/* * Copyright (c) 2001-2002 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_OSREFERENCE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the * License may not be used to create, or enable the creation or * redistribution of, unlawful or unlicensed copies of an Apple operating * system, or to circumvent, violate, or enable the circumvention or * violation of, any terms of an Apple operating system software license * agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this * file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_LICENSE_OSREFERENCE_HEADER_END@ */ #include "IOPMWorkArbiter.h" #include "IOKit/IOLocks.h" #undef super #define super IOEventSource OSDefineMetaClassAndStructors(IOPMWorkArbiter, IOEventSource); /*************************************************************************/ static void * _dequeue(void ** inList, SInt32 inOffset) { void * oldListHead; void * newListHead; do { oldListHead = *inList; if (oldListHead == NULL) { break; } newListHead = *(void **) (((char *) oldListHead) + inOffset); } while (! OSCompareAndSwap((UInt32)oldListHead, (UInt32)newListHead, (UInt32 *)inList)); return oldListHead; } /*************************************************************************/ static void _enqueue(void ** inList, void * inNewLink, SInt32 inOffset) { void * oldListHead; void * newListHead = inNewLink; void ** newLinkNextPtr = (void **) (((char *) inNewLink) + inOffset); do { oldListHead = *inList; *newLinkNextPtr = oldListHead; } while (! OSCompareAndSwap((UInt32)oldListHead, (UInt32)newListHead, (UInt32 *)inList)); } /*************************************************************************/ IOPMWorkArbiter *IOPMWorkArbiter::pmWorkArbiter( IOPMrootDomain *inOwner) { IOPMWorkArbiter *me = new IOPMWorkArbiter; if(me && !me->init((OSObject *)inOwner, 0) ) { me->release(); return NULL; } return me; } /*************************************************************************/ bool IOPMWorkArbiter::init(OSObject *owner, Action action) { if(!(super::init(owner, (IOEventSource::Action) action))) return false; events = NULL; fRootDomain = (IOPMrootDomain *)owner; if (!(tmpLock = IOLockAlloc())) { panic("IOPMWorkArbiter::init can't alloc lock"); } return true; } /*************************************************************************/ bool IOPMWorkArbiter::driverAckedOccurred(IOService *inTarget) { PMEventEntry *new_one = NULL; new_one = (PMEventEntry *)IOMalloc(sizeof(PMEventEntry)); if(!new_one) return false; new_one->actionType = IOPMWorkArbiter::kDriverAcked; new_one->target = inTarget; // Change to queue IOLockLock(tmpLock); _enqueue((void **)&events, (void *)new_one, 0); IOLockUnlock(tmpLock); signalWorkAvailable(); return true; } /*************************************************************************/ bool IOPMWorkArbiter::allAckedOccurred(IOService *inTarget) { PMEventEntry *new_one = NULL; new_one = (PMEventEntry *)IOMalloc(sizeof(PMEventEntry)); if(!new_one) return false; new_one->actionType = IOPMWorkArbiter::kAllAcked; new_one->target = inTarget; // Change to queue IOLockLock(tmpLock); _enqueue((void **)&events, (void *)new_one, 0); IOLockUnlock(tmpLock); signalWorkAvailable(); return true; } /*************************************************************************/ bool IOPMWorkArbiter::clamshellStateChangeOccurred(uint32_t messageValue) { PMEventEntry *new_one = NULL; new_one = (PMEventEntry *)IOMalloc(sizeof(PMEventEntry)); if(!new_one) return false; new_one->actionType = IOPMWorkArbiter::kRootDomainClamshellChanged; new_one->target = (IOService *)fRootDomain; new_one->intArgument = messageValue; IOLockLock(tmpLock); _enqueue((void **)&events, (void *)new_one, 0); IOLockUnlock(tmpLock); signalWorkAvailable(); return true; } /*************************************************************************/ void IOPMWorkArbiter::checkForWorkThreadFunc(void *refcon) { PMEventEntry *theNode = (PMEventEntry *)refcon; IOService *theTarget; UInt16 theAction; if(!theNode) return; theTarget = theNode->target; theAction = theNode->actionType; IOFree(theNode, sizeof(PMEventEntry)); theNode = NULL; switch (theAction) { case kAllAcked: theTarget->all_acked_threaded(); break; case kDriverAcked: theTarget->driver_acked_threaded(); break; } } /*************************************************************************/ // checkForWork() is called in a gated context bool IOPMWorkArbiter::checkForWork() { PMEventEntry *theNode; IOService *theTarget; UInt16 theAction; // Dequeue and process the state change request IOLockLock(tmpLock); if((theNode = (PMEventEntry *)_dequeue((void **)&events, 0))) { IOLockUnlock(tmpLock); theTarget = theNode->target; theAction = theNode->actionType; IOFree((void *)theNode, sizeof(PMEventEntry)); switch (theAction) { case kAllAcked: theTarget->all_acked_threaded(); break; case kDriverAcked: theTarget->driver_acked_threaded(); break; case kRootDomainClamshellChanged: theTarget->messageClients( kIOPMMessageClamshellStateChange, (void *)theNode->intArgument); break; } } else { IOLockUnlock(tmpLock); } // Return true if there's more work to be done if(events) return true; else return false; } /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /* #undef super #define super OSObject PMWorkerThread *PMWorkerThread::workerThread( IOPMWorkArbiter *inArbiter ) { PMWorkerThread * inst; if( !(inst = new PMWorkerThread) ) goto exit; if( !inst->init() ) goto exit; inst->arbiter = inArbiter; if( !(IOCreateThread((IOThreadFunc) &PMWorkerThread::main, inst)) ) goto exit; return inst; exit: if(inst) inst->release(); return NULL; } void PMWorkerThread::free( void ) { super::free(); } void PMWorkerThread::main( PMWorkerThread * self ) { PMWorkUnit *job; IOService *who; do { // Get a new job IOTakeLock( gJobsLock ); if( !(job = (PMWorkUnit *) gJobs->copyNextJob()) ) { IOUnlock( gJobsLock ); semaphore_wait( gJobsSemaphore ); IOTakeLock( gJobsLock ); job = (PMWorkUnit *) gJobs->copyNextJob(); } IOUnlock( gJobsLock ); if(job) { who = job->who; // Do job switch(job->type) { case kMatchNubJob: if(who) who->doServiceMatch(); break; default: break; } } } while( alive ); self->release(); } */