// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only #include "qthreadstorage.h" #include "qthread.h" #include "qthread_p.h" #include "qmutex.h" #include QT_BEGIN_NAMESPACE // #define THREADSTORAGE_DEBUG #ifdef THREADSTORAGE_DEBUG # define DEBUG_MSG qtsDebug # include # include void qtsDebug(const char *fmt, ...) { va_list va; va_start(va, fmt); fprintf(stderr, "QThreadStorage: "); vfprintf(stderr, fmt, va); fprintf(stderr, "\n"); va_end(va); } #else # define DEBUG_MSG if (false)qDebug #endif Q_CONSTINIT static QBasicMutex destructorsMutex; typedef QList DestructorMap; Q_GLOBAL_STATIC(DestructorMap, destructors) QThreadStorageData::QThreadStorageData(void (*func)(void *)) { QMutexLocker locker(&destructorsMutex); DestructorMap *destr = destructors(); if (!destr) { /* the destructors vector has already been destroyed, yet a new QThreadStorage is being allocated. this can only happen during global destruction, at which point we assume that there is only one thread. in order to keep QThreadStorage working, we need somewhere to store the data, best place we have in this situation is at the tail of the current thread's tls vector. the destructor is ignored, since we have no where to store it, and no way to actually call it. */ QThreadData *data = QThreadData::current(); id = data->tls.size(); DEBUG_MSG("QThreadStorageData: Allocated id %d, destructor %p cannot be stored", id, func); return; } for (id = 0; id < destr->size(); id++) { if (destr->at(id) == nullptr) break; } if (id == destr->size()) { destr->append(func); } else { (*destr)[id] = func; } DEBUG_MSG("QThreadStorageData: Allocated id %d, destructor %p", id, func); } QThreadStorageData::~QThreadStorageData() { DEBUG_MSG("QThreadStorageData: Released id %d", id); QMutexLocker locker(&destructorsMutex); if (destructors()) (*destructors())[id] = nullptr; } void **QThreadStorageData::get() const { QThreadData *data = QThreadData::current(); if (!data) { qWarning("QThreadStorage::get: QThreadStorage can only be used with threads started with QThread"); return nullptr; } QList &tls = data->tls; if (tls.size() <= id) tls.resize(id + 1); void **v = &tls[id]; DEBUG_MSG("QThreadStorageData: Returning storage %d, data %p, for thread %p", id, *v, data->thread.loadRelaxed()); return *v ? v : nullptr; } void **QThreadStorageData::set(void *p) { QThreadData *data = QThreadData::current(); if (!data) { qWarning("QThreadStorage::set: QThreadStorage can only be used with threads started with QThread"); return nullptr; } QList &tls = data->tls; if (tls.size() <= id) tls.resize(id + 1); void *&value = tls[id]; // delete any previous data if (value != nullptr) { DEBUG_MSG("QThreadStorageData: Deleting previous storage %d, data %p, for thread %p", id, value, data->thread.loadRelaxed()); QMutexLocker locker(&destructorsMutex); DestructorMap *destr = destructors(); void (*destructor)(void *) = destr ? destr->value(id) : nullptr; locker.unlock(); void *q = value; value = nullptr; if (destructor) destructor(q); } // store new data value = p; DEBUG_MSG("QThreadStorageData: Set storage %d for thread %p to %p", id, data->thread.loadRelaxed(), p); return &value; } void QThreadStorageData::finish(void **p) { QList *tls = reinterpret_cast *>(p); if (!tls || tls->isEmpty() || !destructors()) return; // nothing to do DEBUG_MSG("QThreadStorageData: Destroying storage for thread %p", QThread::currentThread()); while (!tls->isEmpty()) { void *&value = tls->last(); void *q = value; value = nullptr; int i = tls->size() - 1; tls->resize(i); if (!q) { // data already deleted continue; } QMutexLocker locker(&destructorsMutex); void (*destructor)(void *) = destructors()->value(i); locker.unlock(); if (!destructor) { if (QThread::currentThread()) qWarning("QThreadStorage: Thread %p exited after QThreadStorage %d destroyed", QThread::currentThread(), i); continue; } destructor(q); //crash here might mean the thread exited after qthreadstorage was destroyed if (tls->size() > i) { //re reset the tls in case it has been recreated by its own destructor. (*tls)[i] = nullptr; } } tls->clear(); } /*! \class QThreadStorage \inmodule QtCore \brief The QThreadStorage class provides per-thread data storage. \threadsafe \ingroup thread QThreadStorage is a template class that provides per-thread data storage. The setLocalData() function stores a single thread-specific value for the calling thread. The data can be accessed later using localData(). The hasLocalData() function allows the programmer to determine if data has previously been set using the setLocalData() function. This is also useful for lazy initialization. If T is a pointer type, QThreadStorage takes ownership of the data (which must be created on the heap with \c new) and deletes it when the thread exits, either normally or via termination. For example, the following code uses QThreadStorage to store a single cache for each thread that calls the cacheObject() and removeFromCache() functions. The cache is automatically deleted when the calling thread exits. \snippet threads/threads.cpp 7 \snippet threads/threads.cpp 8 \snippet threads/threads.cpp 9 \section1 Caveats \list \li The QThreadStorage destructor does not delete per-thread data. QThreadStorage only deletes per-thread data when the thread exits or when setLocalData() is called multiple times. \li QThreadStorage can be used to store data for the \c main() thread. QThreadStorage deletes all data set for the \c main() thread when QApplication is destroyed, regardless of whether or not the \c main() thread has actually finished. \endlist \sa QThread */ /*! \fn template QThreadStorage::QThreadStorage() Constructs a new per-thread data storage object. */ /*! \fn template QThreadStorage::~QThreadStorage() Destroys the per-thread data storage object. Note: The per-thread data stored is not deleted. Any data left in QThreadStorage is leaked. Make sure that all threads using QThreadStorage have exited before deleting the QThreadStorage. \sa hasLocalData() */ /*! \fn template bool QThreadStorage::hasLocalData() const If T is a pointer type, returns \c true if the calling thread has non-zero data available. If T is a value type, returns whether the data has already been constructed by calling setLocalData or localData. \sa localData() */ /*! \fn template T &QThreadStorage::localData() Returns a reference to the data that was set by the calling thread. If no data has been set, this will create a default constructed instance of type T. \sa hasLocalData() */ /*! \fn template const T QThreadStorage::localData() const \overload Returns a copy of the data that was set by the calling thread. \sa hasLocalData() */ /*! \fn template void QThreadStorage::setLocalData(T data) Sets the local data for the calling thread to \a data. It can be accessed later using the localData() functions. If T is a pointer type, QThreadStorage takes ownership of the data and deletes it automatically either when the thread exits (either normally or via termination) or when setLocalData() is called again. \sa localData(), hasLocalData() */ QT_END_NAMESPACE