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386 lines
13 KiB
C++
386 lines
13 KiB
C++
//////////////////////////////////////////////////////////////////////////////
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//
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// (C) Copyright Ion Gaztanaga 2010-2012. Distributed under the Boost
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// Software License, Version 1.0. (See accompanying file
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// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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//
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// See http://www.boost.org/libs/interprocess for documentation.
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//
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//////////////////////////////////////////////////////////////////////////////
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#ifndef BOOST_INTERPROCESS_ROBUST_EMULATION_HPP
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#define BOOST_INTERPROCESS_ROBUST_EMULATION_HPP
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#ifndef BOOST_CONFIG_HPP
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# include <boost/config.hpp>
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#endif
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#
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#if defined(BOOST_HAS_PRAGMA_ONCE)
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#pragma once
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#endif
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#include <boost/interprocess/detail/config_begin.hpp>
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#include <boost/interprocess/detail/workaround.hpp>
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#include <boost/interprocess/sync/interprocess_mutex.hpp>
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#include <boost/interprocess/sync/interprocess_recursive_mutex.hpp>
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#include <boost/interprocess/detail/atomic.hpp>
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#include <boost/interprocess/detail/os_file_functions.hpp>
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#include <boost/interprocess/detail/shared_dir_helpers.hpp>
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#include <boost/interprocess/detail/intermodule_singleton.hpp>
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#include <boost/interprocess/detail/portable_intermodule_singleton.hpp>
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#include <boost/interprocess/exceptions.hpp>
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#include <boost/interprocess/sync/spin/wait.hpp>
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#include <boost/interprocess/sync/detail/common_algorithms.hpp>
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#include <string>
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namespace boost{
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namespace interprocess{
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namespace ipcdetail{
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namespace robust_emulation_helpers {
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template<class T>
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class mutex_traits
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{
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public:
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static void take_ownership(T &t)
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{ t.take_ownership(); }
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};
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inline void remove_if_can_lock_file(const char *file_path)
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{
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file_handle_t fhnd = open_existing_file(file_path, read_write);
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if(fhnd != invalid_file()){
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bool acquired;
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if(try_acquire_file_lock(fhnd, acquired) && acquired){
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delete_file(file_path);
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}
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close_file(fhnd);
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}
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}
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inline const char *robust_lock_subdir_path()
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{ return "robust"; }
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inline const char *robust_lock_prefix()
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{ return "lck"; }
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inline void robust_lock_path(std::string &s)
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{
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get_shared_dir(s);
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s += "/";
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s += robust_lock_subdir_path();
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}
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inline void create_and_get_robust_lock_file_path(std::string &s, OS_process_id_t pid)
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{
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intermodule_singleton_helpers::create_tmp_subdir_and_get_pid_based_filepath
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(robust_lock_subdir_path(), robust_lock_prefix(), pid, s);
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}
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//This class will be a intermodule_singleton. The constructor will create
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//a lock file, the destructor will erase it.
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//
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//We should take in care that another process might be erasing unlocked
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//files while creating this one, so there are some race conditions we must
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//take in care to guarantee some robustness.
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class robust_mutex_lock_file
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{
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file_handle_t fd;
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std::string fname;
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public:
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robust_mutex_lock_file()
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{
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permissions p;
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p.set_unrestricted();
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//Remove old lock files of other processes
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remove_old_robust_lock_files();
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//Create path and obtain lock file path for this process
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create_and_get_robust_lock_file_path(fname, get_current_process_id());
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//Now try to open or create the lock file
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fd = create_or_open_file(fname.c_str(), read_write, p);
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//If we can't open or create it, then something unrecoverable has happened
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if(fd == invalid_file()){
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throw interprocess_exception(other_error, "Robust emulation robust_mutex_lock_file constructor failed: could not open or create file");
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}
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//Now we must take in care a race condition with another process
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//calling "remove_old_robust_lock_files()". No other threads from this
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//process will be creating the lock file because intermodule_singleton
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//guarantees this. So let's loop acquiring the lock and checking if we
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//can't exclusively create the file (if the file is erased by another process
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//then this exclusive open would fail). If the file can't be exclusively created
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//then we have correctly open/create and lock the file. If the file can
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//be exclusively created, then close previous locked file and try again.
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while(1){
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bool acquired;
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if(!try_acquire_file_lock(fd, acquired) || !acquired ){
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throw interprocess_exception(other_error, "Robust emulation robust_mutex_lock_file constructor failed: try_acquire_file_lock");
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}
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//Creating exclusively must fail with already_exists_error
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//to make sure we've locked the file and no one has
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//deleted it between creation and locking
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file_handle_t fd2 = create_new_file(fname.c_str(), read_write, p);
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if(fd2 != invalid_file()){
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close_file(fd);
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fd = fd2;
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continue;
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}
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//If exclusive creation fails with expected error go ahead
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else if(error_info(system_error_code()).get_error_code() == already_exists_error){ //must already exist
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//Leak descriptor to mantain the file locked until the process dies
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break;
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}
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//If exclusive creation fails with unexpected error throw an unrecoverable error
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else{
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close_file(fd);
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throw interprocess_exception(other_error, "Robust emulation robust_mutex_lock_file constructor failed: create_file filed with unexpected error");
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}
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}
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}
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~robust_mutex_lock_file()
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{
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//The destructor is guaranteed by intermodule_singleton to be
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//executed serialized between all threads from current process,
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//so we just need to close and unlink the file.
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close_file(fd);
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//If some other process deletes the file before us after
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//closing it there should not be any problem.
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delete_file(fname.c_str());
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}
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private:
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//This functor is execute for all files in the lock file directory
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class other_process_lock_remover
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{
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public:
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void operator()(const char *filepath, const char *filename)
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{
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std::string pid_str;
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//If the lock file is not our own lock file, then try to do the cleanup
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if(!intermodule_singleton_helpers::check_if_filename_complies_with_pid
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(filename, robust_lock_prefix(), get_current_process_id(), pid_str)){
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remove_if_can_lock_file(filepath);
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}
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}
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};
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bool remove_old_robust_lock_files()
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{
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std::string refcstrRootDirectory;
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robust_lock_path(refcstrRootDirectory);
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return for_each_file_in_dir(refcstrRootDirectory.c_str(), other_process_lock_remover());
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}
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};
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} //namespace robust_emulation_helpers {
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//This is the mutex class. Mutex should follow mutex concept
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//with an additonal "take_ownership()" function to take ownership of the
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//mutex when robust_spin_mutex determines the previous owner was dead.
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template<class Mutex>
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class robust_spin_mutex
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{
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public:
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static const boost::uint32_t correct_state = 0;
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static const boost::uint32_t fixing_state = 1;
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static const boost::uint32_t broken_state = 2;
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typedef robust_emulation_helpers::mutex_traits<Mutex> mutex_traits_t;
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robust_spin_mutex();
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void lock();
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bool try_lock();
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bool timed_lock(const boost::posix_time::ptime &abs_time);
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void unlock();
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void consistent();
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bool previous_owner_dead();
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private:
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static const unsigned int spin_threshold = 100u;
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bool lock_own_unique_file();
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bool robust_check();
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bool check_if_owner_dead_and_take_ownership_atomically();
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bool is_owner_dead(boost::uint32_t own);
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void owner_to_filename(boost::uint32_t own, std::string &s);
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//The real mutex
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Mutex mtx;
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//The pid of the owner
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volatile boost::uint32_t owner;
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//The state of the mutex (correct, fixing, broken)
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volatile boost::uint32_t state;
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};
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template<class Mutex>
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inline robust_spin_mutex<Mutex>::robust_spin_mutex()
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: mtx(), owner(get_invalid_process_id()), state(correct_state)
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{}
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template<class Mutex>
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inline void robust_spin_mutex<Mutex>::lock()
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{ try_based_lock(*this); }
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::try_lock()
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{
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//Same as lock() but without spinning
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if(atomic_read32(&this->state) == broken_state){
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throw interprocess_exception(lock_error, "Broken id");
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}
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if(!this->lock_own_unique_file()){
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throw interprocess_exception(lock_error, "Broken id");
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}
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if (mtx.try_lock()){
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atomic_write32(&this->owner, get_current_process_id());
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return true;
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}
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else{
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if(!this->robust_check()){
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return false;
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}
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else{
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return true;
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}
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}
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::timed_lock
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(const boost::posix_time::ptime &abs_time)
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{ return try_based_timed_lock(*this, abs_time); }
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template<class Mutex>
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inline void robust_spin_mutex<Mutex>::owner_to_filename(boost::uint32_t own, std::string &s)
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{
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robust_emulation_helpers::create_and_get_robust_lock_file_path(s, own);
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::robust_check()
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{
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//If the old owner was dead, and we've acquired ownership, mark
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//the mutex as 'fixing'. This means that a "consistent()" is needed
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//to avoid marking the mutex as "broken" when the mutex is unlocked.
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if(!this->check_if_owner_dead_and_take_ownership_atomically()){
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return false;
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}
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atomic_write32(&this->state, fixing_state);
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return true;
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::check_if_owner_dead_and_take_ownership_atomically()
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{
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boost::uint32_t cur_owner = get_current_process_id();
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boost::uint32_t old_owner = atomic_read32(&this->owner), old_owner2;
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//The cas loop guarantees that only one thread from this or another process
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//will succeed taking ownership
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do{
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//Check if owner is dead
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if(!this->is_owner_dead(old_owner)){
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return false;
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}
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//If it's dead, try to mark this process as the owner in the owner field
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old_owner2 = old_owner;
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old_owner = atomic_cas32(&this->owner, cur_owner, old_owner);
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}while(old_owner2 != old_owner);
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//If success, we fix mutex internals to assure our ownership
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mutex_traits_t::take_ownership(mtx);
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return true;
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::is_owner_dead(boost::uint32_t own)
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{
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//If owner is an invalid id, then it's clear it's dead
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if(own == (boost::uint32_t)get_invalid_process_id()){
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return true;
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}
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//Obtain the lock filename of the owner field
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std::string file;
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this->owner_to_filename(own, file);
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//Now the logic is to open and lock it
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file_handle_t fhnd = open_existing_file(file.c_str(), read_write);
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if(fhnd != invalid_file()){
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//If we can open the file, lock it.
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bool acquired;
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if(try_acquire_file_lock(fhnd, acquired) && acquired){
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//If locked, just delete the file
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delete_file(file.c_str());
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close_file(fhnd);
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return true;
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}
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//If not locked, the owner is suppossed to be still alive
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close_file(fhnd);
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}
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else{
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//If the lock file does not exist then the owner is dead (a previous cleanup)
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//function has deleted the file. If there is another reason, then this is
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//an unrecoverable error
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if(error_info(system_error_code()).get_error_code() == not_found_error){
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return true;
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}
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}
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return false;
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}
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template<class Mutex>
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inline void robust_spin_mutex<Mutex>::consistent()
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{
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//This function supposes the previous state was "fixing"
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//and the current process holds the mutex
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if(atomic_read32(&this->state) != fixing_state &&
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atomic_read32(&this->owner) != (boost::uint32_t)get_current_process_id()){
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throw interprocess_exception(lock_error, "Broken id");
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}
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//If that's the case, just update mutex state
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atomic_write32(&this->state, correct_state);
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::previous_owner_dead()
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{
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//Notifies if a owner recovery has been performed in the last lock()
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return atomic_read32(&this->state) == fixing_state;
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}
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template<class Mutex>
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inline void robust_spin_mutex<Mutex>::unlock()
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{
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//If in "fixing" state, unlock and mark the mutex as unrecoverable
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//so next locks will fail and all threads will be notified that the
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//data protected by the mutex was not recoverable.
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if(atomic_read32(&this->state) == fixing_state){
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atomic_write32(&this->state, broken_state);
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}
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//Write an invalid owner to minimize pid reuse possibility
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atomic_write32(&this->owner, get_invalid_process_id());
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mtx.unlock();
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}
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template<class Mutex>
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inline bool robust_spin_mutex<Mutex>::lock_own_unique_file()
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{
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//This function forces instantiation of the singleton
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robust_emulation_helpers::robust_mutex_lock_file* dummy =
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&ipcdetail::intermodule_singleton
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<robust_emulation_helpers::robust_mutex_lock_file>::get();
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return dummy != 0;
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}
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} //namespace ipcdetail{
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} //namespace interprocess{
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} //namespace boost{
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#include <boost/interprocess/detail/config_end.hpp>
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#endif
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