/*
- * Copyright (c) 1998-2008 Apple Inc. All rights reserved.
+ * Copyright (c) 1998-2019 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_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
* unlawful or unlicensed copies of an Apple operating system, or to
* circumvent, violate, or enable the circumvention or violation of, any
* terms of an Apple operating system software license agreement.
- *
+ *
* Please obtain a copy of the License at
* http://www.opensource.apple.com/apsl/ and read it before using this file.
- *
+ *
* The Original Code and all software distributed under the License are
* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
* 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_OSREFERENCE_LICENSE_HEADER_END@
*/
#include <libkern/c++/OSKext.h>
#include <libkern/OSDebug.h>
#include <IOKit/IOWorkLoop.h>
#include <IOKit/IOCommandGate.h>
+#include <IOKit/IOTimerEventSource.h>
#include <IOKit/IOPlatformExpert.h>
#include <IOKit/IOCPU.h>
#include <IOKit/IOKitDebug.h>
#include "IOPMPowerStateQueue.h"
#include <IOKit/IOCatalogue.h>
#include <IOKit/IOReportMacros.h>
+#include <IOKit/IOLib.h>
+#include <IOKit/IOKitKeys.h>
#include "IOKitKernelInternal.h"
#if HIBERNATION
#include <IOKit/IOHibernatePrivate.h>
#include <sys/vnode.h>
#include <sys/vnode_internal.h>
#include <sys/fcntl.h>
+#include <os/log.h>
+#include <pexpert/protos.h>
+#include <AssertMacros.h>
#include <sys/time.h>
#include "IOServicePrivate.h" // _IOServiceInterestNotifier
#include "IOServicePMPrivate.h"
+#include <libkern/zlib.h>
+
__BEGIN_DECLS
#include <mach/shared_region.h>
#include <kern/clock.h>
#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 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
+
#define DLOG(x...) do { \
if (kIOLogPMRootDomain & gIOKitDebug) \
- kprintf(LOG_PREFIX x); \
+ 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); IOLog(x); \
+ kprintf(LOG_PREFIX x); \
} \
} while (false)
#define CHECK_THREAD_CONTEXT
#ifdef CHECK_THREAD_CONTEXT
-static IOWorkLoop * gIOPMWorkLoop = 0;
+static IOWorkLoop * gIOPMWorkLoop = NULL;
#define ASSERT_GATED() \
do { \
if (gIOPMWorkLoop && gIOPMWorkLoop->inGate() != true) { \
- panic("RootDomain: not inside PM gate"); \
+ panic("RootDomain: not inside PM gate"); \
} \
} while(false)
#else
#endif /* CHECK_THREAD_CONTEXT */
#define CAP_LOSS(c) \
- (((_pendingCapability & (c)) == 0) && \
- ((_currentCapability & (c)) != 0))
+ (((_pendingCapability & (c)) == 0) && \
+ ((_currentCapability & (c)) != 0))
#define CAP_GAIN(c) \
- (((_currentCapability & (c)) == 0) && \
- ((_pendingCapability & (c)) != 0))
+ (((_currentCapability & (c)) == 0) && \
+ ((_pendingCapability & (c)) != 0))
#define CAP_CHANGE(c) \
- (((_currentCapability ^ _pendingCapability) & (c)) != 0)
+ (((_currentCapability ^ _pendingCapability) & (c)) != 0)
#define CAP_CURRENT(c) \
- ((_currentCapability & (c)) != 0)
+ ((_currentCapability & (c)) != 0)
#define CAP_HIGHEST(c) \
- ((_highestCapability & (c)) != 0)
+ ((_highestCapability & (c)) != 0)
#if defined(__i386__) || defined(__x86_64__)
#define DARK_TO_FULL_EVALUATE_CLAMSHELL 1
// 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
+ 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
};
// 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
+ kStimulusDisplayWranglerSleep, // 0
+ kStimulusDisplayWranglerWake, // 1
+ kStimulusAggressivenessChanged, // 2
+ kStimulusDemandSystemSleep, // 3
+ kStimulusAllowSystemSleepChanged, // 4
+ kStimulusDarkWakeActivityTickle, // 5
+ kStimulusDarkWakeEntry, // 6
+ kStimulusDarkWakeReentry, // 7
+ kStimulusDarkWakeEvaluate, // 8
+ kStimulusNoIdleSleepPreventers, // 9
+ kStimulusEnterUserActiveState, // 10
+ kStimulusLeaveUserActiveState // 11
};
extern "C" {
}
extern "C" ppnum_t pmap_find_phys(pmap_t pmap, addr64_t va);
extern "C" addr64_t kvtophys(vm_offset_t va);
-extern "C" int stack_snapshot_from_kernel(pid_t pid, void *buf, uint32_t size, uint32_t flags, unsigned *bytesTraced);
+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;
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 25 // in milliseconds
+#define kDefaultWranglerIdlePeriod 1000 // in milliseconds
-#define kIOSleepWakeDebugKey "Persistent-memory-note"
+#define kIOSleepWakeFailureString "SleepWakeFailureString"
+#define kIOEFIBootRomFailureKey "wake-failure"
+#define kIOSleepWakeFailurePanic "SleepWakeFailurePanic"
#define kRD_AllPowerSources (kIOPMSupportedOnAC \
- | kIOPMSupportedOnBatt \
- | kIOPMSupportedOnUPS)
+ | kIOPMSupportedOnBatt \
+ | kIOPMSupportedOnUPS)
#define kLocalEvalClamshellCommand (1 << 15)
#define kIdleSleepRetryInterval (3 * 60)
enum {
- kWranglerPowerStateMin = 0,
- kWranglerPowerStateSleep = 2,
- kWranglerPowerStateDim = 3,
- kWranglerPowerStateMax = 4
+ kWranglerPowerStateMin = 0,
+ kWranglerPowerStateSleep = 2,
+ kWranglerPowerStateDim = 3,
+ kWranglerPowerStateMax = 4
};
enum {
- OFF_STATE = 0,
- RESTART_STATE = 1,
- SLEEP_STATE = 2,
- ON_STATE = 3,
- NUM_POWER_STATES
+ 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);
+}
+
#define ON_POWER kIOPMPowerOn
#define RESTART_POWER kIOPMRestart
#define SLEEP_POWER kIOPMAuxPowerOn
-static IOPMPowerState ourPowerStates[NUM_POWER_STATES] =
-{
- {1, 0, 0, 0, 0,0,0,0,0,0,0,0},
- {1, kIOPMRestartCapability, kIOPMRestart, RESTART_POWER, 0,0,0,0,0,0,0,0},
- {1, kIOPMSleepCapability, kIOPMSleep, SLEEP_POWER, 0,0,0,0,0,0,0,0},
- {1, kIOPMPowerOn, kIOPMPowerOn, ON_POWER, 0,0,0,0,0,0,0,0}
+static IOPMPowerState
+ ourPowerStates[NUM_POWER_STATES] =
+{
+ { .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 kIOPMSystemCapabilityInterest "IOPMSystemCapabilityInterest"
+// Entitlement required for root domain clients
+#define kRootDomainEntitlementSetProperty "com.apple.private.iokit.rootdomain-set-property"
+
#define WAKEEVENT_LOCK() IOLockLock(wakeEventLock)
#define WAKEEVENT_UNLOCK() IOLockUnlock(wakeEventLock)
#define kAggressivesMinValue 1
+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);
+}
+
enum {
- kAggressivesStateBusy = 0x01,
- kAggressivesStateQuickSpindown = 0x02
+ kAggressivesStateBusy = 0x01,
+ kAggressivesStateQuickSpindown = 0x02
};
struct AggressivesRecord {
- uint32_t flags;
- uint32_t type;
- uint32_t value;
+ uint32_t flags;
+ uint32_t type;
+ uint32_t value;
};
struct AggressivesRequest {
- queue_chain_t chain;
- uint32_t options;
- uint32_t dataType;
- union {
- IOService * service;
- AggressivesRecord record;
- } data;
+ queue_chain_t chain;
+ uint32_t options;
+ uint32_t dataType;
+ union {
+ IOService * service;
+ AggressivesRecord record;
+ } data;
+};
+
+enum {
+ kAggressivesRequestTypeService = 1,
+ kAggressivesRequestTypeRecord
};
enum {
- kAggressivesRequestTypeService = 1,
- kAggressivesRequestTypeRecord
+ kAggressivesOptionSynchronous = 0x00000001,
+ kAggressivesOptionQuickSpindownEnable = 0x00000100,
+ kAggressivesOptionQuickSpindownDisable = 0x00000200,
+ kAggressivesOptionQuickSpindownMask = 0x00000300
};
enum {
- kAggressivesOptionSynchronous = 0x00000001,
- kAggressivesOptionQuickSpindownEnable = 0x00000100,
- kAggressivesOptionQuickSpindownDisable = 0x00000200,
- kAggressivesOptionQuickSpindownMask = 0x00000300
+ kAggressivesRecordFlagModified = 0x00000001,
+ kAggressivesRecordFlagMinValue = 0x00000002
};
+// System Sleep Preventers
+
enum {
- kAggressivesRecordFlagModified = 0x00000001,
- kAggressivesRecordFlagMinValue = 0x00000002
+ kPMUserDisabledAllSleep = 1,
+ kPMSystemRestartBootingInProgress,
+ kPMConfigPreventSystemSleep,
+ kPMChildPreventSystemSleep,
+ kPMCPUAssertion,
+ kPMPCIUnsupported,
};
+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
+ 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 IOPMrootDomain * gRootDomain;
-static IONotifier * gSysPowerDownNotifier = 0;
+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
+
#if HIBERNATION
-static IOPMSystemSleepPolicyHandler gSleepPolicyHandler = 0;
-static IOPMSystemSleepPolicyVariables * gSleepPolicyVars = 0;
+static IOPMSystemSleepPolicyHandler gSleepPolicyHandler = NULL;
+static IOPMSystemSleepPolicyVariables * gSleepPolicyVars = NULL;
static void * gSleepPolicyTarget;
#endif
struct timeval gIOLastSleepTime;
struct timeval gIOLastWakeTime;
+struct timeval gIOLastUserSleepTime;
+
static char gWakeReasonString[128];
static bool gWakeReasonSysctlRegistered = false;
+static AbsoluteTime gIOLastWakeAbsTime;
+static AbsoluteTime gIOLastSleepAbsTime;
+static AbsoluteTime gUserActiveAbsTime;
+static AbsoluteTime gUserInactiveAbsTime;
#if defined(__i386__) || defined(__x86_64__)
static bool gSpinDumpBufferFull = false;
#endif
+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 = 0;
-static OSArray * gPMHaltArray = 0;
-static const OSSymbol * gPMHaltClientAcknowledgeKey = 0;
+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
+ kInformAC = 0,
+ kInformLid = 1,
+ kInformableCount = 2
};
-const OSSymbol *gIOPMStatsApplicationResponseTimedOut;
-const OSSymbol *gIOPMStatsApplicationResponseCancel;
-const OSSymbol *gIOPMStatsApplicationResponseSlow;
-const OSSymbol *gIOPMStatsApplicationResponsePrompt;
+const OSSymbol *gIOPMStatsResponseTimedOut;
+const OSSymbol *gIOPMStatsResponseCancel;
+const OSSymbol *gIOPMStatsResponseSlow;
+const OSSymbol *gIOPMStatsResponsePrompt;
const OSSymbol *gIOPMStatsDriverPSChangeSlow;
#define kBadPMFeatureID 0
*/
class PMSettingHandle : public OSObject
{
- OSDeclareFinalStructors( PMSettingHandle )
- friend class PMSettingObject;
+ OSDeclareFinalStructors( PMSettingHandle );
+ friend class PMSettingObject;
private:
- PMSettingObject *pmso;
- void free(void) APPLE_KEXT_OVERRIDE;
+ PMSettingObject *pmso;
+ void free(void) APPLE_KEXT_OVERRIDE;
};
/*
*/
class PMSettingObject : public OSObject
{
- OSDeclareFinalStructors( PMSettingObject )
- friend class IOPMrootDomain;
+ 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;
+ 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;
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);
+ 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);
};
struct PMSettingCallEntry {
- queue_chain_t link;
- thread_t thread;
+ queue_chain_t link;
+ thread_t thread;
};
#define PMSETTING_LOCK() IOLockLock(settingsCtrlLock)
*/
typedef void (*IOPMTracePointHandler)(
- void * target, uint32_t code, uint32_t data );
+ void * target, uint32_t code, uint32_t data );
class PMTraceWorker : public OSObject
{
- OSDeclareDefaultStructors(PMTraceWorker)
+ 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 tracePoint(uint8_t phase, uint8_t data8);
- void traceDetail(uint32_t detail);
- void traceLoginWindowPhase(uint8_t phase);
- int recordTopLevelPCIDevice(IOService *);
- void RTC_TRACE(void);
- virtual bool serialize(OSSerialize *s) const APPLE_KEXT_OVERRIDE;
-
- IOPMTracePointHandler tracePointHandler;
- void * tracePointTarget;
- uint64_t getPMStatusCode();
+ 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 *pciMappingLock;
- OSArray *pciDeviceBitMappings;
-
- uint8_t addedToRegistry;
- uint8_t tracePhase;
- uint8_t loginWindowPhase;
- uint8_t traceData8;
- uint32_t traceData32;
+ IOPMrootDomain *owner;
+ IOLock *pmTraceWorkerLock;
+ OSArray *pciDeviceBitMappings;
+
+ uint8_t addedToRegistry;
+ uint8_t tracePhase;
+ uint32_t traceData32;
+ uint8_t loginWindowData;
+ uint8_t coreDisplayData;
+ uint8_t coreGraphicsData;
};
/*
*/
class PMAssertionsTracker : public OSObject
{
- OSDeclareFinalStructors(PMAssertionsTracker)
+ OSDeclareFinalStructors(PMAssertionsTracker);
public:
- static PMAssertionsTracker *pmAssertionsTracker( IOPMrootDomain * );
+ static PMAssertionsTracker *pmAssertionsTracker( IOPMrootDomain * );
- IOReturn createAssertion(IOPMDriverAssertionType, IOPMDriverAssertionLevel, IOService *, const char *, IOPMDriverAssertionID *);
- IOReturn releaseAssertion(IOPMDriverAssertionID);
- IOReturn setAssertionLevel(IOPMDriverAssertionID, IOPMDriverAssertionLevel);
- IOReturn setUserAssertionLevels(IOPMDriverAssertionType);
+ 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);
+ 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);
+ IOReturn handleCreateAssertion(OSData *);
+ IOReturn handleReleaseAssertion(IOPMDriverAssertionID);
+ IOReturn handleSetAssertionLevel(IOPMDriverAssertionID, IOPMDriverAssertionLevel);
+ IOReturn handleSetUserAssertionLevels(void * arg0);
+ void publishProperties(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;
+ 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);
class PMHaltWorker : public OSObject
{
- OSDeclareFinalStructors( PMHaltWorker )
+ OSDeclareFinalStructors( PMHaltWorker );
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;
+ 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;
};
OSDefineMetaClassAndFinalStructors( PMHaltWorker, OSObject )
#define super IOService
OSDefineMetaClassAndFinalStructors(IOPMrootDomain, IOService)
-static void IOPMRootDomainWillShutdown(void)
-{
- if (OSCompareAndSwap(0, 1, &gWillShutdown))
- {
- OSKext::willShutdown();
- for (int i = 0; i < 100; i++)
- {
- if (OSCompareAndSwap(0, 1, &gSleepOrShutdownPending)) break;
- IOSleep( 100 );
- }
- }
-}
-
-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)
- {
- IOPMRootDomainWillShutdown();
-#if HIBERNATION
- IOHibernateSystemPostWake();
-#endif
- if (OSCompareAndSwap(0, 1, &gPagingOff))
- {
- gRootDomain->handlePlatformHaltRestart(kPEPagingOff);
- }
- }
+boolean_t
+IOPMRootDomainGetWillShutdown(void)
+{
+ return gWillShutdown != 0;
+}
- int sync_internal(void);
+static void
+IOPMRootDomainWillShutdown(void)
+{
+ if (OSCompareAndSwap(0, 1, &gWillShutdown)) {
+ IOService::willShutdown();
+ for (int i = 0; i < 100; i++) {
+ if (OSCompareAndSwap(0, 1, &gSleepOrShutdownPending)) {
+ break;
+ }
+ IOSleep( 100 );
+ }
+ }
}
-/*
-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().
+extern "C" IONotifier *
+registerSleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref)
+{
+ return gRootDomain->registerInterest( gIOGeneralInterest, handler, self, ref );
+}
+
+extern "C" IONotifier *
+registerPrioritySleepWakeInterest(IOServiceInterestHandler handler, void * self, void * ref)
+{
+ return gRootDomain->registerInterest( gIOPriorityPowerStateInterest, handler, self, ref );
+}
+
+extern "C" IOReturn
+acknowledgeSleepWakeNotification(void * PMrefcon)
+{
+ return gRootDomain->allowPowerChange((unsigned long)PMrefcon );
+}
+
+extern "C" IOReturn
+vetoSleepWakeNotification(void * PMrefcon)
+{
+ return gRootDomain->cancelPowerChange((unsigned long)PMrefcon );
+}
+
+extern "C" IOReturn
+rootDomainRestart( void )
+{
+ return gRootDomain->restartSystem();
+}
+
+extern "C" IOReturn
+rootDomainShutdown( void )
+{
+ return gRootDomain->shutdownSystem();
+}
+
+static void
+halt_log_putc(char c)
+{
+ if (gHaltLogPos >= (kHaltLogSize - 2)) {
+ return;
+ }
+ gHaltLog[gHaltLogPos++] = c;
+}
+
+extern "C" void
+_doprnt_log(const char *fmt,
+ va_list *argp,
+ void (*putc)(char),
+ int radix);
+
+static int
+halt_log(const char *fmt, ...)
+{
+ va_list listp;
+
+ va_start(listp, fmt);
+ _doprnt_log(fmt, &listp, &halt_log_putc, 16);
+ va_end(listp);
+
+ return 0;
+}
+
+extern "C" void
+halt_log_enter(const char * what, const void * pc, uint64_t time)
+{
+ uint64_t nano, millis;
+
+ if (!gHaltLog) {
+ return;
+ }
+ absolutetime_to_nanoseconds(time, &nano);
+ millis = nano / NSEC_PER_MSEC;
+ if (millis < 100) {
+ return;
+ }
+
+ 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;
+
+extern "C" void
+IOSystemShutdownNotification(int stage)
+{
+ 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;
+ }
-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.
+ assert(kIOSystemShutdownNotificationStageProcessExit == stage);
-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.
+ IOLockLock(gHaltLogLock);
+ if (!gHaltLog) {
+ gHaltLog = IONew(char, kHaltLogSize);
+ gHaltStartTime = mach_absolute_time();
+ if (gHaltLog) {
+ halt_log_putc('\n');
+ }
+ }
+ IOLockUnlock(gHaltLogLock);
-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.
+ 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);
+ }
+}
-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.
+extern "C" int sync_internal(void);
-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.
-*/
+/*
+ * 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 *
+IOPMrootDomain::construct( void )
{
- IOPMrootDomain *root;
+ IOPMrootDomain *root;
- root = new IOPMrootDomain;
- if( root)
- root->init();
+ root = new IOPMrootDomain;
+ if (root) {
+ root->init();
+ }
- return( root );
+ return root;
}
//******************************************************************************
//
//******************************************************************************
-static void updateConsoleUsersCallout(thread_call_param_t p0, thread_call_param_t p1)
+static void
+updateConsoleUsersCallout(thread_call_param_t p0, thread_call_param_t p1)
{
- IOService::updateConsoleUsers(NULL, kIOMessageSystemHasPoweredOn);
+ IOPMrootDomain * rootDomain = (IOPMrootDomain *) p0;
+ rootDomain->updateConsoleUsers();
}
-//******************************************************************************
-
-static void disk_sync_callout( thread_call_param_t p0, thread_call_param_t p1 )
+void
+IOPMrootDomain::updateConsoleUsers(void)
{
- IOService * rootDomain = (IOService *) p0;
- uint32_t notifyRef = (uint32_t)(uintptr_t) p1;
- uint32_t powerState = rootDomain->getPowerState();
-
- DLOG("disk_sync_callout ps=%u\n", powerState);
-
- if (ON_STATE == powerState)
- {
- sync_internal();
- }
-#if HIBERNATION
- else
- {
- IOHibernateSystemPostWake();
+ IOService::updateConsoleUsers(NULL, kIOMessageSystemHasPoweredOn);
+ if (tasksSuspended) {
+ tasksSuspended = FALSE;
+ updateTasksSuspend();
+ }
+}
- if (gRootDomain)
- gRootDomain->sleepWakeDebugSaveSpinDumpFile();
- }
-#endif
+void
+IOPMrootDomain::updateTasksSuspend(void)
+{
+ bool newSuspend;
- rootDomain->allowPowerChange(notifyRef);
- DLOG("disk_sync_callout finish\n");
+#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);
}
//******************************************************************************
-static void hib_debugSetup_callout( thread_call_param_t p0, thread_call_param_t p1 )
+static void
+disk_sync_callout( thread_call_param_t p0, thread_call_param_t p1 )
{
- IOService * rootDomain = (IOService *) p0;
- uint32_t notifyRef = (uint32_t)(uintptr_t) p1;
+ IOService * rootDomain = (IOService *) p0;
+ uint32_t notifyRef = (uint32_t)(uintptr_t) p1;
+ uint32_t powerState = rootDomain->getPowerState();
+
+ DLOG("disk_sync_callout ps=%u\n", powerState);
+
+ 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 HIBERNATION
- IOOpenDebugDataFile(kSleepWakeStackBinFilename, SWD_BUF_SIZE);
+ if (gRootDomain) {
+ gRootDomain->sleepWakeDebugSaveSpinDumpFile();
+ }
+ }
#endif
- rootDomain->allowPowerChange(notifyRef);
- DLOG("hib_debugSetup_callout finish\n");
+ rootDomain->allowPowerChange(notifyRef);
+ DLOG("disk_sync_callout finish\n");
}
-//******************************************************************************
-static UInt32 computeDeltaTimeMS( const AbsoluteTime * startTime )
+//******************************************************************************
+static UInt32
+computeDeltaTimeMS( const AbsoluteTime * startTime, AbsoluteTime * elapsedTime )
{
- AbsoluteTime endTime;
- UInt64 nano = 0;
+ AbsoluteTime endTime;
+ UInt64 nano = 0;
- clock_get_uptime(&endTime);
- if (CMP_ABSOLUTETIME(&endTime, startTime) > 0)
- {
- SUB_ABSOLUTETIME(&endTime, startTime);
- absolutetime_to_nanoseconds(endTime, &nano);
- }
+ 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 / 1000000ULL);
+ return (UInt32)(nano / NSEC_PER_MSEC);
}
//******************************************************************************
static int
sysctl_sleepwaketime SYSCTL_HANDLER_ARGS
{
- 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);
- }
+ 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);
+ }
}
static SYSCTL_PROC(_kern, OID_AUTO, sleeptime,
- CTLTYPE_STRUCT | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
- &gIOLastSleepTime, 0, sysctl_sleepwaketime, "S,timeval", "");
+ 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", "");
+ CTLTYPE_STRUCT | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ &gIOLastWakeTime, 0, sysctl_sleepwaketime, "S,timeval", "");
+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, "");
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);
+ 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,
- 0, 0, sysctl_willshutdown, "I", "");
+ CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ NULL, 0, sysctl_willshutdown, "I", "");
extern struct sysctl_oid sysctl__kern_iokittest;
+extern struct sysctl_oid sysctl__debug_iokit;
+#if !CONFIG_EMBEDDED
static int
sysctl_progressmeterenable
(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req)
{
- int error;
- int new_value, changed;
+ int error;
+ int new_value, changed;
- error = sysctl_io_number(req, vc_progressmeter_enable, sizeof(int), &new_value, &changed);
+ error = sysctl_io_number(req, vc_progressmeter_enable, sizeof(int), &new_value, &changed);
- if (changed) vc_enable_progressmeter(new_value);
+ if (changed) {
+ vc_enable_progressmeter(new_value);
+ }
- return (error);
+ return error;
}
static int
sysctl_progressmeter
(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req)
{
- int error;
- int new_value, changed;
+ int error;
+ int new_value, changed;
- error = sysctl_io_number(req, vc_progressmeter_value, sizeof(int), &new_value, &changed);
+ error = sysctl_io_number(req, vc_progressmeter_value, sizeof(int), &new_value, &changed);
- if (changed) vc_set_progressmeter(new_value);
+ if (changed) {
+ vc_set_progressmeter(new_value);
+ }
- return (error);
+ return error;
}
static SYSCTL_PROC(_kern, OID_AUTO, progressmeterenable,
- CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
- 0, 0, sysctl_progressmeterenable, "I", "");
+ CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ NULL, 0, sysctl_progressmeterenable, "I", "");
static SYSCTL_PROC(_kern, OID_AUTO, progressmeter,
- CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
- 0, 0, sysctl_progressmeter, "I", "");
+ CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ NULL, 0, sysctl_progressmeter, "I", "");
+#endif /* !CONFIG_EMBEDDED */
sysctl_consoleoptions
(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req)
{
- int error;
- int new_value, changed;
+ int error, changed;
+ uint32_t new_value;
- error = sysctl_io_number(req, vc_user_options, sizeof(int), &new_value, &changed);
+ error = sysctl_io_number(req, vc_user_options.options, sizeof(uint32_t), &new_value, &changed);
- if (changed) vc_set_options(new_value);
+ if (changed) {
+ vc_user_options.options = new_value;
+ }
- return (error);
+ return error;
}
static SYSCTL_PROC(_kern, OID_AUTO, consoleoptions,
- CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
- 0, 0, sysctl_consoleoptions, "I", "");
+ CTLTYPE_INT | CTLFLAG_RW | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ NULL, 0, sysctl_consoleoptions, "I", "");
+
+
+static int
+sysctl_progressoptions SYSCTL_HANDLER_ARGS
+{
+ return sysctl_io_opaque(req, &vc_user_options, sizeof(vc_user_options), NULL);
+}
+
+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", "");
+
static int
sysctl_wakereason SYSCTL_HANDLER_ARGS
{
- char wr[ sizeof(gWakeReasonString) ];
+ char wr[sizeof(gWakeReasonString)];
- wr[0] = '\0';
- if (gRootDomain)
- gRootDomain->copyWakeReasonString(wr, sizeof(wr));
+ wr[0] = '\0';
+ if (gRootDomain) {
+ gRootDomain->copyWakeReasonString(wr, sizeof(wr));
+ }
- return sysctl_io_string(req, wr, 0, 0, NULL);
+ return sysctl_io_string(req, wr, 0, 0, NULL);
}
SYSCTL_PROC(_kern, OID_AUTO, wakereason,
- CTLTYPE_STRING| CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
NULL, 0, sysctl_wakereason, "A", "wakereason");
static int
sysctl_targettype SYSCTL_HANDLER_ARGS
{
- 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));
+ 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();
}
- obj->release();
- }
- return sysctl_io_string(req, tt, 0, 0, NULL);
+ return sysctl_io_string(req, tt, 0, 0, NULL);
}
SYSCTL_PROC(_hw, OID_AUTO, targettype,
- CTLTYPE_STRING| CTLFLAG_RD | CTLFLAG_NOAUTO | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ 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
+
+#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146))
+//******************************************************************************
+// AOT
+
+static int
+sysctl_aotmetrics SYSCTL_HANDLER_ARGS
+{
+ if (NULL == gRootDomain) {
+ return ENOENT;
+ }
+ if (NULL == gRootDomain->_aotMetrics) {
+ return ENOENT;
+ }
+ return sysctl_io_opaque(req, gRootDomain->_aotMetrics, sizeof(IOPMAOTMetrics), NULL);
+}
+
+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", "");
+
+
+static int
+update_aotmode(uint32_t mode)
+{
+ 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;
+}
+
+static int
+sysctl_aotmodebits
+(__unused struct sysctl_oid *oidp, __unused void *arg1, __unused int arg2, struct sysctl_req *req)
+{
+ 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", "");
+
+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;
+
+ 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 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", "");
+
+//******************************************************************************
+#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */
+
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;
//
//******************************************************************************
-#define kRootDomainSettingsCount 17
+#define kRootDomainSettingsCount 19
+#define kRootDomainNoPublishSettingsCount 3
-bool IOPMrootDomain::start( IOService * nub )
+bool
+IOPMrootDomain::start( IOService * nub )
{
- OSIterator *psIterator;
- OSDictionary *tmpDict;
- IORootParent * patriarch;
-#if defined(__i386__) || defined(__x86_64__)
- IONotifier * notifier;
-#endif
+ OSIterator *psIterator;
+ OSDictionary *tmpDict;
+ IORootParent * patriarch;
- super::start(nub);
-
- gRootDomain = this;
- gIOPMSettingAutoWakeCalendarKey = OSSymbol::withCString(kIOPMSettingAutoWakeCalendarKey);
- gIOPMSettingAutoWakeSecondsKey = OSSymbol::withCString(kIOPMSettingAutoWakeSecondsKey);
- gIOPMSettingDebugWakeRelativeKey = OSSymbol::withCString(kIOPMSettingDebugWakeRelativeKey);
- gIOPMSettingMaintenanceWakeCalendarKey = OSSymbol::withCString(kIOPMSettingMaintenanceWakeCalendarKey);
- gIOPMSettingSleepServiceWakeCalendarKey = OSSymbol::withCString(kIOPMSettingSleepServiceWakeCalendarKey);
- gIOPMSettingSilentRunningKey = OSSymbol::withCStringNoCopy(kIOPMSettingSilentRunningKey);
- gIOPMUserTriggeredFullWakeKey = OSSymbol::withCStringNoCopy(kIOPMUserTriggeredFullWakeKey);
- gIOPMUserIsActiveKey = OSSymbol::withCStringNoCopy(kIOPMUserIsActiveKey);
-
- gIOPMStatsApplicationResponseTimedOut = OSSymbol::withCString(kIOPMStatsResponseTimedOut);
- gIOPMStatsApplicationResponseCancel = OSSymbol::withCString(kIOPMStatsResponseCancel);
- gIOPMStatsApplicationResponseSlow = OSSymbol::withCString(kIOPMStatsResponseSlow);
- gIOPMStatsApplicationResponsePrompt = OSSymbol::withCString(kIOPMStatsResponsePrompt);
- gIOPMStatsDriverPSChangeSlow = OSSymbol::withCString(kIOPMStatsDriverPSChangeSlow);
-
- sleepSupportedPEFunction = OSSymbol::withCString("IOPMSetSleepSupported");
- sleepMessagePEFunction = OSSymbol::withCString("IOPMSystemSleepMessage");
-
- const OSSymbol *settingsArr[kRootDomainSettingsCount] =
- {
- OSSymbol::withCString(kIOPMSettingSleepOnPowerButtonKey),
- gIOPMSettingAutoWakeSecondsKey,
- OSSymbol::withCString(kIOPMSettingAutoPowerSecondsKey),
- gIOPMSettingAutoWakeCalendarKey,
- OSSymbol::withCString(kIOPMSettingAutoPowerCalendarKey),
- gIOPMSettingDebugWakeRelativeKey,
- OSSymbol::withCString(kIOPMSettingDebugPowerRelativeKey),
- 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),
- gIOPMSettingSilentRunningKey
- };
-
- PE_parse_boot_argn("darkwake", &gDarkWakeFlags, sizeof(gDarkWakeFlags));
- PE_parse_boot_argn("noidle", &gNoIdleFlag, sizeof(gNoIdleFlag));
-
- queue_init(&aggressivesQueue);
- aggressivesThreadCall = thread_call_allocate(handleAggressivesFunction, this);
- aggressivesData = OSData::withCapacity(
- sizeof(AggressivesRecord) * (kPMLastAggressivenessType + 4));
-
- featuresDictLock = IOLockAlloc();
- settingsCtrlLock = IOLockAlloc();
- wakeEventLock = IOLockAlloc();
- setPMRootDomain(this);
-
- extraSleepTimer = thread_call_allocate(
- idleSleepTimerExpired,
- (thread_call_param_t) this);
-
- diskSyncCalloutEntry = thread_call_allocate(
- &disk_sync_callout,
- (thread_call_param_t) this);
- hibDebugSetupEntry = thread_call_allocate(
- &hib_debugSetup_callout,
- (thread_call_param_t) this);
-
- updateConsoleUsersEntry = thread_call_allocate(
- &updateConsoleUsersCallout,
- (thread_call_param_t) this);
+ super::start(nub);
-#if DARK_TO_FULL_EVALUATE_CLAMSHELL
- fullWakeThreadCall = thread_call_allocate(
- OSMemberFunctionCast(thread_call_func_t, this,
- &IOPMrootDomain::fullWakeDelayedWork),
- (thread_call_param_t) this);
-#endif
+ 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);
- setProperty(kIOSleepSupportedKey, true);
-
- bzero(&gPMStats, sizeof(gPMStats));
-
- pmTracer = PMTraceWorker::tracer(this);
-
- pmAssertions = PMAssertionsTracker::pmAssertionsTracker(this);
-
- userDisabledAllSleep = false;
- systemBooting = true;
- 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;
- 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 **) &gIOPMSettingSilentRunningKey, 1, 0);
-
- fPMSettingsDict = OSDictionary::withCapacity(5);
- preventIdleSleepList = OSSet::withCapacity(8);
- preventSystemSleepList = OSSet::withCapacity(2);
-
- PMinit(); // creates gIOPMWorkLoop
-
- // 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));
- getPMworkloop()->addEventSource(pmPowerStateQueue);
-#ifdef CHECK_THREAD_CONTEXT
- gIOPMWorkLoop = getPMworkloop();
-#endif
+ gIOPMStatsResponseTimedOut = OSSymbol::withCString(kIOPMStatsResponseTimedOut);
+ gIOPMStatsResponseCancel = OSSymbol::withCString(kIOPMStatsResponseCancel);
+ gIOPMStatsResponseSlow = OSSymbol::withCString(kIOPMStatsResponseSlow);
+ gIOPMStatsResponsePrompt = OSSymbol::withCString(kIOPMStatsResponsePrompt);
+ gIOPMStatsDriverPSChangeSlow = OSSymbol::withCString(kIOPMStatsDriverPSChangeSlow);
- // create our power parent
- patriarch = new IORootParent;
- patriarch->init();
- patriarch->attach(this);
- patriarch->start(this);
- patriarch->addPowerChild(this);
+ 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);
- registerPowerDriver(this, ourPowerStates, NUM_POWER_STATES);
- changePowerStateToPriv(ON_STATE);
+#if DARK_TO_FULL_EVALUATE_CLAMSHELL
+ fullWakeThreadCall = thread_call_allocate(
+ OSMemberFunctionCast(thread_call_func_t, this,
+ &IOPMrootDomain::fullWakeDelayedWork),
+ (thread_call_param_t) this);
+#endif
- // install power change handler
- gSysPowerDownNotifier = registerPrioritySleepWakeInterest( &sysPowerDownHandler, this, 0);
+ 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, 0);
- tmpDict->release();
- }
+ // Register for a notification when IODisplayWrangler is published
+ if ((tmpDict = serviceMatching("IODisplayWrangler"))) {
+ _displayWranglerNotifier = addMatchingNotification(
+ gIOPublishNotification, tmpDict,
+ (IOServiceMatchingNotificationHandler) & displayWranglerMatchPublished,
+ this, NULL);
+ tmpDict->release();
+ }
#endif
#if defined(__i386__) || defined(__x86_64__)
- if ((tmpDict = serviceMatching("IODTNVRAM")))
- {
- notifier = addMatchingNotification(
- gIOFirstPublishNotification, tmpDict,
- (IOServiceMatchingNotificationHandler) &IONVRAMMatchPublished,
- this, 0);
- tmpDict->release();
- }
-
- wranglerIdleSettings = NULL;
- OSNumber * wranglerIdlePeriod = NULL;
- wranglerIdleSettings = OSDictionary::withCapacity(1);
- wranglerIdlePeriod = OSNumber::withNumber(kDefaultWranglerIdlePeriod, 32);
-
- if(wranglerIdleSettings && wranglerIdlePeriod)
- wranglerIdleSettings->setObject(kIORequestWranglerIdleKey,
- wranglerIdlePeriod);
-
- if(wranglerIdlePeriod)
- wranglerIdlePeriod->release();
+ wranglerIdleSettings = NULL;
+ OSNumber * wranglerIdlePeriod = NULL;
+ wranglerIdleSettings = OSDictionary::withCapacity(1);
+ wranglerIdlePeriod = OSNumber::withNumber(kDefaultWranglerIdlePeriod, 32);
+
+ if (wranglerIdleSettings && wranglerIdlePeriod) {
+ wranglerIdleSettings->setObject(kIORequestWranglerIdleKey,
+ wranglerIdlePeriod);
+ }
+
+ if (wranglerIdlePeriod) {
+ wranglerIdlePeriod->release();
+ }
#endif
- 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();
- }
-
- 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__hw_targettype);
-
- sysctl_register_oid(&sysctl__kern_progressmeterenable);
- sysctl_register_oid(&sysctl__kern_progressmeter);
- sysctl_register_oid(&sysctl__kern_wakereason);
- sysctl_register_oid(&sysctl__kern_consoleoptions);
+ 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();
+ }
+
+ // 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);
+ IOHibernateSystemInit(this);
#endif
- registerService(); // let clients find us
+ registerService(); // let clients find us
- return true;
+ return true;
}
//******************************************************************************
// 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;
- const OSSymbol *key;
- OSObject *obj;
- OSCollectionIterator * iter = 0;
-
- 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_tracepoint_string = OSSymbol::withCString(kIOPMLoginWindowSecurityDebugKey);
+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);
+ 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
- if (!dict)
- {
- return_value = kIOReturnBadArgument;
- goto exit;
- }
-
- iter = OSCollectionIterator::withCollection(dict);
- if (!iter)
- {
- return_value = kIOReturnNoMemory;
- goto exit;
- }
-
- 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);
- }
+ iter = OSCollectionIterator::withCollection(dict);
+ if (!iter) {
+ return_value = kIOReturnNoMemory;
+ goto exit;
+ }
+
+ 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);
- }
+ 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_tracepoint_string))
- {
- if (pmTracer && (n = OSDynamicCast(OSNumber, obj)))
- pmTracer->traceLoginWindowPhase(n->unsigned8BitValue());
- }
- 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(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();
-
- if (cs->year)
- OSBitOrAtomic(kIOPMAlarmBitCalendarWake, &_scheduledAlarms);
- else
- OSBitAndAtomic(~kIOPMAlarmBitCalendarWake, &_scheduledAlarms);
- DLOG("_scheduledAlarms = 0x%x\n", (uint32_t) _scheduledAlarms);
- }
- }
- }
- else
- {
- DLOG("setProperties(%s) not handled\n", key->getCStringNoCopy());
- }
- }
+ 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_tracepoint_string) loginwindow_tracepoint_string->release();
+ 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();
+ 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;
+ if (iter) {
+ iter->release();
+ }
+ return return_value;
}
// MARK: -
// Override IOService::setAggressiveness()
//******************************************************************************
-IOReturn IOPMrootDomain::setAggressiveness(
- unsigned long type,
- unsigned long value )
+IOReturn
+IOPMrootDomain::setAggressiveness(
+ unsigned long type,
+ unsigned long value )
{
- return setAggressiveness( type, value, 0 );
+ 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;
-
- DLOG("setAggressiveness(%x) 0x%x = %u\n",
- (uint32_t) options, (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;
- }
- }
- }
-
- if (!found)
- {
- queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain);
- }
-
- AGGRESSIVES_UNLOCK();
-
- if (found)
- IODelete(request, AggressivesRequest, 1);
-
- if (options & kAggressivesOptionSynchronous)
- handleAggressivesRequests(); // not truly synchronous
- else
- thread_call_enter(aggressivesThreadCall);
-
- return kIOReturnSuccess;
-}
-
-//******************************************************************************
-// getAggressiveness
-//
-// Override IOService::setAggressiveness()
-// Fetch the aggressiveness factor with the given type.
-//******************************************************************************
+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);
+ }
-IOReturn IOPMrootDomain::getAggressiveness (
- unsigned long type,
- unsigned long * outLevel )
-{
- uint32_t value = 0;
- int source = 0;
-
- if (!outLevel)
- return kIOReturnBadArgument;
-
- AGGRESSIVES_LOCK();
-
- // Disk quick spindown in effect, report value = 1
-
- 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)
- {
- DLOG("getAggressiveness(%d) 0x%x = %u\n",
- source, (uint32_t) type, value);
- *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;
- }
-}
+ 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;
+ }
+ }
+ }
+
+ if (!found) {
+ queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain);
+ }
+
+ AGGRESSIVES_UNLOCK();
+
+ if (found) {
+ IODelete(request, AggressivesRequest, 1);
+ }
+
+ if (options & kAggressivesOptionSynchronous) {
+ handleAggressivesRequests(); // not truly synchronous
+ } else {
+ thread_call_enter(aggressivesThreadCall);
+ }
+
+ return kIOReturnSuccess;
+}
+
+//******************************************************************************
+// getAggressiveness
+//
+// Override IOService::setAggressiveness()
+// Fetch the aggressiveness factor with the given type.
+//******************************************************************************
+
+IOReturn
+IOPMrootDomain::getAggressiveness(
+ unsigned long type,
+ unsigned long * outLevel )
+{
+ uint32_t value = 0;
+ int source = 0;
+
+ if (!outLevel) {
+ return kIOReturnBadArgument;
+ }
+
+ AGGRESSIVES_LOCK();
+
+ // Disk quick spindown in effect, report value = 1
+
+ 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.
//******************************************************************************
-IOReturn IOPMrootDomain::joinAggressiveness(
- IOService * service )
+IOReturn
+IOPMrootDomain::joinAggressiveness(
+ IOService * service )
{
- AggressivesRequest * request;
+ AggressivesRequest * request;
- if (!service || (service == this))
- return kIOReturnBadArgument;
+ if (!service || (service == this)) {
+ return kIOReturnBadArgument;
+ }
- DLOG("joinAggressiveness %s %p\n", service->getName(), OBFUSCATE(service));
+ DEBUG_LOG("joinAggressiveness %s %p\n", service->getName(), OBFUSCATE(service));
- request = IONew(AggressivesRequest, 1);
- if (!request)
- return kIOReturnNoMemory;
+ request = IONew(AggressivesRequest, 1);
+ if (!request) {
+ return kIOReturnNoMemory;
+ }
- service->retain(); // released by synchronizeAggressives()
+ service->retain(); // released by synchronizeAggressives()
- memset(request, 0, sizeof(*request));
- request->dataType = kAggressivesRequestTypeService;
- request->data.service = service;
+ memset(request, 0, sizeof(*request));
+ request->dataType = kAggressivesRequestTypeService;
+ request->data.service = service;
- AGGRESSIVES_LOCK();
- queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain);
- AGGRESSIVES_UNLOCK();
+ AGGRESSIVES_LOCK();
+ queue_enter(&aggressivesQueue, request, AggressivesRequest *, chain);
+ AGGRESSIVES_UNLOCK();
- thread_call_enter(aggressivesThreadCall);
+ thread_call_enter(aggressivesThreadCall);
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//******************************************************************************
static void
handleAggressivesFunction(
- thread_call_param_t param1,
- thread_call_param_t param2 )
-{
- if (param1)
- {
- ((IOPMrootDomain *) param1)->handleAggressivesRequests();
- }
-}
-
-void IOPMrootDomain::handleAggressivesRequests( void )
-{
- 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));
-
- gAggressivesState &= ~kAggressivesStateBusy;
+ thread_call_param_t param1,
+ thread_call_param_t param2 )
+{
+ if (param1) {
+ ((IOPMrootDomain *) param1)->handleAggressivesRequests();
+ }
+}
+
+void
+IOPMrootDomain::handleAggressivesRequests( void )
+{
+ 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));
+
+ gAggressivesState &= ~kAggressivesStateBusy;
unlock_done:
- AGGRESSIVES_UNLOCK();
+ AGGRESSIVES_UNLOCK();
- // Root domain is interested in system and display sleep slider changes.
- // Submit a power event to handle those changes on the PM work loop.
+ // 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 );
- }
+ if (pingSelf && pmPowerStateQueue) {
+ pmPowerStateQueue->submitPowerEvent(
+ kPowerEventPolicyStimulus,
+ (void *) kStimulusAggressivenessChanged );
+ }
}
//******************************************************************************
// 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 = 0;
-
- IODelete(request, AggressivesRequest, 1);
- request = 0;
-
- if (service)
- {
- if (service->assertPMDriverCall(&callEntry))
- {
- 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()
- }
- }
+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()
+ }
+ }
}
//******************************************************************************
// 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 = (IOService *) connect->copyChildEntry(gIOPowerPlane)))
- {
- if (service->assertPMDriverCall(&callEntry))
- {
- 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();
- }
+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
//
//******************************************************************************
-void IOPMrootDomain::startIdleSleepTimer( uint32_t inSeconds )
+void
+IOPMrootDomain::startIdleSleepTimer( uint32_t inSeconds )
{
- AbsoluteTime deadline;
+ 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);
+ 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);
}
//******************************************************************************
//
//******************************************************************************
-void IOPMrootDomain::cancelIdleSleepTimer( void )
-{
- ASSERT_GATED();
- if (idleSleepTimerPending)
- {
- DLOG("idle timer cancelled\n");
- thread_call_cancel(extraSleepTimer);
- idleSleepTimerPending = false;
-
- if (!assertOnWakeSecs && systemWakeTime) {
- AbsoluteTime now;
- clock_usec_t microsecs;
- clock_get_uptime(&now);
- SUB_ABSOLUTETIME(&now, &systemWakeTime);
- absolutetime_to_microtime(now, &assertOnWakeSecs, µsecs);
- if (assertOnWakeReport) {
- HISTREPORT_TALLYVALUE(assertOnWakeReport, (int64_t)assertOnWakeSecs);
- DLOG("Updated assertOnWake %lu\n", (unsigned long)assertOnWakeSecs);
- }
- }
- }
+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);
+ }
+ }
+ }
}
//******************************************************************************
//
//******************************************************************************
-static void idleSleepTimerExpired(
- thread_call_param_t us, thread_call_param_t )
+static void
+idleSleepTimerExpired(
+ thread_call_param_t us, thread_call_param_t )
{
- ((IOPMrootDomain *)us)->handleSleepTimerExpiration();
+ ((IOPMrootDomain *)us)->handleSleepTimerExpiration();
}
//******************************************************************************
// It's time to sleep. Start that by removing the clamp that's holding us awake.
//******************************************************************************
-void IOPMrootDomain::handleSleepTimerExpiration( void )
+void
+IOPMrootDomain::handleSleepTimerExpiration( void )
{
- if (!getPMworkloop()->inGate())
- {
- getPMworkloop()->runAction(
- OSMemberFunctionCast(IOWorkLoop::Action, this,
- &IOPMrootDomain::handleSleepTimerExpiration),
- this);
- return;
- }
+ if (!gIOPMWorkLoop->inGate()) {
+ gIOPMWorkLoop->runAction(
+ OSMemberFunctionCast(IOWorkLoop::Action, this,
+ &IOPMrootDomain::handleSleepTimerExpiration),
+ this);
+ return;
+ }
- AbsoluteTime time;
+ AbsoluteTime time;
- DLOG("sleep timer expired\n");
- ASSERT_GATED();
+ DLOG("sleep timer expired\n");
+ ASSERT_GATED();
- idleSleepTimerPending = false;
+ idleSleepTimerPending = false;
- clock_get_uptime(&time);
- setQuickSpinDownTimeout();
- adjustPowerState(true);
+ clock_get_uptime(&time);
+ setQuickSpinDownTimeout();
+ adjustPowerState(true);
}
//******************************************************************************
// this function
//******************************************************************************
-uint32_t IOPMrootDomain::getTimeToIdleSleep( void )
+uint32_t
+IOPMrootDomain::getTimeToIdleSleep( void )
{
+ AbsoluteTime now, lastActivityTime;
+ uint64_t nanos;
+ uint32_t minutesSinceUserInactive = 0;
+ uint32_t sleepDelay = 0;
- AbsoluteTime now, lastActivityTime;
- uint64_t nanos;
- uint32_t minutesSinceUserInactive = 0;
- uint32_t sleepDelay = 0;
-
- if (sleepSlider == 0)
- return 0xffffffff;
-
- if (userActivityTime)
- lastActivityTime = userActivityTime;
- else
- lastActivityTime = userBecameInactiveTime;
+ if (!idleSleepEnabled) {
+ return 0xffffffff;
+ }
- clock_get_uptime(&now);
- if (CMP_ABSOLUTETIME(&now, &lastActivityTime) > 0)
- {
- SUB_ABSOLUTETIME(&now, &lastActivityTime);
- absolutetime_to_nanoseconds(now, &nanos);
- minutesSinceUserInactive = nanos / (60000000000ULL);
+ if (userActivityTime) {
+ lastActivityTime = userActivityTime;
+ } else {
+ lastActivityTime = userBecameInactiveTime;
+ }
- if (minutesSinceUserInactive >= sleepSlider)
- sleepDelay = 0;
- else
- sleepDelay = sleepSlider - minutesSinceUserInactive;
- }
- else
- {
- sleepDelay = sleepSlider;
- }
+ 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);
+ DLOG("user inactive %u min, time to idle sleep %u min\n",
+ minutesSinceUserInactive, sleepDelay);
- return (sleepDelay * 60);
+ return sleepDelay * 60;
}
//******************************************************************************
//
//******************************************************************************
-void IOPMrootDomain::setQuickSpinDownTimeout( void )
+void
+IOPMrootDomain::setQuickSpinDownTimeout( void )
{
- ASSERT_GATED();
- setAggressiveness(
- kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownEnable );
+ ASSERT_GATED();
+ setAggressiveness(
+ kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownEnable );
}
//******************************************************************************
//
//******************************************************************************
-void IOPMrootDomain::restoreUserSpinDownTimeout( void )
+void
+IOPMrootDomain::restoreUserSpinDownTimeout( void )
{
- ASSERT_GATED();
- setAggressiveness(
- kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownDisable );
+ ASSERT_GATED();
+ setAggressiveness(
+ kPMMinutesToSpinDown, 0, kAggressivesOptionQuickSpindownDisable );
}
//******************************************************************************
//******************************************************************************
/* public */
-IOReturn IOPMrootDomain::sleepSystem( void )
+IOReturn
+IOPMrootDomain::sleepSystem( void )
{
- return sleepSystemOptions(NULL);
+ 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);
+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 )
+IOReturn
+IOPMrootDomain::privateSleepSystem( uint32_t sleepReason )
{
- /* Called from both gated and non-gated context */
+ /* Called from both gated and non-gated context */
- if (!checkSystemSleepEnabled() || !pmPowerStateQueue)
- {
- return kIOReturnNotPermitted;
- }
+ if (!checkSystemSleepEnabled() || !pmPowerStateQueue) {
+ return kIOReturnNotPermitted;
+ }
- pmPowerStateQueue->submitPowerEvent(
- kPowerEventPolicyStimulus,
- (void *) kStimulusDemandSystemSleep,
- sleepReason);
+ pmPowerStateQueue->submitPowerEvent(
+ kPowerEventPolicyStimulus,
+ (void *) kStimulusDemandSystemSleep,
+ sleepReason);
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//******************************************************************************
//
// This overrides powerChangeDone in IOService.
//******************************************************************************
-
-void IOPMrootDomain::powerChangeDone( unsigned long previousPowerState )
+void
+IOPMrootDomain::powerChangeDone( unsigned long previousPowerState )
{
- uint64_t now;
- ASSERT_GATED();
- DLOG("PowerChangeDone: %u->%u\n",
- (uint32_t) previousPowerState, (uint32_t) getPowerState());
-
- switch ( getPowerState() )
- {
- case SLEEP_STATE: {
- if (previousPowerState != ON_STATE)
- break;
-
- acceptSystemWakeEvents(true);
-
- // re-enable this timer for next sleep
- cancelIdleSleepTimer();
-
- clock_sec_t secs;
- clock_usec_t microsecs;
- clock_get_calendar_absolute_and_microtime(&secs, µsecs, &now);
- logtime(secs);
- gIOLastSleepTime.tv_sec = secs;
- gIOLastSleepTime.tv_usec = microsecs;
- gIOLastWakeTime.tv_sec = 0;
- gIOLastWakeTime.tv_usec = 0;
-
- if (wake2DarkwakeDelay && sleepDelaysReport) {
- clock_usec_t microsecs;
- clock_sec_t wake2DarkwakeSecs, darkwake2SleepSecs;
- // Update 'wake2DarkwakeDelay' histogram if this is a fullwake->sleep transition
+#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;
+ }
- SUB_ABSOLUTETIME(&now, &ts_sleepStart);
- absolutetime_to_microtime(now, &darkwake2SleepSecs, µsecs);
- absolutetime_to_microtime(wake2DarkwakeDelay, &wake2DarkwakeSecs, µsecs);
- HISTREPORT_TALLYVALUE(sleepDelaysReport,
- (int64_t)(wake2DarkwakeSecs+darkwake2SleepSecs));
+ 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);
+ }
- DLOG("Updated sleepDelaysReport %lu %lu\n", (unsigned long)wake2DarkwakeSecs, (unsigned long)darkwake2SleepSecs);
- wake2DarkwakeDelay = 0;
- }
+ 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" : "");
+ LOG("System %sSleep\n", gIOHibernateState ? "Safe" : "");
- IOHibernateSystemHasSlept();
+ IOHibernateSystemHasSlept();
- evaluateSystemSleepPolicyFinal();
+ evaluateSystemSleepPolicyFinal();
#else
- LOG("System Sleep\n");
+ LOG("System Sleep\n");
#endif
- if (thermalWarningState) {
- const OSSymbol *event = OSSymbol::withCString(kIOPMThermalLevelWarningKey);
- if (event) {
- systemPowerEventOccurred(event, kIOPMThermalLevelUnknown);
- event->release();
- }
- }
- assertOnWakeSecs = 0;
- ((IOService *)this)->stop_watchdog_timer(); //14456299
- getPlatform()->sleepKernel();
-
- // The CPU(s) are off at this point,
- // Code will resume execution here upon wake.
-
- clock_get_uptime(&systemWakeTime);
- _highestCapability = 0;
-
- ((IOService *)this)->start_watchdog_timer(); //14456299
-#if HIBERNATION
- IOHibernateSystemWake();
+ 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
- // sleep transition complete
- gSleepOrShutdownPending = 0;
+ getPlatform()->sleepKernel();
- // trip the reset of the calendar clock
- {
- clock_sec_t wakeSecs;
- clock_usec_t wakeMicrosecs;
-
- clock_initialize_calendar();
+ // The CPU(s) are off at this point,
+ // Code will resume execution here upon wake.
- clock_get_calendar_microtime(&wakeSecs, &wakeMicrosecs);
- gIOLastWakeTime.tv_sec = wakeSecs;
- gIOLastWakeTime.tv_usec = wakeMicrosecs;
- }
+ clock_get_uptime(&gIOLastWakeAbsTime);
+ IOLog("gIOLastWakeAbsTime: %lld\n", gIOLastWakeAbsTime);
+ _highestCapability = 0;
#if HIBERNATION
- LOG("System %sWake\n", gIOHibernateState ? "SafeSleep " : "");
+ IOHibernateSystemWake();
#endif
- // log system wake
- PMDebug(kPMLogSystemWake, 0, 0);
- lowBatteryCondition = false;
- lastSleepReason = 0;
+ // 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);
+ }
- _lastDebugWakeSeconds = _debugWakeSeconds;
- _debugWakeSeconds = 0;
- _scheduledAlarms = 0;
+ if (_aotTestTime) {
+ if (_aotWakeTimeUTC <= secs) {
+ _aotTestTime = _aotTestTime + _aotTestInterval;
+ }
+ setWakeTime(_aotTestTime);
+ }
+ }
+#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */
-#ifndef __LP64__
- systemWake();
+#if HIBERNATION
+ LOG("System %sWake\n", gIOHibernateState ? "SafeSleep " : "");
#endif
+ lastSleepReason = 0;
+
+ _lastDebugWakeSeconds = _debugWakeSeconds;
+ _debugWakeSeconds = 0;
+ _scheduledAlarms = 0;
+
#if defined(__i386__) || defined(__x86_64__)
- wranglerTickled = false;
- graphicsSuppressed = false;
- darkWakePostTickle = false;
- darkWakeHibernateError = false;
- darkWakeToSleepASAP = true;
- logGraphicsClamp = true;
- sleepTimerMaintenance = false;
- sleepToStandby = false;
- wranglerTickleLatched = false;
- userWasActive = 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)
- {
+ 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;
- DLOG("hibernation aborted %d, options 0x%x\n",
- hibernateAborted,
- hibOptions ? hibOptions->unsigned32BitValue() : 0);
- }
- else
+ 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;
- }
- 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 (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;
- }
+ 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 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__ */
- // stay awake for at least 30 seconds
- wranglerTickled = true;
- fullWakeReason = kFullWakeReasonLocalUser;
- startIdleSleepTimer(30);
+ 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++;
+ sleepCnt++;
- thread_call_enter(updateConsoleUsersEntry);
+ thread_call_enter(updateConsoleUsersEntry);
- changePowerStateToPriv(ON_STATE);
- } break;
+ changePowerStateToPriv(getRUN_STATE());
+ break;
+ }
#if !__i386__ && !__x86_64__
- case ON_STATE: {
- if (previousPowerState != ON_STATE)
- {
- DLOG("Force re-evaluating aggressiveness\n");
- /* Force re-evaluate the aggressiveness values to set appropriate idle sleep timer */
- pmPowerStateQueue->submitPowerEvent(
- kPowerEventPolicyStimulus,
- (void *) kStimulusNoIdleSleepPreventers );
- }
- break;
- }
-
-#endif
-
- }
+ 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;
}
//******************************************************************************
// Extend implementation in IOService. Running on PM work loop thread.
//******************************************************************************
-IOReturn IOPMrootDomain::requestPowerDomainState (
- IOPMPowerFlags childDesire,
- IOPowerConnection * childConnection,
- unsigned long specification )
+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.
+ // Idle and system sleep prevention flags affects driver desire.
+ // Children desire are irrelevant so they are cleared.
- return super::requestPowerDomainState(0, childConnection, specification);
+ return super::requestPowerDomainState(0, childConnection, specification);
}
// sleep and updated the list of idle sleep preventers. Returns false otherwise
//******************************************************************************
-bool IOPMrootDomain::updatePreventIdleSleepList(
- IOService * service, bool addNotRemove )
+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 oldCount, newCount;
+ unsigned int newCount;
- ASSERT_GATED();
+ 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 != wrangler) && (service != this))
- {
- return false;
- }
+ // 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
- oldCount = preventIdleSleepList->getCount();
- 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 = preventIdleSleepList->getCount();
-
- 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(ON_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 (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())
- {
- return false; // do not idle-cancel
- }
+ if (addNotRemove && (service == wrangler) && !checkSystemCanSustainFullWake()) {
+ DLOG("Cannot cancel idle sleep\n");
+ return false; // do not idle-cancel
+ }
#endif
- return true;
+ return true;
+}
+
+//******************************************************************************
+// startSpinDump
+//******************************************************************************
+
+void
+IOPMrootDomain::startSpinDump(uint32_t spindumpKind)
+{
+ messageClients(kIOPMMessageLaunchBootSpinDump, (void *)(uintptr_t)spindumpKind);
}
//******************************************************************************
// 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 && systemWakeTime) {
- AbsoluteTime now;
- clock_usec_t microsecs;
- clock_get_uptime(&now);
- SUB_ABSOLUTETIME(&now, &systemWakeTime);
- 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 (!getPMworkloop()->inGate())
- {
- getPMworkloop()->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::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;
+ }
}
//******************************************************************************
// Override the superclass implementation to send a different message type.
//******************************************************************************
-bool IOPMrootDomain::tellChangeDown( unsigned long stateNum )
+bool
+IOPMrootDomain::tellChangeDown( unsigned long stateNum )
{
- DLOG("tellChangeDown %u->%u\n",
- (uint32_t) getPowerState(), (uint32_t) 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 (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) && !ignoreTellChangeDown)
- {
- userActivityAtSleep = userActivityCount;
- hibernateAborted = false;
- 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 );
+ // Direct callout into OSKext so it can disable kext unloads
+ // during sleep/wake to prevent deadlocks.
+ OSKextSystemSleepOrWake( kIOMessageSystemWillSleep );
- IOService::updateConsoleUsers(NULL, kIOMessageSystemWillSleep);
+ IOService::updateConsoleUsers(NULL, kIOMessageSystemWillSleep);
- // Two change downs are sent by IOServicePM. Ignore the 2nd.
- // But tellClientsWithResponse() must be called for both.
- ignoreTellChangeDown = true;
- }
+ // Two change downs are sent by IOServicePM. Ignore the 2nd.
+ // But tellClientsWithResponse() must be called for both.
+ ignoreTellChangeDown = true;
+ }
+ }
- return super::tellClientsWithResponse( kIOMessageSystemWillSleep );
+ return super::tellClientsWithResponse( kIOMessageSystemWillSleep );
}
//******************************************************************************
// This must be idle sleep since we don't ask during any other power change.
//******************************************************************************
-bool IOPMrootDomain::askChangeDown( unsigned long stateNum )
+bool
+IOPMrootDomain::askChangeDown( unsigned long stateNum )
{
- DLOG("askChangeDown %u->%u\n",
- (uint32_t) getPowerState(), (uint32_t) 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 );
+ // Don't log for dark wake entry
+ if (kSystemTransitionSleep == _systemTransitionType) {
+ tracePoint( kIOPMTracePointSleepApplications );
+ }
- return super::tellClientsWithResponse( kIOMessageCanSystemSleep );
+ return super::tellClientsWithResponse( 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");
- }
- }
+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)) */
+ }
}
//******************************************************************************
// Work common to both canceled or aborted sleep.
//******************************************************************************
-void IOPMrootDomain::systemDidNotSleep( void )
+void
+IOPMrootDomain::systemDidNotSleep( void )
{
- // reset console lock state
- thread_call_enter(updateConsoleUsersEntry);
+ // reset console lock state
+ thread_call_enter(updateConsoleUsersEntry);
- if (!wrangler)
- {
- if (idleSeconds)
- {
- // stay awake for at least idleSeconds
- startIdleSleepTimer(idleSeconds);
- }
- }
- else
- {
- if (sleepSlider && !userIsActive)
- {
- // Manually start the idle sleep timer besides waiting for
- // the user to become inactive.
- startIdleSleepTimer( kIdleSleepRetryInterval );
- }
- }
+ 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 );
+ 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.
+ // 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.
+ 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;
+ IOPMSystemCapabilityChangeParameters params;
- bzero(¶ms, sizeof(params));
- params.fromCapabilities = _pendingCapability;
- params.toCapabilities = _currentCapability;
- params.changeFlags = kIOPMSystemCapabilityDidChange;
+ 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));
- }
+ DLOG("MESG cap %x->%x did change\n",
+ params.fromCapabilities, params.toCapabilities);
+ messageClient(kIOMessageSystemCapabilityChange, systemCapabilityNotifier,
+ ¶ms, sizeof(params));
+ }
}
//******************************************************************************
// This must be a vetoed idle sleep, since no other power change can be vetoed.
//******************************************************************************
-void IOPMrootDomain::tellNoChangeDown( unsigned long stateNum )
+void
+IOPMrootDomain::tellNoChangeDown( unsigned long stateNum )
{
- DLOG("tellNoChangeDown %u->%u\n",
- (uint32_t) getPowerState(), (uint32_t) stateNum);
+ DLOG("tellNoChangeDown %s->%s\n",
+ getPowerStateString((uint32_t) getPowerState()), getPowerStateString((uint32_t) stateNum));
- // Sleep canceled, clear the sleep trace point.
- tracePoint(kIOPMTracePointSystemUp);
+ // Sleep canceled, clear the sleep trace point.
+ tracePoint(kIOPMTracePointSystemUp);
- systemDidNotSleep();
- return tellClients( kIOMessageSystemWillNotSleep );
+ systemDidNotSleep();
+ return tellClients( kIOMessageSystemWillNotSleep );
}
//******************************************************************************
// type to the client or application being notified.
//******************************************************************************
-void IOPMrootDomain::tellChangeUp( unsigned long stateNum )
-{
- DLOG("tellChangeUp %u->%u\n",
- (uint32_t) getPowerState(), (uint32_t) stateNum);
+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;
+ }
- ignoreTellChangeDown = false;
+ systemDidNotSleep();
+ tellClients( kIOMessageSystemWillPowerOn );
+ }
- if ( stateNum == ON_STATE )
- {
- // Direct callout into OSKext so it can disable kext unloads
- // during sleep/wake to prevent deadlocks.
- OSKextSystemSleepOrWake( kIOMessageSystemHasPoweredOn );
+ tracePoint( kIOPMTracePointWakeApplications );
+ tellClients( kIOMessageSystemHasPoweredOn );
+ }
+}
- // Notify platform that sleep was cancelled or resumed.
- getPlatform()->callPlatformFunction(
- sleepMessagePEFunction, false,
- (void *)(uintptr_t) kIOMessageSystemHasPoweredOn,
- NULL, NULL, NULL);
+#define CAP_WILL_CHANGE_TO_OFF(params, flag) \
+ (((params)->changeFlags & kIOPMSystemCapabilityWillChange) && \
+ ((params)->fromCapabilities & (flag)) && \
+ (((params)->toCapabilities & (flag)) == 0))
- if (getPowerState() == ON_STATE)
- {
- // this is a quick wake from aborted sleep
- systemDidNotSleep();
- tellClients( kIOMessageSystemWillPowerOn );
- }
+#define CAP_DID_CHANGE_TO_ON(params, flag) \
+ (((params)->changeFlags & kIOPMSystemCapabilityDidChange) && \
+ ((params)->toCapabilities & (flag)) && \
+ (((params)->fromCapabilities & (flag)) == 0))
- tracePoint( kIOPMTracePointWakeApplications );
- tellClients( kIOMessageSystemHasPoweredOn );
- }
-}
+#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 )
-{
- IOReturn ret = 0;
+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;
+ }
- DLOG("sysPowerDownHandler message %s\n", getIOMessageString(messageType));
+ if (!gRootDomain) {
+ return kIOReturnUnsupported;
+ }
- 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 (messageType == kIOMessageSystemWillSleep)
- {
-#if HIBERNATION
- static int32_t mem_only = -1;
- IOPowerStateChangeNotification *notify =
- (IOPowerStateChangeNotification *)messageArgs;
-
- if ((mem_only == -1) &&
- (PE_parse_boot_argn("swd_mem_only", &mem_only, sizeof(mem_only)) == false)) {
- mem_only = 0;
- }
- if ((mem_only != 1) && (gRootDomain->sleepWakeDebugIsWdogEnabled()))
- {
- notify->returnValue = 30 * 1000 * 1000;
- thread_call_enter1(
- gRootDomain->hibDebugSetupEntry,
- (thread_call_param_t)(uintptr_t) notify->powerRef);
- }
-#endif
- }
- else 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 ((params->changeFlags & kIOPMSystemCapabilityWillChange) &&
- (params->fromCapabilities & kIOPMSystemCapabilityCPU) &&
- (params->toCapabilities & kIOPMSystemCapabilityCPU) == 0)
- {
- // 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));
+ 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);
- }
- else
- if ((params->changeFlags & kIOPMSystemCapabilityDidChange) &&
- (params->toCapabilities & kIOPMSystemCapabilityCPU) &&
- (params->fromCapabilities & kIOPMSystemCapabilityCPU) == 0)
- {
+ // 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
- // We will ack within 110 seconds
- params->maxWaitForReply = 110 * 1000 * 1000;
-
- thread_call_enter1(
- gRootDomain->diskSyncCalloutEntry,
- (thread_call_param_t)(uintptr_t) params->notifyRef);
+ 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;
- }
+ ret = kIOReturnSuccess;
+ }
- return ret;
+ return ret;
}
//******************************************************************************
// @param obj has a retain on it. We're responsible for releasing that retain.
//******************************************************************************
-void IOPMrootDomain::handleQueueSleepWakeUUID(OSObject *obj)
+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();
+ OSString *str = NULL;
- DLOG("SleepWake UUID queued: %s\n", queuedSleepWakeUUIDString->getCStringNoCopy());
- }
+ 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();
- if (obj) {
- obj->release();
- }
- return;
+ DLOG("SleepWake UUID queued: %s\n", queuedSleepWakeUUIDString->getCStringNoCopy());
+ }
+ if (obj) {
+ obj->release();
+ }
+ return;
}
//******************************************************************************
// handlePublishSleepWakeUUID
// sleep/wake.
//******************************************************************************
-void IOPMrootDomain::handlePublishSleepWakeUUID( bool shouldPublish )
+void
+IOPMrootDomain::handlePublishSleepWakeUUID( bool shouldPublish )
{
- ASSERT_GATED();
+ ASSERT_GATED();
+
+ /*
+ * Clear the current UUID
+ */
+ if (gSleepWakeUUIDIsSet) {
+ DLOG("SleepWake UUID cleared\n");
+
+ gSleepWakeUUIDIsSet = false;
+
+ removeProperty(kIOPMSleepWakeUUIDKey);
+ messageClients(kIOPMMessageSleepWakeUUIDChange, kIOPMMessageSleepWakeUUIDCleared);
+ }
- /*
- * Clear the current UUID
- */
- if (gSleepWakeUUIDIsSet)
- {
- DLOG("SleepWake UUID cleared\n");
+ /*
+ * Optionally, publish a new UUID
+ */
+ if (queuedSleepWakeUUIDString && shouldPublish) {
+ OSString *publishThisUUID = NULL;
- gSleepWakeUUIDIsSet = false;
+ publishThisUUID = queuedSleepWakeUUIDString;
+ publishThisUUID->retain();
- removeProperty(kIOPMSleepWakeUUIDKey);
- messageClients(kIOPMMessageSleepWakeUUIDChange, kIOPMMessageSleepWakeUUIDCleared);
- }
+ 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
+//******************************************************************************
- /*
- * Optionally, publish a new UUID
- */
- if (queuedSleepWakeUUIDString && shouldPublish) {
+extern "C" bool
+IOPMCopySleepWakeUUIDKey(char *buffer, size_t buf_len)
+{
+ if (!gSleepWakeUUIDIsSet) {
+ return false;
+ }
- OSString *publishThisUUID = NULL;
+ if (buffer != NULL) {
+ OSString *string;
- publishThisUUID = queuedSleepWakeUUIDString;
- publishThisUUID->retain();
+ string = (OSString *)
+ gRootDomain->copyProperty(kIOPMSleepWakeUUIDKey);
- if (publishThisUUID)
- {
- setProperty(kIOPMSleepWakeUUIDKey, publishThisUUID);
- publishThisUUID->release();
- }
+ if (string == NULL) {
+ *buffer = '\0';
+ } else {
+ strlcpy(buffer, string->getCStringNoCopy(), buf_len);
- gSleepWakeUUIDIsSet = true;
- messageClients(kIOPMMessageSleepWakeUUIDChange, kIOPMMessageSleepWakeUUIDSet);
+ string->release();
+ }
+ }
- queuedSleepWakeUUIDString->release();
- queuedSleepWakeUUIDString = NULL;
- }
+ return true;
}
//******************************************************************************
// Initialize the boot session uuid at boot up and sets it into registry.
//******************************************************************************
-void IOPMrootDomain::initializeBootSessionUUID(void)
+void
+IOPMrootDomain::initializeBootSessionUUID(void)
{
- uuid_t new_uuid;
- uuid_string_t new_uuid_string;
+ 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));
+ 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);
+ setProperty(kIOPMBootSessionUUIDKey, new_uuid_string);
}
//******************************************************************************
// Override of these methods for logging purposes.
//******************************************************************************
-IOReturn IOPMrootDomain::changePowerStateTo( unsigned long ordinal )
+IOReturn
+IOPMrootDomain::changePowerStateTo( unsigned long ordinal )
{
- DLOG("changePowerStateTo(%lu)\n", ordinal);
+ DLOG("changePowerStateTo(%u)\n", (uint32_t) ordinal);
- if ((ordinal != ON_STATE) && (ordinal != SLEEP_STATE))
- return kIOReturnUnsupported;
+ if ((ordinal != ON_STATE) && (ordinal != AOT_STATE) && (ordinal != SLEEP_STATE)) {
+ return kIOReturnUnsupported;
+ }
- return super::changePowerStateTo(ordinal);
+ return super::changePowerStateTo(ordinal);
}
-IOReturn IOPMrootDomain::changePowerStateToPriv( unsigned long ordinal )
+IOReturn
+IOPMrootDomain::changePowerStateToPriv( unsigned long ordinal )
{
- DLOG("changePowerStateToPriv(%lu)\n", ordinal);
+ DLOG("changePowerStateToPriv(%u)\n", (uint32_t) ordinal);
- if ((ordinal != ON_STATE) && (ordinal != SLEEP_STATE))
- return kIOReturnUnsupported;
+ if ((ordinal != ON_STATE) && (ordinal != AOT_STATE) && (ordinal != SLEEP_STATE)) {
+ return kIOReturnUnsupported;
+ }
- return super::changePowerStateToPriv(ordinal);
+ return super::changePowerStateToPriv(ordinal);
}
//******************************************************************************
//
//******************************************************************************
-bool IOPMrootDomain::activitySinceSleep(void)
+bool
+IOPMrootDomain::activitySinceSleep(void)
{
- return (userActivityCount != userActivityAtSleep);
+ return userActivityCount != userActivityAtSleep;
}
-bool IOPMrootDomain::abortHibernation(void)
+bool
+IOPMrootDomain::abortHibernation(void)
{
- bool ret = activitySinceSleep();
+ bool ret = activitySinceSleep();
- if (ret && !hibernateAborted && checkSystemCanSustainFullWake())
- {
- DLOG("activitySinceSleep ABORT [%d, %d]\n", userActivityCount, userActivityAtSleep);
- hibernateAborted = true;
- }
- return (ret);
+ 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);
+ if (gRootDomain) {
+ return gRootDomain->abortHibernation();
+ } else {
+ return 0;
+ }
}
//******************************************************************************
// machine (not thread) will block w/o timeout until this function returns.
//******************************************************************************
-void IOPMrootDomain::willNotifyPowerChildren( IOPMPowerStateIndex newPowerState )
-{
- OSDictionary *dict;
- OSNumber *secs;
+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 (SLEEP_STATE == newPowerState)
- {
#if HIBERNATION
- IOHibernateSystemSleep();
- IOHibernateIOKitSleep();
+ 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();
- }
+ 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;
+ }
}
//******************************************************************************
// is closed.
//******************************************************************************
-bool IOPMrootDomain::shouldSleepOnClamshellClosed( void )
+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 )
{
- if (!clamshellExists)
- return false;
+ // Called once every RTC/Alarm wake. Device should go to sleep if on clamshell
+ // closed && battery
+ if (!clamshellExists) {
+ return false;
+ }
- DLOG("clamshell closed %d, disabled %d, desktopMode %d, ac %d sleepDisabled %d\n",
- clamshellClosed, clamshellDisabled, desktopMode, acAdaptorConnected, clamshellSleepDisabled);
+ DLOG("shouldSleepOnRTCAlarmWake: clamshell closed %d, disabled %d, desktopMode %d, ac %d sleepDisabled %d\n",
+ clamshellClosed, clamshellDisabled, desktopMode, acAdaptorConnected, clamshellSleepDisabled);
- return ( !clamshellDisabled && !(desktopMode && acAdaptorConnected) && !clamshellSleepDisabled );
+ return !acAdaptorConnected && !clamshellSleepDisabled;
}
-void IOPMrootDomain::sendClientClamshellNotification( void )
+void
+IOPMrootDomain::sendClientClamshellNotification( void )
{
- /* Only broadcast clamshell alert if clamshell exists. */
- if (!clamshellExists)
- return;
+ /* Only broadcast clamshell alert if clamshell exists. */
+ if (!clamshellExists) {
+ return;
+ }
- setProperty(kAppleClamshellStateKey,
- clamshellClosed ? kOSBooleanTrue : kOSBooleanFalse);
+ setProperty(kAppleClamshellStateKey,
+ clamshellClosed ? kOSBooleanTrue : kOSBooleanFalse);
- setProperty(kAppleClamshellCausesSleepKey,
- shouldSleepOnClamshellClosed() ? 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)) );
+ /* Argument to message is a bitfiel of
+ * ( kClamshellStateBit | kClamshellSleepBit )
+ */
+ messageClients(kIOPMMessageClamshellStateChange,
+ (void *)(uintptr_t) ((clamshellClosed ? kClamshellStateBit : 0)
+ | (shouldSleepOnClamshellClosed() ? kClamshellSleepBit : 0)));
}
//******************************************************************************
// Deprecated
//******************************************************************************
-IOOptionBits IOPMrootDomain::getSleepSupported( void )
+IOOptionBits
+IOPMrootDomain::getSleepSupported( void )
{
- return( platformSleepSupport );
+ return platformSleepSupport;
}
//******************************************************************************
// Deprecated
//******************************************************************************
-void IOPMrootDomain::setSleepSupported( IOOptionBits flags )
+void
+IOPMrootDomain::setSleepSupported( IOOptionBits flags )
{
- DLOG("setSleepSupported(%x)\n", (uint32_t) flags);
- OSBitOrAtomic(flags, &platformSleepSupport);
+ DLOG("setSleepSupported(%x)\n", (uint32_t) flags);
+ OSBitOrAtomic(flags, &platformSleepSupport);
}
//******************************************************************************
//
//******************************************************************************
-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);
- }
- }
+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);
+ }
+ }
+ }
}
//******************************************************************************
// Deprecated.
//******************************************************************************
-void IOPMrootDomain::wakeFromDoze( void )
+void
+IOPMrootDomain::wakeFromDoze( void )
{
- // Preserve symbol for familes (IOUSBFamily and IOGraphics)
+ // Preserve symbol for familes (IOUSBFamily and IOGraphics)
}
// MARK: -
// Adds a new feature to the supported features dictionary
//******************************************************************************
-void IOPMrootDomain::publishFeature( const char * feature )
+void
+IOPMrootDomain::publishFeature( const char * feature )
{
- publishFeature(feature, kRD_AllPowerSources, NULL);
+ publishFeature(feature, kRD_AllPowerSources, NULL);
}
//******************************************************************************
// 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 = 0;
- }
- } 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 );
- }
-}
+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;
- }
+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;
+ if (features) {
+ features->release();
+ }
+ if (featuresDictLock) {
+ IOLockUnlock(featuresDictLock);
+ }
+ return ret;
}
//******************************************************************************
// supported feature.
//******************************************************************************
-void IOPMrootDomain::publishPMSetting(
- const OSSymbol * feature, uint32_t where, uint32_t * featureID )
+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;
- }
+ if (noPublishPMSettings &&
+ (noPublishPMSettings->getNextIndexOfObject(feature, 0) != (unsigned int)-1)) {
+ // Setting found in noPublishPMSettings array
+ *featureID = kBadPMFeatureID;
+ return;
+ }
- publishFeature(
- feature->getCStringNoCopy(), where, featureID);
+ publishFeature(
+ feature->getCStringNoCopy(), where, featureID);
}
//******************************************************************************
// drivers. Should be called only by IOPMrootDomain::setProperties.
//******************************************************************************
-IOReturn IOPMrootDomain::setPMSetting(
- const OSSymbol *type,
- OSObject *object )
-{
- PMSettingCallEntry *entries = 0;
- OSArray *chosen = 0;
- 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 = (const 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);
- }
- }
+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();
+ PMSETTING_UNLOCK();
- if (chosen) chosen->release();
- if (entries) IODelete(entries, PMSettingCallEntry, capacity);
+ if (chosen) {
+ chosen->release();
+ }
+ if (entries) {
+ IODelete(entries, PMSettingCallEntry, capacity);
+ }
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//******************************************************************************
// notifications.
//******************************************************************************
-OSObject * IOPMrootDomain::copyPMSetting(
- OSSymbol *whichSetting)
+OSObject *
+IOPMrootDomain::copyPMSetting(
+ OSSymbol *whichSetting)
{
- OSObject *obj = NULL;
+ OSObject *obj = NULL;
- if(!whichSetting) return NULL;
+ if (!whichSetting) {
+ return NULL;
+ }
- PMSETTING_LOCK();
- obj = fPMSettingsDict->getObject(whichSetting);
- if(obj) {
- obj->retain();
- }
- PMSETTING_UNLOCK();
+ PMSETTING_LOCK();
+ obj = fPMSettingsDict->getObject(whichSetting);
+ if (obj) {
+ obj->retain();
+ }
+ PMSETTING_UNLOCK();
- return obj;
+ return obj;
}
//******************************************************************************
// 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)
+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);
+ return registerPMSettingController(
+ settings,
+ (kIOPMSupportedOnAC | kIOPMSupportedOnBatt | kIOPMSupportedOnUPS),
+ func, target, refcon, handle);
}
//******************************************************************************
// 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);
+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;
+ }
- if (!pmso) {
- *handle = NULL;
- return kIOReturnInternalError;
- }
+ pmso = PMSettingObject::pmSettingObject(
+ (IOPMrootDomain *) this, func, target,
+ refcon, supportedPowerSources, settings, &pmsh);
- PMSETTING_LOCK();
- 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();
- }
+ if (!pmso) {
+ *handle = NULL;
+ return kIOReturnInternalError;
+ }
- // Add caller to the callback list
- list->setObject(pmso);
- }
- PMSETTING_UNLOCK();
+ 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 handle to the caller, the setting object is private.
+ *handle = pmsh;
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//******************************************************************************
// 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(0 == pmso->waitThread);
- pmso->waitThread = thisThread;
- PMSETTING_WAIT(pmso);
- pmso->waitThread = 0;
- }
- } while (wait);
-
- // Search each PM settings array in the kernel.
- iter = OSCollectionIterator::withCollection(settingsCallbacks);
- if (iter)
- {
- while ((sym = OSDynamicCast(OSSymbol, iter->getNextObject())))
- {
- array = (OSArray *) settingsCallbacks->getObject(sym);
- index = array->getNextIndexOfObject(pmso, 0);
- if (-1 != index) {
- array->removeObject(index);
- }
- }
- iter->release();
- }
-
- PMSETTING_UNLOCK();
-
- pmso->release();
+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();
}
//******************************************************************************
// only x86 has explicit support in the IntelCPUPowerManagement kext
//******************************************************************************
-void IOPMrootDomain::informCPUStateChange(
- uint32_t type,
- uint32_t value )
+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;
- strncpy( (char *)varInfoStruct.varName,
- (const char *)varNameStr,
- strlen(varNameStr) + 1 );
-
- // 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;
+ 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__ */
}
// Sleep flags
enum {
- kIOPMSleepFlagHibernate = 0x00000001,
- kIOPMSleepFlagSleepTimerEnable = 0x00000002
+ kIOPMSleepFlagHibernate = 0x00000001,
+ kIOPMSleepFlagSleepTimerEnable = 0x00000002
};
-struct IOPMSystemSleepPolicyEntry
-{
- uint32_t factorMask;
- uint32_t factorBits;
- uint32_t sleepFlags;
- uint32_t wakeEvents;
+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[];
+struct IOPMSystemSleepPolicyTable {
+ uint32_t signature;
+ uint16_t version;
+ uint16_t entryCount;
+ IOPMSystemSleepPolicyEntry entries[];
} __attribute__((packed));
enum {
- kIOPMSleepAttributeHibernateSetup = 0x00000001,
- kIOPMSleepAttributeHibernateSleep = 0x00000002
+ 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 = 0;
- OSData * policyData;
- uint64_t currentFactors = 0;
- uint32_t standbyDelay = 0;
- uint32_t powerOffDelay = 0;
- uint32_t powerOffTimer = 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;
-
- DLOG("phase %d, standby %d delay %u, poweroff %d delay %u timer %u, hibernate 0x%x\n",
- sleepPhase, standbyEnabled, standbyDelay,
- powerOffEnabled, powerOffDelay, powerOffTimer, *hibMode);
-
- // 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;
- else if (powerOffEnabled)
- currentFactors |= kIOPMSleepFactorAutoPowerOffForced;
- else
- currentFactors |= kIOPMSleepFactorHibernateForced;
- }
-
- // Current factors based on environment and assertions
- if (sleepTimerMaintenance)
- currentFactors |= kIOPMSleepFactorSleepTimerWake;
- if (standbyEnabled && sleepToStandby && !gSleepPolicyHandler)
- currentFactors |= kIOPMSleepFactorSleepTimerWake;
- if (!clamshellClosed)
- currentFactors |= kIOPMSleepFactorLidOpen;
- if (acAdaptorConnected)
- currentFactors |= kIOPMSleepFactorACPower;
- if (lowBatteryCondition)
- currentFactors |= kIOPMSleepFactorBatteryLow;
- if (!standbyDelay)
- currentFactors |= kIOPMSleepFactorStandbyNoDelay;
- if (!standbyEnabled)
- currentFactors |= kIOPMSleepFactorStandbyDisabled;
- if (getPMAssertionLevel(kIOPMDriverAssertionUSBExternalDeviceBit) !=
- kIOPMDriverAssertionLevelOff)
- currentFactors |= kIOPMSleepFactorUSBExternalDevice;
- if (getPMAssertionLevel(kIOPMDriverAssertionBluetoothHIDDevicePairedBit) !=
- kIOPMDriverAssertionLevelOff)
- currentFactors |= kIOPMSleepFactorBluetoothHIDDevice;
- if (getPMAssertionLevel(kIOPMDriverAssertionExternalMediaMountedBit) !=
- kIOPMDriverAssertionLevelOff)
- currentFactors |= kIOPMSleepFactorExternalMediaMounted;
- if (getPMAssertionLevel(kIOPMDriverAssertionReservedBit5) !=
- kIOPMDriverAssertionLevelOff)
- currentFactors |= kIOPMSleepFactorThunderboltDevice;
- if (_scheduledAlarms != 0)
- currentFactors |= kIOPMSleepFactorRTCAlarmScheduled;
- if (getPMAssertionLevel(kIOPMDriverAssertionMagicPacketWakeEnabledBit) !=
- kIOPMDriverAssertionLevelOff)
- currentFactors |= kIOPMSleepFactorMagicPacketWakeEnabled;
+ 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;
+ if (getPMAssertionLevel(kIOPMDriverAssertionNetworkKeepAliveActiveBit) !=
+ kIOPMDriverAssertionLevelOff) {
+ currentFactors |= kIOPMSleepFactorNetworkKeepAliveActive;
+ snprintf(currentFactorsBuf, sizeof(currentFactorsBuf), "%s, %s", currentFactorsBuf, "NetworkKeepAliveActive");
+ }
#endif
- if (!powerOffEnabled)
- currentFactors |= kIOPMSleepFactorAutoPowerOffDisabled;
- if (desktopMode)
- currentFactors |= kIOPMSleepFactorExternalDisplay;
- if (userWasActive)
- currentFactors |= kIOPMSleepFactorLocalUserActivity;
- if (darkWakeHibernateError && !CAP_HIGHEST(kIOPMSystemCapabilityGraphics))
- currentFactors |= kIOPMSleepFactorHibernateFailed;
- if (thermalWarningState)
- currentFactors |= kIOPMSleepFactorThermalWarning;
-
- DLOG("sleep factors 0x%llx\n", currentFactors);
-
- 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->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;
- }
+ 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();
+ if (prop) {
+ prop->release();
+ }
- return found;
+ 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;
-
- // Evaluate sleep policy after sleeping drivers but before platform sleep.
-
- DLOG("%s\n", __FUNCTION__);
-
- bzero(¶ms, sizeof(params));
- if (evaluateSystemSleepPolicy(¶ms, kIOPMSleepPhase2, &hibernateMode))
- {
- if ((hibernateDisabled || hibernateAborted) &&
- (getSleepTypeAttributes(params.sleepType) &
- kIOPMSleepAttributeHibernateSetup))
- {
- // Final evaluation picked a state requiring hibernation,
- // but hibernate setup was skipped. Arm a short sleep using
- // the early non-hibernate sleep parameters.
- // Set hibernateRetry flag to force hibernate setup on the
- // next sleep.
-
- bcopy(&gEarlySystemSleepParams, ¶ms, sizeof(params));
- params.sleepType = kIOPMSleepTypeAbortedSleep;
- params.ecWakeTimer = 1;
- hibernateRetry = true;
- DLOG("wake in %u secs for hibernateDisabled %d, hibernateAborted %d\n",
- params.ecWakeTimer, hibernateDisabled, hibernateAborted);
- }
- else
- {
- hibernateRetry = 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 = 0;
- 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 true;
+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 )
+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);
- return ret;
- }
-
- getSleepOption(kIOHibernateModeKey, &hibMode);
- bzero(¶ms, sizeof(params));
-
- ok = evaluateSystemSleepPolicy(¶ms, kIOPMSleepPhase0, &hibMode);
- if (ok)
- {
- *sleepType = params.sleepType;
- return kIOReturnSuccess;
- }
+ 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;
+ return kIOReturnUnsupported;
}
// MARK: -
//
//******************************************************************************
+// 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;
-};
+ 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;
- uint32_t deltaTime;
-
- ctx = (HaltRestartApplierContext *) context;
+ IOPowerStateChangeNotification notify;
+ HaltRestartApplierContext * ctx;
+ AbsoluteTime startTime, elapsedTime;
+ uint32_t deltaTime;
- memset(¬ify, 0, sizeof(notify));
- notify.powerRef = (void *)(uintptr_t)ctx->Counter;
- notify.returnValue = 0;
- notify.stateNumber = ctx->PowerState;
- notify.stateFlags = ctx->PowerFlags;
+ ctx = (HaltRestartApplierContext *) context;
- clock_get_uptime(&startTime);
- ctx->RootDomain->messageClient( ctx->MessageType, object, (void *)¬ify );
- deltaTime = computeDeltaTimeMS(&startTime);
+ _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 ((deltaTime > kPMHaltTimeoutMS) ||
- (gIOKitDebug & kIOLogPMRootDomain))
- {
- _IOServiceInterestNotifier * notifier;
- notifier = OSDynamicCast(_IOServiceInterestNotifier, object);
+ if (notifier) {
+ ctx->handler = notifier->handler;
+ }
- // IOService children of IOPMrootDomain are not instrumented.
- // Only IORootParent currently falls under that group.
+ clock_get_uptime(&startTime);
+ ctx->RootDomain->messageClient( ctx->MessageType, object, (void *)¬ify );
+ deltaTime = computeDeltaTimeMS(&startTime, &elapsedTime);
- if (notifier)
- {
- LOG("%s handler %p took %u ms\n",
- ctx->LogString, OBFUSCATE(notifier->handler), deltaTime);
- }
- }
+ 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->Counter++;
+ ctx->handler = NULL;
+ ctx->Counter++;
}
-static void quiescePowerTreeCallback( void * target, void * param )
-{
- IOLockLock(gPMHaltLock);
- gPMQuiesced = true;
- thread_wakeup(param);
- IOLockUnlock(gPMHaltLock);
-}
+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;
-void IOPMrootDomain::handlePlatformHaltRestart( UInt32 pe_type )
-{
- HaltRestartApplierContext ctx;
- AbsoluteTime startTime;
- uint32_t deltaTime;
+ default:
+ return;
+ }
- memset(&ctx, 0, sizeof(ctx));
- ctx.RootDomain = this;
+ 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();
+ }
+ }
- clock_get_uptime(&startTime);
- switch (pe_type)
- {
- case kPEHaltCPU:
- case kPEUPSDelayHaltCPU:
- ctx.PowerState = OFF_STATE;
- ctx.MessageType = kIOMessageSystemWillPowerOff;
- ctx.LogString = "PowerOff";
- break;
- case kPERestartCPU:
- ctx.PowerState = RESTART_STATE;
- ctx.MessageType = kIOMessageSystemWillRestart;
- ctx.LogString = "Restart";
- break;
+ if (kPEPagingOff != pe_type) {
+ gHaltRestartCtx.phase = kNotifyPowerPlaneDrivers;
+ // Notify in power tree order
+ notifySystemShutdown(this, gHaltRestartCtx.MessageType);
+ }
- case kPEPagingOff:
- ctx.PowerState = ON_STATE;
- ctx.MessageType = kIOMessageSystemPagingOff;
- ctx.LogString = "PagingOff";
- IOService::updateConsoleUsers(NULL, kIOMessageSystemPagingOff);
-#if HIBERNATION
- IOHibernateSystemRestart();
+ gHaltRestartCtx.phase = kNotifyHaltRestartAction;
+#if !CONFIG_EMBEDDED
+ IOCPURunPlatformHaltRestartActions(pe_type);
+#else
+ if (kPEPagingOff != pe_type) {
+ IOCPURunPlatformHaltRestartActions(pe_type);
+ }
#endif
- break;
-
- default:
- return;
- }
-
- // Notify legacy clients
- applyToInterested(gIOPriorityPowerStateInterest, platformHaltRestartApplier, &ctx);
-
- // 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)
- {
- // Notify in power tree order
- notifySystemShutdown(this, ctx.MessageType);
- }
-
- IOCPURunPlatformHaltRestartActions(pe_type);
-
- // Wait for PM to quiesce
- if ((kPEPagingOff != pe_type) && gPMHaltLock)
- {
- 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);
- DLOG("PM quiesce took %u ms\n", deltaTime);
- }
-
- deltaTime = computeDeltaTimeMS(&startTime);
- LOG("%s all drivers took %u ms\n", ctx.LogString, deltaTime);
+
+ // 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);
+ }
}
//******************************************************************************
//
//******************************************************************************
-IOReturn IOPMrootDomain::shutdownSystem( void )
+IOReturn
+IOPMrootDomain::shutdownSystem( void )
{
- return kIOReturnUnsupported;
+ return kIOReturnUnsupported;
}
//******************************************************************************
//
//******************************************************************************
-IOReturn IOPMrootDomain::restartSystem( void )
+IOReturn
+IOPMrootDomain::restartSystem( void )
{
- return kIOReturnUnsupported;
+ return kIOReturnUnsupported;
}
// MARK: -
// Running on PM work loop thread.
//******************************************************************************
-void IOPMrootDomain::tagPowerPlaneService(
- IOService * service,
- IOPMActions * actions )
+void
+IOPMrootDomain::tagPowerPlaneService(
+ IOService * service,
+ IOPMActions * actions )
{
- uint32_t flags = 0;
- bool isDisplayWrangler;
+ uint32_t flags = 0;
+ bool isDisplayWrangler;
- memset(actions, 0, sizeof(*actions));
- actions->target = this;
+ memset(actions, 0, sizeof(*actions));
+ actions->target = this;
- if (service == this)
- {
- actions->actionPowerChangeStart =
- OSMemberFunctionCast(
- IOPMActionPowerChangeStart, this,
- &IOPMrootDomain::handleOurPowerChangeStart);
+ if (service == this) {
+ actions->actionPowerChangeStart =
+ OSMemberFunctionCast(
+ IOPMActionPowerChangeStart, this,
+ &IOPMrootDomain::handleOurPowerChangeStart);
- actions->actionPowerChangeDone =
- OSMemberFunctionCast(
- IOPMActionPowerChangeDone, this,
- &IOPMrootDomain::handleOurPowerChangeDone);
+ actions->actionPowerChangeDone =
+ OSMemberFunctionCast(
+ IOPMActionPowerChangeDone, this,
+ &IOPMrootDomain::handleOurPowerChangeDone);
- actions->actionPowerChangeOverride =
- OSMemberFunctionCast(
- IOPMActionPowerChangeOverride, this,
- &IOPMrootDomain::overrideOurPowerChange);
- return;
- }
+ actions->actionPowerChangeOverride =
+ OSMemberFunctionCast(
+ IOPMActionPowerChangeOverride, this,
+ &IOPMrootDomain::overrideOurPowerChange);
+ return;
+ }
#if !NO_KERNEL_HID
- isDisplayWrangler = (0 != service->metaCast("IODisplayWrangler"));
- if (isDisplayWrangler)
- {
- wrangler = service;
- }
+ 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;
+ 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;
+ 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 ((parent == pciHostBridgeDriver) ||
- (parent == this))
- {
- if (OSDynamicCast(IOPowerConnection, child))
- {
- IOPowerConnection * conn = (IOPowerConnection *) child;
- conn->delayChildNotification = true;
- }
- 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);
- }
- }
- }
+ // 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 (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 = ON_STATE;
- *inOutChangeFlags |= kIOPMSynchronize;
-
- // Revert device desire from SLEEP to ON
- changePowerStateToPriv(ON_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 );
- }
+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);
+ 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;
-
- // Clear previous stats
- IOLockLock(pmStatsLock);
- if (pmStatsAppResponses)
- {
- pmStatsAppResponses->release();
- pmStatsAppResponses = OSArray::withCapacity(5);
- }
- IOLockUnlock(pmStatsLock);
-
- }
- 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))
- {
- 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);
- }
- }
- }
-
- // 2. System sleep.
-
- else if (kSystemTransitionSleep == _systemTransitionType)
- {
- // Beginning of a system sleep transition.
- // Cancellation is still possible.
- tracePoint( kIOPMTracePointSleepStarted, sleepReason );
-
- _systemMessageClientMask = kSystemMessageClientAll;
- if ((_currentCapability & kIOPMSystemCapabilityGraphics) == 0)
- _systemMessageClientMask &= ~kSystemMessageClientLegacyApp;
- if ((_highestCapability & kIOPMSystemCapabilityGraphics) == 0)
- _systemMessageClientMask &= ~kSystemMessageClientKernel;
-
- // 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 (_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 (%u->%u, 0x%x) type %u, gen %u, msg %x, "
- "dcp %x:%x:%x\n",
- currentPowerState, (uint32_t) powerState, *inOutChangeFlags,
- _systemTransitionType, _systemStateGeneration,
- _systemMessageClientMask,
- _desiredCapability, _currentCapability, _pendingCapability);
- }
-}
-
-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))
- {
- pmPowerStateQueue->submitPowerEvent(
- kPowerEventPolicyStimulus,
- (void *) kStimulusDarkWakeReentry,
- _systemStateGeneration );
- }
-
- // Revert device desire to max.
- changePowerStateToPriv(ON_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
- wranglerTickled = false;
- 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 (%u->%u, 0x%x) type %u, gen %u, msg %x, "
- "dcp %x:%x:%x, dbgtimer %u\n",
- currentPowerState, (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 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;
+ }
+ }
- // Update highest system capability.
+ // 1. Capability change.
- _highestCapability |= _currentCapability;
+ if (kSystemTransitionCapability == _systemTransitionType) {
+ // Dark to Full transition.
+ if (CAP_GAIN(kIOPMSystemCapabilityGraphics)) {
+ tracePoint( kIOPMTracePointDarkWakeExit );
- if (darkWakePostTickle &&
- (kSystemTransitionWake == _systemTransitionType) &&
- (gDarkWakeFlags & kDarkWakeFlagHIDTickleMask) ==
- kDarkWakeFlagHIDTickleLate)
- {
- darkWakePostTickle = false;
- reportUserInput();
- }
+ willEnterFullWake();
+ }
- // Reset tracepoint at completion of capability change,
- // completion of wake transition, and aborted sleep transition.
+ // Full to Dark transition.
+ if (CAP_LOSS(kIOPMSystemCapabilityGraphics)) {
+ // Clear previous stats
+ IOLockLock(pmStatsLock);
+ if (pmStatsAppResponses) {
+ pmStatsAppResponses->release();
+ pmStatsAppResponses = OSArray::withCapacity(5);
+ }
+ IOLockUnlock(pmStatsLock);
- if ((_systemTransitionType == kSystemTransitionCapability) ||
- (_systemTransitionType == kSystemTransitionWake) ||
- ((_systemTransitionType == kSystemTransitionSleep) &&
- (changeFlags & kIOPMNotDone)))
- {
- setProperty(kIOPMSystemCapabilitiesKey, _currentCapability, 64);
- tracePoint( kIOPMTracePointSystemUp, 0 );
- }
- _systemTransitionType = kSystemTransitionNone;
- _systemMessageClientMask = 0;
- toldPowerdCapWillChange = false;
+ tracePoint( kIOPMTracePointDarkWakeEntry );
+ *inOutChangeFlags |= kIOPMSyncTellPowerDown;
+ _systemMessageClientMask = kSystemMessageClientPowerd |
+ kSystemMessageClientLegacyApp;
- logGraphicsClamp = false;
- }
-}
-//******************************************************************************
-// PM actions for graphics and audio.
-//******************************************************************************
+ // rdar://15971327
+ // Prevent user active transitions before notifying clients
+ // that system will sleep.
+ preventTransitionToUserActive(true);
-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, &systemWakeTime);
- absolutetime_to_nanoseconds(now, &nsec);
- if (kIOLogPMRootDomain & gIOKitDebug)
- MSG("Graphics suppressed %u ms\n",
- ((int)((nsec) / 1000000ULL)));
- }
- 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
-}
+ IOService::setAdvisoryTickleEnable( false );
-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 );
- }
- }
-#endif
+ // 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 )
+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 );
- }
- }
+ _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 )
+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;
+ 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 )
+void
+IOPMrootDomain::handlePowerChangeStartForPCIDevice(
+ IOService * service,
+ IOPMActions * actions,
+ IOPMPowerStateIndex powerState,
+ IOPMPowerChangeFlags * inOutChangeFlags )
{
- pmTracer->tracePCIPowerChange(
- PMTraceWorker::kPowerChangeStart,
- service, *inOutChangeFlags,
- (actions->parameter & kPMActionsPCIBitNumberMask));
+ pmTracer->tracePCIPowerChange(
+ PMTraceWorker::kPowerChangeStart,
+ service, *inOutChangeFlags,
+ (actions->parameter & kPMActionsPCIBitNumberMask));
}
-void IOPMrootDomain::handlePowerChangeDoneForPCIDevice(
- IOService * service,
- IOPMActions * actions,
- IOPMPowerStateIndex powerState,
- IOPMPowerChangeFlags changeFlags )
+void
+IOPMrootDomain::handlePowerChangeDoneForPCIDevice(
+ IOService * service,
+ IOPMActions * actions,
+ IOPMPowerStateIndex powerState,
+ IOPMPowerChangeFlags changeFlags )
{
- pmTracer->tracePCIPowerChange(
- PMTraceWorker::kPowerChangeCompleted,
- service, changeFlags,
- (actions->parameter & kPMActionsPCIBitNumberMask));
+ pmTracer->tracePCIPowerChange(
+ PMTraceWorker::kPowerChangeCompleted,
+ service, changeFlags,
+ (actions->parameter & kPMActionsPCIBitNumberMask));
}
//******************************************************************************
// Override IOService::registerInterest() to intercept special clients.
//******************************************************************************
-class IOPMServiceInterestNotifier: public _IOServiceInterestNotifier
+class IOPMServiceInterestNotifier : public _IOServiceInterestNotifier
{
-
- friend class IOPMrootDomain;
- OSDeclareDefaultStructors(IOPMServiceInterestNotifier)
+ friend class IOPMrootDomain;
+ OSDeclareDefaultStructors(IOPMServiceInterestNotifier);
protected:
- uint32_t ackTimeoutCnt;
+ 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 = 0;
- 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::registerInterestForNotifer(notifier, typeOfInterest, handler, target, ref);
- }
- if (rc != kIOReturnSuccess) {
- notifier->release();
- notifier = 0;
- }
- 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();
- }
- }
-
- return notifier;
+ 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;
}
//******************************************************************************
//
//******************************************************************************
-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;
-
- 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))
- {
- IOPMServiceInterestNotifier *notify;
- allow = true;
-
- if ((notify = OSDynamicCast(IOPMServiceInterestNotifier, (OSObject *)object))
- && arg3) {
-
- if (notify->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 = 0;
- }
- }
-
- return allow;
+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;
}
//******************************************************************************
//
//******************************************************************************
-IOReturn IOPMrootDomain::setMaintenanceWakeCalendar(
- const IOPMCalendarStruct * calendar )
+IOReturn
+IOPMrootDomain::setMaintenanceWakeCalendar(
+ const IOPMCalendarStruct * calendar )
{
- OSData * data;
- IOReturn ret = 0;
+ OSData * data;
+ IOReturn ret = 0;
- if (!calendar)
- return kIOReturnBadArgument;
+ if (!calendar) {
+ return kIOReturnBadArgument;
+ }
- data = OSData::withBytesNoCopy((void *) calendar, sizeof(*calendar));
- if (!data)
- return kIOReturnNoMemory;
+ 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);
+ 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;
+ data->release();
+ return ret;
}
// MARK: -
// 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 )
+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;
- }
+ 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;
+ return kIOReturnUnsupported;
}
//******************************************************************************
// When it's published we install a power state change handler.
//******************************************************************************
-bool IOPMrootDomain::displayWranglerMatchPublished(
- void * target,
- void * refCon,
- IOService * newService,
- IONotifier * notifier __unused)
+bool
+IOPMrootDomain::displayWranglerMatchPublished(
+ void * target,
+ void * refCon,
+ IOService * newService,
+ IONotifier * notifier __unused)
{
#if !NO_KERNEL_HID
- // found the display wrangler, now install a handler
- if( !newService->registerInterest( gIOGeneralInterest,
- &displayWranglerNotification, target, 0) )
- {
- return false;
- }
+ // install a handler
+ if (!newService->registerInterest( gIOGeneralInterest,
+ &displayWranglerNotification, target, NULL)) {
+ return false;
+ }
#endif
- return true;
-}
-
-#if defined(__i386__) || defined(__x86_64__)
-
-bool IOPMrootDomain::IONVRAMMatchPublished(
- void * target,
- void * refCon,
- IOService * newService,
- IONotifier * notifier)
-{
- unsigned int len = 0;
- IOPMrootDomain *rd = (IOPMrootDomain *)target;
- OSNumber *statusCode = NULL;
-
- if (PEReadNVRAMProperty(kIOSleepWakeDebugKey, NULL, &len))
- {
- statusCode = OSDynamicCast(OSNumber, rd->getProperty(kIOPMSleepWakeFailureCodeKey));
- if (statusCode != NULL) {
- if (statusCode->unsigned64BitValue() != 0) {
- rd->swd_flags |= SWD_BOOT_BY_SW_WDOG;
- MSG("System was rebooted due to Sleep/Wake failure\n");
- }
- else {
- rd->swd_flags |= SWD_BOOT_BY_OSX_WDOG;
- MSG("System was non-responsive and was rebooted by watchdog\n");
- }
- }
-
- rd->swd_logBufMap = rd->sleepWakeDebugRetrieve();
- }
- if (notifier) notifier->remove();
- return true;
-}
-
-#else
-bool IOPMrootDomain::IONVRAMMatchPublished(
- void * target,
- void * refCon,
- IOService * newService,
- IONotifier * notifier __unused)
-{
- return false;
+ return true;
}
-#endif
-
//******************************************************************************
// reportUserInput
//
//******************************************************************************
-void IOPMrootDomain::reportUserInput( void )
+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 = (IOService *) iter->getNextObject();
- iter->release();
- }
- }
-
- if(wrangler)
- wrangler->activityTickle(0,0);
+ 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 )
+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;
+ 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;
+ return false;
#endif
}
// For root domain user client
//******************************************************************************
-void IOPMrootDomain::setDisplayPowerOn( uint32_t options )
+void
+IOPMrootDomain::setDisplayPowerOn( uint32_t options )
{
- pmPowerStateQueue->submitPowerEvent( kPowerEventSetDisplayPowerOn,
- (void *) 0, options );
+ pmPowerStateQueue->submitPowerEvent( kPowerEventSetDisplayPowerOn,
+ (void *) NULL, options );
}
// MARK: -
// Notification on battery class IOPowerSource appearance
//******************************************************************************
-bool IOPMrootDomain::batteryPublished(
- void * target,
- void * root_domain,
- IOService * resourceService,
- IONotifier * notifier __unused )
+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");
+ // 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);
+ return true;
}
// MARK: -
//
//******************************************************************************
-bool IOPMrootDomain::checkSystemSleepAllowed( IOOptionBits options,
- uint32_t sleepReason )
+bool
+IOPMrootDomain::checkSystemSleepAllowed( IOOptionBits options,
+ uint32_t sleepReason )
{
- int err = 0;
+ uint32_t err = 0;
- // Conditions that prevent idle and demand system sleep.
+ // Conditions that prevent idle and demand system sleep.
- do {
- if (userDisabledAllSleep)
- {
- err = 1; // 1. user-space sleep kill switch
- break;
- }
+ do {
+ if (userDisabledAllSleep) {
+ err = kPMUserDisabledAllSleep; // 1. user-space sleep kill switch
+ break;
+ }
- if (systemBooting || systemShutdown || gWillShutdown)
- {
- err = 2; // 2. restart or shutdown in progress
- break;
- }
+ if (systemBooting || systemShutdown || gWillShutdown) {
+ err = kPMSystemRestartBootingInProgress; // 2. restart or shutdown in progress
+ break;
+ }
- if (options == 0)
- 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.
+ // 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 = 3; // 3. config does not support sleep
- break;
+ 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 = 4; // 4. child prevent system sleep clamp
- break;
- }
-
- if (getPMAssertionLevel( kIOPMDriverAssertionCPUBit ) ==
- kIOPMDriverAssertionLevelOn)
- {
- err = 5; // 5. CPU assertion
- break;
- }
-
- if (pciCantSleepValid)
- {
- if (pciCantSleepFlag)
- err = 6; // 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 %d\n", 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);
+ 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 )
+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;
- }
- }
+ 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;
+ return true;
}
//******************************************************************************
-// 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.
+// mustHibernate
+//******************************************************************************
+
+#if HIBERNATION
+
+bool
+IOPMrootDomain::mustHibernate( void )
+{
+ return lowBatteryCondition || thermalWarningState;
+}
+
+#endif /* HIBERNATION */
+
+//******************************************************************************
+// AOT
//******************************************************************************
-void IOPMrootDomain::adjustPowerState( bool sleepASAP )
+// 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)
{
- DLOG("adjustPowerState ps %u, asap %d, slider %ld\n",
- (uint32_t) getPowerState(), sleepASAP, sleepSlider);
+ _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;
- ASSERT_GATED();
+ _systemMessageClientMask = kSystemMessageClientLegacyApp;
+ tellClients(kIOMessageSystemWillPowerOn);
- if ((sleepSlider == 0) || !checkSystemSleepEnabled())
- {
- changePowerStateToPriv(ON_STATE);
- }
- else if ( sleepASAP )
- {
- changePowerStateToPriv(SLEEP_STATE);
- }
+ if (cps) {
+ changePowerStateToPriv(getRUN_STATE());
+ }
}
-void IOPMrootDomain::handleDisplayPowerOn( )
+void
+IOPMrootDomain::aotEvaluate(IOTimerEventSource * timer)
{
- if (!wrangler) return;
- if (displayPowerOnRequested)
- {
- if (!checkSystemCanSustainFullWake()) return;
+ bool exitNow;
- // Force wrangler to max power state. If system is in dark wake
- // this alone won't raise the wrangler's power state.
+ IOLog("aotEvaluate(%d) 0x%x\n", (timer != NULL), _aotPendingFlags);
- wrangler->changePowerStateForRootDomain(kWranglerPowerStateMax);
+ 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);
+ }
+}
- // System in dark wake, always requesting full wake should
- // not have any bad side-effects, even if the request fails.
+#else /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */
- 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.
+unsigned long
+IOPMrootDomain::getRUN_STATE(void)
+{
+ return ON_STATE;
+}
- wrangler->changePowerStateForRootDomain(kWranglerPowerStateMin + 1);
- wrangler->changePowerStateForRootDomain(kWranglerPowerStateMin);
+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);
+ }
}
//******************************************************************************
// IOPMPowerStateQueue callback function. Running on PM work loop thread.
//******************************************************************************
-void IOPMrootDomain::dispatchPowerEvent(
- uint32_t event, void * arg0, uint64_t arg1 )
-{
- DLOG("power event %u args %p 0x%llx\n", event, OBFUSCATE(arg0), arg1);
- ASSERT_GATED();
-
- switch (event)
- {
- case kPowerEventFeatureChanged:
- messageClients(kIOPMMessageFeatureChange, this);
- break;
-
- case kPowerEventReceivedPowerNotification:
- handlePowerNotification( (UInt32)(uintptr_t) arg0 );
- break;
-
- case kPowerEventSystemBootCompleted:
- if (systemBooting)
- {
- systemBooting = false;
-
- if (lowBatteryCondition)
- {
- privateSleepSystem (kIOPMSleepReasonLowPower);
-
- // The rest is unnecessary since the system is expected
- // to sleep immediately. The following wake will update
- // everything.
- break;
- }
-
- if (swd_flags & SWD_VALID_LOGS) {
- if (swd_flags & SWD_LOGS_IN_MEM) {
- sleepWakeDebugDumpFromMem(swd_logBufMap);
- swd_logBufMap->release();
- swd_logBufMap = 0;
- }
- else if (swd_flags & SWD_LOGS_IN_FILE)
- sleepWakeDebugDumpFromFile();
- }
- else if (swd_flags & (SWD_BOOT_BY_SW_WDOG|SWD_BOOT_BY_OSX_WDOG)) {
- // If logs are invalid, write the failure code
- sleepWakeDebugDumpFromMem(NULL);
- }
- // If lid is closed, re-send lid closed notification
- // now that booting is complete.
- if ( clamshellClosed )
- {
- handlePowerNotification(kLocalEvalClamshellCommand);
- }
- evaluatePolicy( kStimulusAllowSystemSleepChanged );
-
- }
- break;
-
- case kPowerEventSystemShutdown:
- 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:
- userDisabledAllSleep = (kOSBooleanTrue == (OSBoolean *) arg0);
- break;
-
- case kPowerEventRegisterSystemCapabilityClient:
- if (systemCapabilityNotifier)
- {
- systemCapabilityNotifier->release();
- systemCapabilityNotifier = 0;
- }
- if (arg0)
- {
- systemCapabilityNotifier = (IONotifier *) arg0;
- systemCapabilityNotifier->retain();
- }
- /* intentional fall-through */
-
- case kPowerEventRegisterKernelCapabilityClient:
- if (!_joinedCapabilityClients)
- _joinedCapabilityClients = OSSet::withCapacity(8);
- if (arg0)
- {
- IONotifier * notify = (IONotifier *) arg0;
- if (_joinedCapabilityClients)
- {
- _joinedCapabilityClients->setObject(notify);
- synchronizePowerTree( kIOPMSyncNoChildNotify );
- }
- notify->release();
- }
- break;
-
- case kPowerEventPolicyStimulus:
- if (arg0)
- {
- int stimulus = (uintptr_t) arg0;
- evaluatePolicy( stimulus, (uint32_t) arg1 );
- }
- break;
-
- case kPowerEventAssertionCreate:
- if (pmAssertions) {
- pmAssertions->handleCreateAssertion((OSData *)arg0);
- }
- break;
-
-
- case kPowerEventAssertionRelease:
- if (pmAssertions) {
- pmAssertions->handleReleaseAssertion(arg1);
- }
- break;
-
- case kPowerEventAssertionSetLevel:
- if (pmAssertions) {
- pmAssertions->handleSetAssertionLevel(arg1, (IOPMDriverAssertionLevel)(uintptr_t)arg0);
- }
- break;
-
- case kPowerEventQueueSleepWakeUUID:
- handleQueueSleepWakeUUID((OSObject *)arg0);
- break;
- case kPowerEventPublishSleepWakeUUID:
- handlePublishSleepWakeUUID((bool)arg0);
- break;
-
- case kPowerEventSetDisplayPowerOn:
- if (!wrangler) break;
- if (arg1 != 0)
- {
- displayPowerOnRequested = true;
- }
- else
- {
- displayPowerOnRequested = false;
- }
- handleDisplayPowerOn();
- break;
- }
+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;
+ }
}
//******************************************************************************
// more information.
//******************************************************************************
-IOReturn IOPMrootDomain::systemPowerEventOccurred(
- const OSSymbol *event,
- uint32_t intValue)
+IOReturn
+IOPMrootDomain::systemPowerEventOccurred(
+ const OSSymbol *event,
+ uint32_t intValue)
{
- IOReturn attempt = kIOReturnSuccess;
- OSNumber *newNumber = NULL;
+ IOReturn attempt = kIOReturnSuccess;
+ OSNumber *newNumber = NULL;
- if (!event)
- return kIOReturnBadArgument;
+ if (!event) {
+ return kIOReturnBadArgument;
+ }
- newNumber = OSNumber::withNumber(intValue, 8*sizeof(intValue));
- if (!newNumber)
- return kIOReturnInternalError;
+ newNumber = OSNumber::withNumber(intValue, 8 * sizeof(intValue));
+ if (!newNumber) {
+ return kIOReturnInternalError;
+ }
- attempt = systemPowerEventOccurred(event, (OSObject *)newNumber);
+ attempt = systemPowerEventOccurred(event, (OSObject *)newNumber);
- newNumber->release();
+ newNumber->release();
- return attempt;
+ return attempt;
}
-void IOPMrootDomain::setThermalState(OSObject *value)
+void
+IOPMrootDomain::setThermalState(OSObject *value)
{
- OSNumber * num;
+ OSNumber * num;
- if (gIOPMWorkLoop->inGate() == false) {
- gIOPMWorkLoop->runAction(
- OSMemberFunctionCast(IOWorkLoop::Action, this, &IOPMrootDomain::setThermalState),
- (OSObject *)this,
- (void *)value);
+ 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;
- }
+ return;
+ }
+ if (value && (num = OSDynamicCast(OSNumber, value))) {
+ thermalWarningState = ((num->unsigned32BitValue() == kIOPMThermalLevelWarning) ||
+ (num->unsigned32BitValue() == kIOPMThermalLevelTrap)) ? 1 : 0;
+ }
}
-IOReturn IOPMrootDomain::systemPowerEventOccurred(
- const OSSymbol *event,
- OSObject *value)
+IOReturn
+IOPMrootDomain::systemPowerEventOccurred(
+ const OSSymbol *event,
+ OSObject *value)
{
- OSDictionary *thermalsDict = NULL;
- bool shouldUpdate = true;
+ OSDictionary *thermalsDict = NULL;
+ bool shouldUpdate = true;
- if (!event || !value)
- return kIOReturnBadArgument;
+ 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;
+ }
- // 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);
+ if ((flags.bit.displaySleep) &&
+ (kFullWakeReasonDisplayOn == fullWakeReason)) {
+ // kIOPMSleepReasonMaintenance?
+ DLOG("Display sleep while in notification wake\n");
+ changePowerStateWithOverrideTo( SLEEP_STATE, kIOPMSleepReasonMaintenance );
+ }
- thermalsDict = (OSDictionary *)getProperty(kIOPMRootDomainPowerStatusKey);
+ if (flags.bit.userBecameInactive || flags.bit.sleepDelayChanged) {
+ bool cancelQuickSpindown = false;
- if (thermalsDict && OSDynamicCast(OSDictionary, thermalsDict)) {
- thermalsDict = OSDictionary::withDictionary(thermalsDict);
- } else {
- thermalsDict = OSDictionary::withCapacity(1);
- }
+ 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.
- if (!thermalsDict) {
- shouldUpdate = false;
- goto exit;
- }
+ DLOG("extra sleep timer changed\n");
+ cancelIdleSleepTimer();
+ cancelQuickSpindown = true;
+ } else {
+ DLOG("user inactive\n");
+ }
- thermalsDict->setObject (event, value);
+ if (!userIsActive && idleSleepEnabled) {
+ startIdleSleepTimer(getTimeToIdleSleep());
+ }
- setProperty (kIOPMRootDomainPowerStatusKey, thermalsDict);
+ if (cancelQuickSpindown) {
+ restoreUserSpinDownTimeout();
+ }
+ }
- thermalsDict->release();
+ 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());
+ }
+ }
+ }
-exit:
- // UNLOCK
- if (featuresDictLock) IOLockUnlock(featuresDictLock);
+ if (flags.bit.idleSleepDisabled) {
+ DLOG("idle sleep timer disabled\n");
+ cancelIdleSleepTimer();
+ restoreUserSpinDownTimeout();
+ adjustPowerState();
+ }
- if (shouldUpdate) {
- if (event &&
- event->isEqualTo(kIOPMThermalLevelWarningKey)) {
- setThermalState(value);
- }
- messageClients (kIOPMMessageSystemPowerEventOccurred, (void *)NULL);
- }
+ 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;
+ }
+ }
- return kIOReturnSuccess;
+ adjustPowerState(sleepASAP);
+ }
}
-//******************************************************************************
-// 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 )
-{
- pmPowerStateQueue->submitPowerEvent(
- kPowerEventReceivedPowerNotification, (void *)(uintptr_t) msg );
- return kIOReturnSuccess;
-}
-
-void IOPMrootDomain::handlePowerNotification( UInt32 msg )
-{
- bool eval_clamshell = false;
-
- ASSERT_GATED();
-
- /*
- * Local (IOPMrootDomain only) eval clamshell command
- */
- if (msg & kLocalEvalClamshellCommand)
- {
- 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)
- {
- // 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)
- {
- // 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)
- {
- 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 );
+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)) */
-#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)
- {
- // 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)
- {
- clamshellDisabled = true;
- sendClientClamshellNotification();
- }
-
- /*
- * Evaluate clamshell and SLEEP if appropiate
- */
- if (eval_clamshell && clamshellClosed)
- {
- if (shouldSleepOnClamshellClosed())
- privateSleepSystem (kIOPMSleepReasonClamshell);
- else
- evaluatePolicy( kStimulusDarkWakeEvaluate );
- }
-
- /*
- * Power Button
- */
- if (msg & kIOPMPowerButton)
- {
- if (!wranglerAsleep)
- {
- OSString *pbs = OSString::withCString("DisablePowerButtonSleep");
- // Check that power button sleep is enabled
- if( pbs ) {
- if( kOSBooleanTrue != getProperty(pbs))
- privateSleepSystem (kIOPMSleepReasonPowerButton);
- }
- }
- else
- reportUserInput();
- }
+ return preventIdleSleepList->getCount();
}
-//******************************************************************************
-// 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;
-
- DLOG("evaluatePolicy( %d, 0x%x )\n", stimulus, arg);
-
- ASSERT_GATED();
- flags.u32 = 0;
-
- switch (stimulus)
- {
- case kStimulusDisplayWranglerSleep:
- if (!wranglerAsleep)
- {
- // first transition to wrangler sleep or lower
- wranglerAsleep = true;
- flags.bit.displaySleep = true;
- }
- break;
-
- case kStimulusDisplayWranglerWake:
- displayIdleForDemandSleep = false;
- wranglerAsleep = false;
- break;
-
- case kStimulusEnterUserActiveState:
- if (_preventUserActive)
- {
- DLOG("user active dropped\n");
- break;
- }
- if (!userIsActive)
- {
- userIsActive = true;
- userWasActive = true;
-
- // Stay awake after dropping demand for display power on
- if (kFullWakeReasonDisplayOn == fullWakeReason)
- fullWakeReason = fFullWakeReasonDisplayOnAndLocalUser;
-
- setProperty(gIOPMUserIsActiveKey, kOSBooleanTrue);
- messageClients(kIOPMMessageUserIsActiveChanged);
- }
- flags.bit.idleSleepDisabled = true;
- break;
-
- case kStimulusLeaveUserActiveState:
- if (userIsActive)
- {
- userIsActive = false;
- clock_get_uptime(&userBecameInactiveTime);
- flags.bit.userBecameInactive = true;
-
- setProperty(gIOPMUserIsActiveKey, kOSBooleanFalse);
- messageClients(kIOPMMessageUserIsActiveChanged);
- }
- break;
-
- case kStimulusAggressivenessChanged:
- {
- 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));
-
- if (0x7fffffff == minutesToIdleSleep)
- minutesToIdleSleep = idleSeconds;
-
- // 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 ((sleepSlider == 0) && (minutesToIdleSleep != 0))
- flags.bit.idleSleepEnabled = true;
-
- if ((sleepSlider != 0) && (minutesToIdleSleep == 0))
- flags.bit.idleSleepDisabled = true;
-
- 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:
- 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:
- flags.bit.adjustPowerState = true;
- break;
-
- case kStimulusDarkWakeActivityTickle:
- // 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:
- // 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;
- }
-
- // Always accelerate disk spindown while in dark wake,
- // even if system does not support/allow sleep.
-
- cancelIdleSleepTimer();
- setQuickSpinDownTimeout();
- }
- break;
-
- case kStimulusDarkWakeEvaluate:
- if (systemDarkWake)
- {
- flags.bit.evaluateDarkWake = true;
- }
- break;
-
- case kStimulusNoIdleSleepPreventers:
- 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(ON_STATE);
- }
- }
- }
-
- if (systemDarkWake)
- {
- // The rest are irrelevant while system is in dark wake.
- flags.u32 = 0;
- }
-
- if ((flags.bit.displaySleep) &&
- (kFullWakeReasonDisplayOn == fullWakeReason))
- {
- // kIOPMSleepReasonMaintenance?
- 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 && sleepSlider)
- {
- startIdleSleepTimer(getTimeToIdleSleep());
- }
-
- if (cancelQuickSpindown)
- restoreUserSpinDownTimeout();
- }
-
- if (flags.bit.idleSleepEnabled)
- {
- DLOG("idle sleep timer enabled\n");
- if (!wrangler)
- {
- changePowerStateToPriv(ON_STATE);
- if (idleSeconds)
- {
- 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 && (preventIdleSleepList->getCount() == 0))
- {
- if (!wrangler)
- {
- changePowerStateToPriv(ON_STATE);
- if (idleSeconds)
- {
- // stay awake for at least idleSeconds
- startIdleSleepTimer(idleSeconds);
- }
- }
- else if (!extraSleepDelay && !idleSleepTimerPending && !systemDarkWake)
- {
- sleepASAP = true;
- }
- }
-
- adjustPowerState(sleepASAP);
- }
-}
//******************************************************************************
// requestFullWake
// Request transition from dark wake to full wake
//******************************************************************************
-void IOPMrootDomain::requestFullWake( FullWakeReason reason )
-{
- uint32_t options = 0;
- IOService * pciRoot = 0;
- 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, &systemWakeTime);
- absolutetime_to_nanoseconds(now, &nsec);
- MSG("full wake %s (reason %u) %u ms\n",
- promotion ? "promotion" : "request",
- fullWakeReason, ((int)((nsec) / 1000000ULL)));
- }
+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)));
+ }
}
//******************************************************************************
// Assumptions: fullWakeReason was updated
//******************************************************************************
-void IOPMrootDomain::willEnterFullWake( void )
+void
+IOPMrootDomain::willEnterFullWake( void )
{
- hibernateRetry = false;
- sleepToStandby = false;
- sleepTimerMaintenance = false;
+ hibernateRetry = false;
+ sleepToStandby = false;
+ standbyNixed = false;
+ resetTimers = false;
+ sleepTimerMaintenance = false;
- _systemMessageClientMask = kSystemMessageClientPowerd |
- kSystemMessageClientLegacyApp;
+ _systemMessageClientMask = kSystemMessageClientPowerd |
+ kSystemMessageClientLegacyApp;
- if ((_highestCapability & kIOPMSystemCapabilityGraphics) == 0)
- {
- // Initial graphics full power
- _systemMessageClientMask |= kSystemMessageClientKernel;
+ if ((_highestCapability & kIOPMSystemCapabilityGraphics) == 0) {
+ // Initial graphics full power
+ _systemMessageClientMask |= kSystemMessageClientKernel;
- // Set kIOPMUserTriggeredFullWakeKey before full wake for IOGraphics
- setProperty(gIOPMUserTriggeredFullWakeKey,
- (kFullWakeReasonLocalUser == fullWakeReason) ?
- kOSBooleanTrue : kOSBooleanFalse);
- }
+ // Set kIOPMUserTriggeredFullWakeKey before full wake for IOGraphics
+ setProperty(gIOPMUserTriggeredFullWakeKey,
+ (kFullWakeReasonLocalUser == fullWakeReason) ?
+ kOSBooleanTrue : kOSBooleanFalse);
+ }
#if HIBERNATION
- IOHibernateSetWakeCapabilities(_pendingCapability);
+ IOHibernateSetWakeCapabilities(_pendingCapability);
#endif
- IOService::setAdvisoryTickleEnable( true );
- tellClients(kIOMessageSystemWillPowerOn);
- preventTransitionToUserActive(false);
+ IOService::setAdvisoryTickleEnable( true );
+ tellClients(kIOMessageSystemWillPowerOn);
+ preventTransitionToUserActive(false);
}
//******************************************************************************
// System has already entered full wake. Invoked by a delayed thread call.
//******************************************************************************
-void IOPMrootDomain::fullWakeDelayedWork( void )
+void
+IOPMrootDomain::fullWakeDelayedWork( void )
{
#if DARK_TO_FULL_EVALUATE_CLAMSHELL
- // Not gated, don't modify state
- if ((kSystemTransitionNone == _systemTransitionType) &&
- CAP_CURRENT(kIOPMSystemCapabilityGraphics))
- {
- receivePowerNotification( kLocalEvalClamshellCommand );
- }
+ // Not gated, don't modify state
+ if ((kSystemTransitionNone == _systemTransitionType) &&
+ CAP_CURRENT(kIOPMSystemCapabilityGraphics)) {
+ receivePowerNotification( kLocalEvalClamshellCommand );
+ }
#endif
}
// evaluateAssertions
//
//******************************************************************************
-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) {
- evaluatePolicy(kStimulusDarkWakeEvaluate);
- if (!assertOnWakeSecs && systemWakeTime) {
- AbsoluteTime now;
- clock_usec_t microsecs;
- clock_get_uptime(&now);
- SUB_ABSOLUTETIME(&now, &systemWakeTime);
- absolutetime_to_microtime(now, &assertOnWakeSecs, µsecs);
- if (assertOnWakeReport) {
- HISTREPORT_TALLYVALUE(assertOnWakeReport, (int64_t)assertOnWakeSecs);
- DLOG("Updated assertOnWake %lu\n", (unsigned long)assertOnWakeSecs);
- }
- }
- }
-
- if (changedBits & kIOPMDriverAssertionReservedBit7) {
- bool value = (newAssertions & kIOPMDriverAssertionReservedBit7) ? true : false;
- if (value) {
- DLOG("Driver assertion ReservedBit7 raised. Legacy IO preventing sleep\n");
- updatePreventIdleSleepList(this, true);
- }
- else {
- DLOG("Driver assertion ReservedBit7 dropped\n");
- updatePreventIdleSleepList(this, false);
- }
- }
+
+// 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: -
//
//******************************************************************************
-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;
+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;
+ }
+}
- eventIndex &= ~(kIOPMStatsEventStartFlag | kIOPMStatsEventStopFlag);
+/*
+ * 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;
+ }
+ }
- absolutetime_to_nanoseconds(timestamp, &nsec);
+ if (response->isEqualTo(gIOPMStatsResponsePrompt) ||
+ (_systemTransitionType == kSystemTransitionNone) || (_systemTransitionType == kSystemTransitionNewCapClient)) {
+ return;
+ }
- 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/1000000ULL);
- }
- break;
- case kIOPMStatsHibernateImageRead:
- if (starting)
- gPMStats.hibRead.start = nsec;
- else if (stopping)
- gPMStats.hibRead.stop = nsec;
+ 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;
+ }
- if (stopping) {
- delta = gPMStats.hibRead.stop - gPMStats.hibRead.start;
- IOLog("PMStats: Hibernate read took %qd ms\n", delta/1000000ULL);
+ 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();
+ }
+ }
- publishPMStats = OSData::withBytes(&gPMStats, sizeof(gPMStats));
- setProperty(kIOPMSleepStatisticsKey, publishPMStats);
- publishPMStats->release();
- bzero(&gPMStats, sizeof(gPMStats));
- }
- break;
- }
-}
+ delayNum = OSNumber::withNumber(delay_ms, 32);
+ if (delayNum) {
+ responseDescription->setObject(_statsTimeMSKey, delayNum);
+ delayNum->release();
+ }
-/*
- * 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,
- int app_pid,
- 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 = 0;
-
- if (object && (notify = OSDynamicCast(IOPMServiceInterestNotifier, object)))
- {
- if (response->isEqualTo(gIOPMStatsApplicationResponseTimedOut))
- notify->ackTimeoutCnt++;
- else
- notify->ackTimeoutCnt = 0;
-
- }
-
- if (response->isEqualTo(gIOPMStatsApplicationResponsePrompt) ||
- (_systemTransitionType == kSystemTransitionNone) || (_systemTransitionType == kSystemTransitionNewCapClient))
- return;
-
-
- 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 && (strlen(name) > 0))
- {
- appname = OSSymbol::withCString(name);
- if (appname) {
- responseDescription->setObject(_statsNameKey, appname);
- appname->release();
- }
- }
-
- if (app_pid != -1) {
- pidNum = OSNumber::withNumber(app_pid, 32);
- 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 (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);
+ 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();
+ }
+
- }
- 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;
+
+ IOLockLock(pmStatsLock);
+ if (pmStatsAppResponses && pmStatsAppResponses->getCount() < 50) {
+ pmStatsAppResponses->setObject(responseDescription);
+ }
+ IOLockUnlock(pmStatsLock);
+
+ responseDescription->release();
+ }
+
+ return;
}
// MARK: -
//******************************************************************************
#define kIOPMRegisterNVRAMTracePointHandlerKey \
- "IOPMRegisterNVRAMTracePointHandler"
-
-IOReturn IOPMrootDomain::callPlatformFunction(
- const OSSymbol * functionName,
- bool waitForFunction,
- void * param1, void * param2,
- void * param3, void * param4 )
-{
- 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;
- statusCode = (((uint64_t)tracePointPCI) << 32) | tracePointPhases;
- if ((tracePointPhases >> 24) != kIOPMTracePointSystemUp)
- {
- MSG("Sleep failure code 0x%08x 0x%08x\n",
- tracePointPCI, tracePointPhases);
- }
- setProperty(kIOPMSleepWakeFailureCodeKey, statusCode, 64);
- pmTracer->tracePointHandler( pmTracer->tracePointTarget, 0, 0 );
-
- return kIOReturnSuccess;
- }
+ "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;
- }
+ 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);
+ 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::tracePoint( uint8_t point )
+void
+IOPMrootDomain::traceDetail(OSObject *object, bool start)
{
- if (systemBooting) return;
+ IOPMServiceInterestNotifier *notifier;
+
+ if (systemBooting) {
+ return;
+ }
- if (kIOPMTracePointWakeCapabilityClients == point)
- acceptSystemWakeEvents(false);
+ notifier = OSDynamicCast(IOPMServiceInterestNotifier, object);
+ if (!notifier) {
+ return;
+ }
- PMDebug(kPMLogSleepWakeTracePoint, point, 0);
- pmTracer->tracePoint(point);
+ 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::tracePoint( uint8_t point, uint8_t data )
+
+void
+IOPMrootDomain::traceAckDelay(OSObject *object, uint32_t response, uint32_t delay_ms)
{
- if (systemBooting) return;
+ IOPMServiceInterestNotifier *notifier = OSDynamicCast(IOPMServiceInterestNotifier, object);
+ if (!notifier) {
+ DLOG("Unknown notifier\n");
+ return;
+ }
- PMDebug(kPMLogSleepWakeTracePoint, point, data);
- pmTracer->tracePoint(point, data);
+ 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 detail )
+void
+IOPMrootDomain::traceDetail(uint32_t msgType, uint32_t msgIndex, uint32_t delay)
{
- if (!systemBooting)
- pmTracer->traceDetail( detail );
+ 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)
+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;
+ size_t reportSize;
+ void **report = NULL;
+ uint32_t bktCnt;
+ uint32_t bktSize;
+ uint32_t *clientCnt;
+
+ ASSERT_GATED();
- 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;
+ }
- 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;
- }
+ return;
+}
- switch (action)
- {
- case kIOReportEnable:
+IOReturn
+IOPMrootDomain::configureReport(IOReportChannelList *channelList,
+ IOReportConfigureAction action,
+ void *result,
+ void *destination)
+{
+ unsigned cnt;
+ uint64_t configAction = (uint64_t)action;
- if (*report) {
- (*clientCnt)++;
- break;
- }
+ 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);
+ }
+ }
- reportSize = HISTREPORT_BUFSIZE(bktCnt);
- *report = IOMalloc(reportSize);
- if (*report == NULL) {
- break;
- }
- bzero(*report, reportSize);
- HISTREPORT_INIT(bktCnt, bktSize, *report, reportSize,
- getRegistryEntryID(), channel_id, kIOReportCategoryPower);
+ return super::configureReport(channelList, action, result, destination);
+}
- if (channel_id == kAssertDelayChID)
- assertOnWakeSecs = 0;
+IOReturn
+IOPMrootDomain::updateReportGated(uint64_t ch_id, void *result, IOBufferMemoryDescriptor *dest)
+{
+ uint32_t size2cpy;
+ void *data2cpy;
+ void **report;
- break;
+ ASSERT_GATED();
- case kIOReportDisable:
- if (*clientCnt == 0) {
- break;
- }
- if (*clientCnt == 1)
- {
- IOFree(*report, HISTREPORT_BUFSIZE(bktCnt));
- *report = NULL;
- }
- (*clientCnt)--;
+ report = NULL;
+ if (ch_id == kAssertDelayChID) {
+ report = &assertOnWakeReport;
+ } else if (ch_id == kSleepDelaysChID) {
+ report = &sleepDelaysReport;
+ }
- if (channel_id == kAssertDelayChID)
- assertOnWakeSecs = -1; // Invalid value to prevent updates
+ if (*report == NULL) {
+ return kIOReturnNotOpen;
+ }
- break;
+ HISTREPORT_UPDATEPREP(*report, data2cpy, size2cpy);
+ if (size2cpy > (dest->getCapacity() - dest->getLength())) {
+ return kIOReturnOverrun;
+ }
- case kIOReportGetDimensions:
- if (*report) {
- HISTREPORT_UPDATERES(*report, kIOReportGetDimensions, result);
- }
- break;
- }
+ HISTREPORT_UPDATERES(*report, kIOReportCopyChannelData, result);
+ dest->appendBytes(data2cpy, size2cpy);
- return;
+ return kIOReturnSuccess;
}
-IOReturn IOPMrootDomain::configureReport(IOReportChannelList *channelList,
- IOReportConfigureAction action,
- void *result,
- void *destination)
+IOReturn
+IOPMrootDomain::updateReport(IOReportChannelList *channelList,
+ IOReportUpdateAction action,
+ void *result,
+ void *destination)
{
- unsigned cnt;
- uint64_t configAction = (uint64_t)action;
+ uint32_t size2cpy;
+ void *data2cpy;
+ uint8_t buf[SIMPLEREPORT_BUFSIZE];
+ IOBufferMemoryDescriptor *dest = OSDynamicCast(IOBufferMemoryDescriptor, (OSObject *)destination);
+ unsigned cnt;
+ uint64_t ch_id;
- 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);
+ if (action != kIOReportCopyChannelData) {
+ goto exit;
+ }
- SIMPLEREPORT_UPDATEPREP(buf, data2cpy, size2cpy);
- SIMPLEREPORT_UPDATERES(kIOReportCopyChannelData, result);
- dest->appendBytes(data2cpy, size2cpy);
- }
+ 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);
+ return super::updateReport(channelList, action, result, destination);
}
#define kPMBestGuessPCIDevicesCount 25
#define kPMMaxRTCBitfieldSize 32
-PMTraceWorker *PMTraceWorker::tracer(IOPMrootDomain *owner)
+PMTraceWorker * PMTraceWorker::tracer(IOPMrootDomain * owner)
{
- PMTraceWorker *me;
+ PMTraceWorker *me;
- me = OSTypeAlloc( PMTraceWorker );
- if (!me || !me->init())
- {
- return NULL;
- }
+ me = OSTypeAlloc( PMTraceWorker );
+ if (!me || !me->init()) {
+ return NULL;
+ }
- DLOG("PMTraceWorker %p\n", OBFUSCATE(me));
+ 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->pciMappingLock = IOLockAlloc();
- me->tracePhase = kIOPMTracePointSystemUp;
- me->loginWindowPhase = 0;
- me->traceData32 = 0;
- return 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)
+void
+PMTraceWorker::RTC_TRACE(void)
{
- if (tracePointHandler && tracePointTarget)
- {
- uint32_t wordA;
+ if (tracePointHandler && tracePointTarget) {
+ uint32_t wordA;
- wordA = (tracePhase << 24) | (loginWindowPhase << 16) |
- (traceData8 << 8);
+ 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);
- }
+ 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)
+int
+PMTraceWorker::recordTopLevelPCIDevice(IOService * pciDevice)
{
- const OSSymbol * deviceName;
- int index = -1;
+ const OSSymbol * deviceName;
+ int index = -1;
- IOLockLock(pciMappingLock);
+ IOLockLock(pmTraceWorkerLock);
- if (!pciDeviceBitMappings)
- {
- pciDeviceBitMappings = OSArray::withCapacity(kPMBestGuessPCIDevicesCount);
- if (!pciDeviceBitMappings)
- goto exit;
- }
+ if (!pciDeviceBitMappings) {
+ pciDeviceBitMappings = OSArray::withCapacity(kPMBestGuessPCIDevicesCount);
+ if (!pciDeviceBitMappings) {
+ goto exit;
+ }
+ }
- // Check for bitmask overflow.
- if (pciDeviceBitMappings->getCount() >= kPMMaxRTCBitfieldSize)
- 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);
+ 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(pciMappingLock);
- return index;
+ IOLockUnlock(pmTraceWorkerLock);
+ return index;
}
-bool PMTraceWorker::serialize(OSSerialize *s) const
+bool
+PMTraceWorker::serialize(OSSerialize *s) const
{
- bool ok = false;
- if (pciDeviceBitMappings)
- {
- IOLockLock(pciMappingLock);
- ok = pciDeviceBitMappings->serialize(s);
- IOLockUnlock(pciMappingLock);
- }
- return ok;
+ bool ok = false;
+ if (pciDeviceBitMappings) {
+ IOLockLock(pmTraceWorkerLock);
+ ok = pciDeviceBitMappings->serialize(s);
+ IOLockUnlock(pmTraceWorkerLock);
+ }
+ return ok;
}
-void PMTraceWorker::tracePoint(uint8_t phase)
+void
+PMTraceWorker::tracePoint(uint8_t phase)
{
- // clear trace detail when phase begins
- if (tracePhase != phase)
- traceData32 = 0;
+ // clear trace detail when phase begins
+ if (tracePhase != phase) {
+ traceData32 = 0;
+ }
- tracePhase = phase;
+ tracePhase = phase;
- DLOG("trace point 0x%02x\n", tracePhase);
- RTC_TRACE();
+ DLOG("trace point 0x%02x\n", tracePhase);
+ RTC_TRACE();
}
-void PMTraceWorker::tracePoint(uint8_t phase, uint8_t data8)
+void
+PMTraceWorker::traceDetail(uint32_t detail)
{
- // clear trace detail when phase begins
- if (tracePhase != phase)
- traceData32 = 0;
-
- tracePhase = phase;
- traceData8 = data8;
+ 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("trace point 0x%02x 0x%02x\n", tracePhase, traceData8);
- RTC_TRACE();
+ DLOG("component trace point 0x%02x data 0x%08x\n", component, data);
+ RTC_TRACE();
}
-void PMTraceWorker::traceDetail(uint32_t detail)
+void
+PMTraceWorker::tracePCIPowerChange(
+ change_t type, IOService *service, uint32_t changeFlags, uint32_t bitNum)
{
- if (kIOPMTracePointSleepPriorityClients != tracePhase)
- return;
+ uint32_t bitMask;
+ uint32_t expectedFlag;
- traceData32 = detail;
- DLOG("trace point 0x%02x detail 0x%08x\n", tracePhase, traceData32);
+ // 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;
+ }
- RTC_TRACE();
+ // 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();
+ }
}
-void PMTraceWorker::traceLoginWindowPhase(uint8_t phase)
+uint64_t
+PMTraceWorker::getPMStatusCode()
{
- loginWindowPhase = phase;
-
- DLOG("loginwindow tracepoint 0x%02x\n", loginWindowPhase);
- RTC_TRACE();
+ return ((uint64_t)traceData32 << 32) | ((uint64_t)tracePhase);
}
-void PMTraceWorker::tracePCIPowerChange(
- change_t type, IOService *service, uint32_t changeFlags, uint32_t bitNum)
+uint8_t
+PMTraceWorker::getTracePhase()
{
- 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);
- }
- else
- {
- traceData32 &= ~bitMask;
- _LOG("PMTrace: Device %s finished - bit %2d mask 0x%08x => 0x%08x\n",
- service->getName(), bitNum, bitMask, traceData32);
- }
-
- DLOG("trace point 0x%02x detail 0x%08x\n", tracePhase, traceData32);
- RTC_TRACE();
- }
+ return tracePhase;
}
-uint64_t PMTraceWorker::getPMStatusCode( )
+uint32_t
+PMTraceWorker::getTraceData()
{
- return (((uint64_t)traceData32 << 32) | ((uint64_t)tracePhase << 24) |
- (loginWindowPhase << 16) | (traceData8 << 8));
-
+ return traceData32;
}
// MARK: -
//
//******************************************************************************
-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 0;
-}
-
-void PMHaltWorker::free( void )
-{
- DLOG("PMHaltWorker free %p\n", OBFUSCATE(this));
- if (lock)
- {
- IOLockFree(lock);
- lock = 0;
- }
- 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;
- UInt32 deltaTime;
- bool timeout;
-
- while (true)
- {
- service = 0;
- timeout = false;
-
- // Claim an unit of work from the shared pool
- IOLockLock( gPMHaltLock );
- inner = (OSSet *)gPMHaltArray->getObject(me->depth);
- if (inner)
- {
- service = (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 = 0;
- timeout = me->timeout;
- IOLockUnlock(me->lock);
- }
-
- deltaTime = computeDeltaTimeMS(&startTime);
- if ((deltaTime > kPMHaltTimeoutMS) || timeout ||
- (gIOKitDebug & kIOLogPMRootDomain))
- {
- LOG("%s driver %s (0x%llx) took %u ms\n",
- (gPMHaltMessageType == kIOMessageSystemWillPowerOff) ?
- "PowerOff" : "Restart",
- service->getName(), service->getRegistryEntryID(),
- (uint32_t) deltaTime );
- }
-
- 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;
- MSG("%s still waiting on %s\n",
- (gPMHaltMessageType == kIOMessageSystemWillPowerOff) ?
- "PowerOff" : "Restart",
- me->service->getName());
- }
- }
- IOLockUnlock(me->lock);
+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);
}
//******************************************************************************
// Acknowledgement from drivers that they have prepared for shutdown/restart.
//******************************************************************************
-void IOPMrootDomain::acknowledgeSystemWillShutdown( IOService * from )
+void
+IOPMrootDomain::acknowledgeSystemWillShutdown( IOService * from )
{
- PMHaltWorker * worker;
- OSObject * prop;
+ PMHaltWorker * worker;
+ OSObject * prop;
- if (!from)
- return;
+ 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());
- }
+ //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( 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
- }
+ 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;
+ DLOG("%s done\n", __FUNCTION__);
+ return;
}
// MARK: -
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
-IOPMDriverAssertionID IOPMrootDomain::createPMAssertion(
- IOPMDriverAssertionType whichAssertionBits,
- IOPMDriverAssertionLevel assertionLevel,
- IOService *ownerService,
- const char *ownerDescription)
+IOPMDriverAssertionID
+IOPMrootDomain::createPMAssertion(
+ IOPMDriverAssertionType whichAssertionBits,
+ IOPMDriverAssertionLevel assertionLevel,
+ IOService *ownerService,
+ const char *ownerDescription)
{
- IOReturn ret;
- IOPMDriverAssertionID newAssertion;
+ IOReturn ret;
+ IOPMDriverAssertionID newAssertion;
- if (!pmAssertions)
- return 0;
+ if (!pmAssertions) {
+ return 0;
+ }
- ret = pmAssertions->createAssertion(whichAssertionBits, assertionLevel, ownerService, ownerDescription, &newAssertion);
+ ret = pmAssertions->createAssertion(whichAssertionBits, assertionLevel, ownerService, ownerDescription, &newAssertion);
- if (kIOReturnSuccess == ret)
- return newAssertion;
- else
- return 0;
+ if (kIOReturnSuccess == ret) {
+ return newAssertion;
+ } else {
+ return 0;
+ }
}
-IOReturn IOPMrootDomain::releasePMAssertion(IOPMDriverAssertionID releaseAssertion)
+IOReturn
+IOPMrootDomain::releasePMAssertion(IOPMDriverAssertionID releaseAssertion)
{
- if (!pmAssertions)
- return kIOReturnInternalError;
+ if (!pmAssertions) {
+ return kIOReturnInternalError;
+ }
- return pmAssertions->releaseAssertion(releaseAssertion);
+ return pmAssertions->releaseAssertion(releaseAssertion);
}
-IOReturn IOPMrootDomain::setPMAssertionLevel(
- IOPMDriverAssertionID assertionID,
- IOPMDriverAssertionLevel assertionLevel)
+IOReturn
+IOPMrootDomain::setPMAssertionLevel(
+ IOPMDriverAssertionID assertionID,
+ IOPMDriverAssertionLevel assertionLevel)
{
- return pmAssertions->setAssertionLevel(assertionID, assertionLevel);
+ return pmAssertions->setAssertionLevel(assertionID, assertionLevel);
}
-IOPMDriverAssertionLevel IOPMrootDomain::getPMAssertionLevel(IOPMDriverAssertionType whichAssertion)
+IOPMDriverAssertionLevel
+IOPMrootDomain::getPMAssertionLevel(IOPMDriverAssertionType whichAssertion)
{
- IOPMDriverAssertionType sysLevels;
+ IOPMDriverAssertionType sysLevels;
- if (!pmAssertions || whichAssertion == 0)
- return kIOPMDriverAssertionLevelOff;
+ if (!pmAssertions || whichAssertion == 0) {
+ return kIOPMDriverAssertionLevelOff;
+ }
- sysLevels = pmAssertions->getActivatedAssertions();
+ 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;
+ // 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)
+IOReturn
+IOPMrootDomain::setPMAssertionUserLevels(IOPMDriverAssertionType inLevels)
{
- if (!pmAssertions)
- return kIOReturnNotFound;
+ if (!pmAssertions) {
+ return kIOReturnNotFound;
+ }
- return pmAssertions->setUserAssertionLevels(inLevels);
+ return pmAssertions->setUserAssertionLevels(inLevels);
}
-bool IOPMrootDomain::serializeProperties( OSSerialize * s ) const
+bool
+IOPMrootDomain::serializeProperties( OSSerialize * s ) const
{
- if (pmAssertions)
- {
- pmAssertions->publishProperties();
- }
- return( IOService::serializeProperties(s) );
+ if (pmAssertions) {
+ pmAssertions->publishProperties();
+ }
+ return IOService::serializeProperties(s);
}
-OSObject * IOPMrootDomain::copyProperty( const char * aKey) const
+OSObject *
+IOPMrootDomain::copyProperty( const char * aKey) const
{
- OSObject *obj = NULL;
- obj = IOService::copyProperty(aKey);
+ OSObject *obj = NULL;
+ obj = IOService::copyProperty(aKey);
+
+ if (obj) {
+ return obj;
+ }
- 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 (!strncmp(aKey, kIOPMSleepWakeWdogRebootKey,
- sizeof(kIOPMSleepWakeWdogRebootKey))) {
- if (swd_flags & SWD_BOOT_BY_SW_WDOG)
- 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 (!strncmp(aKey, kIOPMSleepWakeWdogLogsValidKey,
- sizeof(kIOPMSleepWakeWdogLogsValidKey))) {
- if (swd_flags & SWD_VALID_LOGS)
- return kOSBooleanTrue;
- else
- return kOSBooleanFalse;
+ 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;
+ }
- /*
- * 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, kIOPMIdleSleepPreventersWithIDKey)) {
+ OSArray *idleSleepList = NULL;
+ gRootDomain->copySleepPreventersListWithID(&idleSleepList, NULL);
+ return idleSleepList;
+ }
- if (!strcmp(aKey, kIOPMDriverWakeEventsKey))
- {
- OSArray * array = 0;
- 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 = 0;
- 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;
- }
-
- return NULL;
+ 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 )
+void
+IOPMrootDomain::copyWakeReasonString( char * outBuf, size_t bufSize )
{
- WAKEEVENT_LOCK();
- strlcpy(outBuf, gWakeReasonString, bufSize);
- WAKEEVENT_UNLOCK();
+ WAKEEVENT_LOCK();
+ strlcpy(outBuf, gWakeReasonString, bufSize);
+ WAKEEVENT_UNLOCK();
}
//******************************************************************************
// Private control for the acceptance of driver wake event claims.
//******************************************************************************
-void IOPMrootDomain::acceptSystemWakeEvents( bool accept )
-{
- bool logWakeReason = false;
-
- WAKEEVENT_LOCK();
- if (accept)
- {
- gWakeReasonString[0] = '\0';
- if (!_systemWakeEventsArray)
- _systemWakeEventsArray = OSArray::withCapacity(4);
- if ((_acceptSystemWakeEvents = (_systemWakeEventsArray != 0)))
- _systemWakeEventsArray->flushCollection();
- }
- else
- {
- _acceptSystemWakeEvents = false;
- }
- WAKEEVENT_UNLOCK();
+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 (!(_aotNow && (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);
+ if (logWakeReason) {
+ MSG("system wake events:%s\n", gWakeReasonString);
+ }
}
//******************************************************************************
// 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 = 0;
- OSNumber * deviceRegId = 0;
- OSNumber * claimTime = 0;
- OSData * flagsData = 0;
- OSString * reasonString = 0;
- OSDictionary * d = 0;
- uint64_t timestamp;
- bool ok = false;
-
- pmEventTimeStamp(×tamp);
-
- if (!device || !reason) return;
-
- 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();
- if (!gWakeReasonSysctlRegistered)
- {
- // Lazy registration until the platform driver stops registering
- // the same name.
- gWakeReasonSysctlRegistered = true;
- }
- if (_acceptSystemWakeEvents)
- {
- ok = _systemWakeEventsArray->setObject(d);
- if (gWakeReasonString[0] != '\0')
- strlcat(gWakeReasonString, " ", sizeof(gWakeReasonString));
- strlcat(gWakeReasonString, reason, sizeof(gWakeReasonString));
- }
- WAKEEVENT_UNLOCK();
+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();
+ if (deviceName) {
+ deviceName->release();
+ }
+ if (deviceRegId) {
+ deviceRegId->release();
+ }
+ if (claimTime) {
+ claimTime->release();
+ }
+ if (flagsData) {
+ flagsData->release();
+ }
+ if (reasonString) {
+ reasonString->release();
+ }
+ if (d) {
+ d->release();
+ }
}
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
OSDefineMetaClassAndStructors( PMSettingHandle, OSObject )
-void PMSettingHandle::free( void )
+void
+PMSettingHandle::free( void )
{
- if (pmso)
- {
- pmso->clientHandleFreed();
- pmso->release();
- pmso = 0;
- }
+ if (pmso) {
+ pmso->clientHandleFreed();
+ pmso->release();
+ pmso = NULL;
+ }
- OSObject::free();
+ OSObject::free();
}
// MARK: -
* 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 = 0;
- PMSettingHandle *pmsh = 0;
-
- 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;
+ 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;
+ if (pmso) {
+ pmso->release();
+ }
+ if (pmsh) {
+ pmsh->release();
+ }
+ return NULL;
}
-void PMSettingObject::free( void )
+void
+PMSettingObject::free( void )
{
- if (publishedFeatureID) {
- for (uint32_t i=0; i<settingCount; i++) {
- if (publishedFeatureID[i]) {
- parent->removePublishedFeature( publishedFeatureID[i] );
- }
- }
+ if (publishedFeatureID) {
+ for (uint32_t i = 0; i < settingCount; i++) {
+ if (publishedFeatureID[i]) {
+ parent->removePublishedFeature( publishedFeatureID[i] );
+ }
+ }
- IOFree(publishedFeatureID, sizeof(uint32_t) * settingCount);
- }
+ IOFree(publishedFeatureID, sizeof(uint32_t) * settingCount);
+ }
- super::free();
+ super::free();
}
-void PMSettingObject::dispatchPMSetting( const OSSymbol * type, OSObject * object )
+void
+PMSettingObject::dispatchPMSetting( const OSSymbol * type, OSObject * object )
{
- (*func)(target, type, object, refcon);
+ (*func)(target, type, object, refcon);
}
-void PMSettingObject::clientHandleFreed( void )
+void
+PMSettingObject::clientHandleFreed( void )
{
- parent->deregisterPMSettingObject(this);
+ parent->deregisterPMSettingObject(this);
}
// MARK: -
#define kAssertUniqueIDStart 500
-PMAssertionsTracker *PMAssertionsTracker::pmAssertionsTracker( IOPMrootDomain *rootDomain )
+PMAssertionsTracker *
+PMAssertionsTracker::pmAssertionsTracker( IOPMrootDomain *rootDomain )
{
- PMAssertionsTracker *myself;
+ PMAssertionsTracker *myself;
- myself = new PMAssertionsTracker;
+ 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) {
+ 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;
- }
+ if (!myself->assertionsArray || !myself->assertionsArrayLock) {
+ myself = NULL;
+ }
+ }
- return myself;
+ return myself;
}
/* tabulate
* 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;
- }
+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)
+IOReturn
+PMAssertionsTracker::handleCreateAssertion(OSData *newAssertion)
{
- ASSERT_GATED();
+ ASSERT_GATED();
- if (newAssertion)
- {
- IOLockLock(assertionsArrayLock);
- assertionsArray->setObject(newAssertion);
- IOLockUnlock(assertionsArrayLock);
- newAssertion->release();
+ if (newAssertion) {
+ IOLockLock(assertionsArrayLock);
+ assertionsArray->setObject(newAssertion);
+ IOLockUnlock(assertionsArrayLock);
+ newAssertion->release();
- tabulate();
- }
- return kIOReturnSuccess;
+ 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):0;
- 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;
+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)
+IOReturn
+PMAssertionsTracker::handleReleaseAssertion(
+ IOPMDriverAssertionID _id)
{
- ASSERT_GATED();
+ ASSERT_GATED();
- int index;
- PMAssertStruct *assertStruct = detailsForID(_id, &index);
+ int index;
+ PMAssertStruct *assertStruct = detailsForID(_id, &index);
- if (!assertStruct)
- return kIOReturnNotFound;
+ if (!assertStruct) {
+ return kIOReturnNotFound;
+ }
- IOLockLock(assertionsArrayLock);
- if (assertStruct->ownerString)
- assertStruct->ownerString->release();
+ IOLockLock(assertionsArrayLock);
+ if (assertStruct->ownerString) {
+ assertStruct->ownerString->release();
+ }
- assertionsArray->removeObject(index);
- IOLockUnlock(assertionsArrayLock);
+ assertionsArray->removeObject(index);
+ IOLockUnlock(assertionsArrayLock);
- tabulate();
- return kIOReturnSuccess;
+ 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)
+IOReturn
+PMAssertionsTracker::releaseAssertion(
+ IOPMDriverAssertionID _id)
{
- if (owner && owner->pmPowerStateQueue) {
- owner->pmPowerStateQueue->submitPowerEvent(kPowerEventAssertionRelease, 0, _id);
- }
- return kIOReturnSuccess;
+ 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)
+IOReturn
+PMAssertionsTracker::handleSetAssertionLevel(
+ IOPMDriverAssertionID _id,
+ IOPMDriverAssertionLevel _level)
{
- PMAssertStruct *assertStruct = detailsForID(_id, NULL);
+ PMAssertStruct *assertStruct = detailsForID(_id, NULL);
- ASSERT_GATED();
+ ASSERT_GATED();
- if (!assertStruct) {
- return kIOReturnNotFound;
- }
+ if (!assertStruct) {
+ return kIOReturnNotFound;
+ }
- IOLockLock(assertionsArrayLock);
- pmEventTimeStamp(&assertStruct->modifiedTime);
- assertStruct->level = _level;
- IOLockUnlock(assertionsArrayLock);
+ IOLockLock(assertionsArrayLock);
+ pmEventTimeStamp(&assertStruct->modifiedTime);
+ assertStruct->level = _level;
+ IOLockUnlock(assertionsArrayLock);
- tabulate();
- return kIOReturnSuccess;
+ 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, 0, 0, 0);
- }
-
- 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);
- }
- }
- }
+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;
+ return outArray;
}
-IOPMDriverAssertionType PMAssertionsTracker::getActivatedAssertions(void)
+IOPMDriverAssertionType
+PMAssertionsTracker::getActivatedAssertions(void)
{
- return assertionsCombined;
+ return assertionsCombined;
}
-IOPMDriverAssertionLevel PMAssertionsTracker::getAssertionLevel(
- IOPMDriverAssertionType type)
+IOPMDriverAssertionLevel
+PMAssertionsTracker::getAssertionLevel(
+ IOPMDriverAssertionType type)
{
- if (type && ((type & assertionsKernel) == assertionsKernel))
- {
- return kIOPMDriverAssertionLevelOn;
- } else {
- return kIOPMDriverAssertionLevelOff;
- }
+ if (type && ((type & assertionsKernel) == assertionsKernel)) {
+ return kIOPMDriverAssertionLevelOn;
+ } else {
+ return kIOPMDriverAssertionLevelOff;
+ }
}
//*********************************************************************************
//*********************************************************************************
-static void pmEventTimeStamp(uint64_t *recordTS)
+static void
+pmEventTimeStamp(uint64_t *recordTS)
{
- clock_sec_t tsec;
- clock_usec_t tusec;
+ clock_sec_t tsec;
+ clock_usec_t tusec;
- if (!recordTS)
- return;
+ 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);
+ // 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);
+ // Pack the sec & microsec calendar time into a uint64_t, for fun.
+ *recordTS = 0;
+ *recordTS |= (uint32_t)tusec;
+ *recordTS |= ((uint64_t)tsec << 32);
- return;
+ return;
}
// MARK: -
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},
+ {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 )
+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;
}
-bool IORootParent::start( IOService * nub )
+void
+IORootParent::shutDownSystem( void )
{
- IOService::start(nub);
- attachToParent( getRegistryRoot(), gIOPowerPlane );
- PMinit();
- registerPowerDriver(this, patriarchPowerStates, 2);
- makeUsable();
- return true;
}
-void IORootParent::shutDownSystem( void )
+void
+IORootParent::restartSystem( void )
{
}
-void IORootParent::restartSystem( void )
+void
+IORootParent::sleepSystem( void )
{
}
-void IORootParent::sleepSystem( void )
+void
+IORootParent::dozeSystem( void )
{
}
-void IORootParent::dozeSystem( void )
+void
+IORootParent::sleepToDoze( void )
{
}
-void IORootParent::sleepToDoze( void )
+void
+IORootParent::wakeSystem( void )
{
}
-void IORootParent::wakeSystem( void )
+OSObject *
+IORootParent::copyProperty( const char * aKey) const
{
+ return IOService::copyProperty(aKey);
}
-OSObject * IORootParent::copyProperty( const char * aKey) const
+uint32_t
+IOPMrootDomain::getWatchdogTimeout()
{
- return (IOService::copyProperty(aKey));
+ 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()
-{
- if ((swd_flags & SWD_WDOG_ENABLED) == 0)
- return kIOReturnError;
-
- takeStackshot(true, true, false);
-
- return kIOReturnSuccess;
-}
-
-void IOPMrootDomain::sleepWakeDebugTrig(bool wdogTrigger)
-{
- takeStackshot(wdogTrigger, false, false);
-}
-
-void IOPMrootDomain::takeStackshot(bool wdogTrigger, bool isOSXWatchdog, bool isSpinDump)
-{
- swd_hdr * hdr = NULL;
- addr64_t data[3];
- uint32_t wdog_panic = 0;
- int cnt = 0;
- pid_t pid = 0;
- uint32_t flags;
-
- char * dstAddr;
- uint32_t size;
- uint32_t bytesRemaining;
- unsigned int len;
- OSString * UUIDstring = NULL;
- uint64_t code;
- IOMemoryMap * logBufMap = NULL;
-
- swd_stackshot_hdr *stackshotHdr = NULL;
-
- uint32_t bufSize;
- uint32_t initialStackSize;
-
- if (isSpinDump) {
- if (_systemTransitionType != kSystemTransitionSleep &&
- _systemTransitionType != kSystemTransitionWake)
- return;
- } else {
- if ( kIOSleepWakeWdogOff & gIOKitDebug )
- return;
- }
-
- if (wdogTrigger) {
- if (PE_parse_boot_argn("swd_panic", &wdog_panic, sizeof(wdog_panic)) &&
- (wdog_panic == 1)) {
- // If boot-arg is set to panic on sleep/wake hang, call panic
- panic("Sleep/Wake hang detected\n");
- return;
- }
- else 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))) {
- IOLog("Shutting down due to repeated Sleep/Wake failures\n");
- PEHaltRestart(kPEHaltCPU);
- return;
- }
- }
-
- }
-
- if (isSpinDump) {
- if (gSpinDumpBufferFull)
- return;
- if (swd_spindump_buffer == NULL) {
- sleepWakeDebugSpinDumpMemAlloc();
- if (swd_spindump_buffer == NULL) return;
- }
-
- bufSize = SWD_SPINDUMP_SIZE;
- initialStackSize = SWD_INITIAL_SPINDUMP_SIZE;
- } else {
- if (sleepWakeDebugIsWdogEnabled() == false)
- return;
-
- if (swd_buffer == NULL) {
- sleepWakeDebugMemAlloc();
- if (swd_buffer == NULL) return;
- }
-
- bufSize = SWD_BUF_SIZE;
- initialStackSize = SWD_INITIAL_STACK_SIZE;
- }
-
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return;
-
- if (isSpinDump)
- hdr = (swd_hdr *)swd_spindump_buffer;
- else
- hdr = (swd_hdr *)swd_buffer;
- memset(hdr->UUID, 0x20, sizeof(hdr->UUID));
- if ((UUIDstring = OSDynamicCast(OSString, getProperty(kIOPMSleepWakeUUIDKey))) != NULL ) {
-
- if (wdogTrigger || (!UUIDstring->isEqualTo(hdr->UUID))) {
- const char *str = UUIDstring->getCStringNoCopy();
- snprintf(hdr->UUID, sizeof(hdr->UUID), "UUID: %s", str);
- }
- else {
- DLOG("Data for current UUID already exists\n");
- goto exit;
- }
- }
-
- dstAddr = (char*)hdr + hdr->spindump_offset;
- bytesRemaining = bufSize - hdr->spindump_offset;
-
- /* if AppleOSXWatchdog triggered the stackshot, set the flag in the heaer */
- hdr->is_osx_watchdog = isOSXWatchdog;
-
- DLOG("Taking snapshot. bytesRemaining: %d\n", bytesRemaining);
-
- while (bytesRemaining > sizeof(swd_stackshot_hdr)) {
-
- stackshotHdr = (swd_stackshot_hdr *)dstAddr;
- stackshotHdr->magic = SWD_STACKSHOTHDR_MAGIC;
- stackshotHdr->size = 0;
- bytesRemaining -= sizeof(swd_stackshot_hdr);
- dstAddr += sizeof(swd_stackshot_hdr);
-
- if (isOSXWatchdog) {
- pid = -1;
- size = bytesRemaining;
- flags = STACKSHOT_SAVE_LOADINFO | STACKSHOT_SAVE_KEXT_LOADINFO;
- }
- else if (cnt == 0) {
- /*
- * Take stackshot of all process on first sample. Size is restricted
- * to SWD_INITIAL_STACK_SIZE
- */
- pid = -1;
- size = (bytesRemaining > initialStackSize) ? initialStackSize : bytesRemaining;
- flags = STACKSHOT_SAVE_LOADINFO | STACKSHOT_SAVE_KEXT_LOADINFO|STACKSHOT_SAVE_KERNEL_FRAMES_ONLY;
- }
- else {
- /* Take sample of kernel threads only */
- pid = 0;
- size = bytesRemaining;
- flags = 0;
- }
-
- stack_snapshot_from_kernel(pid, dstAddr, size, flags, &stackshotHdr->size);
-
- dstAddr += stackshotHdr->size;
- bytesRemaining -= stackshotHdr->size;
-
- DLOG("Sample: %d size: %d bytesRemaining: %d\n", cnt, stackshotHdr->size, bytesRemaining);
- if ((stackshotHdr->size == 0) || (++cnt == 10))
- break;
- IOSleep(10); // 10 ms
- }
-
- hdr->spindump_size = (bufSize - bytesRemaining - hdr->spindump_offset);
-
-
- memset(hdr->cps, 0x20, sizeof(hdr->cps));
- snprintf(hdr->cps, sizeof(hdr->cps), "\ncps: %d", ((IOService*)this)->getPowerState());
- code = pmTracer->getPMStatusCode();
- memset(hdr->PMStatusCode, 0x20, sizeof(hdr->PMStatusCode));
- snprintf(hdr->PMStatusCode, sizeof(hdr->PMStatusCode), "\nCode: %08x %08x",
- (uint32_t)((code >> 32) & 0xffffffff), (uint32_t)(code & 0xffffffff));
- memset(hdr->reason, 0x20, sizeof(hdr->reason));
- if (isSpinDump) {
- snprintf(hdr->reason, sizeof(hdr->reason), "\nStackshot reason: PSC Delay\n\n");
- gRootDomain->swd_lock = 0;
- gSpinDumpBufferFull = true;
- return;
- }
- snprintf(hdr->reason, sizeof(hdr->reason), "\nStackshot reason: Watchdog\n\n");
-
-
- data[0] = round_page(sizeof(swd_hdr) + hdr->spindump_size);
- /* Header & rootdomain log is constantly changing and is not covered by CRC */
- data[1] = hdr->crc = crc32(0, ((char*)swd_buffer+hdr->spindump_offset), hdr->spindump_size);
- data[2] = kvtophys((vm_offset_t)swd_buffer);
- len = sizeof(addr64_t)*3;
- DLOG("bytes: 0x%llx crc:0x%llx paddr:0x%llx\n",
- data[0], data[1], data[2]);
-
- if (PEWriteNVRAMProperty(kIOSleepWakeDebugKey, data, len) == false)
- {
- DLOG("Failed to update nvram boot-args\n");
- goto exit;
- }
-
-exit:
+IOReturn
+IOPMrootDomain::restartWithStackshot()
+{
+ takeStackshot(true);
- gRootDomain->swd_lock = 0;
+ return kIOReturnSuccess;
+}
- if (wdogTrigger) {
- IOLog("Restarting to collect Sleep wake debug logs\n");
- PEHaltRestart(kPERestartCPU);
- }
- else {
- logBufMap = sleepWakeDebugRetrieve();
- if (logBufMap) {
- sleepWakeDebugDumpFromMem(logBufMap);
- logBufMap->release();
- logBufMap = 0;
- }
- }
+void
+IOPMrootDomain::sleepWakeDebugTrig(bool wdogTrigger)
+{
+ takeStackshot(wdogTrigger);
}
-void IOPMrootDomain::sleepWakeDebugMemAlloc( )
+void
+IOPMrootDomain::tracePhase2String(uint32_t tracePhase, const char **phaseString, const char **description)
{
- vm_size_t size = SWD_BUF_SIZE;
+ switch (tracePhase) {
+ case kIOPMTracePointSleepStarted:
+ *phaseString = "kIOPMTracePointSleepStarted";
+ *description = "starting sleep";
+ break;
+
+ case kIOPMTracePointSleepApplications:
+ *phaseString = "kIOPMTracePointSleepApplications";
+ *description = "notifying applications";
+ break;
- swd_hdr *hdr = NULL;
+ case kIOPMTracePointSleepPriorityClients:
+ *phaseString = "kIOPMTracePointSleepPriorityClients";
+ *description = "notifying clients about upcoming system capability changes";
+ break;
- IOBufferMemoryDescriptor *memDesc = NULL;
+ 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;
- if ( kIOSleepWakeWdogOff & gIOKitDebug )
- return;
+ case kIOPMTracePointSleepDidChangeInterests:
+ *phaseString = "kIOPMTracePointSleepDidChangeInterests";
+ *description = "calling rootDomain's clients about rootDomain's state changes";
+ break;
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return;
+ case kIOPMTracePointSleepCapabilityClients:
+ *phaseString = "kIOPMTracePointSleepCapabilityClients";
+ *description = "notifying clients about current system capabilities";
+ break;
- // Try allocating above 4GB. If that fails, try at 2GB
- memDesc = IOBufferMemoryDescriptor::inTaskWithPhysicalMask(
- kernel_task, kIOMemoryPhysicallyContiguous|kIOMemoryMapperNone,
- size, 0xFFFFFFFF00000000ULL);
- if (!memDesc) {
- memDesc = IOBufferMemoryDescriptor::inTaskWithPhysicalMask(
- kernel_task, kIOMemoryPhysicallyContiguous|kIOMemoryMapperNone,
- size, 0xFFFFFFFF10000000ULL);
- }
+ case kIOPMTracePointSleepPlatformActions:
+ *phaseString = "kIOPMTracePointSleepPlatformActions";
+ *description = "calling Quiesce/Sleep action callbacks";
+ break;
- if (memDesc == NULL)
- {
- DLOG("Failed to allocate Memory descriptor for sleepWake debug\n");
- goto exit;
- }
+ 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);
+ }
+ }
- hdr = (swd_hdr *)memDesc->getBytesNoCopy();
- memset(hdr, 0, sizeof(swd_hdr));
+ 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;
+ }
+ }
- hdr->signature = SWD_HDR_SIGNATURE;
- hdr->alloc_size = size;
+ 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");
+ }
+ }
- hdr->spindump_offset = sizeof(swd_hdr);
- swd_buffer = (void *)hdr;
- DLOG("SleepWake debug buffer size:0x%x spindump offset:0x%x\n", hdr->alloc_size, hdr->spindump_offset);
+ if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock)) {
+ goto exit;
+ }
-exit:
- gRootDomain->swd_lock = 0;
-}
+ 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;
-void IOPMrootDomain::sleepWakeDebugSpinDumpMemAlloc( )
-{
- vm_size_t size = SWD_SPINDUMP_SIZE;
- swd_hdr *hdr = NULL;
+ hdr = (swd_hdr *)swd_buffer;
+ outbuf = (char *)hdr + hdr->spindump_offset;
- IOBufferMemoryDescriptor *memDesc = NULL;
+ 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");
+ }
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return;
- memDesc = IOBufferMemoryDescriptor::inTaskWithOptions(
- kernel_task, kIODirectionIn|kIOMemoryMapperNone,
- SWD_SPINDUMP_SIZE);
+ gRootDomain->swd_lock = 0;
+exit:
+ PERemoveNVRAMProperty(kIOSleepWakeFailureString);
+ return;
+}
- if (memDesc == NULL)
- {
- DLOG("Failed to allocate Memory descriptor for sleepWake debug spindump\n");
- goto exit;
- }
+void
+IOPMrootDomain::getFailureData(thread_t *thread, char *failureStr, size_t strLen)
+{
+ IORegistryIterator * iter;
+ IORegistryEntry * entry;
+ IOService * node;
+ bool nodeFound = false;
- hdr = (swd_hdr *)memDesc->getBytesNoCopy();
- memset(hdr, 0, sizeof(swd_hdr));
+ const void * callMethod = NULL;
+ const char * objectName = NULL;
+ uint32_t timeout = getWatchdogTimeout();
+ const char * phaseString = NULL;
+ const char * phaseDescription = NULL;
- hdr->signature = SWD_HDR_SIGNATURE;
- hdr->alloc_size = size;
+ IOPMServiceInterestNotifier *notifier = OSDynamicCast(IOPMServiceInterestNotifier, notifierObject);
+ uint32_t tracePhase = pmTracer->getTracePhase();
- hdr->spindump_offset = sizeof(swd_hdr);
- swd_spindump_buffer = (void *)hdr;
+ *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));
+ }
-exit:
- gRootDomain->swd_lock = 0;
+ DLOG("%s\n", failureStr);
}
-void IOPMrootDomain::sleepWakeDebugEnableWdog()
+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)
{
- swd_flags |= SWD_WDOG_ENABLED;
- if (!swd_buffer)
- sleepWakeDebugMemAlloc();
+ 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;
}
-bool IOPMrootDomain::sleepWakeDebugIsWdogEnabled()
+static int
+swd_zinput(z_streamp strm, Bytef *buf, unsigned size)
{
- return ((swd_flags & SWD_WDOG_ENABLED) &&
- !systemBooting && !systemShutdown && !gWillShutdown);
+ 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;
}
-void IOPMrootDomain::sleepWakeDebugSaveSpinDumpFile()
+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)
{
- swd_hdr *hdr = NULL;
- errno_t error = EIO;
+}
- if (swd_spindump_buffer && gSpinDumpBufferFull) {
- hdr = (swd_hdr *)swd_spindump_buffer;
+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");
+ }
+ }
- 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));
+ 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;
+ }
+ }
+ }
- gSpinDumpBufferFull = false;
- }
+ return swd_zip_var.outlen;
}
-errno_t IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len)
+void
+IOPMrootDomain::deleteStackshot()
{
- 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 (!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;
- if (vnode_open(name, (O_CREAT | FWRITE | O_NOFOLLOW),
- S_IRUSR|S_IRGRP|S_IROTH, VNODE_LOOKUP_NOFOLLOW, &vp, ctx) != 0)
- {
- IOLog("Failed to open the file %s\n", name);
- 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) {
- IOLog("Bailing as this is not a regular file\n");
- goto exit;
- }
- VATTR_INIT(&va);
- VATTR_SET(&va, va_data_size, 0);
- vnode_setattr(vp, &va, ctx);
+ char * dstAddr;
+ uint32_t size;
+ uint32_t bytesRemaining;
+ unsigned bytesWritten = 0;
+ char failureStr[512];
+ thread_t thread = NULL;
+ const char * swfPanic = "swfPanic";
- error = vn_rdwr(UIO_WRITE, vp, buf, len, 0,
- UIO_SYSSPACE, IO_NODELOCKED|IO_UNIT, cred, (int *) 0, vfs_context_proc(ctx));
- if (error != 0)
- IOLog("Failed to save sleep wake log. err 0x%x\n", 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;
-
-}
-
-errno_t IOPMrootDomain::sleepWakeDebugCopyFile(
- struct vnode *srcVp,
- vfs_context_t srcCtx,
- char *tmpBuf, uint64_t tmpBufSize,
- uint64_t srcOffset,
- const char *dstFname,
- uint64_t numBytes,
- uint32_t crc)
-{
- struct vnode *vp = NULL;
- vfs_context_t ctx = vfs_context_create(vfs_context_current());
- struct vnode_attr va;
- errno_t error = EIO;
- uint64_t bytesToRead, bytesToWrite;
- uint64_t readFileOffset, writeFileOffset, srcDataOffset;
- uint32_t newcrc = 0;
-
- if (vnode_open(dstFname, (O_CREAT | FWRITE | O_NOFOLLOW),
- S_IRUSR|S_IRGRP|S_IROTH, VNODE_LOOKUP_NOFOLLOW, &vp, ctx) != 0)
- {
- DLOG("Failed to open the file %s\n", dstFname);
- 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) {
- DLOG("Bailing as this is not a regular file\n");
- goto exit;
- }
- VATTR_INIT(&va);
- VATTR_SET(&va, va_data_size, 0);
- vnode_setattr(vp, &va, ctx);
-
- writeFileOffset = 0;
- while(numBytes) {
- bytesToRead = (round_page(numBytes) > tmpBufSize) ? tmpBufSize : round_page(numBytes);
- readFileOffset = trunc_page(srcOffset);
-
- DLOG("Read file (numBytes:0x%llx offset:0x%llx)\n", bytesToRead, readFileOffset);
- error = vn_rdwr(UIO_READ, srcVp, tmpBuf, bytesToRead, readFileOffset,
- UIO_SYSSPACE, IO_SKIP_ENCRYPTION|IO_SYNC|IO_NODELOCKED|IO_UNIT|IO_NOCACHE,
- vfs_context_ucred(srcCtx), (int *) 0,
- vfs_context_proc(srcCtx));
- if (error) {
- DLOG("Failed to read file(numBytes:0x%llx)\n", bytesToRead);
- break;
- }
-
- srcDataOffset = (uint64_t)tmpBuf + (srcOffset - readFileOffset);
- bytesToWrite = bytesToRead - (srcOffset - readFileOffset);
- if (bytesToWrite > numBytes) bytesToWrite = numBytes;
-
- if (crc) {
- newcrc = crc32(newcrc, (void *)srcDataOffset, bytesToWrite);
- }
- DLOG("Write file (numBytes:0x%llx offset:0x%llx)\n", bytesToWrite, writeFileOffset);
- error = vn_rdwr(UIO_WRITE, vp, (char *)srcDataOffset, bytesToWrite, writeFileOffset,
- UIO_SYSSPACE, IO_SYNC|IO_NODELOCKED|IO_UNIT,
- vfs_context_ucred(ctx), (int *) 0,
- vfs_context_proc(ctx));
- if (error) {
- DLOG("Failed to write file(numBytes:0x%llx)\n", bytesToWrite);
- break;
- }
-
- writeFileOffset += bytesToWrite;
- numBytes -= bytesToWrite;
- srcOffset += bytesToWrite;
-
- }
- if (crc != newcrc) {
- swd_stackshot_hdr *shdr = (swd_stackshot_hdr *)tmpBuf;;
-
- /* Set statckshot size to 0 if crc doesn't match */
- shdr->magic = SWD_STACKSHOTHDR_MAGIC;
- shdr->size = 0;
-
- assert(tmpBufSize > sizeof(swd_stackshot_hdr));
- bytesToWrite = round_page(sizeof(swd_stackshot_hdr));
- vn_rdwr(UIO_WRITE, vp, (char *)tmpBuf, bytesToWrite, 0,
- UIO_SYSSPACE, IO_SYNC|IO_NODELOCKED|IO_UNIT,
- vfs_context_ucred(ctx), (int *) 0,
- vfs_context_proc(ctx));
-
- DLOG("CRC check failed. expected:0x%x actual:0x%x\n", crc, newcrc);
- error = EFAULT;
- }
-exit:
- if (vp) {
- error = vnode_close(vp, FWRITE, ctx);
- DLOG("vnode_close returned 0x%x\n", error);
- }
- if (ctx) vfs_context_rele(ctx);
-
- return error;
-
-
-
-}
-void IOPMrootDomain::checkForValidDebugData(const char *fname, vfs_context_t *ctx,
- void *tmpBuf, struct vnode **vp)
-{
- int rc;
- uint64_t hdrOffset;
-
- struct vnode_attr va;
- IOHibernateImageHeader *imageHdr;
-
- *vp = NULL;
- if (vnode_open(fname, (FREAD | O_NOFOLLOW), 0,
- VNODE_LOOKUP_NOFOLLOW, vp, *ctx) != 0)
- {
- DMSG("sleepWakeDebugDumpFromFile: Failed to open the file %s\n", fname);
- goto err;
- }
- VATTR_INIT(&va);
- VATTR_WANTED(&va, va_nlink);
- VATTR_WANTED(&va, va_data_alloc);
- if ((*vp)->v_type != VREG ||
- vnode_getattr((*vp), &va, *ctx) || va.va_nlink != 1) {
- DMSG("sleepWakeDebugDumpFromFile: Bailing as %s is not a regular file\n", fname);
- goto err;
- }
-
- /* Read the sleepimage file header */
- rc = vn_rdwr(UIO_READ, *vp, (char *)tmpBuf, round_page(sizeof(IOHibernateImageHeader)), 0,
- UIO_SYSSPACE, IO_SKIP_ENCRYPTION|IO_SYNC|IO_NODELOCKED|IO_UNIT|IO_NOCACHE,
- vfs_context_ucred(*ctx), (int *) 0,
- vfs_context_proc(*ctx));
- if (rc != 0) {
- DMSG("sleepWakeDebugDumpFromFile: Failed to read header size %lu(rc=%d) from %s\n",
- round_page(sizeof(IOHibernateImageHeader)), rc, fname);
- goto err;
- }
-
- imageHdr = ((IOHibernateImageHeader *)tmpBuf);
- if (imageHdr->signature != kIOHibernateHeaderDebugDataSignature) {
- DMSG("sleepWakeDebugDumpFromFile: File %s header has unexpected value 0x%x\n",
- fname, imageHdr->signature);
- goto err;
- }
-
- /* Sleep/Wake debug header(swd_hdr) is at the beggining of the second block */
- hdrOffset = imageHdr->deviceBlockSize;
- if (hdrOffset + sizeof(swd_hdr) >= va.va_data_alloc) {
- DMSG("sleepWakeDebugDumpFromFile: header is crossing file size(0x%llx) in file %s\n",
- va.va_data_alloc, fname);
- goto err;
- }
-
- return;
-
-err:
- if (*vp) vnode_close(*vp, FREAD, *ctx);
- *vp = NULL;
-
- return;
-}
-
-void IOPMrootDomain::sleepWakeDebugDumpFromFile( )
-{
-#if HIBERNATION
- int rc;
- char hibernateFilename[MAXPATHLEN+1];
- char PMStatusCode[100];
- void *tmpBuf;
- swd_hdr *hdr = NULL;
- uint32_t stacksSize, logSize;
- uint64_t tmpBufSize;
- uint64_t hdrOffset, stacksOffset, logOffset;
- errno_t error = EIO;
- OSObject *obj = NULL;
- OSString *str = NULL;
- OSNumber *failStat = NULL;
- struct vnode *vp = NULL;
- vfs_context_t ctx = NULL;
-
- IOBufferMemoryDescriptor *tmpBufDesc = NULL;
-
- DLOG("sleepWakeDebugDumpFromFile\n");
- if ((swd_flags & SWD_LOGS_IN_FILE) == 0)
- return;
-
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return;
-
-
- /* Allocate a temp buffer to copy data between files */
- tmpBufSize = 2*4096;
- tmpBufDesc = IOBufferMemoryDescriptor::
- inTaskWithOptions(kernel_task, kIODirectionOutIn | kIOMemoryMapperNone,
- tmpBufSize, PAGE_SIZE);
-
- if (!tmpBufDesc) {
- DMSG("sleepWakeDebugDumpFromFile: Fail to allocate temp buf\n");
- goto exit;
- }
-
- tmpBuf = tmpBufDesc->getBytesNoCopy();
-
- ctx = vfs_context_create(vfs_context_current());
-
- /* First check if 'kSleepWakeStackBinFilename' has valid data */
- checkForValidDebugData(kSleepWakeStackBinFilename, &ctx, tmpBuf, &vp);
- if (vp == NULL) {
- /* Check if the debug data is saved to hibernation file */
- hibernateFilename[0] = 0;
- if ((obj = copyProperty(kIOHibernateFileKey)))
- {
- if ((str = OSDynamicCast(OSString, obj)))
- strlcpy(hibernateFilename, str->getCStringNoCopy(),
- sizeof(hibernateFilename));
- obj->release();
- }
- if (!hibernateFilename[0]) {
- DMSG("sleepWakeDebugDumpFromFile: Failed to get hibernation file name\n");
- goto exit;
- }
-
- checkForValidDebugData(hibernateFilename, &ctx, tmpBuf, &vp);
- if (vp == NULL) {
- DMSG("sleepWakeDebugDumpFromFile: No valid debug data is found\n");
- goto exit;
- }
- DLOG("Getting SW Stacks image from file %s\n", hibernateFilename);
- }
- else {
- DLOG("Getting SW Stacks image from file %s\n", kSleepWakeStackBinFilename);
- }
-
- hdrOffset = ((IOHibernateImageHeader *)tmpBuf)->deviceBlockSize;
-
- DLOG("Reading swd_hdr len 0x%lx offset 0x%lx\n", round_page(sizeof(swd_hdr)), trunc_page(hdrOffset));
- /* Read the sleep/wake debug header(swd_hdr) */
- rc = vn_rdwr(UIO_READ, vp, (char *)tmpBuf, round_page(sizeof(swd_hdr)), trunc_page(hdrOffset),
- UIO_SYSSPACE, IO_SKIP_ENCRYPTION|IO_SYNC|IO_NODELOCKED|IO_UNIT|IO_NOCACHE,
- vfs_context_ucred(ctx), (int *) 0,
- vfs_context_proc(ctx));
- if (rc != 0) {
- DMSG("sleepWakeDebugDumpFromFile: Failed to debug read header size %lu. rc=%d\n",
- round_page(sizeof(swd_hdr)), rc);
- goto exit;
- }
-
- hdr = (swd_hdr *)((char *)tmpBuf + (hdrOffset - trunc_page(hdrOffset)));
- if ((hdr->signature != SWD_HDR_SIGNATURE) || (hdr->alloc_size > SWD_BUF_SIZE) ||
- (hdr->spindump_offset > SWD_BUF_SIZE) || (hdr->spindump_size > SWD_BUF_SIZE)) {
- DMSG("sleepWakeDebugDumpFromFile: Invalid data in debug header. sign:0x%x size:0x%x spindump_offset:0x%x spindump_size:0x%x\n",
- hdr->signature, hdr->alloc_size, hdr->spindump_offset, hdr->spindump_size);
- goto exit;
- }
- stacksSize = hdr->spindump_size;
-
- /* Get stacks & log offsets in the image file */
- stacksOffset = hdrOffset + hdr->spindump_offset;
- logOffset = hdrOffset + offsetof(swd_hdr, UUID);
- logSize = sizeof(swd_hdr)-offsetof(swd_hdr, UUID);
-
- error = sleepWakeDebugCopyFile(vp, ctx, (char *)tmpBuf, tmpBufSize, stacksOffset,
- getDumpStackFilename(hdr), stacksSize, hdr->crc);
- if (error == EFAULT) {
- DMSG("sleepWakeDebugDumpFromFile: Stackshot CRC doesn't match\n");
- goto exit;
- }
- error = sleepWakeDebugCopyFile(vp, ctx, (char *)tmpBuf, tmpBufSize, logOffset,
- getDumpLogFilename(hdr), logSize, 0);
- if (error) {
- DMSG("sleepWakeDebugDumpFromFile: Failed to write the log file(0x%x)\n", error);
- goto exit;
- }
-exit:
- if (error) {
- // Write just the SleepWakeLog.dump with failure code
- uint64_t fcode = 0;
- const char *fname;
- if (swd_flags & SWD_BOOT_BY_SW_WDOG) {
- failStat = OSDynamicCast(OSNumber, getProperty(kIOPMSleepWakeFailureCodeKey));
- fcode = failStat->unsigned64BitValue();
- fname = kSleepWakeLogFilename;
- }
- else {
- fname = kAppleOSXWatchdogLogFilename;
- }
- memset(PMStatusCode, 0x20, sizeof(PMStatusCode)); // Fill with spaces
- PMStatusCode[sizeof(PMStatusCode)-1] = 0xa; // And an end-of-line at the end
- snprintf(PMStatusCode, sizeof(PMStatusCode)-1, "Code: 0x%llx", fcode);
- sleepWakeDebugSaveFile(fname, PMStatusCode, sizeof(PMStatusCode));
- }
- gRootDomain->swd_lock = 0;
-
- if (vp) vnode_close(vp, FREAD, ctx);
- if (ctx) vfs_context_rele(ctx);
- if (tmpBufDesc) tmpBufDesc->release();
-#endif /* HIBERNATION */
+ 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::sleepWakeDebugDumpFromMem(IOMemoryMap *logBufMap)
+void
+IOPMrootDomain::sleepWakeDebugMemAlloc()
{
- IOVirtualAddress srcBuf = NULL;
- char *stackBuf = NULL, *logOffset = NULL;
- int logSize = 0;
+ vm_size_t size = SWD_STACKSHOT_SIZE + SWD_COMPRESSED_BUFSIZE + SWD_ZLIB_BUFSIZE;
- errno_t error = EIO;
- uint64_t bufSize = 0;
- swd_hdr *hdr = NULL;
- char PMStatusCode[100];
- OSNumber *failStat = NULL;
+ swd_hdr *hdr = NULL;
+ void *bufPtr = NULL;
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return;
+ IOBufferMemoryDescriptor *memDesc = NULL;
- if ((logBufMap == 0) || ( (srcBuf = logBufMap->getVirtualAddress()) == 0) )
- {
- DLOG("Nothing saved to dump to file\n");
- goto exit;
- }
- hdr = (swd_hdr *)srcBuf;
- bufSize = logBufMap->getLength();
- if (bufSize <= sizeof(swd_hdr))
- {
- IOLog("SleepWake log buffer contents are invalid\n");
- goto exit;
- }
+ 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();
- stackBuf = (char*)hdr+hdr->spindump_offset;
+ // Carve out memory for zlib routines
+ swd_zs_zmem = (vm_offset_t)bufPtr;
+ bufPtr = (char *)bufPtr + SWD_ZLIB_BUFSIZE;
- error = sleepWakeDebugSaveFile(getDumpStackFilename(hdr), stackBuf, hdr->spindump_size);
- if (error) goto exit;
+ // Carve out memory for compressed stackshots
+ swd_compressed_buffer = bufPtr;
+ bufPtr = (char *)bufPtr + SWD_COMPRESSED_BUFSIZE;
- logOffset = (char*)hdr+offsetof(swd_hdr, UUID);
- logSize = sizeof(swd_hdr)-offsetof(swd_hdr, UUID);
+ // Remaining is used for holding stackshot
+ hdr = (swd_hdr *)bufPtr;
+ memset(hdr, 0, sizeof(swd_hdr));
- error = sleepWakeDebugSaveFile(getDumpLogFilename(hdr), logOffset, logSize);
- if (error) goto exit;
+ hdr->signature = SWD_HDR_SIGNATURE;
+ hdr->alloc_size = SWD_STACKSHOT_SIZE;
- hdr->spindump_size = 0;
- error = 0;
+ 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:
- if (error) {
- // Write just the SleepWakeLog.dump with failure code
- uint64_t fcode = 0;
- const char *sname, *lname;
- swd_stackshot_hdr shdr;
-
- /* Try writing an empty stacks file */
- shdr.magic = SWD_STACKSHOTHDR_MAGIC;
- shdr.size = 0;
-
-
- if (swd_flags & SWD_BOOT_BY_SW_WDOG) {
- failStat = OSDynamicCast(OSNumber, getProperty(kIOPMSleepWakeFailureCodeKey));
- fcode = failStat->unsigned64BitValue();
- lname = kSleepWakeLogFilename;
- sname = kSleepWakeStackFilename;
- }
- else {
- lname = kAppleOSXWatchdogLogFilename;
- sname= kAppleOSXWatchdogStackFilename;
- }
-
- sleepWakeDebugSaveFile(sname, (char*)(&shdr), sizeof(shdr));
- memset(PMStatusCode, 0x20, sizeof(PMStatusCode)); // Fill with spaces
- PMStatusCode[sizeof(PMStatusCode)-1] = 0xa; // And an end-of-line at the end
- snprintf(PMStatusCode, sizeof(PMStatusCode)-1, "Code: 0x%llx", fcode);
- sleepWakeDebugSaveFile(lname, PMStatusCode, sizeof(PMStatusCode));
- }
- gRootDomain->swd_lock = 0;
-}
-
-IOMemoryMap *IOPMrootDomain::sleepWakeDebugRetrieve( )
-{
- IOVirtualAddress vaddr = NULL;
- IOMemoryDescriptor * desc = NULL;
- IOMemoryMap * logBufMap = NULL;
-
- uint32_t len;
- addr64_t data[3];
- uint64_t bufSize = 0;
- uint64_t crc = 0;
- uint64_t newcrc = 0;
- uint64_t paddr = 0;
- swd_hdr *hdr = NULL;
- bool ret = false;
- char str[20];
-
-
- if (!OSCompareAndSwap(0, 1, &gRootDomain->swd_lock))
- return NULL;
-
- if (!PEReadNVRAMProperty(kIOSleepWakeDebugKey, 0, &len)) {
- DLOG("No sleepWakeDebug note to read\n");
- goto exit;
- }
-
- if (len == strlen("sleepimage")) {
- str[0] = 0;
- PEReadNVRAMProperty(kIOSleepWakeDebugKey, str, &len);
-
- if (!strncmp((char*)str, "sleepimage", strlen("sleepimage"))) {
- DLOG("sleepWakeDebugRetrieve: in file logs\n");
- swd_flags |= SWD_LOGS_IN_FILE|SWD_VALID_LOGS;
- goto exit;
- }
- }
- else if (len == sizeof(addr64_t)*3)
- PEReadNVRAMProperty(kIOSleepWakeDebugKey, data, &len);
- else {
- DLOG("Invalid sleepWakeDebug note length(%d)\n", len);
- goto exit;
- }
-
-
-
- DLOG("sleepWakeDebugRetrieve: data[0]:0x%llx data[1]:0x%llx data[2]:0x%llx\n",
- data[0], data[1], data[2]);
- DLOG("sleepWakeDebugRetrieve: in mem logs\n");
- bufSize = data[0];
- crc = data[1];
- paddr = data[2];
- if ( (bufSize <= sizeof(swd_hdr)) ||(bufSize > SWD_BUF_SIZE) || (crc == 0) )
- {
- IOLog("SleepWake log buffer contents are invalid\n");
- return NULL;
- }
-
- DLOG("size:0x%llx crc:0x%llx paddr:0x%llx\n",
- bufSize, crc, paddr);
-
-
- desc = IOMemoryDescriptor::withAddressRange( paddr, bufSize,
- kIODirectionOutIn | kIOMemoryMapperNone, NULL);
- if (desc == NULL)
- {
- IOLog("Fail to map SleepWake log buffer\n");
- goto exit;
- }
-
- logBufMap = desc->map();
-
- vaddr = logBufMap->getVirtualAddress();
-
-
- if ( (logBufMap->getLength() <= sizeof(swd_hdr)) || (vaddr == NULL) ) {
- IOLog("Fail to map SleepWake log buffer\n");
- goto exit;
- }
-
- hdr = (swd_hdr *)vaddr;
- if (hdr->spindump_offset+hdr->spindump_size > bufSize)
- {
- IOLog("SleepWake log buffer contents are invalid\n");
- goto exit;
- }
-
- hdr->crc = crc;
- newcrc = crc32(0, (void *)((char*)vaddr+hdr->spindump_offset),
- hdr->spindump_size);
- if (newcrc != crc) {
- IOLog("SleepWake log buffer contents are invalid\n");
- goto exit;
- }
-
- ret = true;
- swd_flags |= SWD_LOGS_IN_MEM | SWD_VALID_LOGS;
+ 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:
- PERemoveNVRAMProperty(kIOSleepWakeDebugKey);
- if (!ret) {
- if (logBufMap) logBufMap->release();
- logBufMap = 0;
- }
- if (desc) desc->release();
- gRootDomain->swd_lock = 0;
+ gRootDomain->swd_lock = 0;
+}
- return logBufMap;
+void
+IOPMrootDomain::sleepWakeDebugEnableWdog()
+{
}
-#else
+bool
+IOPMrootDomain::sleepWakeDebugIsWdogEnabled()
+{
+ return !systemBooting && !systemShutdown && !gWillShutdown;
+}
-void IOPMrootDomain::sleepWakeDebugTrig(bool restart)
+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;
+ }
}
-void IOPMrootDomain::takeStackshot(bool restart, bool isOSXWatchdog, bool isSpinDump)
+errno_t
+IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len)
{
-#pragma unused(restart)
-#pragma unused(isOSXWatchdog)
+ 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;
}
-void IOPMrootDomain::sleepWakeDebugMemAlloc( )
+
+#else
+
+void
+IOPMrootDomain::sleepWakeDebugTrig(bool restart)
{
+ if (restart) {
+ if (gSwdPanic == 0) {
+ return;
+ }
+ panic("Sleep/Wake hang detected");
+ return;
+ }
}
-void IOPMrootDomain::sleepWakeDebugDumpFromMem(IOMemoryMap *map)
+
+void
+IOPMrootDomain::takeStackshot(bool restart)
{
+#pragma unused(restart)
}
-errno_t IOPMrootDomain::sleepWakeDebugCopyFile(
- struct vnode *srcVp,
- vfs_context_t srcCtx,
- char *tmpBuf, uint64_t tmpBufSize,
- uint64_t srcOffset,
- const char *dstFname,
- uint64_t numBytes,
- uint32_t crc)
+void
+IOPMrootDomain::deleteStackshot()
{
- return EIO;
}
-
-void IOPMrootDomain::sleepWakeDebugDumpFromFile()
+void
+IOPMrootDomain::sleepWakeDebugMemAlloc()
{
}
-
-IOMemoryMap *IOPMrootDomain::sleepWakeDebugRetrieve( )
+void
+IOPMrootDomain::saveFailureData2File()
{
- return NULL;
}
-void IOPMrootDomain::sleepWakeDebugEnableWdog()
+void
+IOPMrootDomain::sleepWakeDebugEnableWdog()
{
}
-bool IOPMrootDomain::sleepWakeDebugIsWdogEnabled()
+bool
+IOPMrootDomain::sleepWakeDebugIsWdogEnabled()
{
- return false;
+ return false;
}
-errno_t IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len)
+errno_t
+IOPMrootDomain::sleepWakeDebugSaveFile(const char *name, char *buf, int len)
{
- return 0;
+ return 0;
}
#endif