IdentifiantMot de passe
Loading...
Mot de passe oublié ?Je m'inscris ! (gratuit)

QSharedMemory Class

The QSharedMemory class provides access to a shared memory segment.

Article lu   fois.

L'auteur

Liens sociaux

Viadeo Twitter Facebook Share on Google+   

QSharedMemory Class

  • Header: QSharedMemory

  • CMake:

    find_package(Qt6 REQUIRED COMPONENTS Core)

    target_link_libraries(mytarget PRIVATE Qt6::Core)

  • qmake: QT += core

  • Inherits: QObject

Detailed Description

QSharedMemory provides access to a shared memory segment by multiple threads and processes. It also provides a way for a single thread or process to lock the memory for exclusive access.

When using this class, be aware of the following platform differences:

  • Windows: QSharedMemory does not "own" the shared memory segment. When all threads or processes that have an instance of QSharedMemory attached to a particular shared memory segment have either destroyed their instance of QSharedMemory or exited, the Windows kernel releases the shared memory segment automatically.

  • Unix: QSharedMemory "owns" the shared memory segment. When the last thread or process that has an instance of QSharedMemory attached to a particular shared memory segment detaches from the segment by destroying its instance of QSharedMemory, the Unix kernel release the shared memory segment. But if that last thread or process crashes without running the QSharedMemory destructor, the shared memory segment survives the crash.

  • HP-UX: Only one attach to a shared memory segment is allowed per process. This means that QSharedMemory should not be used across multiple threads in the same process in HP-UX.

  • Apple platforms: Sandboxed applications (including apps shipped through the Apple App Store) require the use of POSIX shared memory (instead of System V shared memory), which adds a number of limitations, including:

    • The key must be in the form <application group identifier>/<custom identifier>, as documented here and here.

    • The key length is limited to 30 characters.

    • On process exit, the named shared memory entries are not cleaned up, so restarting the application and re-creating the shared memory under the same name will fail. To work around this, fall back to attaching to the existing shared memory entry:

       
      Sélectionnez
      QSharedMemory shm("DEVTEAMID.app-group/shared");
      if (!shm.create(42) &amp;&amp; shm.error() == QSharedMemory::AlreadyExists)
          shm.attach();

    Qt for iOS comes with support for POSIX shared memory out of the box. With Qt for macOS an additional configure flag must be added when building Qt to enable the feature. To enable the feature pass -feature-ipc_posix Note that the pre-built Qt libraries for macOS available through the Qt installer do not include this feature.

Remember to lock the shared memory with lock() before reading from or writing to the shared memory, and remember to release the lock with unlock() after you are done.

QSharedMemory automatically destroys the shared memory segment when the last instance of QSharedMemory is detached from the segment, and no references to the segment remain.

QSharedMemory changes the key in a Qt-specific way, unless otherwise specified. Interoperation with non-Qt applications is achieved by first creating a default shared memory with QSharedMemory() and then setting a native key with setNativeKey(). When using native keys, shared memory is not protected against multiple accesses on it (for example, unable to lock()) and a user-defined mechanism should be used to achieve such protection.

Member Type Documentation

 

enum QSharedMemory::AccessMode

Constant

Value

Description

QSharedMemory::ReadOnly

0

The shared memory segment is read-only. Writing to the shared memory segment is not allowed. An attempt to write to a shared memory segment created with ReadOnly causes the program to abort.

QSharedMemory::ReadWrite

1

Reading and writing the shared memory segment are both allowed.

enum QSharedMemory::SharedMemoryError

Constant

Value

Description

QSharedMemory::NoError

0

No error occurred.

QSharedMemory::PermissionDenied

1

The operation failed because the caller didn't have the required permissions.

QSharedMemory::InvalidSize

2

A create operation failed because the requested size was invalid.

QSharedMemory::KeyError

3

The operation failed because of an invalid key.

QSharedMemory::AlreadyExists

4

A create() operation failed because a shared memory segment with the specified key already existed.

QSharedMemory::NotFound

5

An attach() failed because a shared memory segment with the specified key could not be found.

QSharedMemory::LockError

6

The attempt to lock() the shared memory segment failed because create() or attach() failed and returned false, or because a system error occurred in QSystemSemaphore::acquire().

QSharedMemory::OutOfResources

7

A create() operation failed because there was not enough memory available to fill the request.

QSharedMemory::UnknownError

8

Something else happened and it was bad.

Member Function Documentation

 

QSharedMemory::QSharedMemory(const QString &key, QObject *parent = nullptr)

Constructs a shared memory object with the given parent and with its key set to key. Because its key is set, its create() and attach() functions can be called.

See Also

See also setKey(), create(), attach()

QSharedMemory::QSharedMemory(QObject *parent = nullptr)

This function overloads QSharedMemory().

Constructs a shared memory object with the given parent. The shared memory object's key is not set by the constructor, so the shared memory object does not have an underlying shared memory segment attached. The key must be set with setKey() or setNativeKey() before create() or attach() can be used.

See Also

See also setKey()

[virtual] QSharedMemory::~QSharedMemory()

The destructor clears the key, which forces the shared memory object to detach from its underlying shared memory segment. If this shared memory object is the last one connected to the shared memory segment, the detach() operation destroys the shared memory segment.

See Also

See also detach(), isAttached()

bool QSharedMemory::attach(QSharedMemory::AccessMode mode = ReadWrite)

Attempts to attach the process to the shared memory segment identified by the key that was passed to the constructor or to a call to setKey() or setNativeKey(). The access mode is ReadWrite by default. It can also be ReadOnly. Returns true if the attach operation is successful. If false is returned, call error() to determine which error occurred. After attaching the shared memory segment, a pointer to the shared memory can be obtained by calling data().

See Also

See also isAttached(), detach(), create()

const void *QSharedMemory::constData() const

Returns a const pointer to the contents of the shared memory segment, if one is attached. Otherwise it returns null. Remember to lock the shared memory with lock() before reading from or writing to the shared memory, and remember to release the lock with unlock() after you are done.

See Also

See also attach(), create()

bool QSharedMemory::create(qsizetype size, QSharedMemory::AccessMode mode = ReadWrite)

Creates a shared memory segment of size bytes with the key passed to the constructor, set with setKey() or set with setNativeKey(), then attaches to the new shared memory segment with the given access mode and returns true. If a shared memory segment identified by the key already exists, the attach operation is not performed and false is returned. When the return value is false, call error() to determine which error occurred.

See Also

See also error()

void *QSharedMemory::data()

Returns a pointer to the contents of the shared memory segment, if one is attached. Otherwise it returns null. Remember to lock the shared memory with lock() before reading from or writing to the shared memory, and remember to release the lock with unlock() after you are done.

See Also

See also attach()

const void *QSharedMemory::data() const

This function overloads data().

bool QSharedMemory::detach()

Detaches the process from the shared memory segment. If this was the last process attached to the shared memory segment, then the shared memory segment is released by the system, i.e., the contents are destroyed. The function returns true if it detaches the shared memory segment. If it returns false, it usually means the segment either isn't attached, or it is locked by another process.

See Also

See also attach(), isAttached()

QSharedMemory::SharedMemoryError QSharedMemory::error() const

Returns a value indicating whether an error occurred, and, if so, which error it was.

See Also

See also errorString()

QString QSharedMemory::errorString() const

Returns a text description of the last error that occurred. If error() returns an error value, call this function to get a text string that describes the error.

See Also

See also error()

bool QSharedMemory::isAttached() const

Returns true if this process is attached to the shared memory segment.

See Also

See also attach(), detach()

QString QSharedMemory::key() const

Returns the key assigned with setKey() to this shared memory, or a null key if no key has been assigned, or if the segment is using a nativeKey(). The key is the identifier used by Qt applications to identify the shared memory segment.

You can find the native, platform specific, key used by the operating system by calling nativeKey().

See Also

See also setKey(), setNativeKey()

bool QSharedMemory::lock()

This is a semaphore that locks the shared memory segment for access by this process and returns true. If another process has locked the segment, this function blocks until the lock is released. Then it acquires the lock and returns true. If this function returns false, it means that you have ignored a false return from create() or attach(), that you have set the key with setNativeKey() or that QSystemSemaphore::acquire() failed due to an unknown system error.

See Also

QString QSharedMemory::nativeKey() const

Returns the native, platform specific, key for this shared memory object. The native key is the identifier used by the operating system to identify the shared memory segment.

You can use the native key to access shared memory segments that have not been created by Qt, or to grant shared memory access to non-Qt applications.

See Also

See also setKey(), setNativeKey()

void QSharedMemory::setKey(const QString &key)

Sets the platform independent key for this shared memory object. If key is the same as the current key, the function returns without doing anything.

You can call key() to retrieve the platform independent key. Internally, QSharedMemory converts this key into a platform specific key. If you instead call nativeKey(), you will get the platform specific, converted key.

If the shared memory object is attached to an underlying shared memory segment, it will detach from it before setting the new key. This function does not do an attach().

See Also

See also key(), nativeKey(), isAttached()

void QSharedMemory::setNativeKey(const QString &key)

Sets the native, platform specific, key for this shared memory object. If key is the same as the current native key, the function returns without doing anything. If all you want is to assign a key to a segment, you should call setKey() instead.

You can call nativeKey() to retrieve the native key. If a native key has been assigned, calling key() will return a null string.

If the shared memory object is attached to an underlying shared memory segment, it will detach from it before setting the new key. This function does not do an attach().

The application will not be portable if you set a native key.

See Also

See also nativeKey(), key(), isAttached()

qsizetype QSharedMemory::size() const

Returns the size of the attached shared memory segment. If no shared memory segment is attached, 0 is returned.

The size of the segment may be larger than the requested size that was passed to create().

See Also

See also create(), attach()

bool QSharedMemory::unlock()

Releases the lock on the shared memory segment and returns true, if the lock is currently held by this process. If the segment is not locked, or if the lock is held by another process, nothing happens and false is returned.

See Also

See also lock()

Vous avez aimé ce tutoriel ? Alors partagez-le en cliquant sur les boutons suivants : Viadeo Twitter Facebook Share on Google+