khanat-opennel-code/code/nel/src/misc/p_thread.cpp

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// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
#include "stdmisc.h"
#include "nel/misc/types_nl.h"
#include "nel/misc/debug.h"
#ifdef NL_OS_UNIX
#include "nel/misc/p_thread.h"
#include <sched.h>
#include <pwd.h>
#ifdef DEBUG_NEW
#define new DEBUG_NEW
#endif
namespace NLMISC {
/* Key for thread specific storage holding IThread pointer. */
static pthread_key_t threadSpecificKey;
/* Special thread type representing the main thread. */
struct CPMainThread : public CPThread
{
CPMainThread() : CPThread(NULL, 0)
{
if(pthread_key_create(&threadSpecificKey, NULL) != 0)
throw EThread("cannot create thread specific storage key.");
if(pthread_setspecific(threadSpecificKey, this) != 0)
throw EThread("cannot set main thread ptr in thread specific storage.");
}
~CPMainThread()
{
if(pthread_key_delete(threadSpecificKey) != 0)
throw EThread("cannot delete thread specific storage key.");
}
};
/* Holds the thread instance representing the main thread. */
static CPMainThread mainThread = CPMainThread();
/*
* The IThread static creator
*/
IThread *IThread::create( IRunnable *runnable, uint32 stackSize)
{
return new CPThread( runnable, stackSize );
}
/*
* Get the current thread
*/
IThread *IThread::getCurrentThread ()
{
return (IThread *)pthread_getspecific(threadSpecificKey);
}
/*
* Thread beginning
*/
static void *ProxyFunc( void *arg )
{
CPThread *parent = (CPThread*)arg;
// Set this thread's thread specific storage to IThread instance pointer
if(pthread_setspecific(threadSpecificKey, parent) != 0)
throw EThread("cannot set thread ptr in thread specific storage.");
// Allow to terminate the thread without cancellation point
pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, 0);
// Run the code of the thread
parent->Runnable->run();
{
pthread_t thread_self = pthread_self();
// Make sure the parent still cares
// If this thread was replaced with a new thread (which should not happen),
// and the IThread object has been deleted, this will likely crash.
if (parent->_ThreadHandle == thread_self)
parent->_State = CPThread::ThreadStateFinished;
else
throw EThread("Thread ended after being detached, this should not happen");
}
// Allow some clean
// pthread_exit(0);
return NULL;
}
/*
* Constructor
*/
CPThread::CPThread(IRunnable *runnable, uint32 stackSize)
: Runnable(runnable),
_State(ThreadStateNone),
_StackSize(stackSize)
{}
/*
* Destructor
*/
CPThread::~CPThread()
{
terminate(); // force the end of the thread if not already ended
if (_State != ThreadStateNone)
pthread_detach(_ThreadHandle); // free allocated resources only if it was created
}
/*
* start
*/
void CPThread::start()
{
pthread_attr_t tattr;
int ret;
if (_StackSize != 0)
{
/* initialized with default attributes */
ret = pthread_attr_init(&tattr);
/* setting the size of the stack also */
ret = pthread_attr_setstacksize(&tattr, _StackSize);
}
bool detach_old_thread = false;
2015-12-25 19:49:59 +00:00
pthread_t old_thread_handle = _ThreadHandle;
if (_State != ThreadStateNone)
{
if (_State == ThreadStateRunning)
{
// I don't know if this behaviour is allowed, but neither thread implementations
// check the start function, and both simply let the existing running thread for what it is...
// From now on, this is not allowed.
throw EThread("Starting a thread that is already started, existing thread will continue running, this should not happen");
}
detach_old_thread = true;
}
if (pthread_create(&_ThreadHandle, _StackSize != 0 ? &tattr : NULL, ProxyFunc, this) != 0)
{
throw EThread("Cannot start new thread");
}
_State = ThreadStateRunning;
if (detach_old_thread)
{
// Docs don't say anything about what happens when pthread_create is called with existing handle referenced.
if (old_thread_handle == _ThreadHandle)
throw EThread("Thread handle did not change, this should not happen");
// Don't care about old thread, free resources when it terminates.
pthread_detach(old_thread_handle);
}
}
bool CPThread::isRunning()
{
return _State == ThreadStateRunning;
}
/*
* terminate
*/
void CPThread::terminate()
{
if (_State == ThreadStateRunning)
{
// cancel only if started
pthread_cancel(_ThreadHandle);
_State = ThreadStateFinished; // set to finished
}
}
/*
* wait
*/
void CPThread::wait ()
{
if (_State == ThreadStateRunning)
{
int error = pthread_join(_ThreadHandle, 0);
switch (error)
{
case 0:
break;
case EINVAL:
throw EThread("Thread is not joinable");
case ESRCH:
throw EThread("No thread found with this id");
case EDEADLK:
throw EThread("Deadlock detected or calling thread waits for itself");
default:
throw EThread("Unknown thread join error");
}
if(_State != ThreadStateFinished)
throw EThread("Thread did not finish, this should not happen");
}
}
/*
* setCPUMask
*/
bool CPThread::setCPUMask(uint64 cpuMask)
{
#ifdef __USE_GNU
nlwarning("This code does not work. May cause a segmentation fault...");
sint res = pthread_setaffinity_np(_ThreadHandle, sizeof(uint64), (const cpu_set_t*)&cpuMask);
if (res)
{
nlwarning("pthread_setaffinity_np() returned %d", res);
return false;
}
return true;
#else // __USE_GNU
return false;
#endif // __USE_GNU
}
/*
* getCPUMask
*/
uint64 CPThread::getCPUMask()
{
#ifdef __USE_GNU
nlwarning("This code does not work. May cause a segmentation fault...");
uint64 cpuMask = 0;
sint res = pthread_getaffinity_np(_ThreadHandle, sizeof(uint64), (cpu_set_t*)&cpuMask);
if (res)
{
nlwarning("pthread_getaffinity_np() returned %d", res);
return 0;
}
return cpuMask;
#else // __USE_GNU
return 0;
#endif // __USE_GNU
}
void CPThread::setPriority(TThreadPriority priority)
{
// TODO: Test this
sched_param sp;
switch (priority)
{
case ThreadPriorityHigh:
{
int minPrio = sched_get_priority_min(SCHED_FIFO);
int maxPrio = sched_get_priority_max(SCHED_FIFO);
sp.sched_priority = ((maxPrio - minPrio) / 4) + minPrio;
pthread_setschedparam(_ThreadHandle, SCHED_FIFO, &sp);
break;
}
case ThreadPriorityHighest:
{
int minPrio = sched_get_priority_min(SCHED_FIFO);
int maxPrio = sched_get_priority_max(SCHED_FIFO);
sp.sched_priority = ((maxPrio - minPrio) / 2) + minPrio;
pthread_setschedparam(_ThreadHandle, SCHED_FIFO, &sp);
break;
}
default:
sp.sched_priority = 0;
pthread_setschedparam(_ThreadHandle, SCHED_OTHER, &sp);
}
}
/*
* getUserName
*/
std::string CPThread::getUserName()
{
struct passwd *pw = getpwuid(getuid());
if (!pw)
return "";
return pw->pw_name;
}
// **** Process
// The current process
CPProcess CurrentProcess;
// Get the current process
IProcess *IProcess::getCurrentProcess ()
{
return &CurrentProcess;
}
/*
* getCPUMask
*/
uint64 CPProcess::getCPUMask()
{
#ifdef __USE_GNU
uint64 cpuMask = 0;
sint res = sched_getaffinity(getpid(), sizeof(uint64), (cpu_set_t*)&cpuMask);
if (res)
{
nlwarning("sched_getaffinity() returned %d, errno = %d: %s", res, errno, strerror(errno));
return 0;
}
return cpuMask;
#else // __USE_GNU
return 0;
#endif // __USE_GNU
}
/// set the CPU mask
bool CPProcess::setCPUMask(uint64 cpuMask)
{
#ifdef __USE_GNU
sint res = sched_setaffinity(getpid(), sizeof(uint64), (const cpu_set_t*)&cpuMask);
if (res)
{
nlwarning("sched_setaffinity() returned %d, errno = %d: %s", res, errno, strerror(errno));
return false;
}
return true;
#else // __USE_GNU
return false;
#endif // __USE_GNU
}
} // NLMISC
#else // NL_OS_UNIX
// remove stupid VC6 warnings
void foo_p_thread_cpp() {}
#endif // NL_OS_UNIX