* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
*/
-//#undef IOASSERT
-//#define IOASSERT 1
-
#include <IOKit/assert.h>
#include <IOKit/IOKitDebug.h>
#include <IOKit/IOLib.h>
#include <IOKit/IOEventSource.h>
#include <IOKit/IOWorkLoop.h>
#include <IOKit/IOCommand.h>
+#include <IOKit/IOTimeStamp.h>
+#include <IOKit/IOReportMacros.h>
#include <IOKit/pwr_mgt/IOPMlog.h>
#include <IOKit/pwr_mgt/IOPMinformee.h>
#include <sys/proc.h>
#include <sys/proc_internal.h>
+#include <sys/sysctl.h>
#include <libkern/OSDebug.h>
+#include <kern/thread.h>
// 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 idle_timer_expired(thread_call_param_t, thread_call_param_t);
static void tellKernelClientApplier(OSObject * object, void * arg);
OSDefineMetaClassAndStructors(IOPMprot, OSObject)
#endif
-// Container class for recording system power events
-OSDefineMetaClassAndStructors( PMEventDetails, OSObject );
-
//******************************************************************************
// Globals
//******************************************************************************
-static bool gIOPMInitialized = false;
-static uint32_t gIOPMBusyCount = 0;
-static uint32_t gIOPMWorkCount = 0;
-static IOWorkLoop * gIOPMWorkLoop = 0;
-static IOPMRequestQueue * gIOPMRequestQueue = 0;
-static IOPMRequestQueue * gIOPMReplyQueue = 0;
-static IOPMWorkQueue * gIOPMWorkQueue = 0;
-static IOPMCompletionQueue * gIOPMFreeQueue = 0;
-static IOPMRequest * gIOPMRequest = 0;
-static IOService * gIOPMRootNode = 0;
-static IOPlatformExpert * gPlatform = 0;
-
-static const OSSymbol * gIOPMPowerClientDevice = 0;
-static const OSSymbol * gIOPMPowerClientDriver = 0;
-static const OSSymbol * gIOPMPowerClientChildProxy = 0;
-static const OSSymbol * gIOPMPowerClientChildren = 0;
+static bool gIOPMInitialized = false;
+static uint32_t gIOPMBusyRequestCount = 0;
+static uint32_t gIOPMWorkInvokeCount = 0;
+static uint32_t gIOPMTickleGeneration = 0;
+static IOWorkLoop * gIOPMWorkLoop = 0;
+static IOPMRequestQueue * gIOPMRequestQueue = 0;
+static IOPMRequestQueue * gIOPMReplyQueue = 0;
+static IOPMWorkQueue * gIOPMWorkQueue = 0;
+static IOPMCompletionQueue * gIOPMCompletionQueue = 0;
+static IOPMRequest * gIOPMRequest = 0;
+static IOService * gIOPMRootNode = 0;
+static IOPlatformExpert * gPlatform = 0;
+
+static char gIOSpinDumpKextName[128];
+static char gIOSpinDumpDelayType[16];
+static uint32_t gIOSpinDumpDelayDuration = 0;
+
+static SYSCTL_STRING(_debug, OID_AUTO, swd_kext_name,
+ CTLFLAG_RW | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ &gIOSpinDumpKextName, sizeof(gIOSpinDumpKextName), "");
+static SYSCTL_STRING(_debug, OID_AUTO, swd_delay_type,
+ CTLFLAG_RW | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ &gIOSpinDumpDelayType, sizeof(gIOSpinDumpDelayType), "");
+static SYSCTL_INT(_debug, OID_AUTO, swd_delay_duration,
+ CTLFLAG_RW | CTLFLAG_KERN | CTLFLAG_LOCKED,
+ &gIOSpinDumpDelayDuration, 0, "");
+
+const OSSymbol * gIOPMPowerClientDevice = 0;
+const OSSymbol * gIOPMPowerClientDriver = 0;
+const OSSymbol * gIOPMPowerClientChildProxy = 0;
+const OSSymbol * gIOPMPowerClientChildren = 0;
+const OSSymbol * gIOPMPowerClientRootDomain = 0;
static const OSSymbol * gIOPMPowerClientAdvisoryTickle = 0;
static bool gIOPMAdvisoryTickleEnabled = true;
+static thread_t gIOPMWatchDogThread = NULL;
+uint32_t gCanSleepTimeout = 0;
static uint32_t getPMRequestType( void )
{
uint32_t type = kIOPMRequestTypeInvalid;
- if (gIOPMRequest)
+ if (gIOPMRequest)
type = gIOPMRequest->getType();
return type;
}
+static IOPMRequestTag getPMRequestTag( void )
+{
+ IOPMRequestTag tag = 0;
+ if (gIOPMRequest &&
+ (gIOPMRequest->getType() == kIOPMRequestTypeRequestPowerStateOverride))
+ {
+ tag = gIOPMRequest->fRequestTag;
+ }
+ return tag;
+}
+
+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_ERROR(x...) do { kprintf(x);IOLog(x); \
+ } while (false)
#define PM_LOG(x...) do { kprintf(x); } while (false)
#define PM_LOG1(x...) do { \
#define RD_LOG(x...) do { \
if ((kIOLogPMRootDomain & gIOKitDebug) && \
- (getPMRootDomain() == this)) \
- kprintf("PMRD: " x); } while (false)
-
+ (getPMRootDomain() == this)) { \
+ kprintf("PMRD: " x); \
+ }} while (false)
#define PM_ASSERT_IN_GATE(x) \
do { \
assert(gIOPMWorkLoop->inGate()); \
#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*1000000)
+#define k30Seconds (30*us_per_s)
+#define k5Seconds ( 5*us_per_s)
+#define kCanSleepMaxTimeReq k30Seconds
+#define kMaxTimeRequested k30Seconds
#define kMinAckTimeoutTicks (10*1000000)
#define kIOPMTardyAckSPSKey "IOPMTardyAckSetPowerState"
#define kIOPMTardyAckPSCKey "IOPMTardyAckPowerStateChange"
#define kPwrMgtKey "IOPowerManagement"
-#define OUR_PMLog(t, a, b) \
- do { gPlatform->PMLog( fName, t, a, b); } while(0)
+#define OUR_PMLog(t, a, b) do { \
+ if (gIOKitDebug & kIOLogPower) \
+ pwrMgt->pmPrint(t, a, b); \
+ if (gIOKitTrace & kIOTracePowerMgmt) \
+ pwrMgt->pmTrace(t, a, b); \
+ } while(0)
#define NS_TO_MS(nsec) ((int)((nsec) / 1000000ULL))
#define NS_TO_US(nsec) ((int)((nsec) / 1000ULL))
-#if CONFIG_EMBEDDED
#define SUPPORT_IDLE_CANCEL 1
-#endif
-#define kIOPMPowerStateMax 0xFFFFFFFF
-#define kInvalidTicklePowerState (-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 (fHeadNotePowerState < fCurrentPowerState)
-#define IS_POWER_RISE (fHeadNotePowerState > fCurrentPowerState)
+#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 PM_ACTION_2(a, x, y) \
do { if (fPMActions.a) { \
- (fPMActions.a)(fPMActions.target, this, &fPMActions, x, y); } \
+ (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,
+ OSObject *object,
IOPMInterestContext *context);
static void logClientIDForNotification(
OSObject *object,
- IOPMInterestContext *context,
+ IOPMInterestContext *context,
const char *logString);
//*********************************************************************************
kIOPM_Finished = 0,
kIOPM_OurChangeTellClientsPowerDown = 1,
- kIOPM_OurChangeTellPriorityClientsPowerDown = 2,
- kIOPM_OurChangeNotifyInterestedDriversWillChange = 3,
- kIOPM_OurChangeSetPowerState = 4,
- kIOPM_OurChangeWaitForPowerSettle = 5,
- kIOPM_OurChangeNotifyInterestedDriversDidChange = 6,
- kIOPM_OurChangeTellCapabilityDidChange = 7,
- kIOPM_OurChangeFinish = 8,
+ 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_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] PMinit
//
// Initialize power management.
//*********************************************************************************
-void IOService::PMinit ( void )
+void IOService::PMinit( void )
{
if ( !initialized )
- {
- if ( !gIOPMInitialized )
- {
+ {
+ if ( !gIOPMInitialized )
+ {
gPlatform = getPlatform();
gIOPMWorkLoop = IOWorkLoop::workLoop();
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));
- gIOPMWorkQueue = IOPMWorkQueue::create(
- this,
+ gIOPMWorkQueue = IOPMWorkQueue::create(this,
OSMemberFunctionCast(IOPMWorkQueue::Action, this,
- &IOService::servicePMRequest),
+ &IOService::actionPMWorkQueueInvoke),
OSMemberFunctionCast(IOPMWorkQueue::Action, this,
- &IOService::retirePMRequest));
+ &IOService::actionPMWorkQueueRetire));
- gIOPMFreeQueue = IOPMCompletionQueue::create(
+ gIOPMCompletionQueue = IOPMCompletionQueue::create(
this, OSMemberFunctionCast(IOPMCompletionQueue::Action,
- this, &IOService::servicePMFreeQueue));
+ this, &IOService::actionPMCompletionQueue));
if (gIOPMWorkLoop->addEventSource(gIOPMRequestQueue) !=
kIOReturnSuccess)
gIOPMWorkQueue = 0;
}
- if (gIOPMWorkLoop->addEventSource(gIOPMFreeQueue) !=
+ // Must be added after the work queue, which pushes request
+ // to the completion queue without signaling the work loop.
+ if (gIOPMWorkLoop->addEventSource(gIOPMCompletionQueue) !=
kIOReturnSuccess)
{
- gIOPMFreeQueue->release();
- gIOPMFreeQueue = 0;
+ gIOPMCompletionQueue->release();
+ gIOPMCompletionQueue = 0;
}
gIOPMPowerClientDevice =
gIOPMPowerClientAdvisoryTickle =
OSSymbol::withCStringNoCopy( "AdvisoryTicklePowerState" );
+
+ gIOPMPowerClientRootDomain =
+ OSSymbol::withCStringNoCopy( "RootDomainPower" );
+
+ gIOSpinDumpKextName[0] = '\0';
+ gIOSpinDumpDelayType[0] = '\0';
}
- if (gIOPMRequestQueue && gIOPMReplyQueue && gIOPMFreeQueue)
+ if (gIOPMRequestQueue && gIOPMReplyQueue && gIOPMCompletionQueue)
gIOPMInitialized = true;
}
if (!gIOPMInitialized)
fPMLock = IOLockAlloc();
fInterestedDrivers = new IOPMinformeeList;
fInterestedDrivers->initialize();
- fDesiredPowerState = 0;
- fDeviceDesire = 0;
+ fDesiredPowerState = kPowerStateZero;
+ fDeviceDesire = kPowerStateZero;
fInitialPowerChange = true;
fInitialSetPowerState = true;
fPreviousRequestPowerFlags = 0;
fDeviceOverrideEnabled = false;
fMachineState = kIOPM_Finished;
fSavedMachineState = kIOPM_BadMachineState;
- fIdleTimerMinPowerState = 0;
+ fIdleTimerMinPowerState = kPowerStateZero;
fActivityLock = IOLockAlloc();
fStrictTreeOrder = false;
fActivityTicklePowerState = kInvalidTicklePowerState;
fControllingDriver = NULL;
fPowerStates = NULL;
fNumberOfPowerStates = 0;
- fCurrentPowerState = 0;
+ fCurrentPowerState = kPowerStateZero;
fParentsCurrentPowerFlags = 0;
- fMaxPowerState = 0;
+ fMaxPowerState = kPowerStateZero;
fName = getName();
fParentsKnowState = false;
fSerialNumber = 0;
gIOPMRootNode = this;
fParentsKnowState = true;
}
+ else if (getProperty(kIOPMResetPowerStateOnWakeKey) == kOSBooleanTrue)
+ {
+ fResetPowerStateOnWake = true;
+ }
+
+ if (IS_ROOT_DOMAIN)
+ {
+ fWatchdogTimer = thread_call_allocate(
+ &IOService::watchdog_timer_expired, (thread_call_param_t)this);
+ }
fAckTimer = thread_call_allocate(
- &IOService::ack_timer_expired, (thread_call_param_t)this);
+ &IOService::ack_timer_expired, (thread_call_param_t)this);
fSettleTimer = thread_call_allocate(
- &settle_timer_expired, (thread_call_param_t)this);
+ &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);
+ (thread_call_func_t) &IOService::pmDriverCallout, this);
assert(fDriverCallEntry);
+ if (kIOKextSpinDump & gIOKitDebug)
+ {
+ fSpinDumpTimer = thread_call_allocate(
+ &IOService::spindump_timer_expired, (thread_call_param_t)this);
+ }
// Check for powerChangeDone override.
if (OSMemberFunctionCast(void (*)(void),
- getResourceService(), &IOService::powerChangeDone) !=
- OSMemberFunctionCast(void (*)(void),
- this, &IOService::powerChangeDone))
+ getResourceService(), &IOService::powerChangeDone) !=
+ OSMemberFunctionCast(void (*)(void),
+ this, &IOService::powerChangeDone))
{
fPCDFunctionOverride = true;
}
prot->thePlatform = gPlatform;
fPMVars = prot;
pm_vars = prot;
- }
+ }
#else
pm_vars = (void *) (uintptr_t) true;
#endif
// Free the data created by PMinit. Only called from IOService::free().
//*********************************************************************************
-void IOService::PMfree ( void )
+void IOService::PMfree( void )
{
initialized = false;
pm_vars = 0;
assert(queue_empty(&pwrMgt->RequestHead));
assert(queue_empty(&fPMDriverCallQueue));
+ if (fWatchdogTimer) {
+ thread_call_cancel(fWatchdogTimer);
+ thread_call_free(fWatchdogTimer);
+ fWatchdogTimer = NULL;
+ }
+
if ( fSettleTimer ) {
thread_call_cancel(fSettleTimer);
thread_call_free(fSettleTimer);
thread_call_free(fDriverCallEntry);
fDriverCallEntry = NULL;
}
+ if ( fSpinDumpTimer ) {
+ thread_call_cancel(fSpinDumpTimer);
+ thread_call_free(fSpinDumpTimer);
+ fSpinDumpTimer = NULL;
+ }
if ( fPMLock ) {
IOLockFree(fPMLock);
fPMLock = NULL;
}
}
+void IOService::PMDebug( uint32_t event, uintptr_t param1, uintptr_t param2 )
+{
+ OUR_PMLog(event, param1, param2);
+}
+
//*********************************************************************************
// [public] joinPMtree
//
// meaning it may not be initialized for power management.
//*********************************************************************************
-void IOService::joinPMtree ( IOService * driver )
+void IOService::joinPMtree( IOService * driver )
{
IOPlatformExpert * platform;
// Power Managment is informing us that we are the root power domain.
//*********************************************************************************
-IOReturn IOService::youAreRoot ( void )
+IOReturn IOService::youAreRoot( void )
{
return IOPMNoErr;
}
// from power plane.
//*********************************************************************************
-void IOService::PMstop ( void )
+void IOService::PMstop( void )
{
IOPMRequest * request;
request = acquirePMRequest( this, kIOPMRequestTypePMStop );
if (request)
{
- PM_LOG2("%s: %p PMstop\n", getName(), this);
+ PM_LOG2("%s: %p PMstop\n", getName(), OBFUSCATE(this));
submitPMRequest( request );
}
}
// 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;
+ OSObject * next;
+ IOPowerConnection * connection;
+ IOService * theChild;
+ IOService * theParent;
- PM_ASSERT_IN_GATE();
- PM_LOG2("%s: %p %s start\n", getName(), this, __FUNCTION__);
+ PM_ASSERT_IN_GATE();
+ 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);
+ removeProperty(kPwrMgtKey);
// detach parents
iter = getParentIterator(gIOPowerPlane);
// detach IOConnections
detachAbove( gIOPowerPlane );
-
+
// no more power state changes
fParentsKnowState = false;
if ( fInterestedDrivers )
{
- IOPMinformeeList * list = fInterestedDrivers;
- IOPMinformee * item;
+ IOPMinformeeList * list = fInterestedDrivers;
+ IOPMinformee * item;
PM_LOCK();
while ((item = list->firstInList()))
PM_UNLOCK();
}
- // Tell idleTimerExpired() to ignore idle timer.
+ // Clear idle period to prevent idleTimerExpired() from servicing
+ // idle timer expirations.
+
fIdleTimerPeriod = 0;
if (fIdleTimer && thread_call_cancel(fIdleTimer))
release();
- PM_LOG2("%s: %p %s done\n", getName(), this, __FUNCTION__);
+ PM_LOG2("%s: %p %s done\n", getName(), OBFUSCATE(this), __FUNCTION__);
}
//*********************************************************************************
// 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 = 0;
+ IOPMRequest * requests[3] = {0, 0, 0};
+ OSIterator * iter;
+ bool ok = true;
- if (!child)
- return kIOReturnBadArgument;
+ if (!child)
+ return kIOReturnBadArgument;
if (!initialized || !child->initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
OUR_PMLog( kPMLogAddChild, (uintptr_t) child, 0 );
- do {
- // Is this child already one of our children?
+ do {
+ // Is this child already one of our children?
- iter = child->getParentIterator( gIOPowerPlane );
- if ( iter )
- {
- IORegistryEntry * entry;
- OSObject * next;
-
- while ((next = iter->getNextObject()))
- {
- if ((entry = OSDynamicCast(IORegistryEntry, next)) &&
- isChild(entry, gIOPowerPlane))
- {
- ok = false;
- break;
- }
- }
- iter->release();
- }
- if (!ok)
- {
- PM_LOG("%s: %s (%p) is already a child\n",
- getName(), child->getName(), child);
- break;
- }
+ iter = child->getParentIterator( gIOPowerPlane );
+ if ( iter )
+ {
+ IORegistryEntry * entry;
+ OSObject * next;
+
+ while ((next = iter->getNextObject()))
+ {
+ if ((entry = OSDynamicCast(IORegistryEntry, next)) &&
+ isChild(entry, gIOPowerPlane))
+ {
+ ok = false;
+ break;
+ }
+ }
+ iter->release();
+ }
+ if (!ok)
+ {
+ PM_LOG("%s: %s (%p) is already a child\n",
+ getName(), child->getName(), OBFUSCATE(child));
+ break;
+ }
- // Add the child to the power plane immediately, but the
- // joining connection is marked as not ready.
- // We want the child to appear in the power plane before
- // returning to the caller, but don't want the caller to
- // block on the PM work loop.
+ // Add the child to the power plane immediately, but the
+ // joining connection is marked as not ready.
+ // We want the child to appear in the power plane before
+ // returning to the caller, but don't want the caller to
+ // block on the PM work loop.
- connection = new IOPowerConnection;
- if (!connection)
- break;
+ connection = new IOPowerConnection;
+ if (!connection)
+ break;
- // Create a chain of PM requests to perform the bottom-half
- // work from the PM work loop.
+ // Create a chain of PM requests to perform the bottom-half
+ // work from the PM work loop.
- requests[0] = acquirePMRequest(
- /* target */ this,
- /* type */ kIOPMRequestTypeAddPowerChild1 );
+ requests[0] = acquirePMRequest(
+ /* target */ this,
+ /* type */ kIOPMRequestTypeAddPowerChild1 );
- requests[1] = acquirePMRequest(
- /* target */ child,
- /* type */ kIOPMRequestTypeAddPowerChild2 );
+ requests[1] = acquirePMRequest(
+ /* target */ child,
+ /* type */ kIOPMRequestTypeAddPowerChild2 );
- requests[2] = acquirePMRequest(
- /* target */ this,
- /* type */ kIOPMRequestTypeAddPowerChild3 );
+ requests[2] = acquirePMRequest(
+ /* target */ this,
+ /* type */ kIOPMRequestTypeAddPowerChild3 );
- if (!requests[0] || !requests[1] || !requests[2])
- break;
+ if (!requests[0] || !requests[1] || !requests[2])
+ break;
- requests[0]->attachNextRequest( requests[1] );
- requests[1]->attachNextRequest( requests[2] );
+ requests[0]->attachNextRequest( requests[1] );
+ requests[1]->attachNextRequest( requests[2] );
- connection->init();
- connection->start(this);
- connection->setAwaitingAck(false);
- connection->setReadyFlag(false);
+ connection->init();
+ connection->start(this);
+ connection->setAwaitingAck(false);
+ connection->setReadyFlag(false);
- attachToChild( connection, gIOPowerPlane );
- connection->attachToChild( child, gIOPowerPlane );
+ attachToChild( connection, gIOPowerPlane );
+ connection->attachToChild( child, gIOPowerPlane );
- // connection needs to be released
- requests[0]->fArg0 = connection;
- requests[1]->fArg0 = connection;
- requests[2]->fArg0 = connection;
+ // connection needs to be released
+ requests[0]->fArg0 = connection;
+ requests[1]->fArg0 = connection;
+ requests[2]->fArg0 = connection;
- submitPMRequest( requests, 3 );
- return kIOReturnSuccess;
- }
- while (false);
+ submitPMRequests( requests, 3 );
+ return kIOReturnSuccess;
+ }
+ 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
- // to the root domain.
+ // Silent failure, to prevent platform drivers from adding the child
+ // to the root domain.
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//*********************************************************************************
// 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.
+ // Make us temporary usable before adding the child.
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
OUR_PMLog( kPMLogMakeUsable, kPMLogMakeUsable, 0 );
- if (fControllingDriver && inPlane(gIOPowerPlane) && fParentsKnowState)
- {
- tempDesire = fNumberOfPowerStates - 1;
- }
+ if (fControllingDriver && inPlane(gIOPowerPlane) && fParentsKnowState)
+ {
+ tempDesire = fHighestPowerState;
+ }
- if (tempDesire && (IS_PM_ROOT || (fMaxPowerState >= tempDesire)))
- {
- adjustPowerState(tempDesire);
- }
+ if ((tempDesire != kPowerStateZero) &&
+ (IS_PM_ROOT || (StateOrder(fMaxPowerState) >= StateOrder(tempDesire))))
+ {
+ adjustPowerState(tempDesire);
+ }
}
//*********************************************************************************
// 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;
+ IOPowerConnection * connection = (IOPowerConnection *) request->fArg0;
+ IOService * parent;
+ IOPMPowerFlags powerFlags;
+ bool knowsState;
+ unsigned long powerState;
+ unsigned long tempDesire;
- PM_ASSERT_IN_GATE();
- parent = (IOService *) connection->getParentEntry(gIOPowerPlane);
+ PM_ASSERT_IN_GATE();
+ parent = (IOService *) connection->getParentEntry(gIOPowerPlane);
- if (!parent || !inPlane(gIOPowerPlane))
- {
- PM_LOG("%s: addPowerChild2 not in power plane\n", getName());
- return;
- }
+ 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.
- // It is 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;
+ knowsState = (parent->fPowerStates) && (parent->fParentsKnowState);
+ powerState = parent->fCurrentPowerState;
- if (knowsState)
- powerFlags = parent->fPowerStates[powerState].outputPowerFlags;
- else
- powerFlags = 0;
+ if (knowsState)
+ powerFlags = parent->fPowerStates[powerState].outputPowerFlags;
+ else
+ powerFlags = 0;
- // Set our power parent.
+ // Set our power parent.
OUR_PMLog(kPMLogSetParent, knowsState, powerFlags);
- setParentInfo( powerFlags, connection, knowsState );
+ setParentInfo( powerFlags, connection, knowsState );
- connection->setReadyFlag(true);
+ connection->setReadyFlag(true);
if ( fControllingDriver && fParentsKnowState )
{
// Execution blocked behind addPowerChild2.
//*********************************************************************************
-void IOService::addPowerChild3 ( IOPMRequest * request )
+void IOService::addPowerChild3( IOPMRequest * request )
{
- IOPowerConnection * connection = (IOPowerConnection *) request->fArg0;
- IOService * child;
+ IOPowerConnection * connection = (IOPowerConnection *) request->fArg0;
+ IOService * child;
IOPMrootDomain * rootDomain = getPMRootDomain();
- PM_ASSERT_IN_GATE();
- child = (IOService *) connection->getChildEntry(gIOPowerPlane);
+ PM_ASSERT_IN_GATE();
+ child = (IOService *) connection->getChildEntry(gIOPowerPlane);
- if (child && inPlane(gIOPowerPlane))
- {
- if ((this != rootDomain) && child->getProperty("IOPMStrictTreeOrder"))
- {
- PM_LOG1("%s: strict PM order enforced\n", getName());
- fStrictTreeOrder = true;
- }
+ if (child && inPlane(gIOPowerPlane))
+ {
+ if ((this != rootDomain) && child->getProperty("IOPMStrictTreeOrder"))
+ {
+ PM_LOG1("%s: strict PM order enforced\n", getName());
+ fStrictTreeOrder = true;
+ }
if (rootDomain)
rootDomain->joinAggressiveness( child );
- }
- else
- {
- PM_LOG("%s: addPowerChild3 not in power plane\n", getName());
- }
+ }
+ else
+ {
+ PM_LOG("%s: addPowerChild3 not in power plane\n", getName());
+ }
- connection->release();
+ connection->release();
}
#ifndef __LP64__
// to assume that state.
//*********************************************************************************
-IOReturn IOService::setPowerParent (
- IOPowerConnection * theParent, bool stateKnown, IOPMPowerFlags powerFlags )
+IOReturn IOService::setPowerParent(
+ IOPowerConnection * theParent, bool stateKnown, IOPMPowerFlags powerFlags )
{
- return kIOReturnUnsupported;
+ return kIOReturnUnsupported;
}
#endif /* !__LP64__ */
// 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();
+ PM_ASSERT_IN_GATE();
OUR_PMLog( kPMLogRemoveChild, 0, 0 );
theNub->retain();
// detach nub from child
- theChild = theNub->copyChildEntry(gIOPowerPlane);
+ theChild = theNub->copyChildEntry(gIOPowerPlane);
if ( theChild )
{
theNub->detachFromChild(theChild, gIOPowerPlane);
// Are we awaiting an ack from this child?
if ( theNub->getAwaitingAck() )
- {
- // yes, pretend we got one
- theNub->setAwaitingAck(false);
- if (fHeadNotePendingAcks != 0 )
- {
- // that's one fewer ack to worry about
- fHeadNotePendingAcks--;
-
- // is that the last?
- if ( fHeadNotePendingAcks == 0 )
- {
- stop_ack_timer();
-
- // Request unblocked, work queue
- // should re-scan all busy requests.
- gIOPMWorkQueue->incrementProducerCount();
- }
- }
- }
+ {
+ // yes, pretend we got one
+ theNub->setAwaitingAck(false);
+ if (fHeadNotePendingAcks != 0 )
+ {
+ // that's one fewer ack to worry about
+ fHeadNotePendingAcks--;
- theNub->release();
+ // is that the last?
+ if ( fHeadNotePendingAcks == 0 )
+ {
+ stop_ack_timer();
- // A child has gone away, re-scan children desires and clamp bits.
- // The fPendingAdjustPowerRequest helps to reduce redundant parent work.
+ // 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.
- if (!fAdjustPowerScheduled)
- {
- IOPMRequest * request;
- request = acquirePMRequest( this, kIOPMRequestTypeAdjustPowerState );
- if (request)
- {
- submitPMRequest( request );
- fAdjustPowerScheduled = true;
- }
- }
+ gIOPMWorkQueue->incrementProducerCount();
+ }
+ }
+ }
+
+ theNub->release();
+
+ // 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)
+ {
+ submitPMRequest( request );
+ fAdjustPowerScheduled = true;
+ }
+ }
return IOPMNoErr;
}
// 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;
- IOPMPSEntry * powerStatesCopy = 0;
+ IOPMRequest * request;
+ IOPMPSEntry * powerStatesCopy = 0;
+ IOPMPowerStateIndex stateOrder;
+ IOReturn error = kIOReturnSuccess;
if (!initialized)
- return IOPMNotYetInitialized;
-
- // Validate arguments.
- if (!powerStates || (numberOfStates < 2))
- {
- OUR_PMLog(kPMLogControllingDriverErr5, numberOfStates, 0);
- return kIOReturnBadArgument;
- }
-
- if (!powerDriver || !powerDriver->initialized)
- {
- OUR_PMLog(kPMLogControllingDriverErr4, 0, 0);
- return kIOReturnBadArgument;
- }
-
- if (powerStates[0].version != kIOPMPowerStateVersion1)
- {
- OUR_PMLog(kPMLogControllingDriverErr1, powerStates[0].version, 0);
- return kIOReturnBadArgument;
- }
-
- do {
- // Make a copy of the supplied power state array.
- powerStatesCopy = IONew(IOPMPSEntry, numberOfStates);
- if (!powerStatesCopy)
- break;
+ return IOPMNotYetInitialized;
+
+ if (!powerStates || (numberOfStates < 2))
+ {
+ OUR_PMLog(kPMLogControllingDriverErr5, numberOfStates, 0);
+ return kIOReturnBadArgument;
+ }
+
+ if (!powerDriver || !powerDriver->initialized)
+ {
+ OUR_PMLog(kPMLogControllingDriverErr4, 0, 0);
+ return kIOReturnBadArgument;
+ }
+
+ 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(IOPMPSEntry, numberOfStates);
+ if (!powerStatesCopy)
+ {
+ error = kIOReturnNoMemory;
+ break;
+ }
+
+ // Initialize to bogus values
+ for (IOPMPowerStateIndex i = 0; i < numberOfStates; i++)
+ powerStatesCopy[i].stateOrderToIndex = kIOPMPowerStateMax;
for (uint32_t i = 0; i < numberOfStates; i++)
{
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)
+ {
+ error = kIOReturnNoMemory;
+ break;
}
- request = acquirePMRequest( this, kIOPMRequestTypeRegisterPowerDriver );
- if (!request)
- break;
+ powerDriver->retain();
+ request->fArg0 = (void *) powerDriver;
+ request->fArg1 = (void *) powerStatesCopy;
+ request->fArg2 = (void *) numberOfStates;
- powerDriver->retain();
- request->fArg0 = (void *) powerDriver;
- request->fArg1 = (void *) powerStatesCopy;
- request->fArg2 = (void *) numberOfStates;
+ submitPMRequest( request );
+ return kIOReturnSuccess;
+ }
+ while (false);
- submitPMRequest( request );
- return kIOReturnSuccess;
- }
- while (false);
+ if (powerStatesCopy)
+ IODelete(powerStatesCopy, IOPMPSEntry, numberOfStates);
- if (powerStatesCopy)
- IODelete(powerStatesCopy, IOPMPSEntry, numberOfStates);
- return kIOReturnNoMemory;
+ return error;
}
//*********************************************************************************
// [private] handleRegisterPowerDriver
//*********************************************************************************
-void IOService::handleRegisterPowerDriver ( IOPMRequest * request )
+void IOService::handleRegisterPowerDriver( IOPMRequest * request )
{
- IOService * powerDriver = (IOService *) request->fArg0;
- IOPMPSEntry * powerStates = (IOPMPSEntry *) request->fArg1;
- unsigned long numberOfStates = (unsigned long) request->fArg2;
- unsigned long i;
- IOService * root;
- OSIterator * iter;
+ 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);
+ PM_ASSERT_IN_GATE();
+ assert(powerStates);
+ assert(powerDriver);
+ assert(numberOfStates > 1);
if ( !fNumberOfPowerStates )
{
- OUR_PMLog(kPMLogControllingDriver,
- (unsigned long) numberOfStates,
- (unsigned long) kIOPMPowerStateVersion1);
+ OUR_PMLog(kPMLogControllingDriver,
+ (unsigned long) numberOfStates,
+ (unsigned long) kIOPMPowerStateVersion1);
fPowerStates = powerStates;
- fNumberOfPowerStates = numberOfStates;
- fControllingDriver = powerDriver;
+ fNumberOfPowerStates = numberOfStates;
+ fControllingDriver = powerDriver;
fCurrentCapabilityFlags = fPowerStates[0].capabilityFlags;
- // make a mask of all the character bits we know about
- fOutputPowerCharacterFlags = 0;
- for ( i = 0; i < numberOfStates; i++ ) {
- fOutputPowerCharacterFlags |= fPowerStates[i].outputPowerFlags;
- if (!fDeviceUsablePowerState &&
- (fPowerStates[i].capabilityFlags & IOPMDeviceUsable))
+ lowestPowerState = fPowerStates[0].stateOrderToIndex;
+ fHighestPowerState = fPowerStates[numberOfStates - 1].stateOrderToIndex;
+
+ // 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 = i;
+ fDeviceUsablePowerState = stateIndex;
}
- }
+ }
- // Register powerDriver as interested, unless already done.
- // We don't want to register the default implementation since
- // it does nothing. One ramification of not always registering
- // is the one fewer retain count held.
-
- 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)
- {
- PM_LOCK();
- fInterestedDrivers->appendNewInformee(powerDriver);
- PM_UNLOCK();
- }
- }
+ // Register powerDriver as interested, unless already done.
+ // We don't want to register the default implementation since
+ // it does nothing. One ramification of not always registering
+ // is the one fewer retain count held.
+
+ 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)
+ {
+ PM_LOCK();
+ fInterestedDrivers->appendNewInformee(powerDriver);
+ PM_UNLOCK();
+ }
+ }
- // Examine all existing power clients and perform limit check.
+ // Examine all existing power clients and perform limit check.
- if (fPowerClients)
+ if (fPowerClients &&
+ (iter = OSCollectionIterator::withCollection(fPowerClients)))
{
- iter = OSCollectionIterator::withCollection(fPowerClients);
- if (iter)
+ const OSSymbol * client;
+ while ((client = (const OSSymbol *) iter->getNextObject()))
{
- const OSSymbol * client;
- while ((client = (const OSSymbol *) iter->getNextObject()))
+ IOPMPowerStateIndex powerState = getPowerStateForClient(client);
+ if (powerState >= numberOfStates)
{
- uint32_t powerState = getPowerStateForClient(client);
- if (powerState >= numberOfStates)
- {
- updatePowerClient(client, numberOfStates - 1);
- }
+ updatePowerClient(client, fHighestPowerState);
}
- iter->release();
}
+ iter->release();
}
- if ( inPlane(gIOPowerPlane) && fParentsKnowState )
- {
- unsigned long tempDesire;
- fMaxPowerState = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags);
- // initially change into the state we are already in
- tempDesire = fControllingDriver->initialPowerStateForDomainState(fParentsCurrentPowerFlags);
- adjustPowerState(tempDesire);
- }
- }
- else
- {
- OUR_PMLog(kPMLogControllingDriverErr2, numberOfStates, 0);
+ if ( inPlane(gIOPowerPlane) && fParentsKnowState )
+ {
+ IOPMPowerStateIndex tempDesire;
+ fMaxPowerState = fControllingDriver->maxCapabilityForDomainState(fParentsCurrentPowerFlags);
+ // initially change into the state we are already in
+ tempDesire = fControllingDriver->initialPowerStateForDomainState(fParentsCurrentPowerFlags);
+ adjustPowerState(tempDesire);
+ }
+ }
+ else
+ {
+ OUR_PMLog(kPMLogControllingDriverErr2, numberOfStates, 0);
IODelete(powerStates, IOPMPSEntry, numberOfStates);
- }
+ }
- powerDriver->release();
+ powerDriver->release();
}
//*********************************************************************************
// 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 (!driver || !initialized || !fInterestedDrivers)
return 0;
// for those clients that care.
OUR_PMLog(kPMLogInterestedDriver, kIOPMDeviceUsable, 2);
- return kIOPMDeviceUsable;
+ return kIOPMDeviceUsable;
}
//*********************************************************************************
// [public] deRegisterInterestedDriver
//*********************************************************************************
-IOReturn IOService::deRegisterInterestedDriver ( IOService * driver )
+IOReturn IOService::deRegisterInterestedDriver( IOService * driver )
{
- IOPMinformeeList * list;
- IOPMinformee * item;
+ IOPMinformee * item;
IOPMRequest * request;
bool signal;
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)
fRemoveInterestSet = OSSet::withCapacity(4);
if (fRemoveInterestSet)
{
fRemoveInterestSet->setObject(driver);
- if (fInsertInterestSet)
- fInsertInterestSet->removeObject(driver);
-
- list = fInterestedDrivers;
- item = list->findItem(driver);
- if (item && item->active)
+ if (item->active)
{
item->active = false;
waitForPMDriverCall( driver );
void IOService::handleInterestChanged( IOPMRequest * request )
{
- IOService * driver;
- IOPMinformee * informee;
- IOPMinformeeList * list = fInterestedDrivers;
+ IOService * driver;
+ IOPMinformee * informee;
+ IOPMinformeeList * list = fInterestedDrivers;
PM_LOCK();
// of a "current change note".)
//*********************************************************************************
-IOReturn IOService::acknowledgePowerChange ( IOService * whichObject )
+IOReturn IOService::acknowledgePowerChange( IOService * whichObject )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if (!initialized)
- return IOPMNotYetInitialized;
- if (!whichObject)
- return kIOReturnBadArgument;
+ return IOPMNotYetInitialized;
+ if (!whichObject)
+ return kIOReturnBadArgument;
- request = acquirePMRequest( this, kIOPMRequestTypeAckPowerChange );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypeAckPowerChange );
+ if (!request)
+ return kIOReturnNoMemory;
- whichObject->retain();
- request->fArg0 = whichObject;
+ whichObject->retain();
+ request->fArg0 = whichObject;
- submitPMRequest( request );
+ submitPMRequest( request );
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);
+ PM_ASSERT_IN_GATE();
+ whichObject = (IOService *) request->fArg0;
+ assert(whichObject);
// one of our interested drivers?
- informee = fInterestedDrivers->findItem( whichObject );
+ informee = fInterestedDrivers->findItem( whichObject );
if ( informee == NULL )
{
if ( !isChild(whichObject, gIOPowerPlane) )
{
- OUR_PMLog(kPMLogAcknowledgeErr1, 0, 0);
- goto no_err;
+ OUR_PMLog(kPMLogAcknowledgeErr1, 0, 0);
+ goto no_err;
} else {
OUR_PMLog(kPMLogChildAcknowledge, fHeadNotePendingAcks, 0);
}
if (informee->timer > 0)
{
uint64_t nsec = computeTimeDeltaNS(&informee->startTime);
- if (nsec > LOG_SETPOWER_TIMES)
- PM_LOG("%s::powerState%sChangeTo(%p, %s, %lu -> %lu) async took %d ms\n",
- informee->whatObject->getName(),
- (fDriverCallReason == kDriverCallInformPreChange) ? "Will" : "Did",
- informee->whatObject,
- fName, fCurrentPowerState, fHeadNotePowerState, NS_TO_US(nsec));
-
- uint16_t logType = (fDriverCallReason == kDriverCallInformPreChange)
- ? kIOPMEventTypePSWillChangeTo
- : kIOPMEventTypePSDidChangeTo;
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- logType,
- fName,
- (uintptr_t)this,
- informee->whatObject->getName(),
- 0, 0, 0,
- NS_TO_MS(nsec));
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
+ if (nsec > LOG_SETPOWER_TIMES) {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsDriverPSChangeSlow, informee->whatObject->getName(),
+ fDriverCallReason, NS_TO_MS(nsec), 0, NULL, fHeadNotePowerState);
+ }
}
#endif
// mark it acked
}
}
}
- }
+ }
- if ( fHeadNotePendingAcks == 0 ) {
- // yes, stop the timer
- stop_ack_timer();
- // and now we can continue
- all_acked = true;
- }
+ if ( fHeadNotePendingAcks == 0 ) {
+ // yes, stop the timer
+ stop_ack_timer();
+ // and now we can continue
+ all_acked = true;
+ }
} else {
- OUR_PMLog(kPMLogAcknowledgeErr3, 0, 0); // not expecting anybody to ack
+ OUR_PMLog(kPMLogAcknowledgeErr3, 0, 0); // not expecting anybody to ack
}
no_err:
- if (whichObject)
- whichObject->release();
+ if (whichObject)
+ whichObject->release();
return all_acked;
}
// We continue to process the power state change.
//*********************************************************************************
-IOReturn IOService::acknowledgeSetPowerState ( void )
+IOReturn IOService::acknowledgeSetPowerState( void )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
- request = acquirePMRequest( this, kIOPMRequestTypeAckSetPowerState );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypeAckSetPowerState );
+ if (!request)
+ return kIOReturnNoMemory;
- submitPMRequest( request );
- return kIOReturnSuccess;
+ submitPMRequest( request );
+ return kIOReturnSuccess;
}
//*********************************************************************************
// [private] adjustPowerState
//*********************************************************************************
-void IOService::adjustPowerState ( uint32_t clamp )
+void IOService::adjustPowerState( uint32_t clamp )
{
- PM_ASSERT_IN_GATE();
- computeDesiredState(clamp);
- if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane))
- {
+ PM_ASSERT_IN_GATE();
+ computeDesiredState(clamp, false);
+ if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane))
+ {
IOPMPowerChangeFlags changeFlags = kIOPMSelfInitiated;
- // Indicate that children desires were ignored, and do not ask
+ // 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 */ 0,
- /* parent flags */ 0);
- }
+ startPowerChange(
+ /* flags */ changeFlags,
+ /* power state */ fDesiredPowerState,
+ /* domain flags */ 0,
+ /* connection */ 0,
+ /* parent flags */ 0);
+ }
}
//*********************************************************************************
// [public] synchronizePowerTree
//*********************************************************************************
-IOReturn IOService::synchronizePowerTree (
+IOReturn IOService::synchronizePowerTree(
IOOptionBits options,
IOService * notifyRoot )
{
- IOPMRequest * request_c = 0;
+ IOPMRequest * request_c = 0;
IOPMRequest * request_s;
if (this != getPMRootDomain())
return kIOReturnBadArgument;
- if (!initialized)
- return kIOPMNotYetInitialized;
+ if (!initialized)
+ return kIOPMNotYetInitialized;
+
+ OUR_PMLog(kPMLogCSynchronizePowerTree, options, (notifyRoot != 0));
if (notifyRoot)
{
// Cancels don't need to be synchronized.
nr = acquirePMRequest(notifyRoot, kIOPMRequestTypeChildNotifyDelayCancel);
- if (nr) submitPMRequest(nr);
+ if (nr) submitPMRequest(nr);
nr = acquirePMRequest(getPMRootDomain(), kIOPMRequestTypeChildNotifyDelayCancel);
if (nr) submitPMRequest(nr);
}
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);
+ if (request_c) releasePMRequest(request_c);
+ if (request_s) releasePMRequest(request_s);
return kIOReturnNoMemory;
}
// [private] handleSynchronizePowerTree
//*********************************************************************************
-void IOService::handleSynchronizePowerTree ( IOPMRequest * request )
+void IOService::handleSynchronizePowerTree( IOPMRequest * request )
{
- PM_ASSERT_IN_GATE();
- if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane) &&
- (fCurrentPowerState == fNumberOfPowerStates - 1))
- {
+ PM_ASSERT_IN_GATE();
+ if (fControllingDriver && fParentsKnowState && inPlane(gIOPowerPlane) &&
+ (fCurrentPowerState == fHighestPowerState))
+ {
IOOptionBits options = (uintptr_t) request->fArg0;
- startPowerChange(
- /* flags */ kIOPMSelfInitiated | kIOPMSynchronize |
+ startPowerChange(
+ /* flags */ kIOPMSelfInitiated | kIOPMSynchronize |
(options & kIOPMSyncNoChildNotify),
- /* power state */ fCurrentPowerState,
- /* domain flags */ 0,
- /* connection */ 0,
- /* parent flags */ 0);
- }
+ /* power state */ fCurrentPowerState,
+ /* domain flags */ 0,
+ /* connection */ 0,
+ /* parent flags */ 0);
+ }
}
#ifndef __LP64__
// 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;
+ assert(false);
+ return kIOReturnUnsupported;
}
#endif /* !__LP64__ */
// [private] handlePowerDomainWillChangeTo
//*********************************************************************************
-void IOService::handlePowerDomainWillChangeTo ( IOPMRequest * request )
+void IOService::handlePowerDomainWillChangeTo( IOPMRequest * request )
{
- IOPMPowerFlags parentPowerFlags = (IOPMPowerFlags) request->fArg0;
- IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1;
+ 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 newPowerState;
- IOPMPowerFlags combinedPowerFlags;
- bool savedParentsKnowState;
- IOReturn result = IOPMAckImplied;
-
- PM_ASSERT_IN_GATE();
+ OSIterator * iter;
+ OSObject * next;
+ IOPowerConnection * connection;
+ IOPMPowerStateIndex maxPowerState;
+ IOPMPowerFlags combinedPowerFlags;
+ bool savedParentsKnowState;
+ IOReturn result = IOPMAckImplied;
+
+ PM_ASSERT_IN_GATE();
OUR_PMLog(kPMLogWillChange, parentPowerFlags, 0);
- if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck())
- {
- PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__);
+ if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck())
+ {
+ PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__);
goto exit_no_ack;
- }
+ }
- savedParentsKnowState = fParentsKnowState;
+ savedParentsKnowState = fParentsKnowState;
// Combine parents' output power flags.
- combinedPowerFlags = 0;
+ combinedPowerFlags = 0;
iter = getParentIterator(gIOPowerPlane);
if ( iter )
if ( fControllingDriver && !fInitialPowerChange )
{
- newPowerState = fControllingDriver->maxCapabilityForDomainState(
- combinedPowerFlags);
+ 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.
- // Absorb parent's kIOPMSynchronize flag.
myChangeFlags = kIOPMParentInitiated | kIOPMDomainWillChange |
(parentChangeFlags & kIOPMSynchronize);
- result = startPowerChange(
- /* flags */ myChangeFlags,
- /* power state */ newPowerState,
- /* 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 (parentChangeFlags & kIOPMDomainPowerDrop)
- {
- setParentInfo(parentPowerFlags, whichParent, true);
- }
-
- // Parent is expecting an ACK from us. If we did not embark on a state
- // transition, i.e. startPowerChange() returned IOPMAckImplied. We are
- // still required to issue an ACK to our parent.
-
- if (IOPMAckImplied == result)
- {
- IOService * parent;
- parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane);
- assert(parent);
- if ( parent )
- {
- parent->acknowledgePowerChange( whichParent );
- parent->release();
- }
- }
+ 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 (parentChangeFlags & kIOPMDomainPowerDrop)
+ {
+ setParentInfo(parentPowerFlags, whichParent, true);
+ }
+
+ // Parent is expecting an ACK from us. If we did not embark on a state
+ // transition, i.e. startPowerChange() returned IOPMAckImplied. We are
+ // still required to issue an ACK to our parent.
+
+ if (IOPMAckImplied == result)
+ {
+ IOService * parent;
+ parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane);
+ assert(parent);
+ if ( parent )
+ {
+ parent->acknowledgePowerChange( whichParent );
+ parent->release();
+ }
+ }
exit_no_ack:
// Drop the retain from notifyChild().
// 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;
+ assert(false);
+ return kIOReturnUnsupported;
}
#endif /* !__LP64__ */
// [private] handlePowerDomainDidChangeTo
//*********************************************************************************
-void IOService::handlePowerDomainDidChangeTo ( IOPMRequest * request )
+void IOService::handlePowerDomainDidChangeTo( IOPMRequest * request )
{
- IOPMPowerFlags parentPowerFlags = (IOPMPowerFlags) request->fArg0;
- IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1;
+ IOPMPowerFlags parentPowerFlags = (IOPMPowerFlags) request->fArg0;
+ IOPowerConnection * whichParent = (IOPowerConnection *) request->fArg1;
IOPMPowerChangeFlags parentChangeFlags = (IOPMPowerChangeFlags)(uintptr_t) request->fArg2;
IOPMPowerChangeFlags myChangeFlags;
- IOPMPowerStateIndex newPowerState;
- IOPMPowerStateIndex initialDesire;
- bool savedParentsKnowState;
- IOReturn result = IOPMAckImplied;
+ IOPMPowerStateIndex maxPowerState;
+ IOPMPowerStateIndex initialDesire = kPowerStateZero;
+ bool computeDesire = false;
+ bool desireChanged = false;
+ bool savedParentsKnowState;
+ IOReturn result = IOPMAckImplied;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
OUR_PMLog(kPMLogDidChange, parentPowerFlags, 0);
- if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck())
- {
- PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__);
+ if (!inPlane(gIOPowerPlane) || !whichParent || !whichParent->getAwaitingAck())
+ {
+ PM_LOG("%s::%s not in power tree\n", getName(), __FUNCTION__);
goto exit_no_ack;
- }
+ }
- savedParentsKnowState = fParentsKnowState;
+ savedParentsKnowState = fParentsKnowState;
setParentInfo(parentPowerFlags, whichParent, true);
if ( fControllingDriver )
- {
- newPowerState = fControllingDriver->maxCapabilityForDomainState(
- fParentsCurrentPowerFlags);
+ {
+ 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);
- computeDesiredState(initialDesire);
+ fParentsCurrentPowerFlags);
}
- else if (fAdvisoryTickleUsed && (newPowerState > 0) &&
- ((parentChangeFlags & kIOPMSynchronize) == 0))
+ else if (parentChangeFlags & kIOPMRootChangeUp)
{
- // re-compute desired state in case advisory tickle was enabled
- computeDesiredState();
- }
+ 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.
- // Absorb parent's kIOPMSynchronize flag.
- myChangeFlags = kIOPMParentInitiated | kIOPMDomainDidChange |
- (parentChangeFlags & kIOPMSynchronize);
+ desireChanged = true;
+ }
- result = startPowerChange(
- /* flags */ myChangeFlags,
- /* power state */ newPowerState,
- /* domain flags */ fParentsCurrentPowerFlags,
- /* connection */ whichParent,
- /* parent flags */ 0);
- }
-
- // Parent is expecting an ACK from us. If we did not embark on a state
- // transition, i.e. startPowerChange() returned IOPMAckImplied. We are
- // still required to issue an ACK to our parent.
-
- if (IOPMAckImplied == result)
- {
- IOService * parent;
- parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane);
- assert(parent);
- if ( parent )
- {
- parent->acknowledgePowerChange( whichParent );
- parent->release();
- }
- }
+ if (fResetPowerStateOnWake)
+ {
+ // Query the driver for the desired power state on system wake.
+ // Default implementation returns the lowest power state.
- // If the parent registers its power driver late, then this is the
- // first opportunity to tell our parent about our desire.
+ IOPMPowerStateIndex wakePowerState =
+ fControllingDriver->initialPowerStateForDomainState(
+ kIOPMRootDomainState | kIOPMPowerOn );
- if (!savedParentsKnowState && fParentsKnowState)
- {
- PM_LOG1("%s::powerDomainDidChangeTo parentsKnowState = true\n",
- getName());
- requestDomainPower( fDesiredPowerState );
- }
+ // fDesiredPowerState was adjusted before going to sleep
+ // with fDeviceDesire at min.
-exit_no_ack:
- // Drop the retain from notifyChild().
- if (whichParent) whichParent->release();
-}
+ 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.
-//*********************************************************************************
-// [private] setParentInfo
-//
-// Set our connection data for one specific parent, and then combine all the parent
+ updatePowerClient(gIOPMPowerClientDevice, wakePowerState);
+ desireChanged = true;
+ }
+ }
+ }
+
+ if (computeDesire || desireChanged)
+ computeDesiredState(initialDesire, false);
+
+ // Absorb and propagate parent's broadcast flags
+ myChangeFlags = kIOPMParentInitiated | kIOPMDomainDidChange |
+ (parentChangeFlags & kIOPMRootBroadcastFlags);
+
+ 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, i.e. startPowerChange() returned IOPMAckImplied. We are
+ // still required to issue an ACK to our parent.
+
+ if (IOPMAckImplied == result)
+ {
+ IOService * parent;
+ parent = (IOService *) whichParent->copyParentEntry(gIOPowerPlane);
+ assert(parent);
+ if ( parent )
+ {
+ parent->acknowledgePowerChange( whichParent );
+ parent->release();
+ }
+ }
+
+ // 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 (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();
+}
+
+//*********************************************************************************
+// [private] setParentInfo
+//
+// Set our connection data for one specific parent, and then combine all the parent
// data together.
//*********************************************************************************
-
-void IOService::setParentInfo (
- IOPMPowerFlags newPowerFlags,
- IOPowerConnection * whichParent,
- bool knowsState )
+
+void IOService::setParentInfo(
+ IOPMPowerFlags newPowerFlags,
+ IOPowerConnection * whichParent,
+ bool knowsState )
{
- OSIterator * iter;
- OSObject * next;
- IOPowerConnection * conn;
+ OSIterator * iter;
+ OSObject * next;
+ IOPowerConnection * conn;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
// set our connection data
whichParent->setParentCurrentPowerFlags(newPowerFlags);
whichParent->setParentKnowsState(knowsState);
-
+
// recompute our parent info
fParentsCurrentPowerFlags = 0;
fParentsKnowState = true;
if ((oldCapability ^ newCapability) & kIOPMPreventIdleSleep)
{
+ bool enablePrevention = ((oldCapability & kIOPMPreventIdleSleep) == 0);
+ bool idleCancelAllowed = getPMRootDomain()->updatePreventIdleSleepList(
+ this, enablePrevention);
#if SUPPORT_IDLE_CANCEL
- if ((oldCapability & kIOPMPreventIdleSleep) == 0)
+ if (idleCancelAllowed && enablePrevention)
{
IOPMRequest * cancelRequest;
- cancelRequest = acquirePMRequest( this, kIOPMRequestTypeIdleCancel );
+ cancelRequest = acquirePMRequest( getPMRootDomain(), kIOPMRequestTypeIdleCancel );
if (cancelRequest)
{
- getPMRootDomain()->submitPMRequest( cancelRequest );
+ submitPMRequest( cancelRequest );
}
}
#endif
-
- getPMRootDomain()->updatePreventIdleSleepList(this,
- ((oldCapability & kIOPMPreventIdleSleep) == 0));
}
if ((oldCapability ^ newCapability) & kIOPMPreventSystemSleep)
{
-
getPMRootDomain()->updatePreventSystemSleepList(this,
((oldCapability & kIOPMPreventSystemSleep) == 0));
}
IOReturn IOService::requestPowerDomainState(
IOPMPowerFlags childRequestPowerFlags,
IOPowerConnection * childConnection,
- unsigned long specification )
+ unsigned long specification )
{
- IOPMPowerStateIndex ps;
- IOPMPowerFlags outputPowerFlags;
+ IOPMPowerStateIndex order, powerState;
+ IOPMPowerFlags outputPowerFlags;
IOService * child;
- IOPMRequest * subRequest;
+ IOPMRequest * subRequest;
bool adjustPower = false;
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
- if (gIOPMWorkLoop->onThread() == false)
- {
- PM_LOG("%s::requestPowerDomainState\n", getName());
- return kIOReturnSuccess;
- }
+ if (gIOPMWorkLoop->onThread() == false)
+ {
+ PM_LOG("%s::requestPowerDomainState\n", getName());
+ return kIOReturnSuccess;
+ }
OUR_PMLog(kPMLogRequestDomain, childRequestPowerFlags, specification);
- if (!isChild(childConnection, gIOPowerPlane))
- return kIOReturnNotAttached;
+ if (!isChild(childConnection, gIOPowerPlane))
+ return kIOReturnNotAttached;
if (!fControllingDriver || !fNumberOfPowerStates)
return kIOReturnNotReady;
- child = (IOService *) childConnection->getChildEntry(gIOPowerPlane);
- assert(child);
+ child = (IOService *) childConnection->getChildEntry(gIOPowerPlane);
+ assert(child);
+
+ // 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.
+ // 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 canceled
- // 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 permit
- // 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();
- }
+ 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;
// Map child's requested power flags to one of our power state.
- for (ps = 0; ps < fNumberOfPowerStates; ps++)
+ for (order = 0; order < fNumberOfPowerStates; order++)
{
- if ((fPowerStates[ps].outputPowerFlags & childRequestPowerFlags) ==
- (fOutputPowerCharacterFlags & childRequestPowerFlags))
+ powerState = fPowerStates[order].stateOrderToIndex;
+ if ((fPowerStates[powerState].outputPowerFlags & childRequestPowerFlags)
+ == childRequestPowerFlags)
break;
}
- if (ps >= fNumberOfPowerStates)
+ if (order >= fNumberOfPowerStates)
{
- ps = 0; // should never happen
+ powerState = kPowerStateZero;
}
// Conditions that warrants a power adjustment on this parent.
// prevent idle/sleep flags towards the root domain.
if (!childConnection->childHasRequestedPower() ||
- (ps != childConnection->getDesiredDomainState()))
+ (powerState != childConnection->getDesiredDomainState()))
adjustPower = true;
#if ENABLE_DEBUG_LOGS
getName(), child->getName(),
!childConnection->childHasRequestedPower(),
(uint32_t) childConnection->getDesiredDomainState(),
- (uint32_t) ps);
+ (uint32_t) powerState);
}
#endif
- // Record the child's desires on the connection.
- childConnection->setChildHasRequestedPower();
- childConnection->setDesiredDomainState( ps );
+ // 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.
+ // 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(
+ subRequest = acquirePMRequest(
this, kIOPMRequestTypeAdjustPowerState, gIOPMRequest );
- if (subRequest)
- {
- submitPMRequest( subRequest );
- fAdjustPowerScheduled = true;
- }
+ if (subRequest)
+ {
+ submitPMRequest( subRequest );
+ fAdjustPowerScheduled = true;
+ }
}
return kIOReturnSuccess;
// We enter the highest state until addPowerChild is called.
//*********************************************************************************
-IOReturn IOService::temporaryPowerClampOn ( void )
+IOReturn IOService::temporaryPowerClampOn( void )
{
return requestPowerState( gIOPMPowerClientChildProxy, kIOPMPowerStateMax );
}
// highest power state.
//*********************************************************************************
-IOReturn IOService::makeUsable ( void )
+IOReturn IOService::makeUsable( void )
{
OUR_PMLog(kPMLogMakeUsable, 0, 0);
return requestPowerState( gIOPMPowerClientDevice, kIOPMPowerStateMax );
// [public] currentCapability
//*********************************************************************************
-IOPMPowerFlags IOService::currentCapability ( void )
+IOPMPowerFlags IOService::currentCapability( void )
{
- if (!initialized)
- return IOPMNotPowerManaged;
+ if (!initialized)
+ return IOPMNotPowerManaged;
return fCurrentCapabilityFlags;
}
// power states differ, then a power state change is initiated.
//*********************************************************************************
-IOReturn IOService::changePowerStateTo ( unsigned long ordinal )
+IOReturn IOService::changePowerStateTo( unsigned long ordinal )
{
OUR_PMLog(kPMLogChangeStateTo, ordinal, 0);
return requestPowerState( gIOPMPowerClientDriver, ordinal );
// power states differ, then a power state change is initiated.
//*********************************************************************************
-IOReturn IOService::changePowerStateToPriv ( unsigned long ordinal )
+IOReturn IOService::changePowerStateToPriv( unsigned long ordinal )
{
OUR_PMLog(kPMLogChangeStateToPriv, ordinal, 0);
return requestPowerState( gIOPMPowerClientDevice, ordinal );
}
//*********************************************************************************
-// [protected] changePowerStateWithOverrideTo
+// [public] changePowerStateWithOverrideTo
//
// 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
// Override enforced - Children and Driver desires are ignored.
//*********************************************************************************
-IOReturn IOService::changePowerStateWithOverrideTo ( unsigned long ordinal )
+IOReturn IOService::changePowerStateWithOverrideTo( IOPMPowerStateIndex ordinal,
+ IOPMRequestTag tag )
{
- IOPMRequest * request;
+ IOPMRequest * request;
- if (!initialized)
- return kIOPMNotYetInitialized;
+ if (!initialized)
+ return kIOPMNotYetInitialized;
OUR_PMLog(kPMLogChangeStateToPriv, ordinal, 0);
- request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerStateOverride );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerStateOverride );
+ if (!request)
+ return kIOReturnNoMemory;
gIOPMPowerClientDevice->retain();
+ request->fRequestTag = tag;
request->fArg0 = (void *) ordinal;
request->fArg1 = (void *) gIOPMPowerClientDevice;
request->fArg2 = 0;
request->installCompletionAction( action, target, param );
#endif
- // Prevent needless downwards power transitions by clamping power
- // until the scheduled request is executed.
+ // Prevent needless downwards power transitions by clamping power
+ // until the scheduled request is executed.
- if (gIOPMWorkLoop->inGate() && (ordinal < fNumberOfPowerStates))
- {
- fTempClampPowerState = max(fTempClampPowerState, ordinal);
- fTempClampCount++;
- fOverrideMaxPowerState = ordinal;
- request->fArg2 = (void *) (uintptr_t) true;
- }
+ if (gIOPMWorkLoop->inGate() && (ordinal < fNumberOfPowerStates))
+ {
+ fTempClampPowerState = StateMax(fTempClampPowerState, ordinal);
+ fTempClampCount++;
+ fOverrideMaxPowerState = ordinal;
+ request->fArg2 = (void *) (uintptr_t) true;
+ }
- submitPMRequest( request );
+ submitPMRequest( request );
return IOPMNoErr;
}
+//*********************************************************************************
+// [public] changePowerStateForRootDomain
+//
+// Adjust the root domain's power desire on the target
+//*********************************************************************************
+
+IOReturn IOService::changePowerStateForRootDomain( IOPMPowerStateIndex ordinal )
+{
+ OUR_PMLog(kPMLogChangeStateForRootDomain, ordinal, 0);
+ return requestPowerState( gIOPMPowerClientRootDomain, ordinal );
+}
+
+//*********************************************************************************
+// [public for PMRD] quiescePowerTree
+//
+// For root domain to issue a request to quiesce the power tree.
+// Supplied callback invoked upon completion.
+//*********************************************************************************
+
+IOReturn IOService::quiescePowerTree(
+ void * target, IOPMCompletionAction action, void * param )
+{
+ IOPMRequest * request;
+
+ if (!initialized)
+ return kIOPMNotYetInitialized;
+ if (!target || !action)
+ return kIOReturnBadArgument;
+
+ OUR_PMLog(kPMLogQuiescePowerTree, 0, 0);
+
+ // 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.
+
+ 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 kIOReturnSuccess;
+}
+
//*********************************************************************************
// [private] requestPowerState
//*********************************************************************************
-IOReturn IOService::requestPowerState (
+IOReturn IOService::requestPowerState(
const OSSymbol * client,
uint32_t state )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if (!client)
return kIOReturnBadArgument;
- if (!initialized)
- return kIOPMNotYetInitialized;
+ if (!initialized)
+ return kIOPMNotYetInitialized;
- request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerState );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypeRequestPowerState );
+ if (!request)
+ return kIOReturnNoMemory;
client->retain();
- request->fArg0 = (void *) state;
- request->fArg1 = (void *) client;
+ request->fArg0 = (void *)(uintptr_t) state;
+ request->fArg1 = (void *) client;
request->fArg2 = 0;
#if NOT_READY
if (action)
request->installCompletionAction( action, target, param );
#endif
- // Prevent needless downwards power transitions by clamping power
- // until the scheduled request is executed.
+ // Prevent needless downwards power transitions by clamping power
+ // until the scheduled request is executed.
- if (gIOPMWorkLoop->inGate() && (state < fNumberOfPowerStates))
- {
- fTempClampPowerState = max(fTempClampPowerState, state);
- fTempClampCount++;
- request->fArg2 = (void *) (uintptr_t) true;
- }
+ if (gIOPMWorkLoop->inGate() && (state < fNumberOfPowerStates))
+ {
+ fTempClampPowerState = StateMax(fTempClampPowerState, state);
+ fTempClampCount++;
+ request->fArg2 = (void *) (uintptr_t) true;
+ }
- submitPMRequest( request );
+ submitPMRequest( request );
return IOPMNoErr;
}
// [private] handleRequestPowerState
//*********************************************************************************
-void IOService::handleRequestPowerState ( IOPMRequest * request )
+void IOService::handleRequestPowerState( IOPMRequest * request )
{
const OSSymbol * client = (const OSSymbol *) request->fArg1;
uint32_t state = (uint32_t)(uintptr_t) request->fArg0;
- PM_ASSERT_IN_GATE();
- if (request->fArg2)
- {
- assert(fTempClampCount != 0);
- if (fTempClampCount) fTempClampCount--;
- if (!fTempClampCount) fTempClampPowerState = 0;
- }
+ PM_ASSERT_IN_GATE();
+ if (request->fArg2)
+ {
+ assert(fTempClampCount != 0);
+ if (fTempClampCount) fTempClampCount--;
+ if (!fTempClampCount) fTempClampPowerState = kPowerStateZero;
+ }
- if (fNumberOfPowerStates && (state >= fNumberOfPowerStates))
- state = fNumberOfPowerStates - 1;
+ if (fNumberOfPowerStates && (state >= fNumberOfPowerStates))
+ state = fHighestPowerState;
// The power suppression due to changePowerStateWithOverrideTo() expires
// upon the next "device" power request - changePowerStateToPriv().
(client == gIOPMPowerClientDevice))
fOverrideMaxPowerState = kIOPMPowerStateMax;
- if ((state == 0) &&
- (client != gIOPMPowerClientDevice) &&
- (client != gIOPMPowerClientDriver) &&
- (client != gIOPMPowerClientChildProxy))
- removePowerClient(client);
- else
- updatePowerClient(client, state);
+ if ((state == kPowerStateZero) &&
+ (client != gIOPMPowerClientDevice) &&
+ (client != gIOPMPowerClientDriver) &&
+ (client != gIOPMPowerClientChildProxy))
+ removePowerClient(client);
+ else
+ updatePowerClient(client, state);
- adjustPowerState();
+ adjustPowerState();
client->release();
}
void IOService::updatePowerClient( const OSSymbol * client, uint32_t powerState )
{
+ IOPMPowerStateIndex oldPowerState = kPowerStateZero;
+
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);
num->release();
}
}
+
+ PM_ACTION_3(actionUpdatePowerClient, client, oldPowerState, powerState);
}
}
uint32_t IOService::getPowerStateForClient( const OSSymbol * client )
{
- uint32_t powerState = 0;
+ uint32_t powerState = kPowerStateZero;
if (fPowerClients && client)
{
// [protected] powerOverrideOnPriv
//*********************************************************************************
-IOReturn IOService::powerOverrideOnPriv ( void )
+IOReturn IOService::powerOverrideOnPriv( void )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
- if (gIOPMWorkLoop->inGate())
- {
- fDeviceOverrideEnabled = true;
- return IOPMNoErr;
- }
+ if (gIOPMWorkLoop->inGate())
+ {
+ fDeviceOverrideEnabled = true;
+ return IOPMNoErr;
+ }
- request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOnPriv );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOnPriv );
+ if (!request)
+ return kIOReturnNoMemory;
- submitPMRequest( request );
+ submitPMRequest( request );
return IOPMNoErr;
}
// [protected] powerOverrideOffPriv
//*********************************************************************************
-IOReturn IOService::powerOverrideOffPriv ( void )
+IOReturn IOService::powerOverrideOffPriv( void )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
- if (gIOPMWorkLoop->inGate())
- {
- fDeviceOverrideEnabled = false;
- return IOPMNoErr;
- }
+ if (gIOPMWorkLoop->inGate())
+ {
+ fDeviceOverrideEnabled = false;
+ return IOPMNoErr;
+ }
- request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOffPriv );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypePowerOverrideOffPriv );
+ if (!request)
+ return kIOReturnNoMemory;
- submitPMRequest( request );
+ submitPMRequest( request );
return IOPMNoErr;
}
// [private] handlePowerOverrideChanged
//*********************************************************************************
-void IOService::handlePowerOverrideChanged ( IOPMRequest * request )
+void IOService::handlePowerOverrideChanged( IOPMRequest * request )
{
- PM_ASSERT_IN_GATE();
- if (request->getType() == kIOPMRequestTypePowerOverrideOnPriv)
- {
- OUR_PMLog(kPMLogOverrideOn, 0, 0);
- fDeviceOverrideEnabled = true;
+ PM_ASSERT_IN_GATE();
+ if (request->getType() == kIOPMRequestTypePowerOverrideOnPriv)
+ {
+ OUR_PMLog(kPMLogOverrideOn, 0, 0);
+ fDeviceOverrideEnabled = true;
+ }
+ else
+ {
+ OUR_PMLog(kPMLogOverrideOff, 0, 0);
+ fDeviceOverrideEnabled = false;
}
- else
- {
- OUR_PMLog(kPMLogOverrideOff, 0, 0);
- fDeviceOverrideEnabled = false;
- }
- adjustPowerState();
+ adjustPowerState();
}
//*********************************************************************************
// [private] computeDesiredState
//*********************************************************************************
-void IOService::computeDesiredState ( unsigned long localClamp )
+void IOService::computeDesiredState( unsigned long localClamp, bool computeOnly )
{
- OSIterator * iter;
- OSObject * next;
- IOPowerConnection * connection;
- uint32_t desiredState = 0;
- uint32_t newPowerState = 0;
+ OSIterator * iter;
+ OSObject * next;
+ IOPowerConnection * connection;
+ uint32_t desiredState = kPowerStateZero;
+ uint32_t newPowerState = kPowerStateZero;
bool hasChildren = false;
- // Desired power state is always 0 without a controlling driver.
+ // Desired power state is always 0 without a controlling driver.
- if (!fNumberOfPowerStates)
- {
- fDesiredPowerState = 0;
- //PM_LOG("%s::%s no controlling driver\n", getName(), __FUNCTION__);
- return;
- }
+ if (!fNumberOfPowerStates)
+ {
+ fDesiredPowerState = kPowerStateZero;
+ return;
+ }
// Examine the children's desired power state.
}
if (connection->childHasRequestedPower())
hasChildren = true;
- if (connection->getDesiredDomainState() > desiredState)
- desiredState = connection->getDesiredDomainState();
+ desiredState = StateMax(connection->getDesiredDomainState(), desiredState);
}
}
iter->release();
const OSSymbol * client;
while ((client = (const OSSymbol *) iter->getNextObject()))
{
- // Ignore child and driver when override is in effect.
+ // Ignore child and driver when override is in effect.
if ((fDeviceOverrideEnabled ||
(getPMRequestType() == kIOPMRequestTypeRequestPowerStateOverride)) &&
((client == gIOPMPowerClientChildren) ||
(client == gIOPMPowerClientDriver)))
continue;
- // Ignore child proxy when children are present.
+ // Ignore child proxy when children are present.
if (hasChildren && (client == gIOPMPowerClientChildProxy))
continue;
+ // Advisory tickles are irrelevant unless system is in full wake
if (client == gIOPMPowerClientAdvisoryTickle &&
!gIOPMAdvisoryTickleEnabled)
continue;
desiredState = getPowerStateForClient(client);
- assert(desiredState < fNumberOfPowerStates);
- PM_LOG1(" %u %s\n",
- desiredState, client->getCStringNoCopy());
+ assert(desiredState < fNumberOfPowerStates);
+ PM_LOG1(" %u %s\n",
+ desiredState, client->getCStringNoCopy());
- newPowerState = max(newPowerState, desiredState);
+ newPowerState = StateMax(newPowerState, desiredState);
if (client == gIOPMPowerClientDevice)
fDeviceDesire = desiredState;
// Factor in the temporary power desires.
- newPowerState = max(newPowerState, localClamp);
- newPowerState = max(newPowerState, fTempClampPowerState);
+ newPowerState = StateMax(newPowerState, localClamp);
+ newPowerState = StateMax(newPowerState, fTempClampPowerState);
// Limit check against max power override.
- newPowerState = min(newPowerState, fOverrideMaxPowerState);
+ newPowerState = StateMin(newPowerState, fOverrideMaxPowerState);
// Limit check against number of power states.
if (newPowerState >= fNumberOfPowerStates)
- newPowerState = fNumberOfPowerStates - 1;
+ newPowerState = fHighestPowerState;
fDesiredPowerState = newPowerState;
PM_LOG1(" temp %u, clamp %u, current %u, new %u\n",
(uint32_t) localClamp, (uint32_t) fTempClampPowerState,
- (uint32_t) fCurrentPowerState, newPowerState);
+ (uint32_t) fCurrentPowerState, newPowerState);
- // Restart idle timer if stopped and device desire has increased.
- // Or if advisory desire exists.
-
- if (fIdleTimerStopped)
+ if (!computeOnly)
{
- if (fDeviceDesire > 0)
- {
- fIdleTimerStopped = false;
- fActivityTickleCount = 0;
- clock_get_uptime(&fIdleTimerStartTime);
- start_PM_idle_timer();
- }
- else if (fHasAdvisoryDesire)
+ // Restart idle timer if possible when device desire has increased.
+ // Or if an advisory desire exists.
+
+ if (fIdleTimerPeriod && fIdleTimerStopped)
{
- fIdleTimerStopped = false;
- start_PM_idle_timer();
+ restartIdleTimer();
}
- }
- // 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.
+ // 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);
+ if ((getPMRequestType() != kIOPMRequestTypeActivityTickle) &&
+ (fActivityTicklePowerState != kInvalidTicklePowerState))
+ {
+ IOLockLock(fActivityLock);
+ fActivityTicklePowerState = kInvalidTicklePowerState;
+ IOLockUnlock(fActivityLock);
+ }
}
}
//
//*********************************************************************************
-unsigned long IOService::currentPowerConsumption ( void )
+unsigned long IOService::currentPowerConsumption( void )
{
if (!initialized)
return kIOPMUnknown;
// [deprecated] getPMworkloop
//*********************************************************************************
-IOWorkLoop * IOService::getPMworkloop ( void )
+IOWorkLoop * IOService::getPMworkloop( void )
{
- return gIOPMWorkLoop;
+ return gIOPMWorkLoop;
}
#if NOT_YET
//*********************************************************************************
static void
-applyToPowerChildren(
+applyToPowerChildren(
IOService * service,
IOServiceApplierFunction applier,
void * context,
IOOptionBits options )
{
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
IORegistryEntry * entry;
IORegistryIterator * iter;
}
static void
-applyToPowerParent(
+applyToPowerParent(
IOService * service,
IOServiceApplierFunction applier,
void * context,
IOOptionBits options )
{
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
IORegistryEntry * entry;
IORegistryIterator * iter;
// should be intercepted by a subclass.
//*********************************************************************************
-bool IOService::activityTickle ( unsigned long type, unsigned long stateNumber )
+bool IOService::activityTickle( unsigned long type, unsigned long stateNumber )
{
- IOPMRequest * request;
- bool noPowerChange = true;
+ IOPMRequest * request;
+ bool noPowerChange = true;
+ uint32_t tickleFlags;
if (!initialized)
return true; // no power change
- if ((type == kIOPMSuperclassPolicy1) && stateNumber)
- {
+ if ((type == kIOPMSuperclassPolicy1) && StateOrder(stateNumber))
+ {
IOLockLock(fActivityLock);
- // Record device activity for the idle timer handler.
+ // Record device activity for the idle timer handler.
fDeviceWasActive = true;
fActivityTickleCount++;
PM_ACTION_0(actionActivityTickle);
- // Record the last tickle power state.
- // This helps to filter out redundant tickles as
- // this function may be called from the data path.
+ // 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 < (int)stateNumber)
- {
- fActivityTicklePowerState = stateNumber;
- noPowerChange = false;
-
- request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle );
- if (request)
- {
- request->fArg0 = (void *) stateNumber; // power state
- request->fArg1 = (void *) true; // power rise
- request->fArg2 = (void *) false; // regular tickle
- submitPMRequest(request);
- }
- }
+ if ((fActivityTicklePowerState == kInvalidTicklePowerState)
+ || StateOrder(fActivityTicklePowerState) < StateOrder(stateNumber))
+ {
+ fActivityTicklePowerState = stateNumber;
+ noPowerChange = false;
+
+ 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);
+ }
+ }
- IOLockUnlock(fActivityLock);
- }
+ IOLockUnlock(fActivityLock);
+ }
else if ((type == kIOPMActivityTickleTypeAdvisory) &&
- ((stateNumber = fDeviceUsablePowerState)))
+ ((stateNumber = fDeviceUsablePowerState) != kPowerStateZero))
{
IOLockLock(fActivityLock);
fAdvisoryTickled = true;
- if (fAdvisoryTicklePowerState != (int)stateNumber)
- {
- fAdvisoryTicklePowerState = stateNumber;
- noPowerChange = false;
-
- request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle );
- if (request)
- {
- request->fArg0 = (void *) stateNumber; // power state
- request->fArg1 = (void *) true; // power rise
- request->fArg2 = (void *) true; // advisory tickle
- submitPMRequest(request);
- }
- }
+ if (fAdvisoryTicklePowerState != stateNumber)
+ {
+ fAdvisoryTicklePowerState = stateNumber;
+ noPowerChange = false;
+
+ 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);
+ }
+ }
- IOLockUnlock(fActivityLock);
+ IOLockUnlock(fActivityLock);
}
- // Returns false if the activityTickle might cause a transition to a
- // higher powered state, true otherwise.
+ // Returns false if the activityTickle might cause a transition to a
+ // higher powered state, true otherwise.
return noPowerChange;
}
// [private] handleActivityTickle
//*********************************************************************************
-void IOService::handleActivityTickle ( IOPMRequest * request )
+void IOService::handleActivityTickle( IOPMRequest * request )
{
- uint32_t ticklePowerState = (uint32_t)(uintptr_t) request->fArg0;
- bool deviceWasActive = (request->fArg1 == (void *) true);
- bool isRegularTickle = (request->fArg2 == (void *) false);
+ 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 (isRegularTickle)
+
+ 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)
{
- if (deviceWasActive)
+ IOPMPowerStateIndex deviceDesireOrder = StateOrder(fDeviceDesire);
+ uint32_t idleTimerGeneration = ticklePowerState; // kTickleTypePowerDrop
+
+ if (tickleFlags & kTickleTypePowerRise)
{
- if ((ticklePowerState > fDeviceDesire) &&
+ if ((StateOrder(ticklePowerState) > deviceDesireOrder) &&
(ticklePowerState < fNumberOfPowerStates))
{
fIdleTimerMinPowerState = ticklePowerState;
adjustPower = true;
}
}
- else if (fDeviceDesire > fIdleTimerMinPowerState)
+ 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.
// system wakes up to doze state, while the device is unable to
// raise its power state to satisfy the tickle.
- ticklePowerState = fDeviceDesire - 1;
- updatePowerClient(gIOPMPowerClientDevice, ticklePowerState);
- adjustPower = true;
+ deviceDesireOrder--;
+ if (deviceDesireOrder < fNumberOfPowerStates)
+ {
+ ticklePowerState = fPowerStates[deviceDesireOrder].stateOrderToIndex;
+ updatePowerClient(gIOPMPowerClientDevice, ticklePowerState);
+ adjustPower = true;
+ }
}
}
else // advisory tickle
{
- if (deviceWasActive)
+ if (tickleFlags & kTickleTypePowerRise)
{
if ((ticklePowerState == fDeviceUsablePowerState) &&
(ticklePowerState < fNumberOfPowerStates))
}
}
- if (adjustPower)
- {
- adjustPowerState();
- }
+ if (adjustPower)
+ {
+ adjustPowerState();
+ }
}
//******************************************************************************
// Start the idle timer. Period is in seconds.
//******************************************************************************
-IOReturn IOService::setIdleTimerPeriod ( unsigned long period )
+IOReturn IOService::setIdleTimerPeriod( unsigned long period )
{
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
OUR_PMLog(kPMLogSetIdleTimerPeriod, period, fIdleTimerPeriod);
IOReturn IOService::setIgnoreIdleTimer( bool ignore )
{
if (!initialized)
- return IOPMNotYetInitialized;
+ return IOPMNotYetInitialized;
OUR_PMLog(kIOPMRequestTypeIgnoreIdleTimer, ignore, 0);
SInt32 IOService::nextIdleTimeout(
AbsoluteTime currentTime,
- AbsoluteTime lastActivity,
+ AbsoluteTime lastActivity,
unsigned int powerState)
{
AbsoluteTime delta;
// 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);
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 )
+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;
+ boolean_t pending;
- if (!initialized || !fIdleTimerPeriod)
- return;
+ if (!initialized || !fIdleTimerPeriod)
+ return;
IOLockLock(fActivityLock);
IOLockUnlock(fActivityLock);
+ fNextIdleTimerPeriod = idle_in;
+ fIdleTimerStartTime = uptime;
+
retain();
clock_interval_to_absolutetime_interval(idle_in, kSecondScale, &deadline);
ADD_ABSOLUTETIME(&deadline, &uptime);
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 (
+idle_timer_expired(
thread_call_param_t arg0, thread_call_param_t arg1 )
{
- IOService * me = (IOService *) arg0;
+ IOService * me = (IOService *) arg0;
- if (gIOPMWorkLoop)
- gIOPMWorkLoop->runAction(
+ if (gIOPMWorkLoop)
+ gIOPMWorkLoop->runAction(
OSMemberFunctionCast(IOWorkLoop::Action, me,
&IOService::idleTimerExpired),
me);
- me->release();
+ me->release();
}
//*********************************************************************************
void IOService::idleTimerExpired( void )
{
- IOPMRequest * request;
- bool restartTimer = true;
+ IOPMRequest * request;
+ bool restartTimer = true;
+ uint32_t tickleFlags;
- if ( !initialized || !fIdleTimerPeriod || fLockedFlags.PMStop )
+ if ( !initialized || !fIdleTimerPeriod || fIdleTimerStopped ||
+ fLockedFlags.PMStop )
return;
- IOLockLock(fActivityLock);
+ fIdleTimerStartTime = 0;
- // Check for device activity (tickles) over last timer period.
+ 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 (-1) before activityTickle() is called,
- // but the power drop request must be issued regardless.
+ 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 > 0)
- fActivityTicklePowerState--;
+ if ((fActivityTicklePowerState != kInvalidTicklePowerState) &&
+ (fActivityTicklePowerState != kPowerStateZero))
+ fActivityTicklePowerState--;
- request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle );
- if (request)
- {
- request->fArg0 = (void *) 0; // power state (irrelevant)
- request->fArg1 = (void *) false; // timer expiration (not tickle)
- request->fArg2 = (void *) false; // regular tickle
- submitPMRequest( request );
+ 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.
+ // Do not restart timer until after the tickle request has been
+ // processed.
- restartTimer = false;
- }
+ restartTimer = false;
+ }
}
if (fAdvisoryTickled)
// Want new tickles to turn into pm request after we drop the lock
fAdvisoryTicklePowerState = kInvalidTicklePowerState;
- request = acquirePMRequest( this, kIOPMRequestTypeActivityTickle );
- if (request)
- {
- request->fArg0 = (void *) 0; // power state (irrelevant)
- request->fArg1 = (void *) false; // timer expiration (not tickle)
- request->fArg2 = (void *) true; // advisory tickle
- submitPMRequest( request );
+ 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.
+ // Do not restart timer until after the tickle request has been
+ // processed.
- restartTimer = false;
- }
+ restartTimer = false;
+ }
}
- IOLockUnlock(fActivityLock);
+ IOLockUnlock(fActivityLock);
- if (restartTimer)
- start_PM_idle_timer();
+ if (restartTimer)
+ start_PM_idle_timer();
}
#ifndef __LP64__
// [deprecated] PM_idle_timer_expiration
//*********************************************************************************
-void IOService::PM_idle_timer_expiration ( void )
+void IOService::PM_idle_timer_expiration( void )
{
}
// [deprecated] command_received
//*********************************************************************************
-void IOService::command_received ( void *statePtr , void *, void * , void * )
+void IOService::command_received( void *statePtr , void *, void * , void * )
{
}
#endif /* !__LP64__ */
// power domains will pass it on to their children, etc.
//*********************************************************************************
-IOReturn IOService::setAggressiveness ( unsigned long type, unsigned long newLevel )
+IOReturn IOService::setAggressiveness( unsigned long type, unsigned long newLevel )
{
return kIOReturnSuccess;
}
// Called by the user client.
//*********************************************************************************
-IOReturn IOService::getAggressiveness ( unsigned long type, unsigned long * currentLevel )
+IOReturn IOService::getAggressiveness( unsigned long type, unsigned long * currentLevel )
{
IOPMrootDomain * rootDomain = getPMRootDomain();
if (!rootDomain)
return kIOReturnNotReady;
-
+
return rootDomain->getAggressiveness( type, currentLevel );
}
//
//*********************************************************************************
-UInt32 IOService::getPowerState ( void )
+UInt32 IOService::getPowerState( void )
{
if (!initialized)
- return 0;
+ return kPowerStateZero;
return fCurrentPowerState;
}
// power domains will pass it on to their children, etc.
//*********************************************************************************
-IOReturn IOService::systemWake ( void )
+IOReturn IOService::systemWake( void )
{
- OSIterator * iter;
- OSObject * next;
- IOPowerConnection * connection;
- IOService * theChild;
+ OSIterator * iter;
+ OSObject * next;
+ IOPowerConnection * connection;
+ IOService * theChild;
iter = getChildIterator(gIOPowerPlane);
if ( iter )
{
if ( (connection = OSDynamicCast(IOPowerConnection, next)) )
{
- if (connection->getReadyFlag() == false)
- {
- PM_LOG3("[%s] %s: connection not ready\n",
- getName(), __FUNCTION__);
- continue;
- }
+ 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->systemWake();
theChild->release();
}
}
// [deprecated] temperatureCriticalForZone
//*********************************************************************************
-IOReturn IOService::temperatureCriticalForZone ( IOService * whichZone )
+IOReturn IOService::temperatureCriticalForZone( IOService * whichZone )
{
- IOService * theParent;
- IOService * theNub;
-
+ IOService * theParent;
+ IOService * theNub;
+
OUR_PMLog(kPMLogCriticalTemp, 0, 0);
if ( inPlane(gIOPowerPlane) && !IS_PM_ROOT )
IOPowerConnection * parentConnection,
IOPMPowerFlags parentFlags )
{
- PM_ASSERT_IN_GATE();
- assert( fMachineState == kIOPM_Finished );
+ PM_ASSERT_IN_GATE();
+ assert( fMachineState == kIOPM_Finished );
assert( powerState < fNumberOfPowerStates );
if (powerState >= fNumberOfPowerStates)
fIsPreChange = true;
PM_ACTION_2(actionPowerChangeOverride, &powerState, &changeFlags);
- // Forks to either Driver or Parent initiated power change paths.
+ 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;
+ fHeadNotePowerArrayEntry = &fPowerStates[ powerState ];
+ fHeadNoteParentConnection = NULL;
- if (changeFlags & kIOPMSelfInitiated)
- {
+ if (changeFlags & kIOPMSelfInitiated)
+ {
if (changeFlags & kIOPMSynchronize)
OurSyncStart();
else
OurChangeStart();
- return 0;
- }
- else
- {
- assert(changeFlags & kIOPMParentInitiated);
+ return 0;
+ }
+ else
+ {
+ assert(changeFlags & kIOPMParentInitiated);
fHeadNoteDomainFlags = domainFlags;
- fHeadNoteParentFlags = parentFlags;
+ fHeadNoteParentFlags = parentFlags;
fHeadNoteParentConnection = parentConnection;
- return ParentChangeStart();
- }
+ return ParentChangeStart();
+ }
}
//*********************************************************************************
// [private] notifyInterestedDrivers
//*********************************************************************************
-bool IOService::notifyInterestedDrivers ( void )
+bool IOService::notifyInterestedDrivers( void )
{
- IOPMinformee * informee;
- IOPMinformeeList * list = fInterestedDrivers;
- DriverCallParam * param;
- IOItemCount count;
+ IOPMinformee * informee;
+ IOPMinformeeList * list = fInterestedDrivers;
+ DriverCallParam * param;
+ IOItemCount count;
PM_ASSERT_IN_GATE();
assert( fDriverCallParamCount == 0 );
count = list->numberOfItems();
if (!count)
- goto done; // no interested drivers
+ 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
param = IONew(DriverCallParam, count);
if (!param)
- goto done; // no memory
+ goto done; // no memory
fDriverCallParamPtr = (void *) param;
fDriverCallParamSlots = count;
// [private] notifyInterestedDriversDone
//*********************************************************************************
-void IOService::notifyInterestedDriversDone ( void )
+void IOService::notifyInterestedDriversDone( void )
{
- IOPMinformee * informee;
- IOItemCount count;
+ IOPMinformee * informee;
+ IOItemCount count;
DriverCallParam * param;
IOReturn result;
- PM_ASSERT_IN_GATE();
- assert( fDriverCallBusy == false );
- assert( fMachineState == kIOPM_DriverThreadCallDone );
+ PM_ASSERT_IN_GATE();
+ assert( fDriverCallBusy == false );
+ assert( fMachineState == kIOPM_DriverThreadCallDone );
- param = (DriverCallParam *) fDriverCallParamPtr;
- count = fDriverCallParamCount;
+ param = (DriverCallParam *) fDriverCallParamPtr;
+ count = fDriverCallParamCount;
- if (param && count)
- {
- for (IOItemCount i = 0; i < count; i++, param++)
- {
- informee = (IOPMinformee *) param->Target;
- result = param->Result;
+ 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 ((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)
+ if (fHeadNotePendingAcks && informee->timer)
fHeadNotePendingAcks--;
informee->timer = 0;
- }
- else if (informee->timer)
- {
+ }
+ else if (informee->timer)
+ {
assert(informee->timer == -1);
// Driver has not acked, and has returned a positive result.
result = kMinAckTimeoutTicks;
informee->timer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1;
- }
- // else, child has already acked or driver has removed interest,
+ }
+ // 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,
+ // informee may have been removed from the interested drivers list,
// thus the informee must be retained across the callout.
- informee->release();
- }
+ informee->release();
+ }
- fDriverCallParamCount = 0;
+ fDriverCallParamCount = 0;
- if ( fHeadNotePendingAcks )
- {
- OUR_PMLog(kPMLogStartAckTimer, 0, 0);
- start_ack_timer();
- }
- }
+ if ( fHeadNotePendingAcks )
+ {
+ OUR_PMLog(kPMLogStartAckTimer, 0, 0);
+ start_ack_timer();
+ }
+ }
- MS_POP(); // pushed by notifyAll()
+ MS_POP(); // pop the machine state passed to notifyAll()
- // If interest acks are outstanding, wait for fHeadNotePendingAcks to become
- // zero before notifying children. This enforces the children after interest
- // ordering even for async interest clients.
+ // 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)
{
- notifyChildren();
+ notifyRootDomain();
}
else
{
MS_PUSH(fMachineState);
fMachineState = kIOPM_NotifyChildrenStart;
- PM_LOG2("%s: %u outstanding async interest\n",
- getName(), fHeadNotePendingAcks);
}
}
+//*********************************************************************************
+// [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 )
+void IOService::notifyChildren( void )
{
- OSIterator * iter;
- OSObject * next;
- IOPowerConnection * connection;
- OSArray * children = 0;
+ OSIterator * iter;
+ OSObject * next;
+ IOPowerConnection * connection;
+ OSArray * children = 0;
IOPMrootDomain * rootDomain;
bool delayNotify = false;
-
+
if ((fHeadNotePowerState != fCurrentPowerState) &&
(IS_POWER_DROP == fIsPreChange) &&
((rootDomain = getPMRootDomain()) == this))
kIOPMTracePointWakePowerPlaneDrivers );
}
- if (fStrictTreeOrder)
- children = OSArray::withCapacity(8);
+ if (fStrictTreeOrder)
+ children = OSArray::withCapacity(8);
// Sum child power consumption in notifyChild()
fHeadNotePowerArrayEntry->staticPower = 0;
{
if ((connection = OSDynamicCast(IOPowerConnection, next)))
{
- if (connection->getReadyFlag() == false)
- {
- PM_LOG3("[%s] %s: connection not ready\n",
- getName(), __FUNCTION__);
- continue;
- }
+ 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) &&
+ connection->delayChildNotification &&
getPMRootDomain()->shouldDelayChildNotification(this))
{
if (!children)
}
}
- if (!delayNotify && children)
- children->setObject( connection );
- else
- notifyChild( connection );
- }
+ if (!delayNotify && children)
+ children->setObject( connection );
+ else
+ notifyChild( connection );
+ }
}
iter->release();
}
children->release();
children = 0;
}
- if (children)
- {
+ if (children)
+ {
assert(fNotifyChildArray == 0);
- fNotifyChildArray = children;
+ fNotifyChildArray = children;
MS_PUSH(fMachineState);
if (delayNotify)
{
- // Wait for exiting child notifications to complete,
- // before notifying the children in the array.
+ // 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 = 0;
+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 = 0;
MS_POP(); // pushed by notifyChildren()
- }
+ }
}
//*********************************************************************************
// [private] notifyChildrenDelayed
//*********************************************************************************
-void IOService::notifyChildrenDelayed ( void )
+void IOService::notifyChildrenDelayed( void )
{
- IOPowerConnection * connection;
+ IOPowerConnection * connection;
- PM_ASSERT_IN_GATE();
- assert(fNotifyChildArray);
- assert(fMachineState == kIOPM_NotifyChildrenDelayed);
+ 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. When explicitly cancelled, interest
- // acks (and ack timer) may still be outstanding.
+ // 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);
+ connection = (IOPowerConnection *) fNotifyChildArray->getObject(i);
if (!connection)
break;
- notifyChild( connection );
+ notifyChild( connection );
}
PM_LOG2("%s: notified delayed children\n", getName());
fNotifyChildArray->release();
fNotifyChildArray = 0;
-
+
MS_POP(); // pushed by notifyChildren()
}
// [private] notifyAll
//*********************************************************************************
-IOReturn IOService::notifyAll ( uint32_t nextMS )
+IOReturn IOService::notifyAll( uint32_t nextMS )
{
- // Save the next machine_state to be restored by notifyInterestedDriversDone()
+ // Save the machine state to be restored by notifyInterestedDriversDone()
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
MS_PUSH(nextMS);
- fMachineState = kIOPM_DriverThreadCallDone;
- fDriverCallReason = fIsPreChange ?
- kDriverCallInformPreChange : kDriverCallInformPostChange;
+ fMachineState = kIOPM_DriverThreadCallDone;
+ fDriverCallReason = fIsPreChange ?
+ kDriverCallInformPreChange : kDriverCallInformPostChange;
- if (!notifyInterestedDrivers())
- notifyInterestedDriversDone();
+ if (!notifyInterestedDrivers())
+ notifyInterestedDriversDone();
- return IOPMWillAckLater;
+ return IOPMWillAckLater;
}
//*********************************************************************************
// Thread call context
//*********************************************************************************
-IOReturn IOService::actionDriverCalloutDone (
- OSObject * target,
- void * arg0, void * arg1,
- void * arg2, void * arg3 )
+IOReturn IOService::actionDriverCalloutDone(
+ OSObject * target,
+ void * arg0, void * arg1,
+ void * arg2, void * arg3 )
{
IOServicePM * pwrMgt = (IOServicePM *) arg0;
return kIOReturnSuccess;
}
-void IOService::pmDriverCallout ( IOService * from )
+void IOService::pmDriverCallout( IOService * from )
{
- assert(from);
- switch (from->fDriverCallReason)
- {
- case kDriverCallSetPowerState:
- from->driverSetPowerState();
- break;
+ assert(from);
+ switch (from->fDriverCallReason)
+ {
+ case kDriverCallSetPowerState:
+ from->driverSetPowerState();
+ break;
+
+ case kDriverCallInformPreChange:
+ case kDriverCallInformPostChange:
+ from->driverInformPowerChange();
+ break;
- case kDriverCallInformPreChange:
- case kDriverCallInformPostChange:
- from->driverInformPowerChange();
- break;
+ case kRootDomainInformPreChange:
+ getPMRootDomain()->willNotifyPowerChildren(from->fHeadNotePowerState);
+ break;
- default:
- panic("IOService::pmDriverCallout bad machine state %x",
+ default:
+ panic("IOService::pmDriverCallout bad machine state %x",
from->fDriverCallReason);
- }
+ }
- gIOPMWorkLoop->runAction(actionDriverCalloutDone,
- /* target */ from,
- /* arg0 */ (void *) from->pwrMgt );
+ gIOPMWorkLoop->runAction(actionDriverCalloutDone,
+ /* target */ from,
+ /* arg0 */ (void *) from->pwrMgt );
}
//*********************************************************************************
// Thread call context
//*********************************************************************************
-void IOService::driverSetPowerState ( void )
+void IOService::driverSetPowerState( void )
{
IOPMPowerStateIndex powerState;
- DriverCallParam * param;
+ DriverCallParam * param;
IOPMDriverCallEntry callEntry;
AbsoluteTime end;
IOReturn result;
if (assertPMDriverCall(&callEntry))
{
OUR_PMLog( kPMLogProgramHardware, (uintptr_t) this, powerState);
+ start_spindump_timer("SetState");
clock_get_uptime(&fDriverCallStartTime);
result = fControllingDriver->setPowerState( powerState, this );
clock_get_uptime(&end);
+ stop_spindump_timer();
OUR_PMLog((UInt32) -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, this, fCurrentPowerState, powerState, result);
+ fName, OBFUSCATE(this), fCurrentPowerState, powerState, result);
}
#if LOG_SETPOWER_TIMES
SUB_ABSOLUTETIME(&end, &fDriverCallStartTime);
absolutetime_to_nanoseconds(end, &nsec);
- if (nsec > LOG_SETPOWER_TIMES)
- PM_LOG("%s::setPowerState(%p, %lu -> %lu) took %d ms\n",
- fName, this, fCurrentPowerState, powerState, NS_TO_MS(nsec));
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeSetPowerStateImmediate, // type
- fName, // who
- (uintptr_t)this, // owner unique
- NULL, // interest name
- (uint8_t)oldPowerState, // old
- (uint8_t)powerState, // new
- 0, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
+ if (nsec > LOG_SETPOWER_TIMES) {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsDriverPSChangeSlow,
+ fName, kDriverCallSetPowerState, NS_TO_MS(nsec), 0, NULL, powerState);
+ }
}
#endif
}
// Thread call context
//*********************************************************************************
-void IOService::driverInformPowerChange ( void )
+void IOService::driverInformPowerChange( void )
{
- IOPMinformee * informee;
- IOService * driver;
- DriverCallParam * param;
+ IOPMinformee * informee;
+ IOService * driver;
+ DriverCallParam * param;
IOPMDriverCallEntry callEntry;
- IOPMPowerFlags powerFlags;
+ IOPMPowerFlags powerFlags;
IOPMPowerStateIndex powerState;
AbsoluteTime end;
IOReturn result;
- IOItemCount count;
+ IOItemCount count;
assert( fDriverCallBusy );
assert( fDriverCallParamPtr );
if (fDriverCallReason == kDriverCallInformPreChange)
{
OUR_PMLog(kPMLogInformDriverPreChange, (uintptr_t) this, powerState);
+ start_spindump_timer("WillChange");
clock_get_uptime(&informee->startTime);
result = driver->powerStateWillChangeTo(powerFlags, powerState, this);
clock_get_uptime(&end);
+ stop_spindump_timer();
OUR_PMLog((UInt32)-kPMLogInformDriverPreChange, (uintptr_t) this, result);
}
else
{
OUR_PMLog(kPMLogInformDriverPostChange, (uintptr_t) this, powerState);
+ start_spindump_timer("DidChange");
clock_get_uptime(&informee->startTime);
result = driver->powerStateDidChangeTo(powerFlags, powerState, this);
clock_get_uptime(&end);
+ stop_spindump_timer();
OUR_PMLog((UInt32)-kPMLogInformDriverPostChange, (uintptr_t) this, result);
}
-
+
deassertPMDriverCall(&callEntry);
#if LOG_SETPOWER_TIMES
SUB_ABSOLUTETIME(&end, &informee->startTime);
absolutetime_to_nanoseconds(end, &nsec);
- if (nsec > LOG_SETPOWER_TIMES)
- PM_LOG("%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));
-
- uint16_t logType = (fDriverCallReason == kDriverCallInformPreChange)
- ? kIOPMEventTypePSWillChangeTo
- : kIOPMEventTypePSDidChangeTo;
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- logType, // type
- fName, // who
- (uintptr_t)this, // owner unique
- driver->getName(), // interest name
- (uint8_t)fCurrentPowerState, // old
- (uint8_t)fHeadNotePowerState, // new
- 0, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
+ if (nsec > LOG_SETPOWER_TIMES) {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsDriverPSChangeSlow, driver->getName(),
+ fDriverCallReason, NS_TO_MS(nsec), 0, NULL, powerState);
+ }
}
#endif
}
// If the object acknowledges the current change, we return TRUE.
//*********************************************************************************
-bool IOService::notifyChild ( IOPowerConnection * theNub )
+bool IOService::notifyChild( IOPowerConnection * theNub )
{
IOReturn ret = IOPMAckImplied;
unsigned long childPower;
IOService * theChild;
- IOPMRequest * childRequest;
+ IOPMRequest * childRequest;
IOPMPowerChangeFlags requestArg2;
- int requestType;
+ int requestType;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
theChild = (IOService *)(theNub->copyChildEntry(gIOPowerPlane));
if (!theChild)
{
// Unless the child handles the notification immediately and returns
// kIOPMAckImplied, we'll be awaiting their acknowledgement later.
- fHeadNotePendingAcks++;
+ fHeadNotePendingAcks++;
theNub->setAwaitingAck(true);
requestArg2 = fHeadNoteChangeFlags;
- if (fHeadNotePowerState < fCurrentPowerState)
+ if (StateOrder(fHeadNotePowerState) < StateOrder(fCurrentPowerState))
requestArg2 |= kIOPMDomainPowerDrop;
requestType = fIsPreChange ?
kIOPMRequestTypePowerDomainWillChange :
kIOPMRequestTypePowerDomainDidChange;
- childRequest = acquirePMRequest( theChild, requestType );
- if (childRequest)
- {
+ childRequest = acquirePMRequest( theChild, requestType );
+ if (childRequest)
+ {
theNub->retain();
- childRequest->fArg0 = (void *) fHeadNotePowerArrayEntry->outputPowerFlags;
- childRequest->fArg1 = (void *) theNub;
- childRequest->fArg2 = (void *) requestArg2;
- theChild->submitPMRequest( childRequest );
- ret = IOPMWillAckLater;
- }
- else
- {
- ret = IOPMAckImplied;
- fHeadNotePendingAcks--;
- theNub->setAwaitingAck(false);
+ 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 )
{
}
theChild->release();
- return (IOPMAckImplied == ret);
+ return (IOPMAckImplied == ret);
}
//*********************************************************************************
// [private] notifyControllingDriver
//*********************************************************************************
-bool IOService::notifyControllingDriver ( void )
+bool IOService::notifyControllingDriver( void )
{
- DriverCallParam * param;
+ DriverCallParam * param;
PM_ASSERT_IN_GATE();
assert( fDriverCallParamCount == 0 );
{
param = IONew(DriverCallParam, 1);
if (!param)
- return false; // no memory
+ return false; // no memory
fDriverCallParamPtr = (void *) param;
fDriverCallParamSlots = 1;
void IOService::notifyControllingDriverDone( void )
{
- DriverCallParam * param;
- IOReturn result;
+ DriverCallParam * param;
+ IOReturn result;
+
+ PM_ASSERT_IN_GATE();
+ param = (DriverCallParam *) fDriverCallParamPtr;
- PM_ASSERT_IN_GATE();
- param = (DriverCallParam *) fDriverCallParamPtr;
+ assert( fDriverCallBusy == false );
+ assert( fMachineState == kIOPM_DriverThreadCallDone );
- assert( fDriverCallBusy == false );
- assert( fMachineState == kIOPM_DriverThreadCallDone );
+ if (param && fDriverCallParamCount)
+ {
+ assert(fDriverCallParamCount == 1);
- if (param && fDriverCallParamCount)
- {
- assert(fDriverCallParamCount == 1);
-
- // the return value from setPowerState()
- result = param->Result;
+ // the return value from setPowerState()
+ result = param->Result;
- if ((result == IOPMAckImplied) || (result < 0))
- {
+ if ((result == IOPMAckImplied) || (result < 0))
+ {
fDriverTimer = 0;
- }
- else if (fDriverTimer)
- {
+ }
+ else if (fDriverTimer)
+ {
assert(fDriverTimer == -1);
// Driver has not acked, and has returned a positive result.
result = kMinAckTimeoutTicks;
fDriverTimer = (result / (ACK_TIMER_PERIOD / ns_per_us)) + 1;
- }
- // else, child has already acked and driver_timer reset to 0.
+ }
+ // else, child has already acked and driver_timer reset to 0.
- fDriverCallParamCount = 0;
+ fDriverCallParamCount = 0;
- if ( fDriverTimer )
- {
- OUR_PMLog(kPMLogStartAckTimer, 0, 0);
- start_ack_timer();
- }
- }
+ if ( fDriverTimer )
+ {
+ OUR_PMLog(kPMLogStartAckTimer, 0, 0);
+ start_ack_timer();
+ }
+ }
MS_POP(); // pushed by OurChangeSetPowerState()
fIsPreChange = false;
// A power change is done.
//*********************************************************************************
-void IOService::all_done ( void )
+void IOService::all_done( void )
{
IOPMPowerStateIndex prevPowerState;
const IOPMPSEntry * powerStatePtr;
IOPMDriverCallEntry callEntry;
uint32_t prevMachineState = fMachineState;
- bool callAction = false;
+ bool actionCalled = false;
+ uint64_t ts;
fMachineState = kIOPM_Finished;
}
else if (fAdvisoryTickleUsed)
{
- // Not root domain and advisory tickle target
+ // 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))
{
}
// our power change
- if ( fHeadNoteChangeFlags & kIOPMSelfInitiated )
+ if (fHeadNoteChangeFlags & kIOPMSelfInitiated)
{
- // could our driver switch to the new state?
- if ( !( fHeadNoteChangeFlags & kIOPMNotDone) )
+ // power state changed
+ if ((fHeadNoteChangeFlags & kIOPMNotDone) == 0)
{
trackSystemSleepPreventers(
fCurrentPowerState, fHeadNotePowerState, fHeadNoteChangeFlags);
- // we changed, tell our parent
+ // we changed, tell our parent
requestDomainPower(fHeadNotePowerState);
// yes, did power raise?
- if ( fCurrentPowerState < fHeadNotePowerState )
+ 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, 0);
+ OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, prevPowerState);
PM_ACTION_2(actionPowerChangeDone,
fHeadNotePowerState, fHeadNoteChangeFlags);
- callAction = true;
+ actionCalled = true;
powerStatePtr = &fPowerStates[fCurrentPowerState];
fCurrentCapabilityFlags = powerStatePtr->capabilityFlags;
if (fCurrentCapabilityFlags & kIOPMStaticPowerValid)
fCurrentPowerConsumption = powerStatePtr->staticPower;
+ if (fHeadNoteChangeFlags & kIOPMRootChangeDown)
+ {
+ // Bump tickle generation count once the entire tree is down
+ gIOPMTickleGeneration++;
+ }
+
// inform subclass policy-maker
if (fPCDFunctionOverride && fParentsKnowState &&
assertPMDriverCall(&callEntry, kIOPMADC_NoInactiveCheck))
}
}
- // parent's power change
- if ( fHeadNoteChangeFlags & kIOPMParentInitiated)
+ // parent-initiated power change
+ if (fHeadNoteChangeFlags & kIOPMParentInitiated)
{
- if (((fHeadNoteChangeFlags & kIOPMDomainWillChange) &&
- (fCurrentPowerState >= fHeadNotePowerState)) ||
- ((fHeadNoteChangeFlags & kIOPMDomainDidChange) &&
- (fCurrentPowerState < fHeadNotePowerState)))
+ if (fHeadNoteChangeFlags & kIOPMRootChangeDown)
+ ParentChangeRootChangeDown();
+
+ // power state changed
+ if ((fHeadNoteChangeFlags & kIOPMNotDone) == 0)
{
trackSystemSleepPreventers(
fCurrentPowerState, fHeadNotePowerState, fHeadNoteChangeFlags);
// did power raise?
- if ( fCurrentPowerState < fHeadNotePowerState )
+ 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
- fMaxPowerState = fControllingDriver->maxCapabilityForDomainState(fHeadNoteDomainFlags);
- OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, 0);
+ OUR_PMLog(kPMLogChangeDone, fCurrentPowerState, prevPowerState);
PM_ACTION_2(actionPowerChangeDone,
fHeadNotePowerState, fHeadNoteChangeFlags);
- callAction = true;
+ actionCalled = true;
powerStatePtr = &fPowerStates[fCurrentPowerState];
fCurrentCapabilityFlags = powerStatePtr->capabilityFlags;
// When power rises enough to satisfy the tickle's desire for more power,
// the condition preventing idle-timer from dropping power is removed.
- if (fCurrentPowerState >= fIdleTimerMinPowerState)
+ if (StateOrder(fCurrentPowerState) >= StateOrder(fIdleTimerMinPowerState))
{
- fIdleTimerMinPowerState = 0;
+ fIdleTimerMinPowerState = kPowerStateZero;
}
- if (!callAction)
+ if (!actionCalled)
{
PM_ACTION_2(actionPowerChangeDone,
fHeadNotePowerState, fHeadNoteChangeFlags);
// Begin the processing of a power change initiated by us.
//*********************************************************************************
-void IOService::OurChangeStart ( void )
+void IOService::OurChangeStart( void )
{
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
OUR_PMLog( kPMLogStartDeviceChange, fHeadNotePowerState, fCurrentPowerState );
- // 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.
+ // 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.
- if (!IS_PM_ROOT && (fMaxPowerState < fHeadNotePowerState))
+ if (!IS_PM_ROOT && (StateOrder(fMaxPowerState) < StateOrder(fHeadNotePowerState)))
{
fHeadNoteChangeFlags |= kIOPMNotDone;
requestDomainPower(fHeadNotePowerState);
return;
}
- // Redundant power changes skips to the end of the state machine.
+ // Redundant power changes skips to the end of the state machine.
if (!fInitialPowerChange && (fHeadNotePowerState == fCurrentPowerState))
- {
- OurChangeFinish();
- return;
+ {
+ OurChangeFinish();
+ return;
}
fInitialPowerChange = false;
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.
+ // 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)
{
fOutOfBandParameter = kNotifyApps;
askChangeDown(fHeadNotePowerState);
}
- else
- {
+ 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.
}
}
+//*********************************************************************************
+// [private] requestDomainPowerApplier
+//
+// Call requestPowerDomainState() on all power parents.
//*********************************************************************************
struct IOPMRequestDomainPowerContext {
//*********************************************************************************
// [private] requestDomainPower
+//
+// 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.
//*********************************************************************************
IOReturn IOService::requestDomainPower(
IOPMPowerStateIndex maxPowerState;
IOPMRequestDomainPowerContext context;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
assert(ourPowerState < fNumberOfPowerStates);
if (ourPowerState >= fNumberOfPowerStates)
return kIOReturnBadArgument;
if (IS_PM_ROOT)
return kIOReturnSuccess;
- // Fetch the input power flags for the requested power state.
+ // Fetch our input power flags for the requested power state.
// Parent request is stated in terms of required power flags.
- requestPowerFlags = fPowerStates[ourPowerState].inputPowerFlags;
+ requestPowerFlags = fPowerStates[ourPowerState].inputPowerFlags;
// Disregard the "previous request" for power reservation.
}
fPreviousRequestPowerFlags = requestPowerFlags;
+ // The results will be collected by fHeadNoteDomainTargetFlags
context.child = this;
context.requestPowerFlags = requestPowerFlags;
fHeadNoteDomainTargetFlags = 0;
maxPowerState = fControllingDriver->maxCapabilityForDomainState(
fHeadNoteDomainTargetFlags );
- if (maxPowerState < fHeadNotePowerState)
+ if (StateOrder(maxPowerState) < StateOrder(ourPowerState))
{
PM_LOG1("%s: power desired %u:0x%x got %u:0x%x\n",
getName(),
// [private] OurSyncStart
//*********************************************************************************
-void IOService::OurSyncStart ( void )
+void IOService::OurSyncStart( void )
{
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
if (fInitialPowerChange)
return;
if (fHeadNoteChangeFlags & kIOPMNotDone)
{
- OurChangeFinish();
- return;
+ OurChangeFinish();
+ return;
}
if (fHeadNoteChangeFlags & kIOPMSyncTellPowerDown)
// [private] OurChangeTellClientsPowerDown
//
// 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.
+// power. Here we notify them that we will lower the power and wait for acks.
//*********************************************************************************
-void IOService::OurChangeTellClientsPowerDown ( void )
+void IOService::OurChangeTellClientsPowerDown( void )
{
- fMachineState = kIOPM_OurChangeTellPriorityClientsPowerDown;
+ if(!IS_ROOT_DOMAIN)
+ fMachineState = kIOPM_OurChangeTellPriorityClientsPowerDown;
+ else
+ {
+ fMachineState = kIOPM_OurChangeTellUserPMPolicyPowerDown;
+ }
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;
+
+ tellClientsWithResponse(kIOPMMessageLastCallBeforeSleep);
+}
+
//*********************************************************************************
// [private] OurChangeTellPriorityClientsPowerDown
//
// power. Here we notify "priority" clients that we are lowering power.
//*********************************************************************************
-void IOService::OurChangeTellPriorityClientsPowerDown ( void )
+void IOService::OurChangeTellPriorityClientsPowerDown( void )
{
fMachineState = kIOPM_OurChangeNotifyInterestedDriversWillChange;
tellChangeDown2(fHeadNotePowerState);
// system capability change when raising power state.
//*********************************************************************************
-void IOService::OurChangeTellCapabilityWillChange ( void )
+void IOService::OurChangeTellCapabilityWillChange( void )
{
if (!IS_ROOT_DOMAIN)
return OurChangeNotifyInterestedDriversWillChange();
// Here we notify interested drivers pre-change.
//*********************************************************************************
-void IOService::OurChangeNotifyInterestedDriversWillChange ( void )
+void IOService::OurChangeNotifyInterestedDriversWillChange( void )
{
IOPMrootDomain * rootDomain;
if ((rootDomain = getPMRootDomain()) == this)
if (IS_POWER_DROP)
{
rootDomain->tracePoint( kIOPMTracePointSleepWillChangeInterests );
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeAppNotificationsFinished,
- NULL,
- 100,
- kIOReturnSuccess);
- rootDomain->recordAndReleasePMEventGated( details );
}
else
rootDomain->tracePoint( kIOPMTracePointWakeWillChangeInterests );
// change. Wait for async completions.
//*********************************************************************************
-void IOService::OurChangeSetPowerState ( void )
+void IOService::OurChangeSetPowerState( void )
{
MS_PUSH( kIOPM_OurChangeWaitForPowerSettle );
fMachineState = kIOPM_DriverThreadCallDone;
// Wait for the driver specified settle time to expire.
//*********************************************************************************
-void IOService::OurChangeWaitForPowerSettle ( void )
+void IOService::OurChangeWaitForPowerSettle( void )
{
fMachineState = kIOPM_OurChangeNotifyInterestedDriversDidChange;
startSettleTimer();
// all our interested drivers post-change.
//*********************************************************************************
-void IOService::OurChangeNotifyInterestedDriversDidChange ( void )
+void IOService::OurChangeNotifyInterestedDriversDidChange( void )
{
IOPMrootDomain * rootDomain;
if ((rootDomain = getPMRootDomain()) == this)
// For root domain to notify capability power-change.
//*********************************************************************************
-void IOService::OurChangeTellCapabilityDidChange ( void )
+void IOService::OurChangeTellCapabilityDidChange( void )
{
if (!IS_ROOT_DOMAIN)
return OurChangeFinish();
// Done with this self-induced power state change.
//*********************************************************************************
-void IOService::OurChangeFinish ( void )
+void IOService::OurChangeFinish( void )
{
all_done();
}
// Here we begin the processing of a power change initiated by our parent.
//*********************************************************************************
-IOReturn IOService::ParentChangeStart ( void )
+IOReturn IOService::ParentChangeStart( void )
{
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
OUR_PMLog( kPMLogStartParentChange, fHeadNotePowerState, fCurrentPowerState );
- // Power domain is lowering power
- if ( fHeadNotePowerState < fCurrentPowerState )
+ // Root power domain has transitioned to its max power state
+ if ((fHeadNoteChangeFlags & (kIOPMDomainDidChange | kIOPMRootChangeUp)) ==
+ (kIOPMDomainDidChange | kIOPMRootChangeUp))
{
- // Piggy-back idle timer cancellation on a parent down
- if (0 == fHeadNotePowerState)
- ParentChangeCancelIdleTimer(fHeadNotePowerState);
-
- // TODO: redundant? See handlePowerDomainWillChangeTo()
- setParentInfo( fHeadNoteParentFlags, fHeadNoteParentConnection, true );
+ // 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;
+ // Tell apps and kernel clients
+ fInitialPowerChange = false;
fMachineState = kIOPM_ParentChangeTellPriorityClientsPowerDown;
- tellChangeDown1(fHeadNotePowerState);
+ tellChangeDown1(fHeadNotePowerState);
return IOPMWillAckLater;
}
- // Power domain is raising power
- if ( fHeadNotePowerState > fCurrentPowerState )
+ // Power domain is allowing us to raise power up to fHeadNotePowerState
+ if ( StateOrder(fHeadNotePowerState) > StateOrder(fCurrentPowerState) )
{
- if ( fDesiredPowerState > fCurrentPowerState )
+ if ( StateOrder(fDesiredPowerState) > StateOrder(fCurrentPowerState) )
{
- if ( fDesiredPowerState < fHeadNotePowerState )
+ if ( StateOrder(fDesiredPowerState) < StateOrder(fHeadNotePowerState) )
{
// We power up, but not all the way
fHeadNotePowerState = fDesiredPowerState;
- fHeadNotePowerArrayEntry = &fPowerStates[fDesiredPowerState];
+ fHeadNotePowerArrayEntry = &fPowerStates[fDesiredPowerState];
OUR_PMLog(kPMLogAmendParentChange, fHeadNotePowerState, 0);
}
} else {
// We don't need to change
fHeadNotePowerState = fCurrentPowerState;
- fHeadNotePowerArrayEntry = &fPowerStates[fCurrentPowerState];
+ fHeadNotePowerArrayEntry = &fPowerStates[fCurrentPowerState];
OUR_PMLog(kPMLogAmendParentChange, fHeadNotePowerState, 0);
}
}
if ( fHeadNoteChangeFlags & kIOPMDomainDidChange )
- {
- if ( fHeadNotePowerState > fCurrentPowerState )
+ {
+ if ( StateOrder(fHeadNotePowerState) > StateOrder(fCurrentPowerState) )
{
PM_ACTION_2(actionPowerChangeStart,
fHeadNotePowerState, &fHeadNoteChangeFlags);
// Parent did change up - start our change up
- fInitialPowerChange = false;
+ fInitialPowerChange = false;
ParentChangeTellCapabilityWillChange();
return IOPMWillAckLater;
}
- else if (fHeadNoteChangeFlags & kIOPMSynchronize)
+ else if (fHeadNoteChangeFlags & kIOPMRootBroadcastFlags)
{
- // We do not need to change power state, but notify
- // children to propagate tree synchronization.
+ // 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] ParentChangeRootChangeDown
+//
+// 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::ParentChangeRootChangeDown( void )
+{
+ // Always stop the idle timer before root power down
+ if (fIdleTimerPeriod && !fIdleTimerStopped)
+ {
+ fIdleTimerStopped = true;
+ if (fIdleTimer && thread_call_cancel(fIdleTimer))
+ release();
+ }
+
+ 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] ParentChangeTellPriorityClientsPowerDown
//
// power. Here we notify "priority" clients that we are lowering power.
//*********************************************************************************
-void IOService::ParentChangeTellPriorityClientsPowerDown ( void )
+void IOService::ParentChangeTellPriorityClientsPowerDown( void )
{
fMachineState = kIOPM_ParentChangeNotifyInterestedDriversWillChange;
- tellChangeDown2(fHeadNotePowerState);
+ tellChangeDown2(fHeadNotePowerState);
}
//*********************************************************************************
// root domain to notify apps and drivers about the system capability change.
//*********************************************************************************
-void IOService::ParentChangeTellCapabilityWillChange ( void )
+void IOService::ParentChangeTellCapabilityWillChange( void )
{
if (!IS_ROOT_DOMAIN)
return ParentChangeNotifyInterestedDriversWillChange();
// Here we notify interested drivers pre-change.
//*********************************************************************************
-void IOService::ParentChangeNotifyInterestedDriversWillChange ( void )
+void IOService::ParentChangeNotifyInterestedDriversWillChange( void )
{
- notifyAll( kIOPM_ParentChangeSetPowerState );
+ notifyAll( kIOPM_ParentChangeSetPowerState );
}
//*********************************************************************************
// change. Wait for async completions.
//*********************************************************************************
-void IOService::ParentChangeSetPowerState ( void )
+void IOService::ParentChangeSetPowerState( void )
{
MS_PUSH( kIOPM_ParentChangeWaitForPowerSettle );
fMachineState = kIOPM_DriverThreadCallDone;
// parent. Wait for the driver specified settle time to expire.
//*********************************************************************************
-void IOService::ParentChangeWaitForPowerSettle ( void )
+void IOService::ParentChangeWaitForPowerSettle( void )
{
- fMachineState = kIOPM_ParentChangeNotifyInterestedDriversDidChange;
+ fMachineState = kIOPM_ParentChangeNotifyInterestedDriversDidChange;
startSettleTimer();
}
// all our interested drivers post-change.
//*********************************************************************************
-void IOService::ParentChangeNotifyInterestedDriversDidChange ( void )
+void IOService::ParentChangeNotifyInterestedDriversDidChange( void )
{
- notifyAll( kIOPM_ParentChangeTellCapabilityDidChange );
+ notifyAll( kIOPM_ParentChangeTellCapabilityDidChange );
}
//*********************************************************************************
// For root domain to notify capability power-change.
//*********************************************************************************
-void IOService::ParentChangeTellCapabilityDidChange ( void )
+void IOService::ParentChangeTellCapabilityDidChange( void )
{
if (!IS_ROOT_DOMAIN)
return ParentChangeAcknowledgePowerChange();
//*********************************************************************************
// [private] ParentAcknowledgePowerChange
//
-// Acknowledge our power parent that our power change is done.
+// Acknowledge our power parent that our power change is done.
//*********************************************************************************
-void IOService::ParentChangeAcknowledgePowerChange ( void )
+void IOService::ParentChangeAcknowledgePowerChange( void )
{
- IORegistryEntry * nub;
- IOService * parent;
+ IORegistryEntry * nub;
+ IOService * parent;
nub = fHeadNoteParentConnection;
nub->retain();
nub->release();
}
-void IOService::ParentChangeCancelIdleTimer( IOPMPowerStateIndex newPowerState )
-{
- AbsoluteTime now;
- uint64_t nsec;
- bool cancel = false;
-
- // No ready or idle timer not in use
- if (!initialized || !fIdleTimerPeriod || fLockedFlags.PMStop ||
- !fAdvisoryTickleUsed)
- return;
-
- // Not allowed to induce artifical idle timeout
- if (fIdleTimerIgnored || fIdleTimerMinPowerState)
- goto done;
-
- // Idle timer already has no influence
- if (!fDesiredPowerState || fIdleTimerStopped)
- goto done;
-
- IOLockLock(fActivityLock);
-
- if (!fDeviceWasActive)
- {
- // No tickles since the last idle timer expiration.
- // Safe to drop the device desire to zero.
- cancel = 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)
- {
- cancel = true;
- }
- }
-
- if (cancel)
- {
- // Force the next tickle to raise power state
- fActivityTicklePowerState = kInvalidTicklePowerState;
- fDeviceWasActive = false;
- }
-
- IOLockUnlock(fActivityLock);
-
- if (cancel)
- {
- // cancel idle timer
- if (fIdleTimer && thread_call_cancel(fIdleTimer))
- release();
-
- updatePowerClient(gIOPMPowerClientDevice, 0);
- computeDesiredState();
-
- fIdleTimerStopped = true;
- }
-
-done:
- OUR_PMLog( kPMLogStartParentChange, fHeadNotePowerState, fCurrentPowerState );
- PM_LOG("%s::%s cancel=%d\n", fName, __FUNCTION__, cancel);
-}
-
// MARK: -
// MARK: Ack and Settle timers
void IOService::settleTimerExpired( void )
{
- fSettleTimeUS = 0;
- gIOPMWorkQueue->signalWorkAvailable();
+ fSettleTimeUS = 0;
+ gIOPMWorkQueue->signalWorkAvailable();
}
//*********************************************************************************
static void
settle_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 )
{
- IOService * me = (IOService *) arg0;
+ IOService * me = (IOService *) arg0;
- if (gIOPMWorkLoop && gIOPMWorkQueue)
- {
- gIOPMWorkLoop->runAction(
+ if (gIOPMWorkLoop && gIOPMWorkQueue)
+ {
+ gIOPMWorkLoop->runAction(
OSMemberFunctionCast(IOWorkLoop::Action, me, &IOService::settleTimerExpired),
me);
- }
- me->release();
+ }
+ me->release();
}
//*********************************************************************************
void IOService::startSettleTimer( void )
{
+#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.
+
AbsoluteTime deadline;
- IOPMPowerStateIndex i;
+ IOPMPowerStateIndex stateIndex;
+ IOPMPowerStateIndex currentOrder, newOrder, i;
uint32_t settleTime = 0;
- boolean_t pending;
+ boolean_t pending;
+
+ PM_ASSERT_IN_GATE();
- PM_ASSERT_IN_GATE();
+ currentOrder = StateOrder(fCurrentPowerState);
+ newOrder = StateOrder(fHeadNotePowerState);
- i = fCurrentPowerState;
+ i = currentOrder;
// lowering power
- if ( fHeadNotePowerState < fCurrentPowerState )
+ if ( newOrder < currentOrder )
{
- while ( i > fHeadNotePowerState )
+ while ( i > newOrder )
{
- settleTime += (uint32_t) fPowerStates[i].settleDownTime;
+ stateIndex = fPowerStates[i].stateOrderToIndex;
+ settleTime += (uint32_t) fPowerStates[stateIndex].settleDownTime;
i--;
}
}
// raising power
- if ( fHeadNotePowerState > fCurrentPowerState )
+ if ( newOrder > currentOrder )
{
- while ( i < fHeadNotePowerState )
+ while ( i < newOrder )
{
- settleTime += (uint32_t) fPowerStates[i+1].settleUpTime;
+ stateIndex = fPowerStates[i+1].stateOrderToIndex;
+ settleTime += (uint32_t) fPowerStates[stateIndex].settleUpTime;
i++;
}
}
pending = thread_call_enter_delayed(fSettleTimer, deadline);
if (pending) release();
}
+#endif
}
//*********************************************************************************
#ifndef __LP64__
void IOService::ack_timer_ticked ( void )
{
- assert(false);
+ assert(false);
}
#endif /* !__LP64__ */
bool IOService::ackTimerTick( void )
{
- IOPMinformee * nextObject;
- bool done = false;
+ IOPMinformee * nextObject;
+ bool done = false;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
switch (fMachineState) {
case kIOPM_OurChangeWaitForPowerSettle:
case kIOPM_ParentChangeWaitForPowerSettle:
OUR_PMLog(kPMLogCtrlDriverTardy, 0, 0);
setProperty(kIOPMTardyAckSPSKey, kOSBooleanTrue);
PM_ERROR("%s::setPowerState(%p, %lu -> %lu) timed out after %d ms\n",
- fName, this, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec));
-
-#if LOG_SETPOWER_TIMES
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeSetPowerStateDelayed, // type
- fName, // who
- (uintptr_t)this, // owner unique
- NULL, // interest name
- (uint8_t)getPowerState(), // old
- 0, // new
- kIOReturnTimeout, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
-#endif
+ fName, OBFUSCATE(this), fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec));
if (gIOKitDebug & kIOLogDebugPower)
{
fName, this, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec));
}
else
- {
- // Unblock state machine and pretend driver has acked.
- done = true;
- }
+ {
+ // Unblock state machine and pretend driver has acked.
+ done = true;
+ }
} else {
// still waiting, set timer again
start_ack_timer();
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, fHeadNotePowerState,
+ OBFUSCATE(nextObject->whatObject), fName, fCurrentPowerState, fHeadNotePowerState,
NS_TO_MS(nsec));
-#if LOG_SETPOWER_TIMES
- uint16_t logType = (fDriverCallReason == kDriverCallInformPreChange)
- ? kIOPMEventTypePSWillChangeTo
- : kIOPMEventTypePSDidChangeTo;
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- logType, // type
- fName, // who
- (uintptr_t)this, // owner unique
- nextObject->whatObject->getName(), // interest name
- (uint8_t)fCurrentPowerState, // old
- (uint8_t)fHeadNotePowerState, // new
- kIOReturnTimeout, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
-#endif
-
// Pretend driver has acked.
fHeadNotePendingAcks--;
}
if ( fHeadNotePendingAcks == 0 )
{
// yes, we can continue
- done = true;
+ done = true;
} else {
// no, set timer again
start_ack_timer();
// TODO: aggreggate this
case kIOPM_OurChangeTellClientsPowerDown:
+ case kIOPM_OurChangeTellUserPMPolicyPowerDown:
case kIOPM_OurChangeTellPriorityClientsPowerDown:
case kIOPM_OurChangeNotifyInterestedDriversWillChange:
case kIOPM_ParentChangeTellPriorityClientsPowerDown:
case kIOPM_SyncTellPriorityClientsPowerDown:
case kIOPM_SyncNotifyWillChange:
case kIOPM_TellCapabilityChangeDone:
- // apps didn't respond in time
+ // apps didn't respond in time
cleanClientResponses(true);
OUR_PMLog(kPMLogClientTardy, 0, 1);
- // tardy equates to approval
- done = true;
+ // tardy equates to approval
+ done = true;
break;
default:
PM_LOG1("%s: unexpected ack timer tick (state = %d)\n",
- getName(), fMachineState);
+ getName(), fMachineState);
break;
}
- return done;
+ 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 );
-}
+ AbsoluteTime deadline;
+ boolean_t pending;
+ static int timeout = -1;
-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);
+ if (thread_call_isactive(fWatchdogTimer)) return;
+ if (timeout == -1) {
+ PE_parse_boot_argn("swd_timeout", &timeout, sizeof(timeout));
+ }
+ if (timeout < 60) {
+ timeout = WATCHDOG_TIMER_PERIOD;
+ }
- retain();
- pending = thread_call_enter_delayed(fAckTimer, deadline);
- if (pending) release();
-}
+ clock_interval_to_deadline(timeout, kSecondScale, &deadline);
+
+ retain();
+ pending = thread_call_enter_delayed(fWatchdogTimer, deadline);
+ if (pending) release();
+
+}
+
+//*********************************************************************************
+// [private] stop_watchdog_timer
+// Returns true if watchdog was enabled and stopped now
+//*********************************************************************************
+
+bool IOService::stop_watchdog_timer( void )
+{
+ boolean_t pending;
+
+ if (!fWatchdogTimer || (kIOSleepWakeWdogOff & gIOKitDebug))
+ return false;
+
+ pending = thread_call_cancel(fWatchdogTimer);
+ if (pending) release();
+
+ return pending;
+}
+
+//*********************************************************************************
+// reset_watchdog_timer
+//*********************************************************************************
+
+void IOService::reset_watchdog_timer( void )
+{
+ if (stop_watchdog_timer())
+ start_watchdog_timer();
+}
+
+
+//*********************************************************************************
+// [static] watchdog_timer_expired
+//
+// Inside PM work loop's gate.
+//*********************************************************************************
+
+void
+IOService::watchdog_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 )
+{
+ IOService * me = (IOService *) arg0;
+
+
+ gIOPMWatchDogThread = current_thread();
+ getPMRootDomain()->sleepWakeDebugTrig(true);
+ gIOPMWatchDogThread = 0;
+ thread_call_free(me->fWatchdogTimer);
+ me->fWatchdogTimer = 0;
+
+ return ;
+}
+
+
+//*********************************************************************************
+// [private] start_ack_timer
+//*********************************************************************************
+
+void IOService::start_ack_timer( void )
+{
+ start_ack_timer( ACK_TIMER_PERIOD, kNanosecondScale );
+}
+
+void IOService::start_ack_timer ( UInt32 interval, UInt32 scale )
+{
+ AbsoluteTime deadline;
+ boolean_t pending;
+
+ clock_interval_to_deadline(interval, scale, &deadline);
+
+ retain();
+ pending = thread_call_enter_delayed(fAckTimer, deadline);
+ if (pending) release();
+
+ // Stop watchdog if ack is delayed by more than a sec
+ if (interval * scale > kSecondScale) {
+ stop_watchdog_timer();
+ }
+}
//*********************************************************************************
// [private] stop_ack_timer
//*********************************************************************************
-void IOService::stop_ack_timer ( void )
+void IOService::stop_ack_timer( void )
{
- boolean_t pending;
+ boolean_t pending;
pending = thread_call_cancel(fAckTimer);
- if (pending) release();
+ if (pending) release();
+
+ start_watchdog_timer();
}
//*********************************************************************************
//*********************************************************************************
IOReturn
-IOService::actionAckTimerExpired (
- OSObject * target,
- void * arg0, void * arg1,
- void * arg2, void * arg3 )
+IOService::actionAckTimerExpired(
+ OSObject * target,
+ void * arg0, void * arg1,
+ void * arg2, void * arg3 )
{
- IOService * me = (IOService *) target;
- bool done;
+ IOService * me = (IOService *) target;
+ bool done;
- // done will be true if the timer tick unblocks the machine state,
- // otherwise no need to signal the work loop.
+ // done will be true if the timer tick unblocks the machine state,
+ // otherwise no need to signal the work loop.
- done = me->ackTimerTick();
- if (done && gIOPMWorkQueue)
- gIOPMWorkQueue->signalWorkAvailable();
+ done = me->ackTimerTick();
+ if (done && gIOPMWorkQueue)
+ {
+ gIOPMWorkQueue->signalWorkAvailable();
+ me->start_watchdog_timer();
+ }
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
//*********************************************************************************
//*********************************************************************************
void
-IOService::ack_timer_expired ( thread_call_param_t arg0, thread_call_param_t arg1 )
+IOService::ack_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 )
+{
+ IOService * me = (IOService *) arg0;
+
+ if (gIOPMWorkLoop)
+ {
+ gIOPMWorkLoop->runAction(&actionAckTimerExpired, me);
+ }
+ me->release();
+}
+
+//*********************************************************************************
+// [private] start_spindump_timer
+//*********************************************************************************
+
+void IOService::start_spindump_timer( const char * delay_type )
+{
+ AbsoluteTime deadline;
+ boolean_t pending;
+
+ if (!fSpinDumpTimer || !(kIOKextSpinDump & gIOKitDebug))
+ return;
+
+ if (gIOSpinDumpKextName[0] == '\0' &&
+ !(PE_parse_boot_argn("swd_kext_name", &gIOSpinDumpKextName,
+ sizeof(gIOSpinDumpKextName))))
+ {
+ return;
+ }
+
+ if (strncmp(gIOSpinDumpKextName, fName, sizeof(gIOSpinDumpKextName)) != 0)
+ return;
+
+ if (gIOSpinDumpDelayType[0] == '\0' &&
+ !(PE_parse_boot_argn("swd_delay_type", &gIOSpinDumpDelayType,
+ sizeof(gIOSpinDumpDelayType))))
+ {
+ strncpy(gIOSpinDumpDelayType, "SetState", sizeof(gIOSpinDumpDelayType));
+ }
+
+ if (strncmp(delay_type, gIOSpinDumpDelayType, sizeof(gIOSpinDumpDelayType)) != 0)
+ return;
+
+ if (gIOSpinDumpDelayDuration == 0 &&
+ !(PE_parse_boot_argn("swd_delay_duration", &gIOSpinDumpDelayDuration,
+ sizeof(gIOSpinDumpDelayDuration))))
+ {
+ gIOSpinDumpDelayDuration = 300;
+ }
+
+ clock_interval_to_deadline(gIOSpinDumpDelayDuration, kMillisecondScale, &deadline);
+
+ retain();
+ pending = thread_call_enter_delayed(fSpinDumpTimer, deadline);
+ if (pending) release();
+}
+
+//*********************************************************************************
+// [private] stop_spindump_timer
+//*********************************************************************************
+
+void IOService::stop_spindump_timer( void )
+{
+ boolean_t pending;
+
+ if (!fSpinDumpTimer || !(kIOKextSpinDump & gIOKitDebug))
+ return;
+
+ pending = thread_call_cancel(fSpinDumpTimer);
+ if (pending) release();
+}
+
+
+//*********************************************************************************
+// [static] actionSpinDumpTimerExpired
+//
+// Inside PM work loop's gate.
+//*********************************************************************************
+
+IOReturn
+IOService::actionSpinDumpTimerExpired(
+ OSObject * target,
+ void * arg0, void * arg1,
+ void * arg2, void * arg3 )
+{
+ getPMRootDomain()->takeStackshot(false, false, true);
+
+ return kIOReturnSuccess;
+}
+
+//*********************************************************************************
+// spindump_timer_expired
+//
+// Thread call function. Holds a retain while the callout is in flight.
+//*********************************************************************************
+
+void
+IOService::spindump_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 )
{
- IOService * me = (IOService *) arg0;
+ IOService * me = (IOService *) arg0;
- if (gIOPMWorkLoop)
- {
- gIOPMWorkLoop->runAction(&actionAckTimerExpired, me);
- }
- me->release();
+ if (gIOPMWorkLoop)
+ {
+ gIOPMWorkLoop->runAction(&actionSpinDumpTimerExpired, me);
+ }
+ me->release();
}
// MARK: -
void IOService::tellSystemCapabilityChange( uint32_t nextMS )
{
- MS_PUSH( nextMS );
+ MS_PUSH( nextMS );
fMachineState = kIOPM_TellCapabilityChangeDone;
fOutOfBandMessage = kIOMessageSystemCapabilityChange;
// 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 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);
// 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);
// 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 );
}
//
//*********************************************************************************
-static void logAppTimeouts ( OSObject * object, void * arg )
+static void logAppTimeouts( OSObject * object, void * arg )
{
IOPMInterestContext * context = (IOPMInterestContext *) arg;
OSObject * flag;
unsigned int clientIndex;
+ int pid = -1;
+ char name[128];
if (OSDynamicCast(_IOServiceInterestNotifier, object))
{
(flag = context->responseArray->getObject(clientIndex)) &&
(flag != kOSBooleanTrue))
{
- OSString *logClientID = NULL;
- OSNumber *clientID = copyClientIDForNotification(object, context);
-
+ OSNumber *clientID = copyClientIDForNotification(object, context);
+
+ name[0] = '\0';
if (clientID) {
- logClientID = IOCopyLogNameForPID(clientID->unsigned32BitValue());
+ pid = clientID->unsigned32BitValue();
+ proc_name(pid, name, sizeof(name));
clientID->release();
}
-
- PM_ERROR(context->errorLog, logClientID ? logClientID->getCStringNoCopy() : "");
+
+ PM_ERROR(context->errorLog, pid, name);
// TODO: record message type if possible
IOService::getPMRootDomain()->pmStatsRecordApplicationResponse(
gIOPMStatsApplicationResponseTimedOut,
- logClientID ? logClientID->getCStringNoCopy() : "",
- 0, (30*1000), -1);
+ name, 0, (30*1000), pid, object);
- if (logClientID)
- logClientID->release();
}
}
}
-void IOService::cleanClientResponses ( bool logErrors )
+void IOService::cleanClientResponses( bool logErrors )
{
if (logErrors && fResponseArray)
{
context.stateNumber = fHeadNotePowerState;
context.stateFlags = fHeadNotePowerArrayEntry->capabilityFlags;
context.changeFlags = fHeadNoteChangeFlags;
- context.errorLog = "PM notification timeout (%s)\n";
+ context.errorLog = "PM notification timeout (pid %d, %s)\n";
applyToInterested(gIOAppPowerStateInterest, logAppTimeouts, (void *) &context);
}
// Return true if we don't have to wait for acknowledgements
//*********************************************************************************
-bool IOService::tellClientsWithResponse ( int messageType )
+bool IOService::tellClientsWithResponse( int messageType )
{
IOPMInterestContext context;
bool isRootDomain = IS_ROOT_DOMAIN;
+ uint32_t maxTimeOut = kMaxTimeRequested;
- PM_ASSERT_IN_GATE();
+ PM_ASSERT_IN_GATE();
assert( fResponseArray == NULL );
assert( fNotifyClientArray == NULL );
- RD_LOG("tellClientsWithResponse( %s, %d )\n",
- getIOMessageString(messageType), fOutOfBandParameter);
+ 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)
fResponseArray->setCapacityIncrement(8);
if (++fSerialNumber == 0)
- fSerialNumber++;
+ fSerialNumber++;
context.responseArray = fResponseArray;
context.notifyClients = 0;
switch ( fOutOfBandParameter ) {
case kNotifyApps:
applyToInterested( gIOAppPowerStateInterest,
- pmTellAppWithResponse, (void *) &context );
+ pmTellAppWithResponse, (void *) &context );
if (isRootDomain &&
(fMachineState != kIOPM_OurChangeTellClientsPowerDown) &&
- (fMachineState != kIOPM_SyncTellClientsPowerDown))
+ (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 );
+ pmTellCapabilityAppWithResponse, (void *) &context );
context.notifyType = fOutOfBandParameter;
context.messageType = messageType;
}
- context.maxTimeRequested = k30Seconds;
-
+ if(context.messageType == kIOMessageCanSystemSleep)
+ {
+ maxTimeOut = kCanSleepMaxTimeReq;
+ if(gCanSleepTimeout)
+ {
+ maxTimeOut = (gCanSleepTimeout*us_per_s);
+ }
+ }
+ context.maxTimeRequested = maxTimeOut;
applyToInterested( gIOGeneralInterest,
- pmTellClientWithResponse, (void *) &context );
+ pmTellClientWithResponse, (void *) &context );
fNotifyClientArray = context.notifyClients;
break;
case kNotifyPriority:
context.enableTracing = isRootDomain;
applyToInterested( gIOPriorityPowerStateInterest,
- pmTellClientWithResponse, (void *) &context );
+ pmTellClientWithResponse, (void *) &context );
if (isRootDomain)
{
case kNotifyCapabilityChangeApps:
applyToInterested( gIOAppPowerStateInterest,
- pmTellCapabilityAppWithResponse, (void *) &context );
+ pmTellCapabilityAppWithResponse, (void *) &context );
fNotifyClientArray = context.notifyClients;
- context.maxTimeRequested = k30Seconds;
+ if(context.messageType == kIOMessageCanSystemSleep)
+ {
+ maxTimeOut = kCanSleepMaxTimeReq;
+ if(gCanSleepTimeout)
+ {
+ maxTimeOut = (gCanSleepTimeout*us_per_s);
+ }
+ }
+ context.maxTimeRequested = maxTimeOut;
break;
case kNotifyCapabilityChangePriority:
applyToInterested( gIOPriorityPowerStateInterest,
- pmTellCapabilityClientWithResponse, (void *) &context );
+ pmTellCapabilityClientWithResponse, (void *) &context );
break;
}
OUR_PMLog(kPMLogStartAckTimer, context.maxTimeRequested, 0);
if (context.enableTracing)
getPMRootDomain()->traceDetail( context.maxTimeRequested / 1000 );
- start_ack_timer( context.maxTimeRequested / 1000, kMillisecondScale );
+ start_ack_timer( context.maxTimeRequested / 1000, kMillisecondScale );
return false;
}
// cookie we can identify the response with.
//*********************************************************************************
-void IOService::pmTellAppWithResponse ( OSObject * object, void * arg )
+void IOService::pmTellAppWithResponse( OSObject * object, void * arg )
{
IOPMInterestContext * context = (IOPMInterestContext *) arg;
IOServicePM * pwrMgt = context->us->pwrMgt;
OSNumber *clientID = NULL;
proc_t proc = NULL;
boolean_t proc_suspended = FALSE;
+ OSObject * waitForReply = kOSBooleanTrue;
#if LOG_APP_RESPONSE_TIMES
AbsoluteTime now;
#endif
}
}
}
-
+
if (context->messageFilter &&
- !context->messageFilter(context->us, object, context, 0, 0))
+ !context->messageFilter(context->us, object, context, 0, &waitForReply))
{
if (kIOLogDebugPower & gIOKitDebug)
{
logClientIDForNotification(object, context, "MESG App");
}
+ if (waitForReply == kOSBooleanTrue)
+ {
#if LOG_APP_RESPONSE_TIMES
- OSNumber * num;
- clock_get_uptime(&now);
- num = OSNumber::withNumber(AbsoluteTime_to_scalar(&now), sizeof(uint64_t) * 8);
- if (num)
+ 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
+#endif
+ context->responseArray->setObject(msgIndex, kOSBooleanFalse);
+ }
+ else
{
- context->responseArray->setObject(msgIndex, num);
- num->release();
+ context->responseArray->setObject(msgIndex, kOSBooleanTrue);
+ if (kIOLogDebugPower & gIOKitDebug)
+ {
+ logClientIDForNotification(object, context, "App response ignored");
+ }
}
- else
-#endif
- context->responseArray->setObject(msgIndex, kOSBooleanFalse);
if (context->notifyClients)
context->notifyClients->setObject(msgIndex, object);
- context->us->messageClient(msgType, object, (void *) msgRef);
+ context->us->messageClient(msgType, object, (void *)(uintptr_t) msgRef);
}
//*********************************************************************************
// so we compute a cookie we can identify the response with.
//*********************************************************************************
-void IOService::pmTellClientWithResponse ( OSObject * object, void * arg )
+void IOService::pmTellClientWithResponse( OSObject * object, void * arg )
{
IOPowerStateChangeNotification notify;
IOPMInterestContext * context = (IOPMInterestContext *) arg;
PM_LOG("%s DROP Client %s, notifier %p, handler %p\n",
context->us->getName(),
getIOMessageString(context->messageType),
- object, n->handler);
- }
+ OBFUSCATE(object), OBFUSCATE(n->handler));
+ }
return;
}
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);
- }
+ 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);
+ 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),
- object, notifier->handler);
+ OBFUSCATE(object), OBFUSCATE(notifier->handler));
}
notify.powerRef = (void *)(uintptr_t) msgRef;
if (kIOReturnSuccess == retCode)
{
if (0 == notify.returnValue) {
- OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object);
+ OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object);
} else {
replied = kOSBooleanFalse;
if ( notify.returnValue > context->maxTimeRequested )
context->maxTimeRequested = kPriorityClientMaxWait;
PM_ERROR("%s: client %p returned %llu for %s\n",
context->us->getName(),
- notifier ? (void *) notifier->handler : object,
+ notifier ? (void *) OBFUSCATE(notifier->handler) : OBFUSCATE(object),
(uint64_t) notify.returnValue,
getIOMessageString(msgType));
}
} else {
// not a client of ours
// so we won't be waiting for response
- OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0);
+ OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0);
}
context->responseArray->setObject(msgIndex, replied);
// [static private] pmTellCapabilityAppWithResponse
//*********************************************************************************
-void IOService::pmTellCapabilityAppWithResponse ( OSObject * object, void * arg )
+void IOService::pmTellCapabilityAppWithResponse( OSObject * object, void * arg )
{
IOPMSystemCapabilityChangeParameters msgArg;
IOPMInterestContext * context = (IOPMInterestContext *) arg;
if (clientID) {
clientIDString = IOCopyLogNameForPID(clientID->unsigned32BitValue());
}
-
+
PM_LOG("%s MESG App(%u) %s, wait %u, %s\n",
context->us->getName(),
msgIndex, getIOMessageString(msgType),
PM_LOG("%s DROP Client %s, notifier %p, handler %p\n",
context->us->getName(),
getIOMessageString(context->messageType),
- object, n->handler);
- }
+ OBFUSCATE(object), OBFUSCATE(n->handler));
+ }
return;
}
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);
- }
+ 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);
- }
+ 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),
- object, notifier->handler);
+ OBFUSCATE(object), OBFUSCATE(notifier->handler));
}
msgArg.notifyRef = msgRef;
if ( 0 == msgArg.maxWaitForReply )
{
// client doesn't want time to respond
- OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object);
+ OUR_PMLog(kPMLogClientAcknowledge, msgRef, (uintptr_t) object);
}
else
{
context->maxTimeRequested = kCapabilityClientMaxWait;
PM_ERROR("%s: client %p returned %u for %s\n",
context->us->getName(),
- notifier ? (void *) notifier->handler : object,
+ notifier ? (void *) OBFUSCATE(notifier->handler) : OBFUSCATE(object),
msgArg.maxWaitForReply,
getIOMessageString(msgType));
}
{
// not a client of ours
// so we won't be waiting for response
- OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0);
+ OUR_PMLog(kPMLogClientAcknowledge, msgRef, 0);
}
context->responseArray->setObject(msgIndex, replied);
// the aborted destination state number.
//*********************************************************************************
-void IOService::tellNoChangeDown ( unsigned long )
+void IOService::tellNoChangeDown( unsigned long )
{
return tellClients( kIOMessageDeviceWillNotPowerOff );
}
// the aborted destination state number.
//*********************************************************************************
-void IOService::tellChangeUp ( unsigned long )
+void IOService::tellChangeUp( unsigned long )
{
return tellClients( kIOMessageDeviceHasPoweredOn );
}
// Notify registered applications and kernel clients of something.
//*********************************************************************************
-void IOService::tellClients ( int messageType )
+void IOService::tellClients( int messageType )
{
IOPMInterestContext context;
// Message a kernel client.
//*********************************************************************************
-static void tellKernelClientApplier ( OSObject * object, void * arg )
+static void tellKernelClientApplier( OSObject * object, void * arg )
{
- IOPowerStateChangeNotification notify;
+ IOPowerStateChangeNotification notify;
IOPMInterestContext * context = (IOPMInterestContext *) arg;
if (context->messageFilter &&
PM_LOG("%s DROP Client %s, notifier %p, handler %p\n",
context->us->getName(),
IOService::getIOMessageString(context->messageType),
- object, n->handler);
- }
+ OBFUSCATE(object), OBFUSCATE(n->handler));
+ }
return;
}
notify.powerRef = (void *) 0;
- notify.returnValue = 0;
- notify.stateNumber = context->stateNumber;
- notify.stateFlags = context->stateFlags;
+ notify.returnValue = 0;
+ notify.stateNumber = context->stateNumber;
+ notify.stateFlags = context->stateFlags;
context->us->messageClient(context->messageType, object, ¬ify, sizeof(notify));
PM_LOG("%s MESG Client %s, notifier %p, handler %p\n",
context->us->getName(),
IOService::getIOMessageString(context->messageType),
- object, n->handler);
+ OBFUSCATE(object), OBFUSCATE(n->handler));
}
}
static OSNumber * copyClientIDForNotification(
- OSObject *object,
+ OSObject *object,
IOPMInterestContext *context)
{
OSNumber *clientID = NULL;
static void logClientIDForNotification(
OSObject *object,
- IOPMInterestContext *context,
+ IOPMInterestContext *context,
const char *logString)
{
OSString *logClientID = NULL;
- OSNumber *clientID = copyClientIDForNotification(object, context);
+ OSNumber *clientID = copyClientIDForNotification(object, context);
- if (logString)
+ 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)
+ if (logClientID)
logClientID->release();
}
-
- if (clientID)
+
+ if (clientID)
clientID->release();
return;
}
-
-static void tellAppClientApplier ( OSObject * object, void * arg )
+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)))
// [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);
// [public] responseValid
//*********************************************************************************
-bool IOService::responseValid ( uint32_t refcon, int pid )
+bool IOService::responseValid( uint32_t refcon, int pid )
{
- UInt16 serialComponent;
- UInt16 ordinalComponent;
- OSObject * theFlag;
+ UInt16 serialComponent;
+ UInt16 ordinalComponent;
+ OSObject * theFlag;
+ OSObject *object = 0;
serialComponent = (refcon >> 16) & 0xFFFF;
ordinalComponent = (refcon & 0xFFFF);
{
return false;
}
-
+
if ( fResponseArray == NULL )
{
return false;
}
-
+
theFlag = fResponseArray->getObject(ordinalComponent);
-
+
if ( theFlag == 0 )
{
return false;
}
+ if (fNotifyClientArray)
+ object = fNotifyClientArray->getObject(ordinalComponent);
+
OSNumber * num;
if ((num = OSDynamicCast(OSNumber, theFlag)))
{
#if LOG_APP_RESPONSE_TIMES
- AbsoluteTime now;
- AbsoluteTime start;
+ AbsoluteTime now;
+ AbsoluteTime start;
uint64_t nsec;
- OSString *name = IOCopyLogNameForPID(pid);
+ char name[128];
+ name[0] = '\0';
+ proc_name(pid, name, sizeof(name));
clock_get_uptime(&now);
AbsoluteTime_to_scalar(&start) = num->unsigned64BitValue();
SUB_ABSOLUTETIME(&now, &start);
absolutetime_to_nanoseconds(now, &nsec);
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeAppResponse, // type
- name ? name->getCStringNoCopy() : "", // who
- (uintptr_t)pid, // owner unique
- NULL, // interest name
- 0, // old
- 0, // new
- 0, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
if (kIOLogDebugPower & gIOKitDebug)
{
// > 100 ms
if (nsec > LOG_APP_RESPONSE_TIMES)
{
- PM_LOG("PM response took %d ms (%s)\n", NS_TO_MS(nsec),
- name ? name->getCStringNoCopy() : "");
+ 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(
- gIOPMStatsApplicationResponseSlow,
- name ? name->getCStringNoCopy() : "", 0,
- NS_TO_MS(nsec), pid);
- }
+ if (nsec > LOG_APP_RESPONSE_MSG_TRACER)
+ {
+ // TODO: populate the messageType argument
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsApplicationResponseSlow,
+ name, 0, NS_TO_MS(nsec), pid, object);
+ }
+ else
+ {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsApplicationResponsePrompt,
+ name, 0, NS_TO_MS(nsec), pid, object);
}
- if (name)
- name->release();
#endif
theFlag = kOSBooleanFalse;
}
+ else if (object) {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsApplicationResponsePrompt,
+ 0, 0, 0, pid, object);
+
+ }
- if ( kOSBooleanFalse == theFlag )
+ if ( kOSBooleanFalse == theFlag )
{
fResponseArray->replaceObject(ordinalComponent, kOSBooleanTrue);
}
-
+
return true;
}
// so, and all acknowledgements are positive, we continue with the power change.
//*********************************************************************************
-IOReturn IOService::allowPowerChange ( unsigned long refcon )
+IOReturn IOService::allowPowerChange( unsigned long refcon )
{
- IOPMRequest * request;
+ IOPMRequest * request;
if ( !initialized )
{
return kIOReturnSuccess;
}
- request = acquirePMRequest( this, kIOPMRequestTypeAllowPowerChange );
- if (!request)
- return kIOReturnNoMemory;
+ request = acquirePMRequest( this, kIOPMRequestTypeAllowPowerChange );
+ if (!request)
+ return kIOReturnNoMemory;
- request->fArg0 = (void *) refcon;
- request->fArg1 = (void *) proc_selfpid();
- request->fArg2 = (void *) 0;
- submitPMRequest( request );
+ request->fArg0 = (void *) refcon;
+ request->fArg1 = (void *)(uintptr_t) proc_selfpid();
+ request->fArg2 = (void *) 0;
+ submitPMRequest( request );
- return kIOReturnSuccess;
+ return kIOReturnSuccess;
}
#ifndef __LP64__
-IOReturn IOService::serializedAllowPowerChange2 ( unsigned long refcon )
+IOReturn IOService::serializedAllowPowerChange2( unsigned long refcon )
{
- // [deprecated] public
- return kIOReturnUnsupported;
+ // [deprecated] public
+ return kIOReturnUnsupported;
}
#endif /* !__LP64__ */
// client to respond, we abandon the power change.
//*********************************************************************************
-IOReturn IOService::cancelPowerChange ( unsigned long refcon )
+IOReturn IOService::cancelPowerChange( unsigned long refcon )
{
- IOPMRequest * request;
- OSString * name;
+ IOPMRequest * request;
+ char name[128];
+ pid_t pid = proc_selfpid();
if ( !initialized )
{
return kIOReturnSuccess;
}
- name = IOCopyLogNameForPID(proc_selfpid());
- PM_ERROR("PM notification cancel (%s)\n", name ? name->getCStringNoCopy() : "");
+ 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)
+ request = acquirePMRequest( this, kIOPMRequestTypeCancelPowerChange );
+ if (!request)
{
- if (name)
- name->release();
return kIOReturnNoMemory;
}
- request->fArg0 = (void *) refcon;
- request->fArg1 = (void *) proc_selfpid();
- request->fArg2 = (void *) name;
+ request->fArg0 = (void *) refcon;
+ request->fArg1 = (void *)(uintptr_t) proc_selfpid();
+ request->fArg2 = (void *) OSString::withCString(name);
submitPMRequest( request );
return kIOReturnSuccess;
}
#ifndef __LP64__
-IOReturn IOService::serializedCancelPowerChange2 ( unsigned long refcon )
+IOReturn IOService::serializedCancelPowerChange2( unsigned long refcon )
{
- // [deprecated] public
- return kIOReturnUnsupported;
+ // [deprecated] public
+ return kIOReturnUnsupported;
}
//*********************************************************************************
// called when clamp timer expires...set power state to 0.
//*********************************************************************************
-void IOService::PM_Clamp_Timer_Expired ( void )
+void IOService::PM_Clamp_Timer_Expired( void )
{
}
// Set to highest available power state for a minimum of duration milliseconds
//*********************************************************************************
-void IOService::clampPowerOn ( unsigned long duration )
+void IOService::clampPowerOn( unsigned long duration )
{
}
#endif /* !__LP64__ */
-// MARK: -
-// MARK: Driver Overrides
-
//*********************************************************************************
-// [public] setPowerState
+// configurePowerStateReport
//
-// Does nothing here. This should be implemented in a subclass driver.
+// Configures the IOStateReport for kPMPowerStateChannel
//*********************************************************************************
-
-IOReturn IOService::setPowerState (
- unsigned long powerStateOrdinal, IOService * whatDevice )
+IOReturn IOService::configurePowerStatesReport( IOReportConfigureAction action, void *result )
{
- return IOPMNoErr;
-}
-//*********************************************************************************
-// [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.
-//*********************************************************************************
+ IOReturn rc = kIOReturnSuccess;
+ size_t reportSize;
+ unsigned long i;
+ uint64_t ts;
-unsigned long IOService::maxCapabilityForDomainState ( IOPMPowerFlags domainState )
-{
- int i;
+ if (!pwrMgt)
+ return kIOReturnUnsupported;
- if (fNumberOfPowerStates == 0 )
- {
- return 0;
- }
- for ( i = fNumberOfPowerStates - 1; i >= 0; i-- )
- {
- if ( (domainState & fPowerStates[i].inputPowerFlags) ==
- fPowerStates[i].inputPowerFlags )
- {
- return i;
- }
- }
- return 0;
-}
+ if (!fNumberOfPowerStates)
+ return kIOReturnSuccess; // For drivers which are in power plane, but haven't called registerPowerDriver()
+ PM_LOCK();
-//*********************************************************************************
-// [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.
-//*********************************************************************************
+ switch (action)
+ {
+ case kIOReportEnable:
+ if (fReportBuf)
+ {
+ fReportClientCnt++;
+ break;
+ }
+ reportSize = STATEREPORT_BUFSIZE(fNumberOfPowerStates);
+ fReportBuf = IOMalloc(reportSize);
+ if (!fReportBuf) {
+ rc = kIOReturnNoMemory;
+ break;
+ }
+ memset(fReportBuf, 0, reportSize);
-unsigned long IOService::initialPowerStateForDomainState ( IOPMPowerFlags domainState )
-{
- int i;
+ STATEREPORT_INIT(fNumberOfPowerStates, fReportBuf, reportSize,
+ getRegistryEntryID(), kPMPowerStatesChID, kIOReportCategoryPower);
- if (fNumberOfPowerStates == 0 )
- {
- return 0;
- }
- for ( i = fNumberOfPowerStates - 1; i >= 0; i-- )
- {
- if ( (domainState & fPowerStates[i].inputPowerFlags) ==
- fPowerStates[i].inputPowerFlags )
- {
- return i;
- }
+ 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;
}
- return 0;
+
+ PM_UNLOCK();
+
+ return rc;
}
//*********************************************************************************
-// [public] powerStateForDomainState
+// updatePowerStateReport
//
-// 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.
+// Updates the IOStateReport for kPMPowerStateChannel
//*********************************************************************************
-
-unsigned long IOService::powerStateForDomainState ( IOPMPowerFlags domainState )
+IOReturn IOService::updatePowerStatesReport( IOReportConfigureAction action, void *result, void *destination )
{
- int i;
+ 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);
+
+ 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;
+
+ case kIOReportGetDimensions:
+ SIMPLEREPORT_UPDATERES(kIOReportGetDimensions, result);
+ break;
+ }
+
+
+ return rc;
+}
+
+//*********************************************************************************
+// updateSimplePowerReport
+//
+// Updates the IOSimpleReport for the given chanel id
+//*********************************************************************************
+IOReturn IOService::updateSimplePowerReport( IOReportConfigureAction action, void *result, void *destination )
+{
+ 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 ( !fNumberOfPowerStates )
+ return rc;
+ PM_LOCK();
+
+ switch (action) {
+ case kIOReportCopyChannelData:
+
+ 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;
+
+
+ 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);
+
+ default:
+ break;
- if (fNumberOfPowerStates == 0 )
- {
- return 0;
}
- for ( i = fNumberOfPowerStates - 1; i >= 0; i-- )
+
+ PM_UNLOCK();
+
+ return kIOReturnSuccess;
+
+}
+
+
+
+// MARK: -
+// MARK: Driver Overrides
+
+//*********************************************************************************
+// [public] setPowerState
+//
+// Does nothing here. This should be implemented in a subclass driver.
+//*********************************************************************************
+
+IOReturn IOService::setPowerState(
+ unsigned long powerStateOrdinal, IOService * whatDevice )
+{
+ return IOPMNoErr;
+}
+
+//*********************************************************************************
+// [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.
+//*********************************************************************************
+
+IOPMPowerStateIndex IOService::getPowerStateForDomainFlags( IOPMPowerFlags flags )
+{
+ IOPMPowerStateIndex stateIndex;
+
+ if (!fNumberOfPowerStates)
+ return kPowerStateZero;
+
+ for ( int order = fNumberOfPowerStates - 1; order >= 0; order-- )
{
- if ( (domainState & fPowerStates[i].inputPowerFlags) ==
- fPowerStates[i].inputPowerFlags )
+ stateIndex = fPowerStates[order].stateOrderToIndex;
+
+ if ( (flags & fPowerStates[stateIndex].inputPowerFlags) ==
+ fPowerStates[stateIndex].inputPowerFlags )
{
- return i;
+ return stateIndex;
}
}
- return 0;
+ return kPowerStateZero;
+}
+
+unsigned long IOService::maxCapabilityForDomainState( IOPMPowerFlags domainState )
+{
+ return getPowerStateForDomainFlags(domainState);
+}
+
+//*********************************************************************************
+// [public] initialPowerStateForDomainState
+//
+// Called to query the power state for the initial power transition.
+//*********************************************************************************
+
+unsigned long IOService::initialPowerStateForDomainState( IOPMPowerFlags domainState )
+{
+ if (fResetPowerStateOnWake && (domainState & kIOPMRootDomainState))
+ {
+ // Return lowest power state for any root power domain changes
+ return kPowerStateZero;
+ }
+
+ return getPowerStateForDomainFlags(domainState);
+}
+
+//*********************************************************************************
+// [public] powerStateForDomainState
+//
+// This method is not called from PM.
+//*********************************************************************************
+
+unsigned long IOService::powerStateForDomainState( IOPMPowerFlags domainState )
+{
+ return getPowerStateForDomainFlags(domainState);
}
#ifndef __LP64__
// Does nothing here. This should be implemented in a subclass driver.
//*********************************************************************************
-bool IOService::didYouWakeSystem ( void )
+bool IOService::didYouWakeSystem( void )
{
return false;
}
// 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;
}
// 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;
}
// Does nothing here. This should be implemented in a subclass policy-maker.
//*********************************************************************************
-void IOService::powerChangeDone ( unsigned long )
+void IOService::powerChangeDone( unsigned long )
{
}
// 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;
}
void IOService::systemWillShutdown( IOOptionBits specifier )
{
- IOPMrootDomain * rootDomain = IOService::getPMRootDomain();
- if (rootDomain)
- rootDomain->acknowledgeSystemWillShutdown( this );
+ IOPMrootDomain * rootDomain = IOService::getPMRootDomain();
+ if (rootDomain)
+ rootDomain->acknowledgeSystemWillShutdown( this );
}
// MARK: -
IOService::acquirePMRequest( IOService * target, IOOptionBits requestType,
IOPMRequest * active )
{
- IOPMRequest * request;
+ IOPMRequest * request;
- assert(target);
+ assert(target);
- request = IOPMRequest::create();
- if (request)
- {
- request->init( target, requestType );
+ request = IOPMRequest::create();
+ if (request)
+ {
+ request->init( target, requestType );
if (active)
{
IOPMRequest * root = active->getRootRequest();
if (root) request->attachRootRequest(root);
}
}
- else
- {
+ else
+ {
PM_ERROR("%s: No memory for PM request type 0x%x\n",
target->getName(), (uint32_t) requestType);
- }
- return request;
+ }
+ return request;
}
//*********************************************************************************
void IOService::releasePMRequest( IOPMRequest * request )
{
- if (request)
- {
- request->reset();
- request->release();
- }
+ if (request)
+ {
+ request->reset();
+ request->release();
+ }
}
//*********************************************************************************
-// [private] submitPMRequest
+// [private static] submitPMRequest
//*********************************************************************************
void IOService::submitPMRequest( IOPMRequest * request )
{
- assert( request );
- assert( gIOPMReplyQueue );
- assert( gIOPMRequestQueue );
+ assert( request );
+ assert( gIOPMReplyQueue );
+ assert( gIOPMRequestQueue );
- PM_LOG1("[+ %02lx] %p [%p %s] %p %p %p\n",
- (long)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->isReplyType())
- gIOPMReplyQueue->queuePMRequest( request );
- else
- gIOPMRequestQueue->queuePMRequest( request );
+ if (request->isReplyType())
+ gIOPMReplyQueue->queuePMRequest( request );
+ 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 );
+ assert( requests );
+ assert( count > 0 );
+ assert( gIOPMRequestQueue );
- for (IOItemCount i = 0; i < count; i++)
- {
- IOPMRequest * req = requests[i];
- PM_LOG1("[+ %02lx] %p [%p %s] %p %p %p\n",
- (long)req->getType(), req,
- req->getTarget(), req->getTarget()->getName(),
- req->fArg0, req->fArg1, req->fArg2);
- }
+ for (IOItemCount i = 0; i < count; i++)
+ {
+ IOPMRequest * req = requests[i];
+ 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 );
+ gIOPMRequestQueue->queuePMRequestChain( requests, count );
}
//*********************************************************************************
-// [private] servicePMRequestQueue
+// [private] actionPMRequestQueue
//
-// Called from IOPMRequestQueue::checkForWork().
+// IOPMRequestQueue::checkForWork() passing a new request to the request target.
//*********************************************************************************
-bool IOService::servicePMRequestQueue(
- IOPMRequest * request,
- IOPMRequestQueue * queue )
+bool IOService::actionPMRequestQueue(
+ IOPMRequest * request,
+ IOPMRequestQueue * queue )
{
bool more;
if (initialized)
{
- // Work queue will immediately execute the queue'd request if possible.
- // If execution blocks, the work queue will wait for a producer signal.
- // Only need to signal more when completing attached requests.
+ // Work queue will immediately execute the request if the per-service
+ // request queue is empty. Note pwrMgt is the target's IOServicePM.
more = gIOPMWorkQueue->queuePMRequest(request, pwrMgt);
- return more;
}
+ else
+ {
+ // Calling PM without PMinit() is not allowed, fail the request.
+ // Need to signal more when completing attached requests.
- // Calling PM without PMinit() is not allowed, fail the request.
+ PM_LOG("%s: PM not initialized\n", getName());
+ PM_LOG1("[- %02x] %p [%p %s] !initialized\n",
+ request->getType(), OBFUSCATE(request),
+ OBFUSCATE(this), getName());
- PM_LOG("%s: PM not initialized\n", getName());
- fAdjustPowerScheduled = false;
- more = gIOPMFreeQueue->queuePMRequest(request);
- if (more) gIOPMWorkQueue->incrementProducerCount();
- return more;
+ more = gIOPMCompletionQueue->queuePMRequest(request);
+ if (more) gIOPMWorkQueue->incrementProducerCount();
+ }
+
+ return more;
}
//*********************************************************************************
-// [private] servicePMFreeQueue
+// [private] actionPMCompletionQueue
//
-// Called from IOPMCompletionQueue::checkForWork().
+// IOPMCompletionQueue::checkForWork() passing a completed request to the
+// request target.
//*********************************************************************************
-bool IOService::servicePMFreeQueue(
- IOPMRequest * request,
- IOPMCompletionQueue * queue )
+bool IOService::actionPMCompletionQueue(
+ IOPMRequest * request,
+ IOPMCompletionQueue * queue )
{
- bool more = request->getNextRequest();
+ bool more = (request->getNextRequest() != 0);
IOPMRequest * root = request->getRootRequest();
if (root && (root != request))
if (more)
gIOPMWorkQueue->incrementProducerCount();
- releasePMRequest( request );
- return more;
+ 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);
+ assert(request && queue);
- PM_LOG1("[- %02x] %p [%p %s] state %d, busy %d\n",
- request->getType(), request, this, getName(),
- fMachineState, gIOPMBusyCount);
+ 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) &&
- (request->fArg1 == (void *) false))
- {
- // Idle timer expiration - 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 fDeviceDesire > 0.
+ // Catch requests created by idleTimerExpired()
+ if (request->getType() == kIOPMRequestTypeActivityTickle)
+ {
+ uint32_t tickleFlags = (uint32_t)(uintptr_t) request->fArg1;
- if (fDeviceDesire > 0)
- {
- fActivityTickleCount = 0;
- clock_get_uptime(&fIdleTimerStartTime);
- start_PM_idle_timer();
- }
- else if (fHasAdvisoryDesire)
+ if ((tickleFlags & kTickleTypePowerDrop) && fIdleTimerPeriod)
{
- start_PM_idle_timer();
+ restartIdleTimer();
}
- else
+ else if (tickleFlags == (kTickleTypeActivity | kTickleTypePowerRise))
{
- fIdleTimerStopped = true;
+ // Invalidate any idle power drop that got queued while
+ // processing this request.
+ fIdleTimerGeneration++;
}
}
+
+ // When the completed request is linked, tell work queue there is
+ // more work pending.
- // If the request is linked, then Work queue has already incremented its
- // producer count.
-
- return (gIOPMFreeQueue->queuePMRequest( request ));
+ return (gIOPMCompletionQueue->queuePMRequest( request ));
}
//*********************************************************************************
// 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)
- break;
+ do {
+ if (kIOPM_Finished == fMachineState)
+ break;
- if (kIOPM_DriverThreadCallDone == fMachineState)
- {
+ if (kIOPM_DriverThreadCallDone == fMachineState)
+ {
// 5 = kDriverCallInformPreChange
// 6 = kDriverCallInformPostChange
// 7 = kDriverCallSetPowerState
- if (fDriverCallBusy)
+ // 8 = kRootDomainInformPreChange
+ if (fDriverCallBusy)
reason = 5 + fDriverCallReason;
- break;
- }
+ break;
+ }
- // Waiting on driver's setPowerState() timeout.
- if (fDriverTimer)
- {
- reason = 1; break;
- }
+ // Waiting on driver's setPowerState() timeout.
+ if (fDriverTimer)
+ {
+ reason = 1; break;
+ }
- // Child or interested driver acks pending.
- if (fHeadNotePendingAcks)
- {
- reason = 2; break;
- }
+ // Child or interested driver acks pending.
+ if (fHeadNotePendingAcks)
+ {
+ reason = 2; break;
+ }
- // Waiting on apps or priority power interest clients.
- if (fResponseArray)
- {
- reason = 3; break;
- }
+ // Waiting on apps or priority power interest clients.
+ if (fResponseArray)
+ {
+ reason = 3; break;
+ }
- // Waiting on settle timer expiration.
- if (fSettleTimeUS)
- {
- reason = 4; break;
- }
- } while (false);
+ // Waiting on settle timer expiration.
+ if (fSettleTimeUS)
+ {
+ reason = 4; break;
+ }
+ } while (false);
- fWaitReason = reason;
+ fWaitReason = reason;
- if (reason)
- {
- if (count)
- {
- PM_LOG1("[B %02x] %p [%p %s] state %d, 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;
- }
+ return true;
+ }
- return false;
+ return false;
}
//*********************************************************************************
-// [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);
+ assert(request && queue);
- while (isPMBlocked(request, loop++) == false)
- {
- PM_LOG1("[W %02x] %p [%p %s] state %d\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);
- gIOPMRequest = request;
- gIOPMWorkCount++;
+ gIOPMRequest = request;
+ gIOPMWorkInvokeCount++;
- // Every PM machine states must be handled in one of the cases below.
+ // 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();
+
+ executePMRequest( request );
+ break;
- case kIOPM_OurChangeTellClientsPowerDown:
+ case kIOPM_OurChangeTellClientsPowerDown:
// Root domain might self cancel due to assertions.
if (IS_ROOT_DOMAIN)
{
}
// askChangeDown() done, was it vetoed?
- if (!fDoNotPowerDown)
- {
- if (IS_ROOT_DOMAIN) {
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeAppNotificationsFinished,
- NULL,
- 0,
- 0);
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
- }
+ 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);
+ // yes, rescind the warning
+ tellNoChangeDown(fHeadNotePowerState);
+ // mark the change note un-actioned
+ fHeadNoteChangeFlags |= kIOPMNotDone;
+ // and we're done
+ OurChangeFinish();
+ }
+ break;
- // no, we can continue
- OurChangeTellClientsPowerDown();
- }
- else
- {
- if (IS_ROOT_DOMAIN) {
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeSleepDone,
- NULL,
- 1, /* reason: 1 == Ask clients succeeded */
- kIOReturnAborted); /* result */
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
- }
+ 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);
+ // yes, rescind the warning
+ tellNoChangeDown(fHeadNotePowerState);
+ // mark the change note un-actioned
+ fHeadNoteChangeFlags |= kIOPMNotDone;
+ // and we're done
+ OurChangeFinish();
+ }
+ else
+ OurChangeTellUserPMPolicyPowerDown();
+ break;
- OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState);
- PM_ERROR("%s: idle cancel\n", fName);
- // yes, rescind the warning
- tellNoChangeDown(fHeadNotePowerState);
- // mark the change note un-actioned
- fHeadNoteChangeFlags |= kIOPMNotDone;
- // and we're done
- OurChangeFinish();
- }
- break;
-
- case kIOPM_OurChangeTellPriorityClientsPowerDown:
- // tellChangeDown(kNotifyApps) done, was it cancelled?
- if (fDoNotPowerDown)
- {
- if (IS_ROOT_DOMAIN) {
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeSleepDone,
- NULL,
- 2, /* reason: 2 == Client cancelled wake */
- kIOReturnAborted); /* result */
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
- }
- OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState);
- PM_ERROR("%s: idle revert\n", fName);
- // 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
- {
- if (IS_ROOT_DOMAIN) {
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeAppNotificationsFinished,
- NULL,
- 2, /* reason: 2 == TellPriorityClientsDone */
- kIOReturnSuccess); /* result */
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
- }
- // yes, we can continue
- OurChangeTellPriorityClientsPowerDown();
- }
- 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_OurChangeNotifyInterestedDriversWillChange:
- OurChangeNotifyInterestedDriversWillChange();
- break;
+ case kIOPM_OurChangeNotifyInterestedDriversWillChange:
+ OurChangeNotifyInterestedDriversWillChange();
+ break;
- case kIOPM_OurChangeSetPowerState:
- OurChangeSetPowerState();
- break;
+ case kIOPM_OurChangeSetPowerState:
+ OurChangeSetPowerState();
+ break;
- case kIOPM_OurChangeWaitForPowerSettle:
- OurChangeWaitForPowerSettle();
- break;
+ case kIOPM_OurChangeWaitForPowerSettle:
+ OurChangeWaitForPowerSettle();
+ break;
- case kIOPM_OurChangeNotifyInterestedDriversDidChange:
- OurChangeNotifyInterestedDriversDidChange();
- break;
+ case kIOPM_OurChangeNotifyInterestedDriversDidChange:
+ OurChangeNotifyInterestedDriversDidChange();
+ break;
case kIOPM_OurChangeTellCapabilityDidChange:
OurChangeTellCapabilityDidChange();
break;
- case kIOPM_OurChangeFinish:
- OurChangeFinish();
- break;
+ case kIOPM_OurChangeFinish:
+ OurChangeFinish();
+ break;
- case kIOPM_ParentChangeTellPriorityClientsPowerDown:
- ParentChangeTellPriorityClientsPowerDown();
- break;
+ case kIOPM_ParentChangeTellPriorityClientsPowerDown:
+ ParentChangeTellPriorityClientsPowerDown();
+ break;
- case kIOPM_ParentChangeNotifyInterestedDriversWillChange:
- ParentChangeNotifyInterestedDriversWillChange();
- break;
+ case kIOPM_ParentChangeNotifyInterestedDriversWillChange:
+ ParentChangeNotifyInterestedDriversWillChange();
+ break;
- case kIOPM_ParentChangeSetPowerState:
- ParentChangeSetPowerState();
- break;
+ case kIOPM_ParentChangeSetPowerState:
+ ParentChangeSetPowerState();
+ break;
- case kIOPM_ParentChangeWaitForPowerSettle:
- ParentChangeWaitForPowerSettle();
- break;
+ case kIOPM_ParentChangeWaitForPowerSettle:
+ ParentChangeWaitForPowerSettle();
+ break;
- case kIOPM_ParentChangeNotifyInterestedDriversDidChange:
- ParentChangeNotifyInterestedDriversDidChange();
- break;
+ case kIOPM_ParentChangeNotifyInterestedDriversDidChange:
+ ParentChangeNotifyInterestedDriversDidChange();
+ break;
case kIOPM_ParentChangeTellCapabilityDidChange:
ParentChangeTellCapabilityDidChange();
break;
- case kIOPM_ParentChangeAcknowledgePowerChange:
- ParentChangeAcknowledgePowerChange();
- break;
+ case kIOPM_ParentChangeAcknowledgePowerChange:
+ ParentChangeAcknowledgePowerChange();
+ break;
- case kIOPM_DriverThreadCallDone:
- if (fDriverCallReason == kDriverCallSetPowerState)
- notifyControllingDriverDone();
- else
- notifyInterestedDriversDone();
- break;
+ case kIOPM_DriverThreadCallDone:
+ switch (fDriverCallReason)
+ {
+ case kDriverCallInformPreChange:
+ case kDriverCallInformPostChange:
+ notifyInterestedDriversDone();
+ break;
+ case kDriverCallSetPowerState:
+ notifyControllingDriverDone();
+ break;
+ case kRootDomainInformPreChange:
+ notifyRootDomainDone();
+ break;
+ default:
+ panic("%s: bad call reason %x",
+ getName(), fDriverCallReason);
+ }
+ break;
- case kIOPM_NotifyChildrenOrdered:
- notifyChildrenOrdered();
- break;
+ case kIOPM_NotifyChildrenOrdered:
+ notifyChildrenOrdered();
+ break;
- case kIOPM_NotifyChildrenDelayed:
- notifyChildrenDelayed();
- break;
+ case kIOPM_NotifyChildrenDelayed:
+ notifyChildrenDelayed();
+ break;
case kIOPM_NotifyChildrenStart:
- PM_LOG2("%s: kIOPM_NotifyChildrenStart done\n", getName());
- MS_POP(); // from notifyInterestedDriversDone()
- notifyChildren();
+ // pop notifyAll() state saved by notifyInterestedDriversDone()
+ MS_POP();
+ notifyRootDomain();
break;
case kIOPM_SyncTellClientsPowerDown:
getPMRootDomain()->askChangeDownDone(
&fHeadNoteChangeFlags, &cancel);
fDoNotPowerDown = cancel;
- }
- if (!fDoNotPowerDown)
- {
+ }
+ if (!fDoNotPowerDown)
+ {
fMachineState = kIOPM_SyncTellPriorityClientsPowerDown;
fOutOfBandParameter = kNotifyApps;
tellChangeDown(fHeadNotePowerState);
- }
- else
- {
- OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState);
- PM_ERROR("%s: idle cancel\n", fName);
- tellNoChangeDown(fHeadNotePowerState);
- fHeadNoteChangeFlags |= kIOPMNotDone;
- OurChangeFinish();
- }
+ }
+ 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:
- if (!fDoNotPowerDown)
- {
+ // 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\n", fName);
- tellChangeUp(fCurrentPowerState);
- fHeadNoteChangeFlags |= kIOPMNotDone;
- OurChangeFinish();
- }
- break;
+ 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)
fIsPreChange = false;
if (fHeadNoteChangeFlags & kIOPMParentInitiated)
+ {
fMachineState = kIOPM_SyncFinish;
+ }
else
+ {
+ assert(IS_ROOT_DOMAIN);
fMachineState = kIOPM_SyncTellCapabilityDidChange;
+ }
fDriverCallReason = kDriverCallInformPostChange;
notifyChildren();
tellClientsWithResponse( fOutOfBandMessage );
break;
- default:
- panic("servicePMWorkQueue: unknown machine state %x",
+ default:
+ panic("PMWorkQueueInvoke: unknown machine state %x",
fMachineState);
- }
+ }
- gIOPMRequest = 0;
+ gIOPMRequest = 0;
- if (fMachineState == kIOPM_Finished)
- {
- done = true;
- break;
- }
- }
+ if (fMachineState == kIOPM_Finished)
+ {
+ stop_watchdog_timer();
+ done = true;
+ break;
+ }
+ }
- return done;
+ return done;
}
//*********************************************************************************
void IOService::executePMRequest( IOPMRequest * request )
{
- assert( kIOPM_Finished == fMachineState );
+ 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:
- fAdjustPowerScheduled = false;
- adjustPowerState();
- break;
+ case kIOPMRequestTypeAdjustPowerState:
+ fAdjustPowerScheduled = false;
+ adjustPowerState();
+ break;
- case kIOPMRequestTypePowerDomainWillChange:
- handlePowerDomainWillChangeTo( request );
- break;
+ case kIOPMRequestTypePowerDomainWillChange:
+ handlePowerDomainWillChangeTo( request );
+ break;
- case kIOPMRequestTypePowerDomainDidChange:
- handlePowerDomainDidChangeTo( request );
- break;
+ case kIOPMRequestTypePowerDomainDidChange:
+ handlePowerDomainDidChangeTo( request );
+ break;
- case kIOPMRequestTypeRequestPowerState:
+ case kIOPMRequestTypeRequestPowerState:
case kIOPMRequestTypeRequestPowerStateOverride:
- handleRequestPowerState( request );
- break;
+ handleRequestPowerState( request );
+ break;
- case kIOPMRequestTypePowerOverrideOnPriv:
- case kIOPMRequestTypePowerOverrideOffPriv:
- handlePowerOverrideChanged( request );
- break;
+ case kIOPMRequestTypePowerOverrideOnPriv:
+ case kIOPMRequestTypePowerOverrideOffPriv:
+ handlePowerOverrideChanged( request );
+ break;
- case kIOPMRequestTypeActivityTickle:
- handleActivityTickle( request );
- break;
+ case kIOPMRequestTypeActivityTickle:
+ handleActivityTickle( request );
+ break;
case kIOPMRequestTypeSynchronizePowerTree:
- handleSynchronizePowerTree( request );
- break;
+ handleSynchronizePowerTree( request );
+ break;
case kIOPMRequestTypeSetIdleTimerPeriod:
{
fIdleTimerPeriod = (uintptr_t) request->fArg0;
-
+ fNextIdleTimerPeriod = fIdleTimerPeriod;
if ((false == fLockedFlags.PMStop) && (fIdleTimerPeriod > 0))
- {
- fActivityTickleCount = 0;
- clock_get_uptime(&fIdleTimerStartTime);
- start_PM_idle_timer();
- }
+ restartIdleTimer();
}
break;
fIdleTimerIgnored = request->fArg0 ? 1 : 0;
break;
- default:
- panic("executePMRequest: unknown request type %x", request->getType());
- }
+ case kIOPMRequestTypeQuiescePowerTree:
+ gIOPMWorkQueue->finishQuiesceRequest(request);
+ break;
+
+ default:
+ panic("executePMRequest: unknown request type %x", request->getType());
+ }
}
//*********************************************************************************
-// [private] servicePMReplyQueue
+// [private] actionPMReplyQueue
+//
+// IOPMRequestQueue::checkForWork() passing a reply-type request to the
+// request target.
//*********************************************************************************
-bool IOService::servicePMReplyQueue( IOPMRequest * request, IOPMRequestQueue * queue )
+bool IOService::actionPMReplyQueue( IOPMRequest * request, IOPMRequestQueue * queue )
{
- bool more = false;
+ bool more = false;
- assert( request && queue );
- assert( request->isReplyType() );
+ assert( request && queue );
+ assert( request->isReplyType() );
- PM_LOG1("[A %02x] %p [%p %s] state %d\n",
- request->getType(), request, this, getName(), fMachineState);
+ 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,
+ 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())
+ {
+ 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 ((fHeadNoteChangeFlags & kIOPMSkipAskPowerDown) == 0)
+ if ((fMachineState == kIOPM_OurChangeTellUserPMPolicyPowerDown)
+ || (fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown)
+ || ((fHeadNoteChangeFlags & kIOPMSkipAskPowerDown) == 0))
{
fDoNotPowerDown = true;
getPMRootDomain()->pmStatsRecordApplicationResponse(
gIOPMStatsApplicationResponseCancel,
name ? name->getCStringNoCopy() : "", 0,
- 0, (int)(uintptr_t) request->fArg1);
+ 0, (int)(uintptr_t) request->fArg1, 0);
}
}
- if (checkForDone())
- {
- stop_ack_timer();
+ if (checkForDone())
+ {
+ stop_ack_timer();
cleanClientResponses(false);
- more = true;
- }
- }
+ 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();
+ 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();
#if LOG_SETPOWER_TIMES
uint64_t nsec = computeTimeDeltaNS(&fDriverCallStartTime);
- if (nsec > LOG_SETPOWER_TIMES)
- PM_LOG("%s::setPowerState(%p, %lu -> %lu) async took %d ms\n",
- fName, this, fCurrentPowerState, fHeadNotePowerState, NS_TO_MS(nsec));
-
- PMEventDetails *details = PMEventDetails::eventDetails(
- kIOPMEventTypeSetPowerStateDelayed, // type
- fName, // who
- (uintptr_t)this, // owner unique
- NULL, // interest name
- (uint8_t)getPowerState(), // old
- (uint8_t)fHeadNotePowerState, // new
- 0, // result
- NS_TO_US(nsec)); // usec completion time
-
- getPMRootDomain()->recordAndReleasePMEventGated( details );
+ if (nsec > LOG_SETPOWER_TIMES) {
+ getPMRootDomain()->pmStatsRecordApplicationResponse(
+ gIOPMStatsDriverPSChangeSlow,
+ fName, kDriverCallSetPowerState, NS_TO_MS(nsec), 0, NULL, fHeadNotePowerState);
+ }
#endif
- 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_OurChangeTellPriorityClientsPowerDown)
+ 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);
+ {
+ OUR_PMLog(kPMLogIdleCancel, (uintptr_t) this, fMachineState);
PM_LOG2("%s: cancel from machine state %d\n",
getName(), fMachineState);
- fDoNotPowerDown = true;
+ fDoNotPowerDown = true;
// Stop waiting for app replys.
- if ((fMachineState == kIOPM_OurChangeTellPriorityClientsPowerDown) ||
- (fMachineState == kIOPM_SyncTellPriorityClientsPowerDown))
- cleanClientResponses(false);
- more = true;
- }
- break;
+ 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());
+ PM_LOG2("%s: delay notify cancelled\n", getName());
notifyChildrenDelayed();
}
break;
- default:
- panic("servicePMReplyQueue: unknown reply type %x",
- request->getType());
- }
+ default:
+ panic("PMReplyQueue: unknown reply type %x", request->getType());
+ }
- more |= gIOPMFreeQueue->queuePMRequest(request);
+ more |= gIOPMCompletionQueue->queuePMRequest(request);
if (more)
gIOPMWorkQueue->incrementProducerCount();
- return more;
+ return more;
}
//*********************************************************************************
{
goto fail;
}
-
+
if (((options & kIOPMADC_NoInactiveCheck) == 0) && isInactive())
{
goto fail;
}
continue;
}
-
+
wait = true;
break;
}
const char * IOService::getIOMessageString( uint32_t msg )
{
-#define MSG_ENTRY(x) {x, #x}
+#define MSG_ENTRY(x) {(int) x, #x}
- static const IONamedValue msgNames[] = {
+ static const IONamedValue msgNames[] = {
MSG_ENTRY( kIOMessageCanDevicePowerOff ),
MSG_ENTRY( kIOMessageDeviceWillPowerOff ),
MSG_ENTRY( kIOMessageDeviceWillNotPowerOff ),
MSG_ENTRY( kIOMessageSystemHasPoweredOn ),
MSG_ENTRY( kIOMessageSystemWillRestart ),
MSG_ENTRY( kIOMessageSystemWillPowerOn ),
- MSG_ENTRY( kIOMessageSystemCapabilityChange )
+ MSG_ENTRY( kIOMessageSystemCapabilityChange ),
+ MSG_ENTRY( kIOPMMessageLastCallBeforeSleep )
};
return IOFindNameForValue(msg, msgNames);
}
+
// MARK: -
// MARK: IOPMRequest
IOPMRequest * IOPMRequest::create( void )
{
- IOPMRequest * me = OSTypeAlloc(IOPMRequest);
- if (me && !me->init(0, kIOPMRequestTypeInvalid))
- {
- me->release();
- me = 0;
- }
- return me;
+ IOPMRequest * me = OSTypeAlloc(IOPMRequest);
+ if (me && !me->init(0, kIOPMRequestTypeInvalid))
+ {
+ me->release();
+ me = 0;
+ }
+ return me;
}
bool IOPMRequest::init( IOService * target, IOOptionBits type )
{
- if (!IOCommand::init())
- return false;
+ if (!IOCommand::init())
+ return false;
+
+ fRequestType = type;
+ fTarget = target;
+
+ if (fTarget)
+ fTarget->retain();
- fType = type;
- fTarget = target;
- fCompletionStatus = kIOReturnSuccess;
+ // Root node and root domain requests does not prevent the power tree from
+ // becoming quiescent.
- if (fTarget)
- fTarget->retain();
+ fIsQuiesceBlocker = ((fTarget != gIOPMRootNode) &&
+ (fTarget != IOService::getPMRootDomain()));
- return true;
+ return true;
}
void IOPMRequest::reset( void )
{
- assert( fWorkWaitCount == 0 );
- assert( fFreeWaitCount == 0 );
+ assert( fWorkWaitCount == 0 );
+ assert( fFreeWaitCount == 0 );
- detachNextRequest();
+ detachNextRequest();
detachRootRequest();
- fType = kIOPMRequestTypeInvalid;
-
- if (fCompletionAction)
- {
- fCompletionAction(fCompletionTarget, fCompletionParam, fCompletionStatus);
+ if (fCompletionAction && (fRequestType == kIOPMRequestTypeQuiescePowerTree))
+ {
+ // Call the completion on PM work loop context
+ fCompletionAction(fCompletionTarget, fCompletionParam);
+ fCompletionAction = 0;
}
- if (fTarget)
- {
- fTarget->release();
- fTarget = 0;
- }
+ fRequestType = kIOPMRequestTypeInvalid;
+
+ if (fTarget)
+ {
+ fTarget->release();
+ fTarget = 0;
+ }
}
bool IOPMRequest::attachNextRequest( IOPMRequest * next )
fRequestNext = next;
fRequestNext->fWorkWaitCount++;
#if LOG_REQUEST_ATTACH
- kprintf("Attached next: %p [0x%x] -> %p [0x%x, %u] %s\n",
- this, (uint32_t) fType, fRequestNext,
- (uint32_t) fRequestNext->fType,
+ 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
if (fRequestNext->fWorkWaitCount)
fRequestNext->fWorkWaitCount--;
#if LOG_REQUEST_ATTACH
- kprintf("Detached next: %p [0x%x] -> %p [0x%x, %u] %s\n",
- this, (uint32_t) fType, fRequestNext,
- (uint32_t) fRequestNext->fType,
+ 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
fRequestRoot = root;
fRequestRoot->fFreeWaitCount++;
#if LOG_REQUEST_ATTACH
- kprintf("Attached root: %p [0x%x] -> %p [0x%x, %u] %s\n",
- this, (uint32_t) fType, fRequestRoot,
+ 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());
if (fRequestRoot->fFreeWaitCount)
fRequestRoot->fFreeWaitCount--;
#if LOG_REQUEST_ATTACH
- kprintf("Detached root: %p [0x%x] -> %p [0x%x, %u] %s\n",
- this, (uint32_t) fType, fRequestRoot,
+ 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());
IOPMRequestQueue * IOPMRequestQueue::create( IOService * inOwner, Action inAction )
{
- IOPMRequestQueue * me = OSTypeAlloc(IOPMRequestQueue);
- if (me && !me->init(inOwner, inAction))
- {
- me->release();
- me = 0;
- }
- return me;
+ IOPMRequestQueue * me = OSTypeAlloc(IOPMRequestQueue);
+ if (me && !me->init(inOwner, inAction))
+ {
+ me->release();
+ me = 0;
+ }
+ return me;
}
bool IOPMRequestQueue::init( IOService * inOwner, Action inAction )
{
- if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction))
+ if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction))
return false;
- queue_init(&fQueue);
- fLock = IOLockAlloc();
- return (fLock != 0);
+ queue_init(&fQueue);
+ fLock = IOLockAlloc();
+ return (fLock != 0);
}
void IOPMRequestQueue::free( void )
{
- if (fLock)
- {
- IOLockFree(fLock);
- fLock = 0;
- }
- return IOEventSource::free();
+ if (fLock)
+ {
+ IOLockFree(fLock);
+ fLock = 0;
+ }
+ return IOEventSource::free();
}
void IOPMRequestQueue::queuePMRequest( IOPMRequest * request )
{
- assert(request);
- IOLockLock(fLock);
- queue_enter(&fQueue, request, IOPMRequest *, fCommandChain);
- IOLockUnlock(fLock);
- if (workLoop) signalWorkAvailable();
+ assert(request);
+ IOLockLock(fLock);
+ queue_enter(&fQueue, request, typeof(request), fCommandChain);
+ IOLockUnlock(fLock);
+ if (workLoop) signalWorkAvailable();
}
void
IOPMRequestQueue::queuePMRequestChain( IOPMRequest ** requests, IOItemCount count )
{
- IOPMRequest * next;
+ IOPMRequest * next;
- assert(requests && count);
- IOLockLock(fLock);
- while (count--)
- {
- next = *requests;
- requests++;
- queue_enter(&fQueue, next, IOPMRequest *, fCommandChain);
- }
- IOLockUnlock(fLock);
- if (workLoop) signalWorkAvailable();
+ assert(requests && count);
+ IOLockLock(fLock);
+ while (count--)
+ {
+ next = *requests;
+ requests++;
+ queue_enter(&fQueue, next, typeof(next), fCommandChain);
+ }
+ IOLockUnlock(fLock);
+ if (workLoop) signalWorkAvailable();
}
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 );
+ IOLockLock( fLock );
- while (!queue_empty(&fQueue))
- {
- queue_remove_first( &fQueue, request, IOPMRequest *, fCommandChain );
- IOLockUnlock( fLock );
- target = request->getTarget();
- assert(target);
- more |= (*dqAction)( target, request, this );
- IOLockLock( 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 );
+ IOLockLock( fLock );
+ }
- IOLockUnlock( fLock );
- return more;
+ IOLockUnlock( fLock );
+ return more;
}
// MARK: -
//*********************************************************************************
// IOPMWorkQueue Class
//
-// Queue of IOServicePM objects with busy IOPMRequest(s).
+// 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))
- {
- me->release();
- me = 0;
- }
- return me;
+ IOPMWorkQueue * me = OSTypeAlloc(IOPMWorkQueue);
+ if (me && !me->init(inOwner, invoke, retire))
+ {
+ me->release();
+ me = 0;
+ }
+ 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))
- return false;
+ if (!invoke || !retire ||
+ !IOEventSource::init(inOwner, (IOEventSourceAction)0))
+ return false;
- queue_init(&fWorkQueue);
+ queue_init(&fWorkQueue);
- fWorkAction = work;
- fRetireAction = retire;
+ fInvokeAction = invoke;
+ fRetireAction = retire;
fConsumerCount = fProducerCount = 0;
- return true;
+ return true;
}
bool IOPMWorkQueue::queuePMRequest( IOPMRequest * request, IOServicePM * pwrMgt )
{
- bool more = false;
- bool empty;
+ queue_head_t * requestQueue;
+ bool more = false;
+ bool empty;
- assert( request );
+ assert( request );
assert( pwrMgt );
- assert( onThread() );
+ assert( onThread() );
assert( queue_next(&request->fCommandChain) ==
queue_prev(&request->fCommandChain) );
- gIOPMBusyCount++;
+ 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.
- empty = queue_empty(&pwrMgt->RequestHead);
- queue_enter(&pwrMgt->RequestHead, request, IOPMRequest *, fCommandChain);
+ requestQueue = &pwrMgt->RequestHead;
+ empty = queue_empty(requestQueue);
+ queue_enter(requestQueue, request, typeof(request), fCommandChain);
if (empty)
{
- more = checkRequestQueue(&pwrMgt->RequestHead, &empty);
+ more = checkRequestQueue(requestQueue, &empty);
if (!empty)
{
- // New Request is blocked, add IOServicePM to work queue.
+ // 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, IOServicePM *, WorkChain);
+ queue_enter(&fWorkQueue, pwrMgt, typeof(pwrMgt), WorkChain);
fQueueLength++;
PM_LOG3("IOPMWorkQueue: [%u] added %s@%p to queue\n",
- fQueueLength, pwrMgt->Name, pwrMgt);
+ fQueueLength, pwrMgt->Name, OBFUSCATE(pwrMgt));
}
}
return more;
}
-bool IOPMWorkQueue::checkRequestQueue( queue_head_t * queue, bool * empty )
+bool IOPMWorkQueue::checkRequestQueue( queue_head_t * requestQueue, bool * empty )
{
- IOPMRequest * request;
- IOService * target;
+ IOPMRequest * request;
+ IOService * target;
bool more = false;
- bool done = false;
+ bool done = false;
- assert(!queue_empty(queue));
+ assert(!queue_empty(requestQueue));
do {
- request = (IOPMRequest *) queue_first(queue);
- if (request->isWorkBlocked())
- break; // cannot start, blocked on attached request
+ request = (typeof(request)) queue_first(requestQueue);
+ if (request->isWorkBlocked())
+ break; // request dispatch blocked on attached request
- target = request->getTarget();
- done = (*fWorkAction)( target, request, this );
- if (!done)
- break; // work started, blocked on PM state machine
+ 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--;
- assert(gIOPMBusyCount > 0);
- if (gIOPMBusyCount)
- gIOPMBusyCount--;
+ if (request == fQuiesceRequest)
+ {
+ fQuiesceRequest = 0;
+ }
- queue_remove_first(queue, request, IOPMRequest *, fCommandChain);
+ queue_remove_first(requestQueue, request, typeof(request), fCommandChain);
more |= (*fRetireAction)( target, request, this );
- done = queue_empty(queue);
+ done = queue_empty(requestQueue);
} while (!done);
*empty = done;
if (more)
{
- // Retired request blocks another request, since the
- // blocked request may reside in the work queue, we
- // must bump the producer count to avoid work stall.
+ // Retired a request that may unblock a previously visited request
+ // that is still waiting on the work queue. Must trigger another
+ // queue check.
fProducerCount++;
}
bool IOPMWorkQueue::checkForWork( void )
{
- IOServicePM * entry;
- IOServicePM * next;
- bool more = false;
+ IOServicePM * entry;
+ IOServicePM * next;
+ bool more = false;
bool empty;
#if WORK_QUEUE_STATS
fStatCheckForWork++;
#endif
- // Each producer signal triggers a full iteration over
- // all IOServicePM entries in the work queue.
+ // Iterate over all IOServicePM entries in the work queue,
+ // and check each entry's request queue.
while (fConsumerCount != fProducerCount)
{
fConsumerCount = fProducerCount;
-#if WORK_QUEUE_STATS
+#if WORK_QUEUE_STATS
if (queue_empty(&fWorkQueue))
{
fStatQueueEmpty++;
break;
}
fStatScanEntries++;
- uint32_t cachedWorkCount = gIOPMWorkCount;
+ uint32_t cachedWorkCount = gIOPMWorkInvokeCount;
#endif
- entry = (IOServicePM *) queue_first(&fWorkQueue);
+ __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.
- next = (IOServicePM *) queue_next(&entry->WorkChain);
+ __IGNORE_WCASTALIGN(next = (typeof(next)) queue_next(&entry->WorkChain));
- // if request queue is empty, remove IOServicePM from queue.
+ // 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, entry);
- queue_remove(&fWorkQueue, entry, IOServicePM *, WorkChain);
+ fQueueLength, entry->Name, OBFUSCATE(entry));
+ queue_remove(&fWorkQueue, entry, typeof(entry), WorkChain);
}
entry = next;
}
#if WORK_QUEUE_STATS
- if (cachedWorkCount == gIOPMWorkCount)
+ if (cachedWorkCount == gIOPMWorkInvokeCount)
fStatNoWorkDone++;
#endif
}
void IOPMWorkQueue::signalWorkAvailable( void )
{
fProducerCount++;
- IOEventSource::signalWorkAvailable();
+ IOEventSource::signalWorkAvailable();
}
void IOPMWorkQueue::incrementProducerCount( void )
fProducerCount++;
}
+void IOPMWorkQueue::attachQuiesceRequest( IOPMRequest * quiesceRequest )
+{
+ IOServicePM * entry;
+ IOPMRequest * request;
+
+ if (queue_empty(&fWorkQueue))
+ {
+ return;
+ }
+
+ queue_iterate(&fWorkQueue, entry, typeof(entry), WorkChain)
+ {
+ 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);
+ }
+ }
+ }
+}
+
+void IOPMWorkQueue::finishQuiesceRequest( IOPMRequest * quiesceRequest )
+{
+ if (fQuiesceRequest && (quiesceRequest == fQuiesceRequest) &&
+ (fQuiesceStartTime != 0))
+ {
+ fInvokeAction = 0;
+ fQuiesceFinishTime = mach_absolute_time();
+ }
+}
+
// MARK: -
// MARK: IOPMCompletionQueue
IOPMCompletionQueue *
IOPMCompletionQueue::create( IOService * inOwner, Action inAction )
{
- IOPMCompletionQueue * me = OSTypeAlloc(IOPMCompletionQueue);
- if (me && !me->init(inOwner, inAction))
- {
- me->release();
- me = 0;
- }
- return me;
+ IOPMCompletionQueue * me = OSTypeAlloc(IOPMCompletionQueue);
+ if (me && !me->init(inOwner, inAction))
+ {
+ me->release();
+ me = 0;
+ }
+ return me;
}
bool IOPMCompletionQueue::init( IOService * inOwner, Action inAction )
{
- if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction))
+ if (!inAction || !IOEventSource::init(inOwner, (IOEventSourceAction)inAction))
return false;
- queue_init(&fQueue);
- return true;
+ queue_init(&fQueue);
+ return true;
}
bool IOPMCompletionQueue::queuePMRequest( IOPMRequest * request )
{
bool more;
- assert(request);
+ assert(request);
// unblock dependent request
more = request->detachNextRequest();
- queue_enter(&fQueue, request, IOPMRequest *, fCommandChain);
+ 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;
+ Action dqAction = (Action) action;
+ IOPMRequest * request;
+ IOPMRequest * next;
+ IOService * target;
+ bool more = false;
- request = (IOPMRequest *) queue_first(&fQueue);
+ request = (typeof(request)) queue_first(&fQueue);
while (!queue_end(&fQueue, (queue_entry_t) request))
{
- next = (IOPMRequest *) queue_next(&request->fCommandChain);
- if (!request->isFreeBlocked())
+ next = (typeof(next)) queue_next(&request->fCommandChain);
+ if (!request->isFreeBlocked())
{
- queue_remove(&fQueue, request, IOPMRequest *, fCommandChain);
+ queue_remove(&fQueue, request, typeof(request), fCommandChain);
target = request->getTarget();
assert(target);
more |= (*dqAction)( target, request, this );
}
}
-IOReturn IOServicePM::gatedSerialize( OSSerialize * s )
+IOReturn IOServicePM::gatedSerialize( OSSerialize * s ) const
{
- OSDictionary * dict;
- bool ok = false;
- int dictSize = 5;
+ OSDictionary * dict;
+ bool ok = false;
+ int powerClamp = -1;
+ int dictSize = 6;
+
+ if (IdleTimerPeriod)
+ dictSize += 4;
- 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)
else
dict = OSDictionary::withCapacity(dictSize);
- if (dict)
- {
+ if (dict)
+ {
setPMProperty(dict, "CurrentPowerState", CurrentPowerState);
+ setPMProperty(dict, "CapabilityFlags", CurrentCapabilityFlags);
if (NumberOfPowerStates)
setPMProperty(dict, "MaxPowerState", NumberOfPowerStates-1);
if (DesiredPowerState != CurrentPowerState)
setPMProperty(dict, "MachineState", MachineState);
if (DeviceOverrideEnabled)
dict->setObject("PowerOverrideOn", kOSBooleanTrue);
+ if (powerClamp >= 0)
+ setPMProperty(dict, "PowerClamp", powerClamp);
- if (IdleTimerPeriod)
- {
+ if (IdleTimerPeriod)
+ {
AbsoluteTime now;
AbsoluteTime delta;
uint64_t nsecs;
clock_get_uptime(&now);
- // The idle timer period in milliseconds.
- setPMProperty(dict, "IdleTimerPeriod", IdleTimerPeriod * 1000ULL);
+ // The idle timer period in milliseconds
+ setPMProperty(dict, "IdleTimerPeriod", NextIdleTimerPeriod * 1000ULL);
- // The number of activity tickles recorded since device idle
+ // Number of tickles since the last idle timer expiration
setPMProperty(dict, "ActivityTickles", ActivityTickleCount);
if (AbsoluteTime_to_scalar(&DeviceActiveTimestamp))
{
- // The number of milliseconds since the last activity tickle.
+ // 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 (AbsoluteTime_to_scalar(&IdleTimerStartTime))
+ if (!IdleTimerStopped && AbsoluteTime_to_scalar(&IdleTimerStartTime))
{
- // The number of milliseconds since the last device idle.
+ // Idle timer elapsed time in milliseconds
delta = now;
SUB_ABSOLUTETIME(&delta, &IdleTimerStartTime);
absolutetime_to_nanoseconds(delta, &nsecs);
- setPMProperty(dict, "TimeSinceDeviceIdle", NS_TO_MS(nsecs));
+ setPMProperty(dict, "IdleTimerElapsedTime", NS_TO_MS(nsecs));
}
- }
+ }
#if WORK_QUEUE_STATS
if (gIOPMRootNode == Owner)
dict->removeObject(gIOPMPowerClientAdvisoryTickle);
}
- ok = dict->serialize(s);
- dict->release();
- }
+ ok = dict->serialize(s);
+ dict->release();
+ }
- return (ok ? kIOReturnSuccess : kIOReturnNoMemory);
+ return (ok ? kIOReturnSuccess : kIOReturnNoMemory);
}
bool IOServicePM::serialize( OSSerialize * s ) const
{
IOReturn ret = kIOReturnNotReady;
- if (gIOPMWorkLoop)
- {
- ret = gIOPMWorkLoop->runAction(
+ 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);
}
-PMEventDetails* PMEventDetails::eventDetails(uint32_t type,
- const char *ownerName,
- uintptr_t ownerUnique,
- const char *interestName,
- uint8_t oldState,
- uint8_t newState,
- uint32_t result,
- uint32_t elapsedTimeUS) {
-
- PMEventDetails *myself;
- myself = new PMEventDetails;
-
- if(myself) {
- myself->eventType = type;
- myself->ownerName = ownerName;
- myself->ownerUnique = ownerUnique;
- myself->interestName = interestName;
- myself->oldState = oldState;
- myself->newState = newState;
- myself->result = result;
- myself->elapsedTimeUS = elapsedTimeUS;
-
- myself->eventClassifier = kIOPMEventClassDriverEvent;
- }
-
- return myself;
-}
-
-
-PMEventDetails* PMEventDetails::eventDetails(uint32_t type,
- const char *uuid,
- uint32_t reason,
- uint32_t result) {
-
- PMEventDetails *myself;
- myself = new PMEventDetails;
-
- if(myself) {
- myself->eventType = type;
- myself->uuid = uuid;
- myself->reason = reason;
- myself->result = result;
-
- myself->eventClassifier = kIOPMEventClassSystemEvent;
- }
-
- return myself;
+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,
+ uintptr_t param1,
+ uintptr_t param2 ) const
+{
+ const char * who = Name;
+ uint64_t regId = Owner->getRegistryEntryID();
+ uintptr_t name = 0;
+
+ static const uint32_t sStartStopBitField[] =
+ { 0x00000000, 0x00000040 }; // Only Program Hardware so far
+
+ // Arcane formula from Hacker's Delight by Warren
+ // abs(x) = ((int) x >> 31) ^ (x + ((int) x >> 31))
+ uint32_t sgnevent = ((int) event >> 31);
+ uint32_t absevent = sgnevent ^ (event + sgnevent);
+ uint32_t code = IODBG_POWER(absevent);
+
+ uint32_t bit = 1 << (absevent & 0x1f);
+ if ((absevent < (sizeof(sStartStopBitField) * 8)) &&
+ (sStartStopBitField[absevent >> 5] & bit))
+ {
+ // Or in the START or END bits, Start = 1 & END = 2
+ // If sgnevent == 0 then START - 0 => START
+ // else if sgnevent == -1 then START - -1 => END
+ code |= DBG_FUNC_START - sgnevent;
+ }
+
+ // Copy the first characters of the name into an uintptr_t
+ for (uint32_t i = 0; (i < sizeof(uintptr_t) && who[i] != 0); i++)
+ {
+ ((char *) &name)[sizeof(uintptr_t) - i - 1] = who[i];
+ }
+
+ IOTimeStampConstant(code, name, (uintptr_t) regId, param1, param2);
}