X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/593a1d5fd87cdf5b46dd5fcb84467b432cea0f91..4ba76501152d51ccb5647018f3192c6096367d48:/iokit/Kernel/IOServicePM.cpp diff --git a/iokit/Kernel/IOServicePM.cpp b/iokit/Kernel/IOServicePM.cpp index 5b5cc0b8a..5cdc56a78 100644 --- a/iokit/Kernel/IOServicePM.cpp +++ b/iokit/Kernel/IOServicePM.cpp @@ -1,8 +1,8 @@ /* - * Copyright (c) 1998-2006 Apple Computer, Inc. All rights reserved. + * Copyright (c) 1998-2016 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 @@ -11,10 +11,10 @@ * 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, @@ -22,7 +22,7 @@ * 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@ */ @@ -32,499 +32,578 @@ #include #include #include -#include +#include #include #include +#include +#include +#include #include #include #include #include #include +#include #include +#include +#include +#include +#include // Required for notification instrumentation #include "IOServicePrivate.h" #include "IOServicePMPrivate.h" #include "IOKitKernelInternal.h" + static void settle_timer_expired(thread_call_param_t, thread_call_param_t); -static void PM_idle_timer_expired(OSObject *, IOTimerEventSource *); -void tellAppWithResponse(OSObject * object, void * context) { /*empty*/ } -void tellClientWithResponse(OSObject * object, void * context) { /*empty*/ } -void tellClient(OSObject * object, void * context); -IOReturn serializedAllowPowerChange(OSObject *, void *, void *, void *, void *); +static void idle_timer_expired(thread_call_param_t, thread_call_param_t); +static void tellKernelClientApplier(OSObject * object, void * arg); +static void tellAppClientApplier(OSObject * object, void * arg); -static uint64_t computeTimeDeltaNS( const AbsoluteTime * start ) +static uint64_t +computeTimeDeltaNS( const AbsoluteTime * start ) { - AbsoluteTime now; - uint64_t nsec; + AbsoluteTime now; + uint64_t nsec; - clock_get_uptime(&now); - SUB_ABSOLUTETIME(&now, start); - absolutetime_to_nanoseconds(now, &nsec); - return nsec; + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, start); + absolutetime_to_nanoseconds(now, &nsec); + return nsec; } +#if PM_VARS_SUPPORT OSDefineMetaClassAndStructors(IOPMprot, OSObject) +#endif -// log setPowerStates longer than (ns): -#define LOG_SETPOWER_TIMES (50ULL * 1000ULL * 1000ULL) -// log app responses longer than (ns): -#define LOG_APP_RESPONSE_TIMES (100ULL * 1000ULL * 1000ULL) - -//********************************************************************************* +//****************************************************************************** // Globals -//********************************************************************************* +//****************************************************************************** + +static bool gIOPMInitialized = false; +static uint32_t gIOPMBusyRequestCount = 0; +static uint32_t gIOPMWorkInvokeCount = 0; +static uint32_t gIOPMTickleGeneration = 0; +static IOWorkLoop * gIOPMWorkLoop = NULL; +static IOPMRequestQueue * gIOPMRequestQueue = NULL; +static IOPMRequestQueue * gIOPMReplyQueue = NULL; +static IOPMWorkQueue * gIOPMWorkQueue = NULL; +static IOPMCompletionQueue * gIOPMCompletionQueue = NULL; +static IOPMRequest * gIOPMRequest = NULL; +static IOService * gIOPMRootNode = NULL; +static IOPlatformExpert * gPlatform = NULL; + + +const OSSymbol * gIOPMPowerClientDevice = NULL; +const OSSymbol * gIOPMPowerClientDriver = NULL; +const OSSymbol * gIOPMPowerClientChildProxy = NULL; +const OSSymbol * gIOPMPowerClientChildren = NULL; +const OSSymbol * gIOPMPowerClientRootDomain = NULL; + +static const OSSymbol * gIOPMPowerClientAdvisoryTickle = NULL; +static bool gIOPMAdvisoryTickleEnabled = true; +static thread_t gIOPMWatchDogThread = NULL; +uint32_t gCanSleepTimeout = 0; + +static uint32_t +getPMRequestType( void ) +{ + uint32_t type = kIOPMRequestTypeInvalid; + if (gIOPMRequest) { + type = gIOPMRequest->getType(); + } + return type; +} + +static IOPMRequestTag +getPMRequestTag( void ) +{ + IOPMRequestTag tag = 0; + if (gIOPMRequest && + (gIOPMRequest->getType() == kIOPMRequestTypeRequestPowerStateOverride)) { + tag = gIOPMRequest->fRequestTag; + } + return tag; +} -static bool gIOPMInitialized = false; -static IOItemCount gIOPMBusyCount = 0; -static IOWorkLoop * gIOPMWorkLoop = 0; -static IOPMRequestQueue * gIOPMRequestQueue = 0; -static IOPMRequestQueue * gIOPMReplyQueue = 0; -static IOPMRequestQueue * gIOPMFreeQueue = 0; +SYSCTL_UINT(_kern, OID_AUTO, pmtimeout, CTLFLAG_RW | CTLFLAG_LOCKED, &gCanSleepTimeout, 0, "Power Management Timeout"); -//********************************************************************************* +//****************************************************************************** // Macros -//********************************************************************************* +//****************************************************************************** + +#define PM_ERROR(x...) do { kprintf(x);IOLog(x); \ + } while (false) +#define PM_LOG(x...) do { kprintf(x); } while (false) -#define PM_ERROR(x...) do { kprintf(x); IOLog(x); } while (false) -#define PM_DEBUG(x...) do { kprintf(x); } while (false) +#define PM_LOG1(x...) do { \ + if (kIOLogDebugPower & gIOKitDebug) \ + kprintf(x); } while (false) -#define PM_TRACE(x...) do { \ - if (kIOLogDebugPower & gIOKitDebug) kprintf(x); } while (false) +#define PM_LOG2(x...) do { \ + if (kIOLogDebugPower & gIOKitDebug) \ + kprintf(x); } while (false) -#define PM_CONNECT(x...) +#if 0 +#define PM_LOG3(x...) do { kprintf(x); } while (false) +#else +#define PM_LOG3(x...) +#endif +#define RD_LOG(x...) do { \ + if ((kIOLogPMRootDomain & gIOKitDebug) && \ + (getPMRootDomain() == this)) { \ + kprintf("PMRD: " x); \ + }} while (false) #define PM_ASSERT_IN_GATE(x) \ do { \ assert(gIOPMWorkLoop->inGate()); \ } while(false) -#define PM_LOCK() IOLockLock(fPMLock) -#define PM_UNLOCK() IOLockUnlock(fPMLock) +#define PM_LOCK() IOLockLock(fPMLock) +#define PM_UNLOCK() IOLockUnlock(fPMLock) +#define PM_LOCK_SLEEP(event, dl) IOLockSleepDeadline(fPMLock, event, dl, THREAD_UNINT) +#define PM_LOCK_WAKEUP(event) IOLockWakeup(fPMLock, event, false) + +#define us_per_s 1000000 +#define ns_per_us 1000 +#define k30Seconds (30*us_per_s) +#define k5Seconds ( 5*us_per_s) +#if CONFIG_EMBEDDED +#define kCanSleepMaxTimeReq k5Seconds +#else +#define kCanSleepMaxTimeReq k30Seconds +#endif +#define kMaxTimeRequested k30Seconds +#define kMinAckTimeoutTicks (10*1000000) +#define kIOPMTardyAckSPSKey "IOPMTardyAckSetPowerState" +#define kIOPMTardyAckPSCKey "IOPMTardyAckPowerStateChange" +#define kPwrMgtKey "IOPowerManagement" + +#define OUR_PMLog(t, a, b) do { \ + if (pwrMgt) { \ + if (gIOKitDebug & kIOLogPower) \ + pwrMgt->pmPrint(t, a, b); \ + if (gIOKitTrace & kIOTracePowerMgmt) \ + pwrMgt->pmTrace(t, DBG_FUNC_NONE, a, b); \ + } \ + } while(0) + +#define OUR_PMLogFuncStart(t, a, b) do { \ + if (pwrMgt) { \ + if (gIOKitDebug & kIOLogPower) \ + pwrMgt->pmPrint(t, a, b); \ + if (gIOKitTrace & kIOTracePowerMgmt) \ + pwrMgt->pmTrace(t, DBG_FUNC_START, a, b); \ + } \ + } while(0) + +#define OUR_PMLogFuncEnd(t, a, b) do { \ + if (pwrMgt) { \ + if (gIOKitDebug & kIOLogPower) \ + pwrMgt->pmPrint(-t, a, b); \ + if (gIOKitTrace & kIOTracePowerMgmt) \ + pwrMgt->pmTrace(t, DBG_FUNC_END, a, b); \ + } \ + } while(0) + +#define NS_TO_MS(nsec) ((int)((nsec) / 1000000ULL)) +#define NS_TO_US(nsec) ((int)((nsec) / 1000ULL)) + +#define SUPPORT_IDLE_CANCEL 1 + +#define kIOPMPowerStateMax 0xFFFFFFFF +#define kInvalidTicklePowerState kIOPMPowerStateMax + +#define kNoTickleCancelWindow (60ULL * 1000ULL * 1000ULL * 1000ULL) + +#define IS_PM_ROOT (this == gIOPMRootNode) +#define IS_ROOT_DOMAIN (getPMRootDomain() == this) +#define IS_POWER_DROP (StateOrder(fHeadNotePowerState) < StateOrder(fCurrentPowerState)) +#define IS_POWER_RISE (StateOrder(fHeadNotePowerState) > StateOrder(fCurrentPowerState)) + +// log setPowerStates longer than (ns): +#if defined(__i386__) || defined(__x86_64__) +#define LOG_SETPOWER_TIMES (300ULL * 1000ULL * 1000ULL) +#else +#define LOG_SETPOWER_TIMES (50ULL * 1000ULL * 1000ULL) +#endif +// log app responses longer than (ns): +#define LOG_APP_RESPONSE_TIMES (100ULL * 1000ULL * 1000ULL) +// use message tracer to log messages longer than (ns): +#define LOG_APP_RESPONSE_MSG_TRACER (3 * 1000ULL * 1000ULL * 1000ULL) + +// log kext responses longer than (ns): +#define LOG_KEXT_RESPONSE_TIMES (100ULL * 1000ULL * 1000ULL) + +enum { + kReserveDomainPower = 1 +}; -#define ns_per_us 1000 -#define k30seconds (30*1000000) -#define kMinAckTimeoutTicks (10*1000000) -#define kIOPMTardyAckSPSKey "IOPMTardyAckSetPowerState" -#define kIOPMTardyAckPSCKey "IOPMTardyAckPowerStateChange" -#define kPwrMgtKey "IOPowerManagement" +#define MS_PUSH(n) \ + do { assert(kIOPM_BadMachineState == fSavedMachineState); \ + assert(kIOPM_BadMachineState != n); \ + fSavedMachineState = n; } while (false) -#define OUR_PMLog(t, a, b) \ - do { fPlatform->PMLog( fName, t, a, b); } while(0) +#define MS_POP() \ + do { assert(kIOPM_BadMachineState != fSavedMachineState); \ + fMachineState = fSavedMachineState; \ + fSavedMachineState = kIOPM_BadMachineState; } while (false) -#define NS_TO_MS(nsec) ((int)((nsec) / 1000000ULL)) +#define PM_ACTION_0(a) \ + do { if (fPMActions.a) { \ + (fPMActions.a)(fPMActions.target, this, &fPMActions); } \ + } while (false) -#if CONFIG_EMBEDDED -#define SUPPORT_IDLE_CANCEL 1 -#endif +#define PM_ACTION_2(a, x, y) \ + do { if (fPMActions.a) { \ + (fPMActions.a)(fPMActions.target, this, &fPMActions, x, y, \ + getPMRequestTag()); } \ + } while (false) + +#define PM_ACTION_3(a, x, y, z) \ + do { if (fPMActions.a) { \ + (fPMActions.a)(fPMActions.target, this, &fPMActions, x, y, z); } \ + } while (false) + +static OSNumber * copyClientIDForNotification( + OSObject *object, + IOPMInterestContext *context); + +static void logClientIDForNotification( + OSObject *object, + IOPMInterestContext *context, + const char *logString); //********************************************************************************* // PM machine states +// +// Check kgmacros after modifying machine states. //********************************************************************************* enum { - kIOPM_OurChangeTellClientsPowerDown = 1, - kIOPM_OurChangeTellPriorityClientsPowerDown = 2, - kIOPM_OurChangeNotifyInterestedDriversWillChange = 3, - kIOPM_OurChangeSetPowerState = 4, - kIOPM_OurChangeWaitForPowerSettle = 5, - kIOPM_OurChangeNotifyInterestedDriversDidChange = 6, - kIOPM_OurChangeFinish = 7, - kIOPM_ParentDownTellPriorityClientsPowerDown = 8, - kIOPM_ParentDownNotifyInterestedDriversWillChange = 9, - /* 10 not used */ - kIOPM_ParentDownNotifyDidChangeAndAcknowledgeChange = 11, - kIOPM_ParentDownSetPowerState = 12, - kIOPM_ParentDownWaitForPowerSettle = 13, - kIOPM_ParentDownAcknowledgeChange = 14, - kIOPM_ParentUpSetPowerState = 15, - /* 16 not used */ - kIOPM_ParentUpWaitForSettleTime = 17, - kIOPM_ParentUpNotifyInterestedDriversDidChange = 18, - kIOPM_ParentUpAcknowledgePowerChange = 19, - kIOPM_Finished = 20, - kIOPM_DriverThreadCallDone = 21, - kIOPM_NotifyChildrenDone = 22 + kIOPM_Finished = 0, + + kIOPM_OurChangeTellClientsPowerDown = 1, + kIOPM_OurChangeTellUserPMPolicyPowerDown = 2, + kIOPM_OurChangeTellPriorityClientsPowerDown = 3, + kIOPM_OurChangeNotifyInterestedDriversWillChange = 4, + kIOPM_OurChangeSetPowerState = 5, + kIOPM_OurChangeWaitForPowerSettle = 6, + kIOPM_OurChangeNotifyInterestedDriversDidChange = 7, + kIOPM_OurChangeTellCapabilityDidChange = 8, + kIOPM_OurChangeFinish = 9, + + kIOPM_ParentChangeTellPriorityClientsPowerDown = 10, + kIOPM_ParentChangeNotifyInterestedDriversWillChange = 11, + kIOPM_ParentChangeSetPowerState = 12, + kIOPM_ParentChangeWaitForPowerSettle = 13, + kIOPM_ParentChangeNotifyInterestedDriversDidChange = 14, + kIOPM_ParentChangeTellCapabilityDidChange = 15, + kIOPM_ParentChangeAcknowledgePowerChange = 16, + + kIOPM_NotifyChildrenStart = 17, + kIOPM_NotifyChildrenOrdered = 18, + kIOPM_NotifyChildrenDelayed = 19, + kIOPM_SyncTellClientsPowerDown = 20, + kIOPM_SyncTellPriorityClientsPowerDown = 21, + kIOPM_SyncNotifyWillChange = 22, + kIOPM_SyncNotifyDidChange = 23, + kIOPM_SyncTellCapabilityDidChange = 24, + kIOPM_SyncFinish = 25, + kIOPM_TellCapabilityChangeDone = 26, + kIOPM_DriverThreadCallDone = 27, + + kIOPM_BadMachineState = 0xFFFFFFFF }; - - /* - Power Management defines a few roles that drivers can play in their own, - and other drivers', power management. We briefly define those here. - - Many drivers implement their policy maker and power controller within the same - IOService object, but that is not required. - -== Policy Maker == - * Virtual IOService PM methods a "policy maker" may implement - * maxCapabilityForDomainState() - * initialPowerStateForDomainState() - * powerStateForDomainState() - - * Virtual IOService PM methods a "policy maker" may CALL - * PMinit() - -== Power Controller == - * Virtual IOService PM methods a "power controller" may implement - * setPowerState() - - * Virtual IOService PM methods a "power controller" may CALL - * joinPMtree() - * registerPowerDriver() - -======================= - There are two different kinds of power state changes. - * One is initiated by a subclassed device object which has either decided - to change power state, or its controlling driver has suggested it, or - some other driver wants to use the idle device and has asked it to become - usable. - * The second kind of power state change is initiated by the power domain - parent. - The two are handled through different code paths. - - We maintain a queue of "change notifications," or change notes. - * Usually the queue is empty. - * When it isn't, usually there is one change note in it - * It's possible to have more than one power state change pending at one - time, so a queue is implemented. - Example: - * The subclass device decides it's idle and initiates a change to a lower - power state. This causes interested parties to be notified, but they - don't all acknowledge right away. This causes the change note to sit - in the queue until all the acks are received. During this time, the - device decides it isn't idle anymore and wants to raise power back up - again. This change can't be started, however, because the previous one - isn't complete yet, so the second one waits in the queue. During this - time, the parent decides to lower or raise the power state of the entire - power domain and notifies the device, and that notification goes into - the queue, too, and can't be actioned until the others are. - - == SelfInitiated == - This is how a power change initiated by the subclass device is handled: - -> First, all interested parties are notified of the change via their - powerStateWillChangeTo method. If they all don't acknowledge via return - code, then we have to wait. If they do, or when they finally all - acknowledge via our acknowledgePowerChange method, then we can continue. - -> We call the controlling driver, instructing it to change to the new state - -> Then we wait for power to settle. If there is no settling-time, or after - it has passed, - -> we notify interested parties again, this time via their - powerStateDidChangeTo methods. - -> When they have all acked, we're done. - If we lowered power and don't need the power domain to be in its current power - state, we suggest to the parent that it lower the power domain state. - - == PowerDomainDownInitiated == -How a change to a lower power domain state initiated by the parent is handled: - -> First, we figure out what power state we will be in when the new domain - state is reached. - -> Then all interested parties are notified that we are moving to that new - state. - -> When they have acknowledged, we call the controlling driver to assume - that state and we wait for power to settle. - -> Then we acknowledge our preparedness to our parent. When all its - interested parties have acknowledged, - -> it lowers power and then notifies its interested parties again. - -> When we get this call, we notify our interested parties that the power - state has changed, and when they have all acknowledged, we're done. - - == PowerDomainUpInitiated == -How a change to a higher power domain state initiated by the parent is handled: - -> We figure out what power state we will be in when the new domain state is - reached. - -> If it is different from our current state we acknowledge the parent. - -> When all the parent's interested parties have acknowledged, it raises - power in the domain and waits for power to settle. - -> Then it notifies everyone that the new state has been reached. - -> When we get this call, we call the controlling driver, instructing it to - assume the new state, and wait for power to settle. - -> Then we notify our interested parties. When they all acknowledge we are - done. - - In either of the two power domain state cases above, it is possible that we - will not be changing state even though the domain is. - Examples: - * A change to a lower domain state may not affect us because we are already - in a low enough state, - * We will not take advantage of a change to a higher domain state, because - we have no need of the higher power. In such cases, there is nothing to - do but acknowledge the parent. So when the parent calls our - powerDomainWillChange method, and we decide that we will not be changing - state, we merely acknowledge the parent, via return code, and wait. - When the parent subsequently calls powerStateDidChange, we acknowledge again - via return code, and the change is complete. - - == 4 Paths Through State Machine == - Power state changes are processed in a state machine, and since there are four - varieties of power state changes, there are four major paths through the state - machine. - - == 5. No Need To change == - The fourth is nearly trivial. In this path, the parent is changing the domain - state, but we are not changing the device state. The change starts when the - parent calls powerDomainWillChange. All we do is acknowledge the parent. When - the parent calls powerStateDidChange, we acknowledge the parent again, and - we're done. - - == 1. OurChange Down == XXX gvdl - The first is fairly simple. It starts: - * when a power domain child calls requestPowerDomainState and we decide to - change power states to accomodate the child, - * or if our power-controlling driver calls changePowerStateTo, - * or if some other driver which is using our device calls makeUsable, - * or if a subclassed object calls changePowerStateToPriv. - These are all power changes initiated by us, not forced upon us by the parent. - - -> We start by notifying interested parties. - -> If they all acknowledge via return code, we can go on to state - "msSetPowerState". - -> Otherwise, we start the ack timer and wait for the stragglers to - acknowlege by calling acknowledgePowerChange. - -> We move on to state "msSetPowerState" when all the - stragglers have acknowledged, or when the ack timer expires on - all those which didn't acknowledge. - In "msSetPowerState" we call the power-controlling driver to change the - power state of the hardware. - -> If it returns saying it has done so, we go on to state - "msWaitForPowerSettle". - -> Otherwise, we have to wait for it, so we set the ack timer and wait. - -> When it calls acknowledgeSetPowerState, or when the ack timer - expires, we go on. - In "msWaitForPowerSettle", we look in the power state array to see if - there is any settle time required when changing from our current state to the - new state. - -> If not, we go right away to "msNotifyInterestedDriversDidChange". - -> Otherwise, we set the settle timer and wait. When it expires, we move on. - In "msNotifyInterestedDriversDidChange" state, we notify all our - interested parties via their powerStateDidChange methods that we have finished - changing power state. - -> If they all acknowledge via return code, we move on to "msFinish". - -> Otherwise we set the ack timer and wait. When they have all - acknowledged, or when the ack timer has expired for those that didn't, - we move on to "msFinish". - In "msFinish" we remove the used change note from the head of the queue - and start the next one if one exists. - - == 2. Parent Change Down == - Start at Stage 2 of OurChange Down XXX gvdl - - == 3. Change Up == - Start at Stage 4 of OurChange Down XXX gvdl - -Note all parent requested changes need to acknowledge the power has changed to the parent when done. - */ - //********************************************************************************* -// [public virtual] PMinit +// [public] PMinit // // Initialize power management. //********************************************************************************* -void IOService::PMinit ( void ) +void +IOService::PMinit( void ) { - if ( !initialized ) - { - if ( !gIOPMInitialized ) - { + if (!initialized) { + if (!gIOPMInitialized) { + gPlatform = getPlatform(); gIOPMWorkLoop = IOWorkLoop::workLoop(); - if (gIOPMWorkLoop) - { + if (gIOPMWorkLoop) { gIOPMRequestQueue = IOPMRequestQueue::create( this, OSMemberFunctionCast(IOPMRequestQueue::Action, - this, &IOService::servicePMRequestQueue)); + this, &IOService::actionPMRequestQueue)); gIOPMReplyQueue = IOPMRequestQueue::create( this, OSMemberFunctionCast(IOPMRequestQueue::Action, - this, &IOService::servicePMReplyQueue)); + this, &IOService::actionPMReplyQueue)); - gIOPMFreeQueue = IOPMRequestQueue::create( - this, OSMemberFunctionCast(IOPMRequestQueue::Action, - this, &IOService::servicePMFreeQueue)); + gIOPMWorkQueue = IOPMWorkQueue::create(this, + OSMemberFunctionCast(IOPMWorkQueue::Action, this, + &IOService::actionPMWorkQueueInvoke), + OSMemberFunctionCast(IOPMWorkQueue::Action, this, + &IOService::actionPMWorkQueueRetire)); + + gIOPMCompletionQueue = IOPMCompletionQueue::create( + this, OSMemberFunctionCast(IOPMCompletionQueue::Action, + this, &IOService::actionPMCompletionQueue)); if (gIOPMWorkLoop->addEventSource(gIOPMRequestQueue) != - kIOReturnSuccess) - { + kIOReturnSuccess) { gIOPMRequestQueue->release(); - gIOPMRequestQueue = 0; + gIOPMRequestQueue = NULL; } if (gIOPMWorkLoop->addEventSource(gIOPMReplyQueue) != - kIOReturnSuccess) - { + kIOReturnSuccess) { gIOPMReplyQueue->release(); - gIOPMReplyQueue = 0; + gIOPMReplyQueue = NULL; } - if (gIOPMWorkLoop->addEventSource(gIOPMFreeQueue) != - kIOReturnSuccess) - { - gIOPMFreeQueue->release(); - gIOPMFreeQueue = 0; + if (gIOPMWorkLoop->addEventSource(gIOPMWorkQueue) != + kIOReturnSuccess) { + gIOPMWorkQueue->release(); + gIOPMWorkQueue = NULL; } + + // Must be added after the work queue, which pushes request + // to the completion queue without signaling the work loop. + if (gIOPMWorkLoop->addEventSource(gIOPMCompletionQueue) != + kIOReturnSuccess) { + gIOPMCompletionQueue->release(); + gIOPMCompletionQueue = NULL; + } + + gIOPMPowerClientDevice = + OSSymbol::withCStringNoCopy( "DevicePowerState" ); + + gIOPMPowerClientDriver = + OSSymbol::withCStringNoCopy( "DriverPowerState" ); + + gIOPMPowerClientChildProxy = + OSSymbol::withCStringNoCopy( "ChildProxyPowerState" ); + + gIOPMPowerClientChildren = + OSSymbol::withCStringNoCopy( "ChildrenPowerState" ); + + gIOPMPowerClientAdvisoryTickle = + OSSymbol::withCStringNoCopy( "AdvisoryTicklePowerState" ); + + gIOPMPowerClientRootDomain = + OSSymbol::withCStringNoCopy( "RootDomainPower" ); } - if (gIOPMRequestQueue && gIOPMReplyQueue && gIOPMFreeQueue) + if (gIOPMRequestQueue && gIOPMReplyQueue && gIOPMCompletionQueue) { gIOPMInitialized = true; + } } - if (!gIOPMInitialized) + if (!gIOPMInitialized) { return; + } + + pwrMgt = new IOServicePM; + pwrMgt->init(); + setProperty(kPwrMgtKey, pwrMgt); + + queue_init(&pwrMgt->WorkChain); + queue_init(&pwrMgt->RequestHead); + queue_init(&pwrMgt->PMDriverCallQueue); + + fOwner = this; + fPMLock = IOLockAlloc(); + fInterestedDrivers = new IOPMinformeeList; + fInterestedDrivers->initialize(); + fDesiredPowerState = kPowerStateZero; + fDeviceDesire = kPowerStateZero; + fInitialPowerChange = true; + fInitialSetPowerState = true; + fPreviousRequestPowerFlags = 0; + fDeviceOverrideEnabled = false; + fMachineState = kIOPM_Finished; + fSavedMachineState = kIOPM_BadMachineState; + fIdleTimerMinPowerState = kPowerStateZero; + fActivityLock = IOLockAlloc(); + fStrictTreeOrder = false; + fActivityTicklePowerState = kInvalidTicklePowerState; + fAdvisoryTicklePowerState = kInvalidTicklePowerState; + fControllingDriver = NULL; + fPowerStates = NULL; + fNumberOfPowerStates = 0; + fCurrentPowerState = kPowerStateZero; + fParentsCurrentPowerFlags = 0; + fMaxPowerState = kPowerStateZero; + fName = getName(); + fParentsKnowState = false; + fSerialNumber = 0; + fResponseArray = NULL; + fNotifyClientArray = NULL; + fCurrentPowerConsumption = kIOPMUnknown; + fOverrideMaxPowerState = kIOPMPowerStateMax; + + if (!gIOPMRootNode && (getParentEntry(gIOPowerPlane) == getRegistryRoot())) { + gIOPMRootNode = this; + fParentsKnowState = true; + } else if (getProperty(kIOPMResetPowerStateOnWakeKey) == kOSBooleanTrue) { + fResetPowerStateOnWake = true; + } - pwrMgt = new IOServicePM; - pwrMgt->init(); - setProperty(kPwrMgtKey, pwrMgt); - - fOwner = this; - fWeAreRoot = false; - fPMLock = IOLockAlloc(); - fInterestedDrivers = new IOPMinformeeList; - fInterestedDrivers->initialize(); - fDesiredPowerState = 0; - fDriverDesire = 0; - fDeviceDesire = 0; - fInitialChange = true; - fNeedToBecomeUsable = false; - fPreviousRequest = 0; - fDeviceOverrides = false; - fMachineState = kIOPM_Finished; - fIdleTimerEventSource = NULL; - fIdleTimerMinPowerState = 0; - fActivityLock = IOLockAlloc(); - fClampOn = false; - fStrictTreeOrder = false; - fActivityTicklePowerState = -1; - fControllingDriver = NULL; - fPowerStates = NULL; - fNumberOfPowerStates = 0; - fCurrentPowerState = 0; - fParentsCurrentPowerFlags = 0; - fMaxCapability = 0; - fName = getName(); - fPlatform = getPlatform(); - fParentsKnowState = false; - fSerialNumber = 0; - fResponseArray = NULL; - fDoNotPowerDown = true; - fCurrentPowerConsumption = kIOPMUnknown; - - for (unsigned int i = 0; i <= kMaxType; i++) - { - fAggressivenessValue[i] = 0; - fAggressivenessValid[i] = false; - } - - fAckTimer = thread_call_allocate( + if (IS_ROOT_DOMAIN) { + fWatchdogTimer = thread_call_allocate( + &IOService::watchdog_timer_expired, (thread_call_param_t)this); + fWatchdogLock = IOLockAlloc(); + + fBlockedArray = OSArray::withCapacity(4); + } + + fAckTimer = thread_call_allocate( &IOService::ack_timer_expired, (thread_call_param_t)this); - fSettleTimer = thread_call_allocate( + fSettleTimer = thread_call_allocate( &settle_timer_expired, (thread_call_param_t)this); + fIdleTimer = thread_call_allocate( + &idle_timer_expired, (thread_call_param_t)this); fDriverCallEntry = thread_call_allocate( (thread_call_func_t) &IOService::pmDriverCallout, this); assert(fDriverCallEntry); + // Check for powerChangeDone override. + if (OSMemberFunctionCast(void (*)(void), + getResourceService(), &IOService::powerChangeDone) != + OSMemberFunctionCast(void (*)(void), + this, &IOService::powerChangeDone)) { + fPCDFunctionOverride = true; + } + #if PM_VARS_SUPPORT - IOPMprot * prot = new IOPMprot; - if (prot) - { - prot->init(); - prot->ourName = fName; - prot->thePlatform = fPlatform; - fPMVars = prot; - pm_vars = prot; + IOPMprot * prot = new IOPMprot; + if (prot) { + prot->init(); + prot->ourName = fName; + prot->thePlatform = gPlatform; + fPMVars = prot; + pm_vars = prot; } #else - pm_vars = (IOPMprot *) true; + pm_vars = (void *) (uintptr_t) true; #endif - initialized = true; - } + initialized = true; + } } //********************************************************************************* -// [public] PMfree +// [private] PMfree // -// Free up the data created in PMinit, if it exists. +// Free the data created by PMinit. Only called from IOService::free(). //********************************************************************************* -void IOService::PMfree ( void ) +void +IOService::PMfree( void ) { initialized = false; - pm_vars = 0; + pm_vars = NULL; - if ( pwrMgt ) - { + if (pwrMgt) { assert(fMachineState == kIOPM_Finished); assert(fInsertInterestSet == NULL); assert(fRemoveInterestSet == NULL); - assert(fNotifyChildArray == NULL); - - if ( fIdleTimerEventSource != NULL ) { - getPMworkloop()->removeEventSource(fIdleTimerEventSource); - fIdleTimerEventSource->release(); - fIdleTimerEventSource = NULL; - } - if ( fSettleTimer ) { - thread_call_cancel(fSettleTimer); - thread_call_free(fSettleTimer); - fSettleTimer = NULL; - } - if ( fAckTimer ) { - thread_call_cancel(fAckTimer); - thread_call_free(fAckTimer); - fAckTimer = NULL; - } - if ( fDriverCallEntry ) { - thread_call_free(fDriverCallEntry); - fDriverCallEntry = NULL; - } - if ( fPMLock ) { - IOLockFree(fPMLock); - fPMLock = NULL; - } - if ( fActivityLock ) { - IOLockFree(fActivityLock); - fActivityLock = NULL; - } - if ( fInterestedDrivers ) { + assert(fNotifyChildArray == NULL); + assert(queue_empty(&pwrMgt->RequestHead)); + assert(queue_empty(&fPMDriverCallQueue)); + + if (fWatchdogTimer) { + thread_call_cancel(fWatchdogTimer); + thread_call_free(fWatchdogTimer); + fWatchdogTimer = NULL; + } + + if (fWatchdogLock) { + IOLockFree(fWatchdogLock); + fWatchdogLock = NULL; + } + + if (fBlockedArray) { + fBlockedArray->release(); + fBlockedArray = NULL; + } + + if (fSettleTimer) { + thread_call_cancel(fSettleTimer); + thread_call_free(fSettleTimer); + fSettleTimer = NULL; + } + if (fAckTimer) { + thread_call_cancel(fAckTimer); + thread_call_free(fAckTimer); + fAckTimer = NULL; + } + if (fIdleTimer) { + thread_call_cancel(fIdleTimer); + thread_call_free(fIdleTimer); + fIdleTimer = NULL; + } + if (fDriverCallEntry) { + thread_call_free(fDriverCallEntry); + fDriverCallEntry = NULL; + } + if (fPMLock) { + IOLockFree(fPMLock); + fPMLock = NULL; + } + if (fActivityLock) { + IOLockFree(fActivityLock); + fActivityLock = NULL; + } + if (fInterestedDrivers) { fInterestedDrivers->release(); fInterestedDrivers = NULL; } - if ( fPMWorkQueue ) { - getPMworkloop()->removeEventSource(fPMWorkQueue); - fPMWorkQueue->release(); - fPMWorkQueue = 0; - } if (fDriverCallParamSlots && fDriverCallParamPtr) { IODelete(fDriverCallParamPtr, DriverCallParam, fDriverCallParamSlots); - fDriverCallParamPtr = 0; + fDriverCallParamPtr = NULL; fDriverCallParamSlots = 0; } - if ( fResponseArray ) { - fResponseArray->release(); - fResponseArray = NULL; - } - if (fPowerStates && fNumberOfPowerStates) { - IODelete(fPowerStates, IOPMPowerState, fNumberOfPowerStates); - fNumberOfPowerStates = 0; - fPowerStates = NULL; - } + if (fResponseArray) { + fResponseArray->release(); + fResponseArray = NULL; + } + if (fNotifyClientArray) { + fNotifyClientArray->release(); + fNotifyClientArray = NULL; + } + if (fPowerStates && fNumberOfPowerStates) { + IODelete(fPowerStates, IOPMPSEntry, fNumberOfPowerStates); + fNumberOfPowerStates = 0; + fPowerStates = NULL; + } + if (fPowerClients) { + fPowerClients->release(); + fPowerClients = NULL; + } #if PM_VARS_SUPPORT - if (fPMVars) - { + if (fPMVars) { fPMVars->release(); - fPMVars = 0; + fPMVars = NULL; } #endif - pwrMgt->release(); - pwrMgt = 0; - } + pwrMgt->release(); + pwrMgt = NULL; + } +} + +void +IOService::PMDebug( uint32_t event, uintptr_t param1, uintptr_t param2 ) +{ + OUR_PMLog(event, param1, param2); } //********************************************************************************* -// [public virtual] joinPMtree +// [public] joinPMtree // // A policy-maker calls its nub here when initializing, to be attached into // the power management hierarchy. The default function is to call the @@ -536,204 +615,208 @@ void IOService::PMfree ( void ) // meaning it may not be initialized for power management. //********************************************************************************* -void IOService::joinPMtree ( IOService * driver ) +void +IOService::joinPMtree( IOService * driver ) { - IOPlatformExpert * platform; + IOPlatformExpert * platform; - platform = getPlatform(); - assert(platform != 0); - platform->PMRegisterDevice(this, driver); + platform = getPlatform(); + assert(platform != NULL); + platform->PMRegisterDevice(this, driver); } +#ifndef __LP64__ //********************************************************************************* -// [public virtual] youAreRoot +// [deprecated] youAreRoot // // Power Managment is informing us that we are the root power domain. -// The only difference between us and any other power domain is that -// we have no parent and therefore never call it. //********************************************************************************* -IOReturn IOService::youAreRoot ( void ) +IOReturn +IOService::youAreRoot( void ) { - fWeAreRoot = true; - fParentsKnowState = true; - attachToParent( getRegistryRoot(), gIOPowerPlane ); - return IOPMNoErr; + return IOPMNoErr; } +#endif /* !__LP64__ */ //********************************************************************************* -// [public virtual] PMstop +// [public] PMstop // // Immediately stop driver callouts. Schedule an async stop request to detach // from power plane. //********************************************************************************* -void IOService::PMstop ( void ) +void +IOService::PMstop( void ) { IOPMRequest * request; - if (!initialized) + if (!initialized) { return; - - // Schedule an async PMstop request, but immediately stop any further - // calls to the controlling or interested drivers. This device will - // continue to exist in the power plane and participate in power state - // changes until the PMstop async request is processed. + } PM_LOCK(); - fWillPMStop = true; - if (fDriverCallBusy) - PM_DEBUG("%s::PMstop() driver call busy\n", getName()); - PM_UNLOCK(); + if (fLockedFlags.PMStop) { + PM_LOG2("%s: PMstop() already stopped\n", fName); + PM_UNLOCK(); + return; + } + + // Inhibit future driver calls. + fLockedFlags.PMStop = true; + + // Wait for all prior driver calls to finish. + waitForPMDriverCall(); + + PM_UNLOCK(); + + // The rest of the work is performed async. request = acquirePMRequest( this, kIOPMRequestTypePMStop ); - if (request) - { - PM_TRACE("[%s] %p PMstop\n", getName(), this); + if (request) { + PM_LOG2("%s: %p PMstop\n", getName(), OBFUSCATE(this)); submitPMRequest( request ); } } //********************************************************************************* -// handlePMstop +// [private] handlePMstop // -// Disconnect the node from its parents and children in the Power Plane. +// Disconnect the node from all parents and children in the power plane. //********************************************************************************* -void IOService::handlePMstop ( IOPMRequest * request ) +void +IOService::handlePMstop( IOPMRequest * request ) { - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - IOService * theChild; - IOService * theParent; + OSIterator * iter; + OSObject * next; + IOPowerConnection * connection; + IOService * theChild; + IOService * theParent; PM_ASSERT_IN_GATE(); - PM_TRACE("[%s] %p %s start\n", getName(), this, __FUNCTION__); - - // remove the property - removeProperty(kPwrMgtKey); - - // detach parents - iter = getParentIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - theParent = (IOService *)connection->copyParentEntry(gIOPowerPlane); - if ( theParent ) - { - theParent->removePowerChild(connection); - theParent->release(); - } - } - } - iter->release(); - } - - // detach IOConnections - detachAbove( gIOPowerPlane ); - - // no more power state changes - fParentsKnowState = false; - - // detach children - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - theChild = ((IOService *)(connection->copyChildEntry(gIOPowerPlane))); - if ( theChild ) - { - // detach nub from child - connection->detachFromChild(theChild, gIOPowerPlane); - theChild->release(); - } - // detach us from nub - detachFromChild(connection, gIOPowerPlane); - } - } - iter->release(); - } - - // Remove all interested drivers from the list, including the power - // controlling driver. - // - // Usually, the controlling driver and the policy-maker functionality - // are implemented by the same object, and without the deregistration, - // the object will be holding an extra retain on itself, and cannot - // be freed. - - if ( fInterestedDrivers ) - { - IOPMinformeeList * list = fInterestedDrivers; - IOPMinformee * item; + PM_LOG2("%s: %p %s start\n", getName(), OBFUSCATE(this), __FUNCTION__); + + // remove driver from prevent system sleep lists + getPMRootDomain()->updatePreventIdleSleepList(this, false); + getPMRootDomain()->updatePreventSystemSleepList(this, false); + + // remove the property + removeProperty(kPwrMgtKey); + + // detach parents + iter = getParentIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + theParent = (IOService *)connection->copyParentEntry(gIOPowerPlane); + if (theParent) { + theParent->removePowerChild(connection); + theParent->release(); + } + } + } + iter->release(); + } + + // detach IOConnections + detachAbove( gIOPowerPlane ); + + // no more power state changes + fParentsKnowState = false; + + // detach children + iter = getChildIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + theChild = ((IOService *)(connection->copyChildEntry(gIOPowerPlane))); + if (theChild) { + // detach nub from child + connection->detachFromChild(theChild, gIOPowerPlane); + theChild->release(); + } + // detach us from nub + detachFromChild(connection, gIOPowerPlane); + } + } + iter->release(); + } + + // Remove all interested drivers from the list, including the power + // controlling driver. + // + // Usually, the controlling driver and the policy-maker functionality + // are implemented by the same object, and without the deregistration, + // the object will be holding an extra retain on itself, and cannot + // be freed. + + if (fInterestedDrivers) { + IOPMinformeeList * list = fInterestedDrivers; + IOPMinformee * item; PM_LOCK(); - while ((item = list->firstInList())) - { + while ((item = list->firstInList())) { list->removeFromList(item->whatObject); } PM_UNLOCK(); } - // Tell PM_idle_timer_expiration() to ignore idle timer. + // Clear idle period to prevent idleTimerExpired() from servicing + // idle timer expirations. + fIdleTimerPeriod = 0; + if (fIdleTimer && thread_call_cancel(fIdleTimer)) { + release(); + } - fWillPMStop = false; - PM_TRACE("[%s] %p %s done\n", getName(), this, __FUNCTION__); + PM_LOG2("%s: %p %s done\n", getName(), OBFUSCATE(this), __FUNCTION__); } //********************************************************************************* -// [public virtual] addPowerChild +// [public] addPowerChild // // Power Management is informing us who our children are. //********************************************************************************* -IOReturn IOService::addPowerChild ( IOService * child ) +IOReturn +IOService::addPowerChild( IOService * child ) { - IOPowerConnection * connection = 0; - IOPMRequest * requests[3] = {0, 0, 0}; - OSIterator * iter; - bool ok = true; + IOPowerConnection * connection = NULL; + IOPMRequest * requests[3] = {NULL, NULL, NULL}; + OSIterator * iter; + bool ok = true; - if (!child) + if (!child) { return kIOReturnBadArgument; + } - if (!initialized || !child->initialized) + if (!initialized || !child->initialized) { return IOPMNotYetInitialized; + } - OUR_PMLog( kPMLogAddChild, 0, 0 ); + OUR_PMLog( kPMLogAddChild, (uintptr_t) child, 0 ); do { // Is this child already one of our children? iter = child->getParentIterator( gIOPowerPlane ); - if ( iter ) - { - IORegistryEntry * entry; - OSObject * next; + if (iter) { + IORegistryEntry * entry; + OSObject * next; - while ((next = iter->getNextObject())) - { + while ((next = iter->getNextObject())) { if ((entry = OSDynamicCast(IORegistryEntry, next)) && - isChild(entry, gIOPowerPlane)) - { + isChild(entry, gIOPowerPlane)) { ok = false; break; - } + } } iter->release(); } - if (!ok) - { - PM_DEBUG("[%s] %s (%p) is already a child\n", - getName(), child->getName(), child); + if (!ok) { + PM_LOG2("%s: %s (%p) is already a child\n", + getName(), child->getName(), OBFUSCATE(child)); break; } @@ -744,29 +827,31 @@ IOReturn IOService::addPowerChild ( IOService * child ) // block on the PM work loop. connection = new IOPowerConnection; - if (!connection) + if (!connection) { break; + } // Create a chain of PM requests to perform the bottom-half // work from the PM work loop. requests[0] = acquirePMRequest( - /* target */ this, - /* type */ kIOPMRequestTypeAddPowerChild1 ); + /* target */ this, + /* type */ kIOPMRequestTypeAddPowerChild1 ); requests[1] = acquirePMRequest( - /* target */ child, - /* type */ kIOPMRequestTypeAddPowerChild2 ); + /* target */ child, + /* type */ kIOPMRequestTypeAddPowerChild2 ); requests[2] = acquirePMRequest( - /* target */ this, - /* type */ kIOPMRequestTypeAddPowerChild3 ); + /* target */ this, + /* type */ kIOPMRequestTypeAddPowerChild3 ); - if (!requests[0] || !requests[1] || !requests[2]) + if (!requests[0] || !requests[1] || !requests[2]) { break; + } - requests[0]->setParentRequest( requests[1] ); - requests[1]->setParentRequest( requests[2] ); + requests[0]->attachNextRequest( requests[1] ); + requests[1]->attachNextRequest( requests[2] ); connection->init(); connection->start(this); @@ -781,143 +866,147 @@ IOReturn IOService::addPowerChild ( IOService * child ) requests[1]->fArg0 = connection; requests[2]->fArg0 = connection; - submitPMRequest( requests, 3 ); + submitPMRequests( requests, 3 ); return kIOReturnSuccess; - } - while (false); + }while (false); - if (connection) connection->release(); - if (requests[0]) releasePMRequest(requests[0]); - if (requests[1]) releasePMRequest(requests[1]); - if (requests[2]) releasePMRequest(requests[2]); + if (connection) { + connection->release(); + } + if (requests[0]) { + releasePMRequest(requests[0]); + } + if (requests[1]) { + releasePMRequest(requests[1]); + } + if (requests[2]) { + releasePMRequest(requests[2]); + } - // silent failure, to prevent platform drivers from adding the child + // Silent failure, to prevent platform drivers from adding the child // to the root domain. - return IOPMNoErr; + + return kIOReturnSuccess; } //********************************************************************************* // [private] addPowerChild1 // -// Called on the power parent. +// Step 1/3 of adding a power child. Called on the power parent. //********************************************************************************* -void IOService::addPowerChild1 ( IOPMRequest * request ) +void +IOService::addPowerChild1( IOPMRequest * request ) { - unsigned long tempDesire = 0; + IOPMPowerStateIndex tempDesire = kPowerStateZero; // Make us temporary usable before adding the child. PM_ASSERT_IN_GATE(); - OUR_PMLog( kPMLogMakeUsable, kPMLogMakeUsable, fDeviceDesire ); + OUR_PMLog( kPMLogMakeUsable, kPMLogMakeUsable, 0 ); - if (fControllingDriver && inPlane(gIOPowerPlane) && fParentsKnowState) - { - tempDesire = fNumberOfPowerStates - 1; + if (fControllingDriver && inPlane(gIOPowerPlane) && fParentsKnowState) { + tempDesire = fHighestPowerState; } - if (tempDesire && (fWeAreRoot || (fMaxCapability >= tempDesire))) - { - computeDesiredState( tempDesire ); - changeState(); + if ((tempDesire != kPowerStateZero) && + (IS_PM_ROOT || (StateOrder(fMaxPowerState) >= StateOrder(tempDesire)))) { + adjustPowerState(tempDesire); } } //********************************************************************************* // [private] addPowerChild2 // -// Called on the joining child. Blocked behind addPowerChild1. +// Step 2/3 of adding a power child. Called on the joining child. +// Execution blocked behind addPowerChild1. //********************************************************************************* -void IOService::addPowerChild2 ( IOPMRequest * request ) +void +IOService::addPowerChild2( IOPMRequest * request ) { IOPowerConnection * connection = (IOPowerConnection *) request->fArg0; IOService * parent; - IOPMPowerFlags powerFlags; - bool knowsState; - unsigned long powerState; - unsigned long tempDesire; + IOPMPowerFlags powerFlags; + bool knowsState; + unsigned long powerState; + unsigned long tempDesire; PM_ASSERT_IN_GATE(); parent = (IOService *) connection->getParentEntry(gIOPowerPlane); - if (!parent || !inPlane(gIOPowerPlane)) - { - PM_DEBUG("[%s] addPowerChild2 not in power plane\n", getName()); + if (!parent || !inPlane(gIOPowerPlane)) { + PM_LOG("%s: addPowerChild2 not in power plane\n", getName()); return; } - // Parent will be waiting for us to complete this stage, safe to - // directly access parent's vars. + // Parent will be waiting for us to complete this stage. + // It is safe to directly access parent's vars. knowsState = (parent->fPowerStates) && (parent->fParentsKnowState); powerState = parent->fCurrentPowerState; - if (knowsState) - powerFlags = parent->fPowerStates[powerState].outputPowerCharacter; - else + if (knowsState) { + powerFlags = parent->fPowerStates[powerState].outputPowerFlags; + } else { powerFlags = 0; + } // Set our power parent. - OUR_PMLog(kPMLogSetParent, knowsState, powerFlags); + OUR_PMLog(kPMLogSetParent, knowsState, powerFlags); setParentInfo( powerFlags, connection, knowsState ); connection->setReadyFlag(true); - if ( fControllingDriver && fParentsKnowState ) - { - fMaxCapability = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags); - // initially change into the state we are already in - tempDesire = fControllingDriver->initialPowerStateForDomainState(fParentsCurrentPowerFlags); - computeDesiredState(tempDesire); - fPreviousRequest = 0xffffffff; - changeState(); - } + if (fControllingDriver && fParentsKnowState) { + fMaxPowerState = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags); + // initially change into the state we are already in + tempDesire = fControllingDriver->initialPowerStateForDomainState(fParentsCurrentPowerFlags); + fPreviousRequestPowerFlags = (IOPMPowerFlags)(-1); + adjustPowerState(tempDesire); + } + + getPMRootDomain()->tagPowerPlaneService(this, &fPMActions); } //********************************************************************************* // [private] addPowerChild3 // -// Called on the parent. Blocked behind addPowerChild2. +// Step 3/3 of adding a power child. Called on the parent. +// Execution blocked behind addPowerChild2. //********************************************************************************* -void IOService::addPowerChild3 ( IOPMRequest * request ) +void +IOService::addPowerChild3( IOPMRequest * request ) { IOPowerConnection * connection = (IOPowerConnection *) request->fArg0; IOService * child; - unsigned int i; + IOPMrootDomain * rootDomain = getPMRootDomain(); PM_ASSERT_IN_GATE(); child = (IOService *) connection->getChildEntry(gIOPowerPlane); - if (child && inPlane(gIOPowerPlane)) - { - if (child->getProperty("IOPMStrictTreeOrder")) - { - PM_DEBUG("[%s] strict ordering enforced\n", getName()); + if (child && inPlane(gIOPowerPlane)) { + if ((this != rootDomain) && child->getProperty("IOPMStrictTreeOrder")) { + PM_LOG1("%s: strict PM order enforced\n", getName()); fStrictTreeOrder = true; } - for (i = 0; i <= kMaxType; i++) - { - if ( fAggressivenessValid[i] ) - { - child->setAggressiveness(i, fAggressivenessValue[i]); - } + if (rootDomain) { + rootDomain->joinAggressiveness( child ); } - } - else - { - PM_DEBUG("[%s] addPowerChild3 not in power plane\n", getName()); + } else { + PM_LOG("%s: addPowerChild3 not in power plane\n", getName()); } connection->release(); } +#ifndef __LP64__ //********************************************************************************* -// [public virtual deprecated] setPowerParent +// [deprecated] setPowerParent // // Power Management is informing us who our parent is. // If we have a controlling driver, find out, given our newly-informed @@ -925,121 +1014,164 @@ void IOService::addPowerChild3 ( IOPMRequest * request ) // to assume that state. //********************************************************************************* -IOReturn IOService::setPowerParent ( +IOReturn +IOService::setPowerParent( IOPowerConnection * theParent, bool stateKnown, IOPMPowerFlags powerFlags ) { return kIOReturnUnsupported; } +#endif /* !__LP64__ */ //********************************************************************************* -// [public virtual] removePowerChild +// [public] removePowerChild // // Called on a parent whose child is being removed by PMstop(). //********************************************************************************* -IOReturn IOService::removePowerChild ( IOPowerConnection * theNub ) +IOReturn +IOService::removePowerChild( IOPowerConnection * theNub ) { - IORegistryEntry * theChild; + IORegistryEntry * theChild; PM_ASSERT_IN_GATE(); - OUR_PMLog( kPMLogRemoveChild, 0, 0 ); - - theNub->retain(); - - // detach nub from child - theChild = theNub->copyChildEntry(gIOPowerPlane); - if ( theChild ) - { - theNub->detachFromChild(theChild, gIOPowerPlane); - theChild->release(); - } - // detach from the nub - detachFromChild(theNub, gIOPowerPlane); - - // Are we awaiting an ack from this child? - if ( theNub->getAwaitingAck() ) - { + OUR_PMLog( kPMLogRemoveChild, 0, 0 ); + + theNub->retain(); + + // detach nub from child + theChild = theNub->copyChildEntry(gIOPowerPlane); + if (theChild) { + theNub->detachFromChild(theChild, gIOPowerPlane); + theChild->release(); + } + // detach from the nub + detachFromChild(theNub, gIOPowerPlane); + + // Are we awaiting an ack from this child? + if (theNub->getAwaitingAck()) { // yes, pretend we got one theNub->setAwaitingAck(false); - if (fHeadNotePendingAcks != 0 ) - { + if (fHeadNotePendingAcks != 0) { // that's one fewer ack to worry about fHeadNotePendingAcks--; // is that the last? - if ( fHeadNotePendingAcks == 0 ) - { + if (fHeadNotePendingAcks == 0) { stop_ack_timer(); + getPMRootDomain()->reset_watchdog_timer(this, 0); + + // This parent may have a request in the work queue that is + // blocked on fHeadNotePendingAcks=0. And removePowerChild() + // is called while executing the child's PMstop request so they + // can occur simultaneously. IOPMWorkQueue::checkForWork() must + // restart and check all request queues again. + + gIOPMWorkQueue->incrementProducerCount(); } } } theNub->release(); - // Schedule a request to re-scan child desires and clamp bits. - if (!fWillAdjustPowerState) - { - IOPMRequest * request; + // A child has gone away, re-scan children desires and clamp bits. + // The fPendingAdjustPowerRequest helps to reduce redundant parent work. + if (!fAdjustPowerScheduled) { + IOPMRequest * request; request = acquirePMRequest( this, kIOPMRequestTypeAdjustPowerState ); - if (request) - { + if (request) { submitPMRequest( request ); - fWillAdjustPowerState = true; + fAdjustPowerScheduled = true; } } - return IOPMNoErr; + return IOPMNoErr; } //********************************************************************************* -// [public virtual] registerPowerDriver +// [public] registerPowerDriver // // A driver has called us volunteering to control power to our device. //********************************************************************************* -IOReturn IOService::registerPowerDriver ( - IOService * powerDriver, - IOPMPowerState * powerStates, - unsigned long numberOfStates ) +IOReturn +IOService::registerPowerDriver( + IOService * powerDriver, + IOPMPowerState * powerStates, + unsigned long numberOfStates ) { - IOPMRequest * request; - IOPMPowerState * powerStatesCopy = 0; + IOPMRequest * request; + IOPMPSEntry * powerStatesCopy = NULL; + IOPMPowerStateIndex stateOrder; + IOReturn error = kIOReturnSuccess; - if (!initialized) + if (!initialized) { return IOPMNotYetInitialized; + } - // Validate arguments. - if (!powerStates || (numberOfStates < 2)) - { + if (!powerStates || (numberOfStates < 2)) { OUR_PMLog(kPMLogControllingDriverErr5, numberOfStates, 0); return kIOReturnBadArgument; } - if (!powerDriver) - { + if (!powerDriver || !powerDriver->initialized) { OUR_PMLog(kPMLogControllingDriverErr4, 0, 0); return kIOReturnBadArgument; } - if (powerStates[0].version != kIOPMPowerStateVersion1) - { + if (powerStates[0].version > kIOPMPowerStateVersion2) { OUR_PMLog(kPMLogControllingDriverErr1, powerStates[0].version, 0); return kIOReturnBadArgument; } do { // Make a copy of the supplied power state array. - powerStatesCopy = IONew(IOPMPowerState, numberOfStates); - if (!powerStatesCopy) + powerStatesCopy = IONew(IOPMPSEntry, numberOfStates); + if (!powerStatesCopy) { + error = kIOReturnNoMemory; break; + } + + // Initialize to bogus values + for (IOPMPowerStateIndex i = 0; i < numberOfStates; i++) { + powerStatesCopy[i].stateOrderToIndex = kIOPMPowerStateMax; + } - bcopy( powerStates, powerStatesCopy, - sizeof(IOPMPowerState) * numberOfStates ); + for (uint32_t i = 0; i < numberOfStates; i++) { + powerStatesCopy[i].capabilityFlags = powerStates[i].capabilityFlags; + powerStatesCopy[i].outputPowerFlags = powerStates[i].outputPowerCharacter; + powerStatesCopy[i].inputPowerFlags = powerStates[i].inputPowerRequirement; + powerStatesCopy[i].staticPower = powerStates[i].staticPower; + powerStatesCopy[i].settleUpTime = powerStates[i].settleUpTime; + powerStatesCopy[i].settleDownTime = powerStates[i].settleDownTime; + if (powerStates[i].version >= kIOPMPowerStateVersion2) { + stateOrder = powerStates[i].stateOrder; + } else { + stateOrder = i; + } + + if (stateOrder < numberOfStates) { + powerStatesCopy[i].stateOrder = stateOrder; + powerStatesCopy[stateOrder].stateOrderToIndex = i; + } + } + + for (IOPMPowerStateIndex i = 0; i < numberOfStates; i++) { + if (powerStatesCopy[i].stateOrderToIndex == kIOPMPowerStateMax) { + // power state order missing + error = kIOReturnBadArgument; + break; + } + } + if (kIOReturnSuccess != error) { + break; + } request = acquirePMRequest( this, kIOPMRequestTypeRegisterPowerDriver ); - if (!request) + if (!request) { + error = kIOReturnNoMemory; break; + } powerDriver->retain(); request->fArg0 = (void *) powerDriver; @@ -1048,46 +1180,95 @@ IOReturn IOService::registerPowerDriver ( submitPMRequest( request ); return kIOReturnSuccess; + }while (false); + + if (powerStatesCopy) { + IODelete(powerStatesCopy, IOPMPSEntry, numberOfStates); } - while (false); - if (powerStatesCopy) - IODelete(powerStatesCopy, IOPMPowerState, numberOfStates); - return kIOReturnNoMemory; + return error; } //********************************************************************************* // [private] handleRegisterPowerDriver //********************************************************************************* -void IOService::handleRegisterPowerDriver ( IOPMRequest * request ) +void +IOService::handleRegisterPowerDriver( IOPMRequest * request ) { - IOService * powerDriver = (IOService *) request->fArg0; - IOPMPowerState * powerStates = (IOPMPowerState *) request->fArg1; - unsigned long numberOfStates = (unsigned long) request->fArg2; - unsigned long i; - IOService * root; + IOService * powerDriver = (IOService *) request->fArg0; + IOPMPSEntry * powerStates = (IOPMPSEntry *) request->fArg1; + unsigned long numberOfStates = (unsigned long) request->fArg2; + unsigned long i, stateIndex; + unsigned long lowestPowerState; + IOService * root; + OSIterator * iter; PM_ASSERT_IN_GATE(); assert(powerStates); assert(powerDriver); assert(numberOfStates > 1); - if ( !fNumberOfPowerStates ) - { + if (!fNumberOfPowerStates) { OUR_PMLog(kPMLogControllingDriver, - (unsigned long) numberOfStates, - (unsigned long) powerStates[0].version); + (unsigned long) numberOfStates, + (unsigned long) kIOPMPowerStateVersion1); - fPowerStates = powerStates; + fPowerStates = powerStates; fNumberOfPowerStates = numberOfStates; fControllingDriver = powerDriver; - fCurrentCapabilityFlags = fPowerStates[0].capabilityFlags; + fCurrentCapabilityFlags = fPowerStates[0].capabilityFlags; + + lowestPowerState = fPowerStates[0].stateOrderToIndex; + fHighestPowerState = fPowerStates[numberOfStates - 1].stateOrderToIndex; + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + { + uint32_t aotFlags; + IOService * service; + OSObject * object; + OSData * data; + + // Disallow kIOPMAOTPower states unless device tree enabled - // make a mask of all the character bits we know about - fOutputPowerCharacterFlags = 0; - for ( i = 0; i < numberOfStates; i++ ) { - fOutputPowerCharacterFlags |= fPowerStates[i].outputPowerCharacter; + aotFlags = 0; + service = this; + while (service && !service->inPlane(gIODTPlane)) { + service = service->getProvider(); + } + if (service) { + object = service->copyProperty(kIOPMAOTPowerKey, gIODTPlane); + data = OSDynamicCast(OSData, object); + if (data && (data->getLength() >= sizeof(uint32_t))) { + aotFlags = ((uint32_t *)data->getBytesNoCopy())[0]; + } + OSSafeReleaseNULL(object); + } + if (!aotFlags) { + for (i = 0; i < numberOfStates; i++) { + if (kIOPMAOTPower & fPowerStates[i].inputPowerFlags) { + fPowerStates[i].inputPowerFlags = 0xFFFFFFFF; + fPowerStates[i].capabilityFlags = 0; + fPowerStates[i].outputPowerFlags = 0; + } + } + } + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + // OR'in all the output power flags + fMergedOutputPowerFlags = 0; + fDeviceUsablePowerState = lowestPowerState; + for (i = 0; i < numberOfStates; i++) { + fMergedOutputPowerFlags |= fPowerStates[i].outputPowerFlags; + + stateIndex = fPowerStates[i].stateOrderToIndex; + assert(stateIndex < numberOfStates); + if ((fDeviceUsablePowerState == lowestPowerState) && + (fPowerStates[stateIndex].capabilityFlags & IOPMDeviceUsable)) { + // The minimum power state that the device is usable + fDeviceUsablePowerState = stateIndex; + } } // Register powerDriver as interested, unless already done. @@ -1098,49 +1279,52 @@ void IOService::handleRegisterPowerDriver ( IOPMRequest * request ) root = getPlatform()->getProvider(); assert(root); if (!root || - ((OSMemberFunctionCast(void (*)(void), - root, &IOService::powerStateDidChangeTo)) != - ((OSMemberFunctionCast(void (*)(void), - this, &IOService::powerStateDidChangeTo)))) || - ((OSMemberFunctionCast(void (*)(void), - root, &IOService::powerStateWillChangeTo)) != - ((OSMemberFunctionCast(void (*)(void), - this, &IOService::powerStateWillChangeTo))))) - { - if (fInterestedDrivers->findItem(powerDriver) == NULL) - { + ((OSMemberFunctionCast(void (*)(void), + root, &IOService::powerStateDidChangeTo)) != + ((OSMemberFunctionCast(void (*)(void), + this, &IOService::powerStateDidChangeTo)))) || + ((OSMemberFunctionCast(void (*)(void), + root, &IOService::powerStateWillChangeTo)) != + ((OSMemberFunctionCast(void (*)(void), + this, &IOService::powerStateWillChangeTo))))) { + if (fInterestedDrivers->findItem(powerDriver) == NULL) { PM_LOCK(); fInterestedDrivers->appendNewInformee(powerDriver); PM_UNLOCK(); } } - if ( fNeedToBecomeUsable ) { - fNeedToBecomeUsable = false; - fDeviceDesire = fNumberOfPowerStates - 1; + // Examine all existing power clients and perform limit check. + + if (fPowerClients && + (iter = OSCollectionIterator::withCollection(fPowerClients))) { + const OSSymbol * client; + while ((client = (const OSSymbol *) iter->getNextObject())) { + IOPMPowerStateIndex powerState = getPowerStateForClient(client); + if (powerState >= numberOfStates) { + updatePowerClient(client, fHighestPowerState); + } + } + iter->release(); } - if ( inPlane(gIOPowerPlane) && fParentsKnowState ) - { - unsigned long tempDesire; - fMaxCapability = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags); + if (inPlane(gIOPowerPlane) && fParentsKnowState) { + IOPMPowerStateIndex tempDesire; + fMaxPowerState = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags); // initially change into the state we are already in tempDesire = fControllingDriver->initialPowerStateForDomainState(fParentsCurrentPowerFlags); - computeDesiredState(tempDesire); - changeState(); + adjustPowerState(tempDesire); } - } - else - { + } else { OUR_PMLog(kPMLogControllingDriverErr2, numberOfStates, 0); - IODelete(powerStates, IOPMPowerState, numberOfStates); + IODelete(powerStates, IOPMPSEntry, numberOfStates); } powerDriver->release(); } //********************************************************************************* -// [public virtual] registerInterestedDriver +// [public] registerInterestedDriver // // Add the caller to our list of interested drivers and return our current // power state. If we don't have a power-controlling driver yet, we will @@ -1148,74 +1332,90 @@ void IOService::handleRegisterPowerDriver ( IOPMRequest * request ) // out what the current power state of the device is. //********************************************************************************* -IOPMPowerFlags IOService::registerInterestedDriver ( IOService * driver ) +IOPMPowerFlags +IOService::registerInterestedDriver( IOService * driver ) { - IOPMRequest * request; - bool signal; + IOPMRequest * request; + bool signal; - if (!initialized || !fInterestedDrivers) - return IOPMNotPowerManaged; + if (!driver || !initialized || !fInterestedDrivers) { + return 0; + } PM_LOCK(); signal = (!fInsertInterestSet && !fRemoveInterestSet); - if (fInsertInterestSet == NULL) + if (fInsertInterestSet == NULL) { fInsertInterestSet = OSSet::withCapacity(4); - if (fInsertInterestSet) + } + if (fInsertInterestSet) { fInsertInterestSet->setObject(driver); + if (fRemoveInterestSet) { + fRemoveInterestSet->removeObject(driver); + } + } PM_UNLOCK(); - if (signal) - { + if (signal) { request = acquirePMRequest( this, kIOPMRequestTypeInterestChanged ); - if (request) + if (request) { submitPMRequest( request ); + } } // This return value cannot be trusted, but return a value // for those clients that care. - OUR_PMLog(kPMLogInterestedDriver, kIOPMDeviceUsable, 2); - return kIOPMDeviceUsable; + OUR_PMLog(kPMLogInterestedDriver, kIOPMDeviceUsable, 2); + return kIOPMDeviceUsable; } //********************************************************************************* -// [public virtual] deRegisterInterestedDriver +// [public] deRegisterInterestedDriver //********************************************************************************* -IOReturn IOService::deRegisterInterestedDriver ( IOService * driver ) +IOReturn +IOService::deRegisterInterestedDriver( IOService * driver ) { - IOPMinformeeList * list; - IOPMinformee * item; - IOPMRequest * request; - bool signal; + IOPMinformee * item; + IOPMRequest * request; + bool signal; - if (!initialized || !fInterestedDrivers) + if (!driver) { + return kIOReturnBadArgument; + } + if (!initialized || !fInterestedDrivers) { return IOPMNotPowerManaged; + } PM_LOCK(); + if (fInsertInterestSet) { + fInsertInterestSet->removeObject(driver); + } + + item = fInterestedDrivers->findItem(driver); + if (!item) { + PM_UNLOCK(); + return kIOReturnNotFound; + } + signal = (!fRemoveInterestSet && !fInsertInterestSet); - if (fRemoveInterestSet == NULL) + if (fRemoveInterestSet == NULL) { fRemoveInterestSet = OSSet::withCapacity(4); - if (fRemoveInterestSet) - { + } + if (fRemoveInterestSet) { fRemoveInterestSet->setObject(driver); - - list = fInterestedDrivers; - item = list->findItem(driver); - if (item && item->active) - { + if (item->active) { item->active = false; + waitForPMDriverCall( driver ); } - if (fDriverCallBusy) - PM_DEBUG("%s::deRegisterInterestedDriver() driver call busy\n", getName()); } PM_UNLOCK(); - if (signal) - { + if (signal) { request = acquirePMRequest( this, kIOPMRequestTypeInterestChanged ); - if (request) + if (request) { submitPMRequest( request ); + } } return IOPMNoErr; @@ -1227,39 +1427,32 @@ IOReturn IOService::deRegisterInterestedDriver ( IOService * driver ) // Handle interest added or removed. //********************************************************************************* -void IOService::handleInterestChanged( IOPMRequest * request ) +void +IOService::handleInterestChanged( IOPMRequest * request ) { - IOService * driver; - IOPMinformee * informee; - IOPMinformeeList * list = fInterestedDrivers; + IOService * driver; + IOPMinformee * informee; + IOPMinformeeList * list = fInterestedDrivers; PM_LOCK(); - if (fInsertInterestSet) - { - while ((driver = (IOService *) fInsertInterestSet->getAnyObject())) - { - if ((list->findItem(driver) == NULL) && - (!fRemoveInterestSet || - !fRemoveInterestSet->containsObject(driver))) - { + if (fInsertInterestSet) { + while ((driver = (IOService *) fInsertInterestSet->getAnyObject())) { + if (list->findItem(driver) == NULL) { informee = list->appendNewInformee(driver); } fInsertInterestSet->removeObject(driver); } fInsertInterestSet->release(); - fInsertInterestSet = 0; + fInsertInterestSet = NULL; } - if (fRemoveInterestSet) - { - while ((driver = (IOService *) fRemoveInterestSet->getAnyObject())) - { + if (fRemoveInterestSet) { + while ((driver = (IOService *) fRemoveInterestSet->getAnyObject())) { informee = list->findItem(driver); - if (informee) - { - if (fHeadNotePendingAcks && informee->timer) - { + if (informee) { + // Clean-up async interest acknowledgement + if (fHeadNotePendingAcks && informee->timer) { informee->timer = 0; fHeadNotePendingAcks--; } @@ -1268,14 +1461,14 @@ void IOService::handleInterestChanged( IOPMRequest * request ) fRemoveInterestSet->removeObject(driver); } fRemoveInterestSet->release(); - fRemoveInterestSet = 0; + fRemoveInterestSet = NULL; } PM_UNLOCK(); } //********************************************************************************* -// [public virtual] acknowledgePowerChange +// [public] acknowledgePowerChange // // After we notified one of the interested drivers or a power-domain child // of an impending change in power, it has called to say it is now @@ -1288,153 +1481,146 @@ void IOService::handleInterestChanged( IOPMRequest * request ) // of a "current change note".) //********************************************************************************* -IOReturn IOService::acknowledgePowerChange ( IOService * whichObject ) +IOReturn +IOService::acknowledgePowerChange( IOService * whichObject ) { IOPMRequest * request; - if (!initialized) + if (!initialized) { return IOPMNotYetInitialized; - if (!whichObject) + } + if (!whichObject) { return kIOReturnBadArgument; + } request = acquirePMRequest( this, kIOPMRequestTypeAckPowerChange ); - if (!request) - { - PM_ERROR("%s::%s no memory\n", getName(), __FUNCTION__); + if (!request) { return kIOReturnNoMemory; - } + } whichObject->retain(); request->fArg0 = whichObject; submitPMRequest( request ); - return IOPMNoErr; + return IOPMNoErr; } //********************************************************************************* // [private] handleAcknowledgePowerChange //********************************************************************************* -bool IOService::handleAcknowledgePowerChange ( IOPMRequest * request ) +bool +IOService::handleAcknowledgePowerChange( IOPMRequest * request ) { - IOPMinformee * informee; - unsigned long childPower = kIOPMUnknown; - IOService * theChild; - IOService * whichObject; - bool all_acked = false; + IOPMinformee * informee; + unsigned long childPower = kIOPMUnknown; + IOService * theChild; + IOService * whichObject; + bool all_acked = false; PM_ASSERT_IN_GATE(); whichObject = (IOService *) request->fArg0; assert(whichObject); - // one of our interested drivers? + // one of our interested drivers? informee = fInterestedDrivers->findItem( whichObject ); - if ( informee == NULL ) - { - if ( !isChild(whichObject, gIOPowerPlane) ) - { + if (informee == NULL) { + if (!isChild(whichObject, gIOPowerPlane)) { OUR_PMLog(kPMLogAcknowledgeErr1, 0, 0); goto no_err; - } else { - OUR_PMLog(kPMLogChildAcknowledge, fHeadNotePendingAcks, 0); - } - } else { - OUR_PMLog(kPMLogDriverAcknowledge, fHeadNotePendingAcks, 0); - } - - if ( fHeadNotePendingAcks != 0 ) - { - assert(fPowerStates != NULL); - - // yes, make sure we're expecting acks - if ( informee != NULL ) - { - // it's an interested driver - // make sure we're expecting this ack - if ( informee->timer != 0 ) - { -#if LOG_SETPOWER_TIMES - if (informee->timer > 0) - { - uint64_t nsec = computeTimeDeltaNS(&informee->startTime); - if (nsec > LOG_SETPOWER_TIMES) - PM_DEBUG("%s::powerState%sChangeTo(%p, %s, %lu -> %lu) async took %d ms\n", - informee->whatObject->getName(), - (fDriverCallReason == kDriverCallInformPreChange) ? "Will" : "Did", - informee->whatObject, - fName, fCurrentPowerState, fHeadNoteState, NS_TO_MS(nsec)); - } -#endif - // mark it acked - informee->timer = 0; - // that's one fewer to worry about - fHeadNotePendingAcks--; - } else { - // this driver has already acked - OUR_PMLog(kPMLogAcknowledgeErr2, 0, 0); - } - } else { - // it's a child - // make sure we're expecting this ack - if ( ((IOPowerConnection *)whichObject)->getAwaitingAck() ) - { - // that's one fewer to worry about - fHeadNotePendingAcks--; - ((IOPowerConnection *)whichObject)->setAwaitingAck(false); - theChild = (IOService *)whichObject->copyChildEntry(gIOPowerPlane); - if ( theChild ) - { - childPower = theChild->currentPowerConsumption(); - theChild->release(); - } - if ( childPower == kIOPMUnknown ) - { - fPowerStates[fHeadNoteState].staticPower = kIOPMUnknown; - } else { - if ( fPowerStates[fHeadNoteState].staticPower != kIOPMUnknown ) - { - fPowerStates[fHeadNoteState].staticPower += childPower; - } - } - } - } - - if ( fHeadNotePendingAcks == 0 ) { - // yes, stop the timer - stop_ack_timer(); - // and now we can continue - all_acked = true; + } else { + OUR_PMLog(kPMLogChildAcknowledge, fHeadNotePendingAcks, 0); } - } else { - OUR_PMLog(kPMLogAcknowledgeErr3, 0, 0); // not expecting anybody to ack - } + } else { + OUR_PMLog(kPMLogDriverAcknowledge, fHeadNotePendingAcks, 0); + } + + if (fHeadNotePendingAcks != 0) { + assert(fPowerStates != NULL); + + // yes, make sure we're expecting acks + if (informee != NULL) { + // it's an interested driver + // make sure we're expecting this ack + if (informee->timer != 0) { + if (informee->timer > 0) { + uint64_t nsec = computeTimeDeltaNS(&informee->startTime); + if (nsec > LOG_SETPOWER_TIMES) { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsDriverPSChangeSlow, informee->whatObject->getName(), + fDriverCallReason, NS_TO_MS(nsec), informee->whatObject->getRegistryEntryID(), + NULL, fHeadNotePowerState); + } + } + + // mark it acked + informee->timer = 0; + // that's one fewer to worry about + fHeadNotePendingAcks--; + } else { + // this driver has already acked + OUR_PMLog(kPMLogAcknowledgeErr2, 0, 0); + } + } else { + // it's a child + // make sure we're expecting this ack + if (((IOPowerConnection *)whichObject)->getAwaitingAck()) { + // that's one fewer to worry about + fHeadNotePendingAcks--; + ((IOPowerConnection *)whichObject)->setAwaitingAck(false); + theChild = (IOService *)whichObject->copyChildEntry(gIOPowerPlane); + if (theChild) { + childPower = theChild->currentPowerConsumption(); + theChild->release(); + } + if (childPower == kIOPMUnknown) { + fHeadNotePowerArrayEntry->staticPower = kIOPMUnknown; + } else { + if (fHeadNotePowerArrayEntry->staticPower != kIOPMUnknown) { + fHeadNotePowerArrayEntry->staticPower += childPower; + } + } + } + } + + if (fHeadNotePendingAcks == 0) { + // yes, stop the timer + stop_ack_timer(); + // and now we can continue + all_acked = true; + getPMRootDomain()->reset_watchdog_timer(this, 0); + } + } else { + OUR_PMLog(kPMLogAcknowledgeErr3, 0, 0); // not expecting anybody to ack + } no_err: - if (whichObject) + if (whichObject) { whichObject->release(); + } - return all_acked; + return all_acked; } //********************************************************************************* -// [public virtual] acknowledgeSetPowerState +// [public] acknowledgeSetPowerState // // After we instructed our controlling driver to change power states, // it has called to say it has finished doing so. // We continue to process the power state change. //********************************************************************************* -IOReturn IOService::acknowledgeSetPowerState ( void ) +IOReturn +IOService::acknowledgeSetPowerState( void ) { IOPMRequest * request; - if (!initialized) + if (!initialized) { return IOPMNotYetInitialized; + } request = acquirePMRequest( this, kIOPMRequestTypeAckSetPowerState ); - if (!request) - { - PM_ERROR("%s::%s no memory\n", getName(), __FUNCTION__); + if (!request) { return kIOReturnNoMemory; } @@ -1444,31 +1630,121 @@ IOReturn IOService::acknowledgeSetPowerState ( void ) //********************************************************************************* // [private] adjustPowerState -// -// Child has signaled a change - child changed it's desire, new child added, -// existing child removed. Adjust our power state accordingly. //********************************************************************************* -void IOService::adjustPowerState( void ) +void +IOService::adjustPowerState( uint32_t clamp ) { PM_ASSERT_IN_GATE(); - if (inPlane(gIOPowerPlane)) - { - rebuildChildClampBits(); - computeDesiredState(); - if ( fControllingDriver && fParentsKnowState ) - changeState(); + computeDesiredState(clamp, false); + if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane)) { + IOPMPowerChangeFlags changeFlags = kIOPMSelfInitiated; + + // Indicate that children desires must be ignored, and do not ask + // apps for permission to drop power. This is used by root domain + // for demand sleep. + + if (getPMRequestType() == kIOPMRequestTypeRequestPowerStateOverride) { + changeFlags |= (kIOPMIgnoreChildren | kIOPMSkipAskPowerDown); + } + + startPowerChange( + /* flags */ changeFlags, + /* power state */ fDesiredPowerState, + /* domain flags */ 0, + /* connection */ NULL, + /* parent flags */ 0); } - else - { - PM_DEBUG("[%s] %s: not in power tree\n", getName(), __FUNCTION__); - return; +} + +//********************************************************************************* +// [public] synchronizePowerTree +//********************************************************************************* + +IOReturn +IOService::synchronizePowerTree( + IOOptionBits options, + IOService * notifyRoot ) +{ + IOPMRequest * request_c = NULL; + IOPMRequest * request_s; + + if (this != getPMRootDomain()) { + return kIOReturnBadArgument; + } + if (!initialized) { + return kIOPMNotYetInitialized; + } + + OUR_PMLog(kPMLogCSynchronizePowerTree, options, (notifyRoot != NULL)); + + if (notifyRoot) { + IOPMRequest * nr; + + // Cancels don't need to be synchronized. + nr = acquirePMRequest(notifyRoot, kIOPMRequestTypeChildNotifyDelayCancel); + if (nr) { + submitPMRequest(nr); + } + nr = acquirePMRequest(getPMRootDomain(), kIOPMRequestTypeChildNotifyDelayCancel); + if (nr) { + submitPMRequest(nr); + } + } + + request_s = acquirePMRequest( this, kIOPMRequestTypeSynchronizePowerTree ); + if (!request_s) { + goto error_no_memory; + } + + if (options & kIOPMSyncCancelPowerDown) { + request_c = acquirePMRequest( this, kIOPMRequestTypeIdleCancel ); + } + if (request_c) { + request_c->attachNextRequest( request_s ); + submitPMRequest(request_c); + } + + request_s->fArg0 = (void *)(uintptr_t) options; + submitPMRequest(request_s); + + return kIOReturnSuccess; + +error_no_memory: + if (request_c) { + releasePMRequest(request_c); + } + if (request_s) { + releasePMRequest(request_s); + } + return kIOReturnNoMemory; +} + +//********************************************************************************* +// [private] handleSynchronizePowerTree +//********************************************************************************* + +void +IOService::handleSynchronizePowerTree( IOPMRequest * request ) +{ + PM_ASSERT_IN_GATE(); + if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane) && + (fCurrentPowerState == fHighestPowerState)) { + IOOptionBits options = (uintptr_t) request->fArg0; + + startPowerChange( + /* flags */ kIOPMSelfInitiated | kIOPMSynchronize | + (options & kIOPMSyncNoChildNotify), + /* power state */ fCurrentPowerState, + /* domain flags */ 0, + /* connection */ NULL, + /* parent flags */ 0); } - fWillAdjustPowerState = false; } +#ifndef __LP64__ //********************************************************************************* -// [public deprecated] powerDomainWillChangeTo +// [deprecated] powerDomainWillChangeTo // // Called by the power-hierarchy parent notifying of a new power state // in the power domain. @@ -1477,117 +1753,124 @@ void IOService::adjustPowerState( void ) // kind of change is occuring in the domain. //********************************************************************************* -IOReturn IOService::powerDomainWillChangeTo ( - IOPMPowerFlags newPowerFlags, - IOPowerConnection * whichParent ) +IOReturn +IOService::powerDomainWillChangeTo( + IOPMPowerFlags newPowerFlags, + IOPowerConnection * whichParent ) { assert(false); return kIOReturnUnsupported; } +#endif /* !__LP64__ */ //********************************************************************************* // [private] handlePowerDomainWillChangeTo //********************************************************************************* -void IOService::handlePowerDomainWillChangeTo ( IOPMRequest * request ) -{ - IOPMPowerFlags newPowerFlags = (IOPMPowerFlags) request->fArg0; - IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1; - bool powerWillDrop = (bool) request->fArg2; - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - unsigned long newPowerState; - IOPMPowerFlags combinedPowerFlags; - bool savedParentsKnowState; - IOReturn result = IOPMAckImplied; +void +IOService::handlePowerDomainWillChangeTo( IOPMRequest * request ) +{ + IOPMPowerFlags parentPowerFlags = (IOPMPowerFlags) request->fArg0; + IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1; + IOPMPowerChangeFlags parentChangeFlags = (IOPMPowerChangeFlags)(uintptr_t) request->fArg2; + IOPMPowerChangeFlags myChangeFlags; + OSIterator * iter; + OSObject * next; + IOPowerConnection * connection; + IOPMPowerStateIndex maxPowerState; + IOPMPowerFlags combinedPowerFlags; + bool savedParentsKnowState; + IOReturn result = IOPMAckImplied; PM_ASSERT_IN_GATE(); - OUR_PMLog(kPMLogWillChange, newPowerFlags, 0); + OUR_PMLog(kPMLogWillChange, parentPowerFlags, 0); - if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck()) - { - PM_DEBUG("[%s] %s: not in power tree\n", getName(), __FUNCTION__); - goto exit_no_ack; + if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck()) { + PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__); + goto exit_no_ack; } savedParentsKnowState = fParentsKnowState; - // Combine parents' power flags to determine our maximum state - // within the new power domain + // Combine parents' output power flags. + combinedPowerFlags = 0; - iter = getParentIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - if ( connection == whichParent ) - combinedPowerFlags |= newPowerFlags; - else - combinedPowerFlags |= connection->parentCurrentPowerFlags(); - } - } - iter->release(); - } - - if ( fControllingDriver ) - { - newPowerState = fControllingDriver->maxCapabilityForDomainState( - combinedPowerFlags); - - result = enqueuePowerChange( - /* flags */ IOPMParentInitiated | IOPMDomainWillChange, - /* power state */ newPowerState, - /* domain state */ combinedPowerFlags, - /* connection */ whichParent, - /* parent state */ newPowerFlags); + iter = getParentIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + if (connection == whichParent) { + combinedPowerFlags |= parentPowerFlags; + } else { + combinedPowerFlags |= connection->parentCurrentPowerFlags(); + } + } + } + iter->release(); + } + + // If our initial change has yet to occur, then defer the power change + // until after the power domain has completed its power transition. + + if (fControllingDriver && !fInitialPowerChange) { + maxPowerState = fControllingDriver->maxCapabilityForDomainState( + combinedPowerFlags); + + if (parentChangeFlags & kIOPMDomainPowerDrop) { + // fMaxPowerState set a limit on self-initiated power changes. + // Update it before a parent power drop. + fMaxPowerState = maxPowerState; + } + + // Use kIOPMSynchronize below instead of kIOPMRootBroadcastFlags + // to avoid propagating the root change flags if any service must + // change power state due to root's will-change notification. + // Root does not change power state for kIOPMSynchronize. + + myChangeFlags = kIOPMParentInitiated | kIOPMDomainWillChange | + (parentChangeFlags & kIOPMSynchronize); + + result = startPowerChange( + /* flags */ myChangeFlags, + /* power state */ maxPowerState, + /* domain flags */ combinedPowerFlags, + /* connection */ whichParent, + /* parent flags */ parentPowerFlags); } // If parent is dropping power, immediately update the parent's // capability flags. Any future merging of parent(s) combined // power flags should account for this power drop. - if (powerWillDrop) - { - setParentInfo(newPowerFlags, whichParent, true); + if (parentChangeFlags & kIOPMDomainPowerDrop) { + setParentInfo(parentPowerFlags, whichParent, true); } // Parent is expecting an ACK from us. If we did not embark on a state - // transition, when enqueuePowerChang() returns IOPMAckImplied. We are + // transition, i.e. startPowerChange() returned IOPMAckImplied. We are // still required to issue an ACK to our parent. - if (IOPMAckImplied == result) - { + if (IOPMAckImplied == result) { IOService * parent; parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane); assert(parent); - if ( parent ) - { + if (parent) { parent->acknowledgePowerChange( whichParent ); parent->release(); } } - // If the parent registers it's power driver late, then this is the - // first opportunity to tell our parent about our desire. - - if (!savedParentsKnowState && fParentsKnowState) - { - PM_TRACE("[%s] powerDomainWillChangeTo: parentsKnowState = true\n", - getName()); - ask_parent( fDesiredPowerState ); - } - exit_no_ack: - // Drop the retain from notifyChild(). - if (whichParent) whichParent->release(); + // Drop the retain from notifyChild(). + if (whichParent) { + whichParent->release(); + } } +#ifndef __LP64__ //********************************************************************************* -// [public deprecated] powerDomainDidChangeTo +// [deprecated] powerDomainDidChangeTo // // Called by the power-hierarchy parent after the power state of the power domain // has settled at a new level. @@ -1596,81 +1879,146 @@ exit_no_ack: // kind of change is occuring in the domain. //********************************************************************************* -IOReturn IOService::powerDomainDidChangeTo ( - IOPMPowerFlags newPowerFlags, - IOPowerConnection * whichParent ) +IOReturn +IOService::powerDomainDidChangeTo( + IOPMPowerFlags newPowerFlags, + IOPowerConnection * whichParent ) { assert(false); return kIOReturnUnsupported; } +#endif /* !__LP64__ */ //********************************************************************************* // [private] handlePowerDomainDidChangeTo //********************************************************************************* -void IOService::handlePowerDomainDidChangeTo ( IOPMRequest * request ) -{ - IOPMPowerFlags newPowerFlags = (IOPMPowerFlags) request->fArg0; - IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1; - unsigned long newPowerState; - bool savedParentsKnowState; - IOReturn result = IOPMAckImplied; +void +IOService::handlePowerDomainDidChangeTo( IOPMRequest * request ) +{ + IOPMPowerFlags parentPowerFlags = (IOPMPowerFlags) request->fArg0; + IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1; + IOPMPowerChangeFlags parentChangeFlags = (IOPMPowerChangeFlags)(uintptr_t) request->fArg2; + IOPMPowerChangeFlags myChangeFlags; + IOPMPowerStateIndex maxPowerState; + IOPMPowerStateIndex initialDesire = kPowerStateZero; + bool computeDesire = false; + bool desireChanged = false; + bool savedParentsKnowState; + IOReturn result = IOPMAckImplied; PM_ASSERT_IN_GATE(); - OUR_PMLog(kPMLogDidChange, newPowerFlags, 0); + OUR_PMLog(kPMLogDidChange, parentPowerFlags, 0); - if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck()) - { - PM_DEBUG("[%s] %s: not in power tree\n", getName(), __FUNCTION__); - goto exit_no_ack; + if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck()) { + PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__); + goto exit_no_ack; } savedParentsKnowState = fParentsKnowState; - setParentInfo(newPowerFlags, whichParent, true); + setParentInfo(parentPowerFlags, whichParent, true); - if ( fControllingDriver ) - { - newPowerState = fControllingDriver->maxCapabilityForDomainState( - fParentsCurrentPowerFlags); + if (fControllingDriver) { + maxPowerState = fControllingDriver->maxCapabilityForDomainState( + fParentsCurrentPowerFlags); + + if ((parentChangeFlags & kIOPMDomainPowerDrop) == 0) { + // fMaxPowerState set a limit on self-initiated power changes. + // Update it after a parent power rise. + fMaxPowerState = maxPowerState; + } + + if (fInitialPowerChange) { + computeDesire = true; + initialDesire = fControllingDriver->initialPowerStateForDomainState( + fParentsCurrentPowerFlags); + } else if (parentChangeFlags & kIOPMRootChangeUp) { + if (fAdvisoryTickleUsed) { + // On system wake, re-compute the desired power state since + // gIOPMAdvisoryTickleEnabled will change for a full wake, + // which is an input to computeDesiredState(). This is not + // necessary for a dark wake because powerChangeDone() will + // handle the dark to full wake case, but it does no harm. + + desireChanged = true; + } + + if (fResetPowerStateOnWake) { + // Query the driver for the desired power state on system wake. + // Default implementation returns the lowest power state. + + IOPMPowerStateIndex wakePowerState = + fControllingDriver->initialPowerStateForDomainState( + kIOPMRootDomainState | kIOPMPowerOn ); + + // fDesiredPowerState was adjusted before going to sleep + // with fDeviceDesire at min. + + if (StateOrder(wakePowerState) > StateOrder(fDesiredPowerState)) { + // Must schedule a power adjustment if we changed the + // device desire. That will update the desired domain + // power on the parent power connection and ping the + // power parent if necessary. + + updatePowerClient(gIOPMPowerClientDevice, wakePowerState); + desireChanged = true; + } + } + } - result = enqueuePowerChange( - /* flags */ IOPMParentInitiated | IOPMDomainDidChange, - /* power state */ newPowerState, - /* domain state */ fParentsCurrentPowerFlags, - /* connection */ whichParent, - /* parent state */ 0); + if (computeDesire || desireChanged) { + computeDesiredState(initialDesire, false); + } + + // Absorb and propagate parent's broadcast flags + myChangeFlags = kIOPMParentInitiated | kIOPMDomainDidChange | + (parentChangeFlags & kIOPMRootBroadcastFlags); + +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (kIOPMAOTPower & fPowerStates[maxPowerState].inputPowerFlags) { + IOLog("aotPS %s0x%qx[%ld]\n", getName(), getRegistryEntryID(), maxPowerState); + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + + result = startPowerChange( + /* flags */ myChangeFlags, + /* power state */ maxPowerState, + /* domain flags */ fParentsCurrentPowerFlags, + /* connection */ whichParent, + /* parent flags */ 0); } // Parent is expecting an ACK from us. If we did not embark on a state - // transition, when enqueuePowerChang() returns IOPMAckImplied. We are + // transition, i.e. startPowerChange() returned IOPMAckImplied. We are // still required to issue an ACK to our parent. - if (IOPMAckImplied == result) - { + if (IOPMAckImplied == result) { IOService * parent; parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane); assert(parent); - if ( parent ) - { + if (parent) { parent->acknowledgePowerChange( whichParent ); parent->release(); } } - // If the parent registers it's power driver late, then this is the - // first opportunity to tell our parent about our desire. + // If the parent registers its power driver late, then this is the + // first opportunity to tell our parent about our desire. Or if the + // child's desire changed during a parent change notify. - if (!savedParentsKnowState && fParentsKnowState) - { - PM_TRACE("[%s] powerDomainDidChangeTo: parentsKnowState = true\n", - getName()); - ask_parent( fDesiredPowerState ); + if (fControllingDriver && + ((!savedParentsKnowState && fParentsKnowState) || desireChanged)) { + PM_LOG1("%s::powerDomainDidChangeTo parentsKnowState %d\n", + getName(), fParentsKnowState); + requestDomainPower( fDesiredPowerState ); } exit_no_ack: - // Drop the retain from notifyChild(). - if (whichParent) whichParent->release(); + // Drop the retain from notifyChild(). + if (whichParent) { + whichParent->release(); + } } //********************************************************************************* @@ -1679,264 +2027,228 @@ exit_no_ack: // Set our connection data for one specific parent, and then combine all the parent // data together. //********************************************************************************* - -void IOService::setParentInfo ( - IOPMPowerFlags newPowerFlags, + +void +IOService::setParentInfo( + IOPMPowerFlags newPowerFlags, IOPowerConnection * whichParent, - bool knowsState ) + bool knowsState ) { - OSIterator * iter; - OSObject * next; - IOPowerConnection * conn; + OSIterator * iter; + OSObject * next; + IOPowerConnection * conn; PM_ASSERT_IN_GATE(); - // set our connection data - whichParent->setParentCurrentPowerFlags(newPowerFlags); - whichParent->setParentKnowsState(knowsState); - - // recompute our parent info - fParentsCurrentPowerFlags = 0; - fParentsKnowState = true; - - iter = getParentIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (conn = OSDynamicCast(IOPowerConnection, next)) ) - { - fParentsKnowState &= conn->parentKnowsState(); - fParentsCurrentPowerFlags |= conn->parentCurrentPowerFlags(); - } - } - iter->release(); - } -} - -//********************************************************************************* -// [private] rebuildChildClampBits -// -// The ChildClamp bits (kIOPMChildClamp & kIOPMChildClamp2) in our capabilityFlags -// indicate that one of our children (or grandchildren or great-grandchildren ...) -// doesn't support idle or system sleep in its current state. Since we don't track -// the origin of each bit, every time any child changes state we have to clear -// these bits and rebuild them. -//********************************************************************************* - -void IOService::rebuildChildClampBits ( void ) -{ - unsigned long i; - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - unsigned long powerState; - - // A child's desires has changed. We need to rebuild the child-clamp bits in - // our power state array. Start by clearing the bits in each power state. - - for ( i = 0; i < fNumberOfPowerStates; i++ ) - { - fPowerStates[i].capabilityFlags &= ~(kIOPMChildClamp | kIOPMChildClamp2); - } - - // Loop through the children. When we encounter the calling child, save the - // computed state as this child's desire. And set the ChildClamp bits in any - // of our states that some child has clamp on. - - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - if (connection->getReadyFlag() == false) - { - PM_CONNECT("[%s] %s: connection not ready\n", - getName(), __FUNCTION__); - continue; - } + // set our connection data + whichParent->setParentCurrentPowerFlags(newPowerFlags); + whichParent->setParentKnowsState(knowsState); + + // recompute our parent info + fParentsCurrentPowerFlags = 0; + fParentsKnowState = true; + + iter = getParentIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((conn = OSDynamicCast(IOPowerConnection, next))) { + fParentsKnowState &= conn->parentKnowsState(); + fParentsCurrentPowerFlags |= conn->parentCurrentPowerFlags(); + } + } + iter->release(); + } +} + +//****************************************************************************** +// [private] trackSystemSleepPreventers +//****************************************************************************** + +void +IOService::trackSystemSleepPreventers( + IOPMPowerStateIndex oldPowerState, + IOPMPowerStateIndex newPowerState, + IOPMPowerChangeFlags changeFlags __unused ) +{ + IOPMPowerFlags oldCapability, newCapability; + + oldCapability = fPowerStates[oldPowerState].capabilityFlags & + (kIOPMPreventIdleSleep | kIOPMPreventSystemSleep); + newCapability = fPowerStates[newPowerState].capabilityFlags & + (kIOPMPreventIdleSleep | kIOPMPreventSystemSleep); + + if (fHeadNoteChangeFlags & kIOPMInitialPowerChange) { + oldCapability = 0; + } + if (oldCapability == newCapability) { + return; + } + + if ((oldCapability ^ newCapability) & kIOPMPreventIdleSleep) { + bool enablePrevention = ((oldCapability & kIOPMPreventIdleSleep) == 0); + bool idleCancelAllowed = getPMRootDomain()->updatePreventIdleSleepList( + this, enablePrevention); +#if SUPPORT_IDLE_CANCEL + if (idleCancelAllowed && enablePrevention) { + IOPMRequest * cancelRequest; + + cancelRequest = acquirePMRequest( getPMRootDomain(), kIOPMRequestTypeIdleCancel ); + if (cancelRequest) { + submitPMRequest( cancelRequest ); + } + } +#endif + } - powerState = connection->getDesiredDomainState(); - if (powerState < fNumberOfPowerStates) - { - if ( connection->getPreventIdleSleepFlag() ) - fPowerStates[powerState].capabilityFlags |= kIOPMChildClamp; - if ( connection->getPreventSystemSleepFlag() ) - fPowerStates[powerState].capabilityFlags |= kIOPMChildClamp2; - } - } - } - iter->release(); - } + if ((oldCapability ^ newCapability) & kIOPMPreventSystemSleep) { + getPMRootDomain()->updatePreventSystemSleepList(this, + ((oldCapability & kIOPMPreventSystemSleep) == 0)); + } } //********************************************************************************* -// [public virtual] requestPowerDomainState +// [public] requestPowerDomainState // -// The child of a power domain calls it parent here to request power of a certain -// character. +// Called on a power parent when a child's power requirement changes. //********************************************************************************* -IOReturn IOService::requestPowerDomainState ( - IOPMPowerFlags desiredState, - IOPowerConnection * whichChild, - unsigned long specification ) +IOReturn +IOService::requestPowerDomainState( + IOPMPowerFlags childRequestPowerFlags, + IOPowerConnection * childConnection, + unsigned long specification ) { - unsigned long i; - unsigned long computedState; - unsigned long theDesiredState; - IOService * child; - IOPMRequest * childRequest; + IOPMPowerStateIndex order, powerState; + IOPMPowerFlags outputPowerFlags; + IOService * child; + IOPMRequest * subRequest; + bool adjustPower = false; - if (!initialized) + if (!initialized) { return IOPMNotYetInitialized; + } - if (gIOPMWorkLoop->onThread() == false) - { - PM_DEBUG("[%s] called requestPowerDomainState\n", getName()); + if (gIOPMWorkLoop->onThread() == false) { + PM_LOG("%s::requestPowerDomainState\n", getName()); return kIOReturnSuccess; } - theDesiredState = desiredState & ~(kIOPMPreventIdleSleep | kIOPMPreventSystemSleep); - - OUR_PMLog(kPMLogRequestDomain, desiredState, specification); + OUR_PMLog(kPMLogRequestDomain, childRequestPowerFlags, specification); - if (!isChild(whichChild, gIOPowerPlane)) + if (!isChild(childConnection, gIOPowerPlane)) { return kIOReturnNotAttached; + } - if (fControllingDriver == NULL || !fPowerStates) - return IOPMNotYetInitialized; + if (!fControllingDriver || !fNumberOfPowerStates) { + return kIOReturnNotReady; + } - child = (IOService *) whichChild->getChildEntry(gIOPowerPlane); + child = (IOService *) childConnection->getChildEntry(gIOPowerPlane); assert(child); - switch (specification) { - case IOPMLowestState: - i = 0; - while ( i < fNumberOfPowerStates ) - { - if ( ( fPowerStates[i].outputPowerCharacter & theDesiredState) == - (theDesiredState & fOutputPowerCharacterFlags) ) - { - break; - } - i++; - } - if ( i >= fNumberOfPowerStates ) - { - return IOPMNoSuchState; - } - break; - - case IOPMNextLowerState: - i = fCurrentPowerState - 1; - while ( (int) i >= 0 ) - { - if ( ( fPowerStates[i].outputPowerCharacter & theDesiredState) == - (theDesiredState & fOutputPowerCharacterFlags) ) - { - break; - } - i--; - } - if ( (int) i < 0 ) - { - return IOPMNoSuchState; - } - break; - - case IOPMHighestState: - i = fNumberOfPowerStates; - while ( (int) i >= 0 ) - { - i--; - if ( ( fPowerStates[i].outputPowerCharacter & theDesiredState) == - (theDesiredState & fOutputPowerCharacterFlags) ) - { - break; - } - } - if ( (int) i < 0 ) - { - return IOPMNoSuchState; - } - break; - - case IOPMNextHigherState: - i = fCurrentPowerState + 1; - while ( i < fNumberOfPowerStates ) - { - if ( ( fPowerStates[i].outputPowerCharacter & theDesiredState) == - (theDesiredState & fOutputPowerCharacterFlags) ) - { - break; - } - i++; - } - if ( i == fNumberOfPowerStates ) - { - return IOPMNoSuchState; - } - break; - - default: - return IOPMBadSpecification; - } - - computedState = i; - - // Clamp removed on the initial power request from a new child. - - if (fClampOn && !whichChild->childHasRequestedPower()) - { - PM_TRACE("[%s] %p power clamp removed (child = %p)\n", - getName(), this, whichChild); - fClampOn = false; - fDeviceDesire = 0; + // Remove flags from child request which we can't possibly supply + childRequestPowerFlags &= fMergedOutputPowerFlags; + + // Merge in the power flags contributed by this power parent + // at its current or impending power state. + + outputPowerFlags = fPowerStates[fCurrentPowerState].outputPowerFlags; + if (fMachineState != kIOPM_Finished) { + if (IS_POWER_DROP && !IS_ROOT_DOMAIN) { + // Use the lower power state when dropping power. + // Must be careful since a power drop can be cancelled + // from the following states: + // - kIOPM_OurChangeTellClientsPowerDown + // - kIOPM_OurChangeTellPriorityClientsPowerDown + // + // The child must not wait for this parent to raise power + // if the power drop was cancelled. The solution is to cancel + // the power drop if possible, then schedule an adjustment to + // re-evaluate the parent's power state. + // + // Root domain is excluded to avoid idle sleep issues. And allow + // root domain children to pop up when system is going to sleep. + + if ((fMachineState == kIOPM_OurChangeTellClientsPowerDown) || + (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown)) { + fDoNotPowerDown = true; // cancel power drop + adjustPower = true;// schedule an adjustment + PM_LOG1("%s: power drop cancelled in state %u by %s\n", + getName(), fMachineState, child->getName()); + } else { + // Beyond cancellation point, report the impending state. + outputPowerFlags = + fPowerStates[fHeadNotePowerState].outputPowerFlags; + } + } else if (IS_POWER_RISE) { + // When raising power, must report the output power flags from + // child's perspective. A child power request may arrive while + // parent is transitioning upwards. If a request arrives after + // setParentInfo() has already recorded the output power flags + // for the next power state, then using the power supplied by + // fCurrentPowerState is incorrect, and might cause the child + // to wait when it should not. + + outputPowerFlags = childConnection->parentCurrentPowerFlags(); + } } + child->fHeadNoteDomainTargetFlags |= outputPowerFlags; - // Record the child's desires on the connection. -#if SUPPORT_IDLE_CANCEL - bool attemptCancel = ((kIOPMPreventIdleSleep & desiredState) && !whichChild->getPreventIdleSleepFlag()); -#endif - whichChild->setDesiredDomainState( computedState ); - whichChild->setPreventIdleSleepFlag( desiredState & kIOPMPreventIdleSleep ); - whichChild->setPreventSystemSleepFlag( desiredState & kIOPMPreventSystemSleep ); - whichChild->setChildHasRequestedPower(); + // Map child's requested power flags to one of our power state. - if (whichChild->getReadyFlag() == false) - return IOPMNoErr; + for (order = 0; order < fNumberOfPowerStates; order++) { + powerState = fPowerStates[order].stateOrderToIndex; + if ((fPowerStates[powerState].outputPowerFlags & childRequestPowerFlags) + == childRequestPowerFlags) { + break; + } + } + if (order >= fNumberOfPowerStates) { + powerState = kPowerStateZero; + } - // Issue a ping for us to re-evaluate all children desires and - // possibly change power state. + // Conditions that warrants a power adjustment on this parent. + // Adjust power will also propagate any changes to the child's + // prevent idle/sleep flags towards the root domain. - if (!fWillAdjustPowerState && !fDeviceOverrides) - { - childRequest = acquirePMRequest( this, kIOPMRequestTypeAdjustPowerState ); - if (childRequest) - { - submitPMRequest( childRequest ); - fWillAdjustPowerState = true; - } + if (!childConnection->childHasRequestedPower() || + (powerState != childConnection->getDesiredDomainState())) { + adjustPower = true; } -#if SUPPORT_IDLE_CANCEL - if (attemptCancel) - { - childRequest = acquirePMRequest( this, kIOPMRequestTypeIdleCancel ); - if (childRequest) - { - submitPMRequest( childRequest ); - } + +#if ENABLE_DEBUG_LOGS + if (adjustPower) { + PM_LOG("requestPowerDomainState[%s]: %s, init %d, %u->%u\n", + getName(), child->getName(), + !childConnection->childHasRequestedPower(), + (uint32_t) childConnection->getDesiredDomainState(), + (uint32_t) powerState); } #endif - return IOPMNoErr; + // Record the child's desires on the connection. + childConnection->setChildHasRequestedPower(); + childConnection->setDesiredDomainState( powerState ); + + // Schedule a request to re-evaluate all children desires and + // adjust power state. Submit a request if one wasn't pending, + // or if the current request is part of a call tree. + + if (adjustPower && !fDeviceOverrideEnabled && + (!fAdjustPowerScheduled || gIOPMRequest->getRootRequest())) { + subRequest = acquirePMRequest( + this, kIOPMRequestTypeAdjustPowerState, gIOPMRequest ); + if (subRequest) { + submitPMRequest( subRequest ); + fAdjustPowerScheduled = true; + } + } + + return kIOReturnSuccess; } //********************************************************************************* -// [public virtual] temporaryPowerClampOn +// [public] temporaryPowerClampOn // // A power domain wants to clamp its power on till it has children which // will thendetermine the power domain state. @@ -1944,23 +2256,14 @@ IOReturn IOService::requestPowerDomainState ( // We enter the highest state until addPowerChild is called. //********************************************************************************* -IOReturn IOService::temporaryPowerClampOn ( void ) +IOReturn +IOService::temporaryPowerClampOn( void ) { - IOPMRequest * request; - - if (!initialized) - return IOPMNotYetInitialized; - - request = acquirePMRequest( this, kIOPMRequestTypeTemporaryPowerClamp ); - if (!request) - return kIOReturnNoMemory; - - submitPMRequest( request ); - return IOPMNoErr; + return requestPowerState( gIOPMPowerClientChildProxy, kIOPMPowerStateMax ); } //********************************************************************************* -// [public virtual] makeUsable +// [public] makeUsable // // Some client of our device is asking that we become usable. Although // this has not come from a subclassed device object, treat it exactly @@ -1971,1832 +2274,2955 @@ IOReturn IOService::temporaryPowerClampOn ( void ) // highest power state. //********************************************************************************* -IOReturn IOService::makeUsable ( void ) +IOReturn +IOService::makeUsable( void ) { - IOPMRequest * request; - - if (!initialized) - return IOPMNotYetInitialized; + OUR_PMLog(kPMLogMakeUsable, 0, 0); + return requestPowerState( gIOPMPowerClientDevice, kIOPMPowerStateMax ); +} - OUR_PMLog(kPMLogMakeUsable, 0, 0); +//********************************************************************************* +// [public] currentCapability +//********************************************************************************* - request = acquirePMRequest( this, kIOPMRequestTypeMakeUsable ); - if (!request) - return kIOReturnNoMemory; +IOPMPowerFlags +IOService::currentCapability( void ) +{ + if (!initialized) { + return IOPMNotPowerManaged; + } - submitPMRequest( request ); - return IOPMNoErr; + return fCurrentCapabilityFlags; } //********************************************************************************* -// [private] handleMakeUsable +// [public] changePowerStateTo // -// Handle a request to become usable. +// Called by our power-controlling driver to change power state. The new desired +// power state is computed and compared against the current power state. If those +// power states differ, then a power state change is initiated. //********************************************************************************* -void IOService::handleMakeUsable ( IOPMRequest * request ) +IOReturn +IOService::changePowerStateTo( unsigned long ordinal ) { - PM_ASSERT_IN_GATE(); - if ( fControllingDriver ) - { - fDeviceDesire = fNumberOfPowerStates - 1; - computeDesiredState(); - if ( inPlane(gIOPowerPlane) && fParentsKnowState ) - { - changeState(); - } - } - else - { - fNeedToBecomeUsable = true; - } + OUR_PMLog(kPMLogChangeStateTo, ordinal, 0); + return requestPowerState( gIOPMPowerClientDriver, ordinal ); } //********************************************************************************* -// [public virtual] currentCapability +// [protected] changePowerStateToPriv +// +// Called by our driver subclass to change power state. The new desired power +// state is computed and compared against the current power state. If those +// power states differ, then a power state change is initiated. //********************************************************************************* -IOPMPowerFlags IOService::currentCapability ( void ) +IOReturn +IOService::changePowerStateToPriv( unsigned long ordinal ) { - if (!initialized) - return IOPMNotPowerManaged; - - return fCurrentCapabilityFlags; + OUR_PMLog(kPMLogChangeStateToPriv, ordinal, 0); + return requestPowerState( gIOPMPowerClientDevice, ordinal ); } //********************************************************************************* -// [public virtual] changePowerStateTo +// [public] changePowerStateWithOverrideTo // -// For some reason, our power-controlling driver has decided it needs to change -// power state. We enqueue the power change so that appropriate parties -// will be notified, and then we will instruct the driver to make the change. +// Called by our driver subclass to change power state. The new desired power +// state is computed and compared against the current power state. If those +// power states differ, then a power state change is initiated. +// Override enforced - Children and Driver desires are ignored. //********************************************************************************* -IOReturn IOService::changePowerStateTo ( unsigned long ordinal ) +IOReturn +IOService::changePowerStateWithOverrideTo( IOPMPowerStateIndex ordinal, + IOPMRequestTag tag ) { IOPMRequest * request; - if (!initialized) - return IOPMNotYetInitialized; + if (!initialized) { + return kIOPMNotYetInitialized; + } - OUR_PMLog(kPMLogChangeStateTo, ordinal, 0); + OUR_PMLog(kPMLogChangeStateToPriv, ordinal, 0); - request = acquirePMRequest( this, kIOPMRequestTypeChangePowerStateTo ); - if (!request) + request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerStateOverride ); + if (!request) { return kIOReturnNoMemory; + } + gIOPMPowerClientDevice->retain(); + request->fRequestTag = tag; request->fArg0 = (void *) ordinal; - request->fArg1 = (void *) false; + request->fArg1 = (void *) gIOPMPowerClientDevice; + request->fArg2 = NULL; +#if NOT_READY + if (action) { + request->installCompletionAction( action, target, param ); + } +#endif - // Avoid needless downwards power transitions by clamping power in - // computeDesiredState() until the delayed request is processed. + // Prevent needless downwards power transitions by clamping power + // until the scheduled request is executed. - if (gIOPMWorkLoop->inGate()) - { - fTempClampPowerState = max(fTempClampPowerState, ordinal); + if (gIOPMWorkLoop->inGate() && (ordinal < fNumberOfPowerStates)) { + fTempClampPowerState = StateMax(fTempClampPowerState, ordinal); fTempClampCount++; - request->fArg1 = (void *) true; + fOverrideMaxPowerState = ordinal; + request->fArg2 = (void *) (uintptr_t) true; } submitPMRequest( request ); - return IOPMNoErr; + return IOPMNoErr; } //********************************************************************************* -// [private] handleChangePowerStateTo +// [public] changePowerStateForRootDomain +// +// Adjust the root domain's power desire on the target //********************************************************************************* -void IOService::handleChangePowerStateTo ( IOPMRequest * request ) +IOReturn +IOService::changePowerStateForRootDomain( IOPMPowerStateIndex ordinal ) { - unsigned long ordinal = (unsigned long) request->fArg0; - - PM_ASSERT_IN_GATE(); - if (request->fArg1) - { - assert(fTempClampCount != 0); - if (fTempClampCount) - fTempClampCount--; - if (!fTempClampCount) - fTempClampPowerState = 0; - } - - if ( fControllingDriver && (ordinal < fNumberOfPowerStates)) - { - fDriverDesire = ordinal; - computeDesiredState(); - if ( inPlane(gIOPowerPlane) && fParentsKnowState ) - { - changeState(); - } - } + OUR_PMLog(kPMLogChangeStateForRootDomain, ordinal, 0); + return requestPowerState( gIOPMPowerClientRootDomain, ordinal ); } //********************************************************************************* -// [public virtual] changePowerStateToPriv +// [public for PMRD] quiescePowerTree // -// For some reason, a subclassed device object has decided it needs to change -// power state. We enqueue the power change so that appropriate parties -// will be notified, and then we will instruct the driver to make the change. +// For root domain to issue a request to quiesce the power tree. +// Supplied callback invoked upon completion. //********************************************************************************* -IOReturn IOService::changePowerStateToPriv ( unsigned long ordinal ) +IOReturn +IOService::quiescePowerTree( + void * target, IOPMCompletionAction action, void * param ) { IOPMRequest * request; - if (!initialized) - return IOPMNotYetInitialized; - - request = acquirePMRequest( this, kIOPMRequestTypeChangePowerStateToPriv ); - if (!request) - return kIOReturnNoMemory; + if (!initialized) { + return kIOPMNotYetInitialized; + } + if (!target || !action) { + return kIOReturnBadArgument; + } - request->fArg0 = (void *) ordinal; - request->fArg1 = (void *) false; + OUR_PMLog(kPMLogQuiescePowerTree, 0, 0); - // Avoid needless downwards power transitions by clamping power in - // computeDesiredState() until the delayed request is processed. + // Target the root node instead of root domain. This is to avoid blocking + // the quiesce request behind an existing root domain request in the work + // queue. Root parent and root domain requests in the work queue must not + // block the completion of the quiesce request. - if (gIOPMWorkLoop->inGate()) - { - fTempClampPowerState = max(fTempClampPowerState, ordinal); - fTempClampCount++; - request->fArg1 = (void *) true; + request = acquirePMRequest(gIOPMRootNode, kIOPMRequestTypeQuiescePowerTree); + if (!request) { + return kIOReturnNoMemory; } + request->installCompletionAction(target, action, param); + + // Submit through the normal request flow. This will make sure any request + // already in the request queue will get pushed over to the work queue for + // execution. Any request submitted after this request may not be serviced. + submitPMRequest( request ); - return IOPMNoErr; + return kIOReturnSuccess; } //********************************************************************************* -// [private] handleChangePowerStateToPriv +// [private] requestPowerState //********************************************************************************* -void IOService::handleChangePowerStateToPriv ( IOPMRequest * request ) +IOReturn +IOService::requestPowerState( + const OSSymbol * client, + uint32_t state ) { - unsigned long ordinal = (unsigned long) request->fArg0; + IOPMRequest * request; - PM_ASSERT_IN_GATE(); - OUR_PMLog(kPMLogChangeStateToPriv, ordinal, 0); - if (request->fArg1) - { - assert(fTempClampCount != 0); - if (fTempClampCount) - fTempClampCount--; - if (!fTempClampCount) - fTempClampPowerState = 0; + if (!client) { + return kIOReturnBadArgument; } - - if ( fControllingDriver && (ordinal < fNumberOfPowerStates)) - { - fDeviceDesire = ordinal; - computeDesiredState(); - if ( inPlane(gIOPowerPlane) && fParentsKnowState ) - { - changeState(); - } + if (!initialized) { + return kIOPMNotYetInitialized; } -} -//********************************************************************************* -// [private] computeDesiredState -//********************************************************************************* + request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerState ); + if (!request) { + return kIOReturnNoMemory; + } -void IOService::computeDesiredState ( unsigned long tempDesire ) -{ - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - unsigned long newDesiredState = 0; - unsigned long childDesire = 0; - unsigned long deviceDesire; - - if (tempDesire) - deviceDesire = tempDesire; - else - deviceDesire = fDeviceDesire; - - // If clamp is on, always override deviceDesire to max. - - if (fClampOn && fNumberOfPowerStates) - deviceDesire = fNumberOfPowerStates - 1; - - // Compute the maximum of our children's desires, - // our controlling driver's desire, and the subclass device's desire. - - if ( !fDeviceOverrides ) - { - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - if (connection->getReadyFlag() == false) - { - PM_CONNECT("[%s] %s: connection not ready\n", - getName(), __FUNCTION__); - continue; - } - - if (connection->getDesiredDomainState() > childDesire) - childDesire = connection->getDesiredDomainState(); - } - } - iter->release(); - } - - fChildrenDesire = childDesire; - newDesiredState = max(childDesire, fDriverDesire); - } - - newDesiredState = max(deviceDesire, newDesiredState); - if (fTempClampCount && (fTempClampPowerState < fNumberOfPowerStates)) - newDesiredState = max(fTempClampPowerState, newDesiredState); - - fDesiredPowerState = newDesiredState; - - // Limit check against number of power states. - - if (fNumberOfPowerStates == 0) - fDesiredPowerState = 0; - else if (fDesiredPowerState >= fNumberOfPowerStates) - fDesiredPowerState = fNumberOfPowerStates - 1; - - // Restart idle timer if stopped and deviceDesire has increased. - - if (fDeviceDesire && fActivityTimerStopped) - { - fActivityTimerStopped = false; - start_PM_idle_timer(); + client->retain(); + request->fArg0 = (void *)(uintptr_t) state; + request->fArg1 = (void *) client; + request->fArg2 = NULL; +#if NOT_READY + if (action) { + request->installCompletionAction( action, target, param ); } +#endif - // Invalidate cached tickle power state when desires change, and not - // due to a tickle request. This invalidation must occur before the - // power state change to minimize races. We want to err on the side - // of servicing more activity tickles rather than dropping one when - // the device is in a low power state. + // Prevent needless downwards power transitions by clamping power + // until the scheduled request is executed. - if (fPMRequest && (fPMRequest->getType() != kIOPMRequestTypeActivityTickle) && - (fActivityTicklePowerState != -1)) - { - IOLockLock(fActivityLock); - fActivityTicklePowerState = -1; - IOLockUnlock(fActivityLock); + if (gIOPMWorkLoop->inGate() && (state < fNumberOfPowerStates)) { + fTempClampPowerState = StateMax(fTempClampPowerState, state); + fTempClampCount++; + request->fArg2 = (void *) (uintptr_t) true; } - PM_TRACE(" NewState %ld, Child %ld, Driver %ld, Device %ld, Clamp %d (%ld)\n", - fDesiredPowerState, childDesire, fDriverDesire, deviceDesire, - fClampOn, fTempClampCount ? fTempClampPowerState : 0); + submitPMRequest( request ); + return IOPMNoErr; } //********************************************************************************* -// [private] changeState -// -// A subclass object, our controlling driver, or a power domain child -// has asked for a different power state. Here we compute what new -// state we should enter and enqueue the change (or start it). +// [private] handleRequestPowerState //********************************************************************************* -IOReturn IOService::changeState ( void ) +void +IOService::handleRequestPowerState( IOPMRequest * request ) { - IOReturn result; + const OSSymbol * client = (const OSSymbol *) request->fArg1; + uint32_t state = (uint32_t)(uintptr_t) request->fArg0; PM_ASSERT_IN_GATE(); - assert(inPlane(gIOPowerPlane)); - assert(fParentsKnowState); - assert(fControllingDriver); + if (request->fArg2) { + assert(fTempClampCount != 0); + if (fTempClampCount) { + fTempClampCount--; + } + if (!fTempClampCount) { + fTempClampPowerState = kPowerStateZero; + } + } - result = enqueuePowerChange( - /* flags */ IOPMWeInitiated, - /* power state */ fDesiredPowerState, - /* domain state */ 0, - /* connection */ 0, - /* parent state */ 0); + if (fNumberOfPowerStates && (state >= fNumberOfPowerStates)) { + state = fHighestPowerState; + } + + // The power suppression due to changePowerStateWithOverrideTo() expires + // upon the next "device" power request - changePowerStateToPriv(). + + if ((getPMRequestType() != kIOPMRequestTypeRequestPowerStateOverride) && + (client == gIOPMPowerClientDevice)) { + fOverrideMaxPowerState = kIOPMPowerStateMax; + } - return result; + if ((state == kPowerStateZero) && + (client != gIOPMPowerClientDevice) && + (client != gIOPMPowerClientDriver) && + (client != gIOPMPowerClientChildProxy)) { + removePowerClient(client); + } else { + updatePowerClient(client, state); + } + + adjustPowerState(); + client->release(); } //********************************************************************************* -// [public virtual] currentPowerConsumption -// +// [private] Helper functions to update/remove power clients. //********************************************************************************* -unsigned long IOService::currentPowerConsumption ( void ) +void +IOService::updatePowerClient( const OSSymbol * client, uint32_t powerState ) { - if (!initialized) - return kIOPMUnknown; + IOPMPowerStateIndex oldPowerState = kPowerStateZero; - return fCurrentPowerConsumption; + if (!fPowerClients) { + fPowerClients = OSDictionary::withCapacity(4); + } + if (fPowerClients && client) { + OSNumber * num = (OSNumber *) fPowerClients->getObject(client); + if (num) { + oldPowerState = num->unsigned32BitValue(); + num->setValue(powerState); + } else { + num = OSNumber::withNumber(powerState, 32); + if (num) { + fPowerClients->setObject(client, num); + num->release(); + } + } + + PM_ACTION_3(actionUpdatePowerClient, client, oldPowerState, powerState); + } } -//********************************************************************************* -// [public virtual] getPMworkloop -//********************************************************************************* +void +IOService::removePowerClient( const OSSymbol * client ) +{ + if (fPowerClients && client) { + fPowerClients->removeObject(client); + } +} -IOWorkLoop * IOService::getPMworkloop ( void ) +uint32_t +IOService::getPowerStateForClient( const OSSymbol * client ) { - return gIOPMWorkLoop; + uint32_t powerState = kPowerStateZero; + + if (fPowerClients && client) { + OSNumber * num = (OSNumber *) fPowerClients->getObject(client); + if (num) { + powerState = num->unsigned32BitValue(); + } + } + return powerState; } //********************************************************************************* -// [public virtual] activityTickle -// -// The tickle with parameter kIOPMSuperclassPolicy1 causes the activity -// flag to be set, and the device state checked. If the device has been -// powered down, it is powered up again. -// The tickle with parameter kIOPMSubclassPolicy is ignored here and -// should be intercepted by a subclass. +// [protected] powerOverrideOnPriv //********************************************************************************* -bool IOService::activityTickle ( unsigned long type, unsigned long stateNumber ) +IOReturn +IOService::powerOverrideOnPriv( void ) { - IOPMRequest * request; - bool noPowerChange = true; - - if ( initialized && stateNumber && (type == kIOPMSuperclassPolicy1) ) - { - IOLockLock(fActivityLock); - - // Record device activity for the idle timer handler. - - fDeviceActive = true; - clock_get_uptime(&fDeviceActiveTimestamp); - - // Record the last tickle power state. - // This helps to filter out redundant tickles as - // this function may be called from the data path. - - if (fActivityTicklePowerState < (long)stateNumber) - { - fActivityTicklePowerState = stateNumber; - noPowerChange = false; + IOPMRequest * request; - request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); - if (request) - { - request->fArg0 = (void *) stateNumber; // power state - request->fArg1 = (void *) true; // power rise - submitPMRequest(request); - } - } + if (!initialized) { + return IOPMNotYetInitialized; + } - IOLockUnlock(fActivityLock); + if (gIOPMWorkLoop->inGate()) { + fDeviceOverrideEnabled = true; + return IOPMNoErr; } - // Returns false if the activityTickle might cause a transition to a - // higher powered state, true otherwise. + request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOnPriv ); + if (!request) { + return kIOReturnNoMemory; + } - return noPowerChange; + submitPMRequest( request ); + return IOPMNoErr; } //********************************************************************************* -// [public virtual] setIdleTimerPeriod -// -// A subclass policy-maker is going to use our standard idleness -// detection service. Make a command queue and an idle timer and -// connect them to the power management workloop. Finally, -// start the timer. +// [protected] powerOverrideOffPriv //********************************************************************************* -IOReturn IOService::setIdleTimerPeriod ( unsigned long period ) +IOReturn +IOService::powerOverrideOffPriv( void ) { - IOWorkLoop * wl = getPMworkloop(); + IOPMRequest * request; - if (!initialized || !wl) + if (!initialized) { return IOPMNotYetInitialized; + } - OUR_PMLog(PMsetIdleTimerPeriod, period, 0); - - fIdleTimerPeriod = period; - - if ( period > 0 ) - { - // make the timer event - if ( fIdleTimerEventSource == NULL ) - { - IOTimerEventSource * timerSrc; - - timerSrc = IOTimerEventSource::timerEventSource( - this, PM_idle_timer_expired); - - if (timerSrc && (wl->addEventSource(timerSrc) != kIOReturnSuccess)) - { - timerSrc->release(); - timerSrc = 0; - } + if (gIOPMWorkLoop->inGate()) { + fDeviceOverrideEnabled = false; + return IOPMNoErr; + } - fIdleTimerEventSource = timerSrc; - } + request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOffPriv ); + if (!request) { + return kIOReturnNoMemory; + } - start_PM_idle_timer(); - } - return IOPMNoErr; + submitPMRequest( request ); + return IOPMNoErr; } -//****************************************************************************** -// [public virtual] nextIdleTimeout -// -// Returns how many "seconds from now" the device should idle into its -// next lowest power state. -//****************************************************************************** +//********************************************************************************* +// [private] handlePowerOverrideChanged +//********************************************************************************* + +void +IOService::handlePowerOverrideChanged( IOPMRequest * request ) +{ + PM_ASSERT_IN_GATE(); + if (request->getType() == kIOPMRequestTypePowerOverrideOnPriv) { + OUR_PMLog(kPMLogOverrideOn, 0, 0); + fDeviceOverrideEnabled = true; + } else { + OUR_PMLog(kPMLogOverrideOff, 0, 0); + fDeviceOverrideEnabled = false; + } -SInt32 IOService::nextIdleTimeout( - AbsoluteTime currentTime, - AbsoluteTime lastActivity, - unsigned int powerState) -{ - AbsoluteTime delta; - UInt64 delta_ns; - SInt32 delta_secs; - SInt32 delay_secs; - - // Calculate time difference using funky macro from clock.h. - delta = currentTime; - SUB_ABSOLUTETIME(&delta, &lastActivity); - - // Figure it in seconds. - absolutetime_to_nanoseconds(delta, &delta_ns); - delta_secs = (SInt32)(delta_ns / NSEC_PER_SEC); - - // Be paranoid about delta somehow exceeding timer period. - if (delta_secs < (int) fIdleTimerPeriod ) - delay_secs = (int) fIdleTimerPeriod - delta_secs; - else - delay_secs = (int) fIdleTimerPeriod; - - return (SInt32)delay_secs; + adjustPowerState(); } -//****************************************************************************** -// [public virtual] start_PM_idle_timer -// -// The parameter is a pointer to us. Use it to call our timeout method. -//****************************************************************************** +//********************************************************************************* +// [private] computeDesiredState +//********************************************************************************* -void IOService::start_PM_idle_timer ( void ) +void +IOService::computeDesiredState( unsigned long localClamp, bool computeOnly ) { - static const int maxTimeout = 100000; - static const int minTimeout = 1; - AbsoluteTime uptime; - SInt32 idle_in = 0; + OSIterator * iter; + OSObject * next; + IOPowerConnection * connection; + uint32_t desiredState = kPowerStateZero; + uint32_t newPowerState = kPowerStateZero; + bool hasChildren = false; - if (!initialized || !fIdleTimerEventSource) + // Desired power state is always 0 without a controlling driver. + + if (!fNumberOfPowerStates) { + fDesiredPowerState = kPowerStateZero; return; + } - IOLockLock(fActivityLock); + // Examine the children's desired power state. + + iter = getChildIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + if (connection->getReadyFlag() == false) { + PM_LOG3("[%s] %s: connection not ready\n", + getName(), __FUNCTION__); + continue; + } + if (connection->childHasRequestedPower()) { + hasChildren = true; + } + desiredState = StateMax(connection->getDesiredDomainState(), desiredState); + } + } + iter->release(); + } + if (hasChildren) { + updatePowerClient(gIOPMPowerClientChildren, desiredState); + } else { + removePowerClient(gIOPMPowerClientChildren); + } - clock_get_uptime(&uptime); - - // Subclasses may modify idle sleep algorithm - idle_in = nextIdleTimeout(uptime, fDeviceActiveTimestamp, fCurrentPowerState); + // Iterate through all power clients to determine the min power state. + + iter = OSCollectionIterator::withCollection(fPowerClients); + if (iter) { + const OSSymbol * client; + while ((client = (const OSSymbol *) iter->getNextObject())) { + // Ignore child and driver when override is in effect. + if ((fDeviceOverrideEnabled || + (getPMRequestType() == kIOPMRequestTypeRequestPowerStateOverride)) && + ((client == gIOPMPowerClientChildren) || + (client == gIOPMPowerClientDriver))) { + continue; + } - // Check for out-of range responses - if (idle_in > maxTimeout) - { - // use standard implementation - idle_in = IOService::nextIdleTimeout(uptime, - fDeviceActiveTimestamp, - fCurrentPowerState); - } else if (idle_in < minTimeout) { - idle_in = fIdleTimerPeriod; - } + // Ignore child proxy when children are present. + if (hasChildren && (client == gIOPMPowerClientChildProxy)) { + continue; + } - IOLockUnlock(fActivityLock); + // Advisory tickles are irrelevant unless system is in full wake + if (client == gIOPMPowerClientAdvisoryTickle && + !gIOPMAdvisoryTickleEnabled) { + continue; + } - fIdleTimerEventSource->setTimeout(idle_in, NSEC_PER_SEC); -} + desiredState = getPowerStateForClient(client); + assert(desiredState < fNumberOfPowerStates); + PM_LOG1(" %u %s\n", + desiredState, client->getCStringNoCopy()); -//********************************************************************************* -// [private] PM_idle_timer_expired -// -// The parameter is a pointer to us. Use it to call our timeout method. -//********************************************************************************* + newPowerState = StateMax(newPowerState, desiredState); -void PM_idle_timer_expired ( OSObject * ourSelves, IOTimerEventSource * ) -{ - ((IOService *)ourSelves)->PM_idle_timer_expiration(); -} + if (client == gIOPMPowerClientDevice) { + fDeviceDesire = desiredState; + } + } + iter->release(); + } -//********************************************************************************* -// [public virtual] PM_idle_timer_expiration -// -// The idle timer has expired. If there has been activity since the last -// expiration, just restart the timer and return. If there has not been -// activity, switch to the next lower power state and restart the timer. -//********************************************************************************* + // Factor in the temporary power desires. -void IOService::PM_idle_timer_expiration ( void ) -{ - IOPMRequest * request; - bool restartTimer = true; + newPowerState = StateMax(newPowerState, localClamp); + newPowerState = StateMax(newPowerState, fTempClampPowerState); - if ( !initialized || !fIdleTimerPeriod ) - return; + // Limit check against max power override. - IOLockLock(fActivityLock); + newPowerState = StateMin(newPowerState, fOverrideMaxPowerState); - // Check for device activity (tickles) over last timer period. + // Limit check against number of power states. - if (fDeviceActive) - { - // Device was active - do not drop power, restart timer. - fDeviceActive = false; + if (newPowerState >= fNumberOfPowerStates) { + newPowerState = fHighestPowerState; } - else - { - // No device activity - drop power state by one level. - // Decrement the cached tickle power state when possible. - // This value may be (-1) before activityTickle() is called, - // but the power drop request must be issued regardless. - if (fActivityTicklePowerState > 0) - { - fActivityTicklePowerState--; +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + if (getPMRootDomain()->isAOTMode()) { + if ((kIOPMPreventIdleSleep & fPowerStates[newPowerState].capabilityFlags) + && !(kIOPMPreventIdleSleep & fPowerStates[fDesiredPowerState].capabilityFlags)) { + getPMRootDomain()->claimSystemWakeEvent(this, kIOPMWakeEventAOTExit, getName(), NULL); } + } +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ - request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); - if (request) - { - request->fArg0 = (void *) 0; // power state (irrelevant) - request->fArg1 = (void *) false; // power drop - submitPMRequest( request ); + fDesiredPowerState = newPowerState; - // Do not restart timer until after the tickle request has been - // processed. + PM_LOG1(" temp %u, clamp %u, current %u, new %u\n", + (uint32_t) localClamp, (uint32_t) fTempClampPowerState, + (uint32_t) fCurrentPowerState, newPowerState); - restartTimer = false; - } - } + if (!computeOnly) { + // Restart idle timer if possible when device desire has increased. + // Or if an advisory desire exists. - IOLockUnlock(fActivityLock); + if (fIdleTimerPeriod && fIdleTimerStopped) { + restartIdleTimer(); + } - if (restartTimer) - start_PM_idle_timer(); + // Invalidate cached tickle power state when desires change, and not + // due to a tickle request. In case the driver has requested a lower + // power state, but the tickle is caching a higher power state which + // will drop future tickles until the cached value is lowered or in- + // validated. The invalidation must occur before the power transition + // to avoid dropping a necessary tickle. + + if ((getPMRequestType() != kIOPMRequestTypeActivityTickle) && + (fActivityTicklePowerState != kInvalidTicklePowerState)) { + IOLockLock(fActivityLock); + fActivityTicklePowerState = kInvalidTicklePowerState; + IOLockUnlock(fActivityLock); + } + } } //********************************************************************************* -// [public virtual] command_received +// [public] currentPowerConsumption // //********************************************************************************* -void IOService::command_received ( void *statePtr , void *, void * , void * ) +unsigned long +IOService::currentPowerConsumption( void ) { + if (!initialized) { + return kIOPMUnknown; + } + + return fCurrentPowerConsumption; } //********************************************************************************* -// [public virtual] setAggressiveness -// -// Pass on the input parameters to all power domain children. All those which are -// power domains will pass it on to their children, etc. +// [deprecated] getPMworkloop //********************************************************************************* -IOReturn IOService::setAggressiveness ( unsigned long type, unsigned long newLevel ) +#ifndef __LP64__ +IOWorkLoop * +IOService::getPMworkloop( void ) { - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - IOService * child; - - if (!initialized) - return IOPMNotYetInitialized; - - if (getPMRootDomain() == this) - OUR_PMLog(kPMLogSetAggressiveness, type, newLevel); - - if ( type <= kMaxType ) - { - fAggressivenessValue[type] = newLevel; - fAggressivenessValid[type] = true; - } - - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - if (connection->getReadyFlag() == false) - { - PM_CONNECT("[%s] %s: connection not ready\n", - getName(), __FUNCTION__); - continue; - } - - child = ((IOService *)(connection->copyChildEntry(gIOPowerPlane))); - if ( child ) - { - child->setAggressiveness(type, newLevel); - child->release(); - } - } - } - iter->release(); - } - - return IOPMNoErr; + return gIOPMWorkLoop; } +#endif + +#if NOT_YET //********************************************************************************* -// [public virtual] getAggressiveness -// -// Called by the user client. +// Power Parent/Children Applier //********************************************************************************* -IOReturn IOService::getAggressiveness ( unsigned long type, unsigned long * currentLevel ) +static void +applyToPowerChildren( + IOService * service, + IOServiceApplierFunction applier, + void * context, + IOOptionBits options ) { - if ( !initialized || (type > kMaxType) ) - return kIOReturnBadArgument; + PM_ASSERT_IN_GATE(); + + IORegistryEntry * entry; + IORegistryIterator * iter; + IOPowerConnection * connection; + IOService * child; + + iter = IORegistryIterator::iterateOver(service, gIOPowerPlane, options); + if (iter) { + while ((entry = iter->getNextObject())) { + // Get child of IOPowerConnection objects + if ((connection = OSDynamicCast(IOPowerConnection, entry))) { + child = (IOService *) connection->copyChildEntry(gIOPowerPlane); + if (child) { + (*applier)(child, context); + child->release(); + } + } + } + iter->release(); + } +} - if ( !fAggressivenessValid[type] ) - return kIOReturnInvalid; - - *currentLevel = fAggressivenessValue[type]; +static void +applyToPowerParent( + IOService * service, + IOServiceApplierFunction applier, + void * context, + IOOptionBits options ) +{ + PM_ASSERT_IN_GATE(); - return kIOReturnSuccess; + IORegistryEntry * entry; + IORegistryIterator * iter; + IOPowerConnection * connection; + IOService * parent; + + iter = IORegistryIterator::iterateOver(service, gIOPowerPlane, + options | kIORegistryIterateParents); + if (iter) { + while ((entry = iter->getNextObject())) { + // Get child of IOPowerConnection objects + if ((connection = OSDynamicCast(IOPowerConnection, entry))) { + parent = (IOService *) connection->copyParentEntry(gIOPowerPlane); + if (parent) { + (*applier)(parent, context); + parent->release(); + } + } + } + iter->release(); + } } -//********************************************************************************* -// [public] getPowerState -// -//********************************************************************************* +#endif /* NOT_YET */ -UInt32 IOService::getPowerState ( void ) -{ - if (!initialized) - return 0; +// MARK: - +// MARK: Activity Tickle & Idle Timer - return fCurrentPowerState; +void +IOService::setAdvisoryTickleEnable( bool enable ) +{ + gIOPMAdvisoryTickleEnabled = enable; } //********************************************************************************* -// [public virtual] systemWake +// [public] activityTickle // -// Pass this to all power domain children. All those which are -// power domains will pass it on to their children, etc. +// The tickle with parameter kIOPMSuperclassPolicy1 causes the activity +// flag to be set, and the device state checked. If the device has been +// powered down, it is powered up again. +// The tickle with parameter kIOPMSubclassPolicy is ignored here and +// should be intercepted by a subclass. //********************************************************************************* -IOReturn IOService::systemWake ( void ) +bool +IOService::activityTickle( unsigned long type, unsigned long stateNumber ) { - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - IOService * theChild; + IOPMRequest * request; + bool noPowerChange = true; + uint32_t tickleFlags; - OUR_PMLog(kPMLogSystemWake, 0, 0); + if (!initialized) { + return true; // no power change + } + if ((type == kIOPMSuperclassPolicy1) && StateOrder(stateNumber)) { + IOLockLock(fActivityLock); - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - if (connection->getReadyFlag() == false) - { - PM_CONNECT("[%s] %s: connection not ready\n", - getName(), __FUNCTION__); - continue; - } + // Record device activity for the idle timer handler. - theChild = (IOService *)connection->copyChildEntry(gIOPowerPlane); - if ( theChild ) - { - theChild->systemWake(); - theChild->release(); - } - } - } - iter->release(); - } + fDeviceWasActive = true; + fActivityTickleCount++; + clock_get_uptime(&fDeviceActiveTimestamp); - if ( fControllingDriver != NULL ) - { - if ( fControllingDriver->didYouWakeSystem() ) - { - makeUsable(); - } - } + PM_ACTION_0(actionActivityTickle); - return IOPMNoErr; -} + // Record the last tickle power state. + // This helps to filter out redundant tickles as + // this function may be called from the data path. -//********************************************************************************* -// [public virtual] temperatureCriticalForZone -//********************************************************************************* + if ((fActivityTicklePowerState == kInvalidTicklePowerState) + || StateOrder(fActivityTicklePowerState) < StateOrder(stateNumber)) { + fActivityTicklePowerState = stateNumber; + noPowerChange = false; -IOReturn IOService::temperatureCriticalForZone ( IOService * whichZone ) -{ - IOService * theParent; - IOService * theNub; - - OUR_PMLog(kPMLogCriticalTemp, 0, 0); + tickleFlags = kTickleTypeActivity | kTickleTypePowerRise; + request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); + if (request) { + request->fArg0 = (void *) stateNumber; + request->fArg1 = (void *)(uintptr_t) tickleFlags; + request->fArg2 = (void *)(uintptr_t) gIOPMTickleGeneration; + submitPMRequest(request); + } + } - if ( inPlane(gIOPowerPlane) && !fWeAreRoot ) - { - theNub = (IOService *)copyParentEntry(gIOPowerPlane); - if ( theNub ) - { - theParent = (IOService *)theNub->copyParentEntry(gIOPowerPlane); - theNub->release(); - if ( theParent ) - { - theParent->temperatureCriticalForZone(whichZone); - theParent->release(); - } - } - } - return IOPMNoErr; -} + IOLockUnlock(fActivityLock); + } else if ((type == kIOPMActivityTickleTypeAdvisory) && + ((stateNumber = fDeviceUsablePowerState) != kPowerStateZero)) { + IOLockLock(fActivityLock); -//********************************************************************************* -// [public] powerOverrideOnPriv -//********************************************************************************* + fAdvisoryTickled = true; -IOReturn IOService::powerOverrideOnPriv ( void ) -{ - IOPMRequest * request; + if (fAdvisoryTicklePowerState != stateNumber) { + fAdvisoryTicklePowerState = stateNumber; + noPowerChange = false; - if (!initialized) - return IOPMNotYetInitialized; + tickleFlags = kTickleTypeAdvisory | kTickleTypePowerRise; + request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); + if (request) { + request->fArg0 = (void *) stateNumber; + request->fArg1 = (void *)(uintptr_t) tickleFlags; + request->fArg2 = (void *)(uintptr_t) gIOPMTickleGeneration; + submitPMRequest(request); + } + } - if (gIOPMWorkLoop->inGate()) - { - fDeviceOverrides = true; - return IOPMNoErr; + IOLockUnlock(fActivityLock); } - request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOnPriv ); - if (!request) - return kIOReturnNoMemory; + // Returns false if the activityTickle might cause a transition to a + // higher powered state, true otherwise. - submitPMRequest( request ); - return IOPMNoErr; + return noPowerChange; } //********************************************************************************* -// [public] powerOverrideOffPriv +// [private] handleActivityTickle //********************************************************************************* -IOReturn IOService::powerOverrideOffPriv ( void ) +void +IOService::handleActivityTickle( IOPMRequest * request ) { - IOPMRequest * request; + uint32_t ticklePowerState = (uint32_t)(uintptr_t) request->fArg0; + uint32_t tickleFlags = (uint32_t)(uintptr_t) request->fArg1; + uint32_t tickleGeneration = (uint32_t)(uintptr_t) request->fArg2; + bool adjustPower = false; + + PM_ASSERT_IN_GATE(); + if (fResetPowerStateOnWake && (tickleGeneration != gIOPMTickleGeneration)) { + // Drivers that don't want power restored on wake will drop any + // tickles that pre-dates the current system wake. The model is + // that each wake is a fresh start, with power state depressed + // until a new tickle or an explicit power up request from the + // driver. It is possible for the PM work loop to enter the + // system sleep path with tickle requests queued. + + return; + } + + if (tickleFlags & kTickleTypeActivity) { + IOPMPowerStateIndex deviceDesireOrder = StateOrder(fDeviceDesire); + uint32_t idleTimerGeneration = ticklePowerState; // kTickleTypePowerDrop + + if (tickleFlags & kTickleTypePowerRise) { + if ((StateOrder(ticklePowerState) > deviceDesireOrder) && + (ticklePowerState < fNumberOfPowerStates)) { + fIdleTimerMinPowerState = ticklePowerState; + updatePowerClient(gIOPMPowerClientDevice, ticklePowerState); + adjustPower = true; + } + } else if ((deviceDesireOrder > StateOrder(fIdleTimerMinPowerState)) && + (idleTimerGeneration == fIdleTimerGeneration)) { + // Power drop due to idle timer expiration. + // Do not allow idle timer to reduce power below tickle power. + // This prevents the idle timer from decreasing the device desire + // to zero and cancelling the effect of a pre-sleep tickle when + // system wakes up to doze state, while the device is unable to + // raise its power state to satisfy the tickle. + + deviceDesireOrder--; + if (deviceDesireOrder < fNumberOfPowerStates) { + ticklePowerState = fPowerStates[deviceDesireOrder].stateOrderToIndex; + updatePowerClient(gIOPMPowerClientDevice, ticklePowerState); + adjustPower = true; + } + } + } else { // advisory tickle + if (tickleFlags & kTickleTypePowerRise) { + if ((ticklePowerState == fDeviceUsablePowerState) && + (ticklePowerState < fNumberOfPowerStates)) { + updatePowerClient(gIOPMPowerClientAdvisoryTickle, ticklePowerState); + fHasAdvisoryDesire = true; + fAdvisoryTickleUsed = true; + adjustPower = true; + } else { + IOLockLock(fActivityLock); + fAdvisoryTicklePowerState = kInvalidTicklePowerState; + IOLockUnlock(fActivityLock); + } + } else if (fHasAdvisoryDesire) { + removePowerClient(gIOPMPowerClientAdvisoryTickle); + fHasAdvisoryDesire = false; + adjustPower = true; + } + } + + if (adjustPower) { + adjustPowerState(); + } +} + +//****************************************************************************** +// [public] setIdleTimerPeriod +// +// A subclass policy-maker is using our standard idleness detection service. +// Start the idle timer. Period is in seconds. +//****************************************************************************** - if (!initialized) +IOReturn +IOService::setIdleTimerPeriod( unsigned long period ) +{ + if (!initialized) { return IOPMNotYetInitialized; + } - if (gIOPMWorkLoop->inGate()) - { - fDeviceOverrides = false; - return IOPMNoErr; + OUR_PMLog(kPMLogSetIdleTimerPeriod, period, fIdleTimerPeriod); + + IOPMRequest * request = + acquirePMRequest( this, kIOPMRequestTypeSetIdleTimerPeriod ); + if (!request) { + return kIOReturnNoMemory; } - request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOffPriv ); - if (!request) + request->fArg0 = (void *) period; + submitPMRequest( request ); + + return kIOReturnSuccess; +} + +IOReturn +IOService::setIgnoreIdleTimer( bool ignore ) +{ + if (!initialized) { + return IOPMNotYetInitialized; + } + + OUR_PMLog(kIOPMRequestTypeIgnoreIdleTimer, ignore, 0); + + IOPMRequest * request = + acquirePMRequest( this, kIOPMRequestTypeIgnoreIdleTimer ); + if (!request) { return kIOReturnNoMemory; + } + + request->fArg0 = (void *) ignore; + submitPMRequest( request ); + + return kIOReturnSuccess; +} + +//****************************************************************************** +// [public] nextIdleTimeout +// +// Returns how many "seconds from now" the device should idle into its +// next lowest power state. +//****************************************************************************** + +SInt32 +IOService::nextIdleTimeout( + AbsoluteTime currentTime, + AbsoluteTime lastActivity, + unsigned int powerState) +{ + AbsoluteTime delta; + UInt64 delta_ns; + SInt32 delta_secs; + SInt32 delay_secs; + + // Calculate time difference using funky macro from clock.h. + delta = currentTime; + SUB_ABSOLUTETIME(&delta, &lastActivity); + + // Figure it in seconds. + absolutetime_to_nanoseconds(delta, &delta_ns); + delta_secs = (SInt32)(delta_ns / NSEC_PER_SEC); + + // Be paranoid about delta somehow exceeding timer period. + if (delta_secs < (int) fIdleTimerPeriod) { + delay_secs = (int) fIdleTimerPeriod - delta_secs; + } else { + delay_secs = (int) fIdleTimerPeriod; + } + + return (SInt32)delay_secs; +} + +//********************************************************************************* +// [public] start_PM_idle_timer +//********************************************************************************* + +void +IOService::start_PM_idle_timer( void ) +{ + static const int maxTimeout = 100000; + static const int minTimeout = 1; + AbsoluteTime uptime, deadline; + SInt32 idle_in = 0; + boolean_t pending; + + if (!initialized || !fIdleTimerPeriod) { + return; + } + + IOLockLock(fActivityLock); + + clock_get_uptime(&uptime); + + // Subclasses may modify idle sleep algorithm + idle_in = nextIdleTimeout(uptime, fDeviceActiveTimestamp, fCurrentPowerState); + + // Check for out-of range responses + if (idle_in > maxTimeout) { + // use standard implementation + idle_in = IOService::nextIdleTimeout(uptime, + fDeviceActiveTimestamp, + fCurrentPowerState); + } else if (idle_in < minTimeout) { + idle_in = fIdleTimerPeriod; + } + + IOLockUnlock(fActivityLock); + + fNextIdleTimerPeriod = idle_in; + fIdleTimerStartTime = uptime; + + retain(); + clock_interval_to_absolutetime_interval(idle_in, kSecondScale, &deadline); + ADD_ABSOLUTETIME(&deadline, &uptime); + pending = thread_call_enter_delayed(fIdleTimer, deadline); + if (pending) { + release(); + } +} + +//********************************************************************************* +// [private] restartIdleTimer +//********************************************************************************* + +void +IOService::restartIdleTimer( void ) +{ + if (fDeviceDesire != kPowerStateZero) { + fIdleTimerStopped = false; + fActivityTickleCount = 0; + start_PM_idle_timer(); + } else if (fHasAdvisoryDesire) { + fIdleTimerStopped = false; + start_PM_idle_timer(); + } else { + fIdleTimerStopped = true; + } +} + +//********************************************************************************* +// idle_timer_expired +//********************************************************************************* + +static void +idle_timer_expired( + thread_call_param_t arg0, thread_call_param_t arg1 ) +{ + IOService * me = (IOService *) arg0; + + if (gIOPMWorkLoop) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, me, + &IOService::idleTimerExpired), + me); + } + + me->release(); +} + +//********************************************************************************* +// [private] idleTimerExpired +// +// The idle timer has expired. If there has been activity since the last +// expiration, just restart the timer and return. If there has not been +// activity, switch to the next lower power state and restart the timer. +//********************************************************************************* + +void +IOService::idleTimerExpired( void ) +{ + IOPMRequest * request; + bool restartTimer = true; + uint32_t tickleFlags; + + if (!initialized || !fIdleTimerPeriod || fIdleTimerStopped || + fLockedFlags.PMStop) { + return; + } + + fIdleTimerStartTime = 0; + + IOLockLock(fActivityLock); + + // Check for device activity (tickles) over last timer period. + + if (fDeviceWasActive) { + // Device was active - do not drop power, restart timer. + fDeviceWasActive = false; + } else if (!fIdleTimerIgnored) { + // No device activity - drop power state by one level. + // Decrement the cached tickle power state when possible. + // This value may be kInvalidTicklePowerState before activityTickle() + // is called, but the power drop request must be issued regardless. + + if ((fActivityTicklePowerState != kInvalidTicklePowerState) && + (fActivityTicklePowerState != kPowerStateZero)) { + fActivityTicklePowerState--; + } + + tickleFlags = kTickleTypeActivity | kTickleTypePowerDrop; + request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); + if (request) { + request->fArg0 = (void *)(uintptr_t) fIdleTimerGeneration; + request->fArg1 = (void *)(uintptr_t) tickleFlags; + request->fArg2 = (void *)(uintptr_t) gIOPMTickleGeneration; + submitPMRequest( request ); + + // Do not restart timer until after the tickle request has been + // processed. + + restartTimer = false; + } + } + + if (fAdvisoryTickled) { + fAdvisoryTickled = false; + } else if (fHasAdvisoryDesire) { + // Want new tickles to turn into pm request after we drop the lock + fAdvisoryTicklePowerState = kInvalidTicklePowerState; + + tickleFlags = kTickleTypeAdvisory | kTickleTypePowerDrop; + request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle ); + if (request) { + request->fArg0 = (void *)(uintptr_t) fIdleTimerGeneration; + request->fArg1 = (void *)(uintptr_t) tickleFlags; + request->fArg2 = (void *)(uintptr_t) gIOPMTickleGeneration; + submitPMRequest( request ); + + // Do not restart timer until after the tickle request has been + // processed. + + restartTimer = false; + } + } + + IOLockUnlock(fActivityLock); + + if (restartTimer) { + start_PM_idle_timer(); + } +} + +#ifndef __LP64__ +//********************************************************************************* +// [deprecated] PM_idle_timer_expiration +//********************************************************************************* + +void +IOService::PM_idle_timer_expiration( void ) +{ +} + +//********************************************************************************* +// [deprecated] command_received +//********************************************************************************* + +void +IOService::command_received( void *statePtr, void *, void *, void * ) +{ +} +#endif /* !__LP64__ */ + +//********************************************************************************* +// [public] setAggressiveness +// +// Pass on the input parameters to all power domain children. All those which are +// power domains will pass it on to their children, etc. +//********************************************************************************* + +IOReturn +IOService::setAggressiveness( unsigned long type, unsigned long newLevel ) +{ + return kIOReturnSuccess; +} + +//********************************************************************************* +// [public] getAggressiveness +// +// Called by the user client. +//********************************************************************************* + +IOReturn +IOService::getAggressiveness( unsigned long type, unsigned long * currentLevel ) +{ + IOPMrootDomain * rootDomain = getPMRootDomain(); + + if (!rootDomain) { + return kIOReturnNotReady; + } + + return rootDomain->getAggressiveness( type, currentLevel ); +} + +//********************************************************************************* +// [public] getPowerState +// +//********************************************************************************* + +UInt32 +IOService::getPowerState( void ) +{ + if (!initialized) { + return kPowerStateZero; + } + + return fCurrentPowerState; +} + +#ifndef __LP64__ +//********************************************************************************* +// [deprecated] systemWake +// +// Pass this to all power domain children. All those which are +// power domains will pass it on to their children, etc. +//********************************************************************************* + +IOReturn +IOService::systemWake( void ) +{ + OSIterator * iter; + OSObject * next; + IOPowerConnection * connection; + IOService * theChild; + + iter = getChildIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + if (connection->getReadyFlag() == false) { + PM_LOG3("[%s] %s: connection not ready\n", + getName(), __FUNCTION__); + continue; + } + + theChild = (IOService *)connection->copyChildEntry(gIOPowerPlane); + if (theChild) { + theChild->systemWake(); + theChild->release(); + } + } + } + iter->release(); + } + + if (fControllingDriver != NULL) { + if (fControllingDriver->didYouWakeSystem()) { + makeUsable(); + } + } + + return IOPMNoErr; +} + +//********************************************************************************* +// [deprecated] temperatureCriticalForZone +//********************************************************************************* + +IOReturn +IOService::temperatureCriticalForZone( IOService * whichZone ) +{ + IOService * theParent; + IOService * theNub; + + OUR_PMLog(kPMLogCriticalTemp, 0, 0); + + if (inPlane(gIOPowerPlane) && !IS_PM_ROOT) { + theNub = (IOService *)copyParentEntry(gIOPowerPlane); + if (theNub) { + theParent = (IOService *)theNub->copyParentEntry(gIOPowerPlane); + theNub->release(); + if (theParent) { + theParent->temperatureCriticalForZone(whichZone); + theParent->release(); + } + } + } + return IOPMNoErr; +} +#endif /* !__LP64__ */ + +// MARK: - +// MARK: Power Change (Common) + +//********************************************************************************* +// [private] startPowerChange +// +// All power state changes starts here. +//********************************************************************************* + +IOReturn +IOService::startPowerChange( + IOPMPowerChangeFlags changeFlags, + IOPMPowerStateIndex powerState, + IOPMPowerFlags domainFlags, + IOPowerConnection * parentConnection, + IOPMPowerFlags parentFlags ) +{ + uint32_t savedPMActionsParam; + + PM_ASSERT_IN_GATE(); + assert( fMachineState == kIOPM_Finished ); + assert( powerState < fNumberOfPowerStates ); + + if (powerState >= fNumberOfPowerStates) { + return IOPMAckImplied; + } + + fIsPreChange = true; + savedPMActionsParam = fPMActions.parameter; + PM_ACTION_2(actionPowerChangeOverride, &powerState, &changeFlags); + + // rdar://problem/55040032 + // Schedule a power adjustment after removing the power clamp + // to inform our power parent(s) about our latest desired domain + // power state. For a self-initiated change, let OurChangeStart() + // automatically request parent power when necessary. + if (!fAdjustPowerScheduled && + ((changeFlags & kIOPMSelfInitiated) == 0) && + ((fPMActions.parameter & kPMActionsFlagLimitPower) == 0) && + ((savedPMActionsParam & kPMActionsFlagLimitPower) != 0)) { + IOPMRequest * request = acquirePMRequest(this, kIOPMRequestTypeAdjustPowerState); + if (request) { + submitPMRequest(request); + fAdjustPowerScheduled = true; + } + } + + if (changeFlags & kIOPMExpireIdleTimer) { + // Root domain requested removal of tickle influence + if (StateOrder(fDeviceDesire) > StateOrder(powerState)) { + // Reset device desire down to the clamped power state + updatePowerClient(gIOPMPowerClientDevice, powerState); + computeDesiredState(kPowerStateZero, true); + + // Invalidate tickle cache so the next tickle will issue a request + IOLockLock(fActivityLock); + fDeviceWasActive = false; + fActivityTicklePowerState = kInvalidTicklePowerState; + IOLockUnlock(fActivityLock); + + fIdleTimerMinPowerState = kPowerStateZero; + } + } + + // Root domain's override handler may cancel the power change by + // setting the kIOPMNotDone flag. + + if (changeFlags & kIOPMNotDone) { + return IOPMAckImplied; + } + + // Forks to either Driver or Parent initiated power change paths. + + fHeadNoteChangeFlags = changeFlags; + fHeadNotePowerState = powerState; + fHeadNotePowerArrayEntry = &fPowerStates[powerState]; + fHeadNoteParentConnection = NULL; + + if (changeFlags & kIOPMSelfInitiated) { + if (changeFlags & kIOPMSynchronize) { + OurSyncStart(); + } else { + OurChangeStart(); + } + return 0; + } else { + assert(changeFlags & kIOPMParentInitiated); + fHeadNoteDomainFlags = domainFlags; + fHeadNoteParentFlags = parentFlags; + fHeadNoteParentConnection = parentConnection; + return ParentChangeStart(); + } +} + +//********************************************************************************* +// [private] notifyInterestedDrivers +//********************************************************************************* + +bool +IOService::notifyInterestedDrivers( void ) +{ + IOPMinformee * informee; + IOPMinformeeList * list = fInterestedDrivers; + DriverCallParam * param; + IOItemCount count; + IOItemCount skipCnt = 0; + + PM_ASSERT_IN_GATE(); + assert( fDriverCallParamCount == 0 ); + assert( fHeadNotePendingAcks == 0 ); + + fHeadNotePendingAcks = 0; + + count = list->numberOfItems(); + if (!count) { + goto done; // no interested drivers + } + // Allocate an array of interested drivers and their return values + // for the callout thread. Everything else is still "owned" by the + // PM work loop, which can run to process acknowledgePowerChange() + // responses. + + param = (DriverCallParam *) fDriverCallParamPtr; + if (count > fDriverCallParamSlots) { + if (fDriverCallParamSlots) { + assert(fDriverCallParamPtr); + IODelete(fDriverCallParamPtr, DriverCallParam, fDriverCallParamSlots); + fDriverCallParamPtr = NULL; + fDriverCallParamSlots = 0; + } + + param = IONew(DriverCallParam, count); + if (!param) { + goto done; // no memory + } + fDriverCallParamPtr = (void *) param; + fDriverCallParamSlots = count; + } + + informee = list->firstInList(); + assert(informee); + for (IOItemCount i = 0; i < count; i++) { + if (fInitialSetPowerState || (fHeadNoteChangeFlags & kIOPMInitialPowerChange)) { + // Skip notifying self, if 'kIOPMInitialDeviceState' is set and + // this is the initial power state change + if ((this == informee->whatObject) && + (fHeadNotePowerArrayEntry->capabilityFlags & kIOPMInitialDeviceState)) { + skipCnt++; + continue; + } + } + informee->timer = -1; + param[i].Target = informee; + informee->retain(); + informee = list->nextInList( informee ); + } + + count -= skipCnt; + if (!count) { + goto done; + } + fDriverCallParamCount = count; + fHeadNotePendingAcks = count; + + // Block state machine and wait for callout completion. + assert(!fDriverCallBusy); + fDriverCallBusy = true; + thread_call_enter( fDriverCallEntry ); + return true; + +done: + // Return false if there are no interested drivers or could not schedule + // callout thread due to error. + return false; +} + +//********************************************************************************* +// [private] notifyInterestedDriversDone +//********************************************************************************* + +void +IOService::notifyInterestedDriversDone( void ) +{ + IOPMinformee * informee; + IOItemCount count; + DriverCallParam * param; + IOReturn result; + int maxTimeout = 0; + + PM_ASSERT_IN_GATE(); + assert( fDriverCallBusy == false ); + assert( fMachineState == kIOPM_DriverThreadCallDone ); + + param = (DriverCallParam *) fDriverCallParamPtr; + count = fDriverCallParamCount; + + if (param && count) { + for (IOItemCount i = 0; i < count; i++, param++) { + informee = (IOPMinformee *) param->Target; + result = param->Result; + + if ((result == IOPMAckImplied) || (result < 0)) { + // Interested driver return IOPMAckImplied. + // If informee timer is zero, it must have de-registered + // interest during the thread callout. That also drops + // the pending ack count. + + if (fHeadNotePendingAcks && informee->timer) { + fHeadNotePendingAcks--; + } + + informee->timer = 0; + } else if (informee->timer) { + assert(informee->timer == -1); + + // Driver has not acked, and has returned a positive result. + // Enforce a minimum permissible timeout value. + // Make the min value large enough so timeout is less likely + // to occur if a driver misinterpreted that the return value + // should be in microsecond units. And make it large enough + // to be noticeable if a driver neglects to ack. + + if (result < kMinAckTimeoutTicks) { + result = kMinAckTimeoutTicks; + } + + informee->timer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1; + if (result > maxTimeout) { + maxTimeout = result; + } + } + // else, child has already acked or driver has removed interest, + // and head_note_pendingAcks decremented. + // informee may have been removed from the interested drivers list, + // thus the informee must be retained across the callout. + + informee->release(); + } + + fDriverCallParamCount = 0; + + if (fHeadNotePendingAcks) { + OUR_PMLog(kPMLogStartAckTimer, 0, 0); + start_ack_timer(); + getPMRootDomain()->reset_watchdog_timer(this, maxTimeout / USEC_PER_SEC + 1); + } + } + + MS_POP(); // pop the machine state passed to notifyAll() + + // If interest acks are outstanding, block the state machine until + // fHeadNotePendingAcks drops to zero before notifying root domain. + // Otherwise notify root domain directly. + + if (!fHeadNotePendingAcks) { + notifyRootDomain(); + } else { + MS_PUSH(fMachineState); + fMachineState = kIOPM_NotifyChildrenStart; + } +} + +//********************************************************************************* +// [private] notifyRootDomain +//********************************************************************************* + +void +IOService::notifyRootDomain( void ) +{ + assert( fDriverCallBusy == false ); + + // Only for root domain in the will-change phase + if (!IS_ROOT_DOMAIN || (fMachineState != kIOPM_OurChangeSetPowerState)) { + notifyChildren(); + return; + } + + MS_PUSH(fMachineState); // push notifyAll() machine state + fMachineState = kIOPM_DriverThreadCallDone; + + // Call IOPMrootDomain::willNotifyPowerChildren() on a thread call + // to avoid a deadlock. + fDriverCallReason = kRootDomainInformPreChange; + fDriverCallBusy = true; + thread_call_enter( fDriverCallEntry ); +} + +void +IOService::notifyRootDomainDone( void ) +{ + assert( fDriverCallBusy == false ); + assert( fMachineState == kIOPM_DriverThreadCallDone ); + + MS_POP(); // pop notifyAll() machine state + notifyChildren(); +} + +//********************************************************************************* +// [private] notifyChildren +//********************************************************************************* + +void +IOService::notifyChildren( void ) +{ + OSIterator * iter; + OSObject * next; + IOPowerConnection * connection; + OSArray * children = NULL; + IOPMrootDomain * rootDomain; + bool delayNotify = false; + + if ((fHeadNotePowerState != fCurrentPowerState) && + (IS_POWER_DROP == fIsPreChange) && + ((rootDomain = getPMRootDomain()) == this)) { + rootDomain->tracePoint( IS_POWER_DROP ? + kIOPMTracePointSleepPowerPlaneDrivers : + kIOPMTracePointWakePowerPlaneDrivers ); + } + + if (fStrictTreeOrder) { + children = OSArray::withCapacity(8); + } + + // Sum child power consumption in notifyChild() + fHeadNotePowerArrayEntry->staticPower = 0; + + iter = getChildIterator(gIOPowerPlane); + if (iter) { + while ((next = iter->getNextObject())) { + if ((connection = OSDynamicCast(IOPowerConnection, next))) { + if (connection->getReadyFlag() == false) { + PM_LOG3("[%s] %s: connection not ready\n", + getName(), __FUNCTION__); + continue; + } + + // Mechanism to postpone the did-change notification to + // certain power children to order those children last. + // Cannot be used together with strict tree ordering. + + if (!fIsPreChange && + connection->delayChildNotification && + getPMRootDomain()->shouldDelayChildNotification(this)) { + if (!children) { + children = OSArray::withCapacity(8); + if (children) { + delayNotify = true; + } + } + if (delayNotify) { + children->setObject( connection ); + continue; + } + } + + if (!delayNotify && children) { + children->setObject( connection ); + } else { + notifyChild( connection ); + } + } + } + iter->release(); + } + + if (children && (children->getCount() == 0)) { + children->release(); + children = NULL; + } + if (children) { + assert(fNotifyChildArray == NULL); + fNotifyChildArray = children; + MS_PUSH(fMachineState); + + if (delayNotify) { + // Block until all non-delayed children have acked their + // notification. Then notify the remaining delayed child + // in the array. This is used to hold off graphics child + // notification while the rest of the system powers up. + // If a hid tickle arrives during this time, the delayed + // children are immediately notified and root domain will + // not clamp power for dark wake. + + fMachineState = kIOPM_NotifyChildrenDelayed; + PM_LOG2("%s: %d children in delayed array\n", + getName(), children->getCount()); + } else { + // Child array created to support strict notification order. + // Notify children in the array one at a time. + + fMachineState = kIOPM_NotifyChildrenOrdered; + } + } +} + +//********************************************************************************* +// [private] notifyChildrenOrdered +//********************************************************************************* + +void +IOService::notifyChildrenOrdered( void ) +{ + PM_ASSERT_IN_GATE(); + assert(fNotifyChildArray); + assert(fMachineState == kIOPM_NotifyChildrenOrdered); + + // Notify one child, wait for it to ack, then repeat for next child. + // This is a workaround for some drivers with multiple instances at + // the same branch in the power tree, but the driver is slow to power + // up unless the tree ordering is observed. Problem observed only on + // system wake, not on system sleep. + // + // We have the ability to power off in reverse child index order. + // That works nicely on some machines, but not on all HW configs. + + if (fNotifyChildArray->getCount()) { + IOPowerConnection * connection; + connection = (IOPowerConnection *) fNotifyChildArray->getObject(0); + notifyChild( connection ); + fNotifyChildArray->removeObject(0); + } else { + fNotifyChildArray->release(); + fNotifyChildArray = NULL; + + MS_POP(); // pushed by notifyChildren() + } +} + +//********************************************************************************* +// [private] notifyChildrenDelayed +//********************************************************************************* + +void +IOService::notifyChildrenDelayed( void ) +{ + IOPowerConnection * connection; + + PM_ASSERT_IN_GATE(); + assert(fNotifyChildArray); + assert(fMachineState == kIOPM_NotifyChildrenDelayed); + + // Wait after all non-delayed children and interested drivers have ack'ed, + // then notify all delayed children. If notify delay is canceled, child + // acks may be outstanding with PM blocked on fHeadNotePendingAcks != 0. + // But the handling for either case is identical. + + for (int i = 0;; i++) { + connection = (IOPowerConnection *) fNotifyChildArray->getObject(i); + if (!connection) { + break; + } + + notifyChild( connection ); + } + + PM_LOG2("%s: notified delayed children\n", getName()); + fNotifyChildArray->release(); + fNotifyChildArray = NULL; + + MS_POP(); // pushed by notifyChildren() +} + +//********************************************************************************* +// [private] notifyAll +//********************************************************************************* + +IOReturn +IOService::notifyAll( uint32_t nextMS ) +{ + // Save the machine state to be restored by notifyInterestedDriversDone() + + PM_ASSERT_IN_GATE(); + MS_PUSH(nextMS); + fMachineState = kIOPM_DriverThreadCallDone; + fDriverCallReason = fIsPreChange ? + kDriverCallInformPreChange : kDriverCallInformPostChange; + + if (!notifyInterestedDrivers()) { + notifyInterestedDriversDone(); + } + + return IOPMWillAckLater; +} + +//********************************************************************************* +// [private, static] pmDriverCallout +// +// Thread call context +//********************************************************************************* + +IOReturn +IOService::actionDriverCalloutDone( + OSObject * target, + void * arg0, void * arg1, + void * arg2, void * arg3 ) +{ + IOServicePM * pwrMgt = (IOServicePM *) arg0; + + assert( fDriverCallBusy ); + fDriverCallBusy = false; + + assert(gIOPMWorkQueue); + gIOPMWorkQueue->signalWorkAvailable(); + + return kIOReturnSuccess; +} + +void +IOService::pmDriverCallout( IOService * from ) +{ + assert(from); + switch (from->fDriverCallReason) { + case kDriverCallSetPowerState: + from->driverSetPowerState(); + break; + + case kDriverCallInformPreChange: + case kDriverCallInformPostChange: + from->driverInformPowerChange(); + break; + + case kRootDomainInformPreChange: + getPMRootDomain()->willNotifyPowerChildren(from->fHeadNotePowerState); + break; + + default: + panic("IOService::pmDriverCallout bad machine state %x", + from->fDriverCallReason); + } + + gIOPMWorkLoop->runAction(actionDriverCalloutDone, + /* target */ from, + /* arg0 */ (void *) from->pwrMgt ); +} + +//********************************************************************************* +// [private] driverSetPowerState +// +// Thread call context +//********************************************************************************* + +void +IOService::driverSetPowerState( void ) +{ + IOPMPowerStateIndex powerState; + DriverCallParam * param; + IOPMDriverCallEntry callEntry; + AbsoluteTime end; + IOReturn result; + uint32_t oldPowerState = getPowerState(); + + assert( fDriverCallBusy ); + assert( fDriverCallParamPtr ); + assert( fDriverCallParamCount == 1 ); + + param = (DriverCallParam *) fDriverCallParamPtr; + powerState = fHeadNotePowerState; + + if (assertPMDriverCall(&callEntry, kIOPMDriverCallMethodSetPowerState)) { + OUR_PMLogFuncStart(kPMLogProgramHardware, (uintptr_t) this, powerState); + clock_get_uptime(&fDriverCallStartTime); + result = fControllingDriver->setPowerState( powerState, this ); + clock_get_uptime(&end); + OUR_PMLogFuncEnd(kPMLogProgramHardware, (uintptr_t) this, (UInt32) result); + + deassertPMDriverCall(&callEntry); + + // Record the most recent max power state residency timings. + // Use with DeviceActiveTimestamp to diagnose tickle issues. + if (powerState == fHighestPowerState) { + fMaxPowerStateEntryTime = end; + } else if (oldPowerState == fHighestPowerState) { + fMaxPowerStateExitTime = end; + } + + if (result < 0) { + PM_LOG("%s::setPowerState(%p, %lu -> %lu) returned 0x%x\n", + fName, OBFUSCATE(this), fCurrentPowerState, powerState, result); + } + + + if ((result == IOPMAckImplied) || (result < 0)) { + uint64_t nsec; + + SUB_ABSOLUTETIME(&end, &fDriverCallStartTime); + absolutetime_to_nanoseconds(end, &nsec); + if (nsec > LOG_SETPOWER_TIMES) { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsDriverPSChangeSlow, + fName, kDriverCallSetPowerState, NS_TO_MS(nsec), getRegistryEntryID(), + NULL, powerState); + } + } + } else { + result = kIOPMAckImplied; + } + + param->Result = result; +} + +//********************************************************************************* +// [private] driverInformPowerChange +// +// Thread call context +//********************************************************************************* + +void +IOService::driverInformPowerChange( void ) +{ + IOPMinformee * informee; + IOService * driver; + DriverCallParam * param; + IOPMDriverCallEntry callEntry; + IOPMPowerFlags powerFlags; + IOPMPowerStateIndex powerState; + AbsoluteTime end; + IOReturn result; + IOItemCount count; + IOOptionBits callMethod = (fDriverCallReason == kDriverCallInformPreChange) ? + kIOPMDriverCallMethodWillChange : kIOPMDriverCallMethodDidChange; + + assert( fDriverCallBusy ); + assert( fDriverCallParamPtr ); + assert( fDriverCallParamCount ); + + param = (DriverCallParam *) fDriverCallParamPtr; + count = fDriverCallParamCount; + + powerFlags = fHeadNotePowerArrayEntry->capabilityFlags; + powerState = fHeadNotePowerState; + + for (IOItemCount i = 0; i < count; i++) { + informee = (IOPMinformee *) param->Target; + driver = informee->whatObject; + + if (assertPMDriverCall(&callEntry, callMethod, informee)) { + if (fDriverCallReason == kDriverCallInformPreChange) { + OUR_PMLogFuncStart(kPMLogInformDriverPreChange, (uintptr_t) this, powerState); + clock_get_uptime(&informee->startTime); + result = driver->powerStateWillChangeTo(powerFlags, powerState, this); + clock_get_uptime(&end); + OUR_PMLogFuncEnd(kPMLogInformDriverPreChange, (uintptr_t) this, result); + } else { + OUR_PMLogFuncStart(kPMLogInformDriverPostChange, (uintptr_t) this, powerState); + clock_get_uptime(&informee->startTime); + result = driver->powerStateDidChangeTo(powerFlags, powerState, this); + clock_get_uptime(&end); + OUR_PMLogFuncEnd(kPMLogInformDriverPostChange, (uintptr_t) this, result); + } - submitPMRequest( request ); - return IOPMNoErr; -} + deassertPMDriverCall(&callEntry); -//********************************************************************************* -// [private] handlePowerOverrideChanged -//********************************************************************************* -void IOService::handlePowerOverrideChanged ( IOPMRequest * request ) -{ - PM_ASSERT_IN_GATE(); - if (request->getType() == kIOPMRequestTypePowerOverrideOnPriv) - { - OUR_PMLog(kPMLogOverrideOn, 0, 0); - fDeviceOverrides = true; - } - else - { - OUR_PMLog(kPMLogOverrideOff, 0, 0); - fDeviceOverrides = false; - } + if ((result == IOPMAckImplied) || (result < 0)) { + uint64_t nsec; - if (fControllingDriver && inPlane(gIOPowerPlane) && fParentsKnowState) - { - computeDesiredState(); - changeState(); + SUB_ABSOLUTETIME(&end, &informee->startTime); + absolutetime_to_nanoseconds(end, &nsec); + if (nsec > LOG_SETPOWER_TIMES) { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsDriverPSChangeSlow, driver->getName(), + fDriverCallReason, NS_TO_MS(nsec), driver->getRegistryEntryID(), + NULL, powerState); + } + } + } else { + result = kIOPMAckImplied; + } + + param->Result = result; + param++; } } //********************************************************************************* -// [private] enqueuePowerChange +// [private] notifyChild +// +// Notify a power domain child of an upcoming power change. +// If the object acknowledges the current change, we return TRUE. //********************************************************************************* -IOReturn IOService::enqueuePowerChange ( - unsigned long flags, - unsigned long whatStateOrdinal, - unsigned long domainState, - IOPowerConnection * whichParent, - unsigned long singleParentState ) +bool +IOService::notifyChild( IOPowerConnection * theNub ) { - changeNoteItem changeNote; - IOPMPowerState * powerStatePtr; + IOReturn ret = IOPMAckImplied; + unsigned long childPower; + IOService * theChild; + IOPMRequest * childRequest; + IOPMPowerChangeFlags requestArg2; + int requestType; PM_ASSERT_IN_GATE(); - assert( fMachineState == kIOPM_Finished ); - assert( whatStateOrdinal < fNumberOfPowerStates ); - - if (whatStateOrdinal >= fNumberOfPowerStates) - return IOPMAckImplied; + theChild = (IOService *)(theNub->copyChildEntry(gIOPowerPlane)); + if (!theChild) { + return true; + } - powerStatePtr = &fPowerStates[whatStateOrdinal]; + // Unless the child handles the notification immediately and returns + // kIOPMAckImplied, we'll be awaiting their acknowledgement later. + fHeadNotePendingAcks++; + theNub->setAwaitingAck(true); - // Initialize the change note - changeNote.flags = flags; - changeNote.newStateNumber = whatStateOrdinal; - changeNote.outputPowerCharacter = powerStatePtr->outputPowerCharacter; - changeNote.inputPowerRequirement = powerStatePtr->inputPowerRequirement; - changeNote.capabilityFlags = powerStatePtr->capabilityFlags; - changeNote.parent = NULL; + requestArg2 = fHeadNoteChangeFlags; + if (StateOrder(fHeadNotePowerState) < StateOrder(fCurrentPowerState)) { + requestArg2 |= kIOPMDomainPowerDrop; + } - if (flags & IOPMParentInitiated ) - { - changeNote.domainState = domainState; - changeNote.parent = whichParent; - changeNote.singleParentState = singleParentState; - } + requestType = fIsPreChange ? + kIOPMRequestTypePowerDomainWillChange : + kIOPMRequestTypePowerDomainDidChange; - if (flags & IOPMWeInitiated ) - { - start_our_change(&changeNote); - return 0; - } - else - { - return start_parent_change(&changeNote); + childRequest = acquirePMRequest( theChild, requestType ); + if (childRequest) { + theNub->retain(); + childRequest->fArg0 = (void *) fHeadNotePowerArrayEntry->outputPowerFlags; + childRequest->fArg1 = (void *) theNub; + childRequest->fArg2 = (void *)(uintptr_t) requestArg2; + theChild->submitPMRequest( childRequest ); + ret = IOPMWillAckLater; + } else { + ret = IOPMAckImplied; + fHeadNotePendingAcks--; + theNub->setAwaitingAck(false); + childPower = theChild->currentPowerConsumption(); + if (childPower == kIOPMUnknown) { + fHeadNotePowerArrayEntry->staticPower = kIOPMUnknown; + } else { + if (fHeadNotePowerArrayEntry->staticPower != kIOPMUnknown) { + fHeadNotePowerArrayEntry->staticPower += childPower; + } + } } + + theChild->release(); + return IOPMAckImplied == ret; } //********************************************************************************* -// [private] notifyInterestedDrivers +// [private] notifyControllingDriver //********************************************************************************* -bool IOService::notifyInterestedDrivers ( void ) +bool +IOService::notifyControllingDriver( void ) { - IOPMinformee * informee; - IOPMinformeeList * list = fInterestedDrivers; - DriverCallParam * param; - IOItemCount count; + DriverCallParam * param; PM_ASSERT_IN_GATE(); - assert( fDriverCallBusy == false ); - assert( fDriverCallParamCount == 0 ); - assert( fHeadNotePendingAcks == 0 ); + assert( fDriverCallParamCount == 0 ); + assert( fControllingDriver ); - count = list->numberOfItems(); - if (!count) - goto done; // no interested drivers + if (fInitialSetPowerState) { + fInitialSetPowerState = false; + fHeadNoteChangeFlags |= kIOPMInitialPowerChange; - // Allocate an array of interested drivers and their return values - // for the callout thread. Everything else is still "owned" by the - // PM work loop, which can run to process acknowledgePowerChange() - // responses. + // Driver specified flag to skip the inital setPowerState() + if (fHeadNotePowerArrayEntry->capabilityFlags & kIOPMInitialDeviceState) { + return false; + } + } param = (DriverCallParam *) fDriverCallParamPtr; - if (count > fDriverCallParamSlots) - { - if (fDriverCallParamSlots) - { - assert(fDriverCallParamPtr); - IODelete(fDriverCallParamPtr, DriverCallParam, fDriverCallParamSlots); - fDriverCallParamPtr = 0; - fDriverCallParamSlots = 0; + if (!param) { + param = IONew(DriverCallParam, 1); + if (!param) { + return false; // no memory } - - param = IONew(DriverCallParam, count); - if (!param) - goto done; // no memory - fDriverCallParamPtr = (void *) param; - fDriverCallParamSlots = count; - } - - informee = list->firstInList(); - assert(informee); - for (IOItemCount i = 0; i < count; i++) - { - informee->timer = -1; - param[i].Target = informee; - informee->retain(); - informee = list->nextInList( informee ); + fDriverCallParamSlots = 1; } - fDriverCallParamCount = count; - fHeadNotePendingAcks = count; - - // Machine state will be blocked pending callout thread completion. + param->Target = fControllingDriver; + fDriverCallParamCount = 1; + fDriverTimer = -1; - PM_LOCK(); + // Block state machine and wait for callout completion. + assert(!fDriverCallBusy); fDriverCallBusy = true; - PM_UNLOCK(); thread_call_enter( fDriverCallEntry ); - return true; -done: - // no interested drivers or did not schedule callout thread due to error. - return false; + return true; } //********************************************************************************* -// [private] notifyInterestedDriversDone +// [private] notifyControllingDriverDone //********************************************************************************* -void IOService::notifyInterestedDriversDone ( void ) +void +IOService::notifyControllingDriverDone( void ) { - IOPMinformee * informee; - IOItemCount count; - DriverCallParam * param; - IOReturn result; + DriverCallParam * param; + IOReturn result; PM_ASSERT_IN_GATE(); param = (DriverCallParam *) fDriverCallParamPtr; - count = fDriverCallParamCount; assert( fDriverCallBusy == false ); assert( fMachineState == kIOPM_DriverThreadCallDone ); - if (param && count) - { - for (IOItemCount i = 0; i < count; i++, param++) - { - informee = (IOPMinformee *) param->Target; - result = param->Result; + if (param && fDriverCallParamCount) { + assert(fDriverCallParamCount == 1); - if ((result == IOPMAckImplied) || (result < 0)) - { - // child return IOPMAckImplied - informee->timer = 0; - fHeadNotePendingAcks--; - } - else if (informee->timer) - { - assert(informee->timer == -1); + // the return value from setPowerState() + result = param->Result; - // Driver has not acked, and has returned a positive result. - // Enforce a minimum permissible timeout value. - // Make the min value large enough so timeout is less likely - // to occur if a driver misinterpreted that the return value - // should be in microsecond units. And make it large enough - // to be noticeable if a driver neglects to ack. + if ((result == IOPMAckImplied) || (result < 0)) { + fDriverTimer = 0; + } else if (fDriverTimer) { + assert(fDriverTimer == -1); - if (result < kMinAckTimeoutTicks) - result = kMinAckTimeoutTicks; + // Driver has not acked, and has returned a positive result. + // Enforce a minimum permissible timeout value. + // Make the min value large enough so timeout is less likely + // to occur if a driver misinterpreted that the return value + // should be in microsecond units. And make it large enough + // to be noticeable if a driver neglects to ack. - informee->timer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1; + if (result < kMinAckTimeoutTicks) { + result = kMinAckTimeoutTicks; } - // else, child has already acked or driver has removed interest, - // and head_note_pendingAcks decremented. - // informee may have been removed from the interested drivers list, - // thus the informee must be retained across the callout. - informee->release(); + fDriverTimer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1; } + // else, child has already acked and driver_timer reset to 0. fDriverCallParamCount = 0; - if ( fHeadNotePendingAcks ) - { + if (fDriverTimer) { OUR_PMLog(kPMLogStartAckTimer, 0, 0); start_ack_timer(); + getPMRootDomain()->reset_watchdog_timer(this, result / USEC_PER_SEC + 1); } } - // Hop back to original machine state path (from notifyAll) - fMachineState = fNextMachineState; - - notifyChildren(); + MS_POP(); // pushed by OurChangeSetPowerState() + fIsPreChange = false; } //********************************************************************************* -// [private] notifyChildren +// [private] all_done +// +// A power change is done. //********************************************************************************* -void IOService::notifyChildren ( void ) -{ - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - OSArray * children = 0; +void +IOService::all_done( void ) +{ + IOPMPowerStateIndex prevPowerState; + const IOPMPSEntry * powerStatePtr; + IOPMDriverCallEntry callEntry; + uint32_t prevMachineState = fMachineState; + bool actionCalled = false; + uint64_t ts; + + fMachineState = kIOPM_Finished; + + if ((fHeadNoteChangeFlags & kIOPMSynchronize) && + ((prevMachineState == kIOPM_Finished) || + (prevMachineState == kIOPM_SyncFinish))) { + // Sync operation and no power change occurred. + // Do not inform driver and clients about this request completion, + // except for the originator (root domain). + + PM_ACTION_2(actionPowerChangeDone, + fHeadNotePowerState, fHeadNoteChangeFlags); + + if (getPMRequestType() == kIOPMRequestTypeSynchronizePowerTree) { + powerChangeDone(fCurrentPowerState); + } else if (fAdvisoryTickleUsed) { + // Not root domain and advisory tickle target. + // Re-adjust power after power tree sync at the 'did' pass + // to recompute desire and adjust power state between dark + // and full wake transitions. Root domain is responsible + // for calling setAdvisoryTickleEnable() before starting + // the kIOPMSynchronize power change. + + if (!fAdjustPowerScheduled && + (fHeadNoteChangeFlags & kIOPMDomainDidChange)) { + IOPMRequest * request; + request = acquirePMRequest( this, kIOPMRequestTypeAdjustPowerState ); + if (request) { + submitPMRequest( request ); + fAdjustPowerScheduled = true; + } + } + } - if (fStrictTreeOrder) - children = OSArray::withCapacity(8); + return; + } - // Sum child power consumption in notifyChild() - fPowerStates[fHeadNoteState].staticPower = 0; - - iter = getChildIterator(gIOPowerPlane); - if ( iter ) - { - while ((next = iter->getNextObject())) - { - if ((connection = OSDynamicCast(IOPowerConnection, next))) - { - if (connection->getReadyFlag() == false) - { - PM_CONNECT("[%s] %s: connection not ready\n", - getName(), __FUNCTION__); - continue; - } + // our power change + if (fHeadNoteChangeFlags & kIOPMSelfInitiated) { + // power state changed + if ((fHeadNoteChangeFlags & kIOPMNotDone) == 0) { + trackSystemSleepPreventers( + fCurrentPowerState, fHeadNotePowerState, fHeadNoteChangeFlags); - if (children) - children->setObject( connection ); - else - notifyChild( connection, - fDriverCallReason == kDriverCallInformPreChange ); + // we changed, tell our parent + requestDomainPower(fHeadNotePowerState); + + // yes, did power raise? + if (StateOrder(fCurrentPowerState) < StateOrder(fHeadNotePowerState)) { + // yes, inform clients and apps + tellChangeUp(fHeadNotePowerState); + } + prevPowerState = fCurrentPowerState; + // either way + fCurrentPowerState = fHeadNotePowerState; + PM_LOCK(); + if (fReportBuf) { + ts = mach_absolute_time(); + STATEREPORT_SETSTATE(fReportBuf, fCurrentPowerState, ts); + } + PM_UNLOCK(); +#if PM_VARS_SUPPORT + fPMVars->myCurrentState = fCurrentPowerState; +#endif + OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, prevPowerState); + PM_ACTION_2(actionPowerChangeDone, + fHeadNotePowerState, fHeadNoteChangeFlags); + actionCalled = true; + + powerStatePtr = &fPowerStates[fCurrentPowerState]; + fCurrentCapabilityFlags = powerStatePtr->capabilityFlags; + if (fCurrentCapabilityFlags & kIOPMStaticPowerValid) { + fCurrentPowerConsumption = powerStatePtr->staticPower; } - } - iter->release(); - } - if (children) - { - if (children->getCount() == 0) - { - children->release(); - children = 0; + if (fHeadNoteChangeFlags & kIOPMRootChangeDown) { + // Bump tickle generation count once the entire tree is down + gIOPMTickleGeneration++; + } + + // inform subclass policy-maker + if (fPCDFunctionOverride && fParentsKnowState && + assertPMDriverCall(&callEntry, kIOPMDriverCallMethodChangeDone, NULL, kIOPMDriverCallNoInactiveCheck)) { + powerChangeDone(prevPowerState); + deassertPMDriverCall(&callEntry); + } + } else if (getPMRequestType() == kIOPMRequestTypeRequestPowerStateOverride) { + // changePowerStateWithOverrideTo() was cancelled + fOverrideMaxPowerState = kIOPMPowerStateMax; } - else - { - assert(fNotifyChildArray == 0); - fNotifyChildArray = children; - fNextMachineState = fMachineState; - fMachineState = kIOPM_NotifyChildrenDone; - } } -} -//********************************************************************************* -// [private] notifyChildrenDone -//********************************************************************************* + // parent-initiated power change + if (fHeadNoteChangeFlags & kIOPMParentInitiated) { + if (fHeadNoteChangeFlags & kIOPMRootChangeDown) { + ParentChangeRootChangeDown(); + } -void IOService::notifyChildrenDone ( void ) -{ - PM_ASSERT_IN_GATE(); - assert(fNotifyChildArray); - assert(fMachineState == kIOPM_NotifyChildrenDone); + // power state changed + if ((fHeadNoteChangeFlags & kIOPMNotDone) == 0) { + trackSystemSleepPreventers( + fCurrentPowerState, fHeadNotePowerState, fHeadNoteChangeFlags); - // Interested drivers have all acked (if any), ack timer stopped. - // Notify one child, wait for it's ack, then repeat for next child. - // This is a workaround for some drivers with multiple instances at - // the same branch in the power tree, but the driver is slow to power - // up unless the tree ordering is observed. Problem observed only on - // system wake, not on system sleep. - // - // We have the ability to power off in reverse child index order. - // That works nicely on some machines, but not on all HW configs. + // did power raise? + if (StateOrder(fCurrentPowerState) < StateOrder(fHeadNotePowerState)) { + // yes, inform clients and apps + tellChangeUp(fHeadNotePowerState); + } + // either way + prevPowerState = fCurrentPowerState; + fCurrentPowerState = fHeadNotePowerState; + PM_LOCK(); + if (fReportBuf) { + ts = mach_absolute_time(); + STATEREPORT_SETSTATE(fReportBuf, fCurrentPowerState, ts); + } + PM_UNLOCK(); +#if PM_VARS_SUPPORT + fPMVars->myCurrentState = fCurrentPowerState; +#endif - if (fNotifyChildArray->getCount()) - { - IOPowerConnection * connection; - connection = (IOPowerConnection *) fNotifyChildArray->getObject(0); - fNotifyChildArray->removeObject(0); - notifyChild( connection, fDriverCallReason == kDriverCallInformPreChange ); + OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, prevPowerState); + PM_ACTION_2(actionPowerChangeDone, + fHeadNotePowerState, fHeadNoteChangeFlags); + actionCalled = true; + + powerStatePtr = &fPowerStates[fCurrentPowerState]; + fCurrentCapabilityFlags = powerStatePtr->capabilityFlags; + if (fCurrentCapabilityFlags & kIOPMStaticPowerValid) { + fCurrentPowerConsumption = powerStatePtr->staticPower; + } + + // inform subclass policy-maker + if (fPCDFunctionOverride && fParentsKnowState && + assertPMDriverCall(&callEntry, kIOPMDriverCallMethodChangeDone, NULL, kIOPMDriverCallNoInactiveCheck)) { + powerChangeDone(prevPowerState); + deassertPMDriverCall(&callEntry); + } + } } - else - { - fNotifyChildArray->release(); - fNotifyChildArray = 0; - fMachineState = fNextMachineState; + + // When power rises enough to satisfy the tickle's desire for more power, + // the condition preventing idle-timer from dropping power is removed. + + if (StateOrder(fCurrentPowerState) >= StateOrder(fIdleTimerMinPowerState)) { + fIdleTimerMinPowerState = kPowerStateZero; + } + + if (!actionCalled) { + PM_ACTION_2(actionPowerChangeDone, + fHeadNotePowerState, fHeadNoteChangeFlags); } } +// MARK: - +// MARK: Power Change Initiated by Driver + //********************************************************************************* -// [private] notifyAll +// [private] OurChangeStart +// +// Begin the processing of a power change initiated by us. //********************************************************************************* -IOReturn IOService::notifyAll ( bool is_prechange ) +void +IOService::OurChangeStart( void ) { - // Save the next machine_state to be restored by notifyInterestedDriversDone() - PM_ASSERT_IN_GATE(); - fNextMachineState = fMachineState; - fMachineState = kIOPM_DriverThreadCallDone; - fDriverCallReason = is_prechange ? - kDriverCallInformPreChange : kDriverCallInformPostChange; + OUR_PMLog( kPMLogStartDeviceChange, fHeadNotePowerState, fCurrentPowerState ); - if (!notifyInterestedDrivers()) - notifyInterestedDriversDone(); + // fMaxPowerState is our maximum possible power state based on the current + // power state of our parents. If we are trying to raise power beyond the + // maximum, send an async request for more power to all parents. - return IOPMWillAckLater; + if (!IS_PM_ROOT && (StateOrder(fMaxPowerState) < StateOrder(fHeadNotePowerState))) { + fHeadNoteChangeFlags |= kIOPMNotDone; + requestDomainPower(fHeadNotePowerState); + OurChangeFinish(); + return; + } + + // Redundant power changes skips to the end of the state machine. + + if (!fInitialPowerChange && (fHeadNotePowerState == fCurrentPowerState)) { + OurChangeFinish(); + return; + } + fInitialPowerChange = false; + + // Change started, but may not complete... + // Can be canceled (power drop) or deferred (power rise). + + PM_ACTION_2(actionPowerChangeStart, fHeadNotePowerState, &fHeadNoteChangeFlags); + + // Two separate paths, depending if power is being raised or lowered. + // Lowering power is subject to approval by clients of this service. + + if (IS_POWER_DROP) { + fDoNotPowerDown = false; + + // Ask for persmission to drop power state + fMachineState = kIOPM_OurChangeTellClientsPowerDown; + fOutOfBandParameter = kNotifyApps; + askChangeDown(fHeadNotePowerState); + } else { + // This service is raising power and parents are able to support the + // new power state. However a parent may have already committed to + // drop power, which might force this object to temporarily drop power. + // This results in "oscillations" before the state machines converge + // to a steady state. + // + // To prevent this, a child must make a power reservation against all + // parents before raising power. If the reservation fails, indicating + // that the child will be unable to sustain the higher power state, + // then the child will signal the parent to adjust power, and the child + // will defer its power change. + + IOReturn ret; + + // Reserve parent power necessary to achieve fHeadNotePowerState. + ret = requestDomainPower( fHeadNotePowerState, kReserveDomainPower ); + if (ret != kIOReturnSuccess) { + // Reservation failed, defer power rise. + fHeadNoteChangeFlags |= kIOPMNotDone; + OurChangeFinish(); + return; + } + + OurChangeTellCapabilityWillChange(); + } } //********************************************************************************* -// [private, static] pmDriverCallout +// [private] requestDomainPowerApplier // -// Thread call context +// Call requestPowerDomainState() on all power parents. //********************************************************************************* -IOReturn IOService::actionDriverCalloutDone ( - OSObject * target, - void * arg0, void * arg1, - void * arg2, void * arg3 ) -{ - IOServicePM * pwrMgt = (IOServicePM *) arg0; - - PM_LOCK(); - fDriverCallBusy = false; - PM_UNLOCK(); - - if (gIOPMReplyQueue) - gIOPMReplyQueue->signalWorkAvailable(); - - return kIOReturnSuccess; -} +struct IOPMRequestDomainPowerContext { + IOService * child; // the requesting child + IOPMPowerFlags requestPowerFlags;// power flags requested by child +}; -void IOService::pmDriverCallout ( IOService * from ) +static void +requestDomainPowerApplier( + IORegistryEntry * entry, + void * inContext ) { - assert(from); - switch (from->fDriverCallReason) - { - case kDriverCallSetPowerState: - from->driverSetPowerState(); - break; + IOPowerConnection * connection; + IOService * parent; + IOPMRequestDomainPowerContext * context; - case kDriverCallInformPreChange: - case kDriverCallInformPostChange: - from->driverInformPowerChange(); - break; + if ((connection = OSDynamicCast(IOPowerConnection, entry)) == NULL) { + return; + } + parent = (IOService *) connection->copyParentEntry(gIOPowerPlane); + if (!parent) { + return; + } - default: - IOPanic("IOService::pmDriverCallout bad machine state"); + assert(inContext); + context = (IOPMRequestDomainPowerContext *) inContext; + + if (connection->parentKnowsState() && connection->getReadyFlag()) { + parent->requestPowerDomainState( + context->requestPowerFlags, + connection, + IOPMLowestState); } - gIOPMWorkLoop->runAction(actionDriverCalloutDone, - /* target */ from, - /* arg0 */ (void *) from->pwrMgt ); + parent->release(); } //********************************************************************************* -// [private] driverSetPowerState +// [private] requestDomainPower // -// Thread call context +// Called by a power child to broadcast its desired power state to all parents. +// If the child self-initiates a power change, it must call this function to +// allow its parents to adjust power state. //********************************************************************************* -void IOService::driverSetPowerState ( void ) +IOReturn +IOService::requestDomainPower( + IOPMPowerStateIndex ourPowerState, + IOOptionBits options ) { - IOService * driver; - unsigned long powerState; - DriverCallParam * param; - IOReturn result; - AbsoluteTime end; + IOPMPowerFlags requestPowerFlags; + IOPMPowerStateIndex maxPowerState; + IOPMRequestDomainPowerContext context; - assert( fDriverCallBusy ); - param = (DriverCallParam *) fDriverCallParamPtr; - assert( param ); - assert( fDriverCallParamCount == 1 ); + PM_ASSERT_IN_GATE(); + assert(ourPowerState < fNumberOfPowerStates); + if (ourPowerState >= fNumberOfPowerStates) { + return kIOReturnBadArgument; + } + if (IS_PM_ROOT) { + return kIOReturnSuccess; + } - driver = fControllingDriver; - powerState = fHeadNoteState; + // Fetch our input power flags for the requested power state. + // Parent request is stated in terms of required power flags. - if (!fWillPMStop) - { - OUR_PMLog( kPMLogProgramHardware, (UInt32) this, powerState); - clock_get_uptime(&fDriverCallStartTime); - result = driver->setPowerState( powerState, this ); - clock_get_uptime(&end); - OUR_PMLog((UInt32) -kPMLogProgramHardware, (UInt32) this, (UInt32) result); - -#if LOG_SETPOWER_TIMES - if ((result == IOPMAckImplied) || (result < 0)) - { - uint64_t nsec; - - SUB_ABSOLUTETIME(&end, &fDriverCallStartTime); - absolutetime_to_nanoseconds(end, &nsec); - if (nsec > LOG_SETPOWER_TIMES) - PM_DEBUG("%s::setPowerState(%p, %lu -> %lu) took %d ms\n", - fName, this, fCurrentPowerState, powerState, NS_TO_MS(nsec)); - } -#endif + requestPowerFlags = fPowerStates[ourPowerState].inputPowerFlags; + + // Disregard the "previous request" for power reservation. + + if (((options & kReserveDomainPower) == 0) && + (fPreviousRequestPowerFlags == requestPowerFlags)) { + // skip if domain already knows our requirements + goto done; + } + fPreviousRequestPowerFlags = requestPowerFlags; + + // The results will be collected by fHeadNoteDomainTargetFlags + context.child = this; + context.requestPowerFlags = requestPowerFlags; + fHeadNoteDomainTargetFlags = 0; + applyToParents(requestDomainPowerApplier, &context, gIOPowerPlane); + + if (options & kReserveDomainPower) { + maxPowerState = fControllingDriver->maxCapabilityForDomainState( + fHeadNoteDomainTargetFlags ); + + if (StateOrder(maxPowerState) < StateOrder(ourPowerState)) { + PM_LOG1("%s: power desired %u:0x%x got %u:0x%x\n", + getName(), + (uint32_t) ourPowerState, (uint32_t) requestPowerFlags, + (uint32_t) maxPowerState, (uint32_t) fHeadNoteDomainTargetFlags); + return kIOReturnNoPower; + } } - else - result = kIOPMAckImplied; - param->Result = result; +done: + return kIOReturnSuccess; } //********************************************************************************* -// [private] driverInformPowerChange -// -// Thread call context +// [private] OurSyncStart //********************************************************************************* -void IOService::driverInformPowerChange ( void ) +void +IOService::OurSyncStart( void ) { - IOItemCount count; - IOPMinformee * informee; - IOService * driver; - IOReturn result; - IOPMPowerFlags powerFlags; - unsigned long powerState; - DriverCallParam * param; - AbsoluteTime end; - - assert( fDriverCallBusy ); - param = (DriverCallParam *) fDriverCallParamPtr; - count = fDriverCallParamCount; - assert( count && param ); + PM_ASSERT_IN_GATE(); - powerFlags = fHeadNoteCapabilityFlags; - powerState = fHeadNoteState; + if (fInitialPowerChange) { + return; + } - for (IOItemCount i = 0; i < count; i++) - { - informee = (IOPMinformee *) param->Target; - driver = informee->whatObject; + PM_ACTION_2(actionPowerChangeStart, fHeadNotePowerState, &fHeadNoteChangeFlags); - if (!fWillPMStop && informee->active) - { - if (fDriverCallReason == kDriverCallInformPreChange) - { - OUR_PMLog(kPMLogInformDriverPreChange, (UInt32) this, powerState); - clock_get_uptime(&informee->startTime); - result = driver->powerStateWillChangeTo(powerFlags, powerState, this); - clock_get_uptime(&end); - OUR_PMLog((UInt32)-kPMLogInformDriverPreChange, (UInt32) this, result); - } - else - { - OUR_PMLog(kPMLogInformDriverPostChange, (UInt32) this, powerState); - clock_get_uptime(&informee->startTime); - result = driver->powerStateDidChangeTo(powerFlags, powerState, this); - clock_get_uptime(&end); - OUR_PMLog((UInt32)-kPMLogInformDriverPostChange, (UInt32) this, result); - } + if (fHeadNoteChangeFlags & kIOPMNotDone) { + OurChangeFinish(); + return; + } -#if LOG_SETPOWER_TIMES - if ((result == IOPMAckImplied) || (result < 0)) - { - uint64_t nsec; - - SUB_ABSOLUTETIME(&end, &informee->startTime); - absolutetime_to_nanoseconds(end, &nsec); - if (nsec > LOG_SETPOWER_TIMES) - PM_DEBUG("%s::powerState%sChangeTo(%p, %s, %lu -> %lu) took %d ms\n", - driver->getName(), - (fDriverCallReason == kDriverCallInformPreChange) ? "Will" : "Did", - driver, fName, fCurrentPowerState, powerState, NS_TO_MS(nsec)); - } -#endif - } - else - result = kIOPMAckImplied; + if (fHeadNoteChangeFlags & kIOPMSyncTellPowerDown) { + fDoNotPowerDown = false; - param->Result = result; - param++; + // Ask for permission to drop power state + fMachineState = kIOPM_SyncTellClientsPowerDown; + fOutOfBandParameter = kNotifyApps; + askChangeDown(fHeadNotePowerState); + } else { + // Only inform capability app and clients. + tellSystemCapabilityChange( kIOPM_SyncNotifyWillChange ); } } //********************************************************************************* -// [private] notifyChild +// [private] OurChangeTellClientsPowerDown // -// Notify a power domain child of an upcoming power change. -// If the object acknowledges the current change, we return TRUE. +// All applications and kernel clients have acknowledged our permission to drop +// power. Here we notify them that we will lower the power and wait for acks. //********************************************************************************* -bool IOService::notifyChild ( IOPowerConnection * theNub, bool is_prechange ) +void +IOService::OurChangeTellClientsPowerDown( void ) { - IOReturn k = IOPMAckImplied; - unsigned long childPower; - IOService * theChild; - IOPMRequest * childRequest; - int requestType; - - PM_ASSERT_IN_GATE(); - theChild = (IOService *)(theNub->copyChildEntry(gIOPowerPlane)); - if (!theChild) - { - assert(false); - return true; - } - - // Unless the child handles the notification immediately and returns - // kIOPMAckImplied, we'll be awaiting their acknowledgement later. - fHeadNotePendingAcks++; - theNub->setAwaitingAck(true); - - requestType = is_prechange ? - kIOPMRequestTypePowerDomainWillChange : - kIOPMRequestTypePowerDomainDidChange; - - childRequest = acquirePMRequest( theChild, requestType ); - if (childRequest) - { - theNub->retain(); - childRequest->fArg0 = (void *) fHeadNoteOutputFlags; - childRequest->fArg1 = (void *) theNub; - childRequest->fArg2 = (void *) (fHeadNoteState < fCurrentPowerState); - theChild->submitPMRequest( childRequest ); - k = IOPMWillAckLater; + if (!IS_ROOT_DOMAIN) { + fMachineState = kIOPM_OurChangeTellPriorityClientsPowerDown; + } else { + fMachineState = kIOPM_OurChangeTellUserPMPolicyPowerDown; } - else - { - k = IOPMAckImplied; - fHeadNotePendingAcks--; - theNub->setAwaitingAck(false); - childPower = theChild->currentPowerConsumption(); - if ( childPower == kIOPMUnknown ) - { - fPowerStates[fHeadNoteState].staticPower = kIOPMUnknown; - } else { - if ( fPowerStates[fHeadNoteState].staticPower != kIOPMUnknown ) - { - fPowerStates[fHeadNoteState].staticPower += childPower; - } - } - } + tellChangeDown1(fHeadNotePowerState); +} + +//********************************************************************************* +// [private] OurChangeTellUserPMPolicyPowerDown +// +// All applications and kernel clients have acknowledged our permission to drop +// power. Here we notify power management policy in user-space and wait for acks +// one last time before we lower power +//********************************************************************************* +void +IOService::OurChangeTellUserPMPolicyPowerDown( void ) +{ + fMachineState = kIOPM_OurChangeTellPriorityClientsPowerDown; + fOutOfBandParameter = kNotifyApps; - theChild->release(); - return (k == IOPMAckImplied); + tellClientsWithResponse(kIOPMMessageLastCallBeforeSleep); } //********************************************************************************* -// [private] OurChangeTellClientsPowerDown +// [private] OurChangeTellPriorityClientsPowerDown // -// All registered applications and kernel clients have positively acknowledged our -// intention of lowering power. Here we notify them all that we will definitely -// lower the power. If we don't have to wait for any of them to acknowledge, we -// carry on by notifying interested drivers. Otherwise, we do wait. +// All applications and kernel clients have acknowledged our intention to drop +// power. Here we notify "priority" clients that we are lowering power. //********************************************************************************* -void IOService::OurChangeTellClientsPowerDown ( void ) +void +IOService::OurChangeTellPriorityClientsPowerDown( void ) { - fMachineState = kIOPM_OurChangeTellPriorityClientsPowerDown; - tellChangeDown1(fHeadNoteState); + fMachineState = kIOPM_OurChangeNotifyInterestedDriversWillChange; + tellChangeDown2(fHeadNotePowerState); } //********************************************************************************* -// [private] OurChangeTellPriorityClientsPowerDown +// [private] OurChangeTellCapabilityWillChange // -// All registered applications and kernel clients have positively acknowledged our -// intention of lowering power. Here we notify "priority" clients that we are -// lowering power. If we don't have to wait for any of them to acknowledge, we -// carry on by notifying interested drivers. Otherwise, we do wait. +// Extra stage for root domain to notify apps and drivers about the +// system capability change when raising power state. //********************************************************************************* -void IOService::OurChangeTellPriorityClientsPowerDown ( void ) +void +IOService::OurChangeTellCapabilityWillChange( void ) { - fMachineState = kIOPM_OurChangeNotifyInterestedDriversWillChange; - tellChangeDown2(fHeadNoteState); + if (!IS_ROOT_DOMAIN) { + return OurChangeNotifyInterestedDriversWillChange(); + } + + tellSystemCapabilityChange( kIOPM_OurChangeNotifyInterestedDriversWillChange ); } //********************************************************************************* // [private] OurChangeNotifyInterestedDriversWillChange // -// All registered applications and kernel clients have acknowledged our notification -// that we are lowering power. Here we notify interested drivers. If we don't have -// to wait for any of them to acknowledge, we instruct our power driver to make the -// change. Otherwise, we do wait. +// All applications and kernel clients have acknowledged our power state change. +// Here we notify interested drivers pre-change. //********************************************************************************* -void IOService::OurChangeNotifyInterestedDriversWillChange ( void ) -{ - fMachineState = kIOPM_OurChangeSetPowerState; - notifyAll( true ); +void +IOService::OurChangeNotifyInterestedDriversWillChange( void ) +{ + IOPMrootDomain * rootDomain; + if ((rootDomain = getPMRootDomain()) == this) { + if (IS_POWER_DROP) { + rootDomain->tracePoint( kIOPMTracePointSleepWillChangeInterests ); + } else { + rootDomain->tracePoint( kIOPMTracePointWakeWillChangeInterests ); + } + } + + notifyAll( kIOPM_OurChangeSetPowerState ); } //********************************************************************************* // [private] OurChangeSetPowerState // -// All interested drivers have acknowledged our pre-change notification of a power -// change we initiated. Here we instruct our controlling driver to make -// the change to the hardware. If it does so, we continue processing -// (waiting for settle and notifying interested parties post-change.) -// If it doesn't, we have to wait for it to acknowledge and then continue. +// Instruct our controlling driver to program the hardware for the power state +// change. Wait for async completions. //********************************************************************************* -void IOService::OurChangeSetPowerState ( void ) +void +IOService::OurChangeSetPowerState( void ) { - fNextMachineState = kIOPM_OurChangeWaitForPowerSettle; + MS_PUSH( kIOPM_OurChangeWaitForPowerSettle ); fMachineState = kIOPM_DriverThreadCallDone; fDriverCallReason = kDriverCallSetPowerState; - if (notifyControllingDriver() == false) + if (notifyControllingDriver() == false) { notifyControllingDriverDone(); + } } //********************************************************************************* // [private] OurChangeWaitForPowerSettle // -// Our controlling driver has changed power state on the hardware -// during a power change we initiated. Here we see if we need to wait -// for power to settle before continuing. If not, we continue processing -// (notifying interested parties post-change). If so, we wait and -// continue later. +// Our controlling driver has completed the power state change we initiated. +// Wait for the driver specified settle time to expire. //********************************************************************************* -void IOService::OurChangeWaitForPowerSettle ( void ) +void +IOService::OurChangeWaitForPowerSettle( void ) { fMachineState = kIOPM_OurChangeNotifyInterestedDriversDidChange; - fSettleTimeUS = compute_settle_time(); - if ( fSettleTimeUS ) - { - startSettleTimer(fSettleTimeUS); - } + startSettleTimer(); } //********************************************************************************* // [private] OurChangeNotifyInterestedDriversDidChange // -// Power has settled on a power change we initiated. Here we notify -// all our interested parties post-change. If they all acknowledge, we're -// done with this change note, and we can start on the next one. -// Otherwise we have to wait for acknowledgements and finish up later. +// Power has settled on a power change we initiated. Here we notify +// all our interested drivers post-change. //********************************************************************************* -void IOService::OurChangeNotifyInterestedDriversDidChange ( void ) +void +IOService::OurChangeNotifyInterestedDriversDidChange( void ) { - fMachineState = kIOPM_OurChangeFinish; - notifyAll(false); + IOPMrootDomain * rootDomain; + if ((rootDomain = getPMRootDomain()) == this) { + rootDomain->tracePoint( IS_POWER_DROP ? + kIOPMTracePointSleepDidChangeInterests : + kIOPMTracePointWakeDidChangeInterests ); + } + + notifyAll( kIOPM_OurChangeTellCapabilityDidChange ); } //********************************************************************************* -// [private] OurChangeFinish +// [private] OurChangeTellCapabilityDidChange // -// Power has settled on a power change we initiated, and -// all our interested parties have acknowledged. We're -// done with this change note, and we can start on the next one. +// For root domain to notify capability power-change. //********************************************************************************* -void IOService::OurChangeFinish ( void ) +void +IOService::OurChangeTellCapabilityDidChange( void ) { - all_done(); + if (!IS_ROOT_DOMAIN) { + return OurChangeFinish(); + } + + getPMRootDomain()->tracePoint( IS_POWER_DROP ? + kIOPMTracePointSleepCapabilityClients : + kIOPMTracePointWakeCapabilityClients ); + + tellSystemCapabilityChange( kIOPM_OurChangeFinish ); } //********************************************************************************* -// [private] ParentDownTellPriorityClientsPowerDown +// [private] OurChangeFinish // -// All applications and kernel clients have been notified of a power lowering -// initiated by the parent and we had to wait for responses. Here -// we notify any priority clients. If they all ack, we continue with the power change. -// If at least one doesn't, we have to wait for it to acknowledge and then continue. +// Done with this self-induced power state change. //********************************************************************************* -void IOService::ParentDownTellPriorityClientsPowerDown ( void ) +void +IOService::OurChangeFinish( void ) { - fMachineState = kIOPM_ParentDownNotifyInterestedDriversWillChange; - tellChangeDown2(fHeadNoteState); + all_done(); } +// MARK: - +// MARK: Power Change Initiated by Parent + //********************************************************************************* -// [private] ParentDownNotifyInterestedDriversWillChange +// [private] ParentChangeStart // -// All applications and kernel clients have been notified of a power lowering -// initiated by the parent and we had to wait for their responses. Here we notify -// any interested drivers and power domain children. If they all ack, we continue -// with the power change. -// If at least one doesn't, we have to wait for it to acknowledge and then continue. +// Here we begin the processing of a power change initiated by our parent. //********************************************************************************* -void IOService::ParentDownNotifyInterestedDriversWillChange ( void ) +IOReturn +IOService::ParentChangeStart( void ) { - fMachineState = kIOPM_ParentDownSetPowerState; - notifyAll( true ); + PM_ASSERT_IN_GATE(); + OUR_PMLog( kPMLogStartParentChange, fHeadNotePowerState, fCurrentPowerState ); + + // Root power domain has transitioned to its max power state + if ((fHeadNoteChangeFlags & (kIOPMDomainDidChange | kIOPMRootChangeUp)) == + (kIOPMDomainDidChange | kIOPMRootChangeUp)) { + // Restart the idle timer stopped by ParentChangeRootChangeDown() + if (fIdleTimerPeriod && fIdleTimerStopped) { + restartIdleTimer(); + } + } + + // Power domain is forcing us to lower power + if (StateOrder(fHeadNotePowerState) < StateOrder(fCurrentPowerState)) { + PM_ACTION_2(actionPowerChangeStart, fHeadNotePowerState, &fHeadNoteChangeFlags); + + // Tell apps and kernel clients + fInitialPowerChange = false; + fMachineState = kIOPM_ParentChangeTellPriorityClientsPowerDown; + tellChangeDown1(fHeadNotePowerState); + return IOPMWillAckLater; + } + + // Power domain is allowing us to raise power up to fHeadNotePowerState + if (StateOrder(fHeadNotePowerState) > StateOrder(fCurrentPowerState)) { + if (StateOrder(fDesiredPowerState) > StateOrder(fCurrentPowerState)) { + if (StateOrder(fDesiredPowerState) < StateOrder(fHeadNotePowerState)) { + // We power up, but not all the way + fHeadNotePowerState = fDesiredPowerState; + fHeadNotePowerArrayEntry = &fPowerStates[fDesiredPowerState]; + OUR_PMLog(kPMLogAmendParentChange, fHeadNotePowerState, 0); + } + } else { + // We don't need to change + fHeadNotePowerState = fCurrentPowerState; + fHeadNotePowerArrayEntry = &fPowerStates[fCurrentPowerState]; + OUR_PMLog(kPMLogAmendParentChange, fHeadNotePowerState, 0); + } + } + + if (fHeadNoteChangeFlags & kIOPMDomainDidChange) { + if (StateOrder(fHeadNotePowerState) > StateOrder(fCurrentPowerState)) { + PM_ACTION_2(actionPowerChangeStart, + fHeadNotePowerState, &fHeadNoteChangeFlags); + + // Parent did change up - start our change up + fInitialPowerChange = false; + ParentChangeTellCapabilityWillChange(); + return IOPMWillAckLater; + } else if (fHeadNoteChangeFlags & kIOPMRootBroadcastFlags) { + // No need to change power state, but broadcast change + // to our children. + fMachineState = kIOPM_SyncNotifyDidChange; + fDriverCallReason = kDriverCallInformPreChange; + fHeadNoteChangeFlags |= kIOPMNotDone; + notifyChildren(); + return IOPMWillAckLater; + } + } + + // No power state change necessary + fHeadNoteChangeFlags |= kIOPMNotDone; + + all_done(); + return IOPMAckImplied; } -//********************************************************************************* -// [private] ParentDownSetPowerState +//****************************************************************************** +// [private] ParentChangeRootChangeDown // -// We had to wait for it, but all parties have acknowledged our pre-change -// notification of a power lowering initiated by the parent. -// Here we instruct our controlling driver -// to put the hardware in the state it needs to be in when the domain is -// lowered. If it does so, we continue processing -// (waiting for settle and acknowledging the parent.) -// If it doesn't, we have to wait for it to acknowledge and then continue. -//********************************************************************************* +// Root domain has finished the transition to the system sleep state. And all +// drivers in the power plane should have powered down. Cancel the idle timer, +// and also reset the device desire for those drivers that don't want power +// automatically restored on wake. +//****************************************************************************** -void IOService::ParentDownSetPowerState ( void ) +void +IOService::ParentChangeRootChangeDown( void ) { - fNextMachineState = kIOPM_ParentDownWaitForPowerSettle; - fMachineState = kIOPM_DriverThreadCallDone; - fDriverCallReason = kDriverCallSetPowerState; + // Always stop the idle timer before root power down + if (fIdleTimerPeriod && !fIdleTimerStopped) { + fIdleTimerStopped = true; + if (fIdleTimer && thread_call_cancel(fIdleTimer)) { + release(); + } + } - if (notifyControllingDriver() == false) - notifyControllingDriverDone(); + if (fResetPowerStateOnWake) { + // Reset device desire down to the lowest power state. + // Advisory tickle desire is intentionally untouched since + // it has no effect until system is promoted to full wake. + + if (fDeviceDesire != kPowerStateZero) { + updatePowerClient(gIOPMPowerClientDevice, kPowerStateZero); + computeDesiredState(kPowerStateZero, true); + requestDomainPower( fDesiredPowerState ); + PM_LOG1("%s: tickle desire removed\n", fName); + } + + // Invalidate tickle cache so the next tickle will issue a request + IOLockLock(fActivityLock); + fDeviceWasActive = false; + fActivityTicklePowerState = kInvalidTicklePowerState; + IOLockUnlock(fActivityLock); + + fIdleTimerMinPowerState = kPowerStateZero; + } else if (fAdvisoryTickleUsed) { + // Less aggressive mechanism to accelerate idle timer expiration + // before system sleep. May not always allow the driver to wake + // up from system sleep in the min power state. + + AbsoluteTime now; + uint64_t nsec; + bool dropTickleDesire = false; + + if (fIdleTimerPeriod && !fIdleTimerIgnored && + (fIdleTimerMinPowerState == kPowerStateZero) && + (fDeviceDesire != kPowerStateZero)) { + IOLockLock(fActivityLock); + + if (!fDeviceWasActive) { + // No tickles since the last idle timer expiration. + // Safe to drop the device desire to zero. + dropTickleDesire = true; + } else { + // Was tickled since the last idle timer expiration, + // but not in the last minute. + clock_get_uptime(&now); + SUB_ABSOLUTETIME(&now, &fDeviceActiveTimestamp); + absolutetime_to_nanoseconds(now, &nsec); + if (nsec >= kNoTickleCancelWindow) { + dropTickleDesire = true; + } + } + + if (dropTickleDesire) { + // Force the next tickle to raise power state + fDeviceWasActive = false; + fActivityTicklePowerState = kInvalidTicklePowerState; + } + + IOLockUnlock(fActivityLock); + } + + if (dropTickleDesire) { + // Advisory tickle desire is intentionally untouched since + // it has no effect until system is promoted to full wake. + + updatePowerClient(gIOPMPowerClientDevice, kPowerStateZero); + computeDesiredState(kPowerStateZero, true); + PM_LOG1("%s: tickle desire dropped\n", fName); + } + } } //********************************************************************************* -// [private] ParentDownWaitForPowerSettle +// [private] ParentChangeTellPriorityClientsPowerDown // -// Our controlling driver has changed power state on the hardware -// during a power change initiated by our parent. We have had to wait -// for acknowledgement from interested parties, or we have had to wait -// for the controlling driver to change the state. Here we see if we need -// to wait for power to settle before continuing. If not, we continue -// processing (acknowledging our preparedness to the parent). -// If so, we wait and continue later. +// All applications and kernel clients have acknowledged our intention to drop +// power. Here we notify "priority" clients that we are lowering power. //********************************************************************************* -void IOService::ParentDownWaitForPowerSettle ( void ) +void +IOService::ParentChangeTellPriorityClientsPowerDown( void ) { - fMachineState = kIOPM_ParentDownNotifyDidChangeAndAcknowledgeChange; - fSettleTimeUS = compute_settle_time(); - if ( fSettleTimeUS ) - { - startSettleTimer(fSettleTimeUS); - } + fMachineState = kIOPM_ParentChangeNotifyInterestedDriversWillChange; + tellChangeDown2(fHeadNotePowerState); } //********************************************************************************* -// [private] ParentDownNotifyDidChangeAndAcknowledgeChange +// [private] ParentChangeTellCapabilityWillChange // -// Power has settled on a power change initiated by our parent. Here we -// notify interested parties. +// All (legacy) applications and kernel clients have acknowledged, extra stage for +// root domain to notify apps and drivers about the system capability change. //********************************************************************************* -void IOService::ParentDownNotifyDidChangeAndAcknowledgeChange ( void ) +void +IOService::ParentChangeTellCapabilityWillChange( void ) { - fMachineState = kIOPM_ParentDownAcknowledgeChange; - notifyAll(false); + if (!IS_ROOT_DOMAIN) { + return ParentChangeNotifyInterestedDriversWillChange(); + } + + tellSystemCapabilityChange( kIOPM_ParentChangeNotifyInterestedDriversWillChange ); } //********************************************************************************* -// [private] ParentDownAcknowledgeChange +// [private] ParentChangeNotifyInterestedDriversWillChange // -// We had to wait for it, but all parties have acknowledged our post-change -// notification of a power lowering initiated by the parent. -// Here we acknowledge the parent. -// We are done with this change note, and we can start on the next one. +// All applications and kernel clients have acknowledged our power state change. +// Here we notify interested drivers pre-change. //********************************************************************************* -void IOService::ParentDownAcknowledgeChange ( void ) +void +IOService::ParentChangeNotifyInterestedDriversWillChange( void ) { - IORegistryEntry * nub; - IOService * parent; - - nub = fHeadNoteParent; - nub->retain(); - all_done(); - parent = (IOService *)nub->copyParentEntry(gIOPowerPlane); - if ( parent ) - { - parent->acknowledgePowerChange((IOService *)nub); - parent->release(); - } - nub->release(); + notifyAll( kIOPM_ParentChangeSetPowerState ); } //********************************************************************************* -// [private] ParentUpSetPowerState +// [private] ParentChangeSetPowerState // -// Our parent has informed us via powerStateDidChange that it has -// raised the power in our power domain, and we have had to wait -// for some interested party to acknowledge our notification. -// Here we instruct our controlling -// driver to program the hardware to take advantage of the higher domain -// power. If it does so, we continue processing -// (waiting for settle and notifying interested parties post-change.) -// If it doesn't, we have to wait for it to acknowledge and then continue. +// Instruct our controlling driver to program the hardware for the power state +// change. Wait for async completions. //********************************************************************************* -void IOService::ParentUpSetPowerState ( void ) +void +IOService::ParentChangeSetPowerState( void ) { - fNextMachineState = kIOPM_ParentUpWaitForSettleTime; + MS_PUSH( kIOPM_ParentChangeWaitForPowerSettle ); fMachineState = kIOPM_DriverThreadCallDone; fDriverCallReason = kDriverCallSetPowerState; - if (notifyControllingDriver() == false) + if (notifyControllingDriver() == false) { notifyControllingDriverDone(); + } } //********************************************************************************* -// [private] ParentUpWaitForSettleTime +// [private] ParentChangeWaitForPowerSettle // -// Our controlling driver has changed power state on the hardware -// during a power raise initiated by the parent, but we had to wait for it. -// Here we see if we need to wait for power to settle before continuing. -// If not, we continue processing (notifying interested parties post-change). -// If so, we wait and continue later. +// Our controlling driver has completed the power state change initiated by our +// parent. Wait for the driver specified settle time to expire. //********************************************************************************* -void IOService::ParentUpWaitForSettleTime ( void ) +void +IOService::ParentChangeWaitForPowerSettle( void ) { - fMachineState = kIOPM_ParentUpNotifyInterestedDriversDidChange; - fSettleTimeUS = compute_settle_time(); - if ( fSettleTimeUS ) - { - startSettleTimer(fSettleTimeUS); - } + fMachineState = kIOPM_ParentChangeNotifyInterestedDriversDidChange; + startSettleTimer(); } //********************************************************************************* -// [private] ParentUpNotifyInterestedDriversDidChange +// [private] ParentChangeNotifyInterestedDriversDidChange // -// Power has settled on a power raise initiated by the parent. -// Here we notify all our interested parties post-change. If they all acknowledge, -// we're done with this change note, and we can start on the next one. -// Otherwise we have to wait for acknowledgements and finish up later. +// Power has settled on a power change initiated by our parent. Here we notify +// all our interested drivers post-change. //********************************************************************************* -void IOService::ParentUpNotifyInterestedDriversDidChange ( void ) +void +IOService::ParentChangeNotifyInterestedDriversDidChange( void ) { - fMachineState = kIOPM_ParentUpAcknowledgePowerChange; - notifyAll(false); + notifyAll( kIOPM_ParentChangeTellCapabilityDidChange ); } //********************************************************************************* -// [private] ParentUpAcknowledgePowerChange +// [private] ParentChangeTellCapabilityDidChange // -// All parties have acknowledged our post-change notification of a power -// raising initiated by the parent. Here we acknowledge the parent. -// We are done with this change note, and we can start on the next one. +// For root domain to notify capability power-change. //********************************************************************************* -void IOService::ParentUpAcknowledgePowerChange ( void ) +void +IOService::ParentChangeTellCapabilityDidChange( void ) { - IORegistryEntry * nub; - IOService * parent; + if (!IS_ROOT_DOMAIN) { + return ParentChangeAcknowledgePowerChange(); + } - nub = fHeadNoteParent; - nub->retain(); - all_done(); - parent = (IOService *)nub->copyParentEntry(gIOPowerPlane); - if ( parent ) - { - parent->acknowledgePowerChange((IOService *)nub); - parent->release(); - } - nub->release(); + tellSystemCapabilityChange( kIOPM_ParentChangeAcknowledgePowerChange ); } //********************************************************************************* -// [private] all_done +// [private] ParentAcknowledgePowerChange // -// A power change is complete, and the used post-change note is at -// the head of the queue. Remove it and set myCurrentState to the result -// of the change. Start up the next change in queue. +// Acknowledge our power parent that our power change is done. //********************************************************************************* -void IOService::all_done ( void ) +void +IOService::ParentChangeAcknowledgePowerChange( void ) { - unsigned long previous_state; - - fMachineState = kIOPM_Finished; - - // our power change - if ( fHeadNoteFlags & IOPMWeInitiated ) - { - // could our driver switch to the new state? - if ( !( fHeadNoteFlags & IOPMNotDone) ) - { - // we changed, tell our parent - if ( !fWeAreRoot ) - { - ask_parent(fHeadNoteState); - } - - // yes, did power raise? - if ( fCurrentPowerState < fHeadNoteState ) - { - // yes, inform clients and apps - tellChangeUp (fHeadNoteState); - } - previous_state = fCurrentPowerState; - // either way - fCurrentPowerState = fHeadNoteState; -#if PM_VARS_SUPPORT - fPMVars->myCurrentState = fCurrentPowerState; -#endif - OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, 0); - - // inform subclass policy-maker - if (!fWillPMStop && fParentsKnowState) - powerChangeDone(previous_state); - else - PM_DEBUG("%s::powerChangeDone() skipped\n", getName()); - } - } - - // parent's power change - if ( fHeadNoteFlags & IOPMParentInitiated) - { - if (((fHeadNoteFlags & IOPMDomainWillChange) && (fCurrentPowerState >= fHeadNoteState)) || - ((fHeadNoteFlags & IOPMDomainDidChange) && (fCurrentPowerState < fHeadNoteState))) - { - // did power raise? - if ( fCurrentPowerState < fHeadNoteState ) - { - // yes, inform clients and apps - tellChangeUp (fHeadNoteState); - } - // either way - previous_state = fCurrentPowerState; - fCurrentPowerState = fHeadNoteState; -#if PM_VARS_SUPPORT - fPMVars->myCurrentState = fCurrentPowerState; -#endif - fMaxCapability = fControllingDriver->maxCapabilityForDomainState(fHeadNoteDomainState); - - OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, 0); - - // inform subclass policy-maker - if (!fWillPMStop && fParentsKnowState) - powerChangeDone(previous_state); - else - PM_DEBUG("%s::powerChangeDone() skipped\n", getName()); - } - } - - if (fCurrentPowerState < fNumberOfPowerStates) - { - const IOPMPowerState * powerStatePtr = &fPowerStates[fCurrentPowerState]; - - fCurrentCapabilityFlags = powerStatePtr->capabilityFlags; - if (fCurrentCapabilityFlags & kIOPMStaticPowerValid) - fCurrentPowerConsumption = powerStatePtr->staticPower; - } - - // When power rises enough to satisfy the tickle's desire for more power, - // the condition preventing idle-timer from dropping power is removed. + IORegistryEntry * nub; + IOService * parent; - if (fCurrentPowerState >= fIdleTimerMinPowerState) - { - fIdleTimerMinPowerState = 0; - } + nub = fHeadNoteParentConnection; + nub->retain(); + all_done(); + parent = (IOService *)nub->copyParentEntry(gIOPowerPlane); + if (parent) { + parent->acknowledgePowerChange((IOService *)nub); + parent->release(); + } + nub->release(); } +// MARK: - +// MARK: Ack and Settle timers + //********************************************************************************* -// [public] settleTimerExpired +// [private] settleTimerExpired // // Power has settled after our last change. Notify interested parties that // there is a new power state. //********************************************************************************* -void IOService::settleTimerExpired ( void ) +void +IOService::settleTimerExpired( void ) { fSettleTimeUS = 0; + gIOPMWorkQueue->signalWorkAvailable(); } //********************************************************************************* -// [private] compute_settle_time +// settle_timer_expired // -// Compute the power-settling delay in microseconds for the -// change from myCurrentState to head_note_state. +// Holds a retain while the settle timer callout is in flight. //********************************************************************************* -unsigned long IOService::compute_settle_time ( void ) +static void +settle_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 ) { - unsigned long totalTime; - unsigned long i; - - PM_ASSERT_IN_GATE(); - - // compute total time to attain the new state - totalTime = 0; - i = fCurrentPowerState; - - // we're lowering power - if ( fHeadNoteState < fCurrentPowerState ) - { - while ( i > fHeadNoteState ) - { - totalTime += fPowerStates[i].settleDownTime; - i--; - } - } - - // we're raising power - if ( fHeadNoteState > fCurrentPowerState ) - { - while ( i < fHeadNoteState ) - { - totalTime += fPowerStates[i+1].settleUpTime; - i++; - } - } + IOService * me = (IOService *) arg0; - return totalTime; + if (gIOPMWorkLoop && gIOPMWorkQueue) { + gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, me, &IOService::settleTimerExpired), + me); + } + me->release(); } //********************************************************************************* // [private] startSettleTimer // -// Enter a power-settling delay in microseconds and start a timer for that delay. +// Calculate a power-settling delay in microseconds and start a timer. //********************************************************************************* -IOReturn IOService::startSettleTimer ( unsigned long delay ) +void +IOService::startSettleTimer( void ) { - AbsoluteTime deadline; - boolean_t pending; +#if NOT_USEFUL + // This function is broken and serves no useful purpose since it never + // updates fSettleTimeUS to a non-zero value to stall the state machine, + // yet it starts a delay timer. It appears no driver relies on a delay + // from settleUpTime and settleDownTime in the power state table. - retain(); - clock_interval_to_deadline(delay, kMicrosecondScale, &deadline); - pending = thread_call_enter_delayed(fSettleTimer, deadline); - if (pending) release(); + AbsoluteTime deadline; + IOPMPowerStateIndex stateIndex; + IOPMPowerStateIndex currentOrder, newOrder, i; + uint32_t settleTime = 0; + boolean_t pending; + + PM_ASSERT_IN_GATE(); + + currentOrder = StateOrder(fCurrentPowerState); + newOrder = StateOrder(fHeadNotePowerState); + + i = currentOrder; + + // lowering power + if (newOrder < currentOrder) { + while (i > newOrder) { + stateIndex = fPowerStates[i].stateOrderToIndex; + settleTime += (uint32_t) fPowerStates[stateIndex].settleDownTime; + i--; + } + } - return IOPMNoErr; + // raising power + if (newOrder > currentOrder) { + while (i < newOrder) { + stateIndex = fPowerStates[i + 1].stateOrderToIndex; + settleTime += (uint32_t) fPowerStates[stateIndex].settleUpTime; + i++; + } + } + + if (settleTime) { + retain(); + clock_interval_to_deadline(settleTime, kMicrosecondScale, &deadline); + pending = thread_call_enter_delayed(fSettleTimer, deadline); + if (pending) { + release(); + } + } +#endif } //********************************************************************************* -// [public] ackTimerTick +// [private] ackTimerTick // // The acknowledgement timeout periodic timer has ticked. // If we are awaiting acks for a power change notification, @@ -3810,540 +5236,419 @@ IOReturn IOService::startSettleTimer ( unsigned long delay ) // machine state, false otherwise. //********************************************************************************* -void IOService::ack_timer_ticked ( void ) +#ifndef __LP64__ +#if MACH_ASSERT +__dead2 +#endif +void +IOService::ack_timer_ticked( void ) { assert(false); } +#endif /* !__LP64__ */ -bool IOService::ackTimerTick( void ) +bool +IOService::ackTimerTick( void ) { - IOPMinformee * nextObject; - bool done = false; + IOPMinformee * nextObject; + bool done = false; PM_ASSERT_IN_GATE(); - switch (fMachineState) { - case kIOPM_OurChangeWaitForPowerSettle: - case kIOPM_ParentDownWaitForPowerSettle: - case kIOPM_ParentUpWaitForSettleTime: - // are we waiting for controlling driver to acknowledge? - if ( fDriverTimer > 0 ) - { - // yes, decrement timer tick - fDriverTimer--; - if ( fDriverTimer == 0 ) - { - // controlling driver is tardy - uint64_t nsec = computeTimeDeltaNS(&fDriverCallStartTime); - OUR_PMLog(kPMLogCtrlDriverTardy, 0, 0); - setProperty(kIOPMTardyAckSPSKey, kOSBooleanTrue); - PM_ERROR("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms\n", - fName, this, fCurrentPowerState, fHeadNoteState, NS_TO_MS(nsec)); - - if (gIOKitDebug & kIOLogDebugPower) - { - panic("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms", - fName, this, fCurrentPowerState, fHeadNoteState, NS_TO_MS(nsec)); - } - else - { - // Unblock state machine and pretend driver has acked. - done = true; + switch (fMachineState) { + case kIOPM_OurChangeWaitForPowerSettle: + case kIOPM_ParentChangeWaitForPowerSettle: + // are we waiting for controlling driver to acknowledge? + if (fDriverTimer > 0) { + // yes, decrement timer tick + fDriverTimer--; + if (fDriverTimer == 0) { + // controlling driver is tardy + uint64_t nsec = computeTimeDeltaNS(&fDriverCallStartTime); + OUR_PMLog(kPMLogCtrlDriverTardy, 0, 0); + setProperty(kIOPMTardyAckSPSKey, kOSBooleanTrue); + PM_ERROR("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms\n", + fName, OBFUSCATE(this), fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec)); + +#if DEBUG || DEVELOPMENT || CONFIG_EMBEDDED + uint32_t panic_allowed = -1; + PE_parse_boot_argn("setpowerstate_panic", &panic_allowed, sizeof(panic_allowed)); + if (panic_allowed != 0) { + // rdar://problem/48743340 - excluding AppleSEPManager from panic + const char *whitelist = "AppleSEPManager"; + if (strncmp(fName, whitelist, strlen(whitelist))) { + panic("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms", + fName, this, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec)); } - } else { - // still waiting, set timer again - start_ack_timer(); - } - } - break; - - case kIOPM_OurChangeSetPowerState: - case kIOPM_OurChangeFinish: - case kIOPM_ParentDownSetPowerState: - case kIOPM_ParentDownAcknowledgeChange: - case kIOPM_ParentUpSetPowerState: - case kIOPM_ParentUpAcknowledgePowerChange: - case kIOPM_NotifyChildrenDone: - // are we waiting for interested parties to acknowledge? - if ( fHeadNotePendingAcks != 0 ) - { - // yes, go through the list of interested drivers - nextObject = fInterestedDrivers->firstInList(); - // and check each one - while ( nextObject != NULL ) - { - if ( nextObject->timer > 0 ) - { - nextObject->timer--; - // this one should have acked by now - if ( nextObject->timer == 0 ) - { - uint64_t nsec = computeTimeDeltaNS(&nextObject->startTime); - OUR_PMLog(kPMLogIntDriverTardy, 0, 0); - nextObject->whatObject->setProperty(kIOPMTardyAckPSCKey, kOSBooleanTrue); - PM_ERROR("%s::powerState%sChangeTo(%p, %s, %lu -> %lu) timed out after %d ms\n", - nextObject->whatObject->getName(), - (fDriverCallReason == kDriverCallInformPreChange) ? "Will" : "Did", - nextObject->whatObject, fName, fCurrentPowerState, fHeadNoteState, - NS_TO_MS(nsec)); - - // Pretend driver has acked. - fHeadNotePendingAcks--; - } - } - nextObject = fInterestedDrivers->nextInList(nextObject); - } - - // is that the last? - if ( fHeadNotePendingAcks == 0 ) - { - // yes, we can continue + } else { + PM_ERROR("setPowerState panic disabled by setpowerstate_panic boot-arg\n"); + } +#else + if (gIOKitDebug & kIOLogDebugPower) { + panic("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms", + fName, this, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec)); + } else { + // panic for first party kexts + const void *function_addr = NULL; + OSKext *kext = NULL; + function_addr = OSMemberFunctionCast(const void *, fControllingDriver, &IOService::setPowerState); + kext = OSKext::lookupKextWithAddress((vm_address_t)function_addr); + if (kext) { + const char *bundleID = kext->getIdentifierCString(); + const char *apple_prefix = "com.apple"; + const char *kernel_prefix = "__kernel__"; + if (strncmp(bundleID, apple_prefix, strlen(apple_prefix)) == 0 || strncmp(bundleID, kernel_prefix, strlen(kernel_prefix)) == 0) { + // first party client + panic("%s::setPowerState(%p : %p, %lu -> %lu) timed out after %d ms", + fName, this, function_addr, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec)); + } + kext->release(); + } + // Unblock state machine and pretend driver has acked. done = true; - } else { - // no, set timer again - start_ack_timer(); - } - } - break; - - case kIOPM_ParentDownTellPriorityClientsPowerDown: - case kIOPM_ParentDownNotifyInterestedDriversWillChange: - case kIOPM_OurChangeTellClientsPowerDown: - case kIOPM_OurChangeTellPriorityClientsPowerDown: - case kIOPM_OurChangeNotifyInterestedDriversWillChange: - // apps didn't respond in time - cleanClientResponses(true); - OUR_PMLog(kPMLogClientTardy, 0, 1); - // tardy equates to approval - done = true; - break; + } +#endif + getPMRootDomain()->reset_watchdog_timer(this, 0); + } else { + // still waiting, set timer again + start_ack_timer(); + } + } + break; + + case kIOPM_NotifyChildrenStart: + // are we waiting for interested parties to acknowledge? + if (fHeadNotePendingAcks != 0) { + // yes, go through the list of interested drivers + nextObject = fInterestedDrivers->firstInList(); + // and check each one + while (nextObject != NULL) { + if (nextObject->timer > 0) { + nextObject->timer--; + // this one should have acked by now + if (nextObject->timer == 0) { + uint64_t nsec = computeTimeDeltaNS(&nextObject->startTime); + OUR_PMLog(kPMLogIntDriverTardy, 0, 0); + nextObject->whatObject->setProperty(kIOPMTardyAckPSCKey, kOSBooleanTrue); + PM_ERROR("%s::powerState%sChangeTo(%p, %s, %lu -> %lu) timed out after %d ms\n", + nextObject->whatObject->getName(), + (fDriverCallReason == kDriverCallInformPreChange) ? "Will" : "Did", + OBFUSCATE(nextObject->whatObject), fName, fCurrentPowerState, fHeadNotePowerState, + NS_TO_MS(nsec)); + + // Pretend driver has acked. + fHeadNotePendingAcks--; + } + } + nextObject = fInterestedDrivers->nextInList(nextObject); + } - default: - PM_TRACE("[%s] unexpected ack timer tick (state = %ld)\n", - getName(), fMachineState); - break; - } + // is that the last? + if (fHeadNotePendingAcks == 0) { + // yes, we can continue + done = true; + getPMRootDomain()->reset_watchdog_timer(this, 0); + } else { + // no, set timer again + start_ack_timer(); + } + } + break; + + // TODO: aggreggate this + case kIOPM_OurChangeTellClientsPowerDown: + case kIOPM_OurChangeTellUserPMPolicyPowerDown: + case kIOPM_OurChangeTellPriorityClientsPowerDown: + case kIOPM_OurChangeNotifyInterestedDriversWillChange: + case kIOPM_ParentChangeTellPriorityClientsPowerDown: + case kIOPM_ParentChangeNotifyInterestedDriversWillChange: + case kIOPM_SyncTellClientsPowerDown: + case kIOPM_SyncTellPriorityClientsPowerDown: + case kIOPM_SyncNotifyWillChange: + case kIOPM_TellCapabilityChangeDone: + // apps didn't respond in time + cleanClientResponses(true); + OUR_PMLog(kPMLogClientTardy, 0, 1); + // tardy equates to approval + done = true; + break; + + default: + PM_LOG1("%s: unexpected ack timer tick (state = %d)\n", + getName(), fMachineState); + break; + } return done; } //********************************************************************************* -// [private] start_ack_timer +// [private] start_watchdog_timer //********************************************************************************* - -void IOService::start_ack_timer ( void ) +void +IOService::start_watchdog_timer( void ) { - start_ack_timer( ACK_TIMER_PERIOD, kNanosecondScale ); -} + int timeout; + uint64_t deadline; -void IOService::start_ack_timer ( UInt32 interval, UInt32 scale ) -{ - AbsoluteTime deadline; - boolean_t pending; + if (!fWatchdogTimer || (kIOSleepWakeWdogOff & gIOKitDebug)) { + return; + } - clock_interval_to_deadline(interval, scale, &deadline); + IOLockLock(fWatchdogLock); - retain(); - pending = thread_call_enter_delayed(fAckTimer, deadline); - if (pending) release(); + timeout = getPMRootDomain()->getWatchdogTimeout(); + clock_interval_to_deadline(timeout, kSecondScale, &deadline); + fWatchdogDeadline = deadline; + start_watchdog_timer(deadline); + IOLockUnlock(fWatchdogLock); } -//********************************************************************************* -// [private] stop_ack_timer -//********************************************************************************* - -void IOService::stop_ack_timer ( void ) +void +IOService::start_watchdog_timer(uint64_t deadline) { - boolean_t pending; + IOLockAssert(fWatchdogLock, kIOLockAssertOwned); - pending = thread_call_cancel(fAckTimer); - if (pending) release(); + if (!thread_call_isactive(fWatchdogTimer)) { + thread_call_enter_delayed(fWatchdogTimer, deadline); + } } //********************************************************************************* -// [static] settleTimerExpired -// -// Inside PM work loop's gate. +// [private] stop_watchdog_timer //********************************************************************************* -IOReturn -IOService::actionAckTimerExpired ( - OSObject * target, - void * arg0, void * arg1, - void * arg2, void * arg3 ) +void +IOService::stop_watchdog_timer( void ) { - IOService * me = (IOService *) target; - bool done; + if (!fWatchdogTimer || (kIOSleepWakeWdogOff & gIOKitDebug)) { + return; + } - // done will be true if the timer tick unblocks the machine state, - // otherwise no need to signal the work loop. + IOLockLock(fWatchdogLock); - done = me->ackTimerTick(); - if (done && gIOPMReplyQueue) - gIOPMReplyQueue->signalWorkAvailable(); + thread_call_cancel(fWatchdogTimer); + fWatchdogDeadline = 0; - return kIOReturnSuccess; + while (fBlockedArray->getCount()) { + IOService *obj = OSDynamicCast(IOService, fBlockedArray->getObject(0)); + if (obj) { + PM_ERROR("WDOG:Object %s unexpected in blocked array\n", obj->fName); + fBlockedArray->removeObject(0); + } + } + + IOLockUnlock(fWatchdogLock); } //********************************************************************************* -// ack_timer_expired -// -// Thread call function. Holds a retain while the callout is in flight. +// reset_watchdog_timer //********************************************************************************* void -IOService::ack_timer_expired ( thread_call_param_t arg0, thread_call_param_t arg1 ) +IOService::reset_watchdog_timer(IOService *blockedObject, int pendingResponseTimeout) { - IOService * me = (IOService *) arg0; + unsigned int i; + uint64_t deadline; + IOService *obj; - if (gIOPMWorkLoop) - { - gIOPMWorkLoop->runAction(&actionAckTimerExpired, me); + if (!fWatchdogTimer || (kIOSleepWakeWdogOff & gIOKitDebug)) { + return; } - me->release(); + + + IOLockLock(fWatchdogLock); + if (!fWatchdogDeadline) { + goto exit; + } + + i = fBlockedArray->getNextIndexOfObject(blockedObject, 0); + if (pendingResponseTimeout == 0) { + blockedObject->fPendingResponseDeadline = 0; + if (i == (unsigned int)-1) { + goto exit; + } + fBlockedArray->removeObject(i); + } else { + // Set deadline 2secs after the expected response timeout to allow + // ack timer to handle the timeout. + clock_interval_to_deadline(pendingResponseTimeout + 2, kSecondScale, &deadline); + + if (i != (unsigned int)-1) { + PM_ERROR("WDOG:Object %s is already blocked for responses. Ignoring timeout %d\n", + fName, pendingResponseTimeout); + goto exit; + } + + for (i = 0; i < fBlockedArray->getCount(); i++) { + obj = OSDynamicCast(IOService, fBlockedArray->getObject(i)); + if (obj && (obj->fPendingResponseDeadline < deadline)) { + blockedObject->fPendingResponseDeadline = deadline; + fBlockedArray->setObject(i, blockedObject); + break; + } + } + if (i == fBlockedArray->getCount()) { + blockedObject->fPendingResponseDeadline = deadline; + fBlockedArray->setObject(blockedObject); + } + } + + obj = OSDynamicCast(IOService, fBlockedArray->getObject(0)); + if (!obj) { + int timeout = getPMRootDomain()->getWatchdogTimeout(); + clock_interval_to_deadline(timeout, kSecondScale, &deadline); + } else { + deadline = obj->fPendingResponseDeadline; + } + + thread_call_cancel(fWatchdogTimer); + start_watchdog_timer(deadline); + +exit: + IOLockUnlock(fWatchdogLock); } + //********************************************************************************* -// settleTimerExpired +// [static] watchdog_timer_expired // // Inside PM work loop's gate. //********************************************************************************* -static IOReturn -settleTimerExpired ( - OSObject * target, - void * arg0, void * arg1, - void * arg2, void * arg3 ) +void +IOService::watchdog_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 ) { - IOService * me = (IOService *) target; - me->settleTimerExpired(); - return kIOReturnSuccess; + IOService * me = (IOService *) arg0; + + + gIOPMWatchDogThread = current_thread(); + getPMRootDomain()->sleepWakeDebugTrig(true); + gIOPMWatchDogThread = NULL; + thread_call_free(me->fWatchdogTimer); + me->fWatchdogTimer = NULL; + + return; } -//********************************************************************************* -// settle_timer_expired -// -// Thread call function. Holds a retain while the callout is in flight. -//********************************************************************************* -static void -settle_timer_expired ( thread_call_param_t arg0, thread_call_param_t arg1 ) +IOWorkLoop * +IOService::getIOPMWorkloop( void ) { - IOService * me = (IOService *) arg0; - - if (gIOPMWorkLoop && gIOPMReplyQueue) - { - gIOPMWorkLoop->runAction(settleTimerExpired, me); - gIOPMReplyQueue->signalWorkAvailable(); - } - me->release(); + return gIOPMWorkLoop; } + + //********************************************************************************* -// [private] start_parent_change -// -// Here we begin the processing of a power change initiated by our parent. +// [private] start_ack_timer //********************************************************************************* -IOReturn IOService::start_parent_change ( const changeNoteItem * changeNote ) +void +IOService::start_ack_timer( void ) { - fHeadNoteFlags = changeNote->flags; - fHeadNoteState = changeNote->newStateNumber; - fHeadNoteOutputFlags = changeNote->outputPowerCharacter; - fHeadNoteDomainState = changeNote->domainState; - fHeadNoteParent = changeNote->parent; - fHeadNoteCapabilityFlags = changeNote->capabilityFlags; + start_ack_timer( ACK_TIMER_PERIOD, kNanosecondScale ); +} - PM_ASSERT_IN_GATE(); - OUR_PMLog( kPMLogStartParentChange, fHeadNoteState, fCurrentPowerState ); - - // Power domain is lowering power - if ( fHeadNoteState < fCurrentPowerState ) - { - setParentInfo( - changeNote->singleParentState, - fHeadNoteParent, true ); - - // tell apps and kernel clients - fInitialChange = false; - fMachineState = kIOPM_ParentDownTellPriorityClientsPowerDown; - tellChangeDown1(fHeadNoteState); - return IOPMWillAckLater; - } - - // Power domain is raising power - if ( fHeadNoteState > fCurrentPowerState ) - { - IOPMPowerState * powerStatePtr; - - if ( fDesiredPowerState > fCurrentPowerState ) - { - if ( fDesiredPowerState < fHeadNoteState ) - { - // We power up, but not all the way - fHeadNoteState = fDesiredPowerState; - powerStatePtr = &fPowerStates[fHeadNoteState]; - fHeadNoteOutputFlags = powerStatePtr->outputPowerCharacter; - fHeadNoteCapabilityFlags = powerStatePtr->capabilityFlags; - OUR_PMLog(kPMLogAmendParentChange, fHeadNoteState, 0); - } - } else { - // We don't need to change - fHeadNoteState = fCurrentPowerState; - powerStatePtr = &fPowerStates[fHeadNoteState]; - fHeadNoteOutputFlags = powerStatePtr->outputPowerCharacter; - fHeadNoteCapabilityFlags = powerStatePtr->capabilityFlags; - OUR_PMLog(kPMLogAmendParentChange, fHeadNoteState, 0); - } - } - - if ((fHeadNoteState > fCurrentPowerState) && - (fHeadNoteFlags & IOPMDomainDidChange)) - { - // Parent did change up - start our change up - fInitialChange = false; - fMachineState = kIOPM_ParentUpSetPowerState; - notifyAll( true ); - return IOPMWillAckLater; - } +void +IOService::start_ack_timer( UInt32 interval, UInt32 scale ) +{ + AbsoluteTime deadline; + boolean_t pending; - all_done(); - return IOPMAckImplied; + clock_interval_to_deadline(interval, scale, &deadline); + + retain(); + pending = thread_call_enter_delayed(fAckTimer, deadline); + if (pending) { + release(); + } } //********************************************************************************* -// [private] start_our_change -// -// Here we begin the processing of a power change initiated by us. +// [private] stop_ack_timer //********************************************************************************* -void IOService::start_our_change ( const changeNoteItem * changeNote ) +void +IOService::stop_ack_timer( void ) { - fHeadNoteFlags = changeNote->flags; - fHeadNoteState = changeNote->newStateNumber; - fHeadNoteOutputFlags = changeNote->outputPowerCharacter; - fHeadNoteCapabilityFlags = changeNote->capabilityFlags; + boolean_t pending; - PM_ASSERT_IN_GATE(); - - OUR_PMLog( kPMLogStartDeviceChange, fHeadNoteState, fCurrentPowerState ); - - // can our driver switch to the new state? - if (( fHeadNoteCapabilityFlags & IOPMNotAttainable ) || - ((fMaxCapability < fHeadNoteState) && (!fWeAreRoot))) - { - // mark the change note un-actioned - fHeadNoteFlags |= IOPMNotDone; - - // no, ask the parent to do it then - if ( !fWeAreRoot ) - { - ask_parent(fHeadNoteState); - } - all_done(); - return; - } - - if ( !fInitialChange ) - { - if ( fHeadNoteState == fCurrentPowerState ) - { - // we initiated a null change; forget it - all_done(); - return; - } - } - fInitialChange = false; - - // dropping power? - if ( fHeadNoteState < fCurrentPowerState ) - { - // yes, in case we have to wait for acks - fMachineState = kIOPM_OurChangeTellClientsPowerDown; - fDoNotPowerDown = false; - - // ask apps and kernel clients if we can drop power - fOutOfBandParameter = kNotifyApps; - askChangeDown(fHeadNoteState); - } else { - // in case they don't all ack - fMachineState = kIOPM_OurChangeSetPowerState; - // notify interested drivers and children - notifyAll(true); - } -} - -//********************************************************************************* -// [private] ask_parent -// -// Call the power domain parent to ask for a higher power state in the domain -// or to suggest a lower power state. -//********************************************************************************* - -IOReturn IOService::ask_parent ( unsigned long requestedState ) -{ - OSIterator * iter; - OSObject * next; - IOPowerConnection * connection; - IOService * parent; - const IOPMPowerState * powerStatePtr; - unsigned long ourRequest; - - PM_ASSERT_IN_GATE(); - if (requestedState >= fNumberOfPowerStates) - return IOPMNoErr; - - powerStatePtr = &fPowerStates[requestedState]; - ourRequest = powerStatePtr->inputPowerRequirement; - - if ( powerStatePtr->capabilityFlags & (kIOPMChildClamp | kIOPMPreventIdleSleep) ) - { - ourRequest |= kIOPMPreventIdleSleep; - } - if ( powerStatePtr->capabilityFlags & (kIOPMChildClamp2 | kIOPMPreventSystemSleep) ) - { - ourRequest |= kIOPMPreventSystemSleep; - } - - // is this a new desire? - if ( fPreviousRequest == ourRequest ) - { - // no, the parent knows already, just return - return IOPMNoErr; - } - - if ( fWeAreRoot ) - { - return IOPMNoErr; - } - fPreviousRequest = ourRequest; - - iter = getParentIterator(gIOPowerPlane); - if ( iter ) - { - while ( (next = iter->getNextObject()) ) - { - if ( (connection = OSDynamicCast(IOPowerConnection, next)) ) - { - parent = (IOService *)connection->copyParentEntry(gIOPowerPlane); - if ( parent ) { - if ( parent->requestPowerDomainState( - ourRequest, connection, IOPMLowestState) != IOPMNoErr ) - { - OUR_PMLog(kPMLogRequestDenied, fPreviousRequest, 0); - } - parent->release(); - } - } - } - iter->release(); - } - - return IOPMNoErr; + pending = thread_call_cancel(fAckTimer); + if (pending) { + release(); + } } //********************************************************************************* -// [private] notifyControllingDriver +// [static] actionAckTimerExpired +// +// Inside PM work loop's gate. //********************************************************************************* -bool IOService::notifyControllingDriver ( void ) +IOReturn +IOService::actionAckTimerExpired( + OSObject * target, + void * arg0, void * arg1, + void * arg2, void * arg3 ) { - DriverCallParam * param; - unsigned long powerState; - - PM_ASSERT_IN_GATE(); - assert( fDriverCallBusy == false ); - assert( fDriverCallParamCount == 0 ); - assert( fControllingDriver ); - - powerState = fHeadNoteState; - if (fPowerStates[powerState].capabilityFlags & IOPMNotAttainable ) - return false; // state not attainable + IOService * me = (IOService *) target; + bool done; - param = (DriverCallParam *) fDriverCallParamPtr; - if (!param) - { - param = IONew(DriverCallParam, 1); - if (!param) - return false; // no memory + // done will be true if the timer tick unblocks the machine state, + // otherwise no need to signal the work loop. - fDriverCallParamPtr = (void *) param; - fDriverCallParamSlots = 1; + done = me->ackTimerTick(); + if (done && gIOPMWorkQueue) { + gIOPMWorkQueue->signalWorkAvailable(); } - param->Target = fControllingDriver; - fDriverCallParamCount = 1; - - fDriverTimer = -1; - - // Machine state for this object will stall waiting for a reply - // from the callout thread. - - PM_LOCK(); - fDriverCallBusy = true; - PM_UNLOCK(); - thread_call_enter( fDriverCallEntry ); - return true; + return kIOReturnSuccess; } //********************************************************************************* -// [private] notifyControllingDriverDone +// ack_timer_expired +// +// Thread call function. Holds a retain while the callout is in flight. //********************************************************************************* -void IOService::notifyControllingDriverDone( void ) +void +IOService::ack_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 ) { - DriverCallParam * param; - IOReturn result; - - PM_ASSERT_IN_GATE(); - param = (DriverCallParam *) fDriverCallParamPtr; - - assert( fDriverCallBusy == false ); - assert( fMachineState == kIOPM_DriverThreadCallDone ); - - if (param) - { - assert(fDriverCallParamCount == 1); - - // the return value from setPowerState() - result = param->Result; - - if ((result == IOPMAckImplied) || (result < 0)) - { - // child return IOPMAckImplied - fDriverTimer = 0; - } - else if (fDriverTimer) - { - assert(fDriverTimer == -1); + IOService * me = (IOService *) arg0; - // Driver has not acked, and has returned a positive result. - // Enforce a minimum permissible timeout value. - // Make the min value large enough so timeout is less likely - // to occur if a driver misinterpreted that the return value - // should be in microsecond units. And make it large enough - // to be noticeable if a driver neglects to ack. + if (gIOPMWorkLoop) { + gIOPMWorkLoop->runAction(&actionAckTimerExpired, me); + } + me->release(); +} - if (result < kMinAckTimeoutTicks) - result = kMinAckTimeoutTicks; - fDriverTimer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1; - } - // else, child has already acked and driver_timer reset to 0. +// MARK: - +// MARK: Client Messaging - fDriverCallParamCount = 0; +//********************************************************************************* +// [private] tellSystemCapabilityChange +//********************************************************************************* - if ( fDriverTimer ) - { - OUR_PMLog(kPMLogStartAckTimer, 0, 0); - start_ack_timer(); - } +void +IOService::tellSystemCapabilityChange( uint32_t nextMS ) +{ + MS_PUSH( nextMS ); + fMachineState = kIOPM_TellCapabilityChangeDone; + fOutOfBandMessage = kIOMessageSystemCapabilityChange; + + if (fIsPreChange) { + // Notify app first on pre-change. + fOutOfBandParameter = kNotifyCapabilityChangeApps; + } else { + // Notify kernel clients first on post-change. + fOutOfBandParameter = kNotifyCapabilityChangePriority; } - // Hop back to original machine state path. - fMachineState = fNextMachineState; + tellClientsWithResponse( fOutOfBandMessage ); } //********************************************************************************* -// [public virtual] askChangeDown +// [public] askChangeDown // // Ask registered applications and kernel clients if we can change to a lower // power state. @@ -4354,13 +5659,14 @@ void IOService::notifyControllingDriverDone( void ) // Return true if we don't have to wait for acknowledgements //********************************************************************************* -bool IOService::askChangeDown ( unsigned long stateNum ) +bool +IOService::askChangeDown( unsigned long stateNum ) { - return tellClientsWithResponse( kIOMessageCanDevicePowerOff ); + return tellClientsWithResponse( kIOMessageCanDevicePowerOff ); } //********************************************************************************* -// [public] tellChangeDown1 +// [private] tellChangeDown1 // // Notify registered applications and kernel clients that we are definitely // dropping power. @@ -4368,28 +5674,30 @@ bool IOService::askChangeDown ( unsigned long stateNum ) // Return true if we don't have to wait for acknowledgements //********************************************************************************* -bool IOService::tellChangeDown1 ( unsigned long stateNum ) +bool +IOService::tellChangeDown1( unsigned long stateNum ) { - fOutOfBandParameter = kNotifyApps; - return tellChangeDown(stateNum); + fOutOfBandParameter = kNotifyApps; + return tellChangeDown(stateNum); } //********************************************************************************* -// [public] tellChangeDown2 +// [private] tellChangeDown2 // // Notify priority clients that we are definitely dropping power. // // Return true if we don't have to wait for acknowledgements //********************************************************************************* -bool IOService::tellChangeDown2 ( unsigned long stateNum ) +bool +IOService::tellChangeDown2( unsigned long stateNum ) { - fOutOfBandParameter = kNotifyPriority; - return tellChangeDown(stateNum); + fOutOfBandParameter = kNotifyPriority; + return tellChangeDown(stateNum); } //********************************************************************************* -// [public virtual] tellChangeDown +// [public] tellChangeDown // // Notify registered applications and kernel clients that we are definitely // dropping power. @@ -4400,9 +5708,10 @@ bool IOService::tellChangeDown2 ( unsigned long stateNum ) // Return true if we don't have to wait for acknowledgements //********************************************************************************* -bool IOService::tellChangeDown ( unsigned long stateNum ) +bool +IOService::tellChangeDown( unsigned long stateNum ) { - return tellClientsWithResponse( kIOMessageDeviceWillPowerOff ); + return tellClientsWithResponse( kIOMessageDeviceWillPowerOff ); } //********************************************************************************* @@ -4410,61 +5719,98 @@ bool IOService::tellChangeDown ( unsigned long stateNum ) // //********************************************************************************* -static void logAppTimeouts ( OSObject * object, void * context) -{ - struct context *theContext = (struct context *)context; - OSObject *flag; - - if( !OSDynamicCast( IOService, object) ) { - flag = theContext->responseFlags->getObject(theContext->counter); - if (kOSBooleanTrue != flag) - { - OSString * clientID = 0; - theContext->us->messageClient(theContext->msgType, object, &clientID); - PM_ERROR(theContext->errorLog, clientID ? clientID->getCStringNoCopy() : ""); - if (clientID) - clientID->release(); - } - theContext->counter += 1; - } -} +static void +logAppTimeouts( OSObject * object, void * arg ) +{ + IOPMInterestContext * context = (IOPMInterestContext *) arg; + OSObject * flag; + unsigned int clientIndex; + int pid = 0; + char name[128]; + + if (OSDynamicCast(_IOServiceInterestNotifier, object)) { + // Discover the 'counter' value or index assigned to this client + // when it was notified, by searching for the array index of the + // client in an array holding the cached interested clients. + + clientIndex = context->notifyClients->getNextIndexOfObject(object, 0); + + if ((clientIndex != (unsigned int) -1) && + (flag = context->responseArray->getObject(clientIndex)) && + (flag != kOSBooleanTrue)) { + OSNumber *clientID = copyClientIDForNotification(object, context); + + name[0] = '\0'; + if (clientID) { + pid = clientID->unsigned32BitValue(); + proc_name(pid, name, sizeof(name)); + clientID->release(); + } -void IOService::cleanClientResponses ( bool logErrors ) -{ - struct context theContext; + PM_ERROR(context->errorLog, pid, name); - if (logErrors && fResponseArray) { - theContext.responseFlags = fResponseArray; - theContext.serialNumber = fSerialNumber; - theContext.counter = 0; - theContext.msgType = kIOMessageCopyClientID; - theContext.us = this; - theContext.maxTimeRequested = 0; - theContext.stateNumber = fHeadNoteState; - theContext.stateFlags = fHeadNoteCapabilityFlags; - theContext.errorLog = "PM notification timeout (%s)\n"; + // TODO: record message type if possible + IOService::getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsResponseTimedOut, + name, 0, (30 * 1000), pid, object); + } + } +} - switch ( fOutOfBandParameter ) { - case kNotifyApps: - applyToInterested(gIOAppPowerStateInterest, logAppTimeouts, (void *) &theContext); - case kNotifyPriority: - default: - break; - } - } +void +IOService::cleanClientResponses( bool logErrors ) +{ + if (logErrors && fResponseArray) { + switch (fOutOfBandParameter) { + case kNotifyApps: + case kNotifyCapabilityChangeApps: + if (fNotifyClientArray) { + IOPMInterestContext context; + + context.responseArray = fResponseArray; + context.notifyClients = fNotifyClientArray; + context.serialNumber = fSerialNumber; + context.messageType = kIOMessageCopyClientID; + context.notifyType = kNotifyApps; + context.isPreChange = fIsPreChange; + context.enableTracing = false; + context.us = this; + context.maxTimeRequested = 0; + context.stateNumber = fHeadNotePowerState; + context.stateFlags = fHeadNotePowerArrayEntry->capabilityFlags; + context.changeFlags = fHeadNoteChangeFlags; + context.errorLog = "PM notification timeout (pid %d, %s)\n"; + + applyToInterested(gIOAppPowerStateInterest, logAppTimeouts, (void *) &context); + } + break; - if (fResponseArray) - { - // get rid of this stuff - fResponseArray->release(); - fResponseArray = NULL; - } + default: + // kNotifyPriority, kNotifyCapabilityChangePriority + // TODO: identify the priority client that has not acked + PM_ERROR("PM priority notification timeout\n"); + if (gIOKitDebug & kIOLogDebugPower) { + panic("PM priority notification timeout"); + } + break; + } + } - return; + if (IS_ROOT_DOMAIN) { + getPMRootDomain()->reset_watchdog_timer(this, 0); + } + if (fResponseArray) { + fResponseArray->release(); + fResponseArray = NULL; + } + if (fNotifyClientArray) { + fNotifyClientArray->release(); + fNotifyClientArray = NULL; + } } //********************************************************************************* -// [public] tellClientsWithResponse +// [protected] tellClientsWithResponse // // Notify registered applications and kernel clients that we are definitely // dropping power. @@ -4472,51 +5818,149 @@ void IOService::cleanClientResponses ( bool logErrors ) // Return true if we don't have to wait for acknowledgements //********************************************************************************* -bool IOService::tellClientsWithResponse ( int messageType ) +bool +IOService::tellClientsWithResponse( int messageType ) { - struct context theContext; + IOPMInterestContext context; + bool isRootDomain = IS_ROOT_DOMAIN; + uint32_t maxTimeOut = kMaxTimeRequested; PM_ASSERT_IN_GATE(); + assert( fResponseArray == NULL ); + assert( fNotifyClientArray == NULL ); + + if (messageType == (int)kIOPMMessageLastCallBeforeSleep) { + RD_LOG("tellClientsWithResponse( kIOPMMessageLastCallBeforeSleep, %d )\n", + fOutOfBandParameter); + } else { + RD_LOG("tellClientsWithResponse( %s, %d )\n", + getIOMessageString(messageType), fOutOfBandParameter); + } + + fResponseArray = OSArray::withCapacity( 1 ); + if (!fResponseArray) { + goto exit; + } + + fResponseArray->setCapacityIncrement(8); + if (++fSerialNumber == 0) { + fSerialNumber++; + } + + context.responseArray = fResponseArray; + context.notifyClients = NULL; + context.serialNumber = fSerialNumber; + context.messageType = messageType; + context.notifyType = fOutOfBandParameter; + context.skippedInDark = 0; + context.notSkippedInDark = 0; + context.isPreChange = fIsPreChange; + context.enableTracing = false; + context.us = this; + context.maxTimeRequested = 0; + context.stateNumber = fHeadNotePowerState; + context.stateFlags = fHeadNotePowerArrayEntry->capabilityFlags; + context.changeFlags = fHeadNoteChangeFlags; + context.messageFilter = (isRootDomain) ? + OSMemberFunctionCast( + IOPMMessageFilter, + this, + &IOPMrootDomain::systemMessageFilter) : NULL; + + switch (fOutOfBandParameter) { + case kNotifyApps: + applyToInterested( gIOAppPowerStateInterest, + pmTellAppWithResponse, (void *) &context ); + + if (isRootDomain && + (fMachineState != kIOPM_OurChangeTellClientsPowerDown) && + (fMachineState != kIOPM_SyncTellClientsPowerDown) && + (context.messageType != kIOPMMessageLastCallBeforeSleep)) { + // Notify capability app for tellChangeDown1() + // but not for askChangeDown(). + context.notifyType = kNotifyCapabilityChangeApps; + context.messageType = kIOMessageSystemCapabilityChange; + applyToInterested( gIOAppPowerStateInterest, + pmTellCapabilityAppWithResponse, (void *) &context ); + context.notifyType = fOutOfBandParameter; + context.messageType = messageType; + } + if (context.messageType == kIOMessageCanSystemSleep) { + maxTimeOut = kCanSleepMaxTimeReq; + if (gCanSleepTimeout) { + maxTimeOut = (gCanSleepTimeout * us_per_s); + } + } + context.maxTimeRequested = maxTimeOut; + context.enableTracing = isRootDomain; + applyToInterested( gIOGeneralInterest, + pmTellClientWithResponse, (void *) &context ); + + break; + + case kNotifyPriority: + context.enableTracing = isRootDomain; + applyToInterested( gIOPriorityPowerStateInterest, + pmTellClientWithResponse, (void *) &context ); + + if (isRootDomain) { + // Notify capability clients for tellChangeDown2(). + context.notifyType = kNotifyCapabilityChangePriority; + context.messageType = kIOMessageSystemCapabilityChange; + applyToInterested( gIOPriorityPowerStateInterest, + pmTellCapabilityClientWithResponse, (void *) &context ); + } + break; + + case kNotifyCapabilityChangeApps: + applyToInterested( gIOAppPowerStateInterest, + pmTellCapabilityAppWithResponse, (void *) &context ); + if (context.messageType == kIOMessageCanSystemSleep) { + maxTimeOut = kCanSleepMaxTimeReq; + if (gCanSleepTimeout) { + maxTimeOut = (gCanSleepTimeout * us_per_s); + } + } + context.maxTimeRequested = maxTimeOut; + break; + + case kNotifyCapabilityChangePriority: + context.enableTracing = isRootDomain; + applyToInterested( gIOPriorityPowerStateInterest, + pmTellCapabilityClientWithResponse, (void *) &context ); + break; + } + fNotifyClientArray = context.notifyClients; + + if (context.skippedInDark) { + IOLog("tellClientsWithResponse(%s, %d) %d of %d skipped in dark\n", + getIOMessageString(messageType), fOutOfBandParameter, + context.skippedInDark, context.skippedInDark + context.notSkippedInDark); + } + + // do we have to wait for somebody? + if (!checkForDone()) { + OUR_PMLog(kPMLogStartAckTimer, context.maxTimeRequested, 0); + if (context.enableTracing) { + getPMRootDomain()->traceDetail(context.messageType, 0, context.maxTimeRequested / 1000); + getPMRootDomain()->reset_watchdog_timer(this, context.maxTimeRequested / USEC_PER_SEC + 1); + } + start_ack_timer( context.maxTimeRequested / 1000, kMillisecondScale ); + return false; + } + +exit: + // everybody responded + if (fResponseArray) { + fResponseArray->release(); + fResponseArray = NULL; + } + if (fNotifyClientArray) { + fNotifyClientArray->release(); + fNotifyClientArray = NULL; + } - fResponseArray = OSArray::withCapacity( 1 ); - fSerialNumber += 1; - - theContext.responseFlags = fResponseArray; - theContext.serialNumber = fSerialNumber; - theContext.counter = 0; - theContext.msgType = messageType; - theContext.us = this; - theContext.maxTimeRequested = 0; - theContext.stateNumber = fHeadNoteState; - theContext.stateFlags = fHeadNoteCapabilityFlags; - - switch ( fOutOfBandParameter ) { - case kNotifyApps: - applyToInterested(gIOAppPowerStateInterest, - pmTellAppWithResponse, (void *)&theContext); - applyToInterested(gIOGeneralInterest, - pmTellClientWithResponse, (void *)&theContext); - break; - case kNotifyPriority: - applyToInterested(gIOPriorityPowerStateInterest, - pmTellClientWithResponse, (void *)&theContext); - break; - } - - // do we have to wait for somebody? - if ( !checkForDone() ) - { - OUR_PMLog(kPMLogStartAckTimer,theContext.maxTimeRequested, 0); - start_ack_timer( theContext.maxTimeRequested / 1000, kMillisecondScale ); - return false; - } - - // everybody responded - fResponseArray->release(); - fResponseArray = NULL; - // cleanClientResponses(false); - - return true; + return true; } //********************************************************************************* @@ -4526,118 +5970,464 @@ bool IOService::tellClientsWithResponse ( int messageType ) // cookie we can identify the response with. //********************************************************************************* -void IOService::pmTellAppWithResponse ( OSObject * object, void * context ) -{ - struct context * theContext = (struct context *) context; - IOServicePM * pwrMgt = theContext->us->pwrMgt; - AbsoluteTime now; +void +IOService::pmTellAppWithResponse( OSObject * object, void * arg ) +{ + IOPMInterestContext * context = (IOPMInterestContext *) arg; + IOServicePM * pwrMgt = context->us->pwrMgt; + uint32_t msgIndex, msgRef, msgType; + OSNumber *clientID = NULL; + proc_t proc = NULL; + boolean_t proc_suspended = FALSE; + OSObject * waitForReply = kOSBooleanTrue; +#if LOG_APP_RESPONSE_TIMES + AbsoluteTime now; +#endif + + if (!OSDynamicCast(_IOServiceInterestNotifier, object)) { + return; + } + + if (context->us == getPMRootDomain()) { + if ((clientID = copyClientIDForNotification(object, context))) { + uint32_t clientPID = clientID->unsigned32BitValue(); + clientID->release(); + proc = proc_find(clientPID); + + if (proc) { + proc_suspended = get_task_pidsuspended((task_t) proc->task); + if (proc_suspended) { + logClientIDForNotification(object, context, "PMTellAppWithResponse - Suspended"); +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + } else if (getPMRootDomain()->isAOTMode() && get_task_suspended((task_t) proc->task)) { + proc_suspended = true; + context->skippedInDark++; +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + } + proc_rele(proc); + if (proc_suspended) { + return; + } + } + } + } + + if (context->messageFilter && + !context->messageFilter(context->us, object, context, NULL, &waitForReply)) { + if (kIOLogDebugPower & gIOKitDebug) { + logClientIDForNotification(object, context, "DROP App"); + } + return; + } + context->notSkippedInDark++; - if( OSDynamicCast( IOService, object) ) - { - // Automatically 'ack' in kernel clients - theContext->responseFlags->setObject(theContext->counter, kOSBooleanTrue); + // Create client array (for tracking purposes) only if the service + // has app clients. Usually only root domain does. + if (NULL == context->notifyClients) { + context->notifyClients = OSArray::withCapacity( 32 ); + } - const char *who = ((IOService *) object)->getName(); - fPlatform->PMLog(who, - kPMLogClientAcknowledge, theContext->msgType, * (UInt32 *) object); - } else { - UInt32 refcon = ((theContext->serialNumber & 0xFFFF)<<16) - + (theContext->counter & 0xFFFF); - OUR_PMLog(kPMLogAppNotify, theContext->msgType, refcon); + msgType = context->messageType; + msgIndex = context->responseArray->getCount(); + msgRef = ((context->serialNumber & 0xFFFF) << 16) + (msgIndex & 0xFFFF); -#if LOG_APP_RESPONSE_TIMES - OSNumber * num; - clock_get_uptime(&now); - num = OSNumber::withNumber(AbsoluteTime_to_scalar(&now), sizeof(uint64_t) * 8); - if (num) - { - theContext->responseFlags->setObject(theContext->counter, num); - num->release(); - } - else -#endif - theContext->responseFlags->setObject(theContext->counter, kOSBooleanFalse); + OUR_PMLog(kPMLogAppNotify, msgType, msgRef); + if (kIOLogDebugPower & gIOKitDebug) { + logClientIDForNotification(object, context, "MESG App"); + } + + if (waitForReply == kOSBooleanTrue) { + OSNumber * num; + clock_get_uptime(&now); + num = OSNumber::withNumber(AbsoluteTime_to_scalar(&now), sizeof(uint64_t) * 8); + if (num) { + context->responseArray->setObject(msgIndex, num); + num->release(); + } else { + context->responseArray->setObject(msgIndex, kOSBooleanFalse); + } + } else { + context->responseArray->setObject(msgIndex, kOSBooleanTrue); + if (kIOLogDebugPower & gIOKitDebug) { + logClientIDForNotification(object, context, "App response ignored"); + } + } - theContext->us->messageClient(theContext->msgType, object, (void *)refcon); - if ( theContext->maxTimeRequested < k30seconds ) - { - theContext->maxTimeRequested = k30seconds; - } + if (context->notifyClients) { + context->notifyClients->setObject(msgIndex, object); + } - theContext->counter += 1; - } + context->us->messageClient(msgType, object, (void *)(uintptr_t) msgRef); } //********************************************************************************* // [static private] pmTellClientWithResponse // -// We send a message to an in-kernel client, and we expect a response, so we compute a -// cookie we can identify the response with. -// If it doesn't understand the notification (it is not power-management savvy) -// we won't wait for it to prepare for sleep. If it tells us via a return code -// in the passed struct that it is currently ready, we won't wait for it to prepare. -// If it tells us via the return code in the struct that it does need time, we will chill. +// We send a message to an in-kernel client, and we expect a response, +// so we compute a cookie we can identify the response with. +//********************************************************************************* + +void +IOService::pmTellClientWithResponse( OSObject * object, void * arg ) +{ + IOPowerStateChangeNotification notify; + IOPMInterestContext * context = (IOPMInterestContext *) arg; + OSObject * replied = kOSBooleanTrue; + _IOServiceInterestNotifier * notifier; + uint32_t msgIndex, msgRef, msgType; + IOReturn retCode; + AbsoluteTime start, end; + uint64_t nsec; + + if (context->messageFilter && + !context->messageFilter(context->us, object, context, NULL, NULL)) { + if ((kIOLogDebugPower & gIOKitDebug) && + (OSDynamicCast(_IOServiceInterestNotifier, object))) { + _IOServiceInterestNotifier *n = (_IOServiceInterestNotifier *) object; + PM_LOG("%s DROP Client %s, notifier %p, handler %p\n", + context->us->getName(), + getIOMessageString(context->messageType), + OBFUSCATE(object), OBFUSCATE(n->handler)); + } + return; + } + + notifier = OSDynamicCast(_IOServiceInterestNotifier, object); + msgType = context->messageType; + msgIndex = context->responseArray->getCount(); + msgRef = ((context->serialNumber & 0xFFFF) << 16) + (msgIndex & 0xFFFF); + + IOServicePM * pwrMgt = context->us->pwrMgt; + if (gIOKitDebug & kIOLogPower) { + OUR_PMLog(kPMLogClientNotify, msgRef, msgType); + if (OSDynamicCast(IOService, object)) { + const char *who = ((IOService *) object)->getName(); + gPlatform->PMLog(who, kPMLogClientNotify, (uintptr_t) object, 0); + } else if (notifier) { + OUR_PMLog(kPMLogClientNotify, (uintptr_t) notifier->handler, 0); + } + } + if ((kIOLogDebugPower & gIOKitDebug) && notifier) { + PM_LOG("%s MESG Client %s, notifier %p, handler %p\n", + context->us->getName(), + getIOMessageString(msgType), + OBFUSCATE(object), OBFUSCATE(notifier->handler)); + } + + if (NULL == context->notifyClients) { + context->notifyClients = OSArray::withCapacity( 32 ); + } + + notify.powerRef = (void *)(uintptr_t) msgRef; + notify.returnValue = 0; + notify.stateNumber = context->stateNumber; + notify.stateFlags = context->stateFlags; + + if (context->enableTracing && (notifier != NULL)) { + getPMRootDomain()->traceDetail(notifier, true); + } + + clock_get_uptime(&start); + retCode = context->us->messageClient(msgType, object, (void *) ¬ify, sizeof(notify)); + clock_get_uptime(&end); + + if (context->enableTracing && (notifier != NULL)) { + getPMRootDomain()->traceDetail(notifier, false); + } + + + if (kIOReturnSuccess == retCode) { + if (0 == notify.returnValue) { + OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object); + context->responseArray->setObject(msgIndex, replied); + } else { + replied = kOSBooleanFalse; + if (notify.returnValue > context->maxTimeRequested) { + if (notify.returnValue > kPriorityClientMaxWait) { + context->maxTimeRequested = kPriorityClientMaxWait; + PM_ERROR("%s: client %p returned %llu for %s\n", + context->us->getName(), + notifier ? (void *) OBFUSCATE(notifier->handler) : OBFUSCATE(object), + (uint64_t) notify.returnValue, + getIOMessageString(msgType)); + } else { + context->maxTimeRequested = notify.returnValue; + } + } + // + // Track time taken to ack, by storing the timestamp of + // callback completion + OSNumber * num; + num = OSNumber::withNumber(AbsoluteTime_to_scalar(&end), sizeof(uint64_t) * 8); + if (num) { + context->responseArray->setObject(msgIndex, num); + num->release(); + } else { + context->responseArray->setObject(msgIndex, replied); + } + } + + if (context->enableTracing) { + SUB_ABSOLUTETIME(&end, &start); + absolutetime_to_nanoseconds(end, &nsec); + + if ((nsec > LOG_KEXT_RESPONSE_TIMES) || (notify.returnValue != 0)) { + getPMRootDomain()->traceAckDelay(notifier, notify.returnValue / 1000, NS_TO_MS(nsec)); + } + } + } else { + // not a client of ours + // so we won't be waiting for response + OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0); + context->responseArray->setObject(msgIndex, replied); + } + if (context->notifyClients) { + context->notifyClients->setObject(msgIndex, object); + } +} + +//********************************************************************************* +// [static private] pmTellCapabilityAppWithResponse +//********************************************************************************* + +void +IOService::pmTellCapabilityAppWithResponse( OSObject * object, void * arg ) +{ + IOPMSystemCapabilityChangeParameters msgArg; + IOPMInterestContext * context = (IOPMInterestContext *) arg; + OSObject * replied = kOSBooleanTrue; + IOServicePM * pwrMgt = context->us->pwrMgt; + uint32_t msgIndex, msgRef, msgType; +#if LOG_APP_RESPONSE_TIMES + AbsoluteTime now; +#endif + + if (!OSDynamicCast(_IOServiceInterestNotifier, object)) { + return; + } + + memset(&msgArg, 0, sizeof(msgArg)); + if (context->messageFilter && + !context->messageFilter(context->us, object, context, &msgArg, &replied)) { + return; + } + + if (context->us == getPMRootDomain() && +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + getPMRootDomain()->isAOTMode() +#else /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + false +#endif /* (defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + ) { + OSNumber *clientID = NULL; + boolean_t proc_suspended = FALSE; + proc_t proc = NULL; + if ((clientID = copyClientIDForNotification(object, context))) { + uint32_t clientPID = clientID->unsigned32BitValue(); + clientID->release(); + proc = proc_find(clientPID); + if (proc) { + proc_suspended = get_task_pidsuspended((task_t) proc->task); + if (proc_suspended) { + logClientIDForNotification(object, context, "PMTellCapablityAppWithResponse - Suspended"); + } else if (get_task_suspended((task_t) proc->task)) { + proc_suspended = true; + context->skippedInDark++; + } + proc_rele(proc); + if (proc_suspended) { + return; + } + } + } + } + context->notSkippedInDark++; + + // Create client array (for tracking purposes) only if the service + // has app clients. Usually only root domain does. + if (NULL == context->notifyClients) { + context->notifyClients = OSArray::withCapacity( 32 ); + } + + msgType = context->messageType; + msgIndex = context->responseArray->getCount(); + msgRef = ((context->serialNumber & 0xFFFF) << 16) + (msgIndex & 0xFFFF); + + OUR_PMLog(kPMLogAppNotify, msgType, msgRef); + if (kIOLogDebugPower & gIOKitDebug) { + // Log client pid/name and client array index. + OSNumber * clientID = NULL; + OSString * clientIDString = NULL;; + context->us->messageClient(kIOMessageCopyClientID, object, &clientID); + if (clientID) { + clientIDString = IOCopyLogNameForPID(clientID->unsigned32BitValue()); + } + + PM_LOG("%s MESG App(%u) %s, wait %u, %s\n", + context->us->getName(), + msgIndex, getIOMessageString(msgType), + (replied != kOSBooleanTrue), + clientIDString ? clientIDString->getCStringNoCopy() : ""); + if (clientID) { + clientID->release(); + } + if (clientIDString) { + clientIDString->release(); + } + } + + msgArg.notifyRef = msgRef; + msgArg.maxWaitForReply = 0; + + if (replied == kOSBooleanTrue) { + msgArg.notifyRef = 0; + context->responseArray->setObject(msgIndex, kOSBooleanTrue); + if (context->notifyClients) { + context->notifyClients->setObject(msgIndex, kOSBooleanTrue); + } + } else { + OSNumber * num; + clock_get_uptime(&now); + num = OSNumber::withNumber(AbsoluteTime_to_scalar(&now), sizeof(uint64_t) * 8); + if (num) { + context->responseArray->setObject(msgIndex, num); + num->release(); + } else { + context->responseArray->setObject(msgIndex, kOSBooleanFalse); + } + + if (context->notifyClients) { + context->notifyClients->setObject(msgIndex, object); + } + } + + context->us->messageClient(msgType, object, (void *) &msgArg, sizeof(msgArg)); +} + +//********************************************************************************* +// [static private] pmTellCapabilityClientWithResponse //********************************************************************************* -void IOService::pmTellClientWithResponse ( OSObject * object, void * context ) -{ - struct context *theContext = (struct context *)context; - IOPowerStateChangeNotification notify; - UInt32 refcon; - IOReturn retCode; - OSObject *theFlag; +void +IOService::pmTellCapabilityClientWithResponse( + OSObject * object, void * arg ) +{ + IOPMSystemCapabilityChangeParameters msgArg; + IOPMInterestContext * context = (IOPMInterestContext *) arg; + OSObject * replied = kOSBooleanTrue; + _IOServiceInterestNotifier * notifier; + uint32_t msgIndex, msgRef, msgType; + IOReturn retCode; + AbsoluteTime start, end; + uint64_t nsec; + + memset(&msgArg, 0, sizeof(msgArg)); + if (context->messageFilter && + !context->messageFilter(context->us, object, context, &msgArg, NULL)) { + if ((kIOLogDebugPower & gIOKitDebug) && + (OSDynamicCast(_IOServiceInterestNotifier, object))) { + _IOServiceInterestNotifier *n = (_IOServiceInterestNotifier *) object; + PM_LOG("%s DROP Client %s, notifier %p, handler %p\n", + context->us->getName(), + getIOMessageString(context->messageType), + OBFUSCATE(object), OBFUSCATE(n->handler)); + } + return; + } + + if (NULL == context->notifyClients) { + context->notifyClients = OSArray::withCapacity( 32 ); + } + notifier = OSDynamicCast(_IOServiceInterestNotifier, object); + msgType = context->messageType; + msgIndex = context->responseArray->getCount(); + msgRef = ((context->serialNumber & 0xFFFF) << 16) + (msgIndex & 0xFFFF); + + IOServicePM * pwrMgt = context->us->pwrMgt; + if (gIOKitDebug & kIOLogPower) { + OUR_PMLog(kPMLogClientNotify, msgRef, msgType); + if (OSDynamicCast(IOService, object)) { + const char *who = ((IOService *) object)->getName(); + gPlatform->PMLog(who, kPMLogClientNotify, (uintptr_t) object, 0); + } else if (notifier) { + OUR_PMLog(kPMLogClientNotify, (uintptr_t) notifier->handler, 0); + } + } + if ((kIOLogDebugPower & gIOKitDebug) && notifier) { + PM_LOG("%s MESG Client %s, notifier %p, handler %p\n", + context->us->getName(), + getIOMessageString(msgType), + OBFUSCATE(object), OBFUSCATE(notifier->handler)); + } + + msgArg.notifyRef = msgRef; + msgArg.maxWaitForReply = 0; + + if (context->enableTracing && (notifier != NULL)) { + getPMRootDomain()->traceDetail(notifier, true); + } + + clock_get_uptime(&start); + retCode = context->us->messageClient( + msgType, object, (void *) &msgArg, sizeof(msgArg)); + clock_get_uptime(&end); + if (context->enableTracing && (notifier != NULL)) { + getPMRootDomain()->traceDetail(notifier, false); + } + + if (kIOReturnSuccess == retCode) { + if (0 == msgArg.maxWaitForReply) { + // client doesn't want time to respond + OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object); + context->responseArray->setObject(msgIndex, replied); + } else { + replied = kOSBooleanFalse; + if (msgArg.maxWaitForReply > context->maxTimeRequested) { + if (msgArg.maxWaitForReply > kCapabilityClientMaxWait) { + context->maxTimeRequested = kCapabilityClientMaxWait; + PM_ERROR("%s: client %p returned %u for %s\n", + context->us->getName(), + notifier ? (void *) OBFUSCATE(notifier->handler) : OBFUSCATE(object), + msgArg.maxWaitForReply, + getIOMessageString(msgType)); + } else { + context->maxTimeRequested = msgArg.maxWaitForReply; + } + } + + // Track time taken to ack, by storing the timestamp of + // callback completion + OSNumber * num; + num = OSNumber::withNumber(AbsoluteTime_to_scalar(&end), sizeof(uint64_t) * 8); + if (num) { + context->responseArray->setObject(msgIndex, num); + num->release(); + } else { + context->responseArray->setObject(msgIndex, replied); + } + } - refcon = ((theContext->serialNumber & 0xFFFF)<<16) + (theContext->counter & 0xFFFF); - theContext->responseFlags->setObject(theContext->counter, kOSBooleanFalse); + if (context->enableTracing) { + SUB_ABSOLUTETIME(&end, &start); + absolutetime_to_nanoseconds(end, &nsec); - IOServicePM * pwrMgt = theContext->us->pwrMgt; - if (gIOKitDebug & kIOLogPower) { - OUR_PMLog(kPMLogClientNotify, refcon, (UInt32) theContext->msgType); - if (OSDynamicCast(IOService, object)) { - const char *who = ((IOService *) object)->getName(); - fPlatform->PMLog(who, - kPMLogClientNotify, * (UInt32 *) object, (UInt32) object); - } else if (OSDynamicCast(_IOServiceInterestNotifier, object)) { - _IOServiceInterestNotifier *n = (_IOServiceInterestNotifier *) object; - OUR_PMLog(kPMLogClientNotify, (UInt32) n->handler, 0); - } - } - - notify.powerRef = (void *)refcon; - notify.returnValue = 0; - notify.stateNumber = theContext->stateNumber; - notify.stateFlags = theContext->stateFlags; - retCode = theContext->us->messageClient(theContext->msgType,object,(void *)¬ify); - if ( retCode == kIOReturnSuccess ) - { - if ( notify.returnValue == 0 ) - { - // client doesn't want time to respond - theContext->responseFlags->replaceObject(theContext->counter, kOSBooleanTrue); - OUR_PMLog(kPMLogClientAcknowledge, refcon, (UInt32) object); - } else { - // it does want time, and it hasn't responded yet - theFlag = theContext->responseFlags->getObject(theContext->counter); - if ( kOSBooleanTrue != theFlag ) - { - // so note its time requirement - if ( theContext->maxTimeRequested < notify.returnValue ) - { - theContext->maxTimeRequested = notify.returnValue; - } - } - } - } else { - OUR_PMLog(kPMLogClientAcknowledge, refcon, 0); - // not a client of ours - // so we won't be waiting for response - theContext->responseFlags->replaceObject(theContext->counter, kOSBooleanTrue); - } - theContext->counter += 1; -} - -//********************************************************************************* -// [public virtual] tellNoChangeDown + if ((nsec > LOG_KEXT_RESPONSE_TIMES) || (msgArg.maxWaitForReply != 0)) { + getPMRootDomain()->traceAckDelay(notifier, msgArg.maxWaitForReply / 1000, NS_TO_MS(nsec)); + } + } + } else { + // not a client of ours + // so we won't be waiting for response + OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0); + context->responseArray->setObject(msgIndex, replied); + } + if (context->notifyClients) { + context->notifyClients->setObject(msgIndex, object); + } +} + +//********************************************************************************* +// [public] tellNoChangeDown // // Notify registered applications and kernel clients that we are not // dropping power. @@ -4646,13 +6436,14 @@ void IOService::pmTellClientWithResponse ( OSObject * object, void * context ) // the aborted destination state number. //********************************************************************************* -void IOService::tellNoChangeDown ( unsigned long ) +void +IOService::tellNoChangeDown( unsigned long ) { - return tellClients( kIOMessageDeviceWillNotPowerOff ); + return tellClients( kIOMessageDeviceWillNotPowerOff ); } //********************************************************************************* -// [public virtual] tellChangeUp +// [public] tellChangeUp // // Notify registered applications and kernel clients that we are raising power. // @@ -4660,481 +6451,853 @@ void IOService::tellNoChangeDown ( unsigned long ) // the aborted destination state number. //********************************************************************************* -void IOService::tellChangeUp ( unsigned long ) +void +IOService::tellChangeUp( unsigned long ) { - return tellClients( kIOMessageDeviceHasPoweredOn ); + return tellClients( kIOMessageDeviceHasPoweredOn ); } //********************************************************************************* -// [public] tellClients +// [protected] tellClients // // Notify registered applications and kernel clients of something. //********************************************************************************* -void IOService::tellClients ( int messageType ) +void +IOService::tellClients( int messageType ) { - struct context theContext; + IOPMInterestContext context; + + RD_LOG("tellClients( %s )\n", getIOMessageString(messageType)); + + memset(&context, 0, sizeof(context)); + context.messageType = messageType; + context.isPreChange = fIsPreChange; + context.us = this; + context.stateNumber = fHeadNotePowerState; + context.stateFlags = fHeadNotePowerArrayEntry->capabilityFlags; + context.changeFlags = fHeadNoteChangeFlags; + context.enableTracing = IS_ROOT_DOMAIN; + context.messageFilter = (IS_ROOT_DOMAIN) ? + OSMemberFunctionCast( + IOPMMessageFilter, + this, + &IOPMrootDomain::systemMessageFilter) : NULL; + + context.notifyType = kNotifyPriority; + applyToInterested( gIOPriorityPowerStateInterest, + tellKernelClientApplier, (void *) &context ); - theContext.msgType = messageType; - theContext.us = this; - theContext.stateNumber = fHeadNoteState; - theContext.stateFlags = fHeadNoteCapabilityFlags; + context.notifyType = kNotifyApps; + applyToInterested( gIOAppPowerStateInterest, + tellAppClientApplier, (void *) &context ); - applyToInterested(gIOPriorityPowerStateInterest,tellClient,(void *)&theContext); - applyToInterested(gIOAppPowerStateInterest,tellClient, (void *)&theContext); - applyToInterested(gIOGeneralInterest,tellClient, (void *)&theContext); + applyToInterested( gIOGeneralInterest, + tellKernelClientApplier, (void *) &context ); } //********************************************************************************* -// [global] tellClient +// [private] tellKernelClientApplier // -// Notify a registered application or kernel client of something. +// Message a kernel client. //********************************************************************************* -void tellClient ( OSObject * object, void * context ) +static void +tellKernelClientApplier( OSObject * object, void * arg ) +{ + IOPowerStateChangeNotification notify; + IOPMInterestContext * context = (IOPMInterestContext *) arg; + + if (context->messageFilter && + !context->messageFilter(context->us, object, context, NULL, NULL)) { + if ((kIOLogDebugPower & gIOKitDebug) && + (OSDynamicCast(_IOServiceInterestNotifier, object))) { + _IOServiceInterestNotifier *n = (_IOServiceInterestNotifier *) object; + PM_LOG("%s DROP Client %s, notifier %p, handler %p\n", + context->us->getName(), + IOService::getIOMessageString(context->messageType), + OBFUSCATE(object), OBFUSCATE(n->handler)); + } + return; + } + + notify.powerRef = (void *) NULL; + notify.returnValue = 0; + notify.stateNumber = context->stateNumber; + notify.stateFlags = context->stateFlags; + + if (context->enableTracing && object) { + IOService::getPMRootDomain()->traceDetail(object, true); + } + context->us->messageClient(context->messageType, object, ¬ify, sizeof(notify)); + if (context->enableTracing && object) { + IOService::getPMRootDomain()->traceDetail(object, false); + } + + + + if ((kIOLogDebugPower & gIOKitDebug) && + (OSDynamicCast(_IOServiceInterestNotifier, object))) { + _IOServiceInterestNotifier *n = (_IOServiceInterestNotifier *) object; + PM_LOG("%s MESG Client %s, notifier %p, handler %p\n", + context->us->getName(), + IOService::getIOMessageString(context->messageType), + OBFUSCATE(object), OBFUSCATE(n->handler)); + } +} + +static OSNumber * +copyClientIDForNotification( + OSObject *object, + IOPMInterestContext *context) +{ + OSNumber *clientID = NULL; + context->us->messageClient(kIOMessageCopyClientID, object, &clientID); + return clientID; +} + +static void +logClientIDForNotification( + OSObject *object, + IOPMInterestContext *context, + const char *logString) { - struct context * theContext = (struct context *) context; - IOPowerStateChangeNotification notify; + OSString *logClientID = NULL; + OSNumber *clientID = copyClientIDForNotification(object, context); + + if (logString) { + if (clientID) { + logClientID = IOCopyLogNameForPID(clientID->unsigned32BitValue()); + } + + PM_LOG("%s %s %s, %s\n", + context->us->getName(), logString, + IOService::getIOMessageString(context->messageType), + logClientID ? logClientID->getCStringNoCopy() : ""); + + if (logClientID) { + logClientID->release(); + } + } + + if (clientID) { + clientID->release(); + } + + return; +} + +static void +tellAppClientApplier( OSObject * object, void * arg ) +{ + IOPMInterestContext * context = (IOPMInterestContext *) arg; + OSNumber * clientID = NULL; + proc_t proc = NULL; + boolean_t proc_suspended = FALSE; + + if (context->us == IOService::getPMRootDomain()) { + if ((clientID = copyClientIDForNotification(object, context))) { + uint32_t clientPID = clientID->unsigned32BitValue(); + clientID->release(); + proc = proc_find(clientPID); + + if (proc) { + proc_suspended = get_task_pidsuspended((task_t) proc->task); + if (proc_suspended) { + logClientIDForNotification(object, context, "tellAppClientApplier - Suspended"); +#if !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) + } else if (IOService::getPMRootDomain()->isAOTMode() && get_task_suspended((task_t) proc->task)) { + proc_suspended = true; + context->skippedInDark++; +#endif /* !(defined(RC_HIDE_N144) || defined(RC_HIDE_N146)) */ + } + proc_rele(proc); + if (proc_suspended) { + return; + } + } + } + } + + if (context->messageFilter && + !context->messageFilter(context->us, object, context, NULL, NULL)) { + if (kIOLogDebugPower & gIOKitDebug) { + logClientIDForNotification(object, context, "DROP App"); + } + return; + } + context->notSkippedInDark++; - notify.powerRef = (void *) 0; - notify.returnValue = 0; - notify.stateNumber = theContext->stateNumber; - notify.stateFlags = theContext->stateFlags; + if (kIOLogDebugPower & gIOKitDebug) { + logClientIDForNotification(object, context, "MESG App"); + } - theContext->us->messageClient(theContext->msgType, object, ¬ify); + context->us->messageClient(context->messageType, object, NULL); } //********************************************************************************* // [private] checkForDone //********************************************************************************* -bool IOService::checkForDone ( void ) +bool +IOService::checkForDone( void ) { - int i = 0; - OSObject * theFlag; + int i = 0; + OSObject * theFlag; + + if (fResponseArray == NULL) { + return true; + } + + for (i = 0;; i++) { + theFlag = fResponseArray->getObject(i); + + if (NULL == theFlag) { + break; + } - if ( fResponseArray == NULL ) - { - return true; - } - - for ( i = 0; ; i++ ) - { - theFlag = fResponseArray->getObject(i); - if ( theFlag == NULL ) - { - break; - } - if ( kOSBooleanTrue != theFlag ) - { - return false; - } - } - return true; + if (kOSBooleanTrue != theFlag) { + return false; + } + } + return true; } //********************************************************************************* // [public] responseValid //********************************************************************************* -bool IOService::responseValid ( unsigned long x, int pid ) -{ - UInt16 serialComponent; - UInt16 ordinalComponent; - OSObject * theFlag; - unsigned long refcon = (unsigned long) x; - - serialComponent = (refcon >> 16) & 0xFFFF; - ordinalComponent = (refcon & 0xFFFF); - - if ( serialComponent != fSerialNumber ) - { - return false; - } - - if ( fResponseArray == NULL ) - { - return false; - } - - theFlag = fResponseArray->getObject(ordinalComponent); - - if ( theFlag == 0 ) - { - return false; - } - - OSNumber * num; - if ((num = OSDynamicCast(OSNumber, theFlag))) - { -#if LOG_APP_RESPONSE_TIMES - AbsoluteTime now; - AbsoluteTime start; - uint64_t nsec; - - clock_get_uptime(&now); - AbsoluteTime_to_scalar(&start) = num->unsigned64BitValue(); - SUB_ABSOLUTETIME(&now, &start); - absolutetime_to_nanoseconds(now, &nsec); - - // > 100 ms - if (nsec > LOG_APP_RESPONSE_TIMES) - { - OSString * name = IOCopyLogNameForPID(pid); - PM_DEBUG("PM response took %d ms (%s)\n", NS_TO_MS(nsec), - name ? name->getCStringNoCopy() : ""); - if (name) - name->release(); - } -#endif - theFlag = kOSBooleanFalse; - } +bool +IOService::responseValid( uint32_t refcon, int pid ) +{ + UInt16 serialComponent; + UInt16 ordinalComponent; + OSObject * theFlag; + OSObject *object = NULL; + + serialComponent = (refcon >> 16) & 0xFFFF; + ordinalComponent = (refcon & 0xFFFF); + + if (serialComponent != fSerialNumber) { + return false; + } + + if (fResponseArray == NULL) { + return false; + } + + theFlag = fResponseArray->getObject(ordinalComponent); + + if (theFlag == NULL) { + return false; + } + + if (fNotifyClientArray) { + object = fNotifyClientArray->getObject(ordinalComponent); + } + + OSNumber * num; + if ((num = OSDynamicCast(OSNumber, theFlag))) { + AbsoluteTime now; + AbsoluteTime start; + uint64_t nsec; + char name[128]; + + clock_get_uptime(&now); + AbsoluteTime_to_scalar(&start) = num->unsigned64BitValue(); + SUB_ABSOLUTETIME(&now, &start); + absolutetime_to_nanoseconds(now, &nsec); + + if (pid != 0) { + name[0] = '\0'; + proc_name(pid, name, sizeof(name)); + + if (nsec > LOG_APP_RESPONSE_TIMES) { + IOLog("PM response took %d ms (%d, %s)\n", NS_TO_MS(nsec), + pid, name); + } + + + if (nsec > LOG_APP_RESPONSE_MSG_TRACER) { + // TODO: populate the messageType argument + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsResponseSlow, + name, 0, NS_TO_MS(nsec), pid, object); + } else { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsResponsePrompt, + name, 0, NS_TO_MS(nsec), pid, object); + } + } else { + getPMRootDomain()->traceAckDelay(object, 0, NS_TO_MS(nsec)); + } + + if (kIOLogDebugPower & gIOKitDebug) { + PM_LOG("Ack(%u) %u ms\n", + (uint32_t) ordinalComponent, + NS_TO_MS(nsec)); + } + theFlag = kOSBooleanFalse; + } else if (object) { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsResponsePrompt, + NULL, 0, 0, pid, object); + } + + if (kOSBooleanFalse == theFlag) { + fResponseArray->replaceObject(ordinalComponent, kOSBooleanTrue); + } - if ( kOSBooleanFalse == theFlag ) - { - fResponseArray->replaceObject(ordinalComponent, kOSBooleanTrue); - } - - return true; + return true; } //********************************************************************************* -// [public virtual] allowPowerChange +// [public] allowPowerChange // // Our power state is about to lower, and we have notified applications // and kernel clients, and one of them has acknowledged. If this is the last to do // so, and all acknowledgements are positive, we continue with the power change. -// -// We serialize this processing with timer expiration with a command gate on the -// power management workloop, which the timer expiration is command gated to as well. //********************************************************************************* -IOReturn IOService::allowPowerChange ( unsigned long refcon ) +IOReturn +IOService::allowPowerChange( unsigned long refcon ) { IOPMRequest * request; - if ( !initialized ) - { - // we're unloading - return kIOReturnSuccess; - } + if (!initialized) { + // we're unloading + return kIOReturnSuccess; + } request = acquirePMRequest( this, kIOPMRequestTypeAllowPowerChange ); - if (!request) - { - PM_ERROR("%s::%s no memory\n", getName(), __FUNCTION__); + if (!request) { return kIOReturnNoMemory; } - request->fArg0 = (void *) refcon; - request->fArg1 = (void *) proc_selfpid(); + request->fArg0 = (void *) refcon; + request->fArg1 = (void *)(uintptr_t) proc_selfpid(); + request->fArg2 = (void *) NULL; submitPMRequest( request ); return kIOReturnSuccess; } -IOReturn serializedAllowPowerChange ( OSObject *owner, void * refcon, void *, void *, void *) -{ - // [deprecated] public - return kIOReturnUnsupported; -} - -IOReturn IOService::serializedAllowPowerChange2 ( unsigned long refcon ) +#ifndef __LP64__ +IOReturn +IOService::serializedAllowPowerChange2( unsigned long refcon ) { // [deprecated] public return kIOReturnUnsupported; } +#endif /* !__LP64__ */ //********************************************************************************* -// [public virtual] cancelPowerChange +// [public] cancelPowerChange // // Our power state is about to lower, and we have notified applications // and kernel clients, and one of them has vetoed the change. If this is the last // client to respond, we abandon the power change. -// -// We serialize this processing with timer expiration with a command gate on the -// power management workloop, which the timer expiration is command gated to as well. //********************************************************************************* -IOReturn IOService::cancelPowerChange ( unsigned long refcon ) +IOReturn +IOService::cancelPowerChange( unsigned long refcon ) { - IOPMRequest * request; + IOPMRequest * request; + char name[128]; + pid_t pid = proc_selfpid(); - if ( !initialized ) - { - // we're unloading - return kIOReturnSuccess; - } + if (!initialized) { + // we're unloading + return kIOReturnSuccess; + } - OSString * name = IOCopyLogNameForPID(proc_selfpid()); - PM_ERROR("PM notification cancel (%s)\n", name ? name->getCStringNoCopy() : ""); - if (name) - name->release(); + name[0] = '\0'; + proc_name(pid, name, sizeof(name)); + PM_ERROR("PM notification cancel (pid %d, %s)\n", pid, name); request = acquirePMRequest( this, kIOPMRequestTypeCancelPowerChange ); - if (!request) - { - PM_ERROR("%s::%s no memory\n", getName(), __FUNCTION__); + if (!request) { return kIOReturnNoMemory; } - request->fArg0 = (void *) refcon; - request->fArg1 = (void *) proc_selfpid(); + request->fArg0 = (void *) refcon; + request->fArg1 = (void *)(uintptr_t) proc_selfpid(); + request->fArg2 = (void *) OSString::withCString(name); submitPMRequest( request ); return kIOReturnSuccess; } -IOReturn serializedCancelPowerChange ( OSObject *owner, void * refcon, void *, void *, void *) +//********************************************************************************* +// cancelIdlePowerDown +// +// Internal method to trigger an idle cancel or revert +//********************************************************************************* + +void +IOService::cancelIdlePowerDown( IOService * service ) { - // [deprecated] public - return kIOReturnUnsupported; + IOPMRequest * request; + + request = acquirePMRequest(service, kIOPMRequestTypeIdleCancel); + if (request) { + submitPMRequest(request); + } } -IOReturn IOService::serializedCancelPowerChange2 ( unsigned long refcon ) +#ifndef __LP64__ +IOReturn +IOService::serializedCancelPowerChange2( unsigned long refcon ) { // [deprecated] public return kIOReturnUnsupported; } -#if 0 //********************************************************************************* -// c_PM_clamp_Timer_Expired (C Func) +// PM_Clamp_Timer_Expired // -// Called when our clamp timer expires...we will call the object method. +// called when clamp timer expires...set power state to 0. //********************************************************************************* -static void c_PM_Clamp_Timer_Expired ( OSObject * client, IOTimerEventSource * ) +void +IOService::PM_Clamp_Timer_Expired( void ) { - if (client) - ((IOService *)client)->PM_Clamp_Timer_Expired (); } -#endif //********************************************************************************* -// PM_Clamp_Timer_Expired +// clampPowerOn // -// called when clamp timer expires...set power state to 0. +// Set to highest available power state for a minimum of duration milliseconds //********************************************************************************* -void IOService::PM_Clamp_Timer_Expired ( void ) +void +IOService::clampPowerOn( unsigned long duration ) { -#if 0 - if ( ! initialized ) - { - // we're unloading - return; - } +} +#endif /* !__LP64__ */ - changePowerStateToPriv (0); -#endif +//********************************************************************************* +// configurePowerStateReport +// +// Configures the IOStateReport for kPMPowerStateChannel +//********************************************************************************* +IOReturn +IOService::configurePowerStatesReport( IOReportConfigureAction action, void *result ) +{ + IOReturn rc = kIOReturnSuccess; + size_t reportSize; + unsigned long i; + uint64_t ts; + + if (!pwrMgt) { + return kIOReturnUnsupported; + } + + if (!fNumberOfPowerStates) { + return kIOReturnSuccess; // For drivers which are in power plane, but haven't called registerPowerDriver() + } + PM_LOCK(); + + switch (action) { + case kIOReportEnable: + if (fReportBuf) { + fReportClientCnt++; + break; + } + reportSize = STATEREPORT_BUFSIZE(fNumberOfPowerStates); + fReportBuf = IOMalloc(reportSize); + if (!fReportBuf) { + rc = kIOReturnNoMemory; + break; + } + memset(fReportBuf, 0, reportSize); + + STATEREPORT_INIT(fNumberOfPowerStates, fReportBuf, reportSize, + getRegistryEntryID(), kPMPowerStatesChID, kIOReportCategoryPower); + + for (i = 0; i < fNumberOfPowerStates; i++) { + unsigned bits = 0; + + if (fPowerStates[i].capabilityFlags & kIOPMPowerOn) { + bits |= kPMReportPowerOn; + } + if (fPowerStates[i].capabilityFlags & kIOPMDeviceUsable) { + bits |= kPMReportDeviceUsable; + } + if (fPowerStates[i].capabilityFlags & kIOPMLowPower) { + bits |= kPMReportLowPower; + } + + STATEREPORT_SETSTATEID(fReportBuf, i, ((bits & 0xff) << 8) | + ((StateOrder(fMaxPowerState) & 0xf) << 4) | (StateOrder(i) & 0xf)); + } + ts = mach_absolute_time(); + STATEREPORT_SETSTATE(fReportBuf, fCurrentPowerState, ts); + break; + + case kIOReportDisable: + if (fReportClientCnt == 0) { + rc = kIOReturnBadArgument; + break; + } + if (fReportClientCnt == 1) { + IOFree(fReportBuf, STATEREPORT_BUFSIZE(fNumberOfPowerStates)); + fReportBuf = NULL; + } + fReportClientCnt--; + break; + + case kIOReportGetDimensions: + if (fReportBuf) { + STATEREPORT_UPDATERES(fReportBuf, kIOReportGetDimensions, result); + } + break; + } + + PM_UNLOCK(); + + return rc; } //********************************************************************************* -// clampPowerOn +// updatePowerStateReport // -// Set to highest available power state for a minimum of duration milliseconds +// Updates the IOStateReport for kPMPowerStateChannel +//********************************************************************************* +IOReturn +IOService::updatePowerStatesReport( IOReportConfigureAction action, void *result, void *destination ) +{ + uint32_t size2cpy; + void *data2cpy; + uint64_t ts; + IOReturn rc = kIOReturnSuccess; + IOBufferMemoryDescriptor *dest = OSDynamicCast(IOBufferMemoryDescriptor, (OSObject *)destination); + + + if (!pwrMgt) { + return kIOReturnUnsupported; + } + if (!fNumberOfPowerStates) { + return kIOReturnSuccess; + } + + if (!result || !dest) { + return kIOReturnBadArgument; + } + PM_LOCK(); + + switch (action) { + case kIOReportCopyChannelData: + if (!fReportBuf) { + rc = kIOReturnNotOpen; + break; + } + + ts = mach_absolute_time(); + STATEREPORT_UPDATEPREP(fReportBuf, ts, data2cpy, size2cpy); + if (size2cpy > (dest->getCapacity() - dest->getLength())) { + rc = kIOReturnOverrun; + break; + } + + STATEREPORT_UPDATERES(fReportBuf, kIOReportCopyChannelData, result); + dest->appendBytes(data2cpy, size2cpy); + break; + + default: + break; + } + + PM_UNLOCK(); + + return rc; +} + +//********************************************************************************* +// configureSimplePowerReport +// +// Configures the IOSimpleReport for given channel id //********************************************************************************* +IOReturn +IOService::configureSimplePowerReport(IOReportConfigureAction action, void *result ) +{ + IOReturn rc = kIOReturnSuccess; + + if (!pwrMgt) { + return kIOReturnUnsupported; + } + + if (!fNumberOfPowerStates) { + return rc; + } + + switch (action) { + case kIOReportEnable: + case kIOReportDisable: + break; -#define kFiveMinutesInNanoSeconds (300 * NSEC_PER_SEC) + case kIOReportGetDimensions: + SIMPLEREPORT_UPDATERES(kIOReportGetDimensions, result); + break; + } + + + return rc; +} -void IOService::clampPowerOn ( unsigned long duration ) +//********************************************************************************* +// updateSimplePowerReport +// +// Updates the IOSimpleReport for the given chanel id +//********************************************************************************* +IOReturn +IOService::updateSimplePowerReport( IOReportConfigureAction action, void *result, void *destination ) { -#if 0 - changePowerStateToPriv (fNumberOfPowerStates-1); + uint32_t size2cpy; + void *data2cpy; + uint64_t buf[SIMPLEREPORT_BUFSIZE / sizeof(uint64_t) + 1]; // Force a 8-byte alignment + IOBufferMemoryDescriptor *dest = OSDynamicCast(IOBufferMemoryDescriptor, (OSObject *)destination); + IOReturn rc = kIOReturnSuccess; + unsigned bits = 0; + + + if (!pwrMgt) { + return kIOReturnUnsupported; + } + if (!result || !dest) { + return kIOReturnBadArgument; + } - if ( pwrMgt->clampTimerEventSrc == NULL ) { - pwrMgt->clampTimerEventSrc = IOTimerEventSource::timerEventSource(this, - c_PM_Clamp_Timer_Expired); + if (!fNumberOfPowerStates) { + return rc; + } + PM_LOCK(); - IOWorkLoop * workLoop = getPMworkloop (); + switch (action) { + case kIOReportCopyChannelData: - if ( !pwrMgt->clampTimerEventSrc || !workLoop || - ( workLoop->addEventSource( pwrMgt->clampTimerEventSrc) != kIOReturnSuccess) ) { + SIMPLEREPORT_INIT(buf, sizeof(buf), getRegistryEntryID(), kPMCurrStateChID, kIOReportCategoryPower); - } - } + if (fPowerStates[fCurrentPowerState].capabilityFlags & kIOPMPowerOn) { + bits |= kPMReportPowerOn; + } + if (fPowerStates[fCurrentPowerState].capabilityFlags & kIOPMDeviceUsable) { + bits |= kPMReportDeviceUsable; + } + if (fPowerStates[fCurrentPowerState].capabilityFlags & kIOPMLowPower) { + bits |= kPMReportLowPower; + } - pwrMgt->clampTimerEventSrc->setTimeout(300*USEC_PER_SEC, USEC_PER_SEC); -#endif + + SIMPLEREPORT_SETVALUE(buf, ((bits & 0xff) << 8) | ((StateOrder(fMaxPowerState) & 0xf) << 4) | + (StateOrder(fCurrentPowerState) & 0xf)); + + SIMPLEREPORT_UPDATEPREP(buf, data2cpy, size2cpy); + if (size2cpy > (dest->getCapacity() - dest->getLength())) { + rc = kIOReturnOverrun; + break; + } + + SIMPLEREPORT_UPDATERES(kIOReportCopyChannelData, result); + dest->appendBytes(data2cpy, size2cpy); + break; + + default: + break; + } + + PM_UNLOCK(); + + return kIOReturnSuccess; } + + +// MARK: - +// MARK: Driver Overrides + //********************************************************************************* -// [public virtual] setPowerState +// [public] setPowerState // // Does nothing here. This should be implemented in a subclass driver. //********************************************************************************* -IOReturn IOService::setPowerState ( +IOReturn +IOService::setPowerState( unsigned long powerStateOrdinal, IOService * whatDevice ) { - return IOPMNoErr; + return IOPMNoErr; } //********************************************************************************* -// [public virtual] maxCapabilityForDomainState +// [public] maxCapabilityForDomainState // -// Finds the highest power state in the array whose input power -// requirement is equal to the input parameter. Where a more intelligent -// decision is possible, override this in the subclassed driver. +// Finds the highest power state in the array whose input power requirement +// is equal to the input parameter. Where a more intelligent decision is +// possible, override this in the subclassed driver. //********************************************************************************* -unsigned long IOService::maxCapabilityForDomainState ( IOPMPowerFlags domainState ) +IOPMPowerStateIndex +IOService::getPowerStateForDomainFlags( IOPMPowerFlags flags ) { - int i; + IOPMPowerStateIndex stateIndex; - if (fNumberOfPowerStates == 0 ) - { - return 0; - } - for ( i = fNumberOfPowerStates - 1; i >= 0; i-- ) - { - if ( (domainState & fPowerStates[i].inputPowerRequirement) == - fPowerStates[i].inputPowerRequirement ) - { - return i; - } - } - return 0; + if (!fNumberOfPowerStates) { + return kPowerStateZero; + } + + for (int order = fNumberOfPowerStates - 1; order >= 0; order--) { + stateIndex = fPowerStates[order].stateOrderToIndex; + + if ((flags & fPowerStates[stateIndex].inputPowerFlags) == + fPowerStates[stateIndex].inputPowerFlags) { + return stateIndex; + } + } + return kPowerStateZero; +} + +unsigned long +IOService::maxCapabilityForDomainState( IOPMPowerFlags domainState ) +{ + return getPowerStateForDomainFlags(domainState); } //********************************************************************************* -// [public virtual] initialPowerStateForDomainState +// [public] initialPowerStateForDomainState // -// Finds the highest power state in the array whose input power -// requirement is equal to the input parameter. Where a more intelligent -// decision is possible, override this in the subclassed driver. +// Called to query the power state for the initial power transition. //********************************************************************************* -unsigned long IOService::initialPowerStateForDomainState ( IOPMPowerFlags domainState ) +unsigned long +IOService::initialPowerStateForDomainState( IOPMPowerFlags domainState ) { - int i; + if (fResetPowerStateOnWake && (domainState & kIOPMRootDomainState)) { + // Return lowest power state for any root power domain changes + return kPowerStateZero; + } - if (fNumberOfPowerStates == 0 ) - { - return 0; - } - for ( i = fNumberOfPowerStates - 1; i >= 0; i-- ) - { - if ( (domainState & fPowerStates[i].inputPowerRequirement) == - fPowerStates[i].inputPowerRequirement ) - { - return i; - } - } - return 0; + return getPowerStateForDomainFlags(domainState); } //********************************************************************************* -// [public virtual] powerStateForDomainState +// [public] powerStateForDomainState // -// Finds the highest power state in the array whose input power -// requirement is equal to the input parameter. Where a more intelligent -// decision is possible, override this in the subclassed driver. +// This method is not called from PM. //********************************************************************************* -unsigned long IOService::powerStateForDomainState ( IOPMPowerFlags domainState ) +unsigned long +IOService::powerStateForDomainState( IOPMPowerFlags domainState ) { - int i; - - if (fNumberOfPowerStates == 0 ) - { - return 0; - } - for ( i = fNumberOfPowerStates - 1; i >= 0; i-- ) - { - if ( (domainState & fPowerStates[i].inputPowerRequirement) == - fPowerStates[i].inputPowerRequirement ) - { - return i; - } - } - return 0; + return getPowerStateForDomainFlags(domainState); } +#ifndef __LP64__ //********************************************************************************* -// [public virtual] didYouWakeSystem +// [deprecated] didYouWakeSystem // // Does nothing here. This should be implemented in a subclass driver. //********************************************************************************* -bool IOService::didYouWakeSystem ( void ) +bool +IOService::didYouWakeSystem( void ) { - return false; + return false; } +#endif /* !__LP64__ */ //********************************************************************************* -// [public virtual] powerStateWillChangeTo +// [public] powerStateWillChangeTo // // Does nothing here. This should be implemented in a subclass driver. //********************************************************************************* -IOReturn IOService::powerStateWillChangeTo ( IOPMPowerFlags, unsigned long, IOService * ) +IOReturn +IOService::powerStateWillChangeTo( IOPMPowerFlags, unsigned long, IOService * ) { - return kIOPMAckImplied; + return kIOPMAckImplied; } //********************************************************************************* -// [public virtual] powerStateDidChangeTo +// [public] powerStateDidChangeTo // // Does nothing here. This should be implemented in a subclass driver. //********************************************************************************* -IOReturn IOService::powerStateDidChangeTo ( IOPMPowerFlags, unsigned long, IOService * ) +IOReturn +IOService::powerStateDidChangeTo( IOPMPowerFlags, unsigned long, IOService * ) { - return kIOPMAckImplied; + return kIOPMAckImplied; } //********************************************************************************* -// [public virtual] powerChangeDone +// [protected] powerChangeDone // // Called from PM work loop thread. // Does nothing here. This should be implemented in a subclass policy-maker. //********************************************************************************* -void IOService::powerChangeDone ( unsigned long ) +void +IOService::powerChangeDone( unsigned long ) { } +#ifndef __LP64__ //********************************************************************************* -// [public virtual] newTemperature +// [deprecated] newTemperature // // Does nothing here. This should be implemented in a subclass driver. //********************************************************************************* -IOReturn IOService::newTemperature ( long currentTemp, IOService * whichZone ) +IOReturn +IOService::newTemperature( long currentTemp, IOService * whichZone ) { - return IOPMNoErr; + return IOPMNoErr; } +#endif /* !__LP64__ */ //********************************************************************************* -// [public virtual] systemWillShutdown +// [public] systemWillShutdown // // System shutdown and restart notification. //********************************************************************************* -void IOService::systemWillShutdown( IOOptionBits specifier ) +void +IOService::systemWillShutdown( IOOptionBits specifier ) { IOPMrootDomain * rootDomain = IOService::getPMRootDomain(); - if (rootDomain) + if (rootDomain) { rootDomain->acknowledgeSystemWillShutdown( this ); + } } +// MARK: - +// MARK: PM State Machine + //********************************************************************************* // [private static] acquirePMRequest //********************************************************************************* IOPMRequest * -IOService::acquirePMRequest( IOService * target, IOOptionBits requestType ) +IOService::acquirePMRequest( IOService * target, IOOptionBits requestType, + IOPMRequest * active ) { IOPMRequest * request; assert(target); request = IOPMRequest::create(); - if (request) - { + if (request) { request->init( target, requestType ); + if (active) { + IOPMRequest * root = active->getRootRequest(); + if (root) { + request->attachRootRequest(root); + } + } + } else { + PM_ERROR("%s: No memory for PM request type 0x%x\n", + target->getName(), (uint32_t) requestType); } return request; } @@ -5143,158 +7306,153 @@ IOService::acquirePMRequest( IOService * target, IOOptionBits requestType ) // [private static] releasePMRequest //********************************************************************************* -void IOService::releasePMRequest( IOPMRequest * request ) +void +IOService::releasePMRequest( IOPMRequest * request ) { - if (request) - { + if (request) { request->reset(); request->release(); } } //********************************************************************************* -// [private] submitPMRequest +// [private static] submitPMRequest //********************************************************************************* -void IOService::submitPMRequest( IOPMRequest * request ) +void +IOService::submitPMRequest( IOPMRequest * request ) { assert( request ); assert( gIOPMReplyQueue ); assert( gIOPMRequestQueue ); - PM_TRACE("[+ %02lx] %p [%p %s] %p %p %p\n", - request->getType(), request, - request->getTarget(), request->getTarget()->getName(), - request->fArg0, request->fArg1, request->fArg2); + PM_LOG1("[+ %02lx] %p [%p %s] %p %p %p\n", + (long)request->getType(), OBFUSCATE(request), + OBFUSCATE(request->getTarget()), request->getTarget()->getName(), + OBFUSCATE(request->fArg0), + OBFUSCATE(request->fArg1), OBFUSCATE(request->fArg2)); - if (request->isReply()) + if (request->isReplyType()) { gIOPMReplyQueue->queuePMRequest( request ); - else + } else { gIOPMRequestQueue->queuePMRequest( request ); + } } -void IOService::submitPMRequest( IOPMRequest ** requests, IOItemCount count ) +void +IOService::submitPMRequests( IOPMRequest ** requests, IOItemCount count ) { assert( requests ); assert( count > 0 ); assert( gIOPMRequestQueue ); - for (IOItemCount i = 0; i < count; i++) - { + for (IOItemCount i = 0; i < count; i++) { IOPMRequest * req = requests[i]; - PM_TRACE("[+ %02lx] %p [%p %s] %p %p %p\n", - req->getType(), req, - req->getTarget(), req->getTarget()->getName(), - req->fArg0, req->fArg1, req->fArg2); + PM_LOG1("[+ %02lx] %p [%p %s] %p %p %p\n", + (long)req->getType(), OBFUSCATE(req), + OBFUSCATE(req->getTarget()), req->getTarget()->getName(), + OBFUSCATE(req->fArg0), + OBFUSCATE(req->fArg1), OBFUSCATE(req->fArg2)); } gIOPMRequestQueue->queuePMRequestChain( requests, count ); } //********************************************************************************* -// [private] servicePMRequestQueue +// [private] actionPMRequestQueue +// +// IOPMRequestQueue::checkForWork() passing a new request to the request target. //********************************************************************************* -bool IOService::servicePMRequestQueue( - IOPMRequest * request, - IOPMRequestQueue * queue ) +bool +IOService::actionPMRequestQueue( + IOPMRequest * request, + IOPMRequestQueue * queue ) { - // Calling PM methods without PMinit() is not allowed, fail the requests. + bool more; - if (!initialized) - { - PM_DEBUG("[%s] %s: PM not initialized\n", getName(), __FUNCTION__); - goto done; - } + if (initialized) { + // Work queue will immediately execute the request if the per-service + // request queue is empty. Note pwrMgt is the target's IOServicePM. - // Create an IOPMWorkQueue on demand, when the initial PM request is - // received. + more = gIOPMWorkQueue->queuePMRequest(request, pwrMgt); + } else { + // Calling PM without PMinit() is not allowed, fail the request. + // Need to signal more when completing attached requests. - if (!fPMWorkQueue) - { - // Allocate and attach an IOPMWorkQueue on demand to avoid taking - // the work loop lock in PMinit(), which may deadlock with certain - // drivers / families. - - fPMWorkQueue = IOPMWorkQueue::create( - /* target */ this, - /* Work */ OSMemberFunctionCast(IOPMWorkQueue::Action, this, - &IOService::servicePMRequest), - /* Done */ OSMemberFunctionCast(IOPMWorkQueue::Action, this, - &IOService::retirePMRequest) - ); - - if (fPMWorkQueue && - (gIOPMWorkLoop->addEventSource(fPMWorkQueue) != kIOReturnSuccess)) - { - PM_ERROR("[%s] %s: addEventSource failed\n", - getName(), __FUNCTION__); - fPMWorkQueue->release(); - fPMWorkQueue = 0; - } + PM_LOG("%s: PM not initialized\n", getName()); + PM_LOG1("[- %02x] %p [%p %s] !initialized\n", + request->getType(), OBFUSCATE(request), + OBFUSCATE(this), getName()); - if (!fPMWorkQueue) - { - PM_ERROR("[%s] %s: not ready (type %02lx)\n", - getName(), __FUNCTION__, request->getType()); - goto done; + more = gIOPMCompletionQueue->queuePMRequest(request); + if (more) { + gIOPMWorkQueue->incrementProducerCount(); } } - fPMWorkQueue->queuePMRequest(request); - return false; // do not signal more - -done: - gIOPMFreeQueue->queuePMRequest( request ); - return false; // do not signal more + return more; } //********************************************************************************* -// [private] servicePMFreeQueue +// [private] actionPMCompletionQueue // -// Called by IOPMFreeQueue to recycle a completed request. +// IOPMCompletionQueue::checkForWork() passing a completed request to the +// request target. //********************************************************************************* -bool IOService::servicePMFreeQueue( - IOPMRequest * request, - IOPMRequestQueue * queue ) +bool +IOService::actionPMCompletionQueue( + IOPMRequest * request, + IOPMCompletionQueue * queue ) { - bool more = request->hasParentRequest(); + bool more = (request->getNextRequest() != NULL); + IOPMRequest * root = request->getRootRequest(); + + if (root && (root != request)) { + more = true; + } + if (more) { + gIOPMWorkQueue->incrementProducerCount(); + } + releasePMRequest( request ); return more; } //********************************************************************************* -// [private] retirePMRequest +// [private] actionPMWorkQueueRetire // -// Called by IOPMWorkQueue to retire a completed request. +// IOPMWorkQueue::checkForWork() passing a retired request to the request target. //********************************************************************************* -bool IOService::retirePMRequest( IOPMRequest * request, IOPMWorkQueue * queue ) +bool +IOService::actionPMWorkQueueRetire( IOPMRequest * request, IOPMWorkQueue * queue ) { assert(request && queue); - PM_TRACE("[- %02lx] %p [%p %s] State %ld, Busy %ld\n", - request->getType(), request, this, getName(), - fMachineState, gIOPMBusyCount); - - // Catch requests created by PM_idle_timer_expiration(). - - if ((request->getType() == kIOPMRequestTypeActivityTickle) && - (request->fArg1 == (void *) false)) - { - // Idle timer power drop request completed. - // Restart the idle timer if deviceDesire can go lower, otherwise set - // a flag so we know to restart idle timer when deviceDesire goes up. - - if (fDeviceDesire > 0) - start_PM_idle_timer(); - else - fActivityTimerStopped = true; + PM_LOG1("[- %02x] %p [%p %s] state %d, busy %d\n", + request->getType(), OBFUSCATE(request), + OBFUSCATE(this), getName(), + fMachineState, gIOPMBusyRequestCount); + + // Catch requests created by idleTimerExpired() + if (request->getType() == kIOPMRequestTypeActivityTickle) { + uint32_t tickleFlags = (uint32_t)(uintptr_t) request->fArg1; + + if ((tickleFlags & kTickleTypePowerDrop) && fIdleTimerPeriod) { + restartIdleTimer(); + } else if (tickleFlags == (kTickleTypeActivity | kTickleTypePowerRise)) { + // Invalidate any idle power drop that got queued while + // processing this request. + fIdleTimerGeneration++; + } } - gIOPMFreeQueue->queuePMRequest( request ); - return true; + // When the completed request is linked, tell work queue there is + // more work pending. + + return gIOPMCompletionQueue->queuePMRequest( request ); } //********************************************************************************* @@ -5303,57 +7461,56 @@ bool IOService::retirePMRequest( IOPMRequest * request, IOPMWorkQueue * queue ) // Check if machine state transition is blocked. //********************************************************************************* -bool IOService::isPMBlocked ( IOPMRequest * request, int count ) +bool +IOService::isPMBlocked( IOPMRequest * request, int count ) { - int reason = 0; + int reason = 0; do { - if (kIOPM_Finished == fMachineState) + if (kIOPM_Finished == fMachineState) { break; + } - if (kIOPM_DriverThreadCallDone == fMachineState) - { - // 5 = kDriverCallInformPreChange - // 6 = kDriverCallInformPostChange - // 7 = kDriverCallSetPowerState - if (fDriverCallBusy) reason = 5 + fDriverCallReason; + if (kIOPM_DriverThreadCallDone == fMachineState) { + // 5 = kDriverCallInformPreChange + // 6 = kDriverCallInformPostChange + // 7 = kDriverCallSetPowerState + // 8 = kRootDomainInformPreChange + if (fDriverCallBusy) { + reason = 5 + fDriverCallReason; + } break; } // Waiting on driver's setPowerState() timeout. - if (fDriverTimer) - { + if (fDriverTimer) { reason = 1; break; } // Child or interested driver acks pending. - if (fHeadNotePendingAcks) - { + if (fHeadNotePendingAcks) { reason = 2; break; } // Waiting on apps or priority power interest clients. - if (fResponseArray) - { + if (fResponseArray) { reason = 3; break; } // Waiting on settle timer expiration. - if (fSettleTimeUS) - { + if (fSettleTimeUS) { reason = 4; break; } } while (false); fWaitReason = reason; - if (reason) - { - if (count) - { - PM_TRACE("[B %02lx] %p [%p %s] State %ld, Reason %d\n", - request->getType(), request, this, getName(), - fMachineState, reason); + if (reason) { + if (count) { + PM_LOG1("[B %02x] %p [%p %s] state %d, reason %d\n", + request->getType(), OBFUSCATE(request), + OBFUSCATE(this), getName(), + fMachineState, reason); } return true; @@ -5363,156 +7520,288 @@ bool IOService::isPMBlocked ( IOPMRequest * request, int count ) } //********************************************************************************* -// [private] servicePMRequest +// [private] actionPMWorkQueueInvoke // -// Service a request from our work queue. +// IOPMWorkQueue::checkForWork() passing a request to the +// request target for execution. //********************************************************************************* -bool IOService::servicePMRequest( IOPMRequest * request, IOPMWorkQueue * queue ) +bool +IOService::actionPMWorkQueueInvoke( IOPMRequest * request, IOPMWorkQueue * queue ) { - bool done = false; - int loop = 0; + bool done = false; + int loop = 0; assert(request && queue); - while (isPMBlocked(request, loop++) == false) - { - PM_TRACE("[W %02lx] %p [%p %s] State %ld\n", - request->getType(), request, this, getName(), fMachineState); + while (isPMBlocked(request, loop++) == false) { + PM_LOG1("[W %02x] %p [%p %s] state %d\n", + request->getType(), OBFUSCATE(request), + OBFUSCATE(this), getName(), fMachineState); - fPMRequest = request; + gIOPMRequest = request; + gIOPMWorkInvokeCount++; // Every PM machine states must be handled in one of the cases below. - switch ( fMachineState ) - { - case kIOPM_Finished: - executePMRequest( request ); - break; + switch (fMachineState) { + case kIOPM_Finished: + start_watchdog_timer(); - case kIOPM_OurChangeTellClientsPowerDown: - // our change, was it vetoed? - if (!fDoNotPowerDown) - { - // no, we can continue - OurChangeTellClientsPowerDown(); - } - else - { - OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); - PM_ERROR("%s: idle cancel\n", fName); - // yes, rescind the warning - tellNoChangeDown(fHeadNoteState); - // mark the change note un-actioned - fHeadNoteFlags |= IOPMNotDone; - // and we're done - all_done(); - } - break; + executePMRequest( request ); + break; - case kIOPM_OurChangeTellPriorityClientsPowerDown: - // our change, should it be acted on still? -#if SUPPORT_IDLE_CANCEL - if (fDoNotPowerDown) - { - OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); - PM_ERROR("%s: idle revert\n", fName); - // no, tell clients we're back in the old state + case kIOPM_OurChangeTellClientsPowerDown: + // Root domain might self cancel due to assertions. + if (IS_ROOT_DOMAIN) { + bool cancel = (bool) fDoNotPowerDown; + getPMRootDomain()->askChangeDownDone( + &fHeadNoteChangeFlags, &cancel); + fDoNotPowerDown = cancel; + } + + // askChangeDown() done, was it vetoed? + if (!fDoNotPowerDown) { + // no, we can continue + OurChangeTellClientsPowerDown(); + } else { + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_ERROR("%s: idle cancel, state %u\n", fName, fMachineState); + if (IS_ROOT_DOMAIN) { + // RootDomain already sent "WillSleep" to its clients tellChangeUp(fCurrentPowerState); - // mark the change note un-actioned - fHeadNoteFlags |= IOPMNotDone; - // and we're done - all_done(); + } else { + tellNoChangeDown(fHeadNotePowerState); } - else -#endif - { - // yes, we can continue - OurChangeTellPriorityClientsPowerDown(); + // mark the change note un-actioned + fHeadNoteChangeFlags |= kIOPMNotDone; + // and we're done + OurChangeFinish(); + } + break; + + case kIOPM_OurChangeTellUserPMPolicyPowerDown: + // PMRD: tellChangeDown/kNotifyApps done, was it cancelled? + if (fDoNotPowerDown) { + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_ERROR("%s: idle cancel, state %u\n", fName, fMachineState); + if (IS_ROOT_DOMAIN) { + // RootDomain already sent "WillSleep" to its clients + tellChangeUp(fCurrentPowerState); + } else { + tellNoChangeDown(fHeadNotePowerState); } - break; + // mark the change note un-actioned + fHeadNoteChangeFlags |= kIOPMNotDone; + // and we're done + OurChangeFinish(); + } else { + OurChangeTellUserPMPolicyPowerDown(); + } + break; - case kIOPM_OurChangeNotifyInterestedDriversWillChange: - OurChangeNotifyInterestedDriversWillChange(); - break; + case kIOPM_OurChangeTellPriorityClientsPowerDown: + // PMRD: LastCallBeforeSleep notify done + // Non-PMRD: tellChangeDown/kNotifyApps done + if (fDoNotPowerDown) { + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_ERROR("%s: idle revert, state %u\n", fName, fMachineState); + // no, tell clients we're back in the old state + tellChangeUp(fCurrentPowerState); + // mark the change note un-actioned + fHeadNoteChangeFlags |= kIOPMNotDone; + // and we're done + OurChangeFinish(); + } else { + // yes, we can continue + OurChangeTellPriorityClientsPowerDown(); + } + break; - case kIOPM_OurChangeSetPowerState: - OurChangeSetPowerState(); - break; + case kIOPM_OurChangeNotifyInterestedDriversWillChange: + OurChangeNotifyInterestedDriversWillChange(); + break; - case kIOPM_OurChangeWaitForPowerSettle: - OurChangeWaitForPowerSettle(); - break; + case kIOPM_OurChangeSetPowerState: + OurChangeSetPowerState(); + break; - case kIOPM_OurChangeNotifyInterestedDriversDidChange: - OurChangeNotifyInterestedDriversDidChange(); - break; + case kIOPM_OurChangeWaitForPowerSettle: + OurChangeWaitForPowerSettle(); + break; - case kIOPM_OurChangeFinish: - OurChangeFinish(); - break; + case kIOPM_OurChangeNotifyInterestedDriversDidChange: + OurChangeNotifyInterestedDriversDidChange(); + break; - case kIOPM_ParentDownTellPriorityClientsPowerDown: - ParentDownTellPriorityClientsPowerDown(); - break; + case kIOPM_OurChangeTellCapabilityDidChange: + OurChangeTellCapabilityDidChange(); + break; - case kIOPM_ParentDownNotifyInterestedDriversWillChange: - ParentDownNotifyInterestedDriversWillChange(); - break; + case kIOPM_OurChangeFinish: + OurChangeFinish(); + break; - case kIOPM_ParentDownNotifyDidChangeAndAcknowledgeChange: - ParentDownNotifyDidChangeAndAcknowledgeChange(); - break; + case kIOPM_ParentChangeTellPriorityClientsPowerDown: + ParentChangeTellPriorityClientsPowerDown(); + break; - case kIOPM_ParentDownSetPowerState: - ParentDownSetPowerState(); - break; + case kIOPM_ParentChangeNotifyInterestedDriversWillChange: + ParentChangeNotifyInterestedDriversWillChange(); + break; - case kIOPM_ParentDownWaitForPowerSettle: - ParentDownWaitForPowerSettle(); - break; + case kIOPM_ParentChangeSetPowerState: + ParentChangeSetPowerState(); + break; - case kIOPM_ParentDownAcknowledgeChange: - ParentDownAcknowledgeChange(); - break; + case kIOPM_ParentChangeWaitForPowerSettle: + ParentChangeWaitForPowerSettle(); + break; - case kIOPM_ParentUpSetPowerState: - ParentUpSetPowerState(); - break; + case kIOPM_ParentChangeNotifyInterestedDriversDidChange: + ParentChangeNotifyInterestedDriversDidChange(); + break; - case kIOPM_ParentUpWaitForSettleTime: - ParentUpWaitForSettleTime(); - break; + case kIOPM_ParentChangeTellCapabilityDidChange: + ParentChangeTellCapabilityDidChange(); + break; - case kIOPM_ParentUpNotifyInterestedDriversDidChange: - ParentUpNotifyInterestedDriversDidChange(); - break; + case kIOPM_ParentChangeAcknowledgePowerChange: + ParentChangeAcknowledgePowerChange(); + break; - case kIOPM_ParentUpAcknowledgePowerChange: - ParentUpAcknowledgePowerChange(); + case kIOPM_DriverThreadCallDone: + switch (fDriverCallReason) { + case kDriverCallInformPreChange: + case kDriverCallInformPostChange: + notifyInterestedDriversDone(); break; - - case kIOPM_DriverThreadCallDone: - if (fDriverCallReason == kDriverCallSetPowerState) - notifyControllingDriverDone(); - else - notifyInterestedDriversDone(); + case kDriverCallSetPowerState: + notifyControllingDriverDone(); break; - - case kIOPM_NotifyChildrenDone: - notifyChildrenDone(); + case kRootDomainInformPreChange: + notifyRootDomainDone(); break; - default: - IOPanic("servicePMWorkQueue: unknown machine state"); + panic("%s: bad call reason %x", + getName(), fDriverCallReason); + } + break; + + case kIOPM_NotifyChildrenOrdered: + notifyChildrenOrdered(); + break; + + case kIOPM_NotifyChildrenDelayed: + notifyChildrenDelayed(); + break; + + case kIOPM_NotifyChildrenStart: + // pop notifyAll() state saved by notifyInterestedDriversDone() + MS_POP(); + notifyRootDomain(); + break; + + case kIOPM_SyncTellClientsPowerDown: + // Root domain might self cancel due to assertions. + if (IS_ROOT_DOMAIN) { + bool cancel = (bool) fDoNotPowerDown; + getPMRootDomain()->askChangeDownDone( + &fHeadNoteChangeFlags, &cancel); + fDoNotPowerDown = cancel; + } + if (!fDoNotPowerDown) { + fMachineState = kIOPM_SyncTellPriorityClientsPowerDown; + fOutOfBandParameter = kNotifyApps; + tellChangeDown(fHeadNotePowerState); + } else { + // Cancelled by IOPMrootDomain::askChangeDownDone() or + // askChangeDown/kNotifyApps + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_ERROR("%s: idle cancel, state %u\n", fName, fMachineState); + tellNoChangeDown(fHeadNotePowerState); + fHeadNoteChangeFlags |= kIOPMNotDone; + OurChangeFinish(); + } + break; + + case kIOPM_SyncTellPriorityClientsPowerDown: + // PMRD: tellChangeDown/kNotifyApps done, was it cancelled? + if (!fDoNotPowerDown) { + fMachineState = kIOPM_SyncNotifyWillChange; + fOutOfBandParameter = kNotifyPriority; + tellChangeDown(fHeadNotePowerState); + } else { + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_ERROR("%s: idle revert, state %u\n", fName, fMachineState); + tellChangeUp(fCurrentPowerState); + fHeadNoteChangeFlags |= kIOPMNotDone; + OurChangeFinish(); + } + break; + + case kIOPM_SyncNotifyWillChange: + if (kIOPMSyncNoChildNotify & fHeadNoteChangeFlags) { + fMachineState = kIOPM_SyncFinish; + continue; + } + fMachineState = kIOPM_SyncNotifyDidChange; + fDriverCallReason = kDriverCallInformPreChange; + notifyChildren(); + break; + + case kIOPM_SyncNotifyDidChange: + fIsPreChange = false; + + if (fHeadNoteChangeFlags & kIOPMParentInitiated) { + fMachineState = kIOPM_SyncFinish; + } else { + assert(IS_ROOT_DOMAIN); + fMachineState = kIOPM_SyncTellCapabilityDidChange; + } + + fDriverCallReason = kDriverCallInformPostChange; + notifyChildren(); + break; + + case kIOPM_SyncTellCapabilityDidChange: + tellSystemCapabilityChange( kIOPM_SyncFinish ); + break; + + case kIOPM_SyncFinish: + if (fHeadNoteChangeFlags & kIOPMParentInitiated) { + ParentChangeAcknowledgePowerChange(); + } else { + OurChangeFinish(); + } + break; + + case kIOPM_TellCapabilityChangeDone: + if (fIsPreChange) { + if (fOutOfBandParameter == kNotifyCapabilityChangePriority) { + MS_POP(); // tellSystemCapabilityChange() + continue; + } + fOutOfBandParameter = kNotifyCapabilityChangePriority; + } else { + if (fOutOfBandParameter == kNotifyCapabilityChangeApps) { + MS_POP(); // tellSystemCapabilityChange() + continue; + } + fOutOfBandParameter = kNotifyCapabilityChangeApps; + } + tellClientsWithResponse( fOutOfBandMessage ); + break; + + default: + panic("PMWorkQueueInvoke: unknown machine state %x", + fMachineState); } - fPMRequest = 0; + gIOPMRequest = NULL; - if (fMachineState == kIOPM_Finished) - { - //PM_TRACE("[%s] PM End: Request %p (type %02lx)\n", - // getName(), request, request->getType()); + if (fMachineState == kIOPM_Finished) { + stop_watchdog_timer(); done = true; break; } @@ -5525,205 +7814,423 @@ bool IOService::servicePMRequest( IOPMRequest * request, IOPMWorkQueue * queue ) // [private] executePMRequest //********************************************************************************* -void IOService::executePMRequest( IOPMRequest * request ) +void +IOService::executePMRequest( IOPMRequest * request ) { assert( kIOPM_Finished == fMachineState ); - switch (request->getType()) - { - case kIOPMRequestTypePMStop: - handlePMstop( request ); - break; + switch (request->getType()) { + case kIOPMRequestTypePMStop: + handlePMstop( request ); + break; - case kIOPMRequestTypeAddPowerChild1: - addPowerChild1( request ); - break; + case kIOPMRequestTypeAddPowerChild1: + addPowerChild1( request ); + break; - case kIOPMRequestTypeAddPowerChild2: - addPowerChild2( request ); - break; + case kIOPMRequestTypeAddPowerChild2: + addPowerChild2( request ); + break; - case kIOPMRequestTypeAddPowerChild3: - addPowerChild3( request ); - break; + case kIOPMRequestTypeAddPowerChild3: + addPowerChild3( request ); + break; - case kIOPMRequestTypeRegisterPowerDriver: - handleRegisterPowerDriver( request ); - break; + case kIOPMRequestTypeRegisterPowerDriver: + handleRegisterPowerDriver( request ); + break; - case kIOPMRequestTypeAdjustPowerState: - adjustPowerState(); - break; + case kIOPMRequestTypeAdjustPowerState: + fAdjustPowerScheduled = false; + adjustPowerState(); + break; - case kIOPMRequestTypeMakeUsable: - handleMakeUsable( request ); - break; + case kIOPMRequestTypePowerDomainWillChange: + handlePowerDomainWillChangeTo( request ); + break; - case kIOPMRequestTypeTemporaryPowerClamp: - fClampOn = true; - handleMakeUsable( request ); - break; + case kIOPMRequestTypePowerDomainDidChange: + handlePowerDomainDidChangeTo( request ); + break; - case kIOPMRequestTypePowerDomainWillChange: - handlePowerDomainWillChangeTo( request ); - break; + case kIOPMRequestTypeRequestPowerState: + case kIOPMRequestTypeRequestPowerStateOverride: + handleRequestPowerState( request ); + break; - case kIOPMRequestTypePowerDomainDidChange: - handlePowerDomainDidChangeTo( request ); - break; + case kIOPMRequestTypePowerOverrideOnPriv: + case kIOPMRequestTypePowerOverrideOffPriv: + handlePowerOverrideChanged( request ); + break; - case kIOPMRequestTypeChangePowerStateTo: - handleChangePowerStateTo( request ); - break; + case kIOPMRequestTypeActivityTickle: + handleActivityTickle( request ); + break; - case kIOPMRequestTypeChangePowerStateToPriv: - handleChangePowerStateToPriv( request ); - break; + case kIOPMRequestTypeSynchronizePowerTree: + handleSynchronizePowerTree( request ); + break; - case kIOPMRequestTypePowerOverrideOnPriv: - case kIOPMRequestTypePowerOverrideOffPriv: - handlePowerOverrideChanged( request ); - break; + case kIOPMRequestTypeSetIdleTimerPeriod: + { + fIdleTimerPeriod = (uintptr_t) request->fArg0; + fNextIdleTimerPeriod = fIdleTimerPeriod; + if ((false == fLockedFlags.PMStop) && (fIdleTimerPeriod > 0)) { + restartIdleTimer(); + } + } + break; - case kIOPMRequestTypeActivityTickle: - if (request) - { - bool setDeviceDesire = false; - - if (request->fArg1) - { - // Power rise from activity tickle. - unsigned long ticklePowerState = (unsigned long) request->fArg0; - if ((fDeviceDesire < ticklePowerState) && - (ticklePowerState < fNumberOfPowerStates)) - { - setDeviceDesire = true; - fIdleTimerMinPowerState = ticklePowerState; - } - } - else if (fDeviceDesire > fIdleTimerMinPowerState) - { - // Power drop from idle timer expiration. - request->fArg0 = (void *) (fDeviceDesire - 1); - setDeviceDesire = true; - } + case kIOPMRequestTypeIgnoreIdleTimer: + fIdleTimerIgnored = request->fArg0 ? 1 : 0; + break; + + case kIOPMRequestTypeQuiescePowerTree: + gIOPMWorkQueue->finishQuiesceRequest(request); + break; + + default: + panic("executePMRequest: unknown request type %x", request->getType()); + } +} + +//********************************************************************************* +// [private] actionPMReplyQueue +// +// IOPMRequestQueue::checkForWork() passing a reply-type request to the +// request target. +//********************************************************************************* + +bool +IOService::actionPMReplyQueue( IOPMRequest * request, IOPMRequestQueue * queue ) +{ + bool more = false; - if (setDeviceDesire) - { - // handleChangePowerStateToPriv() does not check the - // request type, as long as the args are appropriate - // for kIOPMRequestTypeChangePowerStateToPriv. + assert( request && queue ); + assert( request->isReplyType()); + + PM_LOG1("[A %02x] %p [%p %s] state %d\n", + request->getType(), OBFUSCATE(request), + OBFUSCATE(this), getName(), fMachineState); + + switch (request->getType()) { + case kIOPMRequestTypeAllowPowerChange: + case kIOPMRequestTypeCancelPowerChange: + // Check if we are expecting this response. + if (responseValid((uint32_t)(uintptr_t) request->fArg0, + (int)(uintptr_t) request->fArg1)) { + if (kIOPMRequestTypeCancelPowerChange == request->getType()) { + // Clients are not allowed to cancel when kIOPMSkipAskPowerDown + // flag is set. Only root domain will set this flag. + // However, there is one exception to this rule. User-space PM + // policy may choose to cancel sleep even after all clients have + // been notified that we will lower power. + + if ((fMachineState == kIOPM_OurChangeTellUserPMPolicyPowerDown) + || (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown) + || ((fHeadNoteChangeFlags & kIOPMSkipAskPowerDown) == 0)) { + fDoNotPowerDown = true; - request->fArg1 = (void *) false; - handleChangePowerStateToPriv( request ); + OSString * name = (OSString *) request->fArg2; + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsResponseCancel, + name ? name->getCStringNoCopy() : "", 0, + 0, (int)(uintptr_t) request->fArg1, NULL); } } - break; - default: - IOPanic("executePMRequest: unknown request type"); + if (checkForDone()) { + stop_ack_timer(); + cleanClientResponses(false); + more = true; + } + } + // OSString containing app name in Arg2 must be released. + if (request->getType() == kIOPMRequestTypeCancelPowerChange) { + OSObject * obj = (OSObject *) request->fArg2; + if (obj) { + obj->release(); + } + } + break; + + case kIOPMRequestTypeAckPowerChange: + more = handleAcknowledgePowerChange( request ); + break; + + case kIOPMRequestTypeAckSetPowerState: + if (fDriverTimer == -1) { + // driver acked while setPowerState() call is in-flight. + // take this ack, return value from setPowerState() is irrelevant. + OUR_PMLog(kPMLogDriverAcknowledgeSet, + (uintptr_t) this, fDriverTimer); + fDriverTimer = 0; + } else if (fDriverTimer > 0) { + // expected ack, stop the timer + stop_ack_timer(); + + getPMRootDomain()->reset_watchdog_timer(this, 0); + + uint64_t nsec = computeTimeDeltaNS(&fDriverCallStartTime); + if (nsec > LOG_SETPOWER_TIMES) { + getPMRootDomain()->pmStatsRecordApplicationResponse( + gIOPMStatsDriverPSChangeSlow, + fName, kDriverCallSetPowerState, NS_TO_MS(nsec), getRegistryEntryID(), + NULL, fHeadNotePowerState); + } + + OUR_PMLog(kPMLogDriverAcknowledgeSet, (uintptr_t) this, fDriverTimer); + fDriverTimer = 0; + more = true; + } else { + // unexpected ack + OUR_PMLog(kPMLogAcknowledgeErr4, (uintptr_t) this, 0); + } + break; + + case kIOPMRequestTypeInterestChanged: + handleInterestChanged( request ); + more = true; + break; + + case kIOPMRequestTypeIdleCancel: + if ((fMachineState == kIOPM_OurChangeTellClientsPowerDown) + || (fMachineState == kIOPM_OurChangeTellUserPMPolicyPowerDown) + || (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown) + || (fMachineState == kIOPM_SyncTellClientsPowerDown) + || (fMachineState == kIOPM_SyncTellPriorityClientsPowerDown)) { + OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState); + PM_LOG2("%s: cancel from machine state %d\n", + getName(), fMachineState); + fDoNotPowerDown = true; + // Stop waiting for app replys. + if ((fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown) || + (fMachineState == kIOPM_OurChangeTellUserPMPolicyPowerDown) || + (fMachineState == kIOPM_SyncTellPriorityClientsPowerDown) || + (fMachineState == kIOPM_SyncTellClientsPowerDown)) { + cleanClientResponses(false); + } + more = true; + } + break; + + case kIOPMRequestTypeChildNotifyDelayCancel: + if (fMachineState == kIOPM_NotifyChildrenDelayed) { + PM_LOG2("%s: delay notify cancelled\n", getName()); + notifyChildrenDelayed(); + } + break; + + default: + panic("PMReplyQueue: unknown reply type %x", request->getType()); + } + + more |= gIOPMCompletionQueue->queuePMRequest(request); + if (more) { + gIOPMWorkQueue->incrementProducerCount(); + } + + return more; +} + +//********************************************************************************* +// [private] assertPMDriverCall / deassertPMDriverCall +//********************************************************************************* + +bool +IOService::assertPMDriverCall( + IOPMDriverCallEntry * entry, + IOOptionBits method, + const IOPMinformee * inform, + IOOptionBits options ) +{ + IOService * target = NULL; + bool ok = false; + + if (!initialized) { + return false; + } + + PM_LOCK(); + + if (fLockedFlags.PMStop) { + goto fail; + } + + if (((options & kIOPMDriverCallNoInactiveCheck) == 0) && isInactive()) { + goto fail; + } + + if (inform) { + if (!inform->active) { + goto fail; + } + target = inform->whatObject; + if (target->isInactive()) { + goto fail; + } } + + // Record calling address for sleep failure diagnostics + switch (method) { + case kIOPMDriverCallMethodSetPowerState: + entry->callMethod = OSMemberFunctionCast(const void *, fControllingDriver, &IOService::setPowerState); + break; + case kIOPMDriverCallMethodWillChange: + entry->callMethod = OSMemberFunctionCast(const void *, target, &IOService::powerStateWillChangeTo); + break; + case kIOPMDriverCallMethodDidChange: + entry->callMethod = OSMemberFunctionCast(const void *, target, &IOService::powerStateDidChangeTo); + break; + case kIOPMDriverCallMethodUnknown: + case kIOPMDriverCallMethodSetAggressive: + default: + entry->callMethod = NULL; + break; + } + + entry->thread = current_thread(); + entry->target = target; + queue_enter(&fPMDriverCallQueue, entry, IOPMDriverCallEntry *, link); + ok = true; + +fail: + PM_UNLOCK(); + + return ok; +} + +void +IOService::deassertPMDriverCall( IOPMDriverCallEntry * entry ) +{ + bool wakeup = false; + + PM_LOCK(); + + assert( !queue_empty(&fPMDriverCallQueue)); + queue_remove(&fPMDriverCallQueue, entry, IOPMDriverCallEntry *, link); + if (fLockedFlags.PMDriverCallWait) { + wakeup = true; + } + + PM_UNLOCK(); + + if (wakeup) { + PM_LOCK_WAKEUP(&fPMDriverCallQueue); + } +} + +bool +IOService::getBlockingDriverCall(thread_t *thread, const void **callMethod) +{ + const IOPMDriverCallEntry * entry = NULL; + bool blocked = false; + + if (!initialized) { + return false; + } + + if (current_thread() != gIOPMWatchDogThread) { + // Meant to be accessed only from watchdog thread + return false; + } + + PM_LOCK(); + entry = qe_queue_first(&fPMDriverCallQueue, IOPMDriverCallEntry, link); + if (entry) { + *thread = entry->thread; + *callMethod = entry->callMethod; + blocked = true; + } + PM_UNLOCK(); + + return blocked; } -//********************************************************************************* -// [private] servicePMReplyQueue -//********************************************************************************* -bool IOService::servicePMReplyQueue( IOPMRequest * request, IOPMRequestQueue * queue ) +void +IOService::waitForPMDriverCall( IOService * target ) { - bool more = false; - - assert( request && queue ); - assert( request->isReply() ); - - PM_TRACE("[A %02lx] %p [%p %s] State %ld\n", - request->getType(), request, this, getName(), fMachineState); + const IOPMDriverCallEntry * entry; + thread_t thread = current_thread(); + AbsoluteTime deadline; + int waitResult; + bool log = true; + bool wait; - switch ( request->getType() ) - { - case kIOPMRequestTypeAllowPowerChange: - case kIOPMRequestTypeCancelPowerChange: - // Check if we are expecting this response. - if (responseValid((unsigned long) request->fArg0, (int) request->fArg1)) - { - if (kIOPMRequestTypeCancelPowerChange == request->getType()) - fDoNotPowerDown = true; + do { + wait = false; + queue_iterate(&fPMDriverCallQueue, entry, const IOPMDriverCallEntry *, link) + { + // Target of interested driver call + if (target && (target != entry->target)) { + continue; + } - if (checkForDone()) - { - stop_ack_timer(); - if ( fResponseArray ) - { - fResponseArray->release(); - fResponseArray = NULL; - } - more = true; + if (entry->thread == thread) { + if (log) { + PM_LOG("%s: %s(%s) on PM thread\n", + fName, __FUNCTION__, target ? target->getName() : ""); + OSReportWithBacktrace("%s: %s(%s) on PM thread\n", + fName, __FUNCTION__, target ? target->getName() : ""); + log = false; } + continue; } - break; - case kIOPMRequestTypeAckPowerChange: - more = handleAcknowledgePowerChange( request ); + wait = true; break; + } - case kIOPMRequestTypeAckSetPowerState: - if (fDriverTimer == -1) - { - // driver acked while setPowerState() call is in-flight. - // take this ack, return value from setPowerState() is irrelevant. - OUR_PMLog(kPMLogDriverAcknowledgeSet, - (UInt32) this, fDriverTimer); - fDriverTimer = 0; - } - else if (fDriverTimer > 0) - { - // expected ack, stop the timer - stop_ack_timer(); - -#if LOG_SETPOWER_TIMES - uint64_t nsec = computeTimeDeltaNS(&fDriverCallStartTime); - if (nsec > LOG_SETPOWER_TIMES) - PM_DEBUG("%s::setPowerState(%p, %lu -> %lu) async took %d ms\n", - fName, this, fCurrentPowerState, fHeadNoteState, NS_TO_MS(nsec)); -#endif - OUR_PMLog(kPMLogDriverAcknowledgeSet, (UInt32) this, fDriverTimer); - fDriverTimer = 0; - more = true; - } - else - { - // unexpected ack - OUR_PMLog(kPMLogAcknowledgeErr4, (UInt32) this, 0); + if (wait) { + fLockedFlags.PMDriverCallWait = true; + clock_interval_to_deadline(15, kSecondScale, &deadline); + waitResult = PM_LOCK_SLEEP(&fPMDriverCallQueue, deadline); + fLockedFlags.PMDriverCallWait = false; + if (THREAD_TIMED_OUT == waitResult) { + PM_ERROR("%s: waitForPMDriverCall timeout\n", fName); + wait = false; } - break; + } + } while (wait); +} - case kIOPMRequestTypeInterestChanged: - handleInterestChanged( request ); - more = true; - break; +//********************************************************************************* +// [private] Debug helpers +//********************************************************************************* -#if SUPPORT_IDLE_CANCEL - case kIOPMRequestTypeIdleCancel: - if ((fMachineState == kIOPM_OurChangeTellClientsPowerDown) - || (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown)) - { - OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, 0); - fDoNotPowerDown = true; - if (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown) - cleanClientResponses(false); - more = true; - } - break; -#endif +const char * +IOService::getIOMessageString( uint32_t msg ) +{ +#define MSG_ENTRY(x) {(int) x, #x} - default: - IOPanic("servicePMReplyQueue: unknown reply type"); - } + static const IONamedValue msgNames[] = { + MSG_ENTRY( kIOMessageCanDevicePowerOff ), + MSG_ENTRY( kIOMessageDeviceWillPowerOff ), + MSG_ENTRY( kIOMessageDeviceWillNotPowerOff ), + MSG_ENTRY( kIOMessageDeviceHasPoweredOn ), + MSG_ENTRY( kIOMessageCanSystemPowerOff ), + MSG_ENTRY( kIOMessageSystemWillPowerOff ), + MSG_ENTRY( kIOMessageSystemWillNotPowerOff ), + MSG_ENTRY( kIOMessageCanSystemSleep ), + MSG_ENTRY( kIOMessageSystemWillSleep ), + MSG_ENTRY( kIOMessageSystemWillNotSleep ), + MSG_ENTRY( kIOMessageSystemHasPoweredOn ), + MSG_ENTRY( kIOMessageSystemWillRestart ), + MSG_ENTRY( kIOMessageSystemWillPowerOn ), + MSG_ENTRY( kIOMessageSystemCapabilityChange ), + MSG_ENTRY( kIOPMMessageLastCallBeforeSleep ), + MSG_ENTRY( kIOMessageSystemPagingOff ), + { 0, NULL } + }; - releasePMRequest( request ); - return more; + return IOFindNameForValue(msg, msgNames); } + +// MARK: - +// MARK: IOPMRequest + //********************************************************************************* // IOPMRequest Class // @@ -5732,100 +8239,207 @@ bool IOService::servicePMReplyQueue( IOPMRequest * request, IOPMRequestQueue * q OSDefineMetaClassAndStructors( IOPMRequest, IOCommand ); -IOPMRequest * IOPMRequest::create( void ) +IOPMRequest * +IOPMRequest::create( void ) { IOPMRequest * me = OSTypeAlloc(IOPMRequest); - if (me && !me->init(0, kIOPMRequestTypeInvalid)) - { + if (me && !me->init(NULL, kIOPMRequestTypeInvalid)) { me->release(); - me = 0; + me = NULL; } return me; } -bool IOPMRequest::init( IOService * target, IOOptionBits type ) +bool +IOPMRequest::init( IOService * target, IOOptionBits type ) { - if (!IOCommand::init()) + if (!IOCommand::init()) { return false; + } - fType = type; - fTarget = target; - fParent = 0; - fChildCount = 0; - fArg0 = fArg1 = fArg2 = 0; + fRequestType = type; + fTarget = target; - if (fTarget) + if (fTarget) { fTarget->retain(); + } + + // Root node and root domain requests does not prevent the power tree from + // becoming quiescent. + + fIsQuiesceBlocker = ((fTarget != gIOPMRootNode) && + (fTarget != IOService::getPMRootDomain())); return true; } -void IOPMRequest::reset( void ) +void +IOPMRequest::reset( void ) { - assert( fChildCount == 0 ); + assert( fWorkWaitCount == 0 ); + assert( fFreeWaitCount == 0 ); - fType = kIOPMRequestTypeInvalid; + detachNextRequest(); + detachRootRequest(); - if (fParent) - { - fParent->fChildCount--; - fParent = 0; + if (fCompletionAction && (fRequestType == kIOPMRequestTypeQuiescePowerTree)) { + // Call the completion on PM work loop context + fCompletionAction(fCompletionTarget, fCompletionParam); + fCompletionAction = NULL; } - if (fTarget) - { + fRequestType = kIOPMRequestTypeInvalid; + + if (fTarget) { fTarget->release(); - fTarget = 0; + fTarget = NULL; + } +} + +bool +IOPMRequest::attachNextRequest( IOPMRequest * next ) +{ + bool ok = false; + + if (!fRequestNext) { + // Postpone the execution of the next request after + // this request. + fRequestNext = next; + fRequestNext->fWorkWaitCount++; +#if LOG_REQUEST_ATTACH + PM_LOG("Attached next: %p [0x%x] -> %p [0x%x, %u] %s\n", + OBFUSCATE(this), fRequestType, OBFUSCATE(fRequestNext), + fRequestNext->fRequestType, + (uint32_t) fRequestNext->fWorkWaitCount, + fTarget->getName()); +#endif + ok = true; + } + return ok; +} + +bool +IOPMRequest::detachNextRequest( void ) +{ + bool ok = false; + + if (fRequestNext) { + assert(fRequestNext->fWorkWaitCount); + if (fRequestNext->fWorkWaitCount) { + fRequestNext->fWorkWaitCount--; + } +#if LOG_REQUEST_ATTACH + PM_LOG("Detached next: %p [0x%x] -> %p [0x%x, %u] %s\n", + OBFUSCATE(this), fRequestType, OBFUSCATE(fRequestNext), + fRequestNext->fRequestType, + (uint32_t) fRequestNext->fWorkWaitCount, + fTarget->getName()); +#endif + fRequestNext = NULL; + ok = true; + } + return ok; +} + +bool +IOPMRequest::attachRootRequest( IOPMRequest * root ) +{ + bool ok = false; + + if (!fRequestRoot) { + // Delay the completion of the root request after + // this request. + fRequestRoot = root; + fRequestRoot->fFreeWaitCount++; +#if LOG_REQUEST_ATTACH + PM_LOG("Attached root: %p [0x%x] -> %p [0x%x, %u] %s\n", + OBFUSCATE(this), (uint32_t) fType, OBFUSCATE(fRequestRoot), + (uint32_t) fRequestRoot->fType, + (uint32_t) fRequestRoot->fFreeWaitCount, + fTarget->getName()); +#endif + ok = true; + } + return ok; +} + +bool +IOPMRequest::detachRootRequest( void ) +{ + bool ok = false; + + if (fRequestRoot) { + assert(fRequestRoot->fFreeWaitCount); + if (fRequestRoot->fFreeWaitCount) { + fRequestRoot->fFreeWaitCount--; + } +#if LOG_REQUEST_ATTACH + PM_LOG("Detached root: %p [0x%x] -> %p [0x%x, %u] %s\n", + OBFUSCATE(this), (uint32_t) fType, OBFUSCATE(fRequestRoot), + (uint32_t) fRequestRoot->fType, + (uint32_t) fRequestRoot->fFreeWaitCount, + fTarget->getName()); +#endif + fRequestRoot = NULL; + ok = true; } + return ok; } +// MARK: - +// MARK: IOPMRequestQueue + //********************************************************************************* // IOPMRequestQueue Class // -// Global queues. As PM-aware drivers load and unload, their IOPMWorkQueue's are -// created and deallocated. IOPMRequestQueue are created once and never released. +// Global queues. Queues are created once and never released. //********************************************************************************* OSDefineMetaClassAndStructors( IOPMRequestQueue, IOEventSource ); -IOPMRequestQueue * IOPMRequestQueue::create( IOService * inOwner, Action inAction ) +IOPMRequestQueue * +IOPMRequestQueue::create( IOService * inOwner, Action inAction ) { IOPMRequestQueue * me = OSTypeAlloc(IOPMRequestQueue); - if (me && !me->init(inOwner, inAction)) - { + if (me && !me->init(inOwner, inAction)) { me->release(); - me = 0; + me = NULL; } return me; } -bool IOPMRequestQueue::init( IOService * inOwner, Action inAction ) +bool +IOPMRequestQueue::init( IOService * inOwner, Action inAction ) { - if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction)) - return false; + if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction)) { + return false; + } queue_init(&fQueue); fLock = IOLockAlloc(); - return (fLock != 0); + return fLock != NULL; } -void IOPMRequestQueue::free( void ) +void +IOPMRequestQueue::free( void ) { - if (fLock) - { + if (fLock) { IOLockFree(fLock); - fLock = 0; + fLock = NULL; } return IOEventSource::free(); } -void IOPMRequestQueue::queuePMRequest( IOPMRequest * request ) +void +IOPMRequestQueue::queuePMRequest( IOPMRequest * request ) { assert(request); IOLockLock(fLock); - queue_enter(&fQueue, request, IOPMRequest *, fCommandChain); + queue_enter(&fQueue, request, typeof(request), fCommandChain); IOLockUnlock(fLock); - if (workLoop) signalWorkAvailable(); + if (workLoop) { + signalWorkAvailable(); + } } void @@ -5835,29 +8449,37 @@ IOPMRequestQueue::queuePMRequestChain( IOPMRequest ** requests, IOItemCount coun assert(requests && count); IOLockLock(fLock); - while (count--) - { + while (count--) { next = *requests; requests++; - queue_enter(&fQueue, next, IOPMRequest *, fCommandChain); + queue_enter(&fQueue, next, typeof(next), fCommandChain); } IOLockUnlock(fLock); - if (workLoop) signalWorkAvailable(); + if (workLoop) { + signalWorkAvailable(); + } } -bool IOPMRequestQueue::checkForWork( void ) +bool +IOPMRequestQueue::checkForWork( void ) { - Action dqAction = (Action) action; - IOPMRequest * request; - IOService * target; - bool more = false; + Action dqAction = (Action) action; + IOPMRequest * request; + IOService * target; + int dequeueCount = 0; + bool more = false; IOLockLock( fLock ); - while (!queue_empty(&fQueue)) - { - queue_remove_first( &fQueue, request, IOPMRequest *, fCommandChain ); - IOLockUnlock( fLock ); + while (!queue_empty(&fQueue)) { + if (dequeueCount++ >= kMaxDequeueCount) { + // Allow other queues a chance to work + more = true; + break; + } + + queue_remove_first(&fQueue, request, typeof(request), fCommandChain); + IOLockUnlock(fLock); target = request->getTarget(); assert(target); more |= (*dqAction)( target, request, this ); @@ -5868,79 +8490,326 @@ bool IOPMRequestQueue::checkForWork( void ) return more; } -void IOPMRequestQueue::signalWorkAvailable( void ) -{ - IOEventSource::signalWorkAvailable(); -} +// MARK: - +// MARK: IOPMWorkQueue //********************************************************************************* // IOPMWorkQueue Class // -// Every object in the power plane that has handled a PM request, will have an -// instance of IOPMWorkQueue allocated for it. +// Queue of IOServicePM objects, each with a queue of IOPMRequest sharing the +// same target. //********************************************************************************* OSDefineMetaClassAndStructors( IOPMWorkQueue, IOEventSource ); IOPMWorkQueue * -IOPMWorkQueue::create( IOService * inOwner, Action work, Action retire ) +IOPMWorkQueue::create( IOService * inOwner, Action invoke, Action retire ) { IOPMWorkQueue * me = OSTypeAlloc(IOPMWorkQueue); - if (me && !me->init(inOwner, work, retire)) - { + if (me && !me->init(inOwner, invoke, retire)) { me->release(); - me = 0; + me = NULL; } return me; } -bool IOPMWorkQueue::init( IOService * inOwner, Action work, Action retire ) +bool +IOPMWorkQueue::init( IOService * inOwner, Action invoke, Action retire ) { - if (!work || !retire || - !IOEventSource::init(inOwner, (IOEventSourceAction)0)) + if (!invoke || !retire || + !IOEventSource::init(inOwner, (IOEventSourceAction)NULL)) { return false; + } queue_init(&fWorkQueue); - fWorkAction = work; - fRetireAction = retire; + fInvokeAction = invoke; + fRetireAction = retire; + fConsumerCount = fProducerCount = 0; return true; } -void IOPMWorkQueue::queuePMRequest( IOPMRequest * request ) +bool +IOPMWorkQueue::queuePMRequest( IOPMRequest * request, IOServicePM * pwrMgt ) { + queue_head_t * requestQueue; + bool more = false; + bool empty; + assert( request ); - assert( onThread() ); + assert( pwrMgt ); + assert( onThread()); + assert( queue_next(&request->fCommandChain) == + queue_prev(&request->fCommandChain)); + + gIOPMBusyRequestCount++; + + if (request->isQuiesceType()) { + if ((request->getTarget() == gIOPMRootNode) && !fQuiesceStartTime) { + // Attach new quiesce request to all quiesce blockers in the queue + fQuiesceStartTime = mach_absolute_time(); + attachQuiesceRequest(request); + fQuiesceRequest = request; + } + } else if (fQuiesceRequest && request->isQuiesceBlocker()) { + // Attach the new quiesce blocker to the blocked quiesce request + request->attachNextRequest(fQuiesceRequest); + } + + // Add new request to the tail of the per-service request queue. + // Then immediately check the request queue to minimize latency + // if the queue was empty. + + requestQueue = &pwrMgt->RequestHead; + empty = queue_empty(requestQueue); + queue_enter(requestQueue, request, typeof(request), fCommandChain); + if (empty) { + more = checkRequestQueue(requestQueue, &empty); + if (!empty) { + // Request just added is blocked, add its target IOServicePM + // to the work queue. + assert( queue_next(&pwrMgt->WorkChain) == + queue_prev(&pwrMgt->WorkChain)); + + queue_enter(&fWorkQueue, pwrMgt, typeof(pwrMgt), WorkChain); + fQueueLength++; + PM_LOG3("IOPMWorkQueue: [%u] added %s@%p to queue\n", + fQueueLength, pwrMgt->Name, OBFUSCATE(pwrMgt)); + } + } + + return more; +} + +bool +IOPMWorkQueue::checkRequestQueue( queue_head_t * requestQueue, bool * empty ) +{ + IOPMRequest * request; + IOService * target; + bool more = false; + bool done = false; + + assert(!queue_empty(requestQueue)); + do { + request = (typeof(request))queue_first(requestQueue); + if (request->isWorkBlocked()) { + break; // request dispatch blocked on attached request + } + target = request->getTarget(); + if (fInvokeAction) { + done = (*fInvokeAction)( target, request, this ); + } else { + PM_LOG("PM request 0x%x dropped\n", request->getType()); + done = true; + } + if (!done) { + break; // PM state machine blocked + } + assert(gIOPMBusyRequestCount > 0); + if (gIOPMBusyRequestCount) { + gIOPMBusyRequestCount--; + } + + if (request == fQuiesceRequest) { + fQuiesceRequest = NULL; + } + + queue_remove_first(requestQueue, request, typeof(request), fCommandChain); + more |= (*fRetireAction)( target, request, this ); + done = queue_empty(requestQueue); + } while (!done); + + *empty = done; + + if (more) { + // Retired a request that may unblock a previously visited request + // that is still waiting on the work queue. Must trigger another + // queue check. + fProducerCount++; + } + + return more; +} + +bool +IOPMWorkQueue::checkForWork( void ) +{ + IOServicePM * entry; + IOServicePM * next; + bool more = false; + bool empty; + +#if WORK_QUEUE_STATS + fStatCheckForWork++; +#endif + + // Iterate over all IOServicePM entries in the work queue, + // and check each entry's request queue. + + while (fConsumerCount != fProducerCount) { + PM_LOG3("IOPMWorkQueue: checkForWork %u %u\n", + fProducerCount, fConsumerCount); + + fConsumerCount = fProducerCount; + +#if WORK_QUEUE_STATS + if (queue_empty(&fWorkQueue)) { + fStatQueueEmpty++; + break; + } + fStatScanEntries++; + uint32_t cachedWorkCount = gIOPMWorkInvokeCount; +#endif + + __IGNORE_WCASTALIGN(entry = (typeof(entry))queue_first(&fWorkQueue)); + while (!queue_end(&fWorkQueue, (queue_entry_t) entry)) { + more |= checkRequestQueue(&entry->RequestHead, &empty); + + // Get next entry, points to head if current entry is last. + __IGNORE_WCASTALIGN(next = (typeof(next))queue_next(&entry->WorkChain)); + + // if request queue is empty, remove IOServicePM from work queue. + if (empty) { + assert(fQueueLength); + if (fQueueLength) { + fQueueLength--; + } + PM_LOG3("IOPMWorkQueue: [%u] removed %s@%p from queue\n", + fQueueLength, entry->Name, OBFUSCATE(entry)); + queue_remove(&fWorkQueue, entry, typeof(entry), WorkChain); + } + entry = next; + } + +#if WORK_QUEUE_STATS + if (cachedWorkCount == gIOPMWorkInvokeCount) { + fStatNoWorkDone++; + } +#endif + } + + return more; +} + +void +IOPMWorkQueue::signalWorkAvailable( void ) +{ + fProducerCount++; + IOEventSource::signalWorkAvailable(); +} - gIOPMBusyCount++; - queue_enter(&fWorkQueue, request, IOPMRequest *, fCommandChain); - checkForWork(); +void +IOPMWorkQueue::incrementProducerCount( void ) +{ + fProducerCount++; } -bool IOPMWorkQueue::checkForWork( void ) +void +IOPMWorkQueue::attachQuiesceRequest( IOPMRequest * quiesceRequest ) { - IOPMRequest * request; - IOService * target = (IOService *) owner; - bool done; + IOServicePM * entry; + IOPMRequest * request; + + if (queue_empty(&fWorkQueue)) { + return; + } - while (!queue_empty(&fWorkQueue)) + queue_iterate(&fWorkQueue, entry, typeof(entry), WorkChain) { - request = (IOPMRequest *) queue_first(&fWorkQueue); - assert(request->getTarget() == target); - if (request->hasChildRequest()) break; - done = (*fWorkAction)( target, request, this ); - if (!done) break; + queue_iterate(&entry->RequestHead, request, typeof(request), fCommandChain) + { + // Attach the quiesce request to any request in the queue that + // is not linked to a next request. These requests will block + // the quiesce request. + + if (request->isQuiesceBlocker()) { + request->attachNextRequest(quiesceRequest); + } + } + } +} - assert(gIOPMBusyCount > 0); - if (gIOPMBusyCount) gIOPMBusyCount--; - queue_remove_first(&fWorkQueue, request, IOPMRequest *, fCommandChain); - (*fRetireAction)( target, request, this ); +void +IOPMWorkQueue::finishQuiesceRequest( IOPMRequest * quiesceRequest ) +{ + if (fQuiesceRequest && (quiesceRequest == fQuiesceRequest) && + (fQuiesceStartTime != 0)) { + fInvokeAction = NULL; + fQuiesceFinishTime = mach_absolute_time(); } +} - return false; +// MARK: - +// MARK: IOPMCompletionQueue + +//********************************************************************************* +// IOPMCompletionQueue Class +//********************************************************************************* + +OSDefineMetaClassAndStructors( IOPMCompletionQueue, IOEventSource ); + +IOPMCompletionQueue * +IOPMCompletionQueue::create( IOService * inOwner, Action inAction ) +{ + IOPMCompletionQueue * me = OSTypeAlloc(IOPMCompletionQueue); + if (me && !me->init(inOwner, inAction)) { + me->release(); + me = NULL; + } + return me; +} + +bool +IOPMCompletionQueue::init( IOService * inOwner, Action inAction ) +{ + if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction)) { + return false; + } + + queue_init(&fQueue); + return true; +} + +bool +IOPMCompletionQueue::queuePMRequest( IOPMRequest * request ) +{ + bool more; + + assert(request); + // unblock dependent request + more = request->detachNextRequest(); + queue_enter(&fQueue, request, typeof(request), fCommandChain); + return more; +} + +bool +IOPMCompletionQueue::checkForWork( void ) +{ + Action dqAction = (Action) action; + IOPMRequest * request; + IOPMRequest * next; + IOService * target; + bool more = false; + + request = (typeof(request))queue_first(&fQueue); + while (!queue_end(&fQueue, (queue_entry_t) request)) { + next = (typeof(next))queue_next(&request->fCommandChain); + if (!request->isFreeBlocked()) { + queue_remove(&fQueue, request, typeof(request), fCommandChain); + target = request->getTarget(); + assert(target); + more |= (*dqAction)( target, request, this ); + } + request = next; + } + + return more; } +// MARK: - +// MARK: IOServicePM + OSDefineMetaClassAndStructors(IOServicePM, OSObject) //********************************************************************************* @@ -5950,41 +8819,165 @@ OSDefineMetaClassAndStructors(IOServicePM, OSObject) //********************************************************************************* static void -setPMProperty( OSDictionary * dict, const char * key, unsigned long value ) +setPMProperty( OSDictionary * dict, const char * key, uint64_t value ) { - OSNumber * num = OSNumber::withNumber(value, sizeof(value) * 8); - if (num) - { - dict->setObject(key, num); - num->release(); - } + OSNumber * num = OSNumber::withNumber(value, sizeof(value) * 8); + if (num) { + dict->setObject(key, num); + num->release(); + } } -bool IOServicePM::serialize( OSSerialize * s ) const +IOReturn +IOServicePM::gatedSerialize( OSSerialize * s ) const { - OSDictionary * dict; - bool ok = false; + OSDictionary * dict; + bool ok = false; + int powerClamp = -1; + int dictSize = 6; - dict = OSDictionary::withCapacity(8); - if (dict) - { - setPMProperty( dict, "CurrentPowerState", CurrentPowerState ); - if (DesiredPowerState != CurrentPowerState) - setPMProperty( dict, "DesiredPowerState", DesiredPowerState ); - if (kIOPM_Finished != MachineState) - setPMProperty( dict, "MachineState", MachineState ); - if (ChildrenDesire) - setPMProperty( dict, "ChildrenPowerState", ChildrenDesire ); - if (DeviceDesire) - setPMProperty( dict, "DeviceChangePowerState", DeviceDesire ); - if (DriverDesire) - setPMProperty( dict, "DriverChangePowerState", DriverDesire ); - if (DeviceOverrides) - dict->setObject( "PowerOverrideOn", kOSBooleanTrue ); + if (IdleTimerPeriod) { + dictSize += 4; + } + + if (PMActions.parameter & kPMActionsFlagLimitPower) { + dictSize += 1; + powerClamp = 0; + if (PMActions.parameter & + (kPMActionsFlagIsDisplayWrangler | kPMActionsFlagIsGraphicsDevice)) { + powerClamp++; + } + } + +#if WORK_QUEUE_STATS + if (gIOPMRootNode == ControllingDriver) { + dictSize += 4; + } +#endif + + if (PowerClients) { + dict = OSDictionary::withDictionary( + PowerClients, PowerClients->getCount() + dictSize); + } else { + dict = OSDictionary::withCapacity(dictSize); + } + + if (dict) { + setPMProperty(dict, "CurrentPowerState", CurrentPowerState); + setPMProperty(dict, "CapabilityFlags", CurrentCapabilityFlags); + if (NumberOfPowerStates) { + setPMProperty(dict, "MaxPowerState", NumberOfPowerStates - 1); + } + if (DesiredPowerState != CurrentPowerState) { + setPMProperty(dict, "DesiredPowerState", DesiredPowerState); + } + if (kIOPM_Finished != MachineState) { + setPMProperty(dict, "MachineState", MachineState); + } + if (DeviceOverrideEnabled) { + dict->setObject("PowerOverrideOn", kOSBooleanTrue); + } + if (powerClamp >= 0) { + setPMProperty(dict, "PowerClamp", powerClamp); + } + + if (IdleTimerPeriod) { + AbsoluteTime now; + AbsoluteTime delta; + uint64_t nsecs; + + clock_get_uptime(&now); + + // The idle timer period in milliseconds + setPMProperty(dict, "IdleTimerPeriod", NextIdleTimerPeriod * 1000ULL); + + // Number of tickles since the last idle timer expiration + setPMProperty(dict, "ActivityTickles", ActivityTickleCount); + + if (AbsoluteTime_to_scalar(&DeviceActiveTimestamp)) { + // Milliseconds since the last activity tickle + delta = now; + SUB_ABSOLUTETIME(&delta, &DeviceActiveTimestamp); + absolutetime_to_nanoseconds(delta, &nsecs); + setPMProperty(dict, "TimeSinceLastTickle", NS_TO_MS(nsecs)); + } + + if (!IdleTimerStopped && AbsoluteTime_to_scalar(&IdleTimerStartTime)) { + // Idle timer elapsed time in milliseconds + delta = now; + SUB_ABSOLUTETIME(&delta, &IdleTimerStartTime); + absolutetime_to_nanoseconds(delta, &nsecs); + setPMProperty(dict, "IdleTimerElapsedTime", NS_TO_MS(nsecs)); + } + } + +#if WORK_QUEUE_STATS + if (gIOPMRootNode == Owner) { + setPMProperty(dict, "WQ-CheckForWork", + gIOPMWorkQueue->fStatCheckForWork); + setPMProperty(dict, "WQ-ScanEntries", + gIOPMWorkQueue->fStatScanEntries); + setPMProperty(dict, "WQ-QueueEmpty", + gIOPMWorkQueue->fStatQueueEmpty); + setPMProperty(dict, "WQ-NoWorkDone", + gIOPMWorkQueue->fStatNoWorkDone); + } +#endif + + if (HasAdvisoryDesire && !gIOPMAdvisoryTickleEnabled) { + // Don't report advisory tickle when it has no influence + dict->removeObject(gIOPMPowerClientAdvisoryTickle); + } ok = dict->serialize(s); dict->release(); } - return ok; + return ok ? kIOReturnSuccess : kIOReturnNoMemory; +} + +bool +IOServicePM::serialize( OSSerialize * s ) const +{ + IOReturn ret = kIOReturnNotReady; + + if (gIOPMWatchDogThread == current_thread()) { + // Calling without lock as this data is collected for debug purpose, before reboot. + // The workloop is probably already hung in state machine. + ret = gatedSerialize(s); + } else if (gIOPMWorkLoop) { + ret = gIOPMWorkLoop->runAction( + OSMemberFunctionCast(IOWorkLoop::Action, this, &IOServicePM::gatedSerialize), + (OSObject *) this, (void *) s); + } + + return kIOReturnSuccess == ret; +} + +void +IOServicePM::pmPrint( + uint32_t event, + uintptr_t param1, + uintptr_t param2 ) const +{ + gPlatform->PMLog(Name, event, param1, param2); +} + +void +IOServicePM::pmTrace( + uint32_t event, + uint32_t eventFunc, + uintptr_t param1, + uintptr_t param2 ) const +{ + uintptr_t nameAsArg = 0; + + assert(event < KDBG_CODE_MAX); + assert((eventFunc & ~KDBG_FUNC_MASK) == 0); + + // Copy the first characters of the name into an uintptr_t. + // NULL termination is not required. + strncpy((char*)&nameAsArg, Name, sizeof(nameAsArg)); + + IOTimeStampConstant(IODBG_POWER(event) | eventFunc, nameAsArg, (uintptr_t)Owner->getRegistryEntryID(), (uintptr_t)(OBFUSCATE(param1)), (uintptr_t)(OBFUSCATE(param2))); }