boost/interprocess/sync/named_upgradable_mutex.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_named_upgradable_mutex_HPP
#define BOOST_INTERPROCESS_named_upgradable_mutex_HPP
#if (defined _MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif
#include <boost/interprocess/detail/config_begin.hpp>
#include <boost/interprocess/detail/workaround.hpp>
#include <boost/interprocess/creation_tags.hpp>
#include <boost/interprocess/exceptions.hpp>
#include <boost/interprocess/shared_memory_object.hpp>
#include <boost/interprocess/detail/managed_open_or_create_impl.hpp>
#include <boost/interprocess/sync/interprocess_upgradable_mutex.hpp>
#include <boost/interprocess/detail/posix_time_types_wrk.hpp>
#include <boost/interprocess/sync/shm/named_creation_functor.hpp>
#include <boost/interprocess/permissions.hpp>
//!\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.
//!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();
//!Precondition: The thread must have sharable ownership of the mutex.
//!Effects: The thread atomically releases sharable ownership and tries to acquire
//! upgradable ownership. This operation will fail if there are threads with sharable
//! or upgradable ownership, but it will maintain sharable ownership.
//!Returns: If acquires upgradable ownership, returns true. Otherwise returns false.
//!Throws: An exception derived from interprocess_exception on error.
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<interprocess_upgradable_mutex*>(m_shmem.get_user_address()); }
typedef ipcdetail::managed_open_or_create_impl<shared_memory_object, 0, true, false> open_create_impl_t;
open_create_impl_t m_shmem;
typedef ipcdetail::named_creation_functor<interprocess_upgradable_mutex> 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) +
open_create_impl_t::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) +
open_create_impl_t::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)
{ 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)
{ 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)
{ 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 <boost/interprocess/detail/config_end.hpp>
#endif //BOOST_INTERPROCESS_named_upgradable_mutex_HPP