boost/interprocess/detail/managed_open_or_create_impl.hpp
////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2006-2012. 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_MANAGED_OPEN_OR_CREATE_IMPL #define BOOST_INTERPROCESS_MANAGED_OPEN_OR_CREATE_IMPL #ifndef BOOST_CONFIG_HPP # include <boost/config.hpp> #endif # #if defined(BOOST_HAS_PRAGMA_ONCE) # pragma once #endif #include <boost/interprocess/detail/config_begin.hpp> #include <boost/interprocess/detail/os_thread_functions.hpp> #include <boost/interprocess/detail/os_file_functions.hpp> #include <boost/interprocess/creation_tags.hpp> #include <boost/interprocess/mapped_region.hpp> #include <boost/interprocess/detail/utilities.hpp> #include <boost/interprocess/detail/type_traits.hpp> #include <boost/interprocess/detail/atomic.hpp> #include <boost/interprocess/detail/interprocess_tester.hpp> #include <boost/interprocess/creation_tags.hpp> #include <boost/interprocess/detail/mpl.hpp> #include <boost/interprocess/permissions.hpp> #include <boost/container/detail/type_traits.hpp> //alignment_of, aligned_storage #include <boost/interprocess/sync/spin/wait.hpp> #include <boost/move/move.hpp> #include <boost/cstdint.hpp> namespace boost { namespace interprocess { #if !defined(BOOST_INTERPROCESS_DOXYGEN_INVOKED) namespace ipcdetail{ class interprocess_tester; } template<class DeviceAbstraction> struct managed_open_or_create_impl_device_id_t { typedef const char *type; }; #ifdef BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS class xsi_shared_memory_file_wrapper; class xsi_key; template<> struct managed_open_or_create_impl_device_id_t<xsi_shared_memory_file_wrapper> { typedef xsi_key type; }; #endif //BOOST_INTERPROCESS_XSI_SHARED_MEMORY_OBJECTS #endif //#ifndef BOOST_INTERPROCESS_DOXYGEN_INVOKED namespace ipcdetail { template <bool StoreDevice, class DeviceAbstraction> class managed_open_or_create_impl_device_holder { public: DeviceAbstraction &get_device() { static DeviceAbstraction dev; return dev; } const DeviceAbstraction &get_device() const { static DeviceAbstraction dev; return dev; } }; template <class DeviceAbstraction> class managed_open_or_create_impl_device_holder<true, DeviceAbstraction> { public: DeviceAbstraction &get_device() { return dev; } const DeviceAbstraction &get_device() const { return dev; } private: DeviceAbstraction dev; }; template<class DeviceAbstraction, std::size_t MemAlignment, bool FileBased, bool StoreDevice> class managed_open_or_create_impl : public managed_open_or_create_impl_device_holder<StoreDevice, DeviceAbstraction> { //Non-copyable BOOST_MOVABLE_BUT_NOT_COPYABLE(managed_open_or_create_impl) typedef typename managed_open_or_create_impl_device_id_t<DeviceAbstraction>::type device_id_t; typedef managed_open_or_create_impl_device_holder<StoreDevice, DeviceAbstraction> DevHolder; enum { UninitializedSegment, InitializingSegment, InitializedSegment, CorruptedSegment }; public: static const std::size_t ManagedOpenOrCreateUserOffset = ct_rounded_size < sizeof(boost::uint32_t) , MemAlignment ? (MemAlignment) : (::boost::container::container_detail::alignment_of < ::boost::container::container_detail::max_align_t >::value) >::value; managed_open_or_create_impl() {} managed_open_or_create_impl(create_only_t, const device_id_t & id, std::size_t size, mode_t mode, const void *addr, const permissions &perm) { priv_open_or_create ( DoCreate , id , size , mode , addr , perm , null_mapped_region_function()); } managed_open_or_create_impl(open_only_t, const device_id_t & id, mode_t mode, const void *addr) { priv_open_or_create ( DoOpen , id , 0 , mode , addr , permissions() , null_mapped_region_function()); } managed_open_or_create_impl(open_or_create_t, const device_id_t & id, std::size_t size, mode_t mode, const void *addr, const permissions &perm) { priv_open_or_create ( DoOpenOrCreate , id , size , mode , addr , perm , null_mapped_region_function()); } template <class ConstructFunc> managed_open_or_create_impl(create_only_t, const device_id_t & id, std::size_t size, mode_t mode, const void *addr, const ConstructFunc &construct_func, const permissions &perm) { priv_open_or_create (DoCreate , id , size , mode , addr , perm , construct_func); } template <class ConstructFunc> managed_open_or_create_impl(open_only_t, const device_id_t & id, mode_t mode, const void *addr, const ConstructFunc &construct_func) { priv_open_or_create ( DoOpen , id , 0 , mode , addr , permissions() , construct_func); } template <class ConstructFunc> managed_open_or_create_impl(open_or_create_t, const device_id_t & id, std::size_t size, mode_t mode, const void *addr, const ConstructFunc &construct_func, const permissions &perm) { priv_open_or_create ( DoOpenOrCreate , id , size , mode , addr , perm , construct_func); } managed_open_or_create_impl(BOOST_RV_REF(managed_open_or_create_impl) moved) { this->swap(moved); } managed_open_or_create_impl &operator=(BOOST_RV_REF(managed_open_or_create_impl) moved) { managed_open_or_create_impl tmp(boost::move(moved)); this->swap(tmp); return *this; } ~managed_open_or_create_impl() {} std::size_t get_user_size() const { return m_mapped_region.get_size() - ManagedOpenOrCreateUserOffset; } void *get_user_address() const { return static_cast<char*>(m_mapped_region.get_address()) + ManagedOpenOrCreateUserOffset; } std::size_t get_real_size() const { return m_mapped_region.get_size(); } void *get_real_address() const { return m_mapped_region.get_address(); } void swap(managed_open_or_create_impl &other) { this->m_mapped_region.swap(other.m_mapped_region); } bool flush() { return m_mapped_region.flush(); } const mapped_region &get_mapped_region() const { return m_mapped_region; } DeviceAbstraction &get_device() { return this->DevHolder::get_device(); } const DeviceAbstraction &get_device() const { return this->DevHolder::get_device(); } private: //These are templatized to allow explicit instantiations template<bool dummy> static void truncate_device(DeviceAbstraction &, offset_t, false_) {} //Empty template<bool dummy> static void truncate_device(DeviceAbstraction &dev, offset_t size, true_) { dev.truncate(size); } template<bool dummy> static bool check_offset_t_size(std::size_t , false_) { return true; } //Empty template<bool dummy> static bool check_offset_t_size(std::size_t size, true_) { return size == std::size_t(offset_t(size)); } //These are templatized to allow explicit instantiations template<bool dummy> static void create_device(DeviceAbstraction &dev, const device_id_t & id, std::size_t size, const permissions &perm, false_ file_like) { (void)file_like; DeviceAbstraction tmp(create_only, id, read_write, size, perm); tmp.swap(dev); } template<bool dummy> static void create_device(DeviceAbstraction &dev, const device_id_t & id, std::size_t, const permissions &perm, true_ file_like) { (void)file_like; DeviceAbstraction tmp(create_only, id, read_write, perm); tmp.swap(dev); } template <class ConstructFunc> inline void priv_open_or_create (create_enum_t type, const device_id_t & id, std::size_t size, mode_t mode, const void *addr, const permissions &perm, ConstructFunc construct_func) { typedef bool_<FileBased> file_like_t; (void)mode; bool created = false; bool ronly = false; bool cow = false; DeviceAbstraction dev; if(type != DoOpen){ //Check if the requested size is enough to build the managed metadata const std::size_t func_min_size = construct_func.get_min_size(); if( (std::size_t(-1) - ManagedOpenOrCreateUserOffset) < func_min_size || size < (func_min_size + ManagedOpenOrCreateUserOffset) ){ throw interprocess_exception(error_info(size_error)); } } //Check size can be represented by offset_t (used by truncate) if(type != DoOpen && !check_offset_t_size<FileBased>(size, file_like_t())){ throw interprocess_exception(error_info(size_error)); } if(type == DoOpen && mode == read_write){ DeviceAbstraction tmp(open_only, id, read_write); tmp.swap(dev); created = false; } else if(type == DoOpen && mode == read_only){ DeviceAbstraction tmp(open_only, id, read_only); tmp.swap(dev); created = false; ronly = true; } else if(type == DoOpen && mode == copy_on_write){ DeviceAbstraction tmp(open_only, id, read_only); tmp.swap(dev); created = false; cow = true; } else if(type == DoCreate){ create_device<FileBased>(dev, id, size, perm, file_like_t()); created = true; } else if(type == DoOpenOrCreate){ //This loop is very ugly, but brute force is sometimes better //than diplomacy. If someone knows how to open or create a //file and know if we have really created it or just open it //drop me a e-mail! bool completed = false; spin_wait swait; while(!completed){ try{ create_device<FileBased>(dev, id, size, perm, file_like_t()); created = true; completed = true; } catch(interprocess_exception &ex){ if(ex.get_error_code() != already_exists_error){ throw; } else{ try{ DeviceAbstraction tmp(open_only, id, read_write); dev.swap(tmp); created = false; completed = true; } catch(interprocess_exception &e){ if(e.get_error_code() != not_found_error){ throw; } } catch(...){ throw; } } } catch(...){ throw; } swait.yield(); } } if(created){ try{ //If this throws, we are lost truncate_device<FileBased>(dev, size, file_like_t()); //If the following throws, we will truncate the file to 1 mapped_region region(dev, read_write, 0, 0, addr); boost::uint32_t *patomic_word = 0; //avoid gcc warning patomic_word = static_cast<boost::uint32_t*>(region.get_address()); boost::uint32_t previous = atomic_cas32(patomic_word, InitializingSegment, UninitializedSegment); if(previous == UninitializedSegment){ try{ construct_func( static_cast<char*>(region.get_address()) + ManagedOpenOrCreateUserOffset , size - ManagedOpenOrCreateUserOffset, true); //All ok, just move resources to the external mapped region m_mapped_region.swap(region); } catch(...){ atomic_write32(patomic_word, CorruptedSegment); throw; } atomic_write32(patomic_word, InitializedSegment); } else if(previous == InitializingSegment || previous == InitializedSegment){ throw interprocess_exception(error_info(already_exists_error)); } else{ throw interprocess_exception(error_info(corrupted_error)); } } catch(...){ try{ truncate_device<FileBased>(dev, 1u, file_like_t()); } catch(...){ } throw; } } else{ if(FileBased){ offset_t filesize = 0; spin_wait swait; while(filesize == 0){ if(!get_file_size(file_handle_from_mapping_handle(dev.get_mapping_handle()), filesize)){ error_info err = system_error_code(); throw interprocess_exception(err); } swait.yield(); } if(filesize == 1){ throw interprocess_exception(error_info(corrupted_error)); } } mapped_region region(dev, ronly ? read_only : (cow ? copy_on_write : read_write), 0, 0, addr); boost::uint32_t *patomic_word = static_cast<boost::uint32_t*>(region.get_address()); boost::uint32_t value = atomic_read32(patomic_word); spin_wait swait; while(value == InitializingSegment || value == UninitializedSegment){ swait.yield(); value = atomic_read32(patomic_word); } if(value != InitializedSegment) throw interprocess_exception(error_info(corrupted_error)); construct_func( static_cast<char*>(region.get_address()) + ManagedOpenOrCreateUserOffset , region.get_size() - ManagedOpenOrCreateUserOffset , false); //All ok, just move resources to the external mapped region m_mapped_region.swap(region); } if(StoreDevice){ this->DevHolder::get_device() = boost::move(dev); } } friend void swap(managed_open_or_create_impl &left, managed_open_or_create_impl &right) { left.swap(right); } private: friend class interprocess_tester; void dont_close_on_destruction() { interprocess_tester::dont_close_on_destruction(m_mapped_region); } mapped_region m_mapped_region; }; } //namespace ipcdetail { } //namespace interprocess { } //namespace boost { #include <boost/interprocess/detail/config_end.hpp> #endif //#ifndef BOOST_INTERPROCESS_MANAGED_OPEN_OR_CREATE_IMPL