generic-library/poco
1
0
Fork 0
mirror of https://github.com/pocoproject/poco.git synced 2025-01-06 00:31:10 +01:00
Code Issues Projects Releases Wiki Activity
cd22900a37
poco/Foundation/include/Poco/Mutex.h
Kari Argillander 708a5d8307
RFC: Remove Windows CE support (#4342) 
* Remove _WIN32_WCE macro

Poco now use C++17 and Windows CE does not support it and VS2017 does
also not support it so we can just remove Windows CE code. First remove
all macro usages from our own files.

* Remove WinCE support from build files

Poco now use C++17 and Windows CE does not support it and VS2017 does
also not support it so we can just remove Windows CE code. Remove all
references from build systems / scripts.

* Remove Windows CE related source and header files

Poco now use C++17 and Windows CE does not support it and VS2017 does
also not support it so we can just remove Windows CE code. First remove
all macro usages from our own files.

* Remove wcelibcex folder

Poco now use C++17 and Windows CE does not support it and VS2017 does
also not support it so we can just remove Windows CE code. First remove
all macro usages from our own files.

* Remove rest Windows CE mentions

There where some Windows CE mentions left. Remove those.

* Update Windows CE documentation

We should keep documentation some time so people can find reason for
remove.

---------

Co-authored-by: Kari Argillander <kari.argillander@fidelix.com>
2023-12-14 00:25:04 +01:00

375 lines
8.5 KiB
C++
Raw Blame History

//
// Mutex.h
//
// Library: Foundation
// Package: Threading
// Module: Mutex
//
// Definition of the Mutex and FastMutex classes.
//
// Copyright (c) 2004-2008, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_Mutex_INCLUDED
#define Foundation_Mutex_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/Exception.h"
#include "Poco/ScopedLock.h"
#include "Poco/Timestamp.h"
#include <atomic>
#ifdef POCO_ENABLE_STD_MUTEX
#include "Poco/Mutex_STD.h"
#else
#if defined(POCO_OS_FAMILY_WINDOWS)
#include "Poco/Mutex_WIN32.h"
#elif defined(POCO_VXWORKS)
#include "Poco/Mutex_VX.h"
#else
#include "Poco/Mutex_POSIX.h"
#endif
#endif
namespace Poco {
class Foundation_API Mutex: private MutexImpl
/// A Mutex (mutual exclusion) is a synchronization
/// mechanism used to control access to a shared resource
/// in a concurrent (multithreaded) scenario.
/// Mutexes are recursive, that is, the same mutex can be
/// locked multiple times by the same thread (but, of course,
/// not by other threads).
/// Using the ScopedLock class is the preferred way to automatically
/// lock and unlock a mutex.
{
public:
using ScopedLock = Poco::ScopedLock<Mutex>;
Mutex();
/// creates the Mutex.
~Mutex();
/// destroys the Mutex.
void lock();
/// Locks the mutex. Blocks if the mutex
/// is held by another thread.
void lock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread. Throws a TimeoutException
/// if the mutex can not be locked within the given timeout.
///
/// Performance Note: On most platforms (including Windows), this member function is
/// implemented using a loop calling (the equivalent of) tryLock() and Thread::sleep().
/// On POSIX platforms that support pthread_mutex_timedlock(), this is used.
bool tryLock();
/// Tries to lock the mutex. Returns false immediately
/// if the mutex is already held by another thread.
/// Returns true if the mutex was successfully locked.
bool tryLock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread.
/// Returns true if the mutex was successfully locked.
///
/// Performance Note: On most platforms (including Windows), this member function is
/// implemented using a loop calling (the equivalent of) tryLock() and Thread::sleep().
/// On POSIX platforms that support pthread_mutex_timedlock(), this is used.
void unlock();
/// Unlocks the mutex so that it can be acquired by
/// other threads.
private:
Mutex(const Mutex&);
Mutex& operator = (const Mutex&);
};
class Foundation_API FastMutex: private FastMutexImpl
/// A FastMutex (mutual exclusion) is similar to a Mutex.
/// Unlike a Mutex, however, a FastMutex is not recursive,
/// which means that a deadlock will occur if the same
/// thread tries to lock a mutex it has already locked again.
/// Locking a FastMutex is faster than locking a recursive Mutex.
/// Using the ScopedLock class is the preferred way to automatically
/// lock and unlock a mutex.
{
public:
using ScopedLock = Poco::ScopedLock<FastMutex>;
FastMutex();
/// creates the Mutex.
~FastMutex();
/// destroys the Mutex.
void lock();
/// Locks the mutex. Blocks if the mutex
/// is held by another thread.
void lock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread. Throws a TimeoutException
/// if the mutex can not be locked within the given timeout.
///
/// Performance Note: On most platforms (including Windows), this member function is
/// implemented using a loop calling (the equivalent of) tryLock() and Thread::sleep().
/// On POSIX platforms that support pthread_mutex_timedlock(), this is used.
bool tryLock();
/// Tries to lock the mutex. Returns false immediately
/// if the mutex is already held by another thread.
/// Returns true if the mutex was successfully locked.
bool tryLock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread.
/// Returns true if the mutex was successfully locked.
///
/// Performance Note: On most platforms (including Windows), this member function is
/// implemented using a loop calling (the equivalent of) tryLock() and Thread::sleep().
/// On POSIX platforms that support pthread_mutex_timedlock(), this is used.
void unlock();
/// Unlocks the mutex so that it can be acquired by
/// other threads.
private:
FastMutex(const FastMutex&);
FastMutex& operator = (const FastMutex&);
};
class Foundation_API SpinlockMutex
/// A SpinlockMutex, implemented in terms of std::atomic_flag, as
/// busy-wait mutual exclusion.
///
/// While in some cases (eg. locking small blocks of code)
/// busy-waiting may be an optimal solution, in many scenarios
/// spinlock may not be the right choice (especially on single-core
/// systems) - it is up to the user to choose the proper mutex type
/// for their particular case.
///
/// Works with the ScopedLock class.
{
public:
using ScopedLock = Poco::ScopedLock<SpinlockMutex>;
SpinlockMutex();
/// Creates the SpinlockMutex.
~SpinlockMutex();
/// Destroys the SpinlockMutex.
void lock();
/// Locks the mutex. Blocks if the mutex
/// is held by another thread.
void lock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread. Throws a TimeoutException
/// if the mutex can not be locked within the given timeout.
bool tryLock();
/// Tries to lock the mutex. Returns immediately, false
/// if the mutex is already held by another thread, true
/// if the mutex was successfully locked.
bool tryLock(long milliseconds);
/// Locks the mutex. Blocks up to the given number of milliseconds
/// if the mutex is held by another thread.
/// Returns true if the mutex was successfully locked.
void unlock();
/// Unlocks the mutex so that it can be acquired by
/// other threads.
private:
std::atomic_flag _flag = ATOMIC_FLAG_INIT;
};
class Foundation_API NullMutex
/// A NullMutex is an empty mutex implementation
/// which performs no locking at all. Useful in policy driven design
/// where the type of mutex used can be now a template parameter allowing the user to switch
/// between thread-safe and not thread-safe depending on his need
/// Works with the ScopedLock class
{
public:
using ScopedLock = Poco::ScopedLock<NullMutex>;
NullMutex()
/// Creates the NullMutex.
{
}
~NullMutex()
/// Destroys the NullMutex.
{
}
void lock()
/// Does nothing.
{
}
void lock(long)
/// Does nothing.
{
}
bool tryLock()
/// Does nothing and always returns true.
{
return true;
}
bool tryLock(long)
/// Does nothing and always returns true.
{
return true;
}
void unlock()
/// Does nothing.
{
}
};
//
// inlines
//
//
// Mutex
//
inline void Mutex::lock()
{
lockImpl();
}
inline void Mutex::lock(long milliseconds)
{
if (!tryLockImpl(milliseconds))
throw TimeoutException();
}
inline bool Mutex::tryLock()
{
return tryLockImpl();
}
inline bool Mutex::tryLock(long milliseconds)
{
return tryLockImpl(milliseconds);
}
inline void Mutex::unlock()
{
unlockImpl();
}
//
// FastMutex
//
inline void FastMutex::lock()
{
lockImpl();
}
inline void FastMutex::lock(long milliseconds)
{
if (!tryLockImpl(milliseconds))
throw TimeoutException();
}
inline bool FastMutex::tryLock()
{
return tryLockImpl();
}
inline bool FastMutex::tryLock(long milliseconds)
{
return tryLockImpl(milliseconds);
}
inline void FastMutex::unlock()
{
unlockImpl();
}
//
// SpinlockMutex
//
inline void SpinlockMutex::lock()
{
while (_flag.test_and_set(std::memory_order_acquire));
}
inline void SpinlockMutex::lock(long milliseconds)
{
Timestamp now;
Timestamp::TimeDiff diff(Timestamp::TimeDiff(milliseconds)*1000);
while (_flag.test_and_set(std::memory_order_acquire))
{
if (now.isElapsed(diff)) throw TimeoutException();
}
}
inline bool SpinlockMutex::tryLock()
{
return !_flag.test_and_set(std::memory_order_acquire);
}
inline bool SpinlockMutex::tryLock(long milliseconds)
{
Timestamp now;
Timestamp::TimeDiff diff(Timestamp::TimeDiff(milliseconds)*1000);
while (_flag.test_and_set(std::memory_order_acquire))
{
if (now.isElapsed(diff)) return false;
}
return true;
}
inline void SpinlockMutex::unlock()
{
_flag.clear(std::memory_order_release);
}
} // namespace Poco
#endif // Foundation_Mutex_INCLUDED
Reference in New Issue View Git Blame Copy Permalink