X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/5d5c5d0d5b79ade9a973d55186ffda2638ba2b6e..94ff46dc2849db4d43eaaf144872decc522aafb4:/iokit/Kernel/IOPMrootDomain.cpp diff --git a/iokit/Kernel/IOPMrootDomain.cpp b/iokit/Kernel/IOPMrootDomain.cpp index 95c6456b2..624d7a812 100644 --- a/iokit/Kernel/IOPMrootDomain.cpp +++ b/iokit/Kernel/IOPMrootDomain.cpp @@ -1,2256 +1,11753 @@ /* - * Copyright (c) 1998-2005 Apple Computer, Inc. All rights reserved. + * Copyright (c) 1998-2019 Apple Inc. All rights reserved. * - * @APPLE_LICENSE_OSREFERENCE_HEADER_START@ - * - * This file contains Original Code and/or Modifications of Original Code - * as defined in and that are subject to the Apple Public Source License - * Version 2.0 (the 'License'). You may not use this file except in - * compliance with the License. The rights granted to you under the - * License may not be used to create, or enable the creation or - * redistribution of, unlawful or unlicensed copies of an Apple operating - * system, or to circumvent, violate, or enable the circumvention or - * violation of, any terms of an Apple operating system software license - * agreement. + * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * - * Please obtain a copy of the License at - * http://www.opensource.apple.com/apsl/ and read it before using this - * file. + * This file contains Original Code and/or Modifications of Original Code + * as defined in and that are subject to the Apple Public Source License + * Version 2.0 (the 'License'). You may not use this file except in + * compliance with the License. The rights granted to you under the License + * may not be used to create, or enable the creation or redistribution of, + * unlawful or unlicensed copies of an Apple operating system, or to + * circumvent, violate, or enable the circumvention or violation of, any + * terms of an Apple operating system software license agreement. * - * The Original Code and all software distributed under the License are - * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER - * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, - * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, - * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. - * Please see the License for the specific language governing rights and + * Please obtain a copy of the License at + * http://www.opensource.apple.com/apsl/ and read it before using this file. + * + * The Original Code and all software distributed under the License are + * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER + * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, + * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. + * Please see the License for the specific language governing rights and * limitations under the License. * - * @APPLE_LICENSE_OSREFERENCE_HEADER_END@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ +#include +#include +#include +#include #include #include #include #include +#include #include #include +#include #include #include #include #include #include +#include #include "RootDomainUserClient.h" #include "IOKit/pwr_mgt/IOPowerConnection.h" #include "IOPMPowerStateQueue.h" #include +#include +#include +#include +#include "IOKitKernelInternal.h" +#if HIBERNATION #include -#include "IOPMWorkArbiter.h" +#endif +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include "IOServicePrivate.h" // _IOServiceInterestNotifier +#include "IOServicePMPrivate.h" + +#include + +__BEGIN_DECLS +#include +#include +__END_DECLS + +#if defined(__i386__) || defined(__x86_64__) +__BEGIN_DECLS +#include "IOPMrootDomainInternal.h" +const char *processor_to_datastring(const char *prefix, processor_t target_processor); +__END_DECLS +#endif + +#define kIOPMrootDomainClass "IOPMrootDomain" +#define LOG_PREFIX "PMRD: " -#ifdef __ppc__ -#include + +#define MSG(x...) \ + do { kprintf(LOG_PREFIX x); IOLog(x); } while (false) + +#define LOG(x...) \ + do { kprintf(LOG_PREFIX x); } while (false) + +#if DEVELOPMENT || DEBUG +#define DEBUG_LOG(x...) do { \ + if (kIOLogPMRootDomain & gIOKitDebug) \ + kprintf(LOG_PREFIX x); \ + os_log_debug(OS_LOG_DEFAULT, LOG_PREFIX x); \ +} while (false) +#else +#define DEBUG_LOG(x...) #endif -extern "C" { -IOReturn OSMetaClassSystemSleepOrWake( UInt32 ); -} +#define DLOG(x...) do { \ + if (kIOLogPMRootDomain & gIOKitDebug) \ + kprintf(LOG_PREFIX x); \ + else \ + os_log(OS_LOG_DEFAULT, LOG_PREFIX x); \ +} while (false) + +#define DMSG(x...) do { \ + if (kIOLogPMRootDomain & gIOKitDebug) { \ + kprintf(LOG_PREFIX x); \ + } \ +} while (false) + + +#define _LOG(x...) + +#define CHECK_THREAD_CONTEXT +#ifdef CHECK_THREAD_CONTEXT +static IOWorkLoop * gIOPMWorkLoop = NULL; +#define ASSERT_GATED() \ +do { \ + if (gIOPMWorkLoop && gIOPMWorkLoop->inGate() != true) { \ + panic("RootDomain: not inside PM gate"); \ + } \ +} while(false) +#else +#define ASSERT_GATED() +#endif /* CHECK_THREAD_CONTEXT */ + +#define CAP_LOSS(c) \ + (((_pendingCapability & (c)) == 0) && \ + ((_currentCapability & (c)) != 0)) + +#define CAP_GAIN(c) \ + (((_currentCapability & (c)) == 0) && \ + ((_pendingCapability & (c)) != 0)) + +#define CAP_CHANGE(c) \ + (((_currentCapability ^ _pendingCapability) & (c)) != 0) + +#define CAP_CURRENT(c) \ + ((_currentCapability & (c)) != 0) + +#define CAP_HIGHEST(c) \ + ((_highestCapability & (c)) != 0) + +#if defined(__i386__) || defined(__x86_64__) +#define DARK_TO_FULL_EVALUATE_CLAMSHELL 1 +#endif + +// Event types for IOPMPowerStateQueue::submitPowerEvent() +enum { + kPowerEventFeatureChanged = 1, // 1 + kPowerEventReceivedPowerNotification, // 2 + kPowerEventSystemBootCompleted, // 3 + kPowerEventSystemShutdown, // 4 + kPowerEventUserDisabledSleep, // 5 + kPowerEventRegisterSystemCapabilityClient, // 6 + kPowerEventRegisterKernelCapabilityClient, // 7 + kPowerEventPolicyStimulus, // 8 + kPowerEventAssertionCreate, // 9 + kPowerEventAssertionRelease, // 10 + kPowerEventAssertionSetLevel, // 11 + kPowerEventQueueSleepWakeUUID, // 12 + kPowerEventPublishSleepWakeUUID, // 13 + kPowerEventSetDisplayPowerOn // 14 +}; -extern const IORegistryPlane * gIOPowerPlane; +// For evaluatePolicy() +// List of stimuli that affects the root domain policy. +enum { + kStimulusDisplayWranglerSleep, // 0 + kStimulusDisplayWranglerWake, // 1 + kStimulusAggressivenessChanged, // 2 + kStimulusDemandSystemSleep, // 3 + kStimulusAllowSystemSleepChanged, // 4 + kStimulusDarkWakeActivityTickle, // 5 + kStimulusDarkWakeEntry, // 6 + kStimulusDarkWakeReentry, // 7 + kStimulusDarkWakeEvaluate, // 8 + kStimulusNoIdleSleepPreventers, // 9 + kStimulusEnterUserActiveState, // 10 + kStimulusLeaveUserActiveState // 11 +}; -IOReturn broadcast_aggressiveness ( OSObject *, void *, void *, void *, void * ); -static void sleepTimerExpired(thread_call_param_t); -static void wakeupClamshellTimerExpired ( thread_call_param_t us); +extern "C" { +IOReturn OSKextSystemSleepOrWake( UInt32 ); +} +extern "C" ppnum_t pmap_find_phys(pmap_t pmap, addr64_t va); +extern "C" addr64_t kvtophys(vm_offset_t va); +extern "C" boolean_t kdp_has_polled_corefile(); + +static void idleSleepTimerExpired( thread_call_param_t, thread_call_param_t ); +static void notifySystemShutdown( IOService * root, uint32_t messageType ); +static void handleAggressivesFunction( thread_call_param_t, thread_call_param_t ); +static void pmEventTimeStamp(uint64_t *recordTS); +static void powerButtonUpCallout( thread_call_param_t, thread_call_param_t ); +static void powerButtonDownCallout( thread_call_param_t, thread_call_param_t ); + +static int IOPMConvertSecondsToCalendar(long secs, IOPMCalendarStruct * dt); +static long IOPMConvertCalendarToSeconds(const IOPMCalendarStruct * dt); +#define YMDTF "%04d/%02d/%d %02d:%02d:%02d" +#define YMDT(cal) ((int)(cal)->year), (cal)->month, (cal)->day, (cal)->hour, (cal)->minute, (cal)->second // "IOPMSetSleepSupported" callPlatformFunction name static const OSSymbol *sleepSupportedPEFunction = NULL; - -#define kIOSleepSupportedKey "IOSleepSupported" +static const OSSymbol *sleepMessagePEFunction = NULL; + +static const OSSymbol * gIOPMPSExternalConnectedKey; +static const OSSymbol * gIOPMPSExternalChargeCapableKey; +static const OSSymbol * gIOPMPSBatteryInstalledKey; +static const OSSymbol * gIOPMPSIsChargingKey; +static const OSSymbol * gIOPMPSAtWarnLevelKey; +static const OSSymbol * gIOPMPSAtCriticalLevelKey; +static const OSSymbol * gIOPMPSCurrentCapacityKey; +static const OSSymbol * gIOPMPSMaxCapacityKey; +static const OSSymbol * gIOPMPSDesignCapacityKey; +static const OSSymbol * gIOPMPSTimeRemainingKey; +static const OSSymbol * gIOPMPSAmperageKey; +static const OSSymbol * gIOPMPSVoltageKey; +static const OSSymbol * gIOPMPSCycleCountKey; +static const OSSymbol * gIOPMPSMaxErrKey; +static const OSSymbol * gIOPMPSAdapterInfoKey; +static const OSSymbol * gIOPMPSLocationKey; +static const OSSymbol * gIOPMPSErrorConditionKey; +static const OSSymbol * gIOPMPSManufacturerKey; +static const OSSymbol * gIOPMPSManufactureDateKey; +static const OSSymbol * gIOPMPSModelKey; +static const OSSymbol * gIOPMPSSerialKey; +static const OSSymbol * gIOPMPSLegacyBatteryInfoKey; +static const OSSymbol * gIOPMPSBatteryHealthKey; +static const OSSymbol * gIOPMPSHealthConfidenceKey; +static const OSSymbol * gIOPMPSCapacityEstimatedKey; +static const OSSymbol * gIOPMPSBatteryChargeStatusKey; +static const OSSymbol * gIOPMPSBatteryTemperatureKey; +static const OSSymbol * gIOPMPSAdapterDetailsKey; +static const OSSymbol * gIOPMPSChargerConfigurationKey; +static const OSSymbol * gIOPMPSAdapterDetailsIDKey; +static const OSSymbol * gIOPMPSAdapterDetailsWattsKey; +static const OSSymbol * gIOPMPSAdapterDetailsRevisionKey; +static const OSSymbol * gIOPMPSAdapterDetailsSerialNumberKey; +static const OSSymbol * gIOPMPSAdapterDetailsFamilyKey; +static const OSSymbol * gIOPMPSAdapterDetailsAmperageKey; +static const OSSymbol * gIOPMPSAdapterDetailsDescriptionKey; +static const OSSymbol * gIOPMPSAdapterDetailsPMUConfigurationKey; +static const OSSymbol * gIOPMPSAdapterDetailsSourceIDKey; +static const OSSymbol * gIOPMPSAdapterDetailsErrorFlagsKey; +static const OSSymbol * gIOPMPSAdapterDetailsSharedSourceKey; +static const OSSymbol * gIOPMPSAdapterDetailsCloakedKey; +static const OSSymbol * gIOPMPSInvalidWakeSecondsKey; +static const OSSymbol * gIOPMPSPostChargeWaitSecondsKey; +static const OSSymbol * gIOPMPSPostDishargeWaitSecondsKey; + +#define kIOSleepSupportedKey "IOSleepSupported" +#define kIOPMSystemCapabilitiesKey "System Capabilities" + +#define kIORequestWranglerIdleKey "IORequestIdle" +#define kDefaultWranglerIdlePeriod 1000 // in milliseconds + +#define kIOSleepWakeFailureString "SleepWakeFailureString" +#define kIOEFIBootRomFailureKey "wake-failure" +#define kIOSleepWakeFailurePanic "SleepWakeFailurePanic" #define kRD_AllPowerSources (kIOPMSupportedOnAC \ - | kIOPMSupportedOnBatt \ - | kIOPMSupportedOnUPS) - -#define number_of_power_states 5 -#define OFF_STATE 0 -#define RESTART_STATE 1 -#define SLEEP_STATE 2 -#define DOZE_STATE 3 -#define ON_STATE 4 - -#define ON_POWER kIOPMPowerOn -#define RESTART_POWER kIOPMRestart -#define SLEEP_POWER kIOPMAuxPowerOn -#define DOZE_POWER kIOPMDoze - -#define kLocalEvalClamshellCommand (1 << 15) - -static IOPMPowerState ourPowerStates[number_of_power_states] = { - // state 0, off - {1,0, 0, 0,0,0,0,0,0,0,0,0}, - // state 1, restart - {1,kIOPMRestartCapability, kIOPMRestart, RESTART_POWER,0,0,0,0,0,0,0,0}, - // state 2, sleep - {1,kIOPMSleepCapability, kIOPMSleep, SLEEP_POWER,0,0,0,0,0,0,0,0}, - // state 3, doze - {1,kIOPMDoze, kIOPMDoze, DOZE_POWER,0,0,0,0,0,0,0,0}, - // state 4, on - {1,kIOPMPowerOn, kIOPMPowerOn, ON_POWER,0,0,0,0,0,0,0,0}, + | kIOPMSupportedOnBatt \ + | kIOPMSupportedOnUPS) + +#define kLocalEvalClamshellCommand (1 << 15) +#define kIdleSleepRetryInterval (3 * 60) + +enum { + kWranglerPowerStateMin = 0, + kWranglerPowerStateSleep = 2, + kWranglerPowerStateDim = 3, + kWranglerPowerStateMax = 4 }; -static IOPMrootDomain * gRootDomain; -static UInt32 gSleepOrShutdownPending = 0; +enum { + OFF_STATE = 0, + RESTART_STATE = 1, + SLEEP_STATE = 2, + AOT_STATE = 3, + ON_STATE = 4, + NUM_POWER_STATES +}; +const char * +getPowerStateString( uint32_t state ) +{ +#define POWER_STATE(x) {(uint32_t) x, #x} + + static const IONamedValue powerStates[] = { + POWER_STATE( OFF_STATE ), + POWER_STATE( RESTART_STATE ), + POWER_STATE( SLEEP_STATE ), + POWER_STATE( AOT_STATE ), + POWER_STATE( ON_STATE ), + { 0, NULL } + }; + return IOFindNameForValue(state, powerStates); +} -class PMSettingObject : public OSObject +#define ON_POWER kIOPMPowerOn +#define RESTART_POWER kIOPMRestart +#define SLEEP_POWER kIOPMAuxPowerOn + +static IOPMPowerState + ourPowerStates[NUM_POWER_STATES] = { - OSDeclareDefaultStructors(PMSettingObject) -private: - IOPMrootDomain *parent; - IOPMSettingControllerCallback func; - OSObject *target; - uintptr_t refcon; - uint32_t *publishedFeatureID; - int releaseAtCount; -public: - static PMSettingObject *pmSettingObject( - IOPMrootDomain *parent_arg, - IOPMSettingControllerCallback handler_arg, - OSObject *target_arg, - uintptr_t refcon_arg, - uint32_t supportedPowerSources, - const OSSymbol *settings[]); - - void setPMSetting(const OSSymbol *type, OSObject *obj); - - void taggedRelease(const void *tag, const int when) const; - void free(void); + { .version = 1, + .capabilityFlags = 0, + .outputPowerCharacter = 0, + .inputPowerRequirement = 0 }, + { .version = 1, + .capabilityFlags = kIOPMRestartCapability, + .outputPowerCharacter = kIOPMRestart, + .inputPowerRequirement = RESTART_POWER }, + { .version = 1, + .capabilityFlags = kIOPMSleepCapability, + .outputPowerCharacter = kIOPMSleep, + .inputPowerRequirement = SLEEP_POWER }, + { .version = 1, +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + .capabilityFlags = kIOPMAOTCapability, + .outputPowerCharacter = kIOPMAOTPower, + .inputPowerRequirement = ON_POWER }, +#else /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + .capabilityFlags = 0, + .outputPowerCharacter = 0, + .inputPowerRequirement = 0xFFFFFFFF }, +#endif /* (defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + { .version = 1, + .capabilityFlags = kIOPMPowerOn, + .outputPowerCharacter = kIOPMPowerOn, + .inputPowerRequirement = ON_POWER }, }; +#define kIOPMRootDomainWakeTypeSleepService "SleepService" +#define kIOPMRootDomainWakeTypeMaintenance "Maintenance" +#define kIOPMRootDomainWakeTypeSleepTimer "SleepTimer" +#define kIOPMrootDomainWakeTypeLowBattery "LowBattery" +#define kIOPMRootDomainWakeTypeUser "User" +#define kIOPMRootDomainWakeTypeAlarm "Alarm" +#define kIOPMRootDomainWakeTypeNetwork "Network" +#define kIOPMRootDomainWakeTypeHIDActivity "HID Activity" +#define kIOPMRootDomainWakeTypeNotification "Notification" +#define kIOPMRootDomainWakeTypeHibernateError "HibernateError" + +// Special interest that entitles the interested client from receiving +// all system messages. Only used by powerd. +// +#define kIOPMSystemCapabilityInterest "IOPMSystemCapabilityInterest" +// Entitlement required for root domain clients +#define kRootDomainEntitlementSetProperty "com.apple.private.iokit.rootdomain-set-property" -#define super IOService -OSDefineMetaClassAndStructors(IOPMrootDomain,IOService) - -extern "C" -{ - IONotifier * registerSleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref) - { - return gRootDomain->registerInterest( gIOGeneralInterest, handler, self, ref ); - } - - IONotifier * registerPrioritySleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref) - { - return gRootDomain->registerInterest( gIOPriorityPowerStateInterest, handler, self, ref ); - } - - IOReturn acknowledgeSleepWakeNotification(void * PMrefcon) - { - return gRootDomain->allowPowerChange ( (unsigned long)PMrefcon ); - } - - IOReturn vetoSleepWakeNotification(void * PMrefcon) - { - return gRootDomain->cancelPowerChange ( (unsigned long)PMrefcon ); - } - - IOReturn rootDomainRestart ( void ) - { - return gRootDomain->restartSystem(); - } - - IOReturn rootDomainShutdown ( void ) - { - return gRootDomain->shutdownSystem(); - } - - void IOSystemShutdownNotification ( void ) - { - IOCatalogue::disableExternalLinker(); - for ( int i = 0; i < 100; i++ ) - { - if ( OSCompareAndSwap( 0, 1, &gSleepOrShutdownPending ) ) break; - IOSleep( 100 ); - } - } - - int sync_internal(void); -} +#define WAKEEVENT_LOCK() IOLockLock(wakeEventLock) +#define WAKEEVENT_UNLOCK() IOLockUnlock(wakeEventLock) /* -A device is always in the highest power state which satisfies its driver, its policy-maker, and any power domain -children it has, but within the constraint of the power state provided by its parent. The driver expresses its desire by -calling changePowerStateTo(), the policy-maker expresses its desire by calling changePowerStateToPriv(), and the children -express their desires by calling requestPowerDomainState(). + * Aggressiveness + */ +#define AGGRESSIVES_LOCK() IOLockLock(featuresDictLock) +#define AGGRESSIVES_UNLOCK() IOLockUnlock(featuresDictLock) + +#define kAggressivesMinValue 1 -The Root Power Domain owns the policy for idle and demand sleep and doze for the system. It is a power-managed IOService just -like the others in the system. It implements several power states which correspond to what we see as Sleep, Doze, etc. +const char * +getAggressivenessTypeString( uint32_t type ) +{ +#define AGGRESSIVENESS_TYPE(x) {(uint32_t) x, #x} + + static const IONamedValue aggressivenessTypes[] = { + AGGRESSIVENESS_TYPE( kPMGeneralAggressiveness ), + AGGRESSIVENESS_TYPE( kPMMinutesToDim ), + AGGRESSIVENESS_TYPE( kPMMinutesToSpinDown ), + AGGRESSIVENESS_TYPE( kPMMinutesToSleep ), + AGGRESSIVENESS_TYPE( kPMEthernetWakeOnLANSettings ), + AGGRESSIVENESS_TYPE( kPMSetProcessorSpeed ), + AGGRESSIVENESS_TYPE( kPMPowerSource), + AGGRESSIVENESS_TYPE( kPMMotionSensor ), + AGGRESSIVENESS_TYPE( kPMLastAggressivenessType ), + { 0, NULL } + }; + return IOFindNameForValue(type, aggressivenessTypes); +} -The sleep/doze policy is as follows: -Sleep and Doze are prevented if the case is open so that nobody will think the machine is off and plug/unplug cards. -Sleep and Doze are prevented if the sleep timeout slider in the preferences panel is at zero. -The system cannot Sleep, but can Doze if some object in the tree is in a power state marked kIOPMPreventSystemSleep. +enum { + kAggressivesStateBusy = 0x01, + kAggressivesStateQuickSpindown = 0x02 +}; -These three conditions are enforced using the "driver clamp" by calling changePowerStateTo(). For example, if the case is -opened, changePowerStateTo(ON_STATE) is called to hold the system on regardless of the desires of the children of the root or -the state of the other clamp. +struct AggressivesRecord { + uint32_t flags; + uint32_t type; + uint32_t value; +}; -Demand Sleep/Doze is initiated by pressing the front panel power button, closing the clamshell, or selecting the menu item. -In this case the root's parent actually initiates the power state change so that the root has no choice and does not give -applications the opportunity to veto the change. +struct AggressivesRequest { + queue_chain_t chain; + uint32_t options; + uint32_t dataType; + union { + IOService * service; + AggressivesRecord record; + } data; +}; -Idle Sleep/Doze occurs if no objects in the tree are in a state marked kIOPMPreventIdleSleep. When this is true, the root's -children are not holding the root on, so it sets the "policy-maker clamp" by calling changePowerStateToPriv(ON_STATE) -to hold itself on until the sleep timer expires. This timer is set for the difference between the sleep timeout slider and -the larger of the display dim timeout slider and the disk spindown timeout slider in the Preferences panel. For example, if -the system is set to sleep after thirty idle minutes, and the display and disk are set to sleep after five idle minutes, -when there is no longer an object in the tree holding the system out of Idle Sleep (via kIOPMPreventIdleSleep), the root -sets its timer for 25 minutes (30 - 5). When the timer expires, it releases its clamp and now nothing is holding it awake, -so it falls asleep. +enum { + kAggressivesRequestTypeService = 1, + kAggressivesRequestTypeRecord +}; -Demand sleep is prevented when the system is booting. When preferences are transmitted by the loginwindow at the end of -boot, a flag is cleared, and this allows subsequent Demand Sleep. +enum { + kAggressivesOptionSynchronous = 0x00000001, + kAggressivesOptionQuickSpindownEnable = 0x00000100, + kAggressivesOptionQuickSpindownDisable = 0x00000200, + kAggressivesOptionQuickSpindownMask = 0x00000300 +}; -The system will not Sleep, but will Doze if some object calls setSleepSupported(kPCICantSleep) during a power change to the sleep state (this can be done by the PCI Aux Power Supply drivers, Slots99, MacRISC299, etc.). This is not enforced with -a clamp, but sets a flag which is noticed before actually sleeping the kernel. If the flag is set, the root steps up -one power state from Sleep to Doze, and any objects in the tree for which this is relevent will act appropriately (USB and -ADB will turn on again so that they can wake the system out of Doze (keyboard/mouse activity will cause the Display Wrangler -to be tickled)). -*/ - -// ********************************************************************************** +enum { + kAggressivesRecordFlagModified = 0x00000001, + kAggressivesRecordFlagMinValue = 0x00000002 +}; -IOPMrootDomain * IOPMrootDomain::construct( void ) -{ - IOPMrootDomain *root; +// System Sleep Preventers - root = new IOPMrootDomain; - if( root) - root->init(); +enum { + kPMUserDisabledAllSleep = 1, + kPMSystemRestartBootingInProgress, + kPMConfigPreventSystemSleep, + kPMChildPreventSystemSleep, + kPMCPUAssertion, + kPMPCIUnsupported, +}; - return( root ); +const char * +getSystemSleepPreventerString( uint32_t preventer ) +{ +#define SYSTEM_SLEEP_PREVENTER(x) {(int) x, #x} + static const IONamedValue systemSleepPreventers[] = { + SYSTEM_SLEEP_PREVENTER( kPMUserDisabledAllSleep ), + SYSTEM_SLEEP_PREVENTER( kPMSystemRestartBootingInProgress ), + SYSTEM_SLEEP_PREVENTER( kPMConfigPreventSystemSleep ), + SYSTEM_SLEEP_PREVENTER( kPMChildPreventSystemSleep ), + SYSTEM_SLEEP_PREVENTER( kPMCPUAssertion ), + SYSTEM_SLEEP_PREVENTER( kPMPCIUnsupported ), + { 0, NULL } + }; + return IOFindNameForValue(preventer, systemSleepPreventers); } -// ********************************************************************************** +// gDarkWakeFlags +enum { + kDarkWakeFlagHIDTickleEarly = 0x01,// hid tickle before gfx suppression + kDarkWakeFlagHIDTickleLate = 0x02,// hid tickle after gfx suppression + kDarkWakeFlagHIDTickleNone = 0x03,// hid tickle is not posted + kDarkWakeFlagHIDTickleMask = 0x03, + kDarkWakeFlagAlarmIsDark = 0x0100, + kDarkWakeFlagGraphicsPowerState1 = 0x0200, + kDarkWakeFlagAudioNotSuppressed = 0x0400 +}; -static void disk_sync_callout(thread_call_param_t p0, thread_call_param_t p1) -{ - IOService *rootDomain = (IOService *) p0; - unsigned long pmRef = (unsigned long) p1; +static IOPMrootDomain * gRootDomain; +static IONotifier * gSysPowerDownNotifier = NULL; +static UInt32 gSleepOrShutdownPending = 0; +static UInt32 gWillShutdown = 0; +static UInt32 gPagingOff = 0; +static UInt32 gSleepWakeUUIDIsSet = false; +static uint32_t gAggressivesState = 0; +static uint32_t gHaltTimeMaxLog; +static uint32_t gHaltTimeMaxPanic; +IOLock * gHaltLogLock; +static char * gHaltLog; +enum { kHaltLogSize = 2048 }; +static size_t gHaltLogPos; +static uint64_t gHaltStartTime; + + +uuid_string_t bootsessionuuid_string; + +static uint32_t gDarkWakeFlags = kDarkWakeFlagHIDTickleNone; +static uint32_t gNoIdleFlag = 0; +static uint32_t gSwdPanic = 1; +static uint32_t gSwdSleepTimeout = 0; +static uint32_t gSwdWakeTimeout = 0; +static uint32_t gSwdSleepWakeTimeout = 0; +static PMStatsStruct gPMStats; +#if DEVELOPMENT || DEBUG +static uint32_t swd_panic_phase; +#endif - IOHibernateSystemSleep(); - sync_internal(); - rootDomain->allowPowerChange(pmRef); -} -// ********************************************************************************** -IOPMWorkArbiter *IOPMrootDomain::getPMArbiter(void) -{ - return pmArbiter; -} +#if HIBERNATION +static IOPMSystemSleepPolicyHandler gSleepPolicyHandler = NULL; +static IOPMSystemSleepPolicyVariables * gSleepPolicyVars = NULL; +static void * gSleepPolicyTarget; +#endif +struct timeval gIOLastSleepTime; +struct timeval gIOLastWakeTime; -// ********************************************************************************** -// start -// -// We don't do much here. The real initialization occurs when the platform -// expert informs us we are the root. -// ********************************************************************************** - -#define kRootDomainSettingsCount 12 - -bool IOPMrootDomain::start ( IOService * nub ) -{ - OSIterator *psIterator; - OSDictionary *tmpDict; - const OSSymbol *settingsArr[kRootDomainSettingsCount] = - { - OSSymbol::withCString(kIOPMSettingSleepOnPowerButtonKey), - OSSymbol::withCString(kIOPMSettingAutoWakeSecondsKey), - OSSymbol::withCString(kIOPMSettingAutoPowerSecondsKey), - OSSymbol::withCString(kIOPMSettingAutoWakeCalendarKey), - OSSymbol::withCString(kIOPMSettingAutoPowerCalendarKey), - OSSymbol::withCString(kIOPMSettingDebugWakeRelativeKey), - OSSymbol::withCString(kIOPMSettingDebugPowerRelativeKey), - OSSymbol::withCString(kIOPMSettingWakeOnRingKey), - OSSymbol::withCString(kIOPMSettingRestartOnPowerLossKey), - OSSymbol::withCString(kIOPMSettingWakeOnClamshellKey), - OSSymbol::withCString(kIOPMSettingWakeOnACChangeKey), - OSSymbol::withCString(kIOPMSettingTimeZoneOffsetKey) - }; - - - pmPowerStateQueue = 0; - - _reserved = (ExpansionData *)IOMalloc(sizeof(ExpansionData)); - if(!_reserved) return false; - - super::start(nub); - - gRootDomain = this; - - PMinit(); - - sleepSupportedPEFunction = OSSymbol::withCString("IOPMSetSleepSupported"); - canSleep = true; - setProperty(kIOSleepSupportedKey,true); - - allowSleep = true; - sleepIsSupported = true; - systemBooting = true; - sleepSlider = 0; - idleSleepPending = false; - wrangler = NULL; - sleepASAP = false; - clamshellIsClosed = false; - clamshellExists = false; - ignoringClamshell = true; - ignoringClamshellDuringWakeup = false; - acAdaptorConnect = true; - - tmpDict = OSDictionary::withCapacity(1); - setProperty(kRootDomainSupportedFeatures, tmpDict); - tmpDict->release(); - - settingsCallbacks = OSDictionary::withCapacity(1); - - // Create a list of the valid PM settings that we'll relay to - // interested clients in setProperties() => setPMSetting() - allowedPMSettings = OSArray::withObjects( - (const OSObject **)settingsArr, - kRootDomainSettingsCount, - 0); - - fPMSettingsDict = OSDictionary::withCapacity(5); - - pm_vars->PMworkloop = IOWorkLoop::workLoop(); - pmPowerStateQueue = IOPMPowerStateQueue::PMPowerStateQueue(this); - pm_vars->PMworkloop->addEventSource(pmPowerStateQueue); - - /* Initialize PM arbiter */ - pmArbiter = IOPMWorkArbiter::pmWorkArbiter(this); - arbiterWorkLoop = IOWorkLoop::workLoop(); - arbiterWorkLoop->addEventSource(pmArbiter); - - featuresDictLock = IOLockAlloc(); - settingsCtrlLock = IORecursiveLockAlloc(); - - extraSleepTimer = thread_call_allocate( - (thread_call_func_t)sleepTimerExpired, - (thread_call_param_t) this); - clamshellWakeupIgnore = thread_call_allocate( - (thread_call_func_t)wakeupClamshellTimerExpired, - (thread_call_param_t) this); - diskSyncCalloutEntry = thread_call_allocate( - &disk_sync_callout, - (thread_call_param_t) this); - - // create our parent - patriarch = new IORootParent; - patriarch->init(); - patriarch->attach(this); - patriarch->start(this); - patriarch->youAreRoot(); - patriarch->wakeSystem(); - patriarch->addPowerChild(this); - - registerPowerDriver(this,ourPowerStates,number_of_power_states); - - setPMRootDomain(this); - // set a clamp until we sleep - changePowerStateToPriv(ON_STATE); - - // install power change handler - registerPrioritySleepWakeInterest( &sysPowerDownHandler, this, 0); - - // Register for a notification when IODisplayWrangler is published - _displayWranglerNotifier = addNotification( - gIOPublishNotification, serviceMatching("IODisplayWrangler"), - &displayWranglerPublished, this, 0); - - // Battery location published - ApplePMU support only - _batteryPublishNotifier = addNotification( - gIOPublishNotification, serviceMatching("IOPMPowerSource"), - &batteryPublished, this, this); - - - const OSSymbol *ucClassName = OSSymbol::withCStringNoCopy("RootDomainUserClient"); - setProperty(gIOUserClientClassKey, (OSObject *) ucClassName); - ucClassName->release(); - - // IOBacklightDisplay can take a long time to load at boot, or it may - // not load at all if you're booting with clamshell closed. We publish - // 'DisplayDims' here redundantly to get it published early and at all. - psIterator = getMatchingServices( serviceMatching("IOPMPowerSource") ); - if( psIterator && psIterator->getNextObject() ) - { - // There's at least one battery on the system, so we publish - // 'DisplayDims' support for the LCD. - publishFeature("DisplayDims"); - } - if(psIterator) { - psIterator->release(); - } - - IOHibernateSystemInit(this); - - registerService(); // let clients find us - - return true; -} - -// ********************************************************************************** -// setProperties -// -// Receive a setProperty call -// The "System Boot" property means the system is completely booted. -// ********************************************************************************** -IOReturn IOPMrootDomain::setProperties ( OSObject *props_obj) -{ - IOReturn return_value = kIOReturnSuccess; - OSDictionary *dict = OSDynamicCast(OSDictionary, props_obj); - OSBoolean *b; - OSNumber *n; - OSString *str; - OSSymbol *type; - OSObject *obj; - unsigned int i; - - const OSSymbol *boot_complete_string = - OSSymbol::withCString("System Boot Complete"); - const OSSymbol *stall_halt_string = - OSSymbol::withCString("StallSystemAtHalt"); - const OSSymbol *hibernatemode_string = - OSSymbol::withCString(kIOHibernateModeKey); - const OSSymbol *hibernatefile_string = - OSSymbol::withCString(kIOHibernateFileKey); - const OSSymbol *hibernatefreeratio_string = - OSSymbol::withCString(kIOHibernateFreeRatioKey); - const OSSymbol *hibernatefreetime_string = - OSSymbol::withCString(kIOHibernateFreeTimeKey); - - if(!dict) - { - return_value = kIOReturnBadArgument; - goto exit; - } - - if( systemBooting - && boot_complete_string - && dict->getObject(boot_complete_string)) - { - systemBooting = false; - adjustPowerState(); - - // If lid is closed, re-send lid closed notification - // now that booting is complete. - if( clamshellIsClosed ) - { - this->receivePowerNotification(kLocalEvalClamshellCommand); - } - } - - if( stall_halt_string - && (b = OSDynamicCast(OSBoolean, dict->getObject(stall_halt_string))) ) - { - setProperty(stall_halt_string, b); - } - - if ( hibernatemode_string - && (n = OSDynamicCast(OSNumber, dict->getObject(hibernatemode_string)))) - { - setProperty(hibernatemode_string, n); - } - if ( hibernatefreeratio_string - && (n = OSDynamicCast(OSNumber, dict->getObject(hibernatefreeratio_string)))) - { - setProperty(hibernatefreeratio_string, n); - } - if ( hibernatefreetime_string - && (n = OSDynamicCast(OSNumber, dict->getObject(hibernatefreetime_string)))) - { - setProperty(hibernatefreetime_string, n); - } - if ( hibernatefile_string - && (str = OSDynamicCast(OSString, dict->getObject(hibernatefile_string)))) - { - setProperty(hibernatefile_string, str); - } - - // Relay our allowed PM settings onto our registered PM clients - for(i = 0; i < allowedPMSettings->getCount(); i++) { - - type = (OSSymbol *)allowedPMSettings->getObject(i); - if(!type) continue; - - obj = dict->getObject(type); - if(!obj) continue; - - return_value = setPMSetting(type, obj); - - if(kIOReturnSuccess != return_value) goto exit; - } - - exit: - if(boot_complete_string) boot_complete_string->release(); - if(stall_halt_string) stall_halt_string->release(); - return return_value; -} +struct timeval gIOLastUserSleepTime; +static char gWakeReasonString[128]; +static bool gWakeReasonSysctlRegistered = false; +static AbsoluteTime gIOLastWakeAbsTime; +static AbsoluteTime gIOLastSleepAbsTime; +static AbsoluteTime gUserActiveAbsTime; +static AbsoluteTime gUserInactiveAbsTime; -//********************************************************************************* -// youAreRoot -// -// Power Managment is informing us that we are the root power domain. -// We know we are not the root however, since we have just instantiated a parent -// for ourselves and made it the root. We override this method so it will have -// no effect -//********************************************************************************* -IOReturn IOPMrootDomain::youAreRoot ( void ) -{ - return IOPMNoErr; -} +#if defined(__i386__) || defined(__x86_64__) +static bool gSpinDumpBufferFull = false; +#endif -// ********************************************************************************** -// command_received -// -// No longer used -// ********************************************************************************** -void IOPMrootDomain::command_received ( void * w, void * x, void * y, void * z ) -{ - super::command_received(w,x,y,z); -} +z_stream swd_zs; +vm_offset_t swd_zs_zmem; +//size_t swd_zs_zsize; +size_t swd_zs_zoffset; +#if defined(__i386__) || defined(__x86_64__) +IOCPU *currentShutdownTarget = NULL; +#endif + +static unsigned int gPMHaltBusyCount; +static unsigned int gPMHaltIdleCount; +static int gPMHaltDepth; +static uint32_t gPMHaltMessageType; +static IOLock * gPMHaltLock = NULL; +static OSArray * gPMHaltArray = NULL; +static const OSSymbol * gPMHaltClientAcknowledgeKey = NULL; +static bool gPMQuiesced; + +// Constants used as arguments to IOPMrootDomain::informCPUStateChange +#define kCPUUnknownIndex 9999999 +enum { + kInformAC = 0, + kInformLid = 1, + kInformableCount = 2 +}; +const OSSymbol *gIOPMStatsResponseTimedOut; +const OSSymbol *gIOPMStatsResponseCancel; +const OSSymbol *gIOPMStatsResponseSlow; +const OSSymbol *gIOPMStatsResponsePrompt; +const OSSymbol *gIOPMStatsDriverPSChangeSlow; -// ********************************************************************************** -// broadcast_aggressiveness -// -// ********************************************************************************** -IOReturn broadcast_aggressiveness ( OSObject * root, void * x, void * y, void *, void * ) +#define kBadPMFeatureID 0 + +/* + * PMSettingHandle + * Opaque handle passed to clients of registerPMSettingController() + */ +class PMSettingHandle : public OSObject { - ((IOPMrootDomain *)root)->broadcast_it((unsigned long)x,(unsigned long)y); - return IOPMNoErr; -} + OSDeclareFinalStructors( PMSettingHandle ); + friend class PMSettingObject; +private: + PMSettingObject *pmso; + void free(void) APPLE_KEXT_OVERRIDE; +}; -// ********************************************************************************** -// broadcast_it -// -// We are behind the command gate to broadcast an aggressiveness factor. We let the -// superclass do it, but we need to snoop on factors that affect idle sleep. -// ********************************************************************************** -void IOPMrootDomain::broadcast_it (unsigned long type, unsigned long value) +/* + * PMSettingObject + * Internal object to track each PM setting controller + */ +class PMSettingObject : public OSObject { - super::setAggressiveness(type,value); + OSDeclareFinalStructors( PMSettingObject ); + friend class IOPMrootDomain; + +private: + queue_head_t calloutQueue; + thread_t waitThread; + IOPMrootDomain *parent; + PMSettingHandle *pmsh; + IOPMSettingControllerCallback func; + OSObject *target; + uintptr_t refcon; + uint32_t *publishedFeatureID; + uint32_t settingCount; + bool disabled; + + void free(void) APPLE_KEXT_OVERRIDE; - // Save user's spin down timer to restore after we replace it for idle sleep - if( type == kPMMinutesToSpinDown ) user_spindown = value; +public: + static PMSettingObject *pmSettingObject( + IOPMrootDomain *parent_arg, + IOPMSettingControllerCallback handler_arg, + OSObject *target_arg, + uintptr_t refcon_arg, + uint32_t supportedPowerSources, + const OSSymbol *settings[], + OSObject **handle_obj); + + void dispatchPMSetting(const OSSymbol *type, OSObject *object); + void clientHandleFreed(void); +}; - // Use longestNonSleepSlider to calculate dimming adjust idle sleep timer - longestNonSleepSlider = pm_vars->current_aggressiveness_values[kPMMinutesToDim]; +struct PMSettingCallEntry { + queue_chain_t link; + thread_t thread; +}; +#define PMSETTING_LOCK() IOLockLock(settingsCtrlLock) +#define PMSETTING_UNLOCK() IOLockUnlock(settingsCtrlLock) +#define PMSETTING_WAIT(p) IOLockSleep(settingsCtrlLock, p, THREAD_UNINT) +#define PMSETTING_WAKEUP(p) IOLockWakeup(settingsCtrlLock, p, true) - if ( type == kPMMinutesToSleep ) { - if ( (sleepSlider == 0) && (value != 0) ) { - sleepSlider = value; - // idle sleep is now enabled, maybe sleep now - adjustPowerState(); - } - sleepSlider = value; - if ( sleepSlider == 0 ) { - // idle sleep is now disabled - adjustPowerState(); - // make sure we're powered - patriarch->wakeSystem(); - } - } - if ( sleepSlider > longestNonSleepSlider ) { - extraSleepDelay = sleepSlider - longestNonSleepSlider ; - } - else { - extraSleepDelay = 0; - } -} +/* + * PMTraceWorker + * Internal helper object for logging trace points to RTC + * IOPMrootDomain and only IOPMrootDomain should instantiate + * exactly one of these. + */ +typedef void (*IOPMTracePointHandler)( + void * target, uint32_t code, uint32_t data ); -// ********************************************************************************** -// sleepTimerExpired -// -// ********************************************************************************** -static void sleepTimerExpired ( thread_call_param_t us) -{ - ((IOPMrootDomain *)us)->handleSleepTimerExpiration(); - } - - -static void wakeupClamshellTimerExpired ( thread_call_param_t us) +class PMTraceWorker : public OSObject { - ((IOPMrootDomain *)us)->stopIgnoringClamshellEventsDuringWakeup(); -} + OSDeclareDefaultStructors(PMTraceWorker); +public: + typedef enum { kPowerChangeStart, kPowerChangeCompleted } change_t; + + static PMTraceWorker *tracer( IOPMrootDomain * ); + void tracePCIPowerChange(change_t, IOService *, uint32_t, uint32_t); + void tracePoint(uint8_t phase); + void traceDetail(uint32_t detail); + void traceComponentWakeProgress(uint32_t component, uint32_t data); + int recordTopLevelPCIDevice(IOService *); + void RTC_TRACE(void); + virtual bool serialize(OSSerialize *s) const APPLE_KEXT_OVERRIDE; + + IOPMTracePointHandler tracePointHandler; + void * tracePointTarget; + uint64_t getPMStatusCode(); + uint8_t getTracePhase(); + uint32_t getTraceData(); +private: + IOPMrootDomain *owner; + IOLock *pmTraceWorkerLock; + OSArray *pciDeviceBitMappings; + + uint8_t addedToRegistry; + uint8_t tracePhase; + uint32_t traceData32; + uint8_t loginWindowData; + uint8_t coreDisplayData; + uint8_t coreGraphicsData; +}; - -// ********************************************************************************** -// handleSleepTimerExpiration -// -// The time between the sleep idle timeout and the next longest one has elapsed. -// It's time to sleep. Start that by removing the clamp that's holding us awake. -// ********************************************************************************** -void IOPMrootDomain::handleSleepTimerExpiration ( void ) +/* + * PMAssertionsTracker + * Tracks kernel and user space PM assertions + */ +class PMAssertionsTracker : public OSObject { - // accelerate disk spin down if spin down timer is non-zero (zero = never spin down) - if(0 != user_spindown) - setQuickSpinDownTimeout(); + OSDeclareFinalStructors(PMAssertionsTracker); +public: + static PMAssertionsTracker *pmAssertionsTracker( IOPMrootDomain * ); - sleepASAP = true; - adjustPowerState(); -} + IOReturn createAssertion(IOPMDriverAssertionType, IOPMDriverAssertionLevel, IOService *, const char *, IOPMDriverAssertionID *); + IOReturn releaseAssertion(IOPMDriverAssertionID); + IOReturn setAssertionLevel(IOPMDriverAssertionID, IOPMDriverAssertionLevel); + IOReturn setUserAssertionLevels(IOPMDriverAssertionType); + + OSArray *copyAssertionsArray(void); + IOPMDriverAssertionType getActivatedAssertions(void); + IOPMDriverAssertionLevel getAssertionLevel(IOPMDriverAssertionType); + IOReturn handleCreateAssertion(OSData *); + IOReturn handleReleaseAssertion(IOPMDriverAssertionID); + IOReturn handleSetAssertionLevel(IOPMDriverAssertionID, IOPMDriverAssertionLevel); + IOReturn handleSetUserAssertionLevels(void * arg0); + void publishProperties(void); -void IOPMrootDomain::stopIgnoringClamshellEventsDuringWakeup(void) +private: + typedef struct { + IOPMDriverAssertionID id; + IOPMDriverAssertionType assertionBits; + uint64_t createdTime; + uint64_t modifiedTime; + const OSSymbol *ownerString; + IOService *ownerService; + uint64_t registryEntryID; + IOPMDriverAssertionLevel level; + } PMAssertStruct; + + uint32_t tabulateProducerCount; + uint32_t tabulateConsumerCount; + + PMAssertStruct *detailsForID(IOPMDriverAssertionID, int *); + void tabulate(void); + + IOPMrootDomain *owner; + OSArray *assertionsArray; + IOLock *assertionsArrayLock; + IOPMDriverAssertionID issuingUniqueID __attribute__((aligned(8)));/* aligned for atomic access */ + IOPMDriverAssertionType assertionsKernel; + IOPMDriverAssertionType assertionsUser; + IOPMDriverAssertionType assertionsCombined; +}; + +OSDefineMetaClassAndFinalStructors(PMAssertionsTracker, OSObject); + +/* + * PMHaltWorker + * Internal helper object for Shutdown/Restart notifications. + */ +#define kPMHaltMaxWorkers 8 +#define kPMHaltTimeoutMS 100 + +class PMHaltWorker : public OSObject { - // Allow clamshell-induced sleep now - ignoringClamshellDuringWakeup = false; + OSDeclareFinalStructors( PMHaltWorker ); - // Re-send clamshell event, in case it causes a sleep - if(clamshellIsClosed) - this->receivePowerNotification( kLocalEvalClamshellCommand ); -} +public: + IOService * service;// service being worked on + AbsoluteTime startTime; // time when work started + int depth; // work on nubs at this PM-tree depth + int visits; // number of nodes visited (debug) + IOLock * lock; + bool timeout;// service took too long + + static PMHaltWorker * worker( void ); + static void main( void * arg, wait_result_t waitResult ); + static void work( PMHaltWorker * me ); + static void checkTimeout( PMHaltWorker * me, AbsoluteTime * now ); + virtual void free( void ) APPLE_KEXT_OVERRIDE; +}; -//********************************************************************************* -// setAggressiveness -// -// Some aggressiveness factor has changed. We broadcast it to the hierarchy while on -// the Power Mangement workloop thread. This enables objects in the -// hierarchy to successfully alter their idle timers, which are all on the -// same thread. -//********************************************************************************* +OSDefineMetaClassAndFinalStructors( PMHaltWorker, OSObject ) + + +#define super IOService +OSDefineMetaClassAndFinalStructors(IOPMrootDomain, IOService) -static int pmsallsetup = 0; +boolean_t +IOPMRootDomainGetWillShutdown(void) +{ + return gWillShutdown != 0; +} -IOReturn IOPMrootDomain::setAggressiveness ( unsigned long type, unsigned long newLevel ) +static void +IOPMRootDomainWillShutdown(void) { -#ifdef __ppc__ - if(pmsExperimental & 3) kprintf("setAggressiveness: type = %08X, newlevel = %08X\n", type, newLevel); - if(pmsExperimental & 1) { /* Is experimental mode enabled? */ - if(pmsInstalled && (type == kPMSetProcessorSpeed)) { /* We want to look at all processor speed changes if stepper is installed */ - if(pmsallsetup) return kIOReturnSuccess; /* If already running, just eat this */ - kprintf("setAggressiveness: starting stepper...\n"); - pmsallsetup = 1; /* Remember we did this */ - pmsPark(); - pmsStart(); /* Get it all started up... */ - return kIOReturnSuccess; /* Leave now... */ + if (OSCompareAndSwap(0, 1, &gWillShutdown)) { + IOService::willShutdown(); + for (int i = 0; i < 100; i++) { + if (OSCompareAndSwap(0, 1, &gSleepOrShutdownPending)) { + break; + } + IOSleep( 100 ); } } -#endif - - if ( pm_vars->PMcommandGate ) { - pm_vars->PMcommandGate->runAction(broadcast_aggressiveness,(void *)type,(void *)newLevel); - } - - return kIOReturnSuccess; } +extern "C" IONotifier * +registerSleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref) +{ + return gRootDomain->registerInterest( gIOGeneralInterest, handler, self, ref ); +} -// ********************************************************************************** -// sleepSystem -// -// ********************************************************************************** -IOReturn IOPMrootDomain::sleepSystem ( void ) +extern "C" IONotifier * +registerPrioritySleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref) { - if ( !systemBooting && allowSleep && sleepIsSupported ) { - patriarch->sleepSystem(); + return gRootDomain->registerInterest( gIOPriorityPowerStateInterest, handler, self, ref ); +} - return kIOReturnSuccess; - } - if ( !systemBooting && allowSleep && !sleepIsSupported ) { - patriarch->dozeSystem(); - return kIOReturnSuccess; - } - return kIOReturnSuccess; +extern "C" IOReturn +acknowledgeSleepWakeNotification(void * PMrefcon) +{ + return gRootDomain->allowPowerChange((unsigned long)PMrefcon ); } +extern "C" IOReturn +vetoSleepWakeNotification(void * PMrefcon) +{ + return gRootDomain->cancelPowerChange((unsigned long)PMrefcon ); +} -// ********************************************************************************** -// shutdownSystem -// -// ********************************************************************************** -IOReturn IOPMrootDomain::shutdownSystem ( void ) +extern "C" IOReturn +rootDomainRestart( void ) { - //patriarch->shutDownSystem(); - return kIOReturnUnsupported; + return gRootDomain->restartSystem(); } +extern "C" IOReturn +rootDomainShutdown( void ) +{ + return gRootDomain->shutdownSystem(); +} -// ********************************************************************************** -// restartSystem -// -// ********************************************************************************** -IOReturn IOPMrootDomain::restartSystem ( void ) +static void +halt_log_putc(char c) { - //patriarch->restartSystem(); - return kIOReturnUnsupported; + if (gHaltLogPos >= (kHaltLogSize - 2)) { + return; + } + gHaltLog[gHaltLogPos++] = c; } +extern "C" void +_doprnt_log(const char *fmt, + va_list *argp, + void (*putc)(char), + int radix); -// ********************************************************************************** -// powerChangeDone -// -// This overrides powerChangeDone in IOService. -// -// Finder sleep and idle sleep move us from the ON state to the SLEEP_STATE. -// In this case: -// If we just finished going to the SLEEP_STATE, and the platform is capable of true sleep, -// sleep the kernel. Otherwise switch up to the DOZE_STATE which will keep almost -// everything as off as it can get. -// -// ********************************************************************************** -void IOPMrootDomain::powerChangeDone ( unsigned long previousState ) -{ - OSNumber * propertyPtr; - unsigned short theProperty; - AbsoluteTime deadline; - - switch ( pm_vars->myCurrentState ) { - case SLEEP_STATE: - if ( canSleep && sleepIsSupported ) - { - // re-enable this timer for next sleep - idleSleepPending = false; - - IOLog("System %sSleep\n", gIOHibernateState ? "Safe" : ""); - - IOHibernateSystemHasSlept(); - - pm_vars->thePlatform->sleepKernel(); - - // The CPU(s) are off at this point. When they're awakened by CPU interrupt, - // code will resume execution here. - - // Now we're waking... - IOHibernateSystemWake(); - - // stay awake for at least 30 seconds - clock_interval_to_deadline(30, kSecondScale, &deadline); - thread_call_enter_delayed(extraSleepTimer, deadline); - // this gets turned off when we sleep again - idleSleepPending = true; - - // Ignore closed clamshell during wakeup and for a few seconds - // after wakeup is complete - ignoringClamshellDuringWakeup = true; - - // sleep transition complete - gSleepOrShutdownPending = 0; - - // trip the reset of the calendar clock - clock_wakeup_calendar(); - - // get us some power - patriarch->wakeSystem(); - - // early stage wake notification - tellClients(kIOMessageSystemWillPowerOn); - - // tell the tree we're waking - IOLog("System %sWake\n", gIOHibernateState ? "SafeSleep " : ""); - systemWake(); - - // Allow drivers to request extra processing time before clamshell - // sleep if kIOREMSleepEnabledKey is present. - // Ignore clamshell events for at least 5 seconds - if(getProperty(kIOREMSleepEnabledKey)) { - // clamshellWakeupIgnore callout clears ignoreClamshellDuringWakeup bit - clock_interval_to_deadline(5, kSecondScale, &deadline); - if(clamshellWakeupIgnore) { - thread_call_enter_delayed(clamshellWakeupIgnore, deadline); - } - } else ignoringClamshellDuringWakeup = false; - - // Find out what woke us - propertyPtr = OSDynamicCast(OSNumber,getProperty("WakeEvent")); - if ( propertyPtr ) { - theProperty = propertyPtr->unsigned16BitValue(); - IOLog("Wake event %04x\n",theProperty); - if ( (theProperty & 0x0008) || //lid - (theProperty & 0x0800) || // front panel button - (theProperty & 0x0020) || // external keyboard - (theProperty & 0x0001) ) { // internal keyboard - // We've identified the wakeup event as UI driven - reportUserInput(); - } - } else { - // Since we can't identify the wakeup event, treat it as UI activity - reportUserInput(); - } - - // Wake for thirty seconds - changePowerStateToPriv(ON_STATE); - powerOverrideOffPriv(); - } else { - // allow us to step up a power state - patriarch->sleepToDoze(); - // and do it - changePowerStateToPriv(DOZE_STATE); - } - break; - - case DOZE_STATE: - if ( previousState != DOZE_STATE ) - { - IOLog("System Doze\n"); - } - // re-enable this timer for next sleep - idleSleepPending = false; - gSleepOrShutdownPending = 0; - break; - - case RESTART_STATE: - IOLog("System Restart\n"); - PEHaltRestart(kPERestartCPU); - break; - - case OFF_STATE: - IOLog("System Halt\n"); - PEHaltRestart(kPEHaltCPU); - break; - } -} - - -// ********************************************************************************** -// wakeFromDoze -// -// The Display Wrangler calls here when it switches to its highest state. If the -// system is currently dozing, allow it to wake by making sure the parent is -// providing power. -// ********************************************************************************** -void IOPMrootDomain::wakeFromDoze( void ) +static int +halt_log(const char *fmt, ...) { - if ( pm_vars->myCurrentState == DOZE_STATE ) - { - // Reset sleep support till next sleep attempt. - // A machine's support of sleep vs. doze can change over the course of - // a running system, so we recalculate it before every sleep. - setSleepSupported(0); + va_list listp; - powerOverrideOffPriv(); + va_start(listp, fmt); + _doprnt_log(fmt, &listp, &halt_log_putc, 16); + va_end(listp); - // early wake notification - tellClients(kIOMessageSystemWillPowerOn); - - // allow us to wake if children so desire - patriarch->wakeSystem(); - } + return 0; } - -// ***************************************************************************** -// publishFeature -// -// Adds a new feature to the supported features dictionary -// -// -// ***************************************************************************** -void IOPMrootDomain::publishFeature( const char * feature ) +extern "C" void +halt_log_enter(const char * what, const void * pc, uint64_t time) { - publishFeature(feature, kIOPMSupportedOnAC - | kIOPMSupportedOnBatt - | kIOPMSupportedOnUPS, - NULL); - return; -} + uint64_t nano, millis; + if (!gHaltLog) { + return; + } + absolutetime_to_nanoseconds(time, &nano); + millis = nano / NSEC_PER_MSEC; + if (millis < 100) { + return; + } -// ***************************************************************************** -// publishFeature (with supported power source specified) -// -// Adds a new feature to the supported features dictionary -// -// -// ***************************************************************************** -void IOPMrootDomain::publishFeature( - const char *feature, - uint32_t supportedWhere, - uint32_t *uniqueFeatureID) -{ - static uint16_t next_feature_id = 500; - - OSNumber *new_feature_data = NULL; - OSNumber *existing_feature = NULL; - OSArray *existing_feature_arr = NULL; - OSObject *osObj = NULL; - uint32_t feature_value = 0; - - supportedWhere &= kRD_AllPowerSources; // mask off any craziness! - - if(!supportedWhere) { - // Feature isn't supported anywhere! - return; - } - - if(next_feature_id > 5000) { - // Far, far too many features! - return; - } - - if(featuresDictLock) IOLockLock(featuresDictLock); - - OSDictionary *features = - (OSDictionary *) getProperty(kRootDomainSupportedFeatures); - - // Create new features dict if necessary - if ( features && OSDynamicCast(OSDictionary, features)) { - features = OSDictionary::withDictionary(features); - } else { - features = OSDictionary::withCapacity(1); - } - - // Create OSNumber to track new feature - - next_feature_id += 1; - if( uniqueFeatureID ) { - // We don't really mind if the calling kext didn't give us a place - // to stash their unique id. Many kexts don't plan to unload, and thus - // have no need to remove themselves later. - *uniqueFeatureID = next_feature_id; - } - - feature_value = supportedWhere + (next_feature_id << 16); - new_feature_data = OSNumber::withNumber( - (unsigned long long)feature_value, 32); - - // Does features object already exist? - if( (osObj = features->getObject(feature)) ) - { - if(( existing_feature = OSDynamicCast(OSNumber, osObj) )) - { - // We need to create an OSArray to hold the now 2 elements. - existing_feature_arr = OSArray::withObjects( - (const OSObject **)&existing_feature, 1, 2); - existing_feature_arr->setObject(new_feature_data); - features->setObject(feature, existing_feature_arr); - } else if(( existing_feature_arr = OSDynamicCast(OSArray, osObj) )) - { - // Add object to existing array - existing_feature_arr->setObject(new_feature_data); - } - } else { - // The easy case: no previously existing features listed. We simply - // set the OSNumber at key 'feature' and we're on our way. - features->setObject(feature, new_feature_data); - } - - new_feature_data->release(); - - setProperty(kRootDomainSupportedFeatures, features); - - features->release(); - - // Notify EnergySaver and all those in user space so they might - // re-populate their feature specific UI - messageClients(kIOPMMessageFeatureChange, this); - - if(featuresDictLock) IOLockUnlock(featuresDictLock); -} - -// ***************************************************************************** -// removePublishedFeature -// -// Removes previously published feature -// -// -// ***************************************************************************** -IOReturn IOPMrootDomain::removePublishedFeature( uint32_t removeFeatureID ) -{ - IOReturn ret = kIOReturnError; - uint32_t feature_value = 0; - uint16_t feature_id = 0; - bool madeAChange = false; - - OSSymbol *dictKey = NULL; - OSCollectionIterator *dictIterator = NULL; - OSArray *arrayMember = NULL; - OSNumber *numberMember = NULL; - OSObject *osObj = NULL; - OSNumber *osNum = NULL; - - if(featuresDictLock) IOLockLock(featuresDictLock); - - OSDictionary *features = - (OSDictionary *) getProperty(kRootDomainSupportedFeatures); - - if ( features && OSDynamicCast(OSDictionary, features) ) - { - // Any modifications to the dictionary are made to the copy to prevent - // races & crashes with userland clients. Dictionary updated - // automically later. - features = OSDictionary::withDictionary(features); - } else { - features = NULL; - ret = kIOReturnNotFound; - goto exit; - } - - // We iterate 'features' dictionary looking for an entry tagged - // with 'removeFeatureID'. If found, we remove it from our tracking - // structures and notify the OS via a general interest message. - - dictIterator = OSCollectionIterator::withCollection(features); - if(!dictIterator) { - goto exit; - } - - while( (dictKey = OSDynamicCast(OSSymbol, dictIterator->getNextObject())) ) - { - osObj = features->getObject(dictKey); - - // Each Feature is either tracked by an OSNumber - if( osObj && (numberMember = OSDynamicCast(OSNumber, osObj)) ) - { - feature_value = numberMember->unsigned32BitValue(); - feature_id = (uint16_t)(feature_value >> 16); - - if( feature_id == (uint16_t)removeFeatureID ) - { - // Remove this node - features->removeObject(dictKey); - madeAChange = true; - break; - } - - // Or tracked by an OSArray of OSNumbers - } else if( osObj && (arrayMember = OSDynamicCast(OSArray, osObj)) ) - { - unsigned int arrayCount = arrayMember->getCount(); - - for(unsigned int i=0; igetObject(i)); - if(!osNum) { - continue; - } - - feature_value = osNum->unsigned32BitValue(); - feature_id = (uint16_t)(feature_value >> 16); - - if( feature_id == (uint16_t)removeFeatureID ) - { - // Remove this node - if( 1 == arrayCount ) { - // If the array only contains one element, remove - // the whole thing. - features->removeObject(dictKey); - } else { - // Otherwise just remove the element in question. - arrayMember->removeObject(i); - } - - madeAChange = true; - break; - } - } - } - } - - - dictIterator->release(); - - if( madeAChange ) - { - ret = kIOReturnSuccess; - - setProperty(kRootDomainSupportedFeatures, features); - - // Notify EnergySaver and all those in user space so they might - // re-populate their feature specific UI - messageClients(kIOPMMessageFeatureChange, this); - } else { - ret = kIOReturnNotFound; - } - -exit: - if(features) features->release(); - if(featuresDictLock) IOLockUnlock(featuresDictLock); - return ret; + IOLockLock(gHaltLogLock); + if (pc) { + halt_log("%s: %qd ms @ 0x%lx, ", what, millis, VM_KERNEL_UNSLIDE(pc)); + OSKext::printKextsInBacktrace((vm_offset_t *) &pc, 1, &halt_log, + OSKext::kPrintKextsLock | OSKext::kPrintKextsUnslide | OSKext::kPrintKextsTerse); + } else { + halt_log("%s: %qd ms\n", what, millis); + } + + gHaltLog[gHaltLogPos] = 0; + IOLockUnlock(gHaltLogLock); } +extern uint32_t gFSState; -// ********************************************************************************** -// unIdleDevice -// -// Enqueues unidle event to be performed later in a serialized context. -// -// ********************************************************************************** -void IOPMrootDomain::unIdleDevice( IOService *theDevice, unsigned long theState ) +extern "C" void +IOSystemShutdownNotification(int stage) { - if(pmPowerStateQueue) - pmPowerStateQueue->unIdleOccurred(theDevice, theState); + uint64_t startTime; + + if (kIOSystemShutdownNotificationStageRootUnmount == stage) { +#if !CONFIG_EMBEDDED + uint64_t nano, millis; + startTime = mach_absolute_time(); + IOService::getPlatform()->waitQuiet(30 * NSEC_PER_SEC); + absolutetime_to_nanoseconds(mach_absolute_time() - startTime, &nano); + millis = nano / NSEC_PER_MSEC; + if (gHaltTimeMaxLog && (millis >= gHaltTimeMaxLog)) { + printf("waitQuiet() for unmount %qd ms\n", millis); + } +#endif + return; + } + + assert(kIOSystemShutdownNotificationStageProcessExit == stage); + + IOLockLock(gHaltLogLock); + if (!gHaltLog) { + gHaltLog = IONew(char, kHaltLogSize); + gHaltStartTime = mach_absolute_time(); + if (gHaltLog) { + halt_log_putc('\n'); + } + } + IOLockUnlock(gHaltLogLock); + + startTime = mach_absolute_time(); + IOPMRootDomainWillShutdown(); + halt_log_enter("IOPMRootDomainWillShutdown", NULL, mach_absolute_time() - startTime); +#if HIBERNATION + startTime = mach_absolute_time(); + IOHibernateSystemPostWake(true); + halt_log_enter("IOHibernateSystemPostWake", NULL, mach_absolute_time() - startTime); +#endif + if (OSCompareAndSwap(0, 1, &gPagingOff)) { + gRootDomain->handlePlatformHaltRestart(kPEPagingOff); + } } -// ********************************************************************************** -// announcePowerSourceChange -// -// Notifies "interested parties" that the batteries have changed state -// -// ********************************************************************************** -void IOPMrootDomain::announcePowerSourceChange( void ) -{ - IORegistryEntry *_batteryRegEntry = (IORegistryEntry *) getProperty("BatteryEntry"); - // (if possible) re-publish power source state under IOPMrootDomain; - // only do so if the battery controller publishes an IOResource - // defining battery location. Called from ApplePMU battery driver. +extern "C" int sync_internal(void); - if(_batteryRegEntry) - { - OSArray *batt_info; - batt_info = (OSArray *) _batteryRegEntry->getProperty(kIOBatteryInfoKey); - if(batt_info) - setProperty(kIOBatteryInfoKey, batt_info); - } +/* + * A device is always in the highest power state which satisfies its driver, + * its policy-maker, and any power children it has, but within the constraint + * of the power state provided by its parent. The driver expresses its desire by + * calling changePowerStateTo(), the policy-maker expresses its desire by calling + * changePowerStateToPriv(), and the children express their desires by calling + * requestPowerDomainState(). + * + * The Root Power Domain owns the policy for idle and demand sleep for the system. + * It is a power-managed IOService just like the others in the system. + * It implements several power states which map to what we see as Sleep and On. + * + * The sleep policy is as follows: + * 1. Sleep is prevented if the case is open so that nobody will think the machine + * is off and plug/unplug cards. + * 2. Sleep is prevented if the sleep timeout slider in the prefs panel is zero. + * 3. System cannot Sleep if some object in the tree is in a power state marked + * kIOPMPreventSystemSleep. + * + * These three conditions are enforced using the "driver clamp" by calling + * changePowerStateTo(). For example, if the case is opened, + * changePowerStateTo(ON_STATE) is called to hold the system on regardless + * of the desires of the children of the root or the state of the other clamp. + * + * Demand Sleep is initiated by pressing the front panel power button, closing + * the clamshell, or selecting the menu item. In this case the root's parent + * actually initiates the power state change so that the root domain has no + * choice and does not give applications the opportunity to veto the change. + * + * Idle Sleep occurs if no objects in the tree are in a state marked + * kIOPMPreventIdleSleep. When this is true, the root's children are not holding + * the root on, so it sets the "policy-maker clamp" by calling + * changePowerStateToPriv(ON_STATE) to hold itself on until the sleep timer expires. + * This timer is set for the difference between the sleep timeout slider and the + * display dim timeout slider. When the timer expires, it releases its clamp and + * now nothing is holding it awake, so it falls asleep. + * + * Demand sleep is prevented when the system is booting. When preferences are + * transmitted by the loginwindow at the end of boot, a flag is cleared, + * and this allows subsequent Demand Sleep. + */ -} +//****************************************************************************** +IOPMrootDomain * +IOPMrootDomain::construct( void ) +{ + IOPMrootDomain *root; -// ***************************************************************************** -// setPMSetting (private) -// -// Internal helper to relay PM settings changes from user space to individual -// drivers. Should be called only by IOPMrootDomain::setProperties. -// -// ***************************************************************************** -IOReturn IOPMrootDomain::setPMSetting( - const OSSymbol *type, - OSObject *obj) -{ - OSArray *arr = NULL; - PMSettingObject *p_obj = NULL; - int count; - int i; - - if(NULL == type) return kIOReturnBadArgument; - - IORecursiveLockLock(settingsCtrlLock); - - fPMSettingsDict->setObject(type, obj); - - arr = (OSArray *)settingsCallbacks->getObject(type); - if(NULL == arr) goto exit; - count = arr->getCount(); - for(i=0; igetObject(i)); - if(p_obj) p_obj->setPMSetting(type, obj); - } + root = new IOPMrootDomain; + if (root) { + root->init(); + } -exit: - IORecursiveLockUnlock(settingsCtrlLock); - return kIOReturnSuccess; + return root; } -// ***************************************************************************** -// copyPMSetting (public) +//****************************************************************************** +// updateConsoleUsersCallout // -// Allows kexts to safely read setting values, without being subscribed to -// notifications. -// -// ***************************************************************************** -OSObject * IOPMrootDomain::copyPMSetting( - OSSymbol *whichSetting) -{ - OSObject *obj = NULL; - - if(!whichSetting) return NULL; +//****************************************************************************** - IORecursiveLockLock(settingsCtrlLock); - obj = fPMSettingsDict->getObject(whichSetting); - if(obj) { - obj->retain(); - } - IORecursiveLockUnlock(settingsCtrlLock); - - return obj; +static void +updateConsoleUsersCallout(thread_call_param_t p0, thread_call_param_t p1) +{ + IOPMrootDomain * rootDomain = (IOPMrootDomain *) p0; + rootDomain->updateConsoleUsers(); } -// ***************************************************************************** -// registerPMSettingController (public) -// -// direct wrapper to registerPMSettingController with uint32_t power source arg -// ***************************************************************************** -IOReturn IOPMrootDomain::registerPMSettingController( - const OSSymbol * settings[], - IOPMSettingControllerCallback func, - OSObject *target, - uintptr_t refcon, - OSObject **handle) +void +IOPMrootDomain::updateConsoleUsers(void) { - return registerPMSettingController( - settings, - (kIOPMSupportedOnAC | kIOPMSupportedOnBatt | kIOPMSupportedOnUPS), - func, target, refcon, handle); + IOService::updateConsoleUsers(NULL, kIOMessageSystemHasPoweredOn); + if (tasksSuspended) { + tasksSuspended = FALSE; + updateTasksSuspend(); + } } -// ***************************************************************************** -// registerPMSettingController (public) -// -// Kexts may register for notifications when a particular setting is changed. -// A list of settings is available in IOPM.h. -// Arguments: -// * settings - An OSArray containing OSSymbols. Caller should populate this -// array with a list of settings caller wants notifications from. -// * func - A C function callback of the type IOPMSettingControllerCallback -// * target - caller may provide an OSObject *, which PM will pass as an -// target to calls to "func" -// * refcon - caller may provide an void *, which PM will pass as an -// argument to calls to "func" -// * handle - This is a return argument. We will populate this pointer upon -// call success. Hold onto this and pass this argument to -// IOPMrootDomain::deRegisterPMSettingCallback when unloading your kext -// Returns: -// kIOReturnSuccess on success -// ***************************************************************************** -IOReturn IOPMrootDomain::registerPMSettingController( - const OSSymbol * settings[], - uint32_t supportedPowerSources, - IOPMSettingControllerCallback func, - OSObject *target, - uintptr_t refcon, - OSObject **handle) -{ - PMSettingObject *pmso = NULL; - OSArray *list = NULL; - IOReturn ret = kIOReturnSuccess; - int i; - - if( NULL == settings || - NULL == func || - NULL == handle) - { - return kIOReturnBadArgument; - } - - - pmso = PMSettingObject::pmSettingObject( - (IOPMrootDomain *)this, func, target, - refcon, supportedPowerSources, settings); - - if(!pmso) { - ret = kIOReturnInternalError; - goto bail_no_unlock; - } - - IORecursiveLockLock(settingsCtrlLock); - for(i=0; settings[i]; i++) - { - list = (OSArray *)settingsCallbacks->getObject(settings[i]); - if(!list) { - // New array of callbacks for this setting - list = OSArray::withCapacity(1); - settingsCallbacks->setObject(settings[i], list); - list->release(); - } - - // Add caller to the callback list - list->setObject(pmso); - } - - ret = kIOReturnSuccess; - - // Track this instance by its OSData ptr from now on - *handle = pmso; - - IORecursiveLockUnlock(settingsCtrlLock); - -bail_no_unlock: - if(kIOReturnSuccess != ret) - { - // Error return case - if(pmso) pmso->release(); - if(handle) *handle = NULL; - } - return ret; +void +IOPMrootDomain::updateTasksSuspend(void) +{ + bool newSuspend; + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + newSuspend = (tasksSuspended || _aotTasksSuspended); +#else /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + newSuspend = tasksSuspended; +#endif /* (defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + if (newSuspend == tasksSuspendState) { + return; + } + tasksSuspendState = newSuspend; + tasks_system_suspend(newSuspend); } -//****************************************************************************** -// sleepOnClamshellClosed -// -// contains the logic to determine if the system should sleep when the clamshell -// is closed. //****************************************************************************** -bool IOPMrootDomain::shouldSleepOnClamshellClosed ( void ) +static void +disk_sync_callout( thread_call_param_t p0, thread_call_param_t p1 ) { - return ( !ignoringClamshell - && !ignoringClamshellDuringWakeup - && !(desktopMode && acAdaptorConnect) ); -} + IOService * rootDomain = (IOService *) p0; + uint32_t notifyRef = (uint32_t)(uintptr_t) p1; + uint32_t powerState = rootDomain->getPowerState(); -void IOPMrootDomain::sendClientClamshellNotification ( void ) -{ - /* Only broadcast clamshell alert if clamshell exists. */ - if(!clamshellExists) - return; - - setProperty(kAppleClamshellStateKey, - clamshellIsClosed ? kOSBooleanTrue : kOSBooleanFalse); + DLOG("disk_sync_callout ps=%u\n", powerState); - setProperty(kAppleClamshellCausesSleepKey, - shouldSleepOnClamshellClosed() ? kOSBooleanTrue : kOSBooleanFalse); + if (ON_STATE == powerState) { + sync_internal(); +#if HIBERNATION + // Block sleep until trim issued on previous wake path is completed. + IOHibernateSystemPostWake(true); +#endif + } +#if HIBERNATION + else { + IOHibernateSystemPostWake(false); + + if (gRootDomain) { + gRootDomain->sleepWakeDebugSaveSpinDumpFile(); + } + } +#endif - /* Argument to message is a bitfield of - * ( kClamshellStateBit | kClamshellSleepBit ) - * Carry on the clamshell state change notification from an - * independent thread. - */ - pmArbiter->clamshellStateChangeOccurred( - (uint32_t) ( (clamshellIsClosed ? kClamshellStateBit : 0) - | ( shouldSleepOnClamshellClosed() ? kClamshellSleepBit : 0))); + rootDomain->allowPowerChange(notifyRef); + DLOG("disk_sync_callout finish\n"); } //****************************************************************************** -// receivePowerNotification -// -// The power controller is notifying us of a hardware-related power management -// event that we must handle. This is a result of an 'environment' interrupt from -// the power mgt micro. -//****************************************************************************** - -IOReturn IOPMrootDomain::receivePowerNotification (UInt32 msg) -{ - bool eval_clamshell = false; - - /* - * Local (IOPMrootDomain only) eval clamshell command - */ - if (msg & kLocalEvalClamshellCommand) - { - eval_clamshell = true; - } - - /* - * Overtemp - */ - if (msg & kIOPMOverTemp) - { - IOLog("PowerManagement emergency overtemp signal. Going to sleep!"); - (void) sleepSystem (); - } - - /* - * PMU Processor Speed Change - */ - if (msg & kIOPMProcessorSpeedChange) - { - IOService *pmu = waitForService(serviceMatching("ApplePMU")); - pmu->callPlatformFunction("prepareForSleep", false, 0, 0, 0, 0); - pm_vars->thePlatform->sleepKernel(); - pmu->callPlatformFunction("recoverFromSleep", false, 0, 0, 0, 0); - } - - /* - * Sleep Now! - */ - if (msg & kIOPMSleepNow) - { - (void) sleepSystem (); - } - - /* - * Power Emergency - */ - if (msg & kIOPMPowerEmergency) - { - (void) sleepSystem (); - } - - - /* - * Clamshell OPEN - */ - if (msg & kIOPMClamshellOpened) - { - // Received clamshel open message from clamshell controlling driver - // Update our internal state and tell general interest clients - clamshellIsClosed = false; - clamshellExists = true; - - sendClientClamshellNotification(); - } - - /* - * Clamshell CLOSED - * Send the clamshell interest notification since the lid is closing. - */ - if (msg & kIOPMClamshellClosed) - { - // Received clamshel open message from clamshell controlling driver - // Update our internal state and tell general interest clients - clamshellIsClosed = true; - clamshellExists = true; - - sendClientClamshellNotification(); - - // And set eval_clamshell = so we can attempt - eval_clamshell = true; - } - - /* - * Set Desktop mode (sent from graphics) - * - * -> reevaluate lid state - */ - if (msg & kIOPMSetDesktopMode) - { - desktopMode = (0 != (msg & kIOPMSetValue)); - msg &= ~(kIOPMSetDesktopMode | kIOPMSetValue); - - sendClientClamshellNotification(); - - // Re-evaluate the lid state - if( clamshellIsClosed ) - { - eval_clamshell = true; - } - } - - /* - * AC Adaptor connected - * - * -> reevaluate lid state - */ - if (msg & kIOPMSetACAdaptorConnected) - { - acAdaptorConnect = (0 != (msg & kIOPMSetValue)); - msg &= ~(kIOPMSetACAdaptorConnected | kIOPMSetValue); - - sendClientClamshellNotification(); - - // Re-evaluate the lid state - if( clamshellIsClosed ) - { - eval_clamshell = true; - } - - } - - /* - * Enable Clamshell (external display disappear) - * - * -> reevaluate lid state - */ - if (msg & kIOPMEnableClamshell) - { - // Re-evaluate the lid state - // System should sleep on external display disappearance - // in lid closed operation. - if( clamshellIsClosed && (true == ignoringClamshell) ) - { - eval_clamshell = true; - } - - ignoringClamshell = false; - - sendClientClamshellNotification(); - } - - /* - * Disable Clamshell (external display appeared) - * We don't bother re-evaluating clamshell state. If the system is awake, - * the lid is probably open. - */ - if (msg & kIOPMDisableClamshell) - { - ignoringClamshell = true; - - sendClientClamshellNotification(); - } - - /* - * Evaluate clamshell and SLEEP if appropiate - */ - if ( eval_clamshell && shouldSleepOnClamshellClosed() ) - { - - - // SLEEP! - sleepSystem(); - } - - /* - * Power Button - */ - if (msg & kIOPMPowerButton) - { - // toggle state of sleep/wake - // are we dozing? - if ( pm_vars->myCurrentState == DOZE_STATE ) - { - // yes, tell the tree we're waking - systemWake(); - // wake the Display Wrangler - reportUserInput(); - } - else { - OSString *pbs = OSString::withCString("DisablePowerButtonSleep"); - // Check that power button sleep is enabled - if( pbs ) { - if( kOSBooleanTrue != getProperty(pbs)) - sleepSystem(); - } - } - } - - /* - * Allow Sleep - * - */ - if ( (msg & kIOPMAllowSleep) && !allowSleep ) - { - allowSleep = true; - adjustPowerState(); - } - - /* - * Prevent Sleep - * - */ - if (msg & kIOPMPreventSleep) { - allowSleep = false; - // are we dozing? - if ( pm_vars->myCurrentState == DOZE_STATE ) { - // yes, tell the tree we're waking - systemWake(); - adjustPowerState(); - // wake the Display Wrangler - reportUserInput(); - } else { - adjustPowerState(); - // make sure we have power to clamp - patriarch->wakeSystem(); - } - } - - return 0; -} +static UInt32 +computeDeltaTimeMS( const AbsoluteTime * startTime, AbsoluteTime * elapsedTime ) +{ + AbsoluteTime endTime; + UInt64 nano = 0; + + clock_get_uptime(&endTime); + if (CMP_ABSOLUTETIME(&endTime, startTime) <= 0) { + *elapsedTime = 0; + } else { + SUB_ABSOLUTETIME(&endTime, startTime); + absolutetime_to_nanoseconds(endTime, &nano); + *elapsedTime = endTime; + } + return (UInt32)(nano / NSEC_PER_MSEC); +} -//********************************************************************************* -// sleepSupported -// -//********************************************************************************* +//****************************************************************************** -void IOPMrootDomain::setSleepSupported( IOOptionBits flags ) +static int +sysctl_sleepwaketime SYSCTL_HANDLER_ARGS { - if ( flags & kPCICantSleep ) - { - canSleep = false; - } else { - canSleep = true; - platformSleepSupport = flags; - } + struct timeval *swt = (struct timeval *)arg1; + struct proc *p = req->p; + + if (p == kernproc) { + return sysctl_io_opaque(req, swt, sizeof(*swt), NULL); + } else if (proc_is64bit(p)) { + struct user64_timeval t = {}; + t.tv_sec = swt->tv_sec; + t.tv_usec = swt->tv_usec; + return sysctl_io_opaque(req, &t, sizeof(t), NULL); + } else { + struct user32_timeval t = {}; + t.tv_sec = swt->tv_sec; + t.tv_usec = swt->tv_usec; + return sysctl_io_opaque(req, &t, sizeof(t), NULL); + } +} - setProperty(kIOSleepSupportedKey, canSleep); +static SYSCTL_PROC(_kern, OID_AUTO, sleeptime, + CTLTYPE_STRUCT | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + &gIOLastUserSleepTime, 0, sysctl_sleepwaketime, "S,timeval", ""); -} +static SYSCTL_PROC(_kern, OID_AUTO, waketime, + CTLTYPE_STRUCT | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + &gIOLastWakeTime, 0, sysctl_sleepwaketime, "S,timeval", ""); -//********************************************************************************* -// requestPowerDomainState -// -// The root domain intercepts this call to the superclass. -// -// If the clamp bit is not set in the desire, then the child doesn't need the power -// state it's requesting; it just wants it. The root ignores desires but not needs. -// If the clamp bit is not set, the root takes it that the child can tolerate no -// power and interprets the request accordingly. If all children can thus tolerate -// no power, we are on our way to idle sleep. -//********************************************************************************* +SYSCTL_QUAD(_kern, OID_AUTO, wake_abs_time, CTLFLAG_RD | CTLFLAG_LOCKED, &gIOLastWakeAbsTime, ""); +SYSCTL_QUAD(_kern, OID_AUTO, sleep_abs_time, CTLFLAG_RD | CTLFLAG_LOCKED, &gIOLastSleepAbsTime, ""); +SYSCTL_QUAD(_kern, OID_AUTO, useractive_abs_time, CTLFLAG_RD | CTLFLAG_LOCKED, &gUserActiveAbsTime, ""); +SYSCTL_QUAD(_kern, OID_AUTO, userinactive_abs_time, CTLFLAG_RD | CTLFLAG_LOCKED, &gUserInactiveAbsTime, ""); -IOReturn IOPMrootDomain::requestPowerDomainState ( IOPMPowerFlags desiredState, IOPowerConnection * whichChild, unsigned long specification ) -{ - OSIterator *iter; - OSObject *next; - IOPowerConnection *connection; - unsigned long powerRequestFlag = 0; - IOPMPowerFlags editedDesire = desiredState; - - // if they don't really need it, they don't get it - if ( !(desiredState & kIOPMPreventIdleSleep) ) { - editedDesire = 0; - } - - - IOLockLock(pm_vars->childLock); - - // recompute sleepIsSupported and see if all children are asleep - iter = getChildIterator(gIOPowerPlane); - sleepIsSupported = true; - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection,next)) ) - { - if ( connection == whichChild ) - { - powerRequestFlag += editedDesire; - if ( desiredState & kIOPMPreventSystemSleep ) - { - sleepIsSupported = false; - } - } else { - powerRequestFlag += connection->getDesiredDomainState(); - if ( connection->getPreventSystemSleepFlag() ) - { - sleepIsSupported = false; - } - } - } - } - iter->release(); - } - - if ( (extraSleepDelay == 0) && (powerRequestFlag == 0) ) - { - sleepASAP = true; - } - - // this may put the system to sleep - adjustPowerState(); - - IOLockUnlock(pm_vars->childLock); - - editedDesire |= desiredState & kIOPMPreventSystemSleep; - - return super::requestPowerDomainState(editedDesire,whichChild,specification); +static int +sysctl_willshutdown +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) +{ + int new_value, changed; + int error = sysctl_io_number(req, gWillShutdown, sizeof(int), &new_value, &changed); + if (changed) { + if (!gWillShutdown && (new_value == 1)) { + IOPMRootDomainWillShutdown(); + } else { + error = EINVAL; + } + } + return error; } +static SYSCTL_PROC(_kern, OID_AUTO, willshutdown, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_willshutdown, "I", ""); -//********************************************************************************* -// getSleepSupported -// -//********************************************************************************* +extern struct sysctl_oid sysctl__kern_iokittest; +extern struct sysctl_oid sysctl__debug_iokit; -IOOptionBits IOPMrootDomain::getSleepSupported( void ) +#if !CONFIG_EMBEDDED + +static int +sysctl_progressmeterenable +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) { - return( platformSleepSupport ); -} + int error; + int new_value, changed; + error = sysctl_io_number(req, vc_progressmeter_enable, sizeof(int), &new_value, &changed); -//********************************************************************************* -// tellChangeDown -// -// We override the superclass implementation so we can send a different message -// type to the client or application being notified. -//********************************************************************************* + if (changed) { + vc_enable_progressmeter(new_value); + } + + return error; +} -bool IOPMrootDomain::tellChangeDown ( unsigned long stateNum ) +static int +sysctl_progressmeter +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) { - switch ( stateNum ) { - case DOZE_STATE: - case SLEEP_STATE: - - // Direct callout into OSMetaClass so it can disable kmod unloads - // during sleep/wake to prevent deadlocks. - OSMetaClassSystemSleepOrWake( kIOMessageSystemWillSleep ); + int error; + int new_value, changed; - return super::tellClientsWithResponse(kIOMessageSystemWillSleep); - case RESTART_STATE: - // Unsupported shutdown ordering hack on RESTART only - // For Bluetooth and USB (4368327) - super::tellClients(iokit_common_msg(0x759)); + error = sysctl_io_number(req, vc_progressmeter_value, sizeof(int), &new_value, &changed); - return super::tellClientsWithResponse(kIOMessageSystemWillRestart); - case OFF_STATE: - // Unsupported shutdown ordering hack on SHUTDOWN only - // For Bluetooth and USB (4554440) - super::tellClients(iokit_common_msg(0x749)); + if (changed) { + vc_set_progressmeter(new_value); + } - return super::tellClientsWithResponse(kIOMessageSystemWillPowerOff); - } - // this shouldn't execute - return super::tellChangeDown(stateNum); + return error; } +static SYSCTL_PROC(_kern, OID_AUTO, progressmeterenable, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_progressmeterenable, "I", ""); -//********************************************************************************* -// askChangeDown -// -// We override the superclass implementation so we can send a different message -// type to the client or application being notified. -// -// This must be idle sleep since we don't ask apps during any other power change. -//********************************************************************************* +static SYSCTL_PROC(_kern, OID_AUTO, progressmeter, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_progressmeter, "I", ""); -bool IOPMrootDomain::askChangeDown ( unsigned long ) -{ - return super::tellClientsWithResponse(kIOMessageCanSystemSleep); -} +#endif /* !CONFIG_EMBEDDED */ -//********************************************************************************* -// tellNoChangeDown -// -// Notify registered applications and kernel clients that we are not -// dropping power. -// -// We override the superclass implementation so we can send a different message -// type to the client or application being notified. -// -// This must be a vetoed idle sleep, since no other power change can be vetoed. -//********************************************************************************* -void IOPMrootDomain::tellNoChangeDown ( unsigned long ) +static int +sysctl_consoleoptions +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) { - return tellClients(kIOMessageSystemWillNotSleep); + int error, changed; + uint32_t new_value; + + error = sysctl_io_number(req, vc_user_options.options, sizeof(uint32_t), &new_value, &changed); + + if (changed) { + vc_user_options.options = new_value; + } + + return error; } +static SYSCTL_PROC(_kern, OID_AUTO, consoleoptions, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_consoleoptions, "I", ""); -//********************************************************************************* -// tellChangeUp -// -// Notify registered applications and kernel clients that we are raising power. -// -// We override the superclass implementation so we can send a different message -// type to the client or application being notified. -//********************************************************************************* -void IOPMrootDomain::tellChangeUp ( unsigned long stateNum) +static int +sysctl_progressoptions SYSCTL_HANDLER_ARGS { - if ( stateNum == ON_STATE ) - { - // Direct callout into OSMetaClass so it can disable kmod unloads - // during sleep/wake to prevent deadlocks. - OSMetaClassSystemSleepOrWake( kIOMessageSystemHasPoweredOn ); - - IOHibernateSystemPostWake(); - return tellClients(kIOMessageSystemHasPoweredOn); - } + return sysctl_io_opaque(req, &vc_user_options, sizeof(vc_user_options), NULL); } -//********************************************************************************* -// reportUserInput -// -//********************************************************************************* +static SYSCTL_PROC(_kern, OID_AUTO, progressoptions, + CTLTYPE_STRUCT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED | CTLFLAG_ANYBODY, + NULL, 0, sysctl_progressoptions, "S,vc_progress_user_options", ""); + -void IOPMrootDomain::reportUserInput ( void ) +static int +sysctl_wakereason SYSCTL_HANDLER_ARGS { - OSIterator * iter; + char wr[sizeof(gWakeReasonString)]; - if(!wrangler) - { - iter = getMatchingServices(serviceMatching("IODisplayWrangler")); - if(iter) - { - wrangler = (IOService *) iter->getNextObject(); - iter->release(); - } - } + wr[0] = '\0'; + if (gRootDomain) { + gRootDomain->copyWakeReasonString(wr, sizeof(wr)); + } - if(wrangler) - wrangler->activityTickle(0,0); + return sysctl_io_string(req, wr, 0, 0, NULL); } -//********************************************************************************* -// setQuickSpinDownTimeout -// -//********************************************************************************* +SYSCTL_PROC(_kern, OID_AUTO, wakereason, + CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_wakereason, "A", "wakereason"); -void IOPMrootDomain::setQuickSpinDownTimeout ( void ) +static int +sysctl_targettype SYSCTL_HANDLER_ARGS { - super::setAggressiveness((unsigned long)kPMMinutesToSpinDown,(unsigned long)1); + IOService * root; + OSObject * obj; + OSData * data; + char tt[32]; + + tt[0] = '\0'; + root = IOService::getServiceRoot(); + if (root && (obj = root->copyProperty(gIODTTargetTypeKey))) { + if ((data = OSDynamicCast(OSData, obj))) { + strlcpy(tt, (const char *) data->getBytesNoCopy(), sizeof(tt)); + } + obj->release(); + } + return sysctl_io_string(req, tt, 0, 0, NULL); } -//********************************************************************************* -// restoreUserSpinDownTimeout -// -//********************************************************************************* +SYSCTL_PROC(_hw, OID_AUTO, targettype, + CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_targettype, "A", "targettype"); + +static SYSCTL_INT(_debug, OID_AUTO, darkwake, CTLFLAG_RW, &gDarkWakeFlags, 0, ""); +static SYSCTL_INT(_debug, OID_AUTO, noidle, CTLFLAG_RW, &gNoIdleFlag, 0, ""); +static SYSCTL_INT(_debug, OID_AUTO, swd_sleep_timeout, CTLFLAG_RW, &gSwdSleepTimeout, 0, ""); +static SYSCTL_INT(_debug, OID_AUTO, swd_wake_timeout, CTLFLAG_RW, &gSwdWakeTimeout, 0, ""); +static SYSCTL_INT(_debug, OID_AUTO, swd_timeout, CTLFLAG_RW, &gSwdSleepWakeTimeout, 0, ""); +static SYSCTL_INT(_debug, OID_AUTO, swd_panic, CTLFLAG_RW, &gSwdPanic, 0, ""); +#if DEVELOPMENT || DEBUG +static SYSCTL_INT(_debug, OID_AUTO, swd_panic_phase, CTLFLAG_RW, &swd_panic_phase, 0, ""); +#endif -void IOPMrootDomain::restoreUserSpinDownTimeout ( void ) +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) +//****************************************************************************** +// AOT + +static int +sysctl_aotmetrics SYSCTL_HANDLER_ARGS { - super::setAggressiveness((unsigned long)kPMMinutesToSpinDown,(unsigned long)user_spindown); + if (NULL == gRootDomain) { + return ENOENT; + } + if (NULL == gRootDomain->_aotMetrics) { + return ENOENT; + } + return sysctl_io_opaque(req, gRootDomain->_aotMetrics, sizeof(IOPMAOTMetrics), NULL); } -//********************************************************************************* -// changePowerStateTo & changePowerStateToPriv -// -// Override of these methods for logging purposes. -//********************************************************************************* +static SYSCTL_PROC(_kern, OID_AUTO, aotmetrics, + CTLTYPE_STRUCT | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED | CTLFLAG_ANYBODY, + NULL, 0, sysctl_aotmetrics, "S,IOPMAOTMetrics", ""); + -IOReturn IOPMrootDomain::changePowerStateTo ( unsigned long ordinal ) +static int +update_aotmode(uint32_t mode) { - return super::changePowerStateTo(ordinal); + int result; + + if (!gIOPMWorkLoop) { + return ENOENT; + } + result = gIOPMWorkLoop->runActionBlock(^IOReturn (void) { + unsigned int oldCount; + + if (mode && !gRootDomain->_aotMetrics) { + gRootDomain->_aotMetrics = IONewZero(IOPMAOTMetrics, 1); + if (!gRootDomain->_aotMetrics) { + return ENOMEM; + } + } + + oldCount = gRootDomain->idleSleepPreventersCount(); + gRootDomain->_aotMode = mode; + gRootDomain->updatePreventIdleSleepListInternal(NULL, false, oldCount); + return 0; + }); + return result; } -IOReturn IOPMrootDomain::changePowerStateToPriv ( unsigned long ordinal ) +static int +sysctl_aotmodebits +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) { - IOReturn ret; + int error, changed; + uint32_t new_value; + + if (NULL == gRootDomain) { + return ENOENT; + } + error = sysctl_io_number(req, gRootDomain->_aotMode, sizeof(uint32_t), &new_value, &changed); + if (changed && gIOPMWorkLoop) { + error = update_aotmode(new_value); + } + + return error; +} + +static SYSCTL_PROC(_kern, OID_AUTO, aotmodebits, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED, + NULL, 0, sysctl_aotmodebits, "I", ""); - if( SLEEP_STATE == ordinal && sleepSupportedPEFunction ) - { +static int +sysctl_aotmode +(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req) +{ + int error, changed; + uint32_t new_value; - // Determine if the machine supports sleep, or must doze. - ret = getPlatform()->callPlatformFunction( - sleepSupportedPEFunction, false, - NULL, NULL, NULL, NULL); - - // If the machine only supports doze, the callPlatformFunction call - // boils down toIOPMrootDomain::setSleepSupported(kPCICantSleep), - // otherwise nothing. - } + if (NULL == gRootDomain) { + return ENOENT; + } + error = sysctl_io_number(req, gRootDomain->_aotMode, sizeof(uint32_t), &new_value, &changed); + if (changed && gIOPMWorkLoop) { + if (new_value) { + new_value = kIOPMAOTModeDefault; // & ~kIOPMAOTModeRespectTimers; + } + error = update_aotmode(new_value); + } - return super::changePowerStateToPriv(ordinal); + return error; } +static SYSCTL_PROC(_kern, OID_AUTO, aotmode, + CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED | CTLFLAG_ANYBODY, + NULL, 0, sysctl_aotmode, "I", ""); -//********************************************************************************* -// sysPowerDownHandler -// -// Receives a notification when the RootDomain changes state. -// -// Allows us to take action on system sleep, power down, and restart after -// applications have received their power change notifications and replied, -// but before drivers have powered down. We perform a vfs sync on power down. -//********************************************************************************* +//****************************************************************************** +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ -IOReturn IOPMrootDomain::sysPowerDownHandler( void * target, void * refCon, - UInt32 messageType, IOService * service, - void * messageArgument, vm_size_t argSize ) -{ - IOReturn ret; - IOPowerStateChangeNotification *params = (IOPowerStateChangeNotification *) messageArgument; - IOPMrootDomain *rootDomain = OSDynamicCast(IOPMrootDomain, service); - - if(!rootDomain) - return kIOReturnUnsupported; - - switch (messageType) { - case kIOMessageSystemWillSleep: - rootDomain->powerOverrideOnPriv(); // start ignoring children's requests - // (fall through to other cases) - - // Interested applications have been notified of an impending power - // change and have acked (when applicable). - // This is our chance to save whatever state we can before powering - // down. - // We call sync_internal defined in xnu/bsd/vfs/vfs_syscalls.c, - // via callout - - // We will ack within 20 seconds - params->returnValue = 20 * 1000 * 1000; - if (gIOHibernateState) - params->returnValue += gIOHibernateFreeTime * 1000; //add in time we could spend freeing pages - - if ( ! OSCompareAndSwap( 0, 1, &gSleepOrShutdownPending ) ) - { - // Purposely delay the ack and hope that shutdown occurs quickly. - // Another option is not to schedule the thread and wait for - // ack timeout... - AbsoluteTime deadline; - clock_interval_to_deadline( 30, kSecondScale, &deadline ); - thread_call_enter1_delayed( rootDomain->diskSyncCalloutEntry, - (thread_call_param_t)params->powerRef, - deadline ); - } - else - thread_call_enter1(rootDomain->diskSyncCalloutEntry, (thread_call_param_t)params->powerRef); - ret = kIOReturnSuccess; - break; - - case kIOMessageSystemWillPowerOff: - case kIOMessageSystemWillRestart: - ret = kIOReturnUnsupported; - break; - - default: - ret = kIOReturnUnsupported; - break; - } - return ret; -} - -//********************************************************************************* -// displayWranglerNotification -// -// Receives a notification when the IODisplayWrangler changes state. -// -// Allows us to take action on display dim/undim. -// -// When the display goes dim we: -// - Start the idle sleep timer -// - set the quick spin down timeout -// -// On wake from display dim: -// - Cancel the idle sleep timer -// - restore the user's chosen spindown timer from the "quick" spin down value -//********************************************************************************* -IOReturn IOPMrootDomain::displayWranglerNotification( void * target, void * refCon, - UInt32 messageType, IOService * service, - void * messageArgument, vm_size_t argSize ) -{ - IOPMrootDomain * rootDomain = OSDynamicCast(IOPMrootDomain, (IOService *)target); - AbsoluteTime deadline; - static bool deviceAlreadyPoweredOff = false; - - if(!rootDomain) - return kIOReturnUnsupported; - - switch (messageType) { - case kIOMessageDeviceWillPowerOff: - // The IODisplayWrangler has powered off either because of idle display sleep - // or force system sleep. - - // The display wrangler will send the DeviceWillPowerOff message 4 times until - // it gets into its lowest state. We only want to act on the first of those 4. - if( deviceAlreadyPoweredOff ) return kIOReturnUnsupported; - - deviceAlreadyPoweredOff = true; - - if( rootDomain->extraSleepDelay ) - { - // start the extra sleep timer - clock_interval_to_deadline(rootDomain->extraSleepDelay*60, kSecondScale, &deadline ); - thread_call_enter_delayed(rootDomain->extraSleepTimer, deadline); - rootDomain->idleSleepPending = true; - } else { - // accelerate disk spin down if spin down timer is non-zero (zero = never spin down) - // and if system sleep is non-Never - if( (0 != rootDomain->user_spindown) && (0 != rootDomain->sleepSlider) ) - rootDomain->setQuickSpinDownTimeout(); - } - - break; - - case kIOMessageDeviceHasPoweredOn: - - // The display has powered on either because of UI activity or wake from sleep/doze - deviceAlreadyPoweredOff = false; - rootDomain->adjustPowerState(); - - - // cancel any pending idle sleep - if(rootDomain->idleSleepPending) - { - thread_call_cancel(rootDomain->extraSleepTimer); - rootDomain->idleSleepPending = false; - } - - // Change the spindown value back to the user's selection from our accelerated setting - if(0 != rootDomain->user_spindown) - rootDomain->restoreUserSpinDownTimeout(); - - // Put on the policy maker's on clamp. - - break; - - default: - break; - } - return kIOReturnUnsupported; - } +static const OSSymbol * gIOPMSettingAutoWakeCalendarKey; +static const OSSymbol * gIOPMSettingAutoWakeSecondsKey; +static const OSSymbol * gIOPMSettingAutoPowerCalendarKey; +static const OSSymbol * gIOPMSettingAutoPowerSecondsKey; +static const OSSymbol * gIOPMSettingDebugWakeRelativeKey; +static const OSSymbol * gIOPMSettingDebugPowerRelativeKey; +static const OSSymbol * gIOPMSettingMaintenanceWakeCalendarKey; +static const OSSymbol * gIOPMSettingSleepServiceWakeCalendarKey; +static const OSSymbol * gIOPMSettingSilentRunningKey; +static const OSSymbol * gIOPMUserTriggeredFullWakeKey; +static const OSSymbol * gIOPMUserIsActiveKey; -//********************************************************************************* -// displayWranglerPublished -// -// Receives a notification when the IODisplayWrangler is published. -// When it's published we install a power state change handler. +//****************************************************************************** +// start // -//********************************************************************************* +//****************************************************************************** + +#define kRootDomainSettingsCount 19 +#define kRootDomainNoPublishSettingsCount 3 -bool IOPMrootDomain::displayWranglerPublished( - void * target, - void * refCon, - IOService * newService) +bool +IOPMrootDomain::start( IOService * nub ) { - IOPMrootDomain *rootDomain = - OSDynamicCast(IOPMrootDomain, (IOService *)target); + OSIterator *psIterator; + OSDictionary *tmpDict; + IORootParent * patriarch; + + super::start(nub); + + gRootDomain = this; + gIOPMSettingAutoWakeCalendarKey = OSSymbol::withCString(kIOPMSettingAutoWakeCalendarKey); + gIOPMSettingAutoWakeSecondsKey = OSSymbol::withCString(kIOPMSettingAutoWakeSecondsKey); + gIOPMSettingAutoPowerCalendarKey = OSSymbol::withCString(kIOPMSettingAutoPowerCalendarKey); + gIOPMSettingAutoPowerSecondsKey = OSSymbol::withCString(kIOPMSettingAutoPowerSecondsKey); + gIOPMSettingDebugWakeRelativeKey = OSSymbol::withCString(kIOPMSettingDebugWakeRelativeKey); + gIOPMSettingDebugPowerRelativeKey = OSSymbol::withCString(kIOPMSettingDebugPowerRelativeKey); + gIOPMSettingMaintenanceWakeCalendarKey = OSSymbol::withCString(kIOPMSettingMaintenanceWakeCalendarKey); + gIOPMSettingSleepServiceWakeCalendarKey = OSSymbol::withCString(kIOPMSettingSleepServiceWakeCalendarKey); + gIOPMSettingSilentRunningKey = OSSymbol::withCStringNoCopy(kIOPMSettingSilentRunningKey); + gIOPMUserTriggeredFullWakeKey = OSSymbol::withCStringNoCopy(kIOPMUserTriggeredFullWakeKey); + gIOPMUserIsActiveKey = OSSymbol::withCStringNoCopy(kIOPMUserIsActiveKey); + + gIOPMStatsResponseTimedOut = OSSymbol::withCString(kIOPMStatsResponseTimedOut); + gIOPMStatsResponseCancel = OSSymbol::withCString(kIOPMStatsResponseCancel); + gIOPMStatsResponseSlow = OSSymbol::withCString(kIOPMStatsResponseSlow); + gIOPMStatsResponsePrompt = OSSymbol::withCString(kIOPMStatsResponsePrompt); + gIOPMStatsDriverPSChangeSlow = OSSymbol::withCString(kIOPMStatsDriverPSChangeSlow); + + sleepSupportedPEFunction = OSSymbol::withCString("IOPMSetSleepSupported"); + sleepMessagePEFunction = OSSymbol::withCString("IOPMSystemSleepMessage"); + + const OSSymbol *settingsArr[kRootDomainSettingsCount] = + { + OSSymbol::withCString(kIOPMSettingSleepOnPowerButtonKey), + gIOPMSettingAutoWakeSecondsKey, + gIOPMSettingAutoPowerSecondsKey, + gIOPMSettingAutoWakeCalendarKey, + gIOPMSettingAutoPowerCalendarKey, + gIOPMSettingDebugWakeRelativeKey, + gIOPMSettingDebugPowerRelativeKey, + OSSymbol::withCString(kIOPMSettingWakeOnRingKey), + OSSymbol::withCString(kIOPMSettingRestartOnPowerLossKey), + OSSymbol::withCString(kIOPMSettingWakeOnClamshellKey), + OSSymbol::withCString(kIOPMSettingWakeOnACChangeKey), + OSSymbol::withCString(kIOPMSettingTimeZoneOffsetKey), + OSSymbol::withCString(kIOPMSettingDisplaySleepUsesDimKey), + OSSymbol::withCString(kIOPMSettingMobileMotionModuleKey), + OSSymbol::withCString(kIOPMSettingGraphicsSwitchKey), + OSSymbol::withCString(kIOPMStateConsoleShutdown), + OSSymbol::withCString(kIOPMSettingProModeControl), + OSSymbol::withCString(kIOPMSettingProModeDefer), + gIOPMSettingSilentRunningKey, + }; + + const OSSymbol *noPublishSettingsArr[kRootDomainNoPublishSettingsCount] = + { + OSSymbol::withCString(kIOPMSettingProModeControl), + OSSymbol::withCString(kIOPMSettingProModeDefer), + gIOPMSettingSilentRunningKey, + }; + + PE_parse_boot_argn("darkwake", &gDarkWakeFlags, sizeof(gDarkWakeFlags)); + PE_parse_boot_argn("noidle", &gNoIdleFlag, sizeof(gNoIdleFlag)); + PE_parse_boot_argn("swd_sleeptimeout", &gSwdSleepTimeout, sizeof(gSwdSleepTimeout)); + PE_parse_boot_argn("swd_waketimeout", &gSwdWakeTimeout, sizeof(gSwdWakeTimeout)); + PE_parse_boot_argn("swd_timeout", &gSwdSleepWakeTimeout, sizeof(gSwdSleepWakeTimeout)); + PE_parse_boot_argn("haltmspanic", &gHaltTimeMaxPanic, sizeof(gHaltTimeMaxPanic)); + PE_parse_boot_argn("haltmslog", &gHaltTimeMaxLog, sizeof(gHaltTimeMaxLog)); + + queue_init(&aggressivesQueue); + aggressivesThreadCall = thread_call_allocate(handleAggressivesFunction, this); + aggressivesData = OSData::withCapacity( + sizeof(AggressivesRecord) * (kPMLastAggressivenessType + 4)); + + featuresDictLock = IOLockAlloc(); + settingsCtrlLock = IOLockAlloc(); + wakeEventLock = IOLockAlloc(); + gHaltLogLock = IOLockAlloc(); + setPMRootDomain(this); + + extraSleepTimer = thread_call_allocate( + idleSleepTimerExpired, + (thread_call_param_t) this); + + powerButtonDown = thread_call_allocate( + powerButtonDownCallout, + (thread_call_param_t) this); + + powerButtonUp = thread_call_allocate( + powerButtonUpCallout, + (thread_call_param_t) this); + + diskSyncCalloutEntry = thread_call_allocate( + &disk_sync_callout, + (thread_call_param_t) this); + updateConsoleUsersEntry = thread_call_allocate( + &updateConsoleUsersCallout, + (thread_call_param_t) this); + +#if DARK_TO_FULL_EVALUATE_CLAMSHELL + fullWakeThreadCall = thread_call_allocate( + OSMemberFunctionCast(thread_call_func_t, this, + &IOPMrootDomain::fullWakeDelayedWork), + (thread_call_param_t) this); +#endif + + setProperty(kIOSleepSupportedKey, true); + + bzero(&gPMStats, sizeof(gPMStats)); + + pmTracer = PMTraceWorker::tracer(this); + + pmAssertions = PMAssertionsTracker::pmAssertionsTracker(this); + + userDisabledAllSleep = false; + systemBooting = true; + idleSleepEnabled = false; + sleepSlider = 0; + idleSleepTimerPending = false; + wrangler = NULL; + clamshellClosed = false; + clamshellExists = false; + clamshellDisabled = true; + acAdaptorConnected = true; + clamshellSleepDisabled = false; + gWakeReasonString[0] = '\0'; + + // Initialize to user active. + // Will never transition to user inactive w/o wrangler. + fullWakeReason = kFullWakeReasonLocalUser; + userIsActive = userWasActive = true; + clock_get_uptime(&gUserActiveAbsTime); + setProperty(gIOPMUserIsActiveKey, kOSBooleanTrue); + + // Set the default system capabilities at boot. + _currentCapability = kIOPMSystemCapabilityCPU | + kIOPMSystemCapabilityGraphics | + kIOPMSystemCapabilityAudio | + kIOPMSystemCapabilityNetwork; + + _pendingCapability = _currentCapability; + _desiredCapability = _currentCapability; + _highestCapability = _currentCapability; + setProperty(kIOPMSystemCapabilitiesKey, _currentCapability, 64); + + queuedSleepWakeUUIDString = NULL; + initializeBootSessionUUID(); + pmStatsAppResponses = OSArray::withCapacity(5); + _statsNameKey = OSSymbol::withCString(kIOPMStatsNameKey); + _statsPIDKey = OSSymbol::withCString(kIOPMStatsPIDKey); + _statsTimeMSKey = OSSymbol::withCString(kIOPMStatsTimeMSKey); + _statsResponseTypeKey = OSSymbol::withCString(kIOPMStatsApplicationResponseTypeKey); + _statsMessageTypeKey = OSSymbol::withCString(kIOPMStatsMessageTypeKey); + _statsPowerCapsKey = OSSymbol::withCString(kIOPMStatsPowerCapabilityKey); + assertOnWakeSecs = -1;// Invalid value to prevent updates + + pmStatsLock = IOLockAlloc(); + idxPMCPUClamshell = kCPUUnknownIndex; + idxPMCPULimitedPower = kCPUUnknownIndex; + + tmpDict = OSDictionary::withCapacity(1); + setProperty(kRootDomainSupportedFeatures, tmpDict); + tmpDict->release(); + + settingsCallbacks = OSDictionary::withCapacity(1); + + // Create a list of the valid PM settings that we'll relay to + // interested clients in setProperties() => setPMSetting() + allowedPMSettings = OSArray::withObjects( + (const OSObject **)settingsArr, + kRootDomainSettingsCount, + 0); + + // List of PM settings that should not automatically publish itself + // as a feature when registered by a listener. + noPublishPMSettings = OSArray::withObjects( + (const OSObject **)noPublishSettingsArr, + kRootDomainNoPublishSettingsCount, + 0); + + fPMSettingsDict = OSDictionary::withCapacity(5); + preventIdleSleepList = OSSet::withCapacity(8); + preventSystemSleepList = OSSet::withCapacity(2); + + PMinit(); // creates gIOPMWorkLoop + gIOPMWorkLoop = getIOPMWorkloop(); + + // Create IOPMPowerStateQueue used to queue external power + // events, and to handle those events on the PM work loop. + pmPowerStateQueue = IOPMPowerStateQueue::PMPowerStateQueue( + this, OSMemberFunctionCast(IOEventSource::Action, this, + &IOPMrootDomain::dispatchPowerEvent)); + gIOPMWorkLoop->addEventSource(pmPowerStateQueue); + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + _aotMode = 0; + _aotTimerES = IOTimerEventSource::timerEventSource(this, + OSMemberFunctionCast(IOTimerEventSource::Action, + this, &IOPMrootDomain::aotEvaluate)); + gIOPMWorkLoop->addEventSource(_aotTimerES); +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + // create our power parent + patriarch = new IORootParent; + patriarch->init(); + patriarch->attach(this); + patriarch->start(this); + patriarch->addPowerChild(this); + + registerPowerDriver(this, ourPowerStates, NUM_POWER_STATES); + changePowerStateToPriv(ON_STATE); + + // install power change handler + gSysPowerDownNotifier = registerPrioritySleepWakeInterest( &sysPowerDownHandler, this, NULL); + +#if !NO_KERNEL_HID + // Register for a notification when IODisplayWrangler is published + if ((tmpDict = serviceMatching("IODisplayWrangler"))) { + _displayWranglerNotifier = addMatchingNotification( + gIOPublishNotification, tmpDict, + (IOServiceMatchingNotificationHandler) & displayWranglerMatchPublished, + this, NULL); + tmpDict->release(); + } +#endif - if(!rootDomain) - return false; +#if defined(__i386__) || defined(__x86_64__) - rootDomain->wrangler = newService; - - // we found the display wrangler, now install a handler - if( !rootDomain->wrangler->registerInterest( gIOGeneralInterest, - &displayWranglerNotification, target, 0) ) - { - return false; - } - - return true; -} + wranglerIdleSettings = NULL; + OSNumber * wranglerIdlePeriod = NULL; + wranglerIdleSettings = OSDictionary::withCapacity(1); + wranglerIdlePeriod = OSNumber::withNumber(kDefaultWranglerIdlePeriod, 32); + if (wranglerIdleSettings && wranglerIdlePeriod) { + wranglerIdleSettings->setObject(kIORequestWranglerIdleKey, + wranglerIdlePeriod); + } -//********************************************************************************* -// batteryPublished -// -// Notification on battery class IOPowerSource appearance -// -//****************************************************************************** + if (wranglerIdlePeriod) { + wranglerIdlePeriod->release(); + } +#endif -bool IOPMrootDomain::batteryPublished( - void * target, - void * root_domain, - IOService * resourceService ) -{ - // rdar://2936060&4435589 - // All laptops have dimmable LCD displays - // All laptops have batteries - // So if this machine has a battery, publish the fact that the backlight - // supports dimming. - ((IOPMrootDomain *)root_domain)->publishFeature("DisplayDims"); + const OSSymbol *ucClassName = OSSymbol::withCStringNoCopy("RootDomainUserClient"); + setProperty(gIOUserClientClassKey, (OSObject *) ucClassName); + ucClassName->release(); + + // IOBacklightDisplay can take a long time to load at boot, or it may + // not load at all if you're booting with clamshell closed. We publish + // 'DisplayDims' here redundantly to get it published early and at all. + OSDictionary * matching; + matching = serviceMatching("IOPMPowerSource"); + psIterator = getMatchingServices( matching ); + if (matching) { + matching->release(); + } + if (psIterator && psIterator->getNextObject()) { + // There's at least one battery on the system, so we publish + // 'DisplayDims' support for the LCD. + publishFeature("DisplayDims"); + } + if (psIterator) { + psIterator->release(); + } - return (true); -} + // read swd_panic boot-arg + PE_parse_boot_argn("swd_panic", &gSwdPanic, sizeof(gSwdPanic)); + sysctl_register_oid(&sysctl__kern_sleeptime); + sysctl_register_oid(&sysctl__kern_waketime); + sysctl_register_oid(&sysctl__kern_willshutdown); + sysctl_register_oid(&sysctl__kern_iokittest); + sysctl_register_oid(&sysctl__debug_iokit); + sysctl_register_oid(&sysctl__hw_targettype); + +#if !CONFIG_EMBEDDED + sysctl_register_oid(&sysctl__kern_progressmeterenable); + sysctl_register_oid(&sysctl__kern_progressmeter); + sysctl_register_oid(&sysctl__kern_wakereason); +#endif /* !CONFIG_EMBEDDED */ + sysctl_register_oid(&sysctl__kern_consoleoptions); + sysctl_register_oid(&sysctl__kern_progressoptions); + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + sysctl_register_oid(&sysctl__kern_aotmode); + sysctl_register_oid(&sysctl__kern_aotmodebits); + sysctl_register_oid(&sysctl__kern_aotmetrics); +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +#if HIBERNATION + IOHibernateSystemInit(this); +#endif + registerService(); // let clients find us + return true; +} -//********************************************************************************* -// adjustPowerState -// -// Some condition that affects our wake/sleep/doze decision has changed. -// -// If the sleep slider is in the off position, we cannot sleep or doze. -// If the enclosure is open, we cannot sleep or doze. -// If the system is still booting, we cannot sleep or doze. -// -// In those circumstances, we prevent sleep and doze by holding power on with -// changePowerStateToPriv(ON). -// -// If the above conditions do not exist, and also the sleep timer has expired, we -// allow sleep or doze to occur with either changePowerStateToPriv(SLEEP) or -// changePowerStateToPriv(DOZE) depending on whether or not we already know the -// platform cannot sleep. +//****************************************************************************** +// setProperties // -// In this case, sleep or doze will either occur immediately or at the next time -// that no children are holding the system out of idle sleep via the -// kIOPMPreventIdleSleep flag in their power state arrays. -//********************************************************************************* +// Receive a setProperty call +// The "System Boot" property means the system is completely booted. +//****************************************************************************** -void IOPMrootDomain::adjustPowerState( void ) -{ - if ( (sleepSlider == 0) || - ! allowSleep || - systemBooting ) { - changePowerStateToPriv(ON_STATE); - } else { - if ( sleepASAP ) - { - sleepASAP = false; - if ( sleepIsSupported ) - { - changePowerStateToPriv(SLEEP_STATE); - } else { - changePowerStateToPriv(DOZE_STATE); - } - } - } -} +IOReturn +IOPMrootDomain::setProperties( OSObject * props_obj ) +{ + IOReturn return_value = kIOReturnSuccess; + OSDictionary *dict = OSDynamicCast(OSDictionary, props_obj); + OSBoolean *b; + OSNumber *n; + const OSSymbol *key; + OSObject *obj; + OSCollectionIterator * iter = NULL; + + if (!dict) { + return kIOReturnBadArgument; + } -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + bool clientEntitled = false; + obj = IOUserClient::copyClientEntitlement(current_task(), kRootDomainEntitlementSetProperty); + clientEntitled = (obj == kOSBooleanTrue); + OSSafeReleaseNULL(obj); + + if (!clientEntitled) { + const char * errorSuffix = NULL; + + // IOPMSchedulePowerEvent() clients may not be entitled, but must be root. + // That API can set 6 possible keys that are checked below. + if ((dict->getCount() == 1) && + (dict->getObject(gIOPMSettingAutoWakeSecondsKey) || + dict->getObject(gIOPMSettingAutoPowerSecondsKey) || + dict->getObject(gIOPMSettingAutoWakeCalendarKey) || + dict->getObject(gIOPMSettingAutoPowerCalendarKey) || + dict->getObject(gIOPMSettingDebugWakeRelativeKey) || + dict->getObject(gIOPMSettingDebugPowerRelativeKey))) { + return_value = IOUserClient::clientHasPrivilege(current_task(), kIOClientPrivilegeAdministrator); + if (return_value != kIOReturnSuccess) { + errorSuffix = "privileged"; + } + } else { + return_value = kIOReturnNotPermitted; + errorSuffix = "entitled"; + } + if (return_value != kIOReturnSuccess) { + OSString * procName = IOCopyLogNameForPID(proc_selfpid()); + DLOG("%s failed, process %s is not %s\n", __func__, + procName ? procName->getCStringNoCopy() : "", errorSuffix); + OSSafeReleaseNULL(procName); + return return_value; + } + } + const OSSymbol *publish_simulated_battery_string = OSSymbol::withCString("SoftwareSimulatedBatteries"); + const OSSymbol *boot_complete_string = OSSymbol::withCString("System Boot Complete"); + const OSSymbol *sys_shutdown_string = OSSymbol::withCString("System Shutdown"); + const OSSymbol *stall_halt_string = OSSymbol::withCString("StallSystemAtHalt"); + const OSSymbol *battery_warning_disabled_string = OSSymbol::withCString("BatteryWarningsDisabled"); + const OSSymbol *idle_seconds_string = OSSymbol::withCString("System Idle Seconds"); + const OSSymbol *sleepdisabled_string = OSSymbol::withCString("SleepDisabled"); + const OSSymbol *ondeck_sleepwake_uuid_string = OSSymbol::withCString(kIOPMSleepWakeUUIDKey); + const OSSymbol *loginwindow_progress_string = OSSymbol::withCString(kIOPMLoginWindowProgressKey); + const OSSymbol *coredisplay_progress_string = OSSymbol::withCString(kIOPMCoreDisplayProgressKey); + const OSSymbol *coregraphics_progress_string = OSSymbol::withCString(kIOPMCoreGraphicsProgressKey); +#if HIBERNATION + const OSSymbol *hibernatemode_string = OSSymbol::withCString(kIOHibernateModeKey); + const OSSymbol *hibernatefile_string = OSSymbol::withCString(kIOHibernateFileKey); + const OSSymbol *hibernatefilemin_string = OSSymbol::withCString(kIOHibernateFileMinSizeKey); + const OSSymbol *hibernatefilemax_string = OSSymbol::withCString(kIOHibernateFileMaxSizeKey); + const OSSymbol *hibernatefreeratio_string = OSSymbol::withCString(kIOHibernateFreeRatioKey); + const OSSymbol *hibernatefreetime_string = OSSymbol::withCString(kIOHibernateFreeTimeKey); +#endif -#undef super -#define super OSObject -OSDefineMetaClassAndStructors(PMSettingObject, OSObject) + iter = OSCollectionIterator::withCollection(dict); + if (!iter) { + return_value = kIOReturnNoMemory; + goto exit; + } -void PMSettingObject::setPMSetting(const OSSymbol *type, OSObject *obj) -{ - (*func)(target, type, obj, refcon); + while ((key = (const OSSymbol *) iter->getNextObject()) && + (obj = dict->getObject(key))) { + if (key->isEqualTo(publish_simulated_battery_string)) { + if (OSDynamicCast(OSBoolean, obj)) { + publishResource(key, kOSBooleanTrue); + } + } else if (key->isEqualTo(idle_seconds_string)) { + if ((n = OSDynamicCast(OSNumber, obj))) { + setProperty(key, n); + idleSeconds = n->unsigned32BitValue(); + } + } else if (key->isEqualTo(boot_complete_string)) { + pmPowerStateQueue->submitPowerEvent(kPowerEventSystemBootCompleted); + } else if (key->isEqualTo(sys_shutdown_string)) { + if ((b = OSDynamicCast(OSBoolean, obj))) { + pmPowerStateQueue->submitPowerEvent(kPowerEventSystemShutdown, (void *) b); + } + } else if (key->isEqualTo(battery_warning_disabled_string)) { + setProperty(key, obj); + } +#if HIBERNATION + else if (key->isEqualTo(hibernatemode_string) || + key->isEqualTo(hibernatefilemin_string) || + key->isEqualTo(hibernatefilemax_string) || + key->isEqualTo(hibernatefreeratio_string) || + key->isEqualTo(hibernatefreetime_string)) { + if ((n = OSDynamicCast(OSNumber, obj))) { + setProperty(key, n); + } + } else if (key->isEqualTo(hibernatefile_string)) { + OSString * str = OSDynamicCast(OSString, obj); + if (str) { + setProperty(key, str); + } + } +#endif + else if (key->isEqualTo(sleepdisabled_string)) { + if ((b = OSDynamicCast(OSBoolean, obj))) { + setProperty(key, b); + pmPowerStateQueue->submitPowerEvent(kPowerEventUserDisabledSleep, (void *) b); + } + } else if (key->isEqualTo(ondeck_sleepwake_uuid_string)) { + obj->retain(); + pmPowerStateQueue->submitPowerEvent(kPowerEventQueueSleepWakeUUID, (void *)obj); + } else if (key->isEqualTo(loginwindow_progress_string)) { + if (pmTracer && (n = OSDynamicCast(OSNumber, obj))) { + uint32_t data = n->unsigned32BitValue(); + pmTracer->traceComponentWakeProgress(kIOPMLoginWindowProgress, data); + kdebugTrace(kPMLogComponentWakeProgress, 0, kIOPMLoginWindowProgress, data); + } + } else if (key->isEqualTo(coredisplay_progress_string)) { + if (pmTracer && (n = OSDynamicCast(OSNumber, obj))) { + uint32_t data = n->unsigned32BitValue(); + pmTracer->traceComponentWakeProgress(kIOPMCoreDisplayProgress, data); + kdebugTrace(kPMLogComponentWakeProgress, 0, kIOPMCoreDisplayProgress, data); + } + } else if (key->isEqualTo(coregraphics_progress_string)) { + if (pmTracer && (n = OSDynamicCast(OSNumber, obj))) { + uint32_t data = n->unsigned32BitValue(); + pmTracer->traceComponentWakeProgress(kIOPMCoreGraphicsProgress, data); + kdebugTrace(kPMLogComponentWakeProgress, 0, kIOPMCoreGraphicsProgress, data); + } + } else if (key->isEqualTo(kIOPMDeepSleepEnabledKey) || + key->isEqualTo(kIOPMDestroyFVKeyOnStandbyKey) || + key->isEqualTo(kIOPMAutoPowerOffEnabledKey) || + key->isEqualTo(stall_halt_string)) { + if ((b = OSDynamicCast(OSBoolean, obj))) { + setProperty(key, b); + } + } else if (key->isEqualTo(kIOPMDeepSleepDelayKey) || + key->isEqualTo(kIOPMDeepSleepTimerKey) || + key->isEqualTo(kIOPMAutoPowerOffDelayKey) || + key->isEqualTo(kIOPMAutoPowerOffTimerKey)) { + if ((n = OSDynamicCast(OSNumber, obj))) { + setProperty(key, n); + } + } else if (key->isEqualTo(kIOPMUserWakeAlarmScheduledKey)) { + if (kOSBooleanTrue == obj) { + OSBitOrAtomic(kIOPMAlarmBitCalendarWake, &_userScheduledAlarm); + } else { + OSBitAndAtomic(~kIOPMAlarmBitCalendarWake, &_userScheduledAlarm); + } + DLOG("_userScheduledAlarm = 0x%x\n", (uint32_t) _userScheduledAlarm); + } + // Relay our allowed PM settings onto our registered PM clients + else if ((allowedPMSettings->getNextIndexOfObject(key, 0) != (unsigned int) -1)) { + return_value = setPMSetting(key, obj); + if (kIOReturnSuccess != return_value) { + break; + } + + if (gIOPMSettingDebugWakeRelativeKey == key) { + if ((n = OSDynamicCast(OSNumber, obj)) && + (_debugWakeSeconds = n->unsigned32BitValue())) { + OSBitOrAtomic(kIOPMAlarmBitDebugWake, &_scheduledAlarms); + } else { + _debugWakeSeconds = 0; + OSBitAndAtomic(~kIOPMAlarmBitDebugWake, &_scheduledAlarms); + } + DLOG("_scheduledAlarms = 0x%x\n", (uint32_t) _scheduledAlarms); + } else if (gIOPMSettingAutoWakeCalendarKey == key) { + OSData * data; + if ((data = OSDynamicCast(OSData, obj)) && + (data->getLength() == sizeof(IOPMCalendarStruct))) { + const IOPMCalendarStruct * cs = + (const IOPMCalendarStruct *) data->getBytesNoCopy(); + IOLog("gIOPMSettingAutoWakeCalendarKey " YMDTF "\n", YMDT(cs)); + if (cs->year) { + _scheduledAlarmUTC = IOPMConvertCalendarToSeconds(cs); + OSBitOrAtomic(kIOPMAlarmBitCalendarWake, &_scheduledAlarms); + } else { + _scheduledAlarmUTC = 0; + OSBitAndAtomic(~kIOPMAlarmBitCalendarWake, &_scheduledAlarms); + } + DLOG("_scheduledAlarms = 0x%x\n", (uint32_t) _scheduledAlarms); + } + } + } else { + DLOG("setProperties(%s) not handled\n", key->getCStringNoCopy()); + } + } + +exit: + if (publish_simulated_battery_string) { + publish_simulated_battery_string->release(); + } + if (boot_complete_string) { + boot_complete_string->release(); + } + if (sys_shutdown_string) { + sys_shutdown_string->release(); + } + if (stall_halt_string) { + stall_halt_string->release(); + } + if (battery_warning_disabled_string) { + battery_warning_disabled_string->release(); + } + if (idle_seconds_string) { + idle_seconds_string->release(); + } + if (sleepdisabled_string) { + sleepdisabled_string->release(); + } + if (ondeck_sleepwake_uuid_string) { + ondeck_sleepwake_uuid_string->release(); + } + if (loginwindow_progress_string) { + loginwindow_progress_string->release(); + } + if (coredisplay_progress_string) { + coredisplay_progress_string->release(); + } + if (coregraphics_progress_string) { + coregraphics_progress_string->release(); + } +#if HIBERNATION + if (hibernatemode_string) { + hibernatemode_string->release(); + } + if (hibernatefile_string) { + hibernatefile_string->release(); + } + if (hibernatefreeratio_string) { + hibernatefreeratio_string->release(); + } + if (hibernatefreetime_string) { + hibernatefreetime_string->release(); + } +#endif + if (iter) { + iter->release(); + } + return return_value; } -/* - * Static constructor/initializer for PMSettingObject - */ -PMSettingObject *PMSettingObject::pmSettingObject( - IOPMrootDomain *parent_arg, - IOPMSettingControllerCallback handler_arg, - OSObject *target_arg, - uintptr_t refcon_arg, - uint32_t supportedPowerSources, - const OSSymbol * settings[]) -{ - uint32_t objCount = 0; - PMSettingObject *pmso; - - if( !parent_arg || !handler_arg || !settings ) return NULL; - - // count OSSymbol entries in NULL terminated settings array - while( settings[objCount] ) { - objCount++; - } - if(0 == objCount) return NULL; - - pmso = new PMSettingObject; - if(!pmso || !pmso->init()) return NULL; - - pmso->parent = parent_arg; - pmso->func = handler_arg; - pmso->target = target_arg; - pmso->refcon = refcon_arg; - pmso->releaseAtCount = objCount + 1; // release when it has count+1 retains - - pmso->publishedFeatureID = (uint32_t *)IOMalloc(sizeof(uint32_t)*objCount); - if(pmso->publishedFeatureID) { - for(unsigned int i=0; ipublishFeature( settings[i]->getCStringNoCopy(), - supportedPowerSources, &pmso->publishedFeatureID[i] ); - } - } - - return pmso; -} - -void PMSettingObject::free(void) -{ - OSCollectionIterator *settings_iter; - OSSymbol *sym; - OSArray *arr; - int arr_idx; - int i; - int objCount = releaseAtCount - 1; - - if(publishedFeatureID) { - for(i=0; iremovePublishedFeature( publishedFeatureID[i] ); - } - } - - IOFree(publishedFeatureID, sizeof(uint32_t) * objCount); - } - - IORecursiveLockLock(parent->settingsCtrlLock); - - // Search each PM settings array in the kernel. - settings_iter = OSCollectionIterator::withCollection(parent->settingsCallbacks); - if(settings_iter) - { - while(( sym = OSDynamicCast(OSSymbol, settings_iter->getNextObject()) )) - { - arr = (OSArray *)parent->settingsCallbacks->getObject(sym); - arr_idx = arr->getNextIndexOfObject(this, 0); - if(-1 != arr_idx) { - // 'this' was found in the array; remove it - arr->removeObject(arr_idx); - } - } - - settings_iter->release(); - } - - IORecursiveLockUnlock(parent->settingsCtrlLock); - - super::free(); -} - -void PMSettingObject::taggedRelease(const void *tag, const int when) const -{ - // We have n+1 retains - 1 per array that this PMSettingObject is a member - // of, and 1 retain to ourself. When we get a release with n+1 retains - // remaining, we go ahead and free ourselves, cleaning up array pointers - // in free(); - - super::taggedRelease(tag, releaseAtCount); +// MARK: - +// MARK: Aggressiveness + +//****************************************************************************** +// setAggressiveness +// +// Override IOService::setAggressiveness() +//****************************************************************************** + +IOReturn +IOPMrootDomain::setAggressiveness( + unsigned long type, + unsigned long value ) +{ + return setAggressiveness( type, value, 0 ); } +/* + * Private setAggressiveness() with an internal options argument. + */ +IOReturn +IOPMrootDomain::setAggressiveness( + unsigned long type, + unsigned long value, + IOOptionBits options ) +{ + AggressivesRequest * entry; + AggressivesRequest * request; + bool found = false; + + if (type == kPMMinutesToDim || type == kPMMinutesToSleep) { + DLOG("setAggressiveness(%x) %s = %u\n", + (uint32_t) options, getAggressivenessTypeString((uint32_t) type), (uint32_t) value); + } else { + DEBUG_LOG("setAggressiveness(%x) %s = %u\n", + (uint32_t) options, getAggressivenessTypeString((uint32_t) type), (uint32_t) value); + } + request = IONew(AggressivesRequest, 1); + if (!request) { + return kIOReturnNoMemory; + } -/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + memset(request, 0, sizeof(*request)); + request->options = options; + request->dataType = kAggressivesRequestTypeRecord; + request->data.record.type = (uint32_t) type; + request->data.record.value = (uint32_t) value; + + AGGRESSIVES_LOCK(); + + // Update disk quick spindown flag used by getAggressiveness(). + // Never merge requests with quick spindown flags set. + + if (options & kAggressivesOptionQuickSpindownEnable) { + gAggressivesState |= kAggressivesStateQuickSpindown; + } else if (options & kAggressivesOptionQuickSpindownDisable) { + gAggressivesState &= ~kAggressivesStateQuickSpindown; + } else { + // Coalesce requests with identical aggressives types. + // Deal with callers that calls us too "aggressively". + + queue_iterate(&aggressivesQueue, entry, AggressivesRequest *, chain) + { + if ((entry->dataType == kAggressivesRequestTypeRecord) && + (entry->data.record.type == type) && + ((entry->options & kAggressivesOptionQuickSpindownMask) == 0)) { + entry->data.record.value = value; + found = true; + break; + } + } + } -#undef super -#define super IOService + if (!found) { + queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain); + } -OSDefineMetaClassAndStructors(IORootParent, IOService) + AGGRESSIVES_UNLOCK(); -// This array exactly parallels the state array for the root domain. -// Power state changes initiated by a device can be vetoed by a client of the device, and -// power state changes initiated by the parent of a device cannot be vetoed by a client of the device, -// so when the root domain wants a power state change that cannot be vetoed (e.g. demand sleep), it asks -// its parent to make the change. That is the reason for this complexity. + if (found) { + IODelete(request, AggressivesRequest, 1); + } -static IOPMPowerState patriarchPowerStates[number_of_power_states] = { - {1,0,0,0,0,0,0,0,0,0,0,0}, // off - {1,0,RESTART_POWER,0,0,0,0,0,0,0,0,0}, // reset - {1,0,SLEEP_POWER,0,0,0,0,0,0,0,0,0}, // sleep - {1,0,DOZE_POWER,0,0,0,0,0,0,0,0,0}, // doze - {1,0,ON_POWER,0,0,0,0,0,0,0,0,0} // running -}; + if (options & kAggressivesOptionSynchronous) { + handleAggressivesRequests(); // not truly synchronous + } else { + thread_call_enter(aggressivesThreadCall); + } -bool IORootParent::start ( IOService * nub ) -{ - mostRecentChange = ON_STATE; - super::start(nub); - PMinit(); - registerPowerDriver(this,patriarchPowerStates,number_of_power_states); - powerOverrideOnPriv(); - return true; + return kIOReturnSuccess; } +//****************************************************************************** +// getAggressiveness +// +// Override IOService::setAggressiveness() +// Fetch the aggressiveness factor with the given type. +//****************************************************************************** -void IORootParent::shutDownSystem ( void ) +IOReturn +IOPMrootDomain::getAggressiveness( + unsigned long type, + unsigned long * outLevel ) { - mostRecentChange = OFF_STATE; - changePowerStateToPriv(OFF_STATE); -} + uint32_t value = 0; + int source = 0; + if (!outLevel) { + return kIOReturnBadArgument; + } -void IORootParent::restartSystem ( void ) -{ - mostRecentChange = RESTART_STATE; - changePowerStateToPriv(RESTART_STATE); -} + AGGRESSIVES_LOCK(); + // Disk quick spindown in effect, report value = 1 -void IORootParent::sleepSystem ( void ) -{ - mostRecentChange = SLEEP_STATE; - changePowerStateToPriv(SLEEP_STATE); + if ((gAggressivesState & kAggressivesStateQuickSpindown) && + (type == kPMMinutesToSpinDown)) { + value = kAggressivesMinValue; + source = 1; + } + + // Consult the pending request queue. + + if (!source) { + AggressivesRequest * entry; + + queue_iterate(&aggressivesQueue, entry, AggressivesRequest *, chain) + { + if ((entry->dataType == kAggressivesRequestTypeRecord) && + (entry->data.record.type == type) && + ((entry->options & kAggressivesOptionQuickSpindownMask) == 0)) { + value = entry->data.record.value; + source = 2; + break; + } + } + } + + // Consult the backend records. + + if (!source && aggressivesData) { + AggressivesRecord * record; + int i, count; + + count = aggressivesData->getLength() / sizeof(AggressivesRecord); + record = (AggressivesRecord *) aggressivesData->getBytesNoCopy(); + + for (i = 0; i < count; i++, record++) { + if (record->type == type) { + value = record->value; + source = 3; + break; + } + } + } + + AGGRESSIVES_UNLOCK(); + + if (source) { + *outLevel = (unsigned long) value; + return kIOReturnSuccess; + } else { + DLOG("getAggressiveness type 0x%x not found\n", (uint32_t) type); + *outLevel = 0; // default return = 0, driver may not check for error + return kIOReturnInvalid; + } } +//****************************************************************************** +// joinAggressiveness +// +// Request from IOService to join future aggressiveness broadcasts. +//****************************************************************************** -void IORootParent::dozeSystem ( void ) +IOReturn +IOPMrootDomain::joinAggressiveness( + IOService * service ) { - mostRecentChange = DOZE_STATE; - changePowerStateToPriv(DOZE_STATE); -} + AggressivesRequest * request; + + if (!service || (service == this)) { + return kIOReturnBadArgument; + } + + DEBUG_LOG("joinAggressiveness %s %p\n", service->getName(), OBFUSCATE(service)); -// Called in demand sleep when sleep discovered to be impossible after actually attaining that state. -// This brings the parent to doze, which allows the root to step up from sleep to doze. + request = IONew(AggressivesRequest, 1); + if (!request) { + return kIOReturnNoMemory; + } -// In idle sleep, do nothing because the parent is still on and the root can freely change state. + service->retain(); // released by synchronizeAggressives() -void IORootParent::sleepToDoze ( void ) -{ - if ( mostRecentChange == SLEEP_STATE ) { - changePowerStateToPriv(DOZE_STATE); - } + memset(request, 0, sizeof(*request)); + request->dataType = kAggressivesRequestTypeService; + request->data.service = service; + + AGGRESSIVES_LOCK(); + queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain); + AGGRESSIVES_UNLOCK(); + + thread_call_enter(aggressivesThreadCall); + + return kIOReturnSuccess; } +//****************************************************************************** +// handleAggressivesRequests +// +// Backend thread processes all incoming aggressiveness requests in the queue. +//****************************************************************************** -void IORootParent::wakeSystem ( void ) +static void +handleAggressivesFunction( + thread_call_param_t param1, + thread_call_param_t param2 ) { - mostRecentChange = ON_STATE; - changePowerStateToPriv(ON_STATE); + if (param1) { + ((IOPMrootDomain *) param1)->handleAggressivesRequests(); + } } -IOReturn IORootParent::changePowerStateToPriv ( unsigned long ordinal ) +void +IOPMrootDomain::handleAggressivesRequests( void ) { - IOReturn ret; + AggressivesRecord * start; + AggressivesRecord * record; + AggressivesRequest * request; + queue_head_t joinedQueue; + int i, count; + bool broadcast; + bool found; + bool pingSelf = false; + + AGGRESSIVES_LOCK(); + + if ((gAggressivesState & kAggressivesStateBusy) || !aggressivesData || + queue_empty(&aggressivesQueue)) { + goto unlock_done; + } + + gAggressivesState |= kAggressivesStateBusy; + count = aggressivesData->getLength() / sizeof(AggressivesRecord); + start = (AggressivesRecord *) aggressivesData->getBytesNoCopy(); + + do{ + broadcast = false; + queue_init(&joinedQueue); + + do{ + // Remove request from the incoming queue in FIFO order. + queue_remove_first(&aggressivesQueue, request, AggressivesRequest *, chain); + switch (request->dataType) { + case kAggressivesRequestTypeRecord: + // Update existing record if found. + found = false; + for (i = 0, record = start; i < count; i++, record++) { + if (record->type == request->data.record.type) { + found = true; + + if (request->options & kAggressivesOptionQuickSpindownEnable) { + if ((record->flags & kAggressivesRecordFlagMinValue) == 0) { + broadcast = true; + record->flags |= (kAggressivesRecordFlagMinValue | + kAggressivesRecordFlagModified); + DLOG("disk spindown accelerated, was %u min\n", + record->value); + } + } else if (request->options & kAggressivesOptionQuickSpindownDisable) { + if (record->flags & kAggressivesRecordFlagMinValue) { + broadcast = true; + record->flags |= kAggressivesRecordFlagModified; + record->flags &= ~kAggressivesRecordFlagMinValue; + DLOG("disk spindown restored to %u min\n", + record->value); + } + } else if (record->value != request->data.record.value) { + record->value = request->data.record.value; + if ((record->flags & kAggressivesRecordFlagMinValue) == 0) { + broadcast = true; + record->flags |= kAggressivesRecordFlagModified; + } + } + break; + } + } + + // No matching record, append a new record. + if (!found && + ((request->options & kAggressivesOptionQuickSpindownDisable) == 0)) { + AggressivesRecord newRecord; + + newRecord.flags = kAggressivesRecordFlagModified; + newRecord.type = request->data.record.type; + newRecord.value = request->data.record.value; + if (request->options & kAggressivesOptionQuickSpindownEnable) { + newRecord.flags |= kAggressivesRecordFlagMinValue; + DLOG("disk spindown accelerated\n"); + } + + aggressivesData->appendBytes(&newRecord, sizeof(newRecord)); + + // OSData may have switched to another (larger) buffer. + count = aggressivesData->getLength() / sizeof(AggressivesRecord); + start = (AggressivesRecord *) aggressivesData->getBytesNoCopy(); + broadcast = true; + } + + // Finished processing the request, release it. + IODelete(request, AggressivesRequest, 1); + break; + + case kAggressivesRequestTypeService: + // synchronizeAggressives() will free request. + queue_enter(&joinedQueue, request, AggressivesRequest *, chain); + break; + + default: + panic("bad aggressives request type %x\n", request->dataType); + break; + } + } while (!queue_empty(&aggressivesQueue)); + + // Release the lock to perform work, with busy flag set. + if (!queue_empty(&joinedQueue) || broadcast) { + AGGRESSIVES_UNLOCK(); + if (!queue_empty(&joinedQueue)) { + synchronizeAggressives(&joinedQueue, start, count); + } + if (broadcast) { + broadcastAggressives(start, count); + } + AGGRESSIVES_LOCK(); + } + + // Remove the modified flag from all records. + for (i = 0, record = start; i < count; i++, record++) { + if ((record->flags & kAggressivesRecordFlagModified) && + ((record->type == kPMMinutesToDim) || + (record->type == kPMMinutesToSleep))) { + pingSelf = true; + } + + record->flags &= ~kAggressivesRecordFlagModified; + } + + // Check the incoming queue again since new entries may have been + // added while lock was released above. + } while (!queue_empty(&aggressivesQueue)); - if( SLEEP_STATE == ordinal && sleepSupportedPEFunction ) - { + gAggressivesState &= ~kAggressivesStateBusy; - // Determine if the machine supports sleep, or must doze. - ret = getPlatform()->callPlatformFunction( - sleepSupportedPEFunction, false, - NULL, NULL, NULL, NULL); - - // If the machine only supports doze, the callPlatformFunction call - // boils down toIOPMrootDomain::setSleepSupported(kPCICantSleep), - // otherwise nothing. - } +unlock_done: + AGGRESSIVES_UNLOCK(); - return super::changePowerStateToPriv(ordinal); + // Root domain is interested in system and display sleep slider changes. + // Submit a power event to handle those changes on the PM work loop. + + if (pingSelf && pmPowerStateQueue) { + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusAggressivenessChanged ); + } } +//****************************************************************************** +// synchronizeAggressives +// +// Push all known aggressiveness records to one or more IOService. +//****************************************************************************** + +void +IOPMrootDomain::synchronizeAggressives( + queue_head_t * joinedQueue, + const AggressivesRecord * array, + int count ) +{ + IOService * service; + AggressivesRequest * request; + const AggressivesRecord * record; + IOPMDriverCallEntry callEntry; + uint32_t value; + int i; + + while (!queue_empty(joinedQueue)) { + queue_remove_first(joinedQueue, request, AggressivesRequest *, chain); + if (request->dataType == kAggressivesRequestTypeService) { + service = request->data.service; + } else { + service = NULL; + } + + IODelete(request, AggressivesRequest, 1); + request = NULL; + + if (service) { + if (service->assertPMDriverCall(&callEntry, kIOPMDriverCallMethodSetAggressive)) { + for (i = 0, record = array; i < count; i++, record++) { + value = record->value; + if (record->flags & kAggressivesRecordFlagMinValue) { + value = kAggressivesMinValue; + } + + _LOG("synchronizeAggressives 0x%x = %u to %s\n", + record->type, value, service->getName()); + service->setAggressiveness(record->type, value); + } + service->deassertPMDriverCall(&callEntry); + } + service->release(); // retained by joinAggressiveness() + } + } +} + +//****************************************************************************** +// broadcastAggressives +// +// Traverse PM tree and call setAggressiveness() for records that have changed. +//****************************************************************************** + +void +IOPMrootDomain::broadcastAggressives( + const AggressivesRecord * array, + int count ) +{ + IORegistryIterator * iter; + IORegistryEntry * entry; + IOPowerConnection * connect; + IOService * service; + const AggressivesRecord * record; + IOPMDriverCallEntry callEntry; + uint32_t value; + int i; + + iter = IORegistryIterator::iterateOver( + this, gIOPowerPlane, kIORegistryIterateRecursively); + if (iter) { + do{ + iter->reset(); + while ((entry = iter->getNextObject())) { + connect = OSDynamicCast(IOPowerConnection, entry); + if (!connect || !connect->getReadyFlag()) { + continue; + } + + if ((service = OSDynamicCast(IOService, connect->copyChildEntry(gIOPowerPlane)))) { + if (service->assertPMDriverCall(&callEntry, kIOPMDriverCallMethodSetAggressive)) { + for (i = 0, record = array; i < count; i++, record++) { + if (record->flags & kAggressivesRecordFlagModified) { + value = record->value; + if (record->flags & kAggressivesRecordFlagMinValue) { + value = kAggressivesMinValue; + } + _LOG("broadcastAggressives %x = %u to %s\n", + record->type, value, service->getName()); + service->setAggressiveness(record->type, value); + } + } + service->deassertPMDriverCall(&callEntry); + } + service->release(); + } + } + }while (!entry && !iter->isValid()); + iter->release(); + } +} + +//***************************************** +// stackshot on power button press +// *************************************** +static void +powerButtonDownCallout(thread_call_param_t us, thread_call_param_t ) +{ + /* Power button pressed during wake + * Take a stackshot + */ + DEBUG_LOG("Powerbutton: down. Taking stackshot\n"); + ((IOPMrootDomain *)us)->takeStackshot(false); +} + +static void +powerButtonUpCallout(thread_call_param_t us, thread_call_param_t) +{ + /* Power button released. + * Delete any stackshot data + */ + DEBUG_LOG("PowerButton: up callout. Delete stackshot\n"); + ((IOPMrootDomain *)us)->deleteStackshot(); +} +//************************************************************************* +// + +// MARK: - +// MARK: System Sleep + +//****************************************************************************** +// startIdleSleepTimer +// +//****************************************************************************** + +void +IOPMrootDomain::startIdleSleepTimer( uint32_t inSeconds ) +{ + AbsoluteTime deadline; + + ASSERT_GATED(); + if (gNoIdleFlag) { + DLOG("idle timer not set (noidle=%d)\n", gNoIdleFlag); + return; + } + if (inSeconds) { + clock_interval_to_deadline(inSeconds, kSecondScale, &deadline); + thread_call_enter_delayed(extraSleepTimer, deadline); + idleSleepTimerPending = true; + } else { + thread_call_enter(extraSleepTimer); + } + DLOG("idle timer set for %u seconds\n", inSeconds); +} + +//****************************************************************************** +// cancelIdleSleepTimer +// +//****************************************************************************** + +void +IOPMrootDomain::cancelIdleSleepTimer( void ) +{ + ASSERT_GATED(); + if (idleSleepTimerPending) { + DLOG("idle timer cancelled\n"); + thread_call_cancel(extraSleepTimer); + idleSleepTimerPending = false; + + if (!assertOnWakeSecs && gIOLastWakeAbsTime) { + AbsoluteTime now; + clock_usec_t microsecs; + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_microtime(now, &assertOnWakeSecs, µsecs); + if (assertOnWakeReport) { + HISTREPORT_TALLYVALUE(assertOnWakeReport, (int64_t)assertOnWakeSecs); + DLOG("Updated assertOnWake %lu\n", (unsigned long)assertOnWakeSecs); + } + } + } +} + +//****************************************************************************** +// idleSleepTimerExpired +// +//****************************************************************************** + +static void +idleSleepTimerExpired( + thread_call_param_t us, thread_call_param_t ) +{ + ((IOPMrootDomain *)us)->handleSleepTimerExpiration(); +} + +//****************************************************************************** +// handleSleepTimerExpiration +// +// The time between the sleep idle timeout and the next longest one has elapsed. +// It's time to sleep. Start that by removing the clamp that's holding us awake. +//****************************************************************************** + +void +IOPMrootDomain::handleSleepTimerExpiration( void ) +{ + if (!gIOPMWorkLoop->inGate()) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, + &IOPMrootDomain::handleSleepTimerExpiration), + this); + return; + } + + AbsoluteTime time; + + DLOG("sleep timer expired\n"); + ASSERT_GATED(); + + idleSleepTimerPending = false; + + clock_get_uptime(&time); + setQuickSpinDownTimeout(); + adjustPowerState(true); +} + +//****************************************************************************** +// getTimeToIdleSleep +// +// Returns number of seconds left before going into idle sleep. +// Caller has to make sure that idle sleep is allowed at the time of calling +// this function +//****************************************************************************** + +uint32_t +IOPMrootDomain::getTimeToIdleSleep( void ) +{ + AbsoluteTime now, lastActivityTime; + uint64_t nanos; + uint32_t minutesSinceUserInactive = 0; + uint32_t sleepDelay = 0; + + if (!idleSleepEnabled) { + return 0xffffffff; + } + + if (userActivityTime) { + lastActivityTime = userActivityTime; + } else { + lastActivityTime = userBecameInactiveTime; + } + + clock_get_uptime(&now); + if (CMP_ABSOLUTETIME(&now, &lastActivityTime) > 0) { + SUB_ABSOLUTETIME(&now, &lastActivityTime); + absolutetime_to_nanoseconds(now, &nanos); + minutesSinceUserInactive = nanos / (60000000000ULL); + + if (minutesSinceUserInactive >= sleepSlider) { + sleepDelay = 0; + } else { + sleepDelay = sleepSlider - minutesSinceUserInactive; + } + } else { + sleepDelay = sleepSlider; + } + + DLOG("user inactive %u min, time to idle sleep %u min\n", + minutesSinceUserInactive, sleepDelay); + + return sleepDelay * 60; +} + +//****************************************************************************** +// setQuickSpinDownTimeout +// +//****************************************************************************** + +void +IOPMrootDomain::setQuickSpinDownTimeout( void ) +{ + ASSERT_GATED(); + setAggressiveness( + kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownEnable ); +} + +//****************************************************************************** +// restoreUserSpinDownTimeout +// +//****************************************************************************** + +void +IOPMrootDomain::restoreUserSpinDownTimeout( void ) +{ + ASSERT_GATED(); + setAggressiveness( + kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownDisable ); +} + +//****************************************************************************** +// sleepSystem +// +//****************************************************************************** + +/* public */ +IOReturn +IOPMrootDomain::sleepSystem( void ) +{ + return sleepSystemOptions(NULL); +} + +/* private */ +IOReturn +IOPMrootDomain::sleepSystemOptions( OSDictionary *options ) +{ + OSObject *obj = NULL; + OSString *reason = NULL; + /* sleepSystem is a public function, and may be called by any kernel driver. + * And that's bad - drivers should sleep the system by calling + * receivePowerNotification() instead. Drivers should not use sleepSystem. + * + * Note that user space app calls to IOPMSleepSystem() will also travel + * this code path and thus be correctly identified as software sleeps. + */ + + if (options && options->getObject("OSSwitch")) { + // Log specific sleep cause for OS Switch hibernation + return privateSleepSystem( kIOPMSleepReasonOSSwitchHibernate); + } + + if (options && (obj = options->getObject("Sleep Reason"))) { + reason = OSDynamicCast(OSString, obj); + if (reason && reason->isEqualTo(kIOPMDarkWakeThermalEmergencyKey)) { + return privateSleepSystem(kIOPMSleepReasonDarkWakeThermalEmergency); + } + } + + return privateSleepSystem( kIOPMSleepReasonSoftware); +} + +/* private */ +IOReturn +IOPMrootDomain::privateSleepSystem( uint32_t sleepReason ) +{ + /* Called from both gated and non-gated context */ + + if (!checkSystemSleepEnabled() || !pmPowerStateQueue) { + return kIOReturnNotPermitted; + } + + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDemandSystemSleep, + sleepReason); + + return kIOReturnSuccess; +} + +//****************************************************************************** +// powerChangeDone +// +// This overrides powerChangeDone in IOService. +//****************************************************************************** +void +IOPMrootDomain::powerChangeDone( unsigned long previousPowerState ) +{ +#if !__i386__ && !__x86_64__ + uint64_t timeSinceReset = 0; +#endif + uint64_t now; + unsigned long newState; + clock_sec_t secs; + clock_usec_t microsecs; +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + clock_sec_t adjWakeTime; + IOPMCalendarStruct nowCalendar; +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + ASSERT_GATED(); + newState = getPowerState(); + DLOG("PowerChangeDone: %s->%s\n", + getPowerStateString((uint32_t) previousPowerState), getPowerStateString((uint32_t) getPowerState())); + + if (previousPowerState == newState) { + return; + } + + notifierThread = current_thread(); + switch (getPowerState()) { + case SLEEP_STATE: { +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (kPMCalendarTypeInvalid != _aotWakeTimeCalendar.selector) { + secs = 0; + microsecs = 0; + PEGetUTCTimeOfDay(&secs, µsecs); + + adjWakeTime = 0; + if ((kIOPMAOTModeRespectTimers & _aotMode) && (_scheduledAlarmUTC < _aotWakeTimeUTC)) { + IOLog("use _scheduledAlarmUTC\n"); + adjWakeTime = _scheduledAlarmUTC; + } else if (_aotExit || (kIOPMWakeEventAOTExitFlags & _aotPendingFlags)) { + IOLog("accelerate _aotWakeTime for exit\n"); + adjWakeTime = secs; + } else if (kIOPMDriverAssertionLevelOn == getPMAssertionLevel(kIOPMDriverAssertionCPUBit)) { + IOLog("accelerate _aotWakeTime for assertion\n"); + adjWakeTime = secs; + } + if (adjWakeTime) { + IOPMConvertSecondsToCalendar(adjWakeTime, &_aotWakeTimeCalendar); + } + + IOPMConvertSecondsToCalendar(secs, &nowCalendar); + IOLog("aotSleep at " YMDTF " sched: " YMDTF "\n", YMDT(&nowCalendar), YMDT(&_aotWakeTimeCalendar)); + + IOReturn __unused ret = setMaintenanceWakeCalendar(&_aotWakeTimeCalendar); + assert(kIOReturnSuccess == ret); + } + if (_aotLastWakeTime) { + _aotMetrics->totalTime += mach_absolute_time() - _aotLastWakeTime; + if (_aotMetrics->sleepCount && (_aotMetrics->sleepCount <= kIOPMAOTMetricsKernelWakeCountMax)) { + strlcpy(&_aotMetrics->kernelWakeReason[_aotMetrics->sleepCount - 1][0], + gWakeReasonString, + sizeof(_aotMetrics->kernelWakeReason[_aotMetrics->sleepCount])); + } + } + _aotPendingFlags &= ~kIOPMWakeEventAOTPerCycleFlags; +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + acceptSystemWakeEvents(true); + + // re-enable this timer for next sleep + cancelIdleSleepTimer(); + + clock_get_calendar_absolute_and_microtime(&secs, µsecs, &now); + logtime(secs); + gIOLastSleepTime.tv_sec = secs; + gIOLastSleepTime.tv_usec = microsecs; +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (!_aotLastWakeTime) { + gIOLastUserSleepTime = gIOLastSleepTime; + } +#else + gIOLastUserSleepTime = gIOLastSleepTime; +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + gIOLastWakeTime.tv_sec = 0; + gIOLastWakeTime.tv_usec = 0; + gIOLastSleepAbsTime = now; + + if (wake2DarkwakeDelay && sleepDelaysReport) { + clock_sec_t wake2DarkwakeSecs, darkwake2SleepSecs; + // Update 'wake2DarkwakeDelay' histogram if this is a fullwake->sleep transition + + SUB_ABSOLUTETIME(&now, &ts_sleepStart); + absolutetime_to_microtime(now, &darkwake2SleepSecs, µsecs); + absolutetime_to_microtime(wake2DarkwakeDelay, &wake2DarkwakeSecs, µsecs); + HISTREPORT_TALLYVALUE(sleepDelaysReport, + (int64_t)(wake2DarkwakeSecs + darkwake2SleepSecs)); + + DLOG("Updated sleepDelaysReport %lu %lu\n", (unsigned long)wake2DarkwakeSecs, (unsigned long)darkwake2SleepSecs); + wake2DarkwakeDelay = 0; + } +#if HIBERNATION + LOG("System %sSleep\n", gIOHibernateState ? "Safe" : ""); + + IOHibernateSystemHasSlept(); + + evaluateSystemSleepPolicyFinal(); +#else + LOG("System Sleep\n"); +#endif + if (thermalWarningState) { + const OSSymbol *event = OSSymbol::withCString(kIOPMThermalLevelWarningKey); + if (event) { + systemPowerEventOccurred(event, kIOPMThermalLevelUnknown); + event->release(); + } + } + assertOnWakeSecs = 0; + lowBatteryCondition = false; + +#if DEVELOPMENT || DEBUG + extern int g_should_log_clock_adjustments; + if (g_should_log_clock_adjustments) { + clock_sec_t secs = 0; + clock_usec_t microsecs = 0; + uint64_t now_b = mach_absolute_time(); + + secs = 0; + microsecs = 0; + PEGetUTCTimeOfDay(&secs, µsecs); + + uint64_t now_a = mach_absolute_time(); + os_log(OS_LOG_DEFAULT, "%s PMU before going to sleep %lu s %d u %llu abs_b_PEG %llu abs_a_PEG \n", + __func__, (unsigned long)secs, microsecs, now_b, now_a); + } +#endif + + getPlatform()->sleepKernel(); + + // The CPU(s) are off at this point, + // Code will resume execution here upon wake. + + clock_get_uptime(&gIOLastWakeAbsTime); + IOLog("gIOLastWakeAbsTime: %lld\n", gIOLastWakeAbsTime); + _highestCapability = 0; + +#if HIBERNATION + IOHibernateSystemWake(); +#endif + + // sleep transition complete + gSleepOrShutdownPending = 0; + + // trip the reset of the calendar clock + clock_wakeup_calendar(); + clock_get_calendar_microtime(&secs, µsecs); + gIOLastWakeTime.tv_sec = secs; + gIOLastWakeTime.tv_usec = microsecs; + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + // aot + if (_aotWakeTimeCalendar.selector != kPMCalendarTypeInvalid) { + _aotWakeTimeCalendar.selector = kPMCalendarTypeInvalid; + secs = 0; + microsecs = 0; + PEGetUTCTimeOfDay(&secs, µsecs); + IOPMConvertSecondsToCalendar(secs, &nowCalendar); + IOLog("aotWake at " YMDTF " sched: " YMDTF "\n", YMDT(&nowCalendar), YMDT(&_aotWakeTimeCalendar)); + _aotMetrics->sleepCount++; + _aotLastWakeTime = gIOLastWakeAbsTime; + if (_aotMetrics->sleepCount <= kIOPMAOTMetricsKernelWakeCountMax) { + _aotMetrics->kernelSleepTime[_aotMetrics->sleepCount - 1] + = (((uint64_t) gIOLastSleepTime.tv_sec) << 10) + (gIOLastSleepTime.tv_usec / 1000); + _aotMetrics->kernelWakeTime[_aotMetrics->sleepCount - 1] + = (((uint64_t) gIOLastWakeTime.tv_sec) << 10) + (gIOLastWakeTime.tv_usec / 1000); + } + + if (_aotTestTime) { + if (_aotWakeTimeUTC <= secs) { + _aotTestTime = _aotTestTime + _aotTestInterval; + } + setWakeTime(_aotTestTime); + } + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +#if HIBERNATION + LOG("System %sWake\n", gIOHibernateState ? "SafeSleep " : ""); +#endif + + lastSleepReason = 0; + + _lastDebugWakeSeconds = _debugWakeSeconds; + _debugWakeSeconds = 0; + _scheduledAlarms = 0; + +#if defined(__i386__) || defined(__x86_64__) + kdebugTrace(kPMLogSystemWake, 0, 0, 0); + wranglerTickled = false; + graphicsSuppressed = false; + darkWakePostTickle = false; + darkWakeHibernateError = false; + darkWakeToSleepASAP = true; + logGraphicsClamp = true; + sleepTimerMaintenance = false; + sleepToStandby = false; + wranglerTickleLatched = false; + userWasActive = false; + isRTCAlarmWake = false; + fullWakeReason = kFullWakeReasonNone; + + OSString * wakeType = OSDynamicCast( + OSString, getProperty(kIOPMRootDomainWakeTypeKey)); + OSString * wakeReason = OSDynamicCast( + OSString, getProperty(kIOPMRootDomainWakeReasonKey)); + + if (wakeReason && (wakeReason->getLength() >= 2) && + gWakeReasonString[0] == '\0') { + // Until the platform driver can claim its wake reasons + strlcat(gWakeReasonString, wakeReason->getCStringNoCopy(), + sizeof(gWakeReasonString)); + } + + if (wakeType && wakeType->isEqualTo(kIOPMrootDomainWakeTypeLowBattery)) { + lowBatteryCondition = true; + darkWakeMaintenance = true; + } else if ((gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) != 0) { +#if HIBERNATION + OSNumber * hibOptions = OSDynamicCast( + OSNumber, getProperty(kIOHibernateOptionsKey)); + if (hibernateAborted || ((hibOptions && + !(hibOptions->unsigned32BitValue() & kIOHibernateOptionDarkWake)))) { + // Hibernate aborted, or EFI brought up graphics + wranglerTickled = true; + if (hibernateAborted) { + DLOG("Hibernation aborted\n"); + } else { + DLOG("EFI brought up graphics. Going to full wake. HibOptions: 0x%x\n", hibOptions->unsigned32BitValue()); + } + } else +#endif + if (wakeType && ( + wakeType->isEqualTo(kIOPMRootDomainWakeTypeUser) || + wakeType->isEqualTo(kIOPMRootDomainWakeTypeAlarm))) { + // User wake or RTC alarm + wranglerTickled = true; + if (wakeType->isEqualTo(kIOPMRootDomainWakeTypeAlarm)) { + isRTCAlarmWake = true; + } + } else if (wakeType && + wakeType->isEqualTo(kIOPMRootDomainWakeTypeSleepTimer)) { + // SMC standby timer trumps SleepX + darkWakeMaintenance = true; + sleepTimerMaintenance = true; + } else if ((_lastDebugWakeSeconds != 0) && + ((gDarkWakeFlags & kDarkWakeFlagAlarmIsDark) == 0)) { + // SleepX before maintenance + wranglerTickled = true; + } else if (wakeType && + wakeType->isEqualTo(kIOPMRootDomainWakeTypeMaintenance)) { + darkWakeMaintenance = true; + } else if (wakeType && + wakeType->isEqualTo(kIOPMRootDomainWakeTypeSleepService)) { + darkWakeMaintenance = true; + darkWakeSleepService = true; +#if HIBERNATION + if (kIOHibernateStateWakingFromHibernate == gIOHibernateState) { + sleepToStandby = true; + } +#endif + } else if (wakeType && + wakeType->isEqualTo(kIOPMRootDomainWakeTypeHibernateError)) { + darkWakeMaintenance = true; + darkWakeHibernateError = true; + } else { + // Unidentified wake source, resume to full wake if debug + // alarm is pending. + + if (_lastDebugWakeSeconds && + (!wakeReason || wakeReason->isEqualTo(""))) { + wranglerTickled = true; + } + } + } else { + if (wakeType && + wakeType->isEqualTo(kIOPMRootDomainWakeTypeSleepTimer)) { + darkWakeMaintenance = true; + sleepTimerMaintenance = true; + } else if (hibernateAborted || !wakeType || + !wakeType->isEqualTo(kIOPMRootDomainWakeTypeMaintenance) || + !wakeReason || !wakeReason->isEqualTo("RTC")) { + // Post a HID tickle immediately - except for RTC maintenance wake. + wranglerTickled = true; + } else { + darkWakeMaintenance = true; + } + } + + if (wranglerTickled) { + darkWakeToSleepASAP = false; + fullWakeReason = kFullWakeReasonLocalUser; + reportUserInput(); + } else if (displayPowerOnRequested && checkSystemCanSustainFullWake()) { + handleDisplayPowerOn(); + } else if (!darkWakeMaintenance) { + // Early/late tickle for non-maintenance wake. + if (((gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) == + kDarkWakeFlagHIDTickleEarly) || + ((gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) == + kDarkWakeFlagHIDTickleLate)) { + darkWakePostTickle = true; + } + } +#else /* !__i386__ && !__x86_64__ */ + timeSinceReset = ml_get_time_since_reset(); + + kdebugTrace(kPMLogSystemWake, 0, timeSinceReset >> 32, timeSinceReset); + // stay awake for at least 30 seconds + wranglerTickled = true; + fullWakeReason = kFullWakeReasonLocalUser; + startIdleSleepTimer(30); +#endif + sleepCnt++; + + thread_call_enter(updateConsoleUsersEntry); + + changePowerStateToPriv(getRUN_STATE()); + break; + } +#if !__i386__ && !__x86_64__ + case ON_STATE: + case AOT_STATE: + { + DLOG("Force re-evaluating aggressiveness\n"); + /* Force re-evaluate the aggressiveness values to set appropriate idle sleep timer */ + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusNoIdleSleepPreventers ); + + // After changing to ON_STATE, invalidate any previously queued + // request to change to a state less than ON_STATE. This isn't + // necessary for AOT_STATE or if the device has only one running + // state since the changePowerStateToPriv() issued at the tail + // end of SLEEP_STATE case should take care of that. + if (getPowerState() == ON_STATE) { + changePowerStateToPriv(ON_STATE); + } + break; + } +#endif /* !__i386__ && !__x86_64__ */ + } + notifierThread = NULL; +} + +//****************************************************************************** +// requestPowerDomainState +// +// Extend implementation in IOService. Running on PM work loop thread. +//****************************************************************************** + +IOReturn +IOPMrootDomain::requestPowerDomainState( + IOPMPowerFlags childDesire, + IOPowerConnection * childConnection, + unsigned long specification ) +{ + // Idle and system sleep prevention flags affects driver desire. + // Children desire are irrelevant so they are cleared. + + return super::requestPowerDomainState(0, childConnection, specification); +} + + +//****************************************************************************** +// updatePreventIdleSleepList +// +// Called by IOService on PM work loop. +// Returns true if PM policy recognized the driver's desire to prevent idle +// sleep and updated the list of idle sleep preventers. Returns false otherwise +//****************************************************************************** + +bool +IOPMrootDomain::updatePreventIdleSleepList( + IOService * service, bool addNotRemove) +{ + unsigned int oldCount; + + oldCount = idleSleepPreventersCount(); + return updatePreventIdleSleepListInternal(service, addNotRemove, oldCount); +} + +bool +IOPMrootDomain::updatePreventIdleSleepListInternal( + IOService * service, bool addNotRemove, unsigned int oldCount) +{ + unsigned int newCount; + + ASSERT_GATED(); + +#if defined(__i386__) || defined(__x86_64__) + // Disregard disk I/O (besides the display wrangler) as a factor preventing + // idle sleep, except in the case of legacy disk I/O + if (service && (service != wrangler) && (service != this)) { + return false; + } +#endif + + if (service) { + if (addNotRemove) { + preventIdleSleepList->setObject(service); + DLOG("prevent idle sleep list: %s+ (%u)\n", + service->getName(), preventIdleSleepList->getCount()); + } else if (preventIdleSleepList->member(service)) { + preventIdleSleepList->removeObject(service); + DLOG("prevent idle sleep list: %s- (%u)\n", + service->getName(), preventIdleSleepList->getCount()); + } + } + newCount = idleSleepPreventersCount(); + + if ((oldCount == 0) && (newCount != 0)) { + // Driver added to empty prevent list. + // Update the driver desire to prevent idle sleep. + // Driver desire does not prevent demand sleep. + + changePowerStateTo(getRUN_STATE()); + } else if ((oldCount != 0) && (newCount == 0)) { + // Last driver removed from prevent list. + // Drop the driver clamp to allow idle sleep. + + changePowerStateTo(SLEEP_STATE); + evaluatePolicy( kStimulusNoIdleSleepPreventers ); + } + messageClient(kIOPMMessageIdleSleepPreventers, systemCapabilityNotifier, + &newCount, sizeof(newCount)); + +#if defined(__i386__) || defined(__x86_64__) + if (addNotRemove && (service == wrangler) && !checkSystemCanSustainFullWake()) { + DLOG("Cannot cancel idle sleep\n"); + return false; // do not idle-cancel + } +#endif + + return true; +} + +//****************************************************************************** +// startSpinDump +//****************************************************************************** + +void +IOPMrootDomain::startSpinDump(uint32_t spindumpKind) +{ + messageClients(kIOPMMessageLaunchBootSpinDump, (void *)(uintptr_t)spindumpKind); +} + +//****************************************************************************** +// preventSystemSleepListUpdate +// +// Called by IOService on PM work loop. +//****************************************************************************** + +void +IOPMrootDomain::updatePreventSystemSleepList( + IOService * service, bool addNotRemove ) +{ + unsigned int oldCount, newCount; + + ASSERT_GATED(); + if (this == service) { + return; + } + + oldCount = preventSystemSleepList->getCount(); + if (addNotRemove) { + preventSystemSleepList->setObject(service); + DLOG("prevent system sleep list: %s+ (%u)\n", + service->getName(), preventSystemSleepList->getCount()); + if (!assertOnWakeSecs && gIOLastWakeAbsTime) { + AbsoluteTime now; + clock_usec_t microsecs; + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_microtime(now, &assertOnWakeSecs, µsecs); + if (assertOnWakeReport) { + HISTREPORT_TALLYVALUE(assertOnWakeReport, (int64_t)assertOnWakeSecs); + DLOG("Updated assertOnWake %lu\n", (unsigned long)assertOnWakeSecs); + } + } + } else if (preventSystemSleepList->member(service)) { + preventSystemSleepList->removeObject(service); + DLOG("prevent system sleep list: %s- (%u)\n", + service->getName(), preventSystemSleepList->getCount()); + + if ((oldCount != 0) && (preventSystemSleepList->getCount() == 0)) { + // Lost all system sleep preventers. + // Send stimulus if system sleep was blocked, and is in dark wake. + evaluatePolicy( kStimulusDarkWakeEvaluate ); + } + } + newCount = preventSystemSleepList->getCount(); + messageClient(kIOPMMessageSystemSleepPreventers, systemCapabilityNotifier, + &newCount, sizeof(newCount)); +} + +void +IOPMrootDomain::copySleepPreventersList(OSArray **idleSleepList, OSArray **systemSleepList) +{ + OSCollectionIterator *iterator = NULL; + OSObject *object = NULL; + OSArray *array = NULL; + + if (!gIOPMWorkLoop->inGate()) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, + &IOPMrootDomain::IOPMrootDomain::copySleepPreventersList), + this, (void *)idleSleepList, (void *)systemSleepList); + return; + } + + if (idleSleepList && preventIdleSleepList && (preventIdleSleepList->getCount() != 0)) { + iterator = OSCollectionIterator::withCollection(preventIdleSleepList); + array = OSArray::withCapacity(5); + + while ((object = iterator->getNextObject())) { + IOService *service = OSDynamicCast(IOService, object); + if (object) { + array->setObject(OSSymbol::withCString(service->getName())); + } + } + + iterator->release(); + *idleSleepList = array; + } + + if (systemSleepList && preventSystemSleepList && (preventSystemSleepList->getCount() != 0)) { + iterator = OSCollectionIterator::withCollection(preventSystemSleepList); + array = OSArray::withCapacity(5); + + while ((object = iterator->getNextObject())) { + IOService *service = OSDynamicCast(IOService, object); + if (object) { + array->setObject(OSSymbol::withCString(service->getName())); + } + } + + iterator->release(); + *systemSleepList = array; + } +} + +void +IOPMrootDomain::copySleepPreventersListWithID(OSArray **idleSleepList, OSArray **systemSleepList) +{ + OSCollectionIterator *iterator = NULL; + OSObject *object = NULL; + OSArray *array = NULL; + + if (!gIOPMWorkLoop->inGate()) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, + &IOPMrootDomain::IOPMrootDomain::copySleepPreventersListWithID), + this, (void *)idleSleepList, (void *)systemSleepList); + return; + } + + if (idleSleepList && preventIdleSleepList && (preventIdleSleepList->getCount() != 0)) { + iterator = OSCollectionIterator::withCollection(preventIdleSleepList); + array = OSArray::withCapacity(5); + + while ((object = iterator->getNextObject())) { + IOService *service = OSDynamicCast(IOService, object); + if (object) { + OSDictionary *dict = OSDictionary::withCapacity(2); + if (dict) { + OSNumber *id = OSNumber::withNumber(service->getRegistryEntryID(), 64); + dict->setObject(kIOPMDriverAssertionRegistryEntryIDKey, id); + dict->setObject(kIOPMDriverAssertionOwnerStringKey, OSSymbol::withCString(service->getName())); + array->setObject(dict); + id->release(); + dict->release(); + } + } + } + + iterator->release(); + *idleSleepList = array; + } + + if (systemSleepList && preventSystemSleepList && (preventSystemSleepList->getCount() != 0)) { + iterator = OSCollectionIterator::withCollection(preventSystemSleepList); + array = OSArray::withCapacity(5); + + while ((object = iterator->getNextObject())) { + IOService *service = OSDynamicCast(IOService, object); + if (object) { + OSDictionary *dict = OSDictionary::withCapacity(2); + if (dict) { + OSNumber *id = OSNumber::withNumber(service->getRegistryEntryID(), 64); + dict->setObject(kIOPMDriverAssertionRegistryEntryIDKey, id); + dict->setObject(kIOPMDriverAssertionOwnerStringKey, OSSymbol::withCString(service->getName())); + array->setObject(dict); + id->release(); + dict->release(); + } + } + } + + iterator->release(); + *systemSleepList = array; + } +} + +//****************************************************************************** +// tellChangeDown +// +// Override the superclass implementation to send a different message type. +//****************************************************************************** + +bool +IOPMrootDomain::tellChangeDown( unsigned long stateNum ) +{ + DLOG("tellChangeDown %s->%s\n", + getPowerStateString((uint32_t) getPowerState()), getPowerStateString((uint32_t) stateNum)); + + if (SLEEP_STATE == stateNum) { + // Legacy apps were already told in the full->dark transition + if (!ignoreTellChangeDown) { + tracePoint( kIOPMTracePointSleepApplications ); + } else { + tracePoint( kIOPMTracePointSleepPriorityClients ); + } + } + + if (!ignoreTellChangeDown) { + userActivityAtSleep = userActivityCount; + DLOG("tellChangeDown::userActivityAtSleep %d\n", userActivityAtSleep); + + if (SLEEP_STATE == stateNum) { + hibernateAborted = false; + + // Direct callout into OSKext so it can disable kext unloads + // during sleep/wake to prevent deadlocks. + OSKextSystemSleepOrWake( kIOMessageSystemWillSleep ); + + IOService::updateConsoleUsers(NULL, kIOMessageSystemWillSleep); + + // Two change downs are sent by IOServicePM. Ignore the 2nd. + // But tellClientsWithResponse() must be called for both. + ignoreTellChangeDown = true; + } + } + + return super::tellClientsWithResponse( kIOMessageSystemWillSleep ); +} + +//****************************************************************************** +// askChangeDown +// +// Override the superclass implementation to send a different message type. +// This must be idle sleep since we don't ask during any other power change. +//****************************************************************************** + +bool +IOPMrootDomain::askChangeDown( unsigned long stateNum ) +{ + DLOG("askChangeDown %s->%s\n", + getPowerStateString((uint32_t) getPowerState()), getPowerStateString((uint32_t) stateNum)); + + // Don't log for dark wake entry + if (kSystemTransitionSleep == _systemTransitionType) { + tracePoint( kIOPMTracePointSleepApplications ); + } + + return super::tellClientsWithResponse( kIOMessageCanSystemSleep ); +} + +//****************************************************************************** +// askChangeDownDone +// +// An opportunity for root domain to cancel the power transition, +// possibily due to an assertion created by powerd in response to +// kIOMessageCanSystemSleep. +// +// Idle sleep: +// full -> dark wake transition +// 1. Notify apps and powerd with kIOMessageCanSystemSleep +// 2. askChangeDownDone() +// dark -> sleep transition +// 1. Notify powerd with kIOMessageCanSystemSleep +// 2. askChangeDownDone() +// +// Demand sleep: +// full -> dark wake transition +// 1. Notify powerd with kIOMessageCanSystemSleep +// 2. askChangeDownDone() +// dark -> sleep transition +// 1. Notify powerd with kIOMessageCanSystemSleep +// 2. askChangeDownDone() +//****************************************************************************** + +void +IOPMrootDomain::askChangeDownDone( + IOPMPowerChangeFlags * inOutChangeFlags, bool * cancel ) +{ + DLOG("askChangeDownDone(0x%x, %u) type %x, cap %x->%x\n", + *inOutChangeFlags, *cancel, + _systemTransitionType, + _currentCapability, _pendingCapability); + + if ((false == *cancel) && (kSystemTransitionSleep == _systemTransitionType)) { + // Dark->Sleep transition. + // Check if there are any deny sleep assertions. + // lastSleepReason already set by handleOurPowerChangeStart() + + if (!checkSystemCanSleep(lastSleepReason)) { + // Cancel dark wake to sleep transition. + // Must re-scan assertions upon entering dark wake. + + *cancel = true; + DLOG("cancel dark->sleep\n"); + } +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (_aotMode && (kPMCalendarTypeInvalid != _aotWakeTimeCalendar.selector)) { + uint64_t now = mach_continuous_time(); + if (((now + _aotWakePreWindow) >= _aotWakeTimeContinuous) + && (now < (_aotWakeTimeContinuous + _aotWakePostWindow))) { + *cancel = true; + IOLog("AOT wake window cancel: %qd, %qd\n", now, _aotWakeTimeContinuous); + } + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + } +} + +//****************************************************************************** +// systemDidNotSleep +// +// Work common to both canceled or aborted sleep. +//****************************************************************************** + +void +IOPMrootDomain::systemDidNotSleep( void ) +{ + // reset console lock state + thread_call_enter(updateConsoleUsersEntry); + + if (!wrangler) { + if (idleSleepEnabled) { + // stay awake for at least idleSeconds + startIdleSleepTimer(idleSeconds); + } + } else { + if (idleSleepEnabled && !userIsActive) { + // Manually start the idle sleep timer besides waiting for + // the user to become inactive. + startIdleSleepTimer( kIdleSleepRetryInterval ); + } + } + + preventTransitionToUserActive(false); + IOService::setAdvisoryTickleEnable( true ); + + // After idle revert and cancel, send a did-change message to powerd + // to balance the previous will-change message. Kernel clients do not + // need this since sleep cannot be canceled once they are notified. + + if (toldPowerdCapWillChange && systemCapabilityNotifier && + (_pendingCapability != _currentCapability) && + ((_systemMessageClientMask & kSystemMessageClientPowerd) != 0)) { + // Differs from a real capability gain change where notifyRef != 0, + // but it is zero here since no response is expected. + + IOPMSystemCapabilityChangeParameters params; + + bzero(¶ms, sizeof(params)); + params.fromCapabilities = _pendingCapability; + params.toCapabilities = _currentCapability; + params.changeFlags = kIOPMSystemCapabilityDidChange; + + DLOG("MESG cap %x->%x did change\n", + params.fromCapabilities, params.toCapabilities); + messageClient(kIOMessageSystemCapabilityChange, systemCapabilityNotifier, + ¶ms, sizeof(params)); + } +} + +//****************************************************************************** +// tellNoChangeDown +// +// Notify registered applications and kernel clients that we are not dropping +// power. +// +// We override the superclass implementation so we can send a different message +// type to the client or application being notified. +// +// This must be a vetoed idle sleep, since no other power change can be vetoed. +//****************************************************************************** + +void +IOPMrootDomain::tellNoChangeDown( unsigned long stateNum ) +{ + DLOG("tellNoChangeDown %s->%s\n", + getPowerStateString((uint32_t) getPowerState()), getPowerStateString((uint32_t) stateNum)); + + // Sleep canceled, clear the sleep trace point. + tracePoint(kIOPMTracePointSystemUp); + + systemDidNotSleep(); + return tellClients( kIOMessageSystemWillNotSleep ); +} + +//****************************************************************************** +// tellChangeUp +// +// Notify registered applications and kernel clients that we are raising power. +// +// We override the superclass implementation so we can send a different message +// type to the client or application being notified. +//****************************************************************************** + +void +IOPMrootDomain::tellChangeUp( unsigned long stateNum ) +{ + DLOG("tellChangeUp %s->%s\n", + getPowerStateString((uint32_t) getPowerState()), getPowerStateString((uint32_t) stateNum)); + + ignoreTellChangeDown = false; + + if (stateNum == ON_STATE) { + // Direct callout into OSKext so it can disable kext unloads + // during sleep/wake to prevent deadlocks. + OSKextSystemSleepOrWake( kIOMessageSystemHasPoweredOn ); + + // Notify platform that sleep was cancelled or resumed. + getPlatform()->callPlatformFunction( + sleepMessagePEFunction, false, + (void *)(uintptr_t) kIOMessageSystemHasPoweredOn, + NULL, NULL, NULL); + + if (getPowerState() == ON_STATE) { + // Sleep was cancelled by idle cancel or revert + if (!CAP_CURRENT(kIOPMSystemCapabilityGraphics)) { + // rdar://problem/50363791 + // If system is in dark wake and sleep is cancelled, do not + // send SystemWillPowerOn/HasPoweredOn messages to kernel + // priority clients. They haven't yet seen a SystemWillSleep + // message before the cancellation. So make sure the kernel + // client bit is cleared in _systemMessageClientMask before + // invoking the tellClients() below. This bit may have been + // set by handleOurPowerChangeStart() anticipating a successful + // sleep and setting the filter mask ahead of time allows the + // SystemWillSleep message to go through. + _systemMessageClientMask &= ~kSystemMessageClientKernel; + } + + systemDidNotSleep(); + tellClients( kIOMessageSystemWillPowerOn ); + } + + tracePoint( kIOPMTracePointWakeApplications ); + tellClients( kIOMessageSystemHasPoweredOn ); + } +} + +#define CAP_WILL_CHANGE_TO_OFF(params, flag) \ + (((params)->changeFlags & kIOPMSystemCapabilityWillChange) && \ + ((params)->fromCapabilities & (flag)) && \ + (((params)->toCapabilities & (flag)) == 0)) + +#define CAP_DID_CHANGE_TO_ON(params, flag) \ + (((params)->changeFlags & kIOPMSystemCapabilityDidChange) && \ + ((params)->toCapabilities & (flag)) && \ + (((params)->fromCapabilities & (flag)) == 0)) + +#define CAP_DID_CHANGE_TO_OFF(params, flag) \ + (((params)->changeFlags & kIOPMSystemCapabilityDidChange) && \ + ((params)->fromCapabilities & (flag)) && \ + (((params)->toCapabilities & (flag)) == 0)) + +#define CAP_WILL_CHANGE_TO_ON(params, flag) \ + (((params)->changeFlags & kIOPMSystemCapabilityWillChange) && \ + ((params)->toCapabilities & (flag)) && \ + (((params)->fromCapabilities & (flag)) == 0)) + +//****************************************************************************** +// sysPowerDownHandler +// +// Perform a vfs sync before system sleep. +//****************************************************************************** + +IOReturn +IOPMrootDomain::sysPowerDownHandler( + void * target, void * refCon, + UInt32 messageType, IOService * service, + void * messageArgs, vm_size_t argSize ) +{ + static UInt32 lastSystemMessageType = 0; + IOReturn ret = 0; + + DLOG("sysPowerDownHandler message %s\n", getIOMessageString(messageType)); + + // rdar://problem/50363791 + // Sanity check to make sure the SystemWill/Has message types are + // received in the expected order for all kernel priority clients. + if (messageType == kIOMessageSystemWillSleep || + messageType == kIOMessageSystemWillPowerOn || + messageType == kIOMessageSystemHasPoweredOn) { + switch (messageType) { + case kIOMessageSystemWillPowerOn: + assert(lastSystemMessageType == kIOMessageSystemWillSleep); + break; + case kIOMessageSystemHasPoweredOn: + assert(lastSystemMessageType == kIOMessageSystemWillPowerOn); + break; + } + + lastSystemMessageType = messageType; + } + + if (!gRootDomain) { + return kIOReturnUnsupported; + } + + if (messageType == kIOMessageSystemCapabilityChange) { + IOPMSystemCapabilityChangeParameters * params = + (IOPMSystemCapabilityChangeParameters *) messageArgs; + + // Interested applications have been notified of an impending power + // change and have acked (when applicable). + // This is our chance to save whatever state we can before powering + // down. + // We call sync_internal defined in xnu/bsd/vfs/vfs_syscalls.c, + // via callout + + DLOG("sysPowerDownHandler cap %x -> %x (flags %x)\n", + params->fromCapabilities, params->toCapabilities, + params->changeFlags); + + if (CAP_WILL_CHANGE_TO_OFF(params, kIOPMSystemCapabilityCPU)) { + // We will ack within 20 seconds + params->maxWaitForReply = 20 * 1000 * 1000; + +#if HIBERNATION + gRootDomain->evaluateSystemSleepPolicyEarly(); + + // add in time we could spend freeing pages + if (gRootDomain->hibernateMode && !gRootDomain->hibernateDisabled) { + params->maxWaitForReply = kCapabilityClientMaxWait; + } + DLOG("sysPowerDownHandler max wait %d s\n", + (int) (params->maxWaitForReply / 1000 / 1000)); +#endif + + // Notify platform that sleep has begun, after the early + // sleep policy evaluation. + getPlatform()->callPlatformFunction( + sleepMessagePEFunction, false, + (void *)(uintptr_t) kIOMessageSystemWillSleep, + NULL, NULL, NULL); + + if (!OSCompareAndSwap( 0, 1, &gSleepOrShutdownPending )) { + // Purposely delay the ack and hope that shutdown occurs quickly. + // Another option is not to schedule the thread and wait for + // ack timeout... + AbsoluteTime deadline; + clock_interval_to_deadline( 30, kSecondScale, &deadline ); + thread_call_enter1_delayed( + gRootDomain->diskSyncCalloutEntry, + (thread_call_param_t)(uintptr_t) params->notifyRef, + deadline ); + } else { + thread_call_enter1( + gRootDomain->diskSyncCalloutEntry, + (thread_call_param_t)(uintptr_t) params->notifyRef); + } + } +#if HIBERNATION + else if (CAP_DID_CHANGE_TO_ON(params, kIOPMSystemCapabilityCPU)) { + // We will ack within 110 seconds + params->maxWaitForReply = 110 * 1000 * 1000; + + thread_call_enter1( + gRootDomain->diskSyncCalloutEntry, + (thread_call_param_t)(uintptr_t) params->notifyRef); + } +#endif + ret = kIOReturnSuccess; + } + + return ret; +} + +//****************************************************************************** +// handleQueueSleepWakeUUID +// +// Called from IOPMrootDomain when we're initiating a sleep, +// or indirectly from PM configd when PM decides to clear the UUID. +// PM clears the UUID several minutes after successful wake from sleep, +// so that we might associate App spindumps with the immediately previous +// sleep/wake. +// +// @param obj has a retain on it. We're responsible for releasing that retain. +//****************************************************************************** + +void +IOPMrootDomain::handleQueueSleepWakeUUID(OSObject *obj) +{ + OSString *str = NULL; + + if (kOSBooleanFalse == obj) { + handlePublishSleepWakeUUID(NULL); + } else if ((str = OSDynamicCast(OSString, obj))) { + // This branch caches the UUID for an upcoming sleep/wake + if (queuedSleepWakeUUIDString) { + queuedSleepWakeUUIDString->release(); + queuedSleepWakeUUIDString = NULL; + } + queuedSleepWakeUUIDString = str; + queuedSleepWakeUUIDString->retain(); + + DLOG("SleepWake UUID queued: %s\n", queuedSleepWakeUUIDString->getCStringNoCopy()); + } + + if (obj) { + obj->release(); + } + return; +} +//****************************************************************************** +// handlePublishSleepWakeUUID +// +// Called from IOPMrootDomain when we're initiating a sleep, +// or indirectly from PM configd when PM decides to clear the UUID. +// PM clears the UUID several minutes after successful wake from sleep, +// so that we might associate App spindumps with the immediately previous +// sleep/wake. +//****************************************************************************** + +void +IOPMrootDomain::handlePublishSleepWakeUUID( bool shouldPublish ) +{ + ASSERT_GATED(); + + /* + * Clear the current UUID + */ + if (gSleepWakeUUIDIsSet) { + DLOG("SleepWake UUID cleared\n"); + + gSleepWakeUUIDIsSet = false; + + removeProperty(kIOPMSleepWakeUUIDKey); + messageClients(kIOPMMessageSleepWakeUUIDChange, kIOPMMessageSleepWakeUUIDCleared); + } + + /* + * Optionally, publish a new UUID + */ + if (queuedSleepWakeUUIDString && shouldPublish) { + OSString *publishThisUUID = NULL; + + publishThisUUID = queuedSleepWakeUUIDString; + publishThisUUID->retain(); + + if (publishThisUUID) { + setProperty(kIOPMSleepWakeUUIDKey, publishThisUUID); + publishThisUUID->release(); + } + + gSleepWakeUUIDIsSet = true; + messageClients(kIOPMMessageSleepWakeUUIDChange, kIOPMMessageSleepWakeUUIDSet); + + queuedSleepWakeUUIDString->release(); + queuedSleepWakeUUIDString = NULL; + } +} + +//****************************************************************************** +// IOPMGetSleepWakeUUIDKey +// +// Return the truth value of gSleepWakeUUIDIsSet and optionally copy the key. +// To get the full key -- a C string -- the buffer must large enough for +// the end-of-string character. +// The key is expected to be an UUID string +//****************************************************************************** + +extern "C" bool +IOPMCopySleepWakeUUIDKey(char *buffer, size_t buf_len) +{ + if (!gSleepWakeUUIDIsSet) { + return false; + } + + if (buffer != NULL) { + OSString *string; + + string = (OSString *) + gRootDomain->copyProperty(kIOPMSleepWakeUUIDKey); + + if (string == NULL) { + *buffer = '\0'; + } else { + strlcpy(buffer, string->getCStringNoCopy(), buf_len); + + string->release(); + } + } + + return true; +} + +//****************************************************************************** +// initializeBootSessionUUID +// +// Initialize the boot session uuid at boot up and sets it into registry. +//****************************************************************************** + +void +IOPMrootDomain::initializeBootSessionUUID(void) +{ + uuid_t new_uuid; + uuid_string_t new_uuid_string; + + uuid_generate(new_uuid); + uuid_unparse_upper(new_uuid, new_uuid_string); + memcpy(bootsessionuuid_string, new_uuid_string, sizeof(uuid_string_t)); + + setProperty(kIOPMBootSessionUUIDKey, new_uuid_string); +} + +//****************************************************************************** +// changePowerStateTo & changePowerStateToPriv +// +// Override of these methods for logging purposes. +//****************************************************************************** + +IOReturn +IOPMrootDomain::changePowerStateTo( unsigned long ordinal ) +{ + DLOG("changePowerStateTo(%u)\n", (uint32_t) ordinal); + + if ((ordinal != ON_STATE) && (ordinal != AOT_STATE) && (ordinal != SLEEP_STATE)) { + return kIOReturnUnsupported; + } + + return super::changePowerStateTo(ordinal); +} + +IOReturn +IOPMrootDomain::changePowerStateToPriv( unsigned long ordinal ) +{ + DLOG("changePowerStateToPriv(%u)\n", (uint32_t) ordinal); + + if ((ordinal != ON_STATE) && (ordinal != AOT_STATE) && (ordinal != SLEEP_STATE)) { + return kIOReturnUnsupported; + } + + return super::changePowerStateToPriv(ordinal); +} + +//****************************************************************************** +// activity detect +// +//****************************************************************************** + +bool +IOPMrootDomain::activitySinceSleep(void) +{ + return userActivityCount != userActivityAtSleep; +} + +bool +IOPMrootDomain::abortHibernation(void) +{ + bool ret = activitySinceSleep(); + + if (ret && !hibernateAborted && checkSystemCanSustainFullWake()) { + DLOG("activitySinceSleep ABORT [%d, %d]\n", userActivityCount, userActivityAtSleep); + hibernateAborted = true; + } + return ret; +} + +extern "C" int +hibernate_should_abort(void) +{ + if (gRootDomain) { + return gRootDomain->abortHibernation(); + } else { + return 0; + } +} + +//****************************************************************************** +// willNotifyPowerChildren +// +// Called after all interested drivers have all acknowledged the power change, +// but before any power children is informed. Dispatched though a thread call, +// so it is safe to perform work that might block on a sleeping disk. PM state +// machine (not thread) will block w/o timeout until this function returns. +//****************************************************************************** + +void +IOPMrootDomain::willNotifyPowerChildren( IOPMPowerStateIndex newPowerState ) +{ + OSDictionary *dict; + OSNumber *secs; + + if (SLEEP_STATE == newPowerState) { + notifierThread = current_thread(); + if (!tasksSuspended) { + AbsoluteTime deadline; + tasksSuspended = TRUE; + updateTasksSuspend(); + + clock_interval_to_deadline(10, kSecondScale, &deadline); +#if !CONFIG_EMBEDDED + vm_pageout_wait(AbsoluteTime_to_scalar(&deadline)); +#endif /* !CONFIG_EMBEDDED */ + } + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + _aotReadyToFullWake = false; +#if 0 + if (_aotLingerTime) { + uint64_t deadline; + IOLog("aot linger no return\n"); + clock_absolutetime_interval_to_deadline(_aotLingerTime, &deadline); + clock_delay_until(deadline); + } +#endif + if (!_aotMode) { + _aotTestTime = 0; + _aotWakeTimeCalendar.selector = kPMCalendarTypeInvalid; + if (_aotMetrics) { + bzero(_aotMetrics, sizeof(IOPMAOTMetrics)); + } + } else if (!_aotNow && !_debugWakeSeconds) { + _aotNow = true; + _aotExit = false; + _aotPendingFlags = 0; + _aotTasksSuspended = true; + _aotLastWakeTime = 0; + bzero(_aotMetrics, sizeof(IOPMAOTMetrics)); + if (kIOPMAOTModeCycle & _aotMode) { + clock_interval_to_absolutetime_interval(60, kSecondScale, &_aotTestInterval); + _aotTestTime = mach_continuous_time() + _aotTestInterval; + setWakeTime(_aotTestTime); + } + uint32_t lingerSecs; + if (!PE_parse_boot_argn("aotlinger", &lingerSecs, sizeof(lingerSecs))) { + lingerSecs = 0; + } + clock_interval_to_absolutetime_interval(lingerSecs, kSecondScale, &_aotLingerTime); + clock_interval_to_absolutetime_interval(2000, kMillisecondScale, &_aotWakePreWindow); + clock_interval_to_absolutetime_interval(1100, kMillisecondScale, &_aotWakePostWindow); + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +#if HIBERNATION + IOHibernateSystemSleep(); + IOHibernateIOKitSleep(); +#endif + if (gRootDomain->activitySinceSleep()) { + dict = OSDictionary::withCapacity(1); + secs = OSNumber::withNumber(1, 32); + + if (dict && secs) { + dict->setObject(gIOPMSettingDebugWakeRelativeKey, secs); + gRootDomain->setProperties(dict); + MSG("Reverting sleep with relative wake\n"); + } + if (dict) { + dict->release(); + } + if (secs) { + secs->release(); + } + } + + notifierThread = NULL; + } +} + +//****************************************************************************** +// sleepOnClamshellClosed +// +// contains the logic to determine if the system should sleep when the clamshell +// is closed. +//****************************************************************************** + +bool +IOPMrootDomain::shouldSleepOnClamshellClosed( void ) +{ + if (!clamshellExists) { + return false; + } + + DLOG("clamshell closed %d, disabled %d, desktopMode %d, ac %d sleepDisabled %d\n", + clamshellClosed, clamshellDisabled, desktopMode, acAdaptorConnected, clamshellSleepDisabled); + + return !clamshellDisabled && !(desktopMode && acAdaptorConnected) && !clamshellSleepDisabled; +} + +bool +IOPMrootDomain::shouldSleepOnRTCAlarmWake( void ) +{ + // Called once every RTC/Alarm wake. Device should go to sleep if on clamshell + // closed && battery + if (!clamshellExists) { + return false; + } + + DLOG("shouldSleepOnRTCAlarmWake: clamshell closed %d, disabled %d, desktopMode %d, ac %d sleepDisabled %d\n", + clamshellClosed, clamshellDisabled, desktopMode, acAdaptorConnected, clamshellSleepDisabled); + + return !acAdaptorConnected && !clamshellSleepDisabled; +} + +void +IOPMrootDomain::sendClientClamshellNotification( void ) +{ + /* Only broadcast clamshell alert if clamshell exists. */ + if (!clamshellExists) { + return; + } + + setProperty(kAppleClamshellStateKey, + clamshellClosed ? kOSBooleanTrue : kOSBooleanFalse); + + setProperty(kAppleClamshellCausesSleepKey, + shouldSleepOnClamshellClosed() ? kOSBooleanTrue : kOSBooleanFalse); + + /* Argument to message is a bitfiel of + * ( kClamshellStateBit | kClamshellSleepBit ) + */ + messageClients(kIOPMMessageClamshellStateChange, + (void *)(uintptr_t) ((clamshellClosed ? kClamshellStateBit : 0) + | (shouldSleepOnClamshellClosed() ? kClamshellSleepBit : 0))); +} + +//****************************************************************************** +// getSleepSupported +// +// Deprecated +//****************************************************************************** + +IOOptionBits +IOPMrootDomain::getSleepSupported( void ) +{ + return platformSleepSupport; +} + +//****************************************************************************** +// setSleepSupported +// +// Deprecated +//****************************************************************************** + +void +IOPMrootDomain::setSleepSupported( IOOptionBits flags ) +{ + DLOG("setSleepSupported(%x)\n", (uint32_t) flags); + OSBitOrAtomic(flags, &platformSleepSupport); +} + +//****************************************************************************** +// setDisableClamShellSleep +// +//****************************************************************************** + +void +IOPMrootDomain::setDisableClamShellSleep( bool val ) +{ + if (gIOPMWorkLoop->inGate() == false) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, &IOPMrootDomain::setDisableClamShellSleep), + (OSObject *)this, + (void *)val); + + return; + } else { + DLOG("setDisableClamShellSleep(%x)\n", (uint32_t) val); + if (clamshellSleepDisabled != val) { + clamshellSleepDisabled = val; + // If clamshellSleepDisabled is reset to 0, reevaluate if + // system need to go to sleep due to clamshell state + if (!clamshellSleepDisabled && clamshellClosed) { + handlePowerNotification(kLocalEvalClamshellCommand); + } + } + } +} + +//****************************************************************************** +// wakeFromDoze +// +// Deprecated. +//****************************************************************************** + +void +IOPMrootDomain::wakeFromDoze( void ) +{ + // Preserve symbol for familes (IOUSBFamily and IOGraphics) +} + +// MARK: - +// MARK: Features + +//****************************************************************************** +// publishFeature +// +// Adds a new feature to the supported features dictionary +//****************************************************************************** + +void +IOPMrootDomain::publishFeature( const char * feature ) +{ + publishFeature(feature, kRD_AllPowerSources, NULL); +} + +//****************************************************************************** +// publishFeature (with supported power source specified) +// +// Adds a new feature to the supported features dictionary +//****************************************************************************** + +void +IOPMrootDomain::publishFeature( + const char *feature, + uint32_t supportedWhere, + uint32_t *uniqueFeatureID) +{ + static uint16_t next_feature_id = 500; + + OSNumber *new_feature_data = NULL; + OSNumber *existing_feature = NULL; + OSArray *existing_feature_arr = NULL; + OSObject *osObj = NULL; + uint32_t feature_value = 0; + + supportedWhere &= kRD_AllPowerSources; // mask off any craziness! + + if (!supportedWhere) { + // Feature isn't supported anywhere! + return; + } + + if (next_feature_id > 5000) { + // Far, far too many features! + return; + } + + if (featuresDictLock) { + IOLockLock(featuresDictLock); + } + + OSDictionary *features = + (OSDictionary *) getProperty(kRootDomainSupportedFeatures); + + // Create new features dict if necessary + if (features && OSDynamicCast(OSDictionary, features)) { + features = OSDictionary::withDictionary(features); + } else { + features = OSDictionary::withCapacity(1); + } + + // Create OSNumber to track new feature + + next_feature_id += 1; + if (uniqueFeatureID) { + // We don't really mind if the calling kext didn't give us a place + // to stash their unique id. Many kexts don't plan to unload, and thus + // have no need to remove themselves later. + *uniqueFeatureID = next_feature_id; + } + + feature_value = (uint32_t)next_feature_id; + feature_value <<= 16; + feature_value += supportedWhere; + + new_feature_data = OSNumber::withNumber( + (unsigned long long)feature_value, 32); + + // Does features object already exist? + if ((osObj = features->getObject(feature))) { + if ((existing_feature = OSDynamicCast(OSNumber, osObj))) { + // We need to create an OSArray to hold the now 2 elements. + existing_feature_arr = OSArray::withObjects( + (const OSObject **)&existing_feature, 1, 2); + } else if ((existing_feature_arr = OSDynamicCast(OSArray, osObj))) { + // Add object to existing array + existing_feature_arr = OSArray::withArray( + existing_feature_arr, + existing_feature_arr->getCount() + 1); + } + + if (existing_feature_arr) { + existing_feature_arr->setObject(new_feature_data); + features->setObject(feature, existing_feature_arr); + existing_feature_arr->release(); + existing_feature_arr = NULL; + } + } else { + // The easy case: no previously existing features listed. We simply + // set the OSNumber at key 'feature' and we're on our way. + features->setObject(feature, new_feature_data); + } + + new_feature_data->release(); + + setProperty(kRootDomainSupportedFeatures, features); + + features->release(); + + if (featuresDictLock) { + IOLockUnlock(featuresDictLock); + } + + // Notify EnergySaver and all those in user space so they might + // re-populate their feature specific UI + if (pmPowerStateQueue) { + pmPowerStateQueue->submitPowerEvent( kPowerEventFeatureChanged ); + } +} + +//****************************************************************************** +// removePublishedFeature +// +// Removes previously published feature +//****************************************************************************** + +IOReturn +IOPMrootDomain::removePublishedFeature( uint32_t removeFeatureID ) +{ + IOReturn ret = kIOReturnError; + uint32_t feature_value = 0; + uint16_t feature_id = 0; + bool madeAChange = false; + + OSSymbol *dictKey = NULL; + OSCollectionIterator *dictIterator = NULL; + OSArray *arrayMember = NULL; + OSNumber *numberMember = NULL; + OSObject *osObj = NULL; + OSNumber *osNum = NULL; + OSArray *arrayMemberCopy; + + if (kBadPMFeatureID == removeFeatureID) { + return kIOReturnNotFound; + } + + if (featuresDictLock) { + IOLockLock(featuresDictLock); + } + + OSDictionary *features = + (OSDictionary *) getProperty(kRootDomainSupportedFeatures); + + if (features && OSDynamicCast(OSDictionary, features)) { + // Any modifications to the dictionary are made to the copy to prevent + // races & crashes with userland clients. Dictionary updated + // automically later. + features = OSDictionary::withDictionary(features); + } else { + features = NULL; + ret = kIOReturnNotFound; + goto exit; + } + + // We iterate 'features' dictionary looking for an entry tagged + // with 'removeFeatureID'. If found, we remove it from our tracking + // structures and notify the OS via a general interest message. + + dictIterator = OSCollectionIterator::withCollection(features); + if (!dictIterator) { + goto exit; + } + + while ((dictKey = OSDynamicCast(OSSymbol, dictIterator->getNextObject()))) { + osObj = features->getObject(dictKey); + + // Each Feature is either tracked by an OSNumber + if (osObj && (numberMember = OSDynamicCast(OSNumber, osObj))) { + feature_value = numberMember->unsigned32BitValue(); + feature_id = (uint16_t)(feature_value >> 16); + + if (feature_id == (uint16_t)removeFeatureID) { + // Remove this node + features->removeObject(dictKey); + madeAChange = true; + break; + } + + // Or tracked by an OSArray of OSNumbers + } else if (osObj && (arrayMember = OSDynamicCast(OSArray, osObj))) { + unsigned int arrayCount = arrayMember->getCount(); + + for (unsigned int i = 0; i < arrayCount; i++) { + osNum = OSDynamicCast(OSNumber, arrayMember->getObject(i)); + if (!osNum) { + continue; + } + + feature_value = osNum->unsigned32BitValue(); + feature_id = (uint16_t)(feature_value >> 16); + + if (feature_id == (uint16_t)removeFeatureID) { + // Remove this node + if (1 == arrayCount) { + // If the array only contains one element, remove + // the whole thing. + features->removeObject(dictKey); + } else { + // Otherwise remove the element from a copy of the array. + arrayMemberCopy = OSArray::withArray(arrayMember); + if (arrayMemberCopy) { + arrayMemberCopy->removeObject(i); + features->setObject(dictKey, arrayMemberCopy); + arrayMemberCopy->release(); + } + } + + madeAChange = true; + break; + } + } + } + } + + dictIterator->release(); + + if (madeAChange) { + ret = kIOReturnSuccess; + + setProperty(kRootDomainSupportedFeatures, features); + + // Notify EnergySaver and all those in user space so they might + // re-populate their feature specific UI + if (pmPowerStateQueue) { + pmPowerStateQueue->submitPowerEvent( kPowerEventFeatureChanged ); + } + } else { + ret = kIOReturnNotFound; + } + +exit: + if (features) { + features->release(); + } + if (featuresDictLock) { + IOLockUnlock(featuresDictLock); + } + return ret; +} + +//****************************************************************************** +// publishPMSetting (private) +// +// Should only be called by PMSettingObject to publish a PM Setting as a +// supported feature. +//****************************************************************************** + +void +IOPMrootDomain::publishPMSetting( + const OSSymbol * feature, uint32_t where, uint32_t * featureID ) +{ + if (noPublishPMSettings && + (noPublishPMSettings->getNextIndexOfObject(feature, 0) != (unsigned int)-1)) { + // Setting found in noPublishPMSettings array + *featureID = kBadPMFeatureID; + return; + } + + publishFeature( + feature->getCStringNoCopy(), where, featureID); +} + +//****************************************************************************** +// setPMSetting (private) +// +// Internal helper to relay PM settings changes from user space to individual +// drivers. Should be called only by IOPMrootDomain::setProperties. +//****************************************************************************** + +IOReturn +IOPMrootDomain::setPMSetting( + const OSSymbol *type, + OSObject *object ) +{ + PMSettingCallEntry *entries = NULL; + OSArray *chosen = NULL; + const OSArray *array; + PMSettingObject *pmso; + thread_t thisThread; + int i, j, count, capacity; + + if (NULL == type) { + return kIOReturnBadArgument; + } + + PMSETTING_LOCK(); + + // Update settings dict so changes are visible from copyPMSetting(). + fPMSettingsDict->setObject(type, object); + + // Prep all PMSetting objects with the given 'type' for callout. + array = OSDynamicCast(OSArray, settingsCallbacks->getObject(type)); + if (!array || ((capacity = array->getCount()) == 0)) { + goto unlock_exit; + } + + // Array to retain PMSetting objects targeted for callout. + chosen = OSArray::withCapacity(capacity); + if (!chosen) { + goto unlock_exit; // error + } + entries = IONew(PMSettingCallEntry, capacity); + if (!entries) { + goto unlock_exit; // error + } + memset(entries, 0, sizeof(PMSettingCallEntry) * capacity); + + thisThread = current_thread(); + + for (i = 0, j = 0; i < capacity; i++) { + pmso = (PMSettingObject *) array->getObject(i); + if (pmso->disabled) { + continue; + } + entries[j].thread = thisThread; + queue_enter(&pmso->calloutQueue, &entries[j], PMSettingCallEntry *, link); + chosen->setObject(pmso); + j++; + } + count = j; + if (!count) { + goto unlock_exit; + } + + PMSETTING_UNLOCK(); + + // Call each pmso in the chosen array. + for (i = 0; i < count; i++) { + pmso = (PMSettingObject *) chosen->getObject(i); + pmso->dispatchPMSetting(type, object); + } + + PMSETTING_LOCK(); + for (i = 0; i < count; i++) { + pmso = (PMSettingObject *) chosen->getObject(i); + queue_remove(&pmso->calloutQueue, &entries[i], PMSettingCallEntry *, link); + if (pmso->waitThread) { + PMSETTING_WAKEUP(pmso); + } + } +unlock_exit: + PMSETTING_UNLOCK(); + + if (chosen) { + chosen->release(); + } + if (entries) { + IODelete(entries, PMSettingCallEntry, capacity); + } + + return kIOReturnSuccess; +} + +//****************************************************************************** +// copyPMSetting (public) +// +// Allows kexts to safely read setting values, without being subscribed to +// notifications. +//****************************************************************************** + +OSObject * +IOPMrootDomain::copyPMSetting( + OSSymbol *whichSetting) +{ + OSObject *obj = NULL; + + if (!whichSetting) { + return NULL; + } + + PMSETTING_LOCK(); + obj = fPMSettingsDict->getObject(whichSetting); + if (obj) { + obj->retain(); + } + PMSETTING_UNLOCK(); + + return obj; +} + +//****************************************************************************** +// registerPMSettingController (public) +// +// direct wrapper to registerPMSettingController with uint32_t power source arg +//****************************************************************************** + +IOReturn +IOPMrootDomain::registerPMSettingController( + const OSSymbol * settings[], + IOPMSettingControllerCallback func, + OSObject *target, + uintptr_t refcon, + OSObject **handle) +{ + return registerPMSettingController( + settings, + (kIOPMSupportedOnAC | kIOPMSupportedOnBatt | kIOPMSupportedOnUPS), + func, target, refcon, handle); +} + +//****************************************************************************** +// registerPMSettingController (public) +// +// Kexts may register for notifications when a particular setting is changed. +// A list of settings is available in IOPM.h. +// Arguments: +// * settings - An OSArray containing OSSymbols. Caller should populate this +// array with a list of settings caller wants notifications from. +// * func - A C function callback of the type IOPMSettingControllerCallback +// * target - caller may provide an OSObject *, which PM will pass as an +// target to calls to "func" +// * refcon - caller may provide an void *, which PM will pass as an +// argument to calls to "func" +// * handle - This is a return argument. We will populate this pointer upon +// call success. Hold onto this and pass this argument to +// IOPMrootDomain::deRegisterPMSettingCallback when unloading your kext +// Returns: +// kIOReturnSuccess on success +//****************************************************************************** + +IOReturn +IOPMrootDomain::registerPMSettingController( + const OSSymbol * settings[], + uint32_t supportedPowerSources, + IOPMSettingControllerCallback func, + OSObject *target, + uintptr_t refcon, + OSObject **handle) +{ + PMSettingObject *pmso = NULL; + OSObject *pmsh = NULL; + OSArray *list = NULL; + int i; + + if (NULL == settings || + NULL == func || + NULL == handle) { + return kIOReturnBadArgument; + } + + pmso = PMSettingObject::pmSettingObject( + (IOPMrootDomain *) this, func, target, + refcon, supportedPowerSources, settings, &pmsh); + + if (!pmso) { + *handle = NULL; + return kIOReturnInternalError; + } + + PMSETTING_LOCK(); + for (i = 0; settings[i]; i++) { + list = OSDynamicCast(OSArray, settingsCallbacks->getObject(settings[i])); + if (!list) { + // New array of callbacks for this setting + list = OSArray::withCapacity(1); + settingsCallbacks->setObject(settings[i], list); + list->release(); + } + + // Add caller to the callback list + list->setObject(pmso); + } + PMSETTING_UNLOCK(); + + // Return handle to the caller, the setting object is private. + *handle = pmsh; + + return kIOReturnSuccess; +} + +//****************************************************************************** +// deregisterPMSettingObject (private) +// +// Only called from PMSettingObject. +//****************************************************************************** + +void +IOPMrootDomain::deregisterPMSettingObject( PMSettingObject * pmso ) +{ + thread_t thisThread = current_thread(); + PMSettingCallEntry *callEntry; + OSCollectionIterator *iter; + OSSymbol *sym; + OSArray *array; + int index; + bool wait; + + PMSETTING_LOCK(); + + pmso->disabled = true; + + // Wait for all callout threads to finish. + do { + wait = false; + queue_iterate(&pmso->calloutQueue, callEntry, PMSettingCallEntry *, link) + { + if (callEntry->thread != thisThread) { + wait = true; + break; + } + } + if (wait) { + assert(NULL == pmso->waitThread); + pmso->waitThread = thisThread; + PMSETTING_WAIT(pmso); + pmso->waitThread = NULL; + } + } while (wait); + + // Search each PM settings array in the kernel. + iter = OSCollectionIterator::withCollection(settingsCallbacks); + if (iter) { + while ((sym = OSDynamicCast(OSSymbol, iter->getNextObject()))) { + array = OSDynamicCast(OSArray, settingsCallbacks->getObject(sym)); + index = array->getNextIndexOfObject(pmso, 0); + if (-1 != index) { + array->removeObject(index); + } + } + iter->release(); + } + + PMSETTING_UNLOCK(); + + pmso->release(); +} + +//****************************************************************************** +// informCPUStateChange +// +// Call into PM CPU code so that CPU power savings may dynamically adjust for +// running on battery, with the lid closed, etc. +// +// informCPUStateChange is a no-op on non x86 systems +// only x86 has explicit support in the IntelCPUPowerManagement kext +//****************************************************************************** + +void +IOPMrootDomain::informCPUStateChange( + uint32_t type, + uint32_t value ) +{ +#if defined(__i386__) || defined(__x86_64__) + + pmioctlVariableInfo_t varInfoStruct; + int pmCPUret = 0; + const char *varNameStr = NULL; + int32_t *varIndex = NULL; + + if (kInformAC == type) { + varNameStr = kIOPMRootDomainBatPowerCString; + varIndex = &idxPMCPULimitedPower; + } else if (kInformLid == type) { + varNameStr = kIOPMRootDomainLidCloseCString; + varIndex = &idxPMCPUClamshell; + } else { + return; + } + + // Set the new value! + // pmCPUControl will assign us a new ID if one doesn't exist yet + bzero(&varInfoStruct, sizeof(pmioctlVariableInfo_t)); + varInfoStruct.varID = *varIndex; + varInfoStruct.varType = vBool; + varInfoStruct.varInitValue = value; + varInfoStruct.varCurValue = value; + strlcpy((char *)varInfoStruct.varName, + (const char *)varNameStr, + sizeof(varInfoStruct.varName)); + + // Set! + pmCPUret = pmCPUControl( PMIOCSETVARINFO, (void *)&varInfoStruct ); + + // pmCPU only assigns numerical id's when a new varName is specified + if ((0 == pmCPUret) + && (*varIndex == kCPUUnknownIndex)) { + // pmCPUControl has assigned us a new variable ID. + // Let's re-read the structure we just SET to learn that ID. + pmCPUret = pmCPUControl( PMIOCGETVARNAMEINFO, (void *)&varInfoStruct ); + + if (0 == pmCPUret) { + // Store it in idxPMCPUClamshell or idxPMCPULimitedPower + *varIndex = varInfoStruct.varID; + } + } + + return; + +#endif /* __i386__ || __x86_64__ */ +} + +// MARK: - +// MARK: Deep Sleep Policy + +#if HIBERNATION + +//****************************************************************************** +// evaluateSystemSleepPolicy +//****************************************************************************** + +#define kIOPlatformSystemSleepPolicyKey "IOPlatformSystemSleepPolicy" + +// Sleep flags +enum { + kIOPMSleepFlagHibernate = 0x00000001, + kIOPMSleepFlagSleepTimerEnable = 0x00000002 +}; + +struct IOPMSystemSleepPolicyEntry { + uint32_t factorMask; + uint32_t factorBits; + uint32_t sleepFlags; + uint32_t wakeEvents; +} __attribute__((packed)); + +struct IOPMSystemSleepPolicyTable { + uint32_t signature; + uint16_t version; + uint16_t entryCount; + IOPMSystemSleepPolicyEntry entries[]; +} __attribute__((packed)); + +enum { + kIOPMSleepAttributeHibernateSetup = 0x00000001, + kIOPMSleepAttributeHibernateSleep = 0x00000002 +}; + +static uint32_t +getSleepTypeAttributes( uint32_t sleepType ) +{ + static const uint32_t sleepTypeAttributes[kIOPMSleepTypeLast] = + { + /* invalid */ 0, + /* abort */ 0, + /* normal */ 0, + /* safesleep */ kIOPMSleepAttributeHibernateSetup, + /* hibernate */ kIOPMSleepAttributeHibernateSetup | kIOPMSleepAttributeHibernateSleep, + /* standby */ kIOPMSleepAttributeHibernateSetup | kIOPMSleepAttributeHibernateSleep, + /* poweroff */ kIOPMSleepAttributeHibernateSetup | kIOPMSleepAttributeHibernateSleep, + /* deepidle */ 0 + }; + + if (sleepType >= kIOPMSleepTypeLast) { + return 0; + } + + return sleepTypeAttributes[sleepType]; +} + +bool +IOPMrootDomain::evaluateSystemSleepPolicy( + IOPMSystemSleepParameters * params, int sleepPhase, uint32_t * hibMode ) +{ + const IOPMSystemSleepPolicyTable * pt; + OSObject * prop = NULL; + OSData * policyData; + uint64_t currentFactors = 0; + char currentFactorsBuf[512]; + uint32_t standbyDelay = 0; + uint32_t powerOffDelay = 0; + uint32_t powerOffTimer = 0; + uint32_t standbyTimer = 0; + uint32_t mismatch; + bool standbyEnabled; + bool powerOffEnabled; + bool found = false; + + // Get platform's sleep policy table + if (!gSleepPolicyHandler) { + prop = getServiceRoot()->copyProperty(kIOPlatformSystemSleepPolicyKey); + if (!prop) { + goto done; + } + } + + // Fetch additional settings + standbyEnabled = (getSleepOption(kIOPMDeepSleepDelayKey, &standbyDelay) + && (getProperty(kIOPMDeepSleepEnabledKey) == kOSBooleanTrue)); + powerOffEnabled = (getSleepOption(kIOPMAutoPowerOffDelayKey, &powerOffDelay) + && (getProperty(kIOPMAutoPowerOffEnabledKey) == kOSBooleanTrue)); + if (!getSleepOption(kIOPMAutoPowerOffTimerKey, &powerOffTimer)) { + powerOffTimer = powerOffDelay; + } + if (!getSleepOption(kIOPMDeepSleepTimerKey, &standbyTimer)) { + standbyTimer = standbyDelay; + } + + DLOG("phase %d, standby %d delay %u timer %u, poweroff %d delay %u timer %u, hibernate 0x%x\n", + sleepPhase, standbyEnabled, standbyDelay, standbyTimer, + powerOffEnabled, powerOffDelay, powerOffTimer, *hibMode); + + currentFactorsBuf[0] = 0; + // pmset level overrides + if ((*hibMode & kIOHibernateModeOn) == 0) { + if (!gSleepPolicyHandler) { + standbyEnabled = false; + powerOffEnabled = false; + } + } else if (!(*hibMode & kIOHibernateModeSleep)) { + // Force hibernate (i.e. mode 25) + // If standby is enabled, force standy. + // If poweroff is enabled, force poweroff. + if (standbyEnabled) { + currentFactors |= kIOPMSleepFactorStandbyForced; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "StandbyForced"); + } else if (powerOffEnabled) { + currentFactors |= kIOPMSleepFactorAutoPowerOffForced; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "AutoPowerOffForced"); + } else { + currentFactors |= kIOPMSleepFactorHibernateForced; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "HibernateForced"); + } + } + + // Current factors based on environment and assertions + if (sleepTimerMaintenance) { + currentFactors |= kIOPMSleepFactorSleepTimerWake; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "SleepTimerWake"); + } + if (standbyEnabled && sleepToStandby && !gSleepPolicyHandler) { + currentFactors |= kIOPMSleepFactorSleepTimerWake; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "SleepTimerWake"); + } + if (!clamshellClosed) { + currentFactors |= kIOPMSleepFactorLidOpen; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "LidOpen"); + } + if (acAdaptorConnected) { + currentFactors |= kIOPMSleepFactorACPower; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "ACPower"); + } + if (lowBatteryCondition) { + currentFactors |= kIOPMSleepFactorBatteryLow; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "BatteryLow"); + } + if (!standbyDelay || !standbyTimer) { + currentFactors |= kIOPMSleepFactorStandbyNoDelay; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "StandbyNoDelay"); + } + if (standbyNixed || !standbyEnabled) { + currentFactors |= kIOPMSleepFactorStandbyDisabled; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "StandbyDisabled"); + } + if (resetTimers) { + currentFactors |= kIOPMSleepFactorLocalUserActivity; + currentFactors &= ~kIOPMSleepFactorSleepTimerWake; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "LocalUserActivity, !SleepTimerWake"); + } + if (getPMAssertionLevel(kIOPMDriverAssertionUSBExternalDeviceBit) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorUSBExternalDevice; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "USBExternalDevice"); + } + if (getPMAssertionLevel(kIOPMDriverAssertionBluetoothHIDDevicePairedBit) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorBluetoothHIDDevice; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "BluetoothHIDDevice"); + } + if (getPMAssertionLevel(kIOPMDriverAssertionExternalMediaMountedBit) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorExternalMediaMounted; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "ExternalMediaMounted"); + } + if (getPMAssertionLevel(kIOPMDriverAssertionReservedBit5) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorThunderboltDevice; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "ThunderboltDevice"); + } + if (_scheduledAlarms != 0) { + currentFactors |= kIOPMSleepFactorRTCAlarmScheduled; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "RTCAlaramScheduled"); + } + if (getPMAssertionLevel(kIOPMDriverAssertionMagicPacketWakeEnabledBit) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorMagicPacketWakeEnabled; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "MagicPacketWakeEnabled"); + } +#define TCPKEEPALIVE 1 +#if TCPKEEPALIVE + if (getPMAssertionLevel(kIOPMDriverAssertionNetworkKeepAliveActiveBit) != + kIOPMDriverAssertionLevelOff) { + currentFactors |= kIOPMSleepFactorNetworkKeepAliveActive; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "NetworkKeepAliveActive"); + } +#endif + if (!powerOffEnabled) { + currentFactors |= kIOPMSleepFactorAutoPowerOffDisabled; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "AutoPowerOffDisabled"); + } + if (desktopMode) { + currentFactors |= kIOPMSleepFactorExternalDisplay; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "ExternalDisplay"); + } + if (userWasActive) { + currentFactors |= kIOPMSleepFactorLocalUserActivity; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "LocalUserActivity"); + } + if (darkWakeHibernateError && !CAP_HIGHEST(kIOPMSystemCapabilityGraphics)) { + currentFactors |= kIOPMSleepFactorHibernateFailed; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "HibernateFailed"); + } + if (thermalWarningState) { + currentFactors |= kIOPMSleepFactorThermalWarning; + snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "ThermalWarning"); + } + + DLOG("sleep factors 0x%llx %s\n", currentFactors, currentFactorsBuf); + + if (gSleepPolicyHandler) { + uint32_t savedHibernateMode; + IOReturn result; + + if (!gSleepPolicyVars) { + gSleepPolicyVars = IONew(IOPMSystemSleepPolicyVariables, 1); + if (!gSleepPolicyVars) { + goto done; + } + bzero(gSleepPolicyVars, sizeof(*gSleepPolicyVars)); + } + gSleepPolicyVars->signature = kIOPMSystemSleepPolicySignature; + gSleepPolicyVars->version = kIOPMSystemSleepPolicyVersion; + gSleepPolicyVars->currentCapability = _currentCapability; + gSleepPolicyVars->highestCapability = _highestCapability; + gSleepPolicyVars->sleepFactors = currentFactors; + gSleepPolicyVars->sleepReason = lastSleepReason; + gSleepPolicyVars->sleepPhase = sleepPhase; + gSleepPolicyVars->standbyDelay = standbyDelay; + gSleepPolicyVars->standbyTimer = standbyTimer; + gSleepPolicyVars->poweroffDelay = powerOffDelay; + gSleepPolicyVars->scheduledAlarms = _scheduledAlarms | _userScheduledAlarm; + gSleepPolicyVars->poweroffTimer = powerOffTimer; + + if (kIOPMSleepPhase0 == sleepPhase) { + // preserve hibernateMode + savedHibernateMode = gSleepPolicyVars->hibernateMode; + gSleepPolicyVars->hibernateMode = *hibMode; + } else if (kIOPMSleepPhase1 == sleepPhase) { + // use original hibernateMode for phase2 + gSleepPolicyVars->hibernateMode = *hibMode; + } + + result = gSleepPolicyHandler(gSleepPolicyTarget, gSleepPolicyVars, params); + + if (kIOPMSleepPhase0 == sleepPhase) { + // restore hibernateMode + gSleepPolicyVars->hibernateMode = savedHibernateMode; + } + + if ((result != kIOReturnSuccess) || + (kIOPMSleepTypeInvalid == params->sleepType) || + (params->sleepType >= kIOPMSleepTypeLast) || + (kIOPMSystemSleepParametersVersion != params->version)) { + MSG("sleep policy handler error\n"); + goto done; + } + + if ((getSleepTypeAttributes(params->sleepType) & + kIOPMSleepAttributeHibernateSetup) && + ((*hibMode & kIOHibernateModeOn) == 0)) { + *hibMode |= (kIOHibernateModeOn | kIOHibernateModeSleep); + } + + DLOG("sleep params v%u, type %u, flags 0x%x, wake 0x%x, timer %u, poweroff %u\n", + params->version, params->sleepType, params->sleepFlags, + params->ecWakeEvents, params->ecWakeTimer, params->ecPoweroffTimer); + found = true; + goto done; + } + + // Policy table is meaningless without standby enabled + if (!standbyEnabled) { + goto done; + } + + // Validate the sleep policy table + policyData = OSDynamicCast(OSData, prop); + if (!policyData || (policyData->getLength() <= sizeof(IOPMSystemSleepPolicyTable))) { + goto done; + } + + pt = (const IOPMSystemSleepPolicyTable *) policyData->getBytesNoCopy(); + if ((pt->signature != kIOPMSystemSleepPolicySignature) || + (pt->version != 1) || (0 == pt->entryCount)) { + goto done; + } + + if (((policyData->getLength() - sizeof(IOPMSystemSleepPolicyTable)) != + (sizeof(IOPMSystemSleepPolicyEntry) * pt->entryCount))) { + goto done; + } + + for (uint32_t i = 0; i < pt->entryCount; i++) { + const IOPMSystemSleepPolicyEntry * entry = &pt->entries[i]; + mismatch = (((uint32_t)currentFactors ^ entry->factorBits) & entry->factorMask); + + DLOG("mask 0x%08x, bits 0x%08x, flags 0x%08x, wake 0x%08x, mismatch 0x%08x\n", + entry->factorMask, entry->factorBits, + entry->sleepFlags, entry->wakeEvents, mismatch); + if (mismatch) { + continue; + } + + DLOG("^ found match\n"); + found = true; + + params->version = kIOPMSystemSleepParametersVersion; + params->reserved1 = 1; + if (entry->sleepFlags & kIOPMSleepFlagHibernate) { + params->sleepType = kIOPMSleepTypeStandby; + } else { + params->sleepType = kIOPMSleepTypeNormalSleep; + } + + params->ecWakeEvents = entry->wakeEvents; + if (entry->sleepFlags & kIOPMSleepFlagSleepTimerEnable) { + if (kIOPMSleepPhase2 == sleepPhase) { + clock_sec_t now_secs = gIOLastSleepTime.tv_sec; + + if (!_standbyTimerResetSeconds || + (now_secs <= _standbyTimerResetSeconds)) { + // Reset standby timer adjustment + _standbyTimerResetSeconds = now_secs; + DLOG("standby delay %u, reset %u\n", + standbyDelay, (uint32_t) _standbyTimerResetSeconds); + } else if (standbyDelay) { + // Shorten the standby delay timer + clock_sec_t elapsed = now_secs - _standbyTimerResetSeconds; + if (standbyDelay > elapsed) { + standbyDelay -= elapsed; + } else { + standbyDelay = 1; // must be > 0 + } + DLOG("standby delay %u, elapsed %u\n", + standbyDelay, (uint32_t) elapsed); + } + } + params->ecWakeTimer = standbyDelay; + } else if (kIOPMSleepPhase2 == sleepPhase) { + // A sleep that does not enable the sleep timer will reset + // the standby delay adjustment. + _standbyTimerResetSeconds = 0; + } + break; + } + +done: + if (prop) { + prop->release(); + } + + return found; +} + +static IOPMSystemSleepParameters gEarlySystemSleepParams; + +void +IOPMrootDomain::evaluateSystemSleepPolicyEarly( void ) +{ + // Evaluate early (priority interest phase), before drivers sleep. + + DLOG("%s\n", __FUNCTION__); + removeProperty(kIOPMSystemSleepParametersKey); + + // Full wake resets the standby timer delay adjustment + if (_highestCapability & kIOPMSystemCapabilityGraphics) { + _standbyTimerResetSeconds = 0; + } + + hibernateDisabled = false; + hibernateMode = 0; + getSleepOption(kIOHibernateModeKey, &hibernateMode); + + // Save for late evaluation if sleep is aborted + bzero(&gEarlySystemSleepParams, sizeof(gEarlySystemSleepParams)); + + if (evaluateSystemSleepPolicy(&gEarlySystemSleepParams, kIOPMSleepPhase1, + &hibernateMode)) { + if (!hibernateRetry && + ((getSleepTypeAttributes(gEarlySystemSleepParams.sleepType) & + kIOPMSleepAttributeHibernateSetup) == 0)) { + // skip hibernate setup + hibernateDisabled = true; + } + } + + // Publish IOPMSystemSleepType + uint32_t sleepType = gEarlySystemSleepParams.sleepType; + if (sleepType == kIOPMSleepTypeInvalid) { + // no sleep policy + sleepType = kIOPMSleepTypeNormalSleep; + if (hibernateMode & kIOHibernateModeOn) { + sleepType = (hibernateMode & kIOHibernateModeSleep) ? + kIOPMSleepTypeSafeSleep : kIOPMSleepTypeHibernate; + } + } else if ((sleepType == kIOPMSleepTypeStandby) && + (gEarlySystemSleepParams.ecPoweroffTimer)) { + // report the lowest possible sleep state + sleepType = kIOPMSleepTypePowerOff; + } + + setProperty(kIOPMSystemSleepTypeKey, sleepType, 32); +} + +void +IOPMrootDomain::evaluateSystemSleepPolicyFinal( void ) +{ + IOPMSystemSleepParameters params; + OSData * paramsData; + bool wakeNow; + // Evaluate sleep policy after sleeping drivers but before platform sleep. + + DLOG("%s\n", __FUNCTION__); + + bzero(¶ms, sizeof(params)); + wakeNow = false; + if (evaluateSystemSleepPolicy(¶ms, kIOPMSleepPhase2, &hibernateMode)) { + if ((kIOPMSleepTypeStandby == params.sleepType) + && gIOHibernateStandbyDisabled && gSleepPolicyVars + && (!((kIOPMSleepFactorStandbyForced | kIOPMSleepFactorAutoPowerOffForced | kIOPMSleepFactorHibernateForced) + & gSleepPolicyVars->sleepFactors))) { + standbyNixed = true; + wakeNow = true; + } + if (wakeNow + || ((hibernateDisabled || hibernateAborted) && + (getSleepTypeAttributes(params.sleepType) & + kIOPMSleepAttributeHibernateSetup))) { + // Final evaluation picked a state requiring hibernation, + // but hibernate isn't going to proceed. Arm a short sleep using + // the early non-hibernate sleep parameters. + bcopy(&gEarlySystemSleepParams, ¶ms, sizeof(params)); + params.sleepType = kIOPMSleepTypeAbortedSleep; + params.ecWakeTimer = 1; + if (standbyNixed) { + resetTimers = true; + } else { + // Set hibernateRetry flag to force hibernate setup on the + // next sleep. + hibernateRetry = true; + } + DLOG("wake in %u secs for hibernateDisabled %d, hibernateAborted %d, standbyNixed %d\n", + params.ecWakeTimer, hibernateDisabled, hibernateAborted, standbyNixed); + } else { + hibernateRetry = false; + } + + if (kIOPMSleepTypeAbortedSleep != params.sleepType) { + resetTimers = false; + } + + paramsData = OSData::withBytes(¶ms, sizeof(params)); + if (paramsData) { + setProperty(kIOPMSystemSleepParametersKey, paramsData); + paramsData->release(); + } + + if (getSleepTypeAttributes(params.sleepType) & + kIOPMSleepAttributeHibernateSleep) { + // Disable sleep to force hibernation + gIOHibernateMode &= ~kIOHibernateModeSleep; + } + } +} + +bool +IOPMrootDomain::getHibernateSettings( + uint32_t * hibernateModePtr, + uint32_t * hibernateFreeRatio, + uint32_t * hibernateFreeTime ) +{ + // Called by IOHibernateSystemSleep() after evaluateSystemSleepPolicyEarly() + // has updated the hibernateDisabled flag. + + bool ok = getSleepOption(kIOHibernateModeKey, hibernateModePtr); + getSleepOption(kIOHibernateFreeRatioKey, hibernateFreeRatio); + getSleepOption(kIOHibernateFreeTimeKey, hibernateFreeTime); + if (hibernateDisabled) { + *hibernateModePtr = 0; + } else if (gSleepPolicyHandler) { + *hibernateModePtr = hibernateMode; + } + DLOG("hibernateMode 0x%x\n", *hibernateModePtr); + return ok; +} + +bool +IOPMrootDomain::getSleepOption( const char * key, uint32_t * option ) +{ + OSObject * optionsProp; + OSDictionary * optionsDict; + OSObject * obj = NULL; + OSNumber * num; + bool ok = false; + + optionsProp = copyProperty(kRootDomainSleepOptionsKey); + optionsDict = OSDynamicCast(OSDictionary, optionsProp); + + if (optionsDict) { + obj = optionsDict->getObject(key); + if (obj) { + obj->retain(); + } + } + if (!obj) { + obj = copyProperty(key); + } + if (obj) { + if ((num = OSDynamicCast(OSNumber, obj))) { + *option = num->unsigned32BitValue(); + ok = true; + } else if (OSDynamicCast(OSBoolean, obj)) { + *option = (obj == kOSBooleanTrue) ? 1 : 0; + ok = true; + } + } + + if (obj) { + obj->release(); + } + if (optionsProp) { + optionsProp->release(); + } + + return ok; +} +#endif /* HIBERNATION */ + +IOReturn +IOPMrootDomain::getSystemSleepType( uint32_t * sleepType, uint32_t * standbyTimer ) +{ +#if HIBERNATION + IOPMSystemSleepParameters params; + uint32_t hibMode = 0; + bool ok; + + if (gIOPMWorkLoop->inGate() == false) { + IOReturn ret = gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, + &IOPMrootDomain::getSystemSleepType), + (OSObject *) this, + (void *) sleepType, (void *) standbyTimer); + return ret; + } + + getSleepOption(kIOHibernateModeKey, &hibMode); + bzero(¶ms, sizeof(params)); + + ok = evaluateSystemSleepPolicy(¶ms, kIOPMSleepPhase0, &hibMode); + if (ok) { + *sleepType = params.sleepType; + if (!getSleepOption(kIOPMDeepSleepTimerKey, standbyTimer) && + !getSleepOption(kIOPMDeepSleepDelayKey, standbyTimer)) { + DLOG("Standby delay is not set\n"); + *standbyTimer = 0; + } + return kIOReturnSuccess; + } +#endif + + return kIOReturnUnsupported; +} + +// MARK: - +// MARK: Shutdown and Restart + +//****************************************************************************** +// handlePlatformHaltRestart +// +//****************************************************************************** + +// Phases while performing shutdown/restart +typedef enum { + kNotifyDone = 0x00, + kNotifyPriorityClients = 0x10, + kNotifyPowerPlaneDrivers = 0x20, + kNotifyHaltRestartAction = 0x30, + kQuiescePM = 0x40, +} shutdownPhase_t; + + +struct HaltRestartApplierContext { + IOPMrootDomain * RootDomain; + unsigned long PowerState; + IOPMPowerFlags PowerFlags; + UInt32 MessageType; + UInt32 Counter; + const char * LogString; + shutdownPhase_t phase; + + IOServiceInterestHandler handler; +} gHaltRestartCtx; + +const char * +shutdownPhase2String(shutdownPhase_t phase) +{ + switch (phase) { + case kNotifyDone: + return "Notifications completed"; + case kNotifyPriorityClients: + return "Notifying priority clients"; + case kNotifyPowerPlaneDrivers: + return "Notifying power plane drivers"; + case kNotifyHaltRestartAction: + return "Notifying HaltRestart action handlers"; + case kQuiescePM: + return "Quiescing PM"; + default: + return "Unknown"; + } +} + +static void +platformHaltRestartApplier( OSObject * object, void * context ) +{ + IOPowerStateChangeNotification notify; + HaltRestartApplierContext * ctx; + AbsoluteTime startTime, elapsedTime; + uint32_t deltaTime; + + ctx = (HaltRestartApplierContext *) context; + + _IOServiceInterestNotifier * notifier; + notifier = OSDynamicCast(_IOServiceInterestNotifier, object); + memset(¬ify, 0, sizeof(notify)); + notify.powerRef = (void *)(uintptr_t)ctx->Counter; + notify.returnValue = 0; + notify.stateNumber = ctx->PowerState; + notify.stateFlags = ctx->PowerFlags; + + if (notifier) { + ctx->handler = notifier->handler; + } + + clock_get_uptime(&startTime); + ctx->RootDomain->messageClient( ctx->MessageType, object, (void *)¬ify ); + deltaTime = computeDeltaTimeMS(&startTime, &elapsedTime); + + if ((deltaTime > kPMHaltTimeoutMS) && notifier) { + LOG("%s handler %p took %u ms\n", + ctx->LogString, OBFUSCATE(notifier->handler), deltaTime); + halt_log_enter("PowerOff/Restart message to priority client", (const void *) notifier->handler, elapsedTime); + } + + ctx->handler = NULL; + ctx->Counter++; +} + +static void +quiescePowerTreeCallback( void * target, void * param ) +{ + IOLockLock(gPMHaltLock); + gPMQuiesced = true; + thread_wakeup(param); + IOLockUnlock(gPMHaltLock); +} + +void +IOPMrootDomain::handlePlatformHaltRestart( UInt32 pe_type ) +{ + AbsoluteTime startTime, elapsedTime; + uint32_t deltaTime; + + memset(&gHaltRestartCtx, 0, sizeof(gHaltRestartCtx)); + gHaltRestartCtx.RootDomain = this; + + clock_get_uptime(&startTime); + switch (pe_type) { + case kPEHaltCPU: + case kPEUPSDelayHaltCPU: + gHaltRestartCtx.PowerState = OFF_STATE; + gHaltRestartCtx.MessageType = kIOMessageSystemWillPowerOff; + gHaltRestartCtx.LogString = "PowerOff"; + break; + + case kPERestartCPU: + gHaltRestartCtx.PowerState = RESTART_STATE; + gHaltRestartCtx.MessageType = kIOMessageSystemWillRestart; + gHaltRestartCtx.LogString = "Restart"; + break; + + case kPEPagingOff: + gHaltRestartCtx.PowerState = ON_STATE; + gHaltRestartCtx.MessageType = kIOMessageSystemPagingOff; + gHaltRestartCtx.LogString = "PagingOff"; + IOService::updateConsoleUsers(NULL, kIOMessageSystemPagingOff); +#if HIBERNATION + IOHibernateSystemRestart(); +#endif + break; + + default: + return; + } + + gHaltRestartCtx.phase = kNotifyPriorityClients; + // Notify legacy clients + applyToInterested(gIOPriorityPowerStateInterest, platformHaltRestartApplier, &gHaltRestartCtx); + + // For normal shutdown, turn off File Server Mode. + if (kPEHaltCPU == pe_type) { + const OSSymbol * setting = OSSymbol::withCString(kIOPMSettingRestartOnPowerLossKey); + OSNumber * num = OSNumber::withNumber((unsigned long long) 0, 32); + if (setting && num) { + setPMSetting(setting, num); + setting->release(); + num->release(); + } + } + + + if (kPEPagingOff != pe_type) { + gHaltRestartCtx.phase = kNotifyPowerPlaneDrivers; + // Notify in power tree order + notifySystemShutdown(this, gHaltRestartCtx.MessageType); + } + + gHaltRestartCtx.phase = kNotifyHaltRestartAction; +#if !CONFIG_EMBEDDED + IOCPURunPlatformHaltRestartActions(pe_type); +#else + if (kPEPagingOff != pe_type) { + IOCPURunPlatformHaltRestartActions(pe_type); + } +#endif + + // Wait for PM to quiesce + if ((kPEPagingOff != pe_type) && gPMHaltLock) { + gHaltRestartCtx.phase = kQuiescePM; + AbsoluteTime quiesceTime = mach_absolute_time(); + + IOLockLock(gPMHaltLock); + gPMQuiesced = false; + if (quiescePowerTree(this, &quiescePowerTreeCallback, &gPMQuiesced) == + kIOReturnSuccess) { + while (!gPMQuiesced) { + IOLockSleep(gPMHaltLock, &gPMQuiesced, THREAD_UNINT); + } + } + IOLockUnlock(gPMHaltLock); + deltaTime = computeDeltaTimeMS(&quiesceTime, &elapsedTime); + DLOG("PM quiesce took %u ms\n", deltaTime); + halt_log_enter("Quiesce", NULL, elapsedTime); + } + gHaltRestartCtx.phase = kNotifyDone; + + deltaTime = computeDeltaTimeMS(&startTime, &elapsedTime); + LOG("%s all drivers took %u ms\n", gHaltRestartCtx.LogString, deltaTime); + + halt_log_enter(gHaltRestartCtx.LogString, NULL, elapsedTime); + + deltaTime = computeDeltaTimeMS(&gHaltStartTime, &elapsedTime); + LOG("%s total %u ms\n", gHaltRestartCtx.LogString, deltaTime); + + if (gHaltLog && gHaltTimeMaxLog && (deltaTime >= gHaltTimeMaxLog)) { + printf("%s total %d ms:%s\n", gHaltRestartCtx.LogString, deltaTime, gHaltLog); + } + + checkShutdownTimeout(); +} + +bool +IOPMrootDomain::checkShutdownTimeout() +{ + AbsoluteTime elapsedTime; + uint32_t deltaTime = computeDeltaTimeMS(&gHaltStartTime, &elapsedTime); + + if (gHaltTimeMaxPanic && (deltaTime >= gHaltTimeMaxPanic)) { + return true; + } + return false; +} + +void +IOPMrootDomain::panicWithShutdownLog(uint32_t timeoutInMs) +{ + if (gHaltLog) { + if ((gHaltRestartCtx.phase == kNotifyPriorityClients) && gHaltRestartCtx.handler) { + halt_log_enter("Blocked on priority client", (void *)gHaltRestartCtx.handler, mach_absolute_time() - gHaltStartTime); + } + panic("%s timed out in phase '%s'. Total %d ms:%s", + gHaltRestartCtx.LogString, shutdownPhase2String(gHaltRestartCtx.phase), timeoutInMs, gHaltLog); + } else { + panic("%s timed out in phase \'%s\'. Total %d ms", + gHaltRestartCtx.LogString, shutdownPhase2String(gHaltRestartCtx.phase), timeoutInMs); + } +} + +//****************************************************************************** +// shutdownSystem +// +//****************************************************************************** + +IOReturn +IOPMrootDomain::shutdownSystem( void ) +{ + return kIOReturnUnsupported; +} + +//****************************************************************************** +// restartSystem +// +//****************************************************************************** + +IOReturn +IOPMrootDomain::restartSystem( void ) +{ + return kIOReturnUnsupported; +} + +// MARK: - +// MARK: System Capability + +//****************************************************************************** +// tagPowerPlaneService +// +// Running on PM work loop thread. +//****************************************************************************** + +void +IOPMrootDomain::tagPowerPlaneService( + IOService * service, + IOPMActions * actions ) +{ + uint32_t flags = 0; + bool isDisplayWrangler; + + memset(actions, 0, sizeof(*actions)); + actions->target = this; + + if (service == this) { + actions->actionPowerChangeStart = + OSMemberFunctionCast( + IOPMActionPowerChangeStart, this, + &IOPMrootDomain::handleOurPowerChangeStart); + + actions->actionPowerChangeDone = + OSMemberFunctionCast( + IOPMActionPowerChangeDone, this, + &IOPMrootDomain::handleOurPowerChangeDone); + + actions->actionPowerChangeOverride = + OSMemberFunctionCast( + IOPMActionPowerChangeOverride, this, + &IOPMrootDomain::overrideOurPowerChange); + return; + } + +#if !NO_KERNEL_HID + isDisplayWrangler = (NULL != service->metaCast("IODisplayWrangler")); + if (isDisplayWrangler) { + wrangler = service; + // found the display wrangler, check for any display assertions already created + if (pmAssertions->getActivatedAssertions() & kIOPMDriverAssertionPreventDisplaySleepBit) { + DLOG("wrangler setIgnoreIdleTimer\(1) due to pre-existing assertion\n"); + wrangler->setIgnoreIdleTimer( true ); + } + } +#else + isDisplayWrangler = false; +#endif + +#if defined(__i386__) || defined(__x86_64__) + if (isDisplayWrangler) { + flags |= kPMActionsFlagIsDisplayWrangler; + } + if (service->getProperty("IOPMStrictTreeOrder")) { + flags |= kPMActionsFlagIsGraphicsDevice; + } + if (service->getProperty("IOPMUnattendedWakePowerState")) { + flags |= kPMActionsFlagIsAudioDevice; + } +#endif + + // Find the power connection object that is a child of the PCI host + // bridge, and has a graphics/audio device attached below. Mark the + // power branch for delayed child notifications. + + if (flags) { + IORegistryEntry * child = service; + IORegistryEntry * parent = child->getParentEntry(gIOPowerPlane); + + while (child != this) { + if (child->getProperty("IOPCITunnelled") == kOSBooleanTrue) { + // Skip delaying notifications and clamping power on external graphics and audio devices. + DLOG("Avoiding delayChildNotification on object 0x%llx. flags: 0x%x\n", service->getRegistryEntryID(), flags); + flags = 0; + break; + } + if ((parent == pciHostBridgeDriver) || + (parent == this)) { + if (OSDynamicCast(IOPowerConnection, child)) { + IOPowerConnection * conn = (IOPowerConnection *) child; + conn->delayChildNotification = true; + DLOG("delayChildNotification for 0x%llx\n", conn->getRegistryEntryID()); + } + break; + } + child = parent; + parent = child->getParentEntry(gIOPowerPlane); + } + } + + if (flags) { + DLOG("%s tag flags %x\n", service->getName(), flags); + actions->parameter |= flags; + actions->actionPowerChangeOverride = + OSMemberFunctionCast( + IOPMActionPowerChangeOverride, this, + &IOPMrootDomain::overridePowerChangeForUIService); + + if (flags & kPMActionsFlagIsDisplayWrangler) { + actions->actionActivityTickle = + OSMemberFunctionCast( + IOPMActionActivityTickle, this, + &IOPMrootDomain::handleActivityTickleForDisplayWrangler); + + actions->actionUpdatePowerClient = + OSMemberFunctionCast( + IOPMActionUpdatePowerClient, this, + &IOPMrootDomain::handleUpdatePowerClientForDisplayWrangler); + } + return; + } + + // Locate the first PCI host bridge for PMTrace. + if (!pciHostBridgeDevice && service->metaCast("IOPCIBridge")) { + IOService * provider = service->getProvider(); + if (OSDynamicCast(IOPlatformDevice, provider) && + provider->inPlane(gIODTPlane)) { + pciHostBridgeDevice = provider; + pciHostBridgeDriver = service; + DLOG("PMTrace found PCI host bridge %s->%s\n", + provider->getName(), service->getName()); + } + } + + // Tag top-level PCI devices. The order of PMinit() call does not + // change across boots and is used as the PCI bit number. + if (pciHostBridgeDevice && service->metaCast("IOPCIDevice")) { + // Would prefer to check built-in property, but tagPowerPlaneService() + // is called before pciDevice->registerService(). + IORegistryEntry * parent = service->getParentEntry(gIODTPlane); + if ((parent == pciHostBridgeDevice) && service->getProperty("acpi-device")) { + int bit = pmTracer->recordTopLevelPCIDevice( service ); + if (bit >= 0) { + // Save the assigned bit for fast lookup. + actions->parameter |= (bit & kPMActionsPCIBitNumberMask); + + actions->actionPowerChangeStart = + OSMemberFunctionCast( + IOPMActionPowerChangeStart, this, + &IOPMrootDomain::handlePowerChangeStartForPCIDevice); + + actions->actionPowerChangeDone = + OSMemberFunctionCast( + IOPMActionPowerChangeDone, this, + &IOPMrootDomain::handlePowerChangeDoneForPCIDevice); + } + } + } +} + +//****************************************************************************** +// PM actions for root domain +//****************************************************************************** + +void +IOPMrootDomain::overrideOurPowerChange( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex * inOutPowerState, + IOPMPowerChangeFlags * inOutChangeFlags, + IOPMRequestTag requestTag ) +{ + uint32_t powerState = (uint32_t) *inOutPowerState; + uint32_t changeFlags = *inOutChangeFlags; + uint32_t currentPowerState = (uint32_t) getPowerState(); + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if ((AOT_STATE == powerState) && (ON_STATE == currentPowerState)) { + // Assertion may have been taken in AOT leading to changePowerStateTo(AOT) + *inOutChangeFlags |= kIOPMNotDone; + return; + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + if (changeFlags & kIOPMParentInitiated) { + // Root parent is permanently pegged at max power, + // a parent initiated power change is unexpected. + *inOutChangeFlags |= kIOPMNotDone; + return; + } + + if (powerState < currentPowerState) { + if (CAP_CURRENT(kIOPMSystemCapabilityGraphics)) { + // Root domain is dropping power state ON->SLEEP. + // If system is in full wake, first enter dark wake by + // converting the power drop to a capability change. + // Once in dark wake, transition to sleep state ASAP. + + darkWakeToSleepASAP = true; + + // Drop graphics and audio capability + _desiredCapability &= ~( + kIOPMSystemCapabilityGraphics | + kIOPMSystemCapabilityAudio); + + // Convert to capability change (ON->ON) + *inOutPowerState = getRUN_STATE(); + *inOutChangeFlags |= kIOPMSynchronize; + + // Revert device desire from SLEEP to ON + changePowerStateToPriv(getRUN_STATE()); + } else { + // System is in dark wake, ok to drop power state. + // Broadcast root powering down to entire tree. + *inOutChangeFlags |= kIOPMRootChangeDown; + } + } else if (powerState > currentPowerState) { + if ((_currentCapability & kIOPMSystemCapabilityCPU) == 0) { + // Broadcast power up when waking from sleep, but not for the + // initial power change at boot by checking for cpu capability. + *inOutChangeFlags |= kIOPMRootChangeUp; + } + } +} + +void +IOPMrootDomain::handleOurPowerChangeStart( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex powerState, + IOPMPowerChangeFlags * inOutChangeFlags, + IOPMRequestTag requestTag ) +{ + uint32_t changeFlags = *inOutChangeFlags; + uint32_t currentPowerState = (uint32_t) getPowerState(); + uint32_t sleepReason = requestTag ? requestTag : kIOPMSleepReasonIdle; + bool publishSleepReason = false; + + _systemTransitionType = kSystemTransitionNone; + _systemMessageClientMask = 0; + capabilityLoss = false; + toldPowerdCapWillChange = false; + + if (lowBatteryCondition) { + // Low battery notification may arrive after the initial sleep request + // has been queued. Override the sleep reason so powerd and others can + // treat this as an emergency sleep. + sleepReason = kIOPMSleepReasonLowPower; + } + + // 1. Explicit capability change. + + if (changeFlags & kIOPMSynchronize) { + if (powerState == ON_STATE) { + if (changeFlags & kIOPMSyncNoChildNotify) { + _systemTransitionType = kSystemTransitionNewCapClient; + } else { + _systemTransitionType = kSystemTransitionCapability; + } + } + } + // 2. Going to sleep (cancellation still possible). + else if (powerState < currentPowerState) { + _systemTransitionType = kSystemTransitionSleep; + } + // 3. Woke from (idle or demand) sleep. + else if (!systemBooting && + (changeFlags & kIOPMSelfInitiated) && + (powerState > currentPowerState)) { + _systemTransitionType = kSystemTransitionWake; + _desiredCapability = kIOPMSystemCapabilityCPU | + kIOPMSystemCapabilityNetwork; + + // Early exit from dark wake to full (e.g. LID open) + if (kFullWakeReasonNone != fullWakeReason) { + _desiredCapability |= ( + kIOPMSystemCapabilityGraphics | + kIOPMSystemCapabilityAudio); + } +#if HIBERNATION + IOHibernateSetWakeCapabilities(_desiredCapability); +#endif + } + + // Update pending wake capability at the beginning of every + // state transition (including synchronize). This will become + // the current capability at the end of the transition. + + if (kSystemTransitionSleep == _systemTransitionType) { + _pendingCapability = 0; + capabilityLoss = true; + } else if (kSystemTransitionNewCapClient != _systemTransitionType) { + _pendingCapability = _desiredCapability | + kIOPMSystemCapabilityCPU | + kIOPMSystemCapabilityNetwork; + + if (_pendingCapability & kIOPMSystemCapabilityGraphics) { + _pendingCapability |= kIOPMSystemCapabilityAudio; + } + + if ((kSystemTransitionCapability == _systemTransitionType) && + (_pendingCapability == _currentCapability)) { + // Cancel the PM state change. + _systemTransitionType = kSystemTransitionNone; + *inOutChangeFlags |= kIOPMNotDone; + } + if (__builtin_popcount(_pendingCapability) < + __builtin_popcount(_currentCapability)) { + capabilityLoss = true; + } + } + + // 1. Capability change. + + if (kSystemTransitionCapability == _systemTransitionType) { + // Dark to Full transition. + if (CAP_GAIN(kIOPMSystemCapabilityGraphics)) { + tracePoint( kIOPMTracePointDarkWakeExit ); + + willEnterFullWake(); + } + + // Full to Dark transition. + if (CAP_LOSS(kIOPMSystemCapabilityGraphics)) { + // Clear previous stats + IOLockLock(pmStatsLock); + if (pmStatsAppResponses) { + pmStatsAppResponses->release(); + pmStatsAppResponses = OSArray::withCapacity(5); + } + IOLockUnlock(pmStatsLock); + + + tracePoint( kIOPMTracePointDarkWakeEntry ); + *inOutChangeFlags |= kIOPMSyncTellPowerDown; + _systemMessageClientMask = kSystemMessageClientPowerd | + kSystemMessageClientLegacyApp; + + + // rdar://15971327 + // Prevent user active transitions before notifying clients + // that system will sleep. + preventTransitionToUserActive(true); + + IOService::setAdvisoryTickleEnable( false ); + + // Publish the sleep reason for full to dark wake + publishSleepReason = true; + lastSleepReason = fullToDarkReason = sleepReason; + + // Publish a UUID for the Sleep --> Wake cycle + handlePublishSleepWakeUUID(true); + if (sleepDelaysReport) { + clock_get_uptime(&ts_sleepStart); + DLOG("sleepDelaysReport f->9 start at 0x%llx\n", ts_sleepStart); + } + + wranglerTickled = false; + } + } + // 2. System sleep. + else if (kSystemTransitionSleep == _systemTransitionType) { + // Beginning of a system sleep transition. + // Cancellation is still possible. + tracePoint( kIOPMTracePointSleepStarted ); + + _systemMessageClientMask = kSystemMessageClientAll; + if ((_currentCapability & kIOPMSystemCapabilityGraphics) == 0) { + _systemMessageClientMask &= ~kSystemMessageClientLegacyApp; + } + if ((_highestCapability & kIOPMSystemCapabilityGraphics) == 0) { + // Kernel priority clients are only notified on the initial + // transition to full wake, so don't notify them unless system + // has gained graphics capability since the last system wake. + _systemMessageClientMask &= ~kSystemMessageClientKernel; + } +#if HIBERNATION + gIOHibernateState = 0; +#endif + + // Record the reason for dark wake back to sleep + // System may not have ever achieved full wake + + publishSleepReason = true; + lastSleepReason = sleepReason; + if (sleepDelaysReport) { + clock_get_uptime(&ts_sleepStart); + DLOG("sleepDelaysReport 9->0 start at 0x%llx\n", ts_sleepStart); + } + } + // 3. System wake. + else if (kSystemTransitionWake == _systemTransitionType) { + tracePoint( kIOPMTracePointWakeWillPowerOnClients ); + // Clear stats about sleep + + if (AOT_STATE == powerState) { + _pendingCapability = 0; + } + + if (_pendingCapability & kIOPMSystemCapabilityGraphics) { + willEnterFullWake(); + } else { + // Message powerd only + _systemMessageClientMask = kSystemMessageClientPowerd; + tellClients(kIOMessageSystemWillPowerOn); + } + } + + // The only location where the sleep reason is published. At this point + // sleep can still be cancelled, but sleep reason should be published + // early for logging purposes. + + if (publishSleepReason) { + static const char * IOPMSleepReasons[] = + { + kIOPMClamshellSleepKey, + kIOPMPowerButtonSleepKey, + kIOPMSoftwareSleepKey, + kIOPMOSSwitchHibernationKey, + kIOPMIdleSleepKey, + kIOPMLowPowerSleepKey, + kIOPMThermalEmergencySleepKey, + kIOPMMaintenanceSleepKey, + kIOPMSleepServiceExitKey, + kIOPMDarkWakeThermalEmergencyKey + }; + + // Record sleep cause in IORegistry + uint32_t reasonIndex = sleepReason - kIOPMSleepReasonClamshell; + if (reasonIndex < sizeof(IOPMSleepReasons) / sizeof(IOPMSleepReasons[0])) { + DLOG("sleep reason %s\n", IOPMSleepReasons[reasonIndex]); + setProperty(kRootDomainSleepReasonKey, IOPMSleepReasons[reasonIndex]); + } + } + + if ((kSystemTransitionNone != _systemTransitionType) && + (kSystemTransitionNewCapClient != _systemTransitionType)) { + _systemStateGeneration++; + systemDarkWake = false; + + DLOG("=== START (%s->%s, 0x%x) type %u, gen %u, msg %x, " + "dcp %x:%x:%x\n", + getPowerStateString(currentPowerState), getPowerStateString((uint32_t) powerState), *inOutChangeFlags, + _systemTransitionType, _systemStateGeneration, + _systemMessageClientMask, + _desiredCapability, _currentCapability, _pendingCapability); + } + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if ((AOT_STATE == powerState) && (SLEEP_STATE != currentPowerState)) { + panic("illegal AOT entry from %s", getPowerStateString(currentPowerState)); + } + if (_aotNow && (ON_STATE == powerState)) { + aotShouldExit(false, true); + aotExit(false); + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ +} + +void +IOPMrootDomain::handleOurPowerChangeDone( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex powerState, + IOPMPowerChangeFlags changeFlags, + IOPMRequestTag requestTag __unused ) +{ + if (kSystemTransitionNewCapClient == _systemTransitionType) { + _systemTransitionType = kSystemTransitionNone; + return; + } + + if (_systemTransitionType != kSystemTransitionNone) { + uint32_t currentPowerState = (uint32_t) getPowerState(); + + if (changeFlags & kIOPMNotDone) { + // Power down was cancelled or vetoed. + _pendingCapability = _currentCapability; + lastSleepReason = 0; + + if (!CAP_CURRENT(kIOPMSystemCapabilityGraphics) && + CAP_CURRENT(kIOPMSystemCapabilityCPU)) { +#if !CONFIG_EMBEDDED + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDarkWakeReentry, + _systemStateGeneration ); +#else + // On embedded, there are no factors that can prolong a + // "darkWake" when a power down is vetoed. We need to + // promote to "fullWake" at least once so that factors + // that prevent idle sleep can assert themselves if required + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDarkWakeActivityTickle); +#endif + } + + // Revert device desire to max. + changePowerStateToPriv(getRUN_STATE()); + } else { + // Send message on dark wake to full wake promotion. + // tellChangeUp() handles the normal SLEEP->ON case. + + if (kSystemTransitionCapability == _systemTransitionType) { + if (CAP_GAIN(kIOPMSystemCapabilityGraphics)) { + lastSleepReason = 0; // stop logging wrangler tickles + tellClients(kIOMessageSystemHasPoweredOn); + } + if (CAP_LOSS(kIOPMSystemCapabilityGraphics)) { + // Going dark, reset full wake state + // userIsActive will be cleared by wrangler powering down + fullWakeReason = kFullWakeReasonNone; + + if (ts_sleepStart) { + clock_get_uptime(&wake2DarkwakeDelay); + SUB_ABSOLUTETIME(&wake2DarkwakeDelay, &ts_sleepStart); + DLOG("sleepDelaysReport f->9 end 0x%llx\n", wake2DarkwakeDelay); + ts_sleepStart = 0; + } + } + } + + // Reset state after exiting from dark wake. + + if (CAP_GAIN(kIOPMSystemCapabilityGraphics) || + CAP_LOSS(kIOPMSystemCapabilityCPU)) { + darkWakeMaintenance = false; + darkWakeToSleepASAP = false; + pciCantSleepValid = false; + darkWakeSleepService = false; + + if (CAP_LOSS(kIOPMSystemCapabilityCPU)) { + // Remove the influence of display power assertion + // before next system wake. + if (wrangler) { + wrangler->changePowerStateForRootDomain( + kWranglerPowerStateMin ); + } + removeProperty(gIOPMUserTriggeredFullWakeKey); + } + } + + // Entered dark mode. + + if (((_pendingCapability & kIOPMSystemCapabilityGraphics) == 0) && + (_pendingCapability & kIOPMSystemCapabilityCPU)) { + // Queue an evaluation of whether to remain in dark wake, + // and for how long. This serves the purpose of draining + // any assertions from the queue. + + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDarkWakeEntry, + _systemStateGeneration ); + } + } + + DLOG("=== FINISH (%s->%s, 0x%x) type %u, gen %u, msg %x, " + "dcp %x:%x:%x, dbgtimer %u\n", + getPowerStateString(currentPowerState), getPowerStateString((uint32_t) powerState), changeFlags, + _systemTransitionType, _systemStateGeneration, + _systemMessageClientMask, + _desiredCapability, _currentCapability, _pendingCapability, + _lastDebugWakeSeconds); + + if (_pendingCapability & kIOPMSystemCapabilityGraphics) { + displayWakeCnt++; +#if DARK_TO_FULL_EVALUATE_CLAMSHELL + if (clamshellExists && fullWakeThreadCall && + CAP_HIGHEST(kIOPMSystemCapabilityGraphics)) { + // Not the initial graphics full power, graphics won't + // send a power notification to trigger a lid state + // evaluation. + + AbsoluteTime deadline; + clock_interval_to_deadline(45, kSecondScale, &deadline); + thread_call_enter_delayed(fullWakeThreadCall, deadline); + } +#endif + } else if (CAP_GAIN(kIOPMSystemCapabilityCPU)) { + darkWakeCnt++; + } + + // Update current system capability. + if (_currentCapability != _pendingCapability) { + _currentCapability = _pendingCapability; + } + + // Update highest system capability. + + _highestCapability |= _currentCapability; + + if (darkWakePostTickle && + (kSystemTransitionWake == _systemTransitionType) && + (gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) == + kDarkWakeFlagHIDTickleLate) { + darkWakePostTickle = false; + reportUserInput(); + } else if (wranglerTickled) { + requestFullWake( kFullWakeReasonLocalUser ); + } + + // Reset tracepoint at completion of capability change, + // completion of wake transition, and aborted sleep transition. + + if ((_systemTransitionType == kSystemTransitionCapability) || + (_systemTransitionType == kSystemTransitionWake) || + ((_systemTransitionType == kSystemTransitionSleep) && + (changeFlags & kIOPMNotDone))) { + setProperty(kIOPMSystemCapabilitiesKey, _currentCapability, 64); + tracePoint( kIOPMTracePointSystemUp ); + } + + _systemTransitionType = kSystemTransitionNone; + _systemMessageClientMask = 0; + toldPowerdCapWillChange = false; + + logGraphicsClamp = false; + + if (lowBatteryCondition) { + privateSleepSystem(kIOPMSleepReasonLowPower); + } else if ((fullWakeReason == kFullWakeReasonDisplayOn) && (!displayPowerOnRequested)) { + // Request for full wake is removed while system is waking up to full wake + DLOG("DisplayOn fullwake request is removed\n"); + handleDisplayPowerOn(); + } + + if (isRTCAlarmWake) { + pmPowerStateQueue->submitPowerEvent( + kPowerEventReceivedPowerNotification, (void *)(uintptr_t) kLocalEvalClamshellCommand ); + } + } +} + +//****************************************************************************** +// PM actions for graphics and audio. +//****************************************************************************** + +void +IOPMrootDomain::overridePowerChangeForUIService( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex * inOutPowerState, + IOPMPowerChangeFlags * inOutChangeFlags ) +{ + uint32_t powerState = (uint32_t) *inOutPowerState; + uint32_t changeFlags = (uint32_t) *inOutChangeFlags; + + if (kSystemTransitionNone == _systemTransitionType) { + // Not in midst of a system transition. + // Do not modify power limit enable state. + } else if ((actions->parameter & kPMActionsFlagLimitPower) == 0) { + // Activate power limiter. + + if ((actions->parameter & kPMActionsFlagIsDisplayWrangler) && + ((_pendingCapability & kIOPMSystemCapabilityGraphics) == 0) && + (changeFlags & kIOPMSynchronize)) { + actions->parameter |= kPMActionsFlagLimitPower; + } else if ((actions->parameter & kPMActionsFlagIsAudioDevice) && + ((gDarkWakeFlags & kDarkWakeFlagAudioNotSuppressed) == 0) && + ((_pendingCapability & kIOPMSystemCapabilityAudio) == 0) && + (changeFlags & kIOPMSynchronize)) { + actions->parameter |= kPMActionsFlagLimitPower; + } else if ((actions->parameter & kPMActionsFlagIsGraphicsDevice) && + (_systemTransitionType == kSystemTransitionSleep)) { + // For graphics devices, arm the limiter when entering + // system sleep. Not when dropping to dark wake. + actions->parameter |= kPMActionsFlagLimitPower; + } + + if (actions->parameter & kPMActionsFlagLimitPower) { + DLOG("+ plimit %s %p\n", + service->getName(), OBFUSCATE(service)); + } + } else { + // Remove power limit. + + if ((actions->parameter & ( + kPMActionsFlagIsDisplayWrangler | + kPMActionsFlagIsGraphicsDevice)) && + (_pendingCapability & kIOPMSystemCapabilityGraphics)) { + actions->parameter &= ~kPMActionsFlagLimitPower; + } else if ((actions->parameter & kPMActionsFlagIsAudioDevice) && + (_pendingCapability & kIOPMSystemCapabilityAudio)) { + actions->parameter &= ~kPMActionsFlagLimitPower; + } + + if ((actions->parameter & kPMActionsFlagLimitPower) == 0) { + DLOG("- plimit %s %p\n", + service->getName(), OBFUSCATE(service)); + } + } + + if (actions->parameter & kPMActionsFlagLimitPower) { + uint32_t maxPowerState = (uint32_t)(-1); + + if (changeFlags & (kIOPMDomainDidChange | kIOPMDomainWillChange)) { + // Enforce limit for system power/cap transitions. + + maxPowerState = 0; + if ((service->getPowerState() > maxPowerState) && + (actions->parameter & kPMActionsFlagIsDisplayWrangler)) { + maxPowerState++; + + // Remove lingering effects of any tickle before entering + // dark wake. It will take a new tickle to return to full + // wake, so the existing tickle state is useless. + + if (changeFlags & kIOPMDomainDidChange) { + *inOutChangeFlags |= kIOPMExpireIdleTimer; + } + } else if (actions->parameter & kPMActionsFlagIsGraphicsDevice) { + maxPowerState++; + } + } else { + // Deny all self-initiated changes when power is limited. + // Wrangler tickle should never defeat the limiter. + + maxPowerState = service->getPowerState(); + } + + if (powerState > maxPowerState) { + DLOG("> plimit %s %p (%u->%u, 0x%x)\n", + service->getName(), OBFUSCATE(service), powerState, maxPowerState, + changeFlags); + *inOutPowerState = maxPowerState; + + if (darkWakePostTickle && + (actions->parameter & kPMActionsFlagIsDisplayWrangler) && + (changeFlags & kIOPMDomainWillChange) && + ((gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) == + kDarkWakeFlagHIDTickleEarly)) { + darkWakePostTickle = false; + reportUserInput(); + } + } + + if (!graphicsSuppressed && (changeFlags & kIOPMDomainDidChange)) { + if (logGraphicsClamp) { + AbsoluteTime now; + uint64_t nsec; + + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_nanoseconds(now, &nsec); + if (kIOLogPMRootDomain & gIOKitDebug) { + MSG("Graphics suppressed %u ms\n", + ((int)((nsec) / NSEC_PER_MSEC))); + } + } + graphicsSuppressed = true; + } + } +} + +void +IOPMrootDomain::handleActivityTickleForDisplayWrangler( + IOService * service, + IOPMActions * actions ) +{ +#if !NO_KERNEL_HID + // Warning: Not running in PM work loop context - don't modify state !!! + // Trap tickle directed to IODisplayWrangler while running with graphics + // capability suppressed. + + assert(service == wrangler); + + clock_get_uptime(&userActivityTime); + bool aborting = ((lastSleepReason == kIOPMSleepReasonIdle) + || (lastSleepReason == kIOPMSleepReasonMaintenance) + || (lastSleepReason == kIOPMSleepReasonSoftware)); + if (aborting) { + userActivityCount++; + DLOG("display wrangler tickled1 %d lastSleepReason %d\n", + userActivityCount, lastSleepReason); + } + + if (!wranglerTickled && + ((_pendingCapability & kIOPMSystemCapabilityGraphics) == 0)) { + DLOG("display wrangler tickled\n"); + if (kIOLogPMRootDomain & gIOKitDebug) { + OSReportWithBacktrace("Dark wake display tickle"); + } + if (pmPowerStateQueue) { + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDarkWakeActivityTickle, + true /* set wake type */ ); + } + } +#endif +} + +void +IOPMrootDomain::handleUpdatePowerClientForDisplayWrangler( + IOService * service, + IOPMActions * actions, + const OSSymbol * powerClient, + IOPMPowerStateIndex oldPowerState, + IOPMPowerStateIndex newPowerState ) +{ +#if !NO_KERNEL_HID + assert(service == wrangler); + + // This function implements half of the user active detection + // by monitoring changes to the display wrangler's device desire. + // + // User becomes active when either: + // 1. Wrangler's DeviceDesire increases to max, but wrangler is already + // in max power state. This desire change in absence of a power state + // change is detected within. This handles the case when user becomes + // active while the display is already lit by setDisplayPowerOn(). + // + // 2. Power state change to max, and DeviceDesire is also at max. + // Handled by displayWranglerNotification(). + // + // User becomes inactive when DeviceDesire drops to sleep state or below. + + DLOG("wrangler %s (ps %u, %u->%u)\n", + powerClient->getCStringNoCopy(), + (uint32_t) service->getPowerState(), + (uint32_t) oldPowerState, (uint32_t) newPowerState); + + if (powerClient == gIOPMPowerClientDevice) { + if ((newPowerState > oldPowerState) && + (newPowerState == kWranglerPowerStateMax) && + (service->getPowerState() == kWranglerPowerStateMax)) { + evaluatePolicy( kStimulusEnterUserActiveState ); + } else if ((newPowerState < oldPowerState) && + (newPowerState <= kWranglerPowerStateSleep)) { + evaluatePolicy( kStimulusLeaveUserActiveState ); + } + } + + if (newPowerState <= kWranglerPowerStateSleep) { + evaluatePolicy( kStimulusDisplayWranglerSleep ); + } else if (newPowerState == kWranglerPowerStateMax) { + evaluatePolicy( kStimulusDisplayWranglerWake ); + } +#endif +} + +//****************************************************************************** +// User active state management +//****************************************************************************** + +void +IOPMrootDomain::preventTransitionToUserActive( bool prevent ) +{ +#if !NO_KERNEL_HID + _preventUserActive = prevent; + if (wrangler && !_preventUserActive) { + // Allowing transition to user active, but the wrangler may have + // already powered ON in case of sleep cancel/revert. Poll the + // same conditions checked for in displayWranglerNotification() + // to bring the user active state up to date. + + if ((wrangler->getPowerState() == kWranglerPowerStateMax) && + (wrangler->getPowerStateForClient(gIOPMPowerClientDevice) == + kWranglerPowerStateMax)) { + evaluatePolicy( kStimulusEnterUserActiveState ); + } + } +#endif +} + +//****************************************************************************** +// Approve usage of delayed child notification by PM. +//****************************************************************************** + +bool +IOPMrootDomain::shouldDelayChildNotification( + IOService * service ) +{ + if (((gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) != 0) && + (kFullWakeReasonNone == fullWakeReason) && + (kSystemTransitionWake == _systemTransitionType)) { + DLOG("%s: delay child notify\n", service->getName()); + return true; + } + return false; +} + +//****************************************************************************** +// PM actions for PCI device. +//****************************************************************************** + +void +IOPMrootDomain::handlePowerChangeStartForPCIDevice( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex powerState, + IOPMPowerChangeFlags * inOutChangeFlags ) +{ + pmTracer->tracePCIPowerChange( + PMTraceWorker::kPowerChangeStart, + service, *inOutChangeFlags, + (actions->parameter & kPMActionsPCIBitNumberMask)); +} + +void +IOPMrootDomain::handlePowerChangeDoneForPCIDevice( + IOService * service, + IOPMActions * actions, + IOPMPowerStateIndex powerState, + IOPMPowerChangeFlags changeFlags ) +{ + pmTracer->tracePCIPowerChange( + PMTraceWorker::kPowerChangeCompleted, + service, changeFlags, + (actions->parameter & kPMActionsPCIBitNumberMask)); +} + +//****************************************************************************** +// registerInterest +// +// Override IOService::registerInterest() to intercept special clients. +//****************************************************************************** + +class IOPMServiceInterestNotifier : public _IOServiceInterestNotifier +{ + friend class IOPMrootDomain; + OSDeclareDefaultStructors(IOPMServiceInterestNotifier); + +protected: + uint32_t ackTimeoutCnt; + uint32_t msgType;// Message pending ack + + uint64_t uuid0; + uint64_t uuid1; + const OSSymbol *identifier; +}; + +OSDefineMetaClassAndStructors(IOPMServiceInterestNotifier, _IOServiceInterestNotifier) + +IONotifier * IOPMrootDomain::registerInterest( + const OSSymbol * typeOfInterest, + IOServiceInterestHandler handler, + void * target, void * ref ) +{ + IOPMServiceInterestNotifier *notifier = NULL; + bool isSystemCapabilityClient; + bool isKernelCapabilityClient; + IOReturn rc = kIOReturnError;; + + isSystemCapabilityClient = + typeOfInterest && + typeOfInterest->isEqualTo(kIOPMSystemCapabilityInterest); + + isKernelCapabilityClient = + typeOfInterest && + typeOfInterest->isEqualTo(gIOPriorityPowerStateInterest); + + if (isSystemCapabilityClient) { + typeOfInterest = gIOAppPowerStateInterest; + } + + notifier = new IOPMServiceInterestNotifier; + if (!notifier) { + return NULL; + } + + if (notifier->init()) { + rc = super::registerInterestForNotifier(notifier, typeOfInterest, handler, target, ref); + } + if (rc != kIOReturnSuccess) { + notifier->release(); + notifier = NULL; + + return NULL; + } + if (pmPowerStateQueue) { + notifier->ackTimeoutCnt = 0; + if (isSystemCapabilityClient) { + notifier->retain(); + if (pmPowerStateQueue->submitPowerEvent( + kPowerEventRegisterSystemCapabilityClient, notifier) == false) { + notifier->release(); + } + } + + if (isKernelCapabilityClient) { + notifier->retain(); + if (pmPowerStateQueue->submitPowerEvent( + kPowerEventRegisterKernelCapabilityClient, notifier) == false) { + notifier->release(); + } + } + } + + OSData *data = NULL; + uint8_t *uuid = NULL; + OSKext *kext = OSKext::lookupKextWithAddress((vm_address_t)handler); + if (kext) { + data = kext->copyUUID(); + } + if (data && (data->getLength() == sizeof(uuid_t))) { + uuid = (uint8_t *)(data->getBytesNoCopy()); + + notifier->uuid0 = ((uint64_t)(uuid[0]) << 56) | ((uint64_t)(uuid[1]) << 48) | ((uint64_t)(uuid[2]) << 40) | + ((uint64_t)(uuid[3]) << 32) | ((uint64_t)(uuid[4]) << 24) | ((uint64_t)(uuid[5]) << 16) | + ((uint64_t)(uuid[6]) << 8) | (uuid[7]); + notifier->uuid1 = ((uint64_t)(uuid[8]) << 56) | ((uint64_t)(uuid[9]) << 48) | ((uint64_t)(uuid[10]) << 40) | + ((uint64_t)(uuid[11]) << 32) | ((uint64_t)(uuid[12]) << 24) | ((uint64_t)(uuid[13]) << 16) | + ((uint64_t)(uuid[14]) << 8) | (uuid[15]); + + notifier->identifier = kext->getIdentifier(); + } + if (kext) { + kext->release(); + } + if (data) { + data->release(); + } + + return notifier; +} + +//****************************************************************************** +// systemMessageFilter +// +//****************************************************************************** + +bool +IOPMrootDomain::systemMessageFilter( + void * object, void * arg1, void * arg2, void * arg3 ) +{ + const IOPMInterestContext * context = (const IOPMInterestContext *) arg1; + bool isCapMsg = (context->messageType == kIOMessageSystemCapabilityChange); + bool isCapClient = false; + bool allow = false; + IOPMServiceInterestNotifier *notifier; + + notifier = OSDynamicCast(IOPMServiceInterestNotifier, (OSObject *)object); + + do { + if ((kSystemTransitionNewCapClient == _systemTransitionType) && + (!isCapMsg || !_joinedCapabilityClients || + !_joinedCapabilityClients->containsObject((OSObject *) object))) { + break; + } + + // Capability change message for app and kernel clients. + + if (isCapMsg) { + if ((context->notifyType == kNotifyPriority) || + (context->notifyType == kNotifyCapabilityChangePriority)) { + isCapClient = true; + } + + if ((context->notifyType == kNotifyCapabilityChangeApps) && + (object == (void *) systemCapabilityNotifier)) { + isCapClient = true; + } + } + + if (isCapClient) { + IOPMSystemCapabilityChangeParameters * capArgs = + (IOPMSystemCapabilityChangeParameters *) arg2; + + if (kSystemTransitionNewCapClient == _systemTransitionType) { + capArgs->fromCapabilities = 0; + capArgs->toCapabilities = _currentCapability; + capArgs->changeFlags = 0; + } else { + capArgs->fromCapabilities = _currentCapability; + capArgs->toCapabilities = _pendingCapability; + + if (context->isPreChange) { + capArgs->changeFlags = kIOPMSystemCapabilityWillChange; + } else { + capArgs->changeFlags = kIOPMSystemCapabilityDidChange; + } + + if ((object == (void *) systemCapabilityNotifier) && + context->isPreChange) { + toldPowerdCapWillChange = true; + } + } + + // Capability change messages only go to the PM configd plugin. + // Wait for response post-change if capabilitiy is increasing. + // Wait for response pre-change if capability is decreasing. + + if ((context->notifyType == kNotifyCapabilityChangeApps) && arg3 && + ((capabilityLoss && context->isPreChange) || + (!capabilityLoss && !context->isPreChange))) { + // app has not replied yet, wait for it + *((OSObject **) arg3) = kOSBooleanFalse; + } + + allow = true; + break; + } + + // Capability client will always see kIOMessageCanSystemSleep, + // even for demand sleep. It will also have a chance to veto + // sleep one last time after all clients have responded to + // kIOMessageSystemWillSleep + + if ((kIOMessageCanSystemSleep == context->messageType) || + (kIOMessageSystemWillNotSleep == context->messageType)) { + if (object == (OSObject *) systemCapabilityNotifier) { + allow = true; + break; + } + + // Not idle sleep, don't ask apps. + if (context->changeFlags & kIOPMSkipAskPowerDown) { + break; + } + } + + if (kIOPMMessageLastCallBeforeSleep == context->messageType) { + if ((object == (OSObject *) systemCapabilityNotifier) && + CAP_HIGHEST(kIOPMSystemCapabilityGraphics) && + (fullToDarkReason == kIOPMSleepReasonIdle)) { + allow = true; + } + break; + } + + // Reject capability change messages for legacy clients. + // Reject legacy system sleep messages for capability client. + + if (isCapMsg || (object == (OSObject *) systemCapabilityNotifier)) { + break; + } + + // Filter system sleep messages. + + if ((context->notifyType == kNotifyApps) && + (_systemMessageClientMask & kSystemMessageClientLegacyApp)) { + allow = true; + + if (notifier) { + if (arg3) { + if (notifier->ackTimeoutCnt >= 3) { + *((OSObject **) arg3) = kOSBooleanFalse; + } else { + *((OSObject **) arg3) = kOSBooleanTrue; + } + } + } + } else if ((context->notifyType == kNotifyPriority) && + (_systemMessageClientMask & kSystemMessageClientKernel)) { + allow = true; + } + }while (false); + + if (allow && isCapMsg && _joinedCapabilityClients) { + _joinedCapabilityClients->removeObject((OSObject *) object); + if (_joinedCapabilityClients->getCount() == 0) { + DLOG("destroyed capability client set %p\n", + OBFUSCATE(_joinedCapabilityClients)); + _joinedCapabilityClients->release(); + _joinedCapabilityClients = NULL; + } + } + if (notifier) { + notifier->msgType = context->messageType; + } + + return allow; +} + +//****************************************************************************** +// setMaintenanceWakeCalendar +// +//****************************************************************************** + +IOReturn +IOPMrootDomain::setMaintenanceWakeCalendar( + const IOPMCalendarStruct * calendar ) +{ + OSData * data; + IOReturn ret = 0; + + if (!calendar) { + return kIOReturnBadArgument; + } + + data = OSData::withBytes((void *) calendar, sizeof(*calendar)); + if (!data) { + return kIOReturnNoMemory; + } + + if (kPMCalendarTypeMaintenance == calendar->selector) { + ret = setPMSetting(gIOPMSettingMaintenanceWakeCalendarKey, data); + if (kIOReturnSuccess == ret) { + OSBitOrAtomic(kIOPMAlarmBitMaintenanceWake, &_scheduledAlarms); + } + } else if (kPMCalendarTypeSleepService == calendar->selector) { + ret = setPMSetting(gIOPMSettingSleepServiceWakeCalendarKey, data); + if (kIOReturnSuccess == ret) { + OSBitOrAtomic(kIOPMAlarmBitSleepServiceWake, &_scheduledAlarms); + } + } + DLOG("_scheduledAlarms = 0x%x\n", (uint32_t) _scheduledAlarms); + + data->release(); + return ret; +} + +// MARK: - +// MARK: Display Wrangler + +//****************************************************************************** +// displayWranglerNotification +// +// Handle the notification when the IODisplayWrangler changes power state. +//****************************************************************************** + +IOReturn +IOPMrootDomain::displayWranglerNotification( + void * target, void * refCon, + UInt32 messageType, IOService * service, + void * messageArgument, vm_size_t argSize ) +{ +#if !NO_KERNEL_HID + int displayPowerState; + IOPowerStateChangeNotification * params = + (IOPowerStateChangeNotification *) messageArgument; + + if ((messageType != kIOMessageDeviceWillPowerOff) && + (messageType != kIOMessageDeviceHasPoweredOn)) { + return kIOReturnUnsupported; + } + + ASSERT_GATED(); + if (!gRootDomain) { + return kIOReturnUnsupported; + } + + displayPowerState = params->stateNumber; + DLOG("wrangler %s ps %d\n", + getIOMessageString(messageType), displayPowerState); + + switch (messageType) { + case kIOMessageDeviceWillPowerOff: + // Display wrangler has dropped power due to display idle + // or force system sleep. + // + // 4 Display ON kWranglerPowerStateMax + // 3 Display Dim kWranglerPowerStateDim + // 2 Display Sleep kWranglerPowerStateSleep + // 1 Not visible to user + // 0 Not visible to user kWranglerPowerStateMin + + if (displayPowerState <= kWranglerPowerStateSleep) { + gRootDomain->evaluatePolicy( kStimulusDisplayWranglerSleep ); + } + break; + + case kIOMessageDeviceHasPoweredOn: + // Display wrangler has powered on due to user activity + // or wake from sleep. + + if (kWranglerPowerStateMax == displayPowerState) { + gRootDomain->evaluatePolicy( kStimulusDisplayWranglerWake ); + + // See comment in handleUpdatePowerClientForDisplayWrangler + if (service->getPowerStateForClient(gIOPMPowerClientDevice) == + kWranglerPowerStateMax) { + gRootDomain->evaluatePolicy( kStimulusEnterUserActiveState ); + } + } + break; + } +#endif + return kIOReturnUnsupported; +} + +//****************************************************************************** +// displayWranglerMatchPublished +// +// Receives a notification when the IODisplayWrangler is published. +// When it's published we install a power state change handler. +//****************************************************************************** + +bool +IOPMrootDomain::displayWranglerMatchPublished( + void * target, + void * refCon, + IOService * newService, + IONotifier * notifier __unused) +{ +#if !NO_KERNEL_HID + // install a handler + if (!newService->registerInterest( gIOGeneralInterest, + &displayWranglerNotification, target, NULL)) { + return false; + } +#endif + return true; +} + +//****************************************************************************** +// reportUserInput +// +//****************************************************************************** + +void +IOPMrootDomain::reportUserInput( void ) +{ +#if !NO_KERNEL_HID + OSIterator * iter; + OSDictionary * matching; + + if (!wrangler) { + matching = serviceMatching("IODisplayWrangler"); + iter = getMatchingServices(matching); + if (matching) { + matching->release(); + } + if (iter) { + wrangler = OSDynamicCast(IOService, iter->getNextObject()); + iter->release(); + } + } + + if (wrangler) { + wrangler->activityTickle(0, 0); + } +#endif +} + +//****************************************************************************** +// latchDisplayWranglerTickle +//****************************************************************************** + +bool +IOPMrootDomain::latchDisplayWranglerTickle( bool latch ) +{ +#if !NO_KERNEL_HID + if (latch) { + if (!(_currentCapability & kIOPMSystemCapabilityGraphics) && + !(_pendingCapability & kIOPMSystemCapabilityGraphics) && + !checkSystemCanSustainFullWake()) { + // Currently in dark wake, and not transitioning to full wake. + // Full wake is unsustainable, so latch the tickle to prevent + // the display from lighting up momentarily. + wranglerTickleLatched = true; + } else { + wranglerTickleLatched = false; + } + } else if (wranglerTickleLatched && checkSystemCanSustainFullWake()) { + wranglerTickleLatched = false; + + pmPowerStateQueue->submitPowerEvent( + kPowerEventPolicyStimulus, + (void *) kStimulusDarkWakeActivityTickle ); + } + + return wranglerTickleLatched; +#else + return false; +#endif +} + +//****************************************************************************** +// setDisplayPowerOn +// +// For root domain user client +//****************************************************************************** + +void +IOPMrootDomain::setDisplayPowerOn( uint32_t options ) +{ + pmPowerStateQueue->submitPowerEvent( kPowerEventSetDisplayPowerOn, + (void *) NULL, options ); +} + +// MARK: - +// MARK: Battery + +//****************************************************************************** +// batteryPublished +// +// Notification on battery class IOPowerSource appearance +//****************************************************************************** + +bool +IOPMrootDomain::batteryPublished( + void * target, + void * root_domain, + IOService * resourceService, + IONotifier * notifier __unused ) +{ + // rdar://2936060&4435589 + // All laptops have dimmable LCD displays + // All laptops have batteries + // So if this machine has a battery, publish the fact that the backlight + // supports dimming. + ((IOPMrootDomain *)root_domain)->publishFeature("DisplayDims"); + + return true; +} + +// MARK: - +// MARK: System PM Policy + +//****************************************************************************** +// checkSystemSleepAllowed +// +//****************************************************************************** + +bool +IOPMrootDomain::checkSystemSleepAllowed( IOOptionBits options, + uint32_t sleepReason ) +{ + uint32_t err = 0; + + // Conditions that prevent idle and demand system sleep. + + do { + if (userDisabledAllSleep) { + err = kPMUserDisabledAllSleep; // 1. user-space sleep kill switch + break; + } + + if (systemBooting || systemShutdown || gWillShutdown) { + err = kPMSystemRestartBootingInProgress; // 2. restart or shutdown in progress + break; + } + + if (options == 0) { + break; + } + + // Conditions above pegs the system at full wake. + // Conditions below prevent system sleep but does not prevent + // dark wake, and must be called from gated context. + +#if !CONFIG_SLEEP + err = kPMConfigPreventSystemSleep; // 3. config does not support sleep + break; +#endif + + if (lowBatteryCondition || thermalWarningState) { + break; // always sleep on low battery or when in thermal warning state + } + + if (sleepReason == kIOPMSleepReasonDarkWakeThermalEmergency) { + break; // always sleep on dark wake thermal emergencies + } + + if (preventSystemSleepList->getCount() != 0) { + err = kPMChildPreventSystemSleep; // 4. child prevent system sleep clamp + break; + } + + if (getPMAssertionLevel( kIOPMDriverAssertionCPUBit ) == + kIOPMDriverAssertionLevelOn) { + err = kPMCPUAssertion; // 5. CPU assertion + break; + } + + if (pciCantSleepValid) { + if (pciCantSleepFlag) { + err = kPMPCIUnsupported; // 6. PCI card does not support PM (cached) + } + break; + } else if (sleepSupportedPEFunction && + CAP_HIGHEST(kIOPMSystemCapabilityGraphics)) { + IOReturn ret; + OSBitAndAtomic(~kPCICantSleep, &platformSleepSupport); + ret = getPlatform()->callPlatformFunction( + sleepSupportedPEFunction, false, + NULL, NULL, NULL, NULL); + pciCantSleepValid = true; + pciCantSleepFlag = false; + if ((platformSleepSupport & kPCICantSleep) || + ((ret != kIOReturnSuccess) && (ret != kIOReturnUnsupported))) { + err = 6; // 6. PCI card does not support PM + pciCantSleepFlag = true; + break; + } + } + }while (false); + + if (err) { + DLOG("System sleep prevented by %s\n", getSystemSleepPreventerString(err)); + return false; + } + return true; +} + +bool +IOPMrootDomain::checkSystemSleepEnabled( void ) +{ + return checkSystemSleepAllowed(0, 0); +} + +bool +IOPMrootDomain::checkSystemCanSleep( uint32_t sleepReason ) +{ + ASSERT_GATED(); + return checkSystemSleepAllowed(1, sleepReason); +} + +//****************************************************************************** +// checkSystemCanSustainFullWake +//****************************************************************************** + +bool +IOPMrootDomain::checkSystemCanSustainFullWake( void ) +{ +#if !NO_KERNEL_HID + if (lowBatteryCondition || thermalWarningState) { + // Low battery wake, or received a low battery notification + // while system is awake. This condition will persist until + // the following wake. + return false; + } + + if (clamshellExists && clamshellClosed && !clamshellSleepDisabled) { + // Graphics state is unknown and external display might not be probed. + // Do not incorporate state that requires graphics to be in max power + // such as desktopMode or clamshellDisabled. + + if (!acAdaptorConnected) { + DLOG("full wake check: no AC\n"); + return false; + } + } +#endif + return true; +} + +//****************************************************************************** +// mustHibernate +//****************************************************************************** + +#if HIBERNATION + +bool +IOPMrootDomain::mustHibernate( void ) +{ + return lowBatteryCondition || thermalWarningState; +} + +#endif /* HIBERNATION */ + +//****************************************************************************** +// AOT +//****************************************************************************** + +// Tables for accumulated days in year by month, latter used for leap years + +static const int daysbymonth[] = +{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 }; + +static const int lydaysbymonth[] = +{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }; + +static int __unused +IOPMConvertSecondsToCalendar(long secs, IOPMCalendarStruct * dt) +{ + const int * dbm = daysbymonth; + long n, x, y, z; + + if (secs < 0) { + return 0; + } + + // Calculate seconds, minutes and hours + + n = secs % (24 * 3600); + dt->second = n % 60; + n /= 60; + dt->minute = n % 60; + dt->hour = n / 60; + + // Calculate day of week + + n = secs / (24 * 3600); +// dt->dayWeek = (n + 4) % 7; + + // Calculate year + // Rebase from days since Unix epoch (1/1/1970) store in 'n', + // to days since 1/1/1968 to start on 4 year cycle, beginning + // on a leap year. + + n += (366 + 365); + + // Every 4 year cycle will be exactly (366 + 365 * 3) = 1461 days. + // Valid before 2100, since 2100 is not a leap year. + + x = n / 1461; // number of 4 year cycles + y = n % 1461; // days into current 4 year cycle + z = 1968 + (4 * x); + + // Add in years in the current 4 year cycle + + if (y >= 366) { + y -= 366; // days after the leap year + n = y % 365; // days into the current year + z += (1 + y / 365); // years after the past 4-yr cycle + } else { + n = y; + dbm = lydaysbymonth; + } + if (z > 2099) { + return 0; + } + + dt->year = z; + + // Adjust remaining days value to start at 1 + + n += 1; + + // Calculate month + + for (x = 1; n > dbm[x]; x++) { + continue; + } + dt->month = x; + + // Calculate day of month + + dt->day = n - dbm[x - 1]; + + return 1; +} + +static long +IOPMConvertCalendarToSeconds(const IOPMCalendarStruct * dt) +{ + const int * dbm = daysbymonth; + long y, secs, days; + + if (dt->year < 1970) { + return 0; + } + + // Seconds elapsed in the current day + + secs = dt->second + 60 * dt->minute + 3600 * dt->hour; + + // Number of days from 1/1/70 to beginning of current year + // Account for extra day every 4 years starting at 1973 + + y = dt->year - 1970; + days = (y * 365) + ((y + 1) / 4); + + // Change table if current year is a leap year + + if ((dt->year % 4) == 0) { + dbm = lydaysbymonth; + } + + // Add in days elapsed in the current year + + days += (dt->day - 1) + dbm[dt->month - 1]; + + // Add accumulated days to accumulated seconds + + secs += 24 * 3600 * days; + + return secs; +} + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + +unsigned long +IOPMrootDomain::getRUN_STATE(void) +{ + return _aotNow ? AOT_STATE : ON_STATE; +} + +bool +IOPMrootDomain::isAOTMode() +{ + return _aotNow; +} + +IOReturn +IOPMrootDomain::setWakeTime(uint64_t wakeContinuousTime) +{ + clock_sec_t nowsecs, wakesecs; + clock_usec_t nowmicrosecs, wakemicrosecs; + uint64_t nowAbs, wakeAbs; + + clock_gettimeofday_and_absolute_time(&nowsecs, &nowmicrosecs, &nowAbs); + wakeAbs = continuoustime_to_absolutetime(wakeContinuousTime); + if (wakeAbs < nowAbs) { + printf(LOG_PREFIX "wakeAbs %qd < nowAbs %qd\n", wakeAbs, nowAbs); + wakeAbs = nowAbs; + } + wakeAbs -= nowAbs; + absolutetime_to_microtime(wakeAbs, &wakesecs, &wakemicrosecs); + + wakesecs += nowsecs; + wakemicrosecs += nowmicrosecs; + if (wakemicrosecs >= USEC_PER_SEC) { + wakesecs++; + wakemicrosecs -= USEC_PER_SEC; + } + if (wakemicrosecs >= (USEC_PER_SEC / 10)) { + wakesecs++; + } + + IOPMConvertSecondsToCalendar(wakesecs, &_aotWakeTimeCalendar); + + if (_aotWakeTimeContinuous != wakeContinuousTime) { + _aotWakeTimeContinuous = wakeContinuousTime; + IOLog(LOG_PREFIX "setWakeTime: " YMDTF "\n", YMDT(&_aotWakeTimeCalendar)); + } + _aotWakeTimeCalendar.selector = kPMCalendarTypeMaintenance; + _aotWakeTimeUTC = wakesecs; + + return kIOReturnSuccess; +} + +// assumes WAKEEVENT_LOCK +bool +IOPMrootDomain::aotShouldExit(bool checkTimeSet, bool software) +{ + bool exitNow; + const char * reason = ""; + + if (software) { + _aotExit = true; + _aotMetrics->softwareRequestCount++; + reason = "software request"; + } else if (kIOPMWakeEventAOTExitFlags & _aotPendingFlags) { + _aotExit = true; + reason = gWakeReasonString; + } else if (checkTimeSet && (kPMCalendarTypeInvalid == _aotWakeTimeCalendar.selector)) { + _aotExit = true; + _aotMetrics->noTimeSetCount++; + reason = "flipbook expired"; + } else if ((kIOPMAOTModeRespectTimers & _aotMode) && _scheduledAlarmUTC) { + clock_sec_t sec; + clock_usec_t usec; + clock_get_calendar_microtime(&sec, &usec); + if (_scheduledAlarmUTC <= sec) { + _aotExit = true; + _aotMetrics->rtcAlarmsCount++; + reason = "user alarm"; + } + } + exitNow = (_aotNow && _aotExit); + if (exitNow) { + _aotNow = false; + IOLog(LOG_PREFIX "AOT exit for %s, sc %d po %d, cp %d, rj %d, ex %d, nt %d, rt %d\n", + reason, + _aotMetrics->sleepCount, + _aotMetrics->possibleCount, + _aotMetrics->confirmedPossibleCount, + _aotMetrics->rejectedPossibleCount, + _aotMetrics->expiredPossibleCount, + _aotMetrics->noTimeSetCount, + _aotMetrics->rtcAlarmsCount); + } + return exitNow; +} + +void +IOPMrootDomain::aotExit(bool cps) +{ + _aotTasksSuspended = false; + _aotReadyToFullWake = false; + if (_aotTimerScheduled) { + _aotTimerES->cancelTimeout(); + _aotTimerScheduled = false; + } + updateTasksSuspend(); + + _aotMetrics->totalTime += mach_absolute_time() - _aotLastWakeTime; + _aotLastWakeTime = 0; + if (_aotMetrics->sleepCount && (_aotMetrics->sleepCount <= kIOPMAOTMetricsKernelWakeCountMax)) { + strlcpy(&_aotMetrics->kernelWakeReason[_aotMetrics->sleepCount - 1][0], + gWakeReasonString, + sizeof(_aotMetrics->kernelWakeReason[_aotMetrics->sleepCount])); + } + + _aotWakeTimeCalendar.selector = kPMCalendarTypeInvalid; + + _systemMessageClientMask = kSystemMessageClientLegacyApp; + tellClients(kIOMessageSystemWillPowerOn); + + if (cps) { + changePowerStateToPriv(getRUN_STATE()); + } +} + +void +IOPMrootDomain::aotEvaluate(IOTimerEventSource * timer) +{ + bool exitNow; + + IOLog("aotEvaluate(%d) 0x%x\n", (timer != NULL), _aotPendingFlags); + + WAKEEVENT_LOCK(); + exitNow = aotShouldExit(false, false); + if (timer != NULL) { + _aotTimerScheduled = false; + } + WAKEEVENT_UNLOCK(); + if (exitNow) { + aotExit(true); + } else { +#if 0 + if (_aotLingerTime) { + uint64_t deadline; + IOLog("aot linger before sleep\n"); + clock_absolutetime_interval_to_deadline(_aotLingerTime, &deadline); + clock_delay_until(deadline); + } +#endif + privateSleepSystem(kIOPMSleepReasonSoftware); + } +} + +#else /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +unsigned long +IOPMrootDomain::getRUN_STATE(void) +{ + return ON_STATE; +} + +IOReturn +IOPMrootDomain::setWakeTime(uint64_t wakeContinuousTime) +{ + return kIOReturnUnsupported; +} + +#endif /* (defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +//****************************************************************************** +// adjustPowerState +// +// Conditions that affect our wake/sleep decision has changed. +// If conditions dictate that the system must remain awake, clamp power +// state to max with changePowerStateToPriv(ON). Otherwise if sleepASAP +// is TRUE, then remove the power clamp and allow the power state to drop +// to SLEEP_STATE. +//****************************************************************************** + +void +IOPMrootDomain::adjustPowerState( bool sleepASAP ) +{ + DEBUG_LOG("adjustPowerState ps %s, asap %d, idleSleepEnabled %d\n", + getPowerStateString((uint32_t) getPowerState()), sleepASAP, idleSleepEnabled); + + ASSERT_GATED(); + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (_aotNow) { + bool exitNow; + + if (AOT_STATE != getPowerState()) { + return; + } + WAKEEVENT_LOCK(); + exitNow = aotShouldExit(true, false); + if (!exitNow + && !_aotTimerScheduled + && (kIOPMWakeEventAOTPossibleExit == (kIOPMWakeEventAOTPossibleFlags & _aotPendingFlags))) { + _aotTimerScheduled = true; + if (_aotLingerTime) { + _aotTimerES->setTimeout(_aotLingerTime); + } else { + _aotTimerES->setTimeout(800, kMillisecondScale); + } + } + WAKEEVENT_UNLOCK(); + if (exitNow) { + aotExit(true); + } else { + _aotReadyToFullWake = true; + if (!_aotTimerScheduled) { + privateSleepSystem(kIOPMSleepReasonSoftware); + } + } + return; + } +#endif /* (defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + if ((!idleSleepEnabled) || !checkSystemSleepEnabled()) { + changePowerStateToPriv(getRUN_STATE()); + } else if (sleepASAP) { + changePowerStateToPriv(SLEEP_STATE); + } +} + +void +IOPMrootDomain::handleDisplayPowerOn() +{ + if (!wrangler) { + return; + } + if (displayPowerOnRequested) { + if (!checkSystemCanSustainFullWake()) { + return; + } + + // Force wrangler to max power state. If system is in dark wake + // this alone won't raise the wrangler's power state. + + wrangler->changePowerStateForRootDomain(kWranglerPowerStateMax); + + // System in dark wake, always requesting full wake should + // not have any bad side-effects, even if the request fails. + + if (!CAP_CURRENT(kIOPMSystemCapabilityGraphics)) { + setProperty(kIOPMRootDomainWakeTypeKey, kIOPMRootDomainWakeTypeNotification); + requestFullWake( kFullWakeReasonDisplayOn ); + } + } else { + // Relenquish desire to power up display. + // Must first transition to state 1 since wrangler doesn't + // power off the displays at state 0. At state 0 the root + // domain is removed from the wrangler's power client list. + + wrangler->changePowerStateForRootDomain(kWranglerPowerStateMin + 1); + wrangler->changePowerStateForRootDomain(kWranglerPowerStateMin); + } +} + +//****************************************************************************** +// dispatchPowerEvent +// +// IOPMPowerStateQueue callback function. Running on PM work loop thread. +//****************************************************************************** + +void +IOPMrootDomain::dispatchPowerEvent( + uint32_t event, void * arg0, uint64_t arg1 ) +{ + ASSERT_GATED(); + + switch (event) { + case kPowerEventFeatureChanged: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + messageClients(kIOPMMessageFeatureChange, this); + break; + + case kPowerEventReceivedPowerNotification: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + handlePowerNotification((UInt32)(uintptr_t) arg0 ); + break; + + case kPowerEventSystemBootCompleted: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (systemBooting) { + systemBooting = false; + + // read noidle setting from Device Tree + IORegistryEntry *defaults = IORegistryEntry::fromPath("IODeviceTree:/defaults"); + if (defaults != NULL) { + OSData *data = OSDynamicCast(OSData, defaults->getProperty("no-idle")); + if ((data != NULL) && (data->getLength() == 4)) { + gNoIdleFlag = *(uint32_t*)data->getBytesNoCopy(); + DLOG("Setting gNoIdleFlag to %u from device tree\n", gNoIdleFlag); + } + defaults->release(); + } + if (lowBatteryCondition) { + privateSleepSystem(kIOPMSleepReasonLowPower); + + // The rest is unnecessary since the system is expected + // to sleep immediately. The following wake will update + // everything. + break; + } + + sleepWakeDebugMemAlloc(); + saveFailureData2File(); + + // If lid is closed, re-send lid closed notification + // now that booting is complete. + if (clamshellClosed) { + handlePowerNotification(kLocalEvalClamshellCommand); + } + evaluatePolicy( kStimulusAllowSystemSleepChanged ); + } + break; + + case kPowerEventSystemShutdown: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (kOSBooleanTrue == (OSBoolean *) arg0) { + /* We set systemShutdown = true during shutdown + * to prevent sleep at unexpected times while loginwindow is trying + * to shutdown apps and while the OS is trying to transition to + * complete power of. + * + * Set to true during shutdown, as soon as loginwindow shows + * the "shutdown countdown dialog", through individual app + * termination, and through black screen kernel shutdown. + */ + systemShutdown = true; + } else { + /* + * A shutdown was initiated, but then the shutdown + * was cancelled, clearing systemShutdown to false here. + */ + systemShutdown = false; + } + break; + + case kPowerEventUserDisabledSleep: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + userDisabledAllSleep = (kOSBooleanTrue == (OSBoolean *) arg0); + break; + + case kPowerEventRegisterSystemCapabilityClient: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (systemCapabilityNotifier) { + systemCapabilityNotifier->release(); + systemCapabilityNotifier = NULL; + } + if (arg0) { + systemCapabilityNotifier = (IONotifier *) arg0; + systemCapabilityNotifier->retain(); + } + /* intentional fall-through */ + [[clang::fallthrough]]; + + case kPowerEventRegisterKernelCapabilityClient: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (!_joinedCapabilityClients) { + _joinedCapabilityClients = OSSet::withCapacity(8); + } + if (arg0) { + IONotifier * notify = (IONotifier *) arg0; + if (_joinedCapabilityClients) { + _joinedCapabilityClients->setObject(notify); + synchronizePowerTree( kIOPMSyncNoChildNotify ); + } + notify->release(); + } + break; + + case kPowerEventPolicyStimulus: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (arg0) { + int stimulus = (uintptr_t) arg0; + evaluatePolicy( stimulus, (uint32_t) arg1 ); + } + break; + + case kPowerEventAssertionCreate: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (pmAssertions) { + pmAssertions->handleCreateAssertion((OSData *)arg0); + } + break; + + + case kPowerEventAssertionRelease: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (pmAssertions) { + pmAssertions->handleReleaseAssertion(arg1); + } + break; + + case kPowerEventAssertionSetLevel: + DMSG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (pmAssertions) { + pmAssertions->handleSetAssertionLevel(arg1, (IOPMDriverAssertionLevel)(uintptr_t)arg0); + } + break; + + case kPowerEventQueueSleepWakeUUID: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + handleQueueSleepWakeUUID((OSObject *)arg0); + break; + case kPowerEventPublishSleepWakeUUID: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + handlePublishSleepWakeUUID((bool)arg0); + break; + + case kPowerEventSetDisplayPowerOn: + DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1); + if (!wrangler) { + break; + } + if (arg1 != 0) { + displayPowerOnRequested = true; + } else { + displayPowerOnRequested = false; + } + handleDisplayPowerOn(); + break; + } +} + +//****************************************************************************** +// systemPowerEventOccurred +// +// The power controller is notifying us of a hardware-related power management +// event that we must handle. +// +// systemPowerEventOccurred covers the same functionality that +// receivePowerNotification does; it simply provides a richer API for conveying +// more information. +//****************************************************************************** + +IOReturn +IOPMrootDomain::systemPowerEventOccurred( + const OSSymbol *event, + uint32_t intValue) +{ + IOReturn attempt = kIOReturnSuccess; + OSNumber *newNumber = NULL; + + if (!event) { + return kIOReturnBadArgument; + } + + newNumber = OSNumber::withNumber(intValue, 8 * sizeof(intValue)); + if (!newNumber) { + return kIOReturnInternalError; + } + + attempt = systemPowerEventOccurred(event, (OSObject *)newNumber); + + newNumber->release(); + + return attempt; +} + +void +IOPMrootDomain::setThermalState(OSObject *value) +{ + OSNumber * num; + + if (gIOPMWorkLoop->inGate() == false) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, &IOPMrootDomain::setThermalState), + (OSObject *)this, + (void *)value); + + return; + } + if (value && (num = OSDynamicCast(OSNumber, value))) { + thermalWarningState = ((num->unsigned32BitValue() == kIOPMThermalLevelWarning) || + (num->unsigned32BitValue() == kIOPMThermalLevelTrap)) ? 1 : 0; + } +} + +IOReturn +IOPMrootDomain::systemPowerEventOccurred( + const OSSymbol *event, + OSObject *value) +{ + OSDictionary *thermalsDict = NULL; + bool shouldUpdate = true; + + if (!event || !value) { + return kIOReturnBadArgument; + } + + // LOCK + // We reuse featuresDict Lock because it already exists and guards + // the very infrequently used publish/remove feature mechanism; so there's zero rsk + // of stepping on that lock. + if (featuresDictLock) { + IOLockLock(featuresDictLock); + } + + thermalsDict = (OSDictionary *)getProperty(kIOPMRootDomainPowerStatusKey); + + if (thermalsDict && OSDynamicCast(OSDictionary, thermalsDict)) { + thermalsDict = OSDictionary::withDictionary(thermalsDict); + } else { + thermalsDict = OSDictionary::withCapacity(1); + } + + if (!thermalsDict) { + shouldUpdate = false; + goto exit; + } + + thermalsDict->setObject(event, value); + + setProperty(kIOPMRootDomainPowerStatusKey, thermalsDict); + + thermalsDict->release(); + +exit: + // UNLOCK + if (featuresDictLock) { + IOLockUnlock(featuresDictLock); + } + + if (shouldUpdate) { + if (event && + event->isEqualTo(kIOPMThermalLevelWarningKey)) { + setThermalState(value); + } + messageClients(kIOPMMessageSystemPowerEventOccurred, (void *)NULL); + } + + return kIOReturnSuccess; +} + +//****************************************************************************** +// receivePowerNotification +// +// The power controller is notifying us of a hardware-related power management +// event that we must handle. This may be a result of an 'environment' interrupt +// from the power mgt micro. +//****************************************************************************** + +IOReturn +IOPMrootDomain::receivePowerNotification( UInt32 msg ) +{ + if (msg & kIOPMPowerButton) { + uint32_t currentPhase = pmTracer->getTracePhase(); + if (currentPhase != kIOPMTracePointSystemUp && currentPhase > kIOPMTracePointSystemSleep) { + DEBUG_LOG("power button pressed during wake. phase = %u\n", currentPhase); + swd_flags |= SWD_PWR_BTN_STACKSHOT; + thread_call_enter(powerButtonDown); + } else { + DEBUG_LOG("power button pressed when system is up\n"); + } + } else if (msg & kIOPMPowerButtonUp) { + if (swd_flags & SWD_PWR_BTN_STACKSHOT) { + swd_flags &= ~SWD_PWR_BTN_STACKSHOT; + thread_call_enter(powerButtonUp); + } + } else { + pmPowerStateQueue->submitPowerEvent( + kPowerEventReceivedPowerNotification, (void *)(uintptr_t) msg ); + } + return kIOReturnSuccess; +} + +void +IOPMrootDomain::handlePowerNotification( UInt32 msg ) +{ + bool eval_clamshell = false; + bool eval_clamshell_alarm = false; + + ASSERT_GATED(); + + /* + * Local (IOPMrootDomain only) eval clamshell command + */ + if (msg & kLocalEvalClamshellCommand) { + if (isRTCAlarmWake) { + eval_clamshell_alarm = true; + + // reset isRTCAlarmWake. This evaluation should happen only once + // on RTC/Alarm wake. Any clamshell events after wake should follow + // the regular evaluation + isRTCAlarmWake = false; + } else { + eval_clamshell = true; + } + } + + /* + * Overtemp + */ + if (msg & kIOPMOverTemp) { + MSG("PowerManagement emergency overtemp signal. Going to sleep!"); + privateSleepSystem(kIOPMSleepReasonThermalEmergency); + } + + /* + * Forward DW thermal notification to client, if system is not going to sleep + */ + if ((msg & kIOPMDWOverTemp) && (_systemTransitionType != kSystemTransitionSleep)) { + DLOG("DarkWake thermal limits message received!\n"); + + messageClients(kIOPMMessageDarkWakeThermalEmergency); + } + + /* + * Sleep Now! + */ + if (msg & kIOPMSleepNow) { + privateSleepSystem(kIOPMSleepReasonSoftware); + } + + /* + * Power Emergency + */ + if (msg & kIOPMPowerEmergency) { + lowBatteryCondition = true; + privateSleepSystem(kIOPMSleepReasonLowPower); + } + + /* + * Clamshell OPEN + */ + if (msg & kIOPMClamshellOpened) { + DLOG("Clamshell opened\n"); + // Received clamshel open message from clamshell controlling driver + // Update our internal state and tell general interest clients + clamshellClosed = false; + clamshellExists = true; + + // Don't issue a hid tickle when lid is open and polled on wake + if (msg & kIOPMSetValue) { + setProperty(kIOPMRootDomainWakeTypeKey, "Lid Open"); + reportUserInput(); + } + + // Tell PMCPU + informCPUStateChange(kInformLid, 0); + + // Tell general interest clients + sendClientClamshellNotification(); + + bool aborting = ((lastSleepReason == kIOPMSleepReasonClamshell) + || (lastSleepReason == kIOPMSleepReasonIdle) + || (lastSleepReason == kIOPMSleepReasonMaintenance)); + if (aborting) { + userActivityCount++; + } + DLOG("clamshell tickled %d lastSleepReason %d\n", userActivityCount, lastSleepReason); + } + + /* + * Clamshell CLOSED + * Send the clamshell interest notification since the lid is closing. + */ + if (msg & kIOPMClamshellClosed) { + if (clamshellClosed && clamshellExists) { + DLOG("Ignoring redundant Clamshell close event\n"); + } else { + DLOG("Clamshell closed\n"); + // Received clamshel open message from clamshell controlling driver + // Update our internal state and tell general interest clients + clamshellClosed = true; + clamshellExists = true; + + // Tell PMCPU + informCPUStateChange(kInformLid, 1); + + // Tell general interest clients + sendClientClamshellNotification(); + + // And set eval_clamshell = so we can attempt + eval_clamshell = true; + } + } + + /* + * Set Desktop mode (sent from graphics) + * + * -> reevaluate lid state + */ + if (msg & kIOPMSetDesktopMode) { + DLOG("Desktop mode\n"); + desktopMode = (0 != (msg & kIOPMSetValue)); + msg &= ~(kIOPMSetDesktopMode | kIOPMSetValue); + + sendClientClamshellNotification(); + + // Re-evaluate the lid state + eval_clamshell = true; + } + + /* + * AC Adaptor connected + * + * -> reevaluate lid state + */ + if (msg & kIOPMSetACAdaptorConnected) { + acAdaptorConnected = (0 != (msg & kIOPMSetValue)); + msg &= ~(kIOPMSetACAdaptorConnected | kIOPMSetValue); + + // Tell CPU PM + informCPUStateChange(kInformAC, !acAdaptorConnected); + + // Tell BSD if AC is connected + // 0 == external power source; 1 == on battery + post_sys_powersource(acAdaptorConnected ? 0:1); + + sendClientClamshellNotification(); + + // Re-evaluate the lid state + eval_clamshell = true; + + // Lack of AC may have latched a display wrangler tickle. + // This mirrors the hardware's USB wake event latch, where a latched + // USB wake event followed by an AC attach will trigger a full wake. + latchDisplayWranglerTickle( false ); + +#if HIBERNATION + // AC presence will reset the standy timer delay adjustment. + _standbyTimerResetSeconds = 0; +#endif + if (!userIsActive) { + // Reset userActivityTime when power supply is changed(rdr 13789330) + clock_get_uptime(&userActivityTime); + } + } + + /* + * Enable Clamshell (external display disappear) + * + * -> reevaluate lid state + */ + if (msg & kIOPMEnableClamshell) { + DLOG("Clamshell enabled\n"); + // Re-evaluate the lid state + // System should sleep on external display disappearance + // in lid closed operation. + if (true == clamshellDisabled) { + eval_clamshell = true; + } + + clamshellDisabled = false; + sendClientClamshellNotification(); + } + + /* + * Disable Clamshell (external display appeared) + * We don't bother re-evaluating clamshell state. If the system is awake, + * the lid is probably open. + */ + if (msg & kIOPMDisableClamshell) { + DLOG("Clamshell disabled\n"); + clamshellDisabled = true; + sendClientClamshellNotification(); + } + + /* + * Evaluate clamshell and SLEEP if appropiate + */ + if (eval_clamshell_alarm && clamshellClosed) { + if (shouldSleepOnRTCAlarmWake()) { + privateSleepSystem(kIOPMSleepReasonClamshell); + } + } else if (eval_clamshell && clamshellClosed) { + if (shouldSleepOnClamshellClosed()) { + privateSleepSystem(kIOPMSleepReasonClamshell); + } else { + evaluatePolicy( kStimulusDarkWakeEvaluate ); + } + } + + if (msg & kIOPMProModeEngaged) { + int newState = 1; + DLOG("ProModeEngaged\n"); + messageClient(kIOPMMessageProModeStateChange, systemCapabilityNotifier, &newState, sizeof(newState)); + } + + if (msg & kIOPMProModeDisengaged) { + int newState = 0; + DLOG("ProModeDisengaged\n"); + messageClient(kIOPMMessageProModeStateChange, systemCapabilityNotifier, &newState, sizeof(newState)); + } +} + +//****************************************************************************** +// evaluatePolicy +// +// Evaluate root-domain policy in response to external changes. +//****************************************************************************** + +void +IOPMrootDomain::evaluatePolicy( int stimulus, uint32_t arg ) +{ + union { + struct { + int idleSleepEnabled : 1; + int idleSleepDisabled : 1; + int displaySleep : 1; + int sleepDelayChanged : 1; + int evaluateDarkWake : 1; + int adjustPowerState : 1; + int userBecameInactive : 1; + } bit; + uint32_t u32; + } flags; + + + ASSERT_GATED(); + flags.u32 = 0; + + switch (stimulus) { + case kStimulusDisplayWranglerSleep: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + if (!wranglerAsleep) { + // first transition to wrangler sleep or lower + flags.bit.displaySleep = true; + } + break; + + case kStimulusDisplayWranglerWake: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + displayIdleForDemandSleep = false; + wranglerAsleep = false; + break; + + case kStimulusEnterUserActiveState: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + if (_preventUserActive) { + DLOG("user active dropped\n"); + break; + } + if (!userIsActive) { + userIsActive = true; + userWasActive = true; + clock_get_uptime(&gUserActiveAbsTime); + + // Stay awake after dropping demand for display power on + if (kFullWakeReasonDisplayOn == fullWakeReason) { + fullWakeReason = fFullWakeReasonDisplayOnAndLocalUser; + DLOG("User activity while in notification wake\n"); + changePowerStateWithOverrideTo( getRUN_STATE(), 0); + } + + kdebugTrace(kPMLogUserActiveState, 0, 1, 0); + setProperty(gIOPMUserIsActiveKey, kOSBooleanTrue); + messageClients(kIOPMMessageUserIsActiveChanged); + } + flags.bit.idleSleepDisabled = true; + break; + + case kStimulusLeaveUserActiveState: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + if (userIsActive) { + clock_get_uptime(&gUserInactiveAbsTime); + userIsActive = false; + clock_get_uptime(&userBecameInactiveTime); + flags.bit.userBecameInactive = true; + + kdebugTrace(kPMLogUserActiveState, 0, 0, 0); + setProperty(gIOPMUserIsActiveKey, kOSBooleanFalse); + messageClients(kIOPMMessageUserIsActiveChanged); + } + break; + + case kStimulusAggressivenessChanged: + { + DMSG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + unsigned long minutesToIdleSleep = 0; + unsigned long minutesToDisplayDim = 0; + unsigned long minutesDelta = 0; + + // Fetch latest display and system sleep slider values. + getAggressiveness(kPMMinutesToSleep, &minutesToIdleSleep); + getAggressiveness(kPMMinutesToDim, &minutesToDisplayDim); + DLOG("aggressiveness changed: system %u->%u, display %u\n", + (uint32_t) sleepSlider, + (uint32_t) minutesToIdleSleep, + (uint32_t) minutesToDisplayDim); + + DLOG("idle time -> %ld secs (ena %d)\n", + idleSeconds, (minutesToIdleSleep != 0)); + + + // How long to wait before sleeping the system once + // the displays turns off is indicated by 'extraSleepDelay'. + + if (minutesToIdleSleep > minutesToDisplayDim) { + minutesDelta = minutesToIdleSleep - minutesToDisplayDim; + } else if (minutesToIdleSleep == minutesToDisplayDim) { + minutesDelta = 1; + } + + if ((!idleSleepEnabled) && (minutesToIdleSleep != 0)) { + idleSleepEnabled = flags.bit.idleSleepEnabled = true; + } + + if ((idleSleepEnabled) && (minutesToIdleSleep == 0)) { + flags.bit.idleSleepDisabled = true; + idleSleepEnabled = false; + } + if (0x7fffffff == minutesToIdleSleep) { + minutesToIdleSleep = idleSeconds; + } + + if (((minutesDelta != extraSleepDelay) || + (userActivityTime != userActivityTime_prev)) && + !flags.bit.idleSleepEnabled && !flags.bit.idleSleepDisabled) { + flags.bit.sleepDelayChanged = true; + } + + if (systemDarkWake && !darkWakeToSleepASAP && + (flags.bit.idleSleepEnabled || flags.bit.idleSleepDisabled)) { + // Reconsider decision to remain in dark wake + flags.bit.evaluateDarkWake = true; + } + + sleepSlider = minutesToIdleSleep; + extraSleepDelay = minutesDelta; + userActivityTime_prev = userActivityTime; + } break; + + case kStimulusDemandSystemSleep: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + displayIdleForDemandSleep = true; + if (wrangler && wranglerIdleSettings) { + // Request wrangler idle only when demand sleep is triggered + // from full wake. + if (CAP_CURRENT(kIOPMSystemCapabilityGraphics)) { + wrangler->setProperties(wranglerIdleSettings); + DLOG("Requested wrangler idle\n"); + } + } + // arg = sleepReason + changePowerStateWithOverrideTo( SLEEP_STATE, arg ); + break; + + case kStimulusAllowSystemSleepChanged: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + flags.bit.adjustPowerState = true; + break; + + case kStimulusDarkWakeActivityTickle: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + // arg == true implies real and not self generated wrangler tickle. + // Update wake type on PM work loop instead of the tickle thread to + // eliminate the possibility of an early tickle clobbering the wake + // type set by the platform driver. + if (arg == true) { + setProperty(kIOPMRootDomainWakeTypeKey, kIOPMRootDomainWakeTypeHIDActivity); + } + + if (false == wranglerTickled) { + if (latchDisplayWranglerTickle(true)) { + DLOG("latched tickle\n"); + break; + } + + wranglerTickled = true; + DLOG("Requesting full wake after dark wake activity tickle\n"); + requestFullWake( kFullWakeReasonLocalUser ); + } + break; + + case kStimulusDarkWakeEntry: + case kStimulusDarkWakeReentry: + DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + // Any system transitions since the last dark wake transition + // will invalid the stimulus. + + if (arg == _systemStateGeneration) { + DLOG("dark wake entry\n"); + systemDarkWake = true; + + // Keep wranglerAsleep an invariant when wrangler is absent + if (wrangler) { + wranglerAsleep = true; + } + + if (kStimulusDarkWakeEntry == stimulus) { + clock_get_uptime(&userBecameInactiveTime); + flags.bit.evaluateDarkWake = true; + if (activitySinceSleep()) { + DLOG("User activity recorded while going to darkwake\n"); + reportUserInput(); + } + } + + // Always accelerate disk spindown while in dark wake, + // even if system does not support/allow sleep. + + cancelIdleSleepTimer(); + setQuickSpinDownTimeout(); + } + break; + + case kStimulusDarkWakeEvaluate: + DMSG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + if (systemDarkWake) { + flags.bit.evaluateDarkWake = true; + } + break; + + case kStimulusNoIdleSleepPreventers: + DMSG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg); + flags.bit.adjustPowerState = true; + break; + } /* switch(stimulus) */ + + if (flags.bit.evaluateDarkWake && (kFullWakeReasonNone == fullWakeReason)) { + if (darkWakeToSleepASAP || + (clamshellClosed && !(desktopMode && acAdaptorConnected))) { + uint32_t newSleepReason; + + if (CAP_HIGHEST(kIOPMSystemCapabilityGraphics)) { + // System was previously in full wake. Sleep reason from + // full to dark already recorded in fullToDarkReason. + + if (lowBatteryCondition) { + newSleepReason = kIOPMSleepReasonLowPower; + } else { + newSleepReason = fullToDarkReason; + } + } else { + // In dark wake from system sleep. + + if (darkWakeSleepService) { + newSleepReason = kIOPMSleepReasonSleepServiceExit; + } else { + newSleepReason = kIOPMSleepReasonMaintenance; + } + } + + if (checkSystemCanSleep(newSleepReason)) { + privateSleepSystem(newSleepReason); + } + } else { // non-maintenance (network) dark wake + if (checkSystemCanSleep(kIOPMSleepReasonIdle)) { + // Release power clamp, and wait for children idle. + adjustPowerState(true); + } else { + changePowerStateToPriv(getRUN_STATE()); + } + } + } + + if (systemDarkWake) { + // The rest are irrelevant while system is in dark wake. + flags.u32 = 0; + } + + if ((flags.bit.displaySleep) && + (kFullWakeReasonDisplayOn == fullWakeReason)) { + // kIOPMSleepReasonMaintenance? + DLOG("Display sleep while in notification wake\n"); + changePowerStateWithOverrideTo( SLEEP_STATE, kIOPMSleepReasonMaintenance ); + } + + if (flags.bit.userBecameInactive || flags.bit.sleepDelayChanged) { + bool cancelQuickSpindown = false; + + if (flags.bit.sleepDelayChanged) { + // Cancel existing idle sleep timer and quick disk spindown. + // New settings will be applied by the idleSleepEnabled flag + // handler below if idle sleep is enabled. + + DLOG("extra sleep timer changed\n"); + cancelIdleSleepTimer(); + cancelQuickSpindown = true; + } else { + DLOG("user inactive\n"); + } + + if (!userIsActive && idleSleepEnabled) { + startIdleSleepTimer(getTimeToIdleSleep()); + } + + if (cancelQuickSpindown) { + restoreUserSpinDownTimeout(); + } + } + + if (flags.bit.idleSleepEnabled) { + DLOG("idle sleep timer enabled\n"); + if (!wrangler) { + changePowerStateToPriv(getRUN_STATE()); + startIdleSleepTimer( idleSeconds ); + } else { + // Start idle timer if prefs now allow system sleep + // and user is already inactive. Disk spindown is + // accelerated upon timer expiration. + + if (!userIsActive) { + startIdleSleepTimer(getTimeToIdleSleep()); + } + } + } + + if (flags.bit.idleSleepDisabled) { + DLOG("idle sleep timer disabled\n"); + cancelIdleSleepTimer(); + restoreUserSpinDownTimeout(); + adjustPowerState(); + } + + if (flags.bit.adjustPowerState) { + bool sleepASAP = false; + + if (!systemBooting && (0 == idleSleepPreventersCount())) { + if (!wrangler) { + changePowerStateToPriv(getRUN_STATE()); + if (idleSleepEnabled) { + // stay awake for at least idleSeconds + startIdleSleepTimer(idleSeconds); + } + } else if (!extraSleepDelay && !idleSleepTimerPending && !systemDarkWake) { + sleepASAP = true; + } + } + + adjustPowerState(sleepASAP); + } +} + +//****************************************************************************** + +unsigned int +IOPMrootDomain::idleSleepPreventersCount() +{ +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (_aotMode) { + unsigned int count __block; + count = 0; + preventIdleSleepList->iterateObjects(^bool (OSObject * obj) + { + count += (NULL == obj->metaCast("AppleARMBacklight")); + return false; + }); + return count; + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + return preventIdleSleepList->getCount(); +} + + +//****************************************************************************** +// requestFullWake +// +// Request transition from dark wake to full wake +//****************************************************************************** + +void +IOPMrootDomain::requestFullWake( FullWakeReason reason ) +{ + uint32_t options = 0; + IOService * pciRoot = NULL; + bool promotion = false; + + // System must be in dark wake and a valid reason for entering full wake + if ((kFullWakeReasonNone == reason) || + (kFullWakeReasonNone != fullWakeReason) || + (CAP_CURRENT(kIOPMSystemCapabilityGraphics))) { + return; + } + + // Will clear reason upon exit from full wake + fullWakeReason = reason; + + _desiredCapability |= (kIOPMSystemCapabilityGraphics | + kIOPMSystemCapabilityAudio); + + if ((kSystemTransitionWake == _systemTransitionType) && + !(_pendingCapability & kIOPMSystemCapabilityGraphics) && + !graphicsSuppressed) { + // Promote to full wake while waking up to dark wake due to tickle. + // PM will hold off notifying the graphics subsystem about system wake + // as late as possible, so if a HID tickle does arrive, graphics can + // power up on this same wake cycle. The latency to power up graphics + // on the next cycle can be huge on some systems. However, once any + // graphics suppression has taken effect, it is too late. All other + // graphics devices must be similarly suppressed. But the delay till + // the following cycle should be short. + + _pendingCapability |= (kIOPMSystemCapabilityGraphics | + kIOPMSystemCapabilityAudio); + + // Immediately bring up audio and graphics + pciRoot = pciHostBridgeDriver; + willEnterFullWake(); + promotion = true; + } + + // Unsafe to cancel once graphics was powered. + // If system woke from dark wake, the return to sleep can + // be cancelled. "awake -> dark -> sleep" transition + // can be canceled also, during the "dark --> sleep" phase + // *prior* to driver power down. + if (!CAP_HIGHEST(kIOPMSystemCapabilityGraphics) || + _pendingCapability == 0) { + options |= kIOPMSyncCancelPowerDown; + } + + synchronizePowerTree(options, pciRoot); + if (kFullWakeReasonLocalUser == fullWakeReason) { + // IOGraphics doesn't light the display even though graphics is + // enabled in kIOMessageSystemCapabilityChange message(radar 9502104) + // So, do an explicit activity tickle + if (wrangler) { + wrangler->activityTickle(0, 0); + } + } + + // Log a timestamp for the initial full wake request. + // System may not always honor this full wake request. + if (!CAP_HIGHEST(kIOPMSystemCapabilityGraphics)) { + AbsoluteTime now; + uint64_t nsec; + + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_nanoseconds(now, &nsec); + MSG("full wake %s (reason %u) %u ms\n", + promotion ? "promotion" : "request", + fullWakeReason, ((int)((nsec) / NSEC_PER_MSEC))); + } +} + +//****************************************************************************** +// willEnterFullWake +// +// System will enter full wake from sleep, from dark wake, or from dark +// wake promotion. This function aggregate things that are in common to +// all three full wake transitions. +// +// Assumptions: fullWakeReason was updated +//****************************************************************************** + +void +IOPMrootDomain::willEnterFullWake( void ) +{ + hibernateRetry = false; + sleepToStandby = false; + standbyNixed = false; + resetTimers = false; + sleepTimerMaintenance = false; + + _systemMessageClientMask = kSystemMessageClientPowerd | + kSystemMessageClientLegacyApp; + + if ((_highestCapability & kIOPMSystemCapabilityGraphics) == 0) { + // Initial graphics full power + _systemMessageClientMask |= kSystemMessageClientKernel; + + // Set kIOPMUserTriggeredFullWakeKey before full wake for IOGraphics + setProperty(gIOPMUserTriggeredFullWakeKey, + (kFullWakeReasonLocalUser == fullWakeReason) ? + kOSBooleanTrue : kOSBooleanFalse); + } +#if HIBERNATION + IOHibernateSetWakeCapabilities(_pendingCapability); +#endif + + IOService::setAdvisoryTickleEnable( true ); + tellClients(kIOMessageSystemWillPowerOn); + preventTransitionToUserActive(false); +} + +//****************************************************************************** +// fullWakeDelayedWork +// +// System has already entered full wake. Invoked by a delayed thread call. +//****************************************************************************** + +void +IOPMrootDomain::fullWakeDelayedWork( void ) +{ +#if DARK_TO_FULL_EVALUATE_CLAMSHELL + // Not gated, don't modify state + if ((kSystemTransitionNone == _systemTransitionType) && + CAP_CURRENT(kIOPMSystemCapabilityGraphics)) { + receivePowerNotification( kLocalEvalClamshellCommand ); + } +#endif +} + +//****************************************************************************** +// evaluateAssertions +// +//****************************************************************************** + +// Bitmask of all kernel assertions that prevent system idle sleep. +// kIOPMDriverAssertionReservedBit7 is reserved for IOMediaBSDClient. +#define NO_IDLE_SLEEP_ASSERTIONS_MASK \ + (kIOPMDriverAssertionReservedBit7 | \ + kIOPMDriverAssertionPreventSystemIdleSleepBit) + +void +IOPMrootDomain::evaluateAssertions(IOPMDriverAssertionType newAssertions, IOPMDriverAssertionType oldAssertions) +{ + IOPMDriverAssertionType changedBits = newAssertions ^ oldAssertions; + + messageClients(kIOPMMessageDriverAssertionsChanged); + + if (changedBits & kIOPMDriverAssertionPreventDisplaySleepBit) { + if (wrangler) { + bool value = (newAssertions & kIOPMDriverAssertionPreventDisplaySleepBit) ? true : false; + + DLOG("wrangler->setIgnoreIdleTimer\(%d)\n", value); + wrangler->setIgnoreIdleTimer( value ); + } + } + + if (changedBits & kIOPMDriverAssertionCPUBit) { +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (_aotNow) { + IOLog("CPU assertions %d\n", (0 != (kIOPMDriverAssertionCPUBit & newAssertions))); + } + evaluatePolicy(_aotNow ? kStimulusNoIdleSleepPreventers : kStimulusDarkWakeEvaluate); +#else + evaluatePolicy(kStimulusDarkWakeEvaluate); +#endif + if (!assertOnWakeSecs && gIOLastWakeAbsTime) { + AbsoluteTime now; + clock_usec_t microsecs; + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_microtime(now, &assertOnWakeSecs, µsecs); + if (assertOnWakeReport) { + HISTREPORT_TALLYVALUE(assertOnWakeReport, (int64_t)assertOnWakeSecs); + DLOG("Updated assertOnWake %lu\n", (unsigned long)assertOnWakeSecs); + } + } + } + + if (changedBits & NO_IDLE_SLEEP_ASSERTIONS_MASK) { + if ((newAssertions & NO_IDLE_SLEEP_ASSERTIONS_MASK) != 0) { + if ((oldAssertions & NO_IDLE_SLEEP_ASSERTIONS_MASK) == 0) { + DLOG("PreventIdleSleep driver assertion raised\n"); + bool ok = updatePreventIdleSleepList(this, true); + if (ok && (changedBits & kIOPMDriverAssertionPreventSystemIdleSleepBit)) { + // Cancel idle sleep if there is one in progress + cancelIdlePowerDown(this); + } + } + } else { + DLOG("PreventIdleSleep driver assertion dropped\n"); + updatePreventIdleSleepList(this, false); + } + } +} + +// MARK: - +// MARK: Statistics + +//****************************************************************************** +// pmStats +// +//****************************************************************************** + +void +IOPMrootDomain::pmStatsRecordEvent( + int eventIndex, + AbsoluteTime timestamp) +{ + bool starting = eventIndex & kIOPMStatsEventStartFlag ? true:false; + bool stopping = eventIndex & kIOPMStatsEventStopFlag ? true:false; + uint64_t delta; + uint64_t nsec; + OSData *publishPMStats = NULL; + + eventIndex &= ~(kIOPMStatsEventStartFlag | kIOPMStatsEventStopFlag); + + absolutetime_to_nanoseconds(timestamp, &nsec); + + switch (eventIndex) { + case kIOPMStatsHibernateImageWrite: + if (starting) { + gPMStats.hibWrite.start = nsec; + } else if (stopping) { + gPMStats.hibWrite.stop = nsec; + } + + if (stopping) { + delta = gPMStats.hibWrite.stop - gPMStats.hibWrite.start; + IOLog("PMStats: Hibernate write took %qd ms\n", delta / NSEC_PER_MSEC); + } + break; + case kIOPMStatsHibernateImageRead: + if (starting) { + gPMStats.hibRead.start = nsec; + } else if (stopping) { + gPMStats.hibRead.stop = nsec; + } + + if (stopping) { + delta = gPMStats.hibRead.stop - gPMStats.hibRead.start; + IOLog("PMStats: Hibernate read took %qd ms\n", delta / NSEC_PER_MSEC); + + publishPMStats = OSData::withBytes(&gPMStats, sizeof(gPMStats)); + setProperty(kIOPMSleepStatisticsKey, publishPMStats); + publishPMStats->release(); + bzero(&gPMStats, sizeof(gPMStats)); + } + break; + } +} + +/* + * Appends a record of the application response to + * IOPMrootDomain::pmStatsAppResponses + */ +void +IOPMrootDomain::pmStatsRecordApplicationResponse( + const OSSymbol *response, + const char *name, + int messageType, + uint32_t delay_ms, + uint64_t id, + OSObject *object, + IOPMPowerStateIndex powerState) +{ + OSDictionary *responseDescription = NULL; + OSNumber *delayNum = NULL; + OSNumber *powerCaps = NULL; + OSNumber *pidNum = NULL; + OSNumber *msgNum = NULL; + const OSSymbol *appname; + const OSSymbol *sleep = NULL, *wake = NULL; + IOPMServiceInterestNotifier *notify = NULL; + + if (object && (notify = OSDynamicCast(IOPMServiceInterestNotifier, object))) { + if (response->isEqualTo(gIOPMStatsResponseTimedOut)) { + notify->ackTimeoutCnt++; + } else { + notify->ackTimeoutCnt = 0; + } + } + + if (response->isEqualTo(gIOPMStatsResponsePrompt) || + (_systemTransitionType == kSystemTransitionNone) || (_systemTransitionType == kSystemTransitionNewCapClient)) { + return; + } + + + if (response->isEqualTo(gIOPMStatsDriverPSChangeSlow)) { + kdebugTrace(kPMLogDrvPSChangeDelay, id, messageType, delay_ms); + } else if (notify) { + // User space app or kernel capability client + if (id) { + kdebugTrace(kPMLogAppResponseDelay, id, notify->msgType, delay_ms); + } else { + kdebugTrace(kPMLogDrvResponseDelay, notify->uuid0, messageType, delay_ms); + } + notify->msgType = 0; + } + + responseDescription = OSDictionary::withCapacity(5); + if (responseDescription) { + if (response) { + responseDescription->setObject(_statsResponseTypeKey, response); + } + + msgNum = OSNumber::withNumber(messageType, 32); + if (msgNum) { + responseDescription->setObject(_statsMessageTypeKey, msgNum); + msgNum->release(); + } + + if (!name && notify && notify->identifier) { + name = notify->identifier->getCStringNoCopy(); + } + + if (name && (strlen(name) > 0)) { + appname = OSSymbol::withCString(name); + if (appname) { + responseDescription->setObject(_statsNameKey, appname); + appname->release(); + } + } + + if (!id && notify) { + id = notify->uuid0; + } + if (id != 0) { + pidNum = OSNumber::withNumber(id, 64); + if (pidNum) { + responseDescription->setObject(_statsPIDKey, pidNum); + pidNum->release(); + } + } + + delayNum = OSNumber::withNumber(delay_ms, 32); + if (delayNum) { + responseDescription->setObject(_statsTimeMSKey, delayNum); + delayNum->release(); + } + + if (response->isEqualTo(gIOPMStatsDriverPSChangeSlow)) { + powerCaps = OSNumber::withNumber(powerState, 32); + +#if !defined(__i386__) && !defined(__x86_64__) && (DEVELOPMENT || DEBUG) + IOLog("%s::powerStateChange type(%d) to(%lu) async took %d ms\n", + name, messageType, + powerState, delay_ms); +#endif + } else { + powerCaps = OSNumber::withNumber(_pendingCapability, 32); + } + if (powerCaps) { + responseDescription->setObject(_statsPowerCapsKey, powerCaps); + powerCaps->release(); + } + + sleep = OSSymbol::withCString("Sleep"); + wake = OSSymbol::withCString("Wake"); + if (_systemTransitionType == kSystemTransitionSleep) { + responseDescription->setObject(kIOPMStatsSystemTransitionKey, sleep); + } else if (_systemTransitionType == kSystemTransitionWake) { + responseDescription->setObject(kIOPMStatsSystemTransitionKey, wake); + } else if (_systemTransitionType == kSystemTransitionCapability) { + if (CAP_LOSS(kIOPMSystemCapabilityGraphics)) { + responseDescription->setObject(kIOPMStatsSystemTransitionKey, sleep); + } else if (CAP_GAIN(kIOPMSystemCapabilityGraphics)) { + responseDescription->setObject(kIOPMStatsSystemTransitionKey, wake); + } + } + if (sleep) { + sleep->release(); + } + if (wake) { + wake->release(); + } + + + + IOLockLock(pmStatsLock); + if (pmStatsAppResponses && pmStatsAppResponses->getCount() < 50) { + pmStatsAppResponses->setObject(responseDescription); + } + IOLockUnlock(pmStatsLock); + + responseDescription->release(); + } + + return; +} + +// MARK: - +// MARK: PMTraceWorker + +//****************************************************************************** +// TracePoint support +// +//****************************************************************************** + +#define kIOPMRegisterNVRAMTracePointHandlerKey \ + "IOPMRegisterNVRAMTracePointHandler" + +IOReturn +IOPMrootDomain::callPlatformFunction( + const OSSymbol * functionName, + bool waitForFunction, + void * param1, void * param2, + void * param3, void * param4 ) +{ + uint32_t bootFailureCode = 0xffffffff; + if (pmTracer && functionName && + functionName->isEqualTo(kIOPMRegisterNVRAMTracePointHandlerKey) && + !pmTracer->tracePointHandler && !pmTracer->tracePointTarget) { + uint32_t tracePointPhases, tracePointPCI; + uint64_t statusCode; + + pmTracer->tracePointHandler = (IOPMTracePointHandler) param1; + pmTracer->tracePointTarget = (void *) param2; + tracePointPCI = (uint32_t)(uintptr_t) param3; + tracePointPhases = (uint32_t)(uintptr_t) param4; + if ((tracePointPhases & 0xff) == kIOPMTracePointSystemSleep) { + IORegistryEntry *node = IORegistryEntry::fromPath( "/chosen", gIODTPlane ); + if (node) { + OSData *data = OSDynamicCast( OSData, node->getProperty(kIOEFIBootRomFailureKey)); + if (data && data->getLength() == sizeof(bootFailureCode)) { + memcpy(&bootFailureCode, data->getBytesNoCopy(), sizeof(bootFailureCode)); + } + node->release(); + } + // Failure code from EFI/BootRom is a four byte structure + tracePointPCI = OSSwapBigToHostInt32(bootFailureCode); + } + statusCode = (((uint64_t)tracePointPCI) << 32) | tracePointPhases; + if ((tracePointPhases & 0xff) != kIOPMTracePointSystemUp) { + MSG("Sleep failure code 0x%08x 0x%08x\n", + tracePointPCI, tracePointPhases); + } + setProperty(kIOPMSleepWakeFailureCodeKey, statusCode, 64); + pmTracer->tracePointHandler( pmTracer->tracePointTarget, 0, 0 ); + + return kIOReturnSuccess; + } +#if HIBERNATION + else if (functionName && + functionName->isEqualTo(kIOPMInstallSystemSleepPolicyHandlerKey)) { + if (gSleepPolicyHandler) { + return kIOReturnExclusiveAccess; + } + if (!param1) { + return kIOReturnBadArgument; + } + gSleepPolicyHandler = (IOPMSystemSleepPolicyHandler) param1; + gSleepPolicyTarget = (void *) param2; + setProperty("IOPMSystemSleepPolicyHandler", kOSBooleanTrue); + return kIOReturnSuccess; + } +#endif + + return super::callPlatformFunction( + functionName, waitForFunction, param1, param2, param3, param4); +} + +void +IOPMrootDomain::kdebugTrace(uint32_t event, uint64_t id, + uintptr_t param1, uintptr_t param2, uintptr_t param3) +{ + uint32_t code = IODBG_POWER(event); + uint64_t regId = id; + if (regId == 0) { + regId = getRegistryEntryID(); + } + IOTimeStampConstant(code, (uintptr_t) regId, param1, param2, param3); +} + + +void +IOPMrootDomain::tracePoint( uint8_t point ) +{ + if (systemBooting) { + return; + } + + if (kIOPMTracePointWakeCapabilityClients == point) { + acceptSystemWakeEvents(false); + } + + kdebugTrace(kPMLogSleepWakeTracePoint, 0, point, 0); + pmTracer->tracePoint(point); +} + +void +IOPMrootDomain::traceDetail(OSObject *object, bool start) +{ + IOPMServiceInterestNotifier *notifier; + + if (systemBooting) { + return; + } + + notifier = OSDynamicCast(IOPMServiceInterestNotifier, object); + if (!notifier) { + return; + } + + if (start) { + pmTracer->traceDetail( notifier->uuid0 >> 32 ); + kdebugTrace(kPMLogSleepWakeMessage, pmTracer->getTracePhase(), notifier->msgType, notifier->uuid0, notifier->uuid1); + if (notifier->identifier) { + DLOG("trace point 0x%02x msg 0x%x to %s\n", pmTracer->getTracePhase(), notifier->msgType, + notifier->identifier->getCStringNoCopy()); + } else { + DLOG("trace point 0x%02x msg 0x%x\n", pmTracer->getTracePhase(), notifier->msgType); + } + notifierThread = current_thread(); + notifierObject = notifier; + notifier->retain(); + } else { + notifierThread = NULL; + notifierObject = NULL; + notifier->release(); + } +} + + +void +IOPMrootDomain::traceAckDelay(OSObject *object, uint32_t response, uint32_t delay_ms) +{ + IOPMServiceInterestNotifier *notifier = OSDynamicCast(IOPMServiceInterestNotifier, object); + if (!notifier) { + DLOG("Unknown notifier\n"); + return; + } + + if (!systemBooting) { + kdebugTrace(kPMLogDrvResponseDelay, notifier->uuid0, notifier->uuid1, response, delay_ms); + if (notifier->identifier) { + DLOG("Response from %s took %d ms(response:%d)\n", + notifier->identifier->getCStringNoCopy(), delay_ms, response); + } else { + DLOG("Response from kext UUID %llx-%llx took %d ms(response:%d)\n", + notifier->uuid0, notifier->uuid1, delay_ms, response); + } + } +} + +void +IOPMrootDomain::traceDetail(uint32_t msgType, uint32_t msgIndex, uint32_t delay) +{ + if (!systemBooting) { + uint32_t detail = ((msgType & 0xffff) << 16) | (delay & 0xffff); + pmTracer->traceDetail( detail ); + kdebugTrace(kPMLogSleepWakeTracePoint, pmTracer->getTracePhase(), msgType, delay); + DLOG("trace point 0x%02x msgType 0x%x detail 0x%08x\n", pmTracer->getTracePhase(), msgType, delay); + } +} + + +void +IOPMrootDomain::configureReportGated(uint64_t channel_id, uint64_t action, void *result) +{ + size_t reportSize; + void **report = NULL; + uint32_t bktCnt; + uint32_t bktSize; + uint32_t *clientCnt; + + ASSERT_GATED(); + + report = NULL; + if (channel_id == kAssertDelayChID) { + report = &assertOnWakeReport; + bktCnt = kAssertDelayBcktCnt; + bktSize = kAssertDelayBcktSize; + clientCnt = &assertOnWakeClientCnt; + } else if (channel_id == kSleepDelaysChID) { + report = &sleepDelaysReport; + bktCnt = kSleepDelaysBcktCnt; + bktSize = kSleepDelaysBcktSize; + clientCnt = &sleepDelaysClientCnt; + } + + switch (action) { + case kIOReportEnable: + + if (*report) { + (*clientCnt)++; + break; + } + + reportSize = HISTREPORT_BUFSIZE(bktCnt); + *report = IOMalloc(reportSize); + if (*report == NULL) { + break; + } + bzero(*report, reportSize); + HISTREPORT_INIT(bktCnt, bktSize, *report, reportSize, + getRegistryEntryID(), channel_id, kIOReportCategoryPower); + + if (channel_id == kAssertDelayChID) { + assertOnWakeSecs = 0; + } + + break; + + case kIOReportDisable: + if (*clientCnt == 0) { + break; + } + if (*clientCnt == 1) { + IOFree(*report, HISTREPORT_BUFSIZE(bktCnt)); + *report = NULL; + } + (*clientCnt)--; + + if (channel_id == kAssertDelayChID) { + assertOnWakeSecs = -1; // Invalid value to prevent updates + } + break; + + case kIOReportGetDimensions: + if (*report) { + HISTREPORT_UPDATERES(*report, kIOReportGetDimensions, result); + } + break; + } + + return; +} + +IOReturn +IOPMrootDomain::configureReport(IOReportChannelList *channelList, + IOReportConfigureAction action, + void *result, + void *destination) +{ + unsigned cnt; + uint64_t configAction = (uint64_t)action; + + for (cnt = 0; cnt < channelList->nchannels; cnt++) { + if ((channelList->channels[cnt].channel_id == kSleepCntChID) || + (channelList->channels[cnt].channel_id == kDarkWkCntChID) || + (channelList->channels[cnt].channel_id == kUserWkCntChID)) { + if (action != kIOReportGetDimensions) { + continue; + } + SIMPLEREPORT_UPDATERES(kIOReportGetDimensions, result); + } else if ((channelList->channels[cnt].channel_id == kAssertDelayChID) || + (channelList->channels[cnt].channel_id == kSleepDelaysChID)) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, &IOPMrootDomain::configureReportGated), + (OSObject *)this, (void *)channelList->channels[cnt].channel_id, + (void *)configAction, (void *)result); + } + } + + return super::configureReport(channelList, action, result, destination); +} + +IOReturn +IOPMrootDomain::updateReportGated(uint64_t ch_id, void *result, IOBufferMemoryDescriptor *dest) +{ + uint32_t size2cpy; + void *data2cpy; + void **report; + + ASSERT_GATED(); + + report = NULL; + if (ch_id == kAssertDelayChID) { + report = &assertOnWakeReport; + } else if (ch_id == kSleepDelaysChID) { + report = &sleepDelaysReport; + } + + if (*report == NULL) { + return kIOReturnNotOpen; + } + + HISTREPORT_UPDATEPREP(*report, data2cpy, size2cpy); + if (size2cpy > (dest->getCapacity() - dest->getLength())) { + return kIOReturnOverrun; + } + + HISTREPORT_UPDATERES(*report, kIOReportCopyChannelData, result); + dest->appendBytes(data2cpy, size2cpy); + + return kIOReturnSuccess; +} + +IOReturn +IOPMrootDomain::updateReport(IOReportChannelList *channelList, + IOReportUpdateAction action, + void *result, + void *destination) +{ + uint32_t size2cpy; + void *data2cpy; + uint8_t buf[SIMPLEREPORT_BUFSIZE]; + IOBufferMemoryDescriptor *dest = OSDynamicCast(IOBufferMemoryDescriptor, (OSObject *)destination); + unsigned cnt; + uint64_t ch_id; + + if (action != kIOReportCopyChannelData) { + goto exit; + } + + for (cnt = 0; cnt < channelList->nchannels; cnt++) { + ch_id = channelList->channels[cnt].channel_id; + + if ((ch_id == kAssertDelayChID) || (ch_id == kSleepDelaysChID)) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, &IOPMrootDomain::updateReportGated), + (OSObject *)this, (void *)ch_id, + (void *)result, (void *)dest); + continue; + } else if ((ch_id == kSleepCntChID) || + (ch_id == kDarkWkCntChID) || (ch_id == kUserWkCntChID)) { + SIMPLEREPORT_INIT(buf, sizeof(buf), getRegistryEntryID(), ch_id, kIOReportCategoryPower); + } else { + continue; + } + + if (ch_id == kSleepCntChID) { + SIMPLEREPORT_SETVALUE(buf, sleepCnt); + } else if (ch_id == kDarkWkCntChID) { + SIMPLEREPORT_SETVALUE(buf, darkWakeCnt); + } else if (ch_id == kUserWkCntChID) { + SIMPLEREPORT_SETVALUE(buf, displayWakeCnt); + } + + SIMPLEREPORT_UPDATEPREP(buf, data2cpy, size2cpy); + SIMPLEREPORT_UPDATERES(kIOReportCopyChannelData, result); + dest->appendBytes(data2cpy, size2cpy); + } + +exit: + return super::updateReport(channelList, action, result, destination); +} + + +//****************************************************************************** +// PMTraceWorker Class +// +//****************************************************************************** + +#undef super +#define super OSObject +OSDefineMetaClassAndStructors(PMTraceWorker, OSObject) + +#define kPMBestGuessPCIDevicesCount 25 +#define kPMMaxRTCBitfieldSize 32 + +PMTraceWorker * PMTraceWorker::tracer(IOPMrootDomain * owner) +{ + PMTraceWorker *me; + + me = OSTypeAlloc( PMTraceWorker ); + if (!me || !me->init()) { + return NULL; + } + + DLOG("PMTraceWorker %p\n", OBFUSCATE(me)); + + // Note that we cannot instantiate the PCI device -> bit mappings here, since + // the IODeviceTree has not yet been created by IOPlatformExpert. We create + // this dictionary lazily. + me->owner = owner; + me->pciDeviceBitMappings = NULL; + me->pmTraceWorkerLock = IOLockAlloc(); + me->tracePhase = kIOPMTracePointSystemUp; + me->traceData32 = 0; + me->loginWindowData = 0; + me->coreDisplayData = 0; + me->coreGraphicsData = 0; + return me; +} + +void +PMTraceWorker::RTC_TRACE(void) +{ + if (tracePointHandler && tracePointTarget) { + uint32_t wordA; + + IOLockLock(pmTraceWorkerLock); + wordA = (loginWindowData << 24) | (coreDisplayData << 16) | + (coreGraphicsData << 8) | tracePhase; + IOLockUnlock(pmTraceWorkerLock); + + tracePointHandler( tracePointTarget, traceData32, wordA ); + _LOG("RTC_TRACE wrote 0x%08x 0x%08x\n", traceData32, wordA); + } +#if DEVELOPMENT || DEBUG + if ((swd_panic_phase != 0) && (swd_panic_phase == tracePhase)) { + DEBUG_LOG("Causing sleep wake failure in phase 0x%08x\n", tracePhase); + IOLock *l = IOLockAlloc(); + IOLockLock(l); + IOLockLock(l); + } +#endif +} + +int +PMTraceWorker::recordTopLevelPCIDevice(IOService * pciDevice) +{ + const OSSymbol * deviceName; + int index = -1; + + IOLockLock(pmTraceWorkerLock); + + if (!pciDeviceBitMappings) { + pciDeviceBitMappings = OSArray::withCapacity(kPMBestGuessPCIDevicesCount); + if (!pciDeviceBitMappings) { + goto exit; + } + } + + // Check for bitmask overflow. + if (pciDeviceBitMappings->getCount() >= kPMMaxRTCBitfieldSize) { + goto exit; + } + + if ((deviceName = pciDevice->copyName()) && + (pciDeviceBitMappings->getNextIndexOfObject(deviceName, 0) == (unsigned int)-1) && + pciDeviceBitMappings->setObject(deviceName)) { + index = pciDeviceBitMappings->getCount() - 1; + _LOG("PMTrace PCI array: set object %s => %d\n", + deviceName->getCStringNoCopy(), index); + } + if (deviceName) { + deviceName->release(); + } + if (!addedToRegistry && (index >= 0)) { + addedToRegistry = owner->setProperty("PCITopLevel", this); + } + +exit: + IOLockUnlock(pmTraceWorkerLock); + return index; +} + +bool +PMTraceWorker::serialize(OSSerialize *s) const +{ + bool ok = false; + if (pciDeviceBitMappings) { + IOLockLock(pmTraceWorkerLock); + ok = pciDeviceBitMappings->serialize(s); + IOLockUnlock(pmTraceWorkerLock); + } + return ok; +} + +void +PMTraceWorker::tracePoint(uint8_t phase) +{ + // clear trace detail when phase begins + if (tracePhase != phase) { + traceData32 = 0; + } + + tracePhase = phase; + + DLOG("trace point 0x%02x\n", tracePhase); + RTC_TRACE(); +} + +void +PMTraceWorker::traceDetail(uint32_t detail) +{ + if (detail == traceData32) { + return; + } + traceData32 = detail; + RTC_TRACE(); +} + +void +PMTraceWorker::traceComponentWakeProgress(uint32_t component, uint32_t data) +{ + switch (component) { + case kIOPMLoginWindowProgress: + loginWindowData = data & kIOPMLoginWindowProgressMask; + break; + case kIOPMCoreDisplayProgress: + coreDisplayData = data & kIOPMCoreDisplayProgressMask; + break; + case kIOPMCoreGraphicsProgress: + coreGraphicsData = data & kIOPMCoreGraphicsProgressMask; + break; + default: + return; + } + + DLOG("component trace point 0x%02x data 0x%08x\n", component, data); + RTC_TRACE(); +} + +void +PMTraceWorker::tracePCIPowerChange( + change_t type, IOService *service, uint32_t changeFlags, uint32_t bitNum) +{ + uint32_t bitMask; + uint32_t expectedFlag; + + // Ignore PCI changes outside of system sleep/wake. + if ((kIOPMTracePointSleepPowerPlaneDrivers != tracePhase) && + (kIOPMTracePointWakePowerPlaneDrivers != tracePhase)) { + return; + } + + // Only record the WillChange transition when going to sleep, + // and the DidChange on the way up. + changeFlags &= (kIOPMDomainWillChange | kIOPMDomainDidChange); + expectedFlag = (kIOPMTracePointSleepPowerPlaneDrivers == tracePhase) ? + kIOPMDomainWillChange : kIOPMDomainDidChange; + if (changeFlags != expectedFlag) { + return; + } + + // Mark this device off in our bitfield + if (bitNum < kPMMaxRTCBitfieldSize) { + bitMask = (1 << bitNum); + + if (kPowerChangeStart == type) { + traceData32 |= bitMask; + _LOG("PMTrace: Device %s started - bit %2d mask 0x%08x => 0x%08x\n", + service->getName(), bitNum, bitMask, traceData32); + owner->kdebugTrace(kPMLogPCIDevChangeStart, service->getRegistryEntryID(), traceData32, 0); + } else { + traceData32 &= ~bitMask; + _LOG("PMTrace: Device %s finished - bit %2d mask 0x%08x => 0x%08x\n", + service->getName(), bitNum, bitMask, traceData32); + owner->kdebugTrace(kPMLogPCIDevChangeDone, service->getRegistryEntryID(), traceData32, 0); + } + + DLOG("trace point 0x%02x detail 0x%08x\n", tracePhase, traceData32); + RTC_TRACE(); + } +} + +uint64_t +PMTraceWorker::getPMStatusCode() +{ + return ((uint64_t)traceData32 << 32) | ((uint64_t)tracePhase); +} + +uint8_t +PMTraceWorker::getTracePhase() +{ + return tracePhase; +} + +uint32_t +PMTraceWorker::getTraceData() +{ + return traceData32; +} + +// MARK: - +// MARK: PMHaltWorker + +//****************************************************************************** +// PMHaltWorker Class +// +//****************************************************************************** + +PMHaltWorker * +PMHaltWorker::worker( void ) +{ + PMHaltWorker * me; + IOThread thread; + + do { + me = OSTypeAlloc( PMHaltWorker ); + if (!me || !me->init()) { + break; + } + + me->lock = IOLockAlloc(); + if (!me->lock) { + break; + } + + DLOG("PMHaltWorker %p\n", OBFUSCATE(me)); + me->retain(); // thread holds extra retain + if (KERN_SUCCESS != kernel_thread_start(&PMHaltWorker::main, (void *) me, &thread)) { + me->release(); + break; + } + thread_deallocate(thread); + return me; + } while (false); + + if (me) { + me->release(); + } + return NULL; +} + +void +PMHaltWorker::free( void ) +{ + DLOG("PMHaltWorker free %p\n", OBFUSCATE(this)); + if (lock) { + IOLockFree(lock); + lock = NULL; + } + return OSObject::free(); +} + +void +PMHaltWorker::main( void * arg, wait_result_t waitResult ) +{ + PMHaltWorker * me = (PMHaltWorker *) arg; + + IOLockLock( gPMHaltLock ); + gPMHaltBusyCount++; + me->depth = gPMHaltDepth; + IOLockUnlock( gPMHaltLock ); + + while (me->depth >= 0) { + PMHaltWorker::work( me ); + + IOLockLock( gPMHaltLock ); + if (++gPMHaltIdleCount >= gPMHaltBusyCount) { + // This is the last thread to finish work on this level, + // inform everyone to start working on next lower level. + gPMHaltDepth--; + me->depth = gPMHaltDepth; + gPMHaltIdleCount = 0; + thread_wakeup((event_t) &gPMHaltIdleCount); + } else { + // One or more threads are still working on this level, + // this thread must wait. + me->depth = gPMHaltDepth - 1; + do { + IOLockSleep(gPMHaltLock, &gPMHaltIdleCount, THREAD_UNINT); + } while (me->depth != gPMHaltDepth); + } + IOLockUnlock( gPMHaltLock ); + } + + // No more work to do, terminate thread + DLOG("All done for worker: %p (visits = %u)\n", OBFUSCATE(me), me->visits); + thread_wakeup( &gPMHaltDepth ); + me->release(); +} + +void +PMHaltWorker::work( PMHaltWorker * me ) +{ + IOService * service; + OSSet * inner; + AbsoluteTime startTime, elapsedTime; + UInt32 deltaTime; + bool timeout; + + while (true) { + service = NULL; + timeout = false; + + // Claim an unit of work from the shared pool + IOLockLock( gPMHaltLock ); + inner = (OSSet *)gPMHaltArray->getObject(me->depth); + if (inner) { + service = OSDynamicCast(IOService, inner->getAnyObject()); + if (service) { + service->retain(); + inner->removeObject(service); + } + } + IOLockUnlock( gPMHaltLock ); + if (!service) { + break; // no more work at this depth + } + clock_get_uptime(&startTime); + + if (!service->isInactive() && + service->setProperty(gPMHaltClientAcknowledgeKey, me)) { + IOLockLock(me->lock); + me->startTime = startTime; + me->service = service; + me->timeout = false; + IOLockUnlock(me->lock); + + service->systemWillShutdown( gPMHaltMessageType ); + + // Wait for driver acknowledgement + IOLockLock(me->lock); + while (service->getProperty(gPMHaltClientAcknowledgeKey)) { + IOLockSleep(me->lock, me, THREAD_UNINT); + } + me->service = NULL; + timeout = me->timeout; + IOLockUnlock(me->lock); + } + + deltaTime = computeDeltaTimeMS(&startTime, &elapsedTime); + if ((deltaTime > kPMHaltTimeoutMS) || timeout) { + LOG("%s driver %s (0x%llx) took %u ms\n", + (gPMHaltMessageType == kIOMessageSystemWillPowerOff) ? + "PowerOff" : "Restart", + service->getName(), service->getRegistryEntryID(), + (uint32_t) deltaTime ); + halt_log_enter("PowerOff/Restart handler completed", + OSMemberFunctionCast(const void *, service, &IOService::systemWillShutdown), + elapsedTime); + } + + service->release(); + me->visits++; + } +} + +void +PMHaltWorker::checkTimeout( PMHaltWorker * me, AbsoluteTime * now ) +{ + UInt64 nano; + AbsoluteTime startTime; + AbsoluteTime endTime; + + endTime = *now; + + IOLockLock(me->lock); + if (me->service && !me->timeout) { + startTime = me->startTime; + nano = 0; + if (CMP_ABSOLUTETIME(&endTime, &startTime) > 0) { + SUB_ABSOLUTETIME(&endTime, &startTime); + absolutetime_to_nanoseconds(endTime, &nano); + } + if (nano > 3000000000ULL) { + me->timeout = true; + + halt_log_enter("PowerOff/Restart still waiting on handler", + OSMemberFunctionCast(const void *, me->service, &IOService::systemWillShutdown), + endTime); + MSG("%s still waiting on %s\n", + (gPMHaltMessageType == kIOMessageSystemWillPowerOff) ? "PowerOff" : "Restart", + me->service->getName()); + } + } + IOLockUnlock(me->lock); +} + +//****************************************************************************** +// acknowledgeSystemWillShutdown +// +// Acknowledgement from drivers that they have prepared for shutdown/restart. +//****************************************************************************** + +void +IOPMrootDomain::acknowledgeSystemWillShutdown( IOService * from ) +{ + PMHaltWorker * worker; + OSObject * prop; + + if (!from) { + return; + } + + //DLOG("%s acknowledged\n", from->getName()); + prop = from->copyProperty( gPMHaltClientAcknowledgeKey ); + if (prop) { + worker = (PMHaltWorker *) prop; + IOLockLock(worker->lock); + from->removeProperty( gPMHaltClientAcknowledgeKey ); + thread_wakeup((event_t) worker); + IOLockUnlock(worker->lock); + worker->release(); + } else { + DLOG("%s acknowledged without worker property\n", + from->getName()); + } +} + + +//****************************************************************************** +// notifySystemShutdown +// +// Notify all objects in PM tree that system will shutdown or restart +//****************************************************************************** + +static void +notifySystemShutdown( IOService * root, uint32_t messageType ) +{ +#define PLACEHOLDER ((OSSet *)gPMHaltArray) + IORegistryIterator * iter; + IORegistryEntry * entry; + IOService * node; + OSSet * inner; + PMHaltWorker * workers[kPMHaltMaxWorkers]; + AbsoluteTime deadline; + unsigned int totalNodes = 0; + unsigned int depth; + unsigned int rootDepth; + unsigned int numWorkers; + unsigned int count; + int waitResult; + void * baseFunc; + bool ok; + + DLOG("%s msgType = 0x%x\n", __FUNCTION__, messageType); + + baseFunc = OSMemberFunctionCast(void *, root, &IOService::systemWillShutdown); + + // Iterate the entire PM tree starting from root + + rootDepth = root->getDepth( gIOPowerPlane ); + if (!rootDepth) { + goto done; + } + + // debug - for repeated test runs + while (PMHaltWorker::metaClass->getInstanceCount()) { + IOSleep(1); + } + + if (!gPMHaltArray) { + gPMHaltArray = OSArray::withCapacity(40); + if (!gPMHaltArray) { + goto done; + } + } else { // debug + gPMHaltArray->flushCollection(); + } + + if (!gPMHaltLock) { + gPMHaltLock = IOLockAlloc(); + if (!gPMHaltLock) { + goto done; + } + } + + if (!gPMHaltClientAcknowledgeKey) { + gPMHaltClientAcknowledgeKey = + OSSymbol::withCStringNoCopy("PMShutdown"); + if (!gPMHaltClientAcknowledgeKey) { + goto done; + } + } + + gPMHaltMessageType = messageType; + + // Depth-first walk of PM plane + + iter = IORegistryIterator::iterateOver( + root, gIOPowerPlane, kIORegistryIterateRecursively); + + if (iter) { + while ((entry = iter->getNextObject())) { + node = OSDynamicCast(IOService, entry); + if (!node) { + continue; + } + + if (baseFunc == + OSMemberFunctionCast(void *, node, &IOService::systemWillShutdown)) { + continue; + } + + depth = node->getDepth( gIOPowerPlane ); + if (depth <= rootDepth) { + continue; + } + + ok = false; + + // adjust to zero based depth + depth -= (rootDepth + 1); + + // gPMHaltArray is an array of containers, each container + // refers to nodes with the same depth. + + count = gPMHaltArray->getCount(); + while (depth >= count) { + // expand array and insert placeholders + gPMHaltArray->setObject(PLACEHOLDER); + count++; + } + count = gPMHaltArray->getCount(); + if (depth < count) { + inner = (OSSet *)gPMHaltArray->getObject(depth); + if (inner == PLACEHOLDER) { + inner = OSSet::withCapacity(40); + if (inner) { + gPMHaltArray->replaceObject(depth, inner); + inner->release(); + } + } + + // PM nodes that appear more than once in the tree will have + // the same depth, OSSet will refuse to add the node twice. + if (inner) { + ok = inner->setObject(node); + } + } + if (!ok) { + DLOG("Skipped PM node %s\n", node->getName()); + } + } + iter->release(); + } + + // debug only + for (int i = 0; (inner = (OSSet *)gPMHaltArray->getObject(i)); i++) { + count = 0; + if (inner != PLACEHOLDER) { + count = inner->getCount(); + } + DLOG("Nodes at depth %u = %u\n", i, count); + } + + // strip placeholders (not all depths are populated) + numWorkers = 0; + for (int i = 0; (inner = (OSSet *)gPMHaltArray->getObject(i));) { + if (inner == PLACEHOLDER) { + gPMHaltArray->removeObject(i); + continue; + } + count = inner->getCount(); + if (count > numWorkers) { + numWorkers = count; + } + totalNodes += count; + i++; + } + + if (gPMHaltArray->getCount() == 0 || !numWorkers) { + goto done; + } + + gPMHaltBusyCount = 0; + gPMHaltIdleCount = 0; + gPMHaltDepth = gPMHaltArray->getCount() - 1; + + // Create multiple workers (and threads) + + if (numWorkers > kPMHaltMaxWorkers) { + numWorkers = kPMHaltMaxWorkers; + } + + DLOG("PM nodes %u, maxDepth %u, workers %u\n", + totalNodes, gPMHaltArray->getCount(), numWorkers); + + for (unsigned int i = 0; i < numWorkers; i++) { + workers[i] = PMHaltWorker::worker(); + } + + // Wait for workers to exhaust all available work + + IOLockLock(gPMHaltLock); + while (gPMHaltDepth >= 0) { + clock_interval_to_deadline(1000, kMillisecondScale, &deadline); + + waitResult = IOLockSleepDeadline( + gPMHaltLock, &gPMHaltDepth, deadline, THREAD_UNINT); + if (THREAD_TIMED_OUT == waitResult) { + AbsoluteTime now; + clock_get_uptime(&now); + + IOLockUnlock(gPMHaltLock); + for (unsigned int i = 0; i < numWorkers; i++) { + if (workers[i]) { + PMHaltWorker::checkTimeout(workers[i], &now); + } + } + IOLockLock(gPMHaltLock); + } + } + IOLockUnlock(gPMHaltLock); + + // Release all workers + + for (unsigned int i = 0; i < numWorkers; i++) { + if (workers[i]) { + workers[i]->release(); + } + // worker also retained by it's own thread + } + +done: + DLOG("%s done\n", __FUNCTION__); + return; +} + +// MARK: - +// MARK: Kernel Assertion + +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +IOPMDriverAssertionID +IOPMrootDomain::createPMAssertion( + IOPMDriverAssertionType whichAssertionBits, + IOPMDriverAssertionLevel assertionLevel, + IOService *ownerService, + const char *ownerDescription) +{ + IOReturn ret; + IOPMDriverAssertionID newAssertion; + + if (!pmAssertions) { + return 0; + } + + ret = pmAssertions->createAssertion(whichAssertionBits, assertionLevel, ownerService, ownerDescription, &newAssertion); + + if (kIOReturnSuccess == ret) { + return newAssertion; + } else { + return 0; + } +} + +IOReturn +IOPMrootDomain::releasePMAssertion(IOPMDriverAssertionID releaseAssertion) +{ + if (!pmAssertions) { + return kIOReturnInternalError; + } + + return pmAssertions->releaseAssertion(releaseAssertion); +} + + +IOReturn +IOPMrootDomain::setPMAssertionLevel( + IOPMDriverAssertionID assertionID, + IOPMDriverAssertionLevel assertionLevel) +{ + return pmAssertions->setAssertionLevel(assertionID, assertionLevel); +} + +IOPMDriverAssertionLevel +IOPMrootDomain::getPMAssertionLevel(IOPMDriverAssertionType whichAssertion) +{ + IOPMDriverAssertionType sysLevels; + + if (!pmAssertions || whichAssertion == 0) { + return kIOPMDriverAssertionLevelOff; + } + + sysLevels = pmAssertions->getActivatedAssertions(); + + // Check that every bit set in argument 'whichAssertion' is asserted + // in the aggregate bits. + if ((sysLevels & whichAssertion) == whichAssertion) { + return kIOPMDriverAssertionLevelOn; + } else { + return kIOPMDriverAssertionLevelOff; + } +} + +IOReturn +IOPMrootDomain::setPMAssertionUserLevels(IOPMDriverAssertionType inLevels) +{ + if (!pmAssertions) { + return kIOReturnNotFound; + } + + return pmAssertions->setUserAssertionLevels(inLevels); +} + +bool +IOPMrootDomain::serializeProperties( OSSerialize * s ) const +{ + if (pmAssertions) { + pmAssertions->publishProperties(); + } + return IOService::serializeProperties(s); +} + +OSObject * +IOPMrootDomain::copyProperty( const char * aKey) const +{ + OSObject *obj = NULL; + obj = IOService::copyProperty(aKey); + + if (obj) { + return obj; + } + + if (!strncmp(aKey, kIOPMSleepWakeWdogRebootKey, + sizeof(kIOPMSleepWakeWdogRebootKey))) { + if (swd_flags & SWD_BOOT_BY_SW_WDOG) { + return kOSBooleanTrue; + } else { + return kOSBooleanFalse; + } + } + + if (!strncmp(aKey, kIOPMSleepWakeWdogLogsValidKey, + sizeof(kIOPMSleepWakeWdogLogsValidKey))) { + if (swd_flags & SWD_VALID_LOGS) { + return kOSBooleanTrue; + } else { + return kOSBooleanFalse; + } + } + + /* + * XXX: We should get rid of "DesktopMode" property when 'kAppleClamshellCausesSleepKey' + * is set properly in darwake from sleep. For that, kIOPMEnableClamshell msg has to be + * issued by DisplayWrangler on darkwake. + */ + if (!strcmp(aKey, "DesktopMode")) { + if (desktopMode) { + return kOSBooleanTrue; + } else { + return kOSBooleanFalse; + } + } + if (!strcmp(aKey, "DisplayIdleForDemandSleep")) { + if (displayIdleForDemandSleep) { + return kOSBooleanTrue; + } else { + return kOSBooleanFalse; + } + } + + if (!strcmp(aKey, kIOPMDriverWakeEventsKey)) { + OSArray * array = NULL; + WAKEEVENT_LOCK(); + if (_systemWakeEventsArray && _systemWakeEventsArray->getCount()) { + OSCollection *collection = _systemWakeEventsArray->copyCollection(); + if (collection && !(array = OSDynamicCast(OSArray, collection))) { + collection->release(); + } + } + WAKEEVENT_UNLOCK(); + return array; + } + + if (!strcmp(aKey, kIOPMSleepStatisticsAppsKey)) { + OSArray * array = NULL; + IOLockLock(pmStatsLock); + if (pmStatsAppResponses && pmStatsAppResponses->getCount()) { + OSCollection *collection = pmStatsAppResponses->copyCollection(); + if (collection && !(array = OSDynamicCast(OSArray, collection))) { + collection->release(); + } + pmStatsAppResponses->flushCollection(); + } + IOLockUnlock(pmStatsLock); + return array; + } + + if (!strcmp(aKey, kIOPMIdleSleepPreventersKey)) { + OSArray *idleSleepList = NULL; + gRootDomain->copySleepPreventersList(&idleSleepList, NULL); + return idleSleepList; + } + + if (!strcmp(aKey, kIOPMSystemSleepPreventersKey)) { + OSArray *systemSleepList = NULL; + gRootDomain->copySleepPreventersList(NULL, &systemSleepList); + return systemSleepList; + } + + if (!strcmp(aKey, kIOPMIdleSleepPreventersWithIDKey)) { + OSArray *idleSleepList = NULL; + gRootDomain->copySleepPreventersListWithID(&idleSleepList, NULL); + return idleSleepList; + } + + if (!strcmp(aKey, kIOPMSystemSleepPreventersWithIDKey)) { + OSArray *systemSleepList = NULL; + gRootDomain->copySleepPreventersListWithID(NULL, &systemSleepList); + return systemSleepList; + } + return NULL; +} + +// MARK: - +// MARK: Wake Event Reporting + +void +IOPMrootDomain::copyWakeReasonString( char * outBuf, size_t bufSize ) +{ + WAKEEVENT_LOCK(); + strlcpy(outBuf, gWakeReasonString, bufSize); + WAKEEVENT_UNLOCK(); +} + +//****************************************************************************** +// acceptSystemWakeEvents +// +// Private control for the acceptance of driver wake event claims. +//****************************************************************************** + +void +IOPMrootDomain::acceptSystemWakeEvents( bool accept ) +{ + bool logWakeReason = false; + + WAKEEVENT_LOCK(); + if (accept) { + if (!_systemWakeEventsArray) { + _systemWakeEventsArray = OSArray::withCapacity(4); + } + _acceptSystemWakeEvents = (_systemWakeEventsArray != NULL); +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (!(kIOPMWakeEventAOTExitFlags & _aotPendingFlags)) +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + { + gWakeReasonString[0] = '\0'; + if (_systemWakeEventsArray) { + _systemWakeEventsArray->flushCollection(); + } + } + } else { + _acceptSystemWakeEvents = false; +#if CONFIG_EMBEDDED + logWakeReason = gWakeReasonSysctlRegistered; +#if DEVELOPMENT + static int panic_allowed = -1; + + if ((panic_allowed == -1) && + (PE_parse_boot_argn("swd_wakereason_panic", &panic_allowed, sizeof(panic_allowed)) == false)) { + panic_allowed = 0; + } + + if (panic_allowed) { + size_t i = 0; + // Panic if wake reason is null or empty + for (i = 0; (i < strlen(gWakeReasonString)); i++) { + if ((gWakeReasonString[i] != ' ') && (gWakeReasonString[i] != '\t')) { + break; + } + } + if (i >= strlen(gWakeReasonString)) { + panic("Wake reason is empty\n"); + } + } +#endif +#endif + } + WAKEEVENT_UNLOCK(); + + if (logWakeReason) { + MSG("system wake events:%s\n", gWakeReasonString); + } +} + +//****************************************************************************** +// claimSystemWakeEvent +// +// For a driver to claim a device is the source/conduit of a system wake event. +//****************************************************************************** + +void +IOPMrootDomain::claimSystemWakeEvent( + IOService * device, + IOOptionBits flags, + const char * reason, + OSObject * details ) +{ + const OSSymbol * deviceName = NULL; + OSNumber * deviceRegId = NULL; + OSNumber * claimTime = NULL; + OSData * flagsData = NULL; + OSString * reasonString = NULL; + OSDictionary * d = NULL; + uint64_t timestamp; + bool ok = false; + bool addWakeReason; + + pmEventTimeStamp(×tamp); + + if (!device || !reason) { + return; + } + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + IOOptionBits aotFlags = 0; + bool needAOTEvaluate = FALSE; + + if (kIOPMAOTModeAddEventFlags & _aotMode) { + if (!strcmp("hold", reason) + || !strcmp("help", reason) + || !strcmp("menu", reason) + || !strcmp("stockholm", reason) + || !strcmp("ringer", reason) + || !strcmp("ringerab", reason) + || !strcmp("smc0", reason) + || !strcmp("AOP.RTPWakeupAP", reason) + || !strcmp("BT.OutboxNotEmpty", reason) + || !strcmp("WL.OutboxNotEmpty", reason)) { + flags |= kIOPMWakeEventAOTExit; + } + } + +#if DEVELOPMENT || DEBUG + if (_aotLingerTime && !strcmp("rtc", reason)) { + flags |= kIOPMWakeEventAOTPossibleExit; + } +#endif /* DEVELOPMENT || DEBUG */ +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + deviceName = device->copyName(gIOServicePlane); + deviceRegId = OSNumber::withNumber(device->getRegistryEntryID(), 64); + claimTime = OSNumber::withNumber(timestamp, 64); + flagsData = OSData::withBytes(&flags, sizeof(flags)); + reasonString = OSString::withCString(reason); + d = OSDictionary::withCapacity(5 + (details ? 1 : 0)); + if (!deviceName || !deviceRegId || !claimTime || !flagsData || !reasonString) { + goto done; + } + + d->setObject(gIONameKey, deviceName); + d->setObject(gIORegistryEntryIDKey, deviceRegId); + d->setObject(kIOPMWakeEventTimeKey, claimTime); + d->setObject(kIOPMWakeEventFlagsKey, flagsData); + d->setObject(kIOPMWakeEventReasonKey, reasonString); + if (details) { + d->setObject(kIOPMWakeEventDetailsKey, details); + } + + WAKEEVENT_LOCK(); + addWakeReason = _acceptSystemWakeEvents; +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (_aotMode) { + IOLog("claimSystemWakeEvent(%s, %s, 0x%x) 0x%x %d\n", reason, deviceName->getCStringNoCopy(), (int)flags, _aotPendingFlags, _aotReadyToFullWake); + } + aotFlags = (kIOPMWakeEventAOTFlags & flags); + aotFlags = (aotFlags & ~_aotPendingFlags); + needAOTEvaluate = false; + if (_aotNow && aotFlags) { + if (kIOPMWakeEventAOTPossibleExit & flags) { + _aotMetrics->possibleCount++; + } + if (kIOPMWakeEventAOTConfirmedPossibleExit & flags) { + _aotMetrics->confirmedPossibleCount++; + } + if (kIOPMWakeEventAOTRejectedPossibleExit & flags) { + _aotMetrics->rejectedPossibleCount++; + } + if (kIOPMWakeEventAOTExpiredPossibleExit & flags) { + _aotMetrics->expiredPossibleCount++; + } + + _aotPendingFlags |= aotFlags; + addWakeReason = _aotNow && _systemWakeEventsArray && ((kIOPMWakeEventAOTExitFlags & aotFlags)); + needAOTEvaluate = _aotReadyToFullWake; + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + if (!gWakeReasonSysctlRegistered) { + // Lazy registration until the platform driver stops registering + // the same name. + gWakeReasonSysctlRegistered = true; +#if CONFIG_EMBEDDED + sysctl_register_oid(&sysctl__kern_wakereason); +#endif + } + if (addWakeReason) { + ok = _systemWakeEventsArray->setObject(d); + if (gWakeReasonString[0] != '\0') { + strlcat(gWakeReasonString, " ", sizeof(gWakeReasonString)); + } + strlcat(gWakeReasonString, reason, sizeof(gWakeReasonString)); + } + + WAKEEVENT_UNLOCK(); +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (needAOTEvaluate) { + aotEvaluate(NULL); + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + +done: + if (deviceName) { + deviceName->release(); + } + if (deviceRegId) { + deviceRegId->release(); + } + if (claimTime) { + claimTime->release(); + } + if (flagsData) { + flagsData->release(); + } + if (reasonString) { + reasonString->release(); + } + if (d) { + d->release(); + } +} + +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +// MARK: - +// MARK: PMSettingHandle + +OSDefineMetaClassAndStructors( PMSettingHandle, OSObject ) + +void +PMSettingHandle::free( void ) +{ + if (pmso) { + pmso->clientHandleFreed(); + pmso->release(); + pmso = NULL; + } + + OSObject::free(); +} + +// MARK: - +// MARK: PMSettingObject + +#undef super +#define super OSObject +OSDefineMetaClassAndFinalStructors( PMSettingObject, OSObject ) + +/* + * Static constructor/initializer for PMSettingObject + */ +PMSettingObject *PMSettingObject::pmSettingObject( + IOPMrootDomain * parent_arg, + IOPMSettingControllerCallback handler_arg, + OSObject * target_arg, + uintptr_t refcon_arg, + uint32_t supportedPowerSources, + const OSSymbol * settings[], + OSObject * *handle_obj) +{ + uint32_t settingCount = 0; + PMSettingObject *pmso = NULL; + PMSettingHandle *pmsh = NULL; + + if (!parent_arg || !handler_arg || !settings || !handle_obj) { + return NULL; + } + + // count OSSymbol entries in NULL terminated settings array + while (settings[settingCount]) { + settingCount++; + } + if (0 == settingCount) { + return NULL; + } + + pmso = new PMSettingObject; + if (!pmso || !pmso->init()) { + goto fail; + } + + pmsh = new PMSettingHandle; + if (!pmsh || !pmsh->init()) { + goto fail; + } + + queue_init(&pmso->calloutQueue); + pmso->parent = parent_arg; + pmso->func = handler_arg; + pmso->target = target_arg; + pmso->refcon = refcon_arg; + pmso->settingCount = settingCount; + + pmso->retain(); // handle holds a retain on pmso + pmsh->pmso = pmso; + pmso->pmsh = pmsh; + + pmso->publishedFeatureID = (uint32_t *)IOMalloc(sizeof(uint32_t) * settingCount); + if (pmso->publishedFeatureID) { + for (unsigned int i = 0; i < settingCount; i++) { + // Since there is now at least one listener to this setting, publish + // PM root domain support for it. + parent_arg->publishPMSetting( settings[i], + supportedPowerSources, &pmso->publishedFeatureID[i] ); + } + } + + *handle_obj = pmsh; + return pmso; + +fail: + if (pmso) { + pmso->release(); + } + if (pmsh) { + pmsh->release(); + } + return NULL; +} + +void +PMSettingObject::free( void ) +{ + if (publishedFeatureID) { + for (uint32_t i = 0; i < settingCount; i++) { + if (publishedFeatureID[i]) { + parent->removePublishedFeature( publishedFeatureID[i] ); + } + } + + IOFree(publishedFeatureID, sizeof(uint32_t) * settingCount); + } + + super::free(); +} + +void +PMSettingObject::dispatchPMSetting( const OSSymbol * type, OSObject * object ) +{ + (*func)(target, type, object, refcon); +} + +void +PMSettingObject::clientHandleFreed( void ) +{ + parent->deregisterPMSettingObject(this); +} + +// MARK: - +// MARK: PMAssertionsTracker + +//********************************************************************************* +//********************************************************************************* +//********************************************************************************* +// class PMAssertionsTracker Implementation + +#define kAssertUniqueIDStart 500 + +PMAssertionsTracker * +PMAssertionsTracker::pmAssertionsTracker( IOPMrootDomain *rootDomain ) +{ + PMAssertionsTracker *myself; + + myself = new PMAssertionsTracker; + + if (myself) { + myself->init(); + myself->owner = rootDomain; + myself->issuingUniqueID = kAssertUniqueIDStart; + myself->assertionsArray = OSArray::withCapacity(5); + myself->assertionsKernel = 0; + myself->assertionsUser = 0; + myself->assertionsCombined = 0; + myself->assertionsArrayLock = IOLockAlloc(); + myself->tabulateProducerCount = myself->tabulateConsumerCount = 0; + + if (!myself->assertionsArray || !myself->assertionsArrayLock) { + myself = NULL; + } + } + + return myself; +} + +/* tabulate + * - Update assertionsKernel to reflect the state of all + * assertions in the kernel. + * - Update assertionsCombined to reflect both kernel & user space. + */ +void +PMAssertionsTracker::tabulate(void) +{ + int i; + int count; + PMAssertStruct *_a = NULL; + OSData *_d = NULL; + + IOPMDriverAssertionType oldKernel = assertionsKernel; + IOPMDriverAssertionType oldCombined = assertionsCombined; + + ASSERT_GATED(); + + assertionsKernel = 0; + assertionsCombined = 0; + + if (!assertionsArray) { + return; + } + + if ((count = assertionsArray->getCount())) { + for (i = 0; i < count; i++) { + _d = OSDynamicCast(OSData, assertionsArray->getObject(i)); + if (_d) { + _a = (PMAssertStruct *)_d->getBytesNoCopy(); + if (_a && (kIOPMDriverAssertionLevelOn == _a->level)) { + assertionsKernel |= _a->assertionBits; + } + } + } + } + + tabulateProducerCount++; + assertionsCombined = assertionsKernel | assertionsUser; + + if ((assertionsKernel != oldKernel) || + (assertionsCombined != oldCombined)) { + owner->evaluateAssertions(assertionsCombined, oldCombined); + } +} + +void +PMAssertionsTracker::publishProperties( void ) +{ + OSArray *assertionsSummary = NULL; + + if (tabulateConsumerCount != tabulateProducerCount) { + IOLockLock(assertionsArrayLock); + + tabulateConsumerCount = tabulateProducerCount; + + /* Publish the IOPMrootDomain property "DriverPMAssertionsDetailed" + */ + assertionsSummary = copyAssertionsArray(); + if (assertionsSummary) { + owner->setProperty(kIOPMAssertionsDriverDetailedKey, assertionsSummary); + assertionsSummary->release(); + } else { + owner->removeProperty(kIOPMAssertionsDriverDetailedKey); + } + + /* Publish the IOPMrootDomain property "DriverPMAssertions" + */ + owner->setProperty(kIOPMAssertionsDriverKey, assertionsKernel, 64); + + IOLockUnlock(assertionsArrayLock); + } +} + +PMAssertionsTracker::PMAssertStruct * +PMAssertionsTracker::detailsForID(IOPMDriverAssertionID _id, int *index) +{ + PMAssertStruct *_a = NULL; + OSData *_d = NULL; + int found = -1; + int count = 0; + int i = 0; + + if (assertionsArray + && (count = assertionsArray->getCount())) { + for (i = 0; i < count; i++) { + _d = OSDynamicCast(OSData, assertionsArray->getObject(i)); + if (_d) { + _a = (PMAssertStruct *)_d->getBytesNoCopy(); + if (_a && (_id == _a->id)) { + found = i; + break; + } + } + } + } + + if (-1 == found) { + return NULL; + } else { + if (index) { + *index = found; + } + return _a; + } +} + +/* PMAssertionsTracker::handleCreateAssertion + * Perform assertion work on the PM workloop. Do not call directly. + */ +IOReturn +PMAssertionsTracker::handleCreateAssertion(OSData *newAssertion) +{ + ASSERT_GATED(); + + if (newAssertion) { + IOLockLock(assertionsArrayLock); + assertionsArray->setObject(newAssertion); + IOLockUnlock(assertionsArrayLock); + newAssertion->release(); + + tabulate(); + } + return kIOReturnSuccess; +} + +/* PMAssertionsTracker::createAssertion + * createAssertion allocates memory for a new PM assertion, and affects system behavior, if + * appropiate. + */ +IOReturn +PMAssertionsTracker::createAssertion( + IOPMDriverAssertionType which, + IOPMDriverAssertionLevel level, + IOService *serviceID, + const char *whoItIs, + IOPMDriverAssertionID *outID) +{ + OSData *dataStore = NULL; + PMAssertStruct track; + + // Warning: trillions and trillions of created assertions may overflow the unique ID. + track.id = OSIncrementAtomic64((SInt64*) &issuingUniqueID); + track.level = level; + track.assertionBits = which; + track.ownerString = whoItIs ? OSSymbol::withCString(whoItIs):NULL; + track.ownerService = serviceID; + track.registryEntryID = serviceID ? serviceID->getRegistryEntryID():0; + track.modifiedTime = 0; + pmEventTimeStamp(&track.createdTime); + + dataStore = OSData::withBytes(&track, sizeof(PMAssertStruct)); + if (!dataStore) { + if (track.ownerString) { + track.ownerString->release(); + } + return kIOReturnNoMemory; + } + + *outID = track.id; + + if (owner && owner->pmPowerStateQueue) { + owner->pmPowerStateQueue->submitPowerEvent(kPowerEventAssertionCreate, (void *)dataStore); + } + + return kIOReturnSuccess; +} + +/* PMAssertionsTracker::handleReleaseAssertion + * Runs in PM workloop. Do not call directly. + */ +IOReturn +PMAssertionsTracker::handleReleaseAssertion( + IOPMDriverAssertionID _id) +{ + ASSERT_GATED(); + + int index; + PMAssertStruct *assertStruct = detailsForID(_id, &index); + + if (!assertStruct) { + return kIOReturnNotFound; + } + + IOLockLock(assertionsArrayLock); + if (assertStruct->ownerString) { + assertStruct->ownerString->release(); + } + + assertionsArray->removeObject(index); + IOLockUnlock(assertionsArrayLock); + + tabulate(); + return kIOReturnSuccess; +} + +/* PMAssertionsTracker::releaseAssertion + * Releases an assertion and affects system behavior if appropiate. + * Actual work happens on PM workloop. + */ +IOReturn +PMAssertionsTracker::releaseAssertion( + IOPMDriverAssertionID _id) +{ + if (owner && owner->pmPowerStateQueue) { + owner->pmPowerStateQueue->submitPowerEvent(kPowerEventAssertionRelease, NULL, _id); + } + return kIOReturnSuccess; +} + +/* PMAssertionsTracker::handleSetAssertionLevel + * Runs in PM workloop. Do not call directly. + */ +IOReturn +PMAssertionsTracker::handleSetAssertionLevel( + IOPMDriverAssertionID _id, + IOPMDriverAssertionLevel _level) +{ + PMAssertStruct *assertStruct = detailsForID(_id, NULL); + + ASSERT_GATED(); + + if (!assertStruct) { + return kIOReturnNotFound; + } + + IOLockLock(assertionsArrayLock); + pmEventTimeStamp(&assertStruct->modifiedTime); + assertStruct->level = _level; + IOLockUnlock(assertionsArrayLock); + + tabulate(); + return kIOReturnSuccess; +} + +/* PMAssertionsTracker::setAssertionLevel + */ +IOReturn +PMAssertionsTracker::setAssertionLevel( + IOPMDriverAssertionID _id, + IOPMDriverAssertionLevel _level) +{ + if (owner && owner->pmPowerStateQueue) { + owner->pmPowerStateQueue->submitPowerEvent(kPowerEventAssertionSetLevel, + (void *)(uintptr_t)_level, _id); + } + + return kIOReturnSuccess; +} + +IOReturn +PMAssertionsTracker::handleSetUserAssertionLevels(void * arg0) +{ + IOPMDriverAssertionType new_user_levels = *(IOPMDriverAssertionType *) arg0; + + ASSERT_GATED(); + + if (new_user_levels != assertionsUser) { + assertionsUser = new_user_levels; + DLOG("assertionsUser 0x%llx\n", assertionsUser); + } + + tabulate(); + return kIOReturnSuccess; +} + +IOReturn +PMAssertionsTracker::setUserAssertionLevels( + IOPMDriverAssertionType new_user_levels) +{ + if (gIOPMWorkLoop) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast( + IOWorkLoop::Action, + this, + &PMAssertionsTracker::handleSetUserAssertionLevels), + this, + (void *) &new_user_levels, NULL, NULL, NULL); + } + + return kIOReturnSuccess; +} + + +OSArray * +PMAssertionsTracker::copyAssertionsArray(void) +{ + int count; + int i; + OSArray *outArray = NULL; + + if (!assertionsArray || + (0 == (count = assertionsArray->getCount())) || + (NULL == (outArray = OSArray::withCapacity(count)))) { + goto exit; + } + + for (i = 0; i < count; i++) { + PMAssertStruct *_a = NULL; + OSData *_d = NULL; + OSDictionary *details = NULL; + + _d = OSDynamicCast(OSData, assertionsArray->getObject(i)); + if (_d && (_a = (PMAssertStruct *)_d->getBytesNoCopy())) { + OSNumber *_n = NULL; + + details = OSDictionary::withCapacity(7); + if (!details) { + continue; + } + + outArray->setObject(details); + details->release(); + + _n = OSNumber::withNumber(_a->id, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionIDKey, _n); + _n->release(); + } + _n = OSNumber::withNumber(_a->createdTime, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionCreatedTimeKey, _n); + _n->release(); + } + _n = OSNumber::withNumber(_a->modifiedTime, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionModifiedTimeKey, _n); + _n->release(); + } + _n = OSNumber::withNumber((uintptr_t)_a->registryEntryID, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionRegistryEntryIDKey, _n); + _n->release(); + } + _n = OSNumber::withNumber(_a->level, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionLevelKey, _n); + _n->release(); + } + _n = OSNumber::withNumber(_a->assertionBits, 64); + if (_n) { + details->setObject(kIOPMDriverAssertionAssertedKey, _n); + _n->release(); + } + + if (_a->ownerString) { + details->setObject(kIOPMDriverAssertionOwnerStringKey, _a->ownerString); + } + } + } + +exit: + return outArray; +} + +IOPMDriverAssertionType +PMAssertionsTracker::getActivatedAssertions(void) +{ + return assertionsCombined; +} + +IOPMDriverAssertionLevel +PMAssertionsTracker::getAssertionLevel( + IOPMDriverAssertionType type) +{ + if (type && ((type & assertionsKernel) == assertionsKernel)) { + return kIOPMDriverAssertionLevelOn; + } else { + return kIOPMDriverAssertionLevelOff; + } +} + +//********************************************************************************* +//********************************************************************************* +//********************************************************************************* + + +static void +pmEventTimeStamp(uint64_t *recordTS) +{ + clock_sec_t tsec; + clock_usec_t tusec; + + if (!recordTS) { + return; + } + + // We assume tsec fits into 32 bits; 32 bits holds enough + // seconds for 136 years since the epoch in 1970. + clock_get_calendar_microtime(&tsec, &tusec); + + + // Pack the sec & microsec calendar time into a uint64_t, for fun. + *recordTS = 0; + *recordTS |= (uint32_t)tusec; + *recordTS |= ((uint64_t)tsec << 32); + + return; +} + +// MARK: - +// MARK: IORootParent + +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ + +OSDefineMetaClassAndFinalStructors(IORootParent, IOService) + +// The reason that root domain needs a root parent is to facilitate demand +// sleep, since a power change from the root parent cannot be vetoed. +// +// The above statement is no longer true since root domain now performs +// demand sleep using overrides. But root parent remains to avoid changing +// the power tree stacking. Root parent is parked at the max power state. + + +static IOPMPowerState patriarchPowerStates[2] = +{ + {1, 0, ON_POWER, 0, 0, 0, 0, 0, 0, 0, 0, 0}, + {1, 0, ON_POWER, 0, 0, 0, 0, 0, 0, 0, 0, 0}, +}; + +void +IORootParent::initialize( void ) +{ + + gIOPMPSExternalConnectedKey = OSSymbol::withCStringNoCopy(kIOPMPSExternalConnectedKey); + gIOPMPSExternalChargeCapableKey = OSSymbol::withCStringNoCopy(kIOPMPSExternalChargeCapableKey); + gIOPMPSBatteryInstalledKey = OSSymbol::withCStringNoCopy(kIOPMPSBatteryInstalledKey); + gIOPMPSIsChargingKey = OSSymbol::withCStringNoCopy(kIOPMPSIsChargingKey); + gIOPMPSAtWarnLevelKey = OSSymbol::withCStringNoCopy(kIOPMPSAtWarnLevelKey); + gIOPMPSAtCriticalLevelKey = OSSymbol::withCStringNoCopy(kIOPMPSAtCriticalLevelKey); + gIOPMPSCurrentCapacityKey = OSSymbol::withCStringNoCopy(kIOPMPSCurrentCapacityKey); + gIOPMPSMaxCapacityKey = OSSymbol::withCStringNoCopy(kIOPMPSMaxCapacityKey); + gIOPMPSDesignCapacityKey = OSSymbol::withCStringNoCopy(kIOPMPSDesignCapacityKey); + gIOPMPSTimeRemainingKey = OSSymbol::withCStringNoCopy(kIOPMPSTimeRemainingKey); + gIOPMPSAmperageKey = OSSymbol::withCStringNoCopy(kIOPMPSAmperageKey); + gIOPMPSVoltageKey = OSSymbol::withCStringNoCopy(kIOPMPSVoltageKey); + gIOPMPSCycleCountKey = OSSymbol::withCStringNoCopy(kIOPMPSCycleCountKey); + gIOPMPSMaxErrKey = OSSymbol::withCStringNoCopy(kIOPMPSMaxErrKey); + gIOPMPSAdapterInfoKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterInfoKey); + gIOPMPSLocationKey = OSSymbol::withCStringNoCopy(kIOPMPSLocationKey); + gIOPMPSErrorConditionKey = OSSymbol::withCStringNoCopy(kIOPMPSErrorConditionKey); + gIOPMPSManufacturerKey = OSSymbol::withCStringNoCopy(kIOPMPSManufacturerKey); + gIOPMPSManufactureDateKey = OSSymbol::withCStringNoCopy(kIOPMPSManufactureDateKey); + gIOPMPSModelKey = OSSymbol::withCStringNoCopy(kIOPMPSModelKey); + gIOPMPSSerialKey = OSSymbol::withCStringNoCopy(kIOPMPSSerialKey); + gIOPMPSLegacyBatteryInfoKey = OSSymbol::withCStringNoCopy(kIOPMPSLegacyBatteryInfoKey); + gIOPMPSBatteryHealthKey = OSSymbol::withCStringNoCopy(kIOPMPSBatteryHealthKey); + gIOPMPSHealthConfidenceKey = OSSymbol::withCStringNoCopy(kIOPMPSHealthConfidenceKey); + gIOPMPSCapacityEstimatedKey = OSSymbol::withCStringNoCopy(kIOPMPSCapacityEstimatedKey); + gIOPMPSBatteryChargeStatusKey = OSSymbol::withCStringNoCopy(kIOPMPSBatteryChargeStatusKey); + gIOPMPSBatteryTemperatureKey = OSSymbol::withCStringNoCopy(kIOPMPSBatteryTemperatureKey); + gIOPMPSAdapterDetailsKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsKey); + gIOPMPSChargerConfigurationKey = OSSymbol::withCStringNoCopy(kIOPMPSChargerConfigurationKey); + gIOPMPSAdapterDetailsIDKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsIDKey); + gIOPMPSAdapterDetailsWattsKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsWattsKey); + gIOPMPSAdapterDetailsRevisionKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsRevisionKey); + gIOPMPSAdapterDetailsSerialNumberKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsSerialNumberKey); + gIOPMPSAdapterDetailsFamilyKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsFamilyKey); + gIOPMPSAdapterDetailsAmperageKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsAmperageKey); + gIOPMPSAdapterDetailsDescriptionKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsDescriptionKey); + gIOPMPSAdapterDetailsPMUConfigurationKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsPMUConfigurationKey); + gIOPMPSAdapterDetailsSourceIDKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsSourceIDKey); + gIOPMPSAdapterDetailsErrorFlagsKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsErrorFlagsKey); + gIOPMPSAdapterDetailsSharedSourceKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsSharedSourceKey); + gIOPMPSAdapterDetailsCloakedKey = OSSymbol::withCStringNoCopy(kIOPMPSAdapterDetailsCloakedKey); + gIOPMPSInvalidWakeSecondsKey = OSSymbol::withCStringNoCopy(kIOPMPSInvalidWakeSecondsKey); + gIOPMPSPostChargeWaitSecondsKey = OSSymbol::withCStringNoCopy(kIOPMPSPostChargeWaitSecondsKey); + gIOPMPSPostDishargeWaitSecondsKey = OSSymbol::withCStringNoCopy(kIOPMPSPostDishargeWaitSecondsKey); +} + +bool +IORootParent::start( IOService * nub ) +{ + IOService::start(nub); + attachToParent( getRegistryRoot(), gIOPowerPlane ); + PMinit(); + registerPowerDriver(this, patriarchPowerStates, 2); + makeUsable(); + return true; +} + +void +IORootParent::shutDownSystem( void ) +{ +} + +void +IORootParent::restartSystem( void ) +{ +} + +void +IORootParent::sleepSystem( void ) +{ +} + +void +IORootParent::dozeSystem( void ) +{ +} + +void +IORootParent::sleepToDoze( void ) +{ +} + +void +IORootParent::wakeSystem( void ) +{ +} + +OSObject * +IORootParent::copyProperty( const char * aKey) const +{ + return IOService::copyProperty(aKey); +} + +uint32_t +IOPMrootDomain::getWatchdogTimeout() +{ + if (gSwdSleepWakeTimeout) { + gSwdSleepTimeout = gSwdWakeTimeout = gSwdSleepWakeTimeout; + } + if ((pmTracer->getTracePhase() < kIOPMTracePointSystemSleep) || + (pmTracer->getTracePhase() == kIOPMTracePointDarkWakeEntry)) { + return gSwdSleepTimeout ? gSwdSleepTimeout : WATCHDOG_SLEEP_TIMEOUT; + } else { + return gSwdWakeTimeout ? gSwdWakeTimeout : WATCHDOG_WAKE_TIMEOUT; + } +} + + +#if defined(__i386__) || defined(__x86_64__) +IOReturn +IOPMrootDomain::restartWithStackshot() +{ + takeStackshot(true); + + return kIOReturnSuccess; +} + +void +IOPMrootDomain::sleepWakeDebugTrig(bool wdogTrigger) +{ + takeStackshot(wdogTrigger); +} + +void +IOPMrootDomain::tracePhase2String(uint32_t tracePhase, const char **phaseString, const char **description) +{ + switch (tracePhase) { + case kIOPMTracePointSleepStarted: + *phaseString = "kIOPMTracePointSleepStarted"; + *description = "starting sleep"; + break; + + case kIOPMTracePointSleepApplications: + *phaseString = "kIOPMTracePointSleepApplications"; + *description = "notifying applications"; + break; + + case kIOPMTracePointSleepPriorityClients: + *phaseString = "kIOPMTracePointSleepPriorityClients"; + *description = "notifying clients about upcoming system capability changes"; + break; + + case kIOPMTracePointSleepWillChangeInterests: + *phaseString = "kIOPMTracePointSleepWillChangeInterests"; + *description = "creating hibernation file or while calling rootDomain's clients about upcoming rootDomain's state changes"; + break; + + case kIOPMTracePointSleepPowerPlaneDrivers: + *phaseString = "kIOPMTracePointSleepPowerPlaneDrivers"; + *description = "calling power state change callbacks"; + break; + + case kIOPMTracePointSleepDidChangeInterests: + *phaseString = "kIOPMTracePointSleepDidChangeInterests"; + *description = "calling rootDomain's clients about rootDomain's state changes"; + break; + + case kIOPMTracePointSleepCapabilityClients: + *phaseString = "kIOPMTracePointSleepCapabilityClients"; + *description = "notifying clients about current system capabilities"; + break; + + case kIOPMTracePointSleepPlatformActions: + *phaseString = "kIOPMTracePointSleepPlatformActions"; + *description = "calling Quiesce/Sleep action callbacks"; + break; + + case kIOPMTracePointSleepCPUs: + { + *phaseString = "kIOPMTracePointSleepCPUs"; +#if defined(__i386__) || defined(__x86_64__) + /* + * We cannot use the getCPUNumber() method to get the cpu number, since + * that cpu number is unrelated to the cpu number we need (we need the cpu + * number as enumerated by the scheduler, NOT the CPU number enumerated + * by ACPIPlatform as the CPUs are enumerated in MADT order). + * Instead, pass the Mach processor pointer associated with the current + * shutdown target so its associated cpu_id can be used in + * processor_to_datastring. + */ + if (currentShutdownTarget != NULL && + currentShutdownTarget->getMachProcessor() != NULL) { + const char *sbuf = processor_to_datastring("halting all non-boot CPUs", + currentShutdownTarget->getMachProcessor()); + *description = sbuf; + } else { + *description = "halting all non-boot CPUs"; + } +#else + *description = "halting all non-boot CPUs"; +#endif + break; + } + case kIOPMTracePointSleepPlatformDriver: + *phaseString = "kIOPMTracePointSleepPlatformDriver"; + *description = "executing platform specific code"; + break; + + case kIOPMTracePointHibernate: + *phaseString = "kIOPMTracePointHibernate"; + *description = "writing the hibernation image"; + break; + + case kIOPMTracePointSystemSleep: + *phaseString = "kIOPMTracePointSystemSleep"; + *description = "in EFI/Bootrom after last point of entry to sleep"; + break; + + case kIOPMTracePointWakePlatformDriver: + *phaseString = "kIOPMTracePointWakePlatformDriver"; + *description = "executing platform specific code"; + break; + + + case kIOPMTracePointWakePlatformActions: + *phaseString = "kIOPMTracePointWakePlatformActions"; + *description = "calling Wake action callbacks"; + break; + + case kIOPMTracePointWakeCPUs: + *phaseString = "kIOPMTracePointWakeCPUs"; + *description = "starting non-boot CPUs"; + break; + + case kIOPMTracePointWakeWillPowerOnClients: + *phaseString = "kIOPMTracePointWakeWillPowerOnClients"; + *description = "sending kIOMessageSystemWillPowerOn message to kernel and userspace clients"; + break; + + case kIOPMTracePointWakeWillChangeInterests: + *phaseString = "kIOPMTracePointWakeWillChangeInterests"; + *description = "calling rootDomain's clients about upcoming rootDomain's state changes"; + break; + + case kIOPMTracePointWakeDidChangeInterests: + *phaseString = "kIOPMTracePointWakeDidChangeInterests"; + *description = "calling rootDomain's clients about completed rootDomain's state changes"; + break; + + case kIOPMTracePointWakePowerPlaneDrivers: + *phaseString = "kIOPMTracePointWakePowerPlaneDrivers"; + *description = "calling power state change callbacks"; + break; + + case kIOPMTracePointWakeCapabilityClients: + *phaseString = "kIOPMTracePointWakeCapabilityClients"; + *description = "informing clients about current system capabilities"; + break; + + case kIOPMTracePointWakeApplications: + *phaseString = "kIOPMTracePointWakeApplications"; + *description = "sending asynchronous kIOMessageSystemHasPoweredOn message to userspace clients"; + break; + + case kIOPMTracePointDarkWakeEntry: + *phaseString = "kIOPMTracePointDarkWakeEntry"; + *description = "entering darkwake on way to sleep"; + break; + + case kIOPMTracePointDarkWakeExit: + *phaseString = "kIOPMTracePointDarkWakeExit"; + *description = "entering fullwake from darkwake"; + break; + + default: + *phaseString = NULL; + *description = NULL; + } +} + +void +IOPMrootDomain::saveFailureData2File() +{ + unsigned int len = 0; + char failureStr[512]; + errno_t error; + char *outbuf; + OSNumber *statusCode; + uint64_t pmStatusCode = 0; + uint32_t phaseData = 0; + uint32_t phaseDetail = 0; + bool efiFailure = false; + + statusCode = OSDynamicCast(OSNumber, getProperty(kIOPMSleepWakeFailureCodeKey)); + if (statusCode) { + pmStatusCode = statusCode->unsigned64BitValue(); + phaseData = pmStatusCode & 0xFFFFFFFF; + phaseDetail = (pmStatusCode >> 32) & 0xFFFFFFFF; + if ((phaseData & 0xFF) == kIOPMTracePointSystemSleep) { + LOG("Sleep Wake failure in EFI\n"); + efiFailure = true; + failureStr[0] = 0; + snprintf(failureStr, sizeof(failureStr), "Sleep Wake failure in EFI\n\nFailure code:: 0x%08x 0x%08x\n\nPlease IGNORE the below stackshot\n", phaseDetail, phaseData); + len = strlen(failureStr); + } + } + + if (!efiFailure) { + if (PEReadNVRAMProperty(kIOSleepWakeFailurePanic, NULL, &len)) { + swd_flags |= SWD_BOOT_BY_SW_WDOG; + PERemoveNVRAMProperty(kIOSleepWakeFailurePanic); + // dump panic will handle saving nvram data + return; + } + + /* Keeping this around for capturing data during power + * button press */ + + if (!PEReadNVRAMProperty(kIOSleepWakeFailureString, NULL, &len)) { + DLOG("No sleep wake failure string\n"); + return; + } + if (len == 0) { + DLOG("Ignoring zero byte SleepWake failure string\n"); + goto exit; + } + + // if PMStatus code is zero, delete stackshot and return + if (statusCode) { + if (((pmStatusCode & 0xFFFFFFFF) & 0xFF) == 0) { + // there was no sleep wake failure + // this can happen if delete stackshot was called + // before take stackshot completed. Let us delete any + // sleep wake failure data in nvram + DLOG("Deleting stackshot on successful wake\n"); + deleteStackshot(); + return; + } + } + + if (len > sizeof(failureStr)) { + len = sizeof(failureStr); + } + failureStr[0] = 0; + PEReadNVRAMProperty(kIOSleepWakeFailureString, failureStr, &len); + } + if (failureStr[0] != 0) { + error = sleepWakeDebugSaveFile(kSleepWakeFailureStringFile, failureStr, len); + if (error) { + DLOG("Failed to save SleepWake failure string to file. error:%d\n", error); + } else { + DLOG("Saved SleepWake failure string to file.\n"); + } + } + + if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) { + goto exit; + } + + if (swd_buffer) { + unsigned int len = 0; + errno_t error; + char nvram_var_name_buffer[20]; + unsigned int concat_len = 0; + swd_hdr *hdr = NULL; + + + hdr = (swd_hdr *)swd_buffer; + outbuf = (char *)hdr + hdr->spindump_offset; + + for (int i = 0; i < 8; i++) { + snprintf(nvram_var_name_buffer, 20, "%s%02d", SWD_STACKSHOT_VAR_PREFIX, i + 1); + if (!PEReadNVRAMProperty(nvram_var_name_buffer, NULL, &len)) { + LOG("No SleepWake blob to read beyond chunk %d\n", i); + break; + } + if (PEReadNVRAMProperty(nvram_var_name_buffer, outbuf + concat_len, &len) == FALSE) { + PERemoveNVRAMProperty(nvram_var_name_buffer); + LOG("Could not read the property :-(\n"); + break; + } + PERemoveNVRAMProperty(nvram_var_name_buffer); + concat_len += len; + } + LOG("Concatenated length for the SWD blob %d\n", concat_len); + + if (concat_len) { + error = sleepWakeDebugSaveFile(kSleepWakeStacksFilename, outbuf, concat_len); + if (error) { + LOG("Failed to save SleepWake zipped data to file. error:%d\n", error); + } else { + LOG("Saved SleepWake zipped data to file.\n"); + } + } else { + // There is a sleep wake failure string but no stackshot + // Write a placeholder stacks file so that swd runs + snprintf(outbuf, 20, "%s", "No stackshot data\n"); + error = sleepWakeDebugSaveFile(kSleepWakeStacksFilename, outbuf, 20); + if (error) { + LOG("Failed to save SleepWake zipped data to file. error:%d\n", error); + } else { + LOG("Saved SleepWake zipped data to file.\n"); + } + } + } else { + LOG("No buffer allocated to save failure stackshot\n"); + } + + + gRootDomain->swd_lock = 0; +exit: + PERemoveNVRAMProperty(kIOSleepWakeFailureString); + return; +} + + +void +IOPMrootDomain::getFailureData(thread_t *thread, char *failureStr, size_t strLen) +{ + IORegistryIterator * iter; + IORegistryEntry * entry; + IOService * node; + bool nodeFound = false; + + const void * callMethod = NULL; + const char * objectName = NULL; + uint32_t timeout = getWatchdogTimeout(); + const char * phaseString = NULL; + const char * phaseDescription = NULL; + + IOPMServiceInterestNotifier *notifier = OSDynamicCast(IOPMServiceInterestNotifier, notifierObject); + uint32_t tracePhase = pmTracer->getTracePhase(); + + *thread = NULL; + if ((tracePhase < kIOPMTracePointSystemSleep) || (tracePhase == kIOPMTracePointDarkWakeEntry)) { + snprintf(failureStr, strLen, "%sSleep transition timed out after %d seconds", failureStr, timeout); + } else { + snprintf(failureStr, strLen, "%sWake transition timed out after %d seconds", failureStr, timeout); + } + tracePhase2String(tracePhase, &phaseString, &phaseDescription); + + if (notifierThread) { + if (notifier && (notifier->identifier)) { + objectName = notifier->identifier->getCStringNoCopy(); + } + *thread = notifierThread; + } else { + iter = IORegistryIterator::iterateOver( + getPMRootDomain(), gIOPowerPlane, kIORegistryIterateRecursively); + + if (iter) { + while ((entry = iter->getNextObject())) { + node = OSDynamicCast(IOService, entry); + if (!node) { + continue; + } + if (OSDynamicCast(IOPowerConnection, node)) { + continue; + } + + if (node->getBlockingDriverCall(thread, &callMethod)) { + nodeFound = true; + break; + } + } + iter->release(); + } + if (nodeFound) { + OSKext *kext = OSKext::lookupKextWithAddress((vm_address_t)callMethod); + if (kext) { + objectName = kext->getIdentifierCString(); + kext->release(); + } + } + } + if (phaseDescription) { + snprintf(failureStr, strLen, "%s while %s.", failureStr, phaseDescription); + } + if (objectName) { + snprintf(failureStr, strLen, "%s Suspected bundle: %s.", failureStr, objectName); + } + if (*thread) { + snprintf(failureStr, strLen, "%s Thread 0x%llx.", failureStr, thread_tid(*thread)); + } + + DLOG("%s\n", failureStr); +} + +struct swd_stackshot_compressed_data { + z_output_func zoutput; + size_t zipped; + uint64_t totalbytes; + uint64_t lastpercent; + IOReturn error; + unsigned outremain; + unsigned outlen; + unsigned writes; + Bytef * outbuf; +}; +struct swd_stackshot_compressed_data swd_zip_var = { }; + +static void * +swd_zs_alloc(void *__unused ref, u_int items, u_int size) +{ + void *result; + LOG("Alloc in zipping %d items of size %d\n", items, size); + + result = (void *)(swd_zs_zmem + swd_zs_zoffset); + swd_zs_zoffset += ~31L & (31 + (items * size)); // 32b align for vector crc + LOG("Offset %zu\n", swd_zs_zoffset); + return result; +} + +static int +swd_zinput(z_streamp strm, Bytef *buf, unsigned size) +{ + unsigned len; + + len = strm->avail_in; + + if (len > size) { + len = size; + } + if (len == 0) { + return 0; + } + + if (strm->next_in != (Bytef *) strm) { + memcpy(buf, strm->next_in, len); + } else { + bzero(buf, len); + } + + strm->adler = z_crc32(strm->adler, buf, len); + + strm->avail_in -= len; + strm->next_in += len; + strm->total_in += len; + + return (int)len; +} + +static int +swd_zoutput(z_streamp strm, Bytef *buf, unsigned len) +{ + unsigned int i = 0; + // if outlen > max size don't add to the buffer + if (strm && buf) { + if (swd_zip_var.outlen + len > SWD_COMPRESSED_BUFSIZE) { + LOG("No space to GZIP... not writing to NVRAM\n"); + return len; + } + } + for (i = 0; i < len; i++) { + *(swd_zip_var.outbuf + swd_zip_var.outlen + i) = *(buf + i); + } + swd_zip_var.outlen += len; + return len; +} +static void +swd_zs_free(void * __unused ref, void * __unused ptr) +{ +} + +static int +swd_compress(char *inPtr, char *outPtr, size_t numBytes) +{ + int wbits = 12; + int memlevel = 3; + + if (!swd_zs.zalloc) { + swd_zs.zalloc = swd_zs_alloc; + swd_zs.zfree = swd_zs_free; + if (deflateInit2(&swd_zs, Z_BEST_SPEED, Z_DEFLATED, wbits + 16, memlevel, Z_DEFAULT_STRATEGY)) { + // allocation failed + bzero(&swd_zs, sizeof(swd_zs)); + // swd_zs_zoffset = 0; + } else { + LOG("PMRD inited the zlib allocation routines\n"); + } + } + + + + swd_zip_var.zipped = 0; + swd_zip_var.totalbytes = 0; // should this be the max that we have? + swd_zip_var.lastpercent = 0; + swd_zip_var.error = kIOReturnSuccess; + swd_zip_var.outremain = 0; + swd_zip_var.outlen = 0; + swd_zip_var.writes = 0; + swd_zip_var.outbuf = (Bytef *)outPtr; + + swd_zip_var.totalbytes = numBytes; + + swd_zs.avail_in = 0; + swd_zs.next_in = NULL; + swd_zs.avail_out = 0; + swd_zs.next_out = NULL; + + deflateResetWithIO(&swd_zs, swd_zinput, swd_zoutput); + + z_stream *zs; + int zr; + zs = &swd_zs; + + zr = Z_OK; + + while (swd_zip_var.error >= 0) { + if (!zs->avail_in) { + zs->next_in = (unsigned char *)inPtr ? (Bytef *)inPtr : (Bytef *)zs; /* zero marker? */ + zs->avail_in = numBytes; + } + if (!zs->avail_out) { + zs->next_out = (Bytef *)zs; + zs->avail_out = UINT32_MAX; + } + zr = deflate(zs, Z_NO_FLUSH); + if (Z_STREAM_END == zr) { + break; + } + if (zr != Z_OK) { + LOG("ZERR %d\n", zr); + swd_zip_var.error = zr; + } else { + if (zs->total_in == numBytes) { + break; + } + } + } + zr = Z_OK; + //now flush the stream + while (swd_zip_var.error >= 0) { + if (!zs->avail_out) { + zs->next_out = (Bytef *)zs; + zs->avail_out = UINT32_MAX; + } + zr = deflate(zs, Z_FINISH); + if (Z_STREAM_END == zr) { + break; + } + if (zr != Z_OK) { + LOG("ZERR %d\n", zr); + swd_zip_var.error = zr; + } else { + if (zs->total_in == numBytes) { + LOG("Total output size %d\n", swd_zip_var.outlen); + break; + } + } + } + + return swd_zip_var.outlen; +} + +void +IOPMrootDomain::deleteStackshot() +{ + if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) { + // takeStackshot hasn't completed + return; + } + LOG("Deleting any sleepwake failure data in nvram\n"); + + PERemoveNVRAMProperty(kIOSleepWakeFailureString); + char nvram_var_name_buf[20]; + for (int i = 0; i < 8; i++) { + snprintf(nvram_var_name_buf, 20, "%s%02d", SWD_STACKSHOT_VAR_PREFIX, i + 1); + if (PERemoveNVRAMProperty(nvram_var_name_buf) == false) { + LOG("Removing %s returned false\n", nvram_var_name_buf); + } + } + // force NVRAM sync + if (PEWriteNVRAMProperty(kIONVRAMSyncNowPropertyKey, kIONVRAMSyncNowPropertyKey, strlen(kIONVRAMSyncNowPropertyKey)) == false) { + DLOG("Failed to force nvram sync\n"); + } + gRootDomain->swd_lock = 0; +} +void +IOPMrootDomain::takeStackshot(bool wdogTrigger) +{ + swd_hdr * hdr = NULL; + int cnt = 0; + int max_cnt = 2; + pid_t pid = 0; + kern_return_t kr = KERN_SUCCESS; + uint32_t flags; + + char * dstAddr; + uint32_t size; + uint32_t bytesRemaining; + unsigned bytesWritten = 0; + + char failureStr[512]; + thread_t thread = NULL; + const char * swfPanic = "swfPanic"; + + + uint32_t bufSize; + int success = 0; + + if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) { + return; + } + + failureStr[0] = 0; + if ((kIOSleepWakeWdogOff & gIOKitDebug) || systemBooting || systemShutdown || gWillShutdown) { + return; + } + + if (wdogTrigger) { + getFailureData(&thread, failureStr, sizeof(failureStr)); + + if (PEGetCoprocessorVersion() >= kCoprocessorVersion2) { + goto skip_stackshot; + } + } else { + AbsoluteTime now; + uint64_t nsec; + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &gIOLastWakeAbsTime); + absolutetime_to_nanoseconds(now, &nsec); + snprintf(failureStr, sizeof(failureStr), "%sPower button pressed during wake transition after %u ms.\n", failureStr, ((int)((nsec) / NSEC_PER_MSEC))); + } + + if (swd_buffer == NULL) { + sleepWakeDebugMemAlloc(); + if (swd_buffer == NULL) { + return; + } + } + hdr = (swd_hdr *)swd_buffer; + bufSize = hdr->alloc_size;; + + + + + dstAddr = (char*)hdr + hdr->spindump_offset; + flags = STACKSHOT_KCDATA_FORMAT | STACKSHOT_NO_IO_STATS | STACKSHOT_SAVE_KEXT_LOADINFO | STACKSHOT_ACTIVE_KERNEL_THREADS_ONLY | STACKSHOT_THREAD_WAITINFO; + /* If not wdogTrigger only take kernel tasks stackshot + */ + if (wdogTrigger) { + pid = -1; + } else { + pid = 0; + } + + /* Attempt to take stackshot with all ACTIVE_KERNEL_THREADS + * If we run out of space, take stackshot with only kernel task + */ + while (success == 0 && cnt < max_cnt) { + bytesRemaining = bufSize - hdr->spindump_offset; + cnt++; + DLOG("Taking snapshot. bytesRemaining: %d\n", bytesRemaining); + + size = bytesRemaining; + kr = stack_snapshot_from_kernel(pid, dstAddr, size, flags, 0, &bytesWritten); + DLOG("stack_snapshot_from_kernel returned 0x%x. pid: %d bufsize:0x%x flags:0x%x bytesWritten: %d\n", + kr, pid, size, flags, bytesWritten); + if (kr == KERN_INSUFFICIENT_BUFFER_SIZE) { + if (pid == -1) { + pid = 0; + } else { + LOG("Insufficient buffer size for only kernel task\n"); + break; + } + } + if (kr == KERN_SUCCESS) { + if (bytesWritten == 0) { + MSG("Failed to get stackshot(0x%x) bufsize:0x%x flags:0x%x\n", kr, size, flags); + continue; + } + bytesRemaining -= bytesWritten; + hdr->spindump_size = (bufSize - bytesRemaining - hdr->spindump_offset); + + memset(hdr->reason, 0x20, sizeof(hdr->reason)); + + // Compress stackshot and save to NVRAM + { + char *outbuf = (char *)swd_compressed_buffer; + int outlen = 0; + int num_chunks = 0; + int max_chunks = 0; + int leftover = 0; + char nvram_var_name_buffer[20]; + + outlen = swd_compress((char*)hdr + hdr->spindump_offset, outbuf, bytesWritten); + + if (outlen) { + max_chunks = outlen / (2096 - 200); + leftover = outlen % (2096 - 200); + + if (max_chunks < 8) { + for (num_chunks = 0; num_chunks < max_chunks; num_chunks++) { + snprintf(nvram_var_name_buffer, 20, "%s%02d", SWD_STACKSHOT_VAR_PREFIX, num_chunks + 1); + if (PEWriteNVRAMPropertyWithCopy(nvram_var_name_buffer, (outbuf + (num_chunks * (2096 - 200))), (2096 - 200)) == FALSE) { + LOG("Failed to update NVRAM %d\n", num_chunks); + break; + } + } + if (leftover) { + snprintf(nvram_var_name_buffer, 20, "%s%02d", SWD_STACKSHOT_VAR_PREFIX, num_chunks + 1); + if (PEWriteNVRAMPropertyWithCopy(nvram_var_name_buffer, (outbuf + (num_chunks * (2096 - 200))), leftover) == FALSE) { + LOG("Failed to update NVRAM with leftovers\n"); + } + } + success = 1; + LOG("Successfully saved stackshot to NVRAM\n"); + } else { + LOG("Compressed failure stackshot is too large. size=%d bytes\n", outlen); + if (pid == -1) { + pid = 0; + } else { + LOG("Compressed failure stackshot of only kernel is too large size=%d bytes\n", outlen); + break; + } + } + } + } + } + } + + if (failureStr[0]) { + // append sleep-wake failure code + snprintf(failureStr, sizeof(failureStr), "%s\nFailure code:: 0x%08x %08x\n", + failureStr, pmTracer->getTraceData(), pmTracer->getTracePhase()); + if (PEWriteNVRAMProperty(kIOSleepWakeFailureString, failureStr, strlen(failureStr)) == false) { + DLOG("Failed to write SleepWake failure string\n"); + } + } + + // force NVRAM sync + if (PEWriteNVRAMProperty(kIONVRAMSyncNowPropertyKey, kIONVRAMSyncNowPropertyKey, strlen(kIONVRAMSyncNowPropertyKey)) == false) { + DLOG("Failed to force nvram sync\n"); + } + +skip_stackshot: + if (wdogTrigger) { + if (PEGetCoprocessorVersion() < kCoprocessorVersion2) { + if (swd_flags & SWD_BOOT_BY_SW_WDOG) { + // If current boot is due to this watch dog trigger restart in previous boot, + // then don't trigger again until at least 1 successful sleep & wake. + if (!(sleepCnt && (displayWakeCnt || darkWakeCnt))) { + LOG("Shutting down due to repeated Sleep/Wake failures\n"); + if (!tasksSuspended) { + tasksSuspended = TRUE; + updateTasksSuspend(); + } + PEHaltRestart(kPEHaltCPU); + return; + } + } + if (gSwdPanic == 0) { + LOG("Calling panic prevented by swd_panic boot-args. Calling restart"); + if (!tasksSuspended) { + tasksSuspended = TRUE; + updateTasksSuspend(); + } + PEHaltRestart(kPERestartCPU); + } + } + if (PEWriteNVRAMProperty(kIOSleepWakeFailurePanic, swfPanic, strlen(swfPanic)) == false) { + DLOG("Failed to write SleepWake failure panic key\n"); + } + if (thread) { + panic_with_thread_context(0, NULL, DEBUGGER_OPTION_ATTEMPTCOREDUMPANDREBOOT, thread, "%s", failureStr); + } else { + panic_with_options(0, NULL, DEBUGGER_OPTION_ATTEMPTCOREDUMPANDREBOOT, "%s", failureStr); + } + } else { + gRootDomain->swd_lock = 0; + return; + } +} + +void +IOPMrootDomain::sleepWakeDebugMemAlloc() +{ + vm_size_t size = SWD_STACKSHOT_SIZE + SWD_COMPRESSED_BUFSIZE + SWD_ZLIB_BUFSIZE; + + swd_hdr *hdr = NULL; + void *bufPtr = NULL; + + IOBufferMemoryDescriptor *memDesc = NULL; + + + if (kIOSleepWakeWdogOff & gIOKitDebug) { + return; + } + + if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) { + return; + } + + memDesc = IOBufferMemoryDescriptor::inTaskWithOptions( + kernel_task, kIODirectionIn | kIOMemoryMapperNone, + size); + if (memDesc == NULL) { + DLOG("Failed to allocate Memory descriptor for sleepWake debug\n"); + goto exit; + } + + bufPtr = memDesc->getBytesNoCopy(); + + // Carve out memory for zlib routines + swd_zs_zmem = (vm_offset_t)bufPtr; + bufPtr = (char *)bufPtr + SWD_ZLIB_BUFSIZE; + + // Carve out memory for compressed stackshots + swd_compressed_buffer = bufPtr; + bufPtr = (char *)bufPtr + SWD_COMPRESSED_BUFSIZE; + + // Remaining is used for holding stackshot + hdr = (swd_hdr *)bufPtr; + memset(hdr, 0, sizeof(swd_hdr)); + + hdr->signature = SWD_HDR_SIGNATURE; + hdr->alloc_size = SWD_STACKSHOT_SIZE; + + hdr->spindump_offset = sizeof(swd_hdr); + swd_buffer = (void *)hdr; + swd_memDesc = memDesc; + DLOG("SleepWake debug buffer size:0x%x spindump offset:0x%x\n", hdr->alloc_size, hdr->spindump_offset); + +exit: + gRootDomain->swd_lock = 0; +} + +void +IOPMrootDomain::sleepWakeDebugSpinDumpMemAlloc() +{ + vm_size_t size = SWD_SPINDUMP_SIZE; + + swd_hdr *hdr = NULL; + + IOBufferMemoryDescriptor *memDesc = NULL; + + if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) { + return; + } + + memDesc = IOBufferMemoryDescriptor::inTaskWithOptions( + kernel_task, kIODirectionIn | kIOMemoryMapperNone, + SWD_SPINDUMP_SIZE); + + if (memDesc == NULL) { + DLOG("Failed to allocate Memory descriptor for sleepWake debug spindump\n"); + goto exit; + } + + + hdr = (swd_hdr *)memDesc->getBytesNoCopy(); + memset(hdr, 0, sizeof(swd_hdr)); + + hdr->signature = SWD_HDR_SIGNATURE; + hdr->alloc_size = size; + + hdr->spindump_offset = sizeof(swd_hdr); + swd_spindump_buffer = (void *)hdr; + +exit: + gRootDomain->swd_lock = 0; +} + +void +IOPMrootDomain::sleepWakeDebugEnableWdog() +{ +} + +bool +IOPMrootDomain::sleepWakeDebugIsWdogEnabled() +{ + return !systemBooting && !systemShutdown && !gWillShutdown; +} + +void +IOPMrootDomain::sleepWakeDebugSaveSpinDumpFile() +{ + swd_hdr *hdr = NULL; + errno_t error = EIO; + + if (swd_spindump_buffer && gSpinDumpBufferFull) { + hdr = (swd_hdr *)swd_spindump_buffer; + + error = sleepWakeDebugSaveFile("/var/tmp/SleepWakeDelayStacks.dump", + (char*)hdr + hdr->spindump_offset, hdr->spindump_size); + + if (error) { + return; + } + + sleepWakeDebugSaveFile("/var/tmp/SleepWakeDelayLog.dump", + (char*)hdr + offsetof(swd_hdr, UUID), + sizeof(swd_hdr) - offsetof(swd_hdr, UUID)); + + gSpinDumpBufferFull = false; + } +} + +errno_t +IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len) +{ + struct vnode *vp = NULL; + vfs_context_t ctx = vfs_context_create(vfs_context_current()); + kauth_cred_t cred = vfs_context_ucred(ctx); + struct vnode_attr va; + errno_t error = EIO; + + if (vnode_open(name, (O_CREAT | FWRITE | O_NOFOLLOW), + S_IRUSR | S_IRGRP | S_IROTH, VNODE_LOOKUP_NOFOLLOW, &vp, ctx) != 0) { + LOG("Failed to open the file %s\n", name); + swd_flags |= SWD_FILEOP_ERROR; + goto exit; + } + VATTR_INIT(&va); + VATTR_WANTED(&va, va_nlink); + /* Don't dump to non-regular files or files with links. */ + if (vp->v_type != VREG || + vnode_getattr(vp, &va, ctx) || va.va_nlink != 1) { + LOG("Bailing as this is not a regular file\n"); + swd_flags |= SWD_FILEOP_ERROR; + goto exit; + } + VATTR_INIT(&va); + VATTR_SET(&va, va_data_size, 0); + vnode_setattr(vp, &va, ctx); + + + if (buf != NULL) { + error = vn_rdwr(UIO_WRITE, vp, buf, len, 0, + UIO_SYSSPACE, IO_NODELOCKED | IO_UNIT, cred, (int *) NULL, vfs_context_proc(ctx)); + if (error != 0) { + LOG("Failed to save sleep wake log. err 0x%x\n", error); + swd_flags |= SWD_FILEOP_ERROR; + } else { + DLOG("Saved %d bytes to file %s\n", len, name); + } + } + +exit: + if (vp) { + vnode_close(vp, FWRITE, ctx); + } + if (ctx) { + vfs_context_rele(ctx); + } + + return error; +} + + +#else + +void +IOPMrootDomain::sleepWakeDebugTrig(bool restart) +{ + if (restart) { + if (gSwdPanic == 0) { + return; + } + panic("Sleep/Wake hang detected"); + return; + } +} + +void +IOPMrootDomain::takeStackshot(bool restart) +{ +#pragma unused(restart) +} +void +IOPMrootDomain::deleteStackshot() +{ +} +void +IOPMrootDomain::sleepWakeDebugMemAlloc() +{ +} +void +IOPMrootDomain::saveFailureData2File() +{ +} + +void +IOPMrootDomain::sleepWakeDebugEnableWdog() +{ +} + +bool +IOPMrootDomain::sleepWakeDebugIsWdogEnabled() +{ + return false; +} + +errno_t +IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len) +{ + return 0; +} + +#endif +