//============================================================================ // Copyright (c) 1996, Microsoft Corporation // File: sync.c // // History: // Abolade Gbadegesin // K.S.Lokesh (added Dynamic locking) // // Synchronization routines used by DVMRP. //============================================================================ #include "pchdvmrp.h" #pragma hdrstop // for debugging, Set ids for each dynamic lock #ifdef LOCK_DBG DWORD DynamicCSLockId; DWORD DynamicRWLockId; #endif; //---------------------------------------------------------------------------- // _QueueDvmrpWorker // // This function is called to queue a Dvmrp function in a safe fashion; // If cleanup is in progress or if Dvmrp has stopped, this function // discards the work-item. So dont use this function if you want the // work item to be executed when the protocol is being stopped. //---------------------------------------------------------------------------- DWORD QueueDvmrpWorker( LPTHREAD_START_ROUTINE pFunction, PVOID pContext ) { DWORD Error = NO_ERROR; BOOL Success; EnterCriticalSection(&Globals1.WorkItemCS); if (Globals1.RunningStatus != DVMRP_STATUS_RUNNING) { // // cannot queue a work function when dvmrp has quit or is quitting // Error = ERROR_CAN_NOT_COMPLETE; } else { ++Globals.ActivityCount; Success = QueueUserWorkItem(pFunction, pContext, 0); if (!Success) { Error = GetLastError(); Trace1(ERR, "Error: Attempt to queue work item returned:%d", Error); if (--Globals.ActivityCount == 0) { SetEvent(Globals.ActivityEvent); } } } LeaveCriticalSection(&Globals1.WorkItemCS); return Error; } //---------------------------------------------------------------------------- // _EnterDvmrpWorker // // This function is called when entering a dvmrp worker-function. // Since there is a lapse between the time a worker-function is queued // and the time the function is actually invoked by a worker thread, // this function must check to see if dvmrp has stopped or is stopping; // if this is the case, then it decrements the activity count, // sets ActivityEvent if outstanding work items == 0, and quits. //---------------------------------------------------------------------------- BOOL EnterDvmrpWorker( ) { BOOL Entered; EnterCriticalSection(&Globals1.WorkItemCS); if (Globals1.RunningStatus == DVMRP_STATUS_RUNNING) { // dvmrp is running, so the function may continue Entered = TRUE; } else if (Globals1.RunningStatus == DVMRP_STATUS_STOPPING) { // dvmrp is not running, but it was, so the function must stop. if (--Globals.ActivityCount == 0) { SetEvent(Globals.ActivityEvent); } Entered = FALSE; } LeaveCriticalSection(&Globals1.WorkItemCS); return Entered; } //---------------------------------------------------------------------------- // _LeaveDvmrpWorker // // This function is called when leaving a dvmrp worker function. // It decrements the activity count, and sets the ActivityEvent if // dvmrp is stopping and there are no pending work items. //---------------------------------------------------------------------------- VOID LeaveDvmrpWorker( ) { EnterCriticalSection(&Globals1.WorkItemCS); if (--Globals.ActivityCount == 0) { SetEvent(Globals.ActivityEvent); } LeaveCriticalSection(&Globals1.WorkItemCS); } //---------------------------------------------------------------------------- // _CreateReadWriteLock // // Initializes a multiple-reader/single-writer lock object //---------------------------------------------------------------------------- DWORD CreateReadWriteLock( PREAD_WRITE_LOCK pRWL ) { pRWL->RWL_ReaderCount = 0; try { InitializeCriticalSection(&(pRWL)->RWL_ReadWriteBlock); } except (EXCEPTION_EXECUTE_HANDLER) { return GetLastError(); } pRWL->RWL_ReaderDoneEvent = CreateEvent(NULL,FALSE,FALSE,NULL); if (pRWL->RWL_ReaderDoneEvent != NULL) { return GetLastError(); } return NO_ERROR; } //---------------------------------------------------------------------------- // _DeleteReadWriteLock // // Frees resources used by a multiple-reader/single-writer lock object //---------------------------------------------------------------------------- VOID DeleteReadWriteLock( PREAD_WRITE_LOCK pRWL ) { CloseHandle(pRWL->RWL_ReaderDoneEvent); pRWL->RWL_ReaderDoneEvent = NULL; DeleteCriticalSection(&pRWL->RWL_ReadWriteBlock); pRWL->RWL_ReaderCount = 0; } //---------------------------------------------------------------------------- // _AcquireReadLock // // Secures shared ownership of the lock object for the caller. // // readers enter the read-write critical section, increment the count, // and leave the critical section //---------------------------------------------------------------------------- VOID AcquireReadLock( PREAD_WRITE_LOCK pRWL ) { EnterCriticalSection(&pRWL->RWL_ReadWriteBlock); InterlockedIncrement(&pRWL->RWL_ReaderCount); LeaveCriticalSection(&pRWL->RWL_ReadWriteBlock); } //---------------------------------------------------------------------------- // _ReleaseReadLock // // Relinquishes shared ownership of the lock object. // // the last reader sets the event to wake any waiting writers //---------------------------------------------------------------------------- VOID ReleaseReadLock ( PREAD_WRITE_LOCK pRWL ) { if (InterlockedDecrement(&pRWL->RWL_ReaderCount) < 0) { SetEvent(pRWL->RWL_ReaderDoneEvent); } } //---------------------------------------------------------------------------- // _AcquireWriteLock // // Secures exclusive ownership of the lock object. // // the writer blocks other threads by entering the ReadWriteBlock section, // and then waits for any thread(s) owning the lock to finish //---------------------------------------------------------------------------- VOID AcquireWriteLock( PREAD_WRITE_LOCK pRWL ) { EnterCriticalSection(&pRWL->RWL_ReadWriteBlock); if (InterlockedDecrement(&pRWL->RWL_ReaderCount) >= 0) { WaitForSingleObject(pRWL->RWL_ReaderDoneEvent, INFINITE); } } //---------------------------------------------------------------------------- // _ReleaseWriteLock // // Relinquishes exclusive ownership of the lock object. // // the writer releases the lock by setting the count to zero // and then leaving the ReadWriteBlock critical section //---------------------------------------------------------------------------- VOID ReleaseWriteLock( PREAD_WRITE_LOCK pRWL ) { pRWL->RWL_ReaderCount = 0; LeaveCriticalSection(&(pRWL)->RWL_ReadWriteBlock); } //---------------------------------------------------------------------------- // _InitializeDynamicLocks // // Initialize the global struct from which dynamic CS / RW locks are allocated //---------------------------------------------------------------------------- DWORD InitializeDynamicLocks ( PDYNAMIC_LOCKS_STORE pDLStore //ptr to Dynamic Locks store ) { DWORD Error=NO_ERROR; BEGIN_BREAKOUT_BLOCK1 { // // initialize the main CS lock which protects the list of free locks // try { InitializeCriticalSection(&pDLStore->CS); } HANDLE_CRITICAL_SECTION_EXCEPTION(Error, GOTO_END_BLOCK1); // initialize list of free locks InitializeListHead(&pDLStore->ListOfFreeLocks); // initialize counts for number of locks free and allocated to 0. pDLStore->CountAllocated = pDLStore->CountFree = 0; } END_BREAKOUT_BLOCK1; return Error; } //---------------------------------------------------------------------------- // _DeInitializeDynamicLocksStore // // Delete the main CS lock and the other free locks. Print warning if any // locks have been allocated and not freed. //---------------------------------------------------------------------------- VOID DeInitializeDynamicLocks ( PDYNAMIC_LOCKS_STORE pDLStore, LOCK_TYPE LockType //LOCK_TYPE_CS,LOCK_TYPE_RW ) { PDYNAMIC_CS_LOCK pDCSLock; PDYNAMIC_RW_LOCK pDRWLock; PLIST_ENTRY pHead, pLe; Trace0(ENTER1, "Entering _DeInitializeDynamicLocksStore()"); if (pDLStore==NULL) return; // delete the main CS lock DeleteCriticalSection(&pDLStore->CS); // print warning if any dynamic lock has not been freed if (pDLStore->CountFree>0) { Trace1(ERR, "%d Dynamic locks have not been freed during Deinitialization", pDLStore->CountFree); } // // delete all dynamic CS/RW locks. I dont free memory(left to heapDestroy) // pHead = &pDLStore->ListOfFreeLocks; for (pLe=pHead->Flink; pLe!=pHead; pLe=pLe->Flink) { // if bCSLocks flag, then it is a store of CS locks if (LockType==LOCK_TYPE_CS) { pDCSLock = CONTAINING_RECORD(pLe, DYNAMIC_CS_LOCK, Link); DeleteCriticalSection(&pDCSLock->CS); } // delete the RW lock else { pDRWLock = CONTAINING_RECORD(pLe, DYNAMIC_RW_LOCK, Link); DELETE_READ_WRITE_LOCK(&pDRWLock->RWL); } } Trace0(LEAVE1, "Leaving _DeInitializeDynamicLocksStore()"); return; } //---------------------------------------------------------------------------- // _AcquireDynamicCSLock // // Acquires the MainLock associated with the table, Acquires a new dynamic // lock if required, increments the count, releases the MainLock and // locks the LockedList. //---------------------------------------------------------------------------- DWORD AcquireDynamicCSLock ( PDYNAMIC_CS_LOCK *ppDCSLock, PDYNAMIC_LOCKS_STORE pDCSStore ) { // acquire the main lock for the Dynamic CS store ENTER_CRITICAL_SECTION(&pDCSStore->CS, "pDCSStore->CS", "_AcquireDynamicCSLock"); // // If it is not already locked then allocate a lock // if (*ppDCSLock==NULL) { *ppDCSLock = GetDynamicCSLock(pDCSStore); // if could not get a lock, then igmp is in serious trouble if (*ppDCSLock==NULL) { LEAVE_CRITICAL_SECTION(&pDCSStore->CS, "pDCSStore->CS", "_AcquireDynamicCSLock"); return ERROR_CAN_NOT_COMPLETE; } } // increment Count in the Dynamic Lock (*ppDCSLock)->Count++; // leave main CS lock LEAVE_CRITICAL_SECTION(&pDCSStore->CS, "pDCSStore->CS", "_AcquireDynamicCSLock"); // // enter dynamic lock's CS lock // ENTER_CRITICAL_SECTION(&(*ppDCSLock)->CS, "pDynamicLock", "_AcquireDynamicCSLock"); return NO_ERROR; } //end _AcquireDynamicCSLock //---------------------------------------------------------------------------- // _GetDynamicCSLock // // If a free lock is available, returns it. Else allocates a new CS lock // Lock: Assumes the DCSStore MainLock // Called by: _AcquireDynamicCSLock //---------------------------------------------------------------------------- PDYNAMIC_CS_LOCK GetDynamicCSLock ( PDYNAMIC_LOCKS_STORE pDCSStore ) { PDYNAMIC_CS_LOCK pDCSLock; DWORD Error = NO_ERROR; PLIST_ENTRY pLe; // // free dynamic lock available. Return it // if (!IsListEmpty(&pDCSStore->ListOfFreeLocks)) { pDCSStore->CountFree--; pLe = RemoveTailList(&pDCSStore->ListOfFreeLocks); pDCSLock = CONTAINING_RECORD(pLe, DYNAMIC_CS_LOCK, Link); Trace1(DYNLOCK, "Leaving GetDynamicCSLock.1(%d):reusing lock", pDCSLock->Id); return pDCSLock; } // allocate memory for a new dynamic lock pDCSLock = DVMRP_ALLOC(sizeof(DYNAMIC_CS_LOCK)); PROCESS_ALLOC_FAILURE2(pDCSLock, "dynamic CS lock", Error, sizeof(DYNAMIC_CS_LOCK), return NULL); pDCSStore->CountAllocated++; // // initialize the fields // try { InitializeCriticalSection(&pDCSLock->CS); } HANDLE_CRITICAL_SECTION_EXCEPTION(Error, return NULL); // no need to initialize the link field //InitializeListEntry(&pDCSLock->List); pDCSLock->Count = 0; #ifdef LOCK_DBG pDCSLock->Id = ++DynamicCSLockId; #endif Trace1(DYNLOCK, "Leaving _GetDynamicCSLock(%d):new lock", DynamicCSLockId); return pDCSLock; } //end _GetDynamicCSLock //---------------------------------------------------------------------------- // _ReleaseDynamicCSLock // // Acquires the MainLock associated with the table, decrements the count, // releases the DynamicLock if count becomes 0 and releases the MainLock. //---------------------------------------------------------------------------- VOID ReleaseDynamicCSLock ( PDYNAMIC_CS_LOCK *ppDCSLock, PDYNAMIC_LOCKS_STORE pDCSStore ) { PDYNAMIC_CS_LOCK pDCSLock = *ppDCSLock; // acquire the main lock for the Dynamic CS store ENTER_CRITICAL_SECTION(&pDCSStore->CS, "pDCSStore->CS", "_ReleaseDynamicCSLock"); // leave the dynamic lock CS LEAVE_CRITICAL_SECTION(&pDCSLock->CS, "pDynamicLock", "_ReleaseDynamicCSLock"); // Decrement Count in the Dynamic Lock. Free the dynamic lock if count==0 if (--pDCSLock->Count==0) { FreeDynamicCSLock(pDCSLock, pDCSStore); // make the pDCSLock NULL so that it is known that it is not locked *ppDCSLock = NULL; } // leave main CS lock LEAVE_CRITICAL_SECTION(&pDCSStore->CS, "pDCSStore->CS", "_ReleaseDynamicCSLock"); //Trace0(LEAVE1, "Leaving _ReleaseDynamicCSLock()"); return; } //end _ReleaseDynamicCSLock //---------------------------------------------------------------------------- // _FreeDynamicCSLock // Called by: _ReleaseDynamicCSLock //---------------------------------------------------------------------------- VOID FreeDynamicCSLock ( PDYNAMIC_CS_LOCK pDCSLock, PDYNAMIC_LOCKS_STORE pDCSStore ) { // decrement count of allocated locks pDCSStore->CountAllocated--; // if there are too many dynamic CS locks, then free this lock if (pDCSStore->CountAllocated+pDCSStore->CountFree+1 > DYNAMIC_LOCKS_CS_HIGH_THRESHOLD) { DeleteCriticalSection(&pDCSLock->CS); DVMRP_FREE(pDCSLock); } // else put it into the list of free locks else { InsertHeadList(&pDCSStore->ListOfFreeLocks, &pDCSLock->Link); pDCSStore->CountFree++; } return; } //---------------------------------------------------------------------------- // _AcquireDynamicRWLock // // Acquires the MainLock associated with the table, Acquires a new dynamic // lock if required, increments the count, releases the MainLock and // locks the LockedList. //---------------------------------------------------------------------------- DWORD AcquireDynamicRWLock ( PDYNAMIC_RW_LOCK *ppDRWLock, LOCK_TYPE LockMode, PDYNAMIC_LOCKS_STORE pDRWStore ) { //Trace0(ENTER1, "Entering _AcquireDynamicRWLock()"); // acquire the main lock for the Dynamic RW store ENTER_CRITICAL_SECTION(&pDRWStore->CS, "pDRWStore->CS", "AcquireDynamicRWLock"); // // If it is not already locked then allocate a lock // if (*ppDRWLock==NULL) { *ppDRWLock = GetDynamicRWLock(pDRWStore); //Trace1(DYNLOCK, "Acquired dynamicRWLock(%d)", (*ppDRWLock)->Id); // if could not get a lock, then igmp is in serious trouble if (*ppDRWLock==NULL) { LEAVE_CRITICAL_SECTION(&pDRWStore->CS, "pDRWStore->CS", "AcquireDynamicRWLock"); return ERROR_CAN_NOT_COMPLETE; } } else ;//Trace1(DYNLOCK, "Acquired existing dynamicRWLock(%d)", (*ppDRWLock)->Id); // increment Count in the Dynamic Lock (*ppDRWLock)->Count++; // leave main CS lock LEAVE_CRITICAL_SECTION(&pDRWStore->CS, "pDRWStore->CS", "_AcquireDynamicRWLock"); // // acquire dynamic lock // if (LockMode==LOCK_MODE_READ) { ACQUIRE_READ_LOCK(&(*ppDRWLock)->RWL, "pDynamicLock(Read)", "_AcquireDynamicRWLock"); } else { ACQUIRE_WRITE_LOCK(&(*ppDRWLock)->RWL, "pDynamicLock(Write)", "_AcquireDynamicRWLock"); } return NO_ERROR; } //end _AcquireDynamicRWLock //---------------------------------------------------------------------------- // _GetDynamicRWLock // // If a free lock is available, returns it. Else allocates a new CS lock // Lock: assumes the DRWStore MainLock //---------------------------------------------------------------------------- PDYNAMIC_RW_LOCK GetDynamicRWLock ( PDYNAMIC_LOCKS_STORE pDRWStore ) { PDYNAMIC_RW_LOCK pDRWLock; DWORD Error = NO_ERROR; PLIST_ENTRY pLe; // // free dynamic lock available. Return it // if (!IsListEmpty(&pDRWStore->ListOfFreeLocks)) { pDRWStore->CountFree--; pLe = RemoveTailList(&pDRWStore->ListOfFreeLocks); pDRWLock = CONTAINING_RECORD(pLe, DYNAMIC_RW_LOCK, Link); /*Trace1(LEAVE1, "Leaving GetDynamicRWLock(%d):reusing lock", pDRWLock->Id); Trace2(DYNLOCK, "-------------%d %d", pDRWLock->Id, DynamicRWLockId); */ return pDRWLock; } // allocate memory for a new dynamic lock pDRWLock = DVMRP_ALLOC(sizeof(DYNAMIC_RW_LOCK)); PROCESS_ALLOC_FAILURE2(pDRWLock, "dynamic RW lock", Error, sizeof(DYNAMIC_RW_LOCK), return NULL); pDRWStore->CountAllocated++; // // initialize the fields // try { CREATE_READ_WRITE_LOCK(&pDRWLock->RWL); } HANDLE_CRITICAL_SECTION_EXCEPTION(Error, return NULL); // no need to initialize the link field //InitializeListEntry(&pDRWLock->List); pDRWLock->Count = 0; #ifdef LOCK_DBG pDRWLock->Id = ++DynamicRWLockId; #endif //Trace1(LEAVE1, "Leaving GetDynamicRWLock(%d):new lock", DynamicRWLockId); //Trace2(DYNLOCK, "--------------------%d %d", pDRWLock->Id, DynamicRWLockId); return pDRWLock; } //end _GetDynamicRWLock //------------------------------------------------------------------------------ // _ReleaseDynamicRWLock // // Acquires the MainLock associated with the table, decrements the count, // releases the DynamicLock if count becomes 0 and releases the MainLock. //------------------------------------------------------------------------------ VOID ReleaseDynamicRWLock ( PDYNAMIC_RW_LOCK *ppDRWLock, LOCK_TYPE LockMode, PDYNAMIC_LOCKS_STORE pDRWStore ) { PDYNAMIC_RW_LOCK pDRWLock = *ppDRWLock; // acquire the main lock for the Dynamic RW store ENTER_CRITICAL_SECTION(&pDRWStore->CS, "pDRWStore->CS", "_ReleaseDynamicRWLock"); IgmpAssert(pDRWLock!=NULL); #if DBG if (pDRWLock==NULL) DbgBreakPoint(); #endif // leave the dynamic RW lock if (LockMode==LOCK_MODE_READ) { RELEASE_READ_LOCK(&pDRWLock->RWL, "pDynamicLock(read)", "_ReleaseDynamicRWLock"); } else { RELEASE_WRITE_LOCK(&pDRWLock->RWL, "pDynamicLock(write)", "_ReleaseDynamicRWLock"); } // Decrement Count in the Dynamic Lock. Free the dynamic lock if count==0 if (--pDRWLock->Count==0) { FreeDynamicRWLock(pDRWLock, pDRWStore); // make the pDRWLock NULL so that it is known that it is not locked *ppDRWLock = NULL; } // leave main CS lock LEAVE_CRITICAL_SECTION(&pDRWStore->CS, "pDCSStore->CS", "_ReleaseDynamicRWLock"); return; } //end _ReleaseDynamicRWLock //------------------------------------------------------------------------------ // _FreeDynamicRWLock //------------------------------------------------------------------------------ VOID FreeDynamicRWLock ( PDYNAMIC_RW_LOCK pDRWLock, PDYNAMIC_LOCKS_STORE pDRWStore ) { // decrement count of allocated locks pDRWStore->CountAllocated--; // if there are too many dynamic RW locks, then free this lock if (pDRWStore->CountAllocated+pDRWStore->CountFree+1 > DYNAMIC_LOCKS_CS_HIGH_THRESHOLD) { DELETE_READ_WRITE_LOCK(&pDRWLock->RWL); DVMRP_FREE(pDRWLock); } // else put it into the list of free locks else { InsertHeadList(&pDRWStore->ListOfFreeLocks, &pDRWLock->Link); pDRWStore->CountFree++; } return; }