// // Thread_POSIX.h // // Library: Foundation // Package: Threading // Module: Thread // // Definition of the ThreadImpl class for POSIX Threads. // // Copyright (c) 2004-2007, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_Thread_POSIX_INCLUDED #define Foundation_Thread_POSIX_INCLUDED #include "Poco/Foundation.h" #include "Poco/Runnable.h" #include "Poco/SignalHandler.h" #include "Poco/Event.h" #include "Poco/RefCountedObject.h" #include "Poco/AutoPtr.h" #include "Poco/SharedPtr.h" #include // must be limits.h (not ) for PTHREAD_STACK_MIN on Solaris #include #if !defined(POCO_NO_SYS_SELECT_H) #include #endif #include #if defined(POCO_VXWORKS) #include #endif namespace Poco { class Foundation_API ThreadImpl { public: typedef pthread_t TIDImpl; typedef void (*Callable)(void*); enum Priority { PRIO_LOWEST_IMPL, PRIO_LOW_IMPL, PRIO_NORMAL_IMPL, PRIO_HIGH_IMPL, PRIO_HIGHEST_IMPL }; enum Policy { POLICY_DEFAULT_IMPL = SCHED_OTHER }; ThreadImpl(); ~ThreadImpl(); TIDImpl tidImpl() const; void setNameImpl(const std::string& threadName); std::string getNameImpl() const; std::string getOSThreadNameImpl(); /// Returns the thread's name, expressed as an operating system /// specific name value. Return empty string if thread is not running. /// For test used only. void setPriorityImpl(int prio); int getPriorityImpl() const; void setOSPriorityImpl(int prio, int policy = SCHED_OTHER); int getOSPriorityImpl() const; static int getMinOSPriorityImpl(int policy); static int getMaxOSPriorityImpl(int policy); void setStackSizeImpl(int size); int getStackSizeImpl() const; void setSignalMaskImpl(uint32_t sigMask); void startImpl(SharedPtr pTarget); void joinImpl(); bool joinImpl(long milliseconds); bool isRunningImpl() const; static void yieldImpl(); static ThreadImpl* currentImpl(); static TIDImpl currentTidImpl(); static long currentOsTidImpl(); bool setAffinityImpl(int coreID); int getAffinityImpl() const; protected: static void* runnableEntry(void* pThread); static int mapPrio(int prio, int policy = SCHED_OTHER); static int reverseMapPrio(int osPrio, int policy = SCHED_OTHER); private: class CurrentThreadHolder { public: CurrentThreadHolder() { if (pthread_key_create(&_key, NULL)) throw SystemException("cannot allocate thread context key"); } ~CurrentThreadHolder() { pthread_key_delete(_key); } ThreadImpl* get() const { return reinterpret_cast(pthread_getspecific(_key)); } void set(ThreadImpl* pThread) { pthread_setspecific(_key, pThread); } private: pthread_key_t _key; }; struct ThreadData: public RefCountedObject { ThreadData(): thread(0), prio(PRIO_NORMAL_IMPL), osPrio(), policy(SCHED_OTHER), done(false), stackSize(POCO_THREAD_STACK_SIZE), started(false), joined(false) { #if defined(POCO_VXWORKS) // This workaround is for VxWorks 5.x where // pthread_init() won't properly initialize the thread. std::memset(&thread, 0, sizeof(thread)); #endif } SharedPtr pRunnableTarget; pthread_t thread; int prio; int osPrio; int policy; Event done; std::size_t stackSize; std::atomic started; std::atomic joined; std::string name; int affinity; mutable FastMutex mutex; }; AutoPtr _pData; static CurrentThreadHolder _currentThreadHolder; #if defined(POCO_OS_FAMILY_UNIX) && !defined(POCO_VXWORKS) SignalHandler::JumpBufferVec _jumpBufferVec; friend class SignalHandler; #endif }; // // inlines // inline int ThreadImpl::getPriorityImpl() const { return _pData->prio; } inline int ThreadImpl::getOSPriorityImpl() const { return _pData->osPrio; } inline bool ThreadImpl::isRunningImpl() const { FastMutex::ScopedLock l(_pData->mutex); return !_pData->pRunnableTarget.isNull(); } inline void ThreadImpl::yieldImpl() { sched_yield(); } inline int ThreadImpl::getStackSizeImpl() const { return static_cast(_pData->stackSize); } inline ThreadImpl::TIDImpl ThreadImpl::tidImpl() const { return _pData->thread; } } // namespace Poco #endif // Foundation_Thread_POSIX_INCLUDED