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#include "qnetworkinterface.h"
#include "qnetworkinterface_p.h"
#include "qdebug.h"
#include "qendian.h"
#ifndef QT_NO_NETWORKINTERFACE
QT_BEGIN_NAMESPACE
static QList<QNetworkInterfacePrivate *> postProcess(QList<QNetworkInterfacePrivate *> list)
{
// Some platforms report a netmask but don't report a broadcast address
// Go through all available addresses and calculate the broadcast address
// from the IP and the netmask
//
// This is an IPv4-only thing -- IPv6 has no concept of broadcasts
// The math is:
// broadcast = IP | ~netmask
QList<QNetworkInterfacePrivate *>::Iterator it = list.begin();
const QList<QNetworkInterfacePrivate *>::Iterator end = list.end();
for ( ; it != end; ++it) {
QList<QNetworkAddressEntry>::Iterator addr_it = (*it)->addressEntries.begin();
const QList<QNetworkAddressEntry>::Iterator addr_end = (*it)->addressEntries.end();
for ( ; addr_it != addr_end; ++addr_it) {
if (addr_it->ip().protocol() != QAbstractSocket::IPv4Protocol)
continue;
if (!addr_it->netmask().isNull() && addr_it->broadcast().isNull()) {
QHostAddress bcast = addr_it->ip();
bcast = QHostAddress(bcast.toIPv4Address() | ~addr_it->netmask().toIPv4Address());
addr_it->setBroadcast(bcast);
}
}
}
return list;
}
Q_GLOBAL_STATIC(QNetworkInterfaceManager, manager)
QNetworkInterfaceManager::QNetworkInterfaceManager()
{
}
QNetworkInterfaceManager::~QNetworkInterfaceManager()
{
}
QSharedDataPointer<QNetworkInterfacePrivate> QNetworkInterfaceManager::interfaceFromName(const QString &name)
{
QList<QSharedDataPointer<QNetworkInterfacePrivate> > interfaceList = allInterfaces();
QList<QSharedDataPointer<QNetworkInterfacePrivate> >::ConstIterator it = interfaceList.constBegin();
for ( ; it != interfaceList.constEnd(); ++it)
if ((*it)->name == name)
return *it;
return empty;
}
QSharedDataPointer<QNetworkInterfacePrivate> QNetworkInterfaceManager::interfaceFromIndex(int index)
{
QList<QSharedDataPointer<QNetworkInterfacePrivate> > interfaceList = allInterfaces();
QList<QSharedDataPointer<QNetworkInterfacePrivate> >::ConstIterator it = interfaceList.constBegin();
for ( ; it != interfaceList.constEnd(); ++it)
if ((*it)->index == index)
return *it;
return empty;
}
QList<QSharedDataPointer<QNetworkInterfacePrivate> > QNetworkInterfaceManager::allInterfaces()
{
QList<QNetworkInterfacePrivate *> list = postProcess(scan());
QList<QSharedDataPointer<QNetworkInterfacePrivate> > result;
foreach (QNetworkInterfacePrivate *ptr, list)
result << QSharedDataPointer<QNetworkInterfacePrivate>(ptr);
return result;
}
QString QNetworkInterfacePrivate::makeHwAddress(int len, uchar *data)
{
QString result;
for (int i = 0; i < len; ++i) {
if (i)
result += QLatin1Char(':');
char buf[3];
#if defined(Q_OS_WIN) && !defined(Q_OS_WINCE) && defined(_MSC_VER) && _MSC_VER >= 1400
sprintf_s(buf, 3, "%02hX", ushort(data[i]));
#else
sprintf(buf, "%02hX", ushort(data[i]));
#endif
result += QLatin1String(buf);
}
return result;
}
/*!
\class QNetworkAddressEntry
\brief The QNetworkAddressEntry class stores one IP address
supported by a network interface, along with its associated
netmask and broadcast address.
\since 4.2
\reentrant
\ingroup network
Each network interface can contain zero or more IP addresses, which
in turn can be associated with a netmask and/or a broadcast
address (depending on support from the operating system).
This class represents one such group.
*/
/*!
Constructs an empty QNetworkAddressEntry object.
*/
QNetworkAddressEntry::QNetworkAddressEntry()
: d(new QNetworkAddressEntryPrivate)
{
}
/*!
Constructs a QNetworkAddressEntry object that is a copy of the
object \a other.
*/
QNetworkAddressEntry::QNetworkAddressEntry(const QNetworkAddressEntry &other)
: d(new QNetworkAddressEntryPrivate(*other.d.data()))
{
}
/*!
Makes a copy of the QNetworkAddressEntry object \a other.
*/
QNetworkAddressEntry &QNetworkAddressEntry::operator=(const QNetworkAddressEntry &other)
{
*d.data() = *other.d.data();
return *this;
}
/*!
Destroys this QNetworkAddressEntry object.
*/
QNetworkAddressEntry::~QNetworkAddressEntry()
{
}
/*!
Returns true if this network address entry is the same as \a
other.
*/
bool QNetworkAddressEntry::operator==(const QNetworkAddressEntry &other) const
{
if (d == other.d) return true;
if (!d || !other.d) return false;
return d->address == other.d->address &&
d->netmask == other.d->netmask &&
d->broadcast == other.d->broadcast;
}
/*!
\fn bool QNetworkAddressEntry::operator!=(const QNetworkAddressEntry &other) const
Returns true if this network address entry is different from \a
other.
*/
/*!
This function returns one IPv4 or IPv6 address found, that was
found in a network interface.
*/
QHostAddress QNetworkAddressEntry::ip() const
{
return d->address;
}
/*!
Sets the IP address the QNetworkAddressEntry object contains to \a
newIp.
*/
void QNetworkAddressEntry::setIp(const QHostAddress &newIp)
{
d->address = newIp;
}
/*!
Returns the netmask associated with the IP address. The
netmask is expressed in the form of an IP address, such as
255.255.0.0.
For IPv6 addresses, the prefix length is converted to an address
where the number of bits set to 1 is equal to the prefix
length. For a prefix length of 64 bits (the most common value),
the netmask will be expressed as a QHostAddress holding the
address FFFF:FFFF:FFFF:FFFF::
\sa prefixLength()
*/
QHostAddress QNetworkAddressEntry::netmask() const
{
return d->netmask;
}
/*!
Sets the netmask that this QNetworkAddressEntry object contains to
\a newNetmask. Setting the netmask also sets the prefix length to
match the new netmask.
\sa setPrefixLength()
*/
void QNetworkAddressEntry::setNetmask(const QHostAddress &newNetmask)
{
if (newNetmask.protocol() != ip().protocol()) {
d->netmask = QNetmaskAddress();
return;
}
d->netmask.setAddress(newNetmask);
}
/*!
\since 4.5
Returns the prefix length of this IP address. The prefix length
matches the number of bits set to 1 in the netmask (see
netmask()). For IPv4 addresses, the value is between 0 and 32. For
IPv6 addresses, it's contained between 0 and 128 and is the
preferred form of representing addresses.
This function returns -1 if the prefix length could not be
determined (i.e., netmask() returns a null QHostAddress()).
\sa netmask()
*/
int QNetworkAddressEntry::prefixLength() const
{
return d->netmask.prefixLength();
}
/*!
\since 4.5
Sets the prefix length of this IP address to \a length. The value
of \a length must be valid for this type of IP address: between 0
and 32 for IPv4 addresses, between 0 and 128 for IPv6
addresses. Setting to any invalid value is equivalent to setting
to -1, which means "no prefix length".
Setting the prefix length also sets the netmask (see netmask()).
\sa setNetmask()
*/
void QNetworkAddressEntry::setPrefixLength(int length)
{
d->netmask.setPrefixLength(d->address.protocol(), length);
}
/*!
Returns the broadcast address associated with the IPv4
address and netmask. It can usually be derived from those two by
setting to 1 the bits of the IP address where the netmask contains
a 0. (In other words, by bitwise-OR'ing the IP address with the
inverse of the netmask)
This member is always empty for IPv6 addresses, since the concept
of broadcast has been abandoned in that system in favor of
multicast. In particular, the group of hosts corresponding to all
the nodes in the local network can be reached by the "all-nodes"
special multicast group (address FF02::1).
*/
QHostAddress QNetworkAddressEntry::broadcast() const
{
return d->broadcast;
}
/*!
Sets the broadcast IP address of this QNetworkAddressEntry object
to \a newBroadcast.
*/
void QNetworkAddressEntry::setBroadcast(const QHostAddress &newBroadcast)
{
d->broadcast = newBroadcast;
}
/*!
\class QNetworkInterface
\brief The QNetworkInterface class provides a listing of the host's IP
addresses and network interfaces.
\since 4.2
\reentrant
\ingroup network
QNetworkInterface represents one network interface attached to the
host where the program is being run. Each network interface may
contain zero or more IP addresses, each of which is optionally
associated with a netmask and/or a broadcast address. The list of
such trios can be obtained with addressEntries(). Alternatively,
when the netmask or the broadcast addresses aren't necessary, use
the allAddresses() convenience function to obtain just the IP
addresses.
QNetworkInterface also reports the interface's hardware address with
hardwareAddress().
Not all operating systems support reporting all features. Only the
IPv4 addresses are guaranteed to be listed by this class in all
platforms. In particular, IPv6 address listing is only supported
on Windows XP and more recent versions, Linux, MacOS X and the
BSDs.
\sa QNetworkAddressEntry
*/
/*!
\enum QNetworkInterface::InterfaceFlag
Specifies the flags associated with this network interface. The
possible values are:
\value IsUp the network interface is active
\value IsRunning the network interface has resources
allocated
\value CanBroadcast the network interface works in
broadcast mode
\value IsLoopBack the network interface is a loopback
interface: that is, it's a virtual
interface whose destination is the
host computer itself
\value IsPointToPoint the network interface is a
point-to-point interface: that is,
there is one, single other address
that can be directly reached by it.
\value CanMulticast the network interface supports
multicasting
Note that one network interface cannot be both broadcast-based and
point-to-point.
*/
/*!
Constructs an empty network interface object.
*/
QNetworkInterface::QNetworkInterface()
: d(0)
{
}
/*!
Frees the resources associated with the QNetworkInterface object.
*/
QNetworkInterface::~QNetworkInterface()
{
}
/*!
Creates a copy of the QNetworkInterface object contained in \a
other.
*/
QNetworkInterface::QNetworkInterface(const QNetworkInterface &other)
: d(other.d)
{
}
/*!
Copies the contents of the QNetworkInterface object contained in \a
other into this one.
*/
QNetworkInterface &QNetworkInterface::operator=(const QNetworkInterface &other)
{
d = other.d;
return *this;
}
/*!
Returns true if this QNetworkInterface object contains valid
information about a network interface.
*/
bool QNetworkInterface::isValid() const
{
return !name().isEmpty();
}
/*!
\since 4.5
Returns the interface system index, if known. This is an integer
assigned by the operating system to identify this interface and it
generally doesn't change. It matches the scope ID field in IPv6
addresses.
If the index isn't known, this function returns 0.
*/
int QNetworkInterface::index() const
{
return d ? d->index : 0;
}
/*!
Returns the name of this network interface. On Unix systems, this
is a string containing the type of the interface and optionally a
sequence number, such as "eth0", "lo" or "pcn0". On Windows, it's
an internal ID that cannot be changed by the user.
*/
QString QNetworkInterface::name() const
{
return d ? d->name : QString();
}
/*!
\since 4.5
Returns the human-readable name of this network interface on
Windows, such as "Local Area Connection", if the name could be
determined. If it couldn't, this function returns the same as
name(). The human-readable name is a name that the user can modify
in the Windows Control Panel, so it may change during the
execution of the program.
On Unix, this function currently always returns the same as
name(), since Unix systems don't store a configuration for
human-readable names.
*/
QString QNetworkInterface::humanReadableName() const
{
return d ? !d->friendlyName.isEmpty() ? d->friendlyName : name() : QString();
}
/*!
Returns the flags associated with this network interface.
*/
QNetworkInterface::InterfaceFlags QNetworkInterface::flags() const
{
return d ? d->flags : InterfaceFlags(0);
}
/*!
Returns the low-level hardware address for this interface. On
Ethernet interfaces, this will be a MAC address in string
representation, separated by colons.
Other interface types may have other types of hardware
addresses. Implementations should not depend on this function
returning a valid MAC address.
*/
QString QNetworkInterface::hardwareAddress() const
{
return d ? d->hardwareAddress : QString();
}
/*!
Returns the list of IP addresses that this interface possesses
along with their associated netmasks and broadcast addresses.
If the netmask or broadcast address information is not necessary,
you can call the allAddresses() function to obtain just the IP
addresses.
*/
QList<QNetworkAddressEntry> QNetworkInterface::addressEntries() const
{
return d ? d->addressEntries : QList<QNetworkAddressEntry>();
}
/*!
Returns a QNetworkInterface object for the interface named \a
name. If no such interface exists, this function returns an
invalid QNetworkInterface object.
\sa name(), isValid()
*/
QNetworkInterface QNetworkInterface::interfaceFromName(const QString &name)
{
QNetworkInterface result;
result.d = manager()->interfaceFromName(name);
return result;
}
/*!
Returns a QNetworkInterface object for the interface whose internal
ID is \a index. Network interfaces have a unique identifier called
the "interface index" to distinguish it from other interfaces on
the system. Often, this value is assigned progressively and
interfaces being removed and then added again get a different
value every time.
This index is also found in the IPv6 address' scope ID field.
*/
QNetworkInterface QNetworkInterface::interfaceFromIndex(int index)
{
QNetworkInterface result;
result.d = manager()->interfaceFromIndex(index);
return result;
}
/*!
Returns a listing of all the network interfaces found on the host
machine.
*/
QList<QNetworkInterface> QNetworkInterface::allInterfaces()
{
QList<QSharedDataPointer<QNetworkInterfacePrivate> > privs = manager()->allInterfaces();
QList<QNetworkInterface> result;
foreach (const QSharedDataPointer<QNetworkInterfacePrivate> &p, privs) {
QNetworkInterface item;
item.d = p;
result << item;
}
return result;
}
/*!
This convenience function returns all IP addresses found on the
host machine. It is equivalent to calling addressEntries() on all the
objects returned by allInterfaces() to obtain lists of QHostAddress
objects then calling QHostAddress::ip() on each of these.
*/
QList<QHostAddress> QNetworkInterface::allAddresses()
{
QList<QSharedDataPointer<QNetworkInterfacePrivate> > privs = manager()->allInterfaces();
QList<QHostAddress> result;
foreach (const QSharedDataPointer<QNetworkInterfacePrivate> &p, privs) {
foreach (const QNetworkAddressEntry &entry, p->addressEntries)
result += entry.ip();
}
return result;
}
#ifndef QT_NO_DEBUG_STREAM
static inline QDebug flagsDebug(QDebug debug, QNetworkInterface::InterfaceFlags flags)
{
if (flags & QNetworkInterface::IsUp)
debug.nospace() << "IsUp ";
if (flags & QNetworkInterface::IsRunning)
debug.nospace() << "IsRunning ";
if (flags & QNetworkInterface::CanBroadcast)
debug.nospace() << "CanBroadcast ";
if (flags & QNetworkInterface::IsLoopBack)
debug.nospace() << "IsLoopBack ";
if (flags & QNetworkInterface::IsPointToPoint)
debug.nospace() << "IsPointToPoint ";
if (flags & QNetworkInterface::CanMulticast)
debug.nospace() << "CanMulticast ";
return debug.nospace();
}
static inline QDebug operator<<(QDebug debug, const QNetworkAddressEntry &entry)
{
debug.nospace() << "(address = " << entry.ip();
if (!entry.netmask().isNull())
debug.nospace() << ", netmask = " << entry.netmask();
if (!entry.broadcast().isNull())
debug.nospace() << ", broadcast = " << entry.broadcast();
debug.nospace() << ')';
return debug.space();
}
QDebug operator<<(QDebug debug, const QNetworkInterface &networkInterface)
{
debug.nospace() << "QNetworkInterface(name = " << networkInterface.name()
<< ", hardware address = " << networkInterface.hardwareAddress()
<< ", flags = ";
flagsDebug(debug, networkInterface.flags());
#if defined(Q_CC_RVCT)
// RVCT gets confused with << networkInterface.addressEntries(), reason unknown.
debug.nospace() << ")\n";
#else
debug.nospace() << ", entries = " << networkInterface.addressEntries()
<< ")\n";
#endif
return debug.space();
}
#endif
QT_END_NAMESPACE
#endif // QT_NO_NETWORKINTERFACE