////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2011. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // See http://www.boost.org/libs/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_NAMED_UPGRADABLE_MUTEX_HPP #define BOOST_INTERPROCESS_NAMED_UPGRADABLE_MUTEX_HPP #if (defined _MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif #include #include #include #include #include #include #include #include #include #include //!\file //!Describes a named upgradable mutex class for inter-process synchronization namespace boost { namespace interprocess { /// @cond namespace ipcdetail{ class interprocess_tester; } /// @endcond class named_condition; //!A upgradable mutex with a global name, so it can be found from different //!processes. This mutex can't be placed in shared memory, and //!each process should have it's own named upgradable mutex. class named_upgradable_mutex { /// @cond //Non-copyable named_upgradable_mutex(); named_upgradable_mutex(const named_upgradable_mutex &); named_upgradable_mutex &operator=(const named_upgradable_mutex &); friend class named_condition; /// @endcond public: //!Creates a global upgradable mutex with a name. //!If the upgradable mutex can't be created throws interprocess_exception named_upgradable_mutex(create_only_t create_only, const char *name, const permissions &perm = permissions()); //!Opens or creates a global upgradable mutex with a name, and an initial count. //!If the upgradable mutex is created, this call is equivalent to //!named_upgradable_mutex(create_only_t, ...) //!If the upgradable mutex is already created, this call is equivalent to //!named_upgradable_mutex(open_only_t, ... ). named_upgradable_mutex(open_or_create_t open_or_create, const char *name, const permissions &perm = permissions()); //!Opens a global upgradable mutex with a name if that upgradable mutex //!is previously. //!created. If it is not previously created this function throws //!interprocess_exception. named_upgradable_mutex(open_only_t open_only, const char *name); //!Destroys *this and indicates that the calling process is finished using //!the resource. The destructor function will deallocate //!any system resources allocated by the system for use by this process for //!this resource. The resource can still be opened again calling //!the open constructor overload. To erase the resource from the system //!use remove(). ~named_upgradable_mutex(); //Exclusive locking //!Effects: The calling thread tries to obtain exclusive ownership of the mutex, //! and if another thread has exclusive, sharable or upgradable ownership of //! the mutex, it waits until it can obtain the ownership. //!Throws: interprocess_exception on error. void lock(); //!Effects: The calling thread tries to acquire exclusive ownership of the mutex //! without waiting. If no other thread has exclusive, sharable or upgradable //! ownership of the mutex this succeeds. //!Returns: If it can acquire exclusive ownership immediately returns true. //! If it has to wait, returns false. //!Throws: interprocess_exception on error. bool try_lock(); //!Effects: The calling thread tries to acquire exclusive ownership of the mutex //! waiting if necessary until no other thread has exclusive, sharable or //! upgradable ownership of the mutex or abs_time is reached. //!Returns: If acquires exclusive ownership, returns true. Otherwise returns false. //!Throws: interprocess_exception on error. bool timed_lock(const boost::posix_time::ptime &abs_time); //!Precondition: The thread must have exclusive ownership of the mutex. //!Effects: The calling thread releases the exclusive ownership of the mutex. //!Throws: An exception derived from interprocess_exception on error. void unlock(); //Sharable locking //!Effects: The calling thread tries to obtain sharable ownership of the mutex, //! and if another thread has exclusive ownership of the mutex, //! waits until it can obtain the ownership. //!Throws: interprocess_exception on error. void lock_sharable(); //!Effects: The calling thread tries to acquire sharable ownership of the mutex //! without waiting. If no other thread has exclusive ownership //! of the mutex this succeeds. //!Returns: If it can acquire sharable ownership immediately returns true. If it //! has to wait, returns false. //!Throws: interprocess_exception on error. bool try_lock_sharable(); //!Effects: The calling thread tries to acquire sharable ownership of the mutex //! waiting if necessary until no other thread has exclusive //! ownership of the mutex or abs_time is reached. //!Returns: If acquires sharable ownership, returns true. Otherwise returns false. //!Throws: interprocess_exception on error. bool timed_lock_sharable(const boost::posix_time::ptime &abs_time); //!Precondition: The thread must have sharable ownership of the mutex. //!Effects: The calling thread releases the sharable ownership of the mutex. //!Throws: An exception derived from interprocess_exception on error. void unlock_sharable(); //Upgradable locking //!Effects: The calling thread tries to obtain upgradable ownership of the mutex, //! and if another thread has exclusive or upgradable ownership of the mutex, //! waits until it can obtain the ownership. //!Throws: interprocess_exception on error. void lock_upgradable(); //!Effects: The calling thread tries to acquire upgradable ownership of the mutex //! without waiting. If no other thread has exclusive or upgradable ownership //! of the mutex this succeeds. //!Returns: If it can acquire upgradable ownership immediately returns true. //! If it has to wait, returns false. //!Throws: interprocess_exception on error. bool try_lock_upgradable(); //!Effects: The calling thread tries to acquire upgradable ownership of the mutex //! waiting if necessary until no other thread has exclusive or upgradable //! ownership of the mutex or abs_time is reached. //!Returns: If acquires upgradable ownership, returns true. Otherwise returns false. //!Throws: interprocess_exception on error. bool timed_lock_upgradable(const boost::posix_time::ptime &abs_time); //!Precondition: The thread must have upgradable ownership of the mutex. //!Effects: The calling thread releases the upgradable ownership of the mutex. //!Throws: An exception derived from interprocess_exception on error. void unlock_upgradable(); //Demotions //!Precondition: The thread must have exclusive ownership of the mutex. //!Effects: The thread atomically releases exclusive ownership and acquires //! upgradable ownership. This operation is non-blocking. //!Throws: An exception derived from interprocess_exception on error. void unlock_and_lock_upgradable(); //!Precondition: The thread must have exclusive ownership of the mutex. //!Effects: The thread atomically releases exclusive ownership and acquires //! sharable ownership. This operation is non-blocking. //!Throws: An exception derived from interprocess_exception on error. void unlock_and_lock_sharable(); //!Precondition: The thread must have upgradable ownership of the mutex. //!Effects: The thread atomically releases upgradable ownership and acquires //! sharable ownership. This operation is non-blocking. //!Throws: An exception derived from interprocess_exception on error. void unlock_upgradable_and_lock_sharable(); //Promotions //!Precondition: The thread must have upgradable ownership of the mutex. //!Effects: The thread atomically releases upgradable ownership and acquires //! exclusive ownership. This operation will block until all threads with //! sharable ownership release it. //!Throws: An exception derived from interprocess_exception on error. void unlock_upgradable_and_lock(); //!Precondition: The thread must have upgradable ownership of the mutex. //!Effects: The thread atomically releases upgradable ownership and tries to //! acquire exclusive ownership. This operation will fail if there are threads //! with sharable ownership, but it will maintain upgradable ownership. //!Returns: If acquires exclusive ownership, returns true. Otherwise returns false. //!Throws: An exception derived from interprocess_exception on error. bool try_unlock_upgradable_and_lock(); //!Precondition: The thread must have upgradable ownership of the mutex. //!Effects: The thread atomically releases upgradable ownership and tries to acquire //! exclusive ownership, waiting if necessary until abs_time. This operation will //! fail if there are threads with sharable ownership or timeout reaches, but it //! will maintain upgradable ownership. //!Returns: If acquires exclusive ownership, returns true. Otherwise returns false. //!Throws: An exception derived from interprocess_exception on error. bool timed_unlock_upgradable_and_lock(const boost::posix_time::ptime &abs_time); //!Precondition: The thread must have sharable ownership of the mutex. //!Effects: The thread atomically releases sharable ownership and tries to acquire //! exclusive ownership. This operation will fail if there are threads with sharable //! or upgradable ownership, but it will maintain sharable ownership. //!Returns: If acquires exclusive ownership, returns true. Otherwise returns false. //!Throws: An exception derived from interprocess_exception on error. bool try_unlock_sharable_and_lock(); bool try_unlock_sharable_and_lock_upgradable(); //!Erases a named upgradable mutex from the system. //!Returns false on error. Never throws. static bool remove(const char *name); /// @cond private: friend class ipcdetail::interprocess_tester; void dont_close_on_destruction(); interprocess_upgradable_mutex *mutex() const { return static_cast(m_shmem.get_user_address()); } ipcdetail::managed_open_or_create_impl m_shmem; typedef ipcdetail::named_creation_functor construct_func_t; /// @endcond }; /// @cond inline named_upgradable_mutex::~named_upgradable_mutex() {} inline named_upgradable_mutex::named_upgradable_mutex (create_only_t, const char *name, const permissions &perm) : m_shmem (create_only ,name ,sizeof(interprocess_upgradable_mutex) + ipcdetail::managed_open_or_create_impl:: ManagedOpenOrCreateUserOffset ,read_write ,0 ,construct_func_t(ipcdetail::DoCreate) ,perm) {} inline named_upgradable_mutex::named_upgradable_mutex (open_or_create_t, const char *name, const permissions &perm) : m_shmem (open_or_create ,name ,sizeof(interprocess_upgradable_mutex) + ipcdetail::managed_open_or_create_impl:: ManagedOpenOrCreateUserOffset ,read_write ,0 ,construct_func_t(ipcdetail::DoOpenOrCreate) ,perm) {} inline named_upgradable_mutex::named_upgradable_mutex (open_only_t, const char *name) : m_shmem (open_only ,name ,read_write ,0 ,construct_func_t(ipcdetail::DoOpen)) {} inline void named_upgradable_mutex::dont_close_on_destruction() { ipcdetail::interprocess_tester::dont_close_on_destruction(m_shmem); } inline void named_upgradable_mutex::lock() { this->mutex()->lock(); } inline void named_upgradable_mutex::unlock() { this->mutex()->unlock(); } inline bool named_upgradable_mutex::try_lock() { return this->mutex()->try_lock(); } inline bool named_upgradable_mutex::timed_lock (const boost::posix_time::ptime &abs_time) { if(abs_time == boost::posix_time::pos_infin){ this->lock(); return true; } return this->mutex()->timed_lock(abs_time); } inline void named_upgradable_mutex::lock_upgradable() { this->mutex()->lock_upgradable(); } inline void named_upgradable_mutex::unlock_upgradable() { this->mutex()->unlock_upgradable(); } inline bool named_upgradable_mutex::try_lock_upgradable() { return this->mutex()->try_lock_upgradable(); } inline bool named_upgradable_mutex::timed_lock_upgradable (const boost::posix_time::ptime &abs_time) { if(abs_time == boost::posix_time::pos_infin){ this->lock_upgradable(); return true; } return this->mutex()->timed_lock_upgradable(abs_time); } inline void named_upgradable_mutex::lock_sharable() { this->mutex()->lock_sharable(); } inline void named_upgradable_mutex::unlock_sharable() { this->mutex()->unlock_sharable(); } inline bool named_upgradable_mutex::try_lock_sharable() { return this->mutex()->try_lock_sharable(); } inline bool named_upgradable_mutex::timed_lock_sharable (const boost::posix_time::ptime &abs_time) { if(abs_time == boost::posix_time::pos_infin){ this->lock_sharable(); return true; } return this->mutex()->timed_lock_sharable(abs_time); } inline void named_upgradable_mutex::unlock_and_lock_upgradable() { this->mutex()->unlock_and_lock_upgradable(); } inline void named_upgradable_mutex::unlock_and_lock_sharable() { this->mutex()->unlock_and_lock_sharable(); } inline void named_upgradable_mutex::unlock_upgradable_and_lock_sharable() { this->mutex()->unlock_upgradable_and_lock_sharable(); } inline void named_upgradable_mutex::unlock_upgradable_and_lock() { this->mutex()->unlock_upgradable_and_lock(); } inline bool named_upgradable_mutex::try_unlock_upgradable_and_lock() { return this->mutex()->try_unlock_upgradable_and_lock(); } inline bool named_upgradable_mutex::timed_unlock_upgradable_and_lock (const boost::posix_time::ptime &abs_time) { return this->mutex()->timed_unlock_upgradable_and_lock(abs_time); } inline bool named_upgradable_mutex::try_unlock_sharable_and_lock() { return this->mutex()->try_unlock_sharable_and_lock(); } inline bool named_upgradable_mutex::try_unlock_sharable_and_lock_upgradable() { return this->mutex()->try_unlock_sharable_and_lock_upgradable(); } inline bool named_upgradable_mutex::remove(const char *name) { return shared_memory_object::remove(name); } /// @endcond } //namespace interprocess { } //namespace boost { #include #endif //BOOST_INTERPROCESS_NAMED_UPGRADABLE_MUTEX_HPP