//============================================================================= // Copyright (c) 1997 Microsoft Corporation // File Name: igmptimer.c // // Abstract: This module implements the igmptimer // // Author: K.S.Lokesh (lokeshs@) 11-1-97 // // Revision History: //============================================================================= #include "pchigmp.h" #if DEBUG_TIMER_LEVEL & DEBUG_TIMER_TIMERID DWORD TimerId =0; #endif //------------------------------------------------------------------------------ // // FUNCTION PROTOTYPES USED ONLY IN THIS FILE // VOID SetNextTime( LONGLONG llCurTime, DWORD dwLowIndex ); VOID ResyncTimerBuckets( LONGLONG llCurTime ); VOID InsertTimerInSortedList( PIGMP_TIMER_ENTRY pteNew, PLIST_ENTRY pHead ); //------------------------------------------------------------------------------ // // #DEFINES USED ONLY IN THIS FILE // // //approx 16 secs in each bucket: //it is approx not accurate as I divide by 2^10 instead of 1000 //TIMER_BUCKET_GRANULARITY should be 2^TIMER_BUCKET_GRANULARITY_SHIFT // #define TIMER_BUCKET_GRANULARITY 16 #define TIMER_BUCKET_GRANULARITY_SHIFT 4 #define SEC_CONV_SHIFT 10 #define TIMER_BUCKET_GRANULARITY_ABS \ ((LONGLONG) (1 << (TIMER_BUCKET_GRANULARITY_SHIFT + SEC_CONV_SHIFT) )) #define MAP_TO_BUCKET(dwBucket, ilTime) \ dwBucket = (DWORD) (((ilTime)-g_TimerStruct.SyncTime) \ >> (TIMER_BUCKET_GRANULARITY_SHIFT+SEC_CONV_SHIFT)); \ dwBucket = dwBucket>NUM_TIMER_BUCKETS-1? NUM_TIMER_BUCKETS-1: dwBucket // I fire a timer even if it is set to 10 millisec in the future. #define FORWARD_TIMER_FIRED 10 //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // _InsertTimer // // Inserts a timer into the local timer queue. Time should always be relative. // // Locks: Assumes lock taken on ptg->CS //------------------------------------------------------------------------------ DWORD InsertTimer ( PIGMP_TIMER_ENTRY pte, LONGLONG llNewTime, BOOL bResync ) { LONGLONG llCurTime = GetCurrentIgmpTime(); PIGMP_TIMER_GLOBAL ptg; DWORD dwBucket, Error = NO_ERROR; // InsertTimer shouldnt be called when time is active if (pte->Status & TIMER_STATUS_ACTIVE) { Trace0(ERR, "ERROR: INSERT TIMER BEING CALLED INSTEAD OF UPDATE TIMER"); UpdateLocalTimer(pte, llNewTime); return NO_ERROR; } Trace0(ENTER1, "_InsertTimer()"); // print the queue before inserting the timer #if DEBUG_TIMER_INSERTTIMER1 Trace0(TIMER1, "Printing Timer Queue before InsertTimer"); DebugPrintTimerQueue(); #endif ptg = &g_TimerStruct; // convert relative time to absolute time llNewTime += llCurTime; pte->Timeout = llNewTime; MAP_TO_BUCKET(dwBucket, pte->Timeout); // print info about the timer being inserted #if DEBUG_TIMER_ACTIVITY { DWORD dwBucket, dwDiffTime; CHAR str1[20], str2[20]; MAP_TO_BUCKET(dwBucket, pte->Timeout); GetTimerDebugInfo(str1, str2, &dwDiffTime, pte, llCurTime); Trace7(TIMER, "Inserting timer <%d><%d><%d> Timeout:%lu <%s> " "<%s> Status:%d", dwBucket, pte->Id, pte->Id2, dwDiffTime, str1, str2, pte->Status); } #endif // // insert timer in appropriate list // if (dwBucket==0) { // bucket 0 contains a sorted list InsertTimerInSortedList(pte, &ptg->TimesTable[0]); } else { InsertTailList(&ptg->TimesTable[dwBucket], &pte->Link); } ptg->NumTimers++; ptg->TableLowIndex = ptg->TableLowIndexTableLowIndex : dwBucket; //resynchronize timer list if (bResync) { if ( (ptg->TableLowIndex!=0) && (ptg->SyncTime + TIMER_BUCKET_GRANULARITY_ABS < llCurTime) ) { ResyncTimerBuckets(llCurTime); } } // // if time being inserted is lower than the minimum, then update wait timer // if ((IS_TIMER_INFINITE(ptg->WTTimeout)) || (pte->Timeout<=ptg->WTTimeout)) { ptg->WTTimeout = pte->Timeout; if (!IS_TIMER_INFINITE(ptg->WTTimeout)) { BOOL bSuccess ; bSuccess = ChangeTimerQueueTimer(ptg->WTTimer, ptg->WTTimer1, (ULONG) ((ptg->WTTimeout - llCurTime)), 1000000 // set a periodic timer ); if (!bSuccess) { Error = GetLastError(); Trace1(ERR, "ChangeTimerQueueTimer returned error:%d", Error); } else Trace1(TIMER1, "ChangeTimerQueueTimer set to %lu", (ULONG) ((ptg->WTTimeout - llCurTime))/1000); } } pte->Status = TIMER_STATUS_ACTIVE; #if EXTEND_DEBUG_INSERTTIMER2 Trace0(TIMER1, "Printing Timer Queue after _InsertTimer"); DebugPrintTimerQueue(); #endif Trace0(LEAVE1, "Leaving _InsertTimer()"); return NO_ERROR; } //end _InsertTimer //------------------------------------------------------------------------------ // _UpdateLocalTimer // // Change the time in a timer structure and (re)insert it in the timer queue. // Locks: Assumes lock on the global timer //------------------------------------------------------------------------------ VOID UpdateLocalTimer ( PIGMP_TIMER_ENTRY pte, LONGLONG llNewTime ) { Trace0(ENTER1, "_UpdateLocalTimer():"); if (!(pte->Status&TIMER_STATUS_ACTIVE)) Trace0(ERR, "ERROR: UPDATE BEING CALLED INSTEAD OF INSERT TIMER"); // print info about the timer being updated #if DEBUG_TIMER_ACTIVITY { DWORD dwBucket, dwDiffTime; CHAR str1[20], str2[20]; LONGLONG llCurTime = GetCurrentIgmpTime(); MAP_TO_BUCKET(dwBucket, pte->Timeout); GetTimerDebugInfo(str1, str2, &dwDiffTime, pte, llCurTime); Trace8(TIMER, "Updating timer <%d><%d><%d> Timeout:%lu <%s> <%s> " "to %d Status:%d", dwBucket, pte->Id, pte->Id2, dwDiffTime, str1, str2, (DWORD)llNewTime, pte->Status); } #endif // first remote the timer if (pte->Status&TIMER_STATUS_ACTIVE) { RemoveTimer(pte); } // now insert the timer back into the timer queue. Resync flag is set InsertTimer(pte, llNewTime, TRUE); Trace0(LEAVE1, "_UpdateLocalTimer()"); return; } //------------------------------------------------------------------------------ // _RemoveTimer // // Removes the timer from the list. Changes the status of the timer to CREATED. // Assumes global timer lock. //------------------------------------------------------------------------------ VOID RemoveTimer ( PIGMP_TIMER_ENTRY pte ) { LONGLONG llCurTime = GetCurrentIgmpTime(); PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; Trace0(ENTER1, "_RemoveTimer()"); // print info about the timer being removed #if DEBUG_TIMER_REMOVETIMER1 { DWORD dwBucket, dwDiffTime; CHAR str1[20], str2[20]; MAP_TO_BUCKET(dwBucket, pte->Timeout); GetTimerDebugInfo(str1, str2, &dwDiffTime, pte, llCurTime); Trace7(TIMER, "Removing timer <%d><%d><%d> Timeout:%lu <%s> <%s> " "Status:%d", dwBucket, pte->Id, pte->Id2, dwDiffTime, str1, str2, pte->Status); } #endif // remove the timer from the timer queue and decrement the number of timers RemoveEntryList(&pte->Link); ptg->NumTimers--; // reset the minimum timeout for the timer queue, if this timer was the min if (pte->Timeout==ptg->WTTimeout) { SetNextTime(llCurTime, ptg->TableLowIndex); } // reset the timer status to created pte->Status = TIMER_STATUS_CREATED; // print timer queue #if DEBUG_TIMER_REMOVETIMER2 Trace0(TIMER1, "Printing Timer Queue after _RemoveTimer"); DebugPrintTimerQueue(); #endif Trace0(LEAVE1, "Leaving _RemoveTimer()"); return; } //------------------------------------------------------------------------------ // _SetNextTime // called when a timer==WTTimeout has been removed or fired,used to set the // next min time. //------------------------------------------------------------------------------ VOID SetNextTime ( LONGLONG llCurTime, DWORD dwLowIndex ) { PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; PIGMP_TIMER_ENTRY pte, pteMin; LONGLONG ilMinTime; PLIST_ENTRY pHead, ple; DWORD Error = NO_ERROR; Trace0(ENTER1, "entering _SetNextTime()"); // // if timer list empty, set lowIndex, and timer to infinite, and return. // if (ptg->NumTimers==0) { ptg->TableLowIndex = (DWORD)~0; SET_TIMER_INFINITE(ptg->WTTimeout); ptg->Status = TIMER_STATUS_INACTIVE; return; } // // find lowest table index having an entry // if (dwLowIndex>NUM_TIMER_BUCKETS-1) dwLowIndex = 0; for (; dwLowIndex<=NUM_TIMER_BUCKETS-1; dwLowIndex++) { if (IsListEmpty(&ptg->TimesTable[dwLowIndex]) ) continue; else break; } ptg->TableLowIndex = dwLowIndex; // // find timer entry with the lowest time // if (dwLowIndex==0) { pteMin = CONTAINING_RECORD(ptg->TimesTable[0].Flink, IGMP_TIMER_ENTRY, Link); } else { // except bucket[0], other buckets are not sorted pHead = &ptg->TimesTable[dwLowIndex]; ilMinTime = (((LONGLONG)0x7FFFFFF)<<32)+ ~0; for (ple=pHead->Flink; ple!=pHead; ple=ple->Flink) { pte = CONTAINING_RECORD(ptg->TimesTable[dwLowIndex].Flink, IGMP_TIMER_ENTRY, Link); if (pte->TimeoutTimeout; pteMin = pte; } } } // // update global time // if ((IS_TIMER_INFINITE(ptg->WTTimeout)) || (pteMin->Timeout<=ptg->WTTimeout)) { ptg->WTTimeout = pteMin->Timeout; if (!IS_TIMER_INFINITE(ptg->WTTimeout)) { BOOL bSuccess ; bSuccess = ChangeTimerQueueTimer(ptg->WTTimer, ptg->WTTimer1, (ULONG) ((ptg->WTTimeout - llCurTime)), 1000000 // set a periodic timer ); if (!bSuccess) { Error = GetLastError(); Trace1(ERR, "ChangeTimerQueueTimer returned error:%d in SetNextTime", Error); } else Trace1(TIMER1, "ChangeTimerQueueTimer set to %lu", (ULONG) ((ptg->WTTimeout - llCurTime))/1000); } ptg->Status = TIMER_STATUS_ACTIVE; } // // resynchronize timer list if required // if ( (ptg->TableLowIndex!=0) && (ptg->SyncTime + TIMER_BUCKET_GRANULARITY_ABS > llCurTime) ) { ResyncTimerBuckets(llCurTime); } Trace0(LEAVE1, "_SetNextTime()"); return; } //end _SetNextTime //------------------------------------------------------------------------------ // _InitializeIgmpTime // Initialize the igmp absolute timer //------------------------------------------------------------------------------ VOID InitializeIgmpTime( ) { g_TimerStruct.CurrentTime.HighPart = 0; g_TimerStruct.CurrentTime.LowPart = GetTickCount(); return; } //------------------------------------------------------------------------------ // _GetCurrentIgmpTimer // uses GetTickCount(). converts it into 64 bit absolute timer. //------------------------------------------------------------------------------ LONGLONG GetCurrentIgmpTime( ) { ULONG ulCurTimeLow = GetTickCount(); // // see if timer has wrapped // // since multi-threaded, it might get preempted and CurrentTime // might get lower than the global variable g_TimerStruct.CurrentTime.LowPart // which might be set by another thread. So we also explicitly verify the // switch from a very large DWORD to a small one. // (code thanks to murlik&jamesg) // if ( (ulCurTimeLow < g_TimerStruct.CurrentTime.LowPart) && ((LONG)g_TimerStruct.CurrentTime.LowPart < 0) && ((LONG)ulCurTimeLow > 0) ) { // use global CS instead of creating a new CS ACQUIRE_GLOBAL_LOCK("_GetCurrentIgmpTime"); // make sure that the global timer has not been updated meanwhile if ( (LONG)g_TimerStruct.CurrentTime.LowPart < 0) { g_TimerStruct.CurrentTime.HighPart++; g_TimerStruct.CurrentTime.LowPart = ulCurTimeLow; } RELEASE_GLOBAL_LOCK("_GetCurrentIgmpTime"); } g_TimerStruct.CurrentTime.LowPart = ulCurTimeLow; return g_TimerStruct.CurrentTime.QuadPart; } //------------------------------------------------------------------------------ // _WF_ProcessTimerEvent // // Processes the timer queue, firing events and sets the next timer at the end. // Is queued by the Wait Server Thread. // // Locks: Acquires global timer lock before entering into the timer queue. //------------------------------------------------------------------------------ VOID WF_ProcessTimerEvent ( PVOID pContext ) { PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; LONGLONG ilDiffTime, llCurTime = GetCurrentIgmpTime(); DWORD Error = NO_ERROR; PLIST_ENTRY pHead, ple; PIGMP_TIMER_ENTRY pte; LONGLONG llFiredTimeout; if (!EnterIgmpWorker()) {return;} Trace0(ENTER1, "Entering _WF_ProcessTimerEvent"); // acquire timer lock ACQUIRE_TIMER_LOCK("_WF_ProcessTimerEvent"); // print the timer queue #if DEBUG_TIMER_PROCESSQUEUE1 Trace0(TIMER1, "Printing Timer Queue before processing the timer queue"); DebugPrintTimerQueue(); #endif BEGIN_BREAKOUT_BLOCK1 { // I fire a timer if it is set to within + FORWARD_TIMER_FIRED from now llFiredTimeout = llCurTime + FORWARD_TIMER_FIRED; // if there are no timers, then I am done if (ptg->NumTimers<1) { Trace1(TIMER1, "Num timers%d less than 1 in _WF_ProcessTimerEvent", ptg->NumTimers); GOTO_END_BLOCK1; } // // find all the timers with lower timeouts and fire callbacks in my context // for ( ; ptg->TableLowIndex <= NUM_TIMER_BUCKETS-1; ptg->TableLowIndex++) { pHead = &ptg->TimesTable[ptg->TableLowIndex]; for (ple=pHead->Flink; ple!=pHead; ) { pte = CONTAINING_RECORD(ple, IGMP_TIMER_ENTRY, Link); ple = ple->Flink; // this timer is fired if (pte->Timeout < llFiredTimeout) { RemoveEntryList(&pte->Link); pte->Status = TIMER_STATUS_FIRED; ptg->NumTimers --; //or should i queue to other worker threads (pte->Function)(pte->Context); } else { if (ptg->TableLowIndex==0) //only the 1st bucket is sorted break; } } // if any bucket is empty, then I am done, as I start with LowIndex if (!IsListEmpty(&ptg->TimesTable[ptg->TableLowIndex])) break; } //end for loop if ( (ptg->TableLowIndex!=0) && (ptg->SyncTime + TIMER_BUCKET_GRANULARITY_ABS < llCurTime) ) { ResyncTimerBuckets(llCurTime); } // // set the next lowest time // SET_TIMER_INFINITE(ptg->WTTimeout); SetNextTime(llCurTime, ptg->TableLowIndex); } END_BREAKOUT_BLOCK1; // print the timer queue #if DEBUG_TIMER_PROCESSQUEUE2 Trace0(TIMER1, "Printing Timer Queue after processing the timer queue"); DebugPrintTimerQueue(); #endif RELEASE_TIMER_LOCK("_WF_ProcessTimerEvent"); Trace0(LEAVE1, "Leaving _WF_ProcessTimerEvent()"); LeaveIgmpWorker(); return ; } //end _WF_ProcessTimerEvent //------------------------------------------------------------------------------ // WT_ProcessTimerEvent // // Callback: fired when the timer set by this dll is timed out by the NtdllTimer //------------------------------------------------------------------------------ VOID WT_ProcessTimerEvent ( PVOID pContext, BOOLEAN Unused ) { //enter/leaveIgmpApi not required as the timer queue is persistent Trace0(ENTER1, "Entering _WT_ProcessTimerEvent()"); QueueIgmpWorker((LPTHREAD_START_ROUTINE)WF_ProcessTimerEvent, pContext); Trace0(LEAVE1, "Leaving _WT_ProcessTimerEvent()"); return; } //------------------------------------------------------------------------------ // _InsertTimerInSortedList // Used to insert a timer in the sorted bucket=0 //------------------------------------------------------------------------------ VOID InsertTimerInSortedList( PIGMP_TIMER_ENTRY pteNew, PLIST_ENTRY pHead ) { PLIST_ENTRY ple; PIGMP_TIMER_ENTRY pte; LONGLONG llNewTime; llNewTime = pteNew->Timeout; for (ple=pHead->Flink; ple!=pHead; ple=ple->Flink) { pte = CONTAINING_RECORD(ple, IGMP_TIMER_ENTRY, Link); if (llNewTime<= pte->Timeout) break; } InsertTailList(ple, &pteNew->Link); return; } //------------------------------------------------------------------------------ // _ResyncTimerBuckets // // Called during insert: when the 1st bucket is empty, and other buckets have // to be moved left //------------------------------------------------------------------------------ VOID ResyncTimerBuckets( LONGLONG llCurTime ) { PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; PLIST_ENTRY pHead, ple, pleCur; LIST_ENTRY le; PIGMP_TIMER_ENTRY pte; LONGLONG lastBucketTime; DWORD numShift, dwCount, dwBucket, i, j; TraceEnter("_ResyncTimerBuckets()"); // // SyncTime should always be <= to currentTime // numShift = 0; while (ptg->SyncTime+TIMER_BUCKET_GRANULARITY_ABS <= llCurTime) { if (!IsListEmpty(&ptg->TimesTable[numShift])) break; ptg->SyncTime += TIMER_BUCKET_GRANULARITY_ABS; numShift++; } if (numShift==0) return; // // shift all buckets left, except for the last bucket and reinitialize the // list heads // for (i=0,j=numShift; iTimesTable[j])) { ptg->TimesTable[j].Flink = ptg->TimesTable[j].Blink = &ptg->TimesTable[i]; } else { ptg->TimesTable[j].Flink->Blink = &ptg->TimesTable[i]; ptg->TimesTable[j].Blink->Flink = &ptg->TimesTable[i]; } } MoveMemory( (PVOID)&(ptg->TimesTable[0]), (VOID *)&(ptg->TimesTable[numShift]), (sizeof(LIST_ENTRY) * (NUM_TIMER_BUCKETS-1-numShift)) ); for (dwCount=1; dwCount<=numShift; dwCount++) InitializeListHead(&ptg->TimesTable[NUM_TIMER_BUCKETS-1-dwCount]); // // go through the last bucket and redistribute it // lastBucketTime = ptg->SyncTime + (TIMER_BUCKET_GRANULARITY_ABS*(NUM_TIMER_BUCKETS-1)); pHead = &ptg->TimesTable[NUM_TIMER_BUCKETS-1]; for (ple=pHead->Flink; ple!=pHead; ) { pte = CONTAINING_RECORD(ple, IGMP_TIMER_ENTRY, Link); pleCur = ple; ple = ple->Flink; if (pte->TimeoutTimeout); if (dwBucket==0) { InsertTimerInSortedList(pte, &ptg->TimesTable[0]); } else { InsertTailList(&ptg->TimesTable[dwBucket], pleCur); } } } // // sort the times in the first bucket // InitializeListHead(&le); InsertHeadList(&ptg->TimesTable[0], &le); RemoveEntryList(&ptg->TimesTable[0]); InitializeListHead(&ptg->TimesTable[0]); for (ple=le.Flink; ple!=≤ ) { pte = CONTAINING_RECORD(ple, IGMP_TIMER_ENTRY, Link); RemoveEntryList(ple); ple = ple->Flink; InsertTimerInSortedList(pte, &ptg->TimesTable[0]); } // // set the TableLowIndex // if (ptg->TableLowIndex>=NUM_TIMER_BUCKETS-1) { for (ptg->TableLowIndex=0; ptg->TableLowIndex<=NUM_TIMER_BUCKETS-1; ptg->TableLowIndex++) { if (IsListEmpty(&ptg->TimesTable[ptg->TableLowIndex]) ) continue; else break; } } else ptg->TableLowIndex -= numShift; #if DEBUG_TIMER_RESYNCTIMER Trace0(TIMER1, "Printing Timer Queue after _ResyncTimerBuckets"); DebugPrintTimerQueue(); #endif Trace0(LEAVE1, "_ResyncTimerBuckets()"); return; } //end _ResyncTimerBuckets //------------------------------------------------------------------------------ // _InitializeTimerGlobal // // create the timer CS and WaitTimer. registers a queue and timer with NtdllTimer. // // Called by: _StartProtocol() // Locks: no locks taken here. //------------------------------------------------------------------------------ DWORD InitializeTimerGlobal ( ) { DWORD Error = NO_ERROR, i; PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; BOOL bErr; LONGLONG llCurTime = GetTickCount(); Trace0(ENTER1, "Entering _InitializeTimerGlobal()"); bErr = TRUE; BEGIN_BREAKOUT_BLOCK1 { // initialize igmp timer used to get tick count InitializeIgmpTime(); // // initialize timer critical section // try { InitializeCriticalSection(&ptg->CS); } except (EXCEPTION_EXECUTE_HANDLER) { Error = GetExceptionCode(); Trace1( ANY, "exception %d initializing global timer critical section", Error ); Logerr0(INIT_CRITSEC_FAILED, Error); GOTO_END_BLOCK1; } // create WaitTimer for igmp ptg->WTTimer = CreateTimerQueue(); if ( ! ptg->WTTimer) { Error = GetLastError(); Trace1(ERR, "CreateTimerQueue() failed:%d", Error); GOTO_END_BLOCK1; } // // create a periodic timer which does not get deletd // if (! CreateTimerQueueTimer( &ptg->WTTimer1, ptg->WTTimer, WT_ProcessTimerEvent, NULL, //context 1000000, 1000000, 0 )) { Error = GetLastError(); Trace1(ERR, "CreateTimerQueue() failed:%d", Error); GOTO_END_BLOCK1; } // set initial timeout to infinite, and SyncTime to the current time SET_TIMER_INFINITE(ptg->WTTimeout); ptg->SyncTime = llCurTime; ptg->CurrentTime.QuadPart = llCurTime; ptg->NumTimers = 0; // initialize the timer buckets for (i=0; iTimesTable[i]); } // set the TableLowIndex ptg->TableLowIndex = (DWORD)~0; // set the status of the global timer ptg->Status = TIMER_STATUS_CREATED; bErr = FALSE; } END_BREAKOUT_BLOCK1; if (bErr) { DeInitializeTimerGlobal(); Trace0(LEAVE1, "Leaving. Could not _InitializeTimerGlobal():"); return ERROR_CAN_NOT_COMPLETE; } else { Trace0(LEAVE1, "Leaving _InitializeTimerGlobal()"); return NO_ERROR; } } //end _InitializeTimerGlobal //------------------------------------------------------------------------------ // _DeInitializeTimerGlobal // // deinitializes the timer CS, and deletes the timer queue with Rtl //------------------------------------------------------------------------------ VOID DeInitializeTimerGlobal ( ) { DeleteCriticalSection(&g_TimerStruct.CS); DeleteTimerQueueEx(g_TimerStruct.WTTimer, NULL); return; } //end _DeInitializeTimerGlobal //------------------------------------------------------------------------------ // _DebugPrintTimerEntry // // Assumes DEBUG_TIMER_TIMERID is true //------------------------------------------------------------------------------ VOID DebugPrintTimerEntry ( PIGMP_TIMER_ENTRY pte, DWORD dwBucket, LONGLONG llCurTime ) { DWORD dwDiffTime; CHAR str1[20], str2[20]; #if DEBUG_TIMER_TIMERID if (dwBucket==(DWORD)~0) { MAP_TO_BUCKET(dwBucket, pte->Timeout); } GetTimerDebugInfo(str1, str2, &dwDiffTime, pte, llCurTime); if (pte->Timeout - llCurTime > 0) { Trace7(TIMER, "---- <%2d><%d><%d> Timeout:%lu <%s> <%s> Status:%d", dwBucket, pte->Id, pte->Id2, dwDiffTime, str1, str2, pte->Status); } else { Trace7(TIMER, "---- <%d><%d><%d> Timeout:--%lu <%s> <%s> Status:%d", dwBucket, pte->Id, pte->Id2, dwDiffTime, str1, str2, pte->Status); } #endif //#if DEBUG_TIMER_TIMERID return; } //------------------------------------------------------------------------------ // _GetTimerDebugInfo // // returns info regarding what type of timer it is //------------------------------------------------------------------------------ VOID GetTimerDebugInfo( CHAR str1[20], CHAR str2[20], DWORD *pdwDiffTime, PIGMP_TIMER_ENTRY pte, LONGLONG llCurTime ) { LONGLONG diffTime; #if DEBUG_TIMER_TIMERID diffTime = (pte->Timeout - llCurTime > 0) ? pte->Timeout - llCurTime : llCurTime - pte->Timeout; diffTime /= (LONGLONG)1000; //in seconds *pdwDiffTime = (DWORD)diffTime; strcpy(str2, " "); switch (pte->Id) { case 110: case 120: strcpy(str1, "iGenQuery "); break; case 210: case 220: strcpy(str1, "iOtherQry "); break; case 211: strcpy(str1, "iOtherQry* "); break; case 331: case 321: strcpy(str1, "gMemTimer* "); lstrcpy(str2, INET_NTOA(pte->Group)); break; case 300: case 320: case 330: case 340: strcpy(str1, "gMemTimer "); lstrcpy(str2, INET_NTOA(pte->Group)); break; case 400: case 410: case 420: strcpy(str1, "gGrpSpQry "); lstrcpy(str2, INET_NTOA(pte->Group)); break; case 510: case 520: strcpy(str1, "gLstV1Rpt "); lstrcpy(str2, INET_NTOA(pte->Group)); break; case 511: strcpy(str1, "gLstV1Rpt* "); lstrcpy(str2, INET_NTOA(pte->Group)); break; case 720: case 740: strcpy(str1, "iV1Router "); break; case 741: strcpy(str1, "iV1Router* "); break; case 920: case 910: strcpy(str1, "_MibTimer "); break; default: strcpy(str1, "???? "); break; } #endif //DEBUG_TIMER_TIMERID return; } //------------------------------------------------------------------------------ // _DebugPrintTimerQueue // takes the timer lock //------------------------------------------------------------------------------ VOID APIENTRY DebugPrintTimerQueue ( ) { PIGMP_TIMER_GLOBAL ptg = &g_TimerStruct; PIGMP_TIMER_ENTRY pte; PLIST_ENTRY pHead, ple; LONGLONG llCurTime = GetCurrentIgmpTime(); DWORD Error=NO_ERROR, i, count; if (g_Info.CurrentGroupMemberships > 40) return; #if DEBUG_TIMER_TIMERID ENTER_CRITICAL_SECTION(&g_CS, "g_CS", "_DebugPrintTimerQueue"); if (g_RunningStatus != IGMP_STATUS_RUNNING) { Error = ERROR_CAN_NOT_COMPLETE; } else { ++g_ActivityCount; } LEAVE_CRITICAL_SECTION(&g_CS, "g_CS", "_DebugPrintTimerQueue"); if (Error!=NO_ERROR) return; if (!EnterIgmpWorker()) {return;} ACQUIRE_TIMER_LOCK("_DebugPrintTimerQueue"); if (g_TimerStruct.NumTimers==0) { Trace0(TIMER, "No timers present in the timer queue"); } else { Trace0(TIMER, "---------------------LOCAL-TIMER-QUEUE-------------------------"); Trace4(TIMER, "-- WTTimeout<%d:%lu> SyncTime<%d:%lu>", TIMER_HIGH(ptg->WTTimeout), TIMER_LOW(ptg->WTTimeout), TIMER_HIGH(ptg->SyncTime), TIMER_LOW(ptg->SyncTime) ); Trace3(TIMER, "-- NumTimers:<%d> TableLowIndex:<%lu> Status:<%d>", ptg->NumTimers, ptg->TableLowIndex, ptg->Status); Trace0(TIMER, "---------------------------------------------------------------"); count =0; for (i=0; iTimesTable[i]; if (IsListEmpty(pHead)) continue; else { for (ple=pHead->Flink; ple!=pHead; ple=ple->Flink) { pte = CONTAINING_RECORD(ple, IGMP_TIMER_ENTRY, Link); DebugPrintTimerEntry(pte, i, llCurTime); count ++; } } } Trace0(TIMER, "---------------------------------------------------------------"); } RELEASE_TIMER_LOCK("_DebugPrintTimerQueue"); LeaveIgmpWorker(); #endif //DEBUG_TIMER_TIMERID return; }