUnknown:
593	break;
594	}
595	return QStringLiteral("Unknown");
596	}
597
598	QT_END_NAMESPACE
599
600	#endif
601

source code of qtbase/src/network/bearer/qnetworkconfiguration.cpp