{ This file is part of the Free Pascal run time library. Copyright (c) 2002 by Peter Vreman, member of the Free Pascal development team. Linux (pthreads) threading support implementation See the file COPYING.FPC, included in this distribution, for details about the copyright. 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. **********************************************************************} {***************************************************************************** Local WINApi imports *****************************************************************************} {$ifndef WINCE} function TlsAlloc : DWord; stdcall;external KernelDLL name 'TlsAlloc'; function TlsFree(dwTlsIndex : DWord) : LongBool; stdcall;external KernelDLL name 'TlsFree'; {$endif WINCE} function TlsGetValue(dwTlsIndex : DWord) : pointer; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'TlsGetValue'; function TlsSetValue(dwTlsIndex : DWord;lpTlsValue : pointer) : LongBool; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'TlsSetValue'; function CreateThread(lpThreadAttributes : pointer; dwStackSize : SIZE_T; lpStartAddress : pointer;lpParameter : pointer; dwCreationFlags : DWord;var lpThreadId : DWord) : THandle; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'CreateThread'; procedure ExitThread(dwExitCode : DWord); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'ExitThread'; procedure Sleep(dwMilliseconds: DWord); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'Sleep'; function WinSuspendThread (threadHandle : THandle) : dword; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'SuspendThread'; function WinResumeThread (threadHandle : THandle) : dword; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'ResumeThread'; function WinCloseHandle (threadHandle : THandle) : dword; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'CloseHandle'; function TerminateThread (threadHandle : THandle; var exitCode : dword) : boolean; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'TerminateThread'; function WaitForSingleObject (hHandle : THandle;Milliseconds: dword): dword; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'WaitForSingleObject'; function WinThreadSetPriority (threadHandle : THandle; Prio: longint): boolean; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'SetThreadPriority'; function WinThreadGetPriority (threadHandle : THandle): LongInt; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'GetThreadPriority'; {$ifndef WINCE} function WinGetCurrentThread: THandle; stdcall; external KernelDLL name 'GetCurrentThread'; function WinOpenThread(dwDesiredAccess: DWord; bInheritHandle: Boolean; dwThreadId: DWord): THandle; stdcall; external KernelDLL name 'OpenThread'; function WinIsDebuggerPresent: Boolean; stdcall; external KernelDLL name 'IsDebuggerPresent'; type TSetThreadDescription = function(threadHandle: THandle; lpThreadDescription: PWideChar): HResult; stdcall; var WinSetThreadDescription: TSetThreadDescription; function CreateEvent(lpEventAttributes:pointer;bManualReset:longbool;bInitialState:longbool;lpName:PAnsiChar): THandle; stdcall; external KernelDLL name 'CreateEventA'; function ResetEvent(hEvent:THandle):LONGBOOL; stdcall; external KernelDLL name 'ResetEvent'; function SetEvent(hEvent:THandle):LONGBOOL; stdcall; external KernelDLL name 'SetEvent'; {$endif WINCE} procedure WinInitCriticalSection(var cs : TRTLCriticalSection); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'InitializeCriticalSection'; procedure WinDoneCriticalSection(var cs : TRTLCriticalSection); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'DeleteCriticalSection'; procedure WinEnterCriticalSection(var cs : TRTLCriticalSection); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'EnterCriticalSection'; procedure WinLeaveCriticalSection(var cs : TRTLCriticalSection); {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'LeaveCriticalSection'; CONST WAIT_OBJECT_0 = 0; WAIT_TIMEOUT = $102; function WinTryEnterCriticalSection(var cs : TRTLCriticalSection):longint; {$ifdef wince}cdecl{$else}stdcall{$endif};external KernelDLL name 'TryEnterCriticalSection'; {***************************************************************************** Threadvar support *****************************************************************************} var // public names are used by heaptrc unit threadvarblocksize : dword; public name '_FPC_TlsSize'; {$ifdef FPC_HAS_INDIRECT_ENTRY_INFORMATION} TLSKey : PDword = nil; public name '_FPC_TlsKey'; {$else FPC_HAS_INDIRECT_ENTRY_INFORMATION} TLSKeyVar : DWord = $ffffffff; TLSKey : PDWord = @TLSKeyVar; public name '_FPC_TlsKey'; {$endif FPC_HAS_INDIRECT_ENTRY_INFORMATION} var MainThreadIdWin32 : DWORD; procedure SysInitThreadvar(var offset : dword;size : dword); begin offset:=threadvarblocksize; {$ifdef CPUARM} // Data must be allocated at 4 bytes boundary for ARM size:=(size + 3) and not dword(3); {$endif CPUARM} inc(threadvarblocksize,size); end; procedure SysAllocateThreadVars; public name '_FPC_SysAllocateThreadVars'; var dataindex : pointer; errorsave : dword; begin { we've to allocate the memory from system } { because the FPC heap management uses } { exceptions which use threadvars but } { these aren't allocated yet ... } { allocate room on the heap for the thread vars } errorsave:=GetLastError; if tlskey^=$ffffffff then RunError(226); dataindex:=TlsGetValue(tlskey^); if dataindex=nil then begin dataindex:=HeapAlloc(GetProcessHeap,HEAP_ZERO_MEMORY,threadvarblocksize); if dataindex=nil then RunError(226); TlsSetValue(tlskey^,dataindex); end; SetLastError(errorsave); end; function SysRelocateThreadvar(offset : dword) : pointer; forward; procedure SysInitTLS; begin { do not check IsMultiThread, as program could have altered it, out of Delphi habit } { the thread attach/detach code uses locks to avoid multiple calls of this } if TLSKey^=$ffffffff then begin { We're still running in single thread mode, setup the TLS } TLSKey^:=TlsAlloc; InitThreadVars(@SysRelocateThreadvar); end; end; procedure SysFiniMultithreading; begin if TLSKey^<>$ffffffff then TlsFree(TLSKey^); TLSKey^:=$ffffffff; end; { Directly access thread environment block (TEB). If there is a value, use it. If there is not, jump to TrulyRelocateThreadvar that can allocate it. TrulyRelocateThreadvar is several (5+) times slower by itself; shortcutting SetLastError on errorsave = 0 helps a bit (reduces to 3.5× maybe :D). General info (in particular, stories about de facto stability guarantees): https://en.wikipedia.org/wiki/Win32_Thread_Information_Block TEB layout: https://github.com/wine-mirror/wine/blob/badaed641928edb8f2426d9f12d16c88b479e1e8/include/winternl.h#L431 “Why load fs:[0x18] into a register and then dereference that, instead of just going for fs:[n] directly?” https://devblogs.microsoft.com/oldnewthing/20220919-00/?p=107195 TL;DR: even in Windows sources, TlsGetValue is written in relatively high-level manner and not overly optimized. } {$undef FPC_HAS_SYSRELOCATETHREADVAR_ASM} {$ifndef wince} { Don’t know a thing, maybe WinCE TEB is compatible... :D https://stackoverflow.com/questions/1099311/windows-ce-internals-teb-thread-environment-block } {$if defined(cpui386)} {$define FPC_HAS_SYSRELOCATETHREADVAR_ASM} function TrulyRelocateThreadvar(offset : dword) : pointer; forward; function SysRelocateThreadvar(offset : dword) : pointer; assembler; nostackframe; { eax = offset } const TlsSlots = $E10; { void* TlsSlots[64] @ fs:[E10h]. } TlsExpansionSlots = $F94; { void** TlsExpansionSlots @ fs:[F94h] } asm mov TLSKey, %edx mov (%edx), %edx { edx = TLSKey^. } cmp $0x40, %edx { There are 64 static slots + 1024 dynamic slots. } jae .LExp mov %fs:TlsSlots(,%edx,4), %edx { Read TLSKey^-th slot. } test %edx, %edx jz .LOops add %edx, %eax { result := TlsGetValue(TLSKey^) + offset. } ret .LOops: jmp TrulyRelocateThreadvar { Save on relative jumps :) } .LExp: cmp $0x440, %edx jae .LOops { Will fail as 0x440 = 1088 = 64 static + 1024 dynamic is the limit on TLS indices. } mov %fs:TlsExpansionSlots, %ecx { ecx = TlsExpansionSlots. } test %ecx, %ecx jz .LOops { No TlsExpansionSlots allocated. } mov -0x100(%ecx,%edx,4), %edx { Read (TLSKey^ − 64)-th dynamic slot. } test %edx, %edx jz .LOops add %edx, %eax { result := TlsGetValue(TLSKey^) + offset. } end; {$elseif defined(cpux86_64)} {$define FPC_HAS_SYSRELOCATETHREADVAR_ASM} function TrulyRelocateThreadvar(offset : dword) : pointer; forward; function SysRelocateThreadvar(offset : dword) : pointer; assembler; nostackframe; { ecx = offset } const { Same as above but 64-bit: TEB pointer is in GS register, different offsets. } TlsSlots = $1480; TlsExpansionSlots = $1780; asm mov TLSKey(%rip), %rdx mov (%rdx), %edx { edx = TLSKey^. } cmp $0x40, %edx jae .LExp mov %gs:TlsSlots(,%rdx,8), %rax test %rax, %rax jz .LOops add %rcx, %rax { Hopefully offset is zero-extended on entry. } ret .LOops: jmp TrulyRelocateThreadvar .LExp: cmp $0x440, %edx jae .LOops mov %gs:TlsExpansionSlots, %rax test %rax, %rax jz .LOops mov -0x200(%rax,%rdx,8), %rax test %rax, %rax jz .LOops add %rcx, %rax end; {$endif implement SysRelocateThreadvar with assembly} {$endif not wince} function {$ifdef FPC_HAS_SYSRELOCATETHREADVAR_ASM} TrulyRelocateThreadvar {$else} SysRelocateThreadvar {$endif} (offset : dword) : pointer; var dataindex : pointer; errorsave : dword; begin errorsave:=GetLastError; dataindex:=TlsGetValue(tlskey^); if dataindex=nil then begin SysAllocateThreadVars; dataindex:=TlsGetValue(tlskey^); InitThread($1000000); end; SetLastError(errorsave); Result:=DataIndex+Offset; end; procedure SysReleaseThreadVars; var p: pointer; begin if TLSKey^<>$ffffffff then begin p:=TlsGetValue(tlskey^); HeapFree(GetProcessHeap,0,p); { HeapFree is OK with nil. } TlsSetValue(tlskey^, nil); end; end; {***************************************************************************** Thread starting *****************************************************************************} type pthreadinfo = ^tthreadinfo; tthreadinfo = record f : tthreadfunc; p : pointer; stklen : ptruint; end; function ThreadMain(param : pointer) : Longint; {$ifdef wince}cdecl{$else}stdcall{$endif}; var ti : tthreadinfo; begin { Copy parameter to local data } ti:=pthreadinfo(param)^; { Handle all possible threadvar models: - dynamic threadvars: initialized either in DllMain, or upon accessing the threadvar ThreadID; - static threadvars+TLS callback: initialized in TLS callback; - static threadvars, no callback: ThreadID remains 0 and initialization happens here. } if ThreadID=TThreadID(0) then begin InitThread(ti.stklen); {$ifndef wince} {$ifdef win32} if Assigned(SetThreadStackGuarantee) then {$endif win32} SetThreadStackGuaranteeTo(StackMargin); {$endif wince} end; dispose(pthreadinfo(param)); { Start thread function } {$ifdef DEBUG_MT} writeln('Jumping to thread function of thread ',Win32GetCurrentThreadId); {$endif DEBUG_MT} {$if defined(FPC_USE_WIN64_SEH) or defined(FPC_USE_WIN32_SEH)} { use special 'top-level' exception handler around the thread function } ThreadMain:=main_wrapper(ti.p,pointer(ti.f)); {$else FPC_USE_WIN64_SEH} ThreadMain:=ti.f(ti.p); {$endif FPC_USE_WIN64_SEH or FPC_USE_WIN32_SEH} end; function SysBeginThread(sa : Pointer;stacksize : ptruint; ThreadFunction : tthreadfunc;p : pointer; creationFlags : dword;var ThreadId : TThreadID) : TThreadID; var ti : pthreadinfo; _threadid : dword; begin {$ifdef DEBUG_MT} writeln('Creating new thread'); {$endif DEBUG_MT} { Initialize multithreading if not done } SysInitTLS; if not IsMultiThread then begin { lazy initialize thread support } LazyInitThreading; IsMultiThread:=true; end; { the only way to pass data to the newly created thread in a MT safe way, is to use the heap } new(ti); ti^.f:=ThreadFunction; ti^.p:=p; ti^.stklen:=stacksize; {$ifdef DEBUG_MT} writeln('Starting new thread'); {$endif DEBUG_MT} _threadid:=0; SysBeginThread:=CreateThread(sa,stacksize,@ThreadMain,ti,creationflags,_threadid); { creation failed? if yes, we dispose the parameter record } if SysBeginThread=0 then begin {$ifdef DEBUG_MT} writeln('Thread creation failed'); {$endif DEBUG_MT} dispose(ti); end; ThreadID:=_threadid; end; procedure SysEndThread(ExitCode : DWord); begin DoneThread; ExitThread(ExitCode); end; procedure SysThreadSwitch; begin Sleep(0); end; function SysSuspendThread (threadHandle : TThreadID) : dword; begin SysSuspendThread:=WinSuspendThread(threadHandle); end; function SysResumeThread (threadHandle : TThreadID) : dword; begin SysResumeThread:=WinResumeThread(threadHandle); end; function SysKillThread (threadHandle : TThreadID) : dword; var exitCode : dword; begin if not TerminateThread (threadHandle, exitCode) then SysKillThread := GetLastError else SysKillThread := 0; end; function SysCloseThread (threadHandle : TThreadID) : dword; begin SysCloseThread:=winCloseHandle(threadHandle); end; function SysWaitForThreadTerminate (threadHandle : TThreadID; TimeoutMs : longint) : dword; begin // shouldn't this be a msgwait in case the thread creates "Windows" See comment in waitforsingle? if timeoutMs = 0 then dec (timeoutMs); // $ffffffff is INFINITE // does waiting on thread require cowait too ? SysWaitForThreadTerminate := WaitForSingleObject(threadHandle, TimeoutMs); end; function SysThreadSetPriority (threadHandle : TThreadID; Prio: longint): boolean; {-15..+15, 0=normal} begin SysThreadSetPriority:=WinThreadSetPriority(threadHandle,Prio); end; function SysThreadGetPriority (threadHandle : TThreadID): longint; begin SysThreadGetPriority:=WinThreadGetPriority(threadHandle); end; function SysGetCurrentThreadId : TThreadID; begin SysGetCurrentThreadId:=Win32GetCurrentThreadId; end; {$ifndef WINCE} { following method is supported on older Windows versions AND currently only supported method by GDB } procedure RaiseMSVCExceptionMethod(threadHandle: TThreadID; const ThreadName: AnsiString); const MS_VC_EXCEPTION: DWord = $406D1388; type THREADNAME_INFO = record dwType: DWord; // Must be 0x1000. szName: PAnsiChar; // Pointer to name (in user addr space). dwThreadID: DWord; // Thread ID (-1=caller thread). dwFlags: DWord; // Reserved for future use, must be zero. end; var thrdinfo: THREADNAME_INFO; begin thrdinfo.dwType:=$1000; thrdinfo.szName:=@ThreadName[1]; thrdinfo.dwThreadID:=threadHandle; thrdinfo.dwFlags:=0; try RaiseException(MS_VC_EXCEPTION, 0, SizeOf(thrdinfo) div SizeOf(PtrUInt), @thrdinfo); except {do nothing} end; end; { following method needs at least Windows 10 version 1607 or Windows Server 2016 } procedure SetThreadDescriptionMethod(threadHandle: TThreadID; const ThreadName: UnicodeString); var thrdhandle: THandle; ClosingNeeded: Boolean; begin if threadHandle=TThreadID(-1) then begin thrdhandle:=WinGetCurrentThread; ClosingNeeded:=False; end else begin thrdhandle:=WinOpenThread($0400, False, threadHandle); ClosingNeeded:=True; end; WinSetThreadDescription(thrdhandle, @ThreadName[1]); if ClosingNeeded then begin CloseHandle(thrdhandle); end; end; {$endif WINCE} procedure SysSetThreadDebugNameA(threadHandle: TThreadID; const ThreadName: AnsiString); begin {$ifndef WINCE} if ThreadName = '' then Exit; if WinIsDebuggerPresent then begin RaiseMSVCExceptionMethod(threadHandle, ThreadName); end; if Assigned(WinSetThreadDescription) then begin SetThreadDescriptionMethod(threadHandle, UnicodeString(ThreadName)); end; {$else WINCE} {$Warning SetThreadDebugNameA needs to be implemented} {$endif WINCE} end; procedure SysSetThreadDebugNameU(threadHandle: TThreadID; const ThreadName: UnicodeString); begin {$ifndef WINCE} if ThreadName = '' then Exit; if WinIsDebuggerPresent then begin RaiseMSVCExceptionMethod(threadHandle, AnsiString(ThreadName)); end; if Assigned(WinSetThreadDescription) then begin SetThreadDescriptionMethod(threadHandle, ThreadName); end; {$else WINCE} {$Warning SetThreadDebugNameU needs to be implemented} {$endif WINCE} end; {***************************************************************************** Delphi/Win32 compatibility *****************************************************************************} procedure SySInitCriticalSection(var cs); begin WinInitCriticalSection(PRTLCriticalSection(@cs)^); end; procedure SysDoneCriticalSection(var cs); begin WinDoneCriticalSection(PRTLCriticalSection(@cs)^); end; procedure SysEnterCriticalSection(var cs); begin WinEnterCriticalSection(PRTLCriticalSection(@cs)^); end; function SysTryEnterCriticalSection(var cs):longint; begin result:=WinTryEnterCriticalSection(PRTLCriticalSection(@cs)^); end; procedure SySLeaveCriticalSection(var cs); begin WinLeaveCriticalSection(PRTLCriticalSection(@cs)^); end; Const wrSignaled = 0; wrTimeout = 1; wrAbandoned= 2; wrError = 3; function intBasicEventCreate(EventAttributes : Pointer; AManualReset,InitialState : Boolean;const Name : ansistring):pEventState; begin Result := PEventState(CreateEvent(EventAttributes, AManualReset, InitialState,Pointer(Name))); end; procedure intbasiceventdestroy(state:peventstate); begin closehandle(THandle(state)); end; procedure intbasiceventResetEvent(state:peventstate); begin ResetEvent(THandle(state)) end; procedure intbasiceventSetEvent(state:peventstate); begin SetEvent(THandle(state)); end; function FirstCoWaitForMultipleHandles(dwFlags, dwTimeout: DWORD; cHandles: uint32; pHandles: PWOHandleArray; out lpdwindex: DWORD): HRESULT; stdcall; forward; var Ole32Dll: THandle = 0; { Unloaded at win32 & win64 system_exit. } CoWaitForMultipleHandlesImpl: function(dwFlags, dwTimeout: DWORD; cHandles: uint32; pHandles: PWOHandleArray; out lpdwindex: DWORD): HRESULT; stdcall = @FirstCoWaitForMultipleHandles; function FirstCoWaitForMultipleHandles(dwFlags, dwTimeout: DWORD; cHandles: uint32; pHandles: PWOHandleArray; out lpdwindex: DWORD): HRESULT; stdcall; var LocalOle32Dll: THandle; begin if Ole32Dll = 0 then begin LocalOle32Dll := WinLoadLibraryW('ole32.dll'); if InterlockedCompareExchange(Pointer(Ole32Dll), Pointer(LocalOle32Dll), nil) <> nil then WinFreeLibrary(LocalOle32Dll); end; CodePointer(CoWaitForMultipleHandlesImpl) := WinGetProcAddress(Ole32Dll, 'CoWaitForMultipleHandles'); Result := CoWaitForMultipleHandlesImpl(dwFlags, dwTimeout, cHandles, pHandles, lpdwindex); end; function CoWaitForMultipleHandles(dwFlags, dwTimeout: DWORD; cHandles: uint32; pHandles: PWOHandleArray; out lpdwindex: DWORD): HRESULT; begin Result := CoWaitForMultipleHandlesImpl(dwFlags, dwTimeout, cHandles, pHandles, lpdwindex); end; function intbasiceventWaitFor(Timeout : Cardinal;state:peventstate;UseCOMWait: Boolean = False) : longint; const COWAIT_DEFAULT = 0; RPC_S_CALLPENDING = HRESULT($80010115); var SignaledIndex : DWORD; begin if UseComWait Then case CoWaitForMultipleHandles(COWAIT_DEFAULT, Timeout, 1, PWOHandleArray(@state), SignaledIndex) of S_OK: Result := wrSignaled; RPC_S_CALLPENDING: Result := wrTimeout; else Result := wrError; end else case WaitForSingleObject(THandle(state), Timeout) of WAIT_OBJECT_0: Result := wrSignaled; WAIT_TIMEOUT: Result := wrTimeout; else result := wrError; { WAIT_FAILED or any other value. Note that only mutex waits can return WAIT_ABANDONED. } end; end; function intRTLEventCreate: PRTLEvent; begin Result := PRTLEVENT(CreateEvent(nil, false, false, nil)); end; procedure intRTLEventDestroy(AEvent: PRTLEvent); begin CloseHandle(THANDLE(AEvent)); end; procedure intRTLEventSetEvent(AEvent: PRTLEvent); begin SetEvent(THANDLE(AEvent)); end; procedure intRTLEventResetEvent(AEvent: PRTLEvent); begin ResetEvent(THANDLE(AEvent)); end; procedure intRTLEventWaitFor(AEvent: PRTLEvent); const INFINITE=dword(-1); begin WaitForSingleObject(THANDLE(AEvent), INFINITE); end; procedure intRTLEventWaitForTimeout(AEvent: PRTLEvent;timeout : longint); begin WaitForSingleObject(THANDLE(AEvent), timeout); end; Procedure InitSystemThreads;public name '_FPC_InitSystemThreads'; var WinThreadManager : TThreadManager; {$ifndef WINCE} KernelHandle : THandle; {$endif} begin With WinThreadManager do begin InitManager :=Nil; DoneManager :=Nil; BeginThread :=@SysBeginThread; EndThread :=@SysEndThread; SuspendThread :=@SysSuspendThread; ResumeThread :=@SysResumeThread; KillThread :=@SysKillThread; ThreadSwitch :=@SysThreadSwitch; CloseThread :=@SysCloseThread; WaitForThreadTerminate :=@SysWaitForThreadTerminate; ThreadSetPriority :=@SysThreadSetPriority; ThreadGetPriority :=@SysThreadGetPriority; GetCurrentThreadId :=@SysGetCurrentThreadId; SetThreadDebugNameA :=@SysSetThreadDebugNameA; SetThreadDebugNameU :=@SysSetThreadDebugNameU; InitCriticalSection :=@SysInitCriticalSection; DoneCriticalSection :=@SysDoneCriticalSection; EnterCriticalSection :=@SysEnterCriticalSection; TryEnterCriticalSection:=@SysTryEnterCriticalSection; LeaveCriticalSection :=@SysLeaveCriticalSection; InitThreadVar :=@SysInitThreadVar; RelocateThreadVar :=@SysRelocateThreadVar; AllocateThreadVars :=@SysAllocateThreadVars; ReleaseThreadVars :=@SysReleaseThreadVars; BasicEventCreate :=@intBasicEventCreate; BasicEventDestroy :=@intBasicEventDestroy; BasicEventResetEvent :=@intBasicEventResetEvent; BasicEventSetEvent :=@intBasicEventSetEvent; BasiceventWaitFor :=@intBasiceventWaitFor; RTLEventCreate :=@intRTLEventCreate; RTLEventDestroy :=@intRTLEventDestroy; RTLEventSetEvent :=@intRTLEventSetEvent; RTLEventResetEvent :=@intRTLEventResetEvent; RTLEventWaitFor :=@intRTLEventWaitFor; RTLEventWaitForTimeout :=@intRTLEventWaitForTimeout; end; SetThreadManager(WinThreadManager); ThreadID := GetCurrentThreadID; {$ifndef FPC_USE_TLS_DIRECTORY} if IsLibrary then {$endif} SysInitTLS; {$ifndef WINCE} KernelHandle:=GetModuleHandle(KernelDLL); {$endif} {$ifndef WINCE} if KernelHandle<>0 then begin WinSetThreadDescription:=TSetThreadDescription(WinGetProcAddress(KernelHandle, 'SetThreadDescription')); end; {$endif WINCE} end;