////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2009. 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_XSI_XSI_NAMED_MUTEX_HPP #define BOOST_INTERPROCESS_XSI_XSI_NAMED_MUTEX_HPP #include #include #if defined(BOOST_INTERPROCESS_WINDOWS) #error "This header can't be used in Windows operating systems" #endif #include #include #include #include #include #include #include #include #include #include #include #include //!\file //!Describes a class representing a xsi-based named_mutex. namespace boost { namespace interprocess { //!A class that wraps a XSI (System V)-based named semaphore //!that undoes the operation if the process crashes. class xsi_named_mutex { /// @cond //Non-copyable and non-assignable xsi_named_mutex(xsi_named_mutex &); xsi_named_mutex &operator=(xsi_named_mutex &); /// @endcond public: BOOST_INTERPROCESS_MOVABLE_BUT_NOT_COPYABLE(xsi_named_mutex) //!Default constructor. //!Represents an empty xsi_named_mutex. xsi_named_mutex(); //!Tries to create a new XSI-based named mutex with a key obtained from a call to ftok (with path //!"path" and id "id"), and permissions "perm". //!If the named mutex previously exists, it tries to open it. //!Otherwise throws an error. xsi_named_mutex(open_or_create_t, const char *path, boost::uint8_t id, int perm = 0666) { this->priv_open_or_create(detail::DoOpenOrCreate, path, id, perm); } //!Moves the ownership of "moved"'s named mutex to *this. //!After the call, "moved" does not represent any named mutex //!Does not throw xsi_named_mutex(BOOST_INTERPROCESS_RV_REF(xsi_named_mutex) moved) { this->swap(moved); } //!Moves the ownership of "moved"'s named mutex to *this. //!After the call, "moved" does not represent any named mutex. //!Does not throw xsi_named_mutex &operator=(BOOST_INTERPROCESS_RV_REF(xsi_named_mutex) moved) { xsi_named_mutex tmp(boost::interprocess::move(moved)); this->swap(tmp); return *this; } //!Swaps two xsi_named_mutex. Does not throw void swap(xsi_named_mutex &other); //!Destroys *this. The named mutex is still valid after //!destruction. use remove() to destroy the named mutex. ~xsi_named_mutex(); //!Returns the path used to construct the //!named mutex. const char *get_path() const; //!Returns access //!permissions int get_permissions() const; //!Returns the mapping handle. //!Never throws mapping_handle_t get_mapping_handle() const; //!Erases a XSI-based named mutex from the system. //!Returns false on error. Never throws bool remove(); void lock(); void unlock(); /// @cond private: //!Closes a previously opened file mapping. Never throws. void priv_close(); //!Closes a previously opened file mapping. Never throws. bool priv_open_or_create( detail::create_enum_t type , const char *path , boost::uint8_t id , int perm); int m_semid; key_t m_key; boost::uint8_t m_id; int m_perm; std::string m_path; /// @endcond }; /// @cond inline xsi_named_mutex::xsi_named_mutex() : m_semid(-1), m_key(-1), m_id(0), m_perm(0), m_path() {} inline xsi_named_mutex::~xsi_named_mutex() { this->priv_close(); } inline const char *xsi_named_mutex::get_path() const { return m_path.c_str(); } inline void xsi_named_mutex::swap(xsi_named_mutex &other) { std::swap(m_key, other.m_key); std::swap(m_id, other.m_id); std::swap(m_semid, other.m_semid); std::swap(m_perm, other.m_perm); m_path.swap(other.m_path); } inline mapping_handle_t xsi_named_mutex::get_mapping_handle() const { mapping_handle_t mhnd = { m_semid, true}; return mhnd; } inline int xsi_named_mutex::get_permissions() const { return m_perm; } inline bool xsi_named_mutex::priv_open_or_create (detail::create_enum_t type, const char *path, boost::uint8_t id, int perm) { key_t key; if(path){ key = ::ftok(path, id); if(((key_t)-1) == key){ error_info err = system_error_code(); throw interprocess_exception(err); } } else{ key = IPC_PRIVATE; } perm &= 0x01FF; int semid; if(!xsi::simple_sem_open_or_create(key, 1, semid, perm)){ error_info err = system_error_code(); throw interprocess_exception(err); } m_perm = perm; m_semid = semid; m_path = path ? path : ""; m_id = id; m_key = key; return true; } inline void xsi_named_mutex::priv_close() { } inline void xsi_named_mutex::lock() { if(!xsi::simple_sem_op(m_semid, -1)){ error_info err = system_error_code(); throw interprocess_exception(err); } } inline void xsi_named_mutex::unlock() { bool success = xsi::simple_sem_op(m_semid, 1); (void)success; assert(success); } inline bool xsi_named_mutex::remove() { if(m_semid != -1){ int ret = ::semctl(m_semid, IPC_RMID, 0); if(-1 == ret) return false; //Now put it in default-constructed state m_semid = -1; m_key = -1; m_id = 0; m_perm = 0; m_path.clear(); } return false; } ///@endcond } //namespace interprocess { } //namespace boost { #include #endif //BOOST_INTERPROCESS_XSI_XSI_NAMED_MUTEX_HPP