/*** sync.c - synchronization functions * * Copyright (c) 1996,1997 Microsoft Corporation * Author: Michael Tsang (MikeTs) * Created 04/16/97 * * MODIFICATION HISTORY */ #include "pch.h" #ifdef LOCKABLE_PRAGMA #pragma ACPI_LOCKABLE_DATA #pragma ACPI_LOCKABLE_CODE #endif /***LP AysncCallBack - Call back async function * * ENTRY * pctxt -> CTXT * rcCtxt - return status of the context * * EXIT * None */ VOID LOCAL AsyncCallBack(PCTXT pctxt, NTSTATUS rcCtxt) { TRACENAME("ASYNCCALLBACK") PFNACB pfnAsyncCallBack; PNSOBJ pnsObj; POBJDATA pdataCallBack; PVOID pvContext; rcCtxt = ((rcCtxt == STATUS_SUCCESS) || (rcCtxt == AMLISTA_CONTINUE))? rcCtxt: NTERR(rcCtxt); if (pctxt->pnctxt != NULL) { // // We have a nested context here. We are calling back the nested // context, not the parent context. // pfnAsyncCallBack = pctxt->pnctxt->pfnAsyncCallBack; pnsObj = pctxt->pnctxt->pnsObj; pdataCallBack = pctxt->pnctxt->pdataCallBack; pvContext = pctxt->pnctxt->pvContext; } else { pfnAsyncCallBack = pctxt->pfnAsyncCallBack; pnsObj = pctxt->pnsObj; pdataCallBack = pctxt->pdataCallBack; pvContext = pctxt->pvContext; } ENTER(2, ("AsyncCallBack(pctxt=%x,rc=%x,Obj=%s,pdataCallBack=%x,pvContext=%x)\n", pctxt, rcCtxt, GetObjectPath(pnsObj), pdataCallBack, pvContext)); if (pfnAsyncCallBack == (PFNACB)EvalMethodComplete) { LOGSCHEDEVENT('DONE', (ULONG_PTR)pnsObj, (ULONG_PTR)rcCtxt, (ULONG_PTR)pvContext); EvalMethodComplete(pctxt, rcCtxt, (PSYNCEVENT)pvContext); } else if (pfnAsyncCallBack != NULL) { if (rcCtxt == AMLISTA_CONTINUE) { // // We are not done yet, restart the AsyncEval context using // current thread. // ASSERT(pctxt->dwfCtxt & CTXTF_ASYNC_EVAL); RestartContext(pctxt, FALSE); } else { LOGSCHEDEVENT('ASCB', (ULONG_PTR)pnsObj, (ULONG_PTR)rcCtxt, (ULONG_PTR)pvContext); pfnAsyncCallBack(pnsObj, rcCtxt, pdataCallBack, pvContext); } } EXIT(2, ("AsyncCallBack!\n")); } //AsyncCallBack /***LP EvalMethodComplete - eval completion callback * * ENTRY * pctxt -> CTXT * rc - evaluation status * pse -> SyncEvent * * EXIT * None */ VOID EXPORT EvalMethodComplete(PCTXT pctxt, NTSTATUS rc, PSYNCEVENT pse) { TRACENAME("EVALMETHODCOMPLETE") ENTER(2, ("EvalMethodComplete(pctxt=%x,rc=%x,pse=%x\n", pctxt, rc, pse)); pse->rcCompleted = rc; pse->pctxt = pctxt; KeSetEvent(&pse->Event, 0, FALSE); EXIT(2, ("EvalMethodComplete!\n")); } //EvalMethodComplete /***LP SyncEvalObject - evaluate an object synchronously * * ENTRY * pns -> object * pdataResult -> to hold result data * icArgs - number of arguments to the method object * pdataArgs -> argument array * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL SyncEvalObject(PNSOBJ pns, POBJDATA pdataResult, int icArgs, POBJDATA pdataArgs) { TRACENAME("SYNCEVALOBJECT") NTSTATUS rc = STATUS_SUCCESS; SYNCEVENT seEvalObj; ENTER(2, ("SyncEvalObject(Obj=%s,pdataResult=%x,icArgs=%d,pdataArgs=%x)\n", GetObjectPath(pns), pdataResult, icArgs, pdataArgs)); KeInitializeEvent(&seEvalObj.Event, SynchronizationEvent, FALSE); if (KeGetCurrentThread() == gReadyQueue.pkthCurrent) { if (!(gReadyQueue.pctxtCurrent->dwfCtxt & CTXTF_ASYNC_EVAL)) { LOGSCHEDEVENT('NSYN', (ULONG_PTR)KeGetCurrentIrql(), (ULONG_PTR)pns, 0); // // Somebody is re-entering with the active context thread, so we // must nest using the existing active context. // if ((rc = NestAsyncEvalObject(pns, pdataResult, icArgs, pdataArgs, (PFNACB)EvalMethodComplete, &seEvalObj, FALSE)) == AMLISTA_PENDING) { rc = RestartContext(gReadyQueue.pctxtCurrent, FALSE); } } else { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncEvalObject: cannot nest a SyncEval on an async. context")); } } else { LOGSCHEDEVENT('SYNC', (ULONG_PTR)KeGetCurrentIrql(), (ULONG_PTR)pns, 0); rc = AsyncEvalObject(pns, pdataResult, icArgs, pdataArgs, (PFNACB)EvalMethodComplete, &seEvalObj, FALSE); } if (KeGetCurrentIrql() < DISPATCH_LEVEL) { while (rc == AMLISTA_PENDING) { if ((rc = KeWaitForSingleObject(&seEvalObj.Event, Executive, KernelMode, FALSE, (PLARGE_INTEGER)NULL)) == STATUS_SUCCESS) { if (seEvalObj.rcCompleted == AMLISTA_CONTINUE) { rc = RestartContext(seEvalObj.pctxt, FALSE); } else { rc = AMLIERR(seEvalObj.rcCompleted); } } else { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncEvalObject: object synchronization failed (rc=%x)", rc)); } } } else if (rc == AMLISTA_PENDING) { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncEvalObject: object %s being evaluated at IRQL >= DISPATCH_LEVEL", GetObjectPath(pns))); } EXIT(2, ("SyncEvalObject=%x\n", rc)); return rc; } //SyncEvalObject /***LP AsyncEvalObject - evaluate an object asynchronously * * ENTRY * pns -> object * pdataResult -> to hold result data * icArgs - number of arguments to the method object * pdataArgs -> argument array * pfnAsyncCallBack -> completion callback function * pvContext -> context data * fAsync - TRUE if this is from an AsyncEval call * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL AsyncEvalObject(PNSOBJ pns, POBJDATA pdataResult, int icArgs, POBJDATA pdataArgs, PFNACB pfnAsyncCallBack, PVOID pvContext, BOOLEAN fAsync) { TRACENAME("ASYNCEVALOBJECT") NTSTATUS rc = STATUS_SUCCESS; PCTXT pctxt = NULL; ENTER(2, ("AsyncEvalObject(Obj=%s,pdataResult=%x,icArgs=%d,pdataArgs=%x,pfnAysnc=%x,pvContext=%x,fAsync=%x)\n", GetObjectPath(pns), pdataResult, icArgs, pdataArgs, pfnAsyncCallBack, pvContext, fAsync)); LOGSCHEDEVENT('ASYN', (ULONG_PTR)KeGetCurrentIrql(), (ULONG_PTR)pns, 0); if ((rc = NewContext(&pctxt)) == STATUS_SUCCESS) { BOOLEAN fQueueContext = FALSE; pctxt->pnsObj = pns; pctxt->pnsScope = pns; pctxt->pfnAsyncCallBack = pfnAsyncCallBack; pctxt->pdataCallBack = pdataResult; pctxt->pvContext = pvContext; ACPIWMILOGEVENT((1, EVENT_TRACE_TYPE_START, GUID_List[AMLI_LOG_GUID], "Object = %s", GetObjectPath(pctxt->pnsObj) )); if (fAsync) { pctxt->dwfCtxt |= CTXTF_ASYNC_EVAL; } if (pns->ObjData.dwDataType == OBJTYPE_METHOD) { if ((rc = PushCall(pctxt, pns, &pctxt->Result)) == STATUS_SUCCESS) { PCALL pcall; ASSERT(((PFRAMEHDR)pctxt->LocalHeap.pbHeapEnd)->dwSig == SIG_CALL); pcall = (PCALL)pctxt->LocalHeap.pbHeapEnd; if (icArgs != pcall->icArgs) { rc = AMLI_LOGERR(AMLIERR_INCORRECT_NUMARG, ("AsyncEvalObject: incorrect number of arguments (NumArg=%d,Expected=%d)", icArgs, pcall->icArgs)); } else { #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PRINTF("\n" MODNAME ": %08x: %s(", KeGetCurrentThread(), GetObjectPath(pns)); } #endif // // Copying arguments to the call frame manually will skip // the argument parsing stage. // for (pcall->iArg = 0; pcall->iArg < icArgs; ++pcall->iArg) { if ((rc = DupObjData(pctxt->pheapCurrent, &pcall->pdataArgs[pcall->iArg], &pdataArgs[pcall->iArg])) != STATUS_SUCCESS) { break; } #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PrintObject(&pdataArgs[pcall->iArg]); if (pcall->iArg + 1 < icArgs) { PRINTF(","); } } #endif } if (rc == STATUS_SUCCESS) { #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PRINTF(")\n"); } #endif // // Skip the argument parsing stage. // pcall->FrameHdr.dwfFrame = 2; fQueueContext = TRUE; } } } } else if (((rc = PushPost(pctxt, ProcessEvalObj, (ULONG_PTR)pns, 0, &pctxt->Result)) == STATUS_SUCCESS) && ((rc = ReadObject(pctxt, &pns->ObjData, &pctxt->Result)) != AMLISTA_PENDING)) { fQueueContext = TRUE; } if (fQueueContext) { rc = RestartContext(pctxt, FALSE); } else { // // If we never queue the context because we bailed, // we must free it. // FreeContext(pctxt); } } EXIT(2, ("AsyncEvalObject=%x\n", rc)); return rc; } //AsyncEvalObject /***LP NestAsyncEvalObject - evaluate an object asynchronously using the * current context * * ENTRY * pns -> object * pdataResult -> to hold result data * icArgs - number of arguments to the method object * pdataArgs -> argument array * pfnAsyncCallBack -> completion callback function * pvContext -> context data * fAsync - TRUE if this is from an AsyncEval call * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL NestAsyncEvalObject(PNSOBJ pns, POBJDATA pdataResult, int icArgs, POBJDATA pdataArgs, PFNACB pfnAsyncCallBack, PVOID pvContext, BOOLEAN fAsync) { TRACENAME("NESTASYNCEVALOBJECT") NTSTATUS rc = STATUS_SUCCESS; PCTXT pctxt = NULL; ENTER(2, ("NestAsyncEvalObject(Obj=%s,pdataResult=%x,icArgs=%d,pdataArgs=%x,pfnAysnc=%x,pvContext=%x,fAsync=%x)\n", GetObjectPath(pns), pdataResult, icArgs, pdataArgs, pfnAsyncCallBack, pvContext, fAsync)); // // Context must be the current one in progress. // ASSERT(gReadyQueue.pkthCurrent == KeGetCurrentThread()); pctxt = gReadyQueue.pctxtCurrent; LOGSCHEDEVENT('NASY', (ULONG_PTR)pns, (ULONG_PTR)pfnAsyncCallBack, (ULONG_PTR)pctxt); if ((pctxt != NULL) && (gReadyQueue.pkthCurrent == KeGetCurrentThread())) { PNESTEDCTXT pnctxt; rc = PushFrame(pctxt, SIG_NESTEDCTXT, sizeof(NESTEDCTXT), ParseNestedContext, &pnctxt); if (rc == STATUS_SUCCESS) { pnctxt->pnsObj = pns; pnctxt->pnsScope = pns; pnctxt->pfnAsyncCallBack = pfnAsyncCallBack; pnctxt->pdataCallBack = pdataResult; pnctxt->pvContext = pvContext; pnctxt->pnctxtPrev = pctxt->pnctxt; pnctxt->dwfPrevCtxt = pctxt->dwfCtxt; pctxt->pnctxt = pnctxt; pctxt->dwfCtxt |= CTXTF_NEST_EVAL; if (fAsync) { pctxt->dwfCtxt |= CTXTF_ASYNC_EVAL; } else { pctxt->dwfCtxt &= ~CTXTF_ASYNC_EVAL; } if (pns->ObjData.dwDataType == OBJTYPE_METHOD) { if ((rc = PushCall(pctxt, pns, &pnctxt->Result)) == STATUS_SUCCESS) { PCALL pcall; ASSERT(((PFRAMEHDR)pctxt->LocalHeap.pbHeapEnd)->dwSig == SIG_CALL); pcall = (PCALL)pctxt->LocalHeap.pbHeapEnd; if (icArgs != pcall->icArgs) { rc = AMLI_LOGERR(AMLIERR_INCORRECT_NUMARG, ("NestAsyncEvalObject: incorrect number of arguments (NumArg=%d,Expected=%d)", icArgs, pcall->icArgs)); } else { #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PRINTF("\n" MODNAME ": %s(", GetObjectPath(pns)); } #endif // // Copying arguments to the call frame manually will // skip the argument parsing stage. // for (pcall->iArg = 0; pcall->iArg < icArgs; ++pcall->iArg) { if ((rc = DupObjData(pctxt->pheapCurrent, &pcall->pdataArgs[pcall->iArg], &pdataArgs[pcall->iArg])) != STATUS_SUCCESS) { break; } #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PrintObject(&pdataArgs[pcall->iArg]); if (pcall->iArg + 1 < icArgs) { PRINTF(","); } } #endif } if (rc == STATUS_SUCCESS) { #ifdef DEBUGGER if (gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) { PRINTF(")\n"); } #endif // // Skip the argument parsing stage. // pcall->FrameHdr.dwfFrame = 2; } } } } else { // // Delay the evaluate the object. // rc = PushPost(pctxt, ProcessEvalObj, (ULONG_PTR)pns, 0, &pnctxt->Result); if (rc == STATUS_SUCCESS) { ReadObject(pctxt, &pns->ObjData, &pnctxt->Result); } } // // Always return AMLISTA_PENDING. // rc = AMLISTA_PENDING; } } else { // // We cannot use the nested version --- fail the call // rc = AMLI_LOGERR(AMLIERR_FATAL, ("NestAsyncEvalObject: pns=%08x No current context\n", pns)); } EXIT(2, ("NestAsyncEvalObject=%x\n", rc)); return rc; } //NestAsyncEvalObject /***LP ProcessEvalObj - post process of EvalObj * * ENTRY * pctxt -> CTXT * ppost -> POST * rc - status code * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL ProcessEvalObj(PCTXT pctxt, PPOST ppost, NTSTATUS rc) { TRACENAME("PROCESSEVALOBJ") ENTER(2, ("ProcessEvalObj(pctxt=%x,pbOp=%x,ppost=%x,rc=%x)\n", pctxt, pctxt->pbOp, ppost, rc)); ASSERT(ppost->FrameHdr.dwSig == SIG_POST); #ifdef DEBUGGER if ((gDebugger.dwfDebugger & (DBGF_AMLTRACE_ON | DBGF_STEP_MODES)) && (rc == STATUS_SUCCESS)) { PRINTF("\n" MODNAME ": EvalObject(%s)=", GetObjectPath((PNSOBJ)ppost->uipData1)); DumpObject(ppost->pdataResult, NULL, 0); PRINTF("\n"); } #else DEREF(ppost); #endif PopFrame(pctxt); EXIT(2, ("ProcessEvalObj=%x\n", rc)); return rc; } //ProcessEvalObj /***LP TimeoutCallback - DPC callback for Mutex/Event timeout * * ENTRY * pkdpc -> DPC * pctxt -> CTXT * SysArg1 - not used * SysArg2 - not used * * EXIT * None */ VOID TimeoutCallback(PKDPC pkdpc, PCTXT pctxt, PVOID SysArg1, PVOID SysArg2) { TRACENAME("TIMEOUTCALLBACK") ENTER(2, ("TimeoutCallback(pkdpc=%x,pctxt=%x,SysArg1=%x,SysArg2=%x)\n", pkdpc, pctxt, SysArg1, SysArg2)); DEREF(pkdpc); DEREF(SysArg1); DEREF(SysArg2); if (pctxt->dwfCtxt & CTXTF_TIMER_PENDING) { // // Timer has timed out. // pctxt->dwfCtxt &= ~CTXTF_TIMER_PENDING; pctxt->dwfCtxt |= CTXTF_TIMEOUT; // // Remove from waiting queue. // ASSERT(pctxt->pplistCtxtQueue != NULL); ListRemoveEntry(&((PCTXT)pctxt)->listQueue, ((PCTXT)pctxt)->pplistCtxtQueue); pctxt->pplistCtxtQueue = NULL; RestartContext(pctxt, (BOOLEAN)((pctxt->dwfCtxt & CTXTF_ASYNC_EVAL) == 0)); } else if (pctxt->dwfCtxt & CTXTF_TIMER_DISPATCH) { // // Timer couldn't be cancelled while queuing context. Since the // queuing was aborted, we continue the queuing here. // pctxt->dwfCtxt &= ~CTXTF_TIMER_DISPATCH; RestartContext(pctxt, (BOOLEAN)((pctxt->dwfCtxt & CTXTF_ASYNC_EVAL) == 0)); } else { // Should not be here ASSERT(pctxt->dwfCtxt & (CTXTF_TIMER_PENDING | CTXTF_TIMER_DISPATCH)); } EXIT(2, ("TimeoutCallback!\n")); } //TimeoutCallback /***LP QueueContext - queue control method context * * ENTRY * pctxt -> CTXT * wTimeOut - timeout in ms * pplist -> list to insert created context * * EXIT * None */ VOID LOCAL QueueContext(PCTXT pctxt, USHORT wTimeout, PPLIST pplist) { TRACENAME("QUEUECONTEXT") ENTER(2, ("QueueContext(pctxt=%x,Timeout=%d,pplist=%x)\n", pctxt, wTimeout, pplist)); AcquireMutex(&gReadyQueue.mutCtxtQ); // // make sure this context isn't queued somewhere else. // ASSERT(pctxt->pplistCtxtQueue == NULL); ASSERT(pplist != NULL); ASSERT(!(pctxt->dwfCtxt & (CTXTF_TIMER_PENDING | CTXTF_TIMER_DISPATCH | CTXTF_TIMEOUT | CTXTF_READY))); ListInsertTail(&pctxt->listQueue, pplist); pctxt->pplistCtxtQueue = pplist; if (wTimeout != 0xffff) { LARGE_INTEGER liTimeout; pctxt->dwfCtxt |= CTXTF_TIMER_PENDING; liTimeout.QuadPart = (INT_PTR)(-10000*(INT_PTR)wTimeout); KeSetTimer(&pctxt->Timer, liTimeout, &pctxt->Dpc); } ReleaseMutex(&gReadyQueue.mutCtxtQ); EXIT(2, ("QueueContext!\n")); } //QueueContext /***LP DequeueAndReadyContext - dequeue context and insert to ready queue * * ENTRY * pplist -> context list to dequeue from * * EXIT-SUCCESS * returns pctxt * EXIT-FAILURE * returns NULL */ PCTXT LOCAL DequeueAndReadyContext(PPLIST pplist) { TRACENAME("DEQUEUEANDREADYCONTEXT") PCTXT pctxt = NULL; PLIST plist; ENTER(2, ("DequeueAndReadyContext(pplist=%x)\n", pplist)); AcquireMutex(&gReadyQueue.mutCtxtQ); if ((plist = ListRemoveHead(pplist)) != NULL) { pctxt = CONTAINING_RECORD(plist, CTXT, listQueue); ASSERT(pctxt->dwSig == SIG_CTXT); ASSERT(pctxt->pplistCtxtQueue == pplist); pctxt->pplistCtxtQueue = NULL; InsertReadyQueue(pctxt, TRUE); } ReleaseMutex(&gReadyQueue.mutCtxtQ); EXIT(2, ("DequeueAndReadyContext=%x\n", pctxt)); return pctxt; } //DequeueAndReadyContext /***LP AcquireASLMutex - acquire ASL mutex * * ENTRY * pctxt -> CTXT * pm -> MUTEX structure * wTimeOut - timeout in ms * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL AcquireASLMutex(PCTXT pctxt, PMUTEXOBJ pm, USHORT wTimeout) { TRACENAME("ACQUIREASLMUTEX") NTSTATUS rc = STATUS_SUCCESS; ENTER(2, ("AcquireASLMutex(pctxt=%x,pm=%x,Timeout=%d)\n", pctxt, pm, wTimeout)); if (pctxt->dwfCtxt & CTXTF_TIMEOUT) { pctxt->dwfCtxt &= ~CTXTF_TIMEOUT; rc = AMLISTA_TIMEOUT; } else if (pm->dwSyncLevel < pctxt->dwSyncLevel) { rc = AMLI_LOGERR(AMLIERR_MUTEX_INVALID_LEVEL, ("AcquireASLMutex: invalid sync level")); } else if (pm->dwcOwned == 0) { PRESOURCE pres; pres = NEWCROBJ(pctxt->pheapCurrent, sizeof(RESOURCE)); if (pres == NULL) { rc = AMLI_LOGERR(AMLIERR_OUT_OF_MEM, ("AcquireASLMutex: failed to allocate context resource")); } else { pres->dwResType = RESTYPE_MUTEX; pres->pctxtOwner = pctxt; pres->pvResObj = pm; ListInsertHead(&pres->list, &pctxt->plistResources); pm->dwcOwned = 1; pm->hOwner = (HANDLE)pres; pctxt->dwSyncLevel = pm->dwSyncLevel; } } else if (((PRESOURCE)pm->hOwner)->pctxtOwner == pctxt) { pm->dwcOwned++; } else { QueueContext(pctxt, wTimeout, &pm->plistWaiters); rc = AMLISTA_PENDING; } EXIT(2, ("AcquireASLMutex=%x (CurrentOwner=%x)\n", rc, pm->hOwner)); return rc; } //AcquireASLMutex /***LP ReleaseASLMutex - release ASL mutex * * ENTRY * pctxt -> CTXT * pm -> MUTEX structure * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL ReleaseASLMutex(PCTXT pctxt, PMUTEXOBJ pm) { TRACENAME("RELEASEASLMUTEX") NTSTATUS rc = STATUS_SUCCESS; ENTER(2, ("ReleaseASLMutex(pctxt=%x,pm=%x)\n", pctxt, pm)); if (pm->dwcOwned == 0) { rc = AMLI_LOGERR(AMLIERR_MUTEX_NOT_OWNED, ("ReleaseASLMutex: Mutex is not owned")); } else { PRESOURCE pres; pres = (PRESOURCE)pm->hOwner; if ((pres == NULL) || (pres->pctxtOwner != pctxt)) { rc = AMLI_LOGERR(AMLIERR_MUTEX_NOT_OWNER, ("ReleaseASLMutex: Mutex is owned by a different owner")); } else if (pm->dwSyncLevel > pctxt->dwSyncLevel) { rc = AMLI_LOGERR(AMLIERR_MUTEX_INVALID_LEVEL, ("ReleaseASLMutex: invalid sync level (MutexLevel=%d,CurrentLevel=%x", pm->dwSyncLevel, pctxt->dwSyncLevel)); } else { pctxt->dwSyncLevel = pm->dwSyncLevel; pm->dwcOwned--; if (pm->dwcOwned == 0) { ListRemoveEntry(&pres->list, &pctxt->plistResources); FREECROBJ(pres); pm->hOwner = NULL; DequeueAndReadyContext(&pm->plistWaiters); } } } EXIT(2, ("ReleaseASLMutex=%x\n", rc)); return rc; } //ReleaseASLMutex /***LP WaitASLEvent - wait ASL event * * ENTRY * pctxt -> CTXT * pe -> EVENT structure * wTimeOut - timeout in ms * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL WaitASLEvent(PCTXT pctxt, PEVENTOBJ pe, USHORT wTimeout) { TRACENAME("WAITASLEVENT") NTSTATUS rc = STATUS_SUCCESS; ENTER(2, ("WaitASLEvent(pctxt=%x,pe=%x,Timeout=%d)\n", pctxt, pe, wTimeout)); if (pctxt->dwfCtxt & CTXTF_TIMEOUT) { pctxt->dwfCtxt &= ~CTXTF_TIMEOUT; rc = AMLISTA_TIMEOUT; } else if (pe->dwcSignaled > 0) { pe->dwcSignaled--; } else { QueueContext(pctxt, wTimeout, &pe->plistWaiters); rc = AMLISTA_PENDING; } EXIT(2, ("WaitASLEvent=%x\n", rc)); return rc; } //WaitASLEvent /***LP ResetASLEvent - reset ASL event * * ENTRY * pe -> EVENT structure * * EXIT * None */ VOID LOCAL ResetASLEvent(PEVENTOBJ pe) { TRACENAME("RESETASLEVENT") ENTER(2, ("ResetASLEvent(pe=%x)\n", pe)); pe->dwcSignaled = 0; EXIT(2, ("ResetASLEvent!\n")); } //ResetASLEvent /***LP SignalASLEvent - signal ASL event * * ENTRY * pe -> EVENT structure * * EXIT * None */ VOID LOCAL SignalASLEvent(PEVENTOBJ pe) { TRACENAME("SIGNALASLEVENT") ENTER(2, ("SignalASLEvent(pe=%x)\n", pe)); if (DequeueAndReadyContext(&pe->plistWaiters) == NULL) { pe->dwcSignaled++; } EXIT(2, ("SignalASLEvent!\n")); } //SignalASLEvent /***LP SyncLoadDDB - load a DDB synchronously * * ENTRY * pctxt -> CTXT * * EXIT-SUCCESS * returns STATUS_SUCCESS * EXIT-FAILURE * returns AMLIERR_ code */ NTSTATUS LOCAL SyncLoadDDB(PCTXT pctxt) { TRACENAME("SYNCLOADDDB") NTSTATUS rc = STATUS_SUCCESS; ENTER(2, ("SyncLoadDDB(pctxt=%x)\n", pctxt)); if (KeGetCurrentThread() == gReadyQueue.pkthCurrent) { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncLoadDDB: cannot nest a SyncLoadDDB")); pctxt->powner = NULL; FreeContext(pctxt); } else if (KeGetCurrentIrql() >= DISPATCH_LEVEL) { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncLoadDDB: cannot SyncLoadDDB at IRQL >= DISPATCH_LEVEL")); pctxt->powner = NULL; FreeContext(pctxt); } else { SYNCEVENT seEvalObj; KeInitializeEvent(&seEvalObj.Event, SynchronizationEvent, FALSE); pctxt->pfnAsyncCallBack = (PFNACB)EvalMethodComplete; pctxt->pvContext = &seEvalObj; rc = RestartContext(pctxt, FALSE); while (rc == AMLISTA_PENDING) { if ((rc = KeWaitForSingleObject(&seEvalObj.Event, Executive, KernelMode, FALSE, (PLARGE_INTEGER)NULL)) == STATUS_SUCCESS) { if (seEvalObj.rcCompleted == AMLISTA_CONTINUE) { rc = RestartContext(seEvalObj.pctxt, FALSE); } else { rc = AMLIERR(seEvalObj.rcCompleted); } } else { rc = AMLI_LOGERR(AMLIERR_FATAL, ("SyncLoadDDB: object synchronization failed (rc=%x)", rc)); } } } EXIT(2, ("SyncLoadDDB=%x\n", rc)); return rc; } //SyncLoadDDB