khanat-opennel-code/code/nel/src/misc/win_thread.cpp
2014-06-20 03:01:32 +02:00

611 lines
16 KiB
C++

// 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/win_thread.h"
#ifdef NL_OS_WINDOWS
#include "nel/misc/path.h"
#ifndef NL_COMP_MINGW
#define NOMINMAX
#endif
#include <windows.h>
#include <typeinfo>
#ifdef DEBUG_NEW
#define new DEBUG_NEW
#endif
namespace NLMISC {
CWinThread MainThread ((void*)GetCurrentThread (), GetCurrentThreadId());
DWORD TLSThreadPointer = 0xFFFFFFFF;
// the IThread static creator
IThread *IThread::create (IRunnable *runnable, uint32 stackSize)
{
return new CWinThread (runnable, stackSize);
}
IThread *IThread::getCurrentThread ()
{
// TLS alloc must have been done
nlassert (TLSThreadPointer != 0xffffffff);
// Get the thread pointer
IThread *thread = (IThread*)TlsGetValue (TLSThreadPointer);
// Return current thread
return thread;
}
static unsigned long __stdcall ProxyFunc (void *arg)
{
CWinThread *parent = (CWinThread *) arg;
// TLS alloc must have been done
nlassert (TLSThreadPointer != 0xffffffff);
// Set the thread pointer in TLS memory
nlverify (TlsSetValue (TLSThreadPointer, (void*)parent) != 0);
// Run the thread
parent->Runnable->run();
return 0;
}
CWinThread::CWinThread (IRunnable *runnable, uint32 stackSize)
{
_StackSize = stackSize;
this->Runnable = runnable;
ThreadHandle = NULL;
_SuspendCount = -1;
_MainThread = false;
}
namespace {
class CWinCriticalSection
{
private:
CRITICAL_SECTION cs;
public:
CWinCriticalSection() { InitializeCriticalSection(&cs); }
~CWinCriticalSection() { DeleteCriticalSection(&cs); }
inline void enter() { EnterCriticalSection(&cs); }
inline void leave() { LeaveCriticalSection(&cs); }
};
CWinCriticalSection s_CS;
}/* anonymous namespace */
CWinThread::CWinThread (void* threadHandle, uint32 threadId)
{
// Main thread
_MainThread = true;
this->Runnable = NULL;
ThreadHandle = threadHandle;
ThreadId = threadId;
// TLS alloc must have been done
TLSThreadPointer = TlsAlloc ();
nlassert (TLSThreadPointer!=0xffffffff);
// Set the thread pointer in TLS memory
nlverify (TlsSetValue (TLSThreadPointer, (void*)this) != 0);
if (GetCurrentThreadId() == threadId)
{
_SuspendCount = 0; // is calling thread call this itself, well, if we reach this place
// there are chances that it is not suspended ...
}
else
{
// initialized from another thread (very unlikely ...)
nlassert(0); // WARNING: following code has not tested! don't know if it work fo real ...
// This is just a suggestion of a possible solution, should this situation one day occur ...
// Ensure that this thread don't get deleted, or we could suspend the main thread
s_CS.enter();
// the 2 following statement must be executed atomicaly among the threads of the current process !
SuspendThread(threadHandle);
_SuspendCount = ResumeThread(threadHandle);
s_CS.leave();
}
}
void CWinThread::incSuspendCount()
{
nlassert(ThreadHandle); // start was not called !!
int newSuspendCount = ::SuspendThread(ThreadHandle) + 1;
nlassert(newSuspendCount != 0xffffffff); // more infos with 'GetLastError'
nlassert(newSuspendCount == _SuspendCount + 1); // is this assert fire , then 'SuspendThread' or 'ResumeThread'
// have been called outside of this object interface! (on this thread handle ...)
_SuspendCount = newSuspendCount;
}
void CWinThread::decSuspendCount()
{
nlassert(ThreadHandle); // 'start' was not called !!
nlassert(_SuspendCount > 0);
int newSuspendCount = ::ResumeThread(ThreadHandle) - 1;
nlassert(newSuspendCount != 0xffffffff); // more infos with 'GetLastError'
nlassert(newSuspendCount == _SuspendCount - 1); // is this assert fire , then 'SuspendThread' or 'ResumeThread'
// have been called outside of this object interface! (on this thread handle ...)
_SuspendCount = newSuspendCount;
}
void CWinThread::suspend()
{
if (getSuspendCount() == 0)
{
incSuspendCount();
}
}
void CWinThread::resume()
{
while (getSuspendCount() != 0)
{
decSuspendCount();
}
}
void CWinThread::setPriority(TThreadPriority priority)
{
nlassert(ThreadHandle); // 'start' was not called !!
BOOL result = SetThreadPriority(ThreadHandle, (int)priority);
nlassert(result);
}
void CWinThread::enablePriorityBoost(bool enabled)
{
nlassert(ThreadHandle); // 'start' was not called !!
SetThreadPriorityBoost(ThreadHandle, enabled ? TRUE : FALSE);
}
CWinThread::~CWinThread ()
{
// If not the main thread
if (_MainThread)
{
// Free TLS memory
nlassert (TLSThreadPointer!=0xffffffff);
TlsFree (TLSThreadPointer);
}
else
{
if (ThreadHandle != NULL) terminate();
}
}
void CWinThread::start ()
{
if (isRunning())
throw EThread("Starting a thread that is already started, existing thread will continue running, this should not happen");
// ThreadHandle = (void *) ::CreateThread (NULL, _StackSize, ProxyFunc, this, 0, (DWORD *)&ThreadId);
ThreadHandle = (void *) ::CreateThread (NULL, 0, ProxyFunc, this, 0, (DWORD *)&ThreadId);
// nldebug("NLMISC: thread %x started for runnable '%x'", typeid( Runnable ).name());
// OutputDebugString(toString(NL_LOC_MSG " NLMISC: thread %x started for runnable '%s'\n", ThreadId, typeid( *Runnable ).name()).c_str());
SetThreadPriorityBoost (ThreadHandle, TRUE); // FALSE == Enable Priority Boost
if (ThreadHandle == NULL)
{
throw EThread ( "Cannot create new thread" );
}
_SuspendCount = 0;
}
bool CWinThread::isRunning()
{
if (ThreadHandle == NULL)
return false;
DWORD exitCode;
if (!GetExitCodeThread(ThreadHandle, &exitCode))
return false;
return exitCode == STILL_ACTIVE;
}
void CWinThread::terminate ()
{
TerminateThread((HANDLE)ThreadHandle, 0);
CloseHandle((HANDLE)ThreadHandle);
ThreadHandle = NULL;
_SuspendCount = -1;
}
void CWinThread::wait ()
{
if (ThreadHandle == NULL) return;
WaitForSingleObject(ThreadHandle, INFINITE);
CloseHandle(ThreadHandle);
ThreadHandle = NULL;
_SuspendCount = -1;
}
bool CWinThread::setCPUMask(uint64 cpuMask)
{
// Thread must exist
if (ThreadHandle == NULL)
return false;
// Ask the system for number of processor available for this process
return SetThreadAffinityMask ((HANDLE)ThreadHandle, (DWORD_PTR)cpuMask) != 0;
}
uint64 CWinThread::getCPUMask()
{
// Thread must exist
if (ThreadHandle == NULL)
return 1;
// Get the current process mask
uint64 mask=IProcess::getCurrentProcess ()->getCPUMask ();
// Get thread affinity mask
DWORD_PTR old = SetThreadAffinityMask ((HANDLE)ThreadHandle, (DWORD_PTR)mask);
nlassert (old != 0);
if (old == 0)
return 1;
// Reset it
SetThreadAffinityMask ((HANDLE)ThreadHandle, old);
// Return the mask
return (uint64)old;
}
std::string CWinThread::getUserName()
{
char userName[512];
DWORD size = 512;
GetUserName (userName, &size);
return (const char*)userName;
}
// **** Process
// The current process
CWinProcess CurrentProcess ((void*)GetCurrentProcess());
// Get the current process
IProcess *IProcess::getCurrentProcess ()
{
return &CurrentProcess;
}
CWinProcess::CWinProcess (void *handle)
{
// Get the current process handle
_ProcessHandle = handle;
}
uint64 CWinProcess::getCPUMask()
{
// Ask the system for number of processor available for this process
DWORD_PTR processAffinityMask;
DWORD_PTR systemAffinityMask;
if (GetProcessAffinityMask((HANDLE)_ProcessHandle, &processAffinityMask, &systemAffinityMask))
{
// Return the CPU mask
return (uint64)processAffinityMask;
}
else
return 1;
}
bool CWinProcess::setCPUMask(uint64 mask)
{
// Ask the system for number of processor available for this process
DWORD_PTR processAffinityMask= (DWORD_PTR)mask;
return SetProcessAffinityMask((HANDLE)_ProcessHandle, processAffinityMask)!=0;
}
// ****************************************************************************************************************
/**
* Simple wrapper around the PSAPI library
* \author Nicolas Vizerie
* \author GameForge
* \date 2007
*/
class CPSAPILib
{
public:
typedef BOOL (WINAPI *EnumProcessesFunPtr)(DWORD *lpidProcess, DWORD cb, DWORD *cbNeeded);
typedef DWORD (WINAPI *GetModuleFileNameExAFunPtr)(HANDLE hProcess, HMODULE hModule, LPTSTR lpFilename, DWORD nSize);
typedef BOOL (WINAPI *EnumProcessModulesFunPtr)(HANDLE hProcess, HMODULE *lphModule, DWORD cb, LPDWORD lpcbNeeded);
EnumProcessesFunPtr EnumProcesses;
GetModuleFileNameExAFunPtr GetModuleFileNameExA;
EnumProcessModulesFunPtr EnumProcessModules;
public:
CPSAPILib();
~CPSAPILib();
bool init();
private:
HINSTANCE _PSAPILibHandle;
bool _LoadFailed;
};
// ****************************************************************************************************************
CPSAPILib::CPSAPILib()
{
_LoadFailed = false;
_PSAPILibHandle = NULL;
EnumProcesses = NULL;
GetModuleFileNameExA = NULL;
EnumProcessModules = NULL;
}
// ****************************************************************************************************************
CPSAPILib::~CPSAPILib()
{
if (_PSAPILibHandle)
{
FreeLibrary(_PSAPILibHandle);
}
}
// ****************************************************************************************************************
bool CPSAPILib::init()
{
//
if (_LoadFailed) return false;
if (!_PSAPILibHandle)
{
_PSAPILibHandle = LoadLibrary("psapi.dll");
if (!_PSAPILibHandle)
{
nlwarning("couldn't load psapi.dll, possibly not supported by os");
_LoadFailed = true;
return false;
}
EnumProcesses = (EnumProcessesFunPtr) GetProcAddress(_PSAPILibHandle, "EnumProcesses");
GetModuleFileNameExA = (GetModuleFileNameExAFunPtr) GetProcAddress(_PSAPILibHandle, "GetModuleFileNameExA");
EnumProcessModules = (EnumProcessModulesFunPtr) GetProcAddress(_PSAPILibHandle, "EnumProcessModules");
if (!EnumProcesses ||
!GetModuleFileNameExA ||
!EnumProcessModules
)
{
nlwarning("Failed to import functions from psapi.dll!");
_LoadFailed = true;
return false;
}
}
return true;
}
static CPSAPILib PSAPILib;
// ****************************************************************************************************************
bool CWinProcess::enumProcessesId(std::vector<uint32> &processesId)
{
if (!PSAPILib.init()) return false;
// list of processes
std::vector<uint32> prcIds(16);
for (;;)
{
DWORD cbNeeded;
if (!PSAPILib.EnumProcesses((DWORD *) &prcIds[0], (DWORD)(prcIds.size() * sizeof(DWORD)), &cbNeeded))
{
nlwarning("Processes enumeration failed!");
return false;
}
if (cbNeeded < prcIds.size() * sizeof(DWORD))
{
prcIds.resize(cbNeeded / sizeof(DWORD));
break;
}
// make some more room
prcIds.resize(prcIds.size() * 2);
}
processesId.swap(prcIds);
return true;
}
// ****************************************************************************************************************
bool CWinProcess::enumProcessModules(uint32 processId, std::vector<std::string> &moduleNames)
{
if (!PSAPILib.init()) return false;
HANDLE hProcess = OpenProcess(PROCESS_QUERY_INFORMATION|PROCESS_VM_READ, FALSE, (DWORD) processId);
if (!hProcess) return false;
// list of modules
std::vector<HMODULE> prcModules(2);
for (;;)
{
DWORD cbNeeded;
if (!PSAPILib.EnumProcessModules(hProcess, (HMODULE *) &prcModules[0], (DWORD)(prcModules.size() * sizeof(HMODULE)), &cbNeeded))
{
//nlwarning("Processe modules enumeration failed!");
return false;
}
if (cbNeeded < prcModules.size() * sizeof(HMODULE))
{
prcModules.resize(cbNeeded / sizeof(HMODULE));
break;
}
// make some more room
prcModules.resize(prcModules.size() * 2);
}
moduleNames.clear();
std::vector<std::string> resultModuleNames;
char moduleName[MAX_PATH + 1];
for (uint m = 0; m < prcModules.size(); ++m)
{
if (PSAPILib.GetModuleFileNameExA(hProcess, prcModules[m], moduleName, MAX_PATH))
{
moduleNames.push_back(moduleName);
}
}
CloseHandle(hProcess);
return true;
}
// ****************************************************************************************************************
uint32 CWinProcess::getProcessIdFromModuleFilename(const std::string &moduleFileName)
{
std::vector<uint32> processesId;
if (!enumProcessesId(processesId)) return false;
std::vector<std::string> moduleNames;
for (uint prc = 0; prc < processesId.size(); ++prc)
{
if (enumProcessModules(processesId[prc], moduleNames))
{
for (uint m = 0; m < moduleNames.size(); ++m)
{
if (nlstricmp(CFile::getFilename(moduleNames[m]), moduleFileName) == 0)
{
return processesId[prc];
}
}
}
}
return 0;
}
// ****************************************************************************************************************
bool CWinProcess::terminateProcess(uint32 processId, uint exitCode)
{
if (!processId) return false;
HANDLE hProcess = OpenProcess(PROCESS_TERMINATE, FALSE, (DWORD) processId);
if (!hProcess) return false;
BOOL ok = TerminateProcess(hProcess, (UINT) exitCode);
CloseHandle(hProcess);
return ok != FALSE;
}
// ****************************************************************************************************************
bool CWinProcess::terminateProcessFromModuleName(const std::string &moduleName, uint exitCode)
{
return terminateProcess(getProcessIdFromModuleFilename(moduleName), exitCode);
}
///////////////////
// CProcessWatch //
///////////////////
/*
// I didn't use and test that code, eventually, but maybe useful in the future
class CProcessWatchTask : public IRunnable
{
public:
HANDLE HProcess;
public:
CProcessWatchTask(HANDLE hProcess) : HProcess(hProcess)
{
}
virtual void run()
{
WaitForSingleObject(HProcess, INFINITE);
}
};
class CProcessWatchImpl
{
public:
bool Launched;
IThread *WatchThread;
CProcessWatchTask *WatchTask;
public:
CProcessWatchImpl() : Launched(false), WatchThread(NULL), WatchTask(NULL)
{
}
~CProcessWatchImpl()
{
reset();
}
void reset()
{
if (WatchThread)
{
if (WatchThread->isRunning())
{
WatchThread->terminate();
}
delete WatchTask;
delete WatchThread;
WatchTask = NULL;
WatchThread = NULL;
Launched = false;
}
}
bool launch(const std::string &programName, const std::string &arguments)
{
if (isRunning()) return false;
PROCESS_INFORMATION processInfo;
STARTUPINFO startupInfo = {0};
startupInfo.cb = sizeof(STARTUPINFO);
if (CreateProcess(programName.c_str(), const_cast<LPTSTR>(arguments.c_str()), NULL, NULL, FALSE, 0, NULL, NULL, &startupInfo, &processInfo))
{
WatchTask = new CProcessWatchTask(processInfo.hProcess);
WatchThread = IThread::create(WatchTask);
WatchThread->start();
Launched = true;
return true;
}
return false;
}
bool isRunning()
{
if (!Launched) return false;
nlassert(WatchThread);
nlassert(WatchTask);
if (WatchThread->isRunning()) return true;
reset();
return false;
}
};
CProcessWatch::CProcessWatch()
{
_PImpl = new CProcessWatchImpl;
}
CProcessWatch::~CProcessWatch()
{
delete _PImpl;
}
bool CProcessWatch::launch(const std::string &programName, const std::string &arguments)
{
return _PImpl->launch(programName, arguments);
}
bool CProcessWatch::isRunning() const
{
return _PImpl->isRunning();
}
*/
} // NLMISC
#endif // NL_OS_WINDOWS