boost/interprocess/sync/windows/sync_utils.hpp
////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2012. 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_DETAIL_SYNC_UTILS_HPP #define BOOST_INTERPROCESS_DETAIL_SYNC_UTILS_HPP #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/workaround.hpp> #include <boost/interprocess/detail/win32_api.hpp> #include <boost/interprocess/sync/spin/mutex.hpp> #include <boost/interprocess/exceptions.hpp> #include <boost/interprocess/sync/scoped_lock.hpp> #include <boost/interprocess/sync/windows/winapi_semaphore_wrapper.hpp> #include <boost/interprocess/sync/windows/winapi_mutex_wrapper.hpp> //Shield against external warnings #include <boost/interprocess/detail/config_external_begin.hpp> #include <boost/container/map.hpp> #include <boost/interprocess/detail/config_external_end.hpp> #include <boost/container/flat_map.hpp> #include <cstddef> namespace boost { namespace interprocess { namespace ipcdetail { inline bool bytes_to_str(const void *mem, const std::size_t mem_length, char *out_str, std::size_t &out_length) { const std::size_t need_mem = mem_length*2+1; if(out_length < need_mem){ out_length = need_mem; return false; } const char Characters [] = { '0', '1', '2', '3', '4', '5', '6', '7' , '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; std::size_t char_counter = 0; const char *buf = (const char *)mem; for(std::size_t i = 0; i != mem_length; ++i){ out_str[char_counter++] = Characters[(buf[i]&0xF0)>>4]; out_str[char_counter++] = Characters[(buf[i]&0x0F)]; } out_str[char_counter] = 0; return true; } inline bool bytes_to_str(const void *mem, const std::size_t mem_length, wchar_t *out_str, std::size_t &out_length) { const std::size_t need_mem = mem_length*2+1; if(out_length < need_mem){ out_length = need_mem; return false; } const wchar_t Characters [] = { L'0', L'1', L'2', L'3', L'4', L'5', L'6', L'7' , L'8', L'9', L'A', L'B', L'C', L'D', L'E', L'F' }; std::size_t char_counter = 0; const char *buf = (const char *)mem; for(std::size_t i = 0; i != mem_length; ++i){ out_str[char_counter++] = Characters[(buf[i]&0xF0)>>4]; out_str[char_counter++] = Characters[(buf[i]&0x0F)]; } out_str[char_counter] = 0; return true; } class sync_id { public: typedef __int64 internal_type; sync_id() { winapi::query_performance_counter(&rand_); } explicit sync_id(internal_type val) { rand_ = val; } const internal_type &internal_pod() const { return rand_; } internal_type &internal_pod() { return rand_; } friend std::size_t hash_value(const sync_id &m) { return static_cast<std::size_t>(m.rand_); } friend bool operator==(const sync_id &l, const sync_id &r) { return l.rand_ == r.rand_; } friend bool operator<(const sync_id &l, const sync_id &r) { return l.rand_ < r.rand_; } private: internal_type rand_; }; class sync_handles { public: enum type { MUTEX, SEMAPHORE }; private: //key: id -> mapped: HANDLE. Hash map to allow efficient sync operations typedef boost::container::flat_map<sync_id, void*> id_map_type; //key: ordered address of the sync type -> iterator from id_map_type. Ordered map to allow closing handles when unmapping typedef boost::container::flat_map<const void*, id_map_type::iterator> addr_map_type; static const std::size_t LengthOfGlobal = sizeof("Global\\boost.ipc")-1; static const std::size_t StrSize = LengthOfGlobal + (sizeof(sync_id)*2+1); typedef char NameBuf[StrSize]; void fill_name(NameBuf &name, const sync_id &id) { const char *n = "Global\\boost.ipc"; std::size_t i = 0; do{ name[i] = n[i]; ++i; } while(n[i]); std::size_t len = sizeof(NameBuf) - LengthOfGlobal; bytes_to_str(&id.internal_pod(), sizeof(id.internal_pod()), &name[LengthOfGlobal], len); } void throw_if_error(void *hnd_val) { if(!hnd_val){ error_info err(static_cast<int>(winapi::get_last_error())); throw interprocess_exception(err); } } void* open_or_create_semaphore(const sync_id &id, unsigned int initial_count) { NameBuf name; fill_name(name, id); permissions unrestricted_security; unrestricted_security.set_unrestricted(); winapi_semaphore_wrapper sem_wrapper; bool created; sem_wrapper.open_or_create (name, (long)initial_count, winapi_semaphore_wrapper::MaxCount, unrestricted_security, created); throw_if_error(sem_wrapper.handle()); return sem_wrapper.release(); } void* open_or_create_mutex(const sync_id &id) { NameBuf name; fill_name(name, id); permissions unrestricted_security; unrestricted_security.set_unrestricted(); winapi_mutex_wrapper mtx_wrapper; mtx_wrapper.open_or_create(name, unrestricted_security); throw_if_error(mtx_wrapper.handle()); return mtx_wrapper.release(); } public: sync_handles() : num_handles_() {} ~sync_handles() { BOOST_ASSERT(num_handles_ == 0); //Sanity check that handle we don't leak handles } void *obtain_mutex(const sync_id &id, const void *mapping_address, bool *popen_created = 0) { id_map_type::value_type v(id, (void*)0); scoped_lock<spin_mutex> lock(mtx_); id_map_type::iterator it = umap_.insert(v).first; void *&hnd_val = it->second; if(!hnd_val){ BOOST_ASSERT(map_.find(mapping_address) == map_.end()); map_[mapping_address] = it; hnd_val = open_or_create_mutex(id); if(popen_created) *popen_created = true; ++num_handles_; } else if(popen_created){ BOOST_ASSERT(map_.find(mapping_address) != map_.end()); *popen_created = false; } return hnd_val; } void *obtain_semaphore(const sync_id &id, const void *mapping_address, unsigned int initial_count, bool *popen_created = 0) { id_map_type::value_type v(id, (void*)0); scoped_lock<spin_mutex> lock(mtx_); id_map_type::iterator it = umap_.insert(v).first; void *&hnd_val = it->second; if(!hnd_val){ BOOST_ASSERT(map_.find(mapping_address) == map_.end()); map_[mapping_address] = it; hnd_val = open_or_create_semaphore(id, initial_count); if(popen_created) *popen_created = true; ++num_handles_; } else if(popen_created){ BOOST_ASSERT(map_.find(mapping_address) != map_.end()); *popen_created = false; } return hnd_val; } void destroy_handle(const sync_id &id, const void *mapping_address) { scoped_lock<spin_mutex> lock(mtx_); id_map_type::iterator it = umap_.find(id); id_map_type::iterator itend = umap_.end(); if(it != itend){ winapi::close_handle(it->second); --num_handles_; std::size_t i = map_.erase(mapping_address); (void)i; BOOST_ASSERT(i == 1); //The entry should be there umap_.erase(it); } } void destroy_syncs_in_range(const void *addr, std::size_t size) { const void *low_id(addr); const void *hig_id(static_cast<const char*>(addr)+size); scoped_lock<spin_mutex> lock(mtx_); addr_map_type::iterator itlow(map_.lower_bound(low_id)), ithig(map_.lower_bound(hig_id)), it(itlow); for (; it != ithig; ++it){ id_map_type::iterator uit = it->second; void * const hnd = uit->second; umap_.erase(uit); int ret = winapi::close_handle(hnd); --num_handles_; BOOST_ASSERT(ret != 0); (void)ret; //Sanity check that handle was ok } map_.erase(itlow, ithig); } private: spin_mutex mtx_; id_map_type umap_; addr_map_type map_; std::size_t num_handles_; }; } //namespace ipcdetail { } //namespace interprocess { } //namespace boost { #include <boost/interprocess/detail/config_end.hpp> #endif //BOOST_INTERPROCESS_DETAIL_SYNC_UTILS_HPP