/*
- * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved.
+ * Copyright (c) 1998-2014 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
#include <IOKit/system.h>
#include <IOKit/IOService.h>
+#include <libkern/OSDebug.h>
#include <libkern/c++/OSContainers.h>
+#include <libkern/c++/OSKext.h>
#include <libkern/c++/OSUnserialize.h>
#include <IOKit/IOCatalogue.h>
#include <IOKit/IOCommand.h>
+#include <IOKit/IODeviceTreeSupport.h>
#include <IOKit/IODeviceMemory.h>
#include <IOKit/IOInterrupts.h>
#include <IOKit/IOInterruptController.h>
#include <IOKit/IOBSD.h>
#include <IOKit/IOUserClient.h>
#include <IOKit/IOWorkLoop.h>
+#include <IOKit/IOTimeStamp.h>
+#include <IOKit/IOHibernatePrivate.h>
+#include <IOKit/IOInterruptAccountingPrivate.h>
+#include <IOKit/IOKernelReporters.h>
+#include <IOKit/AppleKeyStoreInterface.h>
+#include <IOKit/IOCPU.h>
#include <mach/sync_policy.h>
#include <IOKit/assert.h>
#include <sys/errno.h>
+#include <sys/kdebug.h>
+#include <string.h>
-//#define LOG kprintf
-#define LOG IOLog
+#include <machine/pal_routines.h>
+
+#define LOG kprintf
+//#define LOG IOLog
+#define MATCH_DEBUG 0
+#define OBFUSCATE(x) ((void *)(VM_KERNEL_ADDRPERM(x)))
#include "IOServicePrivate.h"
+#include "IOKitKernelInternal.h"
// take lockForArbitration before LOCKNOTIFY
const OSSymbol * gIODefaultMatchCategoryKey;
const OSSymbol * gIOMatchedServiceCountKey;
+const OSSymbol * gIOMapperIDKey;
const OSSymbol * gIOUserClientClassKey;
const OSSymbol * gIOKitDebugKey;
const OSSymbol * gIOCommandPoolSizeKey;
+const OSSymbol * gIOConsoleLockedKey;
const OSSymbol * gIOConsoleUsersKey;
const OSSymbol * gIOConsoleSessionUIDKey;
+const OSSymbol * gIOConsoleSessionAuditIDKey;
const OSSymbol * gIOConsoleUsersSeedKey;
-const OSSymbol * gIOConsoleSessionOnConsoleKey;
-const OSSymbol * gIOConsoleSessionSecureInputPIDKey;
+const OSSymbol * gIOConsoleSessionOnConsoleKey;
+const OSSymbol * gIOConsoleSessionLoginDoneKey;
+const OSSymbol * gIOConsoleSessionSecureInputPIDKey;
+const OSSymbol * gIOConsoleSessionScreenLockedTimeKey;
+
+clock_sec_t gIOConsoleLockTime;
+static bool gIOConsoleLoggedIn;
+#if HIBERNATION
+static uint32_t gIOScreenLockState;
+#endif
+static IORegistryEntry * gIOChosenEntry;
static int gIOResourceGenerationCount;
const OSSymbol * gIOBusyInterest;
const OSSymbol * gIOAppPowerStateInterest;
const OSSymbol * gIOPriorityPowerStateInterest;
+const OSSymbol * gIOConsoleSecurityInterest;
+
+const OSSymbol * gAKSGetKey;
+#if defined(__i386__) || defined(__x86_64__)
+const OSSymbol * gIOCreateEFIDevicePathSymbol;
+#endif
static OSDictionary * gNotifications;
static IORecursiveLock * gNotificationLock;
static int gNumConfigThreads;
static int gNumWaitingThreads;
static IOLock * gIOServiceBusyLock;
+static bool gCPUsRunning;
static thread_t gIOTerminateThread;
static UInt32 gIOTerminateWork;
static SInt32 gIOConsoleUsersSeed;
static OSData * gIOConsoleUsersSeedValue;
+extern const OSSymbol * gIODTPHandleKey;
+
+const OSSymbol * gIOPlatformFunctionHandlerSet;
+
+static IOLock * gIOConsoleUsersLock;
+static thread_call_t gIOConsoleLockCallout;
+
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
#define LOCKREADNOTIFY() \
IORecursiveLockUnlock( gNotificationLock )
#define SLEEPNOTIFY(event) \
IORecursiveLockSleep( gNotificationLock, (void *)(event), THREAD_UNINT )
+#define SLEEPNOTIFYTO(event, deadline) \
+ IORecursiveLockSleepDeadline( gNotificationLock, (void *)(event), deadline, THREAD_UNINT )
#define WAKEUPNOTIFY(event) \
IORecursiveLockWakeup( gNotificationLock, (void *)(event), /* wake one */ false )
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
+struct IOInterruptAccountingReporter {
+ IOSimpleReporter * reporter; /* Reporter responsible for communicating the statistics */
+ IOInterruptAccountingData * statistics; /* The live statistics values, if any */
+};
+
struct ArbitrationLockQueueElement {
queue_chain_t link;
IOThread thread;
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
-#if __i386__
+#if defined(__i386__) || defined(__x86_64__)
// Only used by the intel implementation of
-// IOService::requireMaxBusStall(UInt32 __unused ns)
-struct BusStallEntry
+// IOService::requireMaxBusStall(UInt32 ns)
+// IOService::requireMaxInterruptDelay(uint32_t ns)
+struct CpuDelayEntry
{
- const IOService *fService;
- UInt32 fMaxDelay;
+ IOService * fService;
+ UInt32 fMaxDelay;
+ UInt32 fDelayType;
+};
+
+enum {
+ kCpuDelayBusStall, kCpuDelayInterrupt,
+ kCpuNumDelayTypes
};
-static OSData *sBusStall = OSData::withCapacity(8 * sizeof(BusStallEntry));
-static IOLock *sBusStallLock = IOLockAlloc();
-#endif /* __i386__ */
+static OSData *sCpuDelayData = OSData::withCapacity(8 * sizeof(CpuDelayEntry));
+static IORecursiveLock *sCpuDelayLock = IORecursiveLockAlloc();
+static OSArray *sCpuLatencyHandlers[kCpuNumDelayTypes];
+const OSSymbol *sCPULatencyFunctionName[kCpuNumDelayTypes];
+static OSNumber * sCPULatencyHolder[kCpuNumDelayTypes];
+static char sCPULatencyHolderName[kCpuNumDelayTypes][128];
+static OSNumber * sCPULatencySet[kCpuNumDelayTypes];
+
+static void
+requireMaxCpuDelay(IOService * service, UInt32 ns, UInt32 delayType);
+static IOReturn
+setLatencyHandler(UInt32 delayType, IOService * target, bool enable);
+
+#endif /* defined(__i386__) || defined(__x86_64__) */
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
gIOInterruptSpecifiersKey
= OSSymbol::withCStringNoCopy("IOInterruptSpecifiers");
+ gIOMapperIDKey = OSSymbol::withCStringNoCopy(kIOMapperIDKey);
+
gIOKitDebugKey = OSSymbol::withCStringNoCopy( kIOKitDebugKey );
gIOCommandPoolSizeKey = OSSymbol::withCStringNoCopy( kIOCommandPoolSizeKey );
gIOBusyInterest = OSSymbol::withCStringNoCopy( kIOBusyInterest );
gIOAppPowerStateInterest = OSSymbol::withCStringNoCopy( kIOAppPowerStateInterest );
gIOPriorityPowerStateInterest = OSSymbol::withCStringNoCopy( kIOPriorityPowerStateInterest );
+ gIOConsoleSecurityInterest = OSSymbol::withCStringNoCopy( kIOConsoleSecurityInterest );
gNotifications = OSDictionary::withCapacity( 1 );
gIOPublishNotification = OSSymbol::withCStringNoCopy(
kIOTerminatedNotification );
gIOServiceKey = OSSymbol::withCStringNoCopy( kIOServiceClass);
+ gIOConsoleLockedKey = OSSymbol::withCStringNoCopy( kIOConsoleLockedKey);
gIOConsoleUsersKey = OSSymbol::withCStringNoCopy( kIOConsoleUsersKey);
gIOConsoleSessionUIDKey = OSSymbol::withCStringNoCopy( kIOConsoleSessionUIDKey);
- gIOConsoleUsersSeedKey = OSSymbol::withCStringNoCopy( kIOConsoleUsersSeedKey);
- gIOConsoleSessionOnConsoleKey = OSSymbol::withCStringNoCopy( kIOConsoleSessionOnConsoleKey);
- gIOConsoleSessionSecureInputPIDKey = OSSymbol::withCStringNoCopy( kIOConsoleSessionSecureInputPIDKey);
- gIOConsoleUsersSeedValue = OSData::withBytesNoCopy(&gIOConsoleUsersSeed, sizeof(gIOConsoleUsersSeed));
-
+ gIOConsoleSessionAuditIDKey = OSSymbol::withCStringNoCopy( kIOConsoleSessionAuditIDKey);
+
+ gIOConsoleUsersSeedKey = OSSymbol::withCStringNoCopy(kIOConsoleUsersSeedKey);
+ gIOConsoleSessionOnConsoleKey = OSSymbol::withCStringNoCopy(kIOConsoleSessionOnConsoleKey);
+ gIOConsoleSessionLoginDoneKey = OSSymbol::withCStringNoCopy(kIOConsoleSessionLoginDoneKey);
+ gIOConsoleSessionSecureInputPIDKey = OSSymbol::withCStringNoCopy(kIOConsoleSessionSecureInputPIDKey);
+ gIOConsoleSessionScreenLockedTimeKey = OSSymbol::withCStringNoCopy(kIOConsoleSessionScreenLockedTimeKey);
+
+ gIOConsoleUsersSeedValue = OSData::withBytesNoCopy(&gIOConsoleUsersSeed, sizeof(gIOConsoleUsersSeed));
+
+ gIOPlatformFunctionHandlerSet = OSSymbol::withCStringNoCopy(kIOPlatformFunctionHandlerSet);
+#if defined(__i386__) || defined(__x86_64__)
+ sCPULatencyFunctionName[kCpuDelayBusStall] = OSSymbol::withCStringNoCopy(kIOPlatformFunctionHandlerMaxBusDelay);
+ sCPULatencyFunctionName[kCpuDelayInterrupt] = OSSymbol::withCStringNoCopy(kIOPlatformFunctionHandlerMaxInterruptDelay);
+ uint32_t idx;
+ for (idx = 0; idx < kCpuNumDelayTypes; idx++)
+ {
+ sCPULatencySet[idx] = OSNumber::withNumber(-1U, 32);
+ sCPULatencyHolder[idx] = OSNumber::withNumber(0ULL, 64);
+ assert(sCPULatencySet[idx] && sCPULatencyHolder[idx]);
+ }
+ gIOCreateEFIDevicePathSymbol = OSSymbol::withCString("CreateEFIDevicePath");
+#endif
gNotificationLock = IORecursiveLockAlloc();
+ gAKSGetKey = OSSymbol::withCStringNoCopy(AKS_PLATFORM_FUNCTION_GETKEY);
+
assert( gIOServicePlane && gIODeviceMemoryKey
&& gIOInterruptControllersKey && gIOInterruptSpecifiersKey
&& gIOResourcesKey && gNotifications && gNotificationLock
gIOServiceBusyLock = IOLockAlloc();
+ gIOConsoleUsersLock = IOLockAlloc();
+
err = semaphore_create(kernel_task, &gJobsSemaphore, SYNC_POLICY_FIFO, 0);
- assert( gIOServiceBusyLock && gJobs && gJobsLock && (err == KERN_SUCCESS) );
+ gIOConsoleLockCallout = thread_call_allocate(&IOService::consoleLockTimer, NULL);
+
+ IORegistryEntry::getRegistryRoot()->setProperty(gIOConsoleLockedKey, kOSBooleanTrue);
+
+ assert( gIOServiceBusyLock && gJobs && gJobsLock && gIOConsoleUsersLock
+ && gIOConsoleLockCallout && (err == KERN_SUCCESS) );
gIOResources = IOResources::resources();
assert( gIOResources );
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
+#if defined(__i386__) || defined(__x86_64__)
+extern "C" {
+
+const char *getCpuDelayBusStallHolderName(void) {
+ return sCPULatencyHolderName[kCpuDelayBusStall];
+}
+
+}
+#endif
+
#if IOMATCHDEBUG
static UInt64 getDebugFlags( OSDictionary * props )
{
{
}
+bool IOService::init( OSDictionary * dictionary )
+{
+ bool ret;
+
+ ret = super::init(dictionary);
+ if (!ret) return (false);
+ if (reserved) return (true);
+
+ reserved = IONew(ExpansionData, 1);
+ if (!reserved) return (false);
+ bzero(reserved, sizeof(*reserved));
+
+ /*
+ * TODO: Improve on this. Previous efforts to more lazily allocate this
+ * lock based on the presence of specifiers ran into issues as some
+ * platforms set up the specifiers after IOService initialization.
+ *
+ * We may be able to get away with a global lock, as this should only be
+ * contended by IOReporting clients and driver start/stop (unless a
+ * driver wants to remove/add handlers in the course of normal operation,
+ * which should be unlikely).
+ */
+ reserved->interruptStatisticsLock = IOLockAlloc();
+ if (!reserved->interruptStatisticsLock) return (false);
+
+ return (true);
+}
+
+bool IOService::init( IORegistryEntry * from,
+ const IORegistryPlane * inPlane )
+{
+ bool ret;
+
+ ret = super::init(from, inPlane);
+ if (!ret) return (false);
+ if (reserved) return (true);
+
+ reserved = IONew(ExpansionData, 1);
+ if (!reserved) return (false);
+ bzero(reserved, sizeof(*reserved));
+
+ /*
+ * TODO: Improve on this. Previous efforts to more lazily allocate this
+ * lock based on the presence of specifiers ran into issues as some
+ * platforms set up the specifiers after IOService initialization.
+ *
+ * We may be able to get away with a global lock, as this should only be
+ * contended by IOReporting clients and driver start/stop (unless a
+ * driver wants to remove/add handlers in the course of normal operation,
+ * which should be unlikely).
+ */
+ reserved->interruptStatisticsLock = IOLockAlloc();
+ if (!reserved->interruptStatisticsLock) return (false);
+
+ return (true);
+}
+
void IOService::free( void )
{
+ int i = 0;
requireMaxBusStall(0);
+ requireMaxInterruptDelay(0);
if( getPropertyTable())
unregisterAllInterest();
PMfree();
+
+ if (reserved) {
+ if (reserved->interruptStatisticsArray) {
+ for (i = 0; i < reserved->interruptStatisticsArrayCount; i++) {
+ if (reserved->interruptStatisticsArray[i].reporter)
+ reserved->interruptStatisticsArray[i].reporter->release();
+ }
+
+ IODelete(reserved->interruptStatisticsArray, IOInterruptAccountingReporter, reserved->interruptStatisticsArrayCount);
+ }
+
+ if (reserved->interruptStatisticsLock)
+ IOLockFree(reserved->interruptStatisticsLock);
+ IODelete(reserved, ExpansionData, 1);
+ }
+
+ if (_numInterruptSources && _interruptSources)
+ {
+ IOFree(_interruptSources, _numInterruptSources * sizeof(IOInterruptSource));
+ _interruptSources = 0;
+ }
+
super::free();
}
ok = attachToParent( getRegistryRoot(), gIOServicePlane);
}
+ if (ok && !__provider) (void) getProvider();
+
return( ok );
}
lockForArbitration();
+ uint64_t regID1 = provider->getRegistryEntryID();
+ uint64_t regID2 = getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_DETACH,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
adjParent = ((busy = (__state[1] & kIOServiceBusyStateMask))
&& (provider == getProvider()));
_adjustBusy( -busy );
}
+ if (kIOServiceInactiveState & __state[0]) {
+ getMetaClass()->removeInstance(this);
+ IORemoveServicePlatformActions(this);
+ }
+
unlockForArbitration();
if( newProvider) {
}
// check for last client detach from a terminated service
- if( provider->lockForArbitration( true )) {
- if( adjParent)
- provider->_adjustBusy( -1 );
+ if( provider->lockForArbitration( true ))
+ {
+ if (kIOServiceStartState & __state[1])
+ {
+ provider->scheduleTerminatePhase2();
+ }
+ if( adjParent) provider->_adjustBusy( -1 );
if( (provider->__state[1] & kIOServiceTermPhase3State)
&& (0 == provider->getClient())) {
provider->scheduleFinalize();
if( gIOPlatform && (!gIOPlatform->platformAdjustService(this)))
return;
+ IOInstallServicePlatformActions(this);
+
if( (this != gIOResources)
&& (kIOLogRegister & gIOKitDebug)) {
// OSKernelStackRemaining(), getName());
if( needConfig) {
- prevBusy = _adjustBusy( 1 );
needWake = (0 != (kIOServiceSyncPubState & __state[1]));
}
else
__state[1] &= ~kIOServiceSynchronousState;
+ if( needConfig) prevBusy = _adjustBusy( 1 );
+
unlockForArbitration();
if( needConfig) {
lockForArbitration();
IOLockLock( gIOServiceBusyLock );
- waitAgain = (prevBusy < (__state[1] & kIOServiceBusyStateMask));
+ waitAgain = ((prevBusy < (__state[1] & kIOServiceBusyStateMask))
+ && (0 == (__state[0] & kIOServiceInactiveState)));
+
if( waitAgain)
__state[1] |= kIOServiceSyncPubState | kIOServiceBusyWaiterState;
else
while( (table = (OSDictionary *) newTables->getFirstObject())) {
- LOCKWRITENOTIFY();
- set = (OSSet *) getExistingServices( table,
+ LOCKWRITENOTIFY();
+ set = (OSSet *) copyExistingServices( table,
kIOServiceRegisteredState,
kIOServiceExistingSet);
- UNLOCKNOTIFY();
- if( set) {
+ UNLOCKNOTIFY();
+ if( set) {
#if IOMATCHDEBUG
- count += set->getCount();
+ count += set->getCount();
#endif
- if (allSet) {
- allSet->merge((const OSSet *) set);
- set->release();
- }
- else
- allSet = set;
- }
+ if (allSet) {
+ allSet->merge((const OSSet *) set);
+ set->release();
+ }
+ else
+ allSet = set;
+ }
#if IOMATCHDEBUG
- if( getDebugFlags( table ) & kIOLogMatch)
- LOG("Matching service count = %ld\n", count);
+ if( getDebugFlags( table ) & kIOLogMatch)
+ LOG("Matching service count = %ld\n", (long)count);
#endif
- newTables->removeObject(table);
+ newTables->removeObject(table);
}
if (allSet) {
- while( (service = (IOService *) allSet->getAnyObject())) {
- service->startMatching(kIOServiceAsynchronous);
- allSet->removeObject(service);
- }
- allSet->release();
+ while( (service = (IOService *) allSet->getAnyObject())) {
+ service->startMatching(kIOServiceAsynchronous);
+ allSet->removeObject(service);
+ }
+ allSet->release();
}
newTables->release();
IOService * parent;
SInt32 generation;
- parent = __provider;
generation = getGenerationCount();
if( __providerGeneration == generation)
- return( parent );
+ return( __provider );
parent = (IOService *) getParentEntry( gIOServicePlane);
if( parent == IORegistryEntry::getRegistryRoot())
parent = 0;
self->__provider = parent;
- // save the count before getParentEntry()
+ OSMemoryBarrier();
+ // save the count from before call to getParentEntry()
self->__providerGeneration = generation;
return( parent );
void *param3, void *param4 )
{
IOReturn result = kIOReturnUnsupported;
- IOService *provider = getProvider();
-
- if (provider != 0) {
+ IOService *provider;
+
+ if (gIOPlatformFunctionHandlerSet == functionName)
+ {
+#if defined(__i386__) || defined(__x86_64__)
+ const OSSymbol * functionHandlerName = (const OSSymbol *) param1;
+ IOService * target = (IOService *) param2;
+ bool enable = (param3 != 0);
+
+ if (sCPULatencyFunctionName[kCpuDelayBusStall] == functionHandlerName)
+ result = setLatencyHandler(kCpuDelayBusStall, target, enable);
+ else if (sCPULatencyFunctionName[kCpuDelayInterrupt] == param1)
+ result = setLatencyHandler(kCpuDelayInterrupt, target, enable);
+#endif /* defined(__i386__) || defined(__x86_64__) */
+ }
+
+ if ((kIOReturnUnsupported == result) && (provider = getProvider())) {
result = provider->callPlatformFunction(functionName, waitForFunction,
param1, param2, param3, param4);
}
{
gIOPlatform = platform;
gIOResources->attachToParent( gIOServiceRoot, gIOServicePlane );
+
+#if defined(__i386__) || defined(__x86_64__)
+
+ static const char * keys[kCpuNumDelayTypes] = {
+ kIOPlatformMaxBusDelay, kIOPlatformMaxInterruptDelay };
+ const OSObject * objs[2];
+ OSArray * array;
+ uint32_t idx;
+
+ for (idx = 0; idx < kCpuNumDelayTypes; idx++)
+ {
+ objs[0] = sCPULatencySet[idx];
+ objs[1] = sCPULatencyHolder[idx];
+ array = OSArray::withObjects(objs, 2);
+ if (!array) break;
+ platform->setProperty(keys[idx], array);
+ array->release();
+ }
+#endif /* defined(__i386__) || defined(__x86_64__) */
}
void IOService::setPMRootDomain( class IOPMrootDomain * rootDomain)
OSObjectApplierFunction applier,
void * context )
{
- applyToClients( (IOServiceApplierFunction) applier, context );
+ if (gIOGeneralInterest == typeOfInterest)
+ applyToClients( (IOServiceApplierFunction) applier, context );
applyToInterestNotifiers(this, typeOfInterest, applier, context);
}
IOServiceInterestHandler handler, void * target, void * ref )
{
_IOServiceInterestNotifier * notify = 0;
+ IOReturn rc = kIOReturnError;
+
+ notify = new _IOServiceInterestNotifier;
+ if (!notify) return NULL;
+
+ if(notify->init()) {
+ rc = registerInterestForNotifer(notify, typeOfInterest,
+ handler, target, ref);
+ }
+
+ if (rc != kIOReturnSuccess) {
+ notify->release();
+ notify = 0;
+ }
+
+ return( notify );
+}
+
+IOReturn IOService::registerInterestForNotifer( IONotifier *svcNotify, const OSSymbol * typeOfInterest,
+ IOServiceInterestHandler handler, void * target, void * ref )
+{
+ IOReturn rc = kIOReturnSuccess;
+ _IOServiceInterestNotifier *notify = 0;
if( (typeOfInterest != gIOGeneralInterest)
&& (typeOfInterest != gIOBusyInterest)
&& (typeOfInterest != gIOAppPowerStateInterest)
+ && (typeOfInterest != gIOConsoleSecurityInterest)
&& (typeOfInterest != gIOPriorityPowerStateInterest))
- return( 0 );
+ return( kIOReturnBadArgument );
+
+ if (!svcNotify || !(notify = OSDynamicCast(_IOServiceInterestNotifier, svcNotify)))
+ return( kIOReturnBadArgument );
lockForArbitration();
if( 0 == (__state[0] & kIOServiceInactiveState)) {
- notify = new _IOServiceInterestNotifier;
- if( notify && !notify->init()) {
- notify->release();
- notify = 0;
- }
-
- if( notify) {
- notify->handler = handler;
- notify->target = target;
- notify->ref = ref;
- notify->state = kIOServiceNotifyEnable;
- queue_init( ¬ify->handlerInvocations );
-
- ////// queue
+ notify->handler = handler;
+ notify->target = target;
+ notify->ref = ref;
+ notify->state = kIOServiceNotifyEnable;
- LOCKWRITENOTIFY();
+ ////// queue
- // Get the head of the notifier linked list
- IOCommand *notifyList = (IOCommand *) getProperty( typeOfInterest );
- if (!notifyList || !OSDynamicCast(IOCommand, notifyList)) {
- notifyList = OSTypeAlloc(IOCommand);
- if (notifyList) {
- notifyList->init();
- setProperty( typeOfInterest, notifyList);
- notifyList->release();
- }
- }
+ LOCKWRITENOTIFY();
- if (notifyList) {
- enqueue(¬ifyList->fCommandChain, ¬ify->chain);
- notify->retain(); // ref'ed while in list
- }
+ // Get the head of the notifier linked list
+ IOCommand * notifyList;
+ OSObject * obj = copyProperty( typeOfInterest );
+ if (!(notifyList = OSDynamicCast(IOCommand, obj))) {
+ notifyList = OSTypeAlloc(IOCommand);
+ if (notifyList) {
+ notifyList->init();
+ bool ok = setProperty( typeOfInterest, notifyList);
+ notifyList->release();
+ if (!ok) notifyList = 0;
+ }
+ }
+ if (obj) obj->release();
- UNLOCKNOTIFY();
+ if (notifyList) {
+ enqueue(¬ifyList->fCommandChain, ¬ify->chain);
+ notify->retain(); // ref'ed while in list
}
+
+ UNLOCKNOTIFY();
+ }
+ else {
+ rc = kIOReturnNotReady;
}
unlockForArbitration();
- return( notify );
+ return rc;
}
static void cleanInterestList( OSObject * head )
cleanInterestList( getProperty( gIOBusyInterest ));
cleanInterestList( getProperty( gIOAppPowerStateInterest ));
cleanInterestList( getProperty( gIOPriorityPowerStateInterest ));
+ cleanInterestList( getProperty( gIOConsoleSecurityInterest ));
}
/*
LOCKWRITENOTIFY();
if( queue_next( &chain )) {
- remqueue( 0, &chain);
+ remqueue(&chain);
queue_next( &chain) = queue_prev( &chain) = 0;
release();
}
UNLOCKNOTIFY();
}
+bool _IOServiceInterestNotifier::init()
+{
+ queue_init( &handlerInvocations );
+ return (OSObject::init());
+}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
#define tailQ(o) setObject(o)
#define headQ(o) setObject(0, o)
-#define TLOG(fmt, args...) { if(kIOLogYield & gIOKitDebug) IOLog(fmt, ## args); }
+#define TLOG(fmt, args...) { if(kIOLogYield & gIOKitDebug) { IOLog("[%llx] ", thread_tid(current_thread())); IOLog(fmt, ## args); }}
-inline void _workLoopAction( IOWorkLoop::Action action,
+static void _workLoopAction( IOWorkLoop::Action action,
IOService * service,
void * p0 = 0, void * p1 = 0,
void * p2 = 0, void * p3 = 0 )
// -- compat
if( ok) {
provider->terminateClient( this, options | kIOServiceRecursing );
- ok = (0 != (__state[1] & kIOServiceRecursing));
+ ok = (0 != (kIOServiceInactiveState & __state[0]));
}
// --
bool IOService::terminatePhase1( IOOptionBits options )
{
- IOService * victim;
- IOService * client;
- OSIterator * iter;
- OSArray * makeInactive;
- bool ok;
- bool didInactive;
- bool startPhase2 = false;
-
- TLOG("%s::terminatePhase1(%08lx)\n", getName(), options);
+ IOService * victim;
+ IOService * client;
+ OSIterator * iter;
+ OSArray * makeInactive;
+ OSArray * waitingInactive;
+ int waitResult = THREAD_AWAKENED;
+ bool wait;
+ bool ok;
+ bool didInactive;
+ bool startPhase2 = false;
+
+ TLOG("%s[0x%qx]::terminatePhase1(%08llx)\n", getName(), getRegistryEntryID(), (long long)options);
+
+ uint64_t regID = getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_PHASE1,
+ (uintptr_t) regID,
+ (uintptr_t) (regID >> 32),
+ (uintptr_t) this,
+ (uintptr_t) options);
// -- compat
if( options & kIOServiceRecursing) {
- __state[1] |= kIOServiceRecursing;
+ lockForArbitration();
+ if (0 == (kIOServiceInactiveState & __state[0]))
+ {
+ __state[0] |= kIOServiceInactiveState;
+ __state[1] |= kIOServiceRecursing | kIOServiceTermPhase1State;
+ }
+ unlockForArbitration();
+
return( true );
}
// --
- makeInactive = OSArray::withCapacity( 16 );
- if( !makeInactive)
- return( false );
+ makeInactive = OSArray::withCapacity( 16 );
+ waitingInactive = OSArray::withCapacity( 16 );
+ if(!makeInactive || !waitingInactive) return( false );
victim = this;
victim->retain();
- while( victim ) {
-
+ while( victim )
+ {
didInactive = victim->lockForArbitration( true );
- if( didInactive) {
- didInactive = (0 == (victim->__state[0] & kIOServiceInactiveState));
- if( didInactive) {
- victim->__state[0] |= kIOServiceInactiveState;
- victim->__state[0] &= ~(kIOServiceRegisteredState | kIOServiceMatchedState
- | kIOServiceFirstPublishState | kIOServiceFirstMatchState);
- victim->_adjustBusy( 1 );
- }
+ if( didInactive)
+ {
+ uint64_t regID1 = victim->getRegistryEntryID();
+ IOServiceTrace(IOSERVICE_TERM_SET_INACTIVE,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) victim->__state[1],
+ (uintptr_t) 0);
+
+ enum { kRP1 = kIOServiceRecursing | kIOServiceTermPhase1State };
+ didInactive = (kRP1 == (victim->__state[1] & kRP1))
+ || (0 == (victim->__state[0] & kIOServiceInactiveState));
+
+ if (!didInactive)
+ {
+ // a multiply attached IOService can be visited twice
+ if (-1U == waitingInactive->getNextIndexOfObject(victim, 0)) do
+ {
+ IOLockLock(gIOServiceBusyLock);
+ wait = (victim->__state[1] & kIOServiceTermPhase1State);
+ if( wait) {
+ TLOG("%s[0x%qx]::waitPhase1(%s[0x%qx])\n",
+ getName(), getRegistryEntryID(), victim->getName(), victim->getRegistryEntryID());
+ victim->__state[1] |= kIOServiceTerm1WaiterState;
+ victim->unlockForArbitration();
+ assert_wait((event_t)&victim->__state[1], THREAD_UNINT);
+ }
+ IOLockUnlock(gIOServiceBusyLock);
+ if( wait) {
+ waitResult = thread_block(THREAD_CONTINUE_NULL);
+ TLOG("%s[0x%qx]::did waitPhase1(%s[0x%qx])\n",
+ getName(), getRegistryEntryID(), victim->getName(), victim->getRegistryEntryID());
+ victim->lockForArbitration();
+ }
+ }
+ while (wait && (waitResult != THREAD_TIMED_OUT));
+ }
+ else
+ {
+ victim->__state[0] |= kIOServiceInactiveState;
+ victim->__state[0] &= ~(kIOServiceRegisteredState | kIOServiceMatchedState
+ | kIOServiceFirstPublishState | kIOServiceFirstMatchState);
+ victim->__state[1] &= ~kIOServiceRecursing;
+ victim->__state[1] |= kIOServiceTermPhase1State;
+ waitingInactive->headQ(victim);
+ if (victim == this)
+ {
+ if (kIOServiceTerminateNeedWillTerminate & options)
+ {
+ victim->__state[1] |= kIOServiceNeedWillTerminate;
+ }
+ }
+ victim->_adjustBusy( 1 );
+ }
victim->unlockForArbitration();
}
- if( victim == this)
- startPhase2 = didInactive;
- if( didInactive) {
-
+ if( victim == this) startPhase2 = didInactive;
+ if (didInactive)
+ {
victim->deliverNotification( gIOTerminatedNotification, 0, 0xffffffff );
IOUserClient::destroyUserReferences( victim );
iter = victim->getClientIterator();
if( iter) {
while( (client = (IOService *) iter->getNextObject())) {
- TLOG("%s::requestTerminate(%s, %08lx)\n",
- client->getName(), victim->getName(), options);
+ TLOG("%s[0x%qx]::requestTerminate(%s[0x%qx], %08llx)\n",
+ client->getName(), client->getRegistryEntryID(),
+ victim->getName(), victim->getRegistryEntryID(), (long long)options);
ok = client->requestTerminate( victim, options );
- TLOG("%s::requestTerminate(%s, ok = %d)\n",
- client->getName(), victim->getName(), ok);
+ TLOG("%s[0x%qx]::requestTerminate(%s[0x%qx], ok = %d)\n",
+ client->getName(), client->getRegistryEntryID(),
+ victim->getName(), victim->getRegistryEntryID(), ok);
+
+ uint64_t regID1 = client->getRegistryEntryID();
+ uint64_t regID2 = victim->getRegistryEntryID();
+ IOServiceTrace(
+ (ok ? IOSERVICE_TERMINATE_REQUEST_OK
+ : IOSERVICE_TERMINATE_REQUEST_FAIL),
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
if( ok)
makeInactive->setObject( client );
}
makeInactive->removeObject(0);
}
}
-
makeInactive->release();
+ while ((victim = (IOService *) waitingInactive->getObject(0)))
+ {
+ victim->retain();
+ waitingInactive->removeObject(0);
+
+ victim->lockForArbitration();
+ victim->__state[1] &= ~kIOServiceTermPhase1State;
+ if (kIOServiceTerm1WaiterState & victim->__state[1])
+ {
+ victim->__state[1] &= ~kIOServiceTerm1WaiterState;
+ TLOG("%s[0x%qx]::wakePhase1\n", victim->getName(), victim->getRegistryEntryID());
+ IOLockLock( gIOServiceBusyLock );
+ thread_wakeup( (event_t) &victim->__state[1]);
+ IOLockUnlock( gIOServiceBusyLock );
+ }
+ victim->unlockForArbitration();
+ victim->release();
+ }
+ waitingInactive->release();
+
if( startPhase2)
- scheduleTerminatePhase2( options );
+ {
+ retain();
+ lockForArbitration();
+ scheduleTerminatePhase2(options);
+ unlockForArbitration();
+ release();
+ }
return( true );
}
+void IOService::setTerminateDefer(IOService * provider, bool defer)
+{
+ lockForArbitration();
+ if (defer) __state[1] |= kIOServiceStartState;
+ else __state[1] &= ~kIOServiceStartState;
+ unlockForArbitration();
+
+ if (provider && !defer)
+ {
+ provider->lockForArbitration();
+ provider->scheduleTerminatePhase2();
+ provider->unlockForArbitration();
+ }
+}
+
+// call with lockForArbitration
void IOService::scheduleTerminatePhase2( IOOptionBits options )
{
AbsoluteTime deadline;
+ uint64_t regID1;
int waitResult = THREAD_AWAKENED;
bool wait, haveDeadline = false;
- options |= kIOServiceRequired;
+ if (!(__state[0] & kIOServiceInactiveState)) return;
- retain();
+ regID1 = getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_TERM_SCHED_PHASE2,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) __state[1],
+ (uintptr_t) options);
+ if (__state[1] & kIOServiceTermPhase1State) return;
+
+ retain();
+ unlockForArbitration();
+ options |= kIOServiceRequired;
IOLockLock( gJobsLock );
if( (options & kIOServiceSynchronous)
waitResult = IOLockSleepDeadline( gJobsLock, &gIOTerminateWork,
deadline, THREAD_UNINT );
if( waitResult == THREAD_TIMED_OUT) {
- TLOG("%s::terminate(kIOServiceSynchronous) timeout", getName());
- }
+ IOLog("%s[0x%qx]::terminate(kIOServiceSynchronous) timeout\n", getName(), getRegistryEntryID());
+ }
}
} while(gIOTerminateWork || (wait && (waitResult != THREAD_TIMED_OUT)));
gIOTerminatePhase2List->setObject( this );
if( 0 == gIOTerminateWork++) {
if( !gIOTerminateThread)
- gIOTerminateThread = IOCreateThread( &terminateThread, (void *) options );
+ kernel_thread_start(&terminateThread, (void *)(uintptr_t) options, &gIOTerminateThread);
else
IOLockWakeup(gJobsLock, (event_t) &gIOTerminateWork, /* one-thread */ false );
}
}
IOLockUnlock( gJobsLock );
-
+ lockForArbitration();
release();
}
-void IOService::terminateThread( void * arg )
+void IOService::terminateThread( void * arg, wait_result_t waitResult )
{
IOLockLock( gJobsLock );
while (gIOTerminateWork)
- terminateWorker( (IOOptionBits) arg );
+ terminateWorker( (uintptr_t) arg );
+ thread_deallocate(gIOTerminateThread);
gIOTerminateThread = 0;
IOLockWakeup( gJobsLock, (event_t) &gIOTerminateThread, /* one-thread */ false);
void IOService::scheduleStop( IOService * provider )
{
- TLOG("%s::scheduleStop(%s)\n", getName(), provider->getName());
+ uint64_t regID1 = getRegistryEntryID();
+ uint64_t regID2 = provider->getRegistryEntryID();
+
+ TLOG("%s[0x%qx]::scheduleStop(%s[0x%qx])\n", getName(), regID1, provider->getName(), regID2);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_SCHEDULE_STOP,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
IOLockLock( gJobsLock );
gIOStopList->tailQ( this );
if( 0 == gIOTerminateWork++) {
if( !gIOTerminateThread)
- gIOTerminateThread = IOCreateThread( &terminateThread, (void *) 0 );
+ kernel_thread_start(&terminateThread, (void *) 0, &gIOTerminateThread);
else
IOLockWakeup(gJobsLock, (event_t) &gIOTerminateWork, /* one-thread */ false );
}
void IOService::scheduleFinalize( void )
{
- TLOG("%s::scheduleFinalize\n", getName());
+ uint64_t regID1 = getRegistryEntryID();
+
+ TLOG("%s[0x%qx]::scheduleFinalize\n", getName(), regID1);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_SCHEDULE_FINALIZE,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ 0, 0);
IOLockLock( gJobsLock );
gIOFinalizeList->tailQ( this );
if( 0 == gIOTerminateWork++) {
if( !gIOTerminateThread)
- gIOTerminateThread = IOCreateThread( &terminateThread, (void *) 0 );
+ kernel_thread_start(&terminateThread, (void *) 0, &gIOTerminateThread);
else
IOLockWakeup(gJobsLock, (event_t) &gIOTerminateWork, /* one-thread */ false );
}
scheduleStop( provider );
// -- compat
else {
- message( kIOMessageServiceIsRequestingClose, provider, (void *) options );
+ message( kIOMessageServiceIsRequestingClose, provider, (void *)(uintptr_t) options );
if( false == provider->handleIsOpen( this ))
scheduleStop( provider );
}
}
void IOService::actionWillTerminate( IOService * victim, IOOptionBits options,
- OSArray * doPhase2List )
+ OSArray * doPhase2List,
+ void *unused2 __unused,
+ void *unused3 __unused )
{
OSIterator * iter;
IOService * client;
bool ok;
+ uint64_t regID1, regID2 = victim->getRegistryEntryID();
iter = victim->getClientIterator();
if( iter) {
while( (client = (IOService *) iter->getNextObject())) {
- TLOG("%s::willTerminate(%s, %08lx)\n",
- client->getName(), victim->getName(), options);
+
+ regID1 = client->getRegistryEntryID();
+ TLOG("%s[0x%qx]::willTerminate(%s[0x%qx], %08llx)\n",
+ client->getName(), regID1,
+ victim->getName(), regID2, (long long)options);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_WILL,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
ok = client->willTerminate( victim, options );
doPhase2List->tailQ( client );
}
}
}
-void IOService::actionDidTerminate( IOService * victim, IOOptionBits options )
+void IOService::actionDidTerminate( IOService * victim, IOOptionBits options,
+ void *unused1 __unused, void *unused2 __unused,
+ void *unused3 __unused )
{
OSIterator * iter;
IOService * client;
- bool defer = false;
+ bool defer;
+ uint64_t regID1, regID2 = victim->getRegistryEntryID();
- victim->messageClients( kIOMessageServiceIsTerminated, (void *) options );
+ victim->messageClients( kIOMessageServiceIsTerminated, (void *)(uintptr_t) options );
iter = victim->getClientIterator();
if( iter) {
while( (client = (IOService *) iter->getNextObject())) {
- TLOG("%s::didTerminate(%s, %08lx)\n",
- client->getName(), victim->getName(), options);
+
+ regID1 = client->getRegistryEntryID();
+ TLOG("%s[0x%qx]::didTerminate(%s[0x%qx], %08llx)\n",
+ client->getName(), regID1,
+ victim->getName(), regID2, (long long)options);
+ defer = false;
client->didTerminate( victim, options, &defer );
- TLOG("%s::didTerminate(%s, defer %d)\n",
- client->getName(), victim->getName(), defer);
+
+ IOServiceTrace(
+ (defer ? IOSERVICE_TERMINATE_DID_DEFER
+ : IOSERVICE_TERMINATE_DID),
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
+ TLOG("%s[0x%qx]::didTerminate(%s[0x%qx], defer %d)\n",
+ client->getName(), regID1,
+ victim->getName(), regID2, defer);
+ }
+ iter->release();
+ }
+}
+
+
+void IOService::actionWillStop( IOService * victim, IOOptionBits options,
+ void *unused1 __unused, void *unused2 __unused,
+ void *unused3 __unused )
+{
+ OSIterator * iter;
+ IOService * provider;
+ bool ok;
+ uint64_t regID1, regID2 = victim->getRegistryEntryID();
+
+ iter = victim->getProviderIterator();
+ if( iter) {
+ while( (provider = (IOService *) iter->getNextObject())) {
+
+ regID1 = provider->getRegistryEntryID();
+ TLOG("%s[0x%qx]::willTerminate(%s[0x%qx], %08llx)\n",
+ victim->getName(), regID2,
+ provider->getName(), regID1, (long long)options);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_WILL,
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32),
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32));
+
+ ok = victim->willTerminate( provider, options );
+ }
+ iter->release();
+ }
+}
+
+void IOService::actionDidStop( IOService * victim, IOOptionBits options,
+ void *unused1 __unused, void *unused2 __unused,
+ void *unused3 __unused )
+{
+ OSIterator * iter;
+ IOService * provider;
+ bool defer = false;
+ uint64_t regID1, regID2 = victim->getRegistryEntryID();
+
+ iter = victim->getProviderIterator();
+ if( iter) {
+ while( (provider = (IOService *) iter->getNextObject())) {
+
+ regID1 = provider->getRegistryEntryID();
+ TLOG("%s[0x%qx]::didTerminate(%s[0x%qx], %08llx)\n",
+ victim->getName(), regID2,
+ provider->getName(), regID1, (long long)options);
+ victim->didTerminate( provider, options, &defer );
+
+ IOServiceTrace(
+ (defer ? IOSERVICE_TERMINATE_DID_DEFER
+ : IOSERVICE_TERMINATE_DID),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32),
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32));
+
+ TLOG("%s[0x%qx]::didTerminate(%s[0x%qx], defer %d)\n",
+ victim->getName(), regID2,
+ provider->getName(), regID1, defer);
}
iter->release();
}
}
-void IOService::actionFinalize( IOService * victim, IOOptionBits options )
+
+void IOService::actionFinalize( IOService * victim, IOOptionBits options,
+ void *unused1 __unused, void *unused2 __unused,
+ void *unused3 __unused )
{
- TLOG("%s::finalize(%08lx)\n", victim->getName(), options);
+ uint64_t regID1 = victim->getRegistryEntryID();
+ TLOG("%s[0x%qx]::finalize(%08llx)\n", victim->getName(), regID1, (long long)options);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_FINALIZE,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ 0, 0);
+
victim->finalize( options );
}
-void IOService::actionStop( IOService * provider, IOService * client )
+void IOService::actionStop( IOService * provider, IOService * client,
+ void *unused1 __unused, void *unused2 __unused,
+ void *unused3 __unused )
{
- TLOG("%s::stop(%s)\n", client->getName(), provider->getName());
+ uint64_t regID1 = provider->getRegistryEntryID();
+ uint64_t regID2 = client->getRegistryEntryID();
+
+ TLOG("%s[0x%qx]::stop(%s[0x%qx])\n", client->getName(), regID2, provider->getName(), regID1);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_STOP,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
client->stop( provider );
if( provider->isOpen( client ))
provider->close( client );
- TLOG("%s::detach(%s)\n", client->getName(), provider->getName());
+
+ TLOG("%s[0x%qx]::detach(%s[0x%qx])\n", client->getName(), regID2, provider->getName(), regID1);
client->detach( provider );
}
OSArray * doPhase2List;
OSArray * didPhase2List;
OSSet * freeList;
+ OSIterator * iter;
UInt32 workDone;
IOService * victim;
IOService * client;
gIOTerminatePhase2List->removeObject(0);
IOLockUnlock( gJobsLock );
+ uint64_t regID1 = victim->getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_TERM_START_PHASE2,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) 0,
+ (uintptr_t) 0);
+
while( victim ) {
doPhase2 = victim->lockForArbitration( true );
if( doPhase2) {
doPhase2 = (0 != (kIOServiceInactiveState & victim->__state[0]));
if( doPhase2) {
+
+ uint64_t regID1 = victim->getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_TERM_TRY_PHASE2,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) victim->__state[1],
+ (uintptr_t) 0);
+
doPhase2 = (0 == (victim->__state[1] & kIOServiceTermPhase2State))
&& (0 == (victim->__state[1] & kIOServiceConfigState));
+
+ if (doPhase2 && (iter = victim->getClientIterator())) {
+ while (doPhase2 && (client = (IOService *) iter->getNextObject())) {
+ doPhase2 = (0 == (client->__state[1] & kIOServiceStartState));
+ if (!doPhase2)
+ {
+ uint64_t regID1 = client->getRegistryEntryID();
+ IOServiceTrace(
+ IOSERVICE_TERM_UC_DEFER,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) client->__state[1],
+ (uintptr_t) 0);
+ TLOG("%s[0x%qx]::defer phase2(%s[0x%qx])\n",
+ victim->getName(), victim->getRegistryEntryID(),
+ client->getName(), client->getRegistryEntryID());
+ }
+ }
+ iter->release();
+ }
if( doPhase2)
victim->__state[1] |= kIOServiceTermPhase2State;
}
victim->unlockForArbitration();
}
if( doPhase2) {
+
+ if (kIOServiceNeedWillTerminate & victim->__state[1]) {
+ _workLoopAction( (IOWorkLoop::Action) &actionWillStop,
+ victim, (void *)(uintptr_t) options, NULL );
+ }
+
if( 0 == victim->getClient()) {
// no clients - will go to finalize
IOLockLock( gJobsLock );
IOLockUnlock( gJobsLock );
} else {
_workLoopAction( (IOWorkLoop::Action) &actionWillTerminate,
- victim, (void *) options, (void *) doPhase2List );
+ victim, (void *)(uintptr_t) options, (void *)(uintptr_t) doPhase2List );
}
didPhase2List->headQ( victim );
}
victim->unlockForArbitration();
}
_workLoopAction( (IOWorkLoop::Action) &actionDidTerminate,
- victim, (void *) options );
+ victim, (void *)(uintptr_t) options );
+ if (kIOServiceNeedWillTerminate & victim->__state[1]) {
+ _workLoopAction( (IOWorkLoop::Action) &actionDidStop,
+ victim, (void *)(uintptr_t) options, NULL );
+ }
didPhase2List->removeObject(0);
}
IOLockLock( gJobsLock );
IOLockUnlock( gJobsLock );
_workLoopAction( (IOWorkLoop::Action) &actionFinalize,
- victim, (void *) options );
+ victim, (void *)(uintptr_t) options );
IOLockLock( gJobsLock );
// hold off free
freeList->setObject( victim );
provider = (IOService *) gIOStopProviderList->getObject(idx);
assert( provider );
+
+ uint64_t regID1 = provider->getRegistryEntryID();
+ uint64_t regID2 = client->getRegistryEntryID();
if( !provider->isChild( client, gIOServicePlane )) {
// may be multiply queued - nop it
- TLOG("%s::nop stop(%s)\n", client->getName(), provider->getName());
+ TLOG("%s[0x%qx]::nop stop(%s[0x%qx])\n", client->getName(), regID2, provider->getName(), regID1);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_STOP_NOP,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
} else {
- // not ready for stop if it has clients, skip it
- if( (client->__state[1] & kIOServiceTermPhase3State) && client->getClient()) {
- TLOG("%s::defer stop(%s)\n", client->getName(), provider->getName());
+ // a terminated client is not ready for stop if it has clients, skip it
+ if( (kIOServiceInactiveState & client->__state[0]) && client->getClient()) {
+ TLOG("%s[0x%qx]::defer stop(%s[0x%qx])\n",
+ client->getName(), regID2,
+ client->getClient()->getName(), client->getClient()->getRegistryEntryID());
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_STOP_DEFER,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
idx++;
continue;
}
if( !moreToDo) {
TLOG("iokit terminate done, %d stops remain\n", gIOStopList->getCount());
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_DONE,
+ (uintptr_t) gIOStopList->getCount(), 0, 0, 0);
}
} while( moreToDo );
bool IOService::finalize( IOOptionBits options )
{
- OSIterator * iter;
- IOService * provider;
+ OSIterator * iter;
+ IOService * provider;
+ uint64_t regID1, regID2 = getRegistryEntryID();
iter = getProviderIterator();
assert( iter );
// -- compat
if( 0 == (__state[1] & kIOServiceTermPhase3State)) {
/* we come down here on programmatic terminate */
+
+ regID1 = provider->getRegistryEntryID();
+ TLOG("%s[0x%qx]::stop1(%s[0x%qx])\n", getName(), regID2, provider->getName(), regID1);
+ IOServiceTrace(
+ IOSERVICE_TERMINATE_STOP,
+ (uintptr_t) regID1,
+ (uintptr_t) (regID1 >> 32),
+ (uintptr_t) regID2,
+ (uintptr_t) (regID2 >> 32));
+
stop( provider );
if( provider->isOpen( this ))
provider->close( this );
ServiceOpenMessageContext * context = (ServiceOpenMessageContext *) ctx;
if( object != context->excludeClient)
- context->service->messageClient( context->type, object, (void *) context->options );
+ context->service->messageClient( context->type, object, (void *)(uintptr_t) context->options );
}
bool IOService::open( IOService * forClient,
else if( options & kIOServiceSeize ) {
ok = (kIOReturnSuccess == messageClient( kIOMessageServiceIsRequestingClose,
- __owner, (void *) options ));
+ __owner, (void *)(uintptr_t) options ));
if( ok && (0 == __owner ))
__owner = forClient;
else
OSSymbol * key = (OSSymbol *) ref;
OSNumber * offset;
- if( (notify = OSDynamicCast( _IOServiceNotifier, entry)))
+ if( (dict = OSDynamicCast( OSDictionary, entry)))
+ offset = OSDynamicCast(OSNumber, dict->getObject( key ));
+ else if( (notify = OSDynamicCast( _IOServiceNotifier, entry)))
return( notify->priority );
else if( (service = OSDynamicCast( IOService, entry)))
offset = OSDynamicCast(OSNumber, service->getProperty( key ));
- else if( (dict = OSDynamicCast( OSDictionary, entry)))
- offset = OSDynamicCast(OSNumber, dict->getObject( key ));
else {
assert( false );
offset = 0;
return ( val1 - val2 );
}
-IOService * IOService::getClientWithCategory( const OSSymbol * category )
+IOService * IOService::copyClientWithCategory( const OSSymbol * category )
{
IOService * service = 0;
OSIterator * iter;
nextCat = (const OSSymbol *) OSDynamicCast( OSSymbol,
service->getProperty( gIOMatchCategoryKey ));
if( category == nextCat)
+ {
+ service->retain();
break;
+ }
}
iter->release();
}
return( service );
}
+IOService * IOService::getClientWithCategory( const OSSymbol * category )
+{
+ IOService *
+ service = copyClientWithCategory(category);
+ if (service)
+ service->release();
+ return (service);
+}
+
bool IOService::invokeNotifer( _IOServiceNotifier * notify )
{
_IOServiceNotifierInvocation invocation;
if( willNotify) {
- ret = (*notify->handler)( notify->target, notify->ref, this );
+ ret = (*notify->handler)(notify->target, notify->ref, this, notify);
LOCKWRITENOTIFY();
queue_remove( ¬ify->handlerInvocations, &invocation,
#if IOMATCHDEBUG
SInt64 debugFlags;
#endif
+ IOService * client = NULL;
+
assert( matches );
while( !needReloc && (nextMatch = matches->getFirstObject())) {
match->getObject( gIOMatchCategoryKey ));
if( 0 == category)
category = gIODefaultMatchCategoryKey;
-
- if( getClientWithCategory( category )) {
+
+ if( (client = copyClientWithCategory(category)) ) {
#if IOMATCHDEBUG
- if( debugFlags & kIOLogMatch)
+ if( (debugFlags & kIOLogMatch) && (this != gIOResources))
LOG("%s: match category %s exists\n", getName(),
category->getCStringNoCopy());
#endif
nextMatch->release();
nextMatch = 0;
+
+ client->release();
+ client = NULL;
+
continue;
}
props->setCapacityIncrement(1);
// check the nub matches
- if( false == passiveMatch( props, true ))
+ if( false == matchPassive(props, kIOServiceChangesOK | kIOServiceClassDone))
continue;
// Check to see if driver reloc has been loaded.
if( !symbol)
continue;
+ //IOLog("%s alloc (symbol %p props %p)\n", symbol->getCStringNoCopy(), OBFUSCATE(symbol), OBFUSCATE(props));
+
// alloc the driver instance
inst = (IOService *) OSMetaClass::allocClassWithName( symbol);
if( 0 == category)
category = gIODefaultMatchCategoryKey;
inst->setProperty( gIOMatchCategoryKey, (OSObject *) category );
-
// attach driver instance
if( !(inst->attach( this )))
continue;
}
- // adjust the busy count by -1 if matching is stalled for a module,
- // or +1 if a previously stalled matching is complete.
+ // adjust the busy count by +1 if matching is stalled for a module,
+ // or -1 if a previously stalled matching is complete.
lockForArbitration();
SInt32 adjBusy = 0;
+ uint64_t regID = getRegistryEntryID();
+
if( needReloc) {
adjBusy = (__state[1] & kIOServiceModuleStallState) ? 0 : 1;
- if( adjBusy)
+ if( adjBusy) {
+
+ IOServiceTrace(
+ IOSERVICE_MODULESTALL,
+ (uintptr_t) regID,
+ (uintptr_t) (regID >> 32),
+ (uintptr_t) this,
+ 0);
+
__state[1] |= kIOServiceModuleStallState;
+ }
} else if( __state[1] & kIOServiceModuleStallState) {
+
+ IOServiceTrace(
+ IOSERVICE_MODULEUNSTALL,
+ (uintptr_t) regID,
+ (uintptr_t) (regID >> 32),
+ (uintptr_t) this,
+ 0);
+
__state[1] &= ~kIOServiceModuleStallState;
adjBusy = -1;
}
SUB_ABSOLUTETIME(&endTime, &startTime);
absolutetime_to_nanoseconds(endTime, &nano);
if (nano > 500000000ULL)
- IOLog("%s::start took %ld ms\n", service->getName(), (UInt32)(nano / 1000000ULL));
+ IOLog("%s::start took %ld ms\n", service->getName(), (long)(UInt32)(nano / 1000000ULL));
}
}
if( !ok)
return( ok );
}
-IOService * IOService::resources( void )
-{
- return( gIOResources );
-}
-
-void IOService::publishResource( const char * key, OSObject * value )
+void IOService::publishResource( const char * key, OSObject * value )
{
const OSSymbol * sym;
}
if( gIOKitDebug & kIOLogConfig)
- LOG("config(%x): stalling %s\n", (int) IOThreadSelf(), getName());
+ LOG("config(%p): stalling %s\n", OBFUSCATE(IOThreadSelf()), getName());
waitForService( table );
if( gIOKitDebug & kIOLogConfig)
- LOG("config(%x): waking\n", (int) IOThreadSelf() );
+ LOG("config(%p): waking\n", OBFUSCATE(IOThreadSelf()) );
return( true );
}
continue;
if( !inst->init())
continue;
- if( !(IOCreateThread((IOThreadFunc) &_IOConfigThread::main, inst )))
+ thread_t unused;
+ if (KERN_SUCCESS != kernel_thread_start(&_IOConfigThread::main, inst, &unused))
continue;
return;
void _IOConfigThread::free( void )
{
+ thread_deallocate(current_thread());
OSObject::free();
}
SInt32 catalogGeneration;
bool keepGuessing = true;
bool reRegistered = true;
+ bool didRegister;
// job->nub->deliverNotification( gIOPublishNotification,
// kIOServiceRegisteredState, 0xffffffff );
if( matches) {
lockForArbitration();
- if( 0 == (__state[0] & kIOServiceFirstPublishState))
+ if( 0 == (__state[0] & kIOServiceFirstPublishState)) {
+ getMetaClass()->addInstance(this);
deliverNotification( gIOFirstPublishNotification,
kIOServiceFirstPublishState, 0xffffffff );
+ }
LOCKREADNOTIFY();
__state[1] &= ~kIOServiceNeedConfigState;
__state[1] |= kIOServiceConfigState;
+ didRegister = (0 == (kIOServiceRegisteredState & __state[0]));
__state[0] |= kIOServiceRegisteredState;
- if( reRegistered && (0 == (__state[0] & kIOServiceInactiveState))) {
-
+ keepGuessing &= (0 == (__state[0] & kIOServiceInactiveState));
+ if (reRegistered && keepGuessing) {
iter = OSCollectionIterator::withCollection( (OSOrderedSet *)
gNotifications->getObject( gIOPublishNotification ) );
if( iter) {
while((notify = (_IOServiceNotifier *)
iter->getNextObject())) {
- if( passiveMatch( notify->matching )
+ if( matchPassive(notify->matching, 0)
&& (kIOServiceNotifyEnable & notify->state))
matches->setObject( notify );
}
UNLOCKNOTIFY();
unlockForArbitration();
- if( matches->getCount() && (kIOReturnSuccess == getResources()))
+ if (keepGuessing && matches->getCount() && (kIOReturnSuccess == getResources()))
probeCandidates( matches );
else
matches->release();
}
__state[1] &= ~kIOServiceConfigState;
- if( __state[0] & kIOServiceInactiveState)
- scheduleTerminatePhase2();
+ scheduleTerminatePhase2();
_adjustBusy( -1 );
unlockForArbitration();
if( next != this)
next->lockForArbitration();
count = next->__state[1] & kIOServiceBusyStateMask;
- assert( count < kIOServiceBusyMax);
wasQuiet = (0 == count);
- assert( (!wasQuiet) || (delta > 0));
- next->__state[1] += delta;
- nowQuiet = (0 == (next->__state[1] & kIOServiceBusyStateMask));
+ if (((delta < 0) && wasQuiet) || ((delta > 0) && (kIOServiceBusyMax == count)))
+ OSReportWithBacktrace("%s: bad busy count (%d,%d)\n", next->getName(), count, delta);
+ else
+ count += delta;
+ next->__state[1] = (next->__state[1] & ~kIOServiceBusyStateMask) | count;
+ nowQuiet = (0 == count);
needWake = (0 != (kIOServiceBusyWaiterState & next->__state[1]));
if( needWake) {
next->unlockForArbitration();
if( (wasQuiet || nowQuiet) ) {
+
+ uint64_t regID = next->getRegistryEntryID();
+ IOServiceTrace(
+ ((wasQuiet/*nowBusy*/) ? IOSERVICE_BUSY : IOSERVICE_NONBUSY),
+ (uintptr_t) regID,
+ (uintptr_t) (regID >> 32),
+ (uintptr_t) next,
+ 0);
+
+ if (wasQuiet)
+ {
+ next->__timeBusy = mach_absolute_time();
+ }
+ else
+ {
+ next->__accumBusy += mach_absolute_time() - next->__timeBusy;
+ next->__timeBusy = 0;
+ }
+
MessageClientsContext context;
context.service = next;
context.type = kIOMessageServiceBusyStateChange;
- context.argument = (void *) wasQuiet; // busy now
+ context.argument = (void *) wasQuiet; /*nowBusy*/
context.argSize = 0;
applyToInterestNotifiers( next, gIOBusyInterest,
&messageClientsApplier, &context );
- if( nowQuiet && (next == gIOServiceRoot))
- OSMetaClass::considerUnloads();
+#if !NO_KEXTD
+ if( nowQuiet && (next == gIOServiceRoot)) {
+ OSKext::considerUnloads();
+ IOServiceTrace(IOSERVICE_REGISTRY_QUIET, 0, 0, 0, 0);
+ }
+#endif
}
delta = nowQuiet ? -1 : +1;
unlockForArbitration();
}
+uint64_t IOService::getAccumulatedBusyTime( void )
+{
+ uint64_t accumBusy = __accumBusy;
+ uint64_t timeBusy = __timeBusy;
+ uint64_t nano;
+
+ do
+ {
+ accumBusy = __accumBusy;
+ timeBusy = __timeBusy;
+ if (timeBusy)
+ accumBusy += mach_absolute_time() - timeBusy;
+ }
+ while (timeBusy != __timeBusy);
+
+ absolutetime_to_nanoseconds(*(AbsoluteTime *)&accumBusy, &nano);
+
+ return (nano);
+}
+
UInt32 IOService::getBusyState( void )
{
return( __state[1] & kIOServiceBusyStateMask );
}
IOReturn IOService::waitForState( UInt32 mask, UInt32 value,
- mach_timespec_t * timeout )
+ mach_timespec_t * timeout )
+{
+ panic("waitForState");
+ return (kIOReturnUnsupported);
+}
+
+IOReturn IOService::waitForState( UInt32 mask, UInt32 value,
+ uint64_t timeout )
{
bool wait;
int waitResult = THREAD_AWAKENED;
if( wait) {
__state[1] |= kIOServiceBusyWaiterState;
unlockForArbitration();
- if( timeout ) {
+ if( timeout != UINT64_MAX ) {
if( computeDeadline ) {
AbsoluteTime nsinterval;
- clock_interval_to_absolutetime_interval(
- timeout->tv_sec, kSecondScale, &abstime );
- clock_interval_to_absolutetime_interval(
- timeout->tv_nsec, kNanosecondScale, &nsinterval );
- ADD_ABSOLUTETIME( &abstime, &nsinterval );
- clock_absolutetime_interval_to_deadline(
- abstime, &abstime );
+ nanoseconds_to_absolutetime(timeout, &nsinterval );
+ clock_absolutetime_interval_to_deadline(nsinterval, &abstime);
computeDeadline = false;
}
-
- assert_wait_deadline((event_t)this, THREAD_UNINT, __OSAbsoluteTime(abstime));
+ assert_wait_deadline((event_t)this, THREAD_UNINT, __OSAbsoluteTime(abstime));
}
- else
- assert_wait((event_t)this, THREAD_UNINT );
+ else
+ assert_wait((event_t)this, THREAD_UNINT );
} else
unlockForArbitration();
IOLockUnlock( gIOServiceBusyLock );
return( kIOReturnSuccess );
}
+IOReturn IOService::waitQuiet( uint64_t timeout )
+{
+ IOReturn ret;
+ ret = waitForState( kIOServiceBusyStateMask, 0, timeout );
+ if ((kIOReturnTimeout == ret) && (timeout >= 41000000000) && (kIOWaitQuietPanics & gIOKitDebug))
+ {
+ IORegistryIterator * iter;
+ OSOrderedSet * set;
+ OSOrderedSet * leaves;
+ IOService * next;
+ IOService * nextParent;
+ char * string;
+ char * s;
+ size_t len, l;
+
+ len = 256;
+ string = IONew(char, len);
+ set = NULL;
+ iter = IORegistryIterator::iterateOver(this, gIOServicePlane, kIORegistryIterateRecursively);
+ leaves = OSOrderedSet::withCapacity(4);
+ if (iter) set = iter->iterateAll();
+ if (string && leaves && set)
+ {
+ while ((next = (IOService *) set->getLastObject()))
+ {
+ if (next->getBusyState())
+ {
+ leaves->setObject(next);
+ nextParent = next;
+ while ((nextParent = nextParent->getProvider()))
+ {
+ set->removeObject(nextParent);
+ leaves->removeObject(nextParent);
+ }
+ }
+ set->removeObject(next);
+ }
+ s = string;
+ while ((next = (IOService *) leaves->getLastObject()))
+ {
+ l = snprintf(s, len, "%s'%s'", ((s == string) ? "" : ", "), next->getName());
+ if (l >= len) break;
+ s += l;
+ len -= l;
+ leaves->removeObject(next);
+ }
+ }
+ panic("busy timeout(%llds): %s", timeout / 1000000000ULL, string ? string : "");
+ }
+ return (ret);
+}
+
IOReturn IOService::waitQuiet( mach_timespec_t * timeout )
{
- return( waitForState( kIOServiceBusyStateMask, 0, timeout ));
+ uint64_t timeoutNS;
+
+ if (timeout)
+ {
+ timeoutNS = timeout->tv_sec;
+ timeoutNS *= kSecondScale;
+ timeoutNS += timeout->tv_nsec;
+ }
+ else
+ timeoutNS = UINT64_MAX;
+
+ return (waitQuiet(timeoutNS));
}
bool IOService::serializeProperties( OSSerialize * s ) const
}
-void _IOConfigThread::main( _IOConfigThread * self )
+void _IOConfigThread::main(void * arg, wait_result_t result)
{
- _IOServiceJob * job;
- IOService * nub;
- bool alive = true;
+ _IOConfigThread * self = (_IOConfigThread *) arg;
+ _IOServiceJob * job;
+ IOService * nub;
+ bool alive = true;
+ kern_return_t kr;
+ thread_precedence_policy_data_t precedence = { -1 };
+
+ kr = thread_policy_set(current_thread(),
+ THREAD_PRECEDENCE_POLICY,
+ (thread_policy_t) &precedence,
+ THREAD_PRECEDENCE_POLICY_COUNT);
+ if (KERN_SUCCESS != kr)
+ IOLog("thread_policy_set(%d)\n", kr);
do {
nub = job->nub;
if( gIOKitDebug & kIOLogConfig)
- LOG("config(%x): starting on %s, %d\n",
- (int) IOThreadSelf(), job->nub->getName(), job->type);
+ LOG("config(%p): starting on %s, %d\n",
+ OBFUSCATE(IOThreadSelf()), job->nub->getName(), job->type);
switch( job->type) {
break;
default:
- LOG("config(%x): strange type (%d)\n",
- (int) IOThreadSelf(), job->type );
+ LOG("config(%p): strange type (%d)\n",
+ OBFUSCATE(IOThreadSelf()), job->type );
break;
}
} while( alive );
if( gIOKitDebug & kIOLogConfig)
- LOG("config(%x): terminating\n", (int) IOThreadSelf() );
+ LOG("config(%p): terminating\n", OBFUSCATE(IOThreadSelf()) );
self->release();
}
bool wait;
int waitResult = THREAD_AWAKENED;
bool computeDeadline = true;
- AbsoluteTime abstime;
+ AbsoluteTime deadline;
IOLockLock( gJobsLock );
do {
if( wait) {
if( msToWait) {
if( computeDeadline ) {
- clock_interval_to_absolutetime_interval(
- msToWait, kMillisecondScale, &abstime );
- clock_absolutetime_interval_to_deadline(
- abstime, &abstime );
+ clock_interval_to_deadline(
+ msToWait, kMillisecondScale, &deadline );
computeDeadline = false;
}
waitResult = IOLockSleepDeadline( gJobsLock, &gNumConfigThreads,
- abstime, THREAD_UNINT );
+ deadline, THREAD_UNINT );
} else {
waitResult = IOLockSleep( gJobsLock, &gNumConfigThreads,
THREAD_UNINT );
return( kIOReturnSuccess );
}
+void IOService::cpusRunning(void)
+{
+ gCPUsRunning = true;
+}
+
void _IOServiceJob::pingConfig( _IOServiceJob * job )
{
int count;
// if( gNumConfigThreads) count++;// assume we're called from a config thread
create = ( (gOutstandingJobs > count)
- && (gNumConfigThreads < kMaxConfigThreads) );
+ && ((gNumConfigThreads < kMaxConfigThreads)
+ || (job->nub == gIOResources)
+ || !gCPUsRunning));
if( create) {
gNumConfigThreads++;
gNumWaitingThreads++;
semaphore_signal( gJobsSemaphore );
}
+struct IOServiceMatchContext
+{
+ OSDictionary * table;
+ OSObject * result;
+ uint32_t options;
+ uint32_t state;
+ uint32_t count;
+ uint32_t done;
+};
+
+bool IOService::instanceMatch(const OSObject * entry, void * context)
+{
+ IOServiceMatchContext * ctx = (typeof(ctx)) context;
+ IOService * service = (typeof(service)) entry;
+ OSDictionary * table = ctx->table;
+ uint32_t options = ctx->options;
+ uint32_t state = ctx->state;
+ uint32_t done;
+ bool match;
+
+ done = 0;
+ do
+ {
+ match = ((state == (state & service->__state[0]))
+ && (0 == (service->__state[0] & kIOServiceInactiveState)));
+ if (!match) break;
+ ctx->count += table->getCount();
+ match = service->matchInternal(table, options, &done);
+ ctx->done += done;
+ }
+ while (false);
+ if (!match)
+ return (false);
+
+ if ((kIONotifyOnce & options) && (ctx->done == ctx->count))
+ {
+ service->retain();
+ ctx->result = service;
+ return (true);
+ }
+ else if (!ctx->result)
+ {
+ ctx->result = OSSet::withObjects((const OSObject **) &service, 1, 1);
+ }
+ else
+ {
+ ((OSSet *)ctx->result)->setObject(service);
+ }
+ return (false);
+}
+
// internal - call with gNotificationLock
-OSObject * IOService::getExistingServices( OSDictionary * matching,
+OSObject * IOService::copyExistingServices( OSDictionary * matching,
IOOptionBits inState, IOOptionBits options )
{
- OSObject * current = 0;
- OSIterator * iter;
- IOService * service;
- OSObject * obj;
+ OSObject * current = 0;
+ OSIterator * iter;
+ IOService * service;
+ OSObject * obj;
+ OSString * str;
if( !matching)
return( 0 );
- if(true
- && (obj = matching->getObject(gIOProviderClassKey))
+#if MATCH_DEBUG
+ OSSerialize * s = OSSerialize::withCapacity(128);
+ matching->serialize(s);
+#endif
+
+ if((obj = matching->getObject(gIOProviderClassKey))
&& gIOResourcesKey
&& gIOResourcesKey->isEqualTo(obj)
&& (service = gIOResources))
{
if( (inState == (service->__state[0] & inState))
&& (0 == (service->__state[0] & kIOServiceInactiveState))
- && service->passiveMatch( matching ))
+ && service->matchPassive(matching, options))
{
if( options & kIONotifyOnce)
+ {
+ service->retain();
current = service;
+ }
else
- current = OSSet::withObjects(
- (const OSObject **) &service, 1, 1 );
+ current = OSSet::withObjects((const OSObject **) &service, 1, 1 );
}
}
else
{
+ IOServiceMatchContext ctx;
+ ctx.table = matching;
+ ctx.state = inState;
+ ctx.count = 0;
+ ctx.done = 0;
+ ctx.options = options;
+ ctx.result = 0;
+
+ if ((str = OSDynamicCast(OSString, obj)))
+ {
+ const OSSymbol * sym = OSSymbol::withString(str);
+ OSMetaClass::applyToInstancesOfClassName(sym, instanceMatch, &ctx);
+ sym->release();
+ }
+ else
+ {
+ IOService::gMetaClass.applyToInstances(instanceMatch, &ctx);
+ }
+
+
+ current = ctx.result;
+
+ options |= kIOServiceInternalDone | kIOServiceClassDone;
+ if (current && (ctx.done != ctx.count))
+ {
+ OSSet *
+ source = OSDynamicCast(OSSet, current);
+ current = 0;
+ while ((service = (IOService *) source->getAnyObject()))
+ {
+ if (service->matchPassive(matching, options))
+ {
+ if( options & kIONotifyOnce)
+ {
+ service->retain();
+ current = service;
+ break;
+ }
+ if( current)
+ {
+ ((OSSet *)current)->setObject( service );
+ }
+ else
+ {
+ current = OSSet::withObjects(
+ (const OSObject **) &service, 1, 1 );
+ }
+ }
+ source->removeObject(service);
+ }
+ source->release();
+ }
+ }
+
+#if MATCH_DEBUG
+ {
+ OSObject * _current = 0;
+
iter = IORegistryIterator::iterateOver( gIOServicePlane,
kIORegistryIterateRecursively );
if( iter) {
while( (service = (IOService *) iter->getNextObject())) {
if( (inState == (service->__state[0] & inState))
&& (0 == (service->__state[0] & kIOServiceInactiveState))
- && service->passiveMatch( matching )) {
+ && service->matchPassive(matching, 0)) {
if( options & kIONotifyOnce) {
- current = service;
+ service->retain();
+ _current = service;
break;
}
- if( current)
- ((OSSet *)current)->setObject( service );
+ if( _current)
+ ((OSSet *)_current)->setObject( service );
else
- current = OSSet::withObjects(
+ _current = OSSet::withObjects(
(const OSObject **) &service, 1, 1 );
}
}
} while( !service && !iter->isValid());
iter->release();
}
- }
+
+
+ if ( ((current != 0) != (_current != 0))
+ || (current && _current && !current->isEqualTo(_current)))
+ {
+ OSSerialize * s1 = OSSerialize::withCapacity(128);
+ OSSerialize * s2 = OSSerialize::withCapacity(128);
+ current->serialize(s1);
+ _current->serialize(s2);
+ kprintf("**mismatch** %p %p\n%s\n%s\n%s\n", OBFUSCATE(current),
+ OBFUSCATE(_current), s->text(), s1->text(), s2->text());
+ s1->release();
+ s2->release();
+ }
+
+ if (_current) _current->release();
+ }
+
+ s->release();
+#endif
if( current && (0 == (options & (kIONotifyOnce | kIOServiceExistingSet)))) {
iter = OSCollectionIterator::withCollection( (OSSet *)current );
// is a lock even needed?
LOCKWRITENOTIFY();
- iter = (OSIterator *) getExistingServices( matching,
+ iter = (OSIterator *) copyExistingServices( matching,
kIOServiceMatchedState );
UNLOCKNOTIFY();
return( iter );
}
+IOService * IOService::copyMatchingService( OSDictionary * matching )
+{
+ IOService * service;
+
+ // is a lock even needed?
+ LOCKWRITENOTIFY();
+
+ service = (IOService *) copyExistingServices( matching,
+ kIOServiceMatchedState, kIONotifyOnce );
+
+ UNLOCKNOTIFY();
+
+ return( service );
+}
+
+struct _IOServiceMatchingNotificationHandlerRef
+{
+ IOServiceNotificationHandler handler;
+ void * ref;
+};
+
+static bool _IOServiceMatchingNotificationHandler( void * target, void * refCon,
+ IOService * newService,
+ IONotifier * notifier )
+{
+ return ((*((_IOServiceNotifier *) notifier)->compatHandler)(target, refCon, newService));
+}
// internal - call with gNotificationLock
IONotifier * IOService::setNotification(
const OSSymbol * type, OSDictionary * matching,
- IOServiceNotificationHandler handler, void * target, void * ref,
+ IOServiceMatchingNotificationHandler handler, void * target, void * ref,
SInt32 priority )
{
_IOServiceNotifier * notify = 0;
}
if( notify) {
- notify->matching = matching;
- notify->handler = handler;
+ notify->handler = handler;
notify->target = target;
- notify->ref = ref;
+ notify->matching = matching;
+ matching->retain();
+ if (handler == &_IOServiceMatchingNotificationHandler)
+ {
+ notify->compatHandler = ((_IOServiceMatchingNotificationHandlerRef *)ref)->handler;
+ notify->ref = ((_IOServiceMatchingNotificationHandlerRef *)ref)->ref;
+ }
+ else
+ notify->ref = ref;
notify->priority = priority;
notify->state = kIOServiceNotifyEnable;
queue_init( ¬ify->handlerInvocations );
// internal - call with gNotificationLock
IONotifier * IOService::doInstallNotification(
const OSSymbol * type, OSDictionary * matching,
- IOServiceNotificationHandler handler,
+ IOServiceMatchingNotificationHandler handler,
void * target, void * ref,
SInt32 priority, OSIterator ** existing )
{
if( inState)
// get the current set
- exist = (OSIterator *) getExistingServices( matching, inState );
+ exist = (OSIterator *) copyExistingServices( matching, inState );
else
exist = 0;
return( notify );
}
+#if !defined(__LP64__)
+IONotifier * IOService::installNotification(const OSSymbol * type, OSDictionary * matching,
+ IOServiceNotificationHandler handler,
+ void * target, void * refCon,
+ SInt32 priority, OSIterator ** existing )
+{
+ IONotifier * result;
+ _IOServiceMatchingNotificationHandlerRef ref;
+ ref.handler = handler;
+ ref.ref = refCon;
+
+ result = (_IOServiceNotifier *) installNotification( type, matching,
+ &_IOServiceMatchingNotificationHandler,
+ target, &ref, priority, existing );
+ if (result)
+ matching->release();
+
+ return (result);
+}
+#endif /* !defined(__LP64__) */
+
IONotifier * IOService::installNotification(
const OSSymbol * type, OSDictionary * matching,
- IOServiceNotificationHandler handler,
+ IOServiceMatchingNotificationHandler handler,
void * target, void * ref,
SInt32 priority, OSIterator ** existing )
{
- IONotifier * notify;
+ IONotifier * notify;
LOCKWRITENOTIFY();
IONotifier * IOService::addNotification(
const OSSymbol * type, OSDictionary * matching,
IOServiceNotificationHandler handler,
+ void * target, void * refCon,
+ SInt32 priority )
+{
+ IONotifier * result;
+ _IOServiceMatchingNotificationHandlerRef ref;
+
+ ref.handler = handler;
+ ref.ref = refCon;
+
+ result = addMatchingNotification(type, matching, &_IOServiceMatchingNotificationHandler,
+ target, &ref, priority);
+
+ if (result)
+ matching->release();
+
+ return (result);
+}
+
+IONotifier * IOService::addMatchingNotification(
+ const OSSymbol * type, OSDictionary * matching,
+ IOServiceMatchingNotificationHandler handler,
void * target, void * ref,
SInt32 priority )
{
- OSIterator * existing;
+ OSIterator * existing = NULL;
_IOServiceNotifier * notify;
IOService * next;
return( notify );
}
-struct SyncNotifyVars {
- semaphore_port_t waitHere;
- IOService * result;
-};
-
bool IOService::syncNotificationHandler(
void * /* target */, void * ref,
- IOService * newService )
+ IOService * newService,
+ IONotifier * notifier )
{
- // result may get written more than once before the
- // notification is removed!
- ((SyncNotifyVars *) ref)->result = newService;
- semaphore_signal( ((SyncNotifyVars *) ref)->waitHere );
+ LOCKWRITENOTIFY();
+ if (!*((IOService **) ref))
+ {
+ newService->retain();
+ (*(IOService **) ref) = newService;
+ WAKEUPNOTIFY(ref);
+ }
+ UNLOCKNOTIFY();
return( false );
}
-IOService * IOService::waitForService( OSDictionary * matching,
- mach_timespec_t * timeout )
+IOService * IOService::waitForMatchingService( OSDictionary * matching,
+ uint64_t timeout)
{
IONotifier * notify = 0;
// priority doesn't help us much since we need a thread wakeup
SInt32 priority = 0;
- SyncNotifyVars state;
- kern_return_t err = kIOReturnBadArgument;
+ IOService * result;
- if( !matching)
+ if (!matching)
return( 0 );
- state.waitHere = 0;
- state.result = 0;
+ result = NULL;
LOCKWRITENOTIFY();
-
- do {
-
- state.result = (IOService *) getExistingServices( matching,
+ do
+ {
+ result = (IOService *) copyExistingServices( matching,
kIOServiceMatchedState, kIONotifyOnce );
- if( state.result)
- continue;
-
- err = semaphore_create( kernel_task, &state.waitHere,
- SYNC_POLICY_FIFO, 0 );
- if( KERN_SUCCESS != err)
- continue;
-
+ if (result)
+ break;
notify = IOService::setNotification( gIOMatchedNotification, matching,
&IOService::syncNotificationHandler, (void *) 0,
- (void *) &state, priority );
-
- } while( false );
-
- UNLOCKNOTIFY();
-
- if( notify) {
- if( timeout)
- err = semaphore_timedwait( state.waitHere, *timeout );
+ &result, priority );
+ if (!notify)
+ break;
+ if (UINT64_MAX != timeout)
+ {
+ AbsoluteTime deadline;
+ nanoseconds_to_absolutetime(timeout, &deadline);
+ clock_absolutetime_interval_to_deadline(deadline, &deadline);
+ SLEEPNOTIFYTO(&result, deadline);
+ }
else
- err = semaphore_wait( state.waitHere );
+ {
+ SLEEPNOTIFY(&result);
+ }
}
+ while( false );
+
+ UNLOCKNOTIFY();
- if( notify)
+ if (notify)
notify->remove(); // dequeues
+
+ return( result );
+}
+
+IOService * IOService::waitForService( OSDictionary * matching,
+ mach_timespec_t * timeout )
+{
+ IOService * result;
+ uint64_t timeoutNS;
+
+ if (timeout)
+ {
+ timeoutNS = timeout->tv_sec;
+ timeoutNS *= kSecondScale;
+ timeoutNS += timeout->tv_nsec;
+ }
else
- matching->release();
- if( state.waitHere)
- semaphore_destroy( kernel_task, state.waitHere );
+ timeoutNS = UINT64_MAX;
+
+ result = waitForMatchingService(matching, timeoutNS);
- return( state.result );
+ matching->release();
+ if (result)
+ result->release();
+
+ return (result);
}
void IOService::deliverNotification( const OSSymbol * type,
if( iter) {
while( (notify = (_IOServiceNotifier *) iter->getNextObject())) {
- if( passiveMatch( notify->matching)
+ if( matchPassive(notify->matching, 0)
&& (kIOServiceNotifyEnable & notify->state)) {
if( 0 == willSend)
willSend = OSArray::withCapacity(8);
OSDictionary * IOService::serviceMatching( const OSString * name,
OSDictionary * table )
{
+
+ const OSString * str;
+
+ str = OSSymbol::withString(name);
+ if( !str)
+ return( 0 );
+
if( !table)
table = OSDictionary::withCapacity( 2 );
if( table)
- table->setObject(gIOProviderClassKey, (OSObject *)name );
+ table->setObject(gIOProviderClassKey, (OSObject *)str );
+ str->release();
return( table );
}
return( table );
}
+OSDictionary * IOService::propertyMatching( const OSSymbol * key, const OSObject * value,
+ OSDictionary * table )
+{
+ OSDictionary * properties;
+
+ properties = OSDictionary::withCapacity( 2 );
+ if( !properties)
+ return( 0 );
+ properties->setObject( key, value );
+
+ if( !table)
+ table = OSDictionary::withCapacity( 2 );
+ if( table)
+ table->setObject( gIOPropertyMatchKey, properties );
+
+ properties->release();
+
+ return( table );
+}
+
+OSDictionary * IOService::registryEntryIDMatching( uint64_t entryID,
+ OSDictionary * table )
+{
+ OSNumber * num;
+
+ num = OSNumber::withNumber( entryID, 64 );
+ if( !num)
+ return( 0 );
+
+ if( !table)
+ table = OSDictionary::withCapacity( 2 );
+ if( table)
+ table->setObject( gIORegistryEntryIDKey, num );
+
+ if (num)
+ num->release();
+
+ return( table );
+}
+
+
/*
* _IOServiceNotifier
*/
return( inst );
}
+bool IOResources::init( OSDictionary * dictionary )
+{
+ // Do super init first
+ if ( !super::init() )
+ return false;
+
+ // Allow PAL layer to publish a value
+ const char *property_name;
+ int property_value;
+
+ pal_get_resource_property( &property_name, &property_value );
+
+ if( property_name ) {
+ OSNumber *num;
+ const OSSymbol * sym;
+
+ if( (num = OSNumber::withNumber(property_value, 32)) != 0 ) {
+ if( (sym = OSSymbol::withCString( property_name)) != 0 ) {
+ this->setProperty( sym, num );
+ sym->release();
+ }
+ num->release();
+ }
+ }
+
+ return true;
+}
+
+IOReturn IOResources::newUserClient(task_t owningTask, void * securityID,
+ UInt32 type, OSDictionary * properties,
+ IOUserClient ** handler)
+{
+ return( kIOReturnUnsupported );
+}
+
IOWorkLoop * IOResources::getWorkLoop() const
{
- // If we are the resource root then bringe over to the
- // platform to get its workloop
+ // If we are the resource root
+ // then use the platform's workloop
if (this == (IOResources *) gIOResources)
return getPlatform()->getWorkLoop();
else
OSString * str;
OSSet * set;
OSIterator * iter;
- bool ok = false;
+ bool ok = true;
prop = table->getObject( gIOResourceMatchKey );
str = OSDynamicCast( OSString, prop );
return( ok );
}
-IOReturn IOResources::setProperties( OSObject * properties )
+void IOService::consoleLockTimer(thread_call_param_t p0, thread_call_param_t p1)
{
- IOReturn err;
- const OSSymbol * key;
- OSDictionary * dict;
- OSCollectionIterator * iter;
+ IOService::updateConsoleUsers(NULL, 0);
+}
- err = IOUserClient::clientHasPrivilege(current_task(), kIOClientPrivilegeAdministrator);
- if ( kIOReturnSuccess != err)
- return( err );
+void IOService::updateConsoleUsers(OSArray * consoleUsers, IOMessage systemMessage)
+{
+ IORegistryEntry * regEntry;
+ OSObject * locked = kOSBooleanFalse;
+ uint32_t idx;
+ bool publish;
+ OSDictionary * user;
+ static IOMessage sSystemPower;
- dict = OSDynamicCast(OSDictionary, properties);
- if( 0 == dict)
- return( kIOReturnBadArgument);
+ regEntry = IORegistryEntry::getRegistryRoot();
- iter = OSCollectionIterator::withCollection( dict);
- if( 0 == iter)
- return( kIOReturnBadArgument);
+ if (!gIOChosenEntry)
+ gIOChosenEntry = IORegistryEntry::fromPath("/chosen", gIODTPlane);
- while( (key = OSDynamicCast(OSSymbol, iter->getNextObject()))) {
+ IOLockLock(gIOConsoleUsersLock);
- if (gIOConsoleUsersKey == key)
+ if (systemMessage)
+ {
+ sSystemPower = systemMessage;
+#if HIBERNATION
+ if ((kIOMessageSystemHasPoweredOn == systemMessage) && IOHibernateWasScreenLocked())
{
- IORegistryEntry::getRegistryRoot()->setProperty(key, dict->getObject(key));
- OSIncrementAtomic( &gIOConsoleUsersSeed );
- publishResource( gIOConsoleUsersSeedKey, gIOConsoleUsersSeedValue );
- continue;
+ locked = kOSBooleanTrue;
+ }
+#endif /* HIBERNATION */
+ }
+
+ if (consoleUsers)
+ {
+ OSNumber * num = 0;
+ gIOConsoleLoggedIn = false;
+ for (idx = 0;
+ (user = OSDynamicCast(OSDictionary, consoleUsers->getObject(idx)));
+ idx++)
+ {
+ gIOConsoleLoggedIn |= ((kOSBooleanTrue == user->getObject(gIOConsoleSessionOnConsoleKey))
+ && (kOSBooleanTrue == user->getObject(gIOConsoleSessionLoginDoneKey)));
+ if (!num)
+ {
+ num = OSDynamicCast(OSNumber, user->getObject(gIOConsoleSessionScreenLockedTimeKey));
+ }
+ }
+ gIOConsoleLockTime = num ? num->unsigned32BitValue() : 0;
+ }
+
+ if (!gIOConsoleLoggedIn
+ || (kIOMessageSystemWillSleep == sSystemPower)
+ || (kIOMessageSystemPagingOff == sSystemPower))
+ {
+ locked = kOSBooleanTrue;
+ }
+ else if (gIOConsoleLockTime)
+ {
+ clock_sec_t now;
+ clock_usec_t microsecs;
+
+ clock_get_calendar_microtime(&now, µsecs);
+ if (gIOConsoleLockTime > now)
+ {
+ AbsoluteTime deadline;
+ clock_interval_to_deadline(gIOConsoleLockTime - now, kSecondScale, &deadline);
+ thread_call_enter_delayed(gIOConsoleLockCallout, deadline);
+ }
+ else
+ {
+ locked = kOSBooleanTrue;
+ }
+ }
+
+ publish = (consoleUsers || (locked != regEntry->getProperty(gIOConsoleLockedKey)));
+ if (publish)
+ {
+ regEntry->setProperty(gIOConsoleLockedKey, locked);
+ if (consoleUsers)
+ {
+ regEntry->setProperty(gIOConsoleUsersKey, consoleUsers);
+ }
+ OSIncrementAtomic( &gIOConsoleUsersSeed );
+ }
+
+#if HIBERNATION
+ if (gIOChosenEntry)
+ {
+ if (locked == kOSBooleanTrue) gIOScreenLockState = kIOScreenLockLocked;
+ else if (gIOConsoleLockTime) gIOScreenLockState = kIOScreenLockUnlocked;
+ else gIOScreenLockState = kIOScreenLockNoLock;
+ gIOChosenEntry->setProperty(kIOScreenLockStateKey, &gIOScreenLockState, sizeof(gIOScreenLockState));
+ }
+#endif /* HIBERNATION */
+
+ IOLockUnlock(gIOConsoleUsersLock);
+
+ if (publish)
+ {
+ publishResource( gIOConsoleUsersSeedKey, gIOConsoleUsersSeedValue );
+
+ MessageClientsContext context;
+
+ context.service = getServiceRoot();
+ context.type = kIOMessageConsoleSecurityChange;
+ context.argument = (void *) regEntry;
+ context.argSize = 0;
+
+ applyToInterestNotifiers(getServiceRoot(), gIOConsoleSecurityInterest,
+ &messageClientsApplier, &context );
+ }
+}
+
+IOReturn IOResources::setProperties( OSObject * properties )
+{
+ IOReturn err;
+ const OSSymbol * key;
+ OSDictionary * dict;
+ OSCollectionIterator * iter;
+
+ err = IOUserClient::clientHasPrivilege(current_task(), kIOClientPrivilegeAdministrator);
+ if ( kIOReturnSuccess != err)
+ return( err );
+
+ dict = OSDynamicCast(OSDictionary, properties);
+ if( 0 == dict)
+ return( kIOReturnBadArgument);
+
+ iter = OSCollectionIterator::withCollection( dict);
+ if( 0 == iter)
+ return( kIOReturnBadArgument);
+
+ while( (key = OSDynamicCast(OSSymbol, iter->getNextObject())))
+ {
+ if (gIOConsoleUsersKey == key) do
+ {
+ OSArray * consoleUsers;
+ consoleUsers = OSDynamicCast(OSArray, dict->getObject(key));
+ if (!consoleUsers)
+ continue;
+ IOService::updateConsoleUsers(consoleUsers, 0);
}
+ while (false);
publishResource( key, dict->getObject(key) );
}
return( parent );
}
-bool IOService::passiveMatch( OSDictionary * table, bool changesOK )
+bool IOService::matchInternal(OSDictionary * table, uint32_t options, uint32_t * did)
{
- IOService * where;
OSString * matched;
OSObject * obj;
OSString * str;
IORegistryEntry * entry;
OSNumber * num;
- SInt32 score;
- OSNumber * newPri;
bool match = true;
- bool matchParent = false;
- UInt32 done;
+ bool changesOK = (0 != (kIOServiceChangesOK & options));
+ uint32_t count;
+ uint32_t done;
- assert( table );
+ do
+ {
+ count = table->getCount();
+ done = 0;
+ str = OSDynamicCast(OSString, table->getObject(gIOProviderClassKey));
+ if (str) {
+ done++;
+ match = ((kIOServiceClassDone & options) || (0 != metaCast(str)));
+#if MATCH_DEBUG
+ match = (0 != metaCast( str ));
+ if ((kIOServiceClassDone & options) && !match) panic("classDone");
+#endif
+ if ((!match) || (done == count)) break;
+ }
- where = this;
+ obj = table->getObject( gIONameMatchKey );
+ if( obj) {
+ done++;
+ match = compareNames( obj, changesOK ? &matched : 0 );
+ if (!match) break;
+ if( changesOK && matched) {
+ // leave a hint as to which name matched
+ table->setObject( gIONameMatchedKey, matched );
+ matched->release();
+ }
+ if (done == count) break;
+ }
- do {
- do {
- done = 0;
-
- str = OSDynamicCast( OSString, table->getObject( gIOProviderClassKey));
- if( str) {
- done++;
- match = (0 != where->metaCast( str ));
- if( !match)
- break;
- }
+ str = OSDynamicCast( OSString, table->getObject( gIOLocationMatchKey ));
+ if (str)
+ {
+ const OSSymbol * sym;
+ done++;
+ match = false;
+ sym = copyLocation();
+ if (sym) {
+ match = sym->isEqualTo( str );
+ sym->release();
+ }
+ if ((!match) || (done == count)) break;
+ }
- obj = table->getObject( gIONameMatchKey );
- if( obj) {
- done++;
- match = where->compareNames( obj, changesOK ? &matched : 0 );
- if( !match)
- break;
- if( changesOK && matched) {
- // leave a hint as to which name matched
- table->setObject( gIONameMatchedKey, matched );
- matched->release();
- }
- }
+ obj = table->getObject( gIOPropertyMatchKey );
+ if( obj)
+ {
+ OSDictionary * dict;
+ OSDictionary * nextDict;
+ OSIterator * iter;
+ done++;
+ match = false;
+ dict = dictionaryWithProperties();
+ if( dict) {
+ nextDict = OSDynamicCast( OSDictionary, obj);
+ if( nextDict)
+ iter = 0;
+ else
+ iter = OSCollectionIterator::withCollection(
+ OSDynamicCast(OSCollection, obj));
+
+ while( nextDict
+ || (iter && (0 != (nextDict = OSDynamicCast(OSDictionary,
+ iter->getNextObject()))))) {
+ match = dict->isEqualTo( nextDict, nextDict);
+ if( match)
+ break;
+ nextDict = 0;
+ }
+ dict->release();
+ if( iter)
+ iter->release();
+ }
+ if ((!match) || (done == count)) break;
+ }
- str = OSDynamicCast( OSString, table->getObject( gIOLocationMatchKey ));
- if( str) {
+ str = OSDynamicCast( OSString, table->getObject( gIOPathMatchKey ));
+ if( str) {
+ done++;
+ entry = IORegistryEntry::fromPath( str->getCStringNoCopy() );
+ match = (this == entry);
+ if( entry)
+ entry->release();
+ if ((!match) || (done == count)) break;
+ }
- const OSSymbol * sym;
+ num = OSDynamicCast( OSNumber, table->getObject( gIORegistryEntryIDKey ));
+ if (num) {
+ done++;
+ match = (getRegistryEntryID() == num->unsigned64BitValue());
+ if ((!match) || (done == count)) break;
+ }
- done++;
- match = false;
- sym = where->copyLocation();
- if( sym) {
- match = sym->isEqualTo( str );
- sym->release();
- }
- if( !match)
- break;
- }
+ num = OSDynamicCast( OSNumber, table->getObject( gIOMatchedServiceCountKey ));
+ if( num)
+ {
+ OSIterator * iter;
+ IOService * service = 0;
+ UInt32 serviceCount = 0;
- obj = table->getObject( gIOPropertyMatchKey );
- if( obj) {
+ done++;
+ iter = getClientIterator();
+ if( iter) {
+ while( (service = (IOService *) iter->getNextObject())) {
+ if( kIOServiceInactiveState & service->__state[0])
+ continue;
+ if( 0 == service->getProperty( gIOMatchCategoryKey ))
+ continue;
+ ++serviceCount;
+ }
+ iter->release();
+ }
+ match = (serviceCount == num->unsigned32BitValue());
+ if ((!match) || (done == count)) break;
+ }
- OSDictionary * dict;
- OSDictionary * nextDict;
- OSIterator * iter;
+#define propMatch(key) \
+ obj = table->getObject(key); \
+ if (obj) \
+ { \
+ OSObject * prop; \
+ done++; \
+ prop = copyProperty(key); \
+ match = obj->isEqualTo(prop); \
+ if (prop) prop->release(); \
+ if ((!match) || (done == count)) break; \
+ }
+ propMatch(kIOBSDNameKey)
+ propMatch(kIOBSDMajorKey)
+ propMatch(kIOBSDMinorKey)
+ propMatch(kIOBSDUnitKey)
+#undef propMatch
+ }
+ while (false);
- done++;
- match = false;
- dict = where->dictionaryWithProperties();
- if( dict) {
- nextDict = OSDynamicCast( OSDictionary, obj);
- if( nextDict)
- iter = 0;
- else
- iter = OSCollectionIterator::withCollection(
- OSDynamicCast(OSCollection, obj));
-
- while( nextDict
- || (iter && (0 != (nextDict = OSDynamicCast(OSDictionary,
- iter->getNextObject()))))) {
- match = dict->isEqualTo( nextDict, nextDict);
- if( match)
- break;
- nextDict = 0;
- }
- dict->release();
- if( iter)
- iter->release();
- }
- if( !match)
- break;
- }
+ if (did) *did = done;
+ return (match);
+}
- str = OSDynamicCast( OSString, table->getObject( gIOPathMatchKey ));
- if( str) {
- done++;
- entry = IORegistryEntry::fromPath( str->getCStringNoCopy() );
- match = (where == entry);
- if( entry)
- entry->release();
- if( !match)
- break;
- }
+bool IOService::passiveMatch( OSDictionary * table, bool changesOK )
+{
+ return (matchPassive(table, changesOK ? kIOServiceChangesOK : 0));
+}
- num = OSDynamicCast( OSNumber, table->getObject( gIOMatchedServiceCountKey ));
- if( num) {
+bool IOService::matchPassive(OSDictionary * table, uint32_t options)
+{
+ IOService * where;
+ OSDictionary * nextTable;
+ SInt32 score;
+ OSNumber * newPri;
+ bool match = true;
+ bool matchParent = false;
+ uint32_t count;
+ uint32_t done;
- OSIterator * iter;
- IOService * service = 0;
- UInt32 serviceCount = 0;
+ assert( table );
- done++;
- iter = where->getClientIterator();
- if( iter) {
- while( (service = (IOService *) iter->getNextObject())) {
- if( kIOServiceInactiveState & service->__state[0])
- continue;
- if( 0 == service->getProperty( gIOMatchCategoryKey ))
- continue;
- ++serviceCount;
- }
- iter->release();
- }
- match = (serviceCount == num->unsigned32BitValue());
- if( !match)
- break;
- }
+#if MATCH_DEBUG
+ OSDictionary * root = table;
+#endif
- if( done == table->getCount()) {
- // don't call family if we've done all the entries in the table
- matchParent = false;
- break;
+ where = this;
+ do
+ {
+ do
+ {
+ count = table->getCount();
+ if (!(kIOServiceInternalDone & options))
+ {
+ match = where->matchInternal(table, options, &done);
+ // don't call family if we've done all the entries in the table
+ if ((!match) || (done == count)) break;
}
// pass in score from property table
break;
}
- if( changesOK) {
+ if (kIOServiceChangesOK & options) {
// save the score
newPri = OSNumber::withNumber( score, 32 );
if( newPri) {
}
}
- if( !(match = where->compareProperty( table, kIOBSDNameKey )))
- break;
-
+ options = 0;
matchParent = false;
- obj = OSDynamicCast( OSDictionary,
+ nextTable = OSDynamicCast(OSDictionary,
table->getObject( gIOParentMatchKey ));
- if( obj) {
+ if( nextTable) {
+ // look for a matching entry anywhere up to root
match = false;
matchParent = true;
- table = (OSDictionary *) obj;
+ table = nextTable;
break;
}
- table = OSDynamicCast( OSDictionary,
+ table = OSDynamicCast(OSDictionary,
table->getObject( gIOLocationMatchKey ));
- if( table) {
+ if (table) {
+ // look for a matching entry at matchLocation()
match = false;
where = where->getProvider();
- if( where)
- where = where->matchLocation( where );
+ if (where && (where = where->matchLocation(where))) continue;
}
+ break;
+ }
+ while (true);
+ }
+ while( matchParent && (!match) && (where = where->getProvider()) );
- } while( table && where );
-
- } while( matchParent && (where = where->getProvider()) );
-
- if( kIOLogMatch & gIOKitDebug)
- if( where != this)
- LOG("match parent @ %s = %d\n",
- where->getName(), match );
+#if MATCH_DEBUG
+ if (where != this)
+ {
+ OSSerialize * s = OSSerialize::withCapacity(128);
+ root->serialize(s);
+ kprintf("parent match 0x%llx, %d,\n%s\n", getRegistryEntryID(), match, s->text());
+ s->release();
+ }
+#endif
return( match );
}
*/
int IOService::errnoFromReturn( IOReturn rtn )
{
+ if (unix_err(err_get_code(rtn)) == rtn)
+ return err_get_code(rtn);
+
switch(rtn) {
// (obvious match)
case kIOReturnSuccess:
case kIOReturnExclusiveAccess:
case kIOReturnLockedRead:
case kIOReturnLockedWrite:
- case kIOReturnNotAttached:
case kIOReturnNotOpen:
case kIOReturnNotReadable:
return(EACCES);
return(EBUSY);
case kIOReturnBadMedia:
case kIOReturnNoMedia:
+ case kIOReturnNotAttached:
case kIOReturnUnformattedMedia:
return(ENXIO); // (media error)
case kIOReturnDMAError:
void IOService::
setCPUSnoopDelay(UInt32 __unused ns)
{
-#if __i386__
+#if defined(__i386__) || defined(__x86_64__)
ml_set_maxsnoop(ns);
-#endif /* __i386__ */
+#endif /* defined(__i386__) || defined(__x86_64__) */
}
UInt32 IOService::
getCPUSnoopDelay()
{
-#if __i386__
+#if defined(__i386__) || defined(__x86_64__)
return ml_get_maxsnoop();
#else
return 0;
-#endif /* __i386__ */
+#endif /* defined(__i386__) || defined(__x86_64__) */
}
-void IOService::
-requireMaxBusStall(UInt32 __unused ns)
+#if defined(__i386__) || defined(__x86_64__)
+static void
+requireMaxCpuDelay(IOService * service, UInt32 ns, UInt32 delayType)
{
-#if __i386__
static const UInt kNoReplace = -1U; // Must be an illegal index
UInt replace = kNoReplace;
+ bool setCpuDelay = false;
- IOLockLock(sBusStallLock);
+ IORecursiveLockLock(sCpuDelayLock);
- UInt count = sBusStall->getLength() / sizeof(BusStallEntry);
- BusStallEntry *entries = (BusStallEntry *) sBusStall->getBytesNoCopy();
+ UInt count = sCpuDelayData->getLength() / sizeof(CpuDelayEntry);
+ CpuDelayEntry *entries = (CpuDelayEntry *) sCpuDelayData->getBytesNoCopy();
+ IOService * holder = NULL;
if (ns) {
- const BusStallEntry ne = {this, ns};
-
- // Set Maximum bus delay.
- for (UInt i = 0; i < count; i++) {
- const IOService *thisService = entries[i].fService;
- if (this == thisService)
- replace = i;
- else if (!thisService) {
- if (kNoReplace == replace)
- replace = i;
- }
- else {
- const UInt32 thisMax = entries[i].fMaxDelay;
- if (thisMax < ns)
- ns = thisMax;
- }
- }
-
- // Must be safe to call from locked context
- ml_set_maxbusdelay(ns);
-
- if (kNoReplace == replace)
- sBusStall->appendBytes(&ne, sizeof(ne));
- else
- entries[replace] = ne;
+ const CpuDelayEntry ne = {service, ns, delayType};
+ holder = service;
+ // Set maximum delay.
+ for (UInt i = 0; i < count; i++) {
+ IOService *thisService = entries[i].fService;
+ bool sameType = (delayType == entries[i].fDelayType);
+ if ((service == thisService) && sameType)
+ replace = i;
+ else if (!thisService) {
+ if (kNoReplace == replace)
+ replace = i;
+ }
+ else if (sameType) {
+ const UInt32 thisMax = entries[i].fMaxDelay;
+ if (thisMax < ns)
+ {
+ ns = thisMax;
+ holder = thisService;
+ }
+ }
+ }
+
+ setCpuDelay = true;
+ if (kNoReplace == replace)
+ sCpuDelayData->appendBytes(&ne, sizeof(ne));
+ else
+ entries[replace] = ne;
}
else {
- ns = -1U; // Set to max unsigned, i.e. no restriction
-
- for (UInt i = 0; i < count; i++) {
- // Clear a maximum bus delay.
- const IOService *thisService = entries[i].fService;
- UInt32 thisMax = entries[i].fMaxDelay;
- if (this == thisService)
- replace = i;
- else if (thisService && thisMax < ns)
- ns = thisMax;
+ ns = -1U; // Set to max unsigned, i.e. no restriction
+
+ for (UInt i = 0; i < count; i++) {
+ // Clear a maximum delay.
+ IOService *thisService = entries[i].fService;
+ if (thisService && (delayType == entries[i].fDelayType)) {
+ UInt32 thisMax = entries[i].fMaxDelay;
+ if (service == thisService)
+ replace = i;
+ else if (thisMax < ns) {
+ ns = thisMax;
+ holder = thisService;
+ }
+ }
+ }
+
+ // Check if entry found
+ if (kNoReplace != replace) {
+ entries[replace].fService = 0; // Null the entry
+ setCpuDelay = true;
+ }
+ }
+
+ if (setCpuDelay)
+ {
+ if (holder && debug_boot_arg) {
+ strlcpy(sCPULatencyHolderName[delayType], holder->getName(), sizeof(sCPULatencyHolderName[delayType]));
+ }
+
+ // Must be safe to call from locked context
+ if (delayType == kCpuDelayBusStall)
+ {
+ ml_set_maxbusdelay(ns);
+ }
+ else if (delayType == kCpuDelayInterrupt)
+ {
+ ml_set_maxintdelay(ns);
+ }
+ sCPULatencyHolder[delayType]->setValue(holder ? holder->getRegistryEntryID() : 0);
+ sCPULatencySet [delayType]->setValue(ns);
+
+ OSArray * handlers = sCpuLatencyHandlers[delayType];
+ IOService * target;
+ if (handlers) for (unsigned int idx = 0;
+ (target = (IOService *) handlers->getObject(idx));
+ idx++)
+ {
+ target->callPlatformFunction(sCPULatencyFunctionName[delayType], false,
+ (void *) (uintptr_t) ns, holder,
+ NULL, NULL);
}
+ }
- // Check if entry found
- if (kNoReplace != replace) {
- entries[replace].fService = 0; // Null the entry
- ml_set_maxbusdelay(ns);
+ IORecursiveLockUnlock(sCpuDelayLock);
+}
+
+static IOReturn
+setLatencyHandler(UInt32 delayType, IOService * target, bool enable)
+{
+ IOReturn result = kIOReturnNotFound;
+ OSArray * array;
+ unsigned int idx;
+
+ IORecursiveLockLock(sCpuDelayLock);
+
+ do
+ {
+ if (enable && !sCpuLatencyHandlers[delayType])
+ sCpuLatencyHandlers[delayType] = OSArray::withCapacity(4);
+ array = sCpuLatencyHandlers[delayType];
+ if (!array)
+ break;
+ idx = array->getNextIndexOfObject(target, 0);
+ if (!enable)
+ {
+ if (-1U != idx)
+ {
+ array->removeObject(idx);
+ result = kIOReturnSuccess;
+ }
+ }
+ else
+ {
+ if (-1U != idx) {
+ result = kIOReturnExclusiveAccess;
+ break;
+ }
+ array->setObject(target);
+
+ UInt count = sCpuDelayData->getLength() / sizeof(CpuDelayEntry);
+ CpuDelayEntry *entries = (CpuDelayEntry *) sCpuDelayData->getBytesNoCopy();
+ UInt32 ns = -1U; // Set to max unsigned, i.e. no restriction
+ IOService * holder = NULL;
+
+ for (UInt i = 0; i < count; i++) {
+ if (entries[i].fService
+ && (delayType == entries[i].fDelayType)
+ && (entries[i].fMaxDelay < ns)) {
+ ns = entries[i].fMaxDelay;
+ holder = entries[i].fService;
+ }
+ }
+ target->callPlatformFunction(sCPULatencyFunctionName[delayType], false,
+ (void *) (uintptr_t) ns, holder,
+ NULL, NULL);
+ result = kIOReturnSuccess;
}
}
+ while (false);
+
+ IORecursiveLockUnlock(sCpuDelayLock);
+
+ return (result);
+}
+
+#endif /* defined(__i386__) || defined(__x86_64__) */
- IOLockUnlock(sBusStallLock);
-#endif /* __i386__ */
+void IOService::
+requireMaxBusStall(UInt32 __unused ns)
+{
+#if defined(__i386__) || defined(__x86_64__)
+ requireMaxCpuDelay(this, ns, kCpuDelayBusStall);
+#endif
+}
+
+void IOService::
+requireMaxInterruptDelay(uint32_t __unused ns)
+{
+#if defined(__i386__) || defined(__x86_64__)
+ requireMaxCpuDelay(this, ns, kCpuDelayInterrupt);
+#endif
}
/*
return interruptController->unregisterInterrupt(this, source);
}
+IOReturn IOService::addInterruptStatistics(IOInterruptAccountingData * statistics, int source)
+{
+ IOReportLegend * legend = NULL;
+ IOInterruptAccountingData * oldValue = NULL;
+ IOInterruptAccountingReporter * newArray = NULL;
+ char subgroupName[64];
+ int newArraySize = 0;
+ int i = 0;
+
+ if (source < 0) {
+ return kIOReturnBadArgument;
+ }
+
+ /*
+ * We support statistics on a maximum of 256 interrupts per nub; if a nub
+ * has more than 256 interrupt specifiers associated with it, and tries
+ * to register a high interrupt index with interrupt accounting, panic.
+ * Having more than 256 interrupts associated with a single nub is
+ * probably a sign that something fishy is going on.
+ */
+ if (source > IA_INDEX_MAX) {
+ panic("addInterruptStatistics called for an excessively large index (%d)", source);
+ }
+
+ /*
+ * TODO: This is ugly (wrapping a lock around an allocation). I'm only
+ * leaving it as is because the likelihood of contention where we are
+ * actually growing the array is minimal (we would realistically need
+ * to be starting a driver for the first time, with an IOReporting
+ * client already in place). Nonetheless, cleanup that can be done
+ * to adhere to best practices; it'll make the code more complicated,
+ * unfortunately.
+ */
+ IOLockLock(reserved->interruptStatisticsLock);
+
+ /*
+ * Lazily allocate the statistics array.
+ */
+ if (!reserved->interruptStatisticsArray) {
+ reserved->interruptStatisticsArray = IONew(IOInterruptAccountingReporter, 1);
+ assert(reserved->interruptStatisticsArray);
+ reserved->interruptStatisticsArrayCount = 1;
+ bzero(reserved->interruptStatisticsArray, sizeof(*reserved->interruptStatisticsArray));
+ }
+
+ if (source >= reserved->interruptStatisticsArrayCount) {
+ /*
+ * We're still within the range of supported indices, but we are out
+ * of space in the current array. Do a nasty realloc (because
+ * IORealloc isn't a thing) here. We'll double the size with each
+ * reallocation.
+ *
+ * Yes, the "next power of 2" could be more efficient; but this will
+ * be invoked incredibly rarely. Who cares.
+ */
+ newArraySize = (reserved->interruptStatisticsArrayCount << 1);
+
+ while (newArraySize <= source)
+ newArraySize = (newArraySize << 1);
+ newArray = IONew(IOInterruptAccountingReporter, newArraySize);
+
+ assert(newArray);
+
+ /*
+ * TODO: This even zeroes the memory it is about to overwrite.
+ * Shameful; fix it. Not particularly high impact, however.
+ */
+ bzero(newArray, newArraySize * sizeof(*newArray));
+ memcpy(newArray, reserved->interruptStatisticsArray, reserved->interruptStatisticsArrayCount * sizeof(*newArray));
+ IODelete(reserved->interruptStatisticsArray, IOInterruptAccountingReporter, reserved->interruptStatisticsArrayCount);
+ reserved->interruptStatisticsArray = newArray;
+ reserved->interruptStatisticsArrayCount = newArraySize;
+ }
+
+ if (!reserved->interruptStatisticsArray[source].reporter) {
+ /*
+ * We don't have a reporter associated with this index yet, so we
+ * need to create one.
+ */
+ /*
+ * TODO: Some statistics do in fact have common units (time); should this be
+ * split into separate reporters to communicate this?
+ */
+ reserved->interruptStatisticsArray[source].reporter = IOSimpleReporter::with(this, kIOReportCategoryPower, kIOReportUnitNone);
+
+ /*
+ * Each statistic is given an identifier based on the interrupt index (which
+ * should be unique relative to any single nub) and the statistic involved.
+ * We should now have a sane (small and positive) index, so start
+ * constructing the channels for statistics.
+ */
+ for (i = 0; i < IA_NUM_INTERRUPT_ACCOUNTING_STATISTICS; i++) {
+ /*
+ * TODO: Currently, this does not add channels for disabled statistics.
+ * Will this be confusing for clients? If so, we should just add the
+ * channels; we can avoid updating the channels even if they exist.
+ */
+ if (IA_GET_STATISTIC_ENABLED(i))
+ reserved->interruptStatisticsArray[source].reporter->addChannel(IA_GET_CHANNEL_ID(source, i), kInterruptAccountingStatisticNameArray[i]);
+ }
+
+ /*
+ * We now need to add the legend for this reporter to the registry.
+ */
+ legend = IOReportLegend::with(OSDynamicCast(OSArray, getProperty(kIOReportLegendKey)));
+
+ /*
+ * Note that while we compose the subgroup name, we do not need to
+ * manage its lifecycle (the reporter will handle this).
+ */
+ snprintf(subgroupName, sizeof(subgroupName), "%s %d", getName(), source);
+ subgroupName[sizeof(subgroupName) - 1] = 0;
+ legend->addReporterLegend(reserved->interruptStatisticsArray[source].reporter, kInterruptAccountingGroupName, subgroupName);
+ setProperty(kIOReportLegendKey, legend->getLegend());
+ legend->release();
+
+ /*
+ * TODO: Is this a good idea? Probably not; my assumption is it opts
+ * all entities who register interrupts into public disclosure of all
+ * IOReporting channels. Unfortunately, this appears to be as fine
+ * grain as it gets.
+ */
+ setProperty(kIOReportLegendPublicKey, true);
+ }
+
+ /*
+ * Don't stomp existing entries. If we are about to, panic; this
+ * probably means we failed to tear down our old interrupt source
+ * correctly.
+ */
+ oldValue = reserved->interruptStatisticsArray[source].statistics;
+
+ if (oldValue) {
+ panic("addInterruptStatistics call for index %d would have clobbered existing statistics", source);
+ }
+
+ reserved->interruptStatisticsArray[source].statistics = statistics;
+
+ /*
+ * Inherit the reporter values for each statistic. The target may
+ * be torn down as part of the runtime of the service (especially
+ * for sleep/wake), so we inherit in order to avoid having values
+ * reset for no apparent reason. Our statistics are ultimately
+ * tied to the index and the sevice, not to an individual target,
+ * so we should maintain them accordingly.
+ */
+ interruptAccountingDataInheritChannels(reserved->interruptStatisticsArray[source].statistics, reserved->interruptStatisticsArray[source].reporter);
+
+ IOLockUnlock(reserved->interruptStatisticsLock);
+
+ return kIOReturnSuccess;
+}
+
+IOReturn IOService::removeInterruptStatistics(int source)
+{
+ IOInterruptAccountingData * value = NULL;
+
+ if (source < 0) {
+ return kIOReturnBadArgument;
+ }
+
+ IOLockLock(reserved->interruptStatisticsLock);
+
+ /*
+ * We dynamically grow the statistics array, so an excessively
+ * large index value has NEVER been registered. This either
+ * means our cap on the array size is too small (unlikely), or
+ * that we have been passed a corrupt index (this must be passed
+ * the plain index into the interrupt specifier list).
+ */
+ if (source >= reserved->interruptStatisticsArrayCount) {
+ panic("removeInterruptStatistics called for index %d, which was never registered", source);
+ }
+
+ assert(reserved->interruptStatisticsArray);
+
+ /*
+ * If there is no existing entry, we are most likely trying to
+ * free an interrupt owner twice, or we have corrupted the
+ * index value.
+ */
+ value = reserved->interruptStatisticsArray[source].statistics;
+
+ if (!value) {
+ panic("removeInterruptStatistics called for empty index %d", source);
+ }
+
+ /*
+ * We update the statistics, so that any delta with the reporter
+ * state is not lost.
+ */
+ interruptAccountingDataUpdateChannels(reserved->interruptStatisticsArray[source].statistics, reserved->interruptStatisticsArray[source].reporter);
+ reserved->interruptStatisticsArray[source].statistics = NULL;
+ IOLockUnlock(reserved->interruptStatisticsLock);
+
+ return kIOReturnSuccess;
+}
+
IOReturn IOService::getInterruptType(int source, int *interruptType)
{
IOInterruptController *interruptController;
return interruptController->causeInterrupt(this, source);
}
+IOReturn IOService::configureReport(IOReportChannelList *channelList,
+ IOReportConfigureAction action,
+ void *result,
+ void *destination)
+{
+ unsigned cnt;
+
+ for (cnt = 0; cnt < channelList->nchannels; cnt++) {
+ if ( channelList->channels[cnt].channel_id == kPMPowerStatesChID ) {
+ if (pwrMgt) configurePowerStatesReport(action, result);
+ else return kIOReturnUnsupported;
+ }
+ else if ( channelList->channels[cnt].channel_id == kPMCurrStateChID ) {
+ if (pwrMgt) configureSimplePowerReport(action, result);
+ else return kIOReturnUnsupported;
+ }
+ }
+
+ IOLockLock(reserved->interruptStatisticsLock);
+
+ /* The array count is signed (because the interrupt indices are signed), hence the cast */
+ for (cnt = 0; cnt < (unsigned) reserved->interruptStatisticsArrayCount; cnt++) {
+ if (reserved->interruptStatisticsArray[cnt].reporter) {
+ /*
+ * If the reporter is currently associated with the statistics
+ * for an event source, we may need to update the reporter.
+ */
+ if (reserved->interruptStatisticsArray[cnt].statistics)
+ interruptAccountingDataUpdateChannels(reserved->interruptStatisticsArray[cnt].statistics, reserved->interruptStatisticsArray[cnt].reporter);
+
+ reserved->interruptStatisticsArray[cnt].reporter->configureReport(channelList, action, result, destination);
+ }
+ }
+
+ IOLockUnlock(reserved->interruptStatisticsLock);
+
+ return kIOReturnSuccess;
+}
+
+IOReturn IOService::updateReport(IOReportChannelList *channelList,
+ IOReportUpdateAction action,
+ void *result,
+ void *destination)
+{
+ unsigned cnt;
+
+ for (cnt = 0; cnt < channelList->nchannels; cnt++) {
+ if ( channelList->channels[cnt].channel_id == kPMPowerStatesChID ) {
+ if (pwrMgt) updatePowerStatesReport(action, result, destination);
+ else return kIOReturnUnsupported;
+ }
+ else if ( channelList->channels[cnt].channel_id == kPMCurrStateChID ) {
+ if (pwrMgt) updateSimplePowerReport(action, result, destination);
+ else return kIOReturnUnsupported;
+ }
+ }
+
+ IOLockLock(reserved->interruptStatisticsLock);
+
+ /* The array count is signed (because the interrupt indices are signed), hence the cast */
+ for (cnt = 0; cnt < (unsigned) reserved->interruptStatisticsArrayCount; cnt++) {
+ if (reserved->interruptStatisticsArray[cnt].reporter) {
+ /*
+ * If the reporter is currently associated with the statistics
+ * for an event source, we need to update the reporter.
+ */
+ if (reserved->interruptStatisticsArray[cnt].statistics)
+ interruptAccountingDataUpdateChannels(reserved->interruptStatisticsArray[cnt].statistics, reserved->interruptStatisticsArray[cnt].reporter);
+
+ reserved->interruptStatisticsArray[cnt].reporter->updateReport(channelList, action, result, destination);
+ }
+ }
+
+ IOLockUnlock(reserved->interruptStatisticsLock);
+
+ return kIOReturnSuccess;
+}
+
+uint64_t IOService::getAuthorizationID( void )
+{
+ return reserved->authorizationID;
+}
+
+IOReturn IOService::setAuthorizationID( uint64_t authorizationID )
+{
+ OSObject * entitlement;
+ IOReturn status;
+
+ entitlement = IOUserClient::copyClientEntitlement( current_task( ), "com.apple.private.iokit.IOServiceSetAuthorizationID" );
+
+ if ( entitlement )
+ {
+ if ( entitlement == kOSBooleanTrue )
+ {
+ reserved->authorizationID = authorizationID;
+
+ status = kIOReturnSuccess;
+ }
+ else
+ {
+ status = kIOReturnNotPrivileged;
+ }
+
+ entitlement->release( );
+ }
+ else
+ {
+ status = kIOReturnNotPrivileged;
+ }
+
+ return status;
+}
+
+#if __LP64__
OSMetaClassDefineReservedUsed(IOService, 0);
OSMetaClassDefineReservedUsed(IOService, 1);
-OSMetaClassDefineReservedUsed(IOService, 2);
-OSMetaClassDefineReservedUsed(IOService, 3);
-
+OSMetaClassDefineReservedUnused(IOService, 2);
+OSMetaClassDefineReservedUnused(IOService, 3);
OSMetaClassDefineReservedUnused(IOService, 4);
OSMetaClassDefineReservedUnused(IOService, 5);
OSMetaClassDefineReservedUnused(IOService, 6);
OSMetaClassDefineReservedUnused(IOService, 7);
+#else
+OSMetaClassDefineReservedUsed(IOService, 0);
+OSMetaClassDefineReservedUsed(IOService, 1);
+OSMetaClassDefineReservedUsed(IOService, 2);
+OSMetaClassDefineReservedUsed(IOService, 3);
+OSMetaClassDefineReservedUsed(IOService, 4);
+OSMetaClassDefineReservedUsed(IOService, 5);
+OSMetaClassDefineReservedUsed(IOService, 6);
+OSMetaClassDefineReservedUsed(IOService, 7);
+#endif
OSMetaClassDefineReservedUnused(IOService, 8);
OSMetaClassDefineReservedUnused(IOService, 9);
OSMetaClassDefineReservedUnused(IOService, 10);
OSMetaClassDefineReservedUnused(IOService, 45);
OSMetaClassDefineReservedUnused(IOService, 46);
OSMetaClassDefineReservedUnused(IOService, 47);
-
-#ifdef __ppc__
-OSMetaClassDefineReservedUnused(IOService, 48);
-OSMetaClassDefineReservedUnused(IOService, 49);
-OSMetaClassDefineReservedUnused(IOService, 50);
-OSMetaClassDefineReservedUnused(IOService, 51);
-OSMetaClassDefineReservedUnused(IOService, 52);
-OSMetaClassDefineReservedUnused(IOService, 53);
-OSMetaClassDefineReservedUnused(IOService, 54);
-OSMetaClassDefineReservedUnused(IOService, 55);
-OSMetaClassDefineReservedUnused(IOService, 56);
-OSMetaClassDefineReservedUnused(IOService, 57);
-OSMetaClassDefineReservedUnused(IOService, 58);
-OSMetaClassDefineReservedUnused(IOService, 59);
-OSMetaClassDefineReservedUnused(IOService, 60);
-OSMetaClassDefineReservedUnused(IOService, 61);
-OSMetaClassDefineReservedUnused(IOService, 62);
-OSMetaClassDefineReservedUnused(IOService, 63);
-#endif