/*++ Copyright (c) 1996,1997 Microsoft Corporation Module Name: TIMER.C Abstract: Handle adjusting timer resolution for throttling and do thread pool Author: Aaron Ogus (aarono) Environment: Win32 Revision History: Date Author Description ====== ====== ============================================================ 6/04/98 aarono Original --*/ #include #include "newdpf.h" #include #include #include #include #include "mydebug.h" #include "arpd.h" #include "arpdint.h" #include "macros.h" #include "mytimer.h" #define DEFAULT_TIME_RESOLUTION 20 /* ms */ #define MIN_TIMER_THREADS 1 #define MAX_TIMER_THREADS 5 VOID QueueTimeout(PMYTIMER pTimer); DWORD WINAPI TimerWorkerThread(LPVOID foo); // Timer Resolution adjustments; DWORD dwOldPeriod=DEFAULT_TIME_RESOLUTION; DWORD dwCurrentPeriod=DEFAULT_TIME_RESOLUTION; DWORD dwPeriodInUse=DEFAULT_TIME_RESOLUTION; BILINK MyTimerList={&MyTimerList, &MyTimerList}; CRITICAL_SECTION MyTimerListLock; LPFPOOL pTimerPool=NULL; DWORD uWorkaroundTimerID; DWORD twInitCount=0; //number of times init called, only inits on 0->1, deinit on 1->0 DWORD Unique=0; CRITICAL_SECTION ThreadListLock; // locks ALL this stuff. BILINK ThreadList={&ThreadList,&ThreadList}; // ThreadPool grabs work from here. DWORD nThreads=0; // number of running threads. DWORD ActiveReq=0; // number of requests being processed. DWORD PeakReqs=0; DWORD bShutDown=FALSE; DWORD bAlreadyCleanedUp=FALSE; DWORD KillCount=0; DWORD ExtraSignals=0; HANDLE hWorkToDoSem; HANDLE hShutDownPeriodicTimer; DWORD_PTR uAdjustResTimer=0; DWORD AdjustResUnique=0; DWORD_PTR uAdjustThreadsTimer=0; DWORD AdjustThreadsUnique=0; // Sometimes scheduled retry timers don't run. This runs every 10 seconds to catch // timers that should have been expired. void CALLBACK PeriodicTimer (UINT uID, UINT uMsg, DWORD_PTR dwUser, DWORD_PTR dw1, DWORD_PTR dw2) { DWORD time; PMYTIMER pTimerWalker; BILINK *pBilink; DWORD dwReleaseCount=0; DWORD slowcount=0; if(bShutDown){ if(!InterlockedExchange(&bAlreadyCleanedUp,1)){ while(nThreads && slowcount < (60000/50)){ // don't wait more than 60 seconds. slowcount++; Sleep(50); } if(!nThreads){ // better to leak than to crash. DeleteCriticalSection(&MyTimerListLock); DeleteCriticalSection(&ThreadListLock); } timeKillEvent(uID); ASSERT(hShutDownPeriodicTimer); SetEvent(hShutDownPeriodicTimer); } return; } time=timeGetTime()+(dwCurrentPeriod/2); Lock(&MyTimerListLock); Lock(&ThreadListLock); pBilink=MyTimerList.next; while(pBilink!=&MyTimerList){ pTimerWalker=CONTAINING_RECORD(pBilink, MYTIMER, Bilink); pBilink=pBilink->next; if(((INT)(time-pTimerWalker->TimeOut) > 0)){ Delete(&pTimerWalker->Bilink); InsertBefore(&pTimerWalker->Bilink, &ThreadList); pTimerWalker->TimerState=QueuedForThread; dwReleaseCount++; } else { break; } } ActiveReq += dwReleaseCount; if(ActiveReq > PeakReqs){ PeakReqs=ActiveReq; } ReleaseSemaphore(hWorkToDoSem,dwReleaseCount,NULL); Unlock(&ThreadListLock); Unlock(&MyTimerListLock); } #define min(a,b) (((a) < (b)) ? (a) : (b)) VOID CALLBACK AdjustTimerResolution(UINT_PTR uID, UINT uMsg, DWORD_PTR dwUser, DWORD dw1, DWORD dw2) { DWORD dwWantPeriod; dwWantPeriod=min(dwCurrentPeriod,dwOldPeriod); dwOldPeriod=dwCurrentPeriod; dwCurrentPeriod=DEFAULT_TIME_RESOLUTION; if(dwPeriodInUse != dwWantPeriod){ dwPeriodInUse=dwWantPeriod; timeKillEvent(uWorkaroundTimerID); uWorkaroundTimerID=timeSetEvent(dwPeriodInUse, dwPeriodInUse, PeriodicTimer, 0, TIME_PERIODIC); } uAdjustResTimer=SetMyTimer(1000,500,AdjustTimerResolution,0,&AdjustResUnique); } VOID CALLBACK AdjustThreads(UINT_PTR uID, UINT uMsg, DWORD_PTR dwUser, DWORD dw1, DWORD dw2) { Lock(&ThreadListLock); if((PeakReqs < nThreads) && nThreads){ KillCount=nThreads-PeakReqs; ReleaseSemaphore(hWorkToDoSem, KillCount, NULL); } PeakReqs=0; Unlock(&ThreadListLock); uAdjustThreadsTimer=SetMyTimer(60000,500,AdjustThreads,0,&AdjustThreadsUnique); } VOID SetTimerResolution(UINT msResolution) { if(!msResolution || msResolution >= 20){ return; } if(msResolution < dwCurrentPeriod){ dwCurrentPeriod=msResolution; } } DWORD_PTR SetMyTimer(DWORD dwTimeOut, DWORD TimerRes, MYTIMERCALLBACK TimerCallBack, DWORD_PTR UserContext, PUINT pUnique) { BILINK *pBilink; PMYTIMER pMyTimerWalker,pTimer; DWORD time; BOOL bInserted=FALSE; pTimer=pTimerPool->Get(pTimerPool); if(!pTimer){ *pUnique=0; return 0; } pTimer->CallBack=TimerCallBack; pTimer->Context=UserContext; SetTimerResolution(TimerRes); Lock(&MyTimerListLock); ++Unique; if(Unique==0){ ++Unique; } *pUnique=Unique; pTimer->Unique=Unique; time=timeGetTime(); pTimer->TimeOut=time+dwTimeOut; pTimer->TimerState=WaitingForTimeout; // Insert this guy in the list by timeout time. pBilink=MyTimerList.prev; while(pBilink != &MyTimerList){ pMyTimerWalker=CONTAINING_RECORD(pBilink, MYTIMER, Bilink); pBilink=pBilink->prev; if((int)(pTimer->TimeOut-pMyTimerWalker->TimeOut) > 0 ){ InsertAfter(&pTimer->Bilink, &pMyTimerWalker->Bilink); bInserted=TRUE; break; } } if(!bInserted){ InsertAfter(&pTimer->Bilink, &MyTimerList); } Unlock(&MyTimerListLock); return (DWORD_PTR)pTimer; } HRESULT CancelMyTimer(DWORD_PTR dwTimer, DWORD Unique) { PMYTIMER pTimer=(PMYTIMER)dwTimer; HRESULT hr=DPERR_GENERIC; Lock(&MyTimerListLock); Lock(&ThreadListLock); if(pTimer->Unique == Unique){ switch(pTimer->TimerState){ case WaitingForTimeout: Delete(&pTimer->Bilink); pTimer->TimerState=End; pTimer->Unique=0; pTimerPool->Release(pTimerPool, pTimer); hr=DP_OK; break; case QueuedForThread: Delete(&pTimer->Bilink); pTimer->TimerState=End; pTimer->Unique=0; pTimerPool->Release(pTimerPool, pTimer); if(ActiveReq)ActiveReq--; ExtraSignals++; hr=DP_OK; break; default: break; } } Unlock(&ThreadListLock); Unlock(&MyTimerListLock); return hr; } HRESULT InitTimerWorkaround() { DWORD dwJunk; HANDLE hWorker=NULL; if(twInitCount++){//DPLAY LOCK HELD DURING CALL return DP_OK; } pTimerPool=NULL; nThreads=0; // number of running threads. ActiveReq=0; // number of requests being processed. PeakReqs=0; bShutDown=FALSE; KillCount=0; ExtraSignals=0; bAlreadyCleanedUp=FALSE; hWorkToDoSem=0; hShutDownPeriodicTimer=0; uAdjustResTimer=0; uAdjustThreadsTimer=0; uWorkaroundTimerID=0; hWorkToDoSem=CreateSemaphoreA(NULL,0,65535,NULL); hShutDownPeriodicTimer=CreateEventA(NULL,FALSE,FALSE,NULL); InitializeCriticalSection(&MyTimerListLock); InitializeCriticalSection(&ThreadListLock); pTimerPool=FPM_Init(sizeof(MYTIMER),NULL,NULL,NULL); if(!hWorkToDoSem || !pTimerPool || !hShutDownPeriodicTimer){ FiniTimerWorkaround(); return DPERR_OUTOFMEMORY; } uWorkaroundTimerID=timeSetEvent(DEFAULT_TIME_RESOLUTION, DEFAULT_TIME_RESOLUTION, PeriodicTimer, 0, TIME_PERIODIC); if(!uWorkaroundTimerID){ FiniTimerWorkaround(); return DPERR_OUTOFMEMORY; } nThreads=1; hWorker=CreateThread(NULL,4096, TimerWorkerThread, NULL, 0, &dwJunk); if(!hWorker){ nThreads=0; FiniTimerWorkaround(); return DPERR_OUTOFMEMORY; } CloseHandle(hWorker); uAdjustResTimer=SetMyTimer(1000,500,AdjustTimerResolution,0,&AdjustResUnique); uAdjustThreadsTimer=SetMyTimer(60000,500,AdjustThreads,0,&AdjustThreadsUnique); return DP_OK; } VOID FiniTimerWorkaround() { UINT slowcount=0; BILINK *pBilink; PMYTIMER pTimer; if(--twInitCount){ //DPLAY LOCK HELD DURING CALL return; } if(uAdjustResTimer){ CancelMyTimer(uAdjustResTimer, AdjustResUnique); } if(uAdjustThreadsTimer){ CancelMyTimer(uAdjustThreadsTimer, AdjustThreadsUnique); } //ASSERT_EMPTY_BILINK(&MyTimerList); //ASSERT_EMPTY_BILINK(&ThreadList); bShutDown=TRUE; ReleaseSemaphore(hWorkToDoSem,10000,NULL); while(nThreads && slowcount < (60000/50)){ // don't wait more than 60 seconds. slowcount++; Sleep(50); } if(uWorkaroundTimerID){ if(hShutDownPeriodicTimer){ WaitForSingleObject(hShutDownPeriodicTimer,INFINITE); } } else { DeleteCriticalSection(&MyTimerListLock); DeleteCriticalSection(&ThreadListLock); } if(hShutDownPeriodicTimer){ CloseHandle(hShutDownPeriodicTimer); } CloseHandle(hWorkToDoSem); while(!EMPTY_BILINK(&MyTimerList)){ pBilink=MyTimerList.next; pTimer=CONTAINING_RECORD(pBilink, MYTIMER, Bilink); pTimer->Unique=0; pTimer->TimerState=End; Delete(&pTimer->Bilink); pTimerPool->Release(pTimerPool, pTimer); } while(!EMPTY_BILINK(&MyTimerList)){ pBilink=ThreadList.next; pTimer=CONTAINING_RECORD(pBilink, MYTIMER, Bilink); pTimer->Unique=0; pTimer->TimerState=End; Delete(&pTimer->Bilink); pTimerPool->Release(pTimerPool, pTimer); } if(pTimerPool){ pTimerPool->Fini(pTimerPool,FALSE); pTimerPool=NULL; } } DWORD WINAPI TimerWorkerThread(LPVOID foo) { BILINK *pBilink; PMYTIMER pTimer; HANDLE hNewThread; DWORD dwJunk; while (1){ WaitForSingleObject(hWorkToDoSem, INFINITE); Lock(&ThreadListLock); if(bShutDown || (KillCount && nThreads > 1)){ nThreads--; if(KillCount && !bShutDown){ KillCount--; } Unlock(&ThreadListLock); break; } if(ExtraSignals){ ExtraSignals--; Unlock(&ThreadListLock); continue; } if(KillCount){ KillCount--; Unlock(&ThreadListLock); continue; } if(ActiveReq > nThreads && nThreads < MAX_TIMER_THREADS){ nThreads++; hNewThread=CreateThread(NULL,4096, TimerWorkerThread, NULL, 0, &dwJunk); if(hNewThread){ CloseHandle(hNewThread); } else { nThreads--; } } pBilink=ThreadList.next; if(pBilink == &ThreadList) { Unlock(&ThreadListLock); continue; }; Delete(pBilink); // pull off the list. pTimer=CONTAINING_RECORD(pBilink, MYTIMER, Bilink); // Call a callback pTimer->TimerState=InCallBack; Unlock(&ThreadListLock); (pTimer->CallBack)((UINT_PTR)pTimer, 0, pTimer->Context, 0, 0); pTimer->Unique=0; pTimer->TimerState=End; pTimerPool->Release(pTimerPool, pTimer); Lock(&ThreadListLock); if(ActiveReq)ActiveReq--; Unlock(&ThreadListLock); } return 0; }